/**
* plotly.js v1.41.3
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
* Licensed under the MIT license
*/
(function(f){if(typeof exports==="object"&&typeof module!=="undefined"){module.exports=f()}else if(typeof define==="function"&&define.amd){define([],f)}else{var g;if(typeof window!=="undefined"){g=window}else if(typeof global!=="undefined"){g=global}else if(typeof self!=="undefined"){g=self}else{g=this}g.Plotly = f()}})(function(){var define,module,exports;return (function(){function r(e,n,t){function o(i,f){if(!n[i]){if(!e[i]){var c="function"==typeof require&&require;if(!f&&c)return c(i,!0);if(u)return u(i,!0);var a=new Error("Cannot find module '"+i+"'");throw a.code="MODULE_NOT_FOUND",a}var p=n[i]={exports:{}};e[i][0].call(p.exports,function(r){var n=e[i][1][r];return o(n||r)},p,p.exports,r,e,n,t)}return n[i].exports}for(var u="function"==typeof require&&require,i=0;i<t.length;i++)o(t[i]);return o}return r})()({1:[function(_dereq_,module,exports){
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},{}],3:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/transforms/aggregate');
},{"../src/transforms/aggregate":1144}],4:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/bar');
},{"../src/traces/bar":840}],5:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/barpolar');
},{"../src/traces/barpolar":852}],6:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/box');
},{"../src/traces/box":862}],7:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/components/calendars');
},{"../src/components/calendars":565}],8:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/candlestick');
},{"../src/traces/candlestick":871}],9:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/carpet');
},{"../src/traces/carpet":890}],10:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/choropleth');
},{"../src/traces/choropleth":904}],11:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/cone');
},{"../src/traces/cone":912}],12:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/contour');
},{"../src/traces/contour":927}],13:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/contourcarpet');
},{"../src/traces/contourcarpet":938}],14:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/core');
},{"../src/core":672}],15:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/transforms/filter');
},{"../src/transforms/filter":1145}],16:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/transforms/groupby');
},{"../src/transforms/groupby":1146}],17:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/heatmap');
},{"../src/traces/heatmap":950}],18:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/heatmapgl');
},{"../src/traces/heatmapgl":960}],19:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/histogram');
},{"../src/traces/histogram":971}],20:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/histogram2d');
},{"../src/traces/histogram2d":977}],21:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/histogram2dcontour');
},{"../src/traces/histogram2dcontour":981}],22:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Plotly = _dereq_('./core');
// traces
Plotly.register([
_dereq_('./bar'),
_dereq_('./box'),
_dereq_('./heatmap'),
_dereq_('./histogram'),
_dereq_('./histogram2d'),
_dereq_('./histogram2dcontour'),
_dereq_('./pie'),
_dereq_('./contour'),
_dereq_('./scatterternary'),
_dereq_('./violin'),
_dereq_('./scatter3d'),
_dereq_('./surface'),
_dereq_('./mesh3d'),
_dereq_('./cone'),
_dereq_('./streamtube'),
_dereq_('./scattergeo'),
_dereq_('./choropleth'),
_dereq_('./scattergl'),
_dereq_('./splom'),
_dereq_('./pointcloud'),
_dereq_('./heatmapgl'),
_dereq_('./parcoords'),
_dereq_('./scattermapbox'),
_dereq_('./sankey'),
_dereq_('./table'),
_dereq_('./carpet'),
_dereq_('./scattercarpet'),
_dereq_('./contourcarpet'),
_dereq_('./ohlc'),
_dereq_('./candlestick'),
_dereq_('./scatterpolar'),
_dereq_('./scatterpolargl'),
_dereq_('./barpolar')
]);
// transforms
//
// Please note that all *transform* methods are executed before
// all *calcTransform* methods - which could possibly lead to
// unexpected results when applying multiple transforms of different types
// to a given trace.
//
// For more info, see:
// https://github.com/plotly/plotly.js/pull/978#pullrequestreview-2403353
//
Plotly.register([
_dereq_('./aggregate'),
_dereq_('./filter'),
_dereq_('./groupby'),
_dereq_('./sort')
]);
// components
Plotly.register([
_dereq_('./calendars')
]);
module.exports = Plotly;
},{"./aggregate":3,"./bar":4,"./barpolar":5,"./box":6,"./calendars":7,"./candlestick":8,"./carpet":9,"./choropleth":10,"./cone":11,"./contour":12,"./contourcarpet":13,"./core":14,"./filter":15,"./groupby":16,"./heatmap":17,"./heatmapgl":18,"./histogram":19,"./histogram2d":20,"./histogram2dcontour":21,"./mesh3d":23,"./ohlc":24,"./parcoords":25,"./pie":26,"./pointcloud":27,"./sankey":28,"./scatter3d":29,"./scattercarpet":30,"./scattergeo":31,"./scattergl":32,"./scattermapbox":33,"./scatterpolar":34,"./scatterpolargl":35,"./scatterternary":36,"./sort":37,"./splom":38,"./streamtube":39,"./surface":40,"./table":41,"./violin":42}],23:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/mesh3d');
},{"../src/traces/mesh3d":986}],24:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/ohlc');
},{"../src/traces/ohlc":991}],25:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/parcoords');
},{"../src/traces/parcoords":1002}],26:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/pie');
},{"../src/traces/pie":1013}],27:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/pointcloud');
},{"../src/traces/pointcloud":1022}],28:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/sankey');
},{"../src/traces/sankey":1028}],29:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/scatter3d');
},{"../src/traces/scatter3d":1064}],30:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/scattercarpet');
},{"../src/traces/scattercarpet":1070}],31:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/scattergeo');
},{"../src/traces/scattergeo":1077}],32:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/scattergl');
},{"../src/traces/scattergl":1085}],33:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/scattermapbox');
},{"../src/traces/scattermapbox":1091}],34:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/scatterpolar');
},{"../src/traces/scatterpolar":1098}],35:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/scatterpolargl');
},{"../src/traces/scatterpolargl":1102}],36:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/scatterternary');
},{"../src/traces/scatterternary":1108}],37:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/transforms/sort');
},{"../src/transforms/sort":1148}],38:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/splom');
},{"../src/traces/splom":1113}],39:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/streamtube');
},{"../src/traces/streamtube":1118}],40:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/surface');
},{"../src/traces/surface":1123}],41:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/table');
},{"../src/traces/table":1131}],42:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = _dereq_('../src/traces/violin');
},{"../src/traces/violin":1139}],43:[function(_dereq_,module,exports){
'use strict'
module.exports = createCamera
var now = _dereq_('right-now')
var createView = _dereq_('3d-view')
var mouseChange = _dereq_('mouse-change')
var mouseWheel = _dereq_('mouse-wheel')
var mouseOffset = _dereq_('mouse-event-offset')
var hasPassive = _dereq_('has-passive-events')
function createCamera(element, options) {
element = element || document.body
options = options || {}
var limits = [ 0.01, Infinity ]
if('distanceLimits' in options) {
limits[0] = options.distanceLimits[0]
limits[1] = options.distanceLimits[1]
}
if('zoomMin' in options) {
limits[0] = options.zoomMin
}
if('zoomMax' in options) {
limits[1] = options.zoomMax
}
var view = createView({
center: options.center || [0,0,0],
up: options.up || [0,1,0],
eye: options.eye || [0,0,10],
mode: options.mode || 'orbit',
distanceLimits: limits
})
var pmatrix = [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]
var distance = 0.0
var width = element.clientWidth
var height = element.clientHeight
var camera = {
view: view,
element: element,
delay: options.delay || 16,
rotateSpeed: options.rotateSpeed || 1,
zoomSpeed: options.zoomSpeed || 1,
translateSpeed: options.translateSpeed || 1,
flipX: !!options.flipX,
flipY: !!options.flipY,
modes: view.modes,
tick: function() {
var t = now()
var delay = this.delay
view.idle(t-delay)
view.flush(t-(100+delay*2))
var ctime = t - 2 * delay
view.recalcMatrix(ctime)
var allEqual = true
var matrix = view.computedMatrix
for(var i=0; i<16; ++i) {
allEqual = allEqual && (pmatrix[i] === matrix[i])
pmatrix[i] = matrix[i]
}
var sizeChanged =
element.clientWidth === width &&
element.clientHeight === height
width = element.clientWidth
height = element.clientHeight
if(allEqual) {
return !sizeChanged
}
distance = Math.exp(view.computedRadius[0])
return true
},
lookAt: function(center, eye, up) {
view.lookAt(view.lastT(), center, eye, up)
},
rotate: function(pitch, yaw, roll) {
view.rotate(view.lastT(), pitch, yaw, roll)
},
pan: function(dx, dy, dz) {
view.pan(view.lastT(), dx, dy, dz)
},
translate: function(dx, dy, dz) {
view.translate(view.lastT(), dx, dy, dz)
}
}
Object.defineProperties(camera, {
matrix: {
get: function() {
return view.computedMatrix
},
set: function(mat) {
view.setMatrix(view.lastT(), mat)
return view.computedMatrix
},
enumerable: true
},
mode: {
get: function() {
return view.getMode()
},
set: function(mode) {
view.setMode(mode)
return view.getMode()
},
enumerable: true
},
center: {
get: function() {
return view.computedCenter
},
set: function(ncenter) {
view.lookAt(view.lastT(), ncenter)
return view.computedCenter
},
enumerable: true
},
eye: {
get: function() {
return view.computedEye
},
set: function(neye) {
view.lookAt(view.lastT(), null, neye)
return view.computedEye
},
enumerable: true
},
up: {
get: function() {
return view.computedUp
},
set: function(nup) {
view.lookAt(view.lastT(), null, null, nup)
return view.computedUp
},
enumerable: true
},
distance: {
get: function() {
return distance
},
set: function(d) {
view.setDistance(view.lastT(), d)
return d
},
enumerable: true
},
distanceLimits: {
get: function() {
return view.getDistanceLimits(limits)
},
set: function(v) {
view.setDistanceLimits(v)
return v
},
enumerable: true
}
})
element.addEventListener('contextmenu', function(ev) {
ev.preventDefault()
return false
})
var lastX = 0, lastY = 0, lastMods = {shift: false, control: false, alt: false, meta: false}
mouseChange(element, handleInteraction)
//enable simple touch interactions
element.addEventListener('touchstart', function (ev) {
var xy = mouseOffset(ev.changedTouches[0], element)
handleInteraction(0, xy[0], xy[1], lastMods)
handleInteraction(1, xy[0], xy[1], lastMods)
ev.preventDefault()
}, hasPassive ? {passive: false} : false)
element.addEventListener('touchmove', function (ev) {
var xy = mouseOffset(ev.changedTouches[0], element)
handleInteraction(1, xy[0], xy[1], lastMods)
ev.preventDefault()
}, hasPassive ? {passive: false} : false)
element.addEventListener('touchend', function (ev) {
var xy = mouseOffset(ev.changedTouches[0], element)
handleInteraction(0, lastX, lastY, lastMods)
ev.preventDefault()
}, hasPassive ? {passive: false} : false)
function handleInteraction (buttons, x, y, mods) {
var scale = 1.0 / element.clientHeight
var dx = scale * (x - lastX)
var dy = scale * (y - lastY)
var flipX = camera.flipX ? 1 : -1
var flipY = camera.flipY ? 1 : -1
var drot = Math.PI * camera.rotateSpeed
var t = now()
if(buttons & 1) {
if(mods.shift) {
view.rotate(t, 0, 0, -dx * drot)
} else {
view.rotate(t, flipX * drot * dx, -flipY * drot * dy, 0)
}
} else if(buttons & 2) {
view.pan(t, -camera.translateSpeed * dx * distance, camera.translateSpeed * dy * distance, 0)
} else if(buttons & 4) {
var kzoom = camera.zoomSpeed * dy / window.innerHeight * (t - view.lastT()) * 50.0
view.pan(t, 0, 0, distance * (Math.exp(kzoom) - 1))
}
lastX = x
lastY = y
lastMods = mods
}
mouseWheel(element, function(dx, dy, dz) {
var flipX = camera.flipX ? 1 : -1
var flipY = camera.flipY ? 1 : -1
var t = now()
if(Math.abs(dx) > Math.abs(dy)) {
view.rotate(t, 0, 0, -dx * flipX * Math.PI * camera.rotateSpeed / window.innerWidth)
} else {
var kzoom = camera.zoomSpeed * flipY * dy / window.innerHeight * (t - view.lastT()) / 100.0
view.pan(t, 0, 0, distance * (Math.exp(kzoom) - 1))
}
}, true)
return camera
}
},{"3d-view":44,"has-passive-events":392,"mouse-change":415,"mouse-event-offset":416,"mouse-wheel":418,"right-now":477}],44:[function(_dereq_,module,exports){
'use strict'
module.exports = createViewController
var createTurntable = _dereq_('turntable-camera-controller')
var createOrbit = _dereq_('orbit-camera-controller')
var createMatrix = _dereq_('matrix-camera-controller')
function ViewController(controllers, mode) {
this._controllerNames = Object.keys(controllers)
this._controllerList = this._controllerNames.map(function(n) {
return controllers[n]
})
this._mode = mode
this._active = controllers[mode]
if(!this._active) {
this._mode = 'turntable'
this._active = controllers.turntable
}
this.modes = this._controllerNames
this.computedMatrix = this._active.computedMatrix
this.computedEye = this._active.computedEye
this.computedUp = this._active.computedUp
this.computedCenter = this._active.computedCenter
this.computedRadius = this._active.computedRadius
}
var proto = ViewController.prototype
var COMMON_METHODS = [
['flush', 1],
['idle', 1],
['lookAt', 4],
['rotate', 4],
['pan', 4],
['translate', 4],
['setMatrix', 2],
['setDistanceLimits', 2],
['setDistance', 2]
]
COMMON_METHODS.forEach(function(method) {
var name = method[0]
var argNames = []
for(var i=0; i<method[1]; ++i) {
argNames.push('a'+i)
}
var code = 'var cc=this._controllerList;for(var i=0;i<cc.length;++i){cc[i].'+method[0]+'('+argNames.join()+')}'
proto[name] = Function.apply(null, argNames.concat(code))
})
proto.recalcMatrix = function(t) {
this._active.recalcMatrix(t)
}
proto.getDistance = function(t) {
return this._active.getDistance(t)
}
proto.getDistanceLimits = function(out) {
return this._active.getDistanceLimits(out)
}
proto.lastT = function() {
return this._active.lastT()
}
proto.setMode = function(mode) {
if(mode === this._mode) {
return
}
var idx = this._controllerNames.indexOf(mode)
if(idx < 0) {
return
}
var prev = this._active
var next = this._controllerList[idx]
var lastT = Math.max(prev.lastT(), next.lastT())
prev.recalcMatrix(lastT)
next.setMatrix(lastT, prev.computedMatrix)
this._active = next
this._mode = mode
//Update matrix properties
this.computedMatrix = this._active.computedMatrix
this.computedEye = this._active.computedEye
this.computedUp = this._active.computedUp
this.computedCenter = this._active.computedCenter
this.computedRadius = this._active.computedRadius
}
proto.getMode = function() {
return this._mode
}
function createViewController(options) {
options = options || {}
var eye = options.eye || [0,0,1]
var center = options.center || [0,0,0]
var up = options.up || [0,1,0]
var limits = options.distanceLimits || [0, Infinity]
var mode = options.mode || 'turntable'
var turntable = createTurntable()
var orbit = createOrbit()
var matrix = createMatrix()
turntable.setDistanceLimits(limits[0], limits[1])
turntable.lookAt(0, eye, center, up)
orbit.setDistanceLimits(limits[0], limits[1])
orbit.lookAt(0, eye, center, up)
matrix.setDistanceLimits(limits[0], limits[1])
matrix.lookAt(0, eye, center, up)
return new ViewController({
turntable: turntable,
orbit: orbit,
matrix: matrix
}, mode)
}
},{"matrix-camera-controller":413,"orbit-camera-controller":436,"turntable-camera-controller":516}],45:[function(_dereq_,module,exports){
// https://github.com/d3/d3-sankey Version 0.5.0. Copyright 2017 Mike Bostock.
(function (global, factory) {
typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports, _dereq_('d3-array'), _dereq_('d3-collection'), _dereq_('d3-interpolate')) :
typeof define === 'function' && define.amd ? define(['exports', 'd3-array', 'd3-collection', 'd3-interpolate'], factory) :
(factory((global.d3 = global.d3 || {}),global.d3,global.d3,global.d3));
}(this, (function (exports,d3Array,d3Collection,d3Interpolate) { 'use strict';
var sankey = function() {
var sankey = {},
nodeWidth = 24,
nodePadding = 8,
size = [1, 1],
nodes = [],
links = [];
sankey.nodeWidth = function(_) {
if (!arguments.length) return nodeWidth;
nodeWidth = +_;
return sankey;
};
sankey.nodePadding = function(_) {
if (!arguments.length) return nodePadding;
nodePadding = +_;
return sankey;
};
sankey.nodes = function(_) {
if (!arguments.length) return nodes;
nodes = _;
return sankey;
};
sankey.links = function(_) {
if (!arguments.length) return links;
links = _;
return sankey;
};
sankey.size = function(_) {
if (!arguments.length) return size;
size = _;
return sankey;
};
sankey.layout = function(iterations) {
computeNodeLinks();
computeNodeValues();
computeNodeBreadths();
computeNodeDepths(iterations);
computeLinkDepths();
return sankey;
};
sankey.relayout = function() {
computeLinkDepths();
return sankey;
};
sankey.link = function() {
var curvature = .5;
function link(d) {
var x0 = d.source.x + d.source.dx,
x1 = d.target.x,
xi = d3Interpolate.interpolateNumber(x0, x1),
x2 = xi(curvature),
x3 = xi(1 - curvature),
y0a = d.source.y + d.sy,
y0b = y0a + d.dy,
y1a = d.target.y + d.ty,
y1b = y1a + d.dy;
return "M" + x0 + "," + y0a
+ "C" + x2 + "," + y0a
+ " " + x3 + "," + y1a
+ " " + x1 + "," + y1a
+ "L" + x1 + "," + y1b
+ "C" + x3 + "," + y1b
+ " " + x2 + "," + y0b
+ " " + x0 + "," + y0b
+ "Z";
}
link.curvature = function(_) {
if (!arguments.length) return curvature;
curvature = +_;
return link;
};
return link;
};
// Populate the sourceLinks and targetLinks for each node.
// Also, if the source and target are not objects, assume they are indices.
function computeNodeLinks() {
nodes.forEach(function(node) {
node.sourceLinks = [];
node.targetLinks = [];
});
links.forEach(function(link, i) {
var source = link.source,
target = link.target;
if (typeof source === "number") source = link.source = nodes[link.source];
if (typeof target === "number") target = link.target = nodes[link.target];
link.originalIndex = i;
source.sourceLinks.push(link);
target.targetLinks.push(link);
});
}
// Compute the value (size) of each node by summing the associated links.
function computeNodeValues() {
nodes.forEach(function(node) {
node.value = Math.max(
d3Array.sum(node.sourceLinks, value),
d3Array.sum(node.targetLinks, value)
);
});
}
// Iteratively assign the breadth (x-position) for each node.
// Nodes are assigned the maximum breadth of incoming neighbors plus one;
// nodes with no incoming links are assigned breadth zero, while
// nodes with no outgoing links are assigned the maximum breadth.
function computeNodeBreadths() {
var remainingNodes = nodes,
nextNodes,
x = 0;
while (remainingNodes.length) {
nextNodes = [];
remainingNodes.forEach(function(node) {
node.x = x;
node.dx = nodeWidth;
node.sourceLinks.forEach(function(link) {
if (nextNodes.indexOf(link.target) < 0) {
nextNodes.push(link.target);
}
});
});
remainingNodes = nextNodes;
++x;
}
//
moveSinksRight(x);
scaleNodeBreadths((size[0] - nodeWidth) / (x - 1));
}
// function moveSourcesRight() {
// nodes.forEach(function(node) {
// if (!node.targetLinks.length) {
// node.x = min(node.sourceLinks, function(d) { return d.target.x; }) - 1;
// }
// });
// }
function moveSinksRight(x) {
nodes.forEach(function(node) {
if (!node.sourceLinks.length) {
node.x = x - 1;
}
});
}
function scaleNodeBreadths(kx) {
nodes.forEach(function(node) {
node.x *= kx;
});
}
function computeNodeDepths(iterations) {
var nodesByBreadth = d3Collection.nest()
.key(function(d) { return d.x; })
.sortKeys(d3Array.ascending)
.entries(nodes)
.map(function(d) { return d.values; });
//
initializeNodeDepth();
resolveCollisions();
for (var alpha = 1; iterations > 0; --iterations) {
relaxRightToLeft(alpha *= .99);
resolveCollisions();
relaxLeftToRight(alpha);
resolveCollisions();
}
function initializeNodeDepth() {
var ky = d3Array.min(nodesByBreadth, function(nodes) {
return (size[1] - (nodes.length - 1) * nodePadding) / d3Array.sum(nodes, value);
});
nodesByBreadth.forEach(function(nodes) {
nodes.forEach(function(node, i) {
node.y = i;
node.dy = node.value * ky;
});
});
links.forEach(function(link) {
link.dy = link.value * ky;
});
}
function relaxLeftToRight(alpha) {
nodesByBreadth.forEach(function(nodes) {
nodes.forEach(function(node) {
if (node.targetLinks.length) {
var y = d3Array.sum(node.targetLinks, weightedSource) / d3Array.sum(node.targetLinks, value);
node.y += (y - center(node)) * alpha;
}
});
});
function weightedSource(link) {
return center(link.source) * link.value;
}
}
function relaxRightToLeft(alpha) {
nodesByBreadth.slice().reverse().forEach(function(nodes) {
nodes.forEach(function(node) {
if (node.sourceLinks.length) {
var y = d3Array.sum(node.sourceLinks, weightedTarget) / d3Array.sum(node.sourceLinks, value);
node.y += (y - center(node)) * alpha;
}
});
});
function weightedTarget(link) {
return center(link.target) * link.value;
}
}
function resolveCollisions() {
nodesByBreadth.forEach(function(nodes) {
var node,
dy,
y0 = 0,
n = nodes.length,
i;
// Push any overlapping nodes down.
nodes.sort(ascendingDepth);
for (i = 0; i < n; ++i) {
node = nodes[i];
dy = y0 - node.y;
if (dy > 0) node.y += dy;
y0 = node.y + node.dy + nodePadding;
}
// If the bottommost node goes outside the bounds, push it back up.
dy = y0 - nodePadding - size[1];
if (dy > 0) {
y0 = node.y -= dy;
// Push any overlapping nodes back up.
for (i = n - 2; i >= 0; --i) {
node = nodes[i];
dy = node.y + node.dy + nodePadding - y0;
if (dy > 0) node.y -= dy;
y0 = node.y;
}
}
});
}
function ascendingDepth(a, b) {
return a.y - b.y;
}
}
function computeLinkDepths() {
nodes.forEach(function(node) {
node.sourceLinks.sort(ascendingTargetDepth);
node.targetLinks.sort(ascendingSourceDepth);
});
nodes.forEach(function(node) {
var sy = 0, ty = 0;
node.sourceLinks.forEach(function(link) {
link.sy = sy;
sy += link.dy;
});
node.targetLinks.forEach(function(link) {
link.ty = ty;
ty += link.dy;
});
});
function ascendingSourceDepth(a, b) {
return (a.source.y - b.source.y) || (a.originalIndex - b.originalIndex);
}
function ascendingTargetDepth(a, b) {
return (a.target.y - b.target.y) || (a.originalIndex - b.originalIndex);
}
}
function center(node) {
return node.y + node.dy / 2;
}
function value(link) {
return link.value;
}
return sankey;
};
exports.sankey = sankey;
Object.defineProperty(exports, '__esModule', { value: true });
})));
},{"d3-array":139,"d3-collection":140,"d3-interpolate":144}],46:[function(_dereq_,module,exports){
'use strict'
var weakMap = typeof WeakMap === 'undefined' ? _dereq_('weak-map') : WeakMap
var createBuffer = _dereq_('gl-buffer')
var createVAO = _dereq_('gl-vao')
var TriangleCache = new weakMap()
function createABigTriangle(gl) {
var triangleVAO = TriangleCache.get(gl)
var handle = triangleVAO && (triangleVAO._triangleBuffer.handle || triangleVAO._triangleBuffer.buffer)
if(!handle || !gl.isBuffer(handle)) {
var buf = createBuffer(gl, new Float32Array([-1, -1, -1, 4, 4, -1]))
triangleVAO = createVAO(gl, [
{ buffer: buf,
type: gl.FLOAT,
size: 2
}
])
triangleVAO._triangleBuffer = buf
TriangleCache.set(gl, triangleVAO)
}
triangleVAO.bind()
gl.drawArrays(gl.TRIANGLES, 0, 3)
triangleVAO.unbind()
}
module.exports = createABigTriangle
},{"gl-buffer":229,"gl-vao":308,"weak-map":526}],47:[function(_dereq_,module,exports){
module.exports = absolutize
/**
* redefine `path` with absolute coordinates
*
* @param {Array} path
* @return {Array}
*/
function absolutize(path){
var startX = 0
var startY = 0
var x = 0
var y = 0
return path.map(function(seg){
seg = seg.slice()
var type = seg[0]
var command = type.toUpperCase()
// is relative
if (type != command) {
seg[0] = command
switch (type) {
case 'a':
seg[6] += x
seg[7] += y
break
case 'v':
seg[1] += y
break
case 'h':
seg[1] += x
break
default:
for (var i = 1; i < seg.length;) {
seg[i++] += x
seg[i++] += y
}
}
}
// update cursor state
switch (command) {
case 'Z':
x = startX
y = startY
break
case 'H':
x = seg[1]
break
case 'V':
y = seg[1]
break
case 'M':
x = startX = seg[1]
y = startY = seg[2]
break
default:
x = seg[seg.length - 2]
y = seg[seg.length - 1]
}
return seg
})
}
},{}],48:[function(_dereq_,module,exports){
var padLeft = _dereq_('pad-left')
module.exports = addLineNumbers
function addLineNumbers (string, start, delim) {
start = typeof start === 'number' ? start : 1
delim = delim || ': '
var lines = string.split(/\r?\n/)
var totalDigits = String(lines.length + start - 1).length
return lines.map(function (line, i) {
var c = i + start
var digits = String(c).length
var prefix = padLeft(c, totalDigits - digits)
return prefix + delim + line
}).join('\n')
}
},{"pad-left":437}],49:[function(_dereq_,module,exports){
'use strict'
module.exports = affineHull
var orient = _dereq_('robust-orientation')
function linearlyIndependent(points, d) {
var nhull = new Array(d+1)
for(var i=0; i<points.length; ++i) {
nhull[i] = points[i]
}
for(var i=0; i<=points.length; ++i) {
for(var j=points.length; j<=d; ++j) {
var x = new Array(d)
for(var k=0; k<d; ++k) {
x[k] = Math.pow(j+1-i, k)
}
nhull[j] = x
}
var o = orient.apply(void 0, nhull)
if(o) {
return true
}
}
return false
}
function affineHull(points) {
var n = points.length
if(n === 0) {
return []
}
if(n === 1) {
return [0]
}
var d = points[0].length
var frame = [ points[0] ]
var index = [ 0 ]
for(var i=1; i<n; ++i) {
frame.push(points[i])
if(!linearlyIndependent(frame, d)) {
frame.pop()
continue
}
index.push(i)
if(index.length === d+1) {
return index
}
}
return index
}
},{"robust-orientation":483}],50:[function(_dereq_,module,exports){
'use strict'
module.exports = alphaComplex
var delaunay = _dereq_('delaunay-triangulate')
var circumradius = _dereq_('circumradius')
function alphaComplex(alpha, points) {
return delaunay(points).filter(function(cell) {
var simplex = new Array(cell.length)
for(var i=0; i<cell.length; ++i) {
simplex[i] = points[cell[i]]
}
return circumradius(simplex) * alpha < 1
})
}
},{"circumradius":101,"delaunay-triangulate":149}],51:[function(_dereq_,module,exports){
module.exports = alphaShape
var ac = _dereq_('alpha-complex')
var bnd = _dereq_('simplicial-complex-boundary')
function alphaShape(alpha, points) {
return bnd(ac(alpha, points))
}
},{"alpha-complex":50,"simplicial-complex-boundary":490}],52:[function(_dereq_,module,exports){
'use strict'
module.exports = normalize;
function normalize (arr, dim) {
if (!arr || arr.length == null) throw Error('Argument should be an array')
if (dim == null) dim = 1
else dim = Math.floor(dim)
var bounds = Array(dim * 2)
for (var offset = 0; offset < dim; offset++) {
var max = -Infinity, min = Infinity, i = offset, l = arr.length;
for (; i < l; i+=dim) {
if (arr[i] > max) max = arr[i];
if (arr[i] < min) min = arr[i];
}
bounds[offset] = min
bounds[dim + offset] = max
}
return bounds;
}
},{}],53:[function(_dereq_,module,exports){
'use strict'
var getBounds = _dereq_('array-bounds')
module.exports = normalize;
function normalize (arr, dim, bounds) {
if (!arr || arr.length == null) throw Error('Argument should be an array')
if (dim == null) dim = 1
if (bounds == null) bounds = getBounds(arr, dim)
for (var offset = 0; offset < dim; offset++) {
var max = bounds[dim + offset], min = bounds[offset], i = offset, l = arr.length;
if (max === Infinity && min === -Infinity) {
for (i = offset; i < l; i+=dim) {
arr[i] = arr[i] === max ? 1 : arr[i] === min ? 0 : .5
}
}
else if (max === Infinity) {
for (i = offset; i < l; i+=dim) {
arr[i] = arr[i] === max ? 1 : 0
}
}
else if (min === -Infinity) {
for (i = offset; i < l; i+=dim) {
arr[i] = arr[i] === min ? 0 : 1
}
}
else {
var range = max - min
for (i = offset; i < l; i+=dim) {
arr[i] = range === 0 ? .5 : (arr[i] - min) / range
}
}
}
return arr;
}
},{"array-bounds":52}],54:[function(_dereq_,module,exports){
module.exports = function newArray(start, end) {
var n0 = typeof start === 'number',
n1 = typeof end === 'number'
if (n0 && !n1) {
end = start
start = 0
} else if (!n0 && !n1) {
start = 0
end = 0
}
start = start|0
end = end|0
var len = end-start
if (len<0)
throw new Error('array length must be positive')
var a = new Array(len)
for (var i=0, c=start; i<len; i++, c++)
a[i] = c
return a
}
},{}],55:[function(_dereq_,module,exports){
(function (global){
'use strict';
// compare and isBuffer taken from https://github.com/feross/buffer/blob/680e9e5e488f22aac27599a57dc844a6315928dd/index.js
// original notice:
/*!
* The buffer module from node.js, for the browser.
*
* @author Feross Aboukhadijeh <feross@feross.org> <http://feross.org>
* @license MIT
*/
function compare(a, b) {
if (a === b) {
return 0;
}
var x = a.length;
var y = b.length;
for (var i = 0, len = Math.min(x, y); i < len; ++i) {
if (a[i] !== b[i]) {
x = a[i];
y = b[i];
break;
}
}
if (x < y) {
return -1;
}
if (y < x) {
return 1;
}
return 0;
}
function isBuffer(b) {
if (global.Buffer && typeof global.Buffer.isBuffer === 'function') {
return global.Buffer.isBuffer(b);
}
return !!(b != null && b._isBuffer);
}
// based on node assert, original notice:
// http://wiki.commonjs.org/wiki/Unit_Testing/1.0
//
// THIS IS NOT TESTED NOR LIKELY TO WORK OUTSIDE V8!
//
// Originally from narwhal.js (http://narwhaljs.org)
// Copyright (c) 2009 Thomas Robinson <280north.com>
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the 'Software'), to
// deal in the Software without restriction, including without limitation the
// rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
// sell copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED 'AS IS', WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
// ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
var util = _dereq_('util/');
var hasOwn = Object.prototype.hasOwnProperty;
var pSlice = Array.prototype.slice;
var functionsHaveNames = (function () {
return function foo() {}.name === 'foo';
}());
function pToString (obj) {
return Object.prototype.toString.call(obj);
}
function isView(arrbuf) {
if (isBuffer(arrbuf)) {
return false;
}
if (typeof global.ArrayBuffer !== 'function') {
return false;
}
if (typeof ArrayBuffer.isView === 'function') {
return ArrayBuffer.isView(arrbuf);
}
if (!arrbuf) {
return false;
}
if (arrbuf instanceof DataView) {
return true;
}
if (arrbuf.buffer && arrbuf.buffer instanceof ArrayBuffer) {
return true;
}
return false;
}
// 1. The assert module provides functions that throw
// AssertionError's when particular conditions are not met. The
// assert module must conform to the following interface.
var assert = module.exports = ok;
// 2. The AssertionError is defined in assert.
// new assert.AssertionError({ message: message,
// actual: actual,
// expected: expected })
var regex = /\s*function\s+([^\(\s]*)\s*/;
// based on https://github.com/ljharb/function.prototype.name/blob/adeeeec8bfcc6068b187d7d9fb3d5bb1d3a30899/implementation.js
function getName(func) {
if (!util.isFunction(func)) {
return;
}
if (functionsHaveNames) {
return func.name;
}
var str = func.toString();
var match = str.match(regex);
return match && match[1];
}
assert.AssertionError = function AssertionError(options) {
this.name = 'AssertionError';
this.actual = options.actual;
this.expected = options.expected;
this.operator = options.operator;
if (options.message) {
this.message = options.message;
this.generatedMessage = false;
} else {
this.message = getMessage(this);
this.generatedMessage = true;
}
var stackStartFunction = options.stackStartFunction || fail;
if (Error.captureStackTrace) {
Error.captureStackTrace(this, stackStartFunction);
} else {
// non v8 browsers so we can have a stacktrace
var err = new Error();
if (err.stack) {
var out = err.stack;
// try to strip useless frames
var fn_name = getName(stackStartFunction);
var idx = out.indexOf('\n' + fn_name);
if (idx >= 0) {
// once we have located the function frame
// we need to strip out everything before it (and its line)
var next_line = out.indexOf('\n', idx + 1);
out = out.substring(next_line + 1);
}
this.stack = out;
}
}
};
// assert.AssertionError instanceof Error
util.inherits(assert.AssertionError, Error);
function truncate(s, n) {
if (typeof s === 'string') {
return s.length < n ? s : s.slice(0, n);
} else {
return s;
}
}
function inspect(something) {
if (functionsHaveNames || !util.isFunction(something)) {
return util.inspect(something);
}
var rawname = getName(something);
var name = rawname ? ': ' + rawname : '';
return '[Function' + name + ']';
}
function getMessage(self) {
return truncate(inspect(self.actual), 128) + ' ' +
self.operator + ' ' +
truncate(inspect(self.expected), 128);
}
// At present only the three keys mentioned above are used and
// understood by the spec. Implementations or sub modules can pass
// other keys to the AssertionError's constructor - they will be
// ignored.
// 3. All of the following functions must throw an AssertionError
// when a corresponding condition is not met, with a message that
// may be undefined if not provided. All assertion methods provide
// both the actual and expected values to the assertion error for
// display purposes.
function fail(actual, expected, message, operator, stackStartFunction) {
throw new assert.AssertionError({
message: message,
actual: actual,
expected: expected,
operator: operator,
stackStartFunction: stackStartFunction
});
}
// EXTENSION! allows for well behaved errors defined elsewhere.
assert.fail = fail;
// 4. Pure assertion tests whether a value is truthy, as determined
// by !!guard.
// assert.ok(guard, message_opt);
// This statement is equivalent to assert.equal(true, !!guard,
// message_opt);. To test strictly for the value true, use
// assert.strictEqual(true, guard, message_opt);.
function ok(value, message) {
if (!value) fail(value, true, message, '==', assert.ok);
}
assert.ok = ok;
// 5. The equality assertion tests shallow, coercive equality with
// ==.
// assert.equal(actual, expected, message_opt);
assert.equal = function equal(actual, expected, message) {
if (actual != expected) fail(actual, expected, message, '==', assert.equal);
};
// 6. The non-equality assertion tests for whether two objects are not equal
// with != assert.notEqual(actual, expected, message_opt);
assert.notEqual = function notEqual(actual, expected, message) {
if (actual == expected) {
fail(actual, expected, message, '!=', assert.notEqual);
}
};
// 7. The equivalence assertion tests a deep equality relation.
// assert.deepEqual(actual, expected, message_opt);
assert.deepEqual = function deepEqual(actual, expected, message) {
if (!_deepEqual(actual, expected, false)) {
fail(actual, expected, message, 'deepEqual', assert.deepEqual);
}
};
assert.deepStrictEqual = function deepStrictEqual(actual, expected, message) {
if (!_deepEqual(actual, expected, true)) {
fail(actual, expected, message, 'deepStrictEqual', assert.deepStrictEqual);
}
};
function _deepEqual(actual, expected, strict, memos) {
// 7.1. All identical values are equivalent, as determined by ===.
if (actual === expected) {
return true;
} else if (isBuffer(actual) && isBuffer(expected)) {
return compare(actual, expected) === 0;
// 7.2. If the expected value is a Date object, the actual value is
// equivalent if it is also a Date object that refers to the same time.
} else if (util.isDate(actual) && util.isDate(expected)) {
return actual.getTime() === expected.getTime();
// 7.3 If the expected value is a RegExp object, the actual value is
// equivalent if it is also a RegExp object with the same source and
// properties (`global`, `multiline`, `lastIndex`, `ignoreCase`).
} else if (util.isRegExp(actual) && util.isRegExp(expected)) {
return actual.source === expected.source &&
actual.global === expected.global &&
actual.multiline === expected.multiline &&
actual.lastIndex === expected.lastIndex &&
actual.ignoreCase === expected.ignoreCase;
// 7.4. Other pairs that do not both pass typeof value == 'object',
// equivalence is determined by ==.
} else if ((actual === null || typeof actual !== 'object') &&
(expected === null || typeof expected !== 'object')) {
return strict ? actual === expected : actual == expected;
// If both values are instances of typed arrays, wrap their underlying
// ArrayBuffers in a Buffer each to increase performance
// This optimization requires the arrays to have the same type as checked by
// Object.prototype.toString (aka pToString). Never perform binary
// comparisons for Float*Arrays, though, since e.g. +0 === -0 but their
// bit patterns are not identical.
} else if (isView(actual) && isView(expected) &&
pToString(actual) === pToString(expected) &&
!(actual instanceof Float32Array ||
actual instanceof Float64Array)) {
return compare(new Uint8Array(actual.buffer),
new Uint8Array(expected.buffer)) === 0;
// 7.5 For all other Object pairs, including Array objects, equivalence is
// determined by having the same number of owned properties (as verified
// with Object.prototype.hasOwnProperty.call), the same set of keys
// (although not necessarily the same order), equivalent values for every
// corresponding key, and an identical 'prototype' property. Note: this
// accounts for both named and indexed properties on Arrays.
} else if (isBuffer(actual) !== isBuffer(expected)) {
return false;
} else {
memos = memos || {actual: [], expected: []};
var actualIndex = memos.actual.indexOf(actual);
if (actualIndex !== -1) {
if (actualIndex === memos.expected.indexOf(expected)) {
return true;
}
}
memos.actual.push(actual);
memos.expected.push(expected);
return objEquiv(actual, expected, strict, memos);
}
}
function isArguments(object) {
return Object.prototype.toString.call(object) == '[object Arguments]';
}
function objEquiv(a, b, strict, actualVisitedObjects) {
if (a === null || a === undefined || b === null || b === undefined)
return false;
// if one is a primitive, the other must be same
if (util.isPrimitive(a) || util.isPrimitive(b))
return a === b;
if (strict && Object.getPrototypeOf(a) !== Object.getPrototypeOf(b))
return false;
var aIsArgs = isArguments(a);
var bIsArgs = isArguments(b);
if ((aIsArgs && !bIsArgs) || (!aIsArgs && bIsArgs))
return false;
if (aIsArgs) {
a = pSlice.call(a);
b = pSlice.call(b);
return _deepEqual(a, b, strict);
}
var ka = objectKeys(a);
var kb = objectKeys(b);
var key, i;
// having the same number of owned properties (keys incorporates
// hasOwnProperty)
if (ka.length !== kb.length)
return false;
//the same set of keys (although not necessarily the same order),
ka.sort();
kb.sort();
//~~~cheap key test
for (i = ka.length - 1; i >= 0; i--) {
if (ka[i] !== kb[i])
return false;
}
//equivalent values for every corresponding key, and
//~~~possibly expensive deep test
for (i = ka.length - 1; i >= 0; i--) {
key = ka[i];
if (!_deepEqual(a[key], b[key], strict, actualVisitedObjects))
return false;
}
return true;
}
// 8. The non-equivalence assertion tests for any deep inequality.
// assert.notDeepEqual(actual, expected, message_opt);
assert.notDeepEqual = function notDeepEqual(actual, expected, message) {
if (_deepEqual(actual, expected, false)) {
fail(actual, expected, message, 'notDeepEqual', assert.notDeepEqual);
}
};
assert.notDeepStrictEqual = notDeepStrictEqual;
function notDeepStrictEqual(actual, expected, message) {
if (_deepEqual(actual, expected, true)) {
fail(actual, expected, message, 'notDeepStrictEqual', notDeepStrictEqual);
}
}
// 9. The strict equality assertion tests strict equality, as determined by ===.
// assert.strictEqual(actual, expected, message_opt);
assert.strictEqual = function strictEqual(actual, expected, message) {
if (actual !== expected) {
fail(actual, expected, message, '===', assert.strictEqual);
}
};
// 10. The strict non-equality assertion tests for strict inequality, as
// determined by !==. assert.notStrictEqual(actual, expected, message_opt);
assert.notStrictEqual = function notStrictEqual(actual, expected, message) {
if (actual === expected) {
fail(actual, expected, message, '!==', assert.notStrictEqual);
}
};
function expectedException(actual, expected) {
if (!actual || !expected) {
return false;
}
if (Object.prototype.toString.call(expected) == '[object RegExp]') {
return expected.test(actual);
}
try {
if (actual instanceof expected) {
return true;
}
} catch (e) {
// Ignore. The instanceof check doesn't work for arrow functions.
}
if (Error.isPrototypeOf(expected)) {
return false;
}
return expected.call({}, actual) === true;
}
function _tryBlock(block) {
var error;
try {
block();
} catch (e) {
error = e;
}
return error;
}
function _throws(shouldThrow, block, expected, message) {
var actual;
if (typeof block !== 'function') {
throw new TypeError('"block" argument must be a function');
}
if (typeof expected === 'string') {
message = expected;
expected = null;
}
actual = _tryBlock(block);
message = (expected && expected.name ? ' (' + expected.name + ').' : '.') +
(message ? ' ' + message : '.');
if (shouldThrow && !actual) {
fail(actual, expected, 'Missing expected exception' + message);
}
var userProvidedMessage = typeof message === 'string';
var isUnwantedException = !shouldThrow && util.isError(actual);
var isUnexpectedException = !shouldThrow && actual && !expected;
if ((isUnwantedException &&
userProvidedMessage &&
expectedException(actual, expected)) ||
isUnexpectedException) {
fail(actual, expected, 'Got unwanted exception' + message);
}
if ((shouldThrow && actual && expected &&
!expectedException(actual, expected)) || (!shouldThrow && actual)) {
throw actual;
}
}
// 11. Expected to throw an error:
// assert.throws(block, Error_opt, message_opt);
assert.throws = function(block, /*optional*/error, /*optional*/message) {
_throws(true, block, error, message);
};
// EXTENSION! This is annoying to write outside this module.
assert.doesNotThrow = function(block, /*optional*/error, /*optional*/message) {
_throws(false, block, error, message);
};
assert.ifError = function(err) { if (err) throw err; };
var objectKeys = Object.keys || function (obj) {
var keys = [];
for (var key in obj) {
if (hasOwn.call(obj, key)) keys.push(key);
}
return keys;
};
}).call(this,typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {})
},{"util/":58}],56:[function(_dereq_,module,exports){
if (typeof Object.create === 'function') {
// implementation from standard node.js 'util' module
module.exports = function inherits(ctor, superCtor) {
ctor.super_ = superCtor
ctor.prototype = Object.create(superCtor.prototype, {
constructor: {
value: ctor,
enumerable: false,
writable: true,
configurable: true
}
});
};
} else {
// old school shim for old browsers
module.exports = function inherits(ctor, superCtor) {
ctor.super_ = superCtor
var TempCtor = function () {}
TempCtor.prototype = superCtor.prototype
ctor.prototype = new TempCtor()
ctor.prototype.constructor = ctor
}
}
},{}],57:[function(_dereq_,module,exports){
module.exports = function isBuffer(arg) {
return arg && typeof arg === 'object'
&& typeof arg.copy === 'function'
&& typeof arg.fill === 'function'
&& typeof arg.readUInt8 === 'function';
}
},{}],58:[function(_dereq_,module,exports){
(function (process,global){
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
var formatRegExp = /%[sdj%]/g;
exports.format = function(f) {
if (!isString(f)) {
var objects = [];
for (var i = 0; i < arguments.length; i++) {
objects.push(inspect(arguments[i]));
}
return objects.join(' ');
}
var i = 1;
var args = arguments;
var len = args.length;
var str = String(f).replace(formatRegExp, function(x) {
if (x === '%%') return '%';
if (i >= len) return x;
switch (x) {
case '%s': return String(args[i++]);
case '%d': return Number(args[i++]);
case '%j':
try {
return JSON.stringify(args[i++]);
} catch (_) {
return '[Circular]';
}
default:
return x;
}
});
for (var x = args[i]; i < len; x = args[++i]) {
if (isNull(x) || !isObject(x)) {
str += ' ' + x;
} else {
str += ' ' + inspect(x);
}
}
return str;
};
// Mark that a method should not be used.
// Returns a modified function which warns once by default.
// If --no-deprecation is set, then it is a no-op.
exports.deprecate = function(fn, msg) {
// Allow for deprecating things in the process of starting up.
if (isUndefined(global.process)) {
return function() {
return exports.deprecate(fn, msg).apply(this, arguments);
};
}
if (process.noDeprecation === true) {
return fn;
}
var warned = false;
function deprecated() {
if (!warned) {
if (process.throwDeprecation) {
throw new Error(msg);
} else if (process.traceDeprecation) {
console.trace(msg);
} else {
console.error(msg);
}
warned = true;
}
return fn.apply(this, arguments);
}
return deprecated;
};
var debugs = {};
var debugEnviron;
exports.debuglog = function(set) {
if (isUndefined(debugEnviron))
debugEnviron = process.env.NODE_DEBUG || '';
set = set.toUpperCase();
if (!debugs[set]) {
if (new RegExp('\\b' + set + '\\b', 'i').test(debugEnviron)) {
var pid = process.pid;
debugs[set] = function() {
var msg = exports.format.apply(exports, arguments);
console.error('%s %d: %s', set, pid, msg);
};
} else {
debugs[set] = function() {};
}
}
return debugs[set];
};
/**
* Echos the value of a value. Trys to print the value out
* in the best way possible given the different types.
*
* @param {Object} obj The object to print out.
* @param {Object} opts Optional options object that alters the output.
*/
/* legacy: obj, showHidden, depth, colors*/
function inspect(obj, opts) {
// default options
var ctx = {
seen: [],
stylize: stylizeNoColor
};
// legacy...
if (arguments.length >= 3) ctx.depth = arguments[2];
if (arguments.length >= 4) ctx.colors = arguments[3];
if (isBoolean(opts)) {
// legacy...
ctx.showHidden = opts;
} else if (opts) {
// got an "options" object
exports._extend(ctx, opts);
}
// set default options
if (isUndefined(ctx.showHidden)) ctx.showHidden = false;
if (isUndefined(ctx.depth)) ctx.depth = 2;
if (isUndefined(ctx.colors)) ctx.colors = false;
if (isUndefined(ctx.customInspect)) ctx.customInspect = true;
if (ctx.colors) ctx.stylize = stylizeWithColor;
return formatValue(ctx, obj, ctx.depth);
}
exports.inspect = inspect;
// http://en.wikipedia.org/wiki/ANSI_escape_code#graphics
inspect.colors = {
'bold' : [1, 22],
'italic' : [3, 23],
'underline' : [4, 24],
'inverse' : [7, 27],
'white' : [37, 39],
'grey' : [90, 39],
'black' : [30, 39],
'blue' : [34, 39],
'cyan' : [36, 39],
'green' : [32, 39],
'magenta' : [35, 39],
'red' : [31, 39],
'yellow' : [33, 39]
};
// Don't use 'blue' not visible on cmd.exe
inspect.styles = {
'special': 'cyan',
'number': 'yellow',
'boolean': 'yellow',
'undefined': 'grey',
'null': 'bold',
'string': 'green',
'date': 'magenta',
// "name": intentionally not styling
'regexp': 'red'
};
function stylizeWithColor(str, styleType) {
var style = inspect.styles[styleType];
if (style) {
return '\u001b[' + inspect.colors[style][0] + 'm' + str +
'\u001b[' + inspect.colors[style][1] + 'm';
} else {
return str;
}
}
function stylizeNoColor(str, styleType) {
return str;
}
function arrayToHash(array) {
var hash = {};
array.forEach(function(val, idx) {
hash[val] = true;
});
return hash;
}
function formatValue(ctx, value, recurseTimes) {
// Provide a hook for user-specified inspect functions.
// Check that value is an object with an inspect function on it
if (ctx.customInspect &&
value &&
isFunction(value.inspect) &&
// Filter out the util module, it's inspect function is special
value.inspect !== exports.inspect &&
// Also filter out any prototype objects using the circular check.
!(value.constructor && value.constructor.prototype === value)) {
var ret = value.inspect(recurseTimes, ctx);
if (!isString(ret)) {
ret = formatValue(ctx, ret, recurseTimes);
}
return ret;
}
// Primitive types cannot have properties
var primitive = formatPrimitive(ctx, value);
if (primitive) {
return primitive;
}
// Look up the keys of the object.
var keys = Object.keys(value);
var visibleKeys = arrayToHash(keys);
if (ctx.showHidden) {
keys = Object.getOwnPropertyNames(value);
}
// IE doesn't make error fields non-enumerable
// http://msdn.microsoft.com/en-us/library/ie/dww52sbt(v=vs.94).aspx
if (isError(value)
&& (keys.indexOf('message') >= 0 || keys.indexOf('description') >= 0)) {
return formatError(value);
}
// Some type of object without properties can be shortcutted.
if (keys.length === 0) {
if (isFunction(value)) {
var name = value.name ? ': ' + value.name : '';
return ctx.stylize('[Function' + name + ']', 'special');
}
if (isRegExp(value)) {
return ctx.stylize(RegExp.prototype.toString.call(value), 'regexp');
}
if (isDate(value)) {
return ctx.stylize(Date.prototype.toString.call(value), 'date');
}
if (isError(value)) {
return formatError(value);
}
}
var base = '', array = false, braces = ['{', '}'];
// Make Array say that they are Array
if (isArray(value)) {
array = true;
braces = ['[', ']'];
}
// Make functions say that they are functions
if (isFunction(value)) {
var n = value.name ? ': ' + value.name : '';
base = ' [Function' + n + ']';
}
// Make RegExps say that they are RegExps
if (isRegExp(value)) {
base = ' ' + RegExp.prototype.toString.call(value);
}
// Make dates with properties first say the date
if (isDate(value)) {
base = ' ' + Date.prototype.toUTCString.call(value);
}
// Make error with message first say the error
if (isError(value)) {
base = ' ' + formatError(value);
}
if (keys.length === 0 && (!array || value.length == 0)) {
return braces[0] + base + braces[1];
}
if (recurseTimes < 0) {
if (isRegExp(value)) {
return ctx.stylize(RegExp.prototype.toString.call(value), 'regexp');
} else {
return ctx.stylize('[Object]', 'special');
}
}
ctx.seen.push(value);
var output;
if (array) {
output = formatArray(ctx, value, recurseTimes, visibleKeys, keys);
} else {
output = keys.map(function(key) {
return formatProperty(ctx, value, recurseTimes, visibleKeys, key, array);
});
}
ctx.seen.pop();
return reduceToSingleString(output, base, braces);
}
function formatPrimitive(ctx, value) {
if (isUndefined(value))
return ctx.stylize('undefined', 'undefined');
if (isString(value)) {
var simple = '\'' + JSON.stringify(value).replace(/^"|"$/g, '')
.replace(/'/g, "\\'")
.replace(/\\"/g, '"') + '\'';
return ctx.stylize(simple, 'string');
}
if (isNumber(value))
return ctx.stylize('' + value, 'number');
if (isBoolean(value))
return ctx.stylize('' + value, 'boolean');
// For some reason typeof null is "object", so special case here.
if (isNull(value))
return ctx.stylize('null', 'null');
}
function formatError(value) {
return '[' + Error.prototype.toString.call(value) + ']';
}
function formatArray(ctx, value, recurseTimes, visibleKeys, keys) {
var output = [];
for (var i = 0, l = value.length; i < l; ++i) {
if (hasOwnProperty(value, String(i))) {
output.push(formatProperty(ctx, value, recurseTimes, visibleKeys,
String(i), true));
} else {
output.push('');
}
}
keys.forEach(function(key) {
if (!key.match(/^\d+$/)) {
output.push(formatProperty(ctx, value, recurseTimes, visibleKeys,
key, true));
}
});
return output;
}
function formatProperty(ctx, value, recurseTimes, visibleKeys, key, array) {
var name, str, desc;
desc = Object.getOwnPropertyDescriptor(value, key) || { value: value[key] };
if (desc.get) {
if (desc.set) {
str = ctx.stylize('[Getter/Setter]', 'special');
} else {
str = ctx.stylize('[Getter]', 'special');
}
} else {
if (desc.set) {
str = ctx.stylize('[Setter]', 'special');
}
}
if (!hasOwnProperty(visibleKeys, key)) {
name = '[' + key + ']';
}
if (!str) {
if (ctx.seen.indexOf(desc.value) < 0) {
if (isNull(recurseTimes)) {
str = formatValue(ctx, desc.value, null);
} else {
str = formatValue(ctx, desc.value, recurseTimes - 1);
}
if (str.indexOf('\n') > -1) {
if (array) {
str = str.split('\n').map(function(line) {
return ' ' + line;
}).join('\n').substr(2);
} else {
str = '\n' + str.split('\n').map(function(line) {
return ' ' + line;
}).join('\n');
}
}
} else {
str = ctx.stylize('[Circular]', 'special');
}
}
if (isUndefined(name)) {
if (array && key.match(/^\d+$/)) {
return str;
}
name = JSON.stringify('' + key);
if (name.match(/^"([a-zA-Z_][a-zA-Z_0-9]*)"$/)) {
name = name.substr(1, name.length - 2);
name = ctx.stylize(name, 'name');
} else {
name = name.replace(/'/g, "\\'")
.replace(/\\"/g, '"')
.replace(/(^"|"$)/g, "'");
name = ctx.stylize(name, 'string');
}
}
return name + ': ' + str;
}
function reduceToSingleString(output, base, braces) {
var numLinesEst = 0;
var length = output.reduce(function(prev, cur) {
numLinesEst++;
if (cur.indexOf('\n') >= 0) numLinesEst++;
return prev + cur.replace(/\u001b\[\d\d?m/g, '').length + 1;
}, 0);
if (length > 60) {
return braces[0] +
(base === '' ? '' : base + '\n ') +
' ' +
output.join(',\n ') +
' ' +
braces[1];
}
return braces[0] + base + ' ' + output.join(', ') + ' ' + braces[1];
}
// NOTE: These type checking functions intentionally don't use `instanceof`
// because it is fragile and can be easily faked with `Object.create()`.
function isArray(ar) {
return Array.isArray(ar);
}
exports.isArray = isArray;
function isBoolean(arg) {
return typeof arg === 'boolean';
}
exports.isBoolean = isBoolean;
function isNull(arg) {
return arg === null;
}
exports.isNull = isNull;
function isNullOrUndefined(arg) {
return arg == null;
}
exports.isNullOrUndefined = isNullOrUndefined;
function isNumber(arg) {
return typeof arg === 'number';
}
exports.isNumber = isNumber;
function isString(arg) {
return typeof arg === 'string';
}
exports.isString = isString;
function isSymbol(arg) {
return typeof arg === 'symbol';
}
exports.isSymbol = isSymbol;
function isUndefined(arg) {
return arg === void 0;
}
exports.isUndefined = isUndefined;
function isRegExp(re) {
return isObject(re) && objectToString(re) === '[object RegExp]';
}
exports.isRegExp = isRegExp;
function isObject(arg) {
return typeof arg === 'object' && arg !== null;
}
exports.isObject = isObject;
function isDate(d) {
return isObject(d) && objectToString(d) === '[object Date]';
}
exports.isDate = isDate;
function isError(e) {
return isObject(e) &&
(objectToString(e) === '[object Error]' || e instanceof Error);
}
exports.isError = isError;
function isFunction(arg) {
return typeof arg === 'function';
}
exports.isFunction = isFunction;
function isPrimitive(arg) {
return arg === null ||
typeof arg === 'boolean' ||
typeof arg === 'number' ||
typeof arg === 'string' ||
typeof arg === 'symbol' || // ES6 symbol
typeof arg === 'undefined';
}
exports.isPrimitive = isPrimitive;
exports.isBuffer = _dereq_('./support/isBuffer');
function objectToString(o) {
return Object.prototype.toString.call(o);
}
function pad(n) {
return n < 10 ? '0' + n.toString(10) : n.toString(10);
}
var months = ['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep',
'Oct', 'Nov', 'Dec'];
// 26 Feb 16:19:34
function timestamp() {
var d = new Date();
var time = [pad(d.getHours()),
pad(d.getMinutes()),
pad(d.getSeconds())].join(':');
return [d.getDate(), months[d.getMonth()], time].join(' ');
}
// log is just a thin wrapper to console.log that prepends a timestamp
exports.log = function() {
console.log('%s - %s', timestamp(), exports.format.apply(exports, arguments));
};
/**
* Inherit the prototype methods from one constructor into another.
*
* The Function.prototype.inherits from lang.js rewritten as a standalone
* function (not on Function.prototype). NOTE: If this file is to be loaded
* during bootstrapping this function needs to be rewritten using some native
* functions as prototype setup using normal JavaScript does not work as
* expected during bootstrapping (see mirror.js in r114903).
*
* @param {function} ctor Constructor function which needs to inherit the
* prototype.
* @param {function} superCtor Constructor function to inherit prototype from.
*/
exports.inherits = _dereq_('inherits');
exports._extend = function(origin, add) {
// Don't do anything if add isn't an object
if (!add || !isObject(add)) return origin;
var keys = Object.keys(add);
var i = keys.length;
while (i--) {
origin[keys[i]] = add[keys[i]];
}
return origin;
};
function hasOwnProperty(obj, prop) {
return Object.prototype.hasOwnProperty.call(obj, prop);
}
}).call(this,_dereq_('_process'),typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {})
},{"./support/isBuffer":57,"_process":462,"inherits":56}],59:[function(_dereq_,module,exports){
module.exports = function _atob(str) {
return atob(str)
}
},{}],60:[function(_dereq_,module,exports){
'use strict'
module.exports = barycentric
var solve = _dereq_('robust-linear-solve')
function reduce(x) {
var r = 0
for(var i=0; i<x.length; ++i) {
r += x[i]
}
return r
}
function barycentric(simplex, point) {
var d = point.length
var A = new Array(d+1)
for(var i=0; i<d; ++i) {
var row = new Array(d+1)
for(var j=0; j<=d; ++j) {
row[j] = simplex[j][i]
}
A[i] = row
}
A[d] = new Array(d+1)
for(var i=0; i<=d; ++i) {
A[d][i] = 1
}
var b = new Array(d+1)
for(var i=0; i<d; ++i) {
b[i] = point[i]
}
b[d] = 1.0
var x = solve(A, b)
var w = reduce(x[d+1])
if(w === 0) {
w = 1.0
}
var y = new Array(d+1)
for(var i=0; i<=d; ++i) {
y[i] = reduce(x[i]) / w
}
return y
}
},{"robust-linear-solve":482}],61:[function(_dereq_,module,exports){
'use strict'
exports.byteLength = byteLength
exports.toByteArray = toByteArray
exports.fromByteArray = fromByteArray
var lookup = []
var revLookup = []
var Arr = typeof Uint8Array !== 'undefined' ? Uint8Array : Array
var code = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/'
for (var i = 0, len = code.length; i < len; ++i) {
lookup[i] = code[i]
revLookup[code.charCodeAt(i)] = i
}
// Support decoding URL-safe base64 strings, as Node.js does.
// See: https://en.wikipedia.org/wiki/Base64#URL_applications
revLookup['-'.charCodeAt(0)] = 62
revLookup['_'.charCodeAt(0)] = 63
function getLens (b64) {
var len = b64.length
if (len % 4 > 0) {
throw new Error('Invalid string. Length must be a multiple of 4')
}
// Trim off extra bytes after placeholder bytes are found
// See: https://github.com/beatgammit/base64-js/issues/42
var validLen = b64.indexOf('=')
if (validLen === -1) validLen = len
var placeHoldersLen = validLen === len
? 0
: 4 - (validLen % 4)
return [validLen, placeHoldersLen]
}
// base64 is 4/3 + up to two characters of the original data
function byteLength (b64) {
var lens = getLens(b64)
var validLen = lens[0]
var placeHoldersLen = lens[1]
return ((validLen + placeHoldersLen) * 3 / 4) - placeHoldersLen
}
function _byteLength (b64, validLen, placeHoldersLen) {
return ((validLen + placeHoldersLen) * 3 / 4) - placeHoldersLen
}
function toByteArray (b64) {
var tmp
var lens = getLens(b64)
var validLen = lens[0]
var placeHoldersLen = lens[1]
var arr = new Arr(_byteLength(b64, validLen, placeHoldersLen))
var curByte = 0
// if there are placeholders, only get up to the last complete 4 chars
var len = placeHoldersLen > 0
? validLen - 4
: validLen
for (var i = 0; i < len; i += 4) {
tmp =
(revLookup[b64.charCodeAt(i)] << 18) |
(revLookup[b64.charCodeAt(i + 1)] << 12) |
(revLookup[b64.charCodeAt(i + 2)] << 6) |
revLookup[b64.charCodeAt(i + 3)]
arr[curByte++] = (tmp >> 16) & 0xFF
arr[curByte++] = (tmp >> 8) & 0xFF
arr[curByte++] = tmp & 0xFF
}
if (placeHoldersLen === 2) {
tmp =
(revLookup[b64.charCodeAt(i)] << 2) |
(revLookup[b64.charCodeAt(i + 1)] >> 4)
arr[curByte++] = tmp & 0xFF
}
if (placeHoldersLen === 1) {
tmp =
(revLookup[b64.charCodeAt(i)] << 10) |
(revLookup[b64.charCodeAt(i + 1)] << 4) |
(revLookup[b64.charCodeAt(i + 2)] >> 2)
arr[curByte++] = (tmp >> 8) & 0xFF
arr[curByte++] = tmp & 0xFF
}
return arr
}
function tripletToBase64 (num) {
return lookup[num >> 18 & 0x3F] +
lookup[num >> 12 & 0x3F] +
lookup[num >> 6 & 0x3F] +
lookup[num & 0x3F]
}
function encodeChunk (uint8, start, end) {
var tmp
var output = []
for (var i = start; i < end; i += 3) {
tmp =
((uint8[i] << 16) & 0xFF0000) +
((uint8[i + 1] << 8) & 0xFF00) +
(uint8[i + 2] & 0xFF)
output.push(tripletToBase64(tmp))
}
return output.join('')
}
function fromByteArray (uint8) {
var tmp
var len = uint8.length
var extraBytes = len % 3 // if we have 1 byte left, pad 2 bytes
var parts = []
var maxChunkLength = 16383 // must be multiple of 3
// go through the array every three bytes, we'll deal with trailing stuff later
for (var i = 0, len2 = len - extraBytes; i < len2; i += maxChunkLength) {
parts.push(encodeChunk(
uint8, i, (i + maxChunkLength) > len2 ? len2 : (i + maxChunkLength)
))
}
// pad the end with zeros, but make sure to not forget the extra bytes
if (extraBytes === 1) {
tmp = uint8[len - 1]
parts.push(
lookup[tmp >> 2] +
lookup[(tmp << 4) & 0x3F] +
'=='
)
} else if (extraBytes === 2) {
tmp = (uint8[len - 2] << 8) + uint8[len - 1]
parts.push(
lookup[tmp >> 10] +
lookup[(tmp >> 4) & 0x3F] +
lookup[(tmp << 2) & 0x3F] +
'='
)
}
return parts.join('')
}
},{}],62:[function(_dereq_,module,exports){
'use strict'
var rationalize = _dereq_('./lib/rationalize')
module.exports = add
function add(a, b) {
return rationalize(
a[0].mul(b[1]).add(b[0].mul(a[1])),
a[1].mul(b[1]))
}
},{"./lib/rationalize":72}],63:[function(_dereq_,module,exports){
'use strict'
module.exports = cmp
function cmp(a, b) {
return a[0].mul(b[1]).cmp(b[0].mul(a[1]))
}
},{}],64:[function(_dereq_,module,exports){
'use strict'
var rationalize = _dereq_('./lib/rationalize')
module.exports = div
function div(a, b) {
return rationalize(a[0].mul(b[1]), a[1].mul(b[0]))
}
},{"./lib/rationalize":72}],65:[function(_dereq_,module,exports){
'use strict'
var isRat = _dereq_('./is-rat')
var isBN = _dereq_('./lib/is-bn')
var num2bn = _dereq_('./lib/num-to-bn')
var str2bn = _dereq_('./lib/str-to-bn')
var rationalize = _dereq_('./lib/rationalize')
var div = _dereq_('./div')
module.exports = makeRational
function makeRational(numer, denom) {
if(isRat(numer)) {
if(denom) {
return div(numer, makeRational(denom))
}
return [numer[0].clone(), numer[1].clone()]
}
var shift = 0
var a, b
if(isBN(numer)) {
a = numer.clone()
} else if(typeof numer === 'string') {
a = str2bn(numer)
} else if(numer === 0) {
return [num2bn(0), num2bn(1)]
} else if(numer === Math.floor(numer)) {
a = num2bn(numer)
} else {
while(numer !== Math.floor(numer)) {
numer = numer * Math.pow(2, 256)
shift -= 256
}
a = num2bn(numer)
}
if(isRat(denom)) {
a.mul(denom[1])
b = denom[0].clone()
} else if(isBN(denom)) {
b = denom.clone()
} else if(typeof denom === 'string') {
b = str2bn(denom)
} else if(!denom) {
b = num2bn(1)
} else if(denom === Math.floor(denom)) {
b = num2bn(denom)
} else {
while(denom !== Math.floor(denom)) {
denom = denom * Math.pow(2, 256)
shift += 256
}
b = num2bn(denom)
}
if(shift > 0) {
a = a.ushln(shift)
} else if(shift < 0) {
b = b.ushln(-shift)
}
return rationalize(a, b)
}
},{"./div":64,"./is-rat":66,"./lib/is-bn":70,"./lib/num-to-bn":71,"./lib/rationalize":72,"./lib/str-to-bn":73}],66:[function(_dereq_,module,exports){
'use strict'
var isBN = _dereq_('./lib/is-bn')
module.exports = isRat
function isRat(x) {
return Array.isArray(x) && x.length === 2 && isBN(x[0]) && isBN(x[1])
}
},{"./lib/is-bn":70}],67:[function(_dereq_,module,exports){
'use strict'
var BN = _dereq_('bn.js')
module.exports = sign
function sign (x) {
return x.cmp(new BN(0))
}
},{"bn.js":81}],68:[function(_dereq_,module,exports){
'use strict'
var sign = _dereq_('./bn-sign')
module.exports = bn2num
//TODO: Make this better
function bn2num(b) {
var l = b.length
var words = b.words
var out = 0
if (l === 1) {
out = words[0]
} else if (l === 2) {
out = words[0] + (words[1] * 0x4000000)
} else {
for (var i = 0; i < l; i++) {
var w = words[i]
out += w * Math.pow(0x4000000, i)
}
}
return sign(b) * out
}
},{"./bn-sign":67}],69:[function(_dereq_,module,exports){
'use strict'
var db = _dereq_('double-bits')
var ctz = _dereq_('bit-twiddle').countTrailingZeros
module.exports = ctzNumber
//Counts the number of trailing zeros
function ctzNumber(x) {
var l = ctz(db.lo(x))
if(l < 32) {
return l
}
var h = ctz(db.hi(x))
if(h > 20) {
return 52
}
return h + 32
}
},{"bit-twiddle":79,"double-bits":151}],70:[function(_dereq_,module,exports){
'use strict'
var BN = _dereq_('bn.js')
module.exports = isBN
//Test if x is a bignumber
//FIXME: obviously this is the wrong way to do it
function isBN(x) {
return x && typeof x === 'object' && Boolean(x.words)
}
},{"bn.js":81}],71:[function(_dereq_,module,exports){
'use strict'
var BN = _dereq_('bn.js')
var db = _dereq_('double-bits')
module.exports = num2bn
function num2bn(x) {
var e = db.exponent(x)
if(e < 52) {
return new BN(x)
} else {
return (new BN(x * Math.pow(2, 52-e))).ushln(e-52)
}
}
},{"bn.js":81,"double-bits":151}],72:[function(_dereq_,module,exports){
'use strict'
var num2bn = _dereq_('./num-to-bn')
var sign = _dereq_('./bn-sign')
module.exports = rationalize
function rationalize(numer, denom) {
var snumer = sign(numer)
var sdenom = sign(denom)
if(snumer === 0) {
return [num2bn(0), num2bn(1)]
}
if(sdenom === 0) {
return [num2bn(0), num2bn(0)]
}
if(sdenom < 0) {
numer = numer.neg()
denom = denom.neg()
}
var d = numer.gcd(denom)
if(d.cmpn(1)) {
return [ numer.div(d), denom.div(d) ]
}
return [ numer, denom ]
}
},{"./bn-sign":67,"./num-to-bn":71}],73:[function(_dereq_,module,exports){
'use strict'
var BN = _dereq_('bn.js')
module.exports = str2BN
function str2BN(x) {
return new BN(x)
}
},{"bn.js":81}],74:[function(_dereq_,module,exports){
'use strict'
var rationalize = _dereq_('./lib/rationalize')
module.exports = mul
function mul(a, b) {
return rationalize(a[0].mul(b[0]), a[1].mul(b[1]))
}
},{"./lib/rationalize":72}],75:[function(_dereq_,module,exports){
'use strict'
var bnsign = _dereq_('./lib/bn-sign')
module.exports = sign
function sign(x) {
return bnsign(x[0]) * bnsign(x[1])
}
},{"./lib/bn-sign":67}],76:[function(_dereq_,module,exports){
'use strict'
var rationalize = _dereq_('./lib/rationalize')
module.exports = sub
function sub(a, b) {
return rationalize(a[0].mul(b[1]).sub(a[1].mul(b[0])), a[1].mul(b[1]))
}
},{"./lib/rationalize":72}],77:[function(_dereq_,module,exports){
'use strict'
var bn2num = _dereq_('./lib/bn-to-num')
var ctz = _dereq_('./lib/ctz')
module.exports = roundRat
// Round a rational to the closest float
function roundRat (f) {
var a = f[0]
var b = f[1]
if (a.cmpn(0) === 0) {
return 0
}
var h = a.abs().divmod(b.abs())
var iv = h.div
var x = bn2num(iv)
var ir = h.mod
var sgn = (a.negative !== b.negative) ? -1 : 1
if (ir.cmpn(0) === 0) {
return sgn * x
}
if (x) {
var s = ctz(x) + 4
var y = bn2num(ir.ushln(s).divRound(b))
return sgn * (x + y * Math.pow(2, -s))
} else {
var ybits = b.bitLength() - ir.bitLength() + 53
var y = bn2num(ir.ushln(ybits).divRound(b))
if (ybits < 1023) {
return sgn * y * Math.pow(2, -ybits)
}
y *= Math.pow(2, -1023)
return sgn * y * Math.pow(2, 1023 - ybits)
}
}
},{"./lib/bn-to-num":68,"./lib/ctz":69}],78:[function(_dereq_,module,exports){
"use strict"
function compileSearch(funcName, predicate, reversed, extraArgs, useNdarray, earlyOut) {
var code = [
"function ", funcName, "(a,l,h,", extraArgs.join(","), "){",
earlyOut ? "" : "var i=", (reversed ? "l-1" : "h+1"),
";while(l<=h){\
var m=(l+h)>>>1,x=a", useNdarray ? ".get(m)" : "[m]"]
if(earlyOut) {
if(predicate.indexOf("c") < 0) {
code.push(";if(x===y){return m}else if(x<=y){")
} else {
code.push(";var p=c(x,y);if(p===0){return m}else if(p<=0){")
}
} else {
code.push(";if(", predicate, "){i=m;")
}
if(reversed) {
code.push("l=m+1}else{h=m-1}")
} else {
code.push("h=m-1}else{l=m+1}")
}
code.push("}")
if(earlyOut) {
code.push("return -1};")
} else {
code.push("return i};")
}
return code.join("")
}
function compileBoundsSearch(predicate, reversed, suffix, earlyOut) {
var result = new Function([
compileSearch("A", "x" + predicate + "y", reversed, ["y"], false, earlyOut),
compileSearch("B", "x" + predicate + "y", reversed, ["y"], true, earlyOut),
compileSearch("P", "c(x,y)" + predicate + "0", reversed, ["y", "c"], false, earlyOut),
compileSearch("Q", "c(x,y)" + predicate + "0", reversed, ["y", "c"], true, earlyOut),
"function dispatchBsearch", suffix, "(a,y,c,l,h){\
if(a.shape){\
if(typeof(c)==='function'){\
return Q(a,(l===undefined)?0:l|0,(h===undefined)?a.shape[0]-1:h|0,y,c)\
}else{\
return B(a,(c===undefined)?0:c|0,(l===undefined)?a.shape[0]-1:l|0,y)\
}}else{\
if(typeof(c)==='function'){\
return P(a,(l===undefined)?0:l|0,(h===undefined)?a.length-1:h|0,y,c)\
}else{\
return A(a,(c===undefined)?0:c|0,(l===undefined)?a.length-1:l|0,y)\
}}}\
return dispatchBsearch", suffix].join(""))
return result()
}
module.exports = {
ge: compileBoundsSearch(">=", false, "GE"),
gt: compileBoundsSearch(">", false, "GT"),
lt: compileBoundsSearch("<", true, "LT"),
le: compileBoundsSearch("<=", true, "LE"),
eq: compileBoundsSearch("-", true, "EQ", true)
}
},{}],79:[function(_dereq_,module,exports){
/**
* Bit twiddling hacks for JavaScript.
*
* Author: Mikola Lysenko
*
* Ported from Stanford bit twiddling hack library:
* http://graphics.stanford.edu/~seander/bithacks.html
*/
"use strict"; "use restrict";
//Number of bits in an integer
var INT_BITS = 32;
//Constants
exports.INT_BITS = INT_BITS;
exports.INT_MAX = 0x7fffffff;
exports.INT_MIN = -1<<(INT_BITS-1);
//Returns -1, 0, +1 depending on sign of x
exports.sign = function(v) {
return (v > 0) - (v < 0);
}
//Computes absolute value of integer
exports.abs = function(v) {
var mask = v >> (INT_BITS-1);
return (v ^ mask) - mask;
}
//Computes minimum of integers x and y
exports.min = function(x, y) {
return y ^ ((x ^ y) & -(x < y));
}
//Computes maximum of integers x and y
exports.max = function(x, y) {
return x ^ ((x ^ y) & -(x < y));
}
//Checks if a number is a power of two
exports.isPow2 = function(v) {
return !(v & (v-1)) && (!!v);
}
//Computes log base 2 of v
exports.log2 = function(v) {
var r, shift;
r = (v > 0xFFFF) << 4; v >>>= r;
shift = (v > 0xFF ) << 3; v >>>= shift; r |= shift;
shift = (v > 0xF ) << 2; v >>>= shift; r |= shift;
shift = (v > 0x3 ) << 1; v >>>= shift; r |= shift;
return r | (v >> 1);
}
//Computes log base 10 of v
exports.log10 = function(v) {
return (v >= 1000000000) ? 9 : (v >= 100000000) ? 8 : (v >= 10000000) ? 7 :
(v >= 1000000) ? 6 : (v >= 100000) ? 5 : (v >= 10000) ? 4 :
(v >= 1000) ? 3 : (v >= 100) ? 2 : (v >= 10) ? 1 : 0;
}
//Counts number of bits
exports.popCount = function(v) {
v = v - ((v >>> 1) & 0x55555555);
v = (v & 0x33333333) + ((v >>> 2) & 0x33333333);
return ((v + (v >>> 4) & 0xF0F0F0F) * 0x1010101) >>> 24;
}
//Counts number of trailing zeros
function countTrailingZeros(v) {
var c = 32;
v &= -v;
if (v) c--;
if (v & 0x0000FFFF) c -= 16;
if (v & 0x00FF00FF) c -= 8;
if (v & 0x0F0F0F0F) c -= 4;
if (v & 0x33333333) c -= 2;
if (v & 0x55555555) c -= 1;
return c;
}
exports.countTrailingZeros = countTrailingZeros;
//Rounds to next power of 2
exports.nextPow2 = function(v) {
v += v === 0;
--v;
v |= v >>> 1;
v |= v >>> 2;
v |= v >>> 4;
v |= v >>> 8;
v |= v >>> 16;
return v + 1;
}
//Rounds down to previous power of 2
exports.prevPow2 = function(v) {
v |= v >>> 1;
v |= v >>> 2;
v |= v >>> 4;
v |= v >>> 8;
v |= v >>> 16;
return v - (v>>>1);
}
//Computes parity of word
exports.parity = function(v) {
v ^= v >>> 16;
v ^= v >>> 8;
v ^= v >>> 4;
v &= 0xf;
return (0x6996 >>> v) & 1;
}
var REVERSE_TABLE = new Array(256);
(function(tab) {
for(var i=0; i<256; ++i) {
var v = i, r = i, s = 7;
for (v >>>= 1; v; v >>>= 1) {
r <<= 1;
r |= v & 1;
--s;
}
tab[i] = (r << s) & 0xff;
}
})(REVERSE_TABLE);
//Reverse bits in a 32 bit word
exports.reverse = function(v) {
return (REVERSE_TABLE[ v & 0xff] << 24) |
(REVERSE_TABLE[(v >>> 8) & 0xff] << 16) |
(REVERSE_TABLE[(v >>> 16) & 0xff] << 8) |
REVERSE_TABLE[(v >>> 24) & 0xff];
}
//Interleave bits of 2 coordinates with 16 bits. Useful for fast quadtree codes
exports.interleave2 = function(x, y) {
x &= 0xFFFF;
x = (x | (x << 8)) & 0x00FF00FF;
x = (x | (x << 4)) & 0x0F0F0F0F;
x = (x | (x << 2)) & 0x33333333;
x = (x | (x << 1)) & 0x55555555;
y &= 0xFFFF;
y = (y | (y << 8)) & 0x00FF00FF;
y = (y | (y << 4)) & 0x0F0F0F0F;
y = (y | (y << 2)) & 0x33333333;
y = (y | (y << 1)) & 0x55555555;
return x | (y << 1);
}
//Extracts the nth interleaved component
exports.deinterleave2 = function(v, n) {
v = (v >>> n) & 0x55555555;
v = (v | (v >>> 1)) & 0x33333333;
v = (v | (v >>> 2)) & 0x0F0F0F0F;
v = (v | (v >>> 4)) & 0x00FF00FF;
v = (v | (v >>> 16)) & 0x000FFFF;
return (v << 16) >> 16;
}
//Interleave bits of 3 coordinates, each with 10 bits. Useful for fast octree codes
exports.interleave3 = function(x, y, z) {
x &= 0x3FF;
x = (x | (x<<16)) & 4278190335;
x = (x | (x<<8)) & 251719695;
x = (x | (x<<4)) & 3272356035;
x = (x | (x<<2)) & 1227133513;
y &= 0x3FF;
y = (y | (y<<16)) & 4278190335;
y = (y | (y<<8)) & 251719695;
y = (y | (y<<4)) & 3272356035;
y = (y | (y<<2)) & 1227133513;
x |= (y << 1);
z &= 0x3FF;
z = (z | (z<<16)) & 4278190335;
z = (z | (z<<8)) & 251719695;
z = (z | (z<<4)) & 3272356035;
z = (z | (z<<2)) & 1227133513;
return x | (z << 2);
}
//Extracts nth interleaved component of a 3-tuple
exports.deinterleave3 = function(v, n) {
v = (v >>> n) & 1227133513;
v = (v | (v>>>2)) & 3272356035;
v = (v | (v>>>4)) & 251719695;
v = (v | (v>>>8)) & 4278190335;
v = (v | (v>>>16)) & 0x3FF;
return (v<<22)>>22;
}
//Computes next combination in colexicographic order (this is mistakenly called nextPermutation on the bit twiddling hacks page)
exports.nextCombination = function(v) {
var t = v | (v - 1);
return (t + 1) | (((~t & -~t) - 1) >>> (countTrailingZeros(v) + 1));
}
},{}],80:[function(_dereq_,module,exports){
'use strict'
var clamp = _dereq_('clamp')
module.exports = calcSDF
var INF = 1e20;
function calcSDF(src, options) {
if (!options) options = {}
var cutoff = options.cutoff == null ? 0.25 : options.cutoff
var radius = options.radius == null ? 8 : options.radius
var channel = options.channel || 0
var w, h, size, data, intData, stride, ctx, canvas, imgData, i, l
// handle image container
if (ArrayBuffer.isView(src) || Array.isArray(src)) {
if (!options.width || !options.height) throw Error('For raw data width and height should be provided by options')
w = options.width, h = options.height
data = src
if (!options.stride) stride = Math.floor(src.length / w / h)
else stride = options.stride
}
else {
if (window.HTMLCanvasElement && src instanceof window.HTMLCanvasElement) {
canvas = src
ctx = canvas.getContext('2d')
w = canvas.width, h = canvas.height
imgData = ctx.getImageData(0, 0, w, h)
data = imgData.data
stride = 4
}
else if (window.CanvasRenderingContext2D && src instanceof window.CanvasRenderingContext2D) {
canvas = src.canvas
ctx = src
w = canvas.width, h = canvas.height
imgData = ctx.getImageData(0, 0, w, h)
data = imgData.data
stride = 4
}
else if (window.ImageData && src instanceof window.ImageData) {
imgData = src
w = src.width, h = src.height
data = imgData.data
stride = 4
}
}
size = Math.max(w, h)
//convert int data to floats
if ((window.Uint8ClampedArray && data instanceof window.Uint8ClampedArray) || (window.Uint8Array && data instanceof window.Uint8Array)) {
intData = data
data = Array(w*h)
for (i = 0, l = intData.length; i < l; i++) {
data[i] = intData[i*stride + channel] / 255
}
}
else {
if (stride !== 1) throw Error('Raw data can have only 1 value per pixel')
}
// temporary arrays for the distance transform
var gridOuter = Array(w * h)
var gridInner = Array(w * h)
var f = Array(size)
var d = Array(size)
var z = Array(size + 1)
var v = Array(size)
for (i = 0, l = w * h; i < l; i++) {
var a = data[i]
gridOuter[i] = a === 1 ? 0 : a === 0 ? INF : Math.pow(Math.max(0, 0.5 - a), 2)
gridInner[i] = a === 1 ? INF : a === 0 ? 0 : Math.pow(Math.max(0, a - 0.5), 2)
}
edt(gridOuter, w, h, f, d, v, z)
edt(gridInner, w, h, f, d, v, z)
var dist = window.Float32Array ? new Float32Array(w * h) : new Array(w * h)
for (i = 0, l = w*h; i < l; i++) {
dist[i] = clamp(1 - ( (gridOuter[i] - gridInner[i]) / radius + cutoff), 0, 1)
}
return dist
}
// 2D Euclidean distance transform by Felzenszwalb & Huttenlocher https://cs.brown.edu/~pff/dt/
function edt(data, width, height, f, d, v, z) {
for (var x = 0; x < width; x++) {
for (var y = 0; y < height; y++) {
f[y] = data[y * width + x]
}
edt1d(f, d, v, z, height)
for (y = 0; y < height; y++) {
data[y * width + x] = d[y]
}
}
for (y = 0; y < height; y++) {
for (x = 0; x < width; x++) {
f[x] = data[y * width + x]
}
edt1d(f, d, v, z, width)
for (x = 0; x < width; x++) {
data[y * width + x] = Math.sqrt(d[x])
}
}
}
// 1D squared distance transform
function edt1d(f, d, v, z, n) {
v[0] = 0;
z[0] = -INF
z[1] = +INF
for (var q = 1, k = 0; q < n; q++) {
var s = ((f[q] + q * q) - (f[v[k]] + v[k] * v[k])) / (2 * q - 2 * v[k])
while (s <= z[k]) {
k--
s = ((f[q] + q * q) - (f[v[k]] + v[k] * v[k])) / (2 * q - 2 * v[k])
}
k++
v[k] = q
z[k] = s
z[k + 1] = +INF
}
for (q = 0, k = 0; q < n; q++) {
while (z[k + 1] < q) k++
d[q] = (q - v[k]) * (q - v[k]) + f[v[k]]
}
}
},{"clamp":102}],81:[function(_dereq_,module,exports){
(function (module, exports) {
'use strict';
// Utils
function assert (val, msg) {
if (!val) throw new Error(msg || 'Assertion failed');
}
// Could use `inherits` module, but don't want to move from single file
// architecture yet.
function inherits (ctor, superCtor) {
ctor.super_ = superCtor;
var TempCtor = function () {};
TempCtor.prototype = superCtor.prototype;
ctor.prototype = new TempCtor();
ctor.prototype.constructor = ctor;
}
// BN
function BN (number, base, endian) {
if (BN.isBN(number)) {
return number;
}
this.negative = 0;
this.words = null;
this.length = 0;
// Reduction context
this.red = null;
if (number !== null) {
if (base === 'le' || base === 'be') {
endian = base;
base = 10;
}
this._init(number || 0, base || 10, endian || 'be');
}
}
if (typeof module === 'object') {
module.exports = BN;
} else {
exports.BN = BN;
}
BN.BN = BN;
BN.wordSize = 26;
var Buffer;
try {
Buffer = _dereq_('buffer').Buffer;
} catch (e) {
}
BN.isBN = function isBN (num) {
if (num instanceof BN) {
return true;
}
return num !== null && typeof num === 'object' &&
num.constructor.wordSize === BN.wordSize && Array.isArray(num.words);
};
BN.max = function max (left, right) {
if (left.cmp(right) > 0) return left;
return right;
};
BN.min = function min (left, right) {
if (left.cmp(right) < 0) return left;
return right;
};
BN.prototype._init = function init (number, base, endian) {
if (typeof number === 'number') {
return this._initNumber(number, base, endian);
}
if (typeof number === 'object') {
return this._initArray(number, base, endian);
}
if (base === 'hex') {
base = 16;
}
assert(base === (base | 0) && base >= 2 && base <= 36);
number = number.toString().replace(/\s+/g, '');
var start = 0;
if (number[0] === '-') {
start++;
}
if (base === 16) {
this._parseHex(number, start);
} else {
this._parseBase(number, base, start);
}
if (number[0] === '-') {
this.negative = 1;
}
this.strip();
if (endian !== 'le') return;
this._initArray(this.toArray(), base, endian);
};
BN.prototype._initNumber = function _initNumber (number, base, endian) {
if (number < 0) {
this.negative = 1;
number = -number;
}
if (number < 0x4000000) {
this.words = [ number & 0x3ffffff ];
this.length = 1;
} else if (number < 0x10000000000000) {
this.words = [
number & 0x3ffffff,
(number / 0x4000000) & 0x3ffffff
];
this.length = 2;
} else {
assert(number < 0x20000000000000); // 2 ^ 53 (unsafe)
this.words = [
number & 0x3ffffff,
(number / 0x4000000) & 0x3ffffff,
1
];
this.length = 3;
}
if (endian !== 'le') return;
// Reverse the bytes
this._initArray(this.toArray(), base, endian);
};
BN.prototype._initArray = function _initArray (number, base, endian) {
// Perhaps a Uint8Array
assert(typeof number.length === 'number');
if (number.length <= 0) {
this.words = [ 0 ];
this.length = 1;
return this;
}
this.length = Math.ceil(number.length / 3);
this.words = new Array(this.length);
for (var i = 0; i < this.length; i++) {
this.words[i] = 0;
}
var j, w;
var off = 0;
if (endian === 'be') {
for (i = number.length - 1, j = 0; i >= 0; i -= 3) {
w = number[i] | (number[i - 1] << 8) | (number[i - 2] << 16);
this.words[j] |= (w << off) & 0x3ffffff;
this.words[j + 1] = (w >>> (26 - off)) & 0x3ffffff;
off += 24;
if (off >= 26) {
off -= 26;
j++;
}
}
} else if (endian === 'le') {
for (i = 0, j = 0; i < number.length; i += 3) {
w = number[i] | (number[i + 1] << 8) | (number[i + 2] << 16);
this.words[j] |= (w << off) & 0x3ffffff;
this.words[j + 1] = (w >>> (26 - off)) & 0x3ffffff;
off += 24;
if (off >= 26) {
off -= 26;
j++;
}
}
}
return this.strip();
};
function parseHex (str, start, end) {
var r = 0;
var len = Math.min(str.length, end);
for (var i = start; i < len; i++) {
var c = str.charCodeAt(i) - 48;
r <<= 4;
// 'a' - 'f'
if (c >= 49 && c <= 54) {
r |= c - 49 + 0xa;
// 'A' - 'F'
} else if (c >= 17 && c <= 22) {
r |= c - 17 + 0xa;
// '0' - '9'
} else {
r |= c & 0xf;
}
}
return r;
}
BN.prototype._parseHex = function _parseHex (number, start) {
// Create possibly bigger array to ensure that it fits the number
this.length = Math.ceil((number.length - start) / 6);
this.words = new Array(this.length);
for (var i = 0; i < this.length; i++) {
this.words[i] = 0;
}
var j, w;
// Scan 24-bit chunks and add them to the number
var off = 0;
for (i = number.length - 6, j = 0; i >= start; i -= 6) {
w = parseHex(number, i, i + 6);
this.words[j] |= (w << off) & 0x3ffffff;
// NOTE: `0x3fffff` is intentional here, 26bits max shift + 24bit hex limb
this.words[j + 1] |= w >>> (26 - off) & 0x3fffff;
off += 24;
if (off >= 26) {
off -= 26;
j++;
}
}
if (i + 6 !== start) {
w = parseHex(number, start, i + 6);
this.words[j] |= (w << off) & 0x3ffffff;
this.words[j + 1] |= w >>> (26 - off) & 0x3fffff;
}
this.strip();
};
function parseBase (str, start, end, mul) {
var r = 0;
var len = Math.min(str.length, end);
for (var i = start; i < len; i++) {
var c = str.charCodeAt(i) - 48;
r *= mul;
// 'a'
if (c >= 49) {
r += c - 49 + 0xa;
// 'A'
} else if (c >= 17) {
r += c - 17 + 0xa;
// '0' - '9'
} else {
r += c;
}
}
return r;
}
BN.prototype._parseBase = function _parseBase (number, base, start) {
// Initialize as zero
this.words = [ 0 ];
this.length = 1;
// Find length of limb in base
for (var limbLen = 0, limbPow = 1; limbPow <= 0x3ffffff; limbPow *= base) {
limbLen++;
}
limbLen--;
limbPow = (limbPow / base) | 0;
var total = number.length - start;
var mod = total % limbLen;
var end = Math.min(total, total - mod) + start;
var word = 0;
for (var i = start; i < end; i += limbLen) {
word = parseBase(number, i, i + limbLen, base);
this.imuln(limbPow);
if (this.words[0] + word < 0x4000000) {
this.words[0] += word;
} else {
this._iaddn(word);
}
}
if (mod !== 0) {
var pow = 1;
word = parseBase(number, i, number.length, base);
for (i = 0; i < mod; i++) {
pow *= base;
}
this.imuln(pow);
if (this.words[0] + word < 0x4000000) {
this.words[0] += word;
} else {
this._iaddn(word);
}
}
};
BN.prototype.copy = function copy (dest) {
dest.words = new Array(this.length);
for (var i = 0; i < this.length; i++) {
dest.words[i] = this.words[i];
}
dest.length = this.length;
dest.negative = this.negative;
dest.red = this.red;
};
BN.prototype.clone = function clone () {
var r = new BN(null);
this.copy(r);
return r;
};
BN.prototype._expand = function _expand (size) {
while (this.length < size) {
this.words[this.length++] = 0;
}
return this;
};
// Remove leading `0` from `this`
BN.prototype.strip = function strip () {
while (this.length > 1 && this.words[this.length - 1] === 0) {
this.length--;
}
return this._normSign();
};
BN.prototype._normSign = function _normSign () {
// -0 = 0
if (this.length === 1 && this.words[0] === 0) {
this.negative = 0;
}
return this;
};
BN.prototype.inspect = function inspect () {
return (this.red ? '<BN-R: ' : '<BN: ') + this.toString(16) + '>';
};
/*
var zeros = [];
var groupSizes = [];
var groupBases = [];
var s = '';
var i = -1;
while (++i < BN.wordSize) {
zeros[i] = s;
s += '0';
}
groupSizes[0] = 0;
groupSizes[1] = 0;
groupBases[0] = 0;
groupBases[1] = 0;
var base = 2 - 1;
while (++base < 36 + 1) {
var groupSize = 0;
var groupBase = 1;
while (groupBase < (1 << BN.wordSize) / base) {
groupBase *= base;
groupSize += 1;
}
groupSizes[base] = groupSize;
groupBases[base] = groupBase;
}
*/
var zeros = [
'',
'0',
'00',
'000',
'0000',
'00000',
'000000',
'0000000',
'00000000',
'000000000',
'0000000000',
'00000000000',
'000000000000',
'0000000000000',
'00000000000000',
'000000000000000',
'0000000000000000',
'00000000000000000',
'000000000000000000',
'0000000000000000000',
'00000000000000000000',
'000000000000000000000',
'0000000000000000000000',
'00000000000000000000000',
'000000000000000000000000',
'0000000000000000000000000'
];
var groupSizes = [
0, 0,
25, 16, 12, 11, 10, 9, 8,
8, 7, 7, 7, 7, 6, 6,
6, 6, 6, 6, 6, 5, 5,
5, 5, 5, 5, 5, 5, 5,
5, 5, 5, 5, 5, 5, 5
];
var groupBases = [
0, 0,
33554432, 43046721, 16777216, 48828125, 60466176, 40353607, 16777216,
43046721, 10000000, 19487171, 35831808, 62748517, 7529536, 11390625,
16777216, 24137569, 34012224, 47045881, 64000000, 4084101, 5153632,
6436343, 7962624, 9765625, 11881376, 14348907, 17210368, 20511149,
24300000, 28629151, 33554432, 39135393, 45435424, 52521875, 60466176
];
BN.prototype.toString = function toString (base, padding) {
base = base || 10;
padding = padding | 0 || 1;
var out;
if (base === 16 || base === 'hex') {
out = '';
var off = 0;
var carry = 0;
for (var i = 0; i < this.length; i++) {
var w = this.words[i];
var word = (((w << off) | carry) & 0xffffff).toString(16);
carry = (w >>> (24 - off)) & 0xffffff;
if (carry !== 0 || i !== this.length - 1) {
out = zeros[6 - word.length] + word + out;
} else {
out = word + out;
}
off += 2;
if (off >= 26) {
off -= 26;
i--;
}
}
if (carry !== 0) {
out = carry.toString(16) + out;
}
while (out.length % padding !== 0) {
out = '0' + out;
}
if (this.negative !== 0) {
out = '-' + out;
}
return out;
}
if (base === (base | 0) && base >= 2 && base <= 36) {
// var groupSize = Math.floor(BN.wordSize * Math.LN2 / Math.log(base));
var groupSize = groupSizes[base];
// var groupBase = Math.pow(base, groupSize);
var groupBase = groupBases[base];
out = '';
var c = this.clone();
c.negative = 0;
while (!c.isZero()) {
var r = c.modn(groupBase).toString(base);
c = c.idivn(groupBase);
if (!c.isZero()) {
out = zeros[groupSize - r.length] + r + out;
} else {
out = r + out;
}
}
if (this.isZero()) {
out = '0' + out;
}
while (out.length % padding !== 0) {
out = '0' + out;
}
if (this.negative !== 0) {
out = '-' + out;
}
return out;
}
assert(false, 'Base should be between 2 and 36');
};
BN.prototype.toNumber = function toNumber () {
var ret = this.words[0];
if (this.length === 2) {
ret += this.words[1] * 0x4000000;
} else if (this.length === 3 && this.words[2] === 0x01) {
// NOTE: at this stage it is known that the top bit is set
ret += 0x10000000000000 + (this.words[1] * 0x4000000);
} else if (this.length > 2) {
assert(false, 'Number can only safely store up to 53 bits');
}
return (this.negative !== 0) ? -ret : ret;
};
BN.prototype.toJSON = function toJSON () {
return this.toString(16);
};
BN.prototype.toBuffer = function toBuffer (endian, length) {
assert(typeof Buffer !== 'undefined');
return this.toArrayLike(Buffer, endian, length);
};
BN.prototype.toArray = function toArray (endian, length) {
return this.toArrayLike(Array, endian, length);
};
BN.prototype.toArrayLike = function toArrayLike (ArrayType, endian, length) {
var byteLength = this.byteLength();
var reqLength = length || Math.max(1, byteLength);
assert(byteLength <= reqLength, 'byte array longer than desired length');
assert(reqLength > 0, 'Requested array length <= 0');
this.strip();
var littleEndian = endian === 'le';
var res = new ArrayType(reqLength);
var b, i;
var q = this.clone();
if (!littleEndian) {
// Assume big-endian
for (i = 0; i < reqLength - byteLength; i++) {
res[i] = 0;
}
for (i = 0; !q.isZero(); i++) {
b = q.andln(0xff);
q.iushrn(8);
res[reqLength - i - 1] = b;
}
} else {
for (i = 0; !q.isZero(); i++) {
b = q.andln(0xff);
q.iushrn(8);
res[i] = b;
}
for (; i < reqLength; i++) {
res[i] = 0;
}
}
return res;
};
if (Math.clz32) {
BN.prototype._countBits = function _countBits (w) {
return 32 - Math.clz32(w);
};
} else {
BN.prototype._countBits = function _countBits (w) {
var t = w;
var r = 0;
if (t >= 0x1000) {
r += 13;
t >>>= 13;
}
if (t >= 0x40) {
r += 7;
t >>>= 7;
}
if (t >= 0x8) {
r += 4;
t >>>= 4;
}
if (t >= 0x02) {
r += 2;
t >>>= 2;
}
return r + t;
};
}
BN.prototype._zeroBits = function _zeroBits (w) {
// Short-cut
if (w === 0) return 26;
var t = w;
var r = 0;
if ((t & 0x1fff) === 0) {
r += 13;
t >>>= 13;
}
if ((t & 0x7f) === 0) {
r += 7;
t >>>= 7;
}
if ((t & 0xf) === 0) {
r += 4;
t >>>= 4;
}
if ((t & 0x3) === 0) {
r += 2;
t >>>= 2;
}
if ((t & 0x1) === 0) {
r++;
}
return r;
};
// Return number of used bits in a BN
BN.prototype.bitLength = function bitLength () {
var w = this.words[this.length - 1];
var hi = this._countBits(w);
return (this.length - 1) * 26 + hi;
};
function toBitArray (num) {
var w = new Array(num.bitLength());
for (var bit = 0; bit < w.length; bit++) {
var off = (bit / 26) | 0;
var wbit = bit % 26;
w[bit] = (num.words[off] & (1 << wbit)) >>> wbit;
}
return w;
}
// Number of trailing zero bits
BN.prototype.zeroBits = function zeroBits () {
if (this.isZero()) return 0;
var r = 0;
for (var i = 0; i < this.length; i++) {
var b = this._zeroBits(this.words[i]);
r += b;
if (b !== 26) break;
}
return r;
};
BN.prototype.byteLength = function byteLength () {
return Math.ceil(this.bitLength() / 8);
};
BN.prototype.toTwos = function toTwos (width) {
if (this.negative !== 0) {
return this.abs().inotn(width).iaddn(1);
}
return this.clone();
};
BN.prototype.fromTwos = function fromTwos (width) {
if (this.testn(width - 1)) {
return this.notn(width).iaddn(1).ineg();
}
return this.clone();
};
BN.prototype.isNeg = function isNeg () {
return this.negative !== 0;
};
// Return negative clone of `this`
BN.prototype.neg = function neg () {
return this.clone().ineg();
};
BN.prototype.ineg = function ineg () {
if (!this.isZero()) {
this.negative ^= 1;
}
return this;
};
// Or `num` with `this` in-place
BN.prototype.iuor = function iuor (num) {
while (this.length < num.length) {
this.words[this.length++] = 0;
}
for (var i = 0; i < num.length; i++) {
this.words[i] = this.words[i] | num.words[i];
}
return this.strip();
};
BN.prototype.ior = function ior (num) {
assert((this.negative | num.negative) === 0);
return this.iuor(num);
};
// Or `num` with `this`
BN.prototype.or = function or (num) {
if (this.length > num.length) return this.clone().ior(num);
return num.clone().ior(this);
};
BN.prototype.uor = function uor (num) {
if (this.length > num.length) return this.clone().iuor(num);
return num.clone().iuor(this);
};
// And `num` with `this` in-place
BN.prototype.iuand = function iuand (num) {
// b = min-length(num, this)
var b;
if (this.length > num.length) {
b = num;
} else {
b = this;
}
for (var i = 0; i < b.length; i++) {
this.words[i] = this.words[i] & num.words[i];
}
this.length = b.length;
return this.strip();
};
BN.prototype.iand = function iand (num) {
assert((this.negative | num.negative) === 0);
return this.iuand(num);
};
// And `num` with `this`
BN.prototype.and = function and (num) {
if (this.length > num.length) return this.clone().iand(num);
return num.clone().iand(this);
};
BN.prototype.uand = function uand (num) {
if (this.length > num.length) return this.clone().iuand(num);
return num.clone().iuand(this);
};
// Xor `num` with `this` in-place
BN.prototype.iuxor = function iuxor (num) {
// a.length > b.length
var a;
var b;
if (this.length > num.length) {
a = this;
b = num;
} else {
a = num;
b = this;
}
for (var i = 0; i < b.length; i++) {
this.words[i] = a.words[i] ^ b.words[i];
}
if (this !== a) {
for (; i < a.length; i++) {
this.words[i] = a.words[i];
}
}
this.length = a.length;
return this.strip();
};
BN.prototype.ixor = function ixor (num) {
assert((this.negative | num.negative) === 0);
return this.iuxor(num);
};
// Xor `num` with `this`
BN.prototype.xor = function xor (num) {
if (this.length > num.length) return this.clone().ixor(num);
return num.clone().ixor(this);
};
BN.prototype.uxor = function uxor (num) {
if (this.length > num.length) return this.clone().iuxor(num);
return num.clone().iuxor(this);
};
// Not ``this`` with ``width`` bitwidth
BN.prototype.inotn = function inotn (width) {
assert(typeof width === 'number' && width >= 0);
var bytesNeeded = Math.ceil(width / 26) | 0;
var bitsLeft = width % 26;
// Extend the buffer with leading zeroes
this._expand(bytesNeeded);
if (bitsLeft > 0) {
bytesNeeded--;
}
// Handle complete words
for (var i = 0; i < bytesNeeded; i++) {
this.words[i] = ~this.words[i] & 0x3ffffff;
}
// Handle the residue
if (bitsLeft > 0) {
this.words[i] = ~this.words[i] & (0x3ffffff >> (26 - bitsLeft));
}
// And remove leading zeroes
return this.strip();
};
BN.prototype.notn = function notn (width) {
return this.clone().inotn(width);
};
// Set `bit` of `this`
BN.prototype.setn = function setn (bit, val) {
assert(typeof bit === 'number' && bit >= 0);
var off = (bit / 26) | 0;
var wbit = bit % 26;
this._expand(off + 1);
if (val) {
this.words[off] = this.words[off] | (1 << wbit);
} else {
this.words[off] = this.words[off] & ~(1 << wbit);
}
return this.strip();
};
// Add `num` to `this` in-place
BN.prototype.iadd = function iadd (num) {
var r;
// negative + positive
if (this.negative !== 0 && num.negative === 0) {
this.negative = 0;
r = this.isub(num);
this.negative ^= 1;
return this._normSign();
// positive + negative
} else if (this.negative === 0 && num.negative !== 0) {
num.negative = 0;
r = this.isub(num);
num.negative = 1;
return r._normSign();
}
// a.length > b.length
var a, b;
if (this.length > num.length) {
a = this;
b = num;
} else {
a = num;
b = this;
}
var carry = 0;
for (var i = 0; i < b.length; i++) {
r = (a.words[i] | 0) + (b.words[i] | 0) + carry;
this.words[i] = r & 0x3ffffff;
carry = r >>> 26;
}
for (; carry !== 0 && i < a.length; i++) {
r = (a.words[i] | 0) + carry;
this.words[i] = r & 0x3ffffff;
carry = r >>> 26;
}
this.length = a.length;
if (carry !== 0) {
this.words[this.length] = carry;
this.length++;
// Copy the rest of the words
} else if (a !== this) {
for (; i < a.length; i++) {
this.words[i] = a.words[i];
}
}
return this;
};
// Add `num` to `this`
BN.prototype.add = function add (num) {
var res;
if (num.negative !== 0 && this.negative === 0) {
num.negative = 0;
res = this.sub(num);
num.negative ^= 1;
return res;
} else if (num.negative === 0 && this.negative !== 0) {
this.negative = 0;
res = num.sub(this);
this.negative = 1;
return res;
}
if (this.length > num.length) return this.clone().iadd(num);
return num.clone().iadd(this);
};
// Subtract `num` from `this` in-place
BN.prototype.isub = function isub (num) {
// this - (-num) = this + num
if (num.negative !== 0) {
num.negative = 0;
var r = this.iadd(num);
num.negative = 1;
return r._normSign();
// -this - num = -(this + num)
} else if (this.negative !== 0) {
this.negative = 0;
this.iadd(num);
this.negative = 1;
return this._normSign();
}
// At this point both numbers are positive
var cmp = this.cmp(num);
// Optimization - zeroify
if (cmp === 0) {
this.negative = 0;
this.length = 1;
this.words[0] = 0;
return this;
}
// a > b
var a, b;
if (cmp > 0) {
a = this;
b = num;
} else {
a = num;
b = this;
}
var carry = 0;
for (var i = 0; i < b.length; i++) {
r = (a.words[i] | 0) - (b.words[i] | 0) + carry;
carry = r >> 26;
this.words[i] = r & 0x3ffffff;
}
for (; carry !== 0 && i < a.length; i++) {
r = (a.words[i] | 0) + carry;
carry = r >> 26;
this.words[i] = r & 0x3ffffff;
}
// Copy rest of the words
if (carry === 0 && i < a.length && a !== this) {
for (; i < a.length; i++) {
this.words[i] = a.words[i];
}
}
this.length = Math.max(this.length, i);
if (a !== this) {
this.negative = 1;
}
return this.strip();
};
// Subtract `num` from `this`
BN.prototype.sub = function sub (num) {
return this.clone().isub(num);
};
function smallMulTo (self, num, out) {
out.negative = num.negative ^ self.negative;
var len = (self.length + num.length) | 0;
out.length = len;
len = (len - 1) | 0;
// Peel one iteration (compiler can't do it, because of code complexity)
var a = self.words[0] | 0;
var b = num.words[0] | 0;
var r = a * b;
var lo = r & 0x3ffffff;
var carry = (r / 0x4000000) | 0;
out.words[0] = lo;
for (var k = 1; k < len; k++) {
// Sum all words with the same `i + j = k` and accumulate `ncarry`,
// note that ncarry could be >= 0x3ffffff
var ncarry = carry >>> 26;
var rword = carry & 0x3ffffff;
var maxJ = Math.min(k, num.length - 1);
for (var j = Math.max(0, k - self.length + 1); j <= maxJ; j++) {
var i = (k - j) | 0;
a = self.words[i] | 0;
b = num.words[j] | 0;
r = a * b + rword;
ncarry += (r / 0x4000000) | 0;
rword = r & 0x3ffffff;
}
out.words[k] = rword | 0;
carry = ncarry | 0;
}
if (carry !== 0) {
out.words[k] = carry | 0;
} else {
out.length--;
}
return out.strip();
}
// TODO(indutny): it may be reasonable to omit it for users who don't need
// to work with 256-bit numbers, otherwise it gives 20% improvement for 256-bit
// multiplication (like elliptic secp256k1).
var comb10MulTo = function comb10MulTo (self, num, out) {
var a = self.words;
var b = num.words;
var o = out.words;
var c = 0;
var lo;
var mid;
var hi;
var a0 = a[0] | 0;
var al0 = a0 & 0x1fff;
var ah0 = a0 >>> 13;
var a1 = a[1] | 0;
var al1 = a1 & 0x1fff;
var ah1 = a1 >>> 13;
var a2 = a[2] | 0;
var al2 = a2 & 0x1fff;
var ah2 = a2 >>> 13;
var a3 = a[3] | 0;
var al3 = a3 & 0x1fff;
var ah3 = a3 >>> 13;
var a4 = a[4] | 0;
var al4 = a4 & 0x1fff;
var ah4 = a4 >>> 13;
var a5 = a[5] | 0;
var al5 = a5 & 0x1fff;
var ah5 = a5 >>> 13;
var a6 = a[6] | 0;
var al6 = a6 & 0x1fff;
var ah6 = a6 >>> 13;
var a7 = a[7] | 0;
var al7 = a7 & 0x1fff;
var ah7 = a7 >>> 13;
var a8 = a[8] | 0;
var al8 = a8 & 0x1fff;
var ah8 = a8 >>> 13;
var a9 = a[9] | 0;
var al9 = a9 & 0x1fff;
var ah9 = a9 >>> 13;
var b0 = b[0] | 0;
var bl0 = b0 & 0x1fff;
var bh0 = b0 >>> 13;
var b1 = b[1] | 0;
var bl1 = b1 & 0x1fff;
var bh1 = b1 >>> 13;
var b2 = b[2] | 0;
var bl2 = b2 & 0x1fff;
var bh2 = b2 >>> 13;
var b3 = b[3] | 0;
var bl3 = b3 & 0x1fff;
var bh3 = b3 >>> 13;
var b4 = b[4] | 0;
var bl4 = b4 & 0x1fff;
var bh4 = b4 >>> 13;
var b5 = b[5] | 0;
var bl5 = b5 & 0x1fff;
var bh5 = b5 >>> 13;
var b6 = b[6] | 0;
var bl6 = b6 & 0x1fff;
var bh6 = b6 >>> 13;
var b7 = b[7] | 0;
var bl7 = b7 & 0x1fff;
var bh7 = b7 >>> 13;
var b8 = b[8] | 0;
var bl8 = b8 & 0x1fff;
var bh8 = b8 >>> 13;
var b9 = b[9] | 0;
var bl9 = b9 & 0x1fff;
var bh9 = b9 >>> 13;
out.negative = self.negative ^ num.negative;
out.length = 19;
/* k = 0 */
lo = Math.imul(al0, bl0);
mid = Math.imul(al0, bh0);
mid = (mid + Math.imul(ah0, bl0)) | 0;
hi = Math.imul(ah0, bh0);
var w0 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0;
c = (((hi + (mid >>> 13)) | 0) + (w0 >>> 26)) | 0;
w0 &= 0x3ffffff;
/* k = 1 */
lo = Math.imul(al1, bl0);
mid = Math.imul(al1, bh0);
mid = (mid + Math.imul(ah1, bl0)) | 0;
hi = Math.imul(ah1, bh0);
lo = (lo + Math.imul(al0, bl1)) | 0;
mid = (mid + Math.imul(al0, bh1)) | 0;
mid = (mid + Math.imul(ah0, bl1)) | 0;
hi = (hi + Math.imul(ah0, bh1)) | 0;
var w1 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0;
c = (((hi + (mid >>> 13)) | 0) + (w1 >>> 26)) | 0;
w1 &= 0x3ffffff;
/* k = 2 */
lo = Math.imul(al2, bl0);
mid = Math.imul(al2, bh0);
mid = (mid + Math.imul(ah2, bl0)) | 0;
hi = Math.imul(ah2, bh0);
lo = (lo + Math.imul(al1, bl1)) | 0;
mid = (mid + Math.imul(al1, bh1)) | 0;
mid = (mid + Math.imul(ah1, bl1)) | 0;
hi = (hi + Math.imul(ah1, bh1)) | 0;
lo = (lo + Math.imul(al0, bl2)) | 0;
mid = (mid + Math.imul(al0, bh2)) | 0;
mid = (mid + Math.imul(ah0, bl2)) | 0;
hi = (hi + Math.imul(ah0, bh2)) | 0;
var w2 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0;
c = (((hi + (mid >>> 13)) | 0) + (w2 >>> 26)) | 0;
w2 &= 0x3ffffff;
/* k = 3 */
lo = Math.imul(al3, bl0);
mid = Math.imul(al3, bh0);
mid = (mid + Math.imul(ah3, bl0)) | 0;
hi = Math.imul(ah3, bh0);
lo = (lo + Math.imul(al2, bl1)) | 0;
mid = (mid + Math.imul(al2, bh1)) | 0;
mid = (mid + Math.imul(ah2, bl1)) | 0;
hi = (hi + Math.imul(ah2, bh1)) | 0;
lo = (lo + Math.imul(al1, bl2)) | 0;
mid = (mid + Math.imul(al1, bh2)) | 0;
mid = (mid + Math.imul(ah1, bl2)) | 0;
hi = (hi + Math.imul(ah1, bh2)) | 0;
lo = (lo + Math.imul(al0, bl3)) | 0;
mid = (mid + Math.imul(al0, bh3)) | 0;
mid = (mid + Math.imul(ah0, bl3)) | 0;
hi = (hi + Math.imul(ah0, bh3)) | 0;
var w3 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0;
c = (((hi + (mid >>> 13)) | 0) + (w3 >>> 26)) | 0;
w3 &= 0x3ffffff;
/* k = 4 */
lo = Math.imul(al4, bl0);
mid = Math.imul(al4, bh0);
mid = (mid + Math.imul(ah4, bl0)) | 0;
hi = Math.imul(ah4, bh0);
lo = (lo + Math.imul(al3, bl1)) | 0;
mid = (mid + Math.imul(al3, bh1)) | 0;
mid = (mid + Math.imul(ah3, bl1)) | 0;
hi = (hi + Math.imul(ah3, bh1)) | 0;
lo = (lo + Math.imul(al2, bl2)) | 0;
mid = (mid + Math.imul(al2, bh2)) | 0;
mid = (mid + Math.imul(ah2, bl2)) | 0;
hi = (hi + Math.imul(ah2, bh2)) | 0;
lo = (lo + Math.imul(al1, bl3)) | 0;
mid = (mid + Math.imul(al1, bh3)) | 0;
mid = (mid + Math.imul(ah1, bl3)) | 0;
hi = (hi + Math.imul(ah1, bh3)) | 0;
lo = (lo + Math.imul(al0, bl4)) | 0;
mid = (mid + Math.imul(al0, bh4)) | 0;
mid = (mid + Math.imul(ah0, bl4)) | 0;
hi = (hi + Math.imul(ah0, bh4)) | 0;
var w4 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0;
c = (((hi + (mid >>> 13)) | 0) + (w4 >>> 26)) | 0;
w4 &= 0x3ffffff;
/* k = 5 */
lo = Math.imul(al5, bl0);
mid = Math.imul(al5, bh0);
mid = (mid + Math.imul(ah5, bl0)) | 0;
hi = Math.imul(ah5, bh0);
lo = (lo + Math.imul(al4, bl1)) | 0;
mid = (mid + Math.imul(al4, bh1)) | 0;
mid = (mid + Math.imul(ah4, bl1)) | 0;
hi = (hi + Math.imul(ah4, bh1)) | 0;
lo = (lo + Math.imul(al3, bl2)) | 0;
mid = (mid + Math.imul(al3, bh2)) | 0;
mid = (mid + Math.imul(ah3, bl2)) | 0;
hi = (hi + Math.imul(ah3, bh2)) | 0;
lo = (lo + Math.imul(al2, bl3)) | 0;
mid = (mid + Math.imul(al2, bh3)) | 0;
mid = (mid + Math.imul(ah2, bl3)) | 0;
hi = (hi + Math.imul(ah2, bh3)) | 0;
lo = (lo + Math.imul(al1, bl4)) | 0;
mid = (mid + Math.imul(al1, bh4)) | 0;
mid = (mid + Math.imul(ah1, bl4)) | 0;
hi = (hi + Math.imul(ah1, bh4)) | 0;
lo = (lo + Math.imul(al0, bl5)) | 0;
mid = (mid + Math.imul(al0, bh5)) | 0;
mid = (mid + Math.imul(ah0, bl5)) | 0;
hi = (hi + Math.imul(ah0, bh5)) | 0;
var w5 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0;
c = (((hi + (mid >>> 13)) | 0) + (w5 >>> 26)) | 0;
w5 &= 0x3ffffff;
/* k = 6 */
lo = Math.imul(al6, bl0);
mid = Math.imul(al6, bh0);
mid = (mid + Math.imul(ah6, bl0)) | 0;
hi = Math.imul(ah6, bh0);
lo = (lo + Math.imul(al5, bl1)) | 0;
mid = (mid + Math.imul(al5, bh1)) | 0;
mid = (mid + Math.imul(ah5, bl1)) | 0;
hi = (hi + Math.imul(ah5, bh1)) | 0;
lo = (lo + Math.imul(al4, bl2)) | 0;
mid = (mid + Math.imul(al4, bh2)) | 0;
mid = (mid + Math.imul(ah4, bl2)) | 0;
hi = (hi + Math.imul(ah4, bh2)) | 0;
lo = (lo + Math.imul(al3, bl3)) | 0;
mid = (mid + Math.imul(al3, bh3)) | 0;
mid = (mid + Math.imul(ah3, bl3)) | 0;
hi = (hi + Math.imul(ah3, bh3)) | 0;
lo = (lo + Math.imul(al2, bl4)) | 0;
mid = (mid + Math.imul(al2, bh4)) | 0;
mid = (mid + Math.imul(ah2, bl4)) | 0;
hi = (hi + Math.imul(ah2, bh4)) | 0;
lo = (lo + Math.imul(al1, bl5)) | 0;
mid = (mid + Math.imul(al1, bh5)) | 0;
mid = (mid + Math.imul(ah1, bl5)) | 0;
hi = (hi + Math.imul(ah1, bh5)) | 0;
lo = (lo + Math.imul(al0, bl6)) | 0;
mid = (mid + Math.imul(al0, bh6)) | 0;
mid = (mid + Math.imul(ah0, bl6)) | 0;
hi = (hi + Math.imul(ah0, bh6)) | 0;
var w6 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0;
c = (((hi + (mid >>> 13)) | 0) + (w6 >>> 26)) | 0;
w6 &= 0x3ffffff;
/* k = 7 */
lo = Math.imul(al7, bl0);
mid = Math.imul(al7, bh0);
mid = (mid + Math.imul(ah7, bl0)) | 0;
hi = Math.imul(ah7, bh0);
lo = (lo + Math.imul(al6, bl1)) | 0;
mid = (mid + Math.imul(al6, bh1)) | 0;
mid = (mid + Math.imul(ah6, bl1)) | 0;
hi = (hi + Math.imul(ah6, bh1)) | 0;
lo = (lo + Math.imul(al5, bl2)) | 0;
mid = (mid + Math.imul(al5, bh2)) | 0;
mid = (mid + Math.imul(ah5, bl2)) | 0;
hi = (hi + Math.imul(ah5, bh2)) | 0;
lo = (lo + Math.imul(al4, bl3)) | 0;
mid = (mid + Math.imul(al4, bh3)) | 0;
mid = (mid + Math.imul(ah4, bl3)) | 0;
hi = (hi + Math.imul(ah4, bh3)) | 0;
lo = (lo + Math.imul(al3, bl4)) | 0;
mid = (mid + Math.imul(al3, bh4)) | 0;
mid = (mid + Math.imul(ah3, bl4)) | 0;
hi = (hi + Math.imul(ah3, bh4)) | 0;
lo = (lo + Math.imul(al2, bl5)) | 0;
mid = (mid + Math.imul(al2, bh5)) | 0;
mid = (mid + Math.imul(ah2, bl5)) | 0;
hi = (hi + Math.imul(ah2, bh5)) | 0;
lo = (lo + Math.imul(al1, bl6)) | 0;
mid = (mid + Math.imul(al1, bh6)) | 0;
mid = (mid + Math.imul(ah1, bl6)) | 0;
hi = (hi + Math.imul(ah1, bh6)) | 0;
lo = (lo + Math.imul(al0, bl7)) | 0;
mid = (mid + Math.imul(al0, bh7)) | 0;
mid = (mid + Math.imul(ah0, bl7)) | 0;
hi = (hi + Math.imul(ah0, bh7)) | 0;
var w7 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0;
c = (((hi + (mid >>> 13)) | 0) + (w7 >>> 26)) | 0;
w7 &= 0x3ffffff;
/* k = 8 */
lo = Math.imul(al8, bl0);
mid = Math.imul(al8, bh0);
mid = (mid + Math.imul(ah8, bl0)) | 0;
hi = Math.imul(ah8, bh0);
lo = (lo + Math.imul(al7, bl1)) | 0;
mid = (mid + Math.imul(al7, bh1)) | 0;
mid = (mid + Math.imul(ah7, bl1)) | 0;
hi = (hi + Math.imul(ah7, bh1)) | 0;
lo = (lo + Math.imul(al6, bl2)) | 0;
mid = (mid + Math.imul(al6, bh2)) | 0;
mid = (mid + Math.imul(ah6, bl2)) | 0;
hi = (hi + Math.imul(ah6, bh2)) | 0;
lo = (lo + Math.imul(al5, bl3)) | 0;
mid = (mid + Math.imul(al5, bh3)) | 0;
mid = (mid + Math.imul(ah5, bl3)) | 0;
hi = (hi + Math.imul(ah5, bh3)) | 0;
lo = (lo + Math.imul(al4, bl4)) | 0;
mid = (mid + Math.imul(al4, bh4)) | 0;
mid = (mid + Math.imul(ah4, bl4)) | 0;
hi = (hi + Math.imul(ah4, bh4)) | 0;
lo = (lo + Math.imul(al3, bl5)) | 0;
mid = (mid + Math.imul(al3, bh5)) | 0;
mid = (mid + Math.imul(ah3, bl5)) | 0;
hi = (hi + Math.imul(ah3, bh5)) | 0;
lo = (lo + Math.imul(al2, bl6)) | 0;
mid = (mid + Math.imul(al2, bh6)) | 0;
mid = (mid + Math.imul(ah2, bl6)) | 0;
hi = (hi + Math.imul(ah2, bh6)) | 0;
lo = (lo + Math.imul(al1, bl7)) | 0;
mid = (mid + Math.imul(al1, bh7)) | 0;
mid = (mid + Math.imul(ah1, bl7)) | 0;
hi = (hi + Math.imul(ah1, bh7)) | 0;
lo = (lo + Math.imul(al0, bl8)) | 0;
mid = (mid + Math.imul(al0, bh8)) | 0;
mid = (mid + Math.imul(ah0, bl8)) | 0;
hi = (hi + Math.imul(ah0, bh8)) | 0;
var w8 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0;
c = (((hi + (mid >>> 13)) | 0) + (w8 >>> 26)) | 0;
w8 &= 0x3ffffff;
/* k = 9 */
lo = Math.imul(al9, bl0);
mid = Math.imul(al9, bh0);
mid = (mid + Math.imul(ah9, bl0)) | 0;
hi = Math.imul(ah9, bh0);
lo = (lo + Math.imul(al8, bl1)) | 0;
mid = (mid + Math.imul(al8, bh1)) | 0;
mid = (mid + Math.imul(ah8, bl1)) | 0;
hi = (hi + Math.imul(ah8, bh1)) | 0;
lo = (lo + Math.imul(al7, bl2)) | 0;
mid = (mid + Math.imul(al7, bh2)) | 0;
mid = (mid + Math.imul(ah7, bl2)) | 0;
hi = (hi + Math.imul(ah7, bh2)) | 0;
lo = (lo + Math.imul(al6, bl3)) | 0;
mid = (mid + Math.imul(al6, bh3)) | 0;
mid = (mid + Math.imul(ah6, bl3)) | 0;
hi = (hi + Math.imul(ah6, bh3)) | 0;
lo = (lo + Math.imul(al5, bl4)) | 0;
mid = (mid + Math.imul(al5, bh4)) | 0;
mid = (mid + Math.imul(ah5, bl4)) | 0;
hi = (hi + Math.imul(ah5, bh4)) | 0;
lo = (lo + Math.imul(al4, bl5)) | 0;
mid = (mid + Math.imul(al4, bh5)) | 0;
mid = (mid + Math.imul(ah4, bl5)) | 0;
hi = (hi + Math.imul(ah4, bh5)) | 0;
lo = (lo + Math.imul(al3, bl6)) | 0;
mid = (mid + Math.imul(al3, bh6)) | 0;
mid = (mid + Math.imul(ah3, bl6)) | 0;
hi = (hi + Math.imul(ah3, bh6)) | 0;
lo = (lo + Math.imul(al2, bl7)) | 0;
mid = (mid + Math.imul(al2, bh7)) | 0;
mid = (mid + Math.imul(ah2, bl7)) | 0;
hi = (hi + Math.imul(ah2, bh7)) | 0;
lo = (lo + Math.imul(al1, bl8)) | 0;
mid = (mid + Math.imul(al1, bh8)) | 0;
mid = (mid + Math.imul(ah1, bl8)) | 0;
hi = (hi + Math.imul(ah1, bh8)) | 0;
lo = (lo + Math.imul(al0, bl9)) | 0;
mid = (mid + Math.imul(al0, bh9)) | 0;
mid = (mid + Math.imul(ah0, bl9)) | 0;
hi = (hi + Math.imul(ah0, bh9)) | 0;
var w9 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0;
c = (((hi + (mid >>> 13)) | 0) + (w9 >>> 26)) | 0;
w9 &= 0x3ffffff;
/* k = 10 */
lo = Math.imul(al9, bl1);
mid = Math.imul(al9, bh1);
mid = (mid + Math.imul(ah9, bl1)) | 0;
hi = Math.imul(ah9, bh1);
lo = (lo + Math.imul(al8, bl2)) | 0;
mid = (mid + Math.imul(al8, bh2)) | 0;
mid = (mid + Math.imul(ah8, bl2)) | 0;
hi = (hi + Math.imul(ah8, bh2)) | 0;
lo = (lo + Math.imul(al7, bl3)) | 0;
mid = (mid + Math.imul(al7, bh3)) | 0;
mid = (mid + Math.imul(ah7, bl3)) | 0;
hi = (hi + Math.imul(ah7, bh3)) | 0;
lo = (lo + Math.imul(al6, bl4)) | 0;
mid = (mid + Math.imul(al6, bh4)) | 0;
mid = (mid + Math.imul(ah6, bl4)) | 0;
hi = (hi + Math.imul(ah6, bh4)) | 0;
lo = (lo + Math.imul(al5, bl5)) | 0;
mid = (mid + Math.imul(al5, bh5)) | 0;
mid = (mid + Math.imul(ah5, bl5)) | 0;
hi = (hi + Math.imul(ah5, bh5)) | 0;
lo = (lo + Math.imul(al4, bl6)) | 0;
mid = (mid + Math.imul(al4, bh6)) | 0;
mid = (mid + Math.imul(ah4, bl6)) | 0;
hi = (hi + Math.imul(ah4, bh6)) | 0;
lo = (lo + Math.imul(al3, bl7)) | 0;
mid = (mid + Math.imul(al3, bh7)) | 0;
mid = (mid + Math.imul(ah3, bl7)) | 0;
hi = (hi + Math.imul(ah3, bh7)) | 0;
lo = (lo + Math.imul(al2, bl8)) | 0;
mid = (mid + Math.imul(al2, bh8)) | 0;
mid = (mid + Math.imul(ah2, bl8)) | 0;
hi = (hi + Math.imul(ah2, bh8)) | 0;
lo = (lo + Math.imul(al1, bl9)) | 0;
mid = (mid + Math.imul(al1, bh9)) | 0;
mid = (mid + Math.imul(ah1, bl9)) | 0;
hi = (hi + Math.imul(ah1, bh9)) | 0;
var w10 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0;
c = (((hi + (mid >>> 13)) | 0) + (w10 >>> 26)) | 0;
w10 &= 0x3ffffff;
/* k = 11 */
lo = Math.imul(al9, bl2);
mid = Math.imul(al9, bh2);
mid = (mid + Math.imul(ah9, bl2)) | 0;
hi = Math.imul(ah9, bh2);
lo = (lo + Math.imul(al8, bl3)) | 0;
mid = (mid + Math.imul(al8, bh3)) | 0;
mid = (mid + Math.imul(ah8, bl3)) | 0;
hi = (hi + Math.imul(ah8, bh3)) | 0;
lo = (lo + Math.imul(al7, bl4)) | 0;
mid = (mid + Math.imul(al7, bh4)) | 0;
mid = (mid + Math.imul(ah7, bl4)) | 0;
hi = (hi + Math.imul(ah7, bh4)) | 0;
lo = (lo + Math.imul(al6, bl5)) | 0;
mid = (mid + Math.imul(al6, bh5)) | 0;
mid = (mid + Math.imul(ah6, bl5)) | 0;
hi = (hi + Math.imul(ah6, bh5)) | 0;
lo = (lo + Math.imul(al5, bl6)) | 0;
mid = (mid + Math.imul(al5, bh6)) | 0;
mid = (mid + Math.imul(ah5, bl6)) | 0;
hi = (hi + Math.imul(ah5, bh6)) | 0;
lo = (lo + Math.imul(al4, bl7)) | 0;
mid = (mid + Math.imul(al4, bh7)) | 0;
mid = (mid + Math.imul(ah4, bl7)) | 0;
hi = (hi + Math.imul(ah4, bh7)) | 0;
lo = (lo + Math.imul(al3, bl8)) | 0;
mid = (mid + Math.imul(al3, bh8)) | 0;
mid = (mid + Math.imul(ah3, bl8)) | 0;
hi = (hi + Math.imul(ah3, bh8)) | 0;
lo = (lo + Math.imul(al2, bl9)) | 0;
mid = (mid + Math.imul(al2, bh9)) | 0;
mid = (mid + Math.imul(ah2, bl9)) | 0;
hi = (hi + Math.imul(ah2, bh9)) | 0;
var w11 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0;
c = (((hi + (mid >>> 13)) | 0) + (w11 >>> 26)) | 0;
w11 &= 0x3ffffff;
/* k = 12 */
lo = Math.imul(al9, bl3);
mid = Math.imul(al9, bh3);
mid = (mid + Math.imul(ah9, bl3)) | 0;
hi = Math.imul(ah9, bh3);
lo = (lo + Math.imul(al8, bl4)) | 0;
mid = (mid + Math.imul(al8, bh4)) | 0;
mid = (mid + Math.imul(ah8, bl4)) | 0;
hi = (hi + Math.imul(ah8, bh4)) | 0;
lo = (lo + Math.imul(al7, bl5)) | 0;
mid = (mid + Math.imul(al7, bh5)) | 0;
mid = (mid + Math.imul(ah7, bl5)) | 0;
hi = (hi + Math.imul(ah7, bh5)) | 0;
lo = (lo + Math.imul(al6, bl6)) | 0;
mid = (mid + Math.imul(al6, bh6)) | 0;
mid = (mid + Math.imul(ah6, bl6)) | 0;
hi = (hi + Math.imul(ah6, bh6)) | 0;
lo = (lo + Math.imul(al5, bl7)) | 0;
mid = (mid + Math.imul(al5, bh7)) | 0;
mid = (mid + Math.imul(ah5, bl7)) | 0;
hi = (hi + Math.imul(ah5, bh7)) | 0;
lo = (lo + Math.imul(al4, bl8)) | 0;
mid = (mid + Math.imul(al4, bh8)) | 0;
mid = (mid + Math.imul(ah4, bl8)) | 0;
hi = (hi + Math.imul(ah4, bh8)) | 0;
lo = (lo + Math.imul(al3, bl9)) | 0;
mid = (mid + Math.imul(al3, bh9)) | 0;
mid = (mid + Math.imul(ah3, bl9)) | 0;
hi = (hi + Math.imul(ah3, bh9)) | 0;
var w12 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0;
c = (((hi + (mid >>> 13)) | 0) + (w12 >>> 26)) | 0;
w12 &= 0x3ffffff;
/* k = 13 */
lo = Math.imul(al9, bl4);
mid = Math.imul(al9, bh4);
mid = (mid + Math.imul(ah9, bl4)) | 0;
hi = Math.imul(ah9, bh4);
lo = (lo + Math.imul(al8, bl5)) | 0;
mid = (mid + Math.imul(al8, bh5)) | 0;
mid = (mid + Math.imul(ah8, bl5)) | 0;
hi = (hi + Math.imul(ah8, bh5)) | 0;
lo = (lo + Math.imul(al7, bl6)) | 0;
mid = (mid + Math.imul(al7, bh6)) | 0;
mid = (mid + Math.imul(ah7, bl6)) | 0;
hi = (hi + Math.imul(ah7, bh6)) | 0;
lo = (lo + Math.imul(al6, bl7)) | 0;
mid = (mid + Math.imul(al6, bh7)) | 0;
mid = (mid + Math.imul(ah6, bl7)) | 0;
hi = (hi + Math.imul(ah6, bh7)) | 0;
lo = (lo + Math.imul(al5, bl8)) | 0;
mid = (mid + Math.imul(al5, bh8)) | 0;
mid = (mid + Math.imul(ah5, bl8)) | 0;
hi = (hi + Math.imul(ah5, bh8)) | 0;
lo = (lo + Math.imul(al4, bl9)) | 0;
mid = (mid + Math.imul(al4, bh9)) | 0;
mid = (mid + Math.imul(ah4, bl9)) | 0;
hi = (hi + Math.imul(ah4, bh9)) | 0;
var w13 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0;
c = (((hi + (mid >>> 13)) | 0) + (w13 >>> 26)) | 0;
w13 &= 0x3ffffff;
/* k = 14 */
lo = Math.imul(al9, bl5);
mid = Math.imul(al9, bh5);
mid = (mid + Math.imul(ah9, bl5)) | 0;
hi = Math.imul(ah9, bh5);
lo = (lo + Math.imul(al8, bl6)) | 0;
mid = (mid + Math.imul(al8, bh6)) | 0;
mid = (mid + Math.imul(ah8, bl6)) | 0;
hi = (hi + Math.imul(ah8, bh6)) | 0;
lo = (lo + Math.imul(al7, bl7)) | 0;
mid = (mid + Math.imul(al7, bh7)) | 0;
mid = (mid + Math.imul(ah7, bl7)) | 0;
hi = (hi + Math.imul(ah7, bh7)) | 0;
lo = (lo + Math.imul(al6, bl8)) | 0;
mid = (mid + Math.imul(al6, bh8)) | 0;
mid = (mid + Math.imul(ah6, bl8)) | 0;
hi = (hi + Math.imul(ah6, bh8)) | 0;
lo = (lo + Math.imul(al5, bl9)) | 0;
mid = (mid + Math.imul(al5, bh9)) | 0;
mid = (mid + Math.imul(ah5, bl9)) | 0;
hi = (hi + Math.imul(ah5, bh9)) | 0;
var w14 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0;
c = (((hi + (mid >>> 13)) | 0) + (w14 >>> 26)) | 0;
w14 &= 0x3ffffff;
/* k = 15 */
lo = Math.imul(al9, bl6);
mid = Math.imul(al9, bh6);
mid = (mid + Math.imul(ah9, bl6)) | 0;
hi = Math.imul(ah9, bh6);
lo = (lo + Math.imul(al8, bl7)) | 0;
mid = (mid + Math.imul(al8, bh7)) | 0;
mid = (mid + Math.imul(ah8, bl7)) | 0;
hi = (hi + Math.imul(ah8, bh7)) | 0;
lo = (lo + Math.imul(al7, bl8)) | 0;
mid = (mid + Math.imul(al7, bh8)) | 0;
mid = (mid + Math.imul(ah7, bl8)) | 0;
hi = (hi + Math.imul(ah7, bh8)) | 0;
lo = (lo + Math.imul(al6, bl9)) | 0;
mid = (mid + Math.imul(al6, bh9)) | 0;
mid = (mid + Math.imul(ah6, bl9)) | 0;
hi = (hi + Math.imul(ah6, bh9)) | 0;
var w15 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0;
c = (((hi + (mid >>> 13)) | 0) + (w15 >>> 26)) | 0;
w15 &= 0x3ffffff;
/* k = 16 */
lo = Math.imul(al9, bl7);
mid = Math.imul(al9, bh7);
mid = (mid + Math.imul(ah9, bl7)) | 0;
hi = Math.imul(ah9, bh7);
lo = (lo + Math.imul(al8, bl8)) | 0;
mid = (mid + Math.imul(al8, bh8)) | 0;
mid = (mid + Math.imul(ah8, bl8)) | 0;
hi = (hi + Math.imul(ah8, bh8)) | 0;
lo = (lo + Math.imul(al7, bl9)) | 0;
mid = (mid + Math.imul(al7, bh9)) | 0;
mid = (mid + Math.imul(ah7, bl9)) | 0;
hi = (hi + Math.imul(ah7, bh9)) | 0;
var w16 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0;
c = (((hi + (mid >>> 13)) | 0) + (w16 >>> 26)) | 0;
w16 &= 0x3ffffff;
/* k = 17 */
lo = Math.imul(al9, bl8);
mid = Math.imul(al9, bh8);
mid = (mid + Math.imul(ah9, bl8)) | 0;
hi = Math.imul(ah9, bh8);
lo = (lo + Math.imul(al8, bl9)) | 0;
mid = (mid + Math.imul(al8, bh9)) | 0;
mid = (mid + Math.imul(ah8, bl9)) | 0;
hi = (hi + Math.imul(ah8, bh9)) | 0;
var w17 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0;
c = (((hi + (mid >>> 13)) | 0) + (w17 >>> 26)) | 0;
w17 &= 0x3ffffff;
/* k = 18 */
lo = Math.imul(al9, bl9);
mid = Math.imul(al9, bh9);
mid = (mid + Math.imul(ah9, bl9)) | 0;
hi = Math.imul(ah9, bh9);
var w18 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0;
c = (((hi + (mid >>> 13)) | 0) + (w18 >>> 26)) | 0;
w18 &= 0x3ffffff;
o[0] = w0;
o[1] = w1;
o[2] = w2;
o[3] = w3;
o[4] = w4;
o[5] = w5;
o[6] = w6;
o[7] = w7;
o[8] = w8;
o[9] = w9;
o[10] = w10;
o[11] = w11;
o[12] = w12;
o[13] = w13;
o[14] = w14;
o[15] = w15;
o[16] = w16;
o[17] = w17;
o[18] = w18;
if (c !== 0) {
o[19] = c;
out.length++;
}
return out;
};
// Polyfill comb
if (!Math.imul) {
comb10MulTo = smallMulTo;
}
function bigMulTo (self, num, out) {
out.negative = num.negative ^ self.negative;
out.length = self.length + num.length;
var carry = 0;
var hncarry = 0;
for (var k = 0; k < out.length - 1; k++) {
// Sum all words with the same `i + j = k` and accumulate `ncarry`,
// note that ncarry could be >= 0x3ffffff
var ncarry = hncarry;
hncarry = 0;
var rword = carry & 0x3ffffff;
var maxJ = Math.min(k, num.length - 1);
for (var j = Math.max(0, k - self.length + 1); j <= maxJ; j++) {
var i = k - j;
var a = self.words[i] | 0;
var b = num.words[j] | 0;
var r = a * b;
var lo = r & 0x3ffffff;
ncarry = (ncarry + ((r / 0x4000000) | 0)) | 0;
lo = (lo + rword) | 0;
rword = lo & 0x3ffffff;
ncarry = (ncarry + (lo >>> 26)) | 0;
hncarry += ncarry >>> 26;
ncarry &= 0x3ffffff;
}
out.words[k] = rword;
carry = ncarry;
ncarry = hncarry;
}
if (carry !== 0) {
out.words[k] = carry;
} else {
out.length--;
}
return out.strip();
}
function jumboMulTo (self, num, out) {
var fftm = new FFTM();
return fftm.mulp(self, num, out);
}
BN.prototype.mulTo = function mulTo (num, out) {
var res;
var len = this.length + num.length;
if (this.length === 10 && num.length === 10) {
res = comb10MulTo(this, num, out);
} else if (len < 63) {
res = smallMulTo(this, num, out);
} else if (len < 1024) {
res = bigMulTo(this, num, out);
} else {
res = jumboMulTo(this, num, out);
}
return res;
};
// Cooley-Tukey algorithm for FFT
// slightly revisited to rely on looping instead of recursion
function FFTM (x, y) {
this.x = x;
this.y = y;
}
FFTM.prototype.makeRBT = function makeRBT (N) {
var t = new Array(N);
var l = BN.prototype._countBits(N) - 1;
for (var i = 0; i < N; i++) {
t[i] = this.revBin(i, l, N);
}
return t;
};
// Returns binary-reversed representation of `x`
FFTM.prototype.revBin = function revBin (x, l, N) {
if (x === 0 || x === N - 1) return x;
var rb = 0;
for (var i = 0; i < l; i++) {
rb |= (x & 1) << (l - i - 1);
x >>= 1;
}
return rb;
};
// Performs "tweedling" phase, therefore 'emulating'
// behaviour of the recursive algorithm
FFTM.prototype.permute = function permute (rbt, rws, iws, rtws, itws, N) {
for (var i = 0; i < N; i++) {
rtws[i] = rws[rbt[i]];
itws[i] = iws[rbt[i]];
}
};
FFTM.prototype.transform = function transform (rws, iws, rtws, itws, N, rbt) {
this.permute(rbt, rws, iws, rtws, itws, N);
for (var s = 1; s < N; s <<= 1) {
var l = s << 1;
var rtwdf = Math.cos(2 * Math.PI / l);
var itwdf = Math.sin(2 * Math.PI / l);
for (var p = 0; p < N; p += l) {
var rtwdf_ = rtwdf;
var itwdf_ = itwdf;
for (var j = 0; j < s; j++) {
var re = rtws[p + j];
var ie = itws[p + j];
var ro = rtws[p + j + s];
var io = itws[p + j + s];
var rx = rtwdf_ * ro - itwdf_ * io;
io = rtwdf_ * io + itwdf_ * ro;
ro = rx;
rtws[p + j] = re + ro;
itws[p + j] = ie + io;
rtws[p + j + s] = re - ro;
itws[p + j + s] = ie - io;
/* jshint maxdepth : false */
if (j !== l) {
rx = rtwdf * rtwdf_ - itwdf * itwdf_;
itwdf_ = rtwdf * itwdf_ + itwdf * rtwdf_;
rtwdf_ = rx;
}
}
}
}
};
FFTM.prototype.guessLen13b = function guessLen13b (n, m) {
var N = Math.max(m, n) | 1;
var odd = N & 1;
var i = 0;
for (N = N / 2 | 0; N; N = N >>> 1) {
i++;
}
return 1 << i + 1 + odd;
};
FFTM.prototype.conjugate = function conjugate (rws, iws, N) {
if (N <= 1) return;
for (var i = 0; i < N / 2; i++) {
var t = rws[i];
rws[i] = rws[N - i - 1];
rws[N - i - 1] = t;
t = iws[i];
iws[i] = -iws[N - i - 1];
iws[N - i - 1] = -t;
}
};
FFTM.prototype.normalize13b = function normalize13b (ws, N) {
var carry = 0;
for (var i = 0; i < N / 2; i++) {
var w = Math.round(ws[2 * i + 1] / N) * 0x2000 +
Math.round(ws[2 * i] / N) +
carry;
ws[i] = w & 0x3ffffff;
if (w < 0x4000000) {
carry = 0;
} else {
carry = w / 0x4000000 | 0;
}
}
return ws;
};
FFTM.prototype.convert13b = function convert13b (ws, len, rws, N) {
var carry = 0;
for (var i = 0; i < len; i++) {
carry = carry + (ws[i] | 0);
rws[2 * i] = carry & 0x1fff; carry = carry >>> 13;
rws[2 * i + 1] = carry & 0x1fff; carry = carry >>> 13;
}
// Pad with zeroes
for (i = 2 * len; i < N; ++i) {
rws[i] = 0;
}
assert(carry === 0);
assert((carry & ~0x1fff) === 0);
};
FFTM.prototype.stub = function stub (N) {
var ph = new Array(N);
for (var i = 0; i < N; i++) {
ph[i] = 0;
}
return ph;
};
FFTM.prototype.mulp = function mulp (x, y, out) {
var N = 2 * this.guessLen13b(x.length, y.length);
var rbt = this.makeRBT(N);
var _ = this.stub(N);
var rws = new Array(N);
var rwst = new Array(N);
var iwst = new Array(N);
var nrws = new Array(N);
var nrwst = new Array(N);
var niwst = new Array(N);
var rmws = out.words;
rmws.length = N;
this.convert13b(x.words, x.length, rws, N);
this.convert13b(y.words, y.length, nrws, N);
this.transform(rws, _, rwst, iwst, N, rbt);
this.transform(nrws, _, nrwst, niwst, N, rbt);
for (var i = 0; i < N; i++) {
var rx = rwst[i] * nrwst[i] - iwst[i] * niwst[i];
iwst[i] = rwst[i] * niwst[i] + iwst[i] * nrwst[i];
rwst[i] = rx;
}
this.conjugate(rwst, iwst, N);
this.transform(rwst, iwst, rmws, _, N, rbt);
this.conjugate(rmws, _, N);
this.normalize13b(rmws, N);
out.negative = x.negative ^ y.negative;
out.length = x.length + y.length;
return out.strip();
};
// Multiply `this` by `num`
BN.prototype.mul = function mul (num) {
var out = new BN(null);
out.words = new Array(this.length + num.length);
return this.mulTo(num, out);
};
// Multiply employing FFT
BN.prototype.mulf = function mulf (num) {
var out = new BN(null);
out.words = new Array(this.length + num.length);
return jumboMulTo(this, num, out);
};
// In-place Multiplication
BN.prototype.imul = function imul (num) {
return this.clone().mulTo(num, this);
};
BN.prototype.imuln = function imuln (num) {
assert(typeof num === 'number');
assert(num < 0x4000000);
// Carry
var carry = 0;
for (var i = 0; i < this.length; i++) {
var w = (this.words[i] | 0) * num;
var lo = (w & 0x3ffffff) + (carry & 0x3ffffff);
carry >>= 26;
carry += (w / 0x4000000) | 0;
// NOTE: lo is 27bit maximum
carry += lo >>> 26;
this.words[i] = lo & 0x3ffffff;
}
if (carry !== 0) {
this.words[i] = carry;
this.length++;
}
return this;
};
BN.prototype.muln = function muln (num) {
return this.clone().imuln(num);
};
// `this` * `this`
BN.prototype.sqr = function sqr () {
return this.mul(this);
};
// `this` * `this` in-place
BN.prototype.isqr = function isqr () {
return this.imul(this.clone());
};
// Math.pow(`this`, `num`)
BN.prototype.pow = function pow (num) {
var w = toBitArray(num);
if (w.length === 0) return new BN(1);
// Skip leading zeroes
var res = this;
for (var i = 0; i < w.length; i++, res = res.sqr()) {
if (w[i] !== 0) break;
}
if (++i < w.length) {
for (var q = res.sqr(); i < w.length; i++, q = q.sqr()) {
if (w[i] === 0) continue;
res = res.mul(q);
}
}
return res;
};
// Shift-left in-place
BN.prototype.iushln = function iushln (bits) {
assert(typeof bits === 'number' && bits >= 0);
var r = bits % 26;
var s = (bits - r) / 26;
var carryMask = (0x3ffffff >>> (26 - r)) << (26 - r);
var i;
if (r !== 0) {
var carry = 0;
for (i = 0; i < this.length; i++) {
var newCarry = this.words[i] & carryMask;
var c = ((this.words[i] | 0) - newCarry) << r;
this.words[i] = c | carry;
carry = newCarry >>> (26 - r);
}
if (carry) {
this.words[i] = carry;
this.length++;
}
}
if (s !== 0) {
for (i = this.length - 1; i >= 0; i--) {
this.words[i + s] = this.words[i];
}
for (i = 0; i < s; i++) {
this.words[i] = 0;
}
this.length += s;
}
return this.strip();
};
BN.prototype.ishln = function ishln (bits) {
// TODO(indutny): implement me
assert(this.negative === 0);
return this.iushln(bits);
};
// Shift-right in-place
// NOTE: `hint` is a lowest bit before trailing zeroes
// NOTE: if `extended` is present - it will be filled with destroyed bits
BN.prototype.iushrn = function iushrn (bits, hint, extended) {
assert(typeof bits === 'number' && bits >= 0);
var h;
if (hint) {
h = (hint - (hint % 26)) / 26;
} else {
h = 0;
}
var r = bits % 26;
var s = Math.min((bits - r) / 26, this.length);
var mask = 0x3ffffff ^ ((0x3ffffff >>> r) << r);
var maskedWords = extended;
h -= s;
h = Math.max(0, h);
// Extended mode, copy masked part
if (maskedWords) {
for (var i = 0; i < s; i++) {
maskedWords.words[i] = this.words[i];
}
maskedWords.length = s;
}
if (s === 0) {
// No-op, we should not move anything at all
} else if (this.length > s) {
this.length -= s;
for (i = 0; i < this.length; i++) {
this.words[i] = this.words[i + s];
}
} else {
this.words[0] = 0;
this.length = 1;
}
var carry = 0;
for (i = this.length - 1; i >= 0 && (carry !== 0 || i >= h); i--) {
var word = this.words[i] | 0;
this.words[i] = (carry << (26 - r)) | (word >>> r);
carry = word & mask;
}
// Push carried bits as a mask
if (maskedWords && carry !== 0) {
maskedWords.words[maskedWords.length++] = carry;
}
if (this.length === 0) {
this.words[0] = 0;
this.length = 1;
}
return this.strip();
};
BN.prototype.ishrn = function ishrn (bits, hint, extended) {
// TODO(indutny): implement me
assert(this.negative === 0);
return this.iushrn(bits, hint, extended);
};
// Shift-left
BN.prototype.shln = function shln (bits) {
return this.clone().ishln(bits);
};
BN.prototype.ushln = function ushln (bits) {
return this.clone().iushln(bits);
};
// Shift-right
BN.prototype.shrn = function shrn (bits) {
return this.clone().ishrn(bits);
};
BN.prototype.ushrn = function ushrn (bits) {
return this.clone().iushrn(bits);
};
// Test if n bit is set
BN.prototype.testn = function testn (bit) {
assert(typeof bit === 'number' && bit >= 0);
var r = bit % 26;
var s = (bit - r) / 26;
var q = 1 << r;
// Fast case: bit is much higher than all existing words
if (this.length <= s) return false;
// Check bit and return
var w = this.words[s];
return !!(w & q);
};
// Return only lowers bits of number (in-place)
BN.prototype.imaskn = function imaskn (bits) {
assert(typeof bits === 'number' && bits >= 0);
var r = bits % 26;
var s = (bits - r) / 26;
assert(this.negative === 0, 'imaskn works only with positive numbers');
if (this.length <= s) {
return this;
}
if (r !== 0) {
s++;
}
this.length = Math.min(s, this.length);
if (r !== 0) {
var mask = 0x3ffffff ^ ((0x3ffffff >>> r) << r);
this.words[this.length - 1] &= mask;
}
return this.strip();
};
// Return only lowers bits of number
BN.prototype.maskn = function maskn (bits) {
return this.clone().imaskn(bits);
};
// Add plain number `num` to `this`
BN.prototype.iaddn = function iaddn (num) {
assert(typeof num === 'number');
assert(num < 0x4000000);
if (num < 0) return this.isubn(-num);
// Possible sign change
if (this.negative !== 0) {
if (this.length === 1 && (this.words[0] | 0) < num) {
this.words[0] = num - (this.words[0] | 0);
this.negative = 0;
return this;
}
this.negative = 0;
this.isubn(num);
this.negative = 1;
return this;
}
// Add without checks
return this._iaddn(num);
};
BN.prototype._iaddn = function _iaddn (num) {
this.words[0] += num;
// Carry
for (var i = 0; i < this.length && this.words[i] >= 0x4000000; i++) {
this.words[i] -= 0x4000000;
if (i === this.length - 1) {
this.words[i + 1] = 1;
} else {
this.words[i + 1]++;
}
}
this.length = Math.max(this.length, i + 1);
return this;
};
// Subtract plain number `num` from `this`
BN.prototype.isubn = function isubn (num) {
assert(typeof num === 'number');
assert(num < 0x4000000);
if (num < 0) return this.iaddn(-num);
if (this.negative !== 0) {
this.negative = 0;
this.iaddn(num);
this.negative = 1;
return this;
}
this.words[0] -= num;
if (this.length === 1 && this.words[0] < 0) {
this.words[0] = -this.words[0];
this.negative = 1;
} else {
// Carry
for (var i = 0; i < this.length && this.words[i] < 0; i++) {
this.words[i] += 0x4000000;
this.words[i + 1] -= 1;
}
}
return this.strip();
};
BN.prototype.addn = function addn (num) {
return this.clone().iaddn(num);
};
BN.prototype.subn = function subn (num) {
return this.clone().isubn(num);
};
BN.prototype.iabs = function iabs () {
this.negative = 0;
return this;
};
BN.prototype.abs = function abs () {
return this.clone().iabs();
};
BN.prototype._ishlnsubmul = function _ishlnsubmul (num, mul, shift) {
var len = num.length + shift;
var i;
this._expand(len);
var w;
var carry = 0;
for (i = 0; i < num.length; i++) {
w = (this.words[i + shift] | 0) + carry;
var right = (num.words[i] | 0) * mul;
w -= right & 0x3ffffff;
carry = (w >> 26) - ((right / 0x4000000) | 0);
this.words[i + shift] = w & 0x3ffffff;
}
for (; i < this.length - shift; i++) {
w = (this.words[i + shift] | 0) + carry;
carry = w >> 26;
this.words[i + shift] = w & 0x3ffffff;
}
if (carry === 0) return this.strip();
// Subtraction overflow
assert(carry === -1);
carry = 0;
for (i = 0; i < this.length; i++) {
w = -(this.words[i] | 0) + carry;
carry = w >> 26;
this.words[i] = w & 0x3ffffff;
}
this.negative = 1;
return this.strip();
};
BN.prototype._wordDiv = function _wordDiv (num, mode) {
var shift = this.length - num.length;
var a = this.clone();
var b = num;
// Normalize
var bhi = b.words[b.length - 1] | 0;
var bhiBits = this._countBits(bhi);
shift = 26 - bhiBits;
if (shift !== 0) {
b = b.ushln(shift);
a.iushln(shift);
bhi = b.words[b.length - 1] | 0;
}
// Initialize quotient
var m = a.length - b.length;
var q;
if (mode !== 'mod') {
q = new BN(null);
q.length = m + 1;
q.words = new Array(q.length);
for (var i = 0; i < q.length; i++) {
q.words[i] = 0;
}
}
var diff = a.clone()._ishlnsubmul(b, 1, m);
if (diff.negative === 0) {
a = diff;
if (q) {
q.words[m] = 1;
}
}
for (var j = m - 1; j >= 0; j--) {
var qj = (a.words[b.length + j] | 0) * 0x4000000 +
(a.words[b.length + j - 1] | 0);
// NOTE: (qj / bhi) is (0x3ffffff * 0x4000000 + 0x3ffffff) / 0x2000000 max
// (0x7ffffff)
qj = Math.min((qj / bhi) | 0, 0x3ffffff);
a._ishlnsubmul(b, qj, j);
while (a.negative !== 0) {
qj--;
a.negative = 0;
a._ishlnsubmul(b, 1, j);
if (!a.isZero()) {
a.negative ^= 1;
}
}
if (q) {
q.words[j] = qj;
}
}
if (q) {
q.strip();
}
a.strip();
// Denormalize
if (mode !== 'div' && shift !== 0) {
a.iushrn(shift);
}
return {
div: q || null,
mod: a
};
};
// NOTE: 1) `mode` can be set to `mod` to request mod only,
// to `div` to request div only, or be absent to
// request both div & mod
// 2) `positive` is true if unsigned mod is requested
BN.prototype.divmod = function divmod (num, mode, positive) {
assert(!num.isZero());
if (this.isZero()) {
return {
div: new BN(0),
mod: new BN(0)
};
}
var div, mod, res;
if (this.negative !== 0 && num.negative === 0) {
res = this.neg().divmod(num, mode);
if (mode !== 'mod') {
div = res.div.neg();
}
if (mode !== 'div') {
mod = res.mod.neg();
if (positive && mod.negative !== 0) {
mod.iadd(num);
}
}
return {
div: div,
mod: mod
};
}
if (this.negative === 0 && num.negative !== 0) {
res = this.divmod(num.neg(), mode);
if (mode !== 'mod') {
div = res.div.neg();
}
return {
div: div,
mod: res.mod
};
}
if ((this.negative & num.negative) !== 0) {
res = this.neg().divmod(num.neg(), mode);
if (mode !== 'div') {
mod = res.mod.neg();
if (positive && mod.negative !== 0) {
mod.isub(num);
}
}
return {
div: res.div,
mod: mod
};
}
// Both numbers are positive at this point
// Strip both numbers to approximate shift value
if (num.length > this.length || this.cmp(num) < 0) {
return {
div: new BN(0),
mod: this
};
}
// Very short reduction
if (num.length === 1) {
if (mode === 'div') {
return {
div: this.divn(num.words[0]),
mod: null
};
}
if (mode === 'mod') {
return {
div: null,
mod: new BN(this.modn(num.words[0]))
};
}
return {
div: this.divn(num.words[0]),
mod: new BN(this.modn(num.words[0]))
};
}
return this._wordDiv(num, mode);
};
// Find `this` / `num`
BN.prototype.div = function div (num) {
return this.divmod(num, 'div', false).div;
};
// Find `this` % `num`
BN.prototype.mod = function mod (num) {
return this.divmod(num, 'mod', false).mod;
};
BN.prototype.umod = function umod (num) {
return this.divmod(num, 'mod', true).mod;
};
// Find Round(`this` / `num`)
BN.prototype.divRound = function divRound (num) {
var dm = this.divmod(num);
// Fast case - exact division
if (dm.mod.isZero()) return dm.div;
var mod = dm.div.negative !== 0 ? dm.mod.isub(num) : dm.mod;
var half = num.ushrn(1);
var r2 = num.andln(1);
var cmp = mod.cmp(half);
// Round down
if (cmp < 0 || r2 === 1 && cmp === 0) return dm.div;
// Round up
return dm.div.negative !== 0 ? dm.div.isubn(1) : dm.div.iaddn(1);
};
BN.prototype.modn = function modn (num) {
assert(num <= 0x3ffffff);
var p = (1 << 26) % num;
var acc = 0;
for (var i = this.length - 1; i >= 0; i--) {
acc = (p * acc + (this.words[i] | 0)) % num;
}
return acc;
};
// In-place division by number
BN.prototype.idivn = function idivn (num) {
assert(num <= 0x3ffffff);
var carry = 0;
for (var i = this.length - 1; i >= 0; i--) {
var w = (this.words[i] | 0) + carry * 0x4000000;
this.words[i] = (w / num) | 0;
carry = w % num;
}
return this.strip();
};
BN.prototype.divn = function divn (num) {
return this.clone().idivn(num);
};
BN.prototype.egcd = function egcd (p) {
assert(p.negative === 0);
assert(!p.isZero());
var x = this;
var y = p.clone();
if (x.negative !== 0) {
x = x.umod(p);
} else {
x = x.clone();
}
// A * x + B * y = x
var A = new BN(1);
var B = new BN(0);
// C * x + D * y = y
var C = new BN(0);
var D = new BN(1);
var g = 0;
while (x.isEven() && y.isEven()) {
x.iushrn(1);
y.iushrn(1);
++g;
}
var yp = y.clone();
var xp = x.clone();
while (!x.isZero()) {
for (var i = 0, im = 1; (x.words[0] & im) === 0 && i < 26; ++i, im <<= 1);
if (i > 0) {
x.iushrn(i);
while (i-- > 0) {
if (A.isOdd() || B.isOdd()) {
A.iadd(yp);
B.isub(xp);
}
A.iushrn(1);
B.iushrn(1);
}
}
for (var j = 0, jm = 1; (y.words[0] & jm) === 0 && j < 26; ++j, jm <<= 1);
if (j > 0) {
y.iushrn(j);
while (j-- > 0) {
if (C.isOdd() || D.isOdd()) {
C.iadd(yp);
D.isub(xp);
}
C.iushrn(1);
D.iushrn(1);
}
}
if (x.cmp(y) >= 0) {
x.isub(y);
A.isub(C);
B.isub(D);
} else {
y.isub(x);
C.isub(A);
D.isub(B);
}
}
return {
a: C,
b: D,
gcd: y.iushln(g)
};
};
// This is reduced incarnation of the binary EEA
// above, designated to invert members of the
// _prime_ fields F(p) at a maximal speed
BN.prototype._invmp = function _invmp (p) {
assert(p.negative === 0);
assert(!p.isZero());
var a = this;
var b = p.clone();
if (a.negative !== 0) {
a = a.umod(p);
} else {
a = a.clone();
}
var x1 = new BN(1);
var x2 = new BN(0);
var delta = b.clone();
while (a.cmpn(1) > 0 && b.cmpn(1) > 0) {
for (var i = 0, im = 1; (a.words[0] & im) === 0 && i < 26; ++i, im <<= 1);
if (i > 0) {
a.iushrn(i);
while (i-- > 0) {
if (x1.isOdd()) {
x1.iadd(delta);
}
x1.iushrn(1);
}
}
for (var j = 0, jm = 1; (b.words[0] & jm) === 0 && j < 26; ++j, jm <<= 1);
if (j > 0) {
b.iushrn(j);
while (j-- > 0) {
if (x2.isOdd()) {
x2.iadd(delta);
}
x2.iushrn(1);
}
}
if (a.cmp(b) >= 0) {
a.isub(b);
x1.isub(x2);
} else {
b.isub(a);
x2.isub(x1);
}
}
var res;
if (a.cmpn(1) === 0) {
res = x1;
} else {
res = x2;
}
if (res.cmpn(0) < 0) {
res.iadd(p);
}
return res;
};
BN.prototype.gcd = function gcd (num) {
if (this.isZero()) return num.abs();
if (num.isZero()) return this.abs();
var a = this.clone();
var b = num.clone();
a.negative = 0;
b.negative = 0;
// Remove common factor of two
for (var shift = 0; a.isEven() && b.isEven(); shift++) {
a.iushrn(1);
b.iushrn(1);
}
do {
while (a.isEven()) {
a.iushrn(1);
}
while (b.isEven()) {
b.iushrn(1);
}
var r = a.cmp(b);
if (r < 0) {
// Swap `a` and `b` to make `a` always bigger than `b`
var t = a;
a = b;
b = t;
} else if (r === 0 || b.cmpn(1) === 0) {
break;
}
a.isub(b);
} while (true);
return b.iushln(shift);
};
// Invert number in the field F(num)
BN.prototype.invm = function invm (num) {
return this.egcd(num).a.umod(num);
};
BN.prototype.isEven = function isEven () {
return (this.words[0] & 1) === 0;
};
BN.prototype.isOdd = function isOdd () {
return (this.words[0] & 1) === 1;
};
// And first word and num
BN.prototype.andln = function andln (num) {
return this.words[0] & num;
};
// Increment at the bit position in-line
BN.prototype.bincn = function bincn (bit) {
assert(typeof bit === 'number');
var r = bit % 26;
var s = (bit - r) / 26;
var q = 1 << r;
// Fast case: bit is much higher than all existing words
if (this.length <= s) {
this._expand(s + 1);
this.words[s] |= q;
return this;
}
// Add bit and propagate, if needed
var carry = q;
for (var i = s; carry !== 0 && i < this.length; i++) {
var w = this.words[i] | 0;
w += carry;
carry = w >>> 26;
w &= 0x3ffffff;
this.words[i] = w;
}
if (carry !== 0) {
this.words[i] = carry;
this.length++;
}
return this;
};
BN.prototype.isZero = function isZero () {
return this.length === 1 && this.words[0] === 0;
};
BN.prototype.cmpn = function cmpn (num) {
var negative = num < 0;
if (this.negative !== 0 && !negative) return -1;
if (this.negative === 0 && negative) return 1;
this.strip();
var res;
if (this.length > 1) {
res = 1;
} else {
if (negative) {
num = -num;
}
assert(num <= 0x3ffffff, 'Number is too big');
var w = this.words[0] | 0;
res = w === num ? 0 : w < num ? -1 : 1;
}
if (this.negative !== 0) return -res | 0;
return res;
};
// Compare two numbers and return:
// 1 - if `this` > `num`
// 0 - if `this` == `num`
// -1 - if `this` < `num`
BN.prototype.cmp = function cmp (num) {
if (this.negative !== 0 && num.negative === 0) return -1;
if (this.negative === 0 && num.negative !== 0) return 1;
var res = this.ucmp(num);
if (this.negative !== 0) return -res | 0;
return res;
};
// Unsigned comparison
BN.prototype.ucmp = function ucmp (num) {
// At this point both numbers have the same sign
if (this.length > num.length) return 1;
if (this.length < num.length) return -1;
var res = 0;
for (var i = this.length - 1; i >= 0; i--) {
var a = this.words[i] | 0;
var b = num.words[i] | 0;
if (a === b) continue;
if (a < b) {
res = -1;
} else if (a > b) {
res = 1;
}
break;
}
return res;
};
BN.prototype.gtn = function gtn (num) {
return this.cmpn(num) === 1;
};
BN.prototype.gt = function gt (num) {
return this.cmp(num) === 1;
};
BN.prototype.gten = function gten (num) {
return this.cmpn(num) >= 0;
};
BN.prototype.gte = function gte (num) {
return this.cmp(num) >= 0;
};
BN.prototype.ltn = function ltn (num) {
return this.cmpn(num) === -1;
};
BN.prototype.lt = function lt (num) {
return this.cmp(num) === -1;
};
BN.prototype.lten = function lten (num) {
return this.cmpn(num) <= 0;
};
BN.prototype.lte = function lte (num) {
return this.cmp(num) <= 0;
};
BN.prototype.eqn = function eqn (num) {
return this.cmpn(num) === 0;
};
BN.prototype.eq = function eq (num) {
return this.cmp(num) === 0;
};
//
// A reduce context, could be using montgomery or something better, depending
// on the `m` itself.
//
BN.red = function red (num) {
return new Red(num);
};
BN.prototype.toRed = function toRed (ctx) {
assert(!this.red, 'Already a number in reduction context');
assert(this.negative === 0, 'red works only with positives');
return ctx.convertTo(this)._forceRed(ctx);
};
BN.prototype.fromRed = function fromRed () {
assert(this.red, 'fromRed works only with numbers in reduction context');
return this.red.convertFrom(this);
};
BN.prototype._forceRed = function _forceRed (ctx) {
this.red = ctx;
return this;
};
BN.prototype.forceRed = function forceRed (ctx) {
assert(!this.red, 'Already a number in reduction context');
return this._forceRed(ctx);
};
BN.prototype.redAdd = function redAdd (num) {
assert(this.red, 'redAdd works only with red numbers');
return this.red.add(this, num);
};
BN.prototype.redIAdd = function redIAdd (num) {
assert(this.red, 'redIAdd works only with red numbers');
return this.red.iadd(this, num);
};
BN.prototype.redSub = function redSub (num) {
assert(this.red, 'redSub works only with red numbers');
return this.red.sub(this, num);
};
BN.prototype.redISub = function redISub (num) {
assert(this.red, 'redISub works only with red numbers');
return this.red.isub(this, num);
};
BN.prototype.redShl = function redShl (num) {
assert(this.red, 'redShl works only with red numbers');
return this.red.shl(this, num);
};
BN.prototype.redMul = function redMul (num) {
assert(this.red, 'redMul works only with red numbers');
this.red._verify2(this, num);
return this.red.mul(this, num);
};
BN.prototype.redIMul = function redIMul (num) {
assert(this.red, 'redMul works only with red numbers');
this.red._verify2(this, num);
return this.red.imul(this, num);
};
BN.prototype.redSqr = function redSqr () {
assert(this.red, 'redSqr works only with red numbers');
this.red._verify1(this);
return this.red.sqr(this);
};
BN.prototype.redISqr = function redISqr () {
assert(this.red, 'redISqr works only with red numbers');
this.red._verify1(this);
return this.red.isqr(this);
};
// Square root over p
BN.prototype.redSqrt = function redSqrt () {
assert(this.red, 'redSqrt works only with red numbers');
this.red._verify1(this);
return this.red.sqrt(this);
};
BN.prototype.redInvm = function redInvm () {
assert(this.red, 'redInvm works only with red numbers');
this.red._verify1(this);
return this.red.invm(this);
};
// Return negative clone of `this` % `red modulo`
BN.prototype.redNeg = function redNeg () {
assert(this.red, 'redNeg works only with red numbers');
this.red._verify1(this);
return this.red.neg(this);
};
BN.prototype.redPow = function redPow (num) {
assert(this.red && !num.red, 'redPow(normalNum)');
this.red._verify1(this);
return this.red.pow(this, num);
};
// Prime numbers with efficient reduction
var primes = {
k256: null,
p224: null,
p192: null,
p25519: null
};
// Pseudo-Mersenne prime
function MPrime (name, p) {
// P = 2 ^ N - K
this.name = name;
this.p = new BN(p, 16);
this.n = this.p.bitLength();
this.k = new BN(1).iushln(this.n).isub(this.p);
this.tmp = this._tmp();
}
MPrime.prototype._tmp = function _tmp () {
var tmp = new BN(null);
tmp.words = new Array(Math.ceil(this.n / 13));
return tmp;
};
MPrime.prototype.ireduce = function ireduce (num) {
// Assumes that `num` is less than `P^2`
// num = HI * (2 ^ N - K) + HI * K + LO = HI * K + LO (mod P)
var r = num;
var rlen;
do {
this.split(r, this.tmp);
r = this.imulK(r);
r = r.iadd(this.tmp);
rlen = r.bitLength();
} while (rlen > this.n);
var cmp = rlen < this.n ? -1 : r.ucmp(this.p);
if (cmp === 0) {
r.words[0] = 0;
r.length = 1;
} else if (cmp > 0) {
r.isub(this.p);
} else {
r.strip();
}
return r;
};
MPrime.prototype.split = function split (input, out) {
input.iushrn(this.n, 0, out);
};
MPrime.prototype.imulK = function imulK (num) {
return num.imul(this.k);
};
function K256 () {
MPrime.call(
this,
'k256',
'ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff fffffffe fffffc2f');
}
inherits(K256, MPrime);
K256.prototype.split = function split (input, output) {
// 256 = 9 * 26 + 22
var mask = 0x3fffff;
var outLen = Math.min(input.length, 9);
for (var i = 0; i < outLen; i++) {
output.words[i] = input.words[i];
}
output.length = outLen;
if (input.length <= 9) {
input.words[0] = 0;
input.length = 1;
return;
}
// Shift by 9 limbs
var prev = input.words[9];
output.words[output.length++] = prev & mask;
for (i = 10; i < input.length; i++) {
var next = input.words[i] | 0;
input.words[i - 10] = ((next & mask) << 4) | (prev >>> 22);
prev = next;
}
prev >>>= 22;
input.words[i - 10] = prev;
if (prev === 0 && input.length > 10) {
input.length -= 10;
} else {
input.length -= 9;
}
};
K256.prototype.imulK = function imulK (num) {
// K = 0x1000003d1 = [ 0x40, 0x3d1 ]
num.words[num.length] = 0;
num.words[num.length + 1] = 0;
num.length += 2;
// bounded at: 0x40 * 0x3ffffff + 0x3d0 = 0x100000390
var lo = 0;
for (var i = 0; i < num.length; i++) {
var w = num.words[i] | 0;
lo += w * 0x3d1;
num.words[i] = lo & 0x3ffffff;
lo = w * 0x40 + ((lo / 0x4000000) | 0);
}
// Fast length reduction
if (num.words[num.length - 1] === 0) {
num.length--;
if (num.words[num.length - 1] === 0) {
num.length--;
}
}
return num;
};
function P224 () {
MPrime.call(
this,
'p224',
'ffffffff ffffffff ffffffff ffffffff 00000000 00000000 00000001');
}
inherits(P224, MPrime);
function P192 () {
MPrime.call(
this,
'p192',
'ffffffff ffffffff ffffffff fffffffe ffffffff ffffffff');
}
inherits(P192, MPrime);
function P25519 () {
// 2 ^ 255 - 19
MPrime.call(
this,
'25519',
'7fffffffffffffff ffffffffffffffff ffffffffffffffff ffffffffffffffed');
}
inherits(P25519, MPrime);
P25519.prototype.imulK = function imulK (num) {
// K = 0x13
var carry = 0;
for (var i = 0; i < num.length; i++) {
var hi = (num.words[i] | 0) * 0x13 + carry;
var lo = hi & 0x3ffffff;
hi >>>= 26;
num.words[i] = lo;
carry = hi;
}
if (carry !== 0) {
num.words[num.length++] = carry;
}
return num;
};
// Exported mostly for testing purposes, use plain name instead
BN._prime = function prime (name) {
// Cached version of prime
if (primes[name]) return primes[name];
var prime;
if (name === 'k256') {
prime = new K256();
} else if (name === 'p224') {
prime = new P224();
} else if (name === 'p192') {
prime = new P192();
} else if (name === 'p25519') {
prime = new P25519();
} else {
throw new Error('Unknown prime ' + name);
}
primes[name] = prime;
return prime;
};
//
// Base reduction engine
//
function Red (m) {
if (typeof m === 'string') {
var prime = BN._prime(m);
this.m = prime.p;
this.prime = prime;
} else {
assert(m.gtn(1), 'modulus must be greater than 1');
this.m = m;
this.prime = null;
}
}
Red.prototype._verify1 = function _verify1 (a) {
assert(a.negative === 0, 'red works only with positives');
assert(a.red, 'red works only with red numbers');
};
Red.prototype._verify2 = function _verify2 (a, b) {
assert((a.negative | b.negative) === 0, 'red works only with positives');
assert(a.red && a.red === b.red,
'red works only with red numbers');
};
Red.prototype.imod = function imod (a) {
if (this.prime) return this.prime.ireduce(a)._forceRed(this);
return a.umod(this.m)._forceRed(this);
};
Red.prototype.neg = function neg (a) {
if (a.isZero()) {
return a.clone();
}
return this.m.sub(a)._forceRed(this);
};
Red.prototype.add = function add (a, b) {
this._verify2(a, b);
var res = a.add(b);
if (res.cmp(this.m) >= 0) {
res.isub(this.m);
}
return res._forceRed(this);
};
Red.prototype.iadd = function iadd (a, b) {
this._verify2(a, b);
var res = a.iadd(b);
if (res.cmp(this.m) >= 0) {
res.isub(this.m);
}
return res;
};
Red.prototype.sub = function sub (a, b) {
this._verify2(a, b);
var res = a.sub(b);
if (res.cmpn(0) < 0) {
res.iadd(this.m);
}
return res._forceRed(this);
};
Red.prototype.isub = function isub (a, b) {
this._verify2(a, b);
var res = a.isub(b);
if (res.cmpn(0) < 0) {
res.iadd(this.m);
}
return res;
};
Red.prototype.shl = function shl (a, num) {
this._verify1(a);
return this.imod(a.ushln(num));
};
Red.prototype.imul = function imul (a, b) {
this._verify2(a, b);
return this.imod(a.imul(b));
};
Red.prototype.mul = function mul (a, b) {
this._verify2(a, b);
return this.imod(a.mul(b));
};
Red.prototype.isqr = function isqr (a) {
return this.imul(a, a.clone());
};
Red.prototype.sqr = function sqr (a) {
return this.mul(a, a);
};
Red.prototype.sqrt = function sqrt (a) {
if (a.isZero()) return a.clone();
var mod3 = this.m.andln(3);
assert(mod3 % 2 === 1);
// Fast case
if (mod3 === 3) {
var pow = this.m.add(new BN(1)).iushrn(2);
return this.pow(a, pow);
}
// Tonelli-Shanks algorithm (Totally unoptimized and slow)
//
// Find Q and S, that Q * 2 ^ S = (P - 1)
var q = this.m.subn(1);
var s = 0;
while (!q.isZero() && q.andln(1) === 0) {
s++;
q.iushrn(1);
}
assert(!q.isZero());
var one = new BN(1).toRed(this);
var nOne = one.redNeg();
// Find quadratic non-residue
// NOTE: Max is such because of generalized Riemann hypothesis.
var lpow = this.m.subn(1).iushrn(1);
var z = this.m.bitLength();
z = new BN(2 * z * z).toRed(this);
while (this.pow(z, lpow).cmp(nOne) !== 0) {
z.redIAdd(nOne);
}
var c = this.pow(z, q);
var r = this.pow(a, q.addn(1).iushrn(1));
var t = this.pow(a, q);
var m = s;
while (t.cmp(one) !== 0) {
var tmp = t;
for (var i = 0; tmp.cmp(one) !== 0; i++) {
tmp = tmp.redSqr();
}
assert(i < m);
var b = this.pow(c, new BN(1).iushln(m - i - 1));
r = r.redMul(b);
c = b.redSqr();
t = t.redMul(c);
m = i;
}
return r;
};
Red.prototype.invm = function invm (a) {
var inv = a._invmp(this.m);
if (inv.negative !== 0) {
inv.negative = 0;
return this.imod(inv).redNeg();
} else {
return this.imod(inv);
}
};
Red.prototype.pow = function pow (a, num) {
if (num.isZero()) return new BN(1).toRed(this);
if (num.cmpn(1) === 0) return a.clone();
var windowSize = 4;
var wnd = new Array(1 << windowSize);
wnd[0] = new BN(1).toRed(this);
wnd[1] = a;
for (var i = 2; i < wnd.length; i++) {
wnd[i] = this.mul(wnd[i - 1], a);
}
var res = wnd[0];
var current = 0;
var currentLen = 0;
var start = num.bitLength() % 26;
if (start === 0) {
start = 26;
}
for (i = num.length - 1; i >= 0; i--) {
var word = num.words[i];
for (var j = start - 1; j >= 0; j--) {
var bit = (word >> j) & 1;
if (res !== wnd[0]) {
res = this.sqr(res);
}
if (bit === 0 && current === 0) {
currentLen = 0;
continue;
}
current <<= 1;
current |= bit;
currentLen++;
if (currentLen !== windowSize && (i !== 0 || j !== 0)) continue;
res = this.mul(res, wnd[current]);
currentLen = 0;
current = 0;
}
start = 26;
}
return res;
};
Red.prototype.convertTo = function convertTo (num) {
var r = num.umod(this.m);
return r === num ? r.clone() : r;
};
Red.prototype.convertFrom = function convertFrom (num) {
var res = num.clone();
res.red = null;
return res;
};
//
// Montgomery method engine
//
BN.mont = function mont (num) {
return new Mont(num);
};
function Mont (m) {
Red.call(this, m);
this.shift = this.m.bitLength();
if (this.shift % 26 !== 0) {
this.shift += 26 - (this.shift % 26);
}
this.r = new BN(1).iushln(this.shift);
this.r2 = this.imod(this.r.sqr());
this.rinv = this.r._invmp(this.m);
this.minv = this.rinv.mul(this.r).isubn(1).div(this.m);
this.minv = this.minv.umod(this.r);
this.minv = this.r.sub(this.minv);
}
inherits(Mont, Red);
Mont.prototype.convertTo = function convertTo (num) {
return this.imod(num.ushln(this.shift));
};
Mont.prototype.convertFrom = function convertFrom (num) {
var r = this.imod(num.mul(this.rinv));
r.red = null;
return r;
};
Mont.prototype.imul = function imul (a, b) {
if (a.isZero() || b.isZero()) {
a.words[0] = 0;
a.length = 1;
return a;
}
var t = a.imul(b);
var c = t.maskn(this.shift).mul(this.minv).imaskn(this.shift).mul(this.m);
var u = t.isub(c).iushrn(this.shift);
var res = u;
if (u.cmp(this.m) >= 0) {
res = u.isub(this.m);
} else if (u.cmpn(0) < 0) {
res = u.iadd(this.m);
}
return res._forceRed(this);
};
Mont.prototype.mul = function mul (a, b) {
if (a.isZero() || b.isZero()) return new BN(0)._forceRed(this);
var t = a.mul(b);
var c = t.maskn(this.shift).mul(this.minv).imaskn(this.shift).mul(this.m);
var u = t.isub(c).iushrn(this.shift);
var res = u;
if (u.cmp(this.m) >= 0) {
res = u.isub(this.m);
} else if (u.cmpn(0) < 0) {
res = u.iadd(this.m);
}
return res._forceRed(this);
};
Mont.prototype.invm = function invm (a) {
// (AR)^-1 * R^2 = (A^-1 * R^-1) * R^2 = A^-1 * R
var res = this.imod(a._invmp(this.m).mul(this.r2));
return res._forceRed(this);
};
})(typeof module === 'undefined' || module, this);
},{"buffer":90}],82:[function(_dereq_,module,exports){
'use strict'
module.exports = boundary
function boundary (cells) {
var i, j, k
var n = cells.length
var sz = 0
for (i = 0; i < n; ++i) {
sz += cells[i].length
}
var result = new Array(sz)
var ptr = 0
for (i = 0; i < n; ++i) {
var c = cells[i]
var d = c.length
for (j = 0; j < d; ++j) {
var b = result[ptr++] = new Array(d - 1)
var p = 0
for (k = 0; k < d; ++k) {
if (k === j) {
continue
}
b[p++] = c[k]
}
if (j & 1) {
var tmp = b[1]
b[1] = b[0]
b[0] = tmp
}
}
}
return result
}
},{}],83:[function(_dereq_,module,exports){
'use strict'
module.exports = boxIntersectWrapper
var pool = _dereq_('typedarray-pool')
var sweep = _dereq_('./lib/sweep')
var boxIntersectIter = _dereq_('./lib/intersect')
function boxEmpty(d, box) {
for(var j=0; j<d; ++j) {
if(!(box[j] <= box[j+d])) {
return true
}
}
return false
}
//Unpack boxes into a flat typed array, remove empty boxes
function convertBoxes(boxes, d, data, ids) {
var ptr = 0
var count = 0
for(var i=0, n=boxes.length; i<n; ++i) {
var b = boxes[i]
if(boxEmpty(d, b)) {
continue
}
for(var j=0; j<2*d; ++j) {
data[ptr++] = b[j]
}
ids[count++] = i
}
return count
}
//Perform type conversions, check bounds
function boxIntersect(red, blue, visit, full) {
var n = red.length
var m = blue.length
//If either array is empty, then we can skip this whole thing
if(n <= 0 || m <= 0) {
return
}
//Compute dimension, if it is 0 then we skip
var d = (red[0].length)>>>1
if(d <= 0) {
return
}
var retval
//Convert red boxes
var redList = pool.mallocDouble(2*d*n)
var redIds = pool.mallocInt32(n)
n = convertBoxes(red, d, redList, redIds)
if(n > 0) {
if(d === 1 && full) {
//Special case: 1d complete
sweep.init(n)
retval = sweep.sweepComplete(
d, visit,
0, n, redList, redIds,
0, n, redList, redIds)
} else {
//Convert blue boxes
var blueList = pool.mallocDouble(2*d*m)
var blueIds = pool.mallocInt32(m)
m = convertBoxes(blue, d, blueList, blueIds)
if(m > 0) {
sweep.init(n+m)
if(d === 1) {
//Special case: 1d bipartite
retval = sweep.sweepBipartite(
d, visit,
0, n, redList, redIds,
0, m, blueList, blueIds)
} else {
//General case: d>1
retval = boxIntersectIter(
d, visit, full,
n, redList, redIds,
m, blueList, blueIds)
}
pool.free(blueList)
pool.free(blueIds)
}
}
pool.free(redList)
pool.free(redIds)
}
return retval
}
var RESULT
function appendItem(i,j) {
RESULT.push([i,j])
}
function intersectFullArray(x) {
RESULT = []
boxIntersect(x, x, appendItem, true)
return RESULT
}
function intersectBipartiteArray(x, y) {
RESULT = []
boxIntersect(x, y, appendItem, false)
return RESULT
}
//User-friendly wrapper, handle full input and no-visitor cases
function boxIntersectWrapper(arg0, arg1, arg2) {
var result
switch(arguments.length) {
case 1:
return intersectFullArray(arg0)
case 2:
if(typeof arg1 === 'function') {
return boxIntersect(arg0, arg0, arg1, true)
} else {
return intersectBipartiteArray(arg0, arg1)
}
case 3:
return boxIntersect(arg0, arg1, arg2, false)
default:
throw new Error('box-intersect: Invalid arguments')
}
}
},{"./lib/intersect":85,"./lib/sweep":89,"typedarray-pool":519}],84:[function(_dereq_,module,exports){
'use strict'
var DIMENSION = 'd'
var AXIS = 'ax'
var VISIT = 'vv'
var FLIP = 'fp'
var ELEM_SIZE = 'es'
var RED_START = 'rs'
var RED_END = 're'
var RED_BOXES = 'rb'
var RED_INDEX = 'ri'
var RED_PTR = 'rp'
var BLUE_START = 'bs'
var BLUE_END = 'be'
var BLUE_BOXES = 'bb'
var BLUE_INDEX = 'bi'
var BLUE_PTR = 'bp'
var RETVAL = 'rv'
var INNER_LABEL = 'Q'
var ARGS = [
DIMENSION,
AXIS,
VISIT,
RED_START,
RED_END,
RED_BOXES,
RED_INDEX,
BLUE_START,
BLUE_END,
BLUE_BOXES,
BLUE_INDEX
]
function generateBruteForce(redMajor, flip, full) {
var funcName = 'bruteForce' +
(redMajor ? 'Red' : 'Blue') +
(flip ? 'Flip' : '') +
(full ? 'Full' : '')
var code = ['function ', funcName, '(', ARGS.join(), '){',
'var ', ELEM_SIZE, '=2*', DIMENSION, ';']
var redLoop =
'for(var i=' + RED_START + ',' + RED_PTR + '=' + ELEM_SIZE + '*' + RED_START + ';' +
'i<' + RED_END +';' +
'++i,' + RED_PTR + '+=' + ELEM_SIZE + '){' +
'var x0=' + RED_BOXES + '[' + AXIS + '+' + RED_PTR + '],' +
'x1=' + RED_BOXES + '[' + AXIS + '+' + RED_PTR + '+' + DIMENSION + '],' +
'xi=' + RED_INDEX + '[i];'
var blueLoop =
'for(var j=' + BLUE_START + ',' + BLUE_PTR + '=' + ELEM_SIZE + '*' + BLUE_START + ';' +
'j<' + BLUE_END + ';' +
'++j,' + BLUE_PTR + '+=' + ELEM_SIZE + '){' +
'var y0=' + BLUE_BOXES + '[' + AXIS + '+' + BLUE_PTR + '],' +
(full ? 'y1=' + BLUE_BOXES + '[' + AXIS + '+' + BLUE_PTR + '+' + DIMENSION + '],' : '') +
'yi=' + BLUE_INDEX + '[j];'
if(redMajor) {
code.push(redLoop, INNER_LABEL, ':', blueLoop)
} else {
code.push(blueLoop, INNER_LABEL, ':', redLoop)
}
if(full) {
code.push('if(y1<x0||x1<y0)continue;')
} else if(flip) {
code.push('if(y0<=x0||x1<y0)continue;')
} else {
code.push('if(y0<x0||x1<y0)continue;')
}
code.push('for(var k='+AXIS+'+1;k<'+DIMENSION+';++k){'+
'var r0='+RED_BOXES+'[k+'+RED_PTR+'],'+
'r1='+RED_BOXES+'[k+'+DIMENSION+'+'+RED_PTR+'],'+
'b0='+BLUE_BOXES+'[k+'+BLUE_PTR+'],'+
'b1='+BLUE_BOXES+'[k+'+DIMENSION+'+'+BLUE_PTR+'];'+
'if(r1<b0||b1<r0)continue ' + INNER_LABEL + ';}' +
'var ' + RETVAL + '=' + VISIT + '(')
if(flip) {
code.push('yi,xi')
} else {
code.push('xi,yi')
}
code.push(');if(' + RETVAL + '!==void 0)return ' + RETVAL + ';}}}')
return {
name: funcName,
code: code.join('')
}
}
function bruteForcePlanner(full) {
var funcName = 'bruteForce' + (full ? 'Full' : 'Partial')
var prefix = []
var fargs = ARGS.slice()
if(!full) {
fargs.splice(3, 0, FLIP)
}
var code = ['function ' + funcName + '(' + fargs.join() + '){']
function invoke(redMajor, flip) {
var res = generateBruteForce(redMajor, flip, full)
prefix.push(res.code)
code.push('return ' + res.name + '(' + ARGS.join() + ');')
}
code.push('if(' + RED_END + '-' + RED_START + '>' +
BLUE_END + '-' + BLUE_START + '){')
if(full) {
invoke(true, false)
code.push('}else{')
invoke(false, false)
} else {
code.push('if(' + FLIP + '){')
invoke(true, true)
code.push('}else{')
invoke(true, false)
code.push('}}else{if(' + FLIP + '){')
invoke(false, true)
code.push('}else{')
invoke(false, false)
code.push('}')
}
code.push('}}return ' + funcName)
var codeStr = prefix.join('') + code.join('')
var proc = new Function(codeStr)
return proc()
}
exports.partial = bruteForcePlanner(false)
exports.full = bruteForcePlanner(true)
},{}],85:[function(_dereq_,module,exports){
'use strict'
module.exports = boxIntersectIter
var pool = _dereq_('typedarray-pool')
var bits = _dereq_('bit-twiddle')
var bruteForce = _dereq_('./brute')
var bruteForcePartial = bruteForce.partial
var bruteForceFull = bruteForce.full
var sweep = _dereq_('./sweep')
var findMedian = _dereq_('./median')
var genPartition = _dereq_('./partition')
//Twiddle parameters
var BRUTE_FORCE_CUTOFF = 128 //Cut off for brute force search
var SCAN_CUTOFF = (1<<22) //Cut off for two way scan
var SCAN_COMPLETE_CUTOFF = (1<<22)
//Partition functions
var partitionInteriorContainsInterval = genPartition(
'!(lo>=p0)&&!(p1>=hi)',
['p0', 'p1'])
var partitionStartEqual = genPartition(
'lo===p0',
['p0'])
var partitionStartLessThan = genPartition(
'lo<p0',
['p0'])
var partitionEndLessThanEqual = genPartition(
'hi<=p0',
['p0'])
var partitionContainsPoint = genPartition(
'lo<=p0&&p0<=hi',
['p0'])
var partitionContainsPointProper = genPartition(
'lo<p0&&p0<=hi',
['p0'])
//Frame size for iterative loop
var IFRAME_SIZE = 6
var DFRAME_SIZE = 2
//Data for box statck
var INIT_CAPACITY = 1024
var BOX_ISTACK = pool.mallocInt32(INIT_CAPACITY)
var BOX_DSTACK = pool.mallocDouble(INIT_CAPACITY)
//Initialize iterative loop queue
function iterInit(d, count) {
var levels = (8 * bits.log2(count+1) * (d+1))|0
var maxInts = bits.nextPow2(IFRAME_SIZE*levels)
if(BOX_ISTACK.length < maxInts) {
pool.free(BOX_ISTACK)
BOX_ISTACK = pool.mallocInt32(maxInts)
}
var maxDoubles = bits.nextPow2(DFRAME_SIZE*levels)
if(BOX_DSTACK < maxDoubles) {
pool.free(BOX_DSTACK)
BOX_DSTACK = pool.mallocDouble(maxDoubles)
}
}
//Append item to queue
function iterPush(ptr,
axis,
redStart, redEnd,
blueStart, blueEnd,
state,
lo, hi) {
var iptr = IFRAME_SIZE * ptr
BOX_ISTACK[iptr] = axis
BOX_ISTACK[iptr+1] = redStart
BOX_ISTACK[iptr+2] = redEnd
BOX_ISTACK[iptr+3] = blueStart
BOX_ISTACK[iptr+4] = blueEnd
BOX_ISTACK[iptr+5] = state
var dptr = DFRAME_SIZE * ptr
BOX_DSTACK[dptr] = lo
BOX_DSTACK[dptr+1] = hi
}
//Special case: Intersect single point with list of intervals
function onePointPartial(
d, axis, visit, flip,
redStart, redEnd, red, redIndex,
blueOffset, blue, blueId) {
var elemSize = 2 * d
var bluePtr = blueOffset * elemSize
var blueX = blue[bluePtr + axis]
red_loop:
for(var i=redStart, redPtr=redStart*elemSize; i<redEnd; ++i, redPtr+=elemSize) {
var r0 = red[redPtr+axis]
var r1 = red[redPtr+axis+d]
if(blueX < r0 || r1 < blueX) {
continue
}
if(flip && blueX === r0) {
continue
}
var redId = redIndex[i]
for(var j=axis+1; j<d; ++j) {
var r0 = red[redPtr+j]
var r1 = red[redPtr+j+d]
var b0 = blue[bluePtr+j]
var b1 = blue[bluePtr+j+d]
if(r1 < b0 || b1 < r0) {
continue red_loop
}
}
var retval
if(flip) {
retval = visit(blueId, redId)
} else {
retval = visit(redId, blueId)
}
if(retval !== void 0) {
return retval
}
}
}
//Special case: Intersect one point with list of intervals
function onePointFull(
d, axis, visit,
redStart, redEnd, red, redIndex,
blueOffset, blue, blueId) {
var elemSize = 2 * d
var bluePtr = blueOffset * elemSize
var blueX = blue[bluePtr + axis]
red_loop:
for(var i=redStart, redPtr=redStart*elemSize; i<redEnd; ++i, redPtr+=elemSize) {
var redId = redIndex[i]
if(redId === blueId) {
continue
}
var r0 = red[redPtr+axis]
var r1 = red[redPtr+axis+d]
if(blueX < r0 || r1 < blueX) {
continue
}
for(var j=axis+1; j<d; ++j) {
var r0 = red[redPtr+j]
var r1 = red[redPtr+j+d]
var b0 = blue[bluePtr+j]
var b1 = blue[bluePtr+j+d]
if(r1 < b0 || b1 < r0) {
continue red_loop
}
}
var retval = visit(redId, blueId)
if(retval !== void 0) {
return retval
}
}
}
//The main box intersection routine
function boxIntersectIter(
d, visit, initFull,
xSize, xBoxes, xIndex,
ySize, yBoxes, yIndex) {
//Reserve memory for stack
iterInit(d, xSize + ySize)
var top = 0
var elemSize = 2 * d
var retval
iterPush(top++,
0,
0, xSize,
0, ySize,
initFull ? 16 : 0,
-Infinity, Infinity)
if(!initFull) {
iterPush(top++,
0,
0, ySize,
0, xSize,
1,
-Infinity, Infinity)
}
while(top > 0) {
top -= 1
var iptr = top * IFRAME_SIZE
var axis = BOX_ISTACK[iptr]
var redStart = BOX_ISTACK[iptr+1]
var redEnd = BOX_ISTACK[iptr+2]
var blueStart = BOX_ISTACK[iptr+3]
var blueEnd = BOX_ISTACK[iptr+4]
var state = BOX_ISTACK[iptr+5]
var dptr = top * DFRAME_SIZE
var lo = BOX_DSTACK[dptr]
var hi = BOX_DSTACK[dptr+1]
//Unpack state info
var flip = (state & 1)
var full = !!(state & 16)
//Unpack indices
var red = xBoxes
var redIndex = xIndex
var blue = yBoxes
var blueIndex = yIndex
if(flip) {
red = yBoxes
redIndex = yIndex
blue = xBoxes
blueIndex = xIndex
}
if(state & 2) {
redEnd = partitionStartLessThan(
d, axis,
redStart, redEnd, red, redIndex,
hi)
if(redStart >= redEnd) {
continue
}
}
if(state & 4) {
redStart = partitionEndLessThanEqual(
d, axis,
redStart, redEnd, red, redIndex,
lo)
if(redStart >= redEnd) {
continue
}
}
var redCount = redEnd - redStart
var blueCount = blueEnd - blueStart
if(full) {
if(d * redCount * (redCount + blueCount) < SCAN_COMPLETE_CUTOFF) {
retval = sweep.scanComplete(
d, axis, visit,
redStart, redEnd, red, redIndex,
blueStart, blueEnd, blue, blueIndex)
if(retval !== void 0) {
return retval
}
continue
}
} else {
if(d * Math.min(redCount, blueCount) < BRUTE_FORCE_CUTOFF) {
//If input small, then use brute force
retval = bruteForcePartial(
d, axis, visit, flip,
redStart, redEnd, red, redIndex,
blueStart, blueEnd, blue, blueIndex)
if(retval !== void 0) {
return retval
}
continue
} else if(d * redCount * blueCount < SCAN_CUTOFF) {
//If input medium sized, then use sweep and prune
retval = sweep.scanBipartite(
d, axis, visit, flip,
redStart, redEnd, red, redIndex,
blueStart, blueEnd, blue, blueIndex)
if(retval !== void 0) {
return retval
}
continue
}
}
//First, find all red intervals whose interior contains (lo,hi)
var red0 = partitionInteriorContainsInterval(
d, axis,
redStart, redEnd, red, redIndex,
lo, hi)
//Lower dimensional case
if(redStart < red0) {
if(d * (red0 - redStart) < BRUTE_FORCE_CUTOFF) {
//Special case for small inputs: use brute force
retval = bruteForceFull(
d, axis+1, visit,
redStart, red0, red, redIndex,
blueStart, blueEnd, blue, blueIndex)
if(retval !== void 0) {
return retval
}
} else if(axis === d-2) {
if(flip) {
retval = sweep.sweepBipartite(
d, visit,
blueStart, blueEnd, blue, blueIndex,
redStart, red0, red, redIndex)
} else {
retval = sweep.sweepBipartite(
d, visit,
redStart, red0, red, redIndex,
blueStart, blueEnd, blue, blueIndex)
}
if(retval !== void 0) {
return retval
}
} else {
iterPush(top++,
axis+1,
redStart, red0,
blueStart, blueEnd,
flip,
-Infinity, Infinity)
iterPush(top++,
axis+1,
blueStart, blueEnd,
redStart, red0,
flip^1,
-Infinity, Infinity)
}
}
//Divide and conquer phase
if(red0 < redEnd) {
//Cut blue into 3 parts:
//
// Points < mid point
// Points = mid point
// Points > mid point
//
var blue0 = findMedian(
d, axis,
blueStart, blueEnd, blue, blueIndex)
var mid = blue[elemSize * blue0 + axis]
var blue1 = partitionStartEqual(
d, axis,
blue0, blueEnd, blue, blueIndex,
mid)
//Right case
if(blue1 < blueEnd) {
iterPush(top++,
axis,
red0, redEnd,
blue1, blueEnd,
(flip|4) + (full ? 16 : 0),
mid, hi)
}
//Left case
if(blueStart < blue0) {
iterPush(top++,
axis,
red0, redEnd,
blueStart, blue0,
(flip|2) + (full ? 16 : 0),
lo, mid)
}
//Center case (the hard part)
if(blue0 + 1 === blue1) {
//Optimization: Range with exactly 1 point, use a brute force scan
if(full) {
retval = onePointFull(
d, axis, visit,
red0, redEnd, red, redIndex,
blue0, blue, blueIndex[blue0])
} else {
retval = onePointPartial(
d, axis, visit, flip,
red0, redEnd, red, redIndex,
blue0, blue, blueIndex[blue0])
}
if(retval !== void 0) {
return retval
}
} else if(blue0 < blue1) {
var red1
if(full) {
//If full intersection, need to handle special case
red1 = partitionContainsPoint(
d, axis,
red0, redEnd, red, redIndex,
mid)
if(red0 < red1) {
var redX = partitionStartEqual(
d, axis,
red0, red1, red, redIndex,
mid)
if(axis === d-2) {
//Degenerate sweep intersection:
// [red0, redX] with [blue0, blue1]
if(red0 < redX) {
retval = sweep.sweepComplete(
d, visit,
red0, redX, red, redIndex,
blue0, blue1, blue, blueIndex)
if(retval !== void 0) {
return retval
}
}
//Normal sweep intersection:
// [redX, red1] with [blue0, blue1]
if(redX < red1) {
retval = sweep.sweepBipartite(
d, visit,
redX, red1, red, redIndex,
blue0, blue1, blue, blueIndex)
if(retval !== void 0) {
return retval
}
}
} else {
if(red0 < redX) {
iterPush(top++,
axis+1,
red0, redX,
blue0, blue1,
16,
-Infinity, Infinity)
}
if(redX < red1) {
iterPush(top++,
axis+1,
redX, red1,
blue0, blue1,
0,
-Infinity, Infinity)
iterPush(top++,
axis+1,
blue0, blue1,
redX, red1,
1,
-Infinity, Infinity)
}
}
}
} else {
if(flip) {
red1 = partitionContainsPointProper(
d, axis,
red0, redEnd, red, redIndex,
mid)
} else {
red1 = partitionContainsPoint(
d, axis,
red0, redEnd, red, redIndex,
mid)
}
if(red0 < red1) {
if(axis === d-2) {
if(flip) {
retval = sweep.sweepBipartite(
d, visit,
blue0, blue1, blue, blueIndex,
red0, red1, red, redIndex)
} else {
retval = sweep.sweepBipartite(
d, visit,
red0, red1, red, redIndex,
blue0, blue1, blue, blueIndex)
}
} else {
iterPush(top++,
axis+1,
red0, red1,
blue0, blue1,
flip,
-Infinity, Infinity)
iterPush(top++,
axis+1,
blue0, blue1,
red0, red1,
flip^1,
-Infinity, Infinity)
}
}
}
}
}
}
}
},{"./brute":84,"./median":86,"./partition":87,"./sweep":89,"bit-twiddle":79,"typedarray-pool":519}],86:[function(_dereq_,module,exports){
'use strict'
module.exports = findMedian
var genPartition = _dereq_('./partition')
var partitionStartLessThan = genPartition('lo<p0', ['p0'])
var PARTITION_THRESHOLD = 8 //Cut off for using insertion sort in findMedian
//Base case for median finding: Use insertion sort
function insertionSort(d, axis, start, end, boxes, ids) {
var elemSize = 2 * d
var boxPtr = elemSize * (start+1) + axis
for(var i=start+1; i<end; ++i, boxPtr+=elemSize) {
var x = boxes[boxPtr]
for(var j=i, ptr=elemSize*(i-1);
j>start && boxes[ptr+axis] > x;
--j, ptr-=elemSize) {
//Swap
var aPtr = ptr
var bPtr = ptr+elemSize
for(var k=0; k<elemSize; ++k, ++aPtr, ++bPtr) {
var y = boxes[aPtr]
boxes[aPtr] = boxes[bPtr]
boxes[bPtr] = y
}
var tmp = ids[j]
ids[j] = ids[j-1]
ids[j-1] = tmp
}
}
}
//Find median using quick select algorithm
// takes O(n) time with high probability
function findMedian(d, axis, start, end, boxes, ids) {
if(end <= start+1) {
return start
}
var lo = start
var hi = end
var mid = ((end + start) >>> 1)
var elemSize = 2*d
var pivot = mid
var value = boxes[elemSize*mid+axis]
while(lo < hi) {
if(hi - lo < PARTITION_THRESHOLD) {
insertionSort(d, axis, lo, hi, boxes, ids)
value = boxes[elemSize*mid+axis]
break
}
//Select pivot using median-of-3
var count = hi - lo
var pivot0 = (Math.random()*count+lo)|0
var value0 = boxes[elemSize*pivot0 + axis]
var pivot1 = (Math.random()*count+lo)|0
var value1 = boxes[elemSize*pivot1 + axis]
var pivot2 = (Math.random()*count+lo)|0
var value2 = boxes[elemSize*pivot2 + axis]
if(value0 <= value1) {
if(value2 >= value1) {
pivot = pivot1
value = value1
} else if(value0 >= value2) {
pivot = pivot0
value = value0
} else {
pivot = pivot2
value = value2
}
} else {
if(value1 >= value2) {
pivot = pivot1
value = value1
} else if(value2 >= value0) {
pivot = pivot0
value = value0
} else {
pivot = pivot2
value = value2
}
}
//Swap pivot to end of array
var aPtr = elemSize * (hi-1)
var bPtr = elemSize * pivot
for(var i=0; i<elemSize; ++i, ++aPtr, ++bPtr) {
var x = boxes[aPtr]
boxes[aPtr] = boxes[bPtr]
boxes[bPtr] = x
}
var y = ids[hi-1]
ids[hi-1] = ids[pivot]
ids[pivot] = y
//Partition using pivot
pivot = partitionStartLessThan(
d, axis,
lo, hi-1, boxes, ids,
value)
//Swap pivot back
var aPtr = elemSize * (hi-1)
var bPtr = elemSize * pivot
for(var i=0; i<elemSize; ++i, ++aPtr, ++bPtr) {
var x = boxes[aPtr]
boxes[aPtr] = boxes[bPtr]
boxes[bPtr] = x
}
var y = ids[hi-1]
ids[hi-1] = ids[pivot]
ids[pivot] = y
//Swap pivot to last pivot
if(mid < pivot) {
hi = pivot-1
while(lo < hi &&
boxes[elemSize*(hi-1)+axis] === value) {
hi -= 1
}
hi += 1
} else if(pivot < mid) {
lo = pivot + 1
while(lo < hi &&
boxes[elemSize*lo+axis] === value) {
lo += 1
}
} else {
break
}
}
//Make sure pivot is at start
return partitionStartLessThan(
d, axis,
start, mid, boxes, ids,
boxes[elemSize*mid+axis])
}
},{"./partition":87}],87:[function(_dereq_,module,exports){
'use strict'
module.exports = genPartition
var code = 'for(var j=2*a,k=j*c,l=k,m=c,n=b,o=a+b,p=c;d>p;++p,k+=j){var _;if($)if(m===p)m+=1,l+=j;else{for(var s=0;j>s;++s){var t=e[k+s];e[k+s]=e[l],e[l++]=t}var u=f[p];f[p]=f[m],f[m++]=u}}return m'
function genPartition(predicate, args) {
var fargs ='abcdef'.split('').concat(args)
var reads = []
if(predicate.indexOf('lo') >= 0) {
reads.push('lo=e[k+n]')
}
if(predicate.indexOf('hi') >= 0) {
reads.push('hi=e[k+o]')
}
fargs.push(
code.replace('_', reads.join())
.replace('$', predicate))
return Function.apply(void 0, fargs)
}
},{}],88:[function(_dereq_,module,exports){
'use strict';
//This code is extracted from ndarray-sort
//It is inlined here as a temporary workaround
module.exports = wrapper;
var INSERT_SORT_CUTOFF = 32
function wrapper(data, n0) {
if (n0 <= 4*INSERT_SORT_CUTOFF) {
insertionSort(0, n0 - 1, data);
} else {
quickSort(0, n0 - 1, data);
}
}
function insertionSort(left, right, data) {
var ptr = 2*(left+1)
for(var i=left+1; i<=right; ++i) {
var a = data[ptr++]
var b = data[ptr++]
var j = i
var jptr = ptr-2
while(j-- > left) {
var x = data[jptr-2]
var y = data[jptr-1]
if(x < a) {
break
} else if(x === a && y < b) {
break
}
data[jptr] = x
data[jptr+1] = y
jptr -= 2
}
data[jptr] = a
data[jptr+1] = b
}
}
function swap(i, j, data) {
i *= 2
j *= 2
var x = data[i]
var y = data[i+1]
data[i] = data[j]
data[i+1] = data[j+1]
data[j] = x
data[j+1] = y
}
function move(i, j, data) {
i *= 2
j *= 2
data[i] = data[j]
data[i+1] = data[j+1]
}
function rotate(i, j, k, data) {
i *= 2
j *= 2
k *= 2
var x = data[i]
var y = data[i+1]
data[i] = data[j]
data[i+1] = data[j+1]
data[j] = data[k]
data[j+1] = data[k+1]
data[k] = x
data[k+1] = y
}
function shufflePivot(i, j, px, py, data) {
i *= 2
j *= 2
data[i] = data[j]
data[j] = px
data[i+1] = data[j+1]
data[j+1] = py
}
function compare(i, j, data) {
i *= 2
j *= 2
var x = data[i],
y = data[j]
if(x < y) {
return false
} else if(x === y) {
return data[i+1] > data[j+1]
}
return true
}
function comparePivot(i, y, b, data) {
i *= 2
var x = data[i]
if(x < y) {
return true
} else if(x === y) {
return data[i+1] < b
}
return false
}
function quickSort(left, right, data) {
var sixth = (right - left + 1) / 6 | 0,
index1 = left + sixth,
index5 = right - sixth,
index3 = left + right >> 1,
index2 = index3 - sixth,
index4 = index3 + sixth,
el1 = index1,
el2 = index2,
el3 = index3,
el4 = index4,
el5 = index5,
less = left + 1,
great = right - 1,
tmp = 0
if(compare(el1, el2, data)) {
tmp = el1
el1 = el2
el2 = tmp
}
if(compare(el4, el5, data)) {
tmp = el4
el4 = el5
el5 = tmp
}
if(compare(el1, el3, data)) {
tmp = el1
el1 = el3
el3 = tmp
}
if(compare(el2, el3, data)) {
tmp = el2
el2 = el3
el3 = tmp
}
if(compare(el1, el4, data)) {
tmp = el1
el1 = el4
el4 = tmp
}
if(compare(el3, el4, data)) {
tmp = el3
el3 = el4
el4 = tmp
}
if(compare(el2, el5, data)) {
tmp = el2
el2 = el5
el5 = tmp
}
if(compare(el2, el3, data)) {
tmp = el2
el2 = el3
el3 = tmp
}
if(compare(el4, el5, data)) {
tmp = el4
el4 = el5
el5 = tmp
}
var pivot1X = data[2*el2]
var pivot1Y = data[2*el2+1]
var pivot2X = data[2*el4]
var pivot2Y = data[2*el4+1]
var ptr0 = 2 * el1;
var ptr2 = 2 * el3;
var ptr4 = 2 * el5;
var ptr5 = 2 * index1;
var ptr6 = 2 * index3;
var ptr7 = 2 * index5;
for (var i1 = 0; i1 < 2; ++i1) {
var x = data[ptr0+i1];
var y = data[ptr2+i1];
var z = data[ptr4+i1];
data[ptr5+i1] = x;
data[ptr6+i1] = y;
data[ptr7+i1] = z;
}
move(index2, left, data)
move(index4, right, data)
for (var k = less; k <= great; ++k) {
if (comparePivot(k, pivot1X, pivot1Y, data)) {
if (k !== less) {
swap(k, less, data)
}
++less;
} else {
if (!comparePivot(k, pivot2X, pivot2Y, data)) {
while (true) {
if (!comparePivot(great, pivot2X, pivot2Y, data)) {
if (--great < k) {
break;
}
continue;
} else {
if (comparePivot(great, pivot1X, pivot1Y, data)) {
rotate(k, less, great, data)
++less;
--great;
} else {
swap(k, great, data)
--great;
}
break;
}
}
}
}
}
shufflePivot(left, less-1, pivot1X, pivot1Y, data)
shufflePivot(right, great+1, pivot2X, pivot2Y, data)
if (less - 2 - left <= INSERT_SORT_CUTOFF) {
insertionSort(left, less - 2, data);
} else {
quickSort(left, less - 2, data);
}
if (right - (great + 2) <= INSERT_SORT_CUTOFF) {
insertionSort(great + 2, right, data);
} else {
quickSort(great + 2, right, data);
}
if (great - less <= INSERT_SORT_CUTOFF) {
insertionSort(less, great, data);
} else {
quickSort(less, great, data);
}
}
},{}],89:[function(_dereq_,module,exports){
'use strict'
module.exports = {
init: sqInit,
sweepBipartite: sweepBipartite,
sweepComplete: sweepComplete,
scanBipartite: scanBipartite,
scanComplete: scanComplete
}
var pool = _dereq_('typedarray-pool')
var bits = _dereq_('bit-twiddle')
var isort = _dereq_('./sort')
//Flag for blue
var BLUE_FLAG = (1<<28)
//1D sweep event queue stuff (use pool to save space)
var INIT_CAPACITY = 1024
var RED_SWEEP_QUEUE = pool.mallocInt32(INIT_CAPACITY)
var RED_SWEEP_INDEX = pool.mallocInt32(INIT_CAPACITY)
var BLUE_SWEEP_QUEUE = pool.mallocInt32(INIT_CAPACITY)
var BLUE_SWEEP_INDEX = pool.mallocInt32(INIT_CAPACITY)
var COMMON_SWEEP_QUEUE = pool.mallocInt32(INIT_CAPACITY)
var COMMON_SWEEP_INDEX = pool.mallocInt32(INIT_CAPACITY)
var SWEEP_EVENTS = pool.mallocDouble(INIT_CAPACITY * 8)
//Reserves memory for the 1D sweep data structures
function sqInit(count) {
var rcount = bits.nextPow2(count)
if(RED_SWEEP_QUEUE.length < rcount) {
pool.free(RED_SWEEP_QUEUE)
RED_SWEEP_QUEUE = pool.mallocInt32(rcount)
}
if(RED_SWEEP_INDEX.length < rcount) {
pool.free(RED_SWEEP_INDEX)
RED_SWEEP_INDEX = pool.mallocInt32(rcount)
}
if(BLUE_SWEEP_QUEUE.length < rcount) {
pool.free(BLUE_SWEEP_QUEUE)
BLUE_SWEEP_QUEUE = pool.mallocInt32(rcount)
}
if(BLUE_SWEEP_INDEX.length < rcount) {
pool.free(BLUE_SWEEP_INDEX)
BLUE_SWEEP_INDEX = pool.mallocInt32(rcount)
}
if(COMMON_SWEEP_QUEUE.length < rcount) {
pool.free(COMMON_SWEEP_QUEUE)
COMMON_SWEEP_QUEUE = pool.mallocInt32(rcount)
}
if(COMMON_SWEEP_INDEX.length < rcount) {
pool.free(COMMON_SWEEP_INDEX)
COMMON_SWEEP_INDEX = pool.mallocInt32(rcount)
}
var eventLength = 8 * rcount
if(SWEEP_EVENTS.length < eventLength) {
pool.free(SWEEP_EVENTS)
SWEEP_EVENTS = pool.mallocDouble(eventLength)
}
}
//Remove an item from the active queue in O(1)
function sqPop(queue, index, count, item) {
var idx = index[item]
var top = queue[count-1]
queue[idx] = top
index[top] = idx
}
//Insert an item into the active queue in O(1)
function sqPush(queue, index, count, item) {
queue[count] = item
index[item] = count
}
//Recursion base case: use 1D sweep algorithm
function sweepBipartite(
d, visit,
redStart, redEnd, red, redIndex,
blueStart, blueEnd, blue, blueIndex) {
//store events as pairs [coordinate, idx]
//
// red create: -(idx+1)
// red destroy: idx
// blue create: -(idx+BLUE_FLAG)
// blue destroy: idx+BLUE_FLAG
//
var ptr = 0
var elemSize = 2*d
var istart = d-1
var iend = elemSize-1
for(var i=redStart; i<redEnd; ++i) {
var idx = redIndex[i]
var redOffset = elemSize*i
SWEEP_EVENTS[ptr++] = red[redOffset+istart]
SWEEP_EVENTS[ptr++] = -(idx+1)
SWEEP_EVENTS[ptr++] = red[redOffset+iend]
SWEEP_EVENTS[ptr++] = idx
}
for(var i=blueStart; i<blueEnd; ++i) {
var idx = blueIndex[i]+BLUE_FLAG
var blueOffset = elemSize*i
SWEEP_EVENTS[ptr++] = blue[blueOffset+istart]
SWEEP_EVENTS[ptr++] = -idx
SWEEP_EVENTS[ptr++] = blue[blueOffset+iend]
SWEEP_EVENTS[ptr++] = idx
}
//process events from left->right
var n = ptr >>> 1
isort(SWEEP_EVENTS, n)
var redActive = 0
var blueActive = 0
for(var i=0; i<n; ++i) {
var e = SWEEP_EVENTS[2*i+1]|0
if(e >= BLUE_FLAG) {
//blue destroy event
e = (e-BLUE_FLAG)|0
sqPop(BLUE_SWEEP_QUEUE, BLUE_SWEEP_INDEX, blueActive--, e)
} else if(e >= 0) {
//red destroy event
sqPop(RED_SWEEP_QUEUE, RED_SWEEP_INDEX, redActive--, e)
} else if(e <= -BLUE_FLAG) {
//blue create event
e = (-e-BLUE_FLAG)|0
for(var j=0; j<redActive; ++j) {
var retval = visit(RED_SWEEP_QUEUE[j], e)
if(retval !== void 0) {
return retval
}
}
sqPush(BLUE_SWEEP_QUEUE, BLUE_SWEEP_INDEX, blueActive++, e)
} else {
//red create event
e = (-e-1)|0
for(var j=0; j<blueActive; ++j) {
var retval = visit(e, BLUE_SWEEP_QUEUE[j])
if(retval !== void 0) {
return retval
}
}
sqPush(RED_SWEEP_QUEUE, RED_SWEEP_INDEX, redActive++, e)
}
}
}
//Complete sweep
function sweepComplete(d, visit,
redStart, redEnd, red, redIndex,
blueStart, blueEnd, blue, blueIndex) {
var ptr = 0
var elemSize = 2*d
var istart = d-1
var iend = elemSize-1
for(var i=redStart; i<redEnd; ++i) {
var idx = (redIndex[i]+1)<<1
var redOffset = elemSize*i
SWEEP_EVENTS[ptr++] = red[redOffset+istart]
SWEEP_EVENTS[ptr++] = -idx
SWEEP_EVENTS[ptr++] = red[redOffset+iend]
SWEEP_EVENTS[ptr++] = idx
}
for(var i=blueStart; i<blueEnd; ++i) {
var idx = (blueIndex[i]+1)<<1
var blueOffset = elemSize*i
SWEEP_EVENTS[ptr++] = blue[blueOffset+istart]
SWEEP_EVENTS[ptr++] = (-idx)|1
SWEEP_EVENTS[ptr++] = blue[blueOffset+iend]
SWEEP_EVENTS[ptr++] = idx|1
}
//process events from left->right
var n = ptr >>> 1
isort(SWEEP_EVENTS, n)
var redActive = 0
var blueActive = 0
var commonActive = 0
for(var i=0; i<n; ++i) {
var e = SWEEP_EVENTS[2*i+1]|0
var color = e&1
if(i < n-1 && (e>>1) === (SWEEP_EVENTS[2*i+3]>>1)) {
color = 2
i += 1
}
if(e < 0) {
//Create event
var id = -(e>>1) - 1
//Intersect with common
for(var j=0; j<commonActive; ++j) {
var retval = visit(COMMON_SWEEP_QUEUE[j], id)
if(retval !== void 0) {
return retval
}
}
if(color !== 0) {
//Intersect with red
for(var j=0; j<redActive; ++j) {
var retval = visit(RED_SWEEP_QUEUE[j], id)
if(retval !== void 0) {
return retval
}
}
}
if(color !== 1) {
//Intersect with blue
for(var j=0; j<blueActive; ++j) {
var retval = visit(BLUE_SWEEP_QUEUE[j], id)
if(retval !== void 0) {
return retval
}
}
}
if(color === 0) {
//Red
sqPush(RED_SWEEP_QUEUE, RED_SWEEP_INDEX, redActive++, id)
} else if(color === 1) {
//Blue
sqPush(BLUE_SWEEP_QUEUE, BLUE_SWEEP_INDEX, blueActive++, id)
} else if(color === 2) {
//Both
sqPush(COMMON_SWEEP_QUEUE, COMMON_SWEEP_INDEX, commonActive++, id)
}
} else {
//Destroy event
var id = (e>>1) - 1
if(color === 0) {
//Red
sqPop(RED_SWEEP_QUEUE, RED_SWEEP_INDEX, redActive--, id)
} else if(color === 1) {
//Blue
sqPop(BLUE_SWEEP_QUEUE, BLUE_SWEEP_INDEX, blueActive--, id)
} else if(color === 2) {
//Both
sqPop(COMMON_SWEEP_QUEUE, COMMON_SWEEP_INDEX, commonActive--, id)
}
}
}
}
//Sweep and prune/scanline algorithm:
// Scan along axis, detect intersections
// Brute force all boxes along axis
function scanBipartite(
d, axis, visit, flip,
redStart, redEnd, red, redIndex,
blueStart, blueEnd, blue, blueIndex) {
var ptr = 0
var elemSize = 2*d
var istart = axis
var iend = axis+d
var redShift = 1
var blueShift = 1
if(flip) {
blueShift = BLUE_FLAG
} else {
redShift = BLUE_FLAG
}
for(var i=redStart; i<redEnd; ++i) {
var idx = i + redShift
var redOffset = elemSize*i
SWEEP_EVENTS[ptr++] = red[redOffset+istart]
SWEEP_EVENTS[ptr++] = -idx
SWEEP_EVENTS[ptr++] = red[redOffset+iend]
SWEEP_EVENTS[ptr++] = idx
}
for(var i=blueStart; i<blueEnd; ++i) {
var idx = i + blueShift
var blueOffset = elemSize*i
SWEEP_EVENTS[ptr++] = blue[blueOffset+istart]
SWEEP_EVENTS[ptr++] = -idx
}
//process events from left->right
var n = ptr >>> 1
isort(SWEEP_EVENTS, n)
var redActive = 0
for(var i=0; i<n; ++i) {
var e = SWEEP_EVENTS[2*i+1]|0
if(e < 0) {
var idx = -e
var isRed = false
if(idx >= BLUE_FLAG) {
isRed = !flip
idx -= BLUE_FLAG
} else {
isRed = !!flip
idx -= 1
}
if(isRed) {
sqPush(RED_SWEEP_QUEUE, RED_SWEEP_INDEX, redActive++, idx)
} else {
var blueId = blueIndex[idx]
var bluePtr = elemSize * idx
var b0 = blue[bluePtr+axis+1]
var b1 = blue[bluePtr+axis+1+d]
red_loop:
for(var j=0; j<redActive; ++j) {
var oidx = RED_SWEEP_QUEUE[j]
var redPtr = elemSize * oidx
if(b1 < red[redPtr+axis+1] ||
red[redPtr+axis+1+d] < b0) {
continue
}
for(var k=axis+2; k<d; ++k) {
if(blue[bluePtr + k + d] < red[redPtr + k] ||
red[redPtr + k + d] < blue[bluePtr + k]) {
continue red_loop
}
}
var redId = redIndex[oidx]
var retval
if(flip) {
retval = visit(blueId, redId)
} else {
retval = visit(redId, blueId)
}
if(retval !== void 0) {
return retval
}
}
}
} else {
sqPop(RED_SWEEP_QUEUE, RED_SWEEP_INDEX, redActive--, e - redShift)
}
}
}
function scanComplete(
d, axis, visit,
redStart, redEnd, red, redIndex,
blueStart, blueEnd, blue, blueIndex) {
var ptr = 0
var elemSize = 2*d
var istart = axis
var iend = axis+d
for(var i=redStart; i<redEnd; ++i) {
var idx = i + BLUE_FLAG
var redOffset = elemSize*i
SWEEP_EVENTS[ptr++] = red[redOffset+istart]
SWEEP_EVENTS[ptr++] = -idx
SWEEP_EVENTS[ptr++] = red[redOffset+iend]
SWEEP_EVENTS[ptr++] = idx
}
for(var i=blueStart; i<blueEnd; ++i) {
var idx = i + 1
var blueOffset = elemSize*i
SWEEP_EVENTS[ptr++] = blue[blueOffset+istart]
SWEEP_EVENTS[ptr++] = -idx
}
//process events from left->right
var n = ptr >>> 1
isort(SWEEP_EVENTS, n)
var redActive = 0
for(var i=0; i<n; ++i) {
var e = SWEEP_EVENTS[2*i+1]|0
if(e < 0) {
var idx = -e
if(idx >= BLUE_FLAG) {
RED_SWEEP_QUEUE[redActive++] = idx - BLUE_FLAG
} else {
idx -= 1
var blueId = blueIndex[idx]
var bluePtr = elemSize * idx
var b0 = blue[bluePtr+axis+1]
var b1 = blue[bluePtr+axis+1+d]
red_loop:
for(var j=0; j<redActive; ++j) {
var oidx = RED_SWEEP_QUEUE[j]
var redId = redIndex[oidx]
if(redId === blueId) {
break
}
var redPtr = elemSize * oidx
if(b1 < red[redPtr+axis+1] ||
red[redPtr+axis+1+d] < b0) {
continue
}
for(var k=axis+2; k<d; ++k) {
if(blue[bluePtr + k + d] < red[redPtr + k] ||
red[redPtr + k + d] < blue[bluePtr + k]) {
continue red_loop
}
}
var retval = visit(redId, blueId)
if(retval !== void 0) {
return retval
}
}
}
} else {
var idx = e - BLUE_FLAG
for(var j=redActive-1; j>=0; --j) {
if(RED_SWEEP_QUEUE[j] === idx) {
for(var k=j+1; k<redActive; ++k) {
RED_SWEEP_QUEUE[k-1] = RED_SWEEP_QUEUE[k]
}
break
}
}
--redActive
}
}
}
},{"./sort":88,"bit-twiddle":79,"typedarray-pool":519}],90:[function(_dereq_,module,exports){
},{}],91:[function(_dereq_,module,exports){
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
var objectCreate = Object.create || objectCreatePolyfill
var objectKeys = Object.keys || objectKeysPolyfill
var bind = Function.prototype.bind || functionBindPolyfill
function EventEmitter() {
if (!this._events || !Object.prototype.hasOwnProperty.call(this, '_events')) {
this._events = objectCreate(null);
this._eventsCount = 0;
}
this._maxListeners = this._maxListeners || undefined;
}
module.exports = EventEmitter;
// Backwards-compat with node 0.10.x
EventEmitter.EventEmitter = EventEmitter;
EventEmitter.prototype._events = undefined;
EventEmitter.prototype._maxListeners = undefined;
// By default EventEmitters will print a warning if more than 10 listeners are
// added to it. This is a useful default which helps finding memory leaks.
var defaultMaxListeners = 10;
var hasDefineProperty;
try {
var o = {};
if (Object.defineProperty) Object.defineProperty(o, 'x', { value: 0 });
hasDefineProperty = o.x === 0;
} catch (err) { hasDefineProperty = false }
if (hasDefineProperty) {
Object.defineProperty(EventEmitter, 'defaultMaxListeners', {
enumerable: true,
get: function() {
return defaultMaxListeners;
},
set: function(arg) {
// check whether the input is a positive number (whose value is zero or
// greater and not a NaN).
if (typeof arg !== 'number' || arg < 0 || arg !== arg)
throw new TypeError('"defaultMaxListeners" must be a positive number');
defaultMaxListeners = arg;
}
});
} else {
EventEmitter.defaultMaxListeners = defaultMaxListeners;
}
// Obviously not all Emitters should be limited to 10. This function allows
// that to be increased. Set to zero for unlimited.
EventEmitter.prototype.setMaxListeners = function setMaxListeners(n) {
if (typeof n !== 'number' || n < 0 || isNaN(n))
throw new TypeError('"n" argument must be a positive number');
this._maxListeners = n;
return this;
};
function $getMaxListeners(that) {
if (that._maxListeners === undefined)
return EventEmitter.defaultMaxListeners;
return that._maxListeners;
}
EventEmitter.prototype.getMaxListeners = function getMaxListeners() {
return $getMaxListeners(this);
};
// These standalone emit* functions are used to optimize calling of event
// handlers for fast cases because emit() itself often has a variable number of
// arguments and can be deoptimized because of that. These functions always have
// the same number of arguments and thus do not get deoptimized, so the code
// inside them can execute faster.
function emitNone(handler, isFn, self) {
if (isFn)
handler.call(self);
else {
var len = handler.length;
var listeners = arrayClone(handler, len);
for (var i = 0; i < len; ++i)
listeners[i].call(self);
}
}
function emitOne(handler, isFn, self, arg1) {
if (isFn)
handler.call(self, arg1);
else {
var len = handler.length;
var listeners = arrayClone(handler, len);
for (var i = 0; i < len; ++i)
listeners[i].call(self, arg1);
}
}
function emitTwo(handler, isFn, self, arg1, arg2) {
if (isFn)
handler.call(self, arg1, arg2);
else {
var len = handler.length;
var listeners = arrayClone(handler, len);
for (var i = 0; i < len; ++i)
listeners[i].call(self, arg1, arg2);
}
}
function emitThree(handler, isFn, self, arg1, arg2, arg3) {
if (isFn)
handler.call(self, arg1, arg2, arg3);
else {
var len = handler.length;
var listeners = arrayClone(handler, len);
for (var i = 0; i < len; ++i)
listeners[i].call(self, arg1, arg2, arg3);
}
}
function emitMany(handler, isFn, self, args) {
if (isFn)
handler.apply(self, args);
else {
var len = handler.length;
var listeners = arrayClone(handler, len);
for (var i = 0; i < len; ++i)
listeners[i].apply(self, args);
}
}
EventEmitter.prototype.emit = function emit(type) {
var er, handler, len, args, i, events;
var doError = (type === 'error');
events = this._events;
if (events)
doError = (doError && events.error == null);
else if (!doError)
return false;
// If there is no 'error' event listener then throw.
if (doError) {
if (arguments.length > 1)
er = arguments[1];
if (er instanceof Error) {
throw er; // Unhandled 'error' event
} else {
// At least give some kind of context to the user
var err = new Error('Unhandled "error" event. (' + er + ')');
err.context = er;
throw err;
}
return false;
}
handler = events[type];
if (!handler)
return false;
var isFn = typeof handler === 'function';
len = arguments.length;
switch (len) {
// fast cases
case 1:
emitNone(handler, isFn, this);
break;
case 2:
emitOne(handler, isFn, this, arguments[1]);
break;
case 3:
emitTwo(handler, isFn, this, arguments[1], arguments[2]);
break;
case 4:
emitThree(handler, isFn, this, arguments[1], arguments[2], arguments[3]);
break;
// slower
default:
args = new Array(len - 1);
for (i = 1; i < len; i++)
args[i - 1] = arguments[i];
emitMany(handler, isFn, this, args);
}
return true;
};
function _addListener(target, type, listener, prepend) {
var m;
var events;
var existing;
if (typeof listener !== 'function')
throw new TypeError('"listener" argument must be a function');
events = target._events;
if (!events) {
events = target._events = objectCreate(null);
target._eventsCount = 0;
} else {
// To avoid recursion in the case that type === "newListener"! Before
// adding it to the listeners, first emit "newListener".
if (events.newListener) {
target.emit('newListener', type,
listener.listener ? listener.listener : listener);
// Re-assign `events` because a newListener handler could have caused the
// this._events to be assigned to a new object
events = target._events;
}
existing = events[type];
}
if (!existing) {
// Optimize the case of one listener. Don't need the extra array object.
existing = events[type] = listener;
++target._eventsCount;
} else {
if (typeof existing === 'function') {
// Adding the second element, need to change to array.
existing = events[type] =
prepend ? [listener, existing] : [existing, listener];
} else {
// If we've already got an array, just append.
if (prepend) {
existing.unshift(listener);
} else {
existing.push(listener);
}
}
// Check for listener leak
if (!existing.warned) {
m = $getMaxListeners(target);
if (m && m > 0 && existing.length > m) {
existing.warned = true;
var w = new Error('Possible EventEmitter memory leak detected. ' +
existing.length + ' "' + String(type) + '" listeners ' +
'added. Use emitter.setMaxListeners() to ' +
'increase limit.');
w.name = 'MaxListenersExceededWarning';
w.emitter = target;
w.type = type;
w.count = existing.length;
if (typeof console === 'object' && console.warn) {
console.warn('%s: %s', w.name, w.message);
}
}
}
}
return target;
}
EventEmitter.prototype.addListener = function addListener(type, listener) {
return _addListener(this, type, listener, false);
};
EventEmitter.prototype.on = EventEmitter.prototype.addListener;
EventEmitter.prototype.prependListener =
function prependListener(type, listener) {
return _addListener(this, type, listener, true);
};
function onceWrapper() {
if (!this.fired) {
this.target.removeListener(this.type, this.wrapFn);
this.fired = true;
switch (arguments.length) {
case 0:
return this.listener.call(this.target);
case 1:
return this.listener.call(this.target, arguments[0]);
case 2:
return this.listener.call(this.target, arguments[0], arguments[1]);
case 3:
return this.listener.call(this.target, arguments[0], arguments[1],
arguments[2]);
default:
var args = new Array(arguments.length);
for (var i = 0; i < args.length; ++i)
args[i] = arguments[i];
this.listener.apply(this.target, args);
}
}
}
function _onceWrap(target, type, listener) {
var state = { fired: false, wrapFn: undefined, target: target, type: type, listener: listener };
var wrapped = bind.call(onceWrapper, state);
wrapped.listener = listener;
state.wrapFn = wrapped;
return wrapped;
}
EventEmitter.prototype.once = function once(type, listener) {
if (typeof listener !== 'function')
throw new TypeError('"listener" argument must be a function');
this.on(type, _onceWrap(this, type, listener));
return this;
};
EventEmitter.prototype.prependOnceListener =
function prependOnceListener(type, listener) {
if (typeof listener !== 'function')
throw new TypeError('"listener" argument must be a function');
this.prependListener(type, _onceWrap(this, type, listener));
return this;
};
// Emits a 'removeListener' event if and only if the listener was removed.
EventEmitter.prototype.removeListener =
function removeListener(type, listener) {
var list, events, position, i, originalListener;
if (typeof listener !== 'function')
throw new TypeError('"listener" argument must be a function');
events = this._events;
if (!events)
return this;
list = events[type];
if (!list)
return this;
if (list === listener || list.listener === listener) {
if (--this._eventsCount === 0)
this._events = objectCreate(null);
else {
delete events[type];
if (events.removeListener)
this.emit('removeListener', type, list.listener || listener);
}
} else if (typeof list !== 'function') {
position = -1;
for (i = list.length - 1; i >= 0; i--) {
if (list[i] === listener || list[i].listener === listener) {
originalListener = list[i].listener;
position = i;
break;
}
}
if (position < 0)
return this;
if (position === 0)
list.shift();
else
spliceOne(list, position);
if (list.length === 1)
events[type] = list[0];
if (events.removeListener)
this.emit('removeListener', type, originalListener || listener);
}
return this;
};
EventEmitter.prototype.removeAllListeners =
function removeAllListeners(type) {
var listeners, events, i;
events = this._events;
if (!events)
return this;
// not listening for removeListener, no need to emit
if (!events.removeListener) {
if (arguments.length === 0) {
this._events = objectCreate(null);
this._eventsCount = 0;
} else if (events[type]) {
if (--this._eventsCount === 0)
this._events = objectCreate(null);
else
delete events[type];
}
return this;
}
// emit removeListener for all listeners on all events
if (arguments.length === 0) {
var keys = objectKeys(events);
var key;
for (i = 0; i < keys.length; ++i) {
key = keys[i];
if (key === 'removeListener') continue;
this.removeAllListeners(key);
}
this.removeAllListeners('removeListener');
this._events = objectCreate(null);
this._eventsCount = 0;
return this;
}
listeners = events[type];
if (typeof listeners === 'function') {
this.removeListener(type, listeners);
} else if (listeners) {
// LIFO order
for (i = listeners.length - 1; i >= 0; i--) {
this.removeListener(type, listeners[i]);
}
}
return this;
};
function _listeners(target, type, unwrap) {
var events = target._events;
if (!events)
return [];
var evlistener = events[type];
if (!evlistener)
return [];
if (typeof evlistener === 'function')
return unwrap ? [evlistener.listener || evlistener] : [evlistener];
return unwrap ? unwrapListeners(evlistener) : arrayClone(evlistener, evlistener.length);
}
EventEmitter.prototype.listeners = function listeners(type) {
return _listeners(this, type, true);
};
EventEmitter.prototype.rawListeners = function rawListeners(type) {
return _listeners(this, type, false);
};
EventEmitter.listenerCount = function(emitter, type) {
if (typeof emitter.listenerCount === 'function') {
return emitter.listenerCount(type);
} else {
return listenerCount.call(emitter, type);
}
};
EventEmitter.prototype.listenerCount = listenerCount;
function listenerCount(type) {
var events = this._events;
if (events) {
var evlistener = events[type];
if (typeof evlistener === 'function') {
return 1;
} else if (evlistener) {
return evlistener.length;
}
}
return 0;
}
EventEmitter.prototype.eventNames = function eventNames() {
return this._eventsCount > 0 ? Reflect.ownKeys(this._events) : [];
};
// About 1.5x faster than the two-arg version of Array#splice().
function spliceOne(list, index) {
for (var i = index, k = i + 1, n = list.length; k < n; i += 1, k += 1)
list[i] = list[k];
list.pop();
}
function arrayClone(arr, n) {
var copy = new Array(n);
for (var i = 0; i < n; ++i)
copy[i] = arr[i];
return copy;
}
function unwrapListeners(arr) {
var ret = new Array(arr.length);
for (var i = 0; i < ret.length; ++i) {
ret[i] = arr[i].listener || arr[i];
}
return ret;
}
function objectCreatePolyfill(proto) {
var F = function() {};
F.prototype = proto;
return new F;
}
function objectKeysPolyfill(obj) {
var keys = [];
for (var k in obj) if (Object.prototype.hasOwnProperty.call(obj, k)) {
keys.push(k);
}
return k;
}
function functionBindPolyfill(context) {
var fn = this;
return function () {
return fn.apply(context, arguments);
};
}
},{}],92:[function(_dereq_,module,exports){
/*!
* The buffer module from node.js, for the browser.
*
* @author Feross Aboukhadijeh <https://feross.org>
* @license MIT
*/
/* eslint-disable no-proto */
'use strict'
var base64 = _dereq_('base64-js')
var ieee754 = _dereq_('ieee754')
exports.Buffer = Buffer
exports.SlowBuffer = SlowBuffer
exports.INSPECT_MAX_BYTES = 50
var K_MAX_LENGTH = 0x7fffffff
exports.kMaxLength = K_MAX_LENGTH
/**
* If `Buffer.TYPED_ARRAY_SUPPORT`:
* === true Use Uint8Array implementation (fastest)
* === false Print warning and recommend using `buffer` v4.x which has an Object
* implementation (most compatible, even IE6)
*
* Browsers that support typed arrays are IE 10+, Firefox 4+, Chrome 7+, Safari 5.1+,
* Opera 11.6+, iOS 4.2+.
*
* We report that the browser does not support typed arrays if the are not subclassable
* using __proto__. Firefox 4-29 lacks support for adding new properties to `Uint8Array`
* (See: https://bugzilla.mozilla.org/show_bug.cgi?id=695438). IE 10 lacks support
* for __proto__ and has a buggy typed array implementation.
*/
Buffer.TYPED_ARRAY_SUPPORT = typedArraySupport()
if (!Buffer.TYPED_ARRAY_SUPPORT && typeof console !== 'undefined' &&
typeof console.error === 'function') {
console.error(
'This browser lacks typed array (Uint8Array) support which is required by ' +
'`buffer` v5.x. Use `buffer` v4.x if you require old browser support.'
)
}
function typedArraySupport () {
// Can typed array instances can be augmented?
try {
var arr = new Uint8Array(1)
arr.__proto__ = {__proto__: Uint8Array.prototype, foo: function () { return 42 }}
return arr.foo() === 42
} catch (e) {
return false
}
}
Object.defineProperty(Buffer.prototype, 'parent', {
enumerable: true,
get: function () {
if (!Buffer.isBuffer(this)) return undefined
return this.buffer
}
})
Object.defineProperty(Buffer.prototype, 'offset', {
enumerable: true,
get: function () {
if (!Buffer.isBuffer(this)) return undefined
return this.byteOffset
}
})
function createBuffer (length) {
if (length > K_MAX_LENGTH) {
throw new RangeError('The value "' + length + '" is invalid for option "size"')
}
// Return an augmented `Uint8Array` instance
var buf = new Uint8Array(length)
buf.__proto__ = Buffer.prototype
return buf
}
/**
* The Buffer constructor returns instances of `Uint8Array` that have their
* prototype changed to `Buffer.prototype`. Furthermore, `Buffer` is a subclass of
* `Uint8Array`, so the returned instances will have all the node `Buffer` methods
* and the `Uint8Array` methods. Square bracket notation works as expected -- it
* returns a single octet.
*
* The `Uint8Array` prototype remains unmodified.
*/
function Buffer (arg, encodingOrOffset, length) {
// Common case.
if (typeof arg === 'number') {
if (typeof encodingOrOffset === 'string') {
throw new TypeError(
'The "string" argument must be of type string. Received type number'
)
}
return allocUnsafe(arg)
}
return from(arg, encodingOrOffset, length)
}
// Fix subarray() in ES2016. See: https://github.com/feross/buffer/pull/97
if (typeof Symbol !== 'undefined' && Symbol.species != null &&
Buffer[Symbol.species] === Buffer) {
Object.defineProperty(Buffer, Symbol.species, {
value: null,
configurable: true,
enumerable: false,
writable: false
})
}
Buffer.poolSize = 8192 // not used by this implementation
function from (value, encodingOrOffset, length) {
if (typeof value === 'string') {
return fromString(value, encodingOrOffset)
}
if (ArrayBuffer.isView(value)) {
return fromArrayLike(value)
}
if (value == null) {
throw TypeError(
'The first argument must be one of type string, Buffer, ArrayBuffer, Array, ' +
'or Array-like Object. Received type ' + (typeof value)
)
}
if (isInstance(value, ArrayBuffer) ||
(value && isInstance(value.buffer, ArrayBuffer))) {
return fromArrayBuffer(value, encodingOrOffset, length)
}
if (typeof value === 'number') {
throw new TypeError(
'The "value" argument must not be of type number. Received type number'
)
}
var valueOf = value.valueOf && value.valueOf()
if (valueOf != null && valueOf !== value) {
return Buffer.from(valueOf, encodingOrOffset, length)
}
var b = fromObject(value)
if (b) return b
if (typeof Symbol !== 'undefined' && Symbol.toPrimitive != null &&
typeof value[Symbol.toPrimitive] === 'function') {
return Buffer.from(
value[Symbol.toPrimitive]('string'), encodingOrOffset, length
)
}
throw new TypeError(
'The first argument must be one of type string, Buffer, ArrayBuffer, Array, ' +
'or Array-like Object. Received type ' + (typeof value)
)
}
/**
* Functionally equivalent to Buffer(arg, encoding) but throws a TypeError
* if value is a number.
* Buffer.from(str[, encoding])
* Buffer.from(array)
* Buffer.from(buffer)
* Buffer.from(arrayBuffer[, byteOffset[, length]])
**/
Buffer.from = function (value, encodingOrOffset, length) {
return from(value, encodingOrOffset, length)
}
// Note: Change prototype *after* Buffer.from is defined to workaround Chrome bug:
// https://github.com/feross/buffer/pull/148
Buffer.prototype.__proto__ = Uint8Array.prototype
Buffer.__proto__ = Uint8Array
function assertSize (size) {
if (typeof size !== 'number') {
throw new TypeError('"size" argument must be of type number')
} else if (size < 0) {
throw new RangeError('The value "' + size + '" is invalid for option "size"')
}
}
function alloc (size, fill, encoding) {
assertSize(size)
if (size <= 0) {
return createBuffer(size)
}
if (fill !== undefined) {
// Only pay attention to encoding if it's a string. This
// prevents accidentally sending in a number that would
// be interpretted as a start offset.
return typeof encoding === 'string'
? createBuffer(size).fill(fill, encoding)
: createBuffer(size).fill(fill)
}
return createBuffer(size)
}
/**
* Creates a new filled Buffer instance.
* alloc(size[, fill[, encoding]])
**/
Buffer.alloc = function (size, fill, encoding) {
return alloc(size, fill, encoding)
}
function allocUnsafe (size) {
assertSize(size)
return createBuffer(size < 0 ? 0 : checked(size) | 0)
}
/**
* Equivalent to Buffer(num), by default creates a non-zero-filled Buffer instance.
* */
Buffer.allocUnsafe = function (size) {
return allocUnsafe(size)
}
/**
* Equivalent to SlowBuffer(num), by default creates a non-zero-filled Buffer instance.
*/
Buffer.allocUnsafeSlow = function (size) {
return allocUnsafe(size)
}
function fromString (string, encoding) {
if (typeof encoding !== 'string' || encoding === '') {
encoding = 'utf8'
}
if (!Buffer.isEncoding(encoding)) {
throw new TypeError('Unknown encoding: ' + encoding)
}
var length = byteLength(string, encoding) | 0
var buf = createBuffer(length)
var actual = buf.write(string, encoding)
if (actual !== length) {
// Writing a hex string, for example, that contains invalid characters will
// cause everything after the first invalid character to be ignored. (e.g.
// 'abxxcd' will be treated as 'ab')
buf = buf.slice(0, actual)
}
return buf
}
function fromArrayLike (array) {
var length = array.length < 0 ? 0 : checked(array.length) | 0
var buf = createBuffer(length)
for (var i = 0; i < length; i += 1) {
buf[i] = array[i] & 255
}
return buf
}
function fromArrayBuffer (array, byteOffset, length) {
if (byteOffset < 0 || array.byteLength < byteOffset) {
throw new RangeError('"offset" is outside of buffer bounds')
}
if (array.byteLength < byteOffset + (length || 0)) {
throw new RangeError('"length" is outside of buffer bounds')
}
var buf
if (byteOffset === undefined && length === undefined) {
buf = new Uint8Array(array)
} else if (length === undefined) {
buf = new Uint8Array(array, byteOffset)
} else {
buf = new Uint8Array(array, byteOffset, length)
}
// Return an augmented `Uint8Array` instance
buf.__proto__ = Buffer.prototype
return buf
}
function fromObject (obj) {
if (Buffer.isBuffer(obj)) {
var len = checked(obj.length) | 0
var buf = createBuffer(len)
if (buf.length === 0) {
return buf
}
obj.copy(buf, 0, 0, len)
return buf
}
if (obj.length !== undefined) {
if (typeof obj.length !== 'number' || numberIsNaN(obj.length)) {
return createBuffer(0)
}
return fromArrayLike(obj)
}
if (obj.type === 'Buffer' && Array.isArray(obj.data)) {
return fromArrayLike(obj.data)
}
}
function checked (length) {
// Note: cannot use `length < K_MAX_LENGTH` here because that fails when
// length is NaN (which is otherwise coerced to zero.)
if (length >= K_MAX_LENGTH) {
throw new RangeError('Attempt to allocate Buffer larger than maximum ' +
'size: 0x' + K_MAX_LENGTH.toString(16) + ' bytes')
}
return length | 0
}
function SlowBuffer (length) {
if (+length != length) { // eslint-disable-line eqeqeq
length = 0
}
return Buffer.alloc(+length)
}
Buffer.isBuffer = function isBuffer (b) {
return b != null && b._isBuffer === true &&
b !== Buffer.prototype // so Buffer.isBuffer(Buffer.prototype) will be false
}
Buffer.compare = function compare (a, b) {
if (isInstance(a, Uint8Array)) a = Buffer.from(a, a.offset, a.byteLength)
if (isInstance(b, Uint8Array)) b = Buffer.from(b, b.offset, b.byteLength)
if (!Buffer.isBuffer(a) || !Buffer.isBuffer(b)) {
throw new TypeError(
'The "buf1", "buf2" arguments must be one of type Buffer or Uint8Array'
)
}
if (a === b) return 0
var x = a.length
var y = b.length
for (var i = 0, len = Math.min(x, y); i < len; ++i) {
if (a[i] !== b[i]) {
x = a[i]
y = b[i]
break
}
}
if (x < y) return -1
if (y < x) return 1
return 0
}
Buffer.isEncoding = function isEncoding (encoding) {
switch (String(encoding).toLowerCase()) {
case 'hex':
case 'utf8':
case 'utf-8':
case 'ascii':
case 'latin1':
case 'binary':
case 'base64':
case 'ucs2':
case 'ucs-2':
case 'utf16le':
case 'utf-16le':
return true
default:
return false
}
}
Buffer.concat = function concat (list, length) {
if (!Array.isArray(list)) {
throw new TypeError('"list" argument must be an Array of Buffers')
}
if (list.length === 0) {
return Buffer.alloc(0)
}
var i
if (length === undefined) {
length = 0
for (i = 0; i < list.length; ++i) {
length += list[i].length
}
}
var buffer = Buffer.allocUnsafe(length)
var pos = 0
for (i = 0; i < list.length; ++i) {
var buf = list[i]
if (isInstance(buf, Uint8Array)) {
buf = Buffer.from(buf)
}
if (!Buffer.isBuffer(buf)) {
throw new TypeError('"list" argument must be an Array of Buffers')
}
buf.copy(buffer, pos)
pos += buf.length
}
return buffer
}
function byteLength (string, encoding) {
if (Buffer.isBuffer(string)) {
return string.length
}
if (ArrayBuffer.isView(string) || isInstance(string, ArrayBuffer)) {
return string.byteLength
}
if (typeof string !== 'string') {
throw new TypeError(
'The "string" argument must be one of type string, Buffer, or ArrayBuffer. ' +
'Received type ' + typeof string
)
}
var len = string.length
var mustMatch = (arguments.length > 2 && arguments[2] === true)
if (!mustMatch && len === 0) return 0
// Use a for loop to avoid recursion
var loweredCase = false
for (;;) {
switch (encoding) {
case 'ascii':
case 'latin1':
case 'binary':
return len
case 'utf8':
case 'utf-8':
return utf8ToBytes(string).length
case 'ucs2':
case 'ucs-2':
case 'utf16le':
case 'utf-16le':
return len * 2
case 'hex':
return len >>> 1
case 'base64':
return base64ToBytes(string).length
default:
if (loweredCase) {
return mustMatch ? -1 : utf8ToBytes(string).length // assume utf8
}
encoding = ('' + encoding).toLowerCase()
loweredCase = true
}
}
}
Buffer.byteLength = byteLength
function slowToString (encoding, start, end) {
var loweredCase = false
// No need to verify that "this.length <= MAX_UINT32" since it's a read-only
// property of a typed array.
// This behaves neither like String nor Uint8Array in that we set start/end
// to their upper/lower bounds if the value passed is out of range.
// undefined is handled specially as per ECMA-262 6th Edition,
// Section 13.3.3.7 Runtime Semantics: KeyedBindingInitialization.
if (start === undefined || start < 0) {
start = 0
}
// Return early if start > this.length. Done here to prevent potential uint32
// coercion fail below.
if (start > this.length) {
return ''
}
if (end === undefined || end > this.length) {
end = this.length
}
if (end <= 0) {
return ''
}
// Force coersion to uint32. This will also coerce falsey/NaN values to 0.
end >>>= 0
start >>>= 0
if (end <= start) {
return ''
}
if (!encoding) encoding = 'utf8'
while (true) {
switch (encoding) {
case 'hex':
return hexSlice(this, start, end)
case 'utf8':
case 'utf-8':
return utf8Slice(this, start, end)
case 'ascii':
return asciiSlice(this, start, end)
case 'latin1':
case 'binary':
return latin1Slice(this, start, end)
case 'base64':
return base64Slice(this, start, end)
case 'ucs2':
case 'ucs-2':
case 'utf16le':
case 'utf-16le':
return utf16leSlice(this, start, end)
default:
if (loweredCase) throw new TypeError('Unknown encoding: ' + encoding)
encoding = (encoding + '').toLowerCase()
loweredCase = true
}
}
}
// This property is used by `Buffer.isBuffer` (and the `is-buffer` npm package)
// to detect a Buffer instance. It's not possible to use `instanceof Buffer`
// reliably in a browserify context because there could be multiple different
// copies of the 'buffer' package in use. This method works even for Buffer
// instances that were created from another copy of the `buffer` package.
// See: https://github.com/feross/buffer/issues/154
Buffer.prototype._isBuffer = true
function swap (b, n, m) {
var i = b[n]
b[n] = b[m]
b[m] = i
}
Buffer.prototype.swap16 = function swap16 () {
var len = this.length
if (len % 2 !== 0) {
throw new RangeError('Buffer size must be a multiple of 16-bits')
}
for (var i = 0; i < len; i += 2) {
swap(this, i, i + 1)
}
return this
}
Buffer.prototype.swap32 = function swap32 () {
var len = this.length
if (len % 4 !== 0) {
throw new RangeError('Buffer size must be a multiple of 32-bits')
}
for (var i = 0; i < len; i += 4) {
swap(this, i, i + 3)
swap(this, i + 1, i + 2)
}
return this
}
Buffer.prototype.swap64 = function swap64 () {
var len = this.length
if (len % 8 !== 0) {
throw new RangeError('Buffer size must be a multiple of 64-bits')
}
for (var i = 0; i < len; i += 8) {
swap(this, i, i + 7)
swap(this, i + 1, i + 6)
swap(this, i + 2, i + 5)
swap(this, i + 3, i + 4)
}
return this
}
Buffer.prototype.toString = function toString () {
var length = this.length
if (length === 0) return ''
if (arguments.length === 0) return utf8Slice(this, 0, length)
return slowToString.apply(this, arguments)
}
Buffer.prototype.toLocaleString = Buffer.prototype.toString
Buffer.prototype.equals = function equals (b) {
if (!Buffer.isBuffer(b)) throw new TypeError('Argument must be a Buffer')
if (this === b) return true
return Buffer.compare(this, b) === 0
}
Buffer.prototype.inspect = function inspect () {
var str = ''
var max = exports.INSPECT_MAX_BYTES
str = this.toString('hex', 0, max).replace(/(.{2})/g, '$1 ').trim()
if (this.length > max) str += ' ... '
return '<Buffer ' + str + '>'
}
Buffer.prototype.compare = function compare (target, start, end, thisStart, thisEnd) {
if (isInstance(target, Uint8Array)) {
target = Buffer.from(target, target.offset, target.byteLength)
}
if (!Buffer.isBuffer(target)) {
throw new TypeError(
'The "target" argument must be one of type Buffer or Uint8Array. ' +
'Received type ' + (typeof target)
)
}
if (start === undefined) {
start = 0
}
if (end === undefined) {
end = target ? target.length : 0
}
if (thisStart === undefined) {
thisStart = 0
}
if (thisEnd === undefined) {
thisEnd = this.length
}
if (start < 0 || end > target.length || thisStart < 0 || thisEnd > this.length) {
throw new RangeError('out of range index')
}
if (thisStart >= thisEnd && start >= end) {
return 0
}
if (thisStart >= thisEnd) {
return -1
}
if (start >= end) {
return 1
}
start >>>= 0
end >>>= 0
thisStart >>>= 0
thisEnd >>>= 0
if (this === target) return 0
var x = thisEnd - thisStart
var y = end - start
var len = Math.min(x, y)
var thisCopy = this.slice(thisStart, thisEnd)
var targetCopy = target.slice(start, end)
for (var i = 0; i < len; ++i) {
if (thisCopy[i] !== targetCopy[i]) {
x = thisCopy[i]
y = targetCopy[i]
break
}
}
if (x < y) return -1
if (y < x) return 1
return 0
}
// Finds either the first index of `val` in `buffer` at offset >= `byteOffset`,
// OR the last index of `val` in `buffer` at offset <= `byteOffset`.
//
// Arguments:
// - buffer - a Buffer to search
// - val - a string, Buffer, or number
// - byteOffset - an index into `buffer`; will be clamped to an int32
// - encoding - an optional encoding, relevant is val is a string
// - dir - true for indexOf, false for lastIndexOf
function bidirectionalIndexOf (buffer, val, byteOffset, encoding, dir) {
// Empty buffer means no match
if (buffer.length === 0) return -1
// Normalize byteOffset
if (typeof byteOffset === 'string') {
encoding = byteOffset
byteOffset = 0
} else if (byteOffset > 0x7fffffff) {
byteOffset = 0x7fffffff
} else if (byteOffset < -0x80000000) {
byteOffset = -0x80000000
}
byteOffset = +byteOffset // Coerce to Number.
if (numberIsNaN(byteOffset)) {
// byteOffset: it it's undefined, null, NaN, "foo", etc, search whole buffer
byteOffset = dir ? 0 : (buffer.length - 1)
}
// Normalize byteOffset: negative offsets start from the end of the buffer
if (byteOffset < 0) byteOffset = buffer.length + byteOffset
if (byteOffset >= buffer.length) {
if (dir) return -1
else byteOffset = buffer.length - 1
} else if (byteOffset < 0) {
if (dir) byteOffset = 0
else return -1
}
// Normalize val
if (typeof val === 'string') {
val = Buffer.from(val, encoding)
}
// Finally, search either indexOf (if dir is true) or lastIndexOf
if (Buffer.isBuffer(val)) {
// Special case: looking for empty string/buffer always fails
if (val.length === 0) {
return -1
}
return arrayIndexOf(buffer, val, byteOffset, encoding, dir)
} else if (typeof val === 'number') {
val = val & 0xFF // Search for a byte value [0-255]
if (typeof Uint8Array.prototype.indexOf === 'function') {
if (dir) {
return Uint8Array.prototype.indexOf.call(buffer, val, byteOffset)
} else {
return Uint8Array.prototype.lastIndexOf.call(buffer, val, byteOffset)
}
}
return arrayIndexOf(buffer, [ val ], byteOffset, encoding, dir)
}
throw new TypeError('val must be string, number or Buffer')
}
function arrayIndexOf (arr, val, byteOffset, encoding, dir) {
var indexSize = 1
var arrLength = arr.length
var valLength = val.length
if (encoding !== undefined) {
encoding = String(encoding).toLowerCase()
if (encoding === 'ucs2' || encoding === 'ucs-2' ||
encoding === 'utf16le' || encoding === 'utf-16le') {
if (arr.length < 2 || val.length < 2) {
return -1
}
indexSize = 2
arrLength /= 2
valLength /= 2
byteOffset /= 2
}
}
function read (buf, i) {
if (indexSize === 1) {
return buf[i]
} else {
return buf.readUInt16BE(i * indexSize)
}
}
var i
if (dir) {
var foundIndex = -1
for (i = byteOffset; i < arrLength; i++) {
if (read(arr, i) === read(val, foundIndex === -1 ? 0 : i - foundIndex)) {
if (foundIndex === -1) foundIndex = i
if (i - foundIndex + 1 === valLength) return foundIndex * indexSize
} else {
if (foundIndex !== -1) i -= i - foundIndex
foundIndex = -1
}
}
} else {
if (byteOffset + valLength > arrLength) byteOffset = arrLength - valLength
for (i = byteOffset; i >= 0; i--) {
var found = true
for (var j = 0; j < valLength; j++) {
if (read(arr, i + j) !== read(val, j)) {
found = false
break
}
}
if (found) return i
}
}
return -1
}
Buffer.prototype.includes = function includes (val, byteOffset, encoding) {
return this.indexOf(val, byteOffset, encoding) !== -1
}
Buffer.prototype.indexOf = function indexOf (val, byteOffset, encoding) {
return bidirectionalIndexOf(this, val, byteOffset, encoding, true)
}
Buffer.prototype.lastIndexOf = function lastIndexOf (val, byteOffset, encoding) {
return bidirectionalIndexOf(this, val, byteOffset, encoding, false)
}
function hexWrite (buf, string, offset, length) {
offset = Number(offset) || 0
var remaining = buf.length - offset
if (!length) {
length = remaining
} else {
length = Number(length)
if (length > remaining) {
length = remaining
}
}
var strLen = string.length
if (length > strLen / 2) {
length = strLen / 2
}
for (var i = 0; i < length; ++i) {
var parsed = parseInt(string.substr(i * 2, 2), 16)
if (numberIsNaN(parsed)) return i
buf[offset + i] = parsed
}
return i
}
function utf8Write (buf, string, offset, length) {
return blitBuffer(utf8ToBytes(string, buf.length - offset), buf, offset, length)
}
function asciiWrite (buf, string, offset, length) {
return blitBuffer(asciiToBytes(string), buf, offset, length)
}
function latin1Write (buf, string, offset, length) {
return asciiWrite(buf, string, offset, length)
}
function base64Write (buf, string, offset, length) {
return blitBuffer(base64ToBytes(string), buf, offset, length)
}
function ucs2Write (buf, string, offset, length) {
return blitBuffer(utf16leToBytes(string, buf.length - offset), buf, offset, length)
}
Buffer.prototype.write = function write (string, offset, length, encoding) {
// Buffer#write(string)
if (offset === undefined) {
encoding = 'utf8'
length = this.length
offset = 0
// Buffer#write(string, encoding)
} else if (length === undefined && typeof offset === 'string') {
encoding = offset
length = this.length
offset = 0
// Buffer#write(string, offset[, length][, encoding])
} else if (isFinite(offset)) {
offset = offset >>> 0
if (isFinite(length)) {
length = length >>> 0
if (encoding === undefined) encoding = 'utf8'
} else {
encoding = length
length = undefined
}
} else {
throw new Error(
'Buffer.write(string, encoding, offset[, length]) is no longer supported'
)
}
var remaining = this.length - offset
if (length === undefined || length > remaining) length = remaining
if ((string.length > 0 && (length < 0 || offset < 0)) || offset > this.length) {
throw new RangeError('Attempt to write outside buffer bounds')
}
if (!encoding) encoding = 'utf8'
var loweredCase = false
for (;;) {
switch (encoding) {
case 'hex':
return hexWrite(this, string, offset, length)
case 'utf8':
case 'utf-8':
return utf8Write(this, string, offset, length)
case 'ascii':
return asciiWrite(this, string, offset, length)
case 'latin1':
case 'binary':
return latin1Write(this, string, offset, length)
case 'base64':
// Warning: maxLength not taken into account in base64Write
return base64Write(this, string, offset, length)
case 'ucs2':
case 'ucs-2':
case 'utf16le':
case 'utf-16le':
return ucs2Write(this, string, offset, length)
default:
if (loweredCase) throw new TypeError('Unknown encoding: ' + encoding)
encoding = ('' + encoding).toLowerCase()
loweredCase = true
}
}
}
Buffer.prototype.toJSON = function toJSON () {
return {
type: 'Buffer',
data: Array.prototype.slice.call(this._arr || this, 0)
}
}
function base64Slice (buf, start, end) {
if (start === 0 && end === buf.length) {
return base64.fromByteArray(buf)
} else {
return base64.fromByteArray(buf.slice(start, end))
}
}
function utf8Slice (buf, start, end) {
end = Math.min(buf.length, end)
var res = []
var i = start
while (i < end) {
var firstByte = buf[i]
var codePoint = null
var bytesPerSequence = (firstByte > 0xEF) ? 4
: (firstByte > 0xDF) ? 3
: (firstByte > 0xBF) ? 2
: 1
if (i + bytesPerSequence <= end) {
var secondByte, thirdByte, fourthByte, tempCodePoint
switch (bytesPerSequence) {
case 1:
if (firstByte < 0x80) {
codePoint = firstByte
}
break
case 2:
secondByte = buf[i + 1]
if ((secondByte & 0xC0) === 0x80) {
tempCodePoint = (firstByte & 0x1F) << 0x6 | (secondByte & 0x3F)
if (tempCodePoint > 0x7F) {
codePoint = tempCodePoint
}
}
break
case 3:
secondByte = buf[i + 1]
thirdByte = buf[i + 2]
if ((secondByte & 0xC0) === 0x80 && (thirdByte & 0xC0) === 0x80) {
tempCodePoint = (firstByte & 0xF) << 0xC | (secondByte & 0x3F) << 0x6 | (thirdByte & 0x3F)
if (tempCodePoint > 0x7FF && (tempCodePoint < 0xD800 || tempCodePoint > 0xDFFF)) {
codePoint = tempCodePoint
}
}
break
case 4:
secondByte = buf[i + 1]
thirdByte = buf[i + 2]
fourthByte = buf[i + 3]
if ((secondByte & 0xC0) === 0x80 && (thirdByte & 0xC0) === 0x80 && (fourthByte & 0xC0) === 0x80) {
tempCodePoint = (firstByte & 0xF) << 0x12 | (secondByte & 0x3F) << 0xC | (thirdByte & 0x3F) << 0x6 | (fourthByte & 0x3F)
if (tempCodePoint > 0xFFFF && tempCodePoint < 0x110000) {
codePoint = tempCodePoint
}
}
}
}
if (codePoint === null) {
// we did not generate a valid codePoint so insert a
// replacement char (U+FFFD) and advance only 1 byte
codePoint = 0xFFFD
bytesPerSequence = 1
} else if (codePoint > 0xFFFF) {
// encode to utf16 (surrogate pair dance)
codePoint -= 0x10000
res.push(codePoint >>> 10 & 0x3FF | 0xD800)
codePoint = 0xDC00 | codePoint & 0x3FF
}
res.push(codePoint)
i += bytesPerSequence
}
return decodeCodePointsArray(res)
}
// Based on http://stackoverflow.com/a/22747272/680742, the browser with
// the lowest limit is Chrome, with 0x10000 args.
// We go 1 magnitude less, for safety
var MAX_ARGUMENTS_LENGTH = 0x1000
function decodeCodePointsArray (codePoints) {
var len = codePoints.length
if (len <= MAX_ARGUMENTS_LENGTH) {
return String.fromCharCode.apply(String, codePoints) // avoid extra slice()
}
// Decode in chunks to avoid "call stack size exceeded".
var res = ''
var i = 0
while (i < len) {
res += String.fromCharCode.apply(
String,
codePoints.slice(i, i += MAX_ARGUMENTS_LENGTH)
)
}
return res
}
function asciiSlice (buf, start, end) {
var ret = ''
end = Math.min(buf.length, end)
for (var i = start; i < end; ++i) {
ret += String.fromCharCode(buf[i] & 0x7F)
}
return ret
}
function latin1Slice (buf, start, end) {
var ret = ''
end = Math.min(buf.length, end)
for (var i = start; i < end; ++i) {
ret += String.fromCharCode(buf[i])
}
return ret
}
function hexSlice (buf, start, end) {
var len = buf.length
if (!start || start < 0) start = 0
if (!end || end < 0 || end > len) end = len
var out = ''
for (var i = start; i < end; ++i) {
out += toHex(buf[i])
}
return out
}
function utf16leSlice (buf, start, end) {
var bytes = buf.slice(start, end)
var res = ''
for (var i = 0; i < bytes.length; i += 2) {
res += String.fromCharCode(bytes[i] + (bytes[i + 1] * 256))
}
return res
}
Buffer.prototype.slice = function slice (start, end) {
var len = this.length
start = ~~start
end = end === undefined ? len : ~~end
if (start < 0) {
start += len
if (start < 0) start = 0
} else if (start > len) {
start = len
}
if (end < 0) {
end += len
if (end < 0) end = 0
} else if (end > len) {
end = len
}
if (end < start) end = start
var newBuf = this.subarray(start, end)
// Return an augmented `Uint8Array` instance
newBuf.__proto__ = Buffer.prototype
return newBuf
}
/*
* Need to make sure that buffer isn't trying to write out of bounds.
*/
function checkOffset (offset, ext, length) {
if ((offset % 1) !== 0 || offset < 0) throw new RangeError('offset is not uint')
if (offset + ext > length) throw new RangeError('Trying to access beyond buffer length')
}
Buffer.prototype.readUIntLE = function readUIntLE (offset, byteLength, noAssert) {
offset = offset >>> 0
byteLength = byteLength >>> 0
if (!noAssert) checkOffset(offset, byteLength, this.length)
var val = this[offset]
var mul = 1
var i = 0
while (++i < byteLength && (mul *= 0x100)) {
val += this[offset + i] * mul
}
return val
}
Buffer.prototype.readUIntBE = function readUIntBE (offset, byteLength, noAssert) {
offset = offset >>> 0
byteLength = byteLength >>> 0
if (!noAssert) {
checkOffset(offset, byteLength, this.length)
}
var val = this[offset + --byteLength]
var mul = 1
while (byteLength > 0 && (mul *= 0x100)) {
val += this[offset + --byteLength] * mul
}
return val
}
Buffer.prototype.readUInt8 = function readUInt8 (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 1, this.length)
return this[offset]
}
Buffer.prototype.readUInt16LE = function readUInt16LE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 2, this.length)
return this[offset] | (this[offset + 1] << 8)
}
Buffer.prototype.readUInt16BE = function readUInt16BE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 2, this.length)
return (this[offset] << 8) | this[offset + 1]
}
Buffer.prototype.readUInt32LE = function readUInt32LE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 4, this.length)
return ((this[offset]) |
(this[offset + 1] << 8) |
(this[offset + 2] << 16)) +
(this[offset + 3] * 0x1000000)
}
Buffer.prototype.readUInt32BE = function readUInt32BE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 4, this.length)
return (this[offset] * 0x1000000) +
((this[offset + 1] << 16) |
(this[offset + 2] << 8) |
this[offset + 3])
}
Buffer.prototype.readIntLE = function readIntLE (offset, byteLength, noAssert) {
offset = offset >>> 0
byteLength = byteLength >>> 0
if (!noAssert) checkOffset(offset, byteLength, this.length)
var val = this[offset]
var mul = 1
var i = 0
while (++i < byteLength && (mul *= 0x100)) {
val += this[offset + i] * mul
}
mul *= 0x80
if (val >= mul) val -= Math.pow(2, 8 * byteLength)
return val
}
Buffer.prototype.readIntBE = function readIntBE (offset, byteLength, noAssert) {
offset = offset >>> 0
byteLength = byteLength >>> 0
if (!noAssert) checkOffset(offset, byteLength, this.length)
var i = byteLength
var mul = 1
var val = this[offset + --i]
while (i > 0 && (mul *= 0x100)) {
val += this[offset + --i] * mul
}
mul *= 0x80
if (val >= mul) val -= Math.pow(2, 8 * byteLength)
return val
}
Buffer.prototype.readInt8 = function readInt8 (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 1, this.length)
if (!(this[offset] & 0x80)) return (this[offset])
return ((0xff - this[offset] + 1) * -1)
}
Buffer.prototype.readInt16LE = function readInt16LE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 2, this.length)
var val = this[offset] | (this[offset + 1] << 8)
return (val & 0x8000) ? val | 0xFFFF0000 : val
}
Buffer.prototype.readInt16BE = function readInt16BE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 2, this.length)
var val = this[offset + 1] | (this[offset] << 8)
return (val & 0x8000) ? val | 0xFFFF0000 : val
}
Buffer.prototype.readInt32LE = function readInt32LE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 4, this.length)
return (this[offset]) |
(this[offset + 1] << 8) |
(this[offset + 2] << 16) |
(this[offset + 3] << 24)
}
Buffer.prototype.readInt32BE = function readInt32BE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 4, this.length)
return (this[offset] << 24) |
(this[offset + 1] << 16) |
(this[offset + 2] << 8) |
(this[offset + 3])
}
Buffer.prototype.readFloatLE = function readFloatLE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 4, this.length)
return ieee754.read(this, offset, true, 23, 4)
}
Buffer.prototype.readFloatBE = function readFloatBE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 4, this.length)
return ieee754.read(this, offset, false, 23, 4)
}
Buffer.prototype.readDoubleLE = function readDoubleLE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 8, this.length)
return ieee754.read(this, offset, true, 52, 8)
}
Buffer.prototype.readDoubleBE = function readDoubleBE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 8, this.length)
return ieee754.read(this, offset, false, 52, 8)
}
function checkInt (buf, value, offset, ext, max, min) {
if (!Buffer.isBuffer(buf)) throw new TypeError('"buffer" argument must be a Buffer instance')
if (value > max || value < min) throw new RangeError('"value" argument is out of bounds')
if (offset + ext > buf.length) throw new RangeError('Index out of range')
}
Buffer.prototype.writeUIntLE = function writeUIntLE (value, offset, byteLength, noAssert) {
value = +value
offset = offset >>> 0
byteLength = byteLength >>> 0
if (!noAssert) {
var maxBytes = Math.pow(2, 8 * byteLength) - 1
checkInt(this, value, offset, byteLength, maxBytes, 0)
}
var mul = 1
var i = 0
this[offset] = value & 0xFF
while (++i < byteLength && (mul *= 0x100)) {
this[offset + i] = (value / mul) & 0xFF
}
return offset + byteLength
}
Buffer.prototype.writeUIntBE = function writeUIntBE (value, offset, byteLength, noAssert) {
value = +value
offset = offset >>> 0
byteLength = byteLength >>> 0
if (!noAssert) {
var maxBytes = Math.pow(2, 8 * byteLength) - 1
checkInt(this, value, offset, byteLength, maxBytes, 0)
}
var i = byteLength - 1
var mul = 1
this[offset + i] = value & 0xFF
while (--i >= 0 && (mul *= 0x100)) {
this[offset + i] = (value / mul) & 0xFF
}
return offset + byteLength
}
Buffer.prototype.writeUInt8 = function writeUInt8 (value, offset, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) checkInt(this, value, offset, 1, 0xff, 0)
this[offset] = (value & 0xff)
return offset + 1
}
Buffer.prototype.writeUInt16LE = function writeUInt16LE (value, offset, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) checkInt(this, value, offset, 2, 0xffff, 0)
this[offset] = (value & 0xff)
this[offset + 1] = (value >>> 8)
return offset + 2
}
Buffer.prototype.writeUInt16BE = function writeUInt16BE (value, offset, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) checkInt(this, value, offset, 2, 0xffff, 0)
this[offset] = (value >>> 8)
this[offset + 1] = (value & 0xff)
return offset + 2
}
Buffer.prototype.writeUInt32LE = function writeUInt32LE (value, offset, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) checkInt(this, value, offset, 4, 0xffffffff, 0)
this[offset + 3] = (value >>> 24)
this[offset + 2] = (value >>> 16)
this[offset + 1] = (value >>> 8)
this[offset] = (value & 0xff)
return offset + 4
}
Buffer.prototype.writeUInt32BE = function writeUInt32BE (value, offset, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) checkInt(this, value, offset, 4, 0xffffffff, 0)
this[offset] = (value >>> 24)
this[offset + 1] = (value >>> 16)
this[offset + 2] = (value >>> 8)
this[offset + 3] = (value & 0xff)
return offset + 4
}
Buffer.prototype.writeIntLE = function writeIntLE (value, offset, byteLength, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) {
var limit = Math.pow(2, (8 * byteLength) - 1)
checkInt(this, value, offset, byteLength, limit - 1, -limit)
}
var i = 0
var mul = 1
var sub = 0
this[offset] = value & 0xFF
while (++i < byteLength && (mul *= 0x100)) {
if (value < 0 && sub === 0 && this[offset + i - 1] !== 0) {
sub = 1
}
this[offset + i] = ((value / mul) >> 0) - sub & 0xFF
}
return offset + byteLength
}
Buffer.prototype.writeIntBE = function writeIntBE (value, offset, byteLength, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) {
var limit = Math.pow(2, (8 * byteLength) - 1)
checkInt(this, value, offset, byteLength, limit - 1, -limit)
}
var i = byteLength - 1
var mul = 1
var sub = 0
this[offset + i] = value & 0xFF
while (--i >= 0 && (mul *= 0x100)) {
if (value < 0 && sub === 0 && this[offset + i + 1] !== 0) {
sub = 1
}
this[offset + i] = ((value / mul) >> 0) - sub & 0xFF
}
return offset + byteLength
}
Buffer.prototype.writeInt8 = function writeInt8 (value, offset, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) checkInt(this, value, offset, 1, 0x7f, -0x80)
if (value < 0) value = 0xff + value + 1
this[offset] = (value & 0xff)
return offset + 1
}
Buffer.prototype.writeInt16LE = function writeInt16LE (value, offset, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) checkInt(this, value, offset, 2, 0x7fff, -0x8000)
this[offset] = (value & 0xff)
this[offset + 1] = (value >>> 8)
return offset + 2
}
Buffer.prototype.writeInt16BE = function writeInt16BE (value, offset, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) checkInt(this, value, offset, 2, 0x7fff, -0x8000)
this[offset] = (value >>> 8)
this[offset + 1] = (value & 0xff)
return offset + 2
}
Buffer.prototype.writeInt32LE = function writeInt32LE (value, offset, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) checkInt(this, value, offset, 4, 0x7fffffff, -0x80000000)
this[offset] = (value & 0xff)
this[offset + 1] = (value >>> 8)
this[offset + 2] = (value >>> 16)
this[offset + 3] = (value >>> 24)
return offset + 4
}
Buffer.prototype.writeInt32BE = function writeInt32BE (value, offset, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) checkInt(this, value, offset, 4, 0x7fffffff, -0x80000000)
if (value < 0) value = 0xffffffff + value + 1
this[offset] = (value >>> 24)
this[offset + 1] = (value >>> 16)
this[offset + 2] = (value >>> 8)
this[offset + 3] = (value & 0xff)
return offset + 4
}
function checkIEEE754 (buf, value, offset, ext, max, min) {
if (offset + ext > buf.length) throw new RangeError('Index out of range')
if (offset < 0) throw new RangeError('Index out of range')
}
function writeFloat (buf, value, offset, littleEndian, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) {
checkIEEE754(buf, value, offset, 4, 3.4028234663852886e+38, -3.4028234663852886e+38)
}
ieee754.write(buf, value, offset, littleEndian, 23, 4)
return offset + 4
}
Buffer.prototype.writeFloatLE = function writeFloatLE (value, offset, noAssert) {
return writeFloat(this, value, offset, true, noAssert)
}
Buffer.prototype.writeFloatBE = function writeFloatBE (value, offset, noAssert) {
return writeFloat(this, value, offset, false, noAssert)
}
function writeDouble (buf, value, offset, littleEndian, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) {
checkIEEE754(buf, value, offset, 8, 1.7976931348623157E+308, -1.7976931348623157E+308)
}
ieee754.write(buf, value, offset, littleEndian, 52, 8)
return offset + 8
}
Buffer.prototype.writeDoubleLE = function writeDoubleLE (value, offset, noAssert) {
return writeDouble(this, value, offset, true, noAssert)
}
Buffer.prototype.writeDoubleBE = function writeDoubleBE (value, offset, noAssert) {
return writeDouble(this, value, offset, false, noAssert)
}
// copy(targetBuffer, targetStart=0, sourceStart=0, sourceEnd=buffer.length)
Buffer.prototype.copy = function copy (target, targetStart, start, end) {
if (!Buffer.isBuffer(target)) throw new TypeError('argument should be a Buffer')
if (!start) start = 0
if (!end && end !== 0) end = this.length
if (targetStart >= target.length) targetStart = target.length
if (!targetStart) targetStart = 0
if (end > 0 && end < start) end = start
// Copy 0 bytes; we're done
if (end === start) return 0
if (target.length === 0 || this.length === 0) return 0
// Fatal error conditions
if (targetStart < 0) {
throw new RangeError('targetStart out of bounds')
}
if (start < 0 || start >= this.length) throw new RangeError('Index out of range')
if (end < 0) throw new RangeError('sourceEnd out of bounds')
// Are we oob?
if (end > this.length) end = this.length
if (target.length - targetStart < end - start) {
end = target.length - targetStart + start
}
var len = end - start
if (this === target && typeof Uint8Array.prototype.copyWithin === 'function') {
// Use built-in when available, missing from IE11
this.copyWithin(targetStart, start, end)
} else if (this === target && start < targetStart && targetStart < end) {
// descending copy from end
for (var i = len - 1; i >= 0; --i) {
target[i + targetStart] = this[i + start]
}
} else {
Uint8Array.prototype.set.call(
target,
this.subarray(start, end),
targetStart
)
}
return len
}
// Usage:
// buffer.fill(number[, offset[, end]])
// buffer.fill(buffer[, offset[, end]])
// buffer.fill(string[, offset[, end]][, encoding])
Buffer.prototype.fill = function fill (val, start, end, encoding) {
// Handle string cases:
if (typeof val === 'string') {
if (typeof start === 'string') {
encoding = start
start = 0
end = this.length
} else if (typeof end === 'string') {
encoding = end
end = this.length
}
if (encoding !== undefined && typeof encoding !== 'string') {
throw new TypeError('encoding must be a string')
}
if (typeof encoding === 'string' && !Buffer.isEncoding(encoding)) {
throw new TypeError('Unknown encoding: ' + encoding)
}
if (val.length === 1) {
var code = val.charCodeAt(0)
if ((encoding === 'utf8' && code < 128) ||
encoding === 'latin1') {
// Fast path: If `val` fits into a single byte, use that numeric value.
val = code
}
}
} else if (typeof val === 'number') {
val = val & 255
}
// Invalid ranges are not set to a default, so can range check early.
if (start < 0 || this.length < start || this.length < end) {
throw new RangeError('Out of range index')
}
if (end <= start) {
return this
}
start = start >>> 0
end = end === undefined ? this.length : end >>> 0
if (!val) val = 0
var i
if (typeof val === 'number') {
for (i = start; i < end; ++i) {
this[i] = val
}
} else {
var bytes = Buffer.isBuffer(val)
? val
: Buffer.from(val, encoding)
var len = bytes.length
if (len === 0) {
throw new TypeError('The value "' + val +
'" is invalid for argument "value"')
}
for (i = 0; i < end - start; ++i) {
this[i + start] = bytes[i % len]
}
}
return this
}
// HELPER FUNCTIONS
// ================
var INVALID_BASE64_RE = /[^+/0-9A-Za-z-_]/g
function base64clean (str) {
// Node takes equal signs as end of the Base64 encoding
str = str.split('=')[0]
// Node strips out invalid characters like \n and \t from the string, base64-js does not
str = str.trim().replace(INVALID_BASE64_RE, '')
// Node converts strings with length < 2 to ''
if (str.length < 2) return ''
// Node allows for non-padded base64 strings (missing trailing ===), base64-js does not
while (str.length % 4 !== 0) {
str = str + '='
}
return str
}
function toHex (n) {
if (n < 16) return '0' + n.toString(16)
return n.toString(16)
}
function utf8ToBytes (string, units) {
units = units || Infinity
var codePoint
var length = string.length
var leadSurrogate = null
var bytes = []
for (var i = 0; i < length; ++i) {
codePoint = string.charCodeAt(i)
// is surrogate component
if (codePoint > 0xD7FF && codePoint < 0xE000) {
// last char was a lead
if (!leadSurrogate) {
// no lead yet
if (codePoint > 0xDBFF) {
// unexpected trail
if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD)
continue
} else if (i + 1 === length) {
// unpaired lead
if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD)
continue
}
// valid lead
leadSurrogate = codePoint
continue
}
// 2 leads in a row
if (codePoint < 0xDC00) {
if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD)
leadSurrogate = codePoint
continue
}
// valid surrogate pair
codePoint = (leadSurrogate - 0xD800 << 10 | codePoint - 0xDC00) + 0x10000
} else if (leadSurrogate) {
// valid bmp char, but last char was a lead
if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD)
}
leadSurrogate = null
// encode utf8
if (codePoint < 0x80) {
if ((units -= 1) < 0) break
bytes.push(codePoint)
} else if (codePoint < 0x800) {
if ((units -= 2) < 0) break
bytes.push(
codePoint >> 0x6 | 0xC0,
codePoint & 0x3F | 0x80
)
} else if (codePoint < 0x10000) {
if ((units -= 3) < 0) break
bytes.push(
codePoint >> 0xC | 0xE0,
codePoint >> 0x6 & 0x3F | 0x80,
codePoint & 0x3F | 0x80
)
} else if (codePoint < 0x110000) {
if ((units -= 4) < 0) break
bytes.push(
codePoint >> 0x12 | 0xF0,
codePoint >> 0xC & 0x3F | 0x80,
codePoint >> 0x6 & 0x3F | 0x80,
codePoint & 0x3F | 0x80
)
} else {
throw new Error('Invalid code point')
}
}
return bytes
}
function asciiToBytes (str) {
var byteArray = []
for (var i = 0; i < str.length; ++i) {
// Node's code seems to be doing this and not & 0x7F..
byteArray.push(str.charCodeAt(i) & 0xFF)
}
return byteArray
}
function utf16leToBytes (str, units) {
var c, hi, lo
var byteArray = []
for (var i = 0; i < str.length; ++i) {
if ((units -= 2) < 0) break
c = str.charCodeAt(i)
hi = c >> 8
lo = c % 256
byteArray.push(lo)
byteArray.push(hi)
}
return byteArray
}
function base64ToBytes (str) {
return base64.toByteArray(base64clean(str))
}
function blitBuffer (src, dst, offset, length) {
for (var i = 0; i < length; ++i) {
if ((i + offset >= dst.length) || (i >= src.length)) break
dst[i + offset] = src[i]
}
return i
}
// ArrayBuffer or Uint8Array objects from other contexts (i.e. iframes) do not pass
// the `instanceof` check but they should be treated as of that type.
// See: https://github.com/feross/buffer/issues/166
function isInstance (obj, type) {
return obj instanceof type ||
(obj != null && obj.constructor != null && obj.constructor.name != null &&
obj.constructor.name === type.name)
}
function numberIsNaN (obj) {
// For IE11 support
return obj !== obj // eslint-disable-line no-self-compare
}
},{"base64-js":61,"ieee754":393}],93:[function(_dereq_,module,exports){
'use strict'
var monotoneTriangulate = _dereq_('./lib/monotone')
var makeIndex = _dereq_('./lib/triangulation')
var delaunayFlip = _dereq_('./lib/delaunay')
var filterTriangulation = _dereq_('./lib/filter')
module.exports = cdt2d
function canonicalizeEdge(e) {
return [Math.min(e[0], e[1]), Math.max(e[0], e[1])]
}
function compareEdge(a, b) {
return a[0]-b[0] || a[1]-b[1]
}
function canonicalizeEdges(edges) {
return edges.map(canonicalizeEdge).sort(compareEdge)
}
function getDefault(options, property, dflt) {
if(property in options) {
return options[property]
}
return dflt
}
function cdt2d(points, edges, options) {
if(!Array.isArray(edges)) {
options = edges || {}
edges = []
} else {
options = options || {}
edges = edges || []
}
//Parse out options
var delaunay = !!getDefault(options, 'delaunay', true)
var interior = !!getDefault(options, 'interior', true)
var exterior = !!getDefault(options, 'exterior', true)
var infinity = !!getDefault(options, 'infinity', false)
//Handle trivial case
if((!interior && !exterior) || points.length === 0) {
return []
}
//Construct initial triangulation
var cells = monotoneTriangulate(points, edges)
//If delaunay refinement needed, then improve quality by edge flipping
if(delaunay || interior !== exterior || infinity) {
//Index all of the cells to support fast neighborhood queries
var triangulation = makeIndex(points.length, canonicalizeEdges(edges))
for(var i=0; i<cells.length; ++i) {
var f = cells[i]
triangulation.addTriangle(f[0], f[1], f[2])
}
//Run edge flipping
if(delaunay) {
delaunayFlip(points, triangulation)
}
//Filter points
if(!exterior) {
return filterTriangulation(triangulation, -1)
} else if(!interior) {
return filterTriangulation(triangulation, 1, infinity)
} else if(infinity) {
return filterTriangulation(triangulation, 0, infinity)
} else {
return triangulation.cells()
}
} else {
return cells
}
}
},{"./lib/delaunay":94,"./lib/filter":95,"./lib/monotone":96,"./lib/triangulation":97}],94:[function(_dereq_,module,exports){
'use strict'
var inCircle = _dereq_('robust-in-sphere')[4]
var bsearch = _dereq_('binary-search-bounds')
module.exports = delaunayRefine
function testFlip(points, triangulation, stack, a, b, x) {
var y = triangulation.opposite(a, b)
//Test boundary edge
if(y < 0) {
return
}
//Swap edge if order flipped
if(b < a) {
var tmp = a
a = b
b = tmp
tmp = x
x = y
y = tmp
}
//Test if edge is constrained
if(triangulation.isConstraint(a, b)) {
return
}
//Test if edge is delaunay
if(inCircle(points[a], points[b], points[x], points[y]) < 0) {
stack.push(a, b)
}
}
//Assume edges are sorted lexicographically
function delaunayRefine(points, triangulation) {
var stack = []
var numPoints = points.length
var stars = triangulation.stars
for(var a=0; a<numPoints; ++a) {
var star = stars[a]
for(var j=1; j<star.length; j+=2) {
var b = star[j]
//If order is not consistent, then skip edge
if(b < a) {
continue
}
//Check if edge is constrained
if(triangulation.isConstraint(a, b)) {
continue
}
//Find opposite edge
var x = star[j-1], y = -1
for(var k=1; k<star.length; k+=2) {
if(star[k-1] === b) {
y = star[k]
break
}
}
//If this is a boundary edge, don't flip it
if(y < 0) {
continue
}
//If edge is in circle, flip it
if(inCircle(points[a], points[b], points[x], points[y]) < 0) {
stack.push(a, b)
}
}
}
while(stack.length > 0) {
var b = stack.pop()
var a = stack.pop()
//Find opposite pairs
var x = -1, y = -1
var star = stars[a]
for(var i=1; i<star.length; i+=2) {
var s = star[i-1]
var t = star[i]
if(s === b) {
y = t
} else if(t === b) {
x = s
}
}
//If x/y are both valid then skip edge
if(x < 0 || y < 0) {
continue
}
//If edge is now delaunay, then don't flip it
if(inCircle(points[a], points[b], points[x], points[y]) >= 0) {
continue
}
//Flip the edge
triangulation.flip(a, b)
//Test flipping neighboring edges
testFlip(points, triangulation, stack, x, a, y)
testFlip(points, triangulation, stack, a, y, x)
testFlip(points, triangulation, stack, y, b, x)
testFlip(points, triangulation, stack, b, x, y)
}
}
},{"binary-search-bounds":98,"robust-in-sphere":481}],95:[function(_dereq_,module,exports){
'use strict'
var bsearch = _dereq_('binary-search-bounds')
module.exports = classifyFaces
function FaceIndex(cells, neighbor, constraint, flags, active, next, boundary) {
this.cells = cells
this.neighbor = neighbor
this.flags = flags
this.constraint = constraint
this.active = active
this.next = next
this.boundary = boundary
}
var proto = FaceIndex.prototype
function compareCell(a, b) {
return a[0] - b[0] ||
a[1] - b[1] ||
a[2] - b[2]
}
proto.locate = (function() {
var key = [0,0,0]
return function(a, b, c) {
var x = a, y = b, z = c
if(b < c) {
if(b < a) {
x = b
y = c
z = a
}
} else if(c < a) {
x = c
y = a
z = b
}
if(x < 0) {
return -1
}
key[0] = x
key[1] = y
key[2] = z
return bsearch.eq(this.cells, key, compareCell)
}
})()
function indexCells(triangulation, infinity) {
//First get cells and canonicalize
var cells = triangulation.cells()
var nc = cells.length
for(var i=0; i<nc; ++i) {
var c = cells[i]
var x = c[0], y = c[1], z = c[2]
if(y < z) {
if(y < x) {
c[0] = y
c[1] = z
c[2] = x
}
} else if(z < x) {
c[0] = z
c[1] = x
c[2] = y
}
}
cells.sort(compareCell)
//Initialize flag array
var flags = new Array(nc)
for(var i=0; i<flags.length; ++i) {
flags[i] = 0
}
//Build neighbor index, initialize queues
var active = []
var next = []
var neighbor = new Array(3*nc)
var constraint = new Array(3*nc)
var boundary = null
if(infinity) {
boundary = []
}
var index = new FaceIndex(
cells,
neighbor,
constraint,
flags,
active,
next,
boundary)
for(var i=0; i<nc; ++i) {
var c = cells[i]
for(var j=0; j<3; ++j) {
var x = c[j], y = c[(j+1)%3]
var a = neighbor[3*i+j] = index.locate(y, x, triangulation.opposite(y, x))
var b = constraint[3*i+j] = triangulation.isConstraint(x, y)
if(a < 0) {
if(b) {
next.push(i)
} else {
active.push(i)
flags[i] = 1
}
if(infinity) {
boundary.push([y, x, -1])
}
}
}
}
return index
}
function filterCells(cells, flags, target) {
var ptr = 0
for(var i=0; i<cells.length; ++i) {
if(flags[i] === target) {
cells[ptr++] = cells[i]
}
}
cells.length = ptr
return cells
}
function classifyFaces(triangulation, target, infinity) {
var index = indexCells(triangulation, infinity)
if(target === 0) {
if(infinity) {
return index.cells.concat(index.boundary)
} else {
return index.cells
}
}
var side = 1
var active = index.active
var next = index.next
var flags = index.flags
var cells = index.cells
var constraint = index.constraint
var neighbor = index.neighbor
while(active.length > 0 || next.length > 0) {
while(active.length > 0) {
var t = active.pop()
if(flags[t] === -side) {
continue
}
flags[t] = side
var c = cells[t]
for(var j=0; j<3; ++j) {
var f = neighbor[3*t+j]
if(f >= 0 && flags[f] === 0) {
if(constraint[3*t+j]) {
next.push(f)
} else {
active.push(f)
flags[f] = side
}
}
}
}
//Swap arrays and loop
var tmp = next
next = active
active = tmp
next.length = 0
side = -side
}
var result = filterCells(cells, flags, target)
if(infinity) {
return result.concat(index.boundary)
}
return result
}
},{"binary-search-bounds":98}],96:[function(_dereq_,module,exports){
'use strict'
var bsearch = _dereq_('binary-search-bounds')
var orient = _dereq_('robust-orientation')[3]
var EVENT_POINT = 0
var EVENT_END = 1
var EVENT_START = 2
module.exports = monotoneTriangulate
//A partial convex hull fragment, made of two unimonotone polygons
function PartialHull(a, b, idx, lowerIds, upperIds) {
this.a = a
this.b = b
this.idx = idx
this.lowerIds = lowerIds
this.upperIds = upperIds
}
//An event in the sweep line procedure
function Event(a, b, type, idx) {
this.a = a
this.b = b
this.type = type
this.idx = idx
}
//This is used to compare events for the sweep line procedure
// Points are:
// 1. sorted lexicographically
// 2. sorted by type (point < end < start)
// 3. segments sorted by winding order
// 4. sorted by index
function compareEvent(a, b) {
var d =
(a.a[0] - b.a[0]) ||
(a.a[1] - b.a[1]) ||
(a.type - b.type)
if(d) { return d }
if(a.type !== EVENT_POINT) {
d = orient(a.a, a.b, b.b)
if(d) { return d }
}
return a.idx - b.idx
}
function testPoint(hull, p) {
return orient(hull.a, hull.b, p)
}
function addPoint(cells, hulls, points, p, idx) {
var lo = bsearch.lt(hulls, p, testPoint)
var hi = bsearch.gt(hulls, p, testPoint)
for(var i=lo; i<hi; ++i) {
var hull = hulls[i]
//Insert p into lower hull
var lowerIds = hull.lowerIds
var m = lowerIds.length
while(m > 1 && orient(
points[lowerIds[m-2]],
points[lowerIds[m-1]],
p) > 0) {
cells.push(
[lowerIds[m-1],
lowerIds[m-2],
idx])
m -= 1
}
lowerIds.length = m
lowerIds.push(idx)
//Insert p into upper hull
var upperIds = hull.upperIds
var m = upperIds.length
while(m > 1 && orient(
points[upperIds[m-2]],
points[upperIds[m-1]],
p) < 0) {
cells.push(
[upperIds[m-2],
upperIds[m-1],
idx])
m -= 1
}
upperIds.length = m
upperIds.push(idx)
}
}
function findSplit(hull, edge) {
var d
if(hull.a[0] < edge.a[0]) {
d = orient(hull.a, hull.b, edge.a)
} else {
d = orient(edge.b, edge.a, hull.a)
}
if(d) { return d }
if(edge.b[0] < hull.b[0]) {
d = orient(hull.a, hull.b, edge.b)
} else {
d = orient(edge.b, edge.a, hull.b)
}
return d || hull.idx - edge.idx
}
function splitHulls(hulls, points, event) {
var splitIdx = bsearch.le(hulls, event, findSplit)
var hull = hulls[splitIdx]
var upperIds = hull.upperIds
var x = upperIds[upperIds.length-1]
hull.upperIds = [x]
hulls.splice(splitIdx+1, 0,
new PartialHull(event.a, event.b, event.idx, [x], upperIds))
}
function mergeHulls(hulls, points, event) {
//Swap pointers for merge search
var tmp = event.a
event.a = event.b
event.b = tmp
var mergeIdx = bsearch.eq(hulls, event, findSplit)
var upper = hulls[mergeIdx]
var lower = hulls[mergeIdx-1]
lower.upperIds = upper.upperIds
hulls.splice(mergeIdx, 1)
}
function monotoneTriangulate(points, edges) {
var numPoints = points.length
var numEdges = edges.length
var events = []
//Create point events
for(var i=0; i<numPoints; ++i) {
events.push(new Event(
points[i],
null,
EVENT_POINT,
i))
}
//Create edge events
for(var i=0; i<numEdges; ++i) {
var e = edges[i]
var a = points[e[0]]
var b = points[e[1]]
if(a[0] < b[0]) {
events.push(
new Event(a, b, EVENT_START, i),
new Event(b, a, EVENT_END, i))
} else if(a[0] > b[0]) {
events.push(
new Event(b, a, EVENT_START, i),
new Event(a, b, EVENT_END, i))
}
}
//Sort events
events.sort(compareEvent)
//Initialize hull
var minX = events[0].a[0] - (1 + Math.abs(events[0].a[0])) * Math.pow(2, -52)
var hull = [ new PartialHull([minX, 1], [minX, 0], -1, [], [], [], []) ]
//Process events in order
var cells = []
for(var i=0, numEvents=events.length; i<numEvents; ++i) {
var event = events[i]
var type = event.type
if(type === EVENT_POINT) {
addPoint(cells, hull, points, event.a, event.idx)
} else if(type === EVENT_START) {
splitHulls(hull, points, event)
} else {
mergeHulls(hull, points, event)
}
}
//Return triangulation
return cells
}
},{"binary-search-bounds":98,"robust-orientation":483}],97:[function(_dereq_,module,exports){
'use strict'
var bsearch = _dereq_('binary-search-bounds')
module.exports = createTriangulation
function Triangulation(stars, edges) {
this.stars = stars
this.edges = edges
}
var proto = Triangulation.prototype
function removePair(list, j, k) {
for(var i=1, n=list.length; i<n; i+=2) {
if(list[i-1] === j && list[i] === k) {
list[i-1] = list[n-2]
list[i] = list[n-1]
list.length = n - 2
return
}
}
}
proto.isConstraint = (function() {
var e = [0,0]
function compareLex(a, b) {
return a[0] - b[0] || a[1] - b[1]
}
return function(i, j) {
e[0] = Math.min(i,j)
e[1] = Math.max(i,j)
return bsearch.eq(this.edges, e, compareLex) >= 0
}
})()
proto.removeTriangle = function(i, j, k) {
var stars = this.stars
removePair(stars[i], j, k)
removePair(stars[j], k, i)
removePair(stars[k], i, j)
}
proto.addTriangle = function(i, j, k) {
var stars = this.stars
stars[i].push(j, k)
stars[j].push(k, i)
stars[k].push(i, j)
}
proto.opposite = function(j, i) {
var list = this.stars[i]
for(var k=1, n=list.length; k<n; k+=2) {
if(list[k] === j) {
return list[k-1]
}
}
return -1
}
proto.flip = function(i, j) {
var a = this.opposite(i, j)
var b = this.opposite(j, i)
this.removeTriangle(i, j, a)
this.removeTriangle(j, i, b)
this.addTriangle(i, b, a)
this.addTriangle(j, a, b)
}
proto.edges = function() {
var stars = this.stars
var result = []
for(var i=0, n=stars.length; i<n; ++i) {
var list = stars[i]
for(var j=0, m=list.length; j<m; j+=2) {
result.push([list[j], list[j+1]])
}
}
return result
}
proto.cells = function() {
var stars = this.stars
var result = []
for(var i=0, n=stars.length; i<n; ++i) {
var list = stars[i]
for(var j=0, m=list.length; j<m; j+=2) {
var s = list[j]
var t = list[j+1]
if(i < Math.min(s, t)) {
result.push([i, s, t])
}
}
}
return result
}
function createTriangulation(numVerts, edges) {
var stars = new Array(numVerts)
for(var i=0; i<numVerts; ++i) {
stars[i] = []
}
return new Triangulation(stars, edges)
}
},{"binary-search-bounds":98}],98:[function(_dereq_,module,exports){
"use strict"
function compileSearch(funcName, predicate, reversed, extraArgs, earlyOut) {
var code = [
"function ", funcName, "(a,l,h,", extraArgs.join(","), "){",
earlyOut ? "" : "var i=", (reversed ? "l-1" : "h+1"),
";while(l<=h){var m=(l+h)>>>1,x=a[m]"]
if(earlyOut) {
if(predicate.indexOf("c") < 0) {
code.push(";if(x===y){return m}else if(x<=y){")
} else {
code.push(";var p=c(x,y);if(p===0){return m}else if(p<=0){")
}
} else {
code.push(";if(", predicate, "){i=m;")
}
if(reversed) {
code.push("l=m+1}else{h=m-1}")
} else {
code.push("h=m-1}else{l=m+1}")
}
code.push("}")
if(earlyOut) {
code.push("return -1};")
} else {
code.push("return i};")
}
return code.join("")
}
function compileBoundsSearch(predicate, reversed, suffix, earlyOut) {
var result = new Function([
compileSearch("A", "x" + predicate + "y", reversed, ["y"], earlyOut),
compileSearch("P", "c(x,y)" + predicate + "0", reversed, ["y", "c"], earlyOut),
"function dispatchBsearch", suffix, "(a,y,c,l,h){\
if(typeof(c)==='function'){\
return P(a,(l===void 0)?0:l|0,(h===void 0)?a.length-1:h|0,y,c)\
}else{\
return A(a,(c===void 0)?0:c|0,(l===void 0)?a.length-1:l|0,y)\
}}\
return dispatchBsearch", suffix].join(""))
return result()
}
module.exports = {
ge: compileBoundsSearch(">=", false, "GE"),
gt: compileBoundsSearch(">", false, "GT"),
lt: compileBoundsSearch("<", true, "LT"),
le: compileBoundsSearch("<=", true, "LE"),
eq: compileBoundsSearch("-", true, "EQ", true)
}
},{}],99:[function(_dereq_,module,exports){
'use strict'
module.exports = orientation
function orientation(s) {
var p = 1
for(var i=1; i<s.length; ++i) {
for(var j=0; j<i; ++j) {
if(s[i] < s[j]) {
p = -p
} else if(s[j] === s[i]) {
return 0
}
}
}
return p
}
},{}],100:[function(_dereq_,module,exports){
"use strict"
var dup = _dereq_("dup")
var solve = _dereq_("robust-linear-solve")
function dot(a, b) {
var s = 0.0
var d = a.length
for(var i=0; i<d; ++i) {
s += a[i] * b[i]
}
return s
}
function barycentricCircumcenter(points) {
var N = points.length
if(N === 0) {
return []
}
var D = points[0].length
var A = dup([points.length+1, points.length+1], 1.0)
var b = dup([points.length+1], 1.0)
A[N][N] = 0.0
for(var i=0; i<N; ++i) {
for(var j=0; j<=i; ++j) {
A[j][i] = A[i][j] = 2.0 * dot(points[i], points[j])
}
b[i] = dot(points[i], points[i])
}
var x = solve(A, b)
var denom = 0.0
var h = x[N+1]
for(var i=0; i<h.length; ++i) {
denom += h[i]
}
var y = new Array(N)
for(var i=0; i<N; ++i) {
var h = x[i]
var numer = 0.0
for(var j=0; j<h.length; ++j) {
numer += h[j]
}
y[i] = numer / denom
}
return y
}
function circumcenter(points) {
if(points.length === 0) {
return []
}
var D = points[0].length
var result = dup([D])
var weights = barycentricCircumcenter(points)
for(var i=0; i<points.length; ++i) {
for(var j=0; j<D; ++j) {
result[j] += points[i][j] * weights[i]
}
}
return result
}
circumcenter.barycenetric = barycentricCircumcenter
module.exports = circumcenter
},{"dup":154,"robust-linear-solve":482}],101:[function(_dereq_,module,exports){
module.exports = circumradius
var circumcenter = _dereq_('circumcenter')
function circumradius(points) {
var center = circumcenter(points)
var avgDist = 0.0
for(var i=0; i<points.length; ++i) {
var p = points[i]
for(var j=0; j<center.length; ++j) {
avgDist += Math.pow(p[j] - center[j], 2)
}
}
return Math.sqrt(avgDist / points.length)
}
},{"circumcenter":100}],102:[function(_dereq_,module,exports){
module.exports = clamp
function clamp(value, min, max) {
return min < max
? (value < min ? min : value > max ? max : value)
: (value < max ? max : value > min ? min : value)
}
},{}],103:[function(_dereq_,module,exports){
'use strict'
module.exports = cleanPSLG
var UnionFind = _dereq_('union-find')
var boxIntersect = _dereq_('box-intersect')
var segseg = _dereq_('robust-segment-intersect')
var rat = _dereq_('big-rat')
var ratCmp = _dereq_('big-rat/cmp')
var ratToFloat = _dereq_('big-rat/to-float')
var ratVec = _dereq_('rat-vec')
var nextafter = _dereq_('nextafter')
var solveIntersection = _dereq_('./lib/rat-seg-intersect')
// Bounds on a rational number when rounded to a float
function boundRat (r) {
var f = ratToFloat(r)
return [
nextafter(f, -Infinity),
nextafter(f, Infinity)
]
}
// Convert a list of edges in a pslg to bounding boxes
function boundEdges (points, edges) {
var bounds = new Array(edges.length)
for (var i = 0; i < edges.length; ++i) {
var e = edges[i]
var a = points[e[0]]
var b = points[e[1]]
bounds[i] = [
nextafter(Math.min(a[0], b[0]), -Infinity),
nextafter(Math.min(a[1], b[1]), -Infinity),
nextafter(Math.max(a[0], b[0]), Infinity),
nextafter(Math.max(a[1], b[1]), Infinity)
]
}
return bounds
}
// Convert a list of points into bounding boxes by duplicating coords
function boundPoints (points) {
var bounds = new Array(points.length)
for (var i = 0; i < points.length; ++i) {
var p = points[i]
bounds[i] = [
nextafter(p[0], -Infinity),
nextafter(p[1], -Infinity),
nextafter(p[0], Infinity),
nextafter(p[1], Infinity)
]
}
return bounds
}
// Find all pairs of crossing edges in a pslg (given edge bounds)
function getCrossings (points, edges, edgeBounds) {
var result = []
boxIntersect(edgeBounds, function (i, j) {
var e = edges[i]
var f = edges[j]
if (e[0] === f[0] || e[0] === f[1] ||
e[1] === f[0] || e[1] === f[1]) {
return
}
var a = points[e[0]]
var b = points[e[1]]
var c = points[f[0]]
var d = points[f[1]]
if (segseg(a, b, c, d)) {
result.push([i, j])
}
})
return result
}
// Find all pairs of crossing vertices in a pslg (given edge/vert bounds)
function getTJunctions (points, edges, edgeBounds, vertBounds) {
var result = []
boxIntersect(edgeBounds, vertBounds, function (i, v) {
var e = edges[i]
if (e[0] === v || e[1] === v) {
return
}
var p = points[v]
var a = points[e[0]]
var b = points[e[1]]
if (segseg(a, b, p, p)) {
result.push([i, v])
}
})
return result
}
// Cut edges along crossings/tjunctions
function cutEdges (floatPoints, edges, crossings, junctions, useColor) {
var i, e
// Convert crossings into tjunctions by constructing rational points
var ratPoints = floatPoints.map(function(p) {
return [
rat(p[0]),
rat(p[1])
]
})
for (i = 0; i < crossings.length; ++i) {
var crossing = crossings[i]
e = crossing[0]
var f = crossing[1]
var ee = edges[e]
var ef = edges[f]
var x = solveIntersection(
ratVec(floatPoints[ee[0]]),
ratVec(floatPoints[ee[1]]),
ratVec(floatPoints[ef[0]]),
ratVec(floatPoints[ef[1]]))
if (!x) {
// Segments are parallel, should already be handled by t-junctions
continue
}
var idx = floatPoints.length
floatPoints.push([ratToFloat(x[0]), ratToFloat(x[1])])
ratPoints.push(x)
junctions.push([e, idx], [f, idx])
}
// Sort tjunctions
junctions.sort(function (a, b) {
if (a[0] !== b[0]) {
return a[0] - b[0]
}
var u = ratPoints[a[1]]
var v = ratPoints[b[1]]
return ratCmp(u[0], v[0]) || ratCmp(u[1], v[1])
})
// Split edges along junctions
for (i = junctions.length - 1; i >= 0; --i) {
var junction = junctions[i]
e = junction[0]
var edge = edges[e]
var s = edge[0]
var t = edge[1]
// Check if edge is not lexicographically sorted
var a = floatPoints[s]
var b = floatPoints[t]
if (((a[0] - b[0]) || (a[1] - b[1])) < 0) {
var tmp = s
s = t
t = tmp
}
// Split leading edge
edge[0] = s
var last = edge[1] = junction[1]
// If we are grouping edges by color, remember to track data
var color
if (useColor) {
color = edge[2]
}
// Split other edges
while (i > 0 && junctions[i - 1][0] === e) {
var junction = junctions[--i]
var next = junction[1]
if (useColor) {
edges.push([last, next, color])
} else {
edges.push([last, next])
}
last = next
}
// Add final edge
if (useColor) {
edges.push([last, t, color])
} else {
edges.push([last, t])
}
}
// Return constructed rational points
return ratPoints
}
// Merge overlapping points
function dedupPoints (floatPoints, ratPoints, floatBounds) {
var numPoints = ratPoints.length
var uf = new UnionFind(numPoints)
// Compute rational bounds
var bounds = []
for (var i = 0; i < ratPoints.length; ++i) {
var p = ratPoints[i]
var xb = boundRat(p[0])
var yb = boundRat(p[1])
bounds.push([
nextafter(xb[0], -Infinity),
nextafter(yb[0], -Infinity),
nextafter(xb[1], Infinity),
nextafter(yb[1], Infinity)
])
}
// Link all points with over lapping boxes
boxIntersect(bounds, function (i, j) {
uf.link(i, j)
})
// Do 1 pass over points to combine points in label sets
var noDupes = true
var labels = new Array(numPoints)
for (var i = 0; i < numPoints; ++i) {
var j = uf.find(i)
if (j !== i) {
// Clear no-dupes flag, zero out label
noDupes = false
// Make each point the top-left point from its cell
floatPoints[j] = [
Math.min(floatPoints[i][0], floatPoints[j][0]),
Math.min(floatPoints[i][1], floatPoints[j][1])
]
}
}
// If no duplicates, return null to signal termination
if (noDupes) {
return null
}
var ptr = 0
for (var i = 0; i < numPoints; ++i) {
var j = uf.find(i)
if (j === i) {
labels[i] = ptr
floatPoints[ptr++] = floatPoints[i]
} else {
labels[i] = -1
}
}
floatPoints.length = ptr
// Do a second pass to fix up missing labels
for (var i = 0; i < numPoints; ++i) {
if (labels[i] < 0) {
labels[i] = labels[uf.find(i)]
}
}
// Return resulting union-find data structure
return labels
}
function compareLex2 (a, b) { return (a[0] - b[0]) || (a[1] - b[1]) }
function compareLex3 (a, b) {
var d = (a[0] - b[0]) || (a[1] - b[1])
if (d) {
return d
}
if (a[2] < b[2]) {
return -1
} else if (a[2] > b[2]) {
return 1
}
return 0
}
// Remove duplicate edge labels
function dedupEdges (edges, labels, useColor) {
if (edges.length === 0) {
return
}
if (labels) {
for (var i = 0; i < edges.length; ++i) {
var e = edges[i]
var a = labels[e[0]]
var b = labels[e[1]]
e[0] = Math.min(a, b)
e[1] = Math.max(a, b)
}
} else {
for (var i = 0; i < edges.length; ++i) {
var e = edges[i]
var a = e[0]
var b = e[1]
e[0] = Math.min(a, b)
e[1] = Math.max(a, b)
}
}
if (useColor) {
edges.sort(compareLex3)
} else {
edges.sort(compareLex2)
}
var ptr = 1
for (var i = 1; i < edges.length; ++i) {
var prev = edges[i - 1]
var next = edges[i]
if (next[0] === prev[0] && next[1] === prev[1] &&
(!useColor || next[2] === prev[2])) {
continue
}
edges[ptr++] = next
}
edges.length = ptr
}
function preRound (points, edges, useColor) {
var labels = dedupPoints(points, [], boundPoints(points))
dedupEdges(edges, labels, useColor)
return !!labels
}
// Repeat until convergence
function snapRound (points, edges, useColor) {
// 1. find edge crossings
var edgeBounds = boundEdges(points, edges)
var crossings = getCrossings(points, edges, edgeBounds)
// 2. find t-junctions
var vertBounds = boundPoints(points)
var tjunctions = getTJunctions(points, edges, edgeBounds, vertBounds)
// 3. cut edges, construct rational points
var ratPoints = cutEdges(points, edges, crossings, tjunctions, useColor)
// 4. dedupe verts
var labels = dedupPoints(points, ratPoints, vertBounds)
// 5. dedupe edges
dedupEdges(edges, labels, useColor)
// 6. check termination
if (!labels) {
return (crossings.length > 0 || tjunctions.length > 0)
}
// More iterations necessary
return true
}
// Main loop, runs PSLG clean up until completion
function cleanPSLG (points, edges, colors) {
// If using colors, augment edges with color data
var prevEdges
if (colors) {
prevEdges = edges
var augEdges = new Array(edges.length)
for (var i = 0; i < edges.length; ++i) {
var e = edges[i]
augEdges[i] = [e[0], e[1], colors[i]]
}
edges = augEdges
}
// First round: remove duplicate edges and points
var modified = preRound(points, edges, !!colors)
// Run snap rounding until convergence
while (snapRound(points, edges, !!colors)) {
modified = true
}
// Strip color tags
if (!!colors && modified) {
prevEdges.length = 0
colors.length = 0
for (var i = 0; i < edges.length; ++i) {
var e = edges[i]
prevEdges.push([e[0], e[1]])
colors.push(e[2])
}
}
return modified
}
},{"./lib/rat-seg-intersect":104,"big-rat":65,"big-rat/cmp":63,"big-rat/to-float":77,"box-intersect":83,"nextafter":431,"rat-vec":466,"robust-segment-intersect":486,"union-find":520}],104:[function(_dereq_,module,exports){
'use strict'
module.exports = solveIntersection
var ratMul = _dereq_('big-rat/mul')
var ratDiv = _dereq_('big-rat/div')
var ratSub = _dereq_('big-rat/sub')
var ratSign = _dereq_('big-rat/sign')
var rvSub = _dereq_('rat-vec/sub')
var rvAdd = _dereq_('rat-vec/add')
var rvMuls = _dereq_('rat-vec/muls')
function ratPerp (a, b) {
return ratSub(ratMul(a[0], b[1]), ratMul(a[1], b[0]))
}
// Solve for intersection
// x = a + t (b-a)
// (x - c) ^ (d-c) = 0
// (t * (b-a) + (a-c) ) ^ (d-c) = 0
// t * (b-a)^(d-c) = (d-c)^(a-c)
// t = (d-c)^(a-c) / (b-a)^(d-c)
function solveIntersection (a, b, c, d) {
var ba = rvSub(b, a)
var dc = rvSub(d, c)
var baXdc = ratPerp(ba, dc)
if (ratSign(baXdc) === 0) {
return null
}
var ac = rvSub(a, c)
var dcXac = ratPerp(dc, ac)
var t = ratDiv(dcXac, baXdc)
var s = rvMuls(ba, t)
var r = rvAdd(a, s)
return r
}
},{"big-rat/div":64,"big-rat/mul":74,"big-rat/sign":75,"big-rat/sub":76,"rat-vec/add":465,"rat-vec/muls":467,"rat-vec/sub":468}],105:[function(_dereq_,module,exports){
/** @module color-id */
'use strict'
var clamp = _dereq_('clamp')
module.exports = toNumber
module.exports.to = toNumber
module.exports.from = fromNumber
function toNumber (rgba, normalized) {
if(normalized == null) normalized = true
var r = rgba[0], g = rgba[1], b = rgba[2], a = rgba[3]
if (a == null) a = normalized ? 1 : 255
if (normalized) {
r *= 255
g *= 255
b *= 255
a *= 255
}
r = clamp(r, 0, 255) & 0xFF
g = clamp(g, 0, 255) & 0xFF
b = clamp(b, 0, 255) & 0xFF
a = clamp(a, 0, 255) & 0xFF
//hi-order shift converts to -1, so we can't use <<24
var n = (r * 0x01000000) + (g << 16) + (b << 8) + (a)
return n
}
function fromNumber (n, normalized) {
n = +n
var r = n >>> 24
var g = (n & 0x00ff0000) >>> 16
var b = (n & 0x0000ff00) >>> 8
var a = n & 0x000000ff
if (normalized === false) return [r, g, b, a]
return [r/255, g/255, b/255, a/255]
}
},{"clamp":102}],106:[function(_dereq_,module,exports){
'use strict'
module.exports = {
"aliceblue": [240, 248, 255],
"antiquewhite": [250, 235, 215],
"aqua": [0, 255, 255],
"aquamarine": [127, 255, 212],
"azure": [240, 255, 255],
"beige": [245, 245, 220],
"bisque": [255, 228, 196],
"black": [0, 0, 0],
"blanchedalmond": [255, 235, 205],
"blue": [0, 0, 255],
"blueviolet": [138, 43, 226],
"brown": [165, 42, 42],
"burlywood": [222, 184, 135],
"cadetblue": [95, 158, 160],
"chartreuse": [127, 255, 0],
"chocolate": [210, 105, 30],
"coral": [255, 127, 80],
"cornflowerblue": [100, 149, 237],
"cornsilk": [255, 248, 220],
"crimson": [220, 20, 60],
"cyan": [0, 255, 255],
"darkblue": [0, 0, 139],
"darkcyan": [0, 139, 139],
"darkgoldenrod": [184, 134, 11],
"darkgray": [169, 169, 169],
"darkgreen": [0, 100, 0],
"darkgrey": [169, 169, 169],
"darkkhaki": [189, 183, 107],
"darkmagenta": [139, 0, 139],
"darkolivegreen": [85, 107, 47],
"darkorange": [255, 140, 0],
"darkorchid": [153, 50, 204],
"darkred": [139, 0, 0],
"darksalmon": [233, 150, 122],
"darkseagreen": [143, 188, 143],
"darkslateblue": [72, 61, 139],
"darkslategray": [47, 79, 79],
"darkslategrey": [47, 79, 79],
"darkturquoise": [0, 206, 209],
"darkviolet": [148, 0, 211],
"deeppink": [255, 20, 147],
"deepskyblue": [0, 191, 255],
"dimgray": [105, 105, 105],
"dimgrey": [105, 105, 105],
"dodgerblue": [30, 144, 255],
"firebrick": [178, 34, 34],
"floralwhite": [255, 250, 240],
"forestgreen": [34, 139, 34],
"fuchsia": [255, 0, 255],
"gainsboro": [220, 220, 220],
"ghostwhite": [248, 248, 255],
"gold": [255, 215, 0],
"goldenrod": [218, 165, 32],
"gray": [128, 128, 128],
"green": [0, 128, 0],
"greenyellow": [173, 255, 47],
"grey": [128, 128, 128],
"honeydew": [240, 255, 240],
"hotpink": [255, 105, 180],
"indianred": [205, 92, 92],
"indigo": [75, 0, 130],
"ivory": [255, 255, 240],
"khaki": [240, 230, 140],
"lavender": [230, 230, 250],
"lavenderblush": [255, 240, 245],
"lawngreen": [124, 252, 0],
"lemonchiffon": [255, 250, 205],
"lightblue": [173, 216, 230],
"lightcoral": [240, 128, 128],
"lightcyan": [224, 255, 255],
"lightgoldenrodyellow": [250, 250, 210],
"lightgray": [211, 211, 211],
"lightgreen": [144, 238, 144],
"lightgrey": [211, 211, 211],
"lightpink": [255, 182, 193],
"lightsalmon": [255, 160, 122],
"lightseagreen": [32, 178, 170],
"lightskyblue": [135, 206, 250],
"lightslategray": [119, 136, 153],
"lightslategrey": [119, 136, 153],
"lightsteelblue": [176, 196, 222],
"lightyellow": [255, 255, 224],
"lime": [0, 255, 0],
"limegreen": [50, 205, 50],
"linen": [250, 240, 230],
"magenta": [255, 0, 255],
"maroon": [128, 0, 0],
"mediumaquamarine": [102, 205, 170],
"mediumblue": [0, 0, 205],
"mediumorchid": [186, 85, 211],
"mediumpurple": [147, 112, 219],
"mediumseagreen": [60, 179, 113],
"mediumslateblue": [123, 104, 238],
"mediumspringgreen": [0, 250, 154],
"mediumturquoise": [72, 209, 204],
"mediumvioletred": [199, 21, 133],
"midnightblue": [25, 25, 112],
"mintcream": [245, 255, 250],
"mistyrose": [255, 228, 225],
"moccasin": [255, 228, 181],
"navajowhite": [255, 222, 173],
"navy": [0, 0, 128],
"oldlace": [253, 245, 230],
"olive": [128, 128, 0],
"olivedrab": [107, 142, 35],
"orange": [255, 165, 0],
"orangered": [255, 69, 0],
"orchid": [218, 112, 214],
"palegoldenrod": [238, 232, 170],
"palegreen": [152, 251, 152],
"paleturquoise": [175, 238, 238],
"palevioletred": [219, 112, 147],
"papayawhip": [255, 239, 213],
"peachpuff": [255, 218, 185],
"peru": [205, 133, 63],
"pink": [255, 192, 203],
"plum": [221, 160, 221],
"powderblue": [176, 224, 230],
"purple": [128, 0, 128],
"rebeccapurple": [102, 51, 153],
"red": [255, 0, 0],
"rosybrown": [188, 143, 143],
"royalblue": [65, 105, 225],
"saddlebrown": [139, 69, 19],
"salmon": [250, 128, 114],
"sandybrown": [244, 164, 96],
"seagreen": [46, 139, 87],
"seashell": [255, 245, 238],
"sienna": [160, 82, 45],
"silver": [192, 192, 192],
"skyblue": [135, 206, 235],
"slateblue": [106, 90, 205],
"slategray": [112, 128, 144],
"slategrey": [112, 128, 144],
"snow": [255, 250, 250],
"springgreen": [0, 255, 127],
"steelblue": [70, 130, 180],
"tan": [210, 180, 140],
"teal": [0, 128, 128],
"thistle": [216, 191, 216],
"tomato": [255, 99, 71],
"turquoise": [64, 224, 208],
"violet": [238, 130, 238],
"wheat": [245, 222, 179],
"white": [255, 255, 255],
"whitesmoke": [245, 245, 245],
"yellow": [255, 255, 0],
"yellowgreen": [154, 205, 50]
};
},{}],107:[function(_dereq_,module,exports){
/** @module color-normalize */
'use strict'
var rgba = _dereq_('color-rgba')
var clamp = _dereq_('clamp')
var dtype = _dereq_('dtype')
module.exports = function normalize (color, type) {
if (type === 'float' || !type) type = 'array'
if (type === 'uint') type = 'uint8'
if (type === 'uint_clamped') type = 'uint8_clamped'
var Ctor = dtype(type)
var output = new Ctor(4)
var normalize = type !== 'uint8' && type !== 'uint8_clamped'
// attempt to parse non-array arguments
if (!color.length || typeof color === 'string') {
color = rgba(color)
color[0] /= 255
color[1] /= 255
color[2] /= 255
}
// 0, 1 are possible contradictory values for Arrays:
// [1,1,1] input gives [1,1,1] output instead of [1/255,1/255,1/255], which may be collision if input is meant to be uint.
// converting [1,1,1] to [1/255,1/255,1/255] in case of float input gives larger mistake since [1,1,1] float is frequent edge value, whereas [0,1,1], [1,1,1] etc. uint inputs are relatively rare
if (isInt(color)) {
output[0] = color[0]
output[1] = color[1]
output[2] = color[2]
output[3] = color[3] != null ? color[3] : 255
if (normalize) {
output[0] /= 255
output[1] /= 255
output[2] /= 255
output[3] /= 255
}
return output
}
if (!normalize) {
output[0] = clamp(Math.floor(color[0] * 255), 0, 255)
output[1] = clamp(Math.floor(color[1] * 255), 0, 255)
output[2] = clamp(Math.floor(color[2] * 255), 0, 255)
output[3] = color[3] == null ? 255 : clamp(Math.floor(color[3] * 255), 0, 255)
} else {
output[0] = color[0]
output[1] = color[1]
output[2] = color[2]
output[3] = color[3] != null ? color[3] : 1
}
return output
}
function isInt(color) {
if (color instanceof Uint8Array || color instanceof Uint8ClampedArray) return true
if (Array.isArray(color) &&
(color[0] > 1 || color[0] === 0) &&
(color[1] > 1 || color[1] === 0) &&
(color[2] > 1 || color[2] === 0) &&
(!color[3] || color[3] > 1)
) return true
return false
}
},{"clamp":102,"color-rgba":109,"dtype":153}],108:[function(_dereq_,module,exports){
(function (global){
/**
* @module color-parse
*/
'use strict'
var names = _dereq_('color-name')
var isObject = _dereq_('is-plain-obj')
var defined = _dereq_('defined')
module.exports = parse
/**
* Base hues
* http://dev.w3.org/csswg/css-color/#typedef-named-hue
*/
//FIXME: use external hue detector
var baseHues = {
red: 0,
orange: 60,
yellow: 120,
green: 180,
blue: 240,
purple: 300
}
/**
* Parse color from the string passed
*
* @return {Object} A space indicator `space`, an array `values` and `alpha`
*/
function parse (cstr) {
var m, parts = [], alpha = 1, space
if (typeof cstr === 'string') {
//keyword
if (names[cstr]) {
parts = names[cstr].slice()
space = 'rgb'
}
//reserved words
else if (cstr === 'transparent') {
alpha = 0
space = 'rgb'
parts = [0,0,0]
}
//hex
else if (/^#[A-Fa-f0-9]+$/.test(cstr)) {
var base = cstr.slice(1)
var size = base.length
var isShort = size <= 4
alpha = 1
if (isShort) {
parts = [
parseInt(base[0] + base[0], 16),
parseInt(base[1] + base[1], 16),
parseInt(base[2] + base[2], 16)
]
if (size === 4) {
alpha = parseInt(base[3] + base[3], 16) / 255
}
}
else {
parts = [
parseInt(base[0] + base[1], 16),
parseInt(base[2] + base[3], 16),
parseInt(base[4] + base[5], 16)
]
if (size === 8) {
alpha = parseInt(base[6] + base[7], 16) / 255
}
}
if (!parts[0]) parts[0] = 0
if (!parts[1]) parts[1] = 0
if (!parts[2]) parts[2] = 0
space = 'rgb'
}
//color space
else if (m = /^((?:rgb|hs[lvb]|hwb|cmyk?|xy[zy]|gray|lab|lchu?v?|[ly]uv|lms)a?)\s*\(([^\)]*)\)/.exec(cstr)) {
var name = m[1]
var base = name.replace(/a$/, '')
space = base
var size = base === 'cmyk' ? 4 : base === 'gray' ? 1 : 3
parts = m[2].trim()
.split(/\s*,\s*/)
.map(function (x, i) {
//<percentage>
if (/%$/.test(x)) {
//alpha
if (i === size) return parseFloat(x) / 100
//rgb
if (base === 'rgb') return parseFloat(x) * 255 / 100
return parseFloat(x)
}
//hue
else if (base[i] === 'h') {
//<deg>
if (/deg$/.test(x)) {
return parseFloat(x)
}
//<base-hue>
else if (baseHues[x] !== undefined) {
return baseHues[x]
}
}
return parseFloat(x)
})
if (name === base) parts.push(1)
alpha = parts[size] === undefined ? 1 : parts[size]
parts = parts.slice(0, size)
}
//named channels case
else if (cstr.length > 10 && /[0-9](?:\s|\/)/.test(cstr)) {
parts = cstr.match(/([0-9]+)/g).map(function (value) {
return parseFloat(value)
})
space = cstr.match(/([a-z])/ig).join('').toLowerCase()
}
}
//numeric case
else if (!isNaN(cstr)) {
space = 'rgb'
parts = [cstr >>> 16, (cstr & 0x00ff00) >>> 8, cstr & 0x0000ff]
}
//object case - detects css cases of rgb and hsl
else if (isObject(cstr)) {
var r = defined(cstr.r, cstr.red, cstr.R, null)
if (r !== null) {
space = 'rgb'
parts = [
r,
defined(cstr.g, cstr.green, cstr.G),
defined(cstr.b, cstr.blue, cstr.B)
]
}
else {
space = 'hsl'
parts = [
defined(cstr.h, cstr.hue, cstr.H),
defined(cstr.s, cstr.saturation, cstr.S),
defined(cstr.l, cstr.lightness, cstr.L, cstr.b, cstr.brightness)
]
}
alpha = defined(cstr.a, cstr.alpha, cstr.opacity, 1)
if (cstr.opacity != null) alpha /= 100
}
//array
else if (Array.isArray(cstr) || global.ArrayBuffer && ArrayBuffer.isView && ArrayBuffer.isView(cstr)) {
parts = [cstr[0], cstr[1], cstr[2]]
space = 'rgb'
alpha = cstr.length === 4 ? cstr[3] : 1
}
return {
space: space,
values: parts,
alpha: alpha
}
}
}).call(this,typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {})
},{"color-name":106,"defined":148,"is-plain-obj":403}],109:[function(_dereq_,module,exports){
/** @module color-rgba */
'use strict'
var parse = _dereq_('color-parse')
var hsl = _dereq_('color-space/hsl')
var clamp = _dereq_('clamp')
module.exports = function rgba (color) {
var values, i, l
//attempt to parse non-array arguments
var parsed = parse(color)
if (!parsed.space) return []
values = Array(3)
values[0] = clamp(parsed.values[0], 0, 255)
values[1] = clamp(parsed.values[1], 0, 255)
values[2] = clamp(parsed.values[2], 0, 255)
if (parsed.space[0] === 'h') {
values = hsl.rgb(values)
}
values.push(clamp(parsed.alpha, 0, 1))
return values
}
},{"clamp":102,"color-parse":108,"color-space/hsl":110}],110:[function(_dereq_,module,exports){
/**
* @module color-space/hsl
*/
'use strict'
var rgb = _dereq_('./rgb');
module.exports = {
name: 'hsl',
min: [0,0,0],
max: [360,100,100],
channel: ['hue', 'saturation', 'lightness'],
alias: ['HSL'],
rgb: function(hsl) {
var h = hsl[0] / 360,
s = hsl[1] / 100,
l = hsl[2] / 100,
t1, t2, t3, rgb, val;
if (s === 0) {
val = l * 255;
return [val, val, val];
}
if (l < 0.5) {
t2 = l * (1 + s);
}
else {
t2 = l + s - l * s;
}
t1 = 2 * l - t2;
rgb = [0, 0, 0];
for (var i = 0; i < 3; i++) {
t3 = h + 1 / 3 * - (i - 1);
if (t3 < 0) {
t3++;
}
else if (t3 > 1) {
t3--;
}
if (6 * t3 < 1) {
val = t1 + (t2 - t1) * 6 * t3;
}
else if (2 * t3 < 1) {
val = t2;
}
else if (3 * t3 < 2) {
val = t1 + (t2 - t1) * (2 / 3 - t3) * 6;
}
else {
val = t1;
}
rgb[i] = val * 255;
}
return rgb;
}
};
//extend rgb
rgb.hsl = function(rgb) {
var r = rgb[0]/255,
g = rgb[1]/255,
b = rgb[2]/255,
min = Math.min(r, g, b),
max = Math.max(r, g, b),
delta = max - min,
h, s, l;
if (max === min) {
h = 0;
}
else if (r === max) {
h = (g - b) / delta;
}
else if (g === max) {
h = 2 + (b - r) / delta;
}
else if (b === max) {
h = 4 + (r - g)/ delta;
}
h = Math.min(h * 60, 360);
if (h < 0) {
h += 360;
}
l = (min + max) / 2;
if (max === min) {
s = 0;
}
else if (l <= 0.5) {
s = delta / (max + min);
}
else {
s = delta / (2 - max - min);
}
return [h, s * 100, l * 100];
};
},{"./rgb":111}],111:[function(_dereq_,module,exports){
/**
* RGB space.
*
* @module color-space/rgb
*/
'use strict'
module.exports = {
name: 'rgb',
min: [0,0,0],
max: [255,255,255],
channel: ['red', 'green', 'blue'],
alias: ['RGB']
};
},{}],112:[function(_dereq_,module,exports){
module.exports={
"jet":[{"index":0,"rgb":[0,0,131]},{"index":0.125,"rgb":[0,60,170]},{"index":0.375,"rgb":[5,255,255]},{"index":0.625,"rgb":[255,255,0]},{"index":0.875,"rgb":[250,0,0]},{"index":1,"rgb":[128,0,0]}],
"hsv":[{"index":0,"rgb":[255,0,0]},{"index":0.169,"rgb":[253,255,2]},{"index":0.173,"rgb":[247,255,2]},{"index":0.337,"rgb":[0,252,4]},{"index":0.341,"rgb":[0,252,10]},{"index":0.506,"rgb":[1,249,255]},{"index":0.671,"rgb":[2,0,253]},{"index":0.675,"rgb":[8,0,253]},{"index":0.839,"rgb":[255,0,251]},{"index":0.843,"rgb":[255,0,245]},{"index":1,"rgb":[255,0,6]}],
"hot":[{"index":0,"rgb":[0,0,0]},{"index":0.3,"rgb":[230,0,0]},{"index":0.6,"rgb":[255,210,0]},{"index":1,"rgb":[255,255,255]}],
"cool":[{"index":0,"rgb":[0,255,255]},{"index":1,"rgb":[255,0,255]}],
"spring":[{"index":0,"rgb":[255,0,255]},{"index":1,"rgb":[255,255,0]}],
"summer":[{"index":0,"rgb":[0,128,102]},{"index":1,"rgb":[255,255,102]}],
"autumn":[{"index":0,"rgb":[255,0,0]},{"index":1,"rgb":[255,255,0]}],
"winter":[{"index":0,"rgb":[0,0,255]},{"index":1,"rgb":[0,255,128]}],
"bone":[{"index":0,"rgb":[0,0,0]},{"index":0.376,"rgb":[84,84,116]},{"index":0.753,"rgb":[169,200,200]},{"index":1,"rgb":[255,255,255]}],
"copper":[{"index":0,"rgb":[0,0,0]},{"index":0.804,"rgb":[255,160,102]},{"index":1,"rgb":[255,199,127]}],
"greys":[{"index":0,"rgb":[0,0,0]},{"index":1,"rgb":[255,255,255]}],
"yignbu":[{"index":0,"rgb":[8,29,88]},{"index":0.125,"rgb":[37,52,148]},{"index":0.25,"rgb":[34,94,168]},{"index":0.375,"rgb":[29,145,192]},{"index":0.5,"rgb":[65,182,196]},{"index":0.625,"rgb":[127,205,187]},{"index":0.75,"rgb":[199,233,180]},{"index":0.875,"rgb":[237,248,217]},{"index":1,"rgb":[255,255,217]}],
"greens":[{"index":0,"rgb":[0,68,27]},{"index":0.125,"rgb":[0,109,44]},{"index":0.25,"rgb":[35,139,69]},{"index":0.375,"rgb":[65,171,93]},{"index":0.5,"rgb":[116,196,118]},{"index":0.625,"rgb":[161,217,155]},{"index":0.75,"rgb":[199,233,192]},{"index":0.875,"rgb":[229,245,224]},{"index":1,"rgb":[247,252,245]}],
"yiorrd":[{"index":0,"rgb":[128,0,38]},{"index":0.125,"rgb":[189,0,38]},{"index":0.25,"rgb":[227,26,28]},{"index":0.375,"rgb":[252,78,42]},{"index":0.5,"rgb":[253,141,60]},{"index":0.625,"rgb":[254,178,76]},{"index":0.75,"rgb":[254,217,118]},{"index":0.875,"rgb":[255,237,160]},{"index":1,"rgb":[255,255,204]}],
"bluered":[{"index":0,"rgb":[0,0,255]},{"index":1,"rgb":[255,0,0]}],
"rdbu":[{"index":0,"rgb":[5,10,172]},{"index":0.35,"rgb":[106,137,247]},{"index":0.5,"rgb":[190,190,190]},{"index":0.6,"rgb":[220,170,132]},{"index":0.7,"rgb":[230,145,90]},{"index":1,"rgb":[178,10,28]}],
"picnic":[{"index":0,"rgb":[0,0,255]},{"index":0.1,"rgb":[51,153,255]},{"index":0.2,"rgb":[102,204,255]},{"index":0.3,"rgb":[153,204,255]},{"index":0.4,"rgb":[204,204,255]},{"index":0.5,"rgb":[255,255,255]},{"index":0.6,"rgb":[255,204,255]},{"index":0.7,"rgb":[255,153,255]},{"index":0.8,"rgb":[255,102,204]},{"index":0.9,"rgb":[255,102,102]},{"index":1,"rgb":[255,0,0]}],
"rainbow":[{"index":0,"rgb":[150,0,90]},{"index":0.125,"rgb":[0,0,200]},{"index":0.25,"rgb":[0,25,255]},{"index":0.375,"rgb":[0,152,255]},{"index":0.5,"rgb":[44,255,150]},{"index":0.625,"rgb":[151,255,0]},{"index":0.75,"rgb":[255,234,0]},{"index":0.875,"rgb":[255,111,0]},{"index":1,"rgb":[255,0,0]}],
"portland":[{"index":0,"rgb":[12,51,131]},{"index":0.25,"rgb":[10,136,186]},{"index":0.5,"rgb":[242,211,56]},{"index":0.75,"rgb":[242,143,56]},{"index":1,"rgb":[217,30,30]}],
"blackbody":[{"index":0,"rgb":[0,0,0]},{"index":0.2,"rgb":[230,0,0]},{"index":0.4,"rgb":[230,210,0]},{"index":0.7,"rgb":[255,255,255]},{"index":1,"rgb":[160,200,255]}],
"earth":[{"index":0,"rgb":[0,0,130]},{"index":0.1,"rgb":[0,180,180]},{"index":0.2,"rgb":[40,210,40]},{"index":0.4,"rgb":[230,230,50]},{"index":0.6,"rgb":[120,70,20]},{"index":1,"rgb":[255,255,255]}],
"electric":[{"index":0,"rgb":[0,0,0]},{"index":0.15,"rgb":[30,0,100]},{"index":0.4,"rgb":[120,0,100]},{"index":0.6,"rgb":[160,90,0]},{"index":0.8,"rgb":[230,200,0]},{"index":1,"rgb":[255,250,220]}],
"alpha": [{"index":0, "rgb": [255,255,255,0]},{"index":1, "rgb": [255,255,255,1]}],
"viridis": [{"index":0,"rgb":[68,1,84]},{"index":0.13,"rgb":[71,44,122]},{"index":0.25,"rgb":[59,81,139]},{"index":0.38,"rgb":[44,113,142]},{"index":0.5,"rgb":[33,144,141]},{"index":0.63,"rgb":[39,173,129]},{"index":0.75,"rgb":[92,200,99]},{"index":0.88,"rgb":[170,220,50]},{"index":1,"rgb":[253,231,37]}],
"inferno": [{"index":0,"rgb":[0,0,4]},{"index":0.13,"rgb":[31,12,72]},{"index":0.25,"rgb":[85,15,109]},{"index":0.38,"rgb":[136,34,106]},{"index":0.5,"rgb":[186,54,85]},{"index":0.63,"rgb":[227,89,51]},{"index":0.75,"rgb":[249,140,10]},{"index":0.88,"rgb":[249,201,50]},{"index":1,"rgb":[252,255,164]}],
"magma": [{"index":0,"rgb":[0,0,4]},{"index":0.13,"rgb":[28,16,68]},{"index":0.25,"rgb":[79,18,123]},{"index":0.38,"rgb":[129,37,129]},{"index":0.5,"rgb":[181,54,122]},{"index":0.63,"rgb":[229,80,100]},{"index":0.75,"rgb":[251,135,97]},{"index":0.88,"rgb":[254,194,135]},{"index":1,"rgb":[252,253,191]}],
"plasma": [{"index":0,"rgb":[13,8,135]},{"index":0.13,"rgb":[75,3,161]},{"index":0.25,"rgb":[125,3,168]},{"index":0.38,"rgb":[168,34,150]},{"index":0.5,"rgb":[203,70,121]},{"index":0.63,"rgb":[229,107,93]},{"index":0.75,"rgb":[248,148,65]},{"index":0.88,"rgb":[253,195,40]},{"index":1,"rgb":[240,249,33]}],
"warm": [{"index":0,"rgb":[125,0,179]},{"index":0.13,"rgb":[172,0,187]},{"index":0.25,"rgb":[219,0,170]},{"index":0.38,"rgb":[255,0,130]},{"index":0.5,"rgb":[255,63,74]},{"index":0.63,"rgb":[255,123,0]},{"index":0.75,"rgb":[234,176,0]},{"index":0.88,"rgb":[190,228,0]},{"index":1,"rgb":[147,255,0]}],
"cool": [{"index":0,"rgb":[125,0,179]},{"index":0.13,"rgb":[116,0,218]},{"index":0.25,"rgb":[98,74,237]},{"index":0.38,"rgb":[68,146,231]},{"index":0.5,"rgb":[0,204,197]},{"index":0.63,"rgb":[0,247,146]},{"index":0.75,"rgb":[0,255,88]},{"index":0.88,"rgb":[40,255,8]},{"index":1,"rgb":[147,255,0]}],
"rainbow-soft": [{"index":0,"rgb":[125,0,179]},{"index":0.1,"rgb":[199,0,180]},{"index":0.2,"rgb":[255,0,121]},{"index":0.3,"rgb":[255,108,0]},{"index":0.4,"rgb":[222,194,0]},{"index":0.5,"rgb":[150,255,0]},{"index":0.6,"rgb":[0,255,55]},{"index":0.7,"rgb":[0,246,150]},{"index":0.8,"rgb":[50,167,222]},{"index":0.9,"rgb":[103,51,235]},{"index":1,"rgb":[124,0,186]}],
"bathymetry": [{"index":0,"rgb":[40,26,44]},{"index":0.13,"rgb":[59,49,90]},{"index":0.25,"rgb":[64,76,139]},{"index":0.38,"rgb":[63,110,151]},{"index":0.5,"rgb":[72,142,158]},{"index":0.63,"rgb":[85,174,163]},{"index":0.75,"rgb":[120,206,163]},{"index":0.88,"rgb":[187,230,172]},{"index":1,"rgb":[253,254,204]}],
"cdom": [{"index":0,"rgb":[47,15,62]},{"index":0.13,"rgb":[87,23,86]},{"index":0.25,"rgb":[130,28,99]},{"index":0.38,"rgb":[171,41,96]},{"index":0.5,"rgb":[206,67,86]},{"index":0.63,"rgb":[230,106,84]},{"index":0.75,"rgb":[242,149,103]},{"index":0.88,"rgb":[249,193,135]},{"index":1,"rgb":[254,237,176]}],
"chlorophyll": [{"index":0,"rgb":[18,36,20]},{"index":0.13,"rgb":[25,63,41]},{"index":0.25,"rgb":[24,91,59]},{"index":0.38,"rgb":[13,119,72]},{"index":0.5,"rgb":[18,148,80]},{"index":0.63,"rgb":[80,173,89]},{"index":0.75,"rgb":[132,196,122]},{"index":0.88,"rgb":[175,221,162]},{"index":1,"rgb":[215,249,208]}],
"density": [{"index":0,"rgb":[54,14,36]},{"index":0.13,"rgb":[89,23,80]},{"index":0.25,"rgb":[110,45,132]},{"index":0.38,"rgb":[120,77,178]},{"index":0.5,"rgb":[120,113,213]},{"index":0.63,"rgb":[115,151,228]},{"index":0.75,"rgb":[134,185,227]},{"index":0.88,"rgb":[177,214,227]},{"index":1,"rgb":[230,241,241]}],
"freesurface-blue": [{"index":0,"rgb":[30,4,110]},{"index":0.13,"rgb":[47,14,176]},{"index":0.25,"rgb":[41,45,236]},{"index":0.38,"rgb":[25,99,212]},{"index":0.5,"rgb":[68,131,200]},{"index":0.63,"rgb":[114,156,197]},{"index":0.75,"rgb":[157,181,203]},{"index":0.88,"rgb":[200,208,216]},{"index":1,"rgb":[241,237,236]}],
"freesurface-red": [{"index":0,"rgb":[60,9,18]},{"index":0.13,"rgb":[100,17,27]},{"index":0.25,"rgb":[142,20,29]},{"index":0.38,"rgb":[177,43,27]},{"index":0.5,"rgb":[192,87,63]},{"index":0.63,"rgb":[205,125,105]},{"index":0.75,"rgb":[216,162,148]},{"index":0.88,"rgb":[227,199,193]},{"index":1,"rgb":[241,237,236]}],
"oxygen": [{"index":0,"rgb":[64,5,5]},{"index":0.13,"rgb":[106,6,15]},{"index":0.25,"rgb":[144,26,7]},{"index":0.38,"rgb":[168,64,3]},{"index":0.5,"rgb":[188,100,4]},{"index":0.63,"rgb":[206,136,11]},{"index":0.75,"rgb":[220,174,25]},{"index":0.88,"rgb":[231,215,44]},{"index":1,"rgb":[248,254,105]}],
"par": [{"index":0,"rgb":[51,20,24]},{"index":0.13,"rgb":[90,32,35]},{"index":0.25,"rgb":[129,44,34]},{"index":0.38,"rgb":[159,68,25]},{"index":0.5,"rgb":[182,99,19]},{"index":0.63,"rgb":[199,134,22]},{"index":0.75,"rgb":[212,171,35]},{"index":0.88,"rgb":[221,210,54]},{"index":1,"rgb":[225,253,75]}],
"phase": [{"index":0,"rgb":[145,105,18]},{"index":0.13,"rgb":[184,71,38]},{"index":0.25,"rgb":[186,58,115]},{"index":0.38,"rgb":[160,71,185]},{"index":0.5,"rgb":[110,97,218]},{"index":0.63,"rgb":[50,123,164]},{"index":0.75,"rgb":[31,131,110]},{"index":0.88,"rgb":[77,129,34]},{"index":1,"rgb":[145,105,18]}],
"salinity": [{"index":0,"rgb":[42,24,108]},{"index":0.13,"rgb":[33,50,162]},{"index":0.25,"rgb":[15,90,145]},{"index":0.38,"rgb":[40,118,137]},{"index":0.5,"rgb":[59,146,135]},{"index":0.63,"rgb":[79,175,126]},{"index":0.75,"rgb":[120,203,104]},{"index":0.88,"rgb":[193,221,100]},{"index":1,"rgb":[253,239,154]}],
"temperature": [{"index":0,"rgb":[4,35,51]},{"index":0.13,"rgb":[23,51,122]},{"index":0.25,"rgb":[85,59,157]},{"index":0.38,"rgb":[129,79,143]},{"index":0.5,"rgb":[175,95,130]},{"index":0.63,"rgb":[222,112,101]},{"index":0.75,"rgb":[249,146,66]},{"index":0.88,"rgb":[249,196,65]},{"index":1,"rgb":[232,250,91]}],
"turbidity": [{"index":0,"rgb":[34,31,27]},{"index":0.13,"rgb":[65,50,41]},{"index":0.25,"rgb":[98,69,52]},{"index":0.38,"rgb":[131,89,57]},{"index":0.5,"rgb":[161,112,59]},{"index":0.63,"rgb":[185,140,66]},{"index":0.75,"rgb":[202,174,88]},{"index":0.88,"rgb":[216,209,126]},{"index":1,"rgb":[233,246,171]}],
"velocity-blue": [{"index":0,"rgb":[17,32,64]},{"index":0.13,"rgb":[35,52,116]},{"index":0.25,"rgb":[29,81,156]},{"index":0.38,"rgb":[31,113,162]},{"index":0.5,"rgb":[50,144,169]},{"index":0.63,"rgb":[87,173,176]},{"index":0.75,"rgb":[149,196,189]},{"index":0.88,"rgb":[203,221,211]},{"index":1,"rgb":[254,251,230]}],
"velocity-green": [{"index":0,"rgb":[23,35,19]},{"index":0.13,"rgb":[24,64,38]},{"index":0.25,"rgb":[11,95,45]},{"index":0.38,"rgb":[39,123,35]},{"index":0.5,"rgb":[95,146,12]},{"index":0.63,"rgb":[152,165,18]},{"index":0.75,"rgb":[201,186,69]},{"index":0.88,"rgb":[233,216,137]},{"index":1,"rgb":[255,253,205]}],
"cubehelix": [{"index":0,"rgb":[0,0,0]},{"index":0.07,"rgb":[22,5,59]},{"index":0.13,"rgb":[60,4,105]},{"index":0.2,"rgb":[109,1,135]},{"index":0.27,"rgb":[161,0,147]},{"index":0.33,"rgb":[210,2,142]},{"index":0.4,"rgb":[251,11,123]},{"index":0.47,"rgb":[255,29,97]},{"index":0.53,"rgb":[255,54,69]},{"index":0.6,"rgb":[255,85,46]},{"index":0.67,"rgb":[255,120,34]},{"index":0.73,"rgb":[255,157,37]},{"index":0.8,"rgb":[241,191,57]},{"index":0.87,"rgb":[224,220,93]},{"index":0.93,"rgb":[218,241,142]},{"index":1,"rgb":[227,253,198]}]
};
},{}],113:[function(_dereq_,module,exports){
/*
* Ben Postlethwaite
* January 2013
* License MIT
*/
'use strict';
var colorScale = _dereq_('./colorScale');
var lerp = _dereq_('lerp')
module.exports = createColormap;
function createColormap (spec) {
/*
* Default Options
*/
var indicies, rgba, fromrgba, torgba,
nsteps, cmap, colormap, format,
nshades, colors, alpha, index, i,
r = [],
g = [],
b = [],
a = [];
if ( !spec ) spec = {};
nshades = (spec.nshades || 72) - 1;
format = spec.format || 'hex';
colormap = spec.colormap;
if (!colormap) colormap = 'jet';
if (typeof colormap === 'string') {
colormap = colormap.toLowerCase();
if (!colorScale[colormap]) {
throw Error(colormap + ' not a supported colorscale');
}
cmap = colorScale[colormap];
} else if (Array.isArray(colormap)) {
cmap = colormap.slice();
} else {
throw Error('unsupported colormap option', colormap);
}
if (cmap.length > nshades) {
throw new Error(
colormap+' map requires nshades to be at least size '+cmap.length
);
}
if (!Array.isArray(spec.alpha)) {
if (typeof spec.alpha === 'number') {
alpha = [spec.alpha, spec.alpha];
} else {
alpha = [1, 1];
}
} else if (spec.alpha.length !== 2) {
alpha = [1, 1];
} else {
alpha = spec.alpha.slice();
}
// map index points from 0..1 to 0..n-1
indicies = cmap.map(function(c) {
return Math.round(c.index * nshades);
});
// Add alpha channel to the map
alpha[0] = Math.min(Math.max(alpha[0], 0), 1);
alpha[1] = Math.min(Math.max(alpha[1], 0), 1);
var steps = cmap.map(function(c, i) {
var index = cmap[i].index
var rgba = cmap[i].rgb.slice();
// if user supplies their own map use it
if (rgba.length === 4 && rgba[3] >= 0 && rgba[3] <= 1) {
return rgba
}
rgba[3] = alpha[0] + (alpha[1] - alpha[0])*index;
return rgba
})
/*
* map increasing linear values between indicies to
* linear steps in colorvalues
*/
var colors = []
for (i = 0; i < indicies.length-1; ++i) {
nsteps = indicies[i+1] - indicies[i];
fromrgba = steps[i];
torgba = steps[i+1];
for (var j = 0; j < nsteps; j++) {
var amt = j / nsteps
colors.push([
Math.round(lerp(fromrgba[0], torgba[0], amt)),
Math.round(lerp(fromrgba[1], torgba[1], amt)),
Math.round(lerp(fromrgba[2], torgba[2], amt)),
lerp(fromrgba[3], torgba[3], amt)
])
}
}
//add 1 step as last value
colors.push(cmap[cmap.length - 1].rgb.concat(alpha[1]))
if (format === 'hex') colors = colors.map( rgb2hex );
else if (format === 'rgbaString') colors = colors.map( rgbaStr );
else if (format === 'float') colors = colors.map( rgb2float );
return colors;
};
function rgb2float (rgba) {
return [
rgba[0] / 255,
rgba[1] / 255,
rgba[2] / 255,
rgba[3]
]
}
function rgb2hex (rgba) {
var dig, hex = '#';
for (var i = 0; i < 3; ++i) {
dig = rgba[i];
dig = dig.toString(16);
hex += ('00' + dig).substr( dig.length );
}
return hex;
}
function rgbaStr (rgba) {
return 'rgba(' + rgba.join(',') + ')';
}
},{"./colorScale":112,"lerp":405}],114:[function(_dereq_,module,exports){
"use strict"
module.exports = compareAngle
var orient = _dereq_("robust-orientation")
var sgn = _dereq_("signum")
var twoSum = _dereq_("two-sum")
var robustProduct = _dereq_("robust-product")
var robustSum = _dereq_("robust-sum")
function testInterior(a, b, c) {
var x0 = twoSum(a[0], -b[0])
var y0 = twoSum(a[1], -b[1])
var x1 = twoSum(c[0], -b[0])
var y1 = twoSum(c[1], -b[1])
var d = robustSum(
robustProduct(x0, x1),
robustProduct(y0, y1))
return d[d.length-1] >= 0
}
function compareAngle(a, b, c, d) {
var bcd = orient(b, c, d)
if(bcd === 0) {
//Handle degenerate cases
var sabc = sgn(orient(a, b, c))
var sabd = sgn(orient(a, b, d))
if(sabc === sabd) {
if(sabc === 0) {
var ic = testInterior(a, b, c)
var id = testInterior(a, b, d)
if(ic === id) {
return 0
} else if(ic) {
return 1
} else {
return -1
}
}
return 0
} else if(sabd === 0) {
if(sabc > 0) {
return -1
} else if(testInterior(a, b, d)) {
return -1
} else {
return 1
}
} else if(sabc === 0) {
if(sabd > 0) {
return 1
} else if(testInterior(a, b, c)) {
return 1
} else {
return -1
}
}
return sgn(sabd - sabc)
}
var abc = orient(a, b, c)
if(abc > 0) {
if(bcd > 0 && orient(a, b, d) > 0) {
return 1
}
return -1
} else if(abc < 0) {
if(bcd > 0 || orient(a, b, d) > 0) {
return 1
}
return -1
} else {
var abd = orient(a, b, d)
if(abd > 0) {
return 1
} else {
if(testInterior(a, b, c)) {
return 1
} else {
return -1
}
}
}
}
},{"robust-orientation":483,"robust-product":484,"robust-sum":488,"signum":489,"two-sum":518}],115:[function(_dereq_,module,exports){
module.exports = compareCells
var min = Math.min
function compareInt(a, b) {
return a - b
}
function compareCells(a, b) {
var n = a.length
, t = a.length - b.length
if(t) {
return t
}
switch(n) {
case 0:
return 0
case 1:
return a[0] - b[0]
case 2:
return (a[0]+a[1]-b[0]-b[1]) ||
min(a[0],a[1]) - min(b[0],b[1])
case 3:
var l1 = a[0]+a[1]
, m1 = b[0]+b[1]
t = l1+a[2] - (m1+b[2])
if(t) {
return t
}
var l0 = min(a[0], a[1])
, m0 = min(b[0], b[1])
return min(l0, a[2]) - min(m0, b[2]) ||
min(l0+a[2], l1) - min(m0+b[2], m1)
case 4:
var aw=a[0], ax=a[1], ay=a[2], az=a[3]
, bw=b[0], bx=b[1], by=b[2], bz=b[3]
return (aw+ax+ay+az)-(bw+bx+by+bz) ||
min(aw,ax,ay,az)-min(bw,bx,by,bz,bw) ||
min(aw+ax,aw+ay,aw+az,ax+ay,ax+az,ay+az) -
min(bw+bx,bw+by,bw+bz,bx+by,bx+bz,by+bz) ||
min(aw+ax+ay,aw+ax+az,aw+ay+az,ax+ay+az) -
min(bw+bx+by,bw+bx+bz,bw+by+bz,bx+by+bz)
default:
var as = a.slice().sort(compareInt)
var bs = b.slice().sort(compareInt)
for(var i=0; i<n; ++i) {
t = as[i] - bs[i]
if(t) {
return t
}
}
return 0
}
}
},{}],116:[function(_dereq_,module,exports){
'use strict'
var compareCells = _dereq_('compare-cell')
var parity = _dereq_('cell-orientation')
module.exports = compareOrientedCells
function compareOrientedCells(a, b) {
return compareCells(a, b) || parity(a) - parity(b)
}
},{"cell-orientation":99,"compare-cell":115}],117:[function(_dereq_,module,exports){
"use strict"
var convexHull1d = _dereq_('./lib/ch1d')
var convexHull2d = _dereq_('./lib/ch2d')
var convexHullnd = _dereq_('./lib/chnd')
module.exports = convexHull
function convexHull(points) {
var n = points.length
if(n === 0) {
return []
} else if(n === 1) {
return [[0]]
}
var d = points[0].length
if(d === 0) {
return []
} else if(d === 1) {
return convexHull1d(points)
} else if(d === 2) {
return convexHull2d(points)
}
return convexHullnd(points, d)
}
},{"./lib/ch1d":118,"./lib/ch2d":119,"./lib/chnd":120}],118:[function(_dereq_,module,exports){
"use strict"
module.exports = convexHull1d
function convexHull1d(points) {
var lo = 0
var hi = 0
for(var i=1; i<points.length; ++i) {
if(points[i][0] < points[lo][0]) {
lo = i
}
if(points[i][0] > points[hi][0]) {
hi = i
}
}
if(lo < hi) {
return [[lo], [hi]]
} else if(lo > hi) {
return [[hi], [lo]]
} else {
return [[lo]]
}
}
},{}],119:[function(_dereq_,module,exports){
'use strict'
module.exports = convexHull2D
var monotoneHull = _dereq_('monotone-convex-hull-2d')
function convexHull2D(points) {
var hull = monotoneHull(points)
var h = hull.length
if(h <= 2) {
return []
}
var edges = new Array(h)
var a = hull[h-1]
for(var i=0; i<h; ++i) {
var b = hull[i]
edges[i] = [a,b]
a = b
}
return edges
}
},{"monotone-convex-hull-2d":414}],120:[function(_dereq_,module,exports){
'use strict'
module.exports = convexHullnD
var ich = _dereq_('incremental-convex-hull')
var aff = _dereq_('affine-hull')
function permute(points, front) {
var n = points.length
var npoints = new Array(n)
for(var i=0; i<front.length; ++i) {
npoints[i] = points[front[i]]
}
var ptr = front.length
for(var i=0; i<n; ++i) {
if(front.indexOf(i) < 0) {
npoints[ptr++] = points[i]
}
}
return npoints
}
function invPermute(cells, front) {
var nc = cells.length
var nf = front.length
for(var i=0; i<nc; ++i) {
var c = cells[i]
for(var j=0; j<c.length; ++j) {
var x = c[j]
if(x < nf) {
c[j] = front[x]
} else {
x = x - nf
for(var k=0; k<nf; ++k) {
if(x >= front[k]) {
x += 1
}
}
c[j] = x
}
}
}
return cells
}
function convexHullnD(points, d) {
try {
return ich(points, true)
} catch(e) {
//If point set is degenerate, try to find a basis and rerun it
var ah = aff(points)
if(ah.length <= d) {
//No basis, no try
return []
}
var npoints = permute(points, ah)
var nhull = ich(npoints, true)
return invPermute(nhull, ah)
}
}
},{"affine-hull":49,"incremental-convex-hull":394}],121:[function(_dereq_,module,exports){
module.exports = {
AFG: 'afghan',
ALA: '\\b\\wland',
ALB: 'albania',
DZA: 'algeria',
ASM: '^(?=.*americ).*samoa',
AND: 'andorra',
AGO: 'angola',
AIA: 'anguill?a',
ATA: 'antarctica',
ATG: 'antigua',
ARG: 'argentin',
ARM: 'armenia',
ABW: '^(?!.*bonaire).*\\baruba',
AUS: 'australia',
AUT: '^(?!.*hungary).*austria|\\baustri.*\\bemp',
AZE: 'azerbaijan',
BHS: 'bahamas',
BHR: 'bahrain',
BGD: 'bangladesh|^(?=.*east).*paki?stan',
BRB: 'barbados',
BLR: 'belarus|byelo',
BEL: '^(?!.*luxem).*belgium',
BLZ: 'belize|^(?=.*british).*honduras',
BEN: 'benin|dahome',
BMU: 'bermuda',
BTN: 'bhutan',
BOL: 'bolivia',
BES: '^(?=.*bonaire).*eustatius|^(?=.*carib).*netherlands|\\bbes.?islands',
BIH: 'herzegovina|bosnia',
BWA: 'botswana|bechuana',
BVT: 'bouvet',
BRA: 'brazil',
IOT: 'british.?indian.?ocean',
BRN: 'brunei',
BGR: 'bulgaria',
BFA: 'burkina|\\bfaso|upper.?volta',
BDI: 'burundi',
CPV: 'verde',
KHM: 'cambodia|kampuchea|khmer',
CMR: 'cameroon',
CAN: 'canada',
CYM: 'cayman',
CAF: '\\bcentral.african.republic',
TCD: '\\bchad',
CHL: '\\bchile',
CHN: '^(?!.*\\bmac)(?!.*\\bhong)(?!.*\\btai)(?!.*\\brep).*china|^(?=.*peo)(?=.*rep).*china',
CXR: 'christmas',
CCK: '\\bcocos|keeling',
COL: 'colombia',
COM: 'comoro',
COG: '^(?!.*\\bdem)(?!.*\\bd[\\.]?r)(?!.*kinshasa)(?!.*zaire)(?!.*belg)(?!.*l.opoldville)(?!.*free).*\\bcongo',
COK: '\\bcook',
CRI: 'costa.?rica',
CIV: 'ivoire|ivory',
HRV: 'croatia',
CUB: '\\bcuba',
CUW: '^(?!.*bonaire).*\\bcura(c|ç)ao',
CYP: 'cyprus',
CSK: 'czechoslovakia',
CZE: '^(?=.*rep).*czech|czechia|bohemia',
COD: '\\bdem.*congo|congo.*\\bdem|congo.*\\bd[\\.]?r|\\bd[\\.]?r.*congo|belgian.?congo|congo.?free.?state|kinshasa|zaire|l.opoldville|drc|droc|rdc',
DNK: 'denmark',
DJI: 'djibouti',
DMA: 'dominica(?!n)',
DOM: 'dominican.rep',
ECU: 'ecuador',
EGY: 'egypt',
SLV: 'el.?salvador',
GNQ: 'guine.*eq|eq.*guine|^(?=.*span).*guinea',
ERI: 'eritrea',
EST: 'estonia',
ETH: 'ethiopia|abyssinia',
FLK: 'falkland|malvinas',
FRO: 'faroe|faeroe',
FJI: 'fiji',
FIN: 'finland',
FRA: '^(?!.*\\bdep)(?!.*martinique).*france|french.?republic|\\bgaul',
GUF: '^(?=.*french).*guiana',
PYF: 'french.?polynesia|tahiti',
ATF: 'french.?southern',
GAB: 'gabon',
GMB: 'gambia',
GEO: '^(?!.*south).*georgia',
DDR: 'german.?democratic.?republic|democratic.?republic.*germany|east.germany',
DEU: '^(?!.*east).*germany|^(?=.*\\bfed.*\\brep).*german',
GHA: 'ghana|gold.?coast',
GIB: 'gibraltar',
GRC: 'greece|hellenic|hellas',
GRL: 'greenland',
GRD: 'grenada',
GLP: 'guadeloupe',
GUM: '\\bguam',
GTM: 'guatemala',
GGY: 'guernsey',
GIN: '^(?!.*eq)(?!.*span)(?!.*bissau)(?!.*portu)(?!.*new).*guinea',
GNB: 'bissau|^(?=.*portu).*guinea',
GUY: 'guyana|british.?guiana',
HTI: 'haiti',
HMD: 'heard.*mcdonald',
VAT: 'holy.?see|vatican|papal.?st',
HND: '^(?!.*brit).*honduras',
HKG: 'hong.?kong',
HUN: '^(?!.*austr).*hungary',
ISL: 'iceland',
IND: 'india(?!.*ocea)',
IDN: 'indonesia',
IRN: '\\biran|persia',
IRQ: '\\biraq|mesopotamia',
IRL: '(^ireland)|(^republic.*ireland)',
IMN: '^(?=.*isle).*\\bman',
ISR: 'israel',
ITA: 'italy',
JAM: 'jamaica',
JPN: 'japan',
JEY: 'jersey',
JOR: 'jordan',
KAZ: 'kazak',
KEN: 'kenya|british.?east.?africa|east.?africa.?prot',
KIR: 'kiribati',
PRK: '^(?=.*democrat|people|north|d.*p.*.r).*\\bkorea|dprk|korea.*(d.*p.*r)',
KWT: 'kuwait',
KGZ: 'kyrgyz|kirghiz',
LAO: '\\blaos?\\b',
LVA: 'latvia',
LBN: 'lebanon',
LSO: 'lesotho|basuto',
LBR: 'liberia',
LBY: 'libya',
LIE: 'liechtenstein',
LTU: 'lithuania',
LUX: '^(?!.*belg).*luxem',
MAC: 'maca(o|u)',
MDG: 'madagascar|malagasy',
MWI: 'malawi|nyasa',
MYS: 'malaysia',
MDV: 'maldive',
MLI: '\\bmali\\b',
MLT: '\\bmalta',
MHL: 'marshall',
MTQ: 'martinique',
MRT: 'mauritania',
MUS: 'mauritius',
MYT: '\\bmayotte',
MEX: '\\bmexic',
FSM: 'fed.*micronesia|micronesia.*fed',
MCO: 'monaco',
MNG: 'mongolia',
MNE: '^(?!.*serbia).*montenegro',
MSR: 'montserrat',
MAR: 'morocco|\\bmaroc',
MOZ: 'mozambique',
MMR: 'myanmar|burma',
NAM: 'namibia',
NRU: 'nauru',
NPL: 'nepal',
NLD: '^(?!.*\\bant)(?!.*\\bcarib).*netherlands',
ANT: '^(?=.*\\bant).*(nether|dutch)',
NCL: 'new.?caledonia',
NZL: 'new.?zealand',
NIC: 'nicaragua',
NER: '\\bniger(?!ia)',
NGA: 'nigeria',
NIU: 'niue',
NFK: 'norfolk',
MNP: 'mariana',
NOR: 'norway',
OMN: '\\boman|trucial',
PAK: '^(?!.*east).*paki?stan',
PLW: 'palau',
PSE: 'palestin|\\bgaza|west.?bank',
PAN: 'panama',
PNG: 'papua|new.?guinea',
PRY: 'paraguay',
PER: 'peru',
PHL: 'philippines',
PCN: 'pitcairn',
POL: 'poland',
PRT: 'portugal',
PRI: 'puerto.?rico',
QAT: 'qatar',
KOR: '^(?!.*d.*p.*r)(?!.*democrat)(?!.*people)(?!.*north).*\\bkorea(?!.*d.*p.*r)',
MDA: 'moldov|b(a|e)ssarabia',
REU: 'r(e|é)union',
ROU: 'r(o|u|ou)mania',
RUS: '\\brussia|soviet.?union|u\\.?s\\.?s\\.?r|socialist.?republics',
RWA: 'rwanda',
BLM: 'barth(e|é)lemy',
SHN: 'helena',
KNA: 'kitts|\\bnevis',
LCA: '\\blucia',
MAF: '^(?=.*collectivity).*martin|^(?=.*france).*martin(?!ique)|^(?=.*french).*martin(?!ique)',
SPM: 'miquelon',
VCT: 'vincent',
WSM: '^(?!.*amer).*samoa',
SMR: 'san.?marino',
STP: '\\bs(a|ã)o.?tom(e|é)',
SAU: '\\bsa\\w*.?arabia',
SEN: 'senegal',
SRB: '^(?!.*monte).*serbia',
SYC: 'seychell',
SLE: 'sierra',
SGP: 'singapore',
SXM: '^(?!.*martin)(?!.*saba).*maarten',
SVK: '^(?!.*cze).*slovak',
SVN: 'slovenia',
SLB: 'solomon',
SOM: 'somali',
ZAF: 'south.africa|s\\\\..?africa',
SGS: 'south.?georgia|sandwich',
SSD: '\\bs\\w*.?sudan',
ESP: 'spain',
LKA: 'sri.?lanka|ceylon',
SDN: '^(?!.*\\bs(?!u)).*sudan',
SUR: 'surinam|dutch.?guiana',
SJM: 'svalbard',
SWZ: 'swaziland',
SWE: 'sweden',
CHE: 'switz|swiss',
SYR: 'syria',
TWN: 'taiwan|taipei|formosa|^(?!.*peo)(?=.*rep).*china',
TJK: 'tajik',
THA: 'thailand|\\bsiam',
MKD: 'macedonia|fyrom',
TLS: '^(?=.*leste).*timor|^(?=.*east).*timor',
TGO: 'togo',
TKL: 'tokelau',
TON: 'tonga',
TTO: 'trinidad|tobago',
TUN: 'tunisia',
TUR: 'turkey',
TKM: 'turkmen',
TCA: 'turks',
TUV: 'tuvalu',
UGA: 'uganda',
UKR: 'ukrain',
ARE: 'emirates|^u\\.?a\\.?e\\.?$|united.?arab.?em',
GBR: 'united.?kingdom|britain|^u\\.?k\\.?$',
TZA: 'tanzania',
USA: 'united.?states\\b(?!.*islands)|\\bu\\.?s\\.?a\\.?\\b|^\\s*u\\.?s\\.?\\b(?!.*islands)',
UMI: 'minor.?outlying.?is',
URY: 'uruguay',
UZB: 'uzbek',
VUT: 'vanuatu|new.?hebrides',
VEN: 'venezuela',
VNM: '^(?!.*republic).*viet.?nam|^(?=.*socialist).*viet.?nam',
VGB: '^(?=.*\\bu\\.?\\s?k).*virgin|^(?=.*brit).*virgin|^(?=.*kingdom).*virgin',
VIR: '^(?=.*\\bu\\.?\\s?s).*virgin|^(?=.*states).*virgin',
WLF: 'futuna|wallis',
ESH: 'western.sahara',
YEM: '^(?!.*arab)(?!.*north)(?!.*sana)(?!.*peo)(?!.*dem)(?!.*south)(?!.*aden)(?!.*\\bp\\.?d\\.?r).*yemen',
YMD: '^(?=.*peo).*yemen|^(?!.*rep)(?=.*dem).*yemen|^(?=.*south).*yemen|^(?=.*aden).*yemen|^(?=.*\\bp\\.?d\\.?r).*yemen',
YUG: 'yugoslavia',
ZMB: 'zambia|northern.?rhodesia',
EAZ: 'zanzibar',
ZWE: 'zimbabwe|^(?!.*northern).*rhodesia'
}
},{}],122:[function(_dereq_,module,exports){
module.exports=[
"xx-small",
"x-small",
"small",
"medium",
"large",
"x-large",
"xx-large",
"larger",
"smaller"
]
},{}],123:[function(_dereq_,module,exports){
module.exports=[
"normal",
"condensed",
"semi-condensed",
"extra-condensed",
"ultra-condensed",
"expanded",
"semi-expanded",
"extra-expanded",
"ultra-expanded"
]
},{}],124:[function(_dereq_,module,exports){
module.exports=[
"normal",
"italic",
"oblique"
]
},{}],125:[function(_dereq_,module,exports){
module.exports=[
"normal",
"bold",
"bolder",
"lighter",
"100",
"200",
"300",
"400",
"500",
"600",
"700",
"800",
"900"
]
},{}],126:[function(_dereq_,module,exports){
'use strict'
module.exports = {
parse: _dereq_('./parse'),
stringify: _dereq_('./stringify')
}
},{"./parse":128,"./stringify":129}],127:[function(_dereq_,module,exports){
'use strict'
var sizes = _dereq_('css-font-size-keywords')
module.exports = {
isSize: function isSize(value) {
return /^[\d\.]/.test(value)
|| value.indexOf('/') !== -1
|| sizes.indexOf(value) !== -1
}
}
},{"css-font-size-keywords":122}],128:[function(_dereq_,module,exports){
'use strict'
var unquote = _dereq_('unquote')
var globalKeywords = _dereq_('css-global-keywords')
var systemFontKeywords = _dereq_('css-system-font-keywords')
var fontWeightKeywords = _dereq_('css-font-weight-keywords')
var fontStyleKeywords = _dereq_('css-font-style-keywords')
var fontStretchKeywords = _dereq_('css-font-stretch-keywords')
var splitBy = _dereq_('string-split-by')
var isSize = _dereq_('./lib/util').isSize
module.exports = parseFont
var cache = parseFont.cache = {}
function parseFont (value) {
if (typeof value !== 'string') throw new Error('Font argument must be a string.')
if (cache[value]) return cache[value]
if (value === '') {
throw new Error('Cannot parse an empty string.')
}
if (systemFontKeywords.indexOf(value) !== -1) {
return cache[value] = {system: value}
}
var font = {
style: 'normal',
variant: 'normal',
weight: 'normal',
stretch: 'normal',
lineHeight: 'normal',
size: '1rem',
family: ['serif']
}
var tokens = splitBy(value, /\s+/)
var token
while (token = tokens.shift()) {
if (globalKeywords.indexOf(token) !== -1) {
['style', 'variant', 'weight', 'stretch'].forEach(function(prop) {
font[prop] = token
})
return cache[value] = font
}
if (fontStyleKeywords.indexOf(token) !== -1) {
font.style = token
continue
}
if (token === 'normal' || token === 'small-caps') {
font.variant = token
continue
}
if (fontStretchKeywords.indexOf(token) !== -1) {
font.stretch = token
continue
}
if (fontWeightKeywords.indexOf(token) !== -1) {
font.weight = token
continue
}
if (isSize(token)) {
var parts = splitBy(token, '/')
font.size = parts[0]
if (parts[1] != null) {
font.lineHeight = parseLineHeight(parts[1])
}
else if (tokens[0] === '/') {
tokens.shift()
font.lineHeight = parseLineHeight(tokens.shift())
}
if (!tokens.length) {
throw new Error('Missing required font-family.')
}
font.family = splitBy(tokens.join(' '), /\s*,\s*/).map(unquote)
return cache[value] = font
}
throw new Error('Unknown or unsupported font token: ' + token)
}
throw new Error('Missing required font-size.')
}
function parseLineHeight(value) {
var parsed = parseFloat(value)
if (parsed.toString() === value) {
return parsed
}
return value
}
},{"./lib/util":127,"css-font-stretch-keywords":123,"css-font-style-keywords":124,"css-font-weight-keywords":125,"css-global-keywords":130,"css-system-font-keywords":131,"string-split-by":502,"unquote":522}],129:[function(_dereq_,module,exports){
'use strict'
var pick = _dereq_('pick-by-alias')
var isSize = _dereq_('./lib/util').isSize
var globals = a2o(_dereq_('css-global-keywords'))
var systems = a2o(_dereq_('css-system-font-keywords'))
var weights = a2o(_dereq_('css-font-weight-keywords'))
var styles = a2o(_dereq_('css-font-style-keywords'))
var stretches = a2o(_dereq_('css-font-stretch-keywords'))
var variants = {'normal': 1, 'small-caps': 1}
var fams = {
'serif': 1,
'sans-serif': 1,
'monospace': 1,
'cursive': 1,
'fantasy': 1,
'system-ui': 1
}
var defaults = {
style: 'normal',
variant: 'normal',
weight: 'normal',
stretch: 'normal',
size: '1rem',
lineHeight: 'normal',
family: 'serif'
}
module.exports = function stringifyFont (o) {
o = pick(o, {
style: 'style fontstyle fontStyle font-style slope distinction',
variant: 'variant font-variant fontVariant fontvariant var capitalization',
weight: 'weight w font-weight fontWeight fontweight',
stretch: 'stretch font-stretch fontStretch fontstretch width',
size: 'size s font-size fontSize fontsize height em emSize',
lineHeight: 'lh line-height lineHeight lineheight leading',
family: 'font family fontFamily font-family fontfamily type typeface face',
system: 'system reserved default global',
})
if (o.system) {
if (o.system) verify(o.system, systems)
return o.system
}
verify(o.style, styles)
verify(o.variant, variants)
verify(o.weight, weights)
verify(o.stretch, stretches)
// default root value is medium, but by default it's inherited
if (o.size == null) o.size = defaults.size
if (typeof o.size === 'number') o.size += 'px'
if (!isSize) throw Error('Bad size value `' + o.size + '`')
// many user-agents use serif, we don't detect that for consistency
if (!o.family) o.family = defaults.family
if (Array.isArray(o.family)) {
if (!o.family.length) o.family = [defaults.family]
o.family = o.family.map(function (f) {
return fams[f] ? f : '"' + f + '"'
}).join(', ')
}
// [ [ <'font-style'> || <font-variant-css21> || <'font-weight'> || <'font-stretch'> ]? <'font-size'> [ / <'line-height'> ]? <'font-family'> ]
var result = []
result.push(o.style)
if (o.variant !== o.style) result.push(o.variant)
if (o.weight !== o.variant &&
o.weight !== o.style) result.push(o.weight)
if (o.stretch !== o.weight &&
o.stretch !== o.variant &&
o.stretch !== o.style) result.push(o.stretch)
result.push(o.size + (o.lineHeight == null || o.lineHeight === 'normal' || (o.lineHeight + '' === '1') ? '' : ('/' + o.lineHeight)))
result.push(o.family)
return result.filter(Boolean).join(' ')
}
function verify (value, values) {
if (value && !values[value] && !globals[value]) throw Error('Unknown keyword `' + value +'`')
return value
}
// ['a', 'b'] -> {a: true, b: true}
function a2o (a) {
var o = {}
for (var i = 0; i < a.length; i++) {
o[a[i]] = 1
}
return o
}
},{"./lib/util":127,"css-font-stretch-keywords":123,"css-font-style-keywords":124,"css-font-weight-keywords":125,"css-global-keywords":130,"css-system-font-keywords":131,"pick-by-alias":445}],130:[function(_dereq_,module,exports){
module.exports=[
"inherit",
"initial",
"unset"
]
},{}],131:[function(_dereq_,module,exports){
module.exports=[
"caption",
"icon",
"menu",
"message-box",
"small-caption",
"status-bar"
]
},{}],132:[function(_dereq_,module,exports){
"use strict"
function dcubicHermite(p0, v0, p1, v1, t, f) {
var dh00 = 6*t*t-6*t,
dh10 = 3*t*t-4*t + 1,
dh01 = -6*t*t+6*t,
dh11 = 3*t*t-2*t
if(p0.length) {
if(!f) {
f = new Array(p0.length)
}
for(var i=p0.length-1; i>=0; --i) {
f[i] = dh00*p0[i] + dh10*v0[i] + dh01*p1[i] + dh11*v1[i]
}
return f
}
return dh00*p0 + dh10*v0 + dh01*p1[i] + dh11*v1
}
function cubicHermite(p0, v0, p1, v1, t, f) {
var ti = (t-1), t2 = t*t, ti2 = ti*ti,
h00 = (1+2*t)*ti2,
h10 = t*ti2,
h01 = t2*(3-2*t),
h11 = t2*ti
if(p0.length) {
if(!f) {
f = new Array(p0.length)
}
for(var i=p0.length-1; i>=0; --i) {
f[i] = h00*p0[i] + h10*v0[i] + h01*p1[i] + h11*v1[i]
}
return f
}
return h00*p0 + h10*v0 + h01*p1 + h11*v1
}
module.exports = cubicHermite
module.exports.derivative = dcubicHermite
},{}],133:[function(_dereq_,module,exports){
"use strict"
var createThunk = _dereq_("./lib/thunk.js")
function Procedure() {
this.argTypes = []
this.shimArgs = []
this.arrayArgs = []
this.arrayBlockIndices = []
this.scalarArgs = []
this.offsetArgs = []
this.offsetArgIndex = []
this.indexArgs = []
this.shapeArgs = []
this.funcName = ""
this.pre = null
this.body = null
this.post = null
this.debug = false
}
function compileCwise(user_args) {
//Create procedure
var proc = new Procedure()
//Parse blocks
proc.pre = user_args.pre
proc.body = user_args.body
proc.post = user_args.post
//Parse arguments
var proc_args = user_args.args.slice(0)
proc.argTypes = proc_args
for(var i=0; i<proc_args.length; ++i) {
var arg_type = proc_args[i]
if(arg_type === "array" || (typeof arg_type === "object" && arg_type.blockIndices)) {
proc.argTypes[i] = "array"
proc.arrayArgs.push(i)
proc.arrayBlockIndices.push(arg_type.blockIndices ? arg_type.blockIndices : 0)
proc.shimArgs.push("array" + i)
if(i < proc.pre.args.length && proc.pre.args[i].count>0) {
throw new Error("cwise: pre() block may not reference array args")
}
if(i < proc.post.args.length && proc.post.args[i].count>0) {
throw new Error("cwise: post() block may not reference array args")
}
} else if(arg_type === "scalar") {
proc.scalarArgs.push(i)
proc.shimArgs.push("scalar" + i)
} else if(arg_type === "index") {
proc.indexArgs.push(i)
if(i < proc.pre.args.length && proc.pre.args[i].count > 0) {
throw new Error("cwise: pre() block may not reference array index")
}
if(i < proc.body.args.length && proc.body.args[i].lvalue) {
throw new Error("cwise: body() block may not write to array index")
}
if(i < proc.post.args.length && proc.post.args[i].count > 0) {
throw new Error("cwise: post() block may not reference array index")
}
} else if(arg_type === "shape") {
proc.shapeArgs.push(i)
if(i < proc.pre.args.length && proc.pre.args[i].lvalue) {
throw new Error("cwise: pre() block may not write to array shape")
}
if(i < proc.body.args.length && proc.body.args[i].lvalue) {
throw new Error("cwise: body() block may not write to array shape")
}
if(i < proc.post.args.length && proc.post.args[i].lvalue) {
throw new Error("cwise: post() block may not write to array shape")
}
} else if(typeof arg_type === "object" && arg_type.offset) {
proc.argTypes[i] = "offset"
proc.offsetArgs.push({ array: arg_type.array, offset:arg_type.offset })
proc.offsetArgIndex.push(i)
} else {
throw new Error("cwise: Unknown argument type " + proc_args[i])
}
}
//Make sure at least one array argument was specified
if(proc.arrayArgs.length <= 0) {
throw new Error("cwise: No array arguments specified")
}
//Make sure arguments are correct
if(proc.pre.args.length > proc_args.length) {
throw new Error("cwise: Too many arguments in pre() block")
}
if(proc.body.args.length > proc_args.length) {
throw new Error("cwise: Too many arguments in body() block")
}
if(proc.post.args.length > proc_args.length) {
throw new Error("cwise: Too many arguments in post() block")
}
//Check debug flag
proc.debug = !!user_args.printCode || !!user_args.debug
//Retrieve name
proc.funcName = user_args.funcName || "cwise"
//Read in block size
proc.blockSize = user_args.blockSize || 64
return createThunk(proc)
}
module.exports = compileCwise
},{"./lib/thunk.js":135}],134:[function(_dereq_,module,exports){
"use strict"
var uniq = _dereq_("uniq")
// This function generates very simple loops analogous to how you typically traverse arrays (the outermost loop corresponds to the slowest changing index, the innermost loop to the fastest changing index)
// TODO: If two arrays have the same strides (and offsets) there is potential for decreasing the number of "pointers" and related variables. The drawback is that the type signature would become more specific and that there would thus be less potential for caching, but it might still be worth it, especially when dealing with large numbers of arguments.
function innerFill(order, proc, body) {
var dimension = order.length
, nargs = proc.arrayArgs.length
, has_index = proc.indexArgs.length>0
, code = []
, vars = []
, idx=0, pidx=0, i, j
for(i=0; i<dimension; ++i) { // Iteration variables
vars.push(["i",i,"=0"].join(""))
}
//Compute scan deltas
for(j=0; j<nargs; ++j) {
for(i=0; i<dimension; ++i) {
pidx = idx
idx = order[i]
if(i === 0) { // The innermost/fastest dimension's delta is simply its stride
vars.push(["d",j,"s",i,"=t",j,"p",idx].join(""))
} else { // For other dimensions the delta is basically the stride minus something which essentially "rewinds" the previous (more inner) dimension
vars.push(["d",j,"s",i,"=(t",j,"p",idx,"-s",pidx,"*t",j,"p",pidx,")"].join(""))
}
}
}
if (vars.length > 0) {
code.push("var " + vars.join(","))
}
//Scan loop
for(i=dimension-1; i>=0; --i) { // Start at largest stride and work your way inwards
idx = order[i]
code.push(["for(i",i,"=0;i",i,"<s",idx,";++i",i,"){"].join(""))
}
//Push body of inner loop
code.push(body)
//Advance scan pointers
for(i=0; i<dimension; ++i) {
pidx = idx
idx = order[i]
for(j=0; j<nargs; ++j) {
code.push(["p",j,"+=d",j,"s",i].join(""))
}
if(has_index) {
if(i > 0) {
code.push(["index[",pidx,"]-=s",pidx].join(""))
}
code.push(["++index[",idx,"]"].join(""))
}
code.push("}")
}
return code.join("\n")
}
// Generate "outer" loops that loop over blocks of data, applying "inner" loops to the blocks by manipulating the local variables in such a way that the inner loop only "sees" the current block.
// TODO: If this is used, then the previous declaration (done by generateCwiseOp) of s* is essentially unnecessary.
// I believe the s* are not used elsewhere (in particular, I don't think they're used in the pre/post parts and "shape" is defined independently), so it would be possible to make defining the s* dependent on what loop method is being used.
function outerFill(matched, order, proc, body) {
var dimension = order.length
, nargs = proc.arrayArgs.length
, blockSize = proc.blockSize
, has_index = proc.indexArgs.length > 0
, code = []
for(var i=0; i<nargs; ++i) {
code.push(["var offset",i,"=p",i].join(""))
}
//Generate loops for unmatched dimensions
// The order in which these dimensions are traversed is fairly arbitrary (from small stride to large stride, for the first argument)
// TODO: It would be nice if the order in which these loops are placed would also be somehow "optimal" (at the very least we should check that it really doesn't hurt us if they're not).
for(var i=matched; i<dimension; ++i) {
code.push(["for(var j"+i+"=SS[", order[i], "]|0;j", i, ">0;){"].join("")) // Iterate back to front
code.push(["if(j",i,"<",blockSize,"){"].join("")) // Either decrease j by blockSize (s = blockSize), or set it to zero (after setting s = j).
code.push(["s",order[i],"=j",i].join(""))
code.push(["j",i,"=0"].join(""))
code.push(["}else{s",order[i],"=",blockSize].join(""))
code.push(["j",i,"-=",blockSize,"}"].join(""))
if(has_index) {
code.push(["index[",order[i],"]=j",i].join(""))
}
}
for(var i=0; i<nargs; ++i) {
var indexStr = ["offset"+i]
for(var j=matched; j<dimension; ++j) {
indexStr.push(["j",j,"*t",i,"p",order[j]].join(""))
}
code.push(["p",i,"=(",indexStr.join("+"),")"].join(""))
}
code.push(innerFill(order, proc, body))
for(var i=matched; i<dimension; ++i) {
code.push("}")
}
return code.join("\n")
}
//Count the number of compatible inner orders
// This is the length of the longest common prefix of the arrays in orders.
// Each array in orders lists the dimensions of the correspond ndarray in order of increasing stride.
// This is thus the maximum number of dimensions that can be efficiently traversed by simple nested loops for all arrays.
function countMatches(orders) {
var matched = 0, dimension = orders[0].length
while(matched < dimension) {
for(var j=1; j<orders.length; ++j) {
if(orders[j][matched] !== orders[0][matched]) {
return matched
}
}
++matched
}
return matched
}
//Processes a block according to the given data types
// Replaces variable names by different ones, either "local" ones (that are then ferried in and out of the given array) or ones matching the arguments that the function performing the ultimate loop will accept.
function processBlock(block, proc, dtypes) {
var code = block.body
var pre = []
var post = []
for(var i=0; i<block.args.length; ++i) {
var carg = block.args[i]
if(carg.count <= 0) {
continue
}
var re = new RegExp(carg.name, "g")
var ptrStr = ""
var arrNum = proc.arrayArgs.indexOf(i)
switch(proc.argTypes[i]) {
case "offset":
var offArgIndex = proc.offsetArgIndex.indexOf(i)
var offArg = proc.offsetArgs[offArgIndex]
arrNum = offArg.array
ptrStr = "+q" + offArgIndex // Adds offset to the "pointer" in the array
case "array":
ptrStr = "p" + arrNum + ptrStr
var localStr = "l" + i
var arrStr = "a" + arrNum
if (proc.arrayBlockIndices[arrNum] === 0) { // Argument to body is just a single value from this array
if(carg.count === 1) { // Argument/array used only once(?)
if(dtypes[arrNum] === "generic") {
if(carg.lvalue) {
pre.push(["var ", localStr, "=", arrStr, ".get(", ptrStr, ")"].join("")) // Is this necessary if the argument is ONLY used as an lvalue? (keep in mind that we can have a += something, so we would actually need to check carg.rvalue)
code = code.replace(re, localStr)
post.push([arrStr, ".set(", ptrStr, ",", localStr,")"].join(""))
} else {
code = code.replace(re, [arrStr, ".get(", ptrStr, ")"].join(""))
}
} else {
code = code.replace(re, [arrStr, "[", ptrStr, "]"].join(""))
}
} else if(dtypes[arrNum] === "generic") {
pre.push(["var ", localStr, "=", arrStr, ".get(", ptrStr, ")"].join("")) // TODO: Could we optimize by checking for carg.rvalue?
code = code.replace(re, localStr)
if(carg.lvalue) {
post.push([arrStr, ".set(", ptrStr, ",", localStr,")"].join(""))
}
} else {
pre.push(["var ", localStr, "=", arrStr, "[", ptrStr, "]"].join("")) // TODO: Could we optimize by checking for carg.rvalue?
code = code.replace(re, localStr)
if(carg.lvalue) {
post.push([arrStr, "[", ptrStr, "]=", localStr].join(""))
}
}
} else { // Argument to body is a "block"
var reStrArr = [carg.name], ptrStrArr = [ptrStr]
for(var j=0; j<Math.abs(proc.arrayBlockIndices[arrNum]); j++) {
reStrArr.push("\\s*\\[([^\\]]+)\\]")
ptrStrArr.push("$" + (j+1) + "*t" + arrNum + "b" + j) // Matched index times stride
}
re = new RegExp(reStrArr.join(""), "g")
ptrStr = ptrStrArr.join("+")
if(dtypes[arrNum] === "generic") {
/*if(carg.lvalue) {
pre.push(["var ", localStr, "=", arrStr, ".get(", ptrStr, ")"].join("")) // Is this necessary if the argument is ONLY used as an lvalue? (keep in mind that we can have a += something, so we would actually need to check carg.rvalue)
code = code.replace(re, localStr)
post.push([arrStr, ".set(", ptrStr, ",", localStr,")"].join(""))
} else {
code = code.replace(re, [arrStr, ".get(", ptrStr, ")"].join(""))
}*/
throw new Error("cwise: Generic arrays not supported in combination with blocks!")
} else {
// This does not produce any local variables, even if variables are used multiple times. It would be possible to do so, but it would complicate things quite a bit.
code = code.replace(re, [arrStr, "[", ptrStr, "]"].join(""))
}
}
break
case "scalar":
code = code.replace(re, "Y" + proc.scalarArgs.indexOf(i))
break
case "index":
code = code.replace(re, "index")
break
case "shape":
code = code.replace(re, "shape")
break
}
}
return [pre.join("\n"), code, post.join("\n")].join("\n").trim()
}
function typeSummary(dtypes) {
var summary = new Array(dtypes.length)
var allEqual = true
for(var i=0; i<dtypes.length; ++i) {
var t = dtypes[i]
var digits = t.match(/\d+/)
if(!digits) {
digits = ""
} else {
digits = digits[0]
}
if(t.charAt(0) === 0) {
summary[i] = "u" + t.charAt(1) + digits
} else {
summary[i] = t.charAt(0) + digits
}
if(i > 0) {
allEqual = allEqual && summary[i] === summary[i-1]
}
}
if(allEqual) {
return summary[0]
}
return summary.join("")
}
//Generates a cwise operator
function generateCWiseOp(proc, typesig) {
//Compute dimension
// Arrays get put first in typesig, and there are two entries per array (dtype and order), so this gets the number of dimensions in the first array arg.
var dimension = (typesig[1].length - Math.abs(proc.arrayBlockIndices[0]))|0
var orders = new Array(proc.arrayArgs.length)
var dtypes = new Array(proc.arrayArgs.length)
for(var i=0; i<proc.arrayArgs.length; ++i) {
dtypes[i] = typesig[2*i]
orders[i] = typesig[2*i+1]
}
//Determine where block and loop indices start and end
var blockBegin = [], blockEnd = [] // These indices are exposed as blocks
var loopBegin = [], loopEnd = [] // These indices are iterated over
var loopOrders = [] // orders restricted to the loop indices
for(var i=0; i<proc.arrayArgs.length; ++i) {
if (proc.arrayBlockIndices[i]<0) {
loopBegin.push(0)
loopEnd.push(dimension)
blockBegin.push(dimension)
blockEnd.push(dimension+proc.arrayBlockIndices[i])
} else {
loopBegin.push(proc.arrayBlockIndices[i]) // Non-negative
loopEnd.push(proc.arrayBlockIndices[i]+dimension)
blockBegin.push(0)
blockEnd.push(proc.arrayBlockIndices[i])
}
var newOrder = []
for(var j=0; j<orders[i].length; j++) {
if (loopBegin[i]<=orders[i][j] && orders[i][j]<loopEnd[i]) {
newOrder.push(orders[i][j]-loopBegin[i]) // If this is a loop index, put it in newOrder, subtracting loopBegin, to make sure that all loopOrders are using a common set of indices.
}
}
loopOrders.push(newOrder)
}
//First create arguments for procedure
var arglist = ["SS"] // SS is the overall shape over which we iterate
var code = ["'use strict'"]
var vars = []
for(var j=0; j<dimension; ++j) {
vars.push(["s", j, "=SS[", j, "]"].join("")) // The limits for each dimension.
}
for(var i=0; i<proc.arrayArgs.length; ++i) {
arglist.push("a"+i) // Actual data array
arglist.push("t"+i) // Strides
arglist.push("p"+i) // Offset in the array at which the data starts (also used for iterating over the data)
for(var j=0; j<dimension; ++j) { // Unpack the strides into vars for looping
vars.push(["t",i,"p",j,"=t",i,"[",loopBegin[i]+j,"]"].join(""))
}
for(var j=0; j<Math.abs(proc.arrayBlockIndices[i]); ++j) { // Unpack the strides into vars for block iteration
vars.push(["t",i,"b",j,"=t",i,"[",blockBegin[i]+j,"]"].join(""))
}
}
for(var i=0; i<proc.scalarArgs.length; ++i) {
arglist.push("Y" + i)
}
if(proc.shapeArgs.length > 0) {
vars.push("shape=SS.slice(0)") // Makes the shape over which we iterate available to the user defined functions (so you can use width/height for example)
}
if(proc.indexArgs.length > 0) {
// Prepare an array to keep track of the (logical) indices, initialized to dimension zeroes.
var zeros = new Array(dimension)
for(var i=0; i<dimension; ++i) {
zeros[i] = "0"
}
vars.push(["index=[", zeros.join(","), "]"].join(""))
}
for(var i=0; i<proc.offsetArgs.length; ++i) { // Offset arguments used for stencil operations
var off_arg = proc.offsetArgs[i]
var init_string = []
for(var j=0; j<off_arg.offset.length; ++j) {
if(off_arg.offset[j] === 0) {
continue
} else if(off_arg.offset[j] === 1) {
init_string.push(["t", off_arg.array, "p", j].join(""))
} else {
init_string.push([off_arg.offset[j], "*t", off_arg.array, "p", j].join(""))
}
}
if(init_string.length === 0) {
vars.push("q" + i + "=0")
} else {
vars.push(["q", i, "=", init_string.join("+")].join(""))
}
}
//Prepare this variables
var thisVars = uniq([].concat(proc.pre.thisVars)
.concat(proc.body.thisVars)
.concat(proc.post.thisVars))
vars = vars.concat(thisVars)
if (vars.length > 0) {
code.push("var " + vars.join(","))
}
for(var i=0; i<proc.arrayArgs.length; ++i) {
code.push("p"+i+"|=0")
}
//Inline prelude
if(proc.pre.body.length > 3) {
code.push(processBlock(proc.pre, proc, dtypes))
}
//Process body
var body = processBlock(proc.body, proc, dtypes)
var matched = countMatches(loopOrders)
if(matched < dimension) {
code.push(outerFill(matched, loopOrders[0], proc, body)) // TODO: Rather than passing loopOrders[0], it might be interesting to look at passing an order that represents the majority of the arguments for example.
} else {
code.push(innerFill(loopOrders[0], proc, body))
}
//Inline epilog
if(proc.post.body.length > 3) {
code.push(processBlock(proc.post, proc, dtypes))
}
if(proc.debug) {
console.log("-----Generated cwise routine for ", typesig, ":\n" + code.join("\n") + "\n----------")
}
var loopName = [(proc.funcName||"unnamed"), "_cwise_loop_", orders[0].join("s"),"m",matched,typeSummary(dtypes)].join("")
var f = new Function(["function ",loopName,"(", arglist.join(","),"){", code.join("\n"),"} return ", loopName].join(""))
return f()
}
module.exports = generateCWiseOp
},{"uniq":521}],135:[function(_dereq_,module,exports){
"use strict"
// The function below is called when constructing a cwise function object, and does the following:
// A function object is constructed which accepts as argument a compilation function and returns another function.
// It is this other function that is eventually returned by createThunk, and this function is the one that actually
// checks whether a certain pattern of arguments has already been used before and compiles new loops as needed.
// The compilation passed to the first function object is used for compiling new functions.
// Once this function object is created, it is called with compile as argument, where the first argument of compile
// is bound to "proc" (essentially containing a preprocessed version of the user arguments to cwise).
// So createThunk roughly works like this:
// function createThunk(proc) {
// var thunk = function(compileBound) {
// var CACHED = {}
// return function(arrays and scalars) {
// if (dtype and order of arrays in CACHED) {
// var func = CACHED[dtype and order of arrays]
// } else {
// var func = CACHED[dtype and order of arrays] = compileBound(dtype and order of arrays)
// }
// return func(arrays and scalars)
// }
// }
// return thunk(compile.bind1(proc))
// }
var compile = _dereq_("./compile.js")
function createThunk(proc) {
var code = ["'use strict'", "var CACHED={}"]
var vars = []
var thunkName = proc.funcName + "_cwise_thunk"
//Build thunk
code.push(["return function ", thunkName, "(", proc.shimArgs.join(","), "){"].join(""))
var typesig = []
var string_typesig = []
var proc_args = [["array",proc.arrayArgs[0],".shape.slice(", // Slice shape so that we only retain the shape over which we iterate (which gets passed to the cwise operator as SS).
Math.max(0,proc.arrayBlockIndices[0]),proc.arrayBlockIndices[0]<0?(","+proc.arrayBlockIndices[0]+")"):")"].join("")]
var shapeLengthConditions = [], shapeConditions = []
// Process array arguments
for(var i=0; i<proc.arrayArgs.length; ++i) {
var j = proc.arrayArgs[i]
vars.push(["t", j, "=array", j, ".dtype,",
"r", j, "=array", j, ".order"].join(""))
typesig.push("t" + j)
typesig.push("r" + j)
string_typesig.push("t"+j)
string_typesig.push("r"+j+".join()")
proc_args.push("array" + j + ".data")
proc_args.push("array" + j + ".stride")
proc_args.push("array" + j + ".offset|0")
if (i>0) { // Gather conditions to check for shape equality (ignoring block indices)
shapeLengthConditions.push("array" + proc.arrayArgs[0] + ".shape.length===array" + j + ".shape.length+" + (Math.abs(proc.arrayBlockIndices[0])-Math.abs(proc.arrayBlockIndices[i])))
shapeConditions.push("array" + proc.arrayArgs[0] + ".shape[shapeIndex+" + Math.max(0,proc.arrayBlockIndices[0]) + "]===array" + j + ".shape[shapeIndex+" + Math.max(0,proc.arrayBlockIndices[i]) + "]")
}
}
// Check for shape equality
if (proc.arrayArgs.length > 1) {
code.push("if (!(" + shapeLengthConditions.join(" && ") + ")) throw new Error('cwise: Arrays do not all have the same dimensionality!')")
code.push("for(var shapeIndex=array" + proc.arrayArgs[0] + ".shape.length-" + Math.abs(proc.arrayBlockIndices[0]) + "; shapeIndex-->0;) {")
code.push("if (!(" + shapeConditions.join(" && ") + ")) throw new Error('cwise: Arrays do not all have the same shape!')")
code.push("}")
}
// Process scalar arguments
for(var i=0; i<proc.scalarArgs.length; ++i) {
proc_args.push("scalar" + proc.scalarArgs[i])
}
// Check for cached function (and if not present, generate it)
vars.push(["type=[", string_typesig.join(","), "].join()"].join(""))
vars.push("proc=CACHED[type]")
code.push("var " + vars.join(","))
code.push(["if(!proc){",
"CACHED[type]=proc=compile([", typesig.join(","), "])}",
"return proc(", proc_args.join(","), ")}"].join(""))
if(proc.debug) {
console.log("-----Generated thunk:\n" + code.join("\n") + "\n----------")
}
//Compile thunk
var thunk = new Function("compile", code.join("\n"))
return thunk(compile.bind(undefined, proc))
}
module.exports = createThunk
},{"./compile.js":134}],136:[function(_dereq_,module,exports){
module.exports = _dereq_("cwise-compiler")
},{"cwise-compiler":133}],137:[function(_dereq_,module,exports){
'use strict';
var copy = _dereq_('es5-ext/object/copy')
, normalizeOptions = _dereq_('es5-ext/object/normalize-options')
, ensureCallable = _dereq_('es5-ext/object/valid-callable')
, map = _dereq_('es5-ext/object/map')
, callable = _dereq_('es5-ext/object/valid-callable')
, validValue = _dereq_('es5-ext/object/valid-value')
, bind = Function.prototype.bind, defineProperty = Object.defineProperty
, hasOwnProperty = Object.prototype.hasOwnProperty
, define;
define = function (name, desc, options) {
var value = validValue(desc) && callable(desc.value), dgs;
dgs = copy(desc);
delete dgs.writable;
delete dgs.value;
dgs.get = function () {
if (!options.overwriteDefinition && hasOwnProperty.call(this, name)) return value;
desc.value = bind.call(value, options.resolveContext ? options.resolveContext(this) : this);
defineProperty(this, name, desc);
return this[name];
};
return dgs;
};
module.exports = function (props/*, options*/) {
var options = normalizeOptions(arguments[1]);
if (options.resolveContext != null) ensureCallable(options.resolveContext);
return map(props, function (desc, name) { return define(name, desc, options); });
};
},{"es5-ext/object/copy":173,"es5-ext/object/map":182,"es5-ext/object/normalize-options":183,"es5-ext/object/valid-callable":187,"es5-ext/object/valid-value":189}],138:[function(_dereq_,module,exports){
'use strict';
var assign = _dereq_('es5-ext/object/assign')
, normalizeOpts = _dereq_('es5-ext/object/normalize-options')
, isCallable = _dereq_('es5-ext/object/is-callable')
, contains = _dereq_('es5-ext/string/#/contains')
, d;
d = module.exports = function (dscr, value/*, options*/) {
var c, e, w, options, desc;
if ((arguments.length < 2) || (typeof dscr !== 'string')) {
options = value;
value = dscr;
dscr = null;
} else {
options = arguments[2];
}
if (dscr == null) {
c = w = true;
e = false;
} else {
c = contains.call(dscr, 'c');
e = contains.call(dscr, 'e');
w = contains.call(dscr, 'w');
}
desc = { value: value, configurable: c, enumerable: e, writable: w };
return !options ? desc : assign(normalizeOpts(options), desc);
};
d.gs = function (dscr, get, set/*, options*/) {
var c, e, options, desc;
if (typeof dscr !== 'string') {
options = set;
set = get;
get = dscr;
dscr = null;
} else {
options = arguments[3];
}
if (get == null) {
get = undefined;
} else if (!isCallable(get)) {
options = get;
get = set = undefined;
} else if (set == null) {
set = undefined;
} else if (!isCallable(set)) {
options = set;
set = undefined;
}
if (dscr == null) {
c = true;
e = false;
} else {
c = contains.call(dscr, 'c');
e = contains.call(dscr, 'e');
}
desc = { get: get, set: set, configurable: c, enumerable: e };
return !options ? desc : assign(normalizeOpts(options), desc);
};
},{"es5-ext/object/assign":170,"es5-ext/object/is-callable":176,"es5-ext/object/normalize-options":183,"es5-ext/string/#/contains":190}],139:[function(_dereq_,module,exports){
// https://d3js.org/d3-array/ Version 1.2.1. Copyright 2017 Mike Bostock.
(function (global, factory) {
typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports) :
typeof define === 'function' && define.amd ? define(['exports'], factory) :
(factory((global.d3 = global.d3 || {})));
}(this, (function (exports) { 'use strict';
var ascending = function(a, b) {
return a < b ? -1 : a > b ? 1 : a >= b ? 0 : NaN;
};
var bisector = function(compare) {
if (compare.length === 1) compare = ascendingComparator(compare);
return {
left: function(a, x, lo, hi) {
if (lo == null) lo = 0;
if (hi == null) hi = a.length;
while (lo < hi) {
var mid = lo + hi >>> 1;
if (compare(a[mid], x) < 0) lo = mid + 1;
else hi = mid;
}
return lo;
},
right: function(a, x, lo, hi) {
if (lo == null) lo = 0;
if (hi == null) hi = a.length;
while (lo < hi) {
var mid = lo + hi >>> 1;
if (compare(a[mid], x) > 0) hi = mid;
else lo = mid + 1;
}
return lo;
}
};
};
function ascendingComparator(f) {
return function(d, x) {
return ascending(f(d), x);
};
}
var ascendingBisect = bisector(ascending);
var bisectRight = ascendingBisect.right;
var bisectLeft = ascendingBisect.left;
var pairs = function(array, f) {
if (f == null) f = pair;
var i = 0, n = array.length - 1, p = array[0], pairs = new Array(n < 0 ? 0 : n);
while (i < n) pairs[i] = f(p, p = array[++i]);
return pairs;
};
function pair(a, b) {
return [a, b];
}
var cross = function(values0, values1, reduce) {
var n0 = values0.length,
n1 = values1.length,
values = new Array(n0 * n1),
i0,
i1,
i,
value0;
if (reduce == null) reduce = pair;
for (i0 = i = 0; i0 < n0; ++i0) {
for (value0 = values0[i0], i1 = 0; i1 < n1; ++i1, ++i) {
values[i] = reduce(value0, values1[i1]);
}
}
return values;
};
var descending = function(a, b) {
return b < a ? -1 : b > a ? 1 : b >= a ? 0 : NaN;
};
var number = function(x) {
return x === null ? NaN : +x;
};
var variance = function(values, valueof) {
var n = values.length,
m = 0,
i = -1,
mean = 0,
value,
delta,
sum = 0;
if (valueof == null) {
while (++i < n) {
if (!isNaN(value = number(values[i]))) {
delta = value - mean;
mean += delta / ++m;
sum += delta * (value - mean);
}
}
}
else {
while (++i < n) {
if (!isNaN(value = number(valueof(values[i], i, values)))) {
delta = value - mean;
mean += delta / ++m;
sum += delta * (value - mean);
}
}
}
if (m > 1) return sum / (m - 1);
};
var deviation = function(array, f) {
var v = variance(array, f);
return v ? Math.sqrt(v) : v;
};
var extent = function(values, valueof) {
var n = values.length,
i = -1,
value,
min,
max;
if (valueof == null) {
while (++i < n) { // Find the first comparable value.
if ((value = values[i]) != null && value >= value) {
min = max = value;
while (++i < n) { // Compare the remaining values.
if ((value = values[i]) != null) {
if (min > value) min = value;
if (max < value) max = value;
}
}
}
}
}
else {
while (++i < n) { // Find the first comparable value.
if ((value = valueof(values[i], i, values)) != null && value >= value) {
min = max = value;
while (++i < n) { // Compare the remaining values.
if ((value = valueof(values[i], i, values)) != null) {
if (min > value) min = value;
if (max < value) max = value;
}
}
}
}
}
return [min, max];
};
var array = Array.prototype;
var slice = array.slice;
var map = array.map;
var constant = function(x) {
return function() {
return x;
};
};
var identity = function(x) {
return x;
};
var range = function(start, stop, step) {
start = +start, stop = +stop, step = (n = arguments.length) < 2 ? (stop = start, start = 0, 1) : n < 3 ? 1 : +step;
var i = -1,
n = Math.max(0, Math.ceil((stop - start) / step)) | 0,
range = new Array(n);
while (++i < n) {
range[i] = start + i * step;
}
return range;
};
var e10 = Math.sqrt(50);
var e5 = Math.sqrt(10);
var e2 = Math.sqrt(2);
var ticks = function(start, stop, count) {
var reverse,
i = -1,
n,
ticks,
step;
stop = +stop, start = +start, count = +count;
if (start === stop && count > 0) return [start];
if (reverse = stop < start) n = start, start = stop, stop = n;
if ((step = tickIncrement(start, stop, count)) === 0 || !isFinite(step)) return [];
if (step > 0) {
start = Math.ceil(start / step);
stop = Math.floor(stop / step);
ticks = new Array(n = Math.ceil(stop - start + 1));
while (++i < n) ticks[i] = (start + i) * step;
} else {
start = Math.floor(start * step);
stop = Math.ceil(stop * step);
ticks = new Array(n = Math.ceil(start - stop + 1));
while (++i < n) ticks[i] = (start - i) / step;
}
if (reverse) ticks.reverse();
return ticks;
};
function tickIncrement(start, stop, count) {
var step = (stop - start) / Math.max(0, count),
power = Math.floor(Math.log(step) / Math.LN10),
error = step / Math.pow(10, power);
return power >= 0
? (error >= e10 ? 10 : error >= e5 ? 5 : error >= e2 ? 2 : 1) * Math.pow(10, power)
: -Math.pow(10, -power) / (error >= e10 ? 10 : error >= e5 ? 5 : error >= e2 ? 2 : 1);
}
function tickStep(start, stop, count) {
var step0 = Math.abs(stop - start) / Math.max(0, count),
step1 = Math.pow(10, Math.floor(Math.log(step0) / Math.LN10)),
error = step0 / step1;
if (error >= e10) step1 *= 10;
else if (error >= e5) step1 *= 5;
else if (error >= e2) step1 *= 2;
return stop < start ? -step1 : step1;
}
var sturges = function(values) {
return Math.ceil(Math.log(values.length) / Math.LN2) + 1;
};
var histogram = function() {
var value = identity,
domain = extent,
threshold = sturges;
function histogram(data) {
var i,
n = data.length,
x,
values = new Array(n);
for (i = 0; i < n; ++i) {
values[i] = value(data[i], i, data);
}
var xz = domain(values),
x0 = xz[0],
x1 = xz[1],
tz = threshold(values, x0, x1);
// Convert number of thresholds into uniform thresholds.
if (!Array.isArray(tz)) {
tz = tickStep(x0, x1, tz);
tz = range(Math.ceil(x0 / tz) * tz, Math.floor(x1 / tz) * tz, tz); // exclusive
}
// Remove any thresholds outside the domain.
var m = tz.length;
while (tz[0] <= x0) tz.shift(), --m;
while (tz[m - 1] > x1) tz.pop(), --m;
var bins = new Array(m + 1),
bin;
// Initialize bins.
for (i = 0; i <= m; ++i) {
bin = bins[i] = [];
bin.x0 = i > 0 ? tz[i - 1] : x0;
bin.x1 = i < m ? tz[i] : x1;
}
// Assign data to bins by value, ignoring any outside the domain.
for (i = 0; i < n; ++i) {
x = values[i];
if (x0 <= x && x <= x1) {
bins[bisectRight(tz, x, 0, m)].push(data[i]);
}
}
return bins;
}
histogram.value = function(_) {
return arguments.length ? (value = typeof _ === "function" ? _ : constant(_), histogram) : value;
};
histogram.domain = function(_) {
return arguments.length ? (domain = typeof _ === "function" ? _ : constant([_[0], _[1]]), histogram) : domain;
};
histogram.thresholds = function(_) {
return arguments.length ? (threshold = typeof _ === "function" ? _ : Array.isArray(_) ? constant(slice.call(_)) : constant(_), histogram) : threshold;
};
return histogram;
};
var quantile = function(values, p, valueof) {
if (valueof == null) valueof = number;
if (!(n = values.length)) return;
if ((p = +p) <= 0 || n < 2) return +valueof(values[0], 0, values);
if (p >= 1) return +valueof(values[n - 1], n - 1, values);
var n,
i = (n - 1) * p,
i0 = Math.floor(i),
value0 = +valueof(values[i0], i0, values),
value1 = +valueof(values[i0 + 1], i0 + 1, values);
return value0 + (value1 - value0) * (i - i0);
};
var freedmanDiaconis = function(values, min, max) {
values = map.call(values, number).sort(ascending);
return Math.ceil((max - min) / (2 * (quantile(values, 0.75) - quantile(values, 0.25)) * Math.pow(values.length, -1 / 3)));
};
var scott = function(values, min, max) {
return Math.ceil((max - min) / (3.5 * deviation(values) * Math.pow(values.length, -1 / 3)));
};
var max = function(values, valueof) {
var n = values.length,
i = -1,
value,
max;
if (valueof == null) {
while (++i < n) { // Find the first comparable value.
if ((value = values[i]) != null && value >= value) {
max = value;
while (++i < n) { // Compare the remaining values.
if ((value = values[i]) != null && value > max) {
max = value;
}
}
}
}
}
else {
while (++i < n) { // Find the first comparable value.
if ((value = valueof(values[i], i, values)) != null && value >= value) {
max = value;
while (++i < n) { // Compare the remaining values.
if ((value = valueof(values[i], i, values)) != null && value > max) {
max = value;
}
}
}
}
}
return max;
};
var mean = function(values, valueof) {
var n = values.length,
m = n,
i = -1,
value,
sum = 0;
if (valueof == null) {
while (++i < n) {
if (!isNaN(value = number(values[i]))) sum += value;
else --m;
}
}
else {
while (++i < n) {
if (!isNaN(value = number(valueof(values[i], i, values)))) sum += value;
else --m;
}
}
if (m) return sum / m;
};
var median = function(values, valueof) {
var n = values.length,
i = -1,
value,
numbers = [];
if (valueof == null) {
while (++i < n) {
if (!isNaN(value = number(values[i]))) {
numbers.push(value);
}
}
}
else {
while (++i < n) {
if (!isNaN(value = number(valueof(values[i], i, values)))) {
numbers.push(value);
}
}
}
return quantile(numbers.sort(ascending), 0.5);
};
var merge = function(arrays) {
var n = arrays.length,
m,
i = -1,
j = 0,
merged,
array;
while (++i < n) j += arrays[i].length;
merged = new Array(j);
while (--n >= 0) {
array = arrays[n];
m = array.length;
while (--m >= 0) {
merged[--j] = array[m];
}
}
return merged;
};
var min = function(values, valueof) {
var n = values.length,
i = -1,
value,
min;
if (valueof == null) {
while (++i < n) { // Find the first comparable value.
if ((value = values[i]) != null && value >= value) {
min = value;
while (++i < n) { // Compare the remaining values.
if ((value = values[i]) != null && min > value) {
min = value;
}
}
}
}
}
else {
while (++i < n) { // Find the first comparable value.
if ((value = valueof(values[i], i, values)) != null && value >= value) {
min = value;
while (++i < n) { // Compare the remaining values.
if ((value = valueof(values[i], i, values)) != null && min > value) {
min = value;
}
}
}
}
}
return min;
};
var permute = function(array, indexes) {
var i = indexes.length, permutes = new Array(i);
while (i--) permutes[i] = array[indexes[i]];
return permutes;
};
var scan = function(values, compare) {
if (!(n = values.length)) return;
var n,
i = 0,
j = 0,
xi,
xj = values[j];
if (compare == null) compare = ascending;
while (++i < n) {
if (compare(xi = values[i], xj) < 0 || compare(xj, xj) !== 0) {
xj = xi, j = i;
}
}
if (compare(xj, xj) === 0) return j;
};
var shuffle = function(array, i0, i1) {
var m = (i1 == null ? array.length : i1) - (i0 = i0 == null ? 0 : +i0),
t,
i;
while (m) {
i = Math.random() * m-- | 0;
t = array[m + i0];
array[m + i0] = array[i + i0];
array[i + i0] = t;
}
return array;
};
var sum = function(values, valueof) {
var n = values.length,
i = -1,
value,
sum = 0;
if (valueof == null) {
while (++i < n) {
if (value = +values[i]) sum += value; // Note: zero and null are equivalent.
}
}
else {
while (++i < n) {
if (value = +valueof(values[i], i, values)) sum += value;
}
}
return sum;
};
var transpose = function(matrix) {
if (!(n = matrix.length)) return [];
for (var i = -1, m = min(matrix, length), transpose = new Array(m); ++i < m;) {
for (var j = -1, n, row = transpose[i] = new Array(n); ++j < n;) {
row[j] = matrix[j][i];
}
}
return transpose;
};
function length(d) {
return d.length;
}
var zip = function() {
return transpose(arguments);
};
exports.bisect = bisectRight;
exports.bisectRight = bisectRight;
exports.bisectLeft = bisectLeft;
exports.ascending = ascending;
exports.bisector = bisector;
exports.cross = cross;
exports.descending = descending;
exports.deviation = deviation;
exports.extent = extent;
exports.histogram = histogram;
exports.thresholdFreedmanDiaconis = freedmanDiaconis;
exports.thresholdScott = scott;
exports.thresholdSturges = sturges;
exports.max = max;
exports.mean = mean;
exports.median = median;
exports.merge = merge;
exports.min = min;
exports.pairs = pairs;
exports.permute = permute;
exports.quantile = quantile;
exports.range = range;
exports.scan = scan;
exports.shuffle = shuffle;
exports.sum = sum;
exports.ticks = ticks;
exports.tickIncrement = tickIncrement;
exports.tickStep = tickStep;
exports.transpose = transpose;
exports.variance = variance;
exports.zip = zip;
Object.defineProperty(exports, '__esModule', { value: true });
})));
},{}],140:[function(_dereq_,module,exports){
// https://d3js.org/d3-collection/ Version 1.0.4. Copyright 2017 Mike Bostock.
(function (global, factory) {
typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports) :
typeof define === 'function' && define.amd ? define(['exports'], factory) :
(factory((global.d3 = global.d3 || {})));
}(this, (function (exports) { 'use strict';
var prefix = "$";
function Map() {}
Map.prototype = map.prototype = {
constructor: Map,
has: function(key) {
return (prefix + key) in this;
},
get: function(key) {
return this[prefix + key];
},
set: function(key, value) {
this[prefix + key] = value;
return this;
},
remove: function(key) {
var property = prefix + key;
return property in this && delete this[property];
},
clear: function() {
for (var property in this) if (property[0] === prefix) delete this[property];
},
keys: function() {
var keys = [];
for (var property in this) if (property[0] === prefix) keys.push(property.slice(1));
return keys;
},
values: function() {
var values = [];
for (var property in this) if (property[0] === prefix) values.push(this[property]);
return values;
},
entries: function() {
var entries = [];
for (var property in this) if (property[0] === prefix) entries.push({key: property.slice(1), value: this[property]});
return entries;
},
size: function() {
var size = 0;
for (var property in this) if (property[0] === prefix) ++size;
return size;
},
empty: function() {
for (var property in this) if (property[0] === prefix) return false;
return true;
},
each: function(f) {
for (var property in this) if (property[0] === prefix) f(this[property], property.slice(1), this);
}
};
function map(object, f) {
var map = new Map;
// Copy constructor.
if (object instanceof Map) object.each(function(value, key) { map.set(key, value); });
// Index array by numeric index or specified key function.
else if (Array.isArray(object)) {
var i = -1,
n = object.length,
o;
if (f == null) while (++i < n) map.set(i, object[i]);
else while (++i < n) map.set(f(o = object[i], i, object), o);
}
// Convert object to map.
else if (object) for (var key in object) map.set(key, object[key]);
return map;
}
var nest = function() {
var keys = [],
sortKeys = [],
sortValues,
rollup,
nest;
function apply(array, depth, createResult, setResult) {
if (depth >= keys.length) {
if (sortValues != null) array.sort(sortValues);
return rollup != null ? rollup(array) : array;
}
var i = -1,
n = array.length,
key = keys[depth++],
keyValue,
value,
valuesByKey = map(),
values,
result = createResult();
while (++i < n) {
if (values = valuesByKey.get(keyValue = key(value = array[i]) + "")) {
values.push(value);
} else {
valuesByKey.set(keyValue, [value]);
}
}
valuesByKey.each(function(values, key) {
setResult(result, key, apply(values, depth, createResult, setResult));
});
return result;
}
function entries(map$$1, depth) {
if (++depth > keys.length) return map$$1;
var array, sortKey = sortKeys[depth - 1];
if (rollup != null && depth >= keys.length) array = map$$1.entries();
else array = [], map$$1.each(function(v, k) { array.push({key: k, values: entries(v, depth)}); });
return sortKey != null ? array.sort(function(a, b) { return sortKey(a.key, b.key); }) : array;
}
return nest = {
object: function(array) { return apply(array, 0, createObject, setObject); },
map: function(array) { return apply(array, 0, createMap, setMap); },
entries: function(array) { return entries(apply(array, 0, createMap, setMap), 0); },
key: function(d) { keys.push(d); return nest; },
sortKeys: function(order) { sortKeys[keys.length - 1] = order; return nest; },
sortValues: function(order) { sortValues = order; return nest; },
rollup: function(f) { rollup = f; return nest; }
};
};
function createObject() {
return {};
}
function setObject(object, key, value) {
object[key] = value;
}
function createMap() {
return map();
}
function setMap(map$$1, key, value) {
map$$1.set(key, value);
}
function Set() {}
var proto = map.prototype;
Set.prototype = set.prototype = {
constructor: Set,
has: proto.has,
add: function(value) {
value += "";
this[prefix + value] = value;
return this;
},
remove: proto.remove,
clear: proto.clear,
values: proto.keys,
size: proto.size,
empty: proto.empty,
each: proto.each
};
function set(object, f) {
var set = new Set;
// Copy constructor.
if (object instanceof Set) object.each(function(value) { set.add(value); });
// Otherwise, assume it’s an array.
else if (object) {
var i = -1, n = object.length;
if (f == null) while (++i < n) set.add(object[i]);
else while (++i < n) set.add(f(object[i], i, object));
}
return set;
}
var keys = function(map) {
var keys = [];
for (var key in map) keys.push(key);
return keys;
};
var values = function(map) {
var values = [];
for (var key in map) values.push(map[key]);
return values;
};
var entries = function(map) {
var entries = [];
for (var key in map) entries.push({key: key, value: map[key]});
return entries;
};
exports.nest = nest;
exports.set = set;
exports.map = map;
exports.keys = keys;
exports.values = values;
exports.entries = entries;
Object.defineProperty(exports, '__esModule', { value: true });
})));
},{}],141:[function(_dereq_,module,exports){
// https://d3js.org/d3-color/ Version 1.2.0. Copyright 2018 Mike Bostock.
(function (global, factory) {
typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports) :
typeof define === 'function' && define.amd ? define(['exports'], factory) :
(factory((global.d3 = global.d3 || {})));
}(this, (function (exports) { 'use strict';
var define = function(constructor, factory, prototype) {
constructor.prototype = factory.prototype = prototype;
prototype.constructor = constructor;
};
function extend(parent, definition) {
var prototype = Object.create(parent.prototype);
for (var key in definition) prototype[key] = definition[key];
return prototype;
}
function Color() {}
var darker = 0.7;
var brighter = 1 / darker;
var reI = "\\s*([+-]?\\d+)\\s*";
var reN = "\\s*([+-]?\\d*\\.?\\d+(?:[eE][+-]?\\d+)?)\\s*";
var reP = "\\s*([+-]?\\d*\\.?\\d+(?:[eE][+-]?\\d+)?)%\\s*";
var reHex3 = /^#([0-9a-f]{3})$/;
var reHex6 = /^#([0-9a-f]{6})$/;
var reRgbInteger = new RegExp("^rgb\\(" + [reI, reI, reI] + "\\)$");
var reRgbPercent = new RegExp("^rgb\\(" + [reP, reP, reP] + "\\)$");
var reRgbaInteger = new RegExp("^rgba\\(" + [reI, reI, reI, reN] + "\\)$");
var reRgbaPercent = new RegExp("^rgba\\(" + [reP, reP, reP, reN] + "\\)$");
var reHslPercent = new RegExp("^hsl\\(" + [reN, reP, reP] + "\\)$");
var reHslaPercent = new RegExp("^hsla\\(" + [reN, reP, reP, reN] + "\\)$");
var named = {
aliceblue: 0xf0f8ff,
antiquewhite: 0xfaebd7,
aqua: 0x00ffff,
aquamarine: 0x7fffd4,
azure: 0xf0ffff,
beige: 0xf5f5dc,
bisque: 0xffe4c4,
black: 0x000000,
blanchedalmond: 0xffebcd,
blue: 0x0000ff,
blueviolet: 0x8a2be2,
brown: 0xa52a2a,
burlywood: 0xdeb887,
cadetblue: 0x5f9ea0,
chartreuse: 0x7fff00,
chocolate: 0xd2691e,
coral: 0xff7f50,
cornflowerblue: 0x6495ed,
cornsilk: 0xfff8dc,
crimson: 0xdc143c,
cyan: 0x00ffff,
darkblue: 0x00008b,
darkcyan: 0x008b8b,
darkgoldenrod: 0xb8860b,
darkgray: 0xa9a9a9,
darkgreen: 0x006400,
darkgrey: 0xa9a9a9,
darkkhaki: 0xbdb76b,
darkmagenta: 0x8b008b,
darkolivegreen: 0x556b2f,
darkorange: 0xff8c00,
darkorchid: 0x9932cc,
darkred: 0x8b0000,
darksalmon: 0xe9967a,
darkseagreen: 0x8fbc8f,
darkslateblue: 0x483d8b,
darkslategray: 0x2f4f4f,
darkslategrey: 0x2f4f4f,
darkturquoise: 0x00ced1,
darkviolet: 0x9400d3,
deeppink: 0xff1493,
deepskyblue: 0x00bfff,
dimgray: 0x696969,
dimgrey: 0x696969,
dodgerblue: 0x1e90ff,
firebrick: 0xb22222,
floralwhite: 0xfffaf0,
forestgreen: 0x228b22,
fuchsia: 0xff00ff,
gainsboro: 0xdcdcdc,
ghostwhite: 0xf8f8ff,
gold: 0xffd700,
goldenrod: 0xdaa520,
gray: 0x808080,
green: 0x008000,
greenyellow: 0xadff2f,
grey: 0x808080,
honeydew: 0xf0fff0,
hotpink: 0xff69b4,
indianred: 0xcd5c5c,
indigo: 0x4b0082,
ivory: 0xfffff0,
khaki: 0xf0e68c,
lavender: 0xe6e6fa,
lavenderblush: 0xfff0f5,
lawngreen: 0x7cfc00,
lemonchiffon: 0xfffacd,
lightblue: 0xadd8e6,
lightcoral: 0xf08080,
lightcyan: 0xe0ffff,
lightgoldenrodyellow: 0xfafad2,
lightgray: 0xd3d3d3,
lightgreen: 0x90ee90,
lightgrey: 0xd3d3d3,
lightpink: 0xffb6c1,
lightsalmon: 0xffa07a,
lightseagreen: 0x20b2aa,
lightskyblue: 0x87cefa,
lightslategray: 0x778899,
lightslategrey: 0x778899,
lightsteelblue: 0xb0c4de,
lightyellow: 0xffffe0,
lime: 0x00ff00,
limegreen: 0x32cd32,
linen: 0xfaf0e6,
magenta: 0xff00ff,
maroon: 0x800000,
mediumaquamarine: 0x66cdaa,
mediumblue: 0x0000cd,
mediumorchid: 0xba55d3,
mediumpurple: 0x9370db,
mediumseagreen: 0x3cb371,
mediumslateblue: 0x7b68ee,
mediumspringgreen: 0x00fa9a,
mediumturquoise: 0x48d1cc,
mediumvioletred: 0xc71585,
midnightblue: 0x191970,
mintcream: 0xf5fffa,
mistyrose: 0xffe4e1,
moccasin: 0xffe4b5,
navajowhite: 0xffdead,
navy: 0x000080,
oldlace: 0xfdf5e6,
olive: 0x808000,
olivedrab: 0x6b8e23,
orange: 0xffa500,
orangered: 0xff4500,
orchid: 0xda70d6,
palegoldenrod: 0xeee8aa,
palegreen: 0x98fb98,
paleturquoise: 0xafeeee,
palevioletred: 0xdb7093,
papayawhip: 0xffefd5,
peachpuff: 0xffdab9,
peru: 0xcd853f,
pink: 0xffc0cb,
plum: 0xdda0dd,
powderblue: 0xb0e0e6,
purple: 0x800080,
rebeccapurple: 0x663399,
red: 0xff0000,
rosybrown: 0xbc8f8f,
royalblue: 0x4169e1,
saddlebrown: 0x8b4513,
salmon: 0xfa8072,
sandybrown: 0xf4a460,
seagreen: 0x2e8b57,
seashell: 0xfff5ee,
sienna: 0xa0522d,
silver: 0xc0c0c0,
skyblue: 0x87ceeb,
slateblue: 0x6a5acd,
slategray: 0x708090,
slategrey: 0x708090,
snow: 0xfffafa,
springgreen: 0x00ff7f,
steelblue: 0x4682b4,
tan: 0xd2b48c,
teal: 0x008080,
thistle: 0xd8bfd8,
tomato: 0xff6347,
turquoise: 0x40e0d0,
violet: 0xee82ee,
wheat: 0xf5deb3,
white: 0xffffff,
whitesmoke: 0xf5f5f5,
yellow: 0xffff00,
yellowgreen: 0x9acd32
};
define(Color, color, {
displayable: function() {
return this.rgb().displayable();
},
hex: function() {
return this.rgb().hex();
},
toString: function() {
return this.rgb() + "";
}
});
function color(format) {
var m;
format = (format + "").trim().toLowerCase();
return (m = reHex3.exec(format)) ? (m = parseInt(m[1], 16), new Rgb((m >> 8 & 0xf) | (m >> 4 & 0x0f0), (m >> 4 & 0xf) | (m & 0xf0), ((m & 0xf) << 4) | (m & 0xf), 1)) // #f00
: (m = reHex6.exec(format)) ? rgbn(parseInt(m[1], 16)) // #ff0000
: (m = reRgbInteger.exec(format)) ? new Rgb(m[1], m[2], m[3], 1) // rgb(255, 0, 0)
: (m = reRgbPercent.exec(format)) ? new Rgb(m[1] * 255 / 100, m[2] * 255 / 100, m[3] * 255 / 100, 1) // rgb(100%, 0%, 0%)
: (m = reRgbaInteger.exec(format)) ? rgba(m[1], m[2], m[3], m[4]) // rgba(255, 0, 0, 1)
: (m = reRgbaPercent.exec(format)) ? rgba(m[1] * 255 / 100, m[2] * 255 / 100, m[3] * 255 / 100, m[4]) // rgb(100%, 0%, 0%, 1)
: (m = reHslPercent.exec(format)) ? hsla(m[1], m[2] / 100, m[3] / 100, 1) // hsl(120, 50%, 50%)
: (m = reHslaPercent.exec(format)) ? hsla(m[1], m[2] / 100, m[3] / 100, m[4]) // hsla(120, 50%, 50%, 1)
: named.hasOwnProperty(format) ? rgbn(named[format])
: format === "transparent" ? new Rgb(NaN, NaN, NaN, 0)
: null;
}
function rgbn(n) {
return new Rgb(n >> 16 & 0xff, n >> 8 & 0xff, n & 0xff, 1);
}
function rgba(r, g, b, a) {
if (a <= 0) r = g = b = NaN;
return new Rgb(r, g, b, a);
}
function rgbConvert(o) {
if (!(o instanceof Color)) o = color(o);
if (!o) return new Rgb;
o = o.rgb();
return new Rgb(o.r, o.g, o.b, o.opacity);
}
function rgb(r, g, b, opacity) {
return arguments.length === 1 ? rgbConvert(r) : new Rgb(r, g, b, opacity == null ? 1 : opacity);
}
function Rgb(r, g, b, opacity) {
this.r = +r;
this.g = +g;
this.b = +b;
this.opacity = +opacity;
}
define(Rgb, rgb, extend(Color, {
brighter: function(k) {
k = k == null ? brighter : Math.pow(brighter, k);
return new Rgb(this.r * k, this.g * k, this.b * k, this.opacity);
},
darker: function(k) {
k = k == null ? darker : Math.pow(darker, k);
return new Rgb(this.r * k, this.g * k, this.b * k, this.opacity);
},
rgb: function() {
return this;
},
displayable: function() {
return (0 <= this.r && this.r <= 255)
&& (0 <= this.g && this.g <= 255)
&& (0 <= this.b && this.b <= 255)
&& (0 <= this.opacity && this.opacity <= 1);
},
hex: function() {
return "#" + hex(this.r) + hex(this.g) + hex(this.b);
},
toString: function() {
var a = this.opacity; a = isNaN(a) ? 1 : Math.max(0, Math.min(1, a));
return (a === 1 ? "rgb(" : "rgba(")
+ Math.max(0, Math.min(255, Math.round(this.r) || 0)) + ", "
+ Math.max(0, Math.min(255, Math.round(this.g) || 0)) + ", "
+ Math.max(0, Math.min(255, Math.round(this.b) || 0))
+ (a === 1 ? ")" : ", " + a + ")");
}
}));
function hex(value) {
value = Math.max(0, Math.min(255, Math.round(value) || 0));
return (value < 16 ? "0" : "") + value.toString(16);
}
function hsla(h, s, l, a) {
if (a <= 0) h = s = l = NaN;
else if (l <= 0 || l >= 1) h = s = NaN;
else if (s <= 0) h = NaN;
return new Hsl(h, s, l, a);
}
function hslConvert(o) {
if (o instanceof Hsl) return new Hsl(o.h, o.s, o.l, o.opacity);
if (!(o instanceof Color)) o = color(o);
if (!o) return new Hsl;
if (o instanceof Hsl) return o;
o = o.rgb();
var r = o.r / 255,
g = o.g / 255,
b = o.b / 255,
min = Math.min(r, g, b),
max = Math.max(r, g, b),
h = NaN,
s = max - min,
l = (max + min) / 2;
if (s) {
if (r === max) h = (g - b) / s + (g < b) * 6;
else if (g === max) h = (b - r) / s + 2;
else h = (r - g) / s + 4;
s /= l < 0.5 ? max + min : 2 - max - min;
h *= 60;
} else {
s = l > 0 && l < 1 ? 0 : h;
}
return new Hsl(h, s, l, o.opacity);
}
function hsl(h, s, l, opacity) {
return arguments.length === 1 ? hslConvert(h) : new Hsl(h, s, l, opacity == null ? 1 : opacity);
}
function Hsl(h, s, l, opacity) {
this.h = +h;
this.s = +s;
this.l = +l;
this.opacity = +opacity;
}
define(Hsl, hsl, extend(Color, {
brighter: function(k) {
k = k == null ? brighter : Math.pow(brighter, k);
return new Hsl(this.h, this.s, this.l * k, this.opacity);
},
darker: function(k) {
k = k == null ? darker : Math.pow(darker, k);
return new Hsl(this.h, this.s, this.l * k, this.opacity);
},
rgb: function() {
var h = this.h % 360 + (this.h < 0) * 360,
s = isNaN(h) || isNaN(this.s) ? 0 : this.s,
l = this.l,
m2 = l + (l < 0.5 ? l : 1 - l) * s,
m1 = 2 * l - m2;
return new Rgb(
hsl2rgb(h >= 240 ? h - 240 : h + 120, m1, m2),
hsl2rgb(h, m1, m2),
hsl2rgb(h < 120 ? h + 240 : h - 120, m1, m2),
this.opacity
);
},
displayable: function() {
return (0 <= this.s && this.s <= 1 || isNaN(this.s))
&& (0 <= this.l && this.l <= 1)
&& (0 <= this.opacity && this.opacity <= 1);
}
}));
/* From FvD 13.37, CSS Color Module Level 3 */
function hsl2rgb(h, m1, m2) {
return (h < 60 ? m1 + (m2 - m1) * h / 60
: h < 180 ? m2
: h < 240 ? m1 + (m2 - m1) * (240 - h) / 60
: m1) * 255;
}
var deg2rad = Math.PI / 180;
var rad2deg = 180 / Math.PI;
// https://beta.observablehq.com/@mbostock/lab-and-rgb
var K = 18;
var Xn = 0.96422;
var Yn = 1;
var Zn = 0.82521;
var t0 = 4 / 29;
var t1 = 6 / 29;
var t2 = 3 * t1 * t1;
var t3 = t1 * t1 * t1;
function labConvert(o) {
if (o instanceof Lab) return new Lab(o.l, o.a, o.b, o.opacity);
if (o instanceof Hcl) {
if (isNaN(o.h)) return new Lab(o.l, 0, 0, o.opacity);
var h = o.h * deg2rad;
return new Lab(o.l, Math.cos(h) * o.c, Math.sin(h) * o.c, o.opacity);
}
if (!(o instanceof Rgb)) o = rgbConvert(o);
var r = rgb2lrgb(o.r),
g = rgb2lrgb(o.g),
b = rgb2lrgb(o.b),
y = xyz2lab((0.2225045 * r + 0.7168786 * g + 0.0606169 * b) / Yn), x, z;
if (r === g && g === b) x = z = y; else {
x = xyz2lab((0.4360747 * r + 0.3850649 * g + 0.1430804 * b) / Xn);
z = xyz2lab((0.0139322 * r + 0.0971045 * g + 0.7141733 * b) / Zn);
}
return new Lab(116 * y - 16, 500 * (x - y), 200 * (y - z), o.opacity);
}
function gray(l, opacity) {
return new Lab(l, 0, 0, opacity == null ? 1 : opacity);
}
function lab(l, a, b, opacity) {
return arguments.length === 1 ? labConvert(l) : new Lab(l, a, b, opacity == null ? 1 : opacity);
}
function Lab(l, a, b, opacity) {
this.l = +l;
this.a = +a;
this.b = +b;
this.opacity = +opacity;
}
define(Lab, lab, extend(Color, {
brighter: function(k) {
return new Lab(this.l + K * (k == null ? 1 : k), this.a, this.b, this.opacity);
},
darker: function(k) {
return new Lab(this.l - K * (k == null ? 1 : k), this.a, this.b, this.opacity);
},
rgb: function() {
var y = (this.l + 16) / 116,
x = isNaN(this.a) ? y : y + this.a / 500,
z = isNaN(this.b) ? y : y - this.b / 200;
x = Xn * lab2xyz(x);
y = Yn * lab2xyz(y);
z = Zn * lab2xyz(z);
return new Rgb(
lrgb2rgb( 3.1338561 * x - 1.6168667 * y - 0.4906146 * z),
lrgb2rgb(-0.9787684 * x + 1.9161415 * y + 0.0334540 * z),
lrgb2rgb( 0.0719453 * x - 0.2289914 * y + 1.4052427 * z),
this.opacity
);
}
}));
function xyz2lab(t) {
return t > t3 ? Math.pow(t, 1 / 3) : t / t2 + t0;
}
function lab2xyz(t) {
return t > t1 ? t * t * t : t2 * (t - t0);
}
function lrgb2rgb(x) {
return 255 * (x <= 0.0031308 ? 12.92 * x : 1.055 * Math.pow(x, 1 / 2.4) - 0.055);
}
function rgb2lrgb(x) {
return (x /= 255) <= 0.04045 ? x / 12.92 : Math.pow((x + 0.055) / 1.055, 2.4);
}
function hclConvert(o) {
if (o instanceof Hcl) return new Hcl(o.h, o.c, o.l, o.opacity);
if (!(o instanceof Lab)) o = labConvert(o);
if (o.a === 0 && o.b === 0) return new Hcl(NaN, 0, o.l, o.opacity);
var h = Math.atan2(o.b, o.a) * rad2deg;
return new Hcl(h < 0 ? h + 360 : h, Math.sqrt(o.a * o.a + o.b * o.b), o.l, o.opacity);
}
function lch(l, c, h, opacity) {
return arguments.length === 1 ? hclConvert(l) : new Hcl(h, c, l, opacity == null ? 1 : opacity);
}
function hcl(h, c, l, opacity) {
return arguments.length === 1 ? hclConvert(h) : new Hcl(h, c, l, opacity == null ? 1 : opacity);
}
function Hcl(h, c, l, opacity) {
this.h = +h;
this.c = +c;
this.l = +l;
this.opacity = +opacity;
}
define(Hcl, hcl, extend(Color, {
brighter: function(k) {
return new Hcl(this.h, this.c, this.l + K * (k == null ? 1 : k), this.opacity);
},
darker: function(k) {
return new Hcl(this.h, this.c, this.l - K * (k == null ? 1 : k), this.opacity);
},
rgb: function() {
return labConvert(this).rgb();
}
}));
var A = -0.14861;
var B = +1.78277;
var C = -0.29227;
var D = -0.90649;
var E = +1.97294;
var ED = E * D;
var EB = E * B;
var BC_DA = B * C - D * A;
function cubehelixConvert(o) {
if (o instanceof Cubehelix) return new Cubehelix(o.h, o.s, o.l, o.opacity);
if (!(o instanceof Rgb)) o = rgbConvert(o);
var r = o.r / 255,
g = o.g / 255,
b = o.b / 255,
l = (BC_DA * b + ED * r - EB * g) / (BC_DA + ED - EB),
bl = b - l,
k = (E * (g - l) - C * bl) / D,
s = Math.sqrt(k * k + bl * bl) / (E * l * (1 - l)), // NaN if l=0 or l=1
h = s ? Math.atan2(k, bl) * rad2deg - 120 : NaN;
return new Cubehelix(h < 0 ? h + 360 : h, s, l, o.opacity);
}
function cubehelix(h, s, l, opacity) {
return arguments.length === 1 ? cubehelixConvert(h) : new Cubehelix(h, s, l, opacity == null ? 1 : opacity);
}
function Cubehelix(h, s, l, opacity) {
this.h = +h;
this.s = +s;
this.l = +l;
this.opacity = +opacity;
}
define(Cubehelix, cubehelix, extend(Color, {
brighter: function(k) {
k = k == null ? brighter : Math.pow(brighter, k);
return new Cubehelix(this.h, this.s, this.l * k, this.opacity);
},
darker: function(k) {
k = k == null ? darker : Math.pow(darker, k);
return new Cubehelix(this.h, this.s, this.l * k, this.opacity);
},
rgb: function() {
var h = isNaN(this.h) ? 0 : (this.h + 120) * deg2rad,
l = +this.l,
a = isNaN(this.s) ? 0 : this.s * l * (1 - l),
cosh = Math.cos(h),
sinh = Math.sin(h);
return new Rgb(
255 * (l + a * (A * cosh + B * sinh)),
255 * (l + a * (C * cosh + D * sinh)),
255 * (l + a * (E * cosh)),
this.opacity
);
}
}));
exports.color = color;
exports.rgb = rgb;
exports.hsl = hsl;
exports.lab = lab;
exports.hcl = hcl;
exports.lch = lch;
exports.gray = gray;
exports.cubehelix = cubehelix;
Object.defineProperty(exports, '__esModule', { value: true });
})));
},{}],142:[function(_dereq_,module,exports){
// https://d3js.org/d3-dispatch/ Version 1.0.3. Copyright 2017 Mike Bostock.
(function (global, factory) {
typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports) :
typeof define === 'function' && define.amd ? define(['exports'], factory) :
(factory((global.d3 = global.d3 || {})));
}(this, (function (exports) { 'use strict';
var noop = {value: function() {}};
function dispatch() {
for (var i = 0, n = arguments.length, _ = {}, t; i < n; ++i) {
if (!(t = arguments[i] + "") || (t in _)) throw new Error("illegal type: " + t);
_[t] = [];
}
return new Dispatch(_);
}
function Dispatch(_) {
this._ = _;
}
function parseTypenames(typenames, types) {
return typenames.trim().split(/^|\s+/).map(function(t) {
var name = "", i = t.indexOf(".");
if (i >= 0) name = t.slice(i + 1), t = t.slice(0, i);
if (t && !types.hasOwnProperty(t)) throw new Error("unknown type: " + t);
return {type: t, name: name};
});
}
Dispatch.prototype = dispatch.prototype = {
constructor: Dispatch,
on: function(typename, callback) {
var _ = this._,
T = parseTypenames(typename + "", _),
t,
i = -1,
n = T.length;
// If no callback was specified, return the callback of the given type and name.
if (arguments.length < 2) {
while (++i < n) if ((t = (typename = T[i]).type) && (t = get(_[t], typename.name))) return t;
return;
}
// If a type was specified, set the callback for the given type and name.
// Otherwise, if a null callback was specified, remove callbacks of the given name.
if (callback != null && typeof callback !== "function") throw new Error("invalid callback: " + callback);
while (++i < n) {
if (t = (typename = T[i]).type) _[t] = set(_[t], typename.name, callback);
else if (callback == null) for (t in _) _[t] = set(_[t], typename.name, null);
}
return this;
},
copy: function() {
var copy = {}, _ = this._;
for (var t in _) copy[t] = _[t].slice();
return new Dispatch(copy);
},
call: function(type, that) {
if ((n = arguments.length - 2) > 0) for (var args = new Array(n), i = 0, n, t; i < n; ++i) args[i] = arguments[i + 2];
if (!this._.hasOwnProperty(type)) throw new Error("unknown type: " + type);
for (t = this._[type], i = 0, n = t.length; i < n; ++i) t[i].value.apply(that, args);
},
apply: function(type, that, args) {
if (!this._.hasOwnProperty(type)) throw new Error("unknown type: " + type);
for (var t = this._[type], i = 0, n = t.length; i < n; ++i) t[i].value.apply(that, args);
}
};
function get(type, name) {
for (var i = 0, n = type.length, c; i < n; ++i) {
if ((c = type[i]).name === name) {
return c.value;
}
}
}
function set(type, name, callback) {
for (var i = 0, n = type.length; i < n; ++i) {
if (type[i].name === name) {
type[i] = noop, type = type.slice(0, i).concat(type.slice(i + 1));
break;
}
}
if (callback != null) type.push({name: name, value: callback});
return type;
}
exports.dispatch = dispatch;
Object.defineProperty(exports, '__esModule', { value: true });
})));
},{}],143:[function(_dereq_,module,exports){
// https://d3js.org/d3-force/ Version 1.1.0. Copyright 2017 Mike Bostock.
(function (global, factory) {
typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports, _dereq_('d3-quadtree'), _dereq_('d3-collection'), _dereq_('d3-dispatch'), _dereq_('d3-timer')) :
typeof define === 'function' && define.amd ? define(['exports', 'd3-quadtree', 'd3-collection', 'd3-dispatch', 'd3-timer'], factory) :
(factory((global.d3 = global.d3 || {}),global.d3,global.d3,global.d3,global.d3));
}(this, (function (exports,d3Quadtree,d3Collection,d3Dispatch,d3Timer) { 'use strict';
var center = function(x, y) {
var nodes;
if (x == null) x = 0;
if (y == null) y = 0;
function force() {
var i,
n = nodes.length,
node,
sx = 0,
sy = 0;
for (i = 0; i < n; ++i) {
node = nodes[i], sx += node.x, sy += node.y;
}
for (sx = sx / n - x, sy = sy / n - y, i = 0; i < n; ++i) {
node = nodes[i], node.x -= sx, node.y -= sy;
}
}
force.initialize = function(_) {
nodes = _;
};
force.x = function(_) {
return arguments.length ? (x = +_, force) : x;
};
force.y = function(_) {
return arguments.length ? (y = +_, force) : y;
};
return force;
};
var constant = function(x) {
return function() {
return x;
};
};
var jiggle = function() {
return (Math.random() - 0.5) * 1e-6;
};
function x(d) {
return d.x + d.vx;
}
function y(d) {
return d.y + d.vy;
}
var collide = function(radius) {
var nodes,
radii,
strength = 1,
iterations = 1;
if (typeof radius !== "function") radius = constant(radius == null ? 1 : +radius);
function force() {
var i, n = nodes.length,
tree,
node,
xi,
yi,
ri,
ri2;
for (var k = 0; k < iterations; ++k) {
tree = d3Quadtree.quadtree(nodes, x, y).visitAfter(prepare);
for (i = 0; i < n; ++i) {
node = nodes[i];
ri = radii[node.index], ri2 = ri * ri;
xi = node.x + node.vx;
yi = node.y + node.vy;
tree.visit(apply);
}
}
function apply(quad, x0, y0, x1, y1) {
var data = quad.data, rj = quad.r, r = ri + rj;
if (data) {
if (data.index > node.index) {
var x = xi - data.x - data.vx,
y = yi - data.y - data.vy,
l = x * x + y * y;
if (l < r * r) {
if (x === 0) x = jiggle(), l += x * x;
if (y === 0) y = jiggle(), l += y * y;
l = (r - (l = Math.sqrt(l))) / l * strength;
node.vx += (x *= l) * (r = (rj *= rj) / (ri2 + rj));
node.vy += (y *= l) * r;
data.vx -= x * (r = 1 - r);
data.vy -= y * r;
}
}
return;
}
return x0 > xi + r || x1 < xi - r || y0 > yi + r || y1 < yi - r;
}
}
function prepare(quad) {
if (quad.data) return quad.r = radii[quad.data.index];
for (var i = quad.r = 0; i < 4; ++i) {
if (quad[i] && quad[i].r > quad.r) {
quad.r = quad[i].r;
}
}
}
function initialize() {
if (!nodes) return;
var i, n = nodes.length, node;
radii = new Array(n);
for (i = 0; i < n; ++i) node = nodes[i], radii[node.index] = +radius(node, i, nodes);
}
force.initialize = function(_) {
nodes = _;
initialize();
};
force.iterations = function(_) {
return arguments.length ? (iterations = +_, force) : iterations;
};
force.strength = function(_) {
return arguments.length ? (strength = +_, force) : strength;
};
force.radius = function(_) {
return arguments.length ? (radius = typeof _ === "function" ? _ : constant(+_), initialize(), force) : radius;
};
return force;
};
function index(d) {
return d.index;
}
function find(nodeById, nodeId) {
var node = nodeById.get(nodeId);
if (!node) throw new Error("missing: " + nodeId);
return node;
}
var link = function(links) {
var id = index,
strength = defaultStrength,
strengths,
distance = constant(30),
distances,
nodes,
count,
bias,
iterations = 1;
if (links == null) links = [];
function defaultStrength(link) {
return 1 / Math.min(count[link.source.index], count[link.target.index]);
}
function force(alpha) {
for (var k = 0, n = links.length; k < iterations; ++k) {
for (var i = 0, link, source, target, x, y, l, b; i < n; ++i) {
link = links[i], source = link.source, target = link.target;
x = target.x + target.vx - source.x - source.vx || jiggle();
y = target.y + target.vy - source.y - source.vy || jiggle();
l = Math.sqrt(x * x + y * y);
l = (l - distances[i]) / l * alpha * strengths[i];
x *= l, y *= l;
target.vx -= x * (b = bias[i]);
target.vy -= y * b;
source.vx += x * (b = 1 - b);
source.vy += y * b;
}
}
}
function initialize() {
if (!nodes) return;
var i,
n = nodes.length,
m = links.length,
nodeById = d3Collection.map(nodes, id),
link;
for (i = 0, count = new Array(n); i < m; ++i) {
link = links[i], link.index = i;
if (typeof link.source !== "object") link.source = find(nodeById, link.source);
if (typeof link.target !== "object") link.target = find(nodeById, link.target);
count[link.source.index] = (count[link.source.index] || 0) + 1;
count[link.target.index] = (count[link.target.index] || 0) + 1;
}
for (i = 0, bias = new Array(m); i < m; ++i) {
link = links[i], bias[i] = count[link.source.index] / (count[link.source.index] + count[link.target.index]);
}
strengths = new Array(m), initializeStrength();
distances = new Array(m), initializeDistance();
}
function initializeStrength() {
if (!nodes) return;
for (var i = 0, n = links.length; i < n; ++i) {
strengths[i] = +strength(links[i], i, links);
}
}
function initializeDistance() {
if (!nodes) return;
for (var i = 0, n = links.length; i < n; ++i) {
distances[i] = +distance(links[i], i, links);
}
}
force.initialize = function(_) {
nodes = _;
initialize();
};
force.links = function(_) {
return arguments.length ? (links = _, initialize(), force) : links;
};
force.id = function(_) {
return arguments.length ? (id = _, force) : id;
};
force.iterations = function(_) {
return arguments.length ? (iterations = +_, force) : iterations;
};
force.strength = function(_) {
return arguments.length ? (strength = typeof _ === "function" ? _ : constant(+_), initializeStrength(), force) : strength;
};
force.distance = function(_) {
return arguments.length ? (distance = typeof _ === "function" ? _ : constant(+_), initializeDistance(), force) : distance;
};
return force;
};
function x$1(d) {
return d.x;
}
function y$1(d) {
return d.y;
}
var initialRadius = 10;
var initialAngle = Math.PI * (3 - Math.sqrt(5));
var simulation = function(nodes) {
var simulation,
alpha = 1,
alphaMin = 0.001,
alphaDecay = 1 - Math.pow(alphaMin, 1 / 300),
alphaTarget = 0,
velocityDecay = 0.6,
forces = d3Collection.map(),
stepper = d3Timer.timer(step),
event = d3Dispatch.dispatch("tick", "end");
if (nodes == null) nodes = [];
function step() {
tick();
event.call("tick", simulation);
if (alpha < alphaMin) {
stepper.stop();
event.call("end", simulation);
}
}
function tick() {
var i, n = nodes.length, node;
alpha += (alphaTarget - alpha) * alphaDecay;
forces.each(function(force) {
force(alpha);
});
for (i = 0; i < n; ++i) {
node = nodes[i];
if (node.fx == null) node.x += node.vx *= velocityDecay;
else node.x = node.fx, node.vx = 0;
if (node.fy == null) node.y += node.vy *= velocityDecay;
else node.y = node.fy, node.vy = 0;
}
}
function initializeNodes() {
for (var i = 0, n = nodes.length, node; i < n; ++i) {
node = nodes[i], node.index = i;
if (isNaN(node.x) || isNaN(node.y)) {
var radius = initialRadius * Math.sqrt(i), angle = i * initialAngle;
node.x = radius * Math.cos(angle);
node.y = radius * Math.sin(angle);
}
if (isNaN(node.vx) || isNaN(node.vy)) {
node.vx = node.vy = 0;
}
}
}
function initializeForce(force) {
if (force.initialize) force.initialize(nodes);
return force;
}
initializeNodes();
return simulation = {
tick: tick,
restart: function() {
return stepper.restart(step), simulation;
},
stop: function() {
return stepper.stop(), simulation;
},
nodes: function(_) {
return arguments.length ? (nodes = _, initializeNodes(), forces.each(initializeForce), simulation) : nodes;
},
alpha: function(_) {
return arguments.length ? (alpha = +_, simulation) : alpha;
},
alphaMin: function(_) {
return arguments.length ? (alphaMin = +_, simulation) : alphaMin;
},
alphaDecay: function(_) {
return arguments.length ? (alphaDecay = +_, simulation) : +alphaDecay;
},
alphaTarget: function(_) {
return arguments.length ? (alphaTarget = +_, simulation) : alphaTarget;
},
velocityDecay: function(_) {
return arguments.length ? (velocityDecay = 1 - _, simulation) : 1 - velocityDecay;
},
force: function(name, _) {
return arguments.length > 1 ? ((_ == null ? forces.remove(name) : forces.set(name, initializeForce(_))), simulation) : forces.get(name);
},
find: function(x, y, radius) {
var i = 0,
n = nodes.length,
dx,
dy,
d2,
node,
closest;
if (radius == null) radius = Infinity;
else radius *= radius;
for (i = 0; i < n; ++i) {
node = nodes[i];
dx = x - node.x;
dy = y - node.y;
d2 = dx * dx + dy * dy;
if (d2 < radius) closest = node, radius = d2;
}
return closest;
},
on: function(name, _) {
return arguments.length > 1 ? (event.on(name, _), simulation) : event.on(name);
}
};
};
var manyBody = function() {
var nodes,
node,
alpha,
strength = constant(-30),
strengths,
distanceMin2 = 1,
distanceMax2 = Infinity,
theta2 = 0.81;
function force(_) {
var i, n = nodes.length, tree = d3Quadtree.quadtree(nodes, x$1, y$1).visitAfter(accumulate);
for (alpha = _, i = 0; i < n; ++i) node = nodes[i], tree.visit(apply);
}
function initialize() {
if (!nodes) return;
var i, n = nodes.length, node;
strengths = new Array(n);
for (i = 0; i < n; ++i) node = nodes[i], strengths[node.index] = +strength(node, i, nodes);
}
function accumulate(quad) {
var strength = 0, q, c, weight = 0, x, y, i;
// For internal nodes, accumulate forces from child quadrants.
if (quad.length) {
for (x = y = i = 0; i < 4; ++i) {
if ((q = quad[i]) && (c = Math.abs(q.value))) {
strength += q.value, weight += c, x += c * q.x, y += c * q.y;
}
}
quad.x = x / weight;
quad.y = y / weight;
}
// For leaf nodes, accumulate forces from coincident quadrants.
else {
q = quad;
q.x = q.data.x;
q.y = q.data.y;
do strength += strengths[q.data.index];
while (q = q.next);
}
quad.value = strength;
}
function apply(quad, x1, _, x2) {
if (!quad.value) return true;
var x = quad.x - node.x,
y = quad.y - node.y,
w = x2 - x1,
l = x * x + y * y;
// Apply the Barnes-Hut approximation if possible.
// Limit forces for very close nodes; randomize direction if coincident.
if (w * w / theta2 < l) {
if (l < distanceMax2) {
if (x === 0) x = jiggle(), l += x * x;
if (y === 0) y = jiggle(), l += y * y;
if (l < distanceMin2) l = Math.sqrt(distanceMin2 * l);
node.vx += x * quad.value * alpha / l;
node.vy += y * quad.value * alpha / l;
}
return true;
}
// Otherwise, process points directly.
else if (quad.length || l >= distanceMax2) return;
// Limit forces for very close nodes; randomize direction if coincident.
if (quad.data !== node || quad.next) {
if (x === 0) x = jiggle(), l += x * x;
if (y === 0) y = jiggle(), l += y * y;
if (l < distanceMin2) l = Math.sqrt(distanceMin2 * l);
}
do if (quad.data !== node) {
w = strengths[quad.data.index] * alpha / l;
node.vx += x * w;
node.vy += y * w;
} while (quad = quad.next);
}
force.initialize = function(_) {
nodes = _;
initialize();
};
force.strength = function(_) {
return arguments.length ? (strength = typeof _ === "function" ? _ : constant(+_), initialize(), force) : strength;
};
force.distanceMin = function(_) {
return arguments.length ? (distanceMin2 = _ * _, force) : Math.sqrt(distanceMin2);
};
force.distanceMax = function(_) {
return arguments.length ? (distanceMax2 = _ * _, force) : Math.sqrt(distanceMax2);
};
force.theta = function(_) {
return arguments.length ? (theta2 = _ * _, force) : Math.sqrt(theta2);
};
return force;
};
var radial = function(radius, x, y) {
var nodes,
strength = constant(0.1),
strengths,
radiuses;
if (typeof radius !== "function") radius = constant(+radius);
if (x == null) x = 0;
if (y == null) y = 0;
function force(alpha) {
for (var i = 0, n = nodes.length; i < n; ++i) {
var node = nodes[i],
dx = node.x - x || 1e-6,
dy = node.y - y || 1e-6,
r = Math.sqrt(dx * dx + dy * dy),
k = (radiuses[i] - r) * strengths[i] * alpha / r;
node.vx += dx * k;
node.vy += dy * k;
}
}
function initialize() {
if (!nodes) return;
var i, n = nodes.length;
strengths = new Array(n);
radiuses = new Array(n);
for (i = 0; i < n; ++i) {
radiuses[i] = +radius(nodes[i], i, nodes);
strengths[i] = isNaN(radiuses[i]) ? 0 : +strength(nodes[i], i, nodes);
}
}
force.initialize = function(_) {
nodes = _, initialize();
};
force.strength = function(_) {
return arguments.length ? (strength = typeof _ === "function" ? _ : constant(+_), initialize(), force) : strength;
};
force.radius = function(_) {
return arguments.length ? (radius = typeof _ === "function" ? _ : constant(+_), initialize(), force) : radius;
};
force.x = function(_) {
return arguments.length ? (x = +_, force) : x;
};
force.y = function(_) {
return arguments.length ? (y = +_, force) : y;
};
return force;
};
var x$2 = function(x) {
var strength = constant(0.1),
nodes,
strengths,
xz;
if (typeof x !== "function") x = constant(x == null ? 0 : +x);
function force(alpha) {
for (var i = 0, n = nodes.length, node; i < n; ++i) {
node = nodes[i], node.vx += (xz[i] - node.x) * strengths[i] * alpha;
}
}
function initialize() {
if (!nodes) return;
var i, n = nodes.length;
strengths = new Array(n);
xz = new Array(n);
for (i = 0; i < n; ++i) {
strengths[i] = isNaN(xz[i] = +x(nodes[i], i, nodes)) ? 0 : +strength(nodes[i], i, nodes);
}
}
force.initialize = function(_) {
nodes = _;
initialize();
};
force.strength = function(_) {
return arguments.length ? (strength = typeof _ === "function" ? _ : constant(+_), initialize(), force) : strength;
};
force.x = function(_) {
return arguments.length ? (x = typeof _ === "function" ? _ : constant(+_), initialize(), force) : x;
};
return force;
};
var y$2 = function(y) {
var strength = constant(0.1),
nodes,
strengths,
yz;
if (typeof y !== "function") y = constant(y == null ? 0 : +y);
function force(alpha) {
for (var i = 0, n = nodes.length, node; i < n; ++i) {
node = nodes[i], node.vy += (yz[i] - node.y) * strengths[i] * alpha;
}
}
function initialize() {
if (!nodes) return;
var i, n = nodes.length;
strengths = new Array(n);
yz = new Array(n);
for (i = 0; i < n; ++i) {
strengths[i] = isNaN(yz[i] = +y(nodes[i], i, nodes)) ? 0 : +strength(nodes[i], i, nodes);
}
}
force.initialize = function(_) {
nodes = _;
initialize();
};
force.strength = function(_) {
return arguments.length ? (strength = typeof _ === "function" ? _ : constant(+_), initialize(), force) : strength;
};
force.y = function(_) {
return arguments.length ? (y = typeof _ === "function" ? _ : constant(+_), initialize(), force) : y;
};
return force;
};
exports.forceCenter = center;
exports.forceCollide = collide;
exports.forceLink = link;
exports.forceManyBody = manyBody;
exports.forceRadial = radial;
exports.forceSimulation = simulation;
exports.forceX = x$2;
exports.forceY = y$2;
Object.defineProperty(exports, '__esModule', { value: true });
})));
},{"d3-collection":140,"d3-dispatch":142,"d3-quadtree":145,"d3-timer":146}],144:[function(_dereq_,module,exports){
// https://d3js.org/d3-interpolate/ Version 1.2.0. Copyright 2018 Mike Bostock.
(function (global, factory) {
typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports, _dereq_('d3-color')) :
typeof define === 'function' && define.amd ? define(['exports', 'd3-color'], factory) :
(factory((global.d3 = global.d3 || {}),global.d3));
}(this, (function (exports,d3Color) { 'use strict';
function basis(t1, v0, v1, v2, v3) {
var t2 = t1 * t1, t3 = t2 * t1;
return ((1 - 3 * t1 + 3 * t2 - t3) * v0
+ (4 - 6 * t2 + 3 * t3) * v1
+ (1 + 3 * t1 + 3 * t2 - 3 * t3) * v2
+ t3 * v3) / 6;
}
var basis$1 = function(values) {
var n = values.length - 1;
return function(t) {
var i = t <= 0 ? (t = 0) : t >= 1 ? (t = 1, n - 1) : Math.floor(t * n),
v1 = values[i],
v2 = values[i + 1],
v0 = i > 0 ? values[i - 1] : 2 * v1 - v2,
v3 = i < n - 1 ? values[i + 2] : 2 * v2 - v1;
return basis((t - i / n) * n, v0, v1, v2, v3);
};
};
var basisClosed = function(values) {
var n = values.length;
return function(t) {
var i = Math.floor(((t %= 1) < 0 ? ++t : t) * n),
v0 = values[(i + n - 1) % n],
v1 = values[i % n],
v2 = values[(i + 1) % n],
v3 = values[(i + 2) % n];
return basis((t - i / n) * n, v0, v1, v2, v3);
};
};
var constant = function(x) {
return function() {
return x;
};
};
function linear(a, d) {
return function(t) {
return a + t * d;
};
}
function exponential(a, b, y) {
return a = Math.pow(a, y), b = Math.pow(b, y) - a, y = 1 / y, function(t) {
return Math.pow(a + t * b, y);
};
}
function hue(a, b) {
var d = b - a;
return d ? linear(a, d > 180 || d < -180 ? d - 360 * Math.round(d / 360) : d) : constant(isNaN(a) ? b : a);
}
function gamma(y) {
return (y = +y) === 1 ? nogamma : function(a, b) {
return b - a ? exponential(a, b, y) : constant(isNaN(a) ? b : a);
};
}
function nogamma(a, b) {
var d = b - a;
return d ? linear(a, d) : constant(isNaN(a) ? b : a);
}
var rgb$1 = ((function rgbGamma(y) {
var color$$1 = gamma(y);
function rgb$$1(start, end) {
var r = color$$1((start = d3Color.rgb(start)).r, (end = d3Color.rgb(end)).r),
g = color$$1(start.g, end.g),
b = color$$1(start.b, end.b),
opacity = nogamma(start.opacity, end.opacity);
return function(t) {
start.r = r(t);
start.g = g(t);
start.b = b(t);
start.opacity = opacity(t);
return start + "";
};
}
rgb$$1.gamma = rgbGamma;
return rgb$$1;
}))(1);
function rgbSpline(spline) {
return function(colors) {
var n = colors.length,
r = new Array(n),
g = new Array(n),
b = new Array(n),
i, color$$1;
for (i = 0; i < n; ++i) {
color$$1 = d3Color.rgb(colors[i]);
r[i] = color$$1.r || 0;
g[i] = color$$1.g || 0;
b[i] = color$$1.b || 0;
}
r = spline(r);
g = spline(g);
b = spline(b);
color$$1.opacity = 1;
return function(t) {
color$$1.r = r(t);
color$$1.g = g(t);
color$$1.b = b(t);
return color$$1 + "";
};
};
}
var rgbBasis = rgbSpline(basis$1);
var rgbBasisClosed = rgbSpline(basisClosed);
var array = function(a, b) {
var nb = b ? b.length : 0,
na = a ? Math.min(nb, a.length) : 0,
x = new Array(na),
c = new Array(nb),
i;
for (i = 0; i < na; ++i) x[i] = value(a[i], b[i]);
for (; i < nb; ++i) c[i] = b[i];
return function(t) {
for (i = 0; i < na; ++i) c[i] = x[i](t);
return c;
};
};
var date = function(a, b) {
var d = new Date;
return a = +a, b -= a, function(t) {
return d.setTime(a + b * t), d;
};
};
var number = function(a, b) {
return a = +a, b -= a, function(t) {
return a + b * t;
};
};
var object = function(a, b) {
var i = {},
c = {},
k;
if (a === null || typeof a !== "object") a = {};
if (b === null || typeof b !== "object") b = {};
for (k in b) {
if (k in a) {
i[k] = value(a[k], b[k]);
} else {
c[k] = b[k];
}
}
return function(t) {
for (k in i) c[k] = i[k](t);
return c;
};
};
var reA = /[-+]?(?:\d+\.?\d*|\.?\d+)(?:[eE][-+]?\d+)?/g;
var reB = new RegExp(reA.source, "g");
function zero(b) {
return function() {
return b;
};
}
function one(b) {
return function(t) {
return b(t) + "";
};
}
var string = function(a, b) {
var bi = reA.lastIndex = reB.lastIndex = 0, // scan index for next number in b
am, // current match in a
bm, // current match in b
bs, // string preceding current number in b, if any
i = -1, // index in s
s = [], // string constants and placeholders
q = []; // number interpolators
// Coerce inputs to strings.
a = a + "", b = b + "";
// Interpolate pairs of numbers in a & b.
while ((am = reA.exec(a))
&& (bm = reB.exec(b))) {
if ((bs = bm.index) > bi) { // a string precedes the next number in b
bs = b.slice(bi, bs);
if (s[i]) s[i] += bs; // coalesce with previous string
else s[++i] = bs;
}
if ((am = am[0]) === (bm = bm[0])) { // numbers in a & b match
if (s[i]) s[i] += bm; // coalesce with previous string
else s[++i] = bm;
} else { // interpolate non-matching numbers
s[++i] = null;
q.push({i: i, x: number(am, bm)});
}
bi = reB.lastIndex;
}
// Add remains of b.
if (bi < b.length) {
bs = b.slice(bi);
if (s[i]) s[i] += bs; // coalesce with previous string
else s[++i] = bs;
}
// Special optimization for only a single match.
// Otherwise, interpolate each of the numbers and rejoin the string.
return s.length < 2 ? (q[0]
? one(q[0].x)
: zero(b))
: (b = q.length, function(t) {
for (var i = 0, o; i < b; ++i) s[(o = q[i]).i] = o.x(t);
return s.join("");
});
};
var value = function(a, b) {
var t = typeof b, c;
return b == null || t === "boolean" ? constant(b)
: (t === "number" ? number
: t === "string" ? ((c = d3Color.color(b)) ? (b = c, rgb$1) : string)
: b instanceof d3Color.color ? rgb$1
: b instanceof Date ? date
: Array.isArray(b) ? array
: typeof b.valueOf !== "function" && typeof b.toString !== "function" || isNaN(b) ? object
: number)(a, b);
};
var round = function(a, b) {
return a = +a, b -= a, function(t) {
return Math.round(a + b * t);
};
};
var degrees = 180 / Math.PI;
var identity = {
translateX: 0,
translateY: 0,
rotate: 0,
skewX: 0,
scaleX: 1,
scaleY: 1
};
var decompose = function(a, b, c, d, e, f) {
var scaleX, scaleY, skewX;
if (scaleX = Math.sqrt(a * a + b * b)) a /= scaleX, b /= scaleX;
if (skewX = a * c + b * d) c -= a * skewX, d -= b * skewX;
if (scaleY = Math.sqrt(c * c + d * d)) c /= scaleY, d /= scaleY, skewX /= scaleY;
if (a * d < b * c) a = -a, b = -b, skewX = -skewX, scaleX = -scaleX;
return {
translateX: e,
translateY: f,
rotate: Math.atan2(b, a) * degrees,
skewX: Math.atan(skewX) * degrees,
scaleX: scaleX,
scaleY: scaleY
};
};
var cssNode;
var cssRoot;
var cssView;
var svgNode;
function parseCss(value) {
if (value === "none") return identity;
if (!cssNode) cssNode = document.createElement("DIV"), cssRoot = document.documentElement, cssView = document.defaultView;
cssNode.style.transform = value;
value = cssView.getComputedStyle(cssRoot.appendChild(cssNode), null).getPropertyValue("transform");
cssRoot.removeChild(cssNode);
value = value.slice(7, -1).split(",");
return decompose(+value[0], +value[1], +value[2], +value[3], +value[4], +value[5]);
}
function parseSvg(value) {
if (value == null) return identity;
if (!svgNode) svgNode = document.createElementNS("http://www.w3.org/2000/svg", "g");
svgNode.setAttribute("transform", value);
if (!(value = svgNode.transform.baseVal.consolidate())) return identity;
value = value.matrix;
return decompose(value.a, value.b, value.c, value.d, value.e, value.f);
}
function interpolateTransform(parse, pxComma, pxParen, degParen) {
function pop(s) {
return s.length ? s.pop() + " " : "";
}
function translate(xa, ya, xb, yb, s, q) {
if (xa !== xb || ya !== yb) {
var i = s.push("translate(", null, pxComma, null, pxParen);
q.push({i: i - 4, x: number(xa, xb)}, {i: i - 2, x: number(ya, yb)});
} else if (xb || yb) {
s.push("translate(" + xb + pxComma + yb + pxParen);
}
}
function rotate(a, b, s, q) {
if (a !== b) {
if (a - b > 180) b += 360; else if (b - a > 180) a += 360; // shortest path
q.push({i: s.push(pop(s) + "rotate(", null, degParen) - 2, x: number(a, b)});
} else if (b) {
s.push(pop(s) + "rotate(" + b + degParen);
}
}
function skewX(a, b, s, q) {
if (a !== b) {
q.push({i: s.push(pop(s) + "skewX(", null, degParen) - 2, x: number(a, b)});
} else if (b) {
s.push(pop(s) + "skewX(" + b + degParen);
}
}
function scale(xa, ya, xb, yb, s, q) {
if (xa !== xb || ya !== yb) {
var i = s.push(pop(s) + "scale(", null, ",", null, ")");
q.push({i: i - 4, x: number(xa, xb)}, {i: i - 2, x: number(ya, yb)});
} else if (xb !== 1 || yb !== 1) {
s.push(pop(s) + "scale(" + xb + "," + yb + ")");
}
}
return function(a, b) {
var s = [], // string constants and placeholders
q = []; // number interpolators
a = parse(a), b = parse(b);
translate(a.translateX, a.translateY, b.translateX, b.translateY, s, q);
rotate(a.rotate, b.rotate, s, q);
skewX(a.skewX, b.skewX, s, q);
scale(a.scaleX, a.scaleY, b.scaleX, b.scaleY, s, q);
a = b = null; // gc
return function(t) {
var i = -1, n = q.length, o;
while (++i < n) s[(o = q[i]).i] = o.x(t);
return s.join("");
};
};
}
var interpolateTransformCss = interpolateTransform(parseCss, "px, ", "px)", "deg)");
var interpolateTransformSvg = interpolateTransform(parseSvg, ", ", ")", ")");
var rho = Math.SQRT2;
var rho2 = 2;
var rho4 = 4;
var epsilon2 = 1e-12;
function cosh(x) {
return ((x = Math.exp(x)) + 1 / x) / 2;
}
function sinh(x) {
return ((x = Math.exp(x)) - 1 / x) / 2;
}
function tanh(x) {
return ((x = Math.exp(2 * x)) - 1) / (x + 1);
}
// p0 = [ux0, uy0, w0]
// p1 = [ux1, uy1, w1]
var zoom = function(p0, p1) {
var ux0 = p0[0], uy0 = p0[1], w0 = p0[2],
ux1 = p1[0], uy1 = p1[1], w1 = p1[2],
dx = ux1 - ux0,
dy = uy1 - uy0,
d2 = dx * dx + dy * dy,
i,
S;
// Special case for u0 ≅ u1.
if (d2 < epsilon2) {
S = Math.log(w1 / w0) / rho;
i = function(t) {
return [
ux0 + t * dx,
uy0 + t * dy,
w0 * Math.exp(rho * t * S)
];
};
}
// General case.
else {
var d1 = Math.sqrt(d2),
b0 = (w1 * w1 - w0 * w0 + rho4 * d2) / (2 * w0 * rho2 * d1),
b1 = (w1 * w1 - w0 * w0 - rho4 * d2) / (2 * w1 * rho2 * d1),
r0 = Math.log(Math.sqrt(b0 * b0 + 1) - b0),
r1 = Math.log(Math.sqrt(b1 * b1 + 1) - b1);
S = (r1 - r0) / rho;
i = function(t) {
var s = t * S,
coshr0 = cosh(r0),
u = w0 / (rho2 * d1) * (coshr0 * tanh(rho * s + r0) - sinh(r0));
return [
ux0 + u * dx,
uy0 + u * dy,
w0 * coshr0 / cosh(rho * s + r0)
];
};
}
i.duration = S * 1000;
return i;
};
function hsl$1(hue$$1) {
return function(start, end) {
var h = hue$$1((start = d3Color.hsl(start)).h, (end = d3Color.hsl(end)).h),
s = nogamma(start.s, end.s),
l = nogamma(start.l, end.l),
opacity = nogamma(start.opacity, end.opacity);
return function(t) {
start.h = h(t);
start.s = s(t);
start.l = l(t);
start.opacity = opacity(t);
return start + "";
};
}
}
var hsl$2 = hsl$1(hue);
var hslLong = hsl$1(nogamma);
function lab$1(start, end) {
var l = nogamma((start = d3Color.lab(start)).l, (end = d3Color.lab(end)).l),
a = nogamma(start.a, end.a),
b = nogamma(start.b, end.b),
opacity = nogamma(start.opacity, end.opacity);
return function(t) {
start.l = l(t);
start.a = a(t);
start.b = b(t);
start.opacity = opacity(t);
return start + "";
};
}
function hcl$1(hue$$1) {
return function(start, end) {
var h = hue$$1((start = d3Color.hcl(start)).h, (end = d3Color.hcl(end)).h),
c = nogamma(start.c, end.c),
l = nogamma(start.l, end.l),
opacity = nogamma(start.opacity, end.opacity);
return function(t) {
start.h = h(t);
start.c = c(t);
start.l = l(t);
start.opacity = opacity(t);
return start + "";
};
}
}
var hcl$2 = hcl$1(hue);
var hclLong = hcl$1(nogamma);
function cubehelix$1(hue$$1) {
return (function cubehelixGamma(y) {
y = +y;
function cubehelix$$1(start, end) {
var h = hue$$1((start = d3Color.cubehelix(start)).h, (end = d3Color.cubehelix(end)).h),
s = nogamma(start.s, end.s),
l = nogamma(start.l, end.l),
opacity = nogamma(start.opacity, end.opacity);
return function(t) {
start.h = h(t);
start.s = s(t);
start.l = l(Math.pow(t, y));
start.opacity = opacity(t);
return start + "";
};
}
cubehelix$$1.gamma = cubehelixGamma;
return cubehelix$$1;
})(1);
}
var cubehelix$2 = cubehelix$1(hue);
var cubehelixLong = cubehelix$1(nogamma);
function piecewise(interpolate, values) {
var i = 0, n = values.length - 1, v = values[0], I = new Array(n < 0 ? 0 : n);
while (i < n) I[i] = interpolate(v, v = values[++i]);
return function(t) {
var i = Math.max(0, Math.min(n - 1, Math.floor(t *= n)));
return I[i](t - i);
};
}
var quantize = function(interpolator, n) {
var samples = new Array(n);
for (var i = 0; i < n; ++i) samples[i] = interpolator(i / (n - 1));
return samples;
};
exports.interpolate = value;
exports.interpolateArray = array;
exports.interpolateBasis = basis$1;
exports.interpolateBasisClosed = basisClosed;
exports.interpolateDate = date;
exports.interpolateNumber = number;
exports.interpolateObject = object;
exports.interpolateRound = round;
exports.interpolateString = string;
exports.interpolateTransformCss = interpolateTransformCss;
exports.interpolateTransformSvg = interpolateTransformSvg;
exports.interpolateZoom = zoom;
exports.interpolateRgb = rgb$1;
exports.interpolateRgbBasis = rgbBasis;
exports.interpolateRgbBasisClosed = rgbBasisClosed;
exports.interpolateHsl = hsl$2;
exports.interpolateHslLong = hslLong;
exports.interpolateLab = lab$1;
exports.interpolateHcl = hcl$2;
exports.interpolateHclLong = hclLong;
exports.interpolateCubehelix = cubehelix$2;
exports.interpolateCubehelixLong = cubehelixLong;
exports.piecewise = piecewise;
exports.quantize = quantize;
Object.defineProperty(exports, '__esModule', { value: true });
})));
},{"d3-color":141}],145:[function(_dereq_,module,exports){
// https://d3js.org/d3-quadtree/ Version 1.0.3. Copyright 2017 Mike Bostock.
(function (global, factory) {
typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports) :
typeof define === 'function' && define.amd ? define(['exports'], factory) :
(factory((global.d3 = global.d3 || {})));
}(this, (function (exports) { 'use strict';
var tree_add = function(d) {
var x = +this._x.call(null, d),
y = +this._y.call(null, d);
return add(this.cover(x, y), x, y, d);
};
function add(tree, x, y, d) {
if (isNaN(x) || isNaN(y)) return tree; // ignore invalid points
var parent,
node = tree._root,
leaf = {data: d},
x0 = tree._x0,
y0 = tree._y0,
x1 = tree._x1,
y1 = tree._y1,
xm,
ym,
xp,
yp,
right,
bottom,
i,
j;
// If the tree is empty, initialize the root as a leaf.
if (!node) return tree._root = leaf, tree;
// Find the existing leaf for the new point, or add it.
while (node.length) {
if (right = x >= (xm = (x0 + x1) / 2)) x0 = xm; else x1 = xm;
if (bottom = y >= (ym = (y0 + y1) / 2)) y0 = ym; else y1 = ym;
if (parent = node, !(node = node[i = bottom << 1 | right])) return parent[i] = leaf, tree;
}
// Is the new point is exactly coincident with the existing point?
xp = +tree._x.call(null, node.data);
yp = +tree._y.call(null, node.data);
if (x === xp && y === yp) return leaf.next = node, parent ? parent[i] = leaf : tree._root = leaf, tree;
// Otherwise, split the leaf node until the old and new point are separated.
do {
parent = parent ? parent[i] = new Array(4) : tree._root = new Array(4);
if (right = x >= (xm = (x0 + x1) / 2)) x0 = xm; else x1 = xm;
if (bottom = y >= (ym = (y0 + y1) / 2)) y0 = ym; else y1 = ym;
} while ((i = bottom << 1 | right) === (j = (yp >= ym) << 1 | (xp >= xm)));
return parent[j] = node, parent[i] = leaf, tree;
}
function addAll(data) {
var d, i, n = data.length,
x,
y,
xz = new Array(n),
yz = new Array(n),
x0 = Infinity,
y0 = Infinity,
x1 = -Infinity,
y1 = -Infinity;
// Compute the points and their extent.
for (i = 0; i < n; ++i) {
if (isNaN(x = +this._x.call(null, d = data[i])) || isNaN(y = +this._y.call(null, d))) continue;
xz[i] = x;
yz[i] = y;
if (x < x0) x0 = x;
if (x > x1) x1 = x;
if (y < y0) y0 = y;
if (y > y1) y1 = y;
}
// If there were no (valid) points, inherit the existing extent.
if (x1 < x0) x0 = this._x0, x1 = this._x1;
if (y1 < y0) y0 = this._y0, y1 = this._y1;
// Expand the tree to cover the new points.
this.cover(x0, y0).cover(x1, y1);
// Add the new points.
for (i = 0; i < n; ++i) {
add(this, xz[i], yz[i], data[i]);
}
return this;
}
var tree_cover = function(x, y) {
if (isNaN(x = +x) || isNaN(y = +y)) return this; // ignore invalid points
var x0 = this._x0,
y0 = this._y0,
x1 = this._x1,
y1 = this._y1;
// If the quadtree has no extent, initialize them.
// Integer extent are necessary so that if we later double the extent,
// the existing quadrant boundaries don’t change due to floating point error!
if (isNaN(x0)) {
x1 = (x0 = Math.floor(x)) + 1;
y1 = (y0 = Math.floor(y)) + 1;
}
// Otherwise, double repeatedly to cover.
else if (x0 > x || x > x1 || y0 > y || y > y1) {
var z = x1 - x0,
node = this._root,
parent,
i;
switch (i = (y < (y0 + y1) / 2) << 1 | (x < (x0 + x1) / 2)) {
case 0: {
do parent = new Array(4), parent[i] = node, node = parent;
while (z *= 2, x1 = x0 + z, y1 = y0 + z, x > x1 || y > y1);
break;
}
case 1: {
do parent = new Array(4), parent[i] = node, node = parent;
while (z *= 2, x0 = x1 - z, y1 = y0 + z, x0 > x || y > y1);
break;
}
case 2: {
do parent = new Array(4), parent[i] = node, node = parent;
while (z *= 2, x1 = x0 + z, y0 = y1 - z, x > x1 || y0 > y);
break;
}
case 3: {
do parent = new Array(4), parent[i] = node, node = parent;
while (z *= 2, x0 = x1 - z, y0 = y1 - z, x0 > x || y0 > y);
break;
}
}
if (this._root && this._root.length) this._root = node;
}
// If the quadtree covers the point already, just return.
else return this;
this._x0 = x0;
this._y0 = y0;
this._x1 = x1;
this._y1 = y1;
return this;
};
var tree_data = function() {
var data = [];
this.visit(function(node) {
if (!node.length) do data.push(node.data); while (node = node.next)
});
return data;
};
var tree_extent = function(_) {
return arguments.length
? this.cover(+_[0][0], +_[0][1]).cover(+_[1][0], +_[1][1])
: isNaN(this._x0) ? undefined : [[this._x0, this._y0], [this._x1, this._y1]];
};
var Quad = function(node, x0, y0, x1, y1) {
this.node = node;
this.x0 = x0;
this.y0 = y0;
this.x1 = x1;
this.y1 = y1;
};
var tree_find = function(x, y, radius) {
var data,
x0 = this._x0,
y0 = this._y0,
x1,
y1,
x2,
y2,
x3 = this._x1,
y3 = this._y1,
quads = [],
node = this._root,
q,
i;
if (node) quads.push(new Quad(node, x0, y0, x3, y3));
if (radius == null) radius = Infinity;
else {
x0 = x - radius, y0 = y - radius;
x3 = x + radius, y3 = y + radius;
radius *= radius;
}
while (q = quads.pop()) {
// Stop searching if this quadrant can’t contain a closer node.
if (!(node = q.node)
|| (x1 = q.x0) > x3
|| (y1 = q.y0) > y3
|| (x2 = q.x1) < x0
|| (y2 = q.y1) < y0) continue;
// Bisect the current quadrant.
if (node.length) {
var xm = (x1 + x2) / 2,
ym = (y1 + y2) / 2;
quads.push(
new Quad(node[3], xm, ym, x2, y2),
new Quad(node[2], x1, ym, xm, y2),
new Quad(node[1], xm, y1, x2, ym),
new Quad(node[0], x1, y1, xm, ym)
);
// Visit the closest quadrant first.
if (i = (y >= ym) << 1 | (x >= xm)) {
q = quads[quads.length - 1];
quads[quads.length - 1] = quads[quads.length - 1 - i];
quads[quads.length - 1 - i] = q;
}
}
// Visit this point. (Visiting coincident points isn’t necessary!)
else {
var dx = x - +this._x.call(null, node.data),
dy = y - +this._y.call(null, node.data),
d2 = dx * dx + dy * dy;
if (d2 < radius) {
var d = Math.sqrt(radius = d2);
x0 = x - d, y0 = y - d;
x3 = x + d, y3 = y + d;
data = node.data;
}
}
}
return data;
};
var tree_remove = function(d) {
if (isNaN(x = +this._x.call(null, d)) || isNaN(y = +this._y.call(null, d))) return this; // ignore invalid points
var parent,
node = this._root,
retainer,
previous,
next,
x0 = this._x0,
y0 = this._y0,
x1 = this._x1,
y1 = this._y1,
x,
y,
xm,
ym,
right,
bottom,
i,
j;
// If the tree is empty, initialize the root as a leaf.
if (!node) return this;
// Find the leaf node for the point.
// While descending, also retain the deepest parent with a non-removed sibling.
if (node.length) while (true) {
if (right = x >= (xm = (x0 + x1) / 2)) x0 = xm; else x1 = xm;
if (bottom = y >= (ym = (y0 + y1) / 2)) y0 = ym; else y1 = ym;
if (!(parent = node, node = node[i = bottom << 1 | right])) return this;
if (!node.length) break;
if (parent[(i + 1) & 3] || parent[(i + 2) & 3] || parent[(i + 3) & 3]) retainer = parent, j = i;
}
// Find the point to remove.
while (node.data !== d) if (!(previous = node, node = node.next)) return this;
if (next = node.next) delete node.next;
// If there are multiple coincident points, remove just the point.
if (previous) return (next ? previous.next = next : delete previous.next), this;
// If this is the root point, remove it.
if (!parent) return this._root = next, this;
// Remove this leaf.
next ? parent[i] = next : delete parent[i];
// If the parent now contains exactly one leaf, collapse superfluous parents.
if ((node = parent[0] || parent[1] || parent[2] || parent[3])
&& node === (parent[3] || parent[2] || parent[1] || parent[0])
&& !node.length) {
if (retainer) retainer[j] = node;
else this._root = node;
}
return this;
};
function removeAll(data) {
for (var i = 0, n = data.length; i < n; ++i) this.remove(data[i]);
return this;
}
var tree_root = function() {
return this._root;
};
var tree_size = function() {
var size = 0;
this.visit(function(node) {
if (!node.length) do ++size; while (node = node.next)
});
return size;
};
var tree_visit = function(callback) {
var quads = [], q, node = this._root, child, x0, y0, x1, y1;
if (node) quads.push(new Quad(node, this._x0, this._y0, this._x1, this._y1));
while (q = quads.pop()) {
if (!callback(node = q.node, x0 = q.x0, y0 = q.y0, x1 = q.x1, y1 = q.y1) && node.length) {
var xm = (x0 + x1) / 2, ym = (y0 + y1) / 2;
if (child = node[3]) quads.push(new Quad(child, xm, ym, x1, y1));
if (child = node[2]) quads.push(new Quad(child, x0, ym, xm, y1));
if (child = node[1]) quads.push(new Quad(child, xm, y0, x1, ym));
if (child = node[0]) quads.push(new Quad(child, x0, y0, xm, ym));
}
}
return this;
};
var tree_visitAfter = function(callback) {
var quads = [], next = [], q;
if (this._root) quads.push(new Quad(this._root, this._x0, this._y0, this._x1, this._y1));
while (q = quads.pop()) {
var node = q.node;
if (node.length) {
var child, x0 = q.x0, y0 = q.y0, x1 = q.x1, y1 = q.y1, xm = (x0 + x1) / 2, ym = (y0 + y1) / 2;
if (child = node[0]) quads.push(new Quad(child, x0, y0, xm, ym));
if (child = node[1]) quads.push(new Quad(child, xm, y0, x1, ym));
if (child = node[2]) quads.push(new Quad(child, x0, ym, xm, y1));
if (child = node[3]) quads.push(new Quad(child, xm, ym, x1, y1));
}
next.push(q);
}
while (q = next.pop()) {
callback(q.node, q.x0, q.y0, q.x1, q.y1);
}
return this;
};
function defaultX(d) {
return d[0];
}
var tree_x = function(_) {
return arguments.length ? (this._x = _, this) : this._x;
};
function defaultY(d) {
return d[1];
}
var tree_y = function(_) {
return arguments.length ? (this._y = _, this) : this._y;
};
function quadtree(nodes, x, y) {
var tree = new Quadtree(x == null ? defaultX : x, y == null ? defaultY : y, NaN, NaN, NaN, NaN);
return nodes == null ? tree : tree.addAll(nodes);
}
function Quadtree(x, y, x0, y0, x1, y1) {
this._x = x;
this._y = y;
this._x0 = x0;
this._y0 = y0;
this._x1 = x1;
this._y1 = y1;
this._root = undefined;
}
function leaf_copy(leaf) {
var copy = {data: leaf.data}, next = copy;
while (leaf = leaf.next) next = next.next = {data: leaf.data};
return copy;
}
var treeProto = quadtree.prototype = Quadtree.prototype;
treeProto.copy = function() {
var copy = new Quadtree(this._x, this._y, this._x0, this._y0, this._x1, this._y1),
node = this._root,
nodes,
child;
if (!node) return copy;
if (!node.length) return copy._root = leaf_copy(node), copy;
nodes = [{source: node, target: copy._root = new Array(4)}];
while (node = nodes.pop()) {
for (var i = 0; i < 4; ++i) {
if (child = node.source[i]) {
if (child.length) nodes.push({source: child, target: node.target[i] = new Array(4)});
else node.target[i] = leaf_copy(child);
}
}
}
return copy;
};
treeProto.add = tree_add;
treeProto.addAll = addAll;
treeProto.cover = tree_cover;
treeProto.data = tree_data;
treeProto.extent = tree_extent;
treeProto.find = tree_find;
treeProto.remove = tree_remove;
treeProto.removeAll = removeAll;
treeProto.root = tree_root;
treeProto.size = tree_size;
treeProto.visit = tree_visit;
treeProto.visitAfter = tree_visitAfter;
treeProto.x = tree_x;
treeProto.y = tree_y;
exports.quadtree = quadtree;
Object.defineProperty(exports, '__esModule', { value: true });
})));
},{}],146:[function(_dereq_,module,exports){
// https://d3js.org/d3-timer/ Version 1.0.7. Copyright 2017 Mike Bostock.
(function (global, factory) {
typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports) :
typeof define === 'function' && define.amd ? define(['exports'], factory) :
(factory((global.d3 = global.d3 || {})));
}(this, (function (exports) { 'use strict';
var frame = 0;
var timeout = 0;
var interval = 0;
var pokeDelay = 1000;
var taskHead;
var taskTail;
var clockLast = 0;
var clockNow = 0;
var clockSkew = 0;
var clock = typeof performance === "object" && performance.now ? performance : Date;
var setFrame = typeof window === "object" && window.requestAnimationFrame ? window.requestAnimationFrame.bind(window) : function(f) { setTimeout(f, 17); };
function now() {
return clockNow || (setFrame(clearNow), clockNow = clock.now() + clockSkew);
}
function clearNow() {
clockNow = 0;
}
function Timer() {
this._call =
this._time =
this._next = null;
}
Timer.prototype = timer.prototype = {
constructor: Timer,
restart: function(callback, delay, time) {
if (typeof callback !== "function") throw new TypeError("callback is not a function");
time = (time == null ? now() : +time) + (delay == null ? 0 : +delay);
if (!this._next && taskTail !== this) {
if (taskTail) taskTail._next = this;
else taskHead = this;
taskTail = this;
}
this._call = callback;
this._time = time;
sleep();
},
stop: function() {
if (this._call) {
this._call = null;
this._time = Infinity;
sleep();
}
}
};
function timer(callback, delay, time) {
var t = new Timer;
t.restart(callback, delay, time);
return t;
}
function timerFlush() {
now(); // Get the current time, if not already set.
++frame; // Pretend we’ve set an alarm, if we haven’t already.
var t = taskHead, e;
while (t) {
if ((e = clockNow - t._time) >= 0) t._call.call(null, e);
t = t._next;
}
--frame;
}
function wake() {
clockNow = (clockLast = clock.now()) + clockSkew;
frame = timeout = 0;
try {
timerFlush();
} finally {
frame = 0;
nap();
clockNow = 0;
}
}
function poke() {
var now = clock.now(), delay = now - clockLast;
if (delay > pokeDelay) clockSkew -= delay, clockLast = now;
}
function nap() {
var t0, t1 = taskHead, t2, time = Infinity;
while (t1) {
if (t1._call) {
if (time > t1._time) time = t1._time;
t0 = t1, t1 = t1._next;
} else {
t2 = t1._next, t1._next = null;
t1 = t0 ? t0._next = t2 : taskHead = t2;
}
}
taskTail = t0;
sleep(time);
}
function sleep(time) {
if (frame) return; // Soonest alarm already set, or will be.
if (timeout) timeout = clearTimeout(timeout);
var delay = time - clockNow; // Strictly less than if we recomputed clockNow.
if (delay > 24) {
if (time < Infinity) timeout = setTimeout(wake, time - clock.now() - clockSkew);
if (interval) interval = clearInterval(interval);
} else {
if (!interval) clockLast = clock.now(), interval = setInterval(poke, pokeDelay);
frame = 1, setFrame(wake);
}
}
var timeout$1 = function(callback, delay, time) {
var t = new Timer;
delay = delay == null ? 0 : +delay;
t.restart(function(elapsed) {
t.stop();
callback(elapsed + delay);
}, delay, time);
return t;
};
var interval$1 = function(callback, delay, time) {
var t = new Timer, total = delay;
if (delay == null) return t.restart(callback, delay, time), t;
delay = +delay, time = time == null ? now() : +time;
t.restart(function tick(elapsed) {
elapsed += total;
t.restart(tick, total += delay, time);
callback(elapsed);
}, delay, time);
return t;
};
exports.now = now;
exports.timer = timer;
exports.timerFlush = timerFlush;
exports.timeout = timeout$1;
exports.interval = interval$1;
Object.defineProperty(exports, '__esModule', { value: true });
})));
},{}],147:[function(_dereq_,module,exports){
!function() {
var d3 = {
version: "3.5.17"
};
var d3_arraySlice = [].slice, d3_array = function(list) {
return d3_arraySlice.call(list);
};
var d3_document = this.document;
function d3_documentElement(node) {
return node && (node.ownerDocument || node.document || node).documentElement;
}
function d3_window(node) {
return node && (node.ownerDocument && node.ownerDocument.defaultView || node.document && node || node.defaultView);
}
if (d3_document) {
try {
d3_array(d3_document.documentElement.childNodes)[0].nodeType;
} catch (e) {
d3_array = function(list) {
var i = list.length, array = new Array(i);
while (i--) array[i] = list[i];
return array;
};
}
}
if (!Date.now) Date.now = function() {
return +new Date();
};
if (d3_document) {
try {
d3_document.createElement("DIV").style.setProperty("opacity", 0, "");
} catch (error) {
var d3_element_prototype = this.Element.prototype, d3_element_setAttribute = d3_element_prototype.setAttribute, d3_element_setAttributeNS = d3_element_prototype.setAttributeNS, d3_style_prototype = this.CSSStyleDeclaration.prototype, d3_style_setProperty = d3_style_prototype.setProperty;
d3_element_prototype.setAttribute = function(name, value) {
d3_element_setAttribute.call(this, name, value + "");
};
d3_element_prototype.setAttributeNS = function(space, local, value) {
d3_element_setAttributeNS.call(this, space, local, value + "");
};
d3_style_prototype.setProperty = function(name, value, priority) {
d3_style_setProperty.call(this, name, value + "", priority);
};
}
}
d3.ascending = d3_ascending;
function d3_ascending(a, b) {
return a < b ? -1 : a > b ? 1 : a >= b ? 0 : NaN;
}
d3.descending = function(a, b) {
return b < a ? -1 : b > a ? 1 : b >= a ? 0 : NaN;
};
d3.min = function(array, f) {
var i = -1, n = array.length, a, b;
if (arguments.length === 1) {
while (++i < n) if ((b = array[i]) != null && b >= b) {
a = b;
break;
}
while (++i < n) if ((b = array[i]) != null && a > b) a = b;
} else {
while (++i < n) if ((b = f.call(array, array[i], i)) != null && b >= b) {
a = b;
break;
}
while (++i < n) if ((b = f.call(array, array[i], i)) != null && a > b) a = b;
}
return a;
};
d3.max = function(array, f) {
var i = -1, n = array.length, a, b;
if (arguments.length === 1) {
while (++i < n) if ((b = array[i]) != null && b >= b) {
a = b;
break;
}
while (++i < n) if ((b = array[i]) != null && b > a) a = b;
} else {
while (++i < n) if ((b = f.call(array, array[i], i)) != null && b >= b) {
a = b;
break;
}
while (++i < n) if ((b = f.call(array, array[i], i)) != null && b > a) a = b;
}
return a;
};
d3.extent = function(array, f) {
var i = -1, n = array.length, a, b, c;
if (arguments.length === 1) {
while (++i < n) if ((b = array[i]) != null && b >= b) {
a = c = b;
break;
}
while (++i < n) if ((b = array[i]) != null) {
if (a > b) a = b;
if (c < b) c = b;
}
} else {
while (++i < n) if ((b = f.call(array, array[i], i)) != null && b >= b) {
a = c = b;
break;
}
while (++i < n) if ((b = f.call(array, array[i], i)) != null) {
if (a > b) a = b;
if (c < b) c = b;
}
}
return [ a, c ];
};
function d3_number(x) {
return x === null ? NaN : +x;
}
function d3_numeric(x) {
return !isNaN(x);
}
d3.sum = function(array, f) {
var s = 0, n = array.length, a, i = -1;
if (arguments.length === 1) {
while (++i < n) if (d3_numeric(a = +array[i])) s += a;
} else {
while (++i < n) if (d3_numeric(a = +f.call(array, array[i], i))) s += a;
}
return s;
};
d3.mean = function(array, f) {
var s = 0, n = array.length, a, i = -1, j = n;
if (arguments.length === 1) {
while (++i < n) if (d3_numeric(a = d3_number(array[i]))) s += a; else --j;
} else {
while (++i < n) if (d3_numeric(a = d3_number(f.call(array, array[i], i)))) s += a; else --j;
}
if (j) return s / j;
};
d3.quantile = function(values, p) {
var H = (values.length - 1) * p + 1, h = Math.floor(H), v = +values[h - 1], e = H - h;
return e ? v + e * (values[h] - v) : v;
};
d3.median = function(array, f) {
var numbers = [], n = array.length, a, i = -1;
if (arguments.length === 1) {
while (++i < n) if (d3_numeric(a = d3_number(array[i]))) numbers.push(a);
} else {
while (++i < n) if (d3_numeric(a = d3_number(f.call(array, array[i], i)))) numbers.push(a);
}
if (numbers.length) return d3.quantile(numbers.sort(d3_ascending), .5);
};
d3.variance = function(array, f) {
var n = array.length, m = 0, a, d, s = 0, i = -1, j = 0;
if (arguments.length === 1) {
while (++i < n) {
if (d3_numeric(a = d3_number(array[i]))) {
d = a - m;
m += d / ++j;
s += d * (a - m);
}
}
} else {
while (++i < n) {
if (d3_numeric(a = d3_number(f.call(array, array[i], i)))) {
d = a - m;
m += d / ++j;
s += d * (a - m);
}
}
}
if (j > 1) return s / (j - 1);
};
d3.deviation = function() {
var v = d3.variance.apply(this, arguments);
return v ? Math.sqrt(v) : v;
};
function d3_bisector(compare) {
return {
left: function(a, x, lo, hi) {
if (arguments.length < 3) lo = 0;
if (arguments.length < 4) hi = a.length;
while (lo < hi) {
var mid = lo + hi >>> 1;
if (compare(a[mid], x) < 0) lo = mid + 1; else hi = mid;
}
return lo;
},
right: function(a, x, lo, hi) {
if (arguments.length < 3) lo = 0;
if (arguments.length < 4) hi = a.length;
while (lo < hi) {
var mid = lo + hi >>> 1;
if (compare(a[mid], x) > 0) hi = mid; else lo = mid + 1;
}
return lo;
}
};
}
var d3_bisect = d3_bisector(d3_ascending);
d3.bisectLeft = d3_bisect.left;
d3.bisect = d3.bisectRight = d3_bisect.right;
d3.bisector = function(f) {
return d3_bisector(f.length === 1 ? function(d, x) {
return d3_ascending(f(d), x);
} : f);
};
d3.shuffle = function(array, i0, i1) {
if ((m = arguments.length) < 3) {
i1 = array.length;
if (m < 2) i0 = 0;
}
var m = i1 - i0, t, i;
while (m) {
i = Math.random() * m-- | 0;
t = array[m + i0], array[m + i0] = array[i + i0], array[i + i0] = t;
}
return array;
};
d3.permute = function(array, indexes) {
var i = indexes.length, permutes = new Array(i);
while (i--) permutes[i] = array[indexes[i]];
return permutes;
};
d3.pairs = function(array) {
var i = 0, n = array.length - 1, p0, p1 = array[0], pairs = new Array(n < 0 ? 0 : n);
while (i < n) pairs[i] = [ p0 = p1, p1 = array[++i] ];
return pairs;
};
d3.transpose = function(matrix) {
if (!(n = matrix.length)) return [];
for (var i = -1, m = d3.min(matrix, d3_transposeLength), transpose = new Array(m); ++i < m; ) {
for (var j = -1, n, row = transpose[i] = new Array(n); ++j < n; ) {
row[j] = matrix[j][i];
}
}
return transpose;
};
function d3_transposeLength(d) {
return d.length;
}
d3.zip = function() {
return d3.transpose(arguments);
};
d3.keys = function(map) {
var keys = [];
for (var key in map) keys.push(key);
return keys;
};
d3.values = function(map) {
var values = [];
for (var key in map) values.push(map[key]);
return values;
};
d3.entries = function(map) {
var entries = [];
for (var key in map) entries.push({
key: key,
value: map[key]
});
return entries;
};
d3.merge = function(arrays) {
var n = arrays.length, m, i = -1, j = 0, merged, array;
while (++i < n) j += arrays[i].length;
merged = new Array(j);
while (--n >= 0) {
array = arrays[n];
m = array.length;
while (--m >= 0) {
merged[--j] = array[m];
}
}
return merged;
};
var abs = Math.abs;
d3.range = function(start, stop, step) {
if (arguments.length < 3) {
step = 1;
if (arguments.length < 2) {
stop = start;
start = 0;
}
}
if ((stop - start) / step === Infinity) throw new Error("infinite range");
var range = [], k = d3_range_integerScale(abs(step)), i = -1, j;
start *= k, stop *= k, step *= k;
if (step < 0) while ((j = start + step * ++i) > stop) range.push(j / k); else while ((j = start + step * ++i) < stop) range.push(j / k);
return range;
};
function d3_range_integerScale(x) {
var k = 1;
while (x * k % 1) k *= 10;
return k;
}
function d3_class(ctor, properties) {
for (var key in properties) {
Object.defineProperty(ctor.prototype, key, {
value: properties[key],
enumerable: false
});
}
}
d3.map = function(object, f) {
var map = new d3_Map();
if (object instanceof d3_Map) {
object.forEach(function(key, value) {
map.set(key, value);
});
} else if (Array.isArray(object)) {
var i = -1, n = object.length, o;
if (arguments.length === 1) while (++i < n) map.set(i, object[i]); else while (++i < n) map.set(f.call(object, o = object[i], i), o);
} else {
for (var key in object) map.set(key, object[key]);
}
return map;
};
function d3_Map() {
this._ = Object.create(null);
}
var d3_map_proto = "__proto__", d3_map_zero = "\x00";
d3_class(d3_Map, {
has: d3_map_has,
get: function(key) {
return this._[d3_map_escape(key)];
},
set: function(key, value) {
return this._[d3_map_escape(key)] = value;
},
remove: d3_map_remove,
keys: d3_map_keys,
values: function() {
var values = [];
for (var key in this._) values.push(this._[key]);
return values;
},
entries: function() {
var entries = [];
for (var key in this._) entries.push({
key: d3_map_unescape(key),
value: this._[key]
});
return entries;
},
size: d3_map_size,
empty: d3_map_empty,
forEach: function(f) {
for (var key in this._) f.call(this, d3_map_unescape(key), this._[key]);
}
});
function d3_map_escape(key) {
return (key += "") === d3_map_proto || key[0] === d3_map_zero ? d3_map_zero + key : key;
}
function d3_map_unescape(key) {
return (key += "")[0] === d3_map_zero ? key.slice(1) : key;
}
function d3_map_has(key) {
return d3_map_escape(key) in this._;
}
function d3_map_remove(key) {
return (key = d3_map_escape(key)) in this._ && delete this._[key];
}
function d3_map_keys() {
var keys = [];
for (var key in this._) keys.push(d3_map_unescape(key));
return keys;
}
function d3_map_size() {
var size = 0;
for (var key in this._) ++size;
return size;
}
function d3_map_empty() {
for (var key in this._) return false;
return true;
}
d3.nest = function() {
var nest = {}, keys = [], sortKeys = [], sortValues, rollup;
function map(mapType, array, depth) {
if (depth >= keys.length) return rollup ? rollup.call(nest, array) : sortValues ? array.sort(sortValues) : array;
var i = -1, n = array.length, key = keys[depth++], keyValue, object, setter, valuesByKey = new d3_Map(), values;
while (++i < n) {
if (values = valuesByKey.get(keyValue = key(object = array[i]))) {
values.push(object);
} else {
valuesByKey.set(keyValue, [ object ]);
}
}
if (mapType) {
object = mapType();
setter = function(keyValue, values) {
object.set(keyValue, map(mapType, values, depth));
};
} else {
object = {};
setter = function(keyValue, values) {
object[keyValue] = map(mapType, values, depth);
};
}
valuesByKey.forEach(setter);
return object;
}
function entries(map, depth) {
if (depth >= keys.length) return map;
var array = [], sortKey = sortKeys[depth++];
map.forEach(function(key, keyMap) {
array.push({
key: key,
values: entries(keyMap, depth)
});
});
return sortKey ? array.sort(function(a, b) {
return sortKey(a.key, b.key);
}) : array;
}
nest.map = function(array, mapType) {
return map(mapType, array, 0);
};
nest.entries = function(array) {
return entries(map(d3.map, array, 0), 0);
};
nest.key = function(d) {
keys.push(d);
return nest;
};
nest.sortKeys = function(order) {
sortKeys[keys.length - 1] = order;
return nest;
};
nest.sortValues = function(order) {
sortValues = order;
return nest;
};
nest.rollup = function(f) {
rollup = f;
return nest;
};
return nest;
};
d3.set = function(array) {
var set = new d3_Set();
if (array) for (var i = 0, n = array.length; i < n; ++i) set.add(array[i]);
return set;
};
function d3_Set() {
this._ = Object.create(null);
}
d3_class(d3_Set, {
has: d3_map_has,
add: function(key) {
this._[d3_map_escape(key += "")] = true;
return key;
},
remove: d3_map_remove,
values: d3_map_keys,
size: d3_map_size,
empty: d3_map_empty,
forEach: function(f) {
for (var key in this._) f.call(this, d3_map_unescape(key));
}
});
d3.behavior = {};
function d3_identity(d) {
return d;
}
d3.rebind = function(target, source) {
var i = 1, n = arguments.length, method;
while (++i < n) target[method = arguments[i]] = d3_rebind(target, source, source[method]);
return target;
};
function d3_rebind(target, source, method) {
return function() {
var value = method.apply(source, arguments);
return value === source ? target : value;
};
}
function d3_vendorSymbol(object, name) {
if (name in object) return name;
name = name.charAt(0).toUpperCase() + name.slice(1);
for (var i = 0, n = d3_vendorPrefixes.length; i < n; ++i) {
var prefixName = d3_vendorPrefixes[i] + name;
if (prefixName in object) return prefixName;
}
}
var d3_vendorPrefixes = [ "webkit", "ms", "moz", "Moz", "o", "O" ];
function d3_noop() {}
d3.dispatch = function() {
var dispatch = new d3_dispatch(), i = -1, n = arguments.length;
while (++i < n) dispatch[arguments[i]] = d3_dispatch_event(dispatch);
return dispatch;
};
function d3_dispatch() {}
d3_dispatch.prototype.on = function(type, listener) {
var i = type.indexOf("."), name = "";
if (i >= 0) {
name = type.slice(i + 1);
type = type.slice(0, i);
}
if (type) return arguments.length < 2 ? this[type].on(name) : this[type].on(name, listener);
if (arguments.length === 2) {
if (listener == null) for (type in this) {
if (this.hasOwnProperty(type)) this[type].on(name, null);
}
return this;
}
};
function d3_dispatch_event(dispatch) {
var listeners = [], listenerByName = new d3_Map();
function event() {
var z = listeners, i = -1, n = z.length, l;
while (++i < n) if (l = z[i].on) l.apply(this, arguments);
return dispatch;
}
event.on = function(name, listener) {
var l = listenerByName.get(name), i;
if (arguments.length < 2) return l && l.on;
if (l) {
l.on = null;
listeners = listeners.slice(0, i = listeners.indexOf(l)).concat(listeners.slice(i + 1));
listenerByName.remove(name);
}
if (listener) listeners.push(listenerByName.set(name, {
on: listener
}));
return dispatch;
};
return event;
}
d3.event = null;
function d3_eventPreventDefault() {
d3.event.preventDefault();
}
function d3_eventSource() {
var e = d3.event, s;
while (s = e.sourceEvent) e = s;
return e;
}
function d3_eventDispatch(target) {
var dispatch = new d3_dispatch(), i = 0, n = arguments.length;
while (++i < n) dispatch[arguments[i]] = d3_dispatch_event(dispatch);
dispatch.of = function(thiz, argumentz) {
return function(e1) {
try {
var e0 = e1.sourceEvent = d3.event;
e1.target = target;
d3.event = e1;
dispatch[e1.type].apply(thiz, argumentz);
} finally {
d3.event = e0;
}
};
};
return dispatch;
}
d3.requote = function(s) {
return s.replace(d3_requote_re, "\\$&");
};
var d3_requote_re = /[\\\^\$\*\+\?\|\[\]\(\)\.\{\}]/g;
var d3_subclass = {}.__proto__ ? function(object, prototype) {
object.__proto__ = prototype;
} : function(object, prototype) {
for (var property in prototype) object[property] = prototype[property];
};
function d3_selection(groups) {
d3_subclass(groups, d3_selectionPrototype);
return groups;
}
var d3_select = function(s, n) {
return n.querySelector(s);
}, d3_selectAll = function(s, n) {
return n.querySelectorAll(s);
}, d3_selectMatches = function(n, s) {
var d3_selectMatcher = n.matches || n[d3_vendorSymbol(n, "matchesSelector")];
d3_selectMatches = function(n, s) {
return d3_selectMatcher.call(n, s);
};
return d3_selectMatches(n, s);
};
if (typeof Sizzle === "function") {
d3_select = function(s, n) {
return Sizzle(s, n)[0] || null;
};
d3_selectAll = Sizzle;
d3_selectMatches = Sizzle.matchesSelector;
}
d3.selection = function() {
return d3.select(d3_document.documentElement);
};
var d3_selectionPrototype = d3.selection.prototype = [];
d3_selectionPrototype.select = function(selector) {
var subgroups = [], subgroup, subnode, group, node;
selector = d3_selection_selector(selector);
for (var j = -1, m = this.length; ++j < m; ) {
subgroups.push(subgroup = []);
subgroup.parentNode = (group = this[j]).parentNode;
for (var i = -1, n = group.length; ++i < n; ) {
if (node = group[i]) {
subgroup.push(subnode = selector.call(node, node.__data__, i, j));
if (subnode && "__data__" in node) subnode.__data__ = node.__data__;
} else {
subgroup.push(null);
}
}
}
return d3_selection(subgroups);
};
function d3_selection_selector(selector) {
return typeof selector === "function" ? selector : function() {
return d3_select(selector, this);
};
}
d3_selectionPrototype.selectAll = function(selector) {
var subgroups = [], subgroup, node;
selector = d3_selection_selectorAll(selector);
for (var j = -1, m = this.length; ++j < m; ) {
for (var group = this[j], i = -1, n = group.length; ++i < n; ) {
if (node = group[i]) {
subgroups.push(subgroup = d3_array(selector.call(node, node.__data__, i, j)));
subgroup.parentNode = node;
}
}
}
return d3_selection(subgroups);
};
function d3_selection_selectorAll(selector) {
return typeof selector === "function" ? selector : function() {
return d3_selectAll(selector, this);
};
}
var d3_nsXhtml = "http://www.w3.org/1999/xhtml";
var d3_nsPrefix = {
svg: "http://www.w3.org/2000/svg",
xhtml: d3_nsXhtml,
xlink: "http://www.w3.org/1999/xlink",
xml: "http://www.w3.org/XML/1998/namespace",
xmlns: "http://www.w3.org/2000/xmlns/"
};
d3.ns = {
prefix: d3_nsPrefix,
qualify: function(name) {
var i = name.indexOf(":"), prefix = name;
if (i >= 0 && (prefix = name.slice(0, i)) !== "xmlns") name = name.slice(i + 1);
return d3_nsPrefix.hasOwnProperty(prefix) ? {
space: d3_nsPrefix[prefix],
local: name
} : name;
}
};
d3_selectionPrototype.attr = function(name, value) {
if (arguments.length < 2) {
if (typeof name === "string") {
var node = this.node();
name = d3.ns.qualify(name);
return name.local ? node.getAttributeNS(name.space, name.local) : node.getAttribute(name);
}
for (value in name) this.each(d3_selection_attr(value, name[value]));
return this;
}
return this.each(d3_selection_attr(name, value));
};
function d3_selection_attr(name, value) {
name = d3.ns.qualify(name);
function attrNull() {
this.removeAttribute(name);
}
function attrNullNS() {
this.removeAttributeNS(name.space, name.local);
}
function attrConstant() {
this.setAttribute(name, value);
}
function attrConstantNS() {
this.setAttributeNS(name.space, name.local, value);
}
function attrFunction() {
var x = value.apply(this, arguments);
if (x == null) this.removeAttribute(name); else this.setAttribute(name, x);
}
function attrFunctionNS() {
var x = value.apply(this, arguments);
if (x == null) this.removeAttributeNS(name.space, name.local); else this.setAttributeNS(name.space, name.local, x);
}
return value == null ? name.local ? attrNullNS : attrNull : typeof value === "function" ? name.local ? attrFunctionNS : attrFunction : name.local ? attrConstantNS : attrConstant;
}
function d3_collapse(s) {
return s.trim().replace(/\s+/g, " ");
}
d3_selectionPrototype.classed = function(name, value) {
if (arguments.length < 2) {
if (typeof name === "string") {
var node = this.node(), n = (name = d3_selection_classes(name)).length, i = -1;
if (value = node.classList) {
while (++i < n) if (!value.contains(name[i])) return false;
} else {
value = node.getAttribute("class");
while (++i < n) if (!d3_selection_classedRe(name[i]).test(value)) return false;
}
return true;
}
for (value in name) this.each(d3_selection_classed(value, name[value]));
return this;
}
return this.each(d3_selection_classed(name, value));
};
function d3_selection_classedRe(name) {
return new RegExp("(?:^|\\s+)" + d3.requote(name) + "(?:\\s+|$)", "g");
}
function d3_selection_classes(name) {
return (name + "").trim().split(/^|\s+/);
}
function d3_selection_classed(name, value) {
name = d3_selection_classes(name).map(d3_selection_classedName);
var n = name.length;
function classedConstant() {
var i = -1;
while (++i < n) name[i](this, value);
}
function classedFunction() {
var i = -1, x = value.apply(this, arguments);
while (++i < n) name[i](this, x);
}
return typeof value === "function" ? classedFunction : classedConstant;
}
function d3_selection_classedName(name) {
var re = d3_selection_classedRe(name);
return function(node, value) {
if (c = node.classList) return value ? c.add(name) : c.remove(name);
var c = node.getAttribute("class") || "";
if (value) {
re.lastIndex = 0;
if (!re.test(c)) node.setAttribute("class", d3_collapse(c + " " + name));
} else {
node.setAttribute("class", d3_collapse(c.replace(re, " ")));
}
};
}
d3_selectionPrototype.style = function(name, value, priority) {
var n = arguments.length;
if (n < 3) {
if (typeof name !== "string") {
if (n < 2) value = "";
for (priority in name) this.each(d3_selection_style(priority, name[priority], value));
return this;
}
if (n < 2) {
var node = this.node();
return d3_window(node).getComputedStyle(node, null).getPropertyValue(name);
}
priority = "";
}
return this.each(d3_selection_style(name, value, priority));
};
function d3_selection_style(name, value, priority) {
function styleNull() {
this.style.removeProperty(name);
}
function styleConstant() {
this.style.setProperty(name, value, priority);
}
function styleFunction() {
var x = value.apply(this, arguments);
if (x == null) this.style.removeProperty(name); else this.style.setProperty(name, x, priority);
}
return value == null ? styleNull : typeof value === "function" ? styleFunction : styleConstant;
}
d3_selectionPrototype.property = function(name, value) {
if (arguments.length < 2) {
if (typeof name === "string") return this.node()[name];
for (value in name) this.each(d3_selection_property(value, name[value]));
return this;
}
return this.each(d3_selection_property(name, value));
};
function d3_selection_property(name, value) {
function propertyNull() {
delete this[name];
}
function propertyConstant() {
this[name] = value;
}
function propertyFunction() {
var x = value.apply(this, arguments);
if (x == null) delete this[name]; else this[name] = x;
}
return value == null ? propertyNull : typeof value === "function" ? propertyFunction : propertyConstant;
}
d3_selectionPrototype.text = function(value) {
return arguments.length ? this.each(typeof value === "function" ? function() {
var v = value.apply(this, arguments);
this.textContent = v == null ? "" : v;
} : value == null ? function() {
this.textContent = "";
} : function() {
this.textContent = value;
}) : this.node().textContent;
};
d3_selectionPrototype.html = function(value) {
return arguments.length ? this.each(typeof value === "function" ? function() {
var v = value.apply(this, arguments);
this.innerHTML = v == null ? "" : v;
} : value == null ? function() {
this.innerHTML = "";
} : function() {
this.innerHTML = value;
}) : this.node().innerHTML;
};
d3_selectionPrototype.append = function(name) {
name = d3_selection_creator(name);
return this.select(function() {
return this.appendChild(name.apply(this, arguments));
});
};
function d3_selection_creator(name) {
function create() {
var document = this.ownerDocument, namespace = this.namespaceURI;
return namespace === d3_nsXhtml && document.documentElement.namespaceURI === d3_nsXhtml ? document.createElement(name) : document.createElementNS(namespace, name);
}
function createNS() {
return this.ownerDocument.createElementNS(name.space, name.local);
}
return typeof name === "function" ? name : (name = d3.ns.qualify(name)).local ? createNS : create;
}
d3_selectionPrototype.insert = function(name, before) {
name = d3_selection_creator(name);
before = d3_selection_selector(before);
return this.select(function() {
return this.insertBefore(name.apply(this, arguments), before.apply(this, arguments) || null);
});
};
d3_selectionPrototype.remove = function() {
return this.each(d3_selectionRemove);
};
function d3_selectionRemove() {
var parent = this.parentNode;
if (parent) parent.removeChild(this);
}
d3_selectionPrototype.data = function(value, key) {
var i = -1, n = this.length, group, node;
if (!arguments.length) {
value = new Array(n = (group = this[0]).length);
while (++i < n) {
if (node = group[i]) {
value[i] = node.__data__;
}
}
return value;
}
function bind(group, groupData) {
var i, n = group.length, m = groupData.length, n0 = Math.min(n, m), updateNodes = new Array(m), enterNodes = new Array(m), exitNodes = new Array(n), node, nodeData;
if (key) {
var nodeByKeyValue = new d3_Map(), keyValues = new Array(n), keyValue;
for (i = -1; ++i < n; ) {
if (node = group[i]) {
if (nodeByKeyValue.has(keyValue = key.call(node, node.__data__, i))) {
exitNodes[i] = node;
} else {
nodeByKeyValue.set(keyValue, node);
}
keyValues[i] = keyValue;
}
}
for (i = -1; ++i < m; ) {
if (!(node = nodeByKeyValue.get(keyValue = key.call(groupData, nodeData = groupData[i], i)))) {
enterNodes[i] = d3_selection_dataNode(nodeData);
} else if (node !== true) {
updateNodes[i] = node;
node.__data__ = nodeData;
}
nodeByKeyValue.set(keyValue, true);
}
for (i = -1; ++i < n; ) {
if (i in keyValues && nodeByKeyValue.get(keyValues[i]) !== true) {
exitNodes[i] = group[i];
}
}
} else {
for (i = -1; ++i < n0; ) {
node = group[i];
nodeData = groupData[i];
if (node) {
node.__data__ = nodeData;
updateNodes[i] = node;
} else {
enterNodes[i] = d3_selection_dataNode(nodeData);
}
}
for (;i < m; ++i) {
enterNodes[i] = d3_selection_dataNode(groupData[i]);
}
for (;i < n; ++i) {
exitNodes[i] = group[i];
}
}
enterNodes.update = updateNodes;
enterNodes.parentNode = updateNodes.parentNode = exitNodes.parentNode = group.parentNode;
enter.push(enterNodes);
update.push(updateNodes);
exit.push(exitNodes);
}
var enter = d3_selection_enter([]), update = d3_selection([]), exit = d3_selection([]);
if (typeof value === "function") {
while (++i < n) {
bind(group = this[i], value.call(group, group.parentNode.__data__, i));
}
} else {
while (++i < n) {
bind(group = this[i], value);
}
}
update.enter = function() {
return enter;
};
update.exit = function() {
return exit;
};
return update;
};
function d3_selection_dataNode(data) {
return {
__data__: data
};
}
d3_selectionPrototype.datum = function(value) {
return arguments.length ? this.property("__data__", value) : this.property("__data__");
};
d3_selectionPrototype.filter = function(filter) {
var subgroups = [], subgroup, group, node;
if (typeof filter !== "function") filter = d3_selection_filter(filter);
for (var j = 0, m = this.length; j < m; j++) {
subgroups.push(subgroup = []);
subgroup.parentNode = (group = this[j]).parentNode;
for (var i = 0, n = group.length; i < n; i++) {
if ((node = group[i]) && filter.call(node, node.__data__, i, j)) {
subgroup.push(node);
}
}
}
return d3_selection(subgroups);
};
function d3_selection_filter(selector) {
return function() {
return d3_selectMatches(this, selector);
};
}
d3_selectionPrototype.order = function() {
for (var j = -1, m = this.length; ++j < m; ) {
for (var group = this[j], i = group.length - 1, next = group[i], node; --i >= 0; ) {
if (node = group[i]) {
if (next && next !== node.nextSibling) next.parentNode.insertBefore(node, next);
next = node;
}
}
}
return this;
};
d3_selectionPrototype.sort = function(comparator) {
comparator = d3_selection_sortComparator.apply(this, arguments);
for (var j = -1, m = this.length; ++j < m; ) this[j].sort(comparator);
return this.order();
};
function d3_selection_sortComparator(comparator) {
if (!arguments.length) comparator = d3_ascending;
return function(a, b) {
return a && b ? comparator(a.__data__, b.__data__) : !a - !b;
};
}
d3_selectionPrototype.each = function(callback) {
return d3_selection_each(this, function(node, i, j) {
callback.call(node, node.__data__, i, j);
});
};
function d3_selection_each(groups, callback) {
for (var j = 0, m = groups.length; j < m; j++) {
for (var group = groups[j], i = 0, n = group.length, node; i < n; i++) {
if (node = group[i]) callback(node, i, j);
}
}
return groups;
}
d3_selectionPrototype.call = function(callback) {
var args = d3_array(arguments);
callback.apply(args[0] = this, args);
return this;
};
d3_selectionPrototype.empty = function() {
return !this.node();
};
d3_selectionPrototype.node = function() {
for (var j = 0, m = this.length; j < m; j++) {
for (var group = this[j], i = 0, n = group.length; i < n; i++) {
var node = group[i];
if (node) return node;
}
}
return null;
};
d3_selectionPrototype.size = function() {
var n = 0;
d3_selection_each(this, function() {
++n;
});
return n;
};
function d3_selection_enter(selection) {
d3_subclass(selection, d3_selection_enterPrototype);
return selection;
}
var d3_selection_enterPrototype = [];
d3.selection.enter = d3_selection_enter;
d3.selection.enter.prototype = d3_selection_enterPrototype;
d3_selection_enterPrototype.append = d3_selectionPrototype.append;
d3_selection_enterPrototype.empty = d3_selectionPrototype.empty;
d3_selection_enterPrototype.node = d3_selectionPrototype.node;
d3_selection_enterPrototype.call = d3_selectionPrototype.call;
d3_selection_enterPrototype.size = d3_selectionPrototype.size;
d3_selection_enterPrototype.select = function(selector) {
var subgroups = [], subgroup, subnode, upgroup, group, node;
for (var j = -1, m = this.length; ++j < m; ) {
upgroup = (group = this[j]).update;
subgroups.push(subgroup = []);
subgroup.parentNode = group.parentNode;
for (var i = -1, n = group.length; ++i < n; ) {
if (node = group[i]) {
subgroup.push(upgroup[i] = subnode = selector.call(group.parentNode, node.__data__, i, j));
subnode.__data__ = node.__data__;
} else {
subgroup.push(null);
}
}
}
return d3_selection(subgroups);
};
d3_selection_enterPrototype.insert = function(name, before) {
if (arguments.length < 2) before = d3_selection_enterInsertBefore(this);
return d3_selectionPrototype.insert.call(this, name, before);
};
function d3_selection_enterInsertBefore(enter) {
var i0, j0;
return function(d, i, j) {
var group = enter[j].update, n = group.length, node;
if (j != j0) j0 = j, i0 = 0;
if (i >= i0) i0 = i + 1;
while (!(node = group[i0]) && ++i0 < n) ;
return node;
};
}
d3.select = function(node) {
var group;
if (typeof node === "string") {
group = [ d3_select(node, d3_document) ];
group.parentNode = d3_document.documentElement;
} else {
group = [ node ];
group.parentNode = d3_documentElement(node);
}
return d3_selection([ group ]);
};
d3.selectAll = function(nodes) {
var group;
if (typeof nodes === "string") {
group = d3_array(d3_selectAll(nodes, d3_document));
group.parentNode = d3_document.documentElement;
} else {
group = d3_array(nodes);
group.parentNode = null;
}
return d3_selection([ group ]);
};
d3_selectionPrototype.on = function(type, listener, capture) {
var n = arguments.length;
if (n < 3) {
if (typeof type !== "string") {
if (n < 2) listener = false;
for (capture in type) this.each(d3_selection_on(capture, type[capture], listener));
return this;
}
if (n < 2) return (n = this.node()["__on" + type]) && n._;
capture = false;
}
return this.each(d3_selection_on(type, listener, capture));
};
function d3_selection_on(type, listener, capture) {
var name = "__on" + type, i = type.indexOf("."), wrap = d3_selection_onListener;
if (i > 0) type = type.slice(0, i);
var filter = d3_selection_onFilters.get(type);
if (filter) type = filter, wrap = d3_selection_onFilter;
function onRemove() {
var l = this[name];
if (l) {
this.removeEventListener(type, l, l.$);
delete this[name];
}
}
function onAdd() {
var l = wrap(listener, d3_array(arguments));
onRemove.call(this);
this.addEventListener(type, this[name] = l, l.$ = capture);
l._ = listener;
}
function removeAll() {
var re = new RegExp("^__on([^.]+)" + d3.requote(type) + "$"), match;
for (var name in this) {
if (match = name.match(re)) {
var l = this[name];
this.removeEventListener(match[1], l, l.$);
delete this[name];
}
}
}
return i ? listener ? onAdd : onRemove : listener ? d3_noop : removeAll;
}
var d3_selection_onFilters = d3.map({
mouseenter: "mouseover",
mouseleave: "mouseout"
});
if (d3_document) {
d3_selection_onFilters.forEach(function(k) {
if ("on" + k in d3_document) d3_selection_onFilters.remove(k);
});
}
function d3_selection_onListener(listener, argumentz) {
return function(e) {
var o = d3.event;
d3.event = e;
argumentz[0] = this.__data__;
try {
listener.apply(this, argumentz);
} finally {
d3.event = o;
}
};
}
function d3_selection_onFilter(listener, argumentz) {
var l = d3_selection_onListener(listener, argumentz);
return function(e) {
var target = this, related = e.relatedTarget;
if (!related || related !== target && !(related.compareDocumentPosition(target) & 8)) {
l.call(target, e);
}
};
}
var d3_event_dragSelect, d3_event_dragId = 0;
function d3_event_dragSuppress(node) {
var name = ".dragsuppress-" + ++d3_event_dragId, click = "click" + name, w = d3.select(d3_window(node)).on("touchmove" + name, d3_eventPreventDefault).on("dragstart" + name, d3_eventPreventDefault).on("selectstart" + name, d3_eventPreventDefault);
if (d3_event_dragSelect == null) {
d3_event_dragSelect = "onselectstart" in node ? false : d3_vendorSymbol(node.style, "userSelect");
}
if (d3_event_dragSelect) {
var style = d3_documentElement(node).style, select = style[d3_event_dragSelect];
style[d3_event_dragSelect] = "none";
}
return function(suppressClick) {
w.on(name, null);
if (d3_event_dragSelect) style[d3_event_dragSelect] = select;
if (suppressClick) {
var off = function() {
w.on(click, null);
};
w.on(click, function() {
d3_eventPreventDefault();
off();
}, true);
setTimeout(off, 0);
}
};
}
d3.mouse = function(container) {
return d3_mousePoint(container, d3_eventSource());
};
var d3_mouse_bug44083 = this.navigator && /WebKit/.test(this.navigator.userAgent) ? -1 : 0;
function d3_mousePoint(container, e) {
if (e.changedTouches) e = e.changedTouches[0];
var svg = container.ownerSVGElement || container;
if (svg.createSVGPoint) {
var point = svg.createSVGPoint();
if (d3_mouse_bug44083 < 0) {
var window = d3_window(container);
if (window.scrollX || window.scrollY) {
svg = d3.select("body").append("svg").style({
position: "absolute",
top: 0,
left: 0,
margin: 0,
padding: 0,
border: "none"
}, "important");
var ctm = svg[0][0].getScreenCTM();
d3_mouse_bug44083 = !(ctm.f || ctm.e);
svg.remove();
}
}
if (d3_mouse_bug44083) point.x = e.pageX, point.y = e.pageY; else point.x = e.clientX,
point.y = e.clientY;
point = point.matrixTransform(container.getScreenCTM().inverse());
return [ point.x, point.y ];
}
var rect = container.getBoundingClientRect();
return [ e.clientX - rect.left - container.clientLeft, e.clientY - rect.top - container.clientTop ];
}
d3.touch = function(container, touches, identifier) {
if (arguments.length < 3) identifier = touches, touches = d3_eventSource().changedTouches;
if (touches) for (var i = 0, n = touches.length, touch; i < n; ++i) {
if ((touch = touches[i]).identifier === identifier) {
return d3_mousePoint(container, touch);
}
}
};
d3.behavior.drag = function() {
var event = d3_eventDispatch(drag, "drag", "dragstart", "dragend"), origin = null, mousedown = dragstart(d3_noop, d3.mouse, d3_window, "mousemove", "mouseup"), touchstart = dragstart(d3_behavior_dragTouchId, d3.touch, d3_identity, "touchmove", "touchend");
function drag() {
this.on("mousedown.drag", mousedown).on("touchstart.drag", touchstart);
}
function dragstart(id, position, subject, move, end) {
return function() {
var that = this, target = d3.event.target.correspondingElement || d3.event.target, parent = that.parentNode, dispatch = event.of(that, arguments), dragged = 0, dragId = id(), dragName = ".drag" + (dragId == null ? "" : "-" + dragId), dragOffset, dragSubject = d3.select(subject(target)).on(move + dragName, moved).on(end + dragName, ended), dragRestore = d3_event_dragSuppress(target), position0 = position(parent, dragId);
if (origin) {
dragOffset = origin.apply(that, arguments);
dragOffset = [ dragOffset.x - position0[0], dragOffset.y - position0[1] ];
} else {
dragOffset = [ 0, 0 ];
}
dispatch({
type: "dragstart"
});
function moved() {
var position1 = position(parent, dragId), dx, dy;
if (!position1) return;
dx = position1[0] - position0[0];
dy = position1[1] - position0[1];
dragged |= dx | dy;
position0 = position1;
dispatch({
type: "drag",
x: position1[0] + dragOffset[0],
y: position1[1] + dragOffset[1],
dx: dx,
dy: dy
});
}
function ended() {
if (!position(parent, dragId)) return;
dragSubject.on(move + dragName, null).on(end + dragName, null);
dragRestore(dragged);
dispatch({
type: "dragend"
});
}
};
}
drag.origin = function(x) {
if (!arguments.length) return origin;
origin = x;
return drag;
};
return d3.rebind(drag, event, "on");
};
function d3_behavior_dragTouchId() {
return d3.event.changedTouches[0].identifier;
}
d3.touches = function(container, touches) {
if (arguments.length < 2) touches = d3_eventSource().touches;
return touches ? d3_array(touches).map(function(touch) {
var point = d3_mousePoint(container, touch);
point.identifier = touch.identifier;
return point;
}) : [];
};
var ε = 1e-6, ε2 = ε * ε, π = Math.PI, τ = 2 * π, τε = τ - ε, halfπ = π / 2, d3_radians = π / 180, d3_degrees = 180 / π;
function d3_sgn(x) {
return x > 0 ? 1 : x < 0 ? -1 : 0;
}
function d3_cross2d(a, b, c) {
return (b[0] - a[0]) * (c[1] - a[1]) - (b[1] - a[1]) * (c[0] - a[0]);
}
function d3_acos(x) {
return x > 1 ? 0 : x < -1 ? π : Math.acos(x);
}
function d3_asin(x) {
return x > 1 ? halfπ : x < -1 ? -halfπ : Math.asin(x);
}
function d3_sinh(x) {
return ((x = Math.exp(x)) - 1 / x) / 2;
}
function d3_cosh(x) {
return ((x = Math.exp(x)) + 1 / x) / 2;
}
function d3_tanh(x) {
return ((x = Math.exp(2 * x)) - 1) / (x + 1);
}
function d3_haversin(x) {
return (x = Math.sin(x / 2)) * x;
}
var ρ = Math.SQRT2, ρ2 = 2, ρ4 = 4;
d3.interpolateZoom = function(p0, p1) {
var ux0 = p0[0], uy0 = p0[1], w0 = p0[2], ux1 = p1[0], uy1 = p1[1], w1 = p1[2], dx = ux1 - ux0, dy = uy1 - uy0, d2 = dx * dx + dy * dy, i, S;
if (d2 < ε2) {
S = Math.log(w1 / w0) / ρ;
i = function(t) {
return [ ux0 + t * dx, uy0 + t * dy, w0 * Math.exp(ρ * t * S) ];
};
} else {
var d1 = Math.sqrt(d2), b0 = (w1 * w1 - w0 * w0 + ρ4 * d2) / (2 * w0 * ρ2 * d1), b1 = (w1 * w1 - w0 * w0 - ρ4 * d2) / (2 * w1 * ρ2 * d1), r0 = Math.log(Math.sqrt(b0 * b0 + 1) - b0), r1 = Math.log(Math.sqrt(b1 * b1 + 1) - b1);
S = (r1 - r0) / ρ;
i = function(t) {
var s = t * S, coshr0 = d3_cosh(r0), u = w0 / (ρ2 * d1) * (coshr0 * d3_tanh(ρ * s + r0) - d3_sinh(r0));
return [ ux0 + u * dx, uy0 + u * dy, w0 * coshr0 / d3_cosh(ρ * s + r0) ];
};
}
i.duration = S * 1e3;
return i;
};
d3.behavior.zoom = function() {
var view = {
x: 0,
y: 0,
k: 1
}, translate0, center0, center, size = [ 960, 500 ], scaleExtent = d3_behavior_zoomInfinity, duration = 250, zooming = 0, mousedown = "mousedown.zoom", mousemove = "mousemove.zoom", mouseup = "mouseup.zoom", mousewheelTimer, touchstart = "touchstart.zoom", touchtime, event = d3_eventDispatch(zoom, "zoomstart", "zoom", "zoomend"), x0, x1, y0, y1;
if (!d3_behavior_zoomWheel) {
d3_behavior_zoomWheel = "onwheel" in d3_document ? (d3_behavior_zoomDelta = function() {
return -d3.event.deltaY * (d3.event.deltaMode ? 120 : 1);
}, "wheel") : "onmousewheel" in d3_document ? (d3_behavior_zoomDelta = function() {
return d3.event.wheelDelta;
}, "mousewheel") : (d3_behavior_zoomDelta = function() {
return -d3.event.detail;
}, "MozMousePixelScroll");
}
function zoom(g) {
g.on(mousedown, mousedowned).on(d3_behavior_zoomWheel + ".zoom", mousewheeled).on("dblclick.zoom", dblclicked).on(touchstart, touchstarted);
}
zoom.event = function(g) {
g.each(function() {
var dispatch = event.of(this, arguments), view1 = view;
if (d3_transitionInheritId) {
d3.select(this).transition().each("start.zoom", function() {
view = this.__chart__ || {
x: 0,
y: 0,
k: 1
};
zoomstarted(dispatch);
}).tween("zoom:zoom", function() {
var dx = size[0], dy = size[1], cx = center0 ? center0[0] : dx / 2, cy = center0 ? center0[1] : dy / 2, i = d3.interpolateZoom([ (cx - view.x) / view.k, (cy - view.y) / view.k, dx / view.k ], [ (cx - view1.x) / view1.k, (cy - view1.y) / view1.k, dx / view1.k ]);
return function(t) {
var l = i(t), k = dx / l[2];
this.__chart__ = view = {
x: cx - l[0] * k,
y: cy - l[1] * k,
k: k
};
zoomed(dispatch);
};
}).each("interrupt.zoom", function() {
zoomended(dispatch);
}).each("end.zoom", function() {
zoomended(dispatch);
});
} else {
this.__chart__ = view;
zoomstarted(dispatch);
zoomed(dispatch);
zoomended(dispatch);
}
});
};
zoom.translate = function(_) {
if (!arguments.length) return [ view.x, view.y ];
view = {
x: +_[0],
y: +_[1],
k: view.k
};
rescale();
return zoom;
};
zoom.scale = function(_) {
if (!arguments.length) return view.k;
view = {
x: view.x,
y: view.y,
k: null
};
scaleTo(+_);
rescale();
return zoom;
};
zoom.scaleExtent = function(_) {
if (!arguments.length) return scaleExtent;
scaleExtent = _ == null ? d3_behavior_zoomInfinity : [ +_[0], +_[1] ];
return zoom;
};
zoom.center = function(_) {
if (!arguments.length) return center;
center = _ && [ +_[0], +_[1] ];
return zoom;
};
zoom.size = function(_) {
if (!arguments.length) return size;
size = _ && [ +_[0], +_[1] ];
return zoom;
};
zoom.duration = function(_) {
if (!arguments.length) return duration;
duration = +_;
return zoom;
};
zoom.x = function(z) {
if (!arguments.length) return x1;
x1 = z;
x0 = z.copy();
view = {
x: 0,
y: 0,
k: 1
};
return zoom;
};
zoom.y = function(z) {
if (!arguments.length) return y1;
y1 = z;
y0 = z.copy();
view = {
x: 0,
y: 0,
k: 1
};
return zoom;
};
function location(p) {
return [ (p[0] - view.x) / view.k, (p[1] - view.y) / view.k ];
}
function point(l) {
return [ l[0] * view.k + view.x, l[1] * view.k + view.y ];
}
function scaleTo(s) {
view.k = Math.max(scaleExtent[0], Math.min(scaleExtent[1], s));
}
function translateTo(p, l) {
l = point(l);
view.x += p[0] - l[0];
view.y += p[1] - l[1];
}
function zoomTo(that, p, l, k) {
that.__chart__ = {
x: view.x,
y: view.y,
k: view.k
};
scaleTo(Math.pow(2, k));
translateTo(center0 = p, l);
that = d3.select(that);
if (duration > 0) that = that.transition().duration(duration);
that.call(zoom.event);
}
function rescale() {
if (x1) x1.domain(x0.range().map(function(x) {
return (x - view.x) / view.k;
}).map(x0.invert));
if (y1) y1.domain(y0.range().map(function(y) {
return (y - view.y) / view.k;
}).map(y0.invert));
}
function zoomstarted(dispatch) {
if (!zooming++) dispatch({
type: "zoomstart"
});
}
function zoomed(dispatch) {
rescale();
dispatch({
type: "zoom",
scale: view.k,
translate: [ view.x, view.y ]
});
}
function zoomended(dispatch) {
if (!--zooming) dispatch({
type: "zoomend"
}), center0 = null;
}
function mousedowned() {
var that = this, dispatch = event.of(that, arguments), dragged = 0, subject = d3.select(d3_window(that)).on(mousemove, moved).on(mouseup, ended), location0 = location(d3.mouse(that)), dragRestore = d3_event_dragSuppress(that);
d3_selection_interrupt.call(that);
zoomstarted(dispatch);
function moved() {
dragged = 1;
translateTo(d3.mouse(that), location0);
zoomed(dispatch);
}
function ended() {
subject.on(mousemove, null).on(mouseup, null);
dragRestore(dragged);
zoomended(dispatch);
}
}
function touchstarted() {
var that = this, dispatch = event.of(that, arguments), locations0 = {}, distance0 = 0, scale0, zoomName = ".zoom-" + d3.event.changedTouches[0].identifier, touchmove = "touchmove" + zoomName, touchend = "touchend" + zoomName, targets = [], subject = d3.select(that), dragRestore = d3_event_dragSuppress(that);
started();
zoomstarted(dispatch);
subject.on(mousedown, null).on(touchstart, started);
function relocate() {
var touches = d3.touches(that);
scale0 = view.k;
touches.forEach(function(t) {
if (t.identifier in locations0) locations0[t.identifier] = location(t);
});
return touches;
}
function started() {
var target = d3.event.target;
d3.select(target).on(touchmove, moved).on(touchend, ended);
targets.push(target);
var changed = d3.event.changedTouches;
for (var i = 0, n = changed.length; i < n; ++i) {
locations0[changed[i].identifier] = null;
}
var touches = relocate(), now = Date.now();
if (touches.length === 1) {
if (now - touchtime < 500) {
var p = touches[0];
zoomTo(that, p, locations0[p.identifier], Math.floor(Math.log(view.k) / Math.LN2) + 1);
d3_eventPreventDefault();
}
touchtime = now;
} else if (touches.length > 1) {
var p = touches[0], q = touches[1], dx = p[0] - q[0], dy = p[1] - q[1];
distance0 = dx * dx + dy * dy;
}
}
function moved() {
var touches = d3.touches(that), p0, l0, p1, l1;
d3_selection_interrupt.call(that);
for (var i = 0, n = touches.length; i < n; ++i, l1 = null) {
p1 = touches[i];
if (l1 = locations0[p1.identifier]) {
if (l0) break;
p0 = p1, l0 = l1;
}
}
if (l1) {
var distance1 = (distance1 = p1[0] - p0[0]) * distance1 + (distance1 = p1[1] - p0[1]) * distance1, scale1 = distance0 && Math.sqrt(distance1 / distance0);
p0 = [ (p0[0] + p1[0]) / 2, (p0[1] + p1[1]) / 2 ];
l0 = [ (l0[0] + l1[0]) / 2, (l0[1] + l1[1]) / 2 ];
scaleTo(scale1 * scale0);
}
touchtime = null;
translateTo(p0, l0);
zoomed(dispatch);
}
function ended() {
if (d3.event.touches.length) {
var changed = d3.event.changedTouches;
for (var i = 0, n = changed.length; i < n; ++i) {
delete locations0[changed[i].identifier];
}
for (var identifier in locations0) {
return void relocate();
}
}
d3.selectAll(targets).on(zoomName, null);
subject.on(mousedown, mousedowned).on(touchstart, touchstarted);
dragRestore();
zoomended(dispatch);
}
}
function mousewheeled() {
var dispatch = event.of(this, arguments);
if (mousewheelTimer) clearTimeout(mousewheelTimer); else d3_selection_interrupt.call(this),
translate0 = location(center0 = center || d3.mouse(this)), zoomstarted(dispatch);
mousewheelTimer = setTimeout(function() {
mousewheelTimer = null;
zoomended(dispatch);
}, 50);
d3_eventPreventDefault();
scaleTo(Math.pow(2, d3_behavior_zoomDelta() * .002) * view.k);
translateTo(center0, translate0);
zoomed(dispatch);
}
function dblclicked() {
var p = d3.mouse(this), k = Math.log(view.k) / Math.LN2;
zoomTo(this, p, location(p), d3.event.shiftKey ? Math.ceil(k) - 1 : Math.floor(k) + 1);
}
return d3.rebind(zoom, event, "on");
};
var d3_behavior_zoomInfinity = [ 0, Infinity ], d3_behavior_zoomDelta, d3_behavior_zoomWheel;
d3.color = d3_color;
function d3_color() {}
d3_color.prototype.toString = function() {
return this.rgb() + "";
};
d3.hsl = d3_hsl;
function d3_hsl(h, s, l) {
return this instanceof d3_hsl ? void (this.h = +h, this.s = +s, this.l = +l) : arguments.length < 2 ? h instanceof d3_hsl ? new d3_hsl(h.h, h.s, h.l) : d3_rgb_parse("" + h, d3_rgb_hsl, d3_hsl) : new d3_hsl(h, s, l);
}
var d3_hslPrototype = d3_hsl.prototype = new d3_color();
d3_hslPrototype.brighter = function(k) {
k = Math.pow(.7, arguments.length ? k : 1);
return new d3_hsl(this.h, this.s, this.l / k);
};
d3_hslPrototype.darker = function(k) {
k = Math.pow(.7, arguments.length ? k : 1);
return new d3_hsl(this.h, this.s, k * this.l);
};
d3_hslPrototype.rgb = function() {
return d3_hsl_rgb(this.h, this.s, this.l);
};
function d3_hsl_rgb(h, s, l) {
var m1, m2;
h = isNaN(h) ? 0 : (h %= 360) < 0 ? h + 360 : h;
s = isNaN(s) ? 0 : s < 0 ? 0 : s > 1 ? 1 : s;
l = l < 0 ? 0 : l > 1 ? 1 : l;
m2 = l <= .5 ? l * (1 + s) : l + s - l * s;
m1 = 2 * l - m2;
function v(h) {
if (h > 360) h -= 360; else if (h < 0) h += 360;
if (h < 60) return m1 + (m2 - m1) * h / 60;
if (h < 180) return m2;
if (h < 240) return m1 + (m2 - m1) * (240 - h) / 60;
return m1;
}
function vv(h) {
return Math.round(v(h) * 255);
}
return new d3_rgb(vv(h + 120), vv(h), vv(h - 120));
}
d3.hcl = d3_hcl;
function d3_hcl(h, c, l) {
return this instanceof d3_hcl ? void (this.h = +h, this.c = +c, this.l = +l) : arguments.length < 2 ? h instanceof d3_hcl ? new d3_hcl(h.h, h.c, h.l) : h instanceof d3_lab ? d3_lab_hcl(h.l, h.a, h.b) : d3_lab_hcl((h = d3_rgb_lab((h = d3.rgb(h)).r, h.g, h.b)).l, h.a, h.b) : new d3_hcl(h, c, l);
}
var d3_hclPrototype = d3_hcl.prototype = new d3_color();
d3_hclPrototype.brighter = function(k) {
return new d3_hcl(this.h, this.c, Math.min(100, this.l + d3_lab_K * (arguments.length ? k : 1)));
};
d3_hclPrototype.darker = function(k) {
return new d3_hcl(this.h, this.c, Math.max(0, this.l - d3_lab_K * (arguments.length ? k : 1)));
};
d3_hclPrototype.rgb = function() {
return d3_hcl_lab(this.h, this.c, this.l).rgb();
};
function d3_hcl_lab(h, c, l) {
if (isNaN(h)) h = 0;
if (isNaN(c)) c = 0;
return new d3_lab(l, Math.cos(h *= d3_radians) * c, Math.sin(h) * c);
}
d3.lab = d3_lab;
function d3_lab(l, a, b) {
return this instanceof d3_lab ? void (this.l = +l, this.a = +a, this.b = +b) : arguments.length < 2 ? l instanceof d3_lab ? new d3_lab(l.l, l.a, l.b) : l instanceof d3_hcl ? d3_hcl_lab(l.h, l.c, l.l) : d3_rgb_lab((l = d3_rgb(l)).r, l.g, l.b) : new d3_lab(l, a, b);
}
var d3_lab_K = 18;
var d3_lab_X = .95047, d3_lab_Y = 1, d3_lab_Z = 1.08883;
var d3_labPrototype = d3_lab.prototype = new d3_color();
d3_labPrototype.brighter = function(k) {
return new d3_lab(Math.min(100, this.l + d3_lab_K * (arguments.length ? k : 1)), this.a, this.b);
};
d3_labPrototype.darker = function(k) {
return new d3_lab(Math.max(0, this.l - d3_lab_K * (arguments.length ? k : 1)), this.a, this.b);
};
d3_labPrototype.rgb = function() {
return d3_lab_rgb(this.l, this.a, this.b);
};
function d3_lab_rgb(l, a, b) {
var y = (l + 16) / 116, x = y + a / 500, z = y - b / 200;
x = d3_lab_xyz(x) * d3_lab_X;
y = d3_lab_xyz(y) * d3_lab_Y;
z = d3_lab_xyz(z) * d3_lab_Z;
return new d3_rgb(d3_xyz_rgb(3.2404542 * x - 1.5371385 * y - .4985314 * z), d3_xyz_rgb(-.969266 * x + 1.8760108 * y + .041556 * z), d3_xyz_rgb(.0556434 * x - .2040259 * y + 1.0572252 * z));
}
function d3_lab_hcl(l, a, b) {
return l > 0 ? new d3_hcl(Math.atan2(b, a) * d3_degrees, Math.sqrt(a * a + b * b), l) : new d3_hcl(NaN, NaN, l);
}
function d3_lab_xyz(x) {
return x > .206893034 ? x * x * x : (x - 4 / 29) / 7.787037;
}
function d3_xyz_lab(x) {
return x > .008856 ? Math.pow(x, 1 / 3) : 7.787037 * x + 4 / 29;
}
function d3_xyz_rgb(r) {
return Math.round(255 * (r <= .00304 ? 12.92 * r : 1.055 * Math.pow(r, 1 / 2.4) - .055));
}
d3.rgb = d3_rgb;
function d3_rgb(r, g, b) {
return this instanceof d3_rgb ? void (this.r = ~~r, this.g = ~~g, this.b = ~~b) : arguments.length < 2 ? r instanceof d3_rgb ? new d3_rgb(r.r, r.g, r.b) : d3_rgb_parse("" + r, d3_rgb, d3_hsl_rgb) : new d3_rgb(r, g, b);
}
function d3_rgbNumber(value) {
return new d3_rgb(value >> 16, value >> 8 & 255, value & 255);
}
function d3_rgbString(value) {
return d3_rgbNumber(value) + "";
}
var d3_rgbPrototype = d3_rgb.prototype = new d3_color();
d3_rgbPrototype.brighter = function(k) {
k = Math.pow(.7, arguments.length ? k : 1);
var r = this.r, g = this.g, b = this.b, i = 30;
if (!r && !g && !b) return new d3_rgb(i, i, i);
if (r && r < i) r = i;
if (g && g < i) g = i;
if (b && b < i) b = i;
return new d3_rgb(Math.min(255, r / k), Math.min(255, g / k), Math.min(255, b / k));
};
d3_rgbPrototype.darker = function(k) {
k = Math.pow(.7, arguments.length ? k : 1);
return new d3_rgb(k * this.r, k * this.g, k * this.b);
};
d3_rgbPrototype.hsl = function() {
return d3_rgb_hsl(this.r, this.g, this.b);
};
d3_rgbPrototype.toString = function() {
return "#" + d3_rgb_hex(this.r) + d3_rgb_hex(this.g) + d3_rgb_hex(this.b);
};
function d3_rgb_hex(v) {
return v < 16 ? "0" + Math.max(0, v).toString(16) : Math.min(255, v).toString(16);
}
function d3_rgb_parse(format, rgb, hsl) {
var r = 0, g = 0, b = 0, m1, m2, color;
m1 = /([a-z]+)\((.*)\)/.exec(format = format.toLowerCase());
if (m1) {
m2 = m1[2].split(",");
switch (m1[1]) {
case "hsl":
{
return hsl(parseFloat(m2[0]), parseFloat(m2[1]) / 100, parseFloat(m2[2]) / 100);
}
case "rgb":
{
return rgb(d3_rgb_parseNumber(m2[0]), d3_rgb_parseNumber(m2[1]), d3_rgb_parseNumber(m2[2]));
}
}
}
if (color = d3_rgb_names.get(format)) {
return rgb(color.r, color.g, color.b);
}
if (format != null && format.charAt(0) === "#" && !isNaN(color = parseInt(format.slice(1), 16))) {
if (format.length === 4) {
r = (color & 3840) >> 4;
r = r >> 4 | r;
g = color & 240;
g = g >> 4 | g;
b = color & 15;
b = b << 4 | b;
} else if (format.length === 7) {
r = (color & 16711680) >> 16;
g = (color & 65280) >> 8;
b = color & 255;
}
}
return rgb(r, g, b);
}
function d3_rgb_hsl(r, g, b) {
var min = Math.min(r /= 255, g /= 255, b /= 255), max = Math.max(r, g, b), d = max - min, h, s, l = (max + min) / 2;
if (d) {
s = l < .5 ? d / (max + min) : d / (2 - max - min);
if (r == max) h = (g - b) / d + (g < b ? 6 : 0); else if (g == max) h = (b - r) / d + 2; else h = (r - g) / d + 4;
h *= 60;
} else {
h = NaN;
s = l > 0 && l < 1 ? 0 : h;
}
return new d3_hsl(h, s, l);
}
function d3_rgb_lab(r, g, b) {
r = d3_rgb_xyz(r);
g = d3_rgb_xyz(g);
b = d3_rgb_xyz(b);
var x = d3_xyz_lab((.4124564 * r + .3575761 * g + .1804375 * b) / d3_lab_X), y = d3_xyz_lab((.2126729 * r + .7151522 * g + .072175 * b) / d3_lab_Y), z = d3_xyz_lab((.0193339 * r + .119192 * g + .9503041 * b) / d3_lab_Z);
return d3_lab(116 * y - 16, 500 * (x - y), 200 * (y - z));
}
function d3_rgb_xyz(r) {
return (r /= 255) <= .04045 ? r / 12.92 : Math.pow((r + .055) / 1.055, 2.4);
}
function d3_rgb_parseNumber(c) {
var f = parseFloat(c);
return c.charAt(c.length - 1) === "%" ? Math.round(f * 2.55) : f;
}
var d3_rgb_names = d3.map({
aliceblue: 15792383,
antiquewhite: 16444375,
aqua: 65535,
aquamarine: 8388564,
azure: 15794175,
beige: 16119260,
bisque: 16770244,
black: 0,
blanchedalmond: 16772045,
blue: 255,
blueviolet: 9055202,
brown: 10824234,
burlywood: 14596231,
cadetblue: 6266528,
chartreuse: 8388352,
chocolate: 13789470,
coral: 16744272,
cornflowerblue: 6591981,
cornsilk: 16775388,
crimson: 14423100,
cyan: 65535,
darkblue: 139,
darkcyan: 35723,
darkgoldenrod: 12092939,
darkgray: 11119017,
darkgreen: 25600,
darkgrey: 11119017,
darkkhaki: 12433259,
darkmagenta: 9109643,
darkolivegreen: 5597999,
darkorange: 16747520,
darkorchid: 10040012,
darkred: 9109504,
darksalmon: 15308410,
darkseagreen: 9419919,
darkslateblue: 4734347,
darkslategray: 3100495,
darkslategrey: 3100495,
darkturquoise: 52945,
darkviolet: 9699539,
deeppink: 16716947,
deepskyblue: 49151,
dimgray: 6908265,
dimgrey: 6908265,
dodgerblue: 2003199,
firebrick: 11674146,
floralwhite: 16775920,
forestgreen: 2263842,
fuchsia: 16711935,
gainsboro: 14474460,
ghostwhite: 16316671,
gold: 16766720,
goldenrod: 14329120,
gray: 8421504,
green: 32768,
greenyellow: 11403055,
grey: 8421504,
honeydew: 15794160,
hotpink: 16738740,
indianred: 13458524,
indigo: 4915330,
ivory: 16777200,
khaki: 15787660,
lavender: 15132410,
lavenderblush: 16773365,
lawngreen: 8190976,
lemonchiffon: 16775885,
lightblue: 11393254,
lightcoral: 15761536,
lightcyan: 14745599,
lightgoldenrodyellow: 16448210,
lightgray: 13882323,
lightgreen: 9498256,
lightgrey: 13882323,
lightpink: 16758465,
lightsalmon: 16752762,
lightseagreen: 2142890,
lightskyblue: 8900346,
lightslategray: 7833753,
lightslategrey: 7833753,
lightsteelblue: 11584734,
lightyellow: 16777184,
lime: 65280,
limegreen: 3329330,
linen: 16445670,
magenta: 16711935,
maroon: 8388608,
mediumaquamarine: 6737322,
mediumblue: 205,
mediumorchid: 12211667,
mediumpurple: 9662683,
mediumseagreen: 3978097,
mediumslateblue: 8087790,
mediumspringgreen: 64154,
mediumturquoise: 4772300,
mediumvioletred: 13047173,
midnightblue: 1644912,
mintcream: 16121850,
mistyrose: 16770273,
moccasin: 16770229,
navajowhite: 16768685,
navy: 128,
oldlace: 16643558,
olive: 8421376,
olivedrab: 7048739,
orange: 16753920,
orangered: 16729344,
orchid: 14315734,
palegoldenrod: 15657130,
palegreen: 10025880,
paleturquoise: 11529966,
palevioletred: 14381203,
papayawhip: 16773077,
peachpuff: 16767673,
peru: 13468991,
pink: 16761035,
plum: 14524637,
powderblue: 11591910,
purple: 8388736,
rebeccapurple: 6697881,
red: 16711680,
rosybrown: 12357519,
royalblue: 4286945,
saddlebrown: 9127187,
salmon: 16416882,
sandybrown: 16032864,
seagreen: 3050327,
seashell: 16774638,
sienna: 10506797,
silver: 12632256,
skyblue: 8900331,
slateblue: 6970061,
slategray: 7372944,
slategrey: 7372944,
snow: 16775930,
springgreen: 65407,
steelblue: 4620980,
tan: 13808780,
teal: 32896,
thistle: 14204888,
tomato: 16737095,
turquoise: 4251856,
violet: 15631086,
wheat: 16113331,
white: 16777215,
whitesmoke: 16119285,
yellow: 16776960,
yellowgreen: 10145074
});
d3_rgb_names.forEach(function(key, value) {
d3_rgb_names.set(key, d3_rgbNumber(value));
});
function d3_functor(v) {
return typeof v === "function" ? v : function() {
return v;
};
}
d3.functor = d3_functor;
d3.xhr = d3_xhrType(d3_identity);
function d3_xhrType(response) {
return function(url, mimeType, callback) {
if (arguments.length === 2 && typeof mimeType === "function") callback = mimeType,
mimeType = null;
return d3_xhr(url, mimeType, response, callback);
};
}
function d3_xhr(url, mimeType, response, callback) {
var xhr = {}, dispatch = d3.dispatch("beforesend", "progress", "load", "error"), headers = {}, request = new XMLHttpRequest(), responseType = null;
if (this.XDomainRequest && !("withCredentials" in request) && /^(http(s)?:)?\/\//.test(url)) request = new XDomainRequest();
"onload" in request ? request.onload = request.onerror = respond : request.onreadystatechange = function() {
request.readyState > 3 && respond();
};
function respond() {
var status = request.status, result;
if (!status && d3_xhrHasResponse(request) || status >= 200 && status < 300 || status === 304) {
try {
result = response.call(xhr, request);
} catch (e) {
dispatch.error.call(xhr, e);
return;
}
dispatch.load.call(xhr, result);
} else {
dispatch.error.call(xhr, request);
}
}
request.onprogress = function(event) {
var o = d3.event;
d3.event = event;
try {
dispatch.progress.call(xhr, request);
} finally {
d3.event = o;
}
};
xhr.header = function(name, value) {
name = (name + "").toLowerCase();
if (arguments.length < 2) return headers[name];
if (value == null) delete headers[name]; else headers[name] = value + "";
return xhr;
};
xhr.mimeType = function(value) {
if (!arguments.length) return mimeType;
mimeType = value == null ? null : value + "";
return xhr;
};
xhr.responseType = function(value) {
if (!arguments.length) return responseType;
responseType = value;
return xhr;
};
xhr.response = function(value) {
response = value;
return xhr;
};
[ "get", "post" ].forEach(function(method) {
xhr[method] = function() {
return xhr.send.apply(xhr, [ method ].concat(d3_array(arguments)));
};
});
xhr.send = function(method, data, callback) {
if (arguments.length === 2 && typeof data === "function") callback = data, data = null;
request.open(method, url, true);
if (mimeType != null && !("accept" in headers)) headers["accept"] = mimeType + ",*/*";
if (request.setRequestHeader) for (var name in headers) request.setRequestHeader(name, headers[name]);
if (mimeType != null && request.overrideMimeType) request.overrideMimeType(mimeType);
if (responseType != null) request.responseType = responseType;
if (callback != null) xhr.on("error", callback).on("load", function(request) {
callback(null, request);
});
dispatch.beforesend.call(xhr, request);
request.send(data == null ? null : data);
return xhr;
};
xhr.abort = function() {
request.abort();
return xhr;
};
d3.rebind(xhr, dispatch, "on");
return callback == null ? xhr : xhr.get(d3_xhr_fixCallback(callback));
}
function d3_xhr_fixCallback(callback) {
return callback.length === 1 ? function(error, request) {
callback(error == null ? request : null);
} : callback;
}
function d3_xhrHasResponse(request) {
var type = request.responseType;
return type && type !== "text" ? request.response : request.responseText;
}
d3.dsv = function(delimiter, mimeType) {
var reFormat = new RegExp('["' + delimiter + "\n]"), delimiterCode = delimiter.charCodeAt(0);
function dsv(url, row, callback) {
if (arguments.length < 3) callback = row, row = null;
var xhr = d3_xhr(url, mimeType, row == null ? response : typedResponse(row), callback);
xhr.row = function(_) {
return arguments.length ? xhr.response((row = _) == null ? response : typedResponse(_)) : row;
};
return xhr;
}
function response(request) {
return dsv.parse(request.responseText);
}
function typedResponse(f) {
return function(request) {
return dsv.parse(request.responseText, f);
};
}
dsv.parse = function(text, f) {
var o;
return dsv.parseRows(text, function(row, i) {
if (o) return o(row, i - 1);
var a = new Function("d", "return {" + row.map(function(name, i) {
return JSON.stringify(name) + ": d[" + i + "]";
}).join(",") + "}");
o = f ? function(row, i) {
return f(a(row), i);
} : a;
});
};
dsv.parseRows = function(text, f) {
var EOL = {}, EOF = {}, rows = [], N = text.length, I = 0, n = 0, t, eol;
function token() {
if (I >= N) return EOF;
if (eol) return eol = false, EOL;
var j = I;
if (text.charCodeAt(j) === 34) {
var i = j;
while (i++ < N) {
if (text.charCodeAt(i) === 34) {
if (text.charCodeAt(i + 1) !== 34) break;
++i;
}
}
I = i + 2;
var c = text.charCodeAt(i + 1);
if (c === 13) {
eol = true;
if (text.charCodeAt(i + 2) === 10) ++I;
} else if (c === 10) {
eol = true;
}
return text.slice(j + 1, i).replace(/""/g, '"');
}
while (I < N) {
var c = text.charCodeAt(I++), k = 1;
if (c === 10) eol = true; else if (c === 13) {
eol = true;
if (text.charCodeAt(I) === 10) ++I, ++k;
} else if (c !== delimiterCode) continue;
return text.slice(j, I - k);
}
return text.slice(j);
}
while ((t = token()) !== EOF) {
var a = [];
while (t !== EOL && t !== EOF) {
a.push(t);
t = token();
}
if (f && (a = f(a, n++)) == null) continue;
rows.push(a);
}
return rows;
};
dsv.format = function(rows) {
if (Array.isArray(rows[0])) return dsv.formatRows(rows);
var fieldSet = new d3_Set(), fields = [];
rows.forEach(function(row) {
for (var field in row) {
if (!fieldSet.has(field)) {
fields.push(fieldSet.add(field));
}
}
});
return [ fields.map(formatValue).join(delimiter) ].concat(rows.map(function(row) {
return fields.map(function(field) {
return formatValue(row[field]);
}).join(delimiter);
})).join("\n");
};
dsv.formatRows = function(rows) {
return rows.map(formatRow).join("\n");
};
function formatRow(row) {
return row.map(formatValue).join(delimiter);
}
function formatValue(text) {
return reFormat.test(text) ? '"' + text.replace(/\"/g, '""') + '"' : text;
}
return dsv;
};
d3.csv = d3.dsv(",", "text/csv");
d3.tsv = d3.dsv(" ", "text/tab-separated-values");
var d3_timer_queueHead, d3_timer_queueTail, d3_timer_interval, d3_timer_timeout, d3_timer_frame = this[d3_vendorSymbol(this, "requestAnimationFrame")] || function(callback) {
setTimeout(callback, 17);
};
d3.timer = function() {
d3_timer.apply(this, arguments);
};
function d3_timer(callback, delay, then) {
var n = arguments.length;
if (n < 2) delay = 0;
if (n < 3) then = Date.now();
var time = then + delay, timer = {
c: callback,
t: time,
n: null
};
if (d3_timer_queueTail) d3_timer_queueTail.n = timer; else d3_timer_queueHead = timer;
d3_timer_queueTail = timer;
if (!d3_timer_interval) {
d3_timer_timeout = clearTimeout(d3_timer_timeout);
d3_timer_interval = 1;
d3_timer_frame(d3_timer_step);
}
return timer;
}
function d3_timer_step() {
var now = d3_timer_mark(), delay = d3_timer_sweep() - now;
if (delay > 24) {
if (isFinite(delay)) {
clearTimeout(d3_timer_timeout);
d3_timer_timeout = setTimeout(d3_timer_step, delay);
}
d3_timer_interval = 0;
} else {
d3_timer_interval = 1;
d3_timer_frame(d3_timer_step);
}
}
d3.timer.flush = function() {
d3_timer_mark();
d3_timer_sweep();
};
function d3_timer_mark() {
var now = Date.now(), timer = d3_timer_queueHead;
while (timer) {
if (now >= timer.t && timer.c(now - timer.t)) timer.c = null;
timer = timer.n;
}
return now;
}
function d3_timer_sweep() {
var t0, t1 = d3_timer_queueHead, time = Infinity;
while (t1) {
if (t1.c) {
if (t1.t < time) time = t1.t;
t1 = (t0 = t1).n;
} else {
t1 = t0 ? t0.n = t1.n : d3_timer_queueHead = t1.n;
}
}
d3_timer_queueTail = t0;
return time;
}
function d3_format_precision(x, p) {
return p - (x ? Math.ceil(Math.log(x) / Math.LN10) : 1);
}
d3.round = function(x, n) {
return n ? Math.round(x * (n = Math.pow(10, n))) / n : Math.round(x);
};
var d3_formatPrefixes = [ "y", "z", "a", "f", "p", "n", "µ", "m", "", "k", "M", "G", "T", "P", "E", "Z", "Y" ].map(d3_formatPrefix);
d3.formatPrefix = function(value, precision) {
var i = 0;
if (value = +value) {
if (value < 0) value *= -1;
if (precision) value = d3.round(value, d3_format_precision(value, precision));
i = 1 + Math.floor(1e-12 + Math.log(value) / Math.LN10);
i = Math.max(-24, Math.min(24, Math.floor((i - 1) / 3) * 3));
}
return d3_formatPrefixes[8 + i / 3];
};
function d3_formatPrefix(d, i) {
var k = Math.pow(10, abs(8 - i) * 3);
return {
scale: i > 8 ? function(d) {
return d / k;
} : function(d) {
return d * k;
},
symbol: d
};
}
function d3_locale_numberFormat(locale) {
var locale_decimal = locale.decimal, locale_thousands = locale.thousands, locale_grouping = locale.grouping, locale_currency = locale.currency, formatGroup = locale_grouping && locale_thousands ? function(value, width) {
var i = value.length, t = [], j = 0, g = locale_grouping[0], length = 0;
while (i > 0 && g > 0) {
if (length + g + 1 > width) g = Math.max(1, width - length);
t.push(value.substring(i -= g, i + g));
if ((length += g + 1) > width) break;
g = locale_grouping[j = (j + 1) % locale_grouping.length];
}
return t.reverse().join(locale_thousands);
} : d3_identity;
return function(specifier) {
var match = d3_format_re.exec(specifier), fill = match[1] || " ", align = match[2] || ">", sign = match[3] || "-", symbol = match[4] || "", zfill = match[5], width = +match[6], comma = match[7], precision = match[8], type = match[9], scale = 1, prefix = "", suffix = "", integer = false, exponent = true;
if (precision) precision = +precision.substring(1);
if (zfill || fill === "0" && align === "=") {
zfill = fill = "0";
align = "=";
}
switch (type) {
case "n":
comma = true;
type = "g";
break;
case "%":
scale = 100;
suffix = "%";
type = "f";
break;
case "p":
scale = 100;
suffix = "%";
type = "r";
break;
case "b":
case "o":
case "x":
case "X":
if (symbol === "#") prefix = "0" + type.toLowerCase();
case "c":
exponent = false;
case "d":
integer = true;
precision = 0;
break;
case "s":
scale = -1;
type = "r";
break;
}
if (symbol === "$") prefix = locale_currency[0], suffix = locale_currency[1];
if (type == "r" && !precision) type = "g";
if (precision != null) {
if (type == "g") precision = Math.max(1, Math.min(21, precision)); else if (type == "e" || type == "f") precision = Math.max(0, Math.min(20, precision));
}
type = d3_format_types.get(type) || d3_format_typeDefault;
var zcomma = zfill && comma;
return function(value) {
var fullSuffix = suffix;
if (integer && value % 1) return "";
var negative = value < 0 || value === 0 && 1 / value < 0 ? (value = -value, "-") : sign === "-" ? "" : sign;
if (scale < 0) {
var unit = d3.formatPrefix(value, precision);
value = unit.scale(value);
fullSuffix = unit.symbol + suffix;
} else {
value *= scale;
}
value = type(value, precision);
var i = value.lastIndexOf("."), before, after;
if (i < 0) {
var j = exponent ? value.lastIndexOf("e") : -1;
if (j < 0) before = value, after = ""; else before = value.substring(0, j), after = value.substring(j);
} else {
before = value.substring(0, i);
after = locale_decimal + value.substring(i + 1);
}
if (!zfill && comma) before = formatGroup(before, Infinity);
var length = prefix.length + before.length + after.length + (zcomma ? 0 : negative.length), padding = length < width ? new Array(length = width - length + 1).join(fill) : "";
if (zcomma) before = formatGroup(padding + before, padding.length ? width - after.length : Infinity);
negative += prefix;
value = before + after;
return (align === "<" ? negative + value + padding : align === ">" ? padding + negative + value : align === "^" ? padding.substring(0, length >>= 1) + negative + value + padding.substring(length) : negative + (zcomma ? value : padding + value)) + fullSuffix;
};
};
}
var d3_format_re = /(?:([^{])?([<>=^]))?([+\- ])?([$#])?(0)?(\d+)?(,)?(\.-?\d+)?([a-z%])?/i;
var d3_format_types = d3.map({
b: function(x) {
return x.toString(2);
},
c: function(x) {
return String.fromCharCode(x);
},
o: function(x) {
return x.toString(8);
},
x: function(x) {
return x.toString(16);
},
X: function(x) {
return x.toString(16).toUpperCase();
},
g: function(x, p) {
return x.toPrecision(p);
},
e: function(x, p) {
return x.toExponential(p);
},
f: function(x, p) {
return x.toFixed(p);
},
r: function(x, p) {
return (x = d3.round(x, d3_format_precision(x, p))).toFixed(Math.max(0, Math.min(20, d3_format_precision(x * (1 + 1e-15), p))));
}
});
function d3_format_typeDefault(x) {
return x + "";
}
var d3_time = d3.time = {}, d3_date = Date;
function d3_date_utc() {
this._ = new Date(arguments.length > 1 ? Date.UTC.apply(this, arguments) : arguments[0]);
}
d3_date_utc.prototype = {
getDate: function() {
return this._.getUTCDate();
},
getDay: function() {
return this._.getUTCDay();
},
getFullYear: function() {
return this._.getUTCFullYear();
},
getHours: function() {
return this._.getUTCHours();
},
getMilliseconds: function() {
return this._.getUTCMilliseconds();
},
getMinutes: function() {
return this._.getUTCMinutes();
},
getMonth: function() {
return this._.getUTCMonth();
},
getSeconds: function() {
return this._.getUTCSeconds();
},
getTime: function() {
return this._.getTime();
},
getTimezoneOffset: function() {
return 0;
},
valueOf: function() {
return this._.valueOf();
},
setDate: function() {
d3_time_prototype.setUTCDate.apply(this._, arguments);
},
setDay: function() {
d3_time_prototype.setUTCDay.apply(this._, arguments);
},
setFullYear: function() {
d3_time_prototype.setUTCFullYear.apply(this._, arguments);
},
setHours: function() {
d3_time_prototype.setUTCHours.apply(this._, arguments);
},
setMilliseconds: function() {
d3_time_prototype.setUTCMilliseconds.apply(this._, arguments);
},
setMinutes: function() {
d3_time_prototype.setUTCMinutes.apply(this._, arguments);
},
setMonth: function() {
d3_time_prototype.setUTCMonth.apply(this._, arguments);
},
setSeconds: function() {
d3_time_prototype.setUTCSeconds.apply(this._, arguments);
},
setTime: function() {
d3_time_prototype.setTime.apply(this._, arguments);
}
};
var d3_time_prototype = Date.prototype;
function d3_time_interval(local, step, number) {
function round(date) {
var d0 = local(date), d1 = offset(d0, 1);
return date - d0 < d1 - date ? d0 : d1;
}
function ceil(date) {
step(date = local(new d3_date(date - 1)), 1);
return date;
}
function offset(date, k) {
step(date = new d3_date(+date), k);
return date;
}
function range(t0, t1, dt) {
var time = ceil(t0), times = [];
if (dt > 1) {
while (time < t1) {
if (!(number(time) % dt)) times.push(new Date(+time));
step(time, 1);
}
} else {
while (time < t1) times.push(new Date(+time)), step(time, 1);
}
return times;
}
function range_utc(t0, t1, dt) {
try {
d3_date = d3_date_utc;
var utc = new d3_date_utc();
utc._ = t0;
return range(utc, t1, dt);
} finally {
d3_date = Date;
}
}
local.floor = local;
local.round = round;
local.ceil = ceil;
local.offset = offset;
local.range = range;
var utc = local.utc = d3_time_interval_utc(local);
utc.floor = utc;
utc.round = d3_time_interval_utc(round);
utc.ceil = d3_time_interval_utc(ceil);
utc.offset = d3_time_interval_utc(offset);
utc.range = range_utc;
return local;
}
function d3_time_interval_utc(method) {
return function(date, k) {
try {
d3_date = d3_date_utc;
var utc = new d3_date_utc();
utc._ = date;
return method(utc, k)._;
} finally {
d3_date = Date;
}
};
}
d3_time.year = d3_time_interval(function(date) {
date = d3_time.day(date);
date.setMonth(0, 1);
return date;
}, function(date, offset) {
date.setFullYear(date.getFullYear() + offset);
}, function(date) {
return date.getFullYear();
});
d3_time.years = d3_time.year.range;
d3_time.years.utc = d3_time.year.utc.range;
d3_time.day = d3_time_interval(function(date) {
var day = new d3_date(2e3, 0);
day.setFullYear(date.getFullYear(), date.getMonth(), date.getDate());
return day;
}, function(date, offset) {
date.setDate(date.getDate() + offset);
}, function(date) {
return date.getDate() - 1;
});
d3_time.days = d3_time.day.range;
d3_time.days.utc = d3_time.day.utc.range;
d3_time.dayOfYear = function(date) {
var year = d3_time.year(date);
return Math.floor((date - year - (date.getTimezoneOffset() - year.getTimezoneOffset()) * 6e4) / 864e5);
};
[ "sunday", "monday", "tuesday", "wednesday", "thursday", "friday", "saturday" ].forEach(function(day, i) {
i = 7 - i;
var interval = d3_time[day] = d3_time_interval(function(date) {
(date = d3_time.day(date)).setDate(date.getDate() - (date.getDay() + i) % 7);
return date;
}, function(date, offset) {
date.setDate(date.getDate() + Math.floor(offset) * 7);
}, function(date) {
var day = d3_time.year(date).getDay();
return Math.floor((d3_time.dayOfYear(date) + (day + i) % 7) / 7) - (day !== i);
});
d3_time[day + "s"] = interval.range;
d3_time[day + "s"].utc = interval.utc.range;
d3_time[day + "OfYear"] = function(date) {
var day = d3_time.year(date).getDay();
return Math.floor((d3_time.dayOfYear(date) + (day + i) % 7) / 7);
};
});
d3_time.week = d3_time.sunday;
d3_time.weeks = d3_time.sunday.range;
d3_time.weeks.utc = d3_time.sunday.utc.range;
d3_time.weekOfYear = d3_time.sundayOfYear;
function d3_locale_timeFormat(locale) {
var locale_dateTime = locale.dateTime, locale_date = locale.date, locale_time = locale.time, locale_periods = locale.periods, locale_days = locale.days, locale_shortDays = locale.shortDays, locale_months = locale.months, locale_shortMonths = locale.shortMonths;
function d3_time_format(template) {
var n = template.length;
function format(date) {
var string = [], i = -1, j = 0, c, p, f;
while (++i < n) {
if (template.charCodeAt(i) === 37) {
string.push(template.slice(j, i));
if ((p = d3_time_formatPads[c = template.charAt(++i)]) != null) c = template.charAt(++i);
if (f = d3_time_formats[c]) c = f(date, p == null ? c === "e" ? " " : "0" : p);
string.push(c);
j = i + 1;
}
}
string.push(template.slice(j, i));
return string.join("");
}
format.parse = function(string) {
var d = {
y: 1900,
m: 0,
d: 1,
H: 0,
M: 0,
S: 0,
L: 0,
Z: null
}, i = d3_time_parse(d, template, string, 0);
if (i != string.length) return null;
if ("p" in d) d.H = d.H % 12 + d.p * 12;
var localZ = d.Z != null && d3_date !== d3_date_utc, date = new (localZ ? d3_date_utc : d3_date)();
if ("j" in d) date.setFullYear(d.y, 0, d.j); else if ("W" in d || "U" in d) {
if (!("w" in d)) d.w = "W" in d ? 1 : 0;
date.setFullYear(d.y, 0, 1);
date.setFullYear(d.y, 0, "W" in d ? (d.w + 6) % 7 + d.W * 7 - (date.getDay() + 5) % 7 : d.w + d.U * 7 - (date.getDay() + 6) % 7);
} else date.setFullYear(d.y, d.m, d.d);
date.setHours(d.H + (d.Z / 100 | 0), d.M + d.Z % 100, d.S, d.L);
return localZ ? date._ : date;
};
format.toString = function() {
return template;
};
return format;
}
function d3_time_parse(date, template, string, j) {
var c, p, t, i = 0, n = template.length, m = string.length;
while (i < n) {
if (j >= m) return -1;
c = template.charCodeAt(i++);
if (c === 37) {
t = template.charAt(i++);
p = d3_time_parsers[t in d3_time_formatPads ? template.charAt(i++) : t];
if (!p || (j = p(date, string, j)) < 0) return -1;
} else if (c != string.charCodeAt(j++)) {
return -1;
}
}
return j;
}
d3_time_format.utc = function(template) {
var local = d3_time_format(template);
function format(date) {
try {
d3_date = d3_date_utc;
var utc = new d3_date();
utc._ = date;
return local(utc);
} finally {
d3_date = Date;
}
}
format.parse = function(string) {
try {
d3_date = d3_date_utc;
var date = local.parse(string);
return date && date._;
} finally {
d3_date = Date;
}
};
format.toString = local.toString;
return format;
};
d3_time_format.multi = d3_time_format.utc.multi = d3_time_formatMulti;
var d3_time_periodLookup = d3.map(), d3_time_dayRe = d3_time_formatRe(locale_days), d3_time_dayLookup = d3_time_formatLookup(locale_days), d3_time_dayAbbrevRe = d3_time_formatRe(locale_shortDays), d3_time_dayAbbrevLookup = d3_time_formatLookup(locale_shortDays), d3_time_monthRe = d3_time_formatRe(locale_months), d3_time_monthLookup = d3_time_formatLookup(locale_months), d3_time_monthAbbrevRe = d3_time_formatRe(locale_shortMonths), d3_time_monthAbbrevLookup = d3_time_formatLookup(locale_shortMonths);
locale_periods.forEach(function(p, i) {
d3_time_periodLookup.set(p.toLowerCase(), i);
});
var d3_time_formats = {
a: function(d) {
return locale_shortDays[d.getDay()];
},
A: function(d) {
return locale_days[d.getDay()];
},
b: function(d) {
return locale_shortMonths[d.getMonth()];
},
B: function(d) {
return locale_months[d.getMonth()];
},
c: d3_time_format(locale_dateTime),
d: function(d, p) {
return d3_time_formatPad(d.getDate(), p, 2);
},
e: function(d, p) {
return d3_time_formatPad(d.getDate(), p, 2);
},
H: function(d, p) {
return d3_time_formatPad(d.getHours(), p, 2);
},
I: function(d, p) {
return d3_time_formatPad(d.getHours() % 12 || 12, p, 2);
},
j: function(d, p) {
return d3_time_formatPad(1 + d3_time.dayOfYear(d), p, 3);
},
L: function(d, p) {
return d3_time_formatPad(d.getMilliseconds(), p, 3);
},
m: function(d, p) {
return d3_time_formatPad(d.getMonth() + 1, p, 2);
},
M: function(d, p) {
return d3_time_formatPad(d.getMinutes(), p, 2);
},
p: function(d) {
return locale_periods[+(d.getHours() >= 12)];
},
S: function(d, p) {
return d3_time_formatPad(d.getSeconds(), p, 2);
},
U: function(d, p) {
return d3_time_formatPad(d3_time.sundayOfYear(d), p, 2);
},
w: function(d) {
return d.getDay();
},
W: function(d, p) {
return d3_time_formatPad(d3_time.mondayOfYear(d), p, 2);
},
x: d3_time_format(locale_date),
X: d3_time_format(locale_time),
y: function(d, p) {
return d3_time_formatPad(d.getFullYear() % 100, p, 2);
},
Y: function(d, p) {
return d3_time_formatPad(d.getFullYear() % 1e4, p, 4);
},
Z: d3_time_zone,
"%": function() {
return "%";
}
};
var d3_time_parsers = {
a: d3_time_parseWeekdayAbbrev,
A: d3_time_parseWeekday,
b: d3_time_parseMonthAbbrev,
B: d3_time_parseMonth,
c: d3_time_parseLocaleFull,
d: d3_time_parseDay,
e: d3_time_parseDay,
H: d3_time_parseHour24,
I: d3_time_parseHour24,
j: d3_time_parseDayOfYear,
L: d3_time_parseMilliseconds,
m: d3_time_parseMonthNumber,
M: d3_time_parseMinutes,
p: d3_time_parseAmPm,
S: d3_time_parseSeconds,
U: d3_time_parseWeekNumberSunday,
w: d3_time_parseWeekdayNumber,
W: d3_time_parseWeekNumberMonday,
x: d3_time_parseLocaleDate,
X: d3_time_parseLocaleTime,
y: d3_time_parseYear,
Y: d3_time_parseFullYear,
Z: d3_time_parseZone,
"%": d3_time_parseLiteralPercent
};
function d3_time_parseWeekdayAbbrev(date, string, i) {
d3_time_dayAbbrevRe.lastIndex = 0;
var n = d3_time_dayAbbrevRe.exec(string.slice(i));
return n ? (date.w = d3_time_dayAbbrevLookup.get(n[0].toLowerCase()), i + n[0].length) : -1;
}
function d3_time_parseWeekday(date, string, i) {
d3_time_dayRe.lastIndex = 0;
var n = d3_time_dayRe.exec(string.slice(i));
return n ? (date.w = d3_time_dayLookup.get(n[0].toLowerCase()), i + n[0].length) : -1;
}
function d3_time_parseMonthAbbrev(date, string, i) {
d3_time_monthAbbrevRe.lastIndex = 0;
var n = d3_time_monthAbbrevRe.exec(string.slice(i));
return n ? (date.m = d3_time_monthAbbrevLookup.get(n[0].toLowerCase()), i + n[0].length) : -1;
}
function d3_time_parseMonth(date, string, i) {
d3_time_monthRe.lastIndex = 0;
var n = d3_time_monthRe.exec(string.slice(i));
return n ? (date.m = d3_time_monthLookup.get(n[0].toLowerCase()), i + n[0].length) : -1;
}
function d3_time_parseLocaleFull(date, string, i) {
return d3_time_parse(date, d3_time_formats.c.toString(), string, i);
}
function d3_time_parseLocaleDate(date, string, i) {
return d3_time_parse(date, d3_time_formats.x.toString(), string, i);
}
function d3_time_parseLocaleTime(date, string, i) {
return d3_time_parse(date, d3_time_formats.X.toString(), string, i);
}
function d3_time_parseAmPm(date, string, i) {
var n = d3_time_periodLookup.get(string.slice(i, i += 2).toLowerCase());
return n == null ? -1 : (date.p = n, i);
}
return d3_time_format;
}
var d3_time_formatPads = {
"-": "",
_: " ",
"0": "0"
}, d3_time_numberRe = /^\s*\d+/, d3_time_percentRe = /^%/;
function d3_time_formatPad(value, fill, width) {
var sign = value < 0 ? "-" : "", string = (sign ? -value : value) + "", length = string.length;
return sign + (length < width ? new Array(width - length + 1).join(fill) + string : string);
}
function d3_time_formatRe(names) {
return new RegExp("^(?:" + names.map(d3.requote).join("|") + ")", "i");
}
function d3_time_formatLookup(names) {
var map = new d3_Map(), i = -1, n = names.length;
while (++i < n) map.set(names[i].toLowerCase(), i);
return map;
}
function d3_time_parseWeekdayNumber(date, string, i) {
d3_time_numberRe.lastIndex = 0;
var n = d3_time_numberRe.exec(string.slice(i, i + 1));
return n ? (date.w = +n[0], i + n[0].length) : -1;
}
function d3_time_parseWeekNumberSunday(date, string, i) {
d3_time_numberRe.lastIndex = 0;
var n = d3_time_numberRe.exec(string.slice(i));
return n ? (date.U = +n[0], i + n[0].length) : -1;
}
function d3_time_parseWeekNumberMonday(date, string, i) {
d3_time_numberRe.lastIndex = 0;
var n = d3_time_numberRe.exec(string.slice(i));
return n ? (date.W = +n[0], i + n[0].length) : -1;
}
function d3_time_parseFullYear(date, string, i) {
d3_time_numberRe.lastIndex = 0;
var n = d3_time_numberRe.exec(string.slice(i, i + 4));
return n ? (date.y = +n[0], i + n[0].length) : -1;
}
function d3_time_parseYear(date, string, i) {
d3_time_numberRe.lastIndex = 0;
var n = d3_time_numberRe.exec(string.slice(i, i + 2));
return n ? (date.y = d3_time_expandYear(+n[0]), i + n[0].length) : -1;
}
function d3_time_parseZone(date, string, i) {
return /^[+-]\d{4}$/.test(string = string.slice(i, i + 5)) ? (date.Z = -string,
i + 5) : -1;
}
function d3_time_expandYear(d) {
return d + (d > 68 ? 1900 : 2e3);
}
function d3_time_parseMonthNumber(date, string, i) {
d3_time_numberRe.lastIndex = 0;
var n = d3_time_numberRe.exec(string.slice(i, i + 2));
return n ? (date.m = n[0] - 1, i + n[0].length) : -1;
}
function d3_time_parseDay(date, string, i) {
d3_time_numberRe.lastIndex = 0;
var n = d3_time_numberRe.exec(string.slice(i, i + 2));
return n ? (date.d = +n[0], i + n[0].length) : -1;
}
function d3_time_parseDayOfYear(date, string, i) {
d3_time_numberRe.lastIndex = 0;
var n = d3_time_numberRe.exec(string.slice(i, i + 3));
return n ? (date.j = +n[0], i + n[0].length) : -1;
}
function d3_time_parseHour24(date, string, i) {
d3_time_numberRe.lastIndex = 0;
var n = d3_time_numberRe.exec(string.slice(i, i + 2));
return n ? (date.H = +n[0], i + n[0].length) : -1;
}
function d3_time_parseMinutes(date, string, i) {
d3_time_numberRe.lastIndex = 0;
var n = d3_time_numberRe.exec(string.slice(i, i + 2));
return n ? (date.M = +n[0], i + n[0].length) : -1;
}
function d3_time_parseSeconds(date, string, i) {
d3_time_numberRe.lastIndex = 0;
var n = d3_time_numberRe.exec(string.slice(i, i + 2));
return n ? (date.S = +n[0], i + n[0].length) : -1;
}
function d3_time_parseMilliseconds(date, string, i) {
d3_time_numberRe.lastIndex = 0;
var n = d3_time_numberRe.exec(string.slice(i, i + 3));
return n ? (date.L = +n[0], i + n[0].length) : -1;
}
function d3_time_zone(d) {
var z = d.getTimezoneOffset(), zs = z > 0 ? "-" : "+", zh = abs(z) / 60 | 0, zm = abs(z) % 60;
return zs + d3_time_formatPad(zh, "0", 2) + d3_time_formatPad(zm, "0", 2);
}
function d3_time_parseLiteralPercent(date, string, i) {
d3_time_percentRe.lastIndex = 0;
var n = d3_time_percentRe.exec(string.slice(i, i + 1));
return n ? i + n[0].length : -1;
}
function d3_time_formatMulti(formats) {
var n = formats.length, i = -1;
while (++i < n) formats[i][0] = this(formats[i][0]);
return function(date) {
var i = 0, f = formats[i];
while (!f[1](date)) f = formats[++i];
return f[0](date);
};
}
d3.locale = function(locale) {
return {
numberFormat: d3_locale_numberFormat(locale),
timeFormat: d3_locale_timeFormat(locale)
};
};
var d3_locale_enUS = d3.locale({
decimal: ".",
thousands: ",",
grouping: [ 3 ],
currency: [ "$", "" ],
dateTime: "%a %b %e %X %Y",
date: "%m/%d/%Y",
time: "%H:%M:%S",
periods: [ "AM", "PM" ],
days: [ "Sunday", "Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday" ],
shortDays: [ "Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat" ],
months: [ "January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December" ],
shortMonths: [ "Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec" ]
});
d3.format = d3_locale_enUS.numberFormat;
d3.geo = {};
function d3_adder() {}
d3_adder.prototype = {
s: 0,
t: 0,
add: function(y) {
d3_adderSum(y, this.t, d3_adderTemp);
d3_adderSum(d3_adderTemp.s, this.s, this);
if (this.s) this.t += d3_adderTemp.t; else this.s = d3_adderTemp.t;
},
reset: function() {
this.s = this.t = 0;
},
valueOf: function() {
return this.s;
}
};
var d3_adderTemp = new d3_adder();
function d3_adderSum(a, b, o) {
var x = o.s = a + b, bv = x - a, av = x - bv;
o.t = a - av + (b - bv);
}
d3.geo.stream = function(object, listener) {
if (object && d3_geo_streamObjectType.hasOwnProperty(object.type)) {
d3_geo_streamObjectType[object.type](object, listener);
} else {
d3_geo_streamGeometry(object, listener);
}
};
function d3_geo_streamGeometry(geometry, listener) {
if (geometry && d3_geo_streamGeometryType.hasOwnProperty(geometry.type)) {
d3_geo_streamGeometryType[geometry.type](geometry, listener);
}
}
var d3_geo_streamObjectType = {
Feature: function(feature, listener) {
d3_geo_streamGeometry(feature.geometry, listener);
},
FeatureCollection: function(object, listener) {
var features = object.features, i = -1, n = features.length;
while (++i < n) d3_geo_streamGeometry(features[i].geometry, listener);
}
};
var d3_geo_streamGeometryType = {
Sphere: function(object, listener) {
listener.sphere();
},
Point: function(object, listener) {
object = object.coordinates;
listener.point(object[0], object[1], object[2]);
},
MultiPoint: function(object, listener) {
var coordinates = object.coordinates, i = -1, n = coordinates.length;
while (++i < n) object = coordinates[i], listener.point(object[0], object[1], object[2]);
},
LineString: function(object, listener) {
d3_geo_streamLine(object.coordinates, listener, 0);
},
MultiLineString: function(object, listener) {
var coordinates = object.coordinates, i = -1, n = coordinates.length;
while (++i < n) d3_geo_streamLine(coordinates[i], listener, 0);
},
Polygon: function(object, listener) {
d3_geo_streamPolygon(object.coordinates, listener);
},
MultiPolygon: function(object, listener) {
var coordinates = object.coordinates, i = -1, n = coordinates.length;
while (++i < n) d3_geo_streamPolygon(coordinates[i], listener);
},
GeometryCollection: function(object, listener) {
var geometries = object.geometries, i = -1, n = geometries.length;
while (++i < n) d3_geo_streamGeometry(geometries[i], listener);
}
};
function d3_geo_streamLine(coordinates, listener, closed) {
var i = -1, n = coordinates.length - closed, coordinate;
listener.lineStart();
while (++i < n) coordinate = coordinates[i], listener.point(coordinate[0], coordinate[1], coordinate[2]);
listener.lineEnd();
}
function d3_geo_streamPolygon(coordinates, listener) {
var i = -1, n = coordinates.length;
listener.polygonStart();
while (++i < n) d3_geo_streamLine(coordinates[i], listener, 1);
listener.polygonEnd();
}
d3.geo.area = function(object) {
d3_geo_areaSum = 0;
d3.geo.stream(object, d3_geo_area);
return d3_geo_areaSum;
};
var d3_geo_areaSum, d3_geo_areaRingSum = new d3_adder();
var d3_geo_area = {
sphere: function() {
d3_geo_areaSum += 4 * π;
},
point: d3_noop,
lineStart: d3_noop,
lineEnd: d3_noop,
polygonStart: function() {
d3_geo_areaRingSum.reset();
d3_geo_area.lineStart = d3_geo_areaRingStart;
},
polygonEnd: function() {
var area = 2 * d3_geo_areaRingSum;
d3_geo_areaSum += area < 0 ? 4 * π + area : area;
d3_geo_area.lineStart = d3_geo_area.lineEnd = d3_geo_area.point = d3_noop;
}
};
function d3_geo_areaRingStart() {
var λ00, φ00, λ0, cosφ0, sinφ0;
d3_geo_area.point = function(λ, φ) {
d3_geo_area.point = nextPoint;
λ0 = (λ00 = λ) * d3_radians, cosφ0 = Math.cos(φ = (φ00 = φ) * d3_radians / 2 + π / 4),
sinφ0 = Math.sin(φ);
};
function nextPoint(λ, φ) {
λ *= d3_radians;
φ = φ * d3_radians / 2 + π / 4;
var dλ = λ - λ0, sdλ = dλ >= 0 ? 1 : -1, adλ = sdλ * dλ, cosφ = Math.cos(φ), sinφ = Math.sin(φ), k = sinφ0 * sinφ, u = cosφ0 * cosφ + k * Math.cos(adλ), v = k * sdλ * Math.sin(adλ);
d3_geo_areaRingSum.add(Math.atan2(v, u));
λ0 = λ, cosφ0 = cosφ, sinφ0 = sinφ;
}
d3_geo_area.lineEnd = function() {
nextPoint(λ00, φ00);
};
}
function d3_geo_cartesian(spherical) {
var λ = spherical[0], φ = spherical[1], cosφ = Math.cos(φ);
return [ cosφ * Math.cos(λ), cosφ * Math.sin(λ), Math.sin(φ) ];
}
function d3_geo_cartesianDot(a, b) {
return a[0] * b[0] + a[1] * b[1] + a[2] * b[2];
}
function d3_geo_cartesianCross(a, b) {
return [ a[1] * b[2] - a[2] * b[1], a[2] * b[0] - a[0] * b[2], a[0] * b[1] - a[1] * b[0] ];
}
function d3_geo_cartesianAdd(a, b) {
a[0] += b[0];
a[1] += b[1];
a[2] += b[2];
}
function d3_geo_cartesianScale(vector, k) {
return [ vector[0] * k, vector[1] * k, vector[2] * k ];
}
function d3_geo_cartesianNormalize(d) {
var l = Math.sqrt(d[0] * d[0] + d[1] * d[1] + d[2] * d[2]);
d[0] /= l;
d[1] /= l;
d[2] /= l;
}
function d3_geo_spherical(cartesian) {
return [ Math.atan2(cartesian[1], cartesian[0]), d3_asin(cartesian[2]) ];
}
function d3_geo_sphericalEqual(a, b) {
return abs(a[0] - b[0]) < ε && abs(a[1] - b[1]) < ε;
}
d3.geo.bounds = function() {
var λ0, φ0, λ1, φ1, λ_, λ__, φ__, p0, dλSum, ranges, range;
var bound = {
point: point,
lineStart: lineStart,
lineEnd: lineEnd,
polygonStart: function() {
bound.point = ringPoint;
bound.lineStart = ringStart;
bound.lineEnd = ringEnd;
dλSum = 0;
d3_geo_area.polygonStart();
},
polygonEnd: function() {
d3_geo_area.polygonEnd();
bound.point = point;
bound.lineStart = lineStart;
bound.lineEnd = lineEnd;
if (d3_geo_areaRingSum < 0) λ0 = -(λ1 = 180), φ0 = -(φ1 = 90); else if (dλSum > ε) φ1 = 90; else if (dλSum < -ε) φ0 = -90;
range[0] = λ0, range[1] = λ1;
}
};
function point(λ, φ) {
ranges.push(range = [ λ0 = λ, λ1 = λ ]);
if (φ < φ0) φ0 = φ;
if (φ > φ1) φ1 = φ;
}
function linePoint(λ, φ) {
var p = d3_geo_cartesian([ λ * d3_radians, φ * d3_radians ]);
if (p0) {
var normal = d3_geo_cartesianCross(p0, p), equatorial = [ normal[1], -normal[0], 0 ], inflection = d3_geo_cartesianCross(equatorial, normal);
d3_geo_cartesianNormalize(inflection);
inflection = d3_geo_spherical(inflection);
var dλ = λ - λ_, s = dλ > 0 ? 1 : -1, λi = inflection[0] * d3_degrees * s, antimeridian = abs(dλ) > 180;
if (antimeridian ^ (s * λ_ < λi && λi < s * λ)) {
var φi = inflection[1] * d3_degrees;
if (φi > φ1) φ1 = φi;
} else if (λi = (λi + 360) % 360 - 180, antimeridian ^ (s * λ_ < λi && λi < s * λ)) {
var φi = -inflection[1] * d3_degrees;
if (φi < φ0) φ0 = φi;
} else {
if (φ < φ0) φ0 = φ;
if (φ > φ1) φ1 = φ;
}
if (antimeridian) {
if (λ < λ_) {
if (angle(λ0, λ) > angle(λ0, λ1)) λ1 = λ;
} else {
if (angle(λ, λ1) > angle(λ0, λ1)) λ0 = λ;
}
} else {
if (λ1 >= λ0) {
if (λ < λ0) λ0 = λ;
if (λ > λ1) λ1 = λ;
} else {
if (λ > λ_) {
if (angle(λ0, λ) > angle(λ0, λ1)) λ1 = λ;
} else {
if (angle(λ, λ1) > angle(λ0, λ1)) λ0 = λ;
}
}
}
} else {
point(λ, φ);
}
p0 = p, λ_ = λ;
}
function lineStart() {
bound.point = linePoint;
}
function lineEnd() {
range[0] = λ0, range[1] = λ1;
bound.point = point;
p0 = null;
}
function ringPoint(λ, φ) {
if (p0) {
var dλ = λ - λ_;
dλSum += abs(dλ) > 180 ? dλ + (dλ > 0 ? 360 : -360) : dλ;
} else λ__ = λ, φ__ = φ;
d3_geo_area.point(λ, φ);
linePoint(λ, φ);
}
function ringStart() {
d3_geo_area.lineStart();
}
function ringEnd() {
ringPoint(λ__, φ__);
d3_geo_area.lineEnd();
if (abs(dλSum) > ε) λ0 = -(λ1 = 180);
range[0] = λ0, range[1] = λ1;
p0 = null;
}
function angle(λ0, λ1) {
return (λ1 -= λ0) < 0 ? λ1 + 360 : λ1;
}
function compareRanges(a, b) {
return a[0] - b[0];
}
function withinRange(x, range) {
return range[0] <= range[1] ? range[0] <= x && x <= range[1] : x < range[0] || range[1] < x;
}
return function(feature) {
φ1 = λ1 = -(λ0 = φ0 = Infinity);
ranges = [];
d3.geo.stream(feature, bound);
var n = ranges.length;
if (n) {
ranges.sort(compareRanges);
for (var i = 1, a = ranges[0], b, merged = [ a ]; i < n; ++i) {
b = ranges[i];
if (withinRange(b[0], a) || withinRange(b[1], a)) {
if (angle(a[0], b[1]) > angle(a[0], a[1])) a[1] = b[1];
if (angle(b[0], a[1]) > angle(a[0], a[1])) a[0] = b[0];
} else {
merged.push(a = b);
}
}
var best = -Infinity, dλ;
for (var n = merged.length - 1, i = 0, a = merged[n], b; i <= n; a = b, ++i) {
b = merged[i];
if ((dλ = angle(a[1], b[0])) > best) best = dλ, λ0 = b[0], λ1 = a[1];
}
}
ranges = range = null;
return λ0 === Infinity || φ0 === Infinity ? [ [ NaN, NaN ], [ NaN, NaN ] ] : [ [ λ0, φ0 ], [ λ1, φ1 ] ];
};
}();
d3.geo.centroid = function(object) {
d3_geo_centroidW0 = d3_geo_centroidW1 = d3_geo_centroidX0 = d3_geo_centroidY0 = d3_geo_centroidZ0 = d3_geo_centroidX1 = d3_geo_centroidY1 = d3_geo_centroidZ1 = d3_geo_centroidX2 = d3_geo_centroidY2 = d3_geo_centroidZ2 = 0;
d3.geo.stream(object, d3_geo_centroid);
var x = d3_geo_centroidX2, y = d3_geo_centroidY2, z = d3_geo_centroidZ2, m = x * x + y * y + z * z;
if (m < ε2) {
x = d3_geo_centroidX1, y = d3_geo_centroidY1, z = d3_geo_centroidZ1;
if (d3_geo_centroidW1 < ε) x = d3_geo_centroidX0, y = d3_geo_centroidY0, z = d3_geo_centroidZ0;
m = x * x + y * y + z * z;
if (m < ε2) return [ NaN, NaN ];
}
return [ Math.atan2(y, x) * d3_degrees, d3_asin(z / Math.sqrt(m)) * d3_degrees ];
};
var d3_geo_centroidW0, d3_geo_centroidW1, d3_geo_centroidX0, d3_geo_centroidY0, d3_geo_centroidZ0, d3_geo_centroidX1, d3_geo_centroidY1, d3_geo_centroidZ1, d3_geo_centroidX2, d3_geo_centroidY2, d3_geo_centroidZ2;
var d3_geo_centroid = {
sphere: d3_noop,
point: d3_geo_centroidPoint,
lineStart: d3_geo_centroidLineStart,
lineEnd: d3_geo_centroidLineEnd,
polygonStart: function() {
d3_geo_centroid.lineStart = d3_geo_centroidRingStart;
},
polygonEnd: function() {
d3_geo_centroid.lineStart = d3_geo_centroidLineStart;
}
};
function d3_geo_centroidPoint(λ, φ) {
λ *= d3_radians;
var cosφ = Math.cos(φ *= d3_radians);
d3_geo_centroidPointXYZ(cosφ * Math.cos(λ), cosφ * Math.sin(λ), Math.sin(φ));
}
function d3_geo_centroidPointXYZ(x, y, z) {
++d3_geo_centroidW0;
d3_geo_centroidX0 += (x - d3_geo_centroidX0) / d3_geo_centroidW0;
d3_geo_centroidY0 += (y - d3_geo_centroidY0) / d3_geo_centroidW0;
d3_geo_centroidZ0 += (z - d3_geo_centroidZ0) / d3_geo_centroidW0;
}
function d3_geo_centroidLineStart() {
var x0, y0, z0;
d3_geo_centroid.point = function(λ, φ) {
λ *= d3_radians;
var cosφ = Math.cos(φ *= d3_radians);
x0 = cosφ * Math.cos(λ);
y0 = cosφ * Math.sin(λ);
z0 = Math.sin(φ);
d3_geo_centroid.point = nextPoint;
d3_geo_centroidPointXYZ(x0, y0, z0);
};
function nextPoint(λ, φ) {
λ *= d3_radians;
var cosφ = Math.cos(φ *= d3_radians), x = cosφ * Math.cos(λ), y = cosφ * Math.sin(λ), z = Math.sin(φ), w = Math.atan2(Math.sqrt((w = y0 * z - z0 * y) * w + (w = z0 * x - x0 * z) * w + (w = x0 * y - y0 * x) * w), x0 * x + y0 * y + z0 * z);
d3_geo_centroidW1 += w;
d3_geo_centroidX1 += w * (x0 + (x0 = x));
d3_geo_centroidY1 += w * (y0 + (y0 = y));
d3_geo_centroidZ1 += w * (z0 + (z0 = z));
d3_geo_centroidPointXYZ(x0, y0, z0);
}
}
function d3_geo_centroidLineEnd() {
d3_geo_centroid.point = d3_geo_centroidPoint;
}
function d3_geo_centroidRingStart() {
var λ00, φ00, x0, y0, z0;
d3_geo_centroid.point = function(λ, φ) {
λ00 = λ, φ00 = φ;
d3_geo_centroid.point = nextPoint;
λ *= d3_radians;
var cosφ = Math.cos(φ *= d3_radians);
x0 = cosφ * Math.cos(λ);
y0 = cosφ * Math.sin(λ);
z0 = Math.sin(φ);
d3_geo_centroidPointXYZ(x0, y0, z0);
};
d3_geo_centroid.lineEnd = function() {
nextPoint(λ00, φ00);
d3_geo_centroid.lineEnd = d3_geo_centroidLineEnd;
d3_geo_centroid.point = d3_geo_centroidPoint;
};
function nextPoint(λ, φ) {
λ *= d3_radians;
var cosφ = Math.cos(φ *= d3_radians), x = cosφ * Math.cos(λ), y = cosφ * Math.sin(λ), z = Math.sin(φ), cx = y0 * z - z0 * y, cy = z0 * x - x0 * z, cz = x0 * y - y0 * x, m = Math.sqrt(cx * cx + cy * cy + cz * cz), u = x0 * x + y0 * y + z0 * z, v = m && -d3_acos(u) / m, w = Math.atan2(m, u);
d3_geo_centroidX2 += v * cx;
d3_geo_centroidY2 += v * cy;
d3_geo_centroidZ2 += v * cz;
d3_geo_centroidW1 += w;
d3_geo_centroidX1 += w * (x0 + (x0 = x));
d3_geo_centroidY1 += w * (y0 + (y0 = y));
d3_geo_centroidZ1 += w * (z0 + (z0 = z));
d3_geo_centroidPointXYZ(x0, y0, z0);
}
}
function d3_geo_compose(a, b) {
function compose(x, y) {
return x = a(x, y), b(x[0], x[1]);
}
if (a.invert && b.invert) compose.invert = function(x, y) {
return x = b.invert(x, y), x && a.invert(x[0], x[1]);
};
return compose;
}
function d3_true() {
return true;
}
function d3_geo_clipPolygon(segments, compare, clipStartInside, interpolate, listener) {
var subject = [], clip = [];
segments.forEach(function(segment) {
if ((n = segment.length - 1) <= 0) return;
var n, p0 = segment[0], p1 = segment[n];
if (d3_geo_sphericalEqual(p0, p1)) {
listener.lineStart();
for (var i = 0; i < n; ++i) listener.point((p0 = segment[i])[0], p0[1]);
listener.lineEnd();
return;
}
var a = new d3_geo_clipPolygonIntersection(p0, segment, null, true), b = new d3_geo_clipPolygonIntersection(p0, null, a, false);
a.o = b;
subject.push(a);
clip.push(b);
a = new d3_geo_clipPolygonIntersection(p1, segment, null, false);
b = new d3_geo_clipPolygonIntersection(p1, null, a, true);
a.o = b;
subject.push(a);
clip.push(b);
});
clip.sort(compare);
d3_geo_clipPolygonLinkCircular(subject);
d3_geo_clipPolygonLinkCircular(clip);
if (!subject.length) return;
for (var i = 0, entry = clipStartInside, n = clip.length; i < n; ++i) {
clip[i].e = entry = !entry;
}
var start = subject[0], points, point;
while (1) {
var current = start, isSubject = true;
while (current.v) if ((current = current.n) === start) return;
points = current.z;
listener.lineStart();
do {
current.v = current.o.v = true;
if (current.e) {
if (isSubject) {
for (var i = 0, n = points.length; i < n; ++i) listener.point((point = points[i])[0], point[1]);
} else {
interpolate(current.x, current.n.x, 1, listener);
}
current = current.n;
} else {
if (isSubject) {
points = current.p.z;
for (var i = points.length - 1; i >= 0; --i) listener.point((point = points[i])[0], point[1]);
} else {
interpolate(current.x, current.p.x, -1, listener);
}
current = current.p;
}
current = current.o;
points = current.z;
isSubject = !isSubject;
} while (!current.v);
listener.lineEnd();
}
}
function d3_geo_clipPolygonLinkCircular(array) {
if (!(n = array.length)) return;
var n, i = 0, a = array[0], b;
while (++i < n) {
a.n = b = array[i];
b.p = a;
a = b;
}
a.n = b = array[0];
b.p = a;
}
function d3_geo_clipPolygonIntersection(point, points, other, entry) {
this.x = point;
this.z = points;
this.o = other;
this.e = entry;
this.v = false;
this.n = this.p = null;
}
function d3_geo_clip(pointVisible, clipLine, interpolate, clipStart) {
return function(rotate, listener) {
var line = clipLine(listener), rotatedClipStart = rotate.invert(clipStart[0], clipStart[1]);
var clip = {
point: point,
lineStart: lineStart,
lineEnd: lineEnd,
polygonStart: function() {
clip.point = pointRing;
clip.lineStart = ringStart;
clip.lineEnd = ringEnd;
segments = [];
polygon = [];
},
polygonEnd: function() {
clip.point = point;
clip.lineStart = lineStart;
clip.lineEnd = lineEnd;
segments = d3.merge(segments);
var clipStartInside = d3_geo_pointInPolygon(rotatedClipStart, polygon);
if (segments.length) {
if (!polygonStarted) listener.polygonStart(), polygonStarted = true;
d3_geo_clipPolygon(segments, d3_geo_clipSort, clipStartInside, interpolate, listener);
} else if (clipStartInside) {
if (!polygonStarted) listener.polygonStart(), polygonStarted = true;
listener.lineStart();
interpolate(null, null, 1, listener);
listener.lineEnd();
}
if (polygonStarted) listener.polygonEnd(), polygonStarted = false;
segments = polygon = null;
},
sphere: function() {
listener.polygonStart();
listener.lineStart();
interpolate(null, null, 1, listener);
listener.lineEnd();
listener.polygonEnd();
}
};
function point(λ, φ) {
var point = rotate(λ, φ);
if (pointVisible(λ = point[0], φ = point[1])) listener.point(λ, φ);
}
function pointLine(λ, φ) {
var point = rotate(λ, φ);
line.point(point[0], point[1]);
}
function lineStart() {
clip.point = pointLine;
line.lineStart();
}
function lineEnd() {
clip.point = point;
line.lineEnd();
}
var segments;
var buffer = d3_geo_clipBufferListener(), ringListener = clipLine(buffer), polygonStarted = false, polygon, ring;
function pointRing(λ, φ) {
ring.push([ λ, φ ]);
var point = rotate(λ, φ);
ringListener.point(point[0], point[1]);
}
function ringStart() {
ringListener.lineStart();
ring = [];
}
function ringEnd() {
pointRing(ring[0][0], ring[0][1]);
ringListener.lineEnd();
var clean = ringListener.clean(), ringSegments = buffer.buffer(), segment, n = ringSegments.length;
ring.pop();
polygon.push(ring);
ring = null;
if (!n) return;
if (clean & 1) {
segment = ringSegments[0];
var n = segment.length - 1, i = -1, point;
if (n > 0) {
if (!polygonStarted) listener.polygonStart(), polygonStarted = true;
listener.lineStart();
while (++i < n) listener.point((point = segment[i])[0], point[1]);
listener.lineEnd();
}
return;
}
if (n > 1 && clean & 2) ringSegments.push(ringSegments.pop().concat(ringSegments.shift()));
segments.push(ringSegments.filter(d3_geo_clipSegmentLength1));
}
return clip;
};
}
function d3_geo_clipSegmentLength1(segment) {
return segment.length > 1;
}
function d3_geo_clipBufferListener() {
var lines = [], line;
return {
lineStart: function() {
lines.push(line = []);
},
point: function(λ, φ) {
line.push([ λ, φ ]);
},
lineEnd: d3_noop,
buffer: function() {
var buffer = lines;
lines = [];
line = null;
return buffer;
},
rejoin: function() {
if (lines.length > 1) lines.push(lines.pop().concat(lines.shift()));
}
};
}
function d3_geo_clipSort(a, b) {
return ((a = a.x)[0] < 0 ? a[1] - halfπ - ε : halfπ - a[1]) - ((b = b.x)[0] < 0 ? b[1] - halfπ - ε : halfπ - b[1]);
}
var d3_geo_clipAntimeridian = d3_geo_clip(d3_true, d3_geo_clipAntimeridianLine, d3_geo_clipAntimeridianInterpolate, [ -π, -π / 2 ]);
function d3_geo_clipAntimeridianLine(listener) {
var λ0 = NaN, φ0 = NaN, sλ0 = NaN, clean;
return {
lineStart: function() {
listener.lineStart();
clean = 1;
},
point: function(λ1, φ1) {
var sλ1 = λ1 > 0 ? π : -π, dλ = abs(λ1 - λ0);
if (abs(dλ - π) < ε) {
listener.point(λ0, φ0 = (φ0 + φ1) / 2 > 0 ? halfπ : -halfπ);
listener.point(sλ0, φ0);
listener.lineEnd();
listener.lineStart();
listener.point(sλ1, φ0);
listener.point(λ1, φ0);
clean = 0;
} else if (sλ0 !== sλ1 && dλ >= π) {
if (abs(λ0 - sλ0) < ε) λ0 -= sλ0 * ε;
if (abs(λ1 - sλ1) < ε) λ1 -= sλ1 * ε;
φ0 = d3_geo_clipAntimeridianIntersect(λ0, φ0, λ1, φ1);
listener.point(sλ0, φ0);
listener.lineEnd();
listener.lineStart();
listener.point(sλ1, φ0);
clean = 0;
}
listener.point(λ0 = λ1, φ0 = φ1);
sλ0 = sλ1;
},
lineEnd: function() {
listener.lineEnd();
λ0 = φ0 = NaN;
},
clean: function() {
return 2 - clean;
}
};
}
function d3_geo_clipAntimeridianIntersect(λ0, φ0, λ1, φ1) {
var cosφ0, cosφ1, sinλ0_λ1 = Math.sin(λ0 - λ1);
return abs(sinλ0_λ1) > ε ? Math.atan((Math.sin(φ0) * (cosφ1 = Math.cos(φ1)) * Math.sin(λ1) - Math.sin(φ1) * (cosφ0 = Math.cos(φ0)) * Math.sin(λ0)) / (cosφ0 * cosφ1 * sinλ0_λ1)) : (φ0 + φ1) / 2;
}
function d3_geo_clipAntimeridianInterpolate(from, to, direction, listener) {
var φ;
if (from == null) {
φ = direction * halfπ;
listener.point(-π, φ);
listener.point(0, φ);
listener.point(π, φ);
listener.point(π, 0);
listener.point(π, -φ);
listener.point(0, -φ);
listener.point(-π, -φ);
listener.point(-π, 0);
listener.point(-π, φ);
} else if (abs(from[0] - to[0]) > ε) {
var s = from[0] < to[0] ? π : -π;
φ = direction * s / 2;
listener.point(-s, φ);
listener.point(0, φ);
listener.point(s, φ);
} else {
listener.point(to[0], to[1]);
}
}
function d3_geo_pointInPolygon(point, polygon) {
var meridian = point[0], parallel = point[1], meridianNormal = [ Math.sin(meridian), -Math.cos(meridian), 0 ], polarAngle = 0, winding = 0;
d3_geo_areaRingSum.reset();
for (var i = 0, n = polygon.length; i < n; ++i) {
var ring = polygon[i], m = ring.length;
if (!m) continue;
var point0 = ring[0], λ0 = point0[0], φ0 = point0[1] / 2 + π / 4, sinφ0 = Math.sin(φ0), cosφ0 = Math.cos(φ0), j = 1;
while (true) {
if (j === m) j = 0;
point = ring[j];
var λ = point[0], φ = point[1] / 2 + π / 4, sinφ = Math.sin(φ), cosφ = Math.cos(φ), dλ = λ - λ0, sdλ = dλ >= 0 ? 1 : -1, adλ = sdλ * dλ, antimeridian = adλ > π, k = sinφ0 * sinφ;
d3_geo_areaRingSum.add(Math.atan2(k * sdλ * Math.sin(adλ), cosφ0 * cosφ + k * Math.cos(adλ)));
polarAngle += antimeridian ? dλ + sdλ * τ : dλ;
if (antimeridian ^ λ0 >= meridian ^ λ >= meridian) {
var arc = d3_geo_cartesianCross(d3_geo_cartesian(point0), d3_geo_cartesian(point));
d3_geo_cartesianNormalize(arc);
var intersection = d3_geo_cartesianCross(meridianNormal, arc);
d3_geo_cartesianNormalize(intersection);
var φarc = (antimeridian ^ dλ >= 0 ? -1 : 1) * d3_asin(intersection[2]);
if (parallel > φarc || parallel === φarc && (arc[0] || arc[1])) {
winding += antimeridian ^ dλ >= 0 ? 1 : -1;
}
}
if (!j++) break;
λ0 = λ, sinφ0 = sinφ, cosφ0 = cosφ, point0 = point;
}
}
return (polarAngle < -ε || polarAngle < ε && d3_geo_areaRingSum < -ε) ^ winding & 1;
}
function d3_geo_clipCircle(radius) {
var cr = Math.cos(radius), smallRadius = cr > 0, notHemisphere = abs(cr) > ε, interpolate = d3_geo_circleInterpolate(radius, 6 * d3_radians);
return d3_geo_clip(visible, clipLine, interpolate, smallRadius ? [ 0, -radius ] : [ -π, radius - π ]);
function visible(λ, φ) {
return Math.cos(λ) * Math.cos(φ) > cr;
}
function clipLine(listener) {
var point0, c0, v0, v00, clean;
return {
lineStart: function() {
v00 = v0 = false;
clean = 1;
},
point: function(λ, φ) {
var point1 = [ λ, φ ], point2, v = visible(λ, φ), c = smallRadius ? v ? 0 : code(λ, φ) : v ? code(λ + (λ < 0 ? π : -π), φ) : 0;
if (!point0 && (v00 = v0 = v)) listener.lineStart();
if (v !== v0) {
point2 = intersect(point0, point1);
if (d3_geo_sphericalEqual(point0, point2) || d3_geo_sphericalEqual(point1, point2)) {
point1[0] += ε;
point1[1] += ε;
v = visible(point1[0], point1[1]);
}
}
if (v !== v0) {
clean = 0;
if (v) {
listener.lineStart();
point2 = intersect(point1, point0);
listener.point(point2[0], point2[1]);
} else {
point2 = intersect(point0, point1);
listener.point(point2[0], point2[1]);
listener.lineEnd();
}
point0 = point2;
} else if (notHemisphere && point0 && smallRadius ^ v) {
var t;
if (!(c & c0) && (t = intersect(point1, point0, true))) {
clean = 0;
if (smallRadius) {
listener.lineStart();
listener.point(t[0][0], t[0][1]);
listener.point(t[1][0], t[1][1]);
listener.lineEnd();
} else {
listener.point(t[1][0], t[1][1]);
listener.lineEnd();
listener.lineStart();
listener.point(t[0][0], t[0][1]);
}
}
}
if (v && (!point0 || !d3_geo_sphericalEqual(point0, point1))) {
listener.point(point1[0], point1[1]);
}
point0 = point1, v0 = v, c0 = c;
},
lineEnd: function() {
if (v0) listener.lineEnd();
point0 = null;
},
clean: function() {
return clean | (v00 && v0) << 1;
}
};
}
function intersect(a, b, two) {
var pa = d3_geo_cartesian(a), pb = d3_geo_cartesian(b);
var n1 = [ 1, 0, 0 ], n2 = d3_geo_cartesianCross(pa, pb), n2n2 = d3_geo_cartesianDot(n2, n2), n1n2 = n2[0], determinant = n2n2 - n1n2 * n1n2;
if (!determinant) return !two && a;
var c1 = cr * n2n2 / determinant, c2 = -cr * n1n2 / determinant, n1xn2 = d3_geo_cartesianCross(n1, n2), A = d3_geo_cartesianScale(n1, c1), B = d3_geo_cartesianScale(n2, c2);
d3_geo_cartesianAdd(A, B);
var u = n1xn2, w = d3_geo_cartesianDot(A, u), uu = d3_geo_cartesianDot(u, u), t2 = w * w - uu * (d3_geo_cartesianDot(A, A) - 1);
if (t2 < 0) return;
var t = Math.sqrt(t2), q = d3_geo_cartesianScale(u, (-w - t) / uu);
d3_geo_cartesianAdd(q, A);
q = d3_geo_spherical(q);
if (!two) return q;
var λ0 = a[0], λ1 = b[0], φ0 = a[1], φ1 = b[1], z;
if (λ1 < λ0) z = λ0, λ0 = λ1, λ1 = z;
var δλ = λ1 - λ0, polar = abs(δλ - π) < ε, meridian = polar || δλ < ε;
if (!polar && φ1 < φ0) z = φ0, φ0 = φ1, φ1 = z;
if (meridian ? polar ? φ0 + φ1 > 0 ^ q[1] < (abs(q[0] - λ0) < ε ? φ0 : φ1) : φ0 <= q[1] && q[1] <= φ1 : δλ > π ^ (λ0 <= q[0] && q[0] <= λ1)) {
var q1 = d3_geo_cartesianScale(u, (-w + t) / uu);
d3_geo_cartesianAdd(q1, A);
return [ q, d3_geo_spherical(q1) ];
}
}
function code(λ, φ) {
var r = smallRadius ? radius : π - radius, code = 0;
if (λ < -r) code |= 1; else if (λ > r) code |= 2;
if (φ < -r) code |= 4; else if (φ > r) code |= 8;
return code;
}
}
function d3_geom_clipLine(x0, y0, x1, y1) {
return function(line) {
var a = line.a, b = line.b, ax = a.x, ay = a.y, bx = b.x, by = b.y, t0 = 0, t1 = 1, dx = bx - ax, dy = by - ay, r;
r = x0 - ax;
if (!dx && r > 0) return;
r /= dx;
if (dx < 0) {
if (r < t0) return;
if (r < t1) t1 = r;
} else if (dx > 0) {
if (r > t1) return;
if (r > t0) t0 = r;
}
r = x1 - ax;
if (!dx && r < 0) return;
r /= dx;
if (dx < 0) {
if (r > t1) return;
if (r > t0) t0 = r;
} else if (dx > 0) {
if (r < t0) return;
if (r < t1) t1 = r;
}
r = y0 - ay;
if (!dy && r > 0) return;
r /= dy;
if (dy < 0) {
if (r < t0) return;
if (r < t1) t1 = r;
} else if (dy > 0) {
if (r > t1) return;
if (r > t0) t0 = r;
}
r = y1 - ay;
if (!dy && r < 0) return;
r /= dy;
if (dy < 0) {
if (r > t1) return;
if (r > t0) t0 = r;
} else if (dy > 0) {
if (r < t0) return;
if (r < t1) t1 = r;
}
if (t0 > 0) line.a = {
x: ax + t0 * dx,
y: ay + t0 * dy
};
if (t1 < 1) line.b = {
x: ax + t1 * dx,
y: ay + t1 * dy
};
return line;
};
}
var d3_geo_clipExtentMAX = 1e9;
d3.geo.clipExtent = function() {
var x0, y0, x1, y1, stream, clip, clipExtent = {
stream: function(output) {
if (stream) stream.valid = false;
stream = clip(output);
stream.valid = true;
return stream;
},
extent: function(_) {
if (!arguments.length) return [ [ x0, y0 ], [ x1, y1 ] ];
clip = d3_geo_clipExtent(x0 = +_[0][0], y0 = +_[0][1], x1 = +_[1][0], y1 = +_[1][1]);
if (stream) stream.valid = false, stream = null;
return clipExtent;
}
};
return clipExtent.extent([ [ 0, 0 ], [ 960, 500 ] ]);
};
function d3_geo_clipExtent(x0, y0, x1, y1) {
return function(listener) {
var listener_ = listener, bufferListener = d3_geo_clipBufferListener(), clipLine = d3_geom_clipLine(x0, y0, x1, y1), segments, polygon, ring;
var clip = {
point: point,
lineStart: lineStart,
lineEnd: lineEnd,
polygonStart: function() {
listener = bufferListener;
segments = [];
polygon = [];
clean = true;
},
polygonEnd: function() {
listener = listener_;
segments = d3.merge(segments);
var clipStartInside = insidePolygon([ x0, y1 ]), inside = clean && clipStartInside, visible = segments.length;
if (inside || visible) {
listener.polygonStart();
if (inside) {
listener.lineStart();
interpolate(null, null, 1, listener);
listener.lineEnd();
}
if (visible) {
d3_geo_clipPolygon(segments, compare, clipStartInside, interpolate, listener);
}
listener.polygonEnd();
}
segments = polygon = ring = null;
}
};
function insidePolygon(p) {
var wn = 0, n = polygon.length, y = p[1];
for (var i = 0; i < n; ++i) {
for (var j = 1, v = polygon[i], m = v.length, a = v[0], b; j < m; ++j) {
b = v[j];
if (a[1] <= y) {
if (b[1] > y && d3_cross2d(a, b, p) > 0) ++wn;
} else {
if (b[1] <= y && d3_cross2d(a, b, p) < 0) --wn;
}
a = b;
}
}
return wn !== 0;
}
function interpolate(from, to, direction, listener) {
var a = 0, a1 = 0;
if (from == null || (a = corner(from, direction)) !== (a1 = corner(to, direction)) || comparePoints(from, to) < 0 ^ direction > 0) {
do {
listener.point(a === 0 || a === 3 ? x0 : x1, a > 1 ? y1 : y0);
} while ((a = (a + direction + 4) % 4) !== a1);
} else {
listener.point(to[0], to[1]);
}
}
function pointVisible(x, y) {
return x0 <= x && x <= x1 && y0 <= y && y <= y1;
}
function point(x, y) {
if (pointVisible(x, y)) listener.point(x, y);
}
var x__, y__, v__, x_, y_, v_, first, clean;
function lineStart() {
clip.point = linePoint;
if (polygon) polygon.push(ring = []);
first = true;
v_ = false;
x_ = y_ = NaN;
}
function lineEnd() {
if (segments) {
linePoint(x__, y__);
if (v__ && v_) bufferListener.rejoin();
segments.push(bufferListener.buffer());
}
clip.point = point;
if (v_) listener.lineEnd();
}
function linePoint(x, y) {
x = Math.max(-d3_geo_clipExtentMAX, Math.min(d3_geo_clipExtentMAX, x));
y = Math.max(-d3_geo_clipExtentMAX, Math.min(d3_geo_clipExtentMAX, y));
var v = pointVisible(x, y);
if (polygon) ring.push([ x, y ]);
if (first) {
x__ = x, y__ = y, v__ = v;
first = false;
if (v) {
listener.lineStart();
listener.point(x, y);
}
} else {
if (v && v_) listener.point(x, y); else {
var l = {
a: {
x: x_,
y: y_
},
b: {
x: x,
y: y
}
};
if (clipLine(l)) {
if (!v_) {
listener.lineStart();
listener.point(l.a.x, l.a.y);
}
listener.point(l.b.x, l.b.y);
if (!v) listener.lineEnd();
clean = false;
} else if (v) {
listener.lineStart();
listener.point(x, y);
clean = false;
}
}
}
x_ = x, y_ = y, v_ = v;
}
return clip;
};
function corner(p, direction) {
return abs(p[0] - x0) < ε ? direction > 0 ? 0 : 3 : abs(p[0] - x1) < ε ? direction > 0 ? 2 : 1 : abs(p[1] - y0) < ε ? direction > 0 ? 1 : 0 : direction > 0 ? 3 : 2;
}
function compare(a, b) {
return comparePoints(a.x, b.x);
}
function comparePoints(a, b) {
var ca = corner(a, 1), cb = corner(b, 1);
return ca !== cb ? ca - cb : ca === 0 ? b[1] - a[1] : ca === 1 ? a[0] - b[0] : ca === 2 ? a[1] - b[1] : b[0] - a[0];
}
}
function d3_geo_conic(projectAt) {
var φ0 = 0, φ1 = π / 3, m = d3_geo_projectionMutator(projectAt), p = m(φ0, φ1);
p.parallels = function(_) {
if (!arguments.length) return [ φ0 / π * 180, φ1 / π * 180 ];
return m(φ0 = _[0] * π / 180, φ1 = _[1] * π / 180);
};
return p;
}
function d3_geo_conicEqualArea(φ0, φ1) {
var sinφ0 = Math.sin(φ0), n = (sinφ0 + Math.sin(φ1)) / 2, C = 1 + sinφ0 * (2 * n - sinφ0), ρ0 = Math.sqrt(C) / n;
function forward(λ, φ) {
var ρ = Math.sqrt(C - 2 * n * Math.sin(φ)) / n;
return [ ρ * Math.sin(λ *= n), ρ0 - ρ * Math.cos(λ) ];
}
forward.invert = function(x, y) {
var ρ0_y = ρ0 - y;
return [ Math.atan2(x, ρ0_y) / n, d3_asin((C - (x * x + ρ0_y * ρ0_y) * n * n) / (2 * n)) ];
};
return forward;
}
(d3.geo.conicEqualArea = function() {
return d3_geo_conic(d3_geo_conicEqualArea);
}).raw = d3_geo_conicEqualArea;
d3.geo.albers = function() {
return d3.geo.conicEqualArea().rotate([ 96, 0 ]).center([ -.6, 38.7 ]).parallels([ 29.5, 45.5 ]).scale(1070);
};
d3.geo.albersUsa = function() {
var lower48 = d3.geo.albers();
var alaska = d3.geo.conicEqualArea().rotate([ 154, 0 ]).center([ -2, 58.5 ]).parallels([ 55, 65 ]);
var hawaii = d3.geo.conicEqualArea().rotate([ 157, 0 ]).center([ -3, 19.9 ]).parallels([ 8, 18 ]);
var point, pointStream = {
point: function(x, y) {
point = [ x, y ];
}
}, lower48Point, alaskaPoint, hawaiiPoint;
function albersUsa(coordinates) {
var x = coordinates[0], y = coordinates[1];
point = null;
(lower48Point(x, y), point) || (alaskaPoint(x, y), point) || hawaiiPoint(x, y);
return point;
}
albersUsa.invert = function(coordinates) {
var k = lower48.scale(), t = lower48.translate(), x = (coordinates[0] - t[0]) / k, y = (coordinates[1] - t[1]) / k;
return (y >= .12 && y < .234 && x >= -.425 && x < -.214 ? alaska : y >= .166 && y < .234 && x >= -.214 && x < -.115 ? hawaii : lower48).invert(coordinates);
};
albersUsa.stream = function(stream) {
var lower48Stream = lower48.stream(stream), alaskaStream = alaska.stream(stream), hawaiiStream = hawaii.stream(stream);
return {
point: function(x, y) {
lower48Stream.point(x, y);
alaskaStream.point(x, y);
hawaiiStream.point(x, y);
},
sphere: function() {
lower48Stream.sphere();
alaskaStream.sphere();
hawaiiStream.sphere();
},
lineStart: function() {
lower48Stream.lineStart();
alaskaStream.lineStart();
hawaiiStream.lineStart();
},
lineEnd: function() {
lower48Stream.lineEnd();
alaskaStream.lineEnd();
hawaiiStream.lineEnd();
},
polygonStart: function() {
lower48Stream.polygonStart();
alaskaStream.polygonStart();
hawaiiStream.polygonStart();
},
polygonEnd: function() {
lower48Stream.polygonEnd();
alaskaStream.polygonEnd();
hawaiiStream.polygonEnd();
}
};
};
albersUsa.precision = function(_) {
if (!arguments.length) return lower48.precision();
lower48.precision(_);
alaska.precision(_);
hawaii.precision(_);
return albersUsa;
};
albersUsa.scale = function(_) {
if (!arguments.length) return lower48.scale();
lower48.scale(_);
alaska.scale(_ * .35);
hawaii.scale(_);
return albersUsa.translate(lower48.translate());
};
albersUsa.translate = function(_) {
if (!arguments.length) return lower48.translate();
var k = lower48.scale(), x = +_[0], y = +_[1];
lower48Point = lower48.translate(_).clipExtent([ [ x - .455 * k, y - .238 * k ], [ x + .455 * k, y + .238 * k ] ]).stream(pointStream).point;
alaskaPoint = alaska.translate([ x - .307 * k, y + .201 * k ]).clipExtent([ [ x - .425 * k + ε, y + .12 * k + ε ], [ x - .214 * k - ε, y + .234 * k - ε ] ]).stream(pointStream).point;
hawaiiPoint = hawaii.translate([ x - .205 * k, y + .212 * k ]).clipExtent([ [ x - .214 * k + ε, y + .166 * k + ε ], [ x - .115 * k - ε, y + .234 * k - ε ] ]).stream(pointStream).point;
return albersUsa;
};
return albersUsa.scale(1070);
};
var d3_geo_pathAreaSum, d3_geo_pathAreaPolygon, d3_geo_pathArea = {
point: d3_noop,
lineStart: d3_noop,
lineEnd: d3_noop,
polygonStart: function() {
d3_geo_pathAreaPolygon = 0;
d3_geo_pathArea.lineStart = d3_geo_pathAreaRingStart;
},
polygonEnd: function() {
d3_geo_pathArea.lineStart = d3_geo_pathArea.lineEnd = d3_geo_pathArea.point = d3_noop;
d3_geo_pathAreaSum += abs(d3_geo_pathAreaPolygon / 2);
}
};
function d3_geo_pathAreaRingStart() {
var x00, y00, x0, y0;
d3_geo_pathArea.point = function(x, y) {
d3_geo_pathArea.point = nextPoint;
x00 = x0 = x, y00 = y0 = y;
};
function nextPoint(x, y) {
d3_geo_pathAreaPolygon += y0 * x - x0 * y;
x0 = x, y0 = y;
}
d3_geo_pathArea.lineEnd = function() {
nextPoint(x00, y00);
};
}
var d3_geo_pathBoundsX0, d3_geo_pathBoundsY0, d3_geo_pathBoundsX1, d3_geo_pathBoundsY1;
var d3_geo_pathBounds = {
point: d3_geo_pathBoundsPoint,
lineStart: d3_noop,
lineEnd: d3_noop,
polygonStart: d3_noop,
polygonEnd: d3_noop
};
function d3_geo_pathBoundsPoint(x, y) {
if (x < d3_geo_pathBoundsX0) d3_geo_pathBoundsX0 = x;
if (x > d3_geo_pathBoundsX1) d3_geo_pathBoundsX1 = x;
if (y < d3_geo_pathBoundsY0) d3_geo_pathBoundsY0 = y;
if (y > d3_geo_pathBoundsY1) d3_geo_pathBoundsY1 = y;
}
function d3_geo_pathBuffer() {
var pointCircle = d3_geo_pathBufferCircle(4.5), buffer = [];
var stream = {
point: point,
lineStart: function() {
stream.point = pointLineStart;
},
lineEnd: lineEnd,
polygonStart: function() {
stream.lineEnd = lineEndPolygon;
},
polygonEnd: function() {
stream.lineEnd = lineEnd;
stream.point = point;
},
pointRadius: function(_) {
pointCircle = d3_geo_pathBufferCircle(_);
return stream;
},
result: function() {
if (buffer.length) {
var result = buffer.join("");
buffer = [];
return result;
}
}
};
function point(x, y) {
buffer.push("M", x, ",", y, pointCircle);
}
function pointLineStart(x, y) {
buffer.push("M", x, ",", y);
stream.point = pointLine;
}
function pointLine(x, y) {
buffer.push("L", x, ",", y);
}
function lineEnd() {
stream.point = point;
}
function lineEndPolygon() {
buffer.push("Z");
}
return stream;
}
function d3_geo_pathBufferCircle(radius) {
return "m0," + radius + "a" + radius + "," + radius + " 0 1,1 0," + -2 * radius + "a" + radius + "," + radius + " 0 1,1 0," + 2 * radius + "z";
}
var d3_geo_pathCentroid = {
point: d3_geo_pathCentroidPoint,
lineStart: d3_geo_pathCentroidLineStart,
lineEnd: d3_geo_pathCentroidLineEnd,
polygonStart: function() {
d3_geo_pathCentroid.lineStart = d3_geo_pathCentroidRingStart;
},
polygonEnd: function() {
d3_geo_pathCentroid.point = d3_geo_pathCentroidPoint;
d3_geo_pathCentroid.lineStart = d3_geo_pathCentroidLineStart;
d3_geo_pathCentroid.lineEnd = d3_geo_pathCentroidLineEnd;
}
};
function d3_geo_pathCentroidPoint(x, y) {
d3_geo_centroidX0 += x;
d3_geo_centroidY0 += y;
++d3_geo_centroidZ0;
}
function d3_geo_pathCentroidLineStart() {
var x0, y0;
d3_geo_pathCentroid.point = function(x, y) {
d3_geo_pathCentroid.point = nextPoint;
d3_geo_pathCentroidPoint(x0 = x, y0 = y);
};
function nextPoint(x, y) {
var dx = x - x0, dy = y - y0, z = Math.sqrt(dx * dx + dy * dy);
d3_geo_centroidX1 += z * (x0 + x) / 2;
d3_geo_centroidY1 += z * (y0 + y) / 2;
d3_geo_centroidZ1 += z;
d3_geo_pathCentroidPoint(x0 = x, y0 = y);
}
}
function d3_geo_pathCentroidLineEnd() {
d3_geo_pathCentroid.point = d3_geo_pathCentroidPoint;
}
function d3_geo_pathCentroidRingStart() {
var x00, y00, x0, y0;
d3_geo_pathCentroid.point = function(x, y) {
d3_geo_pathCentroid.point = nextPoint;
d3_geo_pathCentroidPoint(x00 = x0 = x, y00 = y0 = y);
};
function nextPoint(x, y) {
var dx = x - x0, dy = y - y0, z = Math.sqrt(dx * dx + dy * dy);
d3_geo_centroidX1 += z * (x0 + x) / 2;
d3_geo_centroidY1 += z * (y0 + y) / 2;
d3_geo_centroidZ1 += z;
z = y0 * x - x0 * y;
d3_geo_centroidX2 += z * (x0 + x);
d3_geo_centroidY2 += z * (y0 + y);
d3_geo_centroidZ2 += z * 3;
d3_geo_pathCentroidPoint(x0 = x, y0 = y);
}
d3_geo_pathCentroid.lineEnd = function() {
nextPoint(x00, y00);
};
}
function d3_geo_pathContext(context) {
var pointRadius = 4.5;
var stream = {
point: point,
lineStart: function() {
stream.point = pointLineStart;
},
lineEnd: lineEnd,
polygonStart: function() {
stream.lineEnd = lineEndPolygon;
},
polygonEnd: function() {
stream.lineEnd = lineEnd;
stream.point = point;
},
pointRadius: function(_) {
pointRadius = _;
return stream;
},
result: d3_noop
};
function point(x, y) {
context.moveTo(x + pointRadius, y);
context.arc(x, y, pointRadius, 0, τ);
}
function pointLineStart(x, y) {
context.moveTo(x, y);
stream.point = pointLine;
}
function pointLine(x, y) {
context.lineTo(x, y);
}
function lineEnd() {
stream.point = point;
}
function lineEndPolygon() {
context.closePath();
}
return stream;
}
function d3_geo_resample(project) {
var δ2 = .5, cosMinDistance = Math.cos(30 * d3_radians), maxDepth = 16;
function resample(stream) {
return (maxDepth ? resampleRecursive : resampleNone)(stream);
}
function resampleNone(stream) {
return d3_geo_transformPoint(stream, function(x, y) {
x = project(x, y);
stream.point(x[0], x[1]);
});
}
function resampleRecursive(stream) {
var λ00, φ00, x00, y00, a00, b00, c00, λ0, x0, y0, a0, b0, c0;
var resample = {
point: point,
lineStart: lineStart,
lineEnd: lineEnd,
polygonStart: function() {
stream.polygonStart();
resample.lineStart = ringStart;
},
polygonEnd: function() {
stream.polygonEnd();
resample.lineStart = lineStart;
}
};
function point(x, y) {
x = project(x, y);
stream.point(x[0], x[1]);
}
function lineStart() {
x0 = NaN;
resample.point = linePoint;
stream.lineStart();
}
function linePoint(λ, φ) {
var c = d3_geo_cartesian([ λ, φ ]), p = project(λ, φ);
resampleLineTo(x0, y0, λ0, a0, b0, c0, x0 = p[0], y0 = p[1], λ0 = λ, a0 = c[0], b0 = c[1], c0 = c[2], maxDepth, stream);
stream.point(x0, y0);
}
function lineEnd() {
resample.point = point;
stream.lineEnd();
}
function ringStart() {
lineStart();
resample.point = ringPoint;
resample.lineEnd = ringEnd;
}
function ringPoint(λ, φ) {
linePoint(λ00 = λ, φ00 = φ), x00 = x0, y00 = y0, a00 = a0, b00 = b0, c00 = c0;
resample.point = linePoint;
}
function ringEnd() {
resampleLineTo(x0, y0, λ0, a0, b0, c0, x00, y00, λ00, a00, b00, c00, maxDepth, stream);
resample.lineEnd = lineEnd;
lineEnd();
}
return resample;
}
function resampleLineTo(x0, y0, λ0, a0, b0, c0, x1, y1, λ1, a1, b1, c1, depth, stream) {
var dx = x1 - x0, dy = y1 - y0, d2 = dx * dx + dy * dy;
if (d2 > 4 * δ2 && depth--) {
var a = a0 + a1, b = b0 + b1, c = c0 + c1, m = Math.sqrt(a * a + b * b + c * c), φ2 = Math.asin(c /= m), λ2 = abs(abs(c) - 1) < ε || abs(λ0 - λ1) < ε ? (λ0 + λ1) / 2 : Math.atan2(b, a), p = project(λ2, φ2), x2 = p[0], y2 = p[1], dx2 = x2 - x0, dy2 = y2 - y0, dz = dy * dx2 - dx * dy2;
if (dz * dz / d2 > δ2 || abs((dx * dx2 + dy * dy2) / d2 - .5) > .3 || a0 * a1 + b0 * b1 + c0 * c1 < cosMinDistance) {
resampleLineTo(x0, y0, λ0, a0, b0, c0, x2, y2, λ2, a /= m, b /= m, c, depth, stream);
stream.point(x2, y2);
resampleLineTo(x2, y2, λ2, a, b, c, x1, y1, λ1, a1, b1, c1, depth, stream);
}
}
}
resample.precision = function(_) {
if (!arguments.length) return Math.sqrt(δ2);
maxDepth = (δ2 = _ * _) > 0 && 16;
return resample;
};
return resample;
}
d3.geo.path = function() {
var pointRadius = 4.5, projection, context, projectStream, contextStream, cacheStream;
function path(object) {
if (object) {
if (typeof pointRadius === "function") contextStream.pointRadius(+pointRadius.apply(this, arguments));
if (!cacheStream || !cacheStream.valid) cacheStream = projectStream(contextStream);
d3.geo.stream(object, cacheStream);
}
return contextStream.result();
}
path.area = function(object) {
d3_geo_pathAreaSum = 0;
d3.geo.stream(object, projectStream(d3_geo_pathArea));
return d3_geo_pathAreaSum;
};
path.centroid = function(object) {
d3_geo_centroidX0 = d3_geo_centroidY0 = d3_geo_centroidZ0 = d3_geo_centroidX1 = d3_geo_centroidY1 = d3_geo_centroidZ1 = d3_geo_centroidX2 = d3_geo_centroidY2 = d3_geo_centroidZ2 = 0;
d3.geo.stream(object, projectStream(d3_geo_pathCentroid));
return d3_geo_centroidZ2 ? [ d3_geo_centroidX2 / d3_geo_centroidZ2, d3_geo_centroidY2 / d3_geo_centroidZ2 ] : d3_geo_centroidZ1 ? [ d3_geo_centroidX1 / d3_geo_centroidZ1, d3_geo_centroidY1 / d3_geo_centroidZ1 ] : d3_geo_centroidZ0 ? [ d3_geo_centroidX0 / d3_geo_centroidZ0, d3_geo_centroidY0 / d3_geo_centroidZ0 ] : [ NaN, NaN ];
};
path.bounds = function(object) {
d3_geo_pathBoundsX1 = d3_geo_pathBoundsY1 = -(d3_geo_pathBoundsX0 = d3_geo_pathBoundsY0 = Infinity);
d3.geo.stream(object, projectStream(d3_geo_pathBounds));
return [ [ d3_geo_pathBoundsX0, d3_geo_pathBoundsY0 ], [ d3_geo_pathBoundsX1, d3_geo_pathBoundsY1 ] ];
};
path.projection = function(_) {
if (!arguments.length) return projection;
projectStream = (projection = _) ? _.stream || d3_geo_pathProjectStream(_) : d3_identity;
return reset();
};
path.context = function(_) {
if (!arguments.length) return context;
contextStream = (context = _) == null ? new d3_geo_pathBuffer() : new d3_geo_pathContext(_);
if (typeof pointRadius !== "function") contextStream.pointRadius(pointRadius);
return reset();
};
path.pointRadius = function(_) {
if (!arguments.length) return pointRadius;
pointRadius = typeof _ === "function" ? _ : (contextStream.pointRadius(+_), +_);
return path;
};
function reset() {
cacheStream = null;
return path;
}
return path.projection(d3.geo.albersUsa()).context(null);
};
function d3_geo_pathProjectStream(project) {
var resample = d3_geo_resample(function(x, y) {
return project([ x * d3_degrees, y * d3_degrees ]);
});
return function(stream) {
return d3_geo_projectionRadians(resample(stream));
};
}
d3.geo.transform = function(methods) {
return {
stream: function(stream) {
var transform = new d3_geo_transform(stream);
for (var k in methods) transform[k] = methods[k];
return transform;
}
};
};
function d3_geo_transform(stream) {
this.stream = stream;
}
d3_geo_transform.prototype = {
point: function(x, y) {
this.stream.point(x, y);
},
sphere: function() {
this.stream.sphere();
},
lineStart: function() {
this.stream.lineStart();
},
lineEnd: function() {
this.stream.lineEnd();
},
polygonStart: function() {
this.stream.polygonStart();
},
polygonEnd: function() {
this.stream.polygonEnd();
}
};
function d3_geo_transformPoint(stream, point) {
return {
point: point,
sphere: function() {
stream.sphere();
},
lineStart: function() {
stream.lineStart();
},
lineEnd: function() {
stream.lineEnd();
},
polygonStart: function() {
stream.polygonStart();
},
polygonEnd: function() {
stream.polygonEnd();
}
};
}
d3.geo.projection = d3_geo_projection;
d3.geo.projectionMutator = d3_geo_projectionMutator;
function d3_geo_projection(project) {
return d3_geo_projectionMutator(function() {
return project;
})();
}
function d3_geo_projectionMutator(projectAt) {
var project, rotate, projectRotate, projectResample = d3_geo_resample(function(x, y) {
x = project(x, y);
return [ x[0] * k + δx, δy - x[1] * k ];
}), k = 150, x = 480, y = 250, λ = 0, φ = 0, δλ = 0, δφ = 0, δγ = 0, δx, δy, preclip = d3_geo_clipAntimeridian, postclip = d3_identity, clipAngle = null, clipExtent = null, stream;
function projection(point) {
point = projectRotate(point[0] * d3_radians, point[1] * d3_radians);
return [ point[0] * k + δx, δy - point[1] * k ];
}
function invert(point) {
point = projectRotate.invert((point[0] - δx) / k, (δy - point[1]) / k);
return point && [ point[0] * d3_degrees, point[1] * d3_degrees ];
}
projection.stream = function(output) {
if (stream) stream.valid = false;
stream = d3_geo_projectionRadians(preclip(rotate, projectResample(postclip(output))));
stream.valid = true;
return stream;
};
projection.clipAngle = function(_) {
if (!arguments.length) return clipAngle;
preclip = _ == null ? (clipAngle = _, d3_geo_clipAntimeridian) : d3_geo_clipCircle((clipAngle = +_) * d3_radians);
return invalidate();
};
projection.clipExtent = function(_) {
if (!arguments.length) return clipExtent;
clipExtent = _;
postclip = _ ? d3_geo_clipExtent(_[0][0], _[0][1], _[1][0], _[1][1]) : d3_identity;
return invalidate();
};
projection.scale = function(_) {
if (!arguments.length) return k;
k = +_;
return reset();
};
projection.translate = function(_) {
if (!arguments.length) return [ x, y ];
x = +_[0];
y = +_[1];
return reset();
};
projection.center = function(_) {
if (!arguments.length) return [ λ * d3_degrees, φ * d3_degrees ];
λ = _[0] % 360 * d3_radians;
φ = _[1] % 360 * d3_radians;
return reset();
};
projection.rotate = function(_) {
if (!arguments.length) return [ δλ * d3_degrees, δφ * d3_degrees, δγ * d3_degrees ];
δλ = _[0] % 360 * d3_radians;
δφ = _[1] % 360 * d3_radians;
δγ = _.length > 2 ? _[2] % 360 * d3_radians : 0;
return reset();
};
d3.rebind(projection, projectResample, "precision");
function reset() {
projectRotate = d3_geo_compose(rotate = d3_geo_rotation(δλ, δφ, δγ), project);
var center = project(λ, φ);
δx = x - center[0] * k;
δy = y + center[1] * k;
return invalidate();
}
function invalidate() {
if (stream) stream.valid = false, stream = null;
return projection;
}
return function() {
project = projectAt.apply(this, arguments);
projection.invert = project.invert && invert;
return reset();
};
}
function d3_geo_projectionRadians(stream) {
return d3_geo_transformPoint(stream, function(x, y) {
stream.point(x * d3_radians, y * d3_radians);
});
}
function d3_geo_equirectangular(λ, φ) {
return [ λ, φ ];
}
(d3.geo.equirectangular = function() {
return d3_geo_projection(d3_geo_equirectangular);
}).raw = d3_geo_equirectangular.invert = d3_geo_equirectangular;
d3.geo.rotation = function(rotate) {
rotate = d3_geo_rotation(rotate[0] % 360 * d3_radians, rotate[1] * d3_radians, rotate.length > 2 ? rotate[2] * d3_radians : 0);
function forward(coordinates) {
coordinates = rotate(coordinates[0] * d3_radians, coordinates[1] * d3_radians);
return coordinates[0] *= d3_degrees, coordinates[1] *= d3_degrees, coordinates;
}
forward.invert = function(coordinates) {
coordinates = rotate.invert(coordinates[0] * d3_radians, coordinates[1] * d3_radians);
return coordinates[0] *= d3_degrees, coordinates[1] *= d3_degrees, coordinates;
};
return forward;
};
function d3_geo_identityRotation(λ, φ) {
return [ λ > π ? λ - τ : λ < -π ? λ + τ : λ, φ ];
}
d3_geo_identityRotation.invert = d3_geo_equirectangular;
function d3_geo_rotation(δλ, δφ, δγ) {
return δλ ? δφ || δγ ? d3_geo_compose(d3_geo_rotationλ(δλ), d3_geo_rotationφγ(δφ, δγ)) : d3_geo_rotationλ(δλ) : δφ || δγ ? d3_geo_rotationφγ(δφ, δγ) : d3_geo_identityRotation;
}
function d3_geo_forwardRotationλ(δλ) {
return function(λ, φ) {
return λ += δλ, [ λ > π ? λ - τ : λ < -π ? λ + τ : λ, φ ];
};
}
function d3_geo_rotationλ(δλ) {
var rotation = d3_geo_forwardRotationλ(δλ);
rotation.invert = d3_geo_forwardRotationλ(-δλ);
return rotation;
}
function d3_geo_rotationφγ(δφ, δγ) {
var cosδφ = Math.cos(δφ), sinδφ = Math.sin(δφ), cosδγ = Math.cos(δγ), sinδγ = Math.sin(δγ);
function rotation(λ, φ) {
var cosφ = Math.cos(φ), x = Math.cos(λ) * cosφ, y = Math.sin(λ) * cosφ, z = Math.sin(φ), k = z * cosδφ + x * sinδφ;
return [ Math.atan2(y * cosδγ - k * sinδγ, x * cosδφ - z * sinδφ), d3_asin(k * cosδγ + y * sinδγ) ];
}
rotation.invert = function(λ, φ) {
var cosφ = Math.cos(φ), x = Math.cos(λ) * cosφ, y = Math.sin(λ) * cosφ, z = Math.sin(φ), k = z * cosδγ - y * sinδγ;
return [ Math.atan2(y * cosδγ + z * sinδγ, x * cosδφ + k * sinδφ), d3_asin(k * cosδφ - x * sinδφ) ];
};
return rotation;
}
d3.geo.circle = function() {
var origin = [ 0, 0 ], angle, precision = 6, interpolate;
function circle() {
var center = typeof origin === "function" ? origin.apply(this, arguments) : origin, rotate = d3_geo_rotation(-center[0] * d3_radians, -center[1] * d3_radians, 0).invert, ring = [];
interpolate(null, null, 1, {
point: function(x, y) {
ring.push(x = rotate(x, y));
x[0] *= d3_degrees, x[1] *= d3_degrees;
}
});
return {
type: "Polygon",
coordinates: [ ring ]
};
}
circle.origin = function(x) {
if (!arguments.length) return origin;
origin = x;
return circle;
};
circle.angle = function(x) {
if (!arguments.length) return angle;
interpolate = d3_geo_circleInterpolate((angle = +x) * d3_radians, precision * d3_radians);
return circle;
};
circle.precision = function(_) {
if (!arguments.length) return precision;
interpolate = d3_geo_circleInterpolate(angle * d3_radians, (precision = +_) * d3_radians);
return circle;
};
return circle.angle(90);
};
function d3_geo_circleInterpolate(radius, precision) {
var cr = Math.cos(radius), sr = Math.sin(radius);
return function(from, to, direction, listener) {
var step = direction * precision;
if (from != null) {
from = d3_geo_circleAngle(cr, from);
to = d3_geo_circleAngle(cr, to);
if (direction > 0 ? from < to : from > to) from += direction * τ;
} else {
from = radius + direction * τ;
to = radius - .5 * step;
}
for (var point, t = from; direction > 0 ? t > to : t < to; t -= step) {
listener.point((point = d3_geo_spherical([ cr, -sr * Math.cos(t), -sr * Math.sin(t) ]))[0], point[1]);
}
};
}
function d3_geo_circleAngle(cr, point) {
var a = d3_geo_cartesian(point);
a[0] -= cr;
d3_geo_cartesianNormalize(a);
var angle = d3_acos(-a[1]);
return ((-a[2] < 0 ? -angle : angle) + 2 * Math.PI - ε) % (2 * Math.PI);
}
d3.geo.distance = function(a, b) {
var Δλ = (b[0] - a[0]) * d3_radians, φ0 = a[1] * d3_radians, φ1 = b[1] * d3_radians, sinΔλ = Math.sin(Δλ), cosΔλ = Math.cos(Δλ), sinφ0 = Math.sin(φ0), cosφ0 = Math.cos(φ0), sinφ1 = Math.sin(φ1), cosφ1 = Math.cos(φ1), t;
return Math.atan2(Math.sqrt((t = cosφ1 * sinΔλ) * t + (t = cosφ0 * sinφ1 - sinφ0 * cosφ1 * cosΔλ) * t), sinφ0 * sinφ1 + cosφ0 * cosφ1 * cosΔλ);
};
d3.geo.graticule = function() {
var x1, x0, X1, X0, y1, y0, Y1, Y0, dx = 10, dy = dx, DX = 90, DY = 360, x, y, X, Y, precision = 2.5;
function graticule() {
return {
type: "MultiLineString",
coordinates: lines()
};
}
function lines() {
return d3.range(Math.ceil(X0 / DX) * DX, X1, DX).map(X).concat(d3.range(Math.ceil(Y0 / DY) * DY, Y1, DY).map(Y)).concat(d3.range(Math.ceil(x0 / dx) * dx, x1, dx).filter(function(x) {
return abs(x % DX) > ε;
}).map(x)).concat(d3.range(Math.ceil(y0 / dy) * dy, y1, dy).filter(function(y) {
return abs(y % DY) > ε;
}).map(y));
}
graticule.lines = function() {
return lines().map(function(coordinates) {
return {
type: "LineString",
coordinates: coordinates
};
});
};
graticule.outline = function() {
return {
type: "Polygon",
coordinates: [ X(X0).concat(Y(Y1).slice(1), X(X1).reverse().slice(1), Y(Y0).reverse().slice(1)) ]
};
};
graticule.extent = function(_) {
if (!arguments.length) return graticule.minorExtent();
return graticule.majorExtent(_).minorExtent(_);
};
graticule.majorExtent = function(_) {
if (!arguments.length) return [ [ X0, Y0 ], [ X1, Y1 ] ];
X0 = +_[0][0], X1 = +_[1][0];
Y0 = +_[0][1], Y1 = +_[1][1];
if (X0 > X1) _ = X0, X0 = X1, X1 = _;
if (Y0 > Y1) _ = Y0, Y0 = Y1, Y1 = _;
return graticule.precision(precision);
};
graticule.minorExtent = function(_) {
if (!arguments.length) return [ [ x0, y0 ], [ x1, y1 ] ];
x0 = +_[0][0], x1 = +_[1][0];
y0 = +_[0][1], y1 = +_[1][1];
if (x0 > x1) _ = x0, x0 = x1, x1 = _;
if (y0 > y1) _ = y0, y0 = y1, y1 = _;
return graticule.precision(precision);
};
graticule.step = function(_) {
if (!arguments.length) return graticule.minorStep();
return graticule.majorStep(_).minorStep(_);
};
graticule.majorStep = function(_) {
if (!arguments.length) return [ DX, DY ];
DX = +_[0], DY = +_[1];
return graticule;
};
graticule.minorStep = function(_) {
if (!arguments.length) return [ dx, dy ];
dx = +_[0], dy = +_[1];
return graticule;
};
graticule.precision = function(_) {
if (!arguments.length) return precision;
precision = +_;
x = d3_geo_graticuleX(y0, y1, 90);
y = d3_geo_graticuleY(x0, x1, precision);
X = d3_geo_graticuleX(Y0, Y1, 90);
Y = d3_geo_graticuleY(X0, X1, precision);
return graticule;
};
return graticule.majorExtent([ [ -180, -90 + ε ], [ 180, 90 - ε ] ]).minorExtent([ [ -180, -80 - ε ], [ 180, 80 + ε ] ]);
};
function d3_geo_graticuleX(y0, y1, dy) {
var y = d3.range(y0, y1 - ε, dy).concat(y1);
return function(x) {
return y.map(function(y) {
return [ x, y ];
});
};
}
function d3_geo_graticuleY(x0, x1, dx) {
var x = d3.range(x0, x1 - ε, dx).concat(x1);
return function(y) {
return x.map(function(x) {
return [ x, y ];
});
};
}
function d3_source(d) {
return d.source;
}
function d3_target(d) {
return d.target;
}
d3.geo.greatArc = function() {
var source = d3_source, source_, target = d3_target, target_;
function greatArc() {
return {
type: "LineString",
coordinates: [ source_ || source.apply(this, arguments), target_ || target.apply(this, arguments) ]
};
}
greatArc.distance = function() {
return d3.geo.distance(source_ || source.apply(this, arguments), target_ || target.apply(this, arguments));
};
greatArc.source = function(_) {
if (!arguments.length) return source;
source = _, source_ = typeof _ === "function" ? null : _;
return greatArc;
};
greatArc.target = function(_) {
if (!arguments.length) return target;
target = _, target_ = typeof _ === "function" ? null : _;
return greatArc;
};
greatArc.precision = function() {
return arguments.length ? greatArc : 0;
};
return greatArc;
};
d3.geo.interpolate = function(source, target) {
return d3_geo_interpolate(source[0] * d3_radians, source[1] * d3_radians, target[0] * d3_radians, target[1] * d3_radians);
};
function d3_geo_interpolate(x0, y0, x1, y1) {
var cy0 = Math.cos(y0), sy0 = Math.sin(y0), cy1 = Math.cos(y1), sy1 = Math.sin(y1), kx0 = cy0 * Math.cos(x0), ky0 = cy0 * Math.sin(x0), kx1 = cy1 * Math.cos(x1), ky1 = cy1 * Math.sin(x1), d = 2 * Math.asin(Math.sqrt(d3_haversin(y1 - y0) + cy0 * cy1 * d3_haversin(x1 - x0))), k = 1 / Math.sin(d);
var interpolate = d ? function(t) {
var B = Math.sin(t *= d) * k, A = Math.sin(d - t) * k, x = A * kx0 + B * kx1, y = A * ky0 + B * ky1, z = A * sy0 + B * sy1;
return [ Math.atan2(y, x) * d3_degrees, Math.atan2(z, Math.sqrt(x * x + y * y)) * d3_degrees ];
} : function() {
return [ x0 * d3_degrees, y0 * d3_degrees ];
};
interpolate.distance = d;
return interpolate;
}
d3.geo.length = function(object) {
d3_geo_lengthSum = 0;
d3.geo.stream(object, d3_geo_length);
return d3_geo_lengthSum;
};
var d3_geo_lengthSum;
var d3_geo_length = {
sphere: d3_noop,
point: d3_noop,
lineStart: d3_geo_lengthLineStart,
lineEnd: d3_noop,
polygonStart: d3_noop,
polygonEnd: d3_noop
};
function d3_geo_lengthLineStart() {
var λ0, sinφ0, cosφ0;
d3_geo_length.point = function(λ, φ) {
λ0 = λ * d3_radians, sinφ0 = Math.sin(φ *= d3_radians), cosφ0 = Math.cos(φ);
d3_geo_length.point = nextPoint;
};
d3_geo_length.lineEnd = function() {
d3_geo_length.point = d3_geo_length.lineEnd = d3_noop;
};
function nextPoint(λ, φ) {
var sinφ = Math.sin(φ *= d3_radians), cosφ = Math.cos(φ), t = abs((λ *= d3_radians) - λ0), cosΔλ = Math.cos(t);
d3_geo_lengthSum += Math.atan2(Math.sqrt((t = cosφ * Math.sin(t)) * t + (t = cosφ0 * sinφ - sinφ0 * cosφ * cosΔλ) * t), sinφ0 * sinφ + cosφ0 * cosφ * cosΔλ);
λ0 = λ, sinφ0 = sinφ, cosφ0 = cosφ;
}
}
function d3_geo_azimuthal(scale, angle) {
function azimuthal(λ, φ) {
var cosλ = Math.cos(λ), cosφ = Math.cos(φ), k = scale(cosλ * cosφ);
return [ k * cosφ * Math.sin(λ), k * Math.sin(φ) ];
}
azimuthal.invert = function(x, y) {
var ρ = Math.sqrt(x * x + y * y), c = angle(ρ), sinc = Math.sin(c), cosc = Math.cos(c);
return [ Math.atan2(x * sinc, ρ * cosc), Math.asin(ρ && y * sinc / ρ) ];
};
return azimuthal;
}
var d3_geo_azimuthalEqualArea = d3_geo_azimuthal(function(cosλcosφ) {
return Math.sqrt(2 / (1 + cosλcosφ));
}, function(ρ) {
return 2 * Math.asin(ρ / 2);
});
(d3.geo.azimuthalEqualArea = function() {
return d3_geo_projection(d3_geo_azimuthalEqualArea);
}).raw = d3_geo_azimuthalEqualArea;
var d3_geo_azimuthalEquidistant = d3_geo_azimuthal(function(cosλcosφ) {
var c = Math.acos(cosλcosφ);
return c && c / Math.sin(c);
}, d3_identity);
(d3.geo.azimuthalEquidistant = function() {
return d3_geo_projection(d3_geo_azimuthalEquidistant);
}).raw = d3_geo_azimuthalEquidistant;
function d3_geo_conicConformal(φ0, φ1) {
var cosφ0 = Math.cos(φ0), t = function(φ) {
return Math.tan(π / 4 + φ / 2);
}, n = φ0 === φ1 ? Math.sin(φ0) : Math.log(cosφ0 / Math.cos(φ1)) / Math.log(t(φ1) / t(φ0)), F = cosφ0 * Math.pow(t(φ0), n) / n;
if (!n) return d3_geo_mercator;
function forward(λ, φ) {
if (F > 0) {
if (φ < -halfπ + ε) φ = -halfπ + ε;
} else {
if (φ > halfπ - ε) φ = halfπ - ε;
}
var ρ = F / Math.pow(t(φ), n);
return [ ρ * Math.sin(n * λ), F - ρ * Math.cos(n * λ) ];
}
forward.invert = function(x, y) {
var ρ0_y = F - y, ρ = d3_sgn(n) * Math.sqrt(x * x + ρ0_y * ρ0_y);
return [ Math.atan2(x, ρ0_y) / n, 2 * Math.atan(Math.pow(F / ρ, 1 / n)) - halfπ ];
};
return forward;
}
(d3.geo.conicConformal = function() {
return d3_geo_conic(d3_geo_conicConformal);
}).raw = d3_geo_conicConformal;
function d3_geo_conicEquidistant(φ0, φ1) {
var cosφ0 = Math.cos(φ0), n = φ0 === φ1 ? Math.sin(φ0) : (cosφ0 - Math.cos(φ1)) / (φ1 - φ0), G = cosφ0 / n + φ0;
if (abs(n) < ε) return d3_geo_equirectangular;
function forward(λ, φ) {
var ρ = G - φ;
return [ ρ * Math.sin(n * λ), G - ρ * Math.cos(n * λ) ];
}
forward.invert = function(x, y) {
var ρ0_y = G - y;
return [ Math.atan2(x, ρ0_y) / n, G - d3_sgn(n) * Math.sqrt(x * x + ρ0_y * ρ0_y) ];
};
return forward;
}
(d3.geo.conicEquidistant = function() {
return d3_geo_conic(d3_geo_conicEquidistant);
}).raw = d3_geo_conicEquidistant;
var d3_geo_gnomonic = d3_geo_azimuthal(function(cosλcosφ) {
return 1 / cosλcosφ;
}, Math.atan);
(d3.geo.gnomonic = function() {
return d3_geo_projection(d3_geo_gnomonic);
}).raw = d3_geo_gnomonic;
function d3_geo_mercator(λ, φ) {
return [ λ, Math.log(Math.tan(π / 4 + φ / 2)) ];
}
d3_geo_mercator.invert = function(x, y) {
return [ x, 2 * Math.atan(Math.exp(y)) - halfπ ];
};
function d3_geo_mercatorProjection(project) {
var m = d3_geo_projection(project), scale = m.scale, translate = m.translate, clipExtent = m.clipExtent, clipAuto;
m.scale = function() {
var v = scale.apply(m, arguments);
return v === m ? clipAuto ? m.clipExtent(null) : m : v;
};
m.translate = function() {
var v = translate.apply(m, arguments);
return v === m ? clipAuto ? m.clipExtent(null) : m : v;
};
m.clipExtent = function(_) {
var v = clipExtent.apply(m, arguments);
if (v === m) {
if (clipAuto = _ == null) {
var k = π * scale(), t = translate();
clipExtent([ [ t[0] - k, t[1] - k ], [ t[0] + k, t[1] + k ] ]);
}
} else if (clipAuto) {
v = null;
}
return v;
};
return m.clipExtent(null);
}
(d3.geo.mercator = function() {
return d3_geo_mercatorProjection(d3_geo_mercator);
}).raw = d3_geo_mercator;
var d3_geo_orthographic = d3_geo_azimuthal(function() {
return 1;
}, Math.asin);
(d3.geo.orthographic = function() {
return d3_geo_projection(d3_geo_orthographic);
}).raw = d3_geo_orthographic;
var d3_geo_stereographic = d3_geo_azimuthal(function(cosλcosφ) {
return 1 / (1 + cosλcosφ);
}, function(ρ) {
return 2 * Math.atan(ρ);
});
(d3.geo.stereographic = function() {
return d3_geo_projection(d3_geo_stereographic);
}).raw = d3_geo_stereographic;
function d3_geo_transverseMercator(λ, φ) {
return [ Math.log(Math.tan(π / 4 + φ / 2)), -λ ];
}
d3_geo_transverseMercator.invert = function(x, y) {
return [ -y, 2 * Math.atan(Math.exp(x)) - halfπ ];
};
(d3.geo.transverseMercator = function() {
var projection = d3_geo_mercatorProjection(d3_geo_transverseMercator), center = projection.center, rotate = projection.rotate;
projection.center = function(_) {
return _ ? center([ -_[1], _[0] ]) : (_ = center(), [ _[1], -_[0] ]);
};
projection.rotate = function(_) {
return _ ? rotate([ _[0], _[1], _.length > 2 ? _[2] + 90 : 90 ]) : (_ = rotate(),
[ _[0], _[1], _[2] - 90 ]);
};
return rotate([ 0, 0, 90 ]);
}).raw = d3_geo_transverseMercator;
d3.geom = {};
function d3_geom_pointX(d) {
return d[0];
}
function d3_geom_pointY(d) {
return d[1];
}
d3.geom.hull = function(vertices) {
var x = d3_geom_pointX, y = d3_geom_pointY;
if (arguments.length) return hull(vertices);
function hull(data) {
if (data.length < 3) return [];
var fx = d3_functor(x), fy = d3_functor(y), i, n = data.length, points = [], flippedPoints = [];
for (i = 0; i < n; i++) {
points.push([ +fx.call(this, data[i], i), +fy.call(this, data[i], i), i ]);
}
points.sort(d3_geom_hullOrder);
for (i = 0; i < n; i++) flippedPoints.push([ points[i][0], -points[i][1] ]);
var upper = d3_geom_hullUpper(points), lower = d3_geom_hullUpper(flippedPoints);
var skipLeft = lower[0] === upper[0], skipRight = lower[lower.length - 1] === upper[upper.length - 1], polygon = [];
for (i = upper.length - 1; i >= 0; --i) polygon.push(data[points[upper[i]][2]]);
for (i = +skipLeft; i < lower.length - skipRight; ++i) polygon.push(data[points[lower[i]][2]]);
return polygon;
}
hull.x = function(_) {
return arguments.length ? (x = _, hull) : x;
};
hull.y = function(_) {
return arguments.length ? (y = _, hull) : y;
};
return hull;
};
function d3_geom_hullUpper(points) {
var n = points.length, hull = [ 0, 1 ], hs = 2;
for (var i = 2; i < n; i++) {
while (hs > 1 && d3_cross2d(points[hull[hs - 2]], points[hull[hs - 1]], points[i]) <= 0) --hs;
hull[hs++] = i;
}
return hull.slice(0, hs);
}
function d3_geom_hullOrder(a, b) {
return a[0] - b[0] || a[1] - b[1];
}
d3.geom.polygon = function(coordinates) {
d3_subclass(coordinates, d3_geom_polygonPrototype);
return coordinates;
};
var d3_geom_polygonPrototype = d3.geom.polygon.prototype = [];
d3_geom_polygonPrototype.area = function() {
var i = -1, n = this.length, a, b = this[n - 1], area = 0;
while (++i < n) {
a = b;
b = this[i];
area += a[1] * b[0] - a[0] * b[1];
}
return area * .5;
};
d3_geom_polygonPrototype.centroid = function(k) {
var i = -1, n = this.length, x = 0, y = 0, a, b = this[n - 1], c;
if (!arguments.length) k = -1 / (6 * this.area());
while (++i < n) {
a = b;
b = this[i];
c = a[0] * b[1] - b[0] * a[1];
x += (a[0] + b[0]) * c;
y += (a[1] + b[1]) * c;
}
return [ x * k, y * k ];
};
d3_geom_polygonPrototype.clip = function(subject) {
var input, closed = d3_geom_polygonClosed(subject), i = -1, n = this.length - d3_geom_polygonClosed(this), j, m, a = this[n - 1], b, c, d;
while (++i < n) {
input = subject.slice();
subject.length = 0;
b = this[i];
c = input[(m = input.length - closed) - 1];
j = -1;
while (++j < m) {
d = input[j];
if (d3_geom_polygonInside(d, a, b)) {
if (!d3_geom_polygonInside(c, a, b)) {
subject.push(d3_geom_polygonIntersect(c, d, a, b));
}
subject.push(d);
} else if (d3_geom_polygonInside(c, a, b)) {
subject.push(d3_geom_polygonIntersect(c, d, a, b));
}
c = d;
}
if (closed) subject.push(subject[0]);
a = b;
}
return subject;
};
function d3_geom_polygonInside(p, a, b) {
return (b[0] - a[0]) * (p[1] - a[1]) < (b[1] - a[1]) * (p[0] - a[0]);
}
function d3_geom_polygonIntersect(c, d, a, b) {
var x1 = c[0], x3 = a[0], x21 = d[0] - x1, x43 = b[0] - x3, y1 = c[1], y3 = a[1], y21 = d[1] - y1, y43 = b[1] - y3, ua = (x43 * (y1 - y3) - y43 * (x1 - x3)) / (y43 * x21 - x43 * y21);
return [ x1 + ua * x21, y1 + ua * y21 ];
}
function d3_geom_polygonClosed(coordinates) {
var a = coordinates[0], b = coordinates[coordinates.length - 1];
return !(a[0] - b[0] || a[1] - b[1]);
}
var d3_geom_voronoiEdges, d3_geom_voronoiCells, d3_geom_voronoiBeaches, d3_geom_voronoiBeachPool = [], d3_geom_voronoiFirstCircle, d3_geom_voronoiCircles, d3_geom_voronoiCirclePool = [];
function d3_geom_voronoiBeach() {
d3_geom_voronoiRedBlackNode(this);
this.edge = this.site = this.circle = null;
}
function d3_geom_voronoiCreateBeach(site) {
var beach = d3_geom_voronoiBeachPool.pop() || new d3_geom_voronoiBeach();
beach.site = site;
return beach;
}
function d3_geom_voronoiDetachBeach(beach) {
d3_geom_voronoiDetachCircle(beach);
d3_geom_voronoiBeaches.remove(beach);
d3_geom_voronoiBeachPool.push(beach);
d3_geom_voronoiRedBlackNode(beach);
}
function d3_geom_voronoiRemoveBeach(beach) {
var circle = beach.circle, x = circle.x, y = circle.cy, vertex = {
x: x,
y: y
}, previous = beach.P, next = beach.N, disappearing = [ beach ];
d3_geom_voronoiDetachBeach(beach);
var lArc = previous;
while (lArc.circle && abs(x - lArc.circle.x) < ε && abs(y - lArc.circle.cy) < ε) {
previous = lArc.P;
disappearing.unshift(lArc);
d3_geom_voronoiDetachBeach(lArc);
lArc = previous;
}
disappearing.unshift(lArc);
d3_geom_voronoiDetachCircle(lArc);
var rArc = next;
while (rArc.circle && abs(x - rArc.circle.x) < ε && abs(y - rArc.circle.cy) < ε) {
next = rArc.N;
disappearing.push(rArc);
d3_geom_voronoiDetachBeach(rArc);
rArc = next;
}
disappearing.push(rArc);
d3_geom_voronoiDetachCircle(rArc);
var nArcs = disappearing.length, iArc;
for (iArc = 1; iArc < nArcs; ++iArc) {
rArc = disappearing[iArc];
lArc = disappearing[iArc - 1];
d3_geom_voronoiSetEdgeEnd(rArc.edge, lArc.site, rArc.site, vertex);
}
lArc = disappearing[0];
rArc = disappearing[nArcs - 1];
rArc.edge = d3_geom_voronoiCreateEdge(lArc.site, rArc.site, null, vertex);
d3_geom_voronoiAttachCircle(lArc);
d3_geom_voronoiAttachCircle(rArc);
}
function d3_geom_voronoiAddBeach(site) {
var x = site.x, directrix = site.y, lArc, rArc, dxl, dxr, node = d3_geom_voronoiBeaches._;
while (node) {
dxl = d3_geom_voronoiLeftBreakPoint(node, directrix) - x;
if (dxl > ε) node = node.L; else {
dxr = x - d3_geom_voronoiRightBreakPoint(node, directrix);
if (dxr > ε) {
if (!node.R) {
lArc = node;
break;
}
node = node.R;
} else {
if (dxl > -ε) {
lArc = node.P;
rArc = node;
} else if (dxr > -ε) {
lArc = node;
rArc = node.N;
} else {
lArc = rArc = node;
}
break;
}
}
}
var newArc = d3_geom_voronoiCreateBeach(site);
d3_geom_voronoiBeaches.insert(lArc, newArc);
if (!lArc && !rArc) return;
if (lArc === rArc) {
d3_geom_voronoiDetachCircle(lArc);
rArc = d3_geom_voronoiCreateBeach(lArc.site);
d3_geom_voronoiBeaches.insert(newArc, rArc);
newArc.edge = rArc.edge = d3_geom_voronoiCreateEdge(lArc.site, newArc.site);
d3_geom_voronoiAttachCircle(lArc);
d3_geom_voronoiAttachCircle(rArc);
return;
}
if (!rArc) {
newArc.edge = d3_geom_voronoiCreateEdge(lArc.site, newArc.site);
return;
}
d3_geom_voronoiDetachCircle(lArc);
d3_geom_voronoiDetachCircle(rArc);
var lSite = lArc.site, ax = lSite.x, ay = lSite.y, bx = site.x - ax, by = site.y - ay, rSite = rArc.site, cx = rSite.x - ax, cy = rSite.y - ay, d = 2 * (bx * cy - by * cx), hb = bx * bx + by * by, hc = cx * cx + cy * cy, vertex = {
x: (cy * hb - by * hc) / d + ax,
y: (bx * hc - cx * hb) / d + ay
};
d3_geom_voronoiSetEdgeEnd(rArc.edge, lSite, rSite, vertex);
newArc.edge = d3_geom_voronoiCreateEdge(lSite, site, null, vertex);
rArc.edge = d3_geom_voronoiCreateEdge(site, rSite, null, vertex);
d3_geom_voronoiAttachCircle(lArc);
d3_geom_voronoiAttachCircle(rArc);
}
function d3_geom_voronoiLeftBreakPoint(arc, directrix) {
var site = arc.site, rfocx = site.x, rfocy = site.y, pby2 = rfocy - directrix;
if (!pby2) return rfocx;
var lArc = arc.P;
if (!lArc) return -Infinity;
site = lArc.site;
var lfocx = site.x, lfocy = site.y, plby2 = lfocy - directrix;
if (!plby2) return lfocx;
var hl = lfocx - rfocx, aby2 = 1 / pby2 - 1 / plby2, b = hl / plby2;
if (aby2) return (-b + Math.sqrt(b * b - 2 * aby2 * (hl * hl / (-2 * plby2) - lfocy + plby2 / 2 + rfocy - pby2 / 2))) / aby2 + rfocx;
return (rfocx + lfocx) / 2;
}
function d3_geom_voronoiRightBreakPoint(arc, directrix) {
var rArc = arc.N;
if (rArc) return d3_geom_voronoiLeftBreakPoint(rArc, directrix);
var site = arc.site;
return site.y === directrix ? site.x : Infinity;
}
function d3_geom_voronoiCell(site) {
this.site = site;
this.edges = [];
}
d3_geom_voronoiCell.prototype.prepare = function() {
var halfEdges = this.edges, iHalfEdge = halfEdges.length, edge;
while (iHalfEdge--) {
edge = halfEdges[iHalfEdge].edge;
if (!edge.b || !edge.a) halfEdges.splice(iHalfEdge, 1);
}
halfEdges.sort(d3_geom_voronoiHalfEdgeOrder);
return halfEdges.length;
};
function d3_geom_voronoiCloseCells(extent) {
var x0 = extent[0][0], x1 = extent[1][0], y0 = extent[0][1], y1 = extent[1][1], x2, y2, x3, y3, cells = d3_geom_voronoiCells, iCell = cells.length, cell, iHalfEdge, halfEdges, nHalfEdges, start, end;
while (iCell--) {
cell = cells[iCell];
if (!cell || !cell.prepare()) continue;
halfEdges = cell.edges;
nHalfEdges = halfEdges.length;
iHalfEdge = 0;
while (iHalfEdge < nHalfEdges) {
end = halfEdges[iHalfEdge].end(), x3 = end.x, y3 = end.y;
start = halfEdges[++iHalfEdge % nHalfEdges].start(), x2 = start.x, y2 = start.y;
if (abs(x3 - x2) > ε || abs(y3 - y2) > ε) {
halfEdges.splice(iHalfEdge, 0, new d3_geom_voronoiHalfEdge(d3_geom_voronoiCreateBorderEdge(cell.site, end, abs(x3 - x0) < ε && y1 - y3 > ε ? {
x: x0,
y: abs(x2 - x0) < ε ? y2 : y1
} : abs(y3 - y1) < ε && x1 - x3 > ε ? {
x: abs(y2 - y1) < ε ? x2 : x1,
y: y1
} : abs(x3 - x1) < ε && y3 - y0 > ε ? {
x: x1,
y: abs(x2 - x1) < ε ? y2 : y0
} : abs(y3 - y0) < ε && x3 - x0 > ε ? {
x: abs(y2 - y0) < ε ? x2 : x0,
y: y0
} : null), cell.site, null));
++nHalfEdges;
}
}
}
}
function d3_geom_voronoiHalfEdgeOrder(a, b) {
return b.angle - a.angle;
}
function d3_geom_voronoiCircle() {
d3_geom_voronoiRedBlackNode(this);
this.x = this.y = this.arc = this.site = this.cy = null;
}
function d3_geom_voronoiAttachCircle(arc) {
var lArc = arc.P, rArc = arc.N;
if (!lArc || !rArc) return;
var lSite = lArc.site, cSite = arc.site, rSite = rArc.site;
if (lSite === rSite) return;
var bx = cSite.x, by = cSite.y, ax = lSite.x - bx, ay = lSite.y - by, cx = rSite.x - bx, cy = rSite.y - by;
var d = 2 * (ax * cy - ay * cx);
if (d >= -ε2) return;
var ha = ax * ax + ay * ay, hc = cx * cx + cy * cy, x = (cy * ha - ay * hc) / d, y = (ax * hc - cx * ha) / d, cy = y + by;
var circle = d3_geom_voronoiCirclePool.pop() || new d3_geom_voronoiCircle();
circle.arc = arc;
circle.site = cSite;
circle.x = x + bx;
circle.y = cy + Math.sqrt(x * x + y * y);
circle.cy = cy;
arc.circle = circle;
var before = null, node = d3_geom_voronoiCircles._;
while (node) {
if (circle.y < node.y || circle.y === node.y && circle.x <= node.x) {
if (node.L) node = node.L; else {
before = node.P;
break;
}
} else {
if (node.R) node = node.R; else {
before = node;
break;
}
}
}
d3_geom_voronoiCircles.insert(before, circle);
if (!before) d3_geom_voronoiFirstCircle = circle;
}
function d3_geom_voronoiDetachCircle(arc) {
var circle = arc.circle;
if (circle) {
if (!circle.P) d3_geom_voronoiFirstCircle = circle.N;
d3_geom_voronoiCircles.remove(circle);
d3_geom_voronoiCirclePool.push(circle);
d3_geom_voronoiRedBlackNode(circle);
arc.circle = null;
}
}
function d3_geom_voronoiClipEdges(extent) {
var edges = d3_geom_voronoiEdges, clip = d3_geom_clipLine(extent[0][0], extent[0][1], extent[1][0], extent[1][1]), i = edges.length, e;
while (i--) {
e = edges[i];
if (!d3_geom_voronoiConnectEdge(e, extent) || !clip(e) || abs(e.a.x - e.b.x) < ε && abs(e.a.y - e.b.y) < ε) {
e.a = e.b = null;
edges.splice(i, 1);
}
}
}
function d3_geom_voronoiConnectEdge(edge, extent) {
var vb = edge.b;
if (vb) return true;
var va = edge.a, x0 = extent[0][0], x1 = extent[1][0], y0 = extent[0][1], y1 = extent[1][1], lSite = edge.l, rSite = edge.r, lx = lSite.x, ly = lSite.y, rx = rSite.x, ry = rSite.y, fx = (lx + rx) / 2, fy = (ly + ry) / 2, fm, fb;
if (ry === ly) {
if (fx < x0 || fx >= x1) return;
if (lx > rx) {
if (!va) va = {
x: fx,
y: y0
}; else if (va.y >= y1) return;
vb = {
x: fx,
y: y1
};
} else {
if (!va) va = {
x: fx,
y: y1
}; else if (va.y < y0) return;
vb = {
x: fx,
y: y0
};
}
} else {
fm = (lx - rx) / (ry - ly);
fb = fy - fm * fx;
if (fm < -1 || fm > 1) {
if (lx > rx) {
if (!va) va = {
x: (y0 - fb) / fm,
y: y0
}; else if (va.y >= y1) return;
vb = {
x: (y1 - fb) / fm,
y: y1
};
} else {
if (!va) va = {
x: (y1 - fb) / fm,
y: y1
}; else if (va.y < y0) return;
vb = {
x: (y0 - fb) / fm,
y: y0
};
}
} else {
if (ly < ry) {
if (!va) va = {
x: x0,
y: fm * x0 + fb
}; else if (va.x >= x1) return;
vb = {
x: x1,
y: fm * x1 + fb
};
} else {
if (!va) va = {
x: x1,
y: fm * x1 + fb
}; else if (va.x < x0) return;
vb = {
x: x0,
y: fm * x0 + fb
};
}
}
}
edge.a = va;
edge.b = vb;
return true;
}
function d3_geom_voronoiEdge(lSite, rSite) {
this.l = lSite;
this.r = rSite;
this.a = this.b = null;
}
function d3_geom_voronoiCreateEdge(lSite, rSite, va, vb) {
var edge = new d3_geom_voronoiEdge(lSite, rSite);
d3_geom_voronoiEdges.push(edge);
if (va) d3_geom_voronoiSetEdgeEnd(edge, lSite, rSite, va);
if (vb) d3_geom_voronoiSetEdgeEnd(edge, rSite, lSite, vb);
d3_geom_voronoiCells[lSite.i].edges.push(new d3_geom_voronoiHalfEdge(edge, lSite, rSite));
d3_geom_voronoiCells[rSite.i].edges.push(new d3_geom_voronoiHalfEdge(edge, rSite, lSite));
return edge;
}
function d3_geom_voronoiCreateBorderEdge(lSite, va, vb) {
var edge = new d3_geom_voronoiEdge(lSite, null);
edge.a = va;
edge.b = vb;
d3_geom_voronoiEdges.push(edge);
return edge;
}
function d3_geom_voronoiSetEdgeEnd(edge, lSite, rSite, vertex) {
if (!edge.a && !edge.b) {
edge.a = vertex;
edge.l = lSite;
edge.r = rSite;
} else if (edge.l === rSite) {
edge.b = vertex;
} else {
edge.a = vertex;
}
}
function d3_geom_voronoiHalfEdge(edge, lSite, rSite) {
var va = edge.a, vb = edge.b;
this.edge = edge;
this.site = lSite;
this.angle = rSite ? Math.atan2(rSite.y - lSite.y, rSite.x - lSite.x) : edge.l === lSite ? Math.atan2(vb.x - va.x, va.y - vb.y) : Math.atan2(va.x - vb.x, vb.y - va.y);
}
d3_geom_voronoiHalfEdge.prototype = {
start: function() {
return this.edge.l === this.site ? this.edge.a : this.edge.b;
},
end: function() {
return this.edge.l === this.site ? this.edge.b : this.edge.a;
}
};
function d3_geom_voronoiRedBlackTree() {
this._ = null;
}
function d3_geom_voronoiRedBlackNode(node) {
node.U = node.C = node.L = node.R = node.P = node.N = null;
}
d3_geom_voronoiRedBlackTree.prototype = {
insert: function(after, node) {
var parent, grandpa, uncle;
if (after) {
node.P = after;
node.N = after.N;
if (after.N) after.N.P = node;
after.N = node;
if (after.R) {
after = after.R;
while (after.L) after = after.L;
after.L = node;
} else {
after.R = node;
}
parent = after;
} else if (this._) {
after = d3_geom_voronoiRedBlackFirst(this._);
node.P = null;
node.N = after;
after.P = after.L = node;
parent = after;
} else {
node.P = node.N = null;
this._ = node;
parent = null;
}
node.L = node.R = null;
node.U = parent;
node.C = true;
after = node;
while (parent && parent.C) {
grandpa = parent.U;
if (parent === grandpa.L) {
uncle = grandpa.R;
if (uncle && uncle.C) {
parent.C = uncle.C = false;
grandpa.C = true;
after = grandpa;
} else {
if (after === parent.R) {
d3_geom_voronoiRedBlackRotateLeft(this, parent);
after = parent;
parent = after.U;
}
parent.C = false;
grandpa.C = true;
d3_geom_voronoiRedBlackRotateRight(this, grandpa);
}
} else {
uncle = grandpa.L;
if (uncle && uncle.C) {
parent.C = uncle.C = false;
grandpa.C = true;
after = grandpa;
} else {
if (after === parent.L) {
d3_geom_voronoiRedBlackRotateRight(this, parent);
after = parent;
parent = after.U;
}
parent.C = false;
grandpa.C = true;
d3_geom_voronoiRedBlackRotateLeft(this, grandpa);
}
}
parent = after.U;
}
this._.C = false;
},
remove: function(node) {
if (node.N) node.N.P = node.P;
if (node.P) node.P.N = node.N;
node.N = node.P = null;
var parent = node.U, sibling, left = node.L, right = node.R, next, red;
if (!left) next = right; else if (!right) next = left; else next = d3_geom_voronoiRedBlackFirst(right);
if (parent) {
if (parent.L === node) parent.L = next; else parent.R = next;
} else {
this._ = next;
}
if (left && right) {
red = next.C;
next.C = node.C;
next.L = left;
left.U = next;
if (next !== right) {
parent = next.U;
next.U = node.U;
node = next.R;
parent.L = node;
next.R = right;
right.U = next;
} else {
next.U = parent;
parent = next;
node = next.R;
}
} else {
red = node.C;
node = next;
}
if (node) node.U = parent;
if (red) return;
if (node && node.C) {
node.C = false;
return;
}
do {
if (node === this._) break;
if (node === parent.L) {
sibling = parent.R;
if (sibling.C) {
sibling.C = false;
parent.C = true;
d3_geom_voronoiRedBlackRotateLeft(this, parent);
sibling = parent.R;
}
if (sibling.L && sibling.L.C || sibling.R && sibling.R.C) {
if (!sibling.R || !sibling.R.C) {
sibling.L.C = false;
sibling.C = true;
d3_geom_voronoiRedBlackRotateRight(this, sibling);
sibling = parent.R;
}
sibling.C = parent.C;
parent.C = sibling.R.C = false;
d3_geom_voronoiRedBlackRotateLeft(this, parent);
node = this._;
break;
}
} else {
sibling = parent.L;
if (sibling.C) {
sibling.C = false;
parent.C = true;
d3_geom_voronoiRedBlackRotateRight(this, parent);
sibling = parent.L;
}
if (sibling.L && sibling.L.C || sibling.R && sibling.R.C) {
if (!sibling.L || !sibling.L.C) {
sibling.R.C = false;
sibling.C = true;
d3_geom_voronoiRedBlackRotateLeft(this, sibling);
sibling = parent.L;
}
sibling.C = parent.C;
parent.C = sibling.L.C = false;
d3_geom_voronoiRedBlackRotateRight(this, parent);
node = this._;
break;
}
}
sibling.C = true;
node = parent;
parent = parent.U;
} while (!node.C);
if (node) node.C = false;
}
};
function d3_geom_voronoiRedBlackRotateLeft(tree, node) {
var p = node, q = node.R, parent = p.U;
if (parent) {
if (parent.L === p) parent.L = q; else parent.R = q;
} else {
tree._ = q;
}
q.U = parent;
p.U = q;
p.R = q.L;
if (p.R) p.R.U = p;
q.L = p;
}
function d3_geom_voronoiRedBlackRotateRight(tree, node) {
var p = node, q = node.L, parent = p.U;
if (parent) {
if (parent.L === p) parent.L = q; else parent.R = q;
} else {
tree._ = q;
}
q.U = parent;
p.U = q;
p.L = q.R;
if (p.L) p.L.U = p;
q.R = p;
}
function d3_geom_voronoiRedBlackFirst(node) {
while (node.L) node = node.L;
return node;
}
function d3_geom_voronoi(sites, bbox) {
var site = sites.sort(d3_geom_voronoiVertexOrder).pop(), x0, y0, circle;
d3_geom_voronoiEdges = [];
d3_geom_voronoiCells = new Array(sites.length);
d3_geom_voronoiBeaches = new d3_geom_voronoiRedBlackTree();
d3_geom_voronoiCircles = new d3_geom_voronoiRedBlackTree();
while (true) {
circle = d3_geom_voronoiFirstCircle;
if (site && (!circle || site.y < circle.y || site.y === circle.y && site.x < circle.x)) {
if (site.x !== x0 || site.y !== y0) {
d3_geom_voronoiCells[site.i] = new d3_geom_voronoiCell(site);
d3_geom_voronoiAddBeach(site);
x0 = site.x, y0 = site.y;
}
site = sites.pop();
} else if (circle) {
d3_geom_voronoiRemoveBeach(circle.arc);
} else {
break;
}
}
if (bbox) d3_geom_voronoiClipEdges(bbox), d3_geom_voronoiCloseCells(bbox);
var diagram = {
cells: d3_geom_voronoiCells,
edges: d3_geom_voronoiEdges
};
d3_geom_voronoiBeaches = d3_geom_voronoiCircles = d3_geom_voronoiEdges = d3_geom_voronoiCells = null;
return diagram;
}
function d3_geom_voronoiVertexOrder(a, b) {
return b.y - a.y || b.x - a.x;
}
d3.geom.voronoi = function(points) {
var x = d3_geom_pointX, y = d3_geom_pointY, fx = x, fy = y, clipExtent = d3_geom_voronoiClipExtent;
if (points) return voronoi(points);
function voronoi(data) {
var polygons = new Array(data.length), x0 = clipExtent[0][0], y0 = clipExtent[0][1], x1 = clipExtent[1][0], y1 = clipExtent[1][1];
d3_geom_voronoi(sites(data), clipExtent).cells.forEach(function(cell, i) {
var edges = cell.edges, site = cell.site, polygon = polygons[i] = edges.length ? edges.map(function(e) {
var s = e.start();
return [ s.x, s.y ];
}) : site.x >= x0 && site.x <= x1 && site.y >= y0 && site.y <= y1 ? [ [ x0, y1 ], [ x1, y1 ], [ x1, y0 ], [ x0, y0 ] ] : [];
polygon.point = data[i];
});
return polygons;
}
function sites(data) {
return data.map(function(d, i) {
return {
x: Math.round(fx(d, i) / ε) * ε,
y: Math.round(fy(d, i) / ε) * ε,
i: i
};
});
}
voronoi.links = function(data) {
return d3_geom_voronoi(sites(data)).edges.filter(function(edge) {
return edge.l && edge.r;
}).map(function(edge) {
return {
source: data[edge.l.i],
target: data[edge.r.i]
};
});
};
voronoi.triangles = function(data) {
var triangles = [];
d3_geom_voronoi(sites(data)).cells.forEach(function(cell, i) {
var site = cell.site, edges = cell.edges.sort(d3_geom_voronoiHalfEdgeOrder), j = -1, m = edges.length, e0, s0, e1 = edges[m - 1].edge, s1 = e1.l === site ? e1.r : e1.l;
while (++j < m) {
e0 = e1;
s0 = s1;
e1 = edges[j].edge;
s1 = e1.l === site ? e1.r : e1.l;
if (i < s0.i && i < s1.i && d3_geom_voronoiTriangleArea(site, s0, s1) < 0) {
triangles.push([ data[i], data[s0.i], data[s1.i] ]);
}
}
});
return triangles;
};
voronoi.x = function(_) {
return arguments.length ? (fx = d3_functor(x = _), voronoi) : x;
};
voronoi.y = function(_) {
return arguments.length ? (fy = d3_functor(y = _), voronoi) : y;
};
voronoi.clipExtent = function(_) {
if (!arguments.length) return clipExtent === d3_geom_voronoiClipExtent ? null : clipExtent;
clipExtent = _ == null ? d3_geom_voronoiClipExtent : _;
return voronoi;
};
voronoi.size = function(_) {
if (!arguments.length) return clipExtent === d3_geom_voronoiClipExtent ? null : clipExtent && clipExtent[1];
return voronoi.clipExtent(_ && [ [ 0, 0 ], _ ]);
};
return voronoi;
};
var d3_geom_voronoiClipExtent = [ [ -1e6, -1e6 ], [ 1e6, 1e6 ] ];
function d3_geom_voronoiTriangleArea(a, b, c) {
return (a.x - c.x) * (b.y - a.y) - (a.x - b.x) * (c.y - a.y);
}
d3.geom.delaunay = function(vertices) {
return d3.geom.voronoi().triangles(vertices);
};
d3.geom.quadtree = function(points, x1, y1, x2, y2) {
var x = d3_geom_pointX, y = d3_geom_pointY, compat;
if (compat = arguments.length) {
x = d3_geom_quadtreeCompatX;
y = d3_geom_quadtreeCompatY;
if (compat === 3) {
y2 = y1;
x2 = x1;
y1 = x1 = 0;
}
return quadtree(points);
}
function quadtree(data) {
var d, fx = d3_functor(x), fy = d3_functor(y), xs, ys, i, n, x1_, y1_, x2_, y2_;
if (x1 != null) {
x1_ = x1, y1_ = y1, x2_ = x2, y2_ = y2;
} else {
x2_ = y2_ = -(x1_ = y1_ = Infinity);
xs = [], ys = [];
n = data.length;
if (compat) for (i = 0; i < n; ++i) {
d = data[i];
if (d.x < x1_) x1_ = d.x;
if (d.y < y1_) y1_ = d.y;
if (d.x > x2_) x2_ = d.x;
if (d.y > y2_) y2_ = d.y;
xs.push(d.x);
ys.push(d.y);
} else for (i = 0; i < n; ++i) {
var x_ = +fx(d = data[i], i), y_ = +fy(d, i);
if (x_ < x1_) x1_ = x_;
if (y_ < y1_) y1_ = y_;
if (x_ > x2_) x2_ = x_;
if (y_ > y2_) y2_ = y_;
xs.push(x_);
ys.push(y_);
}
}
var dx = x2_ - x1_, dy = y2_ - y1_;
if (dx > dy) y2_ = y1_ + dx; else x2_ = x1_ + dy;
function insert(n, d, x, y, x1, y1, x2, y2) {
if (isNaN(x) || isNaN(y)) return;
if (n.leaf) {
var nx = n.x, ny = n.y;
if (nx != null) {
if (abs(nx - x) + abs(ny - y) < .01) {
insertChild(n, d, x, y, x1, y1, x2, y2);
} else {
var nPoint = n.point;
n.x = n.y = n.point = null;
insertChild(n, nPoint, nx, ny, x1, y1, x2, y2);
insertChild(n, d, x, y, x1, y1, x2, y2);
}
} else {
n.x = x, n.y = y, n.point = d;
}
} else {
insertChild(n, d, x, y, x1, y1, x2, y2);
}
}
function insertChild(n, d, x, y, x1, y1, x2, y2) {
var xm = (x1 + x2) * .5, ym = (y1 + y2) * .5, right = x >= xm, below = y >= ym, i = below << 1 | right;
n.leaf = false;
n = n.nodes[i] || (n.nodes[i] = d3_geom_quadtreeNode());
if (right) x1 = xm; else x2 = xm;
if (below) y1 = ym; else y2 = ym;
insert(n, d, x, y, x1, y1, x2, y2);
}
var root = d3_geom_quadtreeNode();
root.add = function(d) {
insert(root, d, +fx(d, ++i), +fy(d, i), x1_, y1_, x2_, y2_);
};
root.visit = function(f) {
d3_geom_quadtreeVisit(f, root, x1_, y1_, x2_, y2_);
};
root.find = function(point) {
return d3_geom_quadtreeFind(root, point[0], point[1], x1_, y1_, x2_, y2_);
};
i = -1;
if (x1 == null) {
while (++i < n) {
insert(root, data[i], xs[i], ys[i], x1_, y1_, x2_, y2_);
}
--i;
} else data.forEach(root.add);
xs = ys = data = d = null;
return root;
}
quadtree.x = function(_) {
return arguments.length ? (x = _, quadtree) : x;
};
quadtree.y = function(_) {
return arguments.length ? (y = _, quadtree) : y;
};
quadtree.extent = function(_) {
if (!arguments.length) return x1 == null ? null : [ [ x1, y1 ], [ x2, y2 ] ];
if (_ == null) x1 = y1 = x2 = y2 = null; else x1 = +_[0][0], y1 = +_[0][1], x2 = +_[1][0],
y2 = +_[1][1];
return quadtree;
};
quadtree.size = function(_) {
if (!arguments.length) return x1 == null ? null : [ x2 - x1, y2 - y1 ];
if (_ == null) x1 = y1 = x2 = y2 = null; else x1 = y1 = 0, x2 = +_[0], y2 = +_[1];
return quadtree;
};
return quadtree;
};
function d3_geom_quadtreeCompatX(d) {
return d.x;
}
function d3_geom_quadtreeCompatY(d) {
return d.y;
}
function d3_geom_quadtreeNode() {
return {
leaf: true,
nodes: [],
point: null,
x: null,
y: null
};
}
function d3_geom_quadtreeVisit(f, node, x1, y1, x2, y2) {
if (!f(node, x1, y1, x2, y2)) {
var sx = (x1 + x2) * .5, sy = (y1 + y2) * .5, children = node.nodes;
if (children[0]) d3_geom_quadtreeVisit(f, children[0], x1, y1, sx, sy);
if (children[1]) d3_geom_quadtreeVisit(f, children[1], sx, y1, x2, sy);
if (children[2]) d3_geom_quadtreeVisit(f, children[2], x1, sy, sx, y2);
if (children[3]) d3_geom_quadtreeVisit(f, children[3], sx, sy, x2, y2);
}
}
function d3_geom_quadtreeFind(root, x, y, x0, y0, x3, y3) {
var minDistance2 = Infinity, closestPoint;
(function find(node, x1, y1, x2, y2) {
if (x1 > x3 || y1 > y3 || x2 < x0 || y2 < y0) return;
if (point = node.point) {
var point, dx = x - node.x, dy = y - node.y, distance2 = dx * dx + dy * dy;
if (distance2 < minDistance2) {
var distance = Math.sqrt(minDistance2 = distance2);
x0 = x - distance, y0 = y - distance;
x3 = x + distance, y3 = y + distance;
closestPoint = point;
}
}
var children = node.nodes, xm = (x1 + x2) * .5, ym = (y1 + y2) * .5, right = x >= xm, below = y >= ym;
for (var i = below << 1 | right, j = i + 4; i < j; ++i) {
if (node = children[i & 3]) switch (i & 3) {
case 0:
find(node, x1, y1, xm, ym);
break;
case 1:
find(node, xm, y1, x2, ym);
break;
case 2:
find(node, x1, ym, xm, y2);
break;
case 3:
find(node, xm, ym, x2, y2);
break;
}
}
})(root, x0, y0, x3, y3);
return closestPoint;
}
d3.interpolateRgb = d3_interpolateRgb;
function d3_interpolateRgb(a, b) {
a = d3.rgb(a);
b = d3.rgb(b);
var ar = a.r, ag = a.g, ab = a.b, br = b.r - ar, bg = b.g - ag, bb = b.b - ab;
return function(t) {
return "#" + d3_rgb_hex(Math.round(ar + br * t)) + d3_rgb_hex(Math.round(ag + bg * t)) + d3_rgb_hex(Math.round(ab + bb * t));
};
}
d3.interpolateObject = d3_interpolateObject;
function d3_interpolateObject(a, b) {
var i = {}, c = {}, k;
for (k in a) {
if (k in b) {
i[k] = d3_interpolate(a[k], b[k]);
} else {
c[k] = a[k];
}
}
for (k in b) {
if (!(k in a)) {
c[k] = b[k];
}
}
return function(t) {
for (k in i) c[k] = i[k](t);
return c;
};
}
d3.interpolateNumber = d3_interpolateNumber;
function d3_interpolateNumber(a, b) {
a = +a, b = +b;
return function(t) {
return a * (1 - t) + b * t;
};
}
d3.interpolateString = d3_interpolateString;
function d3_interpolateString(a, b) {
var bi = d3_interpolate_numberA.lastIndex = d3_interpolate_numberB.lastIndex = 0, am, bm, bs, i = -1, s = [], q = [];
a = a + "", b = b + "";
while ((am = d3_interpolate_numberA.exec(a)) && (bm = d3_interpolate_numberB.exec(b))) {
if ((bs = bm.index) > bi) {
bs = b.slice(bi, bs);
if (s[i]) s[i] += bs; else s[++i] = bs;
}
if ((am = am[0]) === (bm = bm[0])) {
if (s[i]) s[i] += bm; else s[++i] = bm;
} else {
s[++i] = null;
q.push({
i: i,
x: d3_interpolateNumber(am, bm)
});
}
bi = d3_interpolate_numberB.lastIndex;
}
if (bi < b.length) {
bs = b.slice(bi);
if (s[i]) s[i] += bs; else s[++i] = bs;
}
return s.length < 2 ? q[0] ? (b = q[0].x, function(t) {
return b(t) + "";
}) : function() {
return b;
} : (b = q.length, function(t) {
for (var i = 0, o; i < b; ++i) s[(o = q[i]).i] = o.x(t);
return s.join("");
});
}
var d3_interpolate_numberA = /[-+]?(?:\d+\.?\d*|\.?\d+)(?:[eE][-+]?\d+)?/g, d3_interpolate_numberB = new RegExp(d3_interpolate_numberA.source, "g");
d3.interpolate = d3_interpolate;
function d3_interpolate(a, b) {
var i = d3.interpolators.length, f;
while (--i >= 0 && !(f = d3.interpolators[i](a, b))) ;
return f;
}
d3.interpolators = [ function(a, b) {
var t = typeof b;
return (t === "string" ? d3_rgb_names.has(b.toLowerCase()) || /^(#|rgb\(|hsl\()/i.test(b) ? d3_interpolateRgb : d3_interpolateString : b instanceof d3_color ? d3_interpolateRgb : Array.isArray(b) ? d3_interpolateArray : t === "object" && isNaN(b) ? d3_interpolateObject : d3_interpolateNumber)(a, b);
} ];
d3.interpolateArray = d3_interpolateArray;
function d3_interpolateArray(a, b) {
var x = [], c = [], na = a.length, nb = b.length, n0 = Math.min(a.length, b.length), i;
for (i = 0; i < n0; ++i) x.push(d3_interpolate(a[i], b[i]));
for (;i < na; ++i) c[i] = a[i];
for (;i < nb; ++i) c[i] = b[i];
return function(t) {
for (i = 0; i < n0; ++i) c[i] = x[i](t);
return c;
};
}
var d3_ease_default = function() {
return d3_identity;
};
var d3_ease = d3.map({
linear: d3_ease_default,
poly: d3_ease_poly,
quad: function() {
return d3_ease_quad;
},
cubic: function() {
return d3_ease_cubic;
},
sin: function() {
return d3_ease_sin;
},
exp: function() {
return d3_ease_exp;
},
circle: function() {
return d3_ease_circle;
},
elastic: d3_ease_elastic,
back: d3_ease_back,
bounce: function() {
return d3_ease_bounce;
}
});
var d3_ease_mode = d3.map({
"in": d3_identity,
out: d3_ease_reverse,
"in-out": d3_ease_reflect,
"out-in": function(f) {
return d3_ease_reflect(d3_ease_reverse(f));
}
});
d3.ease = function(name) {
var i = name.indexOf("-"), t = i >= 0 ? name.slice(0, i) : name, m = i >= 0 ? name.slice(i + 1) : "in";
t = d3_ease.get(t) || d3_ease_default;
m = d3_ease_mode.get(m) || d3_identity;
return d3_ease_clamp(m(t.apply(null, d3_arraySlice.call(arguments, 1))));
};
function d3_ease_clamp(f) {
return function(t) {
return t <= 0 ? 0 : t >= 1 ? 1 : f(t);
};
}
function d3_ease_reverse(f) {
return function(t) {
return 1 - f(1 - t);
};
}
function d3_ease_reflect(f) {
return function(t) {
return .5 * (t < .5 ? f(2 * t) : 2 - f(2 - 2 * t));
};
}
function d3_ease_quad(t) {
return t * t;
}
function d3_ease_cubic(t) {
return t * t * t;
}
function d3_ease_cubicInOut(t) {
if (t <= 0) return 0;
if (t >= 1) return 1;
var t2 = t * t, t3 = t2 * t;
return 4 * (t < .5 ? t3 : 3 * (t - t2) + t3 - .75);
}
function d3_ease_poly(e) {
return function(t) {
return Math.pow(t, e);
};
}
function d3_ease_sin(t) {
return 1 - Math.cos(t * halfπ);
}
function d3_ease_exp(t) {
return Math.pow(2, 10 * (t - 1));
}
function d3_ease_circle(t) {
return 1 - Math.sqrt(1 - t * t);
}
function d3_ease_elastic(a, p) {
var s;
if (arguments.length < 2) p = .45;
if (arguments.length) s = p / τ * Math.asin(1 / a); else a = 1, s = p / 4;
return function(t) {
return 1 + a * Math.pow(2, -10 * t) * Math.sin((t - s) * τ / p);
};
}
function d3_ease_back(s) {
if (!s) s = 1.70158;
return function(t) {
return t * t * ((s + 1) * t - s);
};
}
function d3_ease_bounce(t) {
return t < 1 / 2.75 ? 7.5625 * t * t : t < 2 / 2.75 ? 7.5625 * (t -= 1.5 / 2.75) * t + .75 : t < 2.5 / 2.75 ? 7.5625 * (t -= 2.25 / 2.75) * t + .9375 : 7.5625 * (t -= 2.625 / 2.75) * t + .984375;
}
d3.interpolateHcl = d3_interpolateHcl;
function d3_interpolateHcl(a, b) {
a = d3.hcl(a);
b = d3.hcl(b);
var ah = a.h, ac = a.c, al = a.l, bh = b.h - ah, bc = b.c - ac, bl = b.l - al;
if (isNaN(bc)) bc = 0, ac = isNaN(ac) ? b.c : ac;
if (isNaN(bh)) bh = 0, ah = isNaN(ah) ? b.h : ah; else if (bh > 180) bh -= 360; else if (bh < -180) bh += 360;
return function(t) {
return d3_hcl_lab(ah + bh * t, ac + bc * t, al + bl * t) + "";
};
}
d3.interpolateHsl = d3_interpolateHsl;
function d3_interpolateHsl(a, b) {
a = d3.hsl(a);
b = d3.hsl(b);
var ah = a.h, as = a.s, al = a.l, bh = b.h - ah, bs = b.s - as, bl = b.l - al;
if (isNaN(bs)) bs = 0, as = isNaN(as) ? b.s : as;
if (isNaN(bh)) bh = 0, ah = isNaN(ah) ? b.h : ah; else if (bh > 180) bh -= 360; else if (bh < -180) bh += 360;
return function(t) {
return d3_hsl_rgb(ah + bh * t, as + bs * t, al + bl * t) + "";
};
}
d3.interpolateLab = d3_interpolateLab;
function d3_interpolateLab(a, b) {
a = d3.lab(a);
b = d3.lab(b);
var al = a.l, aa = a.a, ab = a.b, bl = b.l - al, ba = b.a - aa, bb = b.b - ab;
return function(t) {
return d3_lab_rgb(al + bl * t, aa + ba * t, ab + bb * t) + "";
};
}
d3.interpolateRound = d3_interpolateRound;
function d3_interpolateRound(a, b) {
b -= a;
return function(t) {
return Math.round(a + b * t);
};
}
d3.transform = function(string) {
var g = d3_document.createElementNS(d3.ns.prefix.svg, "g");
return (d3.transform = function(string) {
if (string != null) {
g.setAttribute("transform", string);
var t = g.transform.baseVal.consolidate();
}
return new d3_transform(t ? t.matrix : d3_transformIdentity);
})(string);
};
function d3_transform(m) {
var r0 = [ m.a, m.b ], r1 = [ m.c, m.d ], kx = d3_transformNormalize(r0), kz = d3_transformDot(r0, r1), ky = d3_transformNormalize(d3_transformCombine(r1, r0, -kz)) || 0;
if (r0[0] * r1[1] < r1[0] * r0[1]) {
r0[0] *= -1;
r0[1] *= -1;
kx *= -1;
kz *= -1;
}
this.rotate = (kx ? Math.atan2(r0[1], r0[0]) : Math.atan2(-r1[0], r1[1])) * d3_degrees;
this.translate = [ m.e, m.f ];
this.scale = [ kx, ky ];
this.skew = ky ? Math.atan2(kz, ky) * d3_degrees : 0;
}
d3_transform.prototype.toString = function() {
return "translate(" + this.translate + ")rotate(" + this.rotate + ")skewX(" + this.skew + ")scale(" + this.scale + ")";
};
function d3_transformDot(a, b) {
return a[0] * b[0] + a[1] * b[1];
}
function d3_transformNormalize(a) {
var k = Math.sqrt(d3_transformDot(a, a));
if (k) {
a[0] /= k;
a[1] /= k;
}
return k;
}
function d3_transformCombine(a, b, k) {
a[0] += k * b[0];
a[1] += k * b[1];
return a;
}
var d3_transformIdentity = {
a: 1,
b: 0,
c: 0,
d: 1,
e: 0,
f: 0
};
d3.interpolateTransform = d3_interpolateTransform;
function d3_interpolateTransformPop(s) {
return s.length ? s.pop() + "," : "";
}
function d3_interpolateTranslate(ta, tb, s, q) {
if (ta[0] !== tb[0] || ta[1] !== tb[1]) {
var i = s.push("translate(", null, ",", null, ")");
q.push({
i: i - 4,
x: d3_interpolateNumber(ta[0], tb[0])
}, {
i: i - 2,
x: d3_interpolateNumber(ta[1], tb[1])
});
} else if (tb[0] || tb[1]) {
s.push("translate(" + tb + ")");
}
}
function d3_interpolateRotate(ra, rb, s, q) {
if (ra !== rb) {
if (ra - rb > 180) rb += 360; else if (rb - ra > 180) ra += 360;
q.push({
i: s.push(d3_interpolateTransformPop(s) + "rotate(", null, ")") - 2,
x: d3_interpolateNumber(ra, rb)
});
} else if (rb) {
s.push(d3_interpolateTransformPop(s) + "rotate(" + rb + ")");
}
}
function d3_interpolateSkew(wa, wb, s, q) {
if (wa !== wb) {
q.push({
i: s.push(d3_interpolateTransformPop(s) + "skewX(", null, ")") - 2,
x: d3_interpolateNumber(wa, wb)
});
} else if (wb) {
s.push(d3_interpolateTransformPop(s) + "skewX(" + wb + ")");
}
}
function d3_interpolateScale(ka, kb, s, q) {
if (ka[0] !== kb[0] || ka[1] !== kb[1]) {
var i = s.push(d3_interpolateTransformPop(s) + "scale(", null, ",", null, ")");
q.push({
i: i - 4,
x: d3_interpolateNumber(ka[0], kb[0])
}, {
i: i - 2,
x: d3_interpolateNumber(ka[1], kb[1])
});
} else if (kb[0] !== 1 || kb[1] !== 1) {
s.push(d3_interpolateTransformPop(s) + "scale(" + kb + ")");
}
}
function d3_interpolateTransform(a, b) {
var s = [], q = [];
a = d3.transform(a), b = d3.transform(b);
d3_interpolateTranslate(a.translate, b.translate, s, q);
d3_interpolateRotate(a.rotate, b.rotate, s, q);
d3_interpolateSkew(a.skew, b.skew, s, q);
d3_interpolateScale(a.scale, b.scale, s, q);
a = b = null;
return function(t) {
var i = -1, n = q.length, o;
while (++i < n) s[(o = q[i]).i] = o.x(t);
return s.join("");
};
}
function d3_uninterpolateNumber(a, b) {
b = (b -= a = +a) || 1 / b;
return function(x) {
return (x - a) / b;
};
}
function d3_uninterpolateClamp(a, b) {
b = (b -= a = +a) || 1 / b;
return function(x) {
return Math.max(0, Math.min(1, (x - a) / b));
};
}
d3.layout = {};
d3.layout.bundle = function() {
return function(links) {
var paths = [], i = -1, n = links.length;
while (++i < n) paths.push(d3_layout_bundlePath(links[i]));
return paths;
};
};
function d3_layout_bundlePath(link) {
var start = link.source, end = link.target, lca = d3_layout_bundleLeastCommonAncestor(start, end), points = [ start ];
while (start !== lca) {
start = start.parent;
points.push(start);
}
var k = points.length;
while (end !== lca) {
points.splice(k, 0, end);
end = end.parent;
}
return points;
}
function d3_layout_bundleAncestors(node) {
var ancestors = [], parent = node.parent;
while (parent != null) {
ancestors.push(node);
node = parent;
parent = parent.parent;
}
ancestors.push(node);
return ancestors;
}
function d3_layout_bundleLeastCommonAncestor(a, b) {
if (a === b) return a;
var aNodes = d3_layout_bundleAncestors(a), bNodes = d3_layout_bundleAncestors(b), aNode = aNodes.pop(), bNode = bNodes.pop(), sharedNode = null;
while (aNode === bNode) {
sharedNode = aNode;
aNode = aNodes.pop();
bNode = bNodes.pop();
}
return sharedNode;
}
d3.layout.chord = function() {
var chord = {}, chords, groups, matrix, n, padding = 0, sortGroups, sortSubgroups, sortChords;
function relayout() {
var subgroups = {}, groupSums = [], groupIndex = d3.range(n), subgroupIndex = [], k, x, x0, i, j;
chords = [];
groups = [];
k = 0, i = -1;
while (++i < n) {
x = 0, j = -1;
while (++j < n) {
x += matrix[i][j];
}
groupSums.push(x);
subgroupIndex.push(d3.range(n));
k += x;
}
if (sortGroups) {
groupIndex.sort(function(a, b) {
return sortGroups(groupSums[a], groupSums[b]);
});
}
if (sortSubgroups) {
subgroupIndex.forEach(function(d, i) {
d.sort(function(a, b) {
return sortSubgroups(matrix[i][a], matrix[i][b]);
});
});
}
k = (τ - padding * n) / k;
x = 0, i = -1;
while (++i < n) {
x0 = x, j = -1;
while (++j < n) {
var di = groupIndex[i], dj = subgroupIndex[di][j], v = matrix[di][dj], a0 = x, a1 = x += v * k;
subgroups[di + "-" + dj] = {
index: di,
subindex: dj,
startAngle: a0,
endAngle: a1,
value: v
};
}
groups[di] = {
index: di,
startAngle: x0,
endAngle: x,
value: groupSums[di]
};
x += padding;
}
i = -1;
while (++i < n) {
j = i - 1;
while (++j < n) {
var source = subgroups[i + "-" + j], target = subgroups[j + "-" + i];
if (source.value || target.value) {
chords.push(source.value < target.value ? {
source: target,
target: source
} : {
source: source,
target: target
});
}
}
}
if (sortChords) resort();
}
function resort() {
chords.sort(function(a, b) {
return sortChords((a.source.value + a.target.value) / 2, (b.source.value + b.target.value) / 2);
});
}
chord.matrix = function(x) {
if (!arguments.length) return matrix;
n = (matrix = x) && matrix.length;
chords = groups = null;
return chord;
};
chord.padding = function(x) {
if (!arguments.length) return padding;
padding = x;
chords = groups = null;
return chord;
};
chord.sortGroups = function(x) {
if (!arguments.length) return sortGroups;
sortGroups = x;
chords = groups = null;
return chord;
};
chord.sortSubgroups = function(x) {
if (!arguments.length) return sortSubgroups;
sortSubgroups = x;
chords = null;
return chord;
};
chord.sortChords = function(x) {
if (!arguments.length) return sortChords;
sortChords = x;
if (chords) resort();
return chord;
};
chord.chords = function() {
if (!chords) relayout();
return chords;
};
chord.groups = function() {
if (!groups) relayout();
return groups;
};
return chord;
};
d3.layout.force = function() {
var force = {}, event = d3.dispatch("start", "tick", "end"), timer, size = [ 1, 1 ], drag, alpha, friction = .9, linkDistance = d3_layout_forceLinkDistance, linkStrength = d3_layout_forceLinkStrength, charge = -30, chargeDistance2 = d3_layout_forceChargeDistance2, gravity = .1, theta2 = .64, nodes = [], links = [], distances, strengths, charges;
function repulse(node) {
return function(quad, x1, _, x2) {
if (quad.point !== node) {
var dx = quad.cx - node.x, dy = quad.cy - node.y, dw = x2 - x1, dn = dx * dx + dy * dy;
if (dw * dw / theta2 < dn) {
if (dn < chargeDistance2) {
var k = quad.charge / dn;
node.px -= dx * k;
node.py -= dy * k;
}
return true;
}
if (quad.point && dn && dn < chargeDistance2) {
var k = quad.pointCharge / dn;
node.px -= dx * k;
node.py -= dy * k;
}
}
return !quad.charge;
};
}
force.tick = function() {
if ((alpha *= .99) < .005) {
timer = null;
event.end({
type: "end",
alpha: alpha = 0
});
return true;
}
var n = nodes.length, m = links.length, q, i, o, s, t, l, k, x, y;
for (i = 0; i < m; ++i) {
o = links[i];
s = o.source;
t = o.target;
x = t.x - s.x;
y = t.y - s.y;
if (l = x * x + y * y) {
l = alpha * strengths[i] * ((l = Math.sqrt(l)) - distances[i]) / l;
x *= l;
y *= l;
t.x -= x * (k = s.weight + t.weight ? s.weight / (s.weight + t.weight) : .5);
t.y -= y * k;
s.x += x * (k = 1 - k);
s.y += y * k;
}
}
if (k = alpha * gravity) {
x = size[0] / 2;
y = size[1] / 2;
i = -1;
if (k) while (++i < n) {
o = nodes[i];
o.x += (x - o.x) * k;
o.y += (y - o.y) * k;
}
}
if (charge) {
d3_layout_forceAccumulate(q = d3.geom.quadtree(nodes), alpha, charges);
i = -1;
while (++i < n) {
if (!(o = nodes[i]).fixed) {
q.visit(repulse(o));
}
}
}
i = -1;
while (++i < n) {
o = nodes[i];
if (o.fixed) {
o.x = o.px;
o.y = o.py;
} else {
o.x -= (o.px - (o.px = o.x)) * friction;
o.y -= (o.py - (o.py = o.y)) * friction;
}
}
event.tick({
type: "tick",
alpha: alpha
});
};
force.nodes = function(x) {
if (!arguments.length) return nodes;
nodes = x;
return force;
};
force.links = function(x) {
if (!arguments.length) return links;
links = x;
return force;
};
force.size = function(x) {
if (!arguments.length) return size;
size = x;
return force;
};
force.linkDistance = function(x) {
if (!arguments.length) return linkDistance;
linkDistance = typeof x === "function" ? x : +x;
return force;
};
force.distance = force.linkDistance;
force.linkStrength = function(x) {
if (!arguments.length) return linkStrength;
linkStrength = typeof x === "function" ? x : +x;
return force;
};
force.friction = function(x) {
if (!arguments.length) return friction;
friction = +x;
return force;
};
force.charge = function(x) {
if (!arguments.length) return charge;
charge = typeof x === "function" ? x : +x;
return force;
};
force.chargeDistance = function(x) {
if (!arguments.length) return Math.sqrt(chargeDistance2);
chargeDistance2 = x * x;
return force;
};
force.gravity = function(x) {
if (!arguments.length) return gravity;
gravity = +x;
return force;
};
force.theta = function(x) {
if (!arguments.length) return Math.sqrt(theta2);
theta2 = x * x;
return force;
};
force.alpha = function(x) {
if (!arguments.length) return alpha;
x = +x;
if (alpha) {
if (x > 0) {
alpha = x;
} else {
timer.c = null, timer.t = NaN, timer = null;
event.end({
type: "end",
alpha: alpha = 0
});
}
} else if (x > 0) {
event.start({
type: "start",
alpha: alpha = x
});
timer = d3_timer(force.tick);
}
return force;
};
force.start = function() {
var i, n = nodes.length, m = links.length, w = size[0], h = size[1], neighbors, o;
for (i = 0; i < n; ++i) {
(o = nodes[i]).index = i;
o.weight = 0;
}
for (i = 0; i < m; ++i) {
o = links[i];
if (typeof o.source == "number") o.source = nodes[o.source];
if (typeof o.target == "number") o.target = nodes[o.target];
++o.source.weight;
++o.target.weight;
}
for (i = 0; i < n; ++i) {
o = nodes[i];
if (isNaN(o.x)) o.x = position("x", w);
if (isNaN(o.y)) o.y = position("y", h);
if (isNaN(o.px)) o.px = o.x;
if (isNaN(o.py)) o.py = o.y;
}
distances = [];
if (typeof linkDistance === "function") for (i = 0; i < m; ++i) distances[i] = +linkDistance.call(this, links[i], i); else for (i = 0; i < m; ++i) distances[i] = linkDistance;
strengths = [];
if (typeof linkStrength === "function") for (i = 0; i < m; ++i) strengths[i] = +linkStrength.call(this, links[i], i); else for (i = 0; i < m; ++i) strengths[i] = linkStrength;
charges = [];
if (typeof charge === "function") for (i = 0; i < n; ++i) charges[i] = +charge.call(this, nodes[i], i); else for (i = 0; i < n; ++i) charges[i] = charge;
function position(dimension, size) {
if (!neighbors) {
neighbors = new Array(n);
for (j = 0; j < n; ++j) {
neighbors[j] = [];
}
for (j = 0; j < m; ++j) {
var o = links[j];
neighbors[o.source.index].push(o.target);
neighbors[o.target.index].push(o.source);
}
}
var candidates = neighbors[i], j = -1, l = candidates.length, x;
while (++j < l) if (!isNaN(x = candidates[j][dimension])) return x;
return Math.random() * size;
}
return force.resume();
};
force.resume = function() {
return force.alpha(.1);
};
force.stop = function() {
return force.alpha(0);
};
force.drag = function() {
if (!drag) drag = d3.behavior.drag().origin(d3_identity).on("dragstart.force", d3_layout_forceDragstart).on("drag.force", dragmove).on("dragend.force", d3_layout_forceDragend);
if (!arguments.length) return drag;
this.on("mouseover.force", d3_layout_forceMouseover).on("mouseout.force", d3_layout_forceMouseout).call(drag);
};
function dragmove(d) {
d.px = d3.event.x, d.py = d3.event.y;
force.resume();
}
return d3.rebind(force, event, "on");
};
function d3_layout_forceDragstart(d) {
d.fixed |= 2;
}
function d3_layout_forceDragend(d) {
d.fixed &= ~6;
}
function d3_layout_forceMouseover(d) {
d.fixed |= 4;
d.px = d.x, d.py = d.y;
}
function d3_layout_forceMouseout(d) {
d.fixed &= ~4;
}
function d3_layout_forceAccumulate(quad, alpha, charges) {
var cx = 0, cy = 0;
quad.charge = 0;
if (!quad.leaf) {
var nodes = quad.nodes, n = nodes.length, i = -1, c;
while (++i < n) {
c = nodes[i];
if (c == null) continue;
d3_layout_forceAccumulate(c, alpha, charges);
quad.charge += c.charge;
cx += c.charge * c.cx;
cy += c.charge * c.cy;
}
}
if (quad.point) {
if (!quad.leaf) {
quad.point.x += Math.random() - .5;
quad.point.y += Math.random() - .5;
}
var k = alpha * charges[quad.point.index];
quad.charge += quad.pointCharge = k;
cx += k * quad.point.x;
cy += k * quad.point.y;
}
quad.cx = cx / quad.charge;
quad.cy = cy / quad.charge;
}
var d3_layout_forceLinkDistance = 20, d3_layout_forceLinkStrength = 1, d3_layout_forceChargeDistance2 = Infinity;
d3.layout.hierarchy = function() {
var sort = d3_layout_hierarchySort, children = d3_layout_hierarchyChildren, value = d3_layout_hierarchyValue;
function hierarchy(root) {
var stack = [ root ], nodes = [], node;
root.depth = 0;
while ((node = stack.pop()) != null) {
nodes.push(node);
if ((childs = children.call(hierarchy, node, node.depth)) && (n = childs.length)) {
var n, childs, child;
while (--n >= 0) {
stack.push(child = childs[n]);
child.parent = node;
child.depth = node.depth + 1;
}
if (value) node.value = 0;
node.children = childs;
} else {
if (value) node.value = +value.call(hierarchy, node, node.depth) || 0;
delete node.children;
}
}
d3_layout_hierarchyVisitAfter(root, function(node) {
var childs, parent;
if (sort && (childs = node.children)) childs.sort(sort);
if (value && (parent = node.parent)) parent.value += node.value;
});
return nodes;
}
hierarchy.sort = function(x) {
if (!arguments.length) return sort;
sort = x;
return hierarchy;
};
hierarchy.children = function(x) {
if (!arguments.length) return children;
children = x;
return hierarchy;
};
hierarchy.value = function(x) {
if (!arguments.length) return value;
value = x;
return hierarchy;
};
hierarchy.revalue = function(root) {
if (value) {
d3_layout_hierarchyVisitBefore(root, function(node) {
if (node.children) node.value = 0;
});
d3_layout_hierarchyVisitAfter(root, function(node) {
var parent;
if (!node.children) node.value = +value.call(hierarchy, node, node.depth) || 0;
if (parent = node.parent) parent.value += node.value;
});
}
return root;
};
return hierarchy;
};
function d3_layout_hierarchyRebind(object, hierarchy) {
d3.rebind(object, hierarchy, "sort", "children", "value");
object.nodes = object;
object.links = d3_layout_hierarchyLinks;
return object;
}
function d3_layout_hierarchyVisitBefore(node, callback) {
var nodes = [ node ];
while ((node = nodes.pop()) != null) {
callback(node);
if ((children = node.children) && (n = children.length)) {
var n, children;
while (--n >= 0) nodes.push(children[n]);
}
}
}
function d3_layout_hierarchyVisitAfter(node, callback) {
var nodes = [ node ], nodes2 = [];
while ((node = nodes.pop()) != null) {
nodes2.push(node);
if ((children = node.children) && (n = children.length)) {
var i = -1, n, children;
while (++i < n) nodes.push(children[i]);
}
}
while ((node = nodes2.pop()) != null) {
callback(node);
}
}
function d3_layout_hierarchyChildren(d) {
return d.children;
}
function d3_layout_hierarchyValue(d) {
return d.value;
}
function d3_layout_hierarchySort(a, b) {
return b.value - a.value;
}
function d3_layout_hierarchyLinks(nodes) {
return d3.merge(nodes.map(function(parent) {
return (parent.children || []).map(function(child) {
return {
source: parent,
target: child
};
});
}));
}
d3.layout.partition = function() {
var hierarchy = d3.layout.hierarchy(), size = [ 1, 1 ];
function position(node, x, dx, dy) {
var children = node.children;
node.x = x;
node.y = node.depth * dy;
node.dx = dx;
node.dy = dy;
if (children && (n = children.length)) {
var i = -1, n, c, d;
dx = node.value ? dx / node.value : 0;
while (++i < n) {
position(c = children[i], x, d = c.value * dx, dy);
x += d;
}
}
}
function depth(node) {
var children = node.children, d = 0;
if (children && (n = children.length)) {
var i = -1, n;
while (++i < n) d = Math.max(d, depth(children[i]));
}
return 1 + d;
}
function partition(d, i) {
var nodes = hierarchy.call(this, d, i);
position(nodes[0], 0, size[0], size[1] / depth(nodes[0]));
return nodes;
}
partition.size = function(x) {
if (!arguments.length) return size;
size = x;
return partition;
};
return d3_layout_hierarchyRebind(partition, hierarchy);
};
d3.layout.pie = function() {
var value = Number, sort = d3_layout_pieSortByValue, startAngle = 0, endAngle = τ, padAngle = 0;
function pie(data) {
var n = data.length, values = data.map(function(d, i) {
return +value.call(pie, d, i);
}), a = +(typeof startAngle === "function" ? startAngle.apply(this, arguments) : startAngle), da = (typeof endAngle === "function" ? endAngle.apply(this, arguments) : endAngle) - a, p = Math.min(Math.abs(da) / n, +(typeof padAngle === "function" ? padAngle.apply(this, arguments) : padAngle)), pa = p * (da < 0 ? -1 : 1), sum = d3.sum(values), k = sum ? (da - n * pa) / sum : 0, index = d3.range(n), arcs = [], v;
if (sort != null) index.sort(sort === d3_layout_pieSortByValue ? function(i, j) {
return values[j] - values[i];
} : function(i, j) {
return sort(data[i], data[j]);
});
index.forEach(function(i) {
arcs[i] = {
data: data[i],
value: v = values[i],
startAngle: a,
endAngle: a += v * k + pa,
padAngle: p
};
});
return arcs;
}
pie.value = function(_) {
if (!arguments.length) return value;
value = _;
return pie;
};
pie.sort = function(_) {
if (!arguments.length) return sort;
sort = _;
return pie;
};
pie.startAngle = function(_) {
if (!arguments.length) return startAngle;
startAngle = _;
return pie;
};
pie.endAngle = function(_) {
if (!arguments.length) return endAngle;
endAngle = _;
return pie;
};
pie.padAngle = function(_) {
if (!arguments.length) return padAngle;
padAngle = _;
return pie;
};
return pie;
};
var d3_layout_pieSortByValue = {};
d3.layout.stack = function() {
var values = d3_identity, order = d3_layout_stackOrderDefault, offset = d3_layout_stackOffsetZero, out = d3_layout_stackOut, x = d3_layout_stackX, y = d3_layout_stackY;
function stack(data, index) {
if (!(n = data.length)) return data;
var series = data.map(function(d, i) {
return values.call(stack, d, i);
});
var points = series.map(function(d) {
return d.map(function(v, i) {
return [ x.call(stack, v, i), y.call(stack, v, i) ];
});
});
var orders = order.call(stack, points, index);
series = d3.permute(series, orders);
points = d3.permute(points, orders);
var offsets = offset.call(stack, points, index);
var m = series[0].length, n, i, j, o;
for (j = 0; j < m; ++j) {
out.call(stack, series[0][j], o = offsets[j], points[0][j][1]);
for (i = 1; i < n; ++i) {
out.call(stack, series[i][j], o += points[i - 1][j][1], points[i][j][1]);
}
}
return data;
}
stack.values = function(x) {
if (!arguments.length) return values;
values = x;
return stack;
};
stack.order = function(x) {
if (!arguments.length) return order;
order = typeof x === "function" ? x : d3_layout_stackOrders.get(x) || d3_layout_stackOrderDefault;
return stack;
};
stack.offset = function(x) {
if (!arguments.length) return offset;
offset = typeof x === "function" ? x : d3_layout_stackOffsets.get(x) || d3_layout_stackOffsetZero;
return stack;
};
stack.x = function(z) {
if (!arguments.length) return x;
x = z;
return stack;
};
stack.y = function(z) {
if (!arguments.length) return y;
y = z;
return stack;
};
stack.out = function(z) {
if (!arguments.length) return out;
out = z;
return stack;
};
return stack;
};
function d3_layout_stackX(d) {
return d.x;
}
function d3_layout_stackY(d) {
return d.y;
}
function d3_layout_stackOut(d, y0, y) {
d.y0 = y0;
d.y = y;
}
var d3_layout_stackOrders = d3.map({
"inside-out": function(data) {
var n = data.length, i, j, max = data.map(d3_layout_stackMaxIndex), sums = data.map(d3_layout_stackReduceSum), index = d3.range(n).sort(function(a, b) {
return max[a] - max[b];
}), top = 0, bottom = 0, tops = [], bottoms = [];
for (i = 0; i < n; ++i) {
j = index[i];
if (top < bottom) {
top += sums[j];
tops.push(j);
} else {
bottom += sums[j];
bottoms.push(j);
}
}
return bottoms.reverse().concat(tops);
},
reverse: function(data) {
return d3.range(data.length).reverse();
},
"default": d3_layout_stackOrderDefault
});
var d3_layout_stackOffsets = d3.map({
silhouette: function(data) {
var n = data.length, m = data[0].length, sums = [], max = 0, i, j, o, y0 = [];
for (j = 0; j < m; ++j) {
for (i = 0, o = 0; i < n; i++) o += data[i][j][1];
if (o > max) max = o;
sums.push(o);
}
for (j = 0; j < m; ++j) {
y0[j] = (max - sums[j]) / 2;
}
return y0;
},
wiggle: function(data) {
var n = data.length, x = data[0], m = x.length, i, j, k, s1, s2, s3, dx, o, o0, y0 = [];
y0[0] = o = o0 = 0;
for (j = 1; j < m; ++j) {
for (i = 0, s1 = 0; i < n; ++i) s1 += data[i][j][1];
for (i = 0, s2 = 0, dx = x[j][0] - x[j - 1][0]; i < n; ++i) {
for (k = 0, s3 = (data[i][j][1] - data[i][j - 1][1]) / (2 * dx); k < i; ++k) {
s3 += (data[k][j][1] - data[k][j - 1][1]) / dx;
}
s2 += s3 * data[i][j][1];
}
y0[j] = o -= s1 ? s2 / s1 * dx : 0;
if (o < o0) o0 = o;
}
for (j = 0; j < m; ++j) y0[j] -= o0;
return y0;
},
expand: function(data) {
var n = data.length, m = data[0].length, k = 1 / n, i, j, o, y0 = [];
for (j = 0; j < m; ++j) {
for (i = 0, o = 0; i < n; i++) o += data[i][j][1];
if (o) for (i = 0; i < n; i++) data[i][j][1] /= o; else for (i = 0; i < n; i++) data[i][j][1] = k;
}
for (j = 0; j < m; ++j) y0[j] = 0;
return y0;
},
zero: d3_layout_stackOffsetZero
});
function d3_layout_stackOrderDefault(data) {
return d3.range(data.length);
}
function d3_layout_stackOffsetZero(data) {
var j = -1, m = data[0].length, y0 = [];
while (++j < m) y0[j] = 0;
return y0;
}
function d3_layout_stackMaxIndex(array) {
var i = 1, j = 0, v = array[0][1], k, n = array.length;
for (;i < n; ++i) {
if ((k = array[i][1]) > v) {
j = i;
v = k;
}
}
return j;
}
function d3_layout_stackReduceSum(d) {
return d.reduce(d3_layout_stackSum, 0);
}
function d3_layout_stackSum(p, d) {
return p + d[1];
}
d3.layout.histogram = function() {
var frequency = true, valuer = Number, ranger = d3_layout_histogramRange, binner = d3_layout_histogramBinSturges;
function histogram(data, i) {
var bins = [], values = data.map(valuer, this), range = ranger.call(this, values, i), thresholds = binner.call(this, range, values, i), bin, i = -1, n = values.length, m = thresholds.length - 1, k = frequency ? 1 : 1 / n, x;
while (++i < m) {
bin = bins[i] = [];
bin.dx = thresholds[i + 1] - (bin.x = thresholds[i]);
bin.y = 0;
}
if (m > 0) {
i = -1;
while (++i < n) {
x = values[i];
if (x >= range[0] && x <= range[1]) {
bin = bins[d3.bisect(thresholds, x, 1, m) - 1];
bin.y += k;
bin.push(data[i]);
}
}
}
return bins;
}
histogram.value = function(x) {
if (!arguments.length) return valuer;
valuer = x;
return histogram;
};
histogram.range = function(x) {
if (!arguments.length) return ranger;
ranger = d3_functor(x);
return histogram;
};
histogram.bins = function(x) {
if (!arguments.length) return binner;
binner = typeof x === "number" ? function(range) {
return d3_layout_histogramBinFixed(range, x);
} : d3_functor(x);
return histogram;
};
histogram.frequency = function(x) {
if (!arguments.length) return frequency;
frequency = !!x;
return histogram;
};
return histogram;
};
function d3_layout_histogramBinSturges(range, values) {
return d3_layout_histogramBinFixed(range, Math.ceil(Math.log(values.length) / Math.LN2 + 1));
}
function d3_layout_histogramBinFixed(range, n) {
var x = -1, b = +range[0], m = (range[1] - b) / n, f = [];
while (++x <= n) f[x] = m * x + b;
return f;
}
function d3_layout_histogramRange(values) {
return [ d3.min(values), d3.max(values) ];
}
d3.layout.pack = function() {
var hierarchy = d3.layout.hierarchy().sort(d3_layout_packSort), padding = 0, size = [ 1, 1 ], radius;
function pack(d, i) {
var nodes = hierarchy.call(this, d, i), root = nodes[0], w = size[0], h = size[1], r = radius == null ? Math.sqrt : typeof radius === "function" ? radius : function() {
return radius;
};
root.x = root.y = 0;
d3_layout_hierarchyVisitAfter(root, function(d) {
d.r = +r(d.value);
});
d3_layout_hierarchyVisitAfter(root, d3_layout_packSiblings);
if (padding) {
var dr = padding * (radius ? 1 : Math.max(2 * root.r / w, 2 * root.r / h)) / 2;
d3_layout_hierarchyVisitAfter(root, function(d) {
d.r += dr;
});
d3_layout_hierarchyVisitAfter(root, d3_layout_packSiblings);
d3_layout_hierarchyVisitAfter(root, function(d) {
d.r -= dr;
});
}
d3_layout_packTransform(root, w / 2, h / 2, radius ? 1 : 1 / Math.max(2 * root.r / w, 2 * root.r / h));
return nodes;
}
pack.size = function(_) {
if (!arguments.length) return size;
size = _;
return pack;
};
pack.radius = function(_) {
if (!arguments.length) return radius;
radius = _ == null || typeof _ === "function" ? _ : +_;
return pack;
};
pack.padding = function(_) {
if (!arguments.length) return padding;
padding = +_;
return pack;
};
return d3_layout_hierarchyRebind(pack, hierarchy);
};
function d3_layout_packSort(a, b) {
return a.value - b.value;
}
function d3_layout_packInsert(a, b) {
var c = a._pack_next;
a._pack_next = b;
b._pack_prev = a;
b._pack_next = c;
c._pack_prev = b;
}
function d3_layout_packSplice(a, b) {
a._pack_next = b;
b._pack_prev = a;
}
function d3_layout_packIntersects(a, b) {
var dx = b.x - a.x, dy = b.y - a.y, dr = a.r + b.r;
return .999 * dr * dr > dx * dx + dy * dy;
}
function d3_layout_packSiblings(node) {
if (!(nodes = node.children) || !(n = nodes.length)) return;
var nodes, xMin = Infinity, xMax = -Infinity, yMin = Infinity, yMax = -Infinity, a, b, c, i, j, k, n;
function bound(node) {
xMin = Math.min(node.x - node.r, xMin);
xMax = Math.max(node.x + node.r, xMax);
yMin = Math.min(node.y - node.r, yMin);
yMax = Math.max(node.y + node.r, yMax);
}
nodes.forEach(d3_layout_packLink);
a = nodes[0];
a.x = -a.r;
a.y = 0;
bound(a);
if (n > 1) {
b = nodes[1];
b.x = b.r;
b.y = 0;
bound(b);
if (n > 2) {
c = nodes[2];
d3_layout_packPlace(a, b, c);
bound(c);
d3_layout_packInsert(a, c);
a._pack_prev = c;
d3_layout_packInsert(c, b);
b = a._pack_next;
for (i = 3; i < n; i++) {
d3_layout_packPlace(a, b, c = nodes[i]);
var isect = 0, s1 = 1, s2 = 1;
for (j = b._pack_next; j !== b; j = j._pack_next, s1++) {
if (d3_layout_packIntersects(j, c)) {
isect = 1;
break;
}
}
if (isect == 1) {
for (k = a._pack_prev; k !== j._pack_prev; k = k._pack_prev, s2++) {
if (d3_layout_packIntersects(k, c)) {
break;
}
}
}
if (isect) {
if (s1 < s2 || s1 == s2 && b.r < a.r) d3_layout_packSplice(a, b = j); else d3_layout_packSplice(a = k, b);
i--;
} else {
d3_layout_packInsert(a, c);
b = c;
bound(c);
}
}
}
}
var cx = (xMin + xMax) / 2, cy = (yMin + yMax) / 2, cr = 0;
for (i = 0; i < n; i++) {
c = nodes[i];
c.x -= cx;
c.y -= cy;
cr = Math.max(cr, c.r + Math.sqrt(c.x * c.x + c.y * c.y));
}
node.r = cr;
nodes.forEach(d3_layout_packUnlink);
}
function d3_layout_packLink(node) {
node._pack_next = node._pack_prev = node;
}
function d3_layout_packUnlink(node) {
delete node._pack_next;
delete node._pack_prev;
}
function d3_layout_packTransform(node, x, y, k) {
var children = node.children;
node.x = x += k * node.x;
node.y = y += k * node.y;
node.r *= k;
if (children) {
var i = -1, n = children.length;
while (++i < n) d3_layout_packTransform(children[i], x, y, k);
}
}
function d3_layout_packPlace(a, b, c) {
var db = a.r + c.r, dx = b.x - a.x, dy = b.y - a.y;
if (db && (dx || dy)) {
var da = b.r + c.r, dc = dx * dx + dy * dy;
da *= da;
db *= db;
var x = .5 + (db - da) / (2 * dc), y = Math.sqrt(Math.max(0, 2 * da * (db + dc) - (db -= dc) * db - da * da)) / (2 * dc);
c.x = a.x + x * dx + y * dy;
c.y = a.y + x * dy - y * dx;
} else {
c.x = a.x + db;
c.y = a.y;
}
}
d3.layout.tree = function() {
var hierarchy = d3.layout.hierarchy().sort(null).value(null), separation = d3_layout_treeSeparation, size = [ 1, 1 ], nodeSize = null;
function tree(d, i) {
var nodes = hierarchy.call(this, d, i), root0 = nodes[0], root1 = wrapTree(root0);
d3_layout_hierarchyVisitAfter(root1, firstWalk), root1.parent.m = -root1.z;
d3_layout_hierarchyVisitBefore(root1, secondWalk);
if (nodeSize) d3_layout_hierarchyVisitBefore(root0, sizeNode); else {
var left = root0, right = root0, bottom = root0;
d3_layout_hierarchyVisitBefore(root0, function(node) {
if (node.x < left.x) left = node;
if (node.x > right.x) right = node;
if (node.depth > bottom.depth) bottom = node;
});
var tx = separation(left, right) / 2 - left.x, kx = size[0] / (right.x + separation(right, left) / 2 + tx), ky = size[1] / (bottom.depth || 1);
d3_layout_hierarchyVisitBefore(root0, function(node) {
node.x = (node.x + tx) * kx;
node.y = node.depth * ky;
});
}
return nodes;
}
function wrapTree(root0) {
var root1 = {
A: null,
children: [ root0 ]
}, queue = [ root1 ], node1;
while ((node1 = queue.pop()) != null) {
for (var children = node1.children, child, i = 0, n = children.length; i < n; ++i) {
queue.push((children[i] = child = {
_: children[i],
parent: node1,
children: (child = children[i].children) && child.slice() || [],
A: null,
a: null,
z: 0,
m: 0,
c: 0,
s: 0,
t: null,
i: i
}).a = child);
}
}
return root1.children[0];
}
function firstWalk(v) {
var children = v.children, siblings = v.parent.children, w = v.i ? siblings[v.i - 1] : null;
if (children.length) {
d3_layout_treeShift(v);
var midpoint = (children[0].z + children[children.length - 1].z) / 2;
if (w) {
v.z = w.z + separation(v._, w._);
v.m = v.z - midpoint;
} else {
v.z = midpoint;
}
} else if (w) {
v.z = w.z + separation(v._, w._);
}
v.parent.A = apportion(v, w, v.parent.A || siblings[0]);
}
function secondWalk(v) {
v._.x = v.z + v.parent.m;
v.m += v.parent.m;
}
function apportion(v, w, ancestor) {
if (w) {
var vip = v, vop = v, vim = w, vom = vip.parent.children[0], sip = vip.m, sop = vop.m, sim = vim.m, som = vom.m, shift;
while (vim = d3_layout_treeRight(vim), vip = d3_layout_treeLeft(vip), vim && vip) {
vom = d3_layout_treeLeft(vom);
vop = d3_layout_treeRight(vop);
vop.a = v;
shift = vim.z + sim - vip.z - sip + separation(vim._, vip._);
if (shift > 0) {
d3_layout_treeMove(d3_layout_treeAncestor(vim, v, ancestor), v, shift);
sip += shift;
sop += shift;
}
sim += vim.m;
sip += vip.m;
som += vom.m;
sop += vop.m;
}
if (vim && !d3_layout_treeRight(vop)) {
vop.t = vim;
vop.m += sim - sop;
}
if (vip && !d3_layout_treeLeft(vom)) {
vom.t = vip;
vom.m += sip - som;
ancestor = v;
}
}
return ancestor;
}
function sizeNode(node) {
node.x *= size[0];
node.y = node.depth * size[1];
}
tree.separation = function(x) {
if (!arguments.length) return separation;
separation = x;
return tree;
};
tree.size = function(x) {
if (!arguments.length) return nodeSize ? null : size;
nodeSize = (size = x) == null ? sizeNode : null;
return tree;
};
tree.nodeSize = function(x) {
if (!arguments.length) return nodeSize ? size : null;
nodeSize = (size = x) == null ? null : sizeNode;
return tree;
};
return d3_layout_hierarchyRebind(tree, hierarchy);
};
function d3_layout_treeSeparation(a, b) {
return a.parent == b.parent ? 1 : 2;
}
function d3_layout_treeLeft(v) {
var children = v.children;
return children.length ? children[0] : v.t;
}
function d3_layout_treeRight(v) {
var children = v.children, n;
return (n = children.length) ? children[n - 1] : v.t;
}
function d3_layout_treeMove(wm, wp, shift) {
var change = shift / (wp.i - wm.i);
wp.c -= change;
wp.s += shift;
wm.c += change;
wp.z += shift;
wp.m += shift;
}
function d3_layout_treeShift(v) {
var shift = 0, change = 0, children = v.children, i = children.length, w;
while (--i >= 0) {
w = children[i];
w.z += shift;
w.m += shift;
shift += w.s + (change += w.c);
}
}
function d3_layout_treeAncestor(vim, v, ancestor) {
return vim.a.parent === v.parent ? vim.a : ancestor;
}
d3.layout.cluster = function() {
var hierarchy = d3.layout.hierarchy().sort(null).value(null), separation = d3_layout_treeSeparation, size = [ 1, 1 ], nodeSize = false;
function cluster(d, i) {
var nodes = hierarchy.call(this, d, i), root = nodes[0], previousNode, x = 0;
d3_layout_hierarchyVisitAfter(root, function(node) {
var children = node.children;
if (children && children.length) {
node.x = d3_layout_clusterX(children);
node.y = d3_layout_clusterY(children);
} else {
node.x = previousNode ? x += separation(node, previousNode) : 0;
node.y = 0;
previousNode = node;
}
});
var left = d3_layout_clusterLeft(root), right = d3_layout_clusterRight(root), x0 = left.x - separation(left, right) / 2, x1 = right.x + separation(right, left) / 2;
d3_layout_hierarchyVisitAfter(root, nodeSize ? function(node) {
node.x = (node.x - root.x) * size[0];
node.y = (root.y - node.y) * size[1];
} : function(node) {
node.x = (node.x - x0) / (x1 - x0) * size[0];
node.y = (1 - (root.y ? node.y / root.y : 1)) * size[1];
});
return nodes;
}
cluster.separation = function(x) {
if (!arguments.length) return separation;
separation = x;
return cluster;
};
cluster.size = function(x) {
if (!arguments.length) return nodeSize ? null : size;
nodeSize = (size = x) == null;
return cluster;
};
cluster.nodeSize = function(x) {
if (!arguments.length) return nodeSize ? size : null;
nodeSize = (size = x) != null;
return cluster;
};
return d3_layout_hierarchyRebind(cluster, hierarchy);
};
function d3_layout_clusterY(children) {
return 1 + d3.max(children, function(child) {
return child.y;
});
}
function d3_layout_clusterX(children) {
return children.reduce(function(x, child) {
return x + child.x;
}, 0) / children.length;
}
function d3_layout_clusterLeft(node) {
var children = node.children;
return children && children.length ? d3_layout_clusterLeft(children[0]) : node;
}
function d3_layout_clusterRight(node) {
var children = node.children, n;
return children && (n = children.length) ? d3_layout_clusterRight(children[n - 1]) : node;
}
d3.layout.treemap = function() {
var hierarchy = d3.layout.hierarchy(), round = Math.round, size = [ 1, 1 ], padding = null, pad = d3_layout_treemapPadNull, sticky = false, stickies, mode = "squarify", ratio = .5 * (1 + Math.sqrt(5));
function scale(children, k) {
var i = -1, n = children.length, child, area;
while (++i < n) {
area = (child = children[i]).value * (k < 0 ? 0 : k);
child.area = isNaN(area) || area <= 0 ? 0 : area;
}
}
function squarify(node) {
var children = node.children;
if (children && children.length) {
var rect = pad(node), row = [], remaining = children.slice(), child, best = Infinity, score, u = mode === "slice" ? rect.dx : mode === "dice" ? rect.dy : mode === "slice-dice" ? node.depth & 1 ? rect.dy : rect.dx : Math.min(rect.dx, rect.dy), n;
scale(remaining, rect.dx * rect.dy / node.value);
row.area = 0;
while ((n = remaining.length) > 0) {
row.push(child = remaining[n - 1]);
row.area += child.area;
if (mode !== "squarify" || (score = worst(row, u)) <= best) {
remaining.pop();
best = score;
} else {
row.area -= row.pop().area;
position(row, u, rect, false);
u = Math.min(rect.dx, rect.dy);
row.length = row.area = 0;
best = Infinity;
}
}
if (row.length) {
position(row, u, rect, true);
row.length = row.area = 0;
}
children.forEach(squarify);
}
}
function stickify(node) {
var children = node.children;
if (children && children.length) {
var rect = pad(node), remaining = children.slice(), child, row = [];
scale(remaining, rect.dx * rect.dy / node.value);
row.area = 0;
while (child = remaining.pop()) {
row.push(child);
row.area += child.area;
if (child.z != null) {
position(row, child.z ? rect.dx : rect.dy, rect, !remaining.length);
row.length = row.area = 0;
}
}
children.forEach(stickify);
}
}
function worst(row, u) {
var s = row.area, r, rmax = 0, rmin = Infinity, i = -1, n = row.length;
while (++i < n) {
if (!(r = row[i].area)) continue;
if (r < rmin) rmin = r;
if (r > rmax) rmax = r;
}
s *= s;
u *= u;
return s ? Math.max(u * rmax * ratio / s, s / (u * rmin * ratio)) : Infinity;
}
function position(row, u, rect, flush) {
var i = -1, n = row.length, x = rect.x, y = rect.y, v = u ? round(row.area / u) : 0, o;
if (u == rect.dx) {
if (flush || v > rect.dy) v = rect.dy;
while (++i < n) {
o = row[i];
o.x = x;
o.y = y;
o.dy = v;
x += o.dx = Math.min(rect.x + rect.dx - x, v ? round(o.area / v) : 0);
}
o.z = true;
o.dx += rect.x + rect.dx - x;
rect.y += v;
rect.dy -= v;
} else {
if (flush || v > rect.dx) v = rect.dx;
while (++i < n) {
o = row[i];
o.x = x;
o.y = y;
o.dx = v;
y += o.dy = Math.min(rect.y + rect.dy - y, v ? round(o.area / v) : 0);
}
o.z = false;
o.dy += rect.y + rect.dy - y;
rect.x += v;
rect.dx -= v;
}
}
function treemap(d) {
var nodes = stickies || hierarchy(d), root = nodes[0];
root.x = root.y = 0;
if (root.value) root.dx = size[0], root.dy = size[1]; else root.dx = root.dy = 0;
if (stickies) hierarchy.revalue(root);
scale([ root ], root.dx * root.dy / root.value);
(stickies ? stickify : squarify)(root);
if (sticky) stickies = nodes;
return nodes;
}
treemap.size = function(x) {
if (!arguments.length) return size;
size = x;
return treemap;
};
treemap.padding = function(x) {
if (!arguments.length) return padding;
function padFunction(node) {
var p = x.call(treemap, node, node.depth);
return p == null ? d3_layout_treemapPadNull(node) : d3_layout_treemapPad(node, typeof p === "number" ? [ p, p, p, p ] : p);
}
function padConstant(node) {
return d3_layout_treemapPad(node, x);
}
var type;
pad = (padding = x) == null ? d3_layout_treemapPadNull : (type = typeof x) === "function" ? padFunction : type === "number" ? (x = [ x, x, x, x ],
padConstant) : padConstant;
return treemap;
};
treemap.round = function(x) {
if (!arguments.length) return round != Number;
round = x ? Math.round : Number;
return treemap;
};
treemap.sticky = function(x) {
if (!arguments.length) return sticky;
sticky = x;
stickies = null;
return treemap;
};
treemap.ratio = function(x) {
if (!arguments.length) return ratio;
ratio = x;
return treemap;
};
treemap.mode = function(x) {
if (!arguments.length) return mode;
mode = x + "";
return treemap;
};
return d3_layout_hierarchyRebind(treemap, hierarchy);
};
function d3_layout_treemapPadNull(node) {
return {
x: node.x,
y: node.y,
dx: node.dx,
dy: node.dy
};
}
function d3_layout_treemapPad(node, padding) {
var x = node.x + padding[3], y = node.y + padding[0], dx = node.dx - padding[1] - padding[3], dy = node.dy - padding[0] - padding[2];
if (dx < 0) {
x += dx / 2;
dx = 0;
}
if (dy < 0) {
y += dy / 2;
dy = 0;
}
return {
x: x,
y: y,
dx: dx,
dy: dy
};
}
d3.random = {
normal: function(µ, σ) {
var n = arguments.length;
if (n < 2) σ = 1;
if (n < 1) µ = 0;
return function() {
var x, y, r;
do {
x = Math.random() * 2 - 1;
y = Math.random() * 2 - 1;
r = x * x + y * y;
} while (!r || r > 1);
return µ + σ * x * Math.sqrt(-2 * Math.log(r) / r);
};
},
logNormal: function() {
var random = d3.random.normal.apply(d3, arguments);
return function() {
return Math.exp(random());
};
},
bates: function(m) {
var random = d3.random.irwinHall(m);
return function() {
return random() / m;
};
},
irwinHall: function(m) {
return function() {
for (var s = 0, j = 0; j < m; j++) s += Math.random();
return s;
};
}
};
d3.scale = {};
function d3_scaleExtent(domain) {
var start = domain[0], stop = domain[domain.length - 1];
return start < stop ? [ start, stop ] : [ stop, start ];
}
function d3_scaleRange(scale) {
return scale.rangeExtent ? scale.rangeExtent() : d3_scaleExtent(scale.range());
}
function d3_scale_bilinear(domain, range, uninterpolate, interpolate) {
var u = uninterpolate(domain[0], domain[1]), i = interpolate(range[0], range[1]);
return function(x) {
return i(u(x));
};
}
function d3_scale_nice(domain, nice) {
var i0 = 0, i1 = domain.length - 1, x0 = domain[i0], x1 = domain[i1], dx;
if (x1 < x0) {
dx = i0, i0 = i1, i1 = dx;
dx = x0, x0 = x1, x1 = dx;
}
domain[i0] = nice.floor(x0);
domain[i1] = nice.ceil(x1);
return domain;
}
function d3_scale_niceStep(step) {
return step ? {
floor: function(x) {
return Math.floor(x / step) * step;
},
ceil: function(x) {
return Math.ceil(x / step) * step;
}
} : d3_scale_niceIdentity;
}
var d3_scale_niceIdentity = {
floor: d3_identity,
ceil: d3_identity
};
function d3_scale_polylinear(domain, range, uninterpolate, interpolate) {
var u = [], i = [], j = 0, k = Math.min(domain.length, range.length) - 1;
if (domain[k] < domain[0]) {
domain = domain.slice().reverse();
range = range.slice().reverse();
}
while (++j <= k) {
u.push(uninterpolate(domain[j - 1], domain[j]));
i.push(interpolate(range[j - 1], range[j]));
}
return function(x) {
var j = d3.bisect(domain, x, 1, k) - 1;
return i[j](u[j](x));
};
}
d3.scale.linear = function() {
return d3_scale_linear([ 0, 1 ], [ 0, 1 ], d3_interpolate, false);
};
function d3_scale_linear(domain, range, interpolate, clamp) {
var output, input;
function rescale() {
var linear = Math.min(domain.length, range.length) > 2 ? d3_scale_polylinear : d3_scale_bilinear, uninterpolate = clamp ? d3_uninterpolateClamp : d3_uninterpolateNumber;
output = linear(domain, range, uninterpolate, interpolate);
input = linear(range, domain, uninterpolate, d3_interpolate);
return scale;
}
function scale(x) {
return output(x);
}
scale.invert = function(y) {
return input(y);
};
scale.domain = function(x) {
if (!arguments.length) return domain;
domain = x.map(Number);
return rescale();
};
scale.range = function(x) {
if (!arguments.length) return range;
range = x;
return rescale();
};
scale.rangeRound = function(x) {
return scale.range(x).interpolate(d3_interpolateRound);
};
scale.clamp = function(x) {
if (!arguments.length) return clamp;
clamp = x;
return rescale();
};
scale.interpolate = function(x) {
if (!arguments.length) return interpolate;
interpolate = x;
return rescale();
};
scale.ticks = function(m) {
return d3_scale_linearTicks(domain, m);
};
scale.tickFormat = function(m, format) {
return d3_scale_linearTickFormat(domain, m, format);
};
scale.nice = function(m) {
d3_scale_linearNice(domain, m);
return rescale();
};
scale.copy = function() {
return d3_scale_linear(domain, range, interpolate, clamp);
};
return rescale();
}
function d3_scale_linearRebind(scale, linear) {
return d3.rebind(scale, linear, "range", "rangeRound", "interpolate", "clamp");
}
function d3_scale_linearNice(domain, m) {
d3_scale_nice(domain, d3_scale_niceStep(d3_scale_linearTickRange(domain, m)[2]));
d3_scale_nice(domain, d3_scale_niceStep(d3_scale_linearTickRange(domain, m)[2]));
return domain;
}
function d3_scale_linearTickRange(domain, m) {
if (m == null) m = 10;
var extent = d3_scaleExtent(domain), span = extent[1] - extent[0], step = Math.pow(10, Math.floor(Math.log(span / m) / Math.LN10)), err = m / span * step;
if (err <= .15) step *= 10; else if (err <= .35) step *= 5; else if (err <= .75) step *= 2;
extent[0] = Math.ceil(extent[0] / step) * step;
extent[1] = Math.floor(extent[1] / step) * step + step * .5;
extent[2] = step;
return extent;
}
function d3_scale_linearTicks(domain, m) {
return d3.range.apply(d3, d3_scale_linearTickRange(domain, m));
}
function d3_scale_linearTickFormat(domain, m, format) {
var range = d3_scale_linearTickRange(domain, m);
if (format) {
var match = d3_format_re.exec(format);
match.shift();
if (match[8] === "s") {
var prefix = d3.formatPrefix(Math.max(abs(range[0]), abs(range[1])));
if (!match[7]) match[7] = "." + d3_scale_linearPrecision(prefix.scale(range[2]));
match[8] = "f";
format = d3.format(match.join(""));
return function(d) {
return format(prefix.scale(d)) + prefix.symbol;
};
}
if (!match[7]) match[7] = "." + d3_scale_linearFormatPrecision(match[8], range);
format = match.join("");
} else {
format = ",." + d3_scale_linearPrecision(range[2]) + "f";
}
return d3.format(format);
}
var d3_scale_linearFormatSignificant = {
s: 1,
g: 1,
p: 1,
r: 1,
e: 1
};
function d3_scale_linearPrecision(value) {
return -Math.floor(Math.log(value) / Math.LN10 + .01);
}
function d3_scale_linearFormatPrecision(type, range) {
var p = d3_scale_linearPrecision(range[2]);
return type in d3_scale_linearFormatSignificant ? Math.abs(p - d3_scale_linearPrecision(Math.max(abs(range[0]), abs(range[1])))) + +(type !== "e") : p - (type === "%") * 2;
}
d3.scale.log = function() {
return d3_scale_log(d3.scale.linear().domain([ 0, 1 ]), 10, true, [ 1, 10 ]);
};
function d3_scale_log(linear, base, positive, domain) {
function log(x) {
return (positive ? Math.log(x < 0 ? 0 : x) : -Math.log(x > 0 ? 0 : -x)) / Math.log(base);
}
function pow(x) {
return positive ? Math.pow(base, x) : -Math.pow(base, -x);
}
function scale(x) {
return linear(log(x));
}
scale.invert = function(x) {
return pow(linear.invert(x));
};
scale.domain = function(x) {
if (!arguments.length) return domain;
positive = x[0] >= 0;
linear.domain((domain = x.map(Number)).map(log));
return scale;
};
scale.base = function(_) {
if (!arguments.length) return base;
base = +_;
linear.domain(domain.map(log));
return scale;
};
scale.nice = function() {
var niced = d3_scale_nice(domain.map(log), positive ? Math : d3_scale_logNiceNegative);
linear.domain(niced);
domain = niced.map(pow);
return scale;
};
scale.ticks = function() {
var extent = d3_scaleExtent(domain), ticks = [], u = extent[0], v = extent[1], i = Math.floor(log(u)), j = Math.ceil(log(v)), n = base % 1 ? 2 : base;
if (isFinite(j - i)) {
if (positive) {
for (;i < j; i++) for (var k = 1; k < n; k++) ticks.push(pow(i) * k);
ticks.push(pow(i));
} else {
ticks.push(pow(i));
for (;i++ < j; ) for (var k = n - 1; k > 0; k--) ticks.push(pow(i) * k);
}
for (i = 0; ticks[i] < u; i++) {}
for (j = ticks.length; ticks[j - 1] > v; j--) {}
ticks = ticks.slice(i, j);
}
return ticks;
};
scale.tickFormat = function(n, format) {
if (!arguments.length) return d3_scale_logFormat;
if (arguments.length < 2) format = d3_scale_logFormat; else if (typeof format !== "function") format = d3.format(format);
var k = Math.max(1, base * n / scale.ticks().length);
return function(d) {
var i = d / pow(Math.round(log(d)));
if (i * base < base - .5) i *= base;
return i <= k ? format(d) : "";
};
};
scale.copy = function() {
return d3_scale_log(linear.copy(), base, positive, domain);
};
return d3_scale_linearRebind(scale, linear);
}
var d3_scale_logFormat = d3.format(".0e"), d3_scale_logNiceNegative = {
floor: function(x) {
return -Math.ceil(-x);
},
ceil: function(x) {
return -Math.floor(-x);
}
};
d3.scale.pow = function() {
return d3_scale_pow(d3.scale.linear(), 1, [ 0, 1 ]);
};
function d3_scale_pow(linear, exponent, domain) {
var powp = d3_scale_powPow(exponent), powb = d3_scale_powPow(1 / exponent);
function scale(x) {
return linear(powp(x));
}
scale.invert = function(x) {
return powb(linear.invert(x));
};
scale.domain = function(x) {
if (!arguments.length) return domain;
linear.domain((domain = x.map(Number)).map(powp));
return scale;
};
scale.ticks = function(m) {
return d3_scale_linearTicks(domain, m);
};
scale.tickFormat = function(m, format) {
return d3_scale_linearTickFormat(domain, m, format);
};
scale.nice = function(m) {
return scale.domain(d3_scale_linearNice(domain, m));
};
scale.exponent = function(x) {
if (!arguments.length) return exponent;
powp = d3_scale_powPow(exponent = x);
powb = d3_scale_powPow(1 / exponent);
linear.domain(domain.map(powp));
return scale;
};
scale.copy = function() {
return d3_scale_pow(linear.copy(), exponent, domain);
};
return d3_scale_linearRebind(scale, linear);
}
function d3_scale_powPow(e) {
return function(x) {
return x < 0 ? -Math.pow(-x, e) : Math.pow(x, e);
};
}
d3.scale.sqrt = function() {
return d3.scale.pow().exponent(.5);
};
d3.scale.ordinal = function() {
return d3_scale_ordinal([], {
t: "range",
a: [ [] ]
});
};
function d3_scale_ordinal(domain, ranger) {
var index, range, rangeBand;
function scale(x) {
return range[((index.get(x) || (ranger.t === "range" ? index.set(x, domain.push(x)) : NaN)) - 1) % range.length];
}
function steps(start, step) {
return d3.range(domain.length).map(function(i) {
return start + step * i;
});
}
scale.domain = function(x) {
if (!arguments.length) return domain;
domain = [];
index = new d3_Map();
var i = -1, n = x.length, xi;
while (++i < n) if (!index.has(xi = x[i])) index.set(xi, domain.push(xi));
return scale[ranger.t].apply(scale, ranger.a);
};
scale.range = function(x) {
if (!arguments.length) return range;
range = x;
rangeBand = 0;
ranger = {
t: "range",
a: arguments
};
return scale;
};
scale.rangePoints = function(x, padding) {
if (arguments.length < 2) padding = 0;
var start = x[0], stop = x[1], step = domain.length < 2 ? (start = (start + stop) / 2,
0) : (stop - start) / (domain.length - 1 + padding);
range = steps(start + step * padding / 2, step);
rangeBand = 0;
ranger = {
t: "rangePoints",
a: arguments
};
return scale;
};
scale.rangeRoundPoints = function(x, padding) {
if (arguments.length < 2) padding = 0;
var start = x[0], stop = x[1], step = domain.length < 2 ? (start = stop = Math.round((start + stop) / 2),
0) : (stop - start) / (domain.length - 1 + padding) | 0;
range = steps(start + Math.round(step * padding / 2 + (stop - start - (domain.length - 1 + padding) * step) / 2), step);
rangeBand = 0;
ranger = {
t: "rangeRoundPoints",
a: arguments
};
return scale;
};
scale.rangeBands = function(x, padding, outerPadding) {
if (arguments.length < 2) padding = 0;
if (arguments.length < 3) outerPadding = padding;
var reverse = x[1] < x[0], start = x[reverse - 0], stop = x[1 - reverse], step = (stop - start) / (domain.length - padding + 2 * outerPadding);
range = steps(start + step * outerPadding, step);
if (reverse) range.reverse();
rangeBand = step * (1 - padding);
ranger = {
t: "rangeBands",
a: arguments
};
return scale;
};
scale.rangeRoundBands = function(x, padding, outerPadding) {
if (arguments.length < 2) padding = 0;
if (arguments.length < 3) outerPadding = padding;
var reverse = x[1] < x[0], start = x[reverse - 0], stop = x[1 - reverse], step = Math.floor((stop - start) / (domain.length - padding + 2 * outerPadding));
range = steps(start + Math.round((stop - start - (domain.length - padding) * step) / 2), step);
if (reverse) range.reverse();
rangeBand = Math.round(step * (1 - padding));
ranger = {
t: "rangeRoundBands",
a: arguments
};
return scale;
};
scale.rangeBand = function() {
return rangeBand;
};
scale.rangeExtent = function() {
return d3_scaleExtent(ranger.a[0]);
};
scale.copy = function() {
return d3_scale_ordinal(domain, ranger);
};
return scale.domain(domain);
}
d3.scale.category10 = function() {
return d3.scale.ordinal().range(d3_category10);
};
d3.scale.category20 = function() {
return d3.scale.ordinal().range(d3_category20);
};
d3.scale.category20b = function() {
return d3.scale.ordinal().range(d3_category20b);
};
d3.scale.category20c = function() {
return d3.scale.ordinal().range(d3_category20c);
};
var d3_category10 = [ 2062260, 16744206, 2924588, 14034728, 9725885, 9197131, 14907330, 8355711, 12369186, 1556175 ].map(d3_rgbString);
var d3_category20 = [ 2062260, 11454440, 16744206, 16759672, 2924588, 10018698, 14034728, 16750742, 9725885, 12955861, 9197131, 12885140, 14907330, 16234194, 8355711, 13092807, 12369186, 14408589, 1556175, 10410725 ].map(d3_rgbString);
var d3_category20b = [ 3750777, 5395619, 7040719, 10264286, 6519097, 9216594, 11915115, 13556636, 9202993, 12426809, 15186514, 15190932, 8666169, 11356490, 14049643, 15177372, 8077683, 10834324, 13528509, 14589654 ].map(d3_rgbString);
var d3_category20c = [ 3244733, 7057110, 10406625, 13032431, 15095053, 16616764, 16625259, 16634018, 3253076, 7652470, 10607003, 13101504, 7695281, 10394312, 12369372, 14342891, 6513507, 9868950, 12434877, 14277081 ].map(d3_rgbString);
d3.scale.quantile = function() {
return d3_scale_quantile([], []);
};
function d3_scale_quantile(domain, range) {
var thresholds;
function rescale() {
var k = 0, q = range.length;
thresholds = [];
while (++k < q) thresholds[k - 1] = d3.quantile(domain, k / q);
return scale;
}
function scale(x) {
if (!isNaN(x = +x)) return range[d3.bisect(thresholds, x)];
}
scale.domain = function(x) {
if (!arguments.length) return domain;
domain = x.map(d3_number).filter(d3_numeric).sort(d3_ascending);
return rescale();
};
scale.range = function(x) {
if (!arguments.length) return range;
range = x;
return rescale();
};
scale.quantiles = function() {
return thresholds;
};
scale.invertExtent = function(y) {
y = range.indexOf(y);
return y < 0 ? [ NaN, NaN ] : [ y > 0 ? thresholds[y - 1] : domain[0], y < thresholds.length ? thresholds[y] : domain[domain.length - 1] ];
};
scale.copy = function() {
return d3_scale_quantile(domain, range);
};
return rescale();
}
d3.scale.quantize = function() {
return d3_scale_quantize(0, 1, [ 0, 1 ]);
};
function d3_scale_quantize(x0, x1, range) {
var kx, i;
function scale(x) {
return range[Math.max(0, Math.min(i, Math.floor(kx * (x - x0))))];
}
function rescale() {
kx = range.length / (x1 - x0);
i = range.length - 1;
return scale;
}
scale.domain = function(x) {
if (!arguments.length) return [ x0, x1 ];
x0 = +x[0];
x1 = +x[x.length - 1];
return rescale();
};
scale.range = function(x) {
if (!arguments.length) return range;
range = x;
return rescale();
};
scale.invertExtent = function(y) {
y = range.indexOf(y);
y = y < 0 ? NaN : y / kx + x0;
return [ y, y + 1 / kx ];
};
scale.copy = function() {
return d3_scale_quantize(x0, x1, range);
};
return rescale();
}
d3.scale.threshold = function() {
return d3_scale_threshold([ .5 ], [ 0, 1 ]);
};
function d3_scale_threshold(domain, range) {
function scale(x) {
if (x <= x) return range[d3.bisect(domain, x)];
}
scale.domain = function(_) {
if (!arguments.length) return domain;
domain = _;
return scale;
};
scale.range = function(_) {
if (!arguments.length) return range;
range = _;
return scale;
};
scale.invertExtent = function(y) {
y = range.indexOf(y);
return [ domain[y - 1], domain[y] ];
};
scale.copy = function() {
return d3_scale_threshold(domain, range);
};
return scale;
}
d3.scale.identity = function() {
return d3_scale_identity([ 0, 1 ]);
};
function d3_scale_identity(domain) {
function identity(x) {
return +x;
}
identity.invert = identity;
identity.domain = identity.range = function(x) {
if (!arguments.length) return domain;
domain = x.map(identity);
return identity;
};
identity.ticks = function(m) {
return d3_scale_linearTicks(domain, m);
};
identity.tickFormat = function(m, format) {
return d3_scale_linearTickFormat(domain, m, format);
};
identity.copy = function() {
return d3_scale_identity(domain);
};
return identity;
}
d3.svg = {};
function d3_zero() {
return 0;
}
d3.svg.arc = function() {
var innerRadius = d3_svg_arcInnerRadius, outerRadius = d3_svg_arcOuterRadius, cornerRadius = d3_zero, padRadius = d3_svg_arcAuto, startAngle = d3_svg_arcStartAngle, endAngle = d3_svg_arcEndAngle, padAngle = d3_svg_arcPadAngle;
function arc() {
var r0 = Math.max(0, +innerRadius.apply(this, arguments)), r1 = Math.max(0, +outerRadius.apply(this, arguments)), a0 = startAngle.apply(this, arguments) - halfπ, a1 = endAngle.apply(this, arguments) - halfπ, da = Math.abs(a1 - a0), cw = a0 > a1 ? 0 : 1;
if (r1 < r0) rc = r1, r1 = r0, r0 = rc;
if (da >= τε) return circleSegment(r1, cw) + (r0 ? circleSegment(r0, 1 - cw) : "") + "Z";
var rc, cr, rp, ap, p0 = 0, p1 = 0, x0, y0, x1, y1, x2, y2, x3, y3, path = [];
if (ap = (+padAngle.apply(this, arguments) || 0) / 2) {
rp = padRadius === d3_svg_arcAuto ? Math.sqrt(r0 * r0 + r1 * r1) : +padRadius.apply(this, arguments);
if (!cw) p1 *= -1;
if (r1) p1 = d3_asin(rp / r1 * Math.sin(ap));
if (r0) p0 = d3_asin(rp / r0 * Math.sin(ap));
}
if (r1) {
x0 = r1 * Math.cos(a0 + p1);
y0 = r1 * Math.sin(a0 + p1);
x1 = r1 * Math.cos(a1 - p1);
y1 = r1 * Math.sin(a1 - p1);
var l1 = Math.abs(a1 - a0 - 2 * p1) <= π ? 0 : 1;
if (p1 && d3_svg_arcSweep(x0, y0, x1, y1) === cw ^ l1) {
var h1 = (a0 + a1) / 2;
x0 = r1 * Math.cos(h1);
y0 = r1 * Math.sin(h1);
x1 = y1 = null;
}
} else {
x0 = y0 = 0;
}
if (r0) {
x2 = r0 * Math.cos(a1 - p0);
y2 = r0 * Math.sin(a1 - p0);
x3 = r0 * Math.cos(a0 + p0);
y3 = r0 * Math.sin(a0 + p0);
var l0 = Math.abs(a0 - a1 + 2 * p0) <= π ? 0 : 1;
if (p0 && d3_svg_arcSweep(x2, y2, x3, y3) === 1 - cw ^ l0) {
var h0 = (a0 + a1) / 2;
x2 = r0 * Math.cos(h0);
y2 = r0 * Math.sin(h0);
x3 = y3 = null;
}
} else {
x2 = y2 = 0;
}
if (da > ε && (rc = Math.min(Math.abs(r1 - r0) / 2, +cornerRadius.apply(this, arguments))) > .001) {
cr = r0 < r1 ^ cw ? 0 : 1;
var rc1 = rc, rc0 = rc;
if (da < π) {
var oc = x3 == null ? [ x2, y2 ] : x1 == null ? [ x0, y0 ] : d3_geom_polygonIntersect([ x0, y0 ], [ x3, y3 ], [ x1, y1 ], [ x2, y2 ]), ax = x0 - oc[0], ay = y0 - oc[1], bx = x1 - oc[0], by = y1 - oc[1], kc = 1 / Math.sin(Math.acos((ax * bx + ay * by) / (Math.sqrt(ax * ax + ay * ay) * Math.sqrt(bx * bx + by * by))) / 2), lc = Math.sqrt(oc[0] * oc[0] + oc[1] * oc[1]);
rc0 = Math.min(rc, (r0 - lc) / (kc - 1));
rc1 = Math.min(rc, (r1 - lc) / (kc + 1));
}
if (x1 != null) {
var t30 = d3_svg_arcCornerTangents(x3 == null ? [ x2, y2 ] : [ x3, y3 ], [ x0, y0 ], r1, rc1, cw), t12 = d3_svg_arcCornerTangents([ x1, y1 ], [ x2, y2 ], r1, rc1, cw);
if (rc === rc1) {
path.push("M", t30[0], "A", rc1, ",", rc1, " 0 0,", cr, " ", t30[1], "A", r1, ",", r1, " 0 ", 1 - cw ^ d3_svg_arcSweep(t30[1][0], t30[1][1], t12[1][0], t12[1][1]), ",", cw, " ", t12[1], "A", rc1, ",", rc1, " 0 0,", cr, " ", t12[0]);
} else {
path.push("M", t30[0], "A", rc1, ",", rc1, " 0 1,", cr, " ", t12[0]);
}
} else {
path.push("M", x0, ",", y0);
}
if (x3 != null) {
var t03 = d3_svg_arcCornerTangents([ x0, y0 ], [ x3, y3 ], r0, -rc0, cw), t21 = d3_svg_arcCornerTangents([ x2, y2 ], x1 == null ? [ x0, y0 ] : [ x1, y1 ], r0, -rc0, cw);
if (rc === rc0) {
path.push("L", t21[0], "A", rc0, ",", rc0, " 0 0,", cr, " ", t21[1], "A", r0, ",", r0, " 0 ", cw ^ d3_svg_arcSweep(t21[1][0], t21[1][1], t03[1][0], t03[1][1]), ",", 1 - cw, " ", t03[1], "A", rc0, ",", rc0, " 0 0,", cr, " ", t03[0]);
} else {
path.push("L", t21[0], "A", rc0, ",", rc0, " 0 0,", cr, " ", t03[0]);
}
} else {
path.push("L", x2, ",", y2);
}
} else {
path.push("M", x0, ",", y0);
if (x1 != null) path.push("A", r1, ",", r1, " 0 ", l1, ",", cw, " ", x1, ",", y1);
path.push("L", x2, ",", y2);
if (x3 != null) path.push("A", r0, ",", r0, " 0 ", l0, ",", 1 - cw, " ", x3, ",", y3);
}
path.push("Z");
return path.join("");
}
function circleSegment(r1, cw) {
return "M0," + r1 + "A" + r1 + "," + r1 + " 0 1," + cw + " 0," + -r1 + "A" + r1 + "," + r1 + " 0 1," + cw + " 0," + r1;
}
arc.innerRadius = function(v) {
if (!arguments.length) return innerRadius;
innerRadius = d3_functor(v);
return arc;
};
arc.outerRadius = function(v) {
if (!arguments.length) return outerRadius;
outerRadius = d3_functor(v);
return arc;
};
arc.cornerRadius = function(v) {
if (!arguments.length) return cornerRadius;
cornerRadius = d3_functor(v);
return arc;
};
arc.padRadius = function(v) {
if (!arguments.length) return padRadius;
padRadius = v == d3_svg_arcAuto ? d3_svg_arcAuto : d3_functor(v);
return arc;
};
arc.startAngle = function(v) {
if (!arguments.length) return startAngle;
startAngle = d3_functor(v);
return arc;
};
arc.endAngle = function(v) {
if (!arguments.length) return endAngle;
endAngle = d3_functor(v);
return arc;
};
arc.padAngle = function(v) {
if (!arguments.length) return padAngle;
padAngle = d3_functor(v);
return arc;
};
arc.centroid = function() {
var r = (+innerRadius.apply(this, arguments) + +outerRadius.apply(this, arguments)) / 2, a = (+startAngle.apply(this, arguments) + +endAngle.apply(this, arguments)) / 2 - halfπ;
return [ Math.cos(a) * r, Math.sin(a) * r ];
};
return arc;
};
var d3_svg_arcAuto = "auto";
function d3_svg_arcInnerRadius(d) {
return d.innerRadius;
}
function d3_svg_arcOuterRadius(d) {
return d.outerRadius;
}
function d3_svg_arcStartAngle(d) {
return d.startAngle;
}
function d3_svg_arcEndAngle(d) {
return d.endAngle;
}
function d3_svg_arcPadAngle(d) {
return d && d.padAngle;
}
function d3_svg_arcSweep(x0, y0, x1, y1) {
return (x0 - x1) * y0 - (y0 - y1) * x0 > 0 ? 0 : 1;
}
function d3_svg_arcCornerTangents(p0, p1, r1, rc, cw) {
var x01 = p0[0] - p1[0], y01 = p0[1] - p1[1], lo = (cw ? rc : -rc) / Math.sqrt(x01 * x01 + y01 * y01), ox = lo * y01, oy = -lo * x01, x1 = p0[0] + ox, y1 = p0[1] + oy, x2 = p1[0] + ox, y2 = p1[1] + oy, x3 = (x1 + x2) / 2, y3 = (y1 + y2) / 2, dx = x2 - x1, dy = y2 - y1, d2 = dx * dx + dy * dy, r = r1 - rc, D = x1 * y2 - x2 * y1, d = (dy < 0 ? -1 : 1) * Math.sqrt(Math.max(0, r * r * d2 - D * D)), cx0 = (D * dy - dx * d) / d2, cy0 = (-D * dx - dy * d) / d2, cx1 = (D * dy + dx * d) / d2, cy1 = (-D * dx + dy * d) / d2, dx0 = cx0 - x3, dy0 = cy0 - y3, dx1 = cx1 - x3, dy1 = cy1 - y3;
if (dx0 * dx0 + dy0 * dy0 > dx1 * dx1 + dy1 * dy1) cx0 = cx1, cy0 = cy1;
return [ [ cx0 - ox, cy0 - oy ], [ cx0 * r1 / r, cy0 * r1 / r ] ];
}
function d3_svg_line(projection) {
var x = d3_geom_pointX, y = d3_geom_pointY, defined = d3_true, interpolate = d3_svg_lineLinear, interpolateKey = interpolate.key, tension = .7;
function line(data) {
var segments = [], points = [], i = -1, n = data.length, d, fx = d3_functor(x), fy = d3_functor(y);
function segment() {
segments.push("M", interpolate(projection(points), tension));
}
while (++i < n) {
if (defined.call(this, d = data[i], i)) {
points.push([ +fx.call(this, d, i), +fy.call(this, d, i) ]);
} else if (points.length) {
segment();
points = [];
}
}
if (points.length) segment();
return segments.length ? segments.join("") : null;
}
line.x = function(_) {
if (!arguments.length) return x;
x = _;
return line;
};
line.y = function(_) {
if (!arguments.length) return y;
y = _;
return line;
};
line.defined = function(_) {
if (!arguments.length) return defined;
defined = _;
return line;
};
line.interpolate = function(_) {
if (!arguments.length) return interpolateKey;
if (typeof _ === "function") interpolateKey = interpolate = _; else interpolateKey = (interpolate = d3_svg_lineInterpolators.get(_) || d3_svg_lineLinear).key;
return line;
};
line.tension = function(_) {
if (!arguments.length) return tension;
tension = _;
return line;
};
return line;
}
d3.svg.line = function() {
return d3_svg_line(d3_identity);
};
var d3_svg_lineInterpolators = d3.map({
linear: d3_svg_lineLinear,
"linear-closed": d3_svg_lineLinearClosed,
step: d3_svg_lineStep,
"step-before": d3_svg_lineStepBefore,
"step-after": d3_svg_lineStepAfter,
basis: d3_svg_lineBasis,
"basis-open": d3_svg_lineBasisOpen,
"basis-closed": d3_svg_lineBasisClosed,
bundle: d3_svg_lineBundle,
cardinal: d3_svg_lineCardinal,
"cardinal-open": d3_svg_lineCardinalOpen,
"cardinal-closed": d3_svg_lineCardinalClosed,
monotone: d3_svg_lineMonotone
});
d3_svg_lineInterpolators.forEach(function(key, value) {
value.key = key;
value.closed = /-closed$/.test(key);
});
function d3_svg_lineLinear(points) {
return points.length > 1 ? points.join("L") : points + "Z";
}
function d3_svg_lineLinearClosed(points) {
return points.join("L") + "Z";
}
function d3_svg_lineStep(points) {
var i = 0, n = points.length, p = points[0], path = [ p[0], ",", p[1] ];
while (++i < n) path.push("H", (p[0] + (p = points[i])[0]) / 2, "V", p[1]);
if (n > 1) path.push("H", p[0]);
return path.join("");
}
function d3_svg_lineStepBefore(points) {
var i = 0, n = points.length, p = points[0], path = [ p[0], ",", p[1] ];
while (++i < n) path.push("V", (p = points[i])[1], "H", p[0]);
return path.join("");
}
function d3_svg_lineStepAfter(points) {
var i = 0, n = points.length, p = points[0], path = [ p[0], ",", p[1] ];
while (++i < n) path.push("H", (p = points[i])[0], "V", p[1]);
return path.join("");
}
function d3_svg_lineCardinalOpen(points, tension) {
return points.length < 4 ? d3_svg_lineLinear(points) : points[1] + d3_svg_lineHermite(points.slice(1, -1), d3_svg_lineCardinalTangents(points, tension));
}
function d3_svg_lineCardinalClosed(points, tension) {
return points.length < 3 ? d3_svg_lineLinearClosed(points) : points[0] + d3_svg_lineHermite((points.push(points[0]),
points), d3_svg_lineCardinalTangents([ points[points.length - 2] ].concat(points, [ points[1] ]), tension));
}
function d3_svg_lineCardinal(points, tension) {
return points.length < 3 ? d3_svg_lineLinear(points) : points[0] + d3_svg_lineHermite(points, d3_svg_lineCardinalTangents(points, tension));
}
function d3_svg_lineHermite(points, tangents) {
if (tangents.length < 1 || points.length != tangents.length && points.length != tangents.length + 2) {
return d3_svg_lineLinear(points);
}
var quad = points.length != tangents.length, path = "", p0 = points[0], p = points[1], t0 = tangents[0], t = t0, pi = 1;
if (quad) {
path += "Q" + (p[0] - t0[0] * 2 / 3) + "," + (p[1] - t0[1] * 2 / 3) + "," + p[0] + "," + p[1];
p0 = points[1];
pi = 2;
}
if (tangents.length > 1) {
t = tangents[1];
p = points[pi];
pi++;
path += "C" + (p0[0] + t0[0]) + "," + (p0[1] + t0[1]) + "," + (p[0] - t[0]) + "," + (p[1] - t[1]) + "," + p[0] + "," + p[1];
for (var i = 2; i < tangents.length; i++, pi++) {
p = points[pi];
t = tangents[i];
path += "S" + (p[0] - t[0]) + "," + (p[1] - t[1]) + "," + p[0] + "," + p[1];
}
}
if (quad) {
var lp = points[pi];
path += "Q" + (p[0] + t[0] * 2 / 3) + "," + (p[1] + t[1] * 2 / 3) + "," + lp[0] + "," + lp[1];
}
return path;
}
function d3_svg_lineCardinalTangents(points, tension) {
var tangents = [], a = (1 - tension) / 2, p0, p1 = points[0], p2 = points[1], i = 1, n = points.length;
while (++i < n) {
p0 = p1;
p1 = p2;
p2 = points[i];
tangents.push([ a * (p2[0] - p0[0]), a * (p2[1] - p0[1]) ]);
}
return tangents;
}
function d3_svg_lineBasis(points) {
if (points.length < 3) return d3_svg_lineLinear(points);
var i = 1, n = points.length, pi = points[0], x0 = pi[0], y0 = pi[1], px = [ x0, x0, x0, (pi = points[1])[0] ], py = [ y0, y0, y0, pi[1] ], path = [ x0, ",", y0, "L", d3_svg_lineDot4(d3_svg_lineBasisBezier3, px), ",", d3_svg_lineDot4(d3_svg_lineBasisBezier3, py) ];
points.push(points[n - 1]);
while (++i <= n) {
pi = points[i];
px.shift();
px.push(pi[0]);
py.shift();
py.push(pi[1]);
d3_svg_lineBasisBezier(path, px, py);
}
points.pop();
path.push("L", pi);
return path.join("");
}
function d3_svg_lineBasisOpen(points) {
if (points.length < 4) return d3_svg_lineLinear(points);
var path = [], i = -1, n = points.length, pi, px = [ 0 ], py = [ 0 ];
while (++i < 3) {
pi = points[i];
px.push(pi[0]);
py.push(pi[1]);
}
path.push(d3_svg_lineDot4(d3_svg_lineBasisBezier3, px) + "," + d3_svg_lineDot4(d3_svg_lineBasisBezier3, py));
--i;
while (++i < n) {
pi = points[i];
px.shift();
px.push(pi[0]);
py.shift();
py.push(pi[1]);
d3_svg_lineBasisBezier(path, px, py);
}
return path.join("");
}
function d3_svg_lineBasisClosed(points) {
var path, i = -1, n = points.length, m = n + 4, pi, px = [], py = [];
while (++i < 4) {
pi = points[i % n];
px.push(pi[0]);
py.push(pi[1]);
}
path = [ d3_svg_lineDot4(d3_svg_lineBasisBezier3, px), ",", d3_svg_lineDot4(d3_svg_lineBasisBezier3, py) ];
--i;
while (++i < m) {
pi = points[i % n];
px.shift();
px.push(pi[0]);
py.shift();
py.push(pi[1]);
d3_svg_lineBasisBezier(path, px, py);
}
return path.join("");
}
function d3_svg_lineBundle(points, tension) {
var n = points.length - 1;
if (n) {
var x0 = points[0][0], y0 = points[0][1], dx = points[n][0] - x0, dy = points[n][1] - y0, i = -1, p, t;
while (++i <= n) {
p = points[i];
t = i / n;
p[0] = tension * p[0] + (1 - tension) * (x0 + t * dx);
p[1] = tension * p[1] + (1 - tension) * (y0 + t * dy);
}
}
return d3_svg_lineBasis(points);
}
function d3_svg_lineDot4(a, b) {
return a[0] * b[0] + a[1] * b[1] + a[2] * b[2] + a[3] * b[3];
}
var d3_svg_lineBasisBezier1 = [ 0, 2 / 3, 1 / 3, 0 ], d3_svg_lineBasisBezier2 = [ 0, 1 / 3, 2 / 3, 0 ], d3_svg_lineBasisBezier3 = [ 0, 1 / 6, 2 / 3, 1 / 6 ];
function d3_svg_lineBasisBezier(path, x, y) {
path.push("C", d3_svg_lineDot4(d3_svg_lineBasisBezier1, x), ",", d3_svg_lineDot4(d3_svg_lineBasisBezier1, y), ",", d3_svg_lineDot4(d3_svg_lineBasisBezier2, x), ",", d3_svg_lineDot4(d3_svg_lineBasisBezier2, y), ",", d3_svg_lineDot4(d3_svg_lineBasisBezier3, x), ",", d3_svg_lineDot4(d3_svg_lineBasisBezier3, y));
}
function d3_svg_lineSlope(p0, p1) {
return (p1[1] - p0[1]) / (p1[0] - p0[0]);
}
function d3_svg_lineFiniteDifferences(points) {
var i = 0, j = points.length - 1, m = [], p0 = points[0], p1 = points[1], d = m[0] = d3_svg_lineSlope(p0, p1);
while (++i < j) {
m[i] = (d + (d = d3_svg_lineSlope(p0 = p1, p1 = points[i + 1]))) / 2;
}
m[i] = d;
return m;
}
function d3_svg_lineMonotoneTangents(points) {
var tangents = [], d, a, b, s, m = d3_svg_lineFiniteDifferences(points), i = -1, j = points.length - 1;
while (++i < j) {
d = d3_svg_lineSlope(points[i], points[i + 1]);
if (abs(d) < ε) {
m[i] = m[i + 1] = 0;
} else {
a = m[i] / d;
b = m[i + 1] / d;
s = a * a + b * b;
if (s > 9) {
s = d * 3 / Math.sqrt(s);
m[i] = s * a;
m[i + 1] = s * b;
}
}
}
i = -1;
while (++i <= j) {
s = (points[Math.min(j, i + 1)][0] - points[Math.max(0, i - 1)][0]) / (6 * (1 + m[i] * m[i]));
tangents.push([ s || 0, m[i] * s || 0 ]);
}
return tangents;
}
function d3_svg_lineMonotone(points) {
return points.length < 3 ? d3_svg_lineLinear(points) : points[0] + d3_svg_lineHermite(points, d3_svg_lineMonotoneTangents(points));
}
d3.svg.line.radial = function() {
var line = d3_svg_line(d3_svg_lineRadial);
line.radius = line.x, delete line.x;
line.angle = line.y, delete line.y;
return line;
};
function d3_svg_lineRadial(points) {
var point, i = -1, n = points.length, r, a;
while (++i < n) {
point = points[i];
r = point[0];
a = point[1] - halfπ;
point[0] = r * Math.cos(a);
point[1] = r * Math.sin(a);
}
return points;
}
function d3_svg_area(projection) {
var x0 = d3_geom_pointX, x1 = d3_geom_pointX, y0 = 0, y1 = d3_geom_pointY, defined = d3_true, interpolate = d3_svg_lineLinear, interpolateKey = interpolate.key, interpolateReverse = interpolate, L = "L", tension = .7;
function area(data) {
var segments = [], points0 = [], points1 = [], i = -1, n = data.length, d, fx0 = d3_functor(x0), fy0 = d3_functor(y0), fx1 = x0 === x1 ? function() {
return x;
} : d3_functor(x1), fy1 = y0 === y1 ? function() {
return y;
} : d3_functor(y1), x, y;
function segment() {
segments.push("M", interpolate(projection(points1), tension), L, interpolateReverse(projection(points0.reverse()), tension), "Z");
}
while (++i < n) {
if (defined.call(this, d = data[i], i)) {
points0.push([ x = +fx0.call(this, d, i), y = +fy0.call(this, d, i) ]);
points1.push([ +fx1.call(this, d, i), +fy1.call(this, d, i) ]);
} else if (points0.length) {
segment();
points0 = [];
points1 = [];
}
}
if (points0.length) segment();
return segments.length ? segments.join("") : null;
}
area.x = function(_) {
if (!arguments.length) return x1;
x0 = x1 = _;
return area;
};
area.x0 = function(_) {
if (!arguments.length) return x0;
x0 = _;
return area;
};
area.x1 = function(_) {
if (!arguments.length) return x1;
x1 = _;
return area;
};
area.y = function(_) {
if (!arguments.length) return y1;
y0 = y1 = _;
return area;
};
area.y0 = function(_) {
if (!arguments.length) return y0;
y0 = _;
return area;
};
area.y1 = function(_) {
if (!arguments.length) return y1;
y1 = _;
return area;
};
area.defined = function(_) {
if (!arguments.length) return defined;
defined = _;
return area;
};
area.interpolate = function(_) {
if (!arguments.length) return interpolateKey;
if (typeof _ === "function") interpolateKey = interpolate = _; else interpolateKey = (interpolate = d3_svg_lineInterpolators.get(_) || d3_svg_lineLinear).key;
interpolateReverse = interpolate.reverse || interpolate;
L = interpolate.closed ? "M" : "L";
return area;
};
area.tension = function(_) {
if (!arguments.length) return tension;
tension = _;
return area;
};
return area;
}
d3_svg_lineStepBefore.reverse = d3_svg_lineStepAfter;
d3_svg_lineStepAfter.reverse = d3_svg_lineStepBefore;
d3.svg.area = function() {
return d3_svg_area(d3_identity);
};
d3.svg.area.radial = function() {
var area = d3_svg_area(d3_svg_lineRadial);
area.radius = area.x, delete area.x;
area.innerRadius = area.x0, delete area.x0;
area.outerRadius = area.x1, delete area.x1;
area.angle = area.y, delete area.y;
area.startAngle = area.y0, delete area.y0;
area.endAngle = area.y1, delete area.y1;
return area;
};
d3.svg.chord = function() {
var source = d3_source, target = d3_target, radius = d3_svg_chordRadius, startAngle = d3_svg_arcStartAngle, endAngle = d3_svg_arcEndAngle;
function chord(d, i) {
var s = subgroup(this, source, d, i), t = subgroup(this, target, d, i);
return "M" + s.p0 + arc(s.r, s.p1, s.a1 - s.a0) + (equals(s, t) ? curve(s.r, s.p1, s.r, s.p0) : curve(s.r, s.p1, t.r, t.p0) + arc(t.r, t.p1, t.a1 - t.a0) + curve(t.r, t.p1, s.r, s.p0)) + "Z";
}
function subgroup(self, f, d, i) {
var subgroup = f.call(self, d, i), r = radius.call(self, subgroup, i), a0 = startAngle.call(self, subgroup, i) - halfπ, a1 = endAngle.call(self, subgroup, i) - halfπ;
return {
r: r,
a0: a0,
a1: a1,
p0: [ r * Math.cos(a0), r * Math.sin(a0) ],
p1: [ r * Math.cos(a1), r * Math.sin(a1) ]
};
}
function equals(a, b) {
return a.a0 == b.a0 && a.a1 == b.a1;
}
function arc(r, p, a) {
return "A" + r + "," + r + " 0 " + +(a > π) + ",1 " + p;
}
function curve(r0, p0, r1, p1) {
return "Q 0,0 " + p1;
}
chord.radius = function(v) {
if (!arguments.length) return radius;
radius = d3_functor(v);
return chord;
};
chord.source = function(v) {
if (!arguments.length) return source;
source = d3_functor(v);
return chord;
};
chord.target = function(v) {
if (!arguments.length) return target;
target = d3_functor(v);
return chord;
};
chord.startAngle = function(v) {
if (!arguments.length) return startAngle;
startAngle = d3_functor(v);
return chord;
};
chord.endAngle = function(v) {
if (!arguments.length) return endAngle;
endAngle = d3_functor(v);
return chord;
};
return chord;
};
function d3_svg_chordRadius(d) {
return d.radius;
}
d3.svg.diagonal = function() {
var source = d3_source, target = d3_target, projection = d3_svg_diagonalProjection;
function diagonal(d, i) {
var p0 = source.call(this, d, i), p3 = target.call(this, d, i), m = (p0.y + p3.y) / 2, p = [ p0, {
x: p0.x,
y: m
}, {
x: p3.x,
y: m
}, p3 ];
p = p.map(projection);
return "M" + p[0] + "C" + p[1] + " " + p[2] + " " + p[3];
}
diagonal.source = function(x) {
if (!arguments.length) return source;
source = d3_functor(x);
return diagonal;
};
diagonal.target = function(x) {
if (!arguments.length) return target;
target = d3_functor(x);
return diagonal;
};
diagonal.projection = function(x) {
if (!arguments.length) return projection;
projection = x;
return diagonal;
};
return diagonal;
};
function d3_svg_diagonalProjection(d) {
return [ d.x, d.y ];
}
d3.svg.diagonal.radial = function() {
var diagonal = d3.svg.diagonal(), projection = d3_svg_diagonalProjection, projection_ = diagonal.projection;
diagonal.projection = function(x) {
return arguments.length ? projection_(d3_svg_diagonalRadialProjection(projection = x)) : projection;
};
return diagonal;
};
function d3_svg_diagonalRadialProjection(projection) {
return function() {
var d = projection.apply(this, arguments), r = d[0], a = d[1] - halfπ;
return [ r * Math.cos(a), r * Math.sin(a) ];
};
}
d3.svg.symbol = function() {
var type = d3_svg_symbolType, size = d3_svg_symbolSize;
function symbol(d, i) {
return (d3_svg_symbols.get(type.call(this, d, i)) || d3_svg_symbolCircle)(size.call(this, d, i));
}
symbol.type = function(x) {
if (!arguments.length) return type;
type = d3_functor(x);
return symbol;
};
symbol.size = function(x) {
if (!arguments.length) return size;
size = d3_functor(x);
return symbol;
};
return symbol;
};
function d3_svg_symbolSize() {
return 64;
}
function d3_svg_symbolType() {
return "circle";
}
function d3_svg_symbolCircle(size) {
var r = Math.sqrt(size / π);
return "M0," + r + "A" + r + "," + r + " 0 1,1 0," + -r + "A" + r + "," + r + " 0 1,1 0," + r + "Z";
}
var d3_svg_symbols = d3.map({
circle: d3_svg_symbolCircle,
cross: function(size) {
var r = Math.sqrt(size / 5) / 2;
return "M" + -3 * r + "," + -r + "H" + -r + "V" + -3 * r + "H" + r + "V" + -r + "H" + 3 * r + "V" + r + "H" + r + "V" + 3 * r + "H" + -r + "V" + r + "H" + -3 * r + "Z";
},
diamond: function(size) {
var ry = Math.sqrt(size / (2 * d3_svg_symbolTan30)), rx = ry * d3_svg_symbolTan30;
return "M0," + -ry + "L" + rx + ",0" + " 0," + ry + " " + -rx + ",0" + "Z";
},
square: function(size) {
var r = Math.sqrt(size) / 2;
return "M" + -r + "," + -r + "L" + r + "," + -r + " " + r + "," + r + " " + -r + "," + r + "Z";
},
"triangle-down": function(size) {
var rx = Math.sqrt(size / d3_svg_symbolSqrt3), ry = rx * d3_svg_symbolSqrt3 / 2;
return "M0," + ry + "L" + rx + "," + -ry + " " + -rx + "," + -ry + "Z";
},
"triangle-up": function(size) {
var rx = Math.sqrt(size / d3_svg_symbolSqrt3), ry = rx * d3_svg_symbolSqrt3 / 2;
return "M0," + -ry + "L" + rx + "," + ry + " " + -rx + "," + ry + "Z";
}
});
d3.svg.symbolTypes = d3_svg_symbols.keys();
var d3_svg_symbolSqrt3 = Math.sqrt(3), d3_svg_symbolTan30 = Math.tan(30 * d3_radians);
d3_selectionPrototype.transition = function(name) {
var id = d3_transitionInheritId || ++d3_transitionId, ns = d3_transitionNamespace(name), subgroups = [], subgroup, node, transition = d3_transitionInherit || {
time: Date.now(),
ease: d3_ease_cubicInOut,
delay: 0,
duration: 250
};
for (var j = -1, m = this.length; ++j < m; ) {
subgroups.push(subgroup = []);
for (var group = this[j], i = -1, n = group.length; ++i < n; ) {
if (node = group[i]) d3_transitionNode(node, i, ns, id, transition);
subgroup.push(node);
}
}
return d3_transition(subgroups, ns, id);
};
d3_selectionPrototype.interrupt = function(name) {
return this.each(name == null ? d3_selection_interrupt : d3_selection_interruptNS(d3_transitionNamespace(name)));
};
var d3_selection_interrupt = d3_selection_interruptNS(d3_transitionNamespace());
function d3_selection_interruptNS(ns) {
return function() {
var lock, activeId, active;
if ((lock = this[ns]) && (active = lock[activeId = lock.active])) {
active.timer.c = null;
active.timer.t = NaN;
if (--lock.count) delete lock[activeId]; else delete this[ns];
lock.active += .5;
active.event && active.event.interrupt.call(this, this.__data__, active.index);
}
};
}
function d3_transition(groups, ns, id) {
d3_subclass(groups, d3_transitionPrototype);
groups.namespace = ns;
groups.id = id;
return groups;
}
var d3_transitionPrototype = [], d3_transitionId = 0, d3_transitionInheritId, d3_transitionInherit;
d3_transitionPrototype.call = d3_selectionPrototype.call;
d3_transitionPrototype.empty = d3_selectionPrototype.empty;
d3_transitionPrototype.node = d3_selectionPrototype.node;
d3_transitionPrototype.size = d3_selectionPrototype.size;
d3.transition = function(selection, name) {
return selection && selection.transition ? d3_transitionInheritId ? selection.transition(name) : selection : d3.selection().transition(selection);
};
d3.transition.prototype = d3_transitionPrototype;
d3_transitionPrototype.select = function(selector) {
var id = this.id, ns = this.namespace, subgroups = [], subgroup, subnode, node;
selector = d3_selection_selector(selector);
for (var j = -1, m = this.length; ++j < m; ) {
subgroups.push(subgroup = []);
for (var group = this[j], i = -1, n = group.length; ++i < n; ) {
if ((node = group[i]) && (subnode = selector.call(node, node.__data__, i, j))) {
if ("__data__" in node) subnode.__data__ = node.__data__;
d3_transitionNode(subnode, i, ns, id, node[ns][id]);
subgroup.push(subnode);
} else {
subgroup.push(null);
}
}
}
return d3_transition(subgroups, ns, id);
};
d3_transitionPrototype.selectAll = function(selector) {
var id = this.id, ns = this.namespace, subgroups = [], subgroup, subnodes, node, subnode, transition;
selector = d3_selection_selectorAll(selector);
for (var j = -1, m = this.length; ++j < m; ) {
for (var group = this[j], i = -1, n = group.length; ++i < n; ) {
if (node = group[i]) {
transition = node[ns][id];
subnodes = selector.call(node, node.__data__, i, j);
subgroups.push(subgroup = []);
for (var k = -1, o = subnodes.length; ++k < o; ) {
if (subnode = subnodes[k]) d3_transitionNode(subnode, k, ns, id, transition);
subgroup.push(subnode);
}
}
}
}
return d3_transition(subgroups, ns, id);
};
d3_transitionPrototype.filter = function(filter) {
var subgroups = [], subgroup, group, node;
if (typeof filter !== "function") filter = d3_selection_filter(filter);
for (var j = 0, m = this.length; j < m; j++) {
subgroups.push(subgroup = []);
for (var group = this[j], i = 0, n = group.length; i < n; i++) {
if ((node = group[i]) && filter.call(node, node.__data__, i, j)) {
subgroup.push(node);
}
}
}
return d3_transition(subgroups, this.namespace, this.id);
};
d3_transitionPrototype.tween = function(name, tween) {
var id = this.id, ns = this.namespace;
if (arguments.length < 2) return this.node()[ns][id].tween.get(name);
return d3_selection_each(this, tween == null ? function(node) {
node[ns][id].tween.remove(name);
} : function(node) {
node[ns][id].tween.set(name, tween);
});
};
function d3_transition_tween(groups, name, value, tween) {
var id = groups.id, ns = groups.namespace;
return d3_selection_each(groups, typeof value === "function" ? function(node, i, j) {
node[ns][id].tween.set(name, tween(value.call(node, node.__data__, i, j)));
} : (value = tween(value), function(node) {
node[ns][id].tween.set(name, value);
}));
}
d3_transitionPrototype.attr = function(nameNS, value) {
if (arguments.length < 2) {
for (value in nameNS) this.attr(value, nameNS[value]);
return this;
}
var interpolate = nameNS == "transform" ? d3_interpolateTransform : d3_interpolate, name = d3.ns.qualify(nameNS);
function attrNull() {
this.removeAttribute(name);
}
function attrNullNS() {
this.removeAttributeNS(name.space, name.local);
}
function attrTween(b) {
return b == null ? attrNull : (b += "", function() {
var a = this.getAttribute(name), i;
return a !== b && (i = interpolate(a, b), function(t) {
this.setAttribute(name, i(t));
});
});
}
function attrTweenNS(b) {
return b == null ? attrNullNS : (b += "", function() {
var a = this.getAttributeNS(name.space, name.local), i;
return a !== b && (i = interpolate(a, b), function(t) {
this.setAttributeNS(name.space, name.local, i(t));
});
});
}
return d3_transition_tween(this, "attr." + nameNS, value, name.local ? attrTweenNS : attrTween);
};
d3_transitionPrototype.attrTween = function(nameNS, tween) {
var name = d3.ns.qualify(nameNS);
function attrTween(d, i) {
var f = tween.call(this, d, i, this.getAttribute(name));
return f && function(t) {
this.setAttribute(name, f(t));
};
}
function attrTweenNS(d, i) {
var f = tween.call(this, d, i, this.getAttributeNS(name.space, name.local));
return f && function(t) {
this.setAttributeNS(name.space, name.local, f(t));
};
}
return this.tween("attr." + nameNS, name.local ? attrTweenNS : attrTween);
};
d3_transitionPrototype.style = function(name, value, priority) {
var n = arguments.length;
if (n < 3) {
if (typeof name !== "string") {
if (n < 2) value = "";
for (priority in name) this.style(priority, name[priority], value);
return this;
}
priority = "";
}
function styleNull() {
this.style.removeProperty(name);
}
function styleString(b) {
return b == null ? styleNull : (b += "", function() {
var a = d3_window(this).getComputedStyle(this, null).getPropertyValue(name), i;
return a !== b && (i = d3_interpolate(a, b), function(t) {
this.style.setProperty(name, i(t), priority);
});
});
}
return d3_transition_tween(this, "style." + name, value, styleString);
};
d3_transitionPrototype.styleTween = function(name, tween, priority) {
if (arguments.length < 3) priority = "";
function styleTween(d, i) {
var f = tween.call(this, d, i, d3_window(this).getComputedStyle(this, null).getPropertyValue(name));
return f && function(t) {
this.style.setProperty(name, f(t), priority);
};
}
return this.tween("style." + name, styleTween);
};
d3_transitionPrototype.text = function(value) {
return d3_transition_tween(this, "text", value, d3_transition_text);
};
function d3_transition_text(b) {
if (b == null) b = "";
return function() {
this.textContent = b;
};
}
d3_transitionPrototype.remove = function() {
var ns = this.namespace;
return this.each("end.transition", function() {
var p;
if (this[ns].count < 2 && (p = this.parentNode)) p.removeChild(this);
});
};
d3_transitionPrototype.ease = function(value) {
var id = this.id, ns = this.namespace;
if (arguments.length < 1) return this.node()[ns][id].ease;
if (typeof value !== "function") value = d3.ease.apply(d3, arguments);
return d3_selection_each(this, function(node) {
node[ns][id].ease = value;
});
};
d3_transitionPrototype.delay = function(value) {
var id = this.id, ns = this.namespace;
if (arguments.length < 1) return this.node()[ns][id].delay;
return d3_selection_each(this, typeof value === "function" ? function(node, i, j) {
node[ns][id].delay = +value.call(node, node.__data__, i, j);
} : (value = +value, function(node) {
node[ns][id].delay = value;
}));
};
d3_transitionPrototype.duration = function(value) {
var id = this.id, ns = this.namespace;
if (arguments.length < 1) return this.node()[ns][id].duration;
return d3_selection_each(this, typeof value === "function" ? function(node, i, j) {
node[ns][id].duration = Math.max(1, value.call(node, node.__data__, i, j));
} : (value = Math.max(1, value), function(node) {
node[ns][id].duration = value;
}));
};
d3_transitionPrototype.each = function(type, listener) {
var id = this.id, ns = this.namespace;
if (arguments.length < 2) {
var inherit = d3_transitionInherit, inheritId = d3_transitionInheritId;
try {
d3_transitionInheritId = id;
d3_selection_each(this, function(node, i, j) {
d3_transitionInherit = node[ns][id];
type.call(node, node.__data__, i, j);
});
} finally {
d3_transitionInherit = inherit;
d3_transitionInheritId = inheritId;
}
} else {
d3_selection_each(this, function(node) {
var transition = node[ns][id];
(transition.event || (transition.event = d3.dispatch("start", "end", "interrupt"))).on(type, listener);
});
}
return this;
};
d3_transitionPrototype.transition = function() {
var id0 = this.id, id1 = ++d3_transitionId, ns = this.namespace, subgroups = [], subgroup, group, node, transition;
for (var j = 0, m = this.length; j < m; j++) {
subgroups.push(subgroup = []);
for (var group = this[j], i = 0, n = group.length; i < n; i++) {
if (node = group[i]) {
transition = node[ns][id0];
d3_transitionNode(node, i, ns, id1, {
time: transition.time,
ease: transition.ease,
delay: transition.delay + transition.duration,
duration: transition.duration
});
}
subgroup.push(node);
}
}
return d3_transition(subgroups, ns, id1);
};
function d3_transitionNamespace(name) {
return name == null ? "__transition__" : "__transition_" + name + "__";
}
function d3_transitionNode(node, i, ns, id, inherit) {
var lock = node[ns] || (node[ns] = {
active: 0,
count: 0
}), transition = lock[id], time, timer, duration, ease, tweens;
function schedule(elapsed) {
var delay = transition.delay;
timer.t = delay + time;
if (delay <= elapsed) return start(elapsed - delay);
timer.c = start;
}
function start(elapsed) {
var activeId = lock.active, active = lock[activeId];
if (active) {
active.timer.c = null;
active.timer.t = NaN;
--lock.count;
delete lock[activeId];
active.event && active.event.interrupt.call(node, node.__data__, active.index);
}
for (var cancelId in lock) {
if (+cancelId < id) {
var cancel = lock[cancelId];
cancel.timer.c = null;
cancel.timer.t = NaN;
--lock.count;
delete lock[cancelId];
}
}
timer.c = tick;
d3_timer(function() {
if (timer.c && tick(elapsed || 1)) {
timer.c = null;
timer.t = NaN;
}
return 1;
}, 0, time);
lock.active = id;
transition.event && transition.event.start.call(node, node.__data__, i);
tweens = [];
transition.tween.forEach(function(key, value) {
if (value = value.call(node, node.__data__, i)) {
tweens.push(value);
}
});
ease = transition.ease;
duration = transition.duration;
}
function tick(elapsed) {
var t = elapsed / duration, e = ease(t), n = tweens.length;
while (n > 0) {
tweens[--n].call(node, e);
}
if (t >= 1) {
transition.event && transition.event.end.call(node, node.__data__, i);
if (--lock.count) delete lock[id]; else delete node[ns];
return 1;
}
}
if (!transition) {
time = inherit.time;
timer = d3_timer(schedule, 0, time);
transition = lock[id] = {
tween: new d3_Map(),
time: time,
timer: timer,
delay: inherit.delay,
duration: inherit.duration,
ease: inherit.ease,
index: i
};
inherit = null;
++lock.count;
}
}
d3.svg.axis = function() {
var scale = d3.scale.linear(), orient = d3_svg_axisDefaultOrient, innerTickSize = 6, outerTickSize = 6, tickPadding = 3, tickArguments_ = [ 10 ], tickValues = null, tickFormat_;
function axis(g) {
g.each(function() {
var g = d3.select(this);
var scale0 = this.__chart__ || scale, scale1 = this.__chart__ = scale.copy();
var ticks = tickValues == null ? scale1.ticks ? scale1.ticks.apply(scale1, tickArguments_) : scale1.domain() : tickValues, tickFormat = tickFormat_ == null ? scale1.tickFormat ? scale1.tickFormat.apply(scale1, tickArguments_) : d3_identity : tickFormat_, tick = g.selectAll(".tick").data(ticks, scale1), tickEnter = tick.enter().insert("g", ".domain").attr("class", "tick").style("opacity", ε), tickExit = d3.transition(tick.exit()).style("opacity", ε).remove(), tickUpdate = d3.transition(tick.order()).style("opacity", 1), tickSpacing = Math.max(innerTickSize, 0) + tickPadding, tickTransform;
var range = d3_scaleRange(scale1), path = g.selectAll(".domain").data([ 0 ]), pathUpdate = (path.enter().append("path").attr("class", "domain"),
d3.transition(path));
tickEnter.append("line");
tickEnter.append("text");
var lineEnter = tickEnter.select("line"), lineUpdate = tickUpdate.select("line"), text = tick.select("text").text(tickFormat), textEnter = tickEnter.select("text"), textUpdate = tickUpdate.select("text"), sign = orient === "top" || orient === "left" ? -1 : 1, x1, x2, y1, y2;
if (orient === "bottom" || orient === "top") {
tickTransform = d3_svg_axisX, x1 = "x", y1 = "y", x2 = "x2", y2 = "y2";
text.attr("dy", sign < 0 ? "0em" : ".71em").style("text-anchor", "middle");
pathUpdate.attr("d", "M" + range[0] + "," + sign * outerTickSize + "V0H" + range[1] + "V" + sign * outerTickSize);
} else {
tickTransform = d3_svg_axisY, x1 = "y", y1 = "x", x2 = "y2", y2 = "x2";
text.attr("dy", ".32em").style("text-anchor", sign < 0 ? "end" : "start");
pathUpdate.attr("d", "M" + sign * outerTickSize + "," + range[0] + "H0V" + range[1] + "H" + sign * outerTickSize);
}
lineEnter.attr(y2, sign * innerTickSize);
textEnter.attr(y1, sign * tickSpacing);
lineUpdate.attr(x2, 0).attr(y2, sign * innerTickSize);
textUpdate.attr(x1, 0).attr(y1, sign * tickSpacing);
if (scale1.rangeBand) {
var x = scale1, dx = x.rangeBand() / 2;
scale0 = scale1 = function(d) {
return x(d) + dx;
};
} else if (scale0.rangeBand) {
scale0 = scale1;
} else {
tickExit.call(tickTransform, scale1, scale0);
}
tickEnter.call(tickTransform, scale0, scale1);
tickUpdate.call(tickTransform, scale1, scale1);
});
}
axis.scale = function(x) {
if (!arguments.length) return scale;
scale = x;
return axis;
};
axis.orient = function(x) {
if (!arguments.length) return orient;
orient = x in d3_svg_axisOrients ? x + "" : d3_svg_axisDefaultOrient;
return axis;
};
axis.ticks = function() {
if (!arguments.length) return tickArguments_;
tickArguments_ = d3_array(arguments);
return axis;
};
axis.tickValues = function(x) {
if (!arguments.length) return tickValues;
tickValues = x;
return axis;
};
axis.tickFormat = function(x) {
if (!arguments.length) return tickFormat_;
tickFormat_ = x;
return axis;
};
axis.tickSize = function(x) {
var n = arguments.length;
if (!n) return innerTickSize;
innerTickSize = +x;
outerTickSize = +arguments[n - 1];
return axis;
};
axis.innerTickSize = function(x) {
if (!arguments.length) return innerTickSize;
innerTickSize = +x;
return axis;
};
axis.outerTickSize = function(x) {
if (!arguments.length) return outerTickSize;
outerTickSize = +x;
return axis;
};
axis.tickPadding = function(x) {
if (!arguments.length) return tickPadding;
tickPadding = +x;
return axis;
};
axis.tickSubdivide = function() {
return arguments.length && axis;
};
return axis;
};
var d3_svg_axisDefaultOrient = "bottom", d3_svg_axisOrients = {
top: 1,
right: 1,
bottom: 1,
left: 1
};
function d3_svg_axisX(selection, x0, x1) {
selection.attr("transform", function(d) {
var v0 = x0(d);
return "translate(" + (isFinite(v0) ? v0 : x1(d)) + ",0)";
});
}
function d3_svg_axisY(selection, y0, y1) {
selection.attr("transform", function(d) {
var v0 = y0(d);
return "translate(0," + (isFinite(v0) ? v0 : y1(d)) + ")";
});
}
d3.svg.brush = function() {
var event = d3_eventDispatch(brush, "brushstart", "brush", "brushend"), x = null, y = null, xExtent = [ 0, 0 ], yExtent = [ 0, 0 ], xExtentDomain, yExtentDomain, xClamp = true, yClamp = true, resizes = d3_svg_brushResizes[0];
function brush(g) {
g.each(function() {
var g = d3.select(this).style("pointer-events", "all").style("-webkit-tap-highlight-color", "rgba(0,0,0,0)").on("mousedown.brush", brushstart).on("touchstart.brush", brushstart);
var background = g.selectAll(".background").data([ 0 ]);
background.enter().append("rect").attr("class", "background").style("visibility", "hidden").style("cursor", "crosshair");
g.selectAll(".extent").data([ 0 ]).enter().append("rect").attr("class", "extent").style("cursor", "move");
var resize = g.selectAll(".resize").data(resizes, d3_identity);
resize.exit().remove();
resize.enter().append("g").attr("class", function(d) {
return "resize " + d;
}).style("cursor", function(d) {
return d3_svg_brushCursor[d];
}).append("rect").attr("x", function(d) {
return /[ew]$/.test(d) ? -3 : null;
}).attr("y", function(d) {
return /^[ns]/.test(d) ? -3 : null;
}).attr("width", 6).attr("height", 6).style("visibility", "hidden");
resize.style("display", brush.empty() ? "none" : null);
var gUpdate = d3.transition(g), backgroundUpdate = d3.transition(background), range;
if (x) {
range = d3_scaleRange(x);
backgroundUpdate.attr("x", range[0]).attr("width", range[1] - range[0]);
redrawX(gUpdate);
}
if (y) {
range = d3_scaleRange(y);
backgroundUpdate.attr("y", range[0]).attr("height", range[1] - range[0]);
redrawY(gUpdate);
}
redraw(gUpdate);
});
}
brush.event = function(g) {
g.each(function() {
var event_ = event.of(this, arguments), extent1 = {
x: xExtent,
y: yExtent,
i: xExtentDomain,
j: yExtentDomain
}, extent0 = this.__chart__ || extent1;
this.__chart__ = extent1;
if (d3_transitionInheritId) {
d3.select(this).transition().each("start.brush", function() {
xExtentDomain = extent0.i;
yExtentDomain = extent0.j;
xExtent = extent0.x;
yExtent = extent0.y;
event_({
type: "brushstart"
});
}).tween("brush:brush", function() {
var xi = d3_interpolateArray(xExtent, extent1.x), yi = d3_interpolateArray(yExtent, extent1.y);
xExtentDomain = yExtentDomain = null;
return function(t) {
xExtent = extent1.x = xi(t);
yExtent = extent1.y = yi(t);
event_({
type: "brush",
mode: "resize"
});
};
}).each("end.brush", function() {
xExtentDomain = extent1.i;
yExtentDomain = extent1.j;
event_({
type: "brush",
mode: "resize"
});
event_({
type: "brushend"
});
});
} else {
event_({
type: "brushstart"
});
event_({
type: "brush",
mode: "resize"
});
event_({
type: "brushend"
});
}
});
};
function redraw(g) {
g.selectAll(".resize").attr("transform", function(d) {
return "translate(" + xExtent[+/e$/.test(d)] + "," + yExtent[+/^s/.test(d)] + ")";
});
}
function redrawX(g) {
g.select(".extent").attr("x", xExtent[0]);
g.selectAll(".extent,.n>rect,.s>rect").attr("width", xExtent[1] - xExtent[0]);
}
function redrawY(g) {
g.select(".extent").attr("y", yExtent[0]);
g.selectAll(".extent,.e>rect,.w>rect").attr("height", yExtent[1] - yExtent[0]);
}
function brushstart() {
var target = this, eventTarget = d3.select(d3.event.target), event_ = event.of(target, arguments), g = d3.select(target), resizing = eventTarget.datum(), resizingX = !/^(n|s)$/.test(resizing) && x, resizingY = !/^(e|w)$/.test(resizing) && y, dragging = eventTarget.classed("extent"), dragRestore = d3_event_dragSuppress(target), center, origin = d3.mouse(target), offset;
var w = d3.select(d3_window(target)).on("keydown.brush", keydown).on("keyup.brush", keyup);
if (d3.event.changedTouches) {
w.on("touchmove.brush", brushmove).on("touchend.brush", brushend);
} else {
w.on("mousemove.brush", brushmove).on("mouseup.brush", brushend);
}
g.interrupt().selectAll("*").interrupt();
if (dragging) {
origin[0] = xExtent[0] - origin[0];
origin[1] = yExtent[0] - origin[1];
} else if (resizing) {
var ex = +/w$/.test(resizing), ey = +/^n/.test(resizing);
offset = [ xExtent[1 - ex] - origin[0], yExtent[1 - ey] - origin[1] ];
origin[0] = xExtent[ex];
origin[1] = yExtent[ey];
} else if (d3.event.altKey) center = origin.slice();
g.style("pointer-events", "none").selectAll(".resize").style("display", null);
d3.select("body").style("cursor", eventTarget.style("cursor"));
event_({
type: "brushstart"
});
brushmove();
function keydown() {
if (d3.event.keyCode == 32) {
if (!dragging) {
center = null;
origin[0] -= xExtent[1];
origin[1] -= yExtent[1];
dragging = 2;
}
d3_eventPreventDefault();
}
}
function keyup() {
if (d3.event.keyCode == 32 && dragging == 2) {
origin[0] += xExtent[1];
origin[1] += yExtent[1];
dragging = 0;
d3_eventPreventDefault();
}
}
function brushmove() {
var point = d3.mouse(target), moved = false;
if (offset) {
point[0] += offset[0];
point[1] += offset[1];
}
if (!dragging) {
if (d3.event.altKey) {
if (!center) center = [ (xExtent[0] + xExtent[1]) / 2, (yExtent[0] + yExtent[1]) / 2 ];
origin[0] = xExtent[+(point[0] < center[0])];
origin[1] = yExtent[+(point[1] < center[1])];
} else center = null;
}
if (resizingX && move1(point, x, 0)) {
redrawX(g);
moved = true;
}
if (resizingY && move1(point, y, 1)) {
redrawY(g);
moved = true;
}
if (moved) {
redraw(g);
event_({
type: "brush",
mode: dragging ? "move" : "resize"
});
}
}
function move1(point, scale, i) {
var range = d3_scaleRange(scale), r0 = range[0], r1 = range[1], position = origin[i], extent = i ? yExtent : xExtent, size = extent[1] - extent[0], min, max;
if (dragging) {
r0 -= position;
r1 -= size + position;
}
min = (i ? yClamp : xClamp) ? Math.max(r0, Math.min(r1, point[i])) : point[i];
if (dragging) {
max = (min += position) + size;
} else {
if (center) position = Math.max(r0, Math.min(r1, 2 * center[i] - min));
if (position < min) {
max = min;
min = position;
} else {
max = position;
}
}
if (extent[0] != min || extent[1] != max) {
if (i) yExtentDomain = null; else xExtentDomain = null;
extent[0] = min;
extent[1] = max;
return true;
}
}
function brushend() {
brushmove();
g.style("pointer-events", "all").selectAll(".resize").style("display", brush.empty() ? "none" : null);
d3.select("body").style("cursor", null);
w.on("mousemove.brush", null).on("mouseup.brush", null).on("touchmove.brush", null).on("touchend.brush", null).on("keydown.brush", null).on("keyup.brush", null);
dragRestore();
event_({
type: "brushend"
});
}
}
brush.x = function(z) {
if (!arguments.length) return x;
x = z;
resizes = d3_svg_brushResizes[!x << 1 | !y];
return brush;
};
brush.y = function(z) {
if (!arguments.length) return y;
y = z;
resizes = d3_svg_brushResizes[!x << 1 | !y];
return brush;
};
brush.clamp = function(z) {
if (!arguments.length) return x && y ? [ xClamp, yClamp ] : x ? xClamp : y ? yClamp : null;
if (x && y) xClamp = !!z[0], yClamp = !!z[1]; else if (x) xClamp = !!z; else if (y) yClamp = !!z;
return brush;
};
brush.extent = function(z) {
var x0, x1, y0, y1, t;
if (!arguments.length) {
if (x) {
if (xExtentDomain) {
x0 = xExtentDomain[0], x1 = xExtentDomain[1];
} else {
x0 = xExtent[0], x1 = xExtent[1];
if (x.invert) x0 = x.invert(x0), x1 = x.invert(x1);
if (x1 < x0) t = x0, x0 = x1, x1 = t;
}
}
if (y) {
if (yExtentDomain) {
y0 = yExtentDomain[0], y1 = yExtentDomain[1];
} else {
y0 = yExtent[0], y1 = yExtent[1];
if (y.invert) y0 = y.invert(y0), y1 = y.invert(y1);
if (y1 < y0) t = y0, y0 = y1, y1 = t;
}
}
return x && y ? [ [ x0, y0 ], [ x1, y1 ] ] : x ? [ x0, x1 ] : y && [ y0, y1 ];
}
if (x) {
x0 = z[0], x1 = z[1];
if (y) x0 = x0[0], x1 = x1[0];
xExtentDomain = [ x0, x1 ];
if (x.invert) x0 = x(x0), x1 = x(x1);
if (x1 < x0) t = x0, x0 = x1, x1 = t;
if (x0 != xExtent[0] || x1 != xExtent[1]) xExtent = [ x0, x1 ];
}
if (y) {
y0 = z[0], y1 = z[1];
if (x) y0 = y0[1], y1 = y1[1];
yExtentDomain = [ y0, y1 ];
if (y.invert) y0 = y(y0), y1 = y(y1);
if (y1 < y0) t = y0, y0 = y1, y1 = t;
if (y0 != yExtent[0] || y1 != yExtent[1]) yExtent = [ y0, y1 ];
}
return brush;
};
brush.clear = function() {
if (!brush.empty()) {
xExtent = [ 0, 0 ], yExtent = [ 0, 0 ];
xExtentDomain = yExtentDomain = null;
}
return brush;
};
brush.empty = function() {
return !!x && xExtent[0] == xExtent[1] || !!y && yExtent[0] == yExtent[1];
};
return d3.rebind(brush, event, "on");
};
var d3_svg_brushCursor = {
n: "ns-resize",
e: "ew-resize",
s: "ns-resize",
w: "ew-resize",
nw: "nwse-resize",
ne: "nesw-resize",
se: "nwse-resize",
sw: "nesw-resize"
};
var d3_svg_brushResizes = [ [ "n", "e", "s", "w", "nw", "ne", "se", "sw" ], [ "e", "w" ], [ "n", "s" ], [] ];
var d3_time_format = d3_time.format = d3_locale_enUS.timeFormat;
var d3_time_formatUtc = d3_time_format.utc;
var d3_time_formatIso = d3_time_formatUtc("%Y-%m-%dT%H:%M:%S.%LZ");
d3_time_format.iso = Date.prototype.toISOString && +new Date("2000-01-01T00:00:00.000Z") ? d3_time_formatIsoNative : d3_time_formatIso;
function d3_time_formatIsoNative(date) {
return date.toISOString();
}
d3_time_formatIsoNative.parse = function(string) {
var date = new Date(string);
return isNaN(date) ? null : date;
};
d3_time_formatIsoNative.toString = d3_time_formatIso.toString;
d3_time.second = d3_time_interval(function(date) {
return new d3_date(Math.floor(date / 1e3) * 1e3);
}, function(date, offset) {
date.setTime(date.getTime() + Math.floor(offset) * 1e3);
}, function(date) {
return date.getSeconds();
});
d3_time.seconds = d3_time.second.range;
d3_time.seconds.utc = d3_time.second.utc.range;
d3_time.minute = d3_time_interval(function(date) {
return new d3_date(Math.floor(date / 6e4) * 6e4);
}, function(date, offset) {
date.setTime(date.getTime() + Math.floor(offset) * 6e4);
}, function(date) {
return date.getMinutes();
});
d3_time.minutes = d3_time.minute.range;
d3_time.minutes.utc = d3_time.minute.utc.range;
d3_time.hour = d3_time_interval(function(date) {
var timezone = date.getTimezoneOffset() / 60;
return new d3_date((Math.floor(date / 36e5 - timezone) + timezone) * 36e5);
}, function(date, offset) {
date.setTime(date.getTime() + Math.floor(offset) * 36e5);
}, function(date) {
return date.getHours();
});
d3_time.hours = d3_time.hour.range;
d3_time.hours.utc = d3_time.hour.utc.range;
d3_time.month = d3_time_interval(function(date) {
date = d3_time.day(date);
date.setDate(1);
return date;
}, function(date, offset) {
date.setMonth(date.getMonth() + offset);
}, function(date) {
return date.getMonth();
});
d3_time.months = d3_time.month.range;
d3_time.months.utc = d3_time.month.utc.range;
function d3_time_scale(linear, methods, format) {
function scale(x) {
return linear(x);
}
scale.invert = function(x) {
return d3_time_scaleDate(linear.invert(x));
};
scale.domain = function(x) {
if (!arguments.length) return linear.domain().map(d3_time_scaleDate);
linear.domain(x);
return scale;
};
function tickMethod(extent, count) {
var span = extent[1] - extent[0], target = span / count, i = d3.bisect(d3_time_scaleSteps, target);
return i == d3_time_scaleSteps.length ? [ methods.year, d3_scale_linearTickRange(extent.map(function(d) {
return d / 31536e6;
}), count)[2] ] : !i ? [ d3_time_scaleMilliseconds, d3_scale_linearTickRange(extent, count)[2] ] : methods[target / d3_time_scaleSteps[i - 1] < d3_time_scaleSteps[i] / target ? i - 1 : i];
}
scale.nice = function(interval, skip) {
var domain = scale.domain(), extent = d3_scaleExtent(domain), method = interval == null ? tickMethod(extent, 10) : typeof interval === "number" && tickMethod(extent, interval);
if (method) interval = method[0], skip = method[1];
function skipped(date) {
return !isNaN(date) && !interval.range(date, d3_time_scaleDate(+date + 1), skip).length;
}
return scale.domain(d3_scale_nice(domain, skip > 1 ? {
floor: function(date) {
while (skipped(date = interval.floor(date))) date = d3_time_scaleDate(date - 1);
return date;
},
ceil: function(date) {
while (skipped(date = interval.ceil(date))) date = d3_time_scaleDate(+date + 1);
return date;
}
} : interval));
};
scale.ticks = function(interval, skip) {
var extent = d3_scaleExtent(scale.domain()), method = interval == null ? tickMethod(extent, 10) : typeof interval === "number" ? tickMethod(extent, interval) : !interval.range && [ {
range: interval
}, skip ];
if (method) interval = method[0], skip = method[1];
return interval.range(extent[0], d3_time_scaleDate(+extent[1] + 1), skip < 1 ? 1 : skip);
};
scale.tickFormat = function() {
return format;
};
scale.copy = function() {
return d3_time_scale(linear.copy(), methods, format);
};
return d3_scale_linearRebind(scale, linear);
}
function d3_time_scaleDate(t) {
return new Date(t);
}
var d3_time_scaleSteps = [ 1e3, 5e3, 15e3, 3e4, 6e4, 3e5, 9e5, 18e5, 36e5, 108e5, 216e5, 432e5, 864e5, 1728e5, 6048e5, 2592e6, 7776e6, 31536e6 ];
var d3_time_scaleLocalMethods = [ [ d3_time.second, 1 ], [ d3_time.second, 5 ], [ d3_time.second, 15 ], [ d3_time.second, 30 ], [ d3_time.minute, 1 ], [ d3_time.minute, 5 ], [ d3_time.minute, 15 ], [ d3_time.minute, 30 ], [ d3_time.hour, 1 ], [ d3_time.hour, 3 ], [ d3_time.hour, 6 ], [ d3_time.hour, 12 ], [ d3_time.day, 1 ], [ d3_time.day, 2 ], [ d3_time.week, 1 ], [ d3_time.month, 1 ], [ d3_time.month, 3 ], [ d3_time.year, 1 ] ];
var d3_time_scaleLocalFormat = d3_time_format.multi([ [ ".%L", function(d) {
return d.getMilliseconds();
} ], [ ":%S", function(d) {
return d.getSeconds();
} ], [ "%I:%M", function(d) {
return d.getMinutes();
} ], [ "%I %p", function(d) {
return d.getHours();
} ], [ "%a %d", function(d) {
return d.getDay() && d.getDate() != 1;
} ], [ "%b %d", function(d) {
return d.getDate() != 1;
} ], [ "%B", function(d) {
return d.getMonth();
} ], [ "%Y", d3_true ] ]);
var d3_time_scaleMilliseconds = {
range: function(start, stop, step) {
return d3.range(Math.ceil(start / step) * step, +stop, step).map(d3_time_scaleDate);
},
floor: d3_identity,
ceil: d3_identity
};
d3_time_scaleLocalMethods.year = d3_time.year;
d3_time.scale = function() {
return d3_time_scale(d3.scale.linear(), d3_time_scaleLocalMethods, d3_time_scaleLocalFormat);
};
var d3_time_scaleUtcMethods = d3_time_scaleLocalMethods.map(function(m) {
return [ m[0].utc, m[1] ];
});
var d3_time_scaleUtcFormat = d3_time_formatUtc.multi([ [ ".%L", function(d) {
return d.getUTCMilliseconds();
} ], [ ":%S", function(d) {
return d.getUTCSeconds();
} ], [ "%I:%M", function(d) {
return d.getUTCMinutes();
} ], [ "%I %p", function(d) {
return d.getUTCHours();
} ], [ "%a %d", function(d) {
return d.getUTCDay() && d.getUTCDate() != 1;
} ], [ "%b %d", function(d) {
return d.getUTCDate() != 1;
} ], [ "%B", function(d) {
return d.getUTCMonth();
} ], [ "%Y", d3_true ] ]);
d3_time_scaleUtcMethods.year = d3_time.year.utc;
d3_time.scale.utc = function() {
return d3_time_scale(d3.scale.linear(), d3_time_scaleUtcMethods, d3_time_scaleUtcFormat);
};
d3.text = d3_xhrType(function(request) {
return request.responseText;
});
d3.json = function(url, callback) {
return d3_xhr(url, "application/json", d3_json, callback);
};
function d3_json(request) {
return JSON.parse(request.responseText);
}
d3.html = function(url, callback) {
return d3_xhr(url, "text/html", d3_html, callback);
};
function d3_html(request) {
var range = d3_document.createRange();
range.selectNode(d3_document.body);
return range.createContextualFragment(request.responseText);
}
d3.xml = d3_xhrType(function(request) {
return request.responseXML;
});
if (typeof define === "function" && define.amd) this.d3 = d3, define(d3); else if (typeof module === "object" && module.exports) module.exports = d3; else this.d3 = d3;
}();
},{}],148:[function(_dereq_,module,exports){
module.exports = function () {
for (var i = 0; i < arguments.length; i++) {
if (arguments[i] !== undefined) return arguments[i];
}
};
},{}],149:[function(_dereq_,module,exports){
"use strict"
var ch = _dereq_("incremental-convex-hull")
var uniq = _dereq_("uniq")
module.exports = triangulate
function LiftedPoint(p, i) {
this.point = p
this.index = i
}
function compareLifted(a, b) {
var ap = a.point
var bp = b.point
var d = ap.length
for(var i=0; i<d; ++i) {
var s = bp[i] - ap[i]
if(s) {
return s
}
}
return 0
}
function triangulate1D(n, points, includePointAtInfinity) {
if(n === 1) {
if(includePointAtInfinity) {
return [ [-1, 0] ]
} else {
return []
}
}
var lifted = points.map(function(p, i) {
return [ p[0], i ]
})
lifted.sort(function(a,b) {
return a[0] - b[0]
})
var cells = new Array(n - 1)
for(var i=1; i<n; ++i) {
var a = lifted[i-1]
var b = lifted[i]
cells[i-1] = [ a[1], b[1] ]
}
if(includePointAtInfinity) {
cells.push(
[ -1, cells[0][1], ],
[ cells[n-1][1], -1 ])
}
return cells
}
function triangulate(points, includePointAtInfinity) {
var n = points.length
if(n === 0) {
return []
}
var d = points[0].length
if(d < 1) {
return []
}
//Special case: For 1D we can just sort the points
if(d === 1) {
return triangulate1D(n, points, includePointAtInfinity)
}
//Lift points, sort
var lifted = new Array(n)
var upper = 1.0
for(var i=0; i<n; ++i) {
var p = points[i]
var x = new Array(d+1)
var l = 0.0
for(var j=0; j<d; ++j) {
var v = p[j]
x[j] = v
l += v * v
}
x[d] = l
lifted[i] = new LiftedPoint(x, i)
upper = Math.max(l, upper)
}
uniq(lifted, compareLifted)
//Double points
n = lifted.length
//Create new list of points
var dpoints = new Array(n + d + 1)
var dindex = new Array(n + d + 1)
//Add steiner points at top
var u = (d+1) * (d+1) * upper
var y = new Array(d+1)
for(var i=0; i<=d; ++i) {
y[i] = 0.0
}
y[d] = u
dpoints[0] = y.slice()
dindex[0] = -1
for(var i=0; i<=d; ++i) {
var x = y.slice()
x[i] = 1
dpoints[i+1] = x
dindex[i+1] = -1
}
//Copy rest of the points over
for(var i=0; i<n; ++i) {
var h = lifted[i]
dpoints[i + d + 1] = h.point
dindex[i + d + 1] = h.index
}
//Construct convex hull
var hull = ch(dpoints, false)
if(includePointAtInfinity) {
hull = hull.filter(function(cell) {
var count = 0
for(var j=0; j<=d; ++j) {
var v = dindex[cell[j]]
if(v < 0) {
if(++count >= 2) {
return false
}
}
cell[j] = v
}
return true
})
} else {
hull = hull.filter(function(cell) {
for(var i=0; i<=d; ++i) {
var v = dindex[cell[i]]
if(v < 0) {
return false
}
cell[i] = v
}
return true
})
}
if(d & 1) {
for(var i=0; i<hull.length; ++i) {
var h = hull[i]
var x = h[0]
h[0] = h[1]
h[1] = x
}
}
return hull
}
},{"incremental-convex-hull":394,"uniq":521}],150:[function(_dereq_,module,exports){
'use strict'
module.exports = kerning
var canvas = kerning.canvas = document.createElement('canvas')
var ctx = canvas.getContext('2d')
var asciiPairs = createPairs([32, 126])
kerning.createPairs = createPairs
kerning.ascii = asciiPairs
function kerning (family, o) {
if (Array.isArray(family)) family = family.join(', ')
var table = {}, pairs, fs = 16, threshold = .05
if (o) {
if (o.length === 2 && typeof o[0] === 'number') {
pairs = createPairs(o)
}
else if (Array.isArray(o)) {
pairs = o
}
else {
if (o.o) pairs = createPairs(o.o)
else if (o.pairs) pairs = o.pairs
if (o.fontSize) fs = o.fontSize
if (o.threshold != null) threshold = o.threshold
}
}
if (!pairs) pairs = asciiPairs
ctx.font = fs + 'px ' + family
for (var i = 0; i < pairs.length; i++) {
var pair = pairs[i]
var width = ctx.measureText(pair[0]).width + ctx.measureText(pair[1]).width
var kerningWidth = ctx.measureText(pair).width
if (Math.abs(width - kerningWidth) > fs * threshold) {
var emWidth = (kerningWidth - width) / fs
table[pair] = emWidth * 1000
}
}
return table
}
function createPairs (range) {
var pairs = []
for (var i = range[0]; i <= range[1]; i++) {
var leftChar = String.fromCharCode(i)
for (var j = range[0]; j < range[1]; j++) {
var rightChar = String.fromCharCode(j)
var pair = leftChar + rightChar
pairs.push(pair)
}
}
return pairs
}
},{}],151:[function(_dereq_,module,exports){
(function (Buffer){
var hasTypedArrays = false
if(typeof Float64Array !== "undefined") {
var DOUBLE_VIEW = new Float64Array(1)
, UINT_VIEW = new Uint32Array(DOUBLE_VIEW.buffer)
DOUBLE_VIEW[0] = 1.0
hasTypedArrays = true
if(UINT_VIEW[1] === 0x3ff00000) {
//Use little endian
module.exports = function doubleBitsLE(n) {
DOUBLE_VIEW[0] = n
return [ UINT_VIEW[0], UINT_VIEW[1] ]
}
function toDoubleLE(lo, hi) {
UINT_VIEW[0] = lo
UINT_VIEW[1] = hi
return DOUBLE_VIEW[0]
}
module.exports.pack = toDoubleLE
function lowUintLE(n) {
DOUBLE_VIEW[0] = n
return UINT_VIEW[0]
}
module.exports.lo = lowUintLE
function highUintLE(n) {
DOUBLE_VIEW[0] = n
return UINT_VIEW[1]
}
module.exports.hi = highUintLE
} else if(UINT_VIEW[0] === 0x3ff00000) {
//Use big endian
module.exports = function doubleBitsBE(n) {
DOUBLE_VIEW[0] = n
return [ UINT_VIEW[1], UINT_VIEW[0] ]
}
function toDoubleBE(lo, hi) {
UINT_VIEW[1] = lo
UINT_VIEW[0] = hi
return DOUBLE_VIEW[0]
}
module.exports.pack = toDoubleBE
function lowUintBE(n) {
DOUBLE_VIEW[0] = n
return UINT_VIEW[1]
}
module.exports.lo = lowUintBE
function highUintBE(n) {
DOUBLE_VIEW[0] = n
return UINT_VIEW[0]
}
module.exports.hi = highUintBE
} else {
hasTypedArrays = false
}
}
if(!hasTypedArrays) {
var buffer = new Buffer(8)
module.exports = function doubleBits(n) {
buffer.writeDoubleLE(n, 0, true)
return [ buffer.readUInt32LE(0, true), buffer.readUInt32LE(4, true) ]
}
function toDouble(lo, hi) {
buffer.writeUInt32LE(lo, 0, true)
buffer.writeUInt32LE(hi, 4, true)
return buffer.readDoubleLE(0, true)
}
module.exports.pack = toDouble
function lowUint(n) {
buffer.writeDoubleLE(n, 0, true)
return buffer.readUInt32LE(0, true)
}
module.exports.lo = lowUint
function highUint(n) {
buffer.writeDoubleLE(n, 0, true)
return buffer.readUInt32LE(4, true)
}
module.exports.hi = highUint
}
module.exports.sign = function(n) {
return module.exports.hi(n) >>> 31
}
module.exports.exponent = function(n) {
var b = module.exports.hi(n)
return ((b<<1) >>> 21) - 1023
}
module.exports.fraction = function(n) {
var lo = module.exports.lo(n)
var hi = module.exports.hi(n)
var b = hi & ((1<<20) - 1)
if(hi & 0x7ff00000) {
b += (1<<20)
}
return [lo, b]
}
module.exports.denormalized = function(n) {
var hi = module.exports.hi(n)
return !(hi & 0x7ff00000)
}
}).call(this,_dereq_("buffer").Buffer)
},{"buffer":92}],152:[function(_dereq_,module,exports){
var abs = _dereq_('abs-svg-path')
var normalize = _dereq_('normalize-svg-path')
var methods = {
'M': 'moveTo',
'C': 'bezierCurveTo'
}
module.exports = function(context, segments) {
context.beginPath()
// Make path easy to reproduce.
normalize(abs(segments)).forEach(
function(segment) {
var command = segment[0]
var args = segment.slice(1)
// Convert the path command to a context method.
context[methods[command]].apply(context, args)
}
)
context.closePath()
}
},{"abs-svg-path":47,"normalize-svg-path":432}],153:[function(_dereq_,module,exports){
module.exports = function(dtype) {
switch (dtype) {
case 'int8':
return Int8Array
case 'int16':
return Int16Array
case 'int32':
return Int32Array
case 'uint8':
return Uint8Array
case 'uint16':
return Uint16Array
case 'uint32':
return Uint32Array
case 'float32':
return Float32Array
case 'float64':
return Float64Array
case 'array':
return Array
case 'uint8_clamped':
return Uint8ClampedArray
}
}
},{}],154:[function(_dereq_,module,exports){
"use strict"
function dupe_array(count, value, i) {
var c = count[i]|0
if(c <= 0) {
return []
}
var result = new Array(c), j
if(i === count.length-1) {
for(j=0; j<c; ++j) {
result[j] = value
}
} else {
for(j=0; j<c; ++j) {
result[j] = dupe_array(count, value, i+1)
}
}
return result
}
function dupe_number(count, value) {
var result, i
result = new Array(count)
for(i=0; i<count; ++i) {
result[i] = value
}
return result
}
function dupe(count, value) {
if(typeof value === "undefined") {
value = 0
}
switch(typeof count) {
case "number":
if(count > 0) {
return dupe_number(count|0, value)
}
break
case "object":
if(typeof (count.length) === "number") {
return dupe_array(count, value, 0)
}
break
}
return []
}
module.exports = dupe
},{}],155:[function(_dereq_,module,exports){
'use strict';
module.exports = earcut;
module.exports.default = earcut;
function earcut(data, holeIndices, dim) {
dim = dim || 2;
var hasHoles = holeIndices && holeIndices.length,
outerLen = hasHoles ? holeIndices[0] * dim : data.length,
outerNode = linkedList(data, 0, outerLen, dim, true),
triangles = [];
if (!outerNode) return triangles;
var minX, minY, maxX, maxY, x, y, invSize;
if (hasHoles) outerNode = eliminateHoles(data, holeIndices, outerNode, dim);
// if the shape is not too simple, we'll use z-order curve hash later; calculate polygon bbox
if (data.length > 80 * dim) {
minX = maxX = data[0];
minY = maxY = data[1];
for (var i = dim; i < outerLen; i += dim) {
x = data[i];
y = data[i + 1];
if (x < minX) minX = x;
if (y < minY) minY = y;
if (x > maxX) maxX = x;
if (y > maxY) maxY = y;
}
// minX, minY and invSize are later used to transform coords into integers for z-order calculation
invSize = Math.max(maxX - minX, maxY - minY);
invSize = invSize !== 0 ? 1 / invSize : 0;
}
earcutLinked(outerNode, triangles, dim, minX, minY, invSize);
return triangles;
}
// create a circular doubly linked list from polygon points in the specified winding order
function linkedList(data, start, end, dim, clockwise) {
var i, last;
if (clockwise === (signedArea(data, start, end, dim) > 0)) {
for (i = start; i < end; i += dim) last = insertNode(i, data[i], data[i + 1], last);
} else {
for (i = end - dim; i >= start; i -= dim) last = insertNode(i, data[i], data[i + 1], last);
}
if (last && equals(last, last.next)) {
removeNode(last);
last = last.next;
}
return last;
}
// eliminate colinear or duplicate points
function filterPoints(start, end) {
if (!start) return start;
if (!end) end = start;
var p = start,
again;
do {
again = false;
if (!p.steiner && (equals(p, p.next) || area(p.prev, p, p.next) === 0)) {
removeNode(p);
p = end = p.prev;
if (p === p.next) break;
again = true;
} else {
p = p.next;
}
} while (again || p !== end);
return end;
}
// main ear slicing loop which triangulates a polygon (given as a linked list)
function earcutLinked(ear, triangles, dim, minX, minY, invSize, pass) {
if (!ear) return;
// interlink polygon nodes in z-order
if (!pass && invSize) indexCurve(ear, minX, minY, invSize);
var stop = ear,
prev, next;
// iterate through ears, slicing them one by one
while (ear.prev !== ear.next) {
prev = ear.prev;
next = ear.next;
if (invSize ? isEarHashed(ear, minX, minY, invSize) : isEar(ear)) {
// cut off the triangle
triangles.push(prev.i / dim);
triangles.push(ear.i / dim);
triangles.push(next.i / dim);
removeNode(ear);
// skipping the next vertice leads to less sliver triangles
ear = next.next;
stop = next.next;
continue;
}
ear = next;
// if we looped through the whole remaining polygon and can't find any more ears
if (ear === stop) {
// try filtering points and slicing again
if (!pass) {
earcutLinked(filterPoints(ear), triangles, dim, minX, minY, invSize, 1);
// if this didn't work, try curing all small self-intersections locally
} else if (pass === 1) {
ear = cureLocalIntersections(ear, triangles, dim);
earcutLinked(ear, triangles, dim, minX, minY, invSize, 2);
// as a last resort, try splitting the remaining polygon into two
} else if (pass === 2) {
splitEarcut(ear, triangles, dim, minX, minY, invSize);
}
break;
}
}
}
// check whether a polygon node forms a valid ear with adjacent nodes
function isEar(ear) {
var a = ear.prev,
b = ear,
c = ear.next;
if (area(a, b, c) >= 0) return false; // reflex, can't be an ear
// now make sure we don't have other points inside the potential ear
var p = ear.next.next;
while (p !== ear.prev) {
if (pointInTriangle(a.x, a.y, b.x, b.y, c.x, c.y, p.x, p.y) &&
area(p.prev, p, p.next) >= 0) return false;
p = p.next;
}
return true;
}
function isEarHashed(ear, minX, minY, invSize) {
var a = ear.prev,
b = ear,
c = ear.next;
if (area(a, b, c) >= 0) return false; // reflex, can't be an ear
// triangle bbox; min & max are calculated like this for speed
var minTX = a.x < b.x ? (a.x < c.x ? a.x : c.x) : (b.x < c.x ? b.x : c.x),
minTY = a.y < b.y ? (a.y < c.y ? a.y : c.y) : (b.y < c.y ? b.y : c.y),
maxTX = a.x > b.x ? (a.x > c.x ? a.x : c.x) : (b.x > c.x ? b.x : c.x),
maxTY = a.y > b.y ? (a.y > c.y ? a.y : c.y) : (b.y > c.y ? b.y : c.y);
// z-order range for the current triangle bbox;
var minZ = zOrder(minTX, minTY, minX, minY, invSize),
maxZ = zOrder(maxTX, maxTY, minX, minY, invSize);
var p = ear.prevZ,
n = ear.nextZ;
// look for points inside the triangle in both directions
while (p && p.z >= minZ && n && n.z <= maxZ) {
if (p !== ear.prev && p !== ear.next &&
pointInTriangle(a.x, a.y, b.x, b.y, c.x, c.y, p.x, p.y) &&
area(p.prev, p, p.next) >= 0) return false;
p = p.prevZ;
if (n !== ear.prev && n !== ear.next &&
pointInTriangle(a.x, a.y, b.x, b.y, c.x, c.y, n.x, n.y) &&
area(n.prev, n, n.next) >= 0) return false;
n = n.nextZ;
}
// look for remaining points in decreasing z-order
while (p && p.z >= minZ) {
if (p !== ear.prev && p !== ear.next &&
pointInTriangle(a.x, a.y, b.x, b.y, c.x, c.y, p.x, p.y) &&
area(p.prev, p, p.next) >= 0) return false;
p = p.prevZ;
}
// look for remaining points in increasing z-order
while (n && n.z <= maxZ) {
if (n !== ear.prev && n !== ear.next &&
pointInTriangle(a.x, a.y, b.x, b.y, c.x, c.y, n.x, n.y) &&
area(n.prev, n, n.next) >= 0) return false;
n = n.nextZ;
}
return true;
}
// go through all polygon nodes and cure small local self-intersections
function cureLocalIntersections(start, triangles, dim) {
var p = start;
do {
var a = p.prev,
b = p.next.next;
if (!equals(a, b) && intersects(a, p, p.next, b) && locallyInside(a, b) && locallyInside(b, a)) {
triangles.push(a.i / dim);
triangles.push(p.i / dim);
triangles.push(b.i / dim);
// remove two nodes involved
removeNode(p);
removeNode(p.next);
p = start = b;
}
p = p.next;
} while (p !== start);
return p;
}
// try splitting polygon into two and triangulate them independently
function splitEarcut(start, triangles, dim, minX, minY, invSize) {
// look for a valid diagonal that divides the polygon into two
var a = start;
do {
var b = a.next.next;
while (b !== a.prev) {
if (a.i !== b.i && isValidDiagonal(a, b)) {
// split the polygon in two by the diagonal
var c = splitPolygon(a, b);
// filter colinear points around the cuts
a = filterPoints(a, a.next);
c = filterPoints(c, c.next);
// run earcut on each half
earcutLinked(a, triangles, dim, minX, minY, invSize);
earcutLinked(c, triangles, dim, minX, minY, invSize);
return;
}
b = b.next;
}
a = a.next;
} while (a !== start);
}
// link every hole into the outer loop, producing a single-ring polygon without holes
function eliminateHoles(data, holeIndices, outerNode, dim) {
var queue = [],
i, len, start, end, list;
for (i = 0, len = holeIndices.length; i < len; i++) {
start = holeIndices[i] * dim;
end = i < len - 1 ? holeIndices[i + 1] * dim : data.length;
list = linkedList(data, start, end, dim, false);
if (list === list.next) list.steiner = true;
queue.push(getLeftmost(list));
}
queue.sort(compareX);
// process holes from left to right
for (i = 0; i < queue.length; i++) {
eliminateHole(queue[i], outerNode);
outerNode = filterPoints(outerNode, outerNode.next);
}
return outerNode;
}
function compareX(a, b) {
return a.x - b.x;
}
// find a bridge between vertices that connects hole with an outer ring and and link it
function eliminateHole(hole, outerNode) {
outerNode = findHoleBridge(hole, outerNode);
if (outerNode) {
var b = splitPolygon(outerNode, hole);
filterPoints(b, b.next);
}
}
// David Eberly's algorithm for finding a bridge between hole and outer polygon
function findHoleBridge(hole, outerNode) {
var p = outerNode,
hx = hole.x,
hy = hole.y,
qx = -Infinity,
m;
// find a segment intersected by a ray from the hole's leftmost point to the left;
// segment's endpoint with lesser x will be potential connection point
do {
if (hy <= p.y && hy >= p.next.y && p.next.y !== p.y) {
var x = p.x + (hy - p.y) * (p.next.x - p.x) / (p.next.y - p.y);
if (x <= hx && x > qx) {
qx = x;
if (x === hx) {
if (hy === p.y) return p;
if (hy === p.next.y) return p.next;
}
m = p.x < p.next.x ? p : p.next;
}
}
p = p.next;
} while (p !== outerNode);
if (!m) return null;
if (hx === qx) return m.prev; // hole touches outer segment; pick lower endpoint
// look for points inside the triangle of hole point, segment intersection and endpoint;
// if there are no points found, we have a valid connection;
// otherwise choose the point of the minimum angle with the ray as connection point
var stop = m,
mx = m.x,
my = m.y,
tanMin = Infinity,
tan;
p = m.next;
while (p !== stop) {
if (hx >= p.x && p.x >= mx && hx !== p.x &&
pointInTriangle(hy < my ? hx : qx, hy, mx, my, hy < my ? qx : hx, hy, p.x, p.y)) {
tan = Math.abs(hy - p.y) / (hx - p.x); // tangential
if ((tan < tanMin || (tan === tanMin && p.x > m.x)) && locallyInside(p, hole)) {
m = p;
tanMin = tan;
}
}
p = p.next;
}
return m;
}
// interlink polygon nodes in z-order
function indexCurve(start, minX, minY, invSize) {
var p = start;
do {
if (p.z === null) p.z = zOrder(p.x, p.y, minX, minY, invSize);
p.prevZ = p.prev;
p.nextZ = p.next;
p = p.next;
} while (p !== start);
p.prevZ.nextZ = null;
p.prevZ = null;
sortLinked(p);
}
// Simon Tatham's linked list merge sort algorithm
// http://www.chiark.greenend.org.uk/~sgtatham/algorithms/listsort.html
function sortLinked(list) {
var i, p, q, e, tail, numMerges, pSize, qSize,
inSize = 1;
do {
p = list;
list = null;
tail = null;
numMerges = 0;
while (p) {
numMerges++;
q = p;
pSize = 0;
for (i = 0; i < inSize; i++) {
pSize++;
q = q.nextZ;
if (!q) break;
}
qSize = inSize;
while (pSize > 0 || (qSize > 0 && q)) {
if (pSize !== 0 && (qSize === 0 || !q || p.z <= q.z)) {
e = p;
p = p.nextZ;
pSize--;
} else {
e = q;
q = q.nextZ;
qSize--;
}
if (tail) tail.nextZ = e;
else list = e;
e.prevZ = tail;
tail = e;
}
p = q;
}
tail.nextZ = null;
inSize *= 2;
} while (numMerges > 1);
return list;
}
// z-order of a point given coords and inverse of the longer side of data bbox
function zOrder(x, y, minX, minY, invSize) {
// coords are transformed into non-negative 15-bit integer range
x = 32767 * (x - minX) * invSize;
y = 32767 * (y - minY) * invSize;
x = (x | (x << 8)) & 0x00FF00FF;
x = (x | (x << 4)) & 0x0F0F0F0F;
x = (x | (x << 2)) & 0x33333333;
x = (x | (x << 1)) & 0x55555555;
y = (y | (y << 8)) & 0x00FF00FF;
y = (y | (y << 4)) & 0x0F0F0F0F;
y = (y | (y << 2)) & 0x33333333;
y = (y | (y << 1)) & 0x55555555;
return x | (y << 1);
}
// find the leftmost node of a polygon ring
function getLeftmost(start) {
var p = start,
leftmost = start;
do {
if (p.x < leftmost.x) leftmost = p;
p = p.next;
} while (p !== start);
return leftmost;
}
// check if a point lies within a convex triangle
function pointInTriangle(ax, ay, bx, by, cx, cy, px, py) {
return (cx - px) * (ay - py) - (ax - px) * (cy - py) >= 0 &&
(ax - px) * (by - py) - (bx - px) * (ay - py) >= 0 &&
(bx - px) * (cy - py) - (cx - px) * (by - py) >= 0;
}
// check if a diagonal between two polygon nodes is valid (lies in polygon interior)
function isValidDiagonal(a, b) {
return a.next.i !== b.i && a.prev.i !== b.i && !intersectsPolygon(a, b) &&
locallyInside(a, b) && locallyInside(b, a) && middleInside(a, b);
}
// signed area of a triangle
function area(p, q, r) {
return (q.y - p.y) * (r.x - q.x) - (q.x - p.x) * (r.y - q.y);
}
// check if two points are equal
function equals(p1, p2) {
return p1.x === p2.x && p1.y === p2.y;
}
// check if two segments intersect
function intersects(p1, q1, p2, q2) {
if ((equals(p1, q1) && equals(p2, q2)) ||
(equals(p1, q2) && equals(p2, q1))) return true;
return area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 &&
area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;
}
// check if a polygon diagonal intersects any polygon segments
function intersectsPolygon(a, b) {
var p = a;
do {
if (p.i !== a.i && p.next.i !== a.i && p.i !== b.i && p.next.i !== b.i &&
intersects(p, p.next, a, b)) return true;
p = p.next;
} while (p !== a);
return false;
}
// check if a polygon diagonal is locally inside the polygon
function locallyInside(a, b) {
return area(a.prev, a, a.next) < 0 ?
area(a, b, a.next) >= 0 && area(a, a.prev, b) >= 0 :
area(a, b, a.prev) < 0 || area(a, a.next, b) < 0;
}
// check if the middle point of a polygon diagonal is inside the polygon
function middleInside(a, b) {
var p = a,
inside = false,
px = (a.x + b.x) / 2,
py = (a.y + b.y) / 2;
do {
if (((p.y > py) !== (p.next.y > py)) && p.next.y !== p.y &&
(px < (p.next.x - p.x) * (py - p.y) / (p.next.y - p.y) + p.x))
inside = !inside;
p = p.next;
} while (p !== a);
return inside;
}
// link two polygon vertices with a bridge; if the vertices belong to the same ring, it splits polygon into two;
// if one belongs to the outer ring and another to a hole, it merges it into a single ring
function splitPolygon(a, b) {
var a2 = new Node(a.i, a.x, a.y),
b2 = new Node(b.i, b.x, b.y),
an = a.next,
bp = b.prev;
a.next = b;
b.prev = a;
a2.next = an;
an.prev = a2;
b2.next = a2;
a2.prev = b2;
bp.next = b2;
b2.prev = bp;
return b2;
}
// create a node and optionally link it with previous one (in a circular doubly linked list)
function insertNode(i, x, y, last) {
var p = new Node(i, x, y);
if (!last) {
p.prev = p;
p.next = p;
} else {
p.next = last.next;
p.prev = last;
last.next.prev = p;
last.next = p;
}
return p;
}
function removeNode(p) {
p.next.prev = p.prev;
p.prev.next = p.next;
if (p.prevZ) p.prevZ.nextZ = p.nextZ;
if (p.nextZ) p.nextZ.prevZ = p.prevZ;
}
function Node(i, x, y) {
// vertice index in coordinates array
this.i = i;
// vertex coordinates
this.x = x;
this.y = y;
// previous and next vertice nodes in a polygon ring
this.prev = null;
this.next = null;
// z-order curve value
this.z = null;
// previous and next nodes in z-order
this.prevZ = null;
this.nextZ = null;
// indicates whether this is a steiner point
this.steiner = false;
}
// return a percentage difference between the polygon area and its triangulation area;
// used to verify correctness of triangulation
earcut.deviation = function (data, holeIndices, dim, triangles) {
var hasHoles = holeIndices && holeIndices.length;
var outerLen = hasHoles ? holeIndices[0] * dim : data.length;
var polygonArea = Math.abs(signedArea(data, 0, outerLen, dim));
if (hasHoles) {
for (var i = 0, len = holeIndices.length; i < len; i++) {
var start = holeIndices[i] * dim;
var end = i < len - 1 ? holeIndices[i + 1] * dim : data.length;
polygonArea -= Math.abs(signedArea(data, start, end, dim));
}
}
var trianglesArea = 0;
for (i = 0; i < triangles.length; i += 3) {
var a = triangles[i] * dim;
var b = triangles[i + 1] * dim;
var c = triangles[i + 2] * dim;
trianglesArea += Math.abs(
(data[a] - data[c]) * (data[b + 1] - data[a + 1]) -
(data[a] - data[b]) * (data[c + 1] - data[a + 1]));
}
return polygonArea === 0 && trianglesArea === 0 ? 0 :
Math.abs((trianglesArea - polygonArea) / polygonArea);
};
function signedArea(data, start, end, dim) {
var sum = 0;
for (var i = start, j = end - dim; i < end; i += dim) {
sum += (data[j] - data[i]) * (data[i + 1] + data[j + 1]);
j = i;
}
return sum;
}
// turn a polygon in a multi-dimensional array form (e.g. as in GeoJSON) into a form Earcut accepts
earcut.flatten = function (data) {
var dim = data[0][0].length,
result = {vertices: [], holes: [], dimensions: dim},
holeIndex = 0;
for (var i = 0; i < data.length; i++) {
for (var j = 0; j < data[i].length; j++) {
for (var d = 0; d < dim; d++) result.vertices.push(data[i][j][d]);
}
if (i > 0) {
holeIndex += data[i - 1].length;
result.holes.push(holeIndex);
}
}
return result;
};
},{}],156:[function(_dereq_,module,exports){
"use strict"
module.exports = edgeToAdjacency
var uniq = _dereq_("uniq")
function edgeToAdjacency(edges, numVertices) {
var numEdges = edges.length
if(typeof numVertices !== "number") {
numVertices = 0
for(var i=0; i<numEdges; ++i) {
var e = edges[i]
numVertices = Math.max(numVertices, e[0], e[1])
}
numVertices = (numVertices|0) + 1
}
numVertices = numVertices|0
var adj = new Array(numVertices)
for(var i=0; i<numVertices; ++i) {
adj[i] = []
}
for(var i=0; i<numEdges; ++i) {
var e = edges[i]
adj[e[0]].push(e[1])
adj[e[1]].push(e[0])
}
for(var j=0; j<numVertices; ++j) {
uniq(adj[j], function(a, b) {
return a - b
})
}
return adj
}
},{"uniq":521}],157:[function(_dereq_,module,exports){
// Inspired by Google Closure:
// http://closure-library.googlecode.com/svn/docs/
// closure_goog_array_array.js.html#goog.array.clear
"use strict";
var value = _dereq_("../../object/valid-value");
module.exports = function () {
value(this).length = 0;
return this;
};
},{"../../object/valid-value":189}],158:[function(_dereq_,module,exports){
"use strict";
module.exports = _dereq_("./is-implemented")()
? Array.from
: _dereq_("./shim");
},{"./is-implemented":159,"./shim":160}],159:[function(_dereq_,module,exports){
"use strict";
module.exports = function () {
var from = Array.from, arr, result;
if (typeof from !== "function") return false;
arr = ["raz", "dwa"];
result = from(arr);
return Boolean(result && (result !== arr) && (result[1] === "dwa"));
};
},{}],160:[function(_dereq_,module,exports){
"use strict";
var iteratorSymbol = _dereq_("es6-symbol").iterator
, isArguments = _dereq_("../../function/is-arguments")
, isFunction = _dereq_("../../function/is-function")
, toPosInt = _dereq_("../../number/to-pos-integer")
, callable = _dereq_("../../object/valid-callable")
, validValue = _dereq_("../../object/valid-value")
, isValue = _dereq_("../../object/is-value")
, isString = _dereq_("../../string/is-string")
, isArray = Array.isArray
, call = Function.prototype.call
, desc = { configurable: true, enumerable: true, writable: true, value: null }
, defineProperty = Object.defineProperty;
// eslint-disable-next-line complexity
module.exports = function (arrayLike /*, mapFn, thisArg*/) {
var mapFn = arguments[1]
, thisArg = arguments[2]
, Context
, i
, j
, arr
, length
, code
, iterator
, result
, getIterator
, value;
arrayLike = Object(validValue(arrayLike));
if (isValue(mapFn)) callable(mapFn);
if (!this || this === Array || !isFunction(this)) {
// Result: Plain array
if (!mapFn) {
if (isArguments(arrayLike)) {
// Source: Arguments
length = arrayLike.length;
if (length !== 1) return Array.apply(null, arrayLike);
arr = new Array(1);
arr[0] = arrayLike[0];
return arr;
}
if (isArray(arrayLike)) {
// Source: Array
arr = new Array(length = arrayLike.length);
for (i = 0; i < length; ++i) arr[i] = arrayLike[i];
return arr;
}
}
arr = [];
} else {
// Result: Non plain array
Context = this;
}
if (!isArray(arrayLike)) {
if ((getIterator = arrayLike[iteratorSymbol]) !== undefined) {
// Source: Iterator
iterator = callable(getIterator).call(arrayLike);
if (Context) arr = new Context();
result = iterator.next();
i = 0;
while (!result.done) {
value = mapFn ? call.call(mapFn, thisArg, result.value, i) : result.value;
if (Context) {
desc.value = value;
defineProperty(arr, i, desc);
} else {
arr[i] = value;
}
result = iterator.next();
++i;
}
length = i;
} else if (isString(arrayLike)) {
// Source: String
length = arrayLike.length;
if (Context) arr = new Context();
for (i = 0, j = 0; i < length; ++i) {
value = arrayLike[i];
if (i + 1 < length) {
code = value.charCodeAt(0);
// eslint-disable-next-line max-depth
if (code >= 0xd800 && code <= 0xdbff) value += arrayLike[++i];
}
value = mapFn ? call.call(mapFn, thisArg, value, j) : value;
if (Context) {
desc.value = value;
defineProperty(arr, j, desc);
} else {
arr[j] = value;
}
++j;
}
length = j;
}
}
if (length === undefined) {
// Source: array or array-like
length = toPosInt(arrayLike.length);
if (Context) arr = new Context(length);
for (i = 0; i < length; ++i) {
value = mapFn ? call.call(mapFn, thisArg, arrayLike[i], i) : arrayLike[i];
if (Context) {
desc.value = value;
defineProperty(arr, i, desc);
} else {
arr[i] = value;
}
}
}
if (Context) {
desc.value = null;
arr.length = length;
}
return arr;
};
},{"../../function/is-arguments":161,"../../function/is-function":162,"../../number/to-pos-integer":168,"../../object/is-value":178,"../../object/valid-callable":187,"../../object/valid-value":189,"../../string/is-string":193,"es6-symbol":203}],161:[function(_dereq_,module,exports){
"use strict";
var objToString = Object.prototype.toString
, id = objToString.call(
(function () {
return arguments;
})()
);
module.exports = function (value) {
return objToString.call(value) === id;
};
},{}],162:[function(_dereq_,module,exports){
"use strict";
var objToString = Object.prototype.toString, id = objToString.call(_dereq_("./noop"));
module.exports = function (value) {
return typeof value === "function" && objToString.call(value) === id;
};
},{"./noop":163}],163:[function(_dereq_,module,exports){
"use strict";
// eslint-disable-next-line no-empty-function
module.exports = function () {};
},{}],164:[function(_dereq_,module,exports){
"use strict";
module.exports = _dereq_("./is-implemented")()
? Math.sign
: _dereq_("./shim");
},{"./is-implemented":165,"./shim":166}],165:[function(_dereq_,module,exports){
"use strict";
module.exports = function () {
var sign = Math.sign;
if (typeof sign !== "function") return false;
return (sign(10) === 1) && (sign(-20) === -1);
};
},{}],166:[function(_dereq_,module,exports){
"use strict";
module.exports = function (value) {
value = Number(value);
if (isNaN(value) || (value === 0)) return value;
return value > 0 ? 1 : -1;
};
},{}],167:[function(_dereq_,module,exports){
"use strict";
var sign = _dereq_("../math/sign")
, abs = Math.abs, floor = Math.floor;
module.exports = function (value) {
if (isNaN(value)) return 0;
value = Number(value);
if ((value === 0) || !isFinite(value)) return value;
return sign(value) * floor(abs(value));
};
},{"../math/sign":164}],168:[function(_dereq_,module,exports){
"use strict";
var toInteger = _dereq_("./to-integer")
, max = Math.max;
module.exports = function (value) {
return max(0, toInteger(value));
};
},{"./to-integer":167}],169:[function(_dereq_,module,exports){
// Internal method, used by iteration functions.
// Calls a function for each key-value pair found in object
// Optionally takes compareFn to iterate object in specific order
"use strict";
var callable = _dereq_("./valid-callable")
, value = _dereq_("./valid-value")
, bind = Function.prototype.bind
, call = Function.prototype.call
, keys = Object.keys
, objPropertyIsEnumerable = Object.prototype.propertyIsEnumerable;
module.exports = function (method, defVal) {
return function (obj, cb /*, thisArg, compareFn*/) {
var list, thisArg = arguments[2], compareFn = arguments[3];
obj = Object(value(obj));
callable(cb);
list = keys(obj);
if (compareFn) {
list.sort(typeof compareFn === "function" ? bind.call(compareFn, obj) : undefined);
}
if (typeof method !== "function") method = list[method];
return call.call(method, list, function (key, index) {
if (!objPropertyIsEnumerable.call(obj, key)) return defVal;
return call.call(cb, thisArg, obj[key], key, obj, index);
});
};
};
},{"./valid-callable":187,"./valid-value":189}],170:[function(_dereq_,module,exports){
"use strict";
module.exports = _dereq_("./is-implemented")()
? Object.assign
: _dereq_("./shim");
},{"./is-implemented":171,"./shim":172}],171:[function(_dereq_,module,exports){
"use strict";
module.exports = function () {
var assign = Object.assign, obj;
if (typeof assign !== "function") return false;
obj = { foo: "raz" };
assign(obj, { bar: "dwa" }, { trzy: "trzy" });
return (obj.foo + obj.bar + obj.trzy) === "razdwatrzy";
};
},{}],172:[function(_dereq_,module,exports){
"use strict";
var keys = _dereq_("../keys")
, value = _dereq_("../valid-value")
, max = Math.max;
module.exports = function (dest, src /*, …srcn*/) {
var error, i, length = max(arguments.length, 2), assign;
dest = Object(value(dest));
assign = function (key) {
try {
dest[key] = src[key];
} catch (e) {
if (!error) error = e;
}
};
for (i = 1; i < length; ++i) {
src = arguments[i];
keys(src).forEach(assign);
}
if (error !== undefined) throw error;
return dest;
};
},{"../keys":179,"../valid-value":189}],173:[function(_dereq_,module,exports){
"use strict";
var aFrom = _dereq_("../array/from")
, assign = _dereq_("./assign")
, value = _dereq_("./valid-value");
module.exports = function (obj/*, propertyNames, options*/) {
var copy = Object(value(obj)), propertyNames = arguments[1], options = Object(arguments[2]);
if (copy !== obj && !propertyNames) return copy;
var result = {};
if (propertyNames) {
aFrom(propertyNames, function (propertyName) {
if (options.ensure || propertyName in obj) result[propertyName] = obj[propertyName];
});
} else {
assign(result, obj);
}
return result;
};
},{"../array/from":158,"./assign":170,"./valid-value":189}],174:[function(_dereq_,module,exports){
// Workaround for http://code.google.com/p/v8/issues/detail?id=2804
"use strict";
var create = Object.create, shim;
if (!_dereq_("./set-prototype-of/is-implemented")()) {
shim = _dereq_("./set-prototype-of/shim");
}
module.exports = (function () {
var nullObject, polyProps, desc;
if (!shim) return create;
if (shim.level !== 1) return create;
nullObject = {};
polyProps = {};
desc = {
configurable: false,
enumerable: false,
writable: true,
value: undefined
};
Object.getOwnPropertyNames(Object.prototype).forEach(function (name) {
if (name === "__proto__") {
polyProps[name] = {
configurable: true,
enumerable: false,
writable: true,
value: undefined
};
return;
}
polyProps[name] = desc;
});
Object.defineProperties(nullObject, polyProps);
Object.defineProperty(shim, "nullPolyfill", {
configurable: false,
enumerable: false,
writable: false,
value: nullObject
});
return function (prototype, props) {
return create(prototype === null ? nullObject : prototype, props);
};
}());
},{"./set-prototype-of/is-implemented":185,"./set-prototype-of/shim":186}],175:[function(_dereq_,module,exports){
"use strict";
module.exports = _dereq_("./_iterate")("forEach");
},{"./_iterate":169}],176:[function(_dereq_,module,exports){
// Deprecated
"use strict";
module.exports = function (obj) {
return typeof obj === "function";
};
},{}],177:[function(_dereq_,module,exports){
"use strict";
var isValue = _dereq_("./is-value");
var map = { function: true, object: true };
module.exports = function (value) {
return (isValue(value) && map[typeof value]) || false;
};
},{"./is-value":178}],178:[function(_dereq_,module,exports){
"use strict";
var _undefined = _dereq_("../function/noop")(); // Support ES3 engines
module.exports = function (val) {
return (val !== _undefined) && (val !== null);
};
},{"../function/noop":163}],179:[function(_dereq_,module,exports){
"use strict";
module.exports = _dereq_("./is-implemented")() ? Object.keys : _dereq_("./shim");
},{"./is-implemented":180,"./shim":181}],180:[function(_dereq_,module,exports){
"use strict";
module.exports = function () {
try {
Object.keys("primitive");
return true;
} catch (e) {
return false;
}
};
},{}],181:[function(_dereq_,module,exports){
"use strict";
var isValue = _dereq_("../is-value");
var keys = Object.keys;
module.exports = function (object) { return keys(isValue(object) ? Object(object) : object); };
},{"../is-value":178}],182:[function(_dereq_,module,exports){
"use strict";
var callable = _dereq_("./valid-callable")
, forEach = _dereq_("./for-each")
, call = Function.prototype.call;
module.exports = function (obj, cb /*, thisArg*/) {
var result = {}, thisArg = arguments[2];
callable(cb);
forEach(obj, function (value, key, targetObj, index) {
result[key] = call.call(cb, thisArg, value, key, targetObj, index);
});
return result;
};
},{"./for-each":175,"./valid-callable":187}],183:[function(_dereq_,module,exports){
"use strict";
var isValue = _dereq_("./is-value");
var forEach = Array.prototype.forEach, create = Object.create;
var process = function (src, obj) {
var key;
for (key in src) obj[key] = src[key];
};
// eslint-disable-next-line no-unused-vars
module.exports = function (opts1 /*, …options*/) {
var result = create(null);
forEach.call(arguments, function (options) {
if (!isValue(options)) return;
process(Object(options), result);
});
return result;
};
},{"./is-value":178}],184:[function(_dereq_,module,exports){
"use strict";
module.exports = _dereq_("./is-implemented")()
? Object.setPrototypeOf
: _dereq_("./shim");
},{"./is-implemented":185,"./shim":186}],185:[function(_dereq_,module,exports){
"use strict";
var create = Object.create, getPrototypeOf = Object.getPrototypeOf, plainObject = {};
module.exports = function (/* CustomCreate*/) {
var setPrototypeOf = Object.setPrototypeOf, customCreate = arguments[0] || create;
if (typeof setPrototypeOf !== "function") return false;
return getPrototypeOf(setPrototypeOf(customCreate(null), plainObject)) === plainObject;
};
},{}],186:[function(_dereq_,module,exports){
/* eslint no-proto: "off" */
// Big thanks to @WebReflection for sorting this out
// https://gist.github.com/WebReflection/5593554
"use strict";
var isObject = _dereq_("../is-object")
, value = _dereq_("../valid-value")
, objIsPrototypeOf = Object.prototype.isPrototypeOf
, defineProperty = Object.defineProperty
, nullDesc = {
configurable: true,
enumerable: false,
writable: true,
value: undefined
}
, validate;
validate = function (obj, prototype) {
value(obj);
if (prototype === null || isObject(prototype)) return obj;
throw new TypeError("Prototype must be null or an object");
};
module.exports = (function (status) {
var fn, set;
if (!status) return null;
if (status.level === 2) {
if (status.set) {
set = status.set;
fn = function (obj, prototype) {
set.call(validate(obj, prototype), prototype);
return obj;
};
} else {
fn = function (obj, prototype) {
validate(obj, prototype).__proto__ = prototype;
return obj;
};
}
} else {
fn = function self(obj, prototype) {
var isNullBase;
validate(obj, prototype);
isNullBase = objIsPrototypeOf.call(self.nullPolyfill, obj);
if (isNullBase) delete self.nullPolyfill.__proto__;
if (prototype === null) prototype = self.nullPolyfill;
obj.__proto__ = prototype;
if (isNullBase) defineProperty(self.nullPolyfill, "__proto__", nullDesc);
return obj;
};
}
return Object.defineProperty(fn, "level", {
configurable: false,
enumerable: false,
writable: false,
value: status.level
});
}(
(function () {
var tmpObj1 = Object.create(null)
, tmpObj2 = {}
, set
, desc = Object.getOwnPropertyDescriptor(Object.prototype, "__proto__");
if (desc) {
try {
set = desc.set; // Opera crashes at this point
set.call(tmpObj1, tmpObj2);
} catch (ignore) {}
if (Object.getPrototypeOf(tmpObj1) === tmpObj2) return { set: set, level: 2 };
}
tmpObj1.__proto__ = tmpObj2;
if (Object.getPrototypeOf(tmpObj1) === tmpObj2) return { level: 2 };
tmpObj1 = {};
tmpObj1.__proto__ = tmpObj2;
if (Object.getPrototypeOf(tmpObj1) === tmpObj2) return { level: 1 };
return false;
})()
));
_dereq_("../create");
},{"../create":174,"../is-object":177,"../valid-value":189}],187:[function(_dereq_,module,exports){
"use strict";
module.exports = function (fn) {
if (typeof fn !== "function") throw new TypeError(fn + " is not a function");
return fn;
};
},{}],188:[function(_dereq_,module,exports){
"use strict";
var isObject = _dereq_("./is-object");
module.exports = function (value) {
if (!isObject(value)) throw new TypeError(value + " is not an Object");
return value;
};
},{"./is-object":177}],189:[function(_dereq_,module,exports){
"use strict";
var isValue = _dereq_("./is-value");
module.exports = function (value) {
if (!isValue(value)) throw new TypeError("Cannot use null or undefined");
return value;
};
},{"./is-value":178}],190:[function(_dereq_,module,exports){
"use strict";
module.exports = _dereq_("./is-implemented")()
? String.prototype.contains
: _dereq_("./shim");
},{"./is-implemented":191,"./shim":192}],191:[function(_dereq_,module,exports){
"use strict";
var str = "razdwatrzy";
module.exports = function () {
if (typeof str.contains !== "function") return false;
return (str.contains("dwa") === true) && (str.contains("foo") === false);
};
},{}],192:[function(_dereq_,module,exports){
"use strict";
var indexOf = String.prototype.indexOf;
module.exports = function (searchString/*, position*/) {
return indexOf.call(this, searchString, arguments[1]) > -1;
};
},{}],193:[function(_dereq_,module,exports){
"use strict";
var objToString = Object.prototype.toString, id = objToString.call("");
module.exports = function (value) {
return (
typeof value === "string" ||
(value &&
typeof value === "object" &&
(value instanceof String || objToString.call(value) === id)) ||
false
);
};
},{}],194:[function(_dereq_,module,exports){
"use strict";
var generated = Object.create(null), random = Math.random;
module.exports = function () {
var str;
do {
str = random()
.toString(36)
.slice(2);
} while (generated[str]);
return str;
};
},{}],195:[function(_dereq_,module,exports){
"use strict";
var setPrototypeOf = _dereq_("es5-ext/object/set-prototype-of")
, contains = _dereq_("es5-ext/string/#/contains")
, d = _dereq_("d")
, Symbol = _dereq_("es6-symbol")
, Iterator = _dereq_("./");
var defineProperty = Object.defineProperty, ArrayIterator;
ArrayIterator = module.exports = function (arr, kind) {
if (!(this instanceof ArrayIterator)) throw new TypeError("Constructor requires 'new'");
Iterator.call(this, arr);
if (!kind) kind = "value";
else if (contains.call(kind, "key+value")) kind = "key+value";
else if (contains.call(kind, "key")) kind = "key";
else kind = "value";
defineProperty(this, "__kind__", d("", kind));
};
if (setPrototypeOf) setPrototypeOf(ArrayIterator, Iterator);
// Internal %ArrayIteratorPrototype% doesn't expose its constructor
delete ArrayIterator.prototype.constructor;
ArrayIterator.prototype = Object.create(Iterator.prototype, {
_resolve: d(function (i) {
if (this.__kind__ === "value") return this.__list__[i];
if (this.__kind__ === "key+value") return [i, this.__list__[i]];
return i;
})
});
defineProperty(ArrayIterator.prototype, Symbol.toStringTag, d("c", "Array Iterator"));
},{"./":198,"d":138,"es5-ext/object/set-prototype-of":184,"es5-ext/string/#/contains":190,"es6-symbol":203}],196:[function(_dereq_,module,exports){
"use strict";
var isArguments = _dereq_("es5-ext/function/is-arguments")
, callable = _dereq_("es5-ext/object/valid-callable")
, isString = _dereq_("es5-ext/string/is-string")
, get = _dereq_("./get");
var isArray = Array.isArray, call = Function.prototype.call, some = Array.prototype.some;
module.exports = function (iterable, cb /*, thisArg*/) {
var mode, thisArg = arguments[2], result, doBreak, broken, i, length, char, code;
if (isArray(iterable) || isArguments(iterable)) mode = "array";
else if (isString(iterable)) mode = "string";
else iterable = get(iterable);
callable(cb);
doBreak = function () {
broken = true;
};
if (mode === "array") {
some.call(iterable, function (value) {
call.call(cb, thisArg, value, doBreak);
return broken;
});
return;
}
if (mode === "string") {
length = iterable.length;
for (i = 0; i < length; ++i) {
char = iterable[i];
if (i + 1 < length) {
code = char.charCodeAt(0);
if (code >= 0xd800 && code <= 0xdbff) char += iterable[++i];
}
call.call(cb, thisArg, char, doBreak);
if (broken) break;
}
return;
}
result = iterable.next();
while (!result.done) {
call.call(cb, thisArg, result.value, doBreak);
if (broken) return;
result = iterable.next();
}
};
},{"./get":197,"es5-ext/function/is-arguments":161,"es5-ext/object/valid-callable":187,"es5-ext/string/is-string":193}],197:[function(_dereq_,module,exports){
"use strict";
var isArguments = _dereq_("es5-ext/function/is-arguments")
, isString = _dereq_("es5-ext/string/is-string")
, ArrayIterator = _dereq_("./array")
, StringIterator = _dereq_("./string")
, iterable = _dereq_("./valid-iterable")
, iteratorSymbol = _dereq_("es6-symbol").iterator;
module.exports = function (obj) {
if (typeof iterable(obj)[iteratorSymbol] === "function") return obj[iteratorSymbol]();
if (isArguments(obj)) return new ArrayIterator(obj);
if (isString(obj)) return new StringIterator(obj);
return new ArrayIterator(obj);
};
},{"./array":195,"./string":200,"./valid-iterable":201,"es5-ext/function/is-arguments":161,"es5-ext/string/is-string":193,"es6-symbol":203}],198:[function(_dereq_,module,exports){
"use strict";
var clear = _dereq_("es5-ext/array/#/clear")
, assign = _dereq_("es5-ext/object/assign")
, callable = _dereq_("es5-ext/object/valid-callable")
, value = _dereq_("es5-ext/object/valid-value")
, d = _dereq_("d")
, autoBind = _dereq_("d/auto-bind")
, Symbol = _dereq_("es6-symbol");
var defineProperty = Object.defineProperty, defineProperties = Object.defineProperties, Iterator;
module.exports = Iterator = function (list, context) {
if (!(this instanceof Iterator)) throw new TypeError("Constructor requires 'new'");
defineProperties(this, {
__list__: d("w", value(list)),
__context__: d("w", context),
__nextIndex__: d("w", 0)
});
if (!context) return;
callable(context.on);
context.on("_add", this._onAdd);
context.on("_delete", this._onDelete);
context.on("_clear", this._onClear);
};
// Internal %IteratorPrototype% doesn't expose its constructor
delete Iterator.prototype.constructor;
defineProperties(
Iterator.prototype,
assign(
{
_next: d(function () {
var i;
if (!this.__list__) return undefined;
if (this.__redo__) {
i = this.__redo__.shift();
if (i !== undefined) return i;
}
if (this.__nextIndex__ < this.__list__.length) return this.__nextIndex__++;
this._unBind();
return undefined;
}),
next: d(function () {
return this._createResult(this._next());
}),
_createResult: d(function (i) {
if (i === undefined) return { done: true, value: undefined };
return { done: false, value: this._resolve(i) };
}),
_resolve: d(function (i) {
return this.__list__[i];
}),
_unBind: d(function () {
this.__list__ = null;
delete this.__redo__;
if (!this.__context__) return;
this.__context__.off("_add", this._onAdd);
this.__context__.off("_delete", this._onDelete);
this.__context__.off("_clear", this._onClear);
this.__context__ = null;
}),
toString: d(function () {
return "[object " + (this[Symbol.toStringTag] || "Object") + "]";
})
},
autoBind({
_onAdd: d(function (index) {
if (index >= this.__nextIndex__) return;
++this.__nextIndex__;
if (!this.__redo__) {
defineProperty(this, "__redo__", d("c", [index]));
return;
}
this.__redo__.forEach(function (redo, i) {
if (redo >= index) this.__redo__[i] = ++redo;
}, this);
this.__redo__.push(index);
}),
_onDelete: d(function (index) {
var i;
if (index >= this.__nextIndex__) return;
--this.__nextIndex__;
if (!this.__redo__) return;
i = this.__redo__.indexOf(index);
if (i !== -1) this.__redo__.splice(i, 1);
this.__redo__.forEach(function (redo, j) {
if (redo > index) this.__redo__[j] = --redo;
}, this);
}),
_onClear: d(function () {
if (this.__redo__) clear.call(this.__redo__);
this.__nextIndex__ = 0;
})
})
)
);
defineProperty(
Iterator.prototype,
Symbol.iterator,
d(function () {
return this;
})
);
},{"d":138,"d/auto-bind":137,"es5-ext/array/#/clear":157,"es5-ext/object/assign":170,"es5-ext/object/valid-callable":187,"es5-ext/object/valid-value":189,"es6-symbol":203}],199:[function(_dereq_,module,exports){
"use strict";
var isArguments = _dereq_("es5-ext/function/is-arguments")
, isValue = _dereq_("es5-ext/object/is-value")
, isString = _dereq_("es5-ext/string/is-string");
var iteratorSymbol = _dereq_("es6-symbol").iterator
, isArray = Array.isArray;
module.exports = function (value) {
if (!isValue(value)) return false;
if (isArray(value)) return true;
if (isString(value)) return true;
if (isArguments(value)) return true;
return typeof value[iteratorSymbol] === "function";
};
},{"es5-ext/function/is-arguments":161,"es5-ext/object/is-value":178,"es5-ext/string/is-string":193,"es6-symbol":203}],200:[function(_dereq_,module,exports){
// Thanks @mathiasbynens
// http://mathiasbynens.be/notes/javascript-unicode#iterating-over-symbols
"use strict";
var setPrototypeOf = _dereq_("es5-ext/object/set-prototype-of")
, d = _dereq_("d")
, Symbol = _dereq_("es6-symbol")
, Iterator = _dereq_("./");
var defineProperty = Object.defineProperty, StringIterator;
StringIterator = module.exports = function (str) {
if (!(this instanceof StringIterator)) throw new TypeError("Constructor requires 'new'");
str = String(str);
Iterator.call(this, str);
defineProperty(this, "__length__", d("", str.length));
};
if (setPrototypeOf) setPrototypeOf(StringIterator, Iterator);
// Internal %ArrayIteratorPrototype% doesn't expose its constructor
delete StringIterator.prototype.constructor;
StringIterator.prototype = Object.create(Iterator.prototype, {
_next: d(function () {
if (!this.__list__) return undefined;
if (this.__nextIndex__ < this.__length__) return this.__nextIndex__++;
this._unBind();
return undefined;
}),
_resolve: d(function (i) {
var char = this.__list__[i], code;
if (this.__nextIndex__ === this.__length__) return char;
code = char.charCodeAt(0);
if (code >= 0xd800 && code <= 0xdbff) return char + this.__list__[this.__nextIndex__++];
return char;
})
});
defineProperty(StringIterator.prototype, Symbol.toStringTag, d("c", "String Iterator"));
},{"./":198,"d":138,"es5-ext/object/set-prototype-of":184,"es6-symbol":203}],201:[function(_dereq_,module,exports){
"use strict";
var isIterable = _dereq_("./is-iterable");
module.exports = function (value) {
if (!isIterable(value)) throw new TypeError(value + " is not iterable");
return value;
};
},{"./is-iterable":199}],202:[function(_dereq_,module,exports){
(function (process,global){
/*!
* @overview es6-promise - a tiny implementation of Promises/A+.
* @copyright Copyright (c) 2014 Yehuda Katz, Tom Dale, Stefan Penner and contributors (Conversion to ES6 API by Jake Archibald)
* @license Licensed under MIT license
* See https://raw.githubusercontent.com/stefanpenner/es6-promise/master/LICENSE
* @version 3.3.1
*/
(function (global, factory) {
typeof exports === 'object' && typeof module !== 'undefined' ? module.exports = factory() :
typeof define === 'function' && define.amd ? define(factory) :
(global.ES6Promise = factory());
}(this, (function () { 'use strict';
function objectOrFunction(x) {
return typeof x === 'function' || typeof x === 'object' && x !== null;
}
function isFunction(x) {
return typeof x === 'function';
}
var _isArray = undefined;
if (!Array.isArray) {
_isArray = function (x) {
return Object.prototype.toString.call(x) === '[object Array]';
};
} else {
_isArray = Array.isArray;
}
var isArray = _isArray;
var len = 0;
var vertxNext = undefined;
var customSchedulerFn = undefined;
var asap = function asap(callback, arg) {
queue[len] = callback;
queue[len + 1] = arg;
len += 2;
if (len === 2) {
// If len is 2, that means that we need to schedule an async flush.
// If additional callbacks are queued before the queue is flushed, they
// will be processed by this flush that we are scheduling.
if (customSchedulerFn) {
customSchedulerFn(flush);
} else {
scheduleFlush();
}
}
};
function setScheduler(scheduleFn) {
customSchedulerFn = scheduleFn;
}
function setAsap(asapFn) {
asap = asapFn;
}
var browserWindow = typeof window !== 'undefined' ? window : undefined;
var browserGlobal = browserWindow || {};
var BrowserMutationObserver = browserGlobal.MutationObserver || browserGlobal.WebKitMutationObserver;
var isNode = typeof self === 'undefined' && typeof process !== 'undefined' && ({}).toString.call(process) === '[object process]';
// test for web worker but not in IE10
var isWorker = typeof Uint8ClampedArray !== 'undefined' && typeof importScripts !== 'undefined' && typeof MessageChannel !== 'undefined';
// node
function useNextTick() {
// node version 0.10.x displays a deprecation warning when nextTick is used recursively
// see https://github.com/cujojs/when/issues/410 for details
return function () {
return process.nextTick(flush);
};
}
// vertx
function useVertxTimer() {
return function () {
vertxNext(flush);
};
}
function useMutationObserver() {
var iterations = 0;
var observer = new BrowserMutationObserver(flush);
var node = document.createTextNode('');
observer.observe(node, { characterData: true });
return function () {
node.data = iterations = ++iterations % 2;
};
}
// web worker
function useMessageChannel() {
var channel = new MessageChannel();
channel.port1.onmessage = flush;
return function () {
return channel.port2.postMessage(0);
};
}
function useSetTimeout() {
// Store setTimeout reference so es6-promise will be unaffected by
// other code modifying setTimeout (like sinon.useFakeTimers())
var globalSetTimeout = setTimeout;
return function () {
return globalSetTimeout(flush, 1);
};
}
var queue = new Array(1000);
function flush() {
for (var i = 0; i < len; i += 2) {
var callback = queue[i];
var arg = queue[i + 1];
callback(arg);
queue[i] = undefined;
queue[i + 1] = undefined;
}
len = 0;
}
function attemptVertx() {
try {
var r = _dereq_;
var vertx = r('vertx');
vertxNext = vertx.runOnLoop || vertx.runOnContext;
return useVertxTimer();
} catch (e) {
return useSetTimeout();
}
}
var scheduleFlush = undefined;
// Decide what async method to use to triggering processing of queued callbacks:
if (isNode) {
scheduleFlush = useNextTick();
} else if (BrowserMutationObserver) {
scheduleFlush = useMutationObserver();
} else if (isWorker) {
scheduleFlush = useMessageChannel();
} else if (browserWindow === undefined && typeof _dereq_ === 'function') {
scheduleFlush = attemptVertx();
} else {
scheduleFlush = useSetTimeout();
}
function then(onFulfillment, onRejection) {
var _arguments = arguments;
var parent = this;
var child = new this.constructor(noop);
if (child[PROMISE_ID] === undefined) {
makePromise(child);
}
var _state = parent._state;
if (_state) {
(function () {
var callback = _arguments[_state - 1];
asap(function () {
return invokeCallback(_state, child, callback, parent._result);
});
})();
} else {
subscribe(parent, child, onFulfillment, onRejection);
}
return child;
}
/**
`Promise.resolve` returns a promise that will become resolved with the
passed `value`. It is shorthand for the following:
```javascript
let promise = new Promise(function(resolve, reject){
resolve(1);
});
promise.then(function(value){
// value === 1
});
```
Instead of writing the above, your code now simply becomes the following:
```javascript
let promise = Promise.resolve(1);
promise.then(function(value){
// value === 1
});
```
@method resolve
@static
@param {Any} value value that the returned promise will be resolved with
Useful for tooling.
@return {Promise} a promise that will become fulfilled with the given
`value`
*/
function resolve(object) {
/*jshint validthis:true */
var Constructor = this;
if (object && typeof object === 'object' && object.constructor === Constructor) {
return object;
}
var promise = new Constructor(noop);
_resolve(promise, object);
return promise;
}
var PROMISE_ID = Math.random().toString(36).substring(16);
function noop() {}
var PENDING = void 0;
var FULFILLED = 1;
var REJECTED = 2;
var GET_THEN_ERROR = new ErrorObject();
function selfFulfillment() {
return new TypeError("You cannot resolve a promise with itself");
}
function cannotReturnOwn() {
return new TypeError('A promises callback cannot return that same promise.');
}
function getThen(promise) {
try {
return promise.then;
} catch (error) {
GET_THEN_ERROR.error = error;
return GET_THEN_ERROR;
}
}
function tryThen(then, value, fulfillmentHandler, rejectionHandler) {
try {
then.call(value, fulfillmentHandler, rejectionHandler);
} catch (e) {
return e;
}
}
function handleForeignThenable(promise, thenable, then) {
asap(function (promise) {
var sealed = false;
var error = tryThen(then, thenable, function (value) {
if (sealed) {
return;
}
sealed = true;
if (thenable !== value) {
_resolve(promise, value);
} else {
fulfill(promise, value);
}
}, function (reason) {
if (sealed) {
return;
}
sealed = true;
_reject(promise, reason);
}, 'Settle: ' + (promise._label || ' unknown promise'));
if (!sealed && error) {
sealed = true;
_reject(promise, error);
}
}, promise);
}
function handleOwnThenable(promise, thenable) {
if (thenable._state === FULFILLED) {
fulfill(promise, thenable._result);
} else if (thenable._state === REJECTED) {
_reject(promise, thenable._result);
} else {
subscribe(thenable, undefined, function (value) {
return _resolve(promise, value);
}, function (reason) {
return _reject(promise, reason);
});
}
}
function handleMaybeThenable(promise, maybeThenable, then$$) {
if (maybeThenable.constructor === promise.constructor && then$$ === then && maybeThenable.constructor.resolve === resolve) {
handleOwnThenable(promise, maybeThenable);
} else {
if (then$$ === GET_THEN_ERROR) {
_reject(promise, GET_THEN_ERROR.error);
} else if (then$$ === undefined) {
fulfill(promise, maybeThenable);
} else if (isFunction(then$$)) {
handleForeignThenable(promise, maybeThenable, then$$);
} else {
fulfill(promise, maybeThenable);
}
}
}
function _resolve(promise, value) {
if (promise === value) {
_reject(promise, selfFulfillment());
} else if (objectOrFunction(value)) {
handleMaybeThenable(promise, value, getThen(value));
} else {
fulfill(promise, value);
}
}
function publishRejection(promise) {
if (promise._onerror) {
promise._onerror(promise._result);
}
publish(promise);
}
function fulfill(promise, value) {
if (promise._state !== PENDING) {
return;
}
promise._result = value;
promise._state = FULFILLED;
if (promise._subscribers.length !== 0) {
asap(publish, promise);
}
}
function _reject(promise, reason) {
if (promise._state !== PENDING) {
return;
}
promise._state = REJECTED;
promise._result = reason;
asap(publishRejection, promise);
}
function subscribe(parent, child, onFulfillment, onRejection) {
var _subscribers = parent._subscribers;
var length = _subscribers.length;
parent._onerror = null;
_subscribers[length] = child;
_subscribers[length + FULFILLED] = onFulfillment;
_subscribers[length + REJECTED] = onRejection;
if (length === 0 && parent._state) {
asap(publish, parent);
}
}
function publish(promise) {
var subscribers = promise._subscribers;
var settled = promise._state;
if (subscribers.length === 0) {
return;
}
var child = undefined,
callback = undefined,
detail = promise._result;
for (var i = 0; i < subscribers.length; i += 3) {
child = subscribers[i];
callback = subscribers[i + settled];
if (child) {
invokeCallback(settled, child, callback, detail);
} else {
callback(detail);
}
}
promise._subscribers.length = 0;
}
function ErrorObject() {
this.error = null;
}
var TRY_CATCH_ERROR = new ErrorObject();
function tryCatch(callback, detail) {
try {
return callback(detail);
} catch (e) {
TRY_CATCH_ERROR.error = e;
return TRY_CATCH_ERROR;
}
}
function invokeCallback(settled, promise, callback, detail) {
var hasCallback = isFunction(callback),
value = undefined,
error = undefined,
succeeded = undefined,
failed = undefined;
if (hasCallback) {
value = tryCatch(callback, detail);
if (value === TRY_CATCH_ERROR) {
failed = true;
error = value.error;
value = null;
} else {
succeeded = true;
}
if (promise === value) {
_reject(promise, cannotReturnOwn());
return;
}
} else {
value = detail;
succeeded = true;
}
if (promise._state !== PENDING) {
// noop
} else if (hasCallback && succeeded) {
_resolve(promise, value);
} else if (failed) {
_reject(promise, error);
} else if (settled === FULFILLED) {
fulfill(promise, value);
} else if (settled === REJECTED) {
_reject(promise, value);
}
}
function initializePromise(promise, resolver) {
try {
resolver(function resolvePromise(value) {
_resolve(promise, value);
}, function rejectPromise(reason) {
_reject(promise, reason);
});
} catch (e) {
_reject(promise, e);
}
}
var id = 0;
function nextId() {
return id++;
}
function makePromise(promise) {
promise[PROMISE_ID] = id++;
promise._state = undefined;
promise._result = undefined;
promise._subscribers = [];
}
function Enumerator(Constructor, input) {
this._instanceConstructor = Constructor;
this.promise = new Constructor(noop);
if (!this.promise[PROMISE_ID]) {
makePromise(this.promise);
}
if (isArray(input)) {
this._input = input;
this.length = input.length;
this._remaining = input.length;
this._result = new Array(this.length);
if (this.length === 0) {
fulfill(this.promise, this._result);
} else {
this.length = this.length || 0;
this._enumerate();
if (this._remaining === 0) {
fulfill(this.promise, this._result);
}
}
} else {
_reject(this.promise, validationError());
}
}
function validationError() {
return new Error('Array Methods must be provided an Array');
};
Enumerator.prototype._enumerate = function () {
var length = this.length;
var _input = this._input;
for (var i = 0; this._state === PENDING && i < length; i++) {
this._eachEntry(_input[i], i);
}
};
Enumerator.prototype._eachEntry = function (entry, i) {
var c = this._instanceConstructor;
var resolve$$ = c.resolve;
if (resolve$$ === resolve) {
var _then = getThen(entry);
if (_then === then && entry._state !== PENDING) {
this._settledAt(entry._state, i, entry._result);
} else if (typeof _then !== 'function') {
this._remaining--;
this._result[i] = entry;
} else if (c === Promise) {
var promise = new c(noop);
handleMaybeThenable(promise, entry, _then);
this._willSettleAt(promise, i);
} else {
this._willSettleAt(new c(function (resolve$$) {
return resolve$$(entry);
}), i);
}
} else {
this._willSettleAt(resolve$$(entry), i);
}
};
Enumerator.prototype._settledAt = function (state, i, value) {
var promise = this.promise;
if (promise._state === PENDING) {
this._remaining--;
if (state === REJECTED) {
_reject(promise, value);
} else {
this._result[i] = value;
}
}
if (this._remaining === 0) {
fulfill(promise, this._result);
}
};
Enumerator.prototype._willSettleAt = function (promise, i) {
var enumerator = this;
subscribe(promise, undefined, function (value) {
return enumerator._settledAt(FULFILLED, i, value);
}, function (reason) {
return enumerator._settledAt(REJECTED, i, reason);
});
};
/**
`Promise.all` accepts an array of promises, and returns a new promise which
is fulfilled with an array of fulfillment values for the passed promises, or
rejected with the reason of the first passed promise to be rejected. It casts all
elements of the passed iterable to promises as it runs this algorithm.
Example:
```javascript
let promise1 = resolve(1);
let promise2 = resolve(2);
let promise3 = resolve(3);
let promises = [ promise1, promise2, promise3 ];
Promise.all(promises).then(function(array){
// The array here would be [ 1, 2, 3 ];
});
```
If any of the `promises` given to `all` are rejected, the first promise
that is rejected will be given as an argument to the returned promises's
rejection handler. For example:
Example:
```javascript
let promise1 = resolve(1);
let promise2 = reject(new Error("2"));
let promise3 = reject(new Error("3"));
let promises = [ promise1, promise2, promise3 ];
Promise.all(promises).then(function(array){
// Code here never runs because there are rejected promises!
}, function(error) {
// error.message === "2"
});
```
@method all
@static
@param {Array} entries array of promises
@param {String} label optional string for labeling the promise.
Useful for tooling.
@return {Promise} promise that is fulfilled when all `promises` have been
fulfilled, or rejected if any of them become rejected.
@static
*/
function all(entries) {
return new Enumerator(this, entries).promise;
}
/**
`Promise.race` returns a new promise which is settled in the same way as the
first passed promise to settle.
Example:
```javascript
let promise1 = new Promise(function(resolve, reject){
setTimeout(function(){
resolve('promise 1');
}, 200);
});
let promise2 = new Promise(function(resolve, reject){
setTimeout(function(){
resolve('promise 2');
}, 100);
});
Promise.race([promise1, promise2]).then(function(result){
// result === 'promise 2' because it was resolved before promise1
// was resolved.
});
```
`Promise.race` is deterministic in that only the state of the first
settled promise matters. For example, even if other promises given to the
`promises` array argument are resolved, but the first settled promise has
become rejected before the other promises became fulfilled, the returned
promise will become rejected:
```javascript
let promise1 = new Promise(function(resolve, reject){
setTimeout(function(){
resolve('promise 1');
}, 200);
});
let promise2 = new Promise(function(resolve, reject){
setTimeout(function(){
reject(new Error('promise 2'));
}, 100);
});
Promise.race([promise1, promise2]).then(function(result){
// Code here never runs
}, function(reason){
// reason.message === 'promise 2' because promise 2 became rejected before
// promise 1 became fulfilled
});
```
An example real-world use case is implementing timeouts:
```javascript
Promise.race([ajax('foo.json'), timeout(5000)])
```
@method race
@static
@param {Array} promises array of promises to observe
Useful for tooling.
@return {Promise} a promise which settles in the same way as the first passed
promise to settle.
*/
function race(entries) {
/*jshint validthis:true */
var Constructor = this;
if (!isArray(entries)) {
return new Constructor(function (_, reject) {
return reject(new TypeError('You must pass an array to race.'));
});
} else {
return new Constructor(function (resolve, reject) {
var length = entries.length;
for (var i = 0; i < length; i++) {
Constructor.resolve(entries[i]).then(resolve, reject);
}
});
}
}
/**
`Promise.reject` returns a promise rejected with the passed `reason`.
It is shorthand for the following:
```javascript
let promise = new Promise(function(resolve, reject){
reject(new Error('WHOOPS'));
});
promise.then(function(value){
// Code here doesn't run because the promise is rejected!
}, function(reason){
// reason.message === 'WHOOPS'
});
```
Instead of writing the above, your code now simply becomes the following:
```javascript
let promise = Promise.reject(new Error('WHOOPS'));
promise.then(function(value){
// Code here doesn't run because the promise is rejected!
}, function(reason){
// reason.message === 'WHOOPS'
});
```
@method reject
@static
@param {Any} reason value that the returned promise will be rejected with.
Useful for tooling.
@return {Promise} a promise rejected with the given `reason`.
*/
function reject(reason) {
/*jshint validthis:true */
var Constructor = this;
var promise = new Constructor(noop);
_reject(promise, reason);
return promise;
}
function needsResolver() {
throw new TypeError('You must pass a resolver function as the first argument to the promise constructor');
}
function needsNew() {
throw new TypeError("Failed to construct 'Promise': Please use the 'new' operator, this object constructor cannot be called as a function.");
}
/**
Promise objects represent the eventual result of an asynchronous operation. The
primary way of interacting with a promise is through its `then` method, which
registers callbacks to receive either a promise's eventual value or the reason
why the promise cannot be fulfilled.
Terminology
-----------
- `promise` is an object or function with a `then` method whose behavior conforms to this specification.
- `thenable` is an object or function that defines a `then` method.
- `value` is any legal JavaScript value (including undefined, a thenable, or a promise).
- `exception` is a value that is thrown using the throw statement.
- `reason` is a value that indicates why a promise was rejected.
- `settled` the final resting state of a promise, fulfilled or rejected.
A promise can be in one of three states: pending, fulfilled, or rejected.
Promises that are fulfilled have a fulfillment value and are in the fulfilled
state. Promises that are rejected have a rejection reason and are in the
rejected state. A fulfillment value is never a thenable.
Promises can also be said to *resolve* a value. If this value is also a
promise, then the original promise's settled state will match the value's
settled state. So a promise that *resolves* a promise that rejects will
itself reject, and a promise that *resolves* a promise that fulfills will
itself fulfill.
Basic Usage:
------------
```js
let promise = new Promise(function(resolve, reject) {
// on success
resolve(value);
// on failure
reject(reason);
});
promise.then(function(value) {
// on fulfillment
}, function(reason) {
// on rejection
});
```
Advanced Usage:
---------------
Promises shine when abstracting away asynchronous interactions such as
`XMLHttpRequest`s.
```js
function getJSON(url) {
return new Promise(function(resolve, reject){
let xhr = new XMLHttpRequest();
xhr.open('GET', url);
xhr.onreadystatechange = handler;
xhr.responseType = 'json';
xhr.setRequestHeader('Accept', 'application/json');
xhr.send();
function handler() {
if (this.readyState === this.DONE) {
if (this.status === 200) {
resolve(this.response);
} else {
reject(new Error('getJSON: `' + url + '` failed with status: [' + this.status + ']'));
}
}
};
});
}
getJSON('/posts.json').then(function(json) {
// on fulfillment
}, function(reason) {
// on rejection
});
```
Unlike callbacks, promises are great composable primitives.
```js
Promise.all([
getJSON('/posts'),
getJSON('/comments')
]).then(function(values){
values[0] // => postsJSON
values[1] // => commentsJSON
return values;
});
```
@class Promise
@param {function} resolver
Useful for tooling.
@constructor
*/
function Promise(resolver) {
this[PROMISE_ID] = nextId();
this._result = this._state = undefined;
this._subscribers = [];
if (noop !== resolver) {
typeof resolver !== 'function' && needsResolver();
this instanceof Promise ? initializePromise(this, resolver) : needsNew();
}
}
Promise.all = all;
Promise.race = race;
Promise.resolve = resolve;
Promise.reject = reject;
Promise._setScheduler = setScheduler;
Promise._setAsap = setAsap;
Promise._asap = asap;
Promise.prototype = {
constructor: Promise,
/**
The primary way of interacting with a promise is through its `then` method,
which registers callbacks to receive either a promise's eventual value or the
reason why the promise cannot be fulfilled.
```js
findUser().then(function(user){
// user is available
}, function(reason){
// user is unavailable, and you are given the reason why
});
```
Chaining
--------
The return value of `then` is itself a promise. This second, 'downstream'
promise is resolved with the return value of the first promise's fulfillment
or rejection handler, or rejected if the handler throws an exception.
```js
findUser().then(function (user) {
return user.name;
}, function (reason) {
return 'default name';
}).then(function (userName) {
// If `findUser` fulfilled, `userName` will be the user's name, otherwise it
// will be `'default name'`
});
findUser().then(function (user) {
throw new Error('Found user, but still unhappy');
}, function (reason) {
throw new Error('`findUser` rejected and we're unhappy');
}).then(function (value) {
// never reached
}, function (reason) {
// if `findUser` fulfilled, `reason` will be 'Found user, but still unhappy'.
// If `findUser` rejected, `reason` will be '`findUser` rejected and we're unhappy'.
});
```
If the downstream promise does not specify a rejection handler, rejection reasons will be propagated further downstream.
```js
findUser().then(function (user) {
throw new PedagogicalException('Upstream error');
}).then(function (value) {
// never reached
}).then(function (value) {
// never reached
}, function (reason) {
// The `PedgagocialException` is propagated all the way down to here
});
```
Assimilation
------------
Sometimes the value you want to propagate to a downstream promise can only be
retrieved asynchronously. This can be achieved by returning a promise in the
fulfillment or rejection handler. The downstream promise will then be pending
until the returned promise is settled. This is called *assimilation*.
```js
findUser().then(function (user) {
return findCommentsByAuthor(user);
}).then(function (comments) {
// The user's comments are now available
});
```
If the assimliated promise rejects, then the downstream promise will also reject.
```js
findUser().then(function (user) {
return findCommentsByAuthor(user);
}).then(function (comments) {
// If `findCommentsByAuthor` fulfills, we'll have the value here
}, function (reason) {
// If `findCommentsByAuthor` rejects, we'll have the reason here
});
```
Simple Example
--------------
Synchronous Example
```javascript
let result;
try {
result = findResult();
// success
} catch(reason) {
// failure
}
```
Errback Example
```js
findResult(function(result, err){
if (err) {
// failure
} else {
// success
}
});
```
Promise Example;
```javascript
findResult().then(function(result){
// success
}, function(reason){
// failure
});
```
Advanced Example
--------------
Synchronous Example
```javascript
let author, books;
try {
author = findAuthor();
books = findBooksByAuthor(author);
// success
} catch(reason) {
// failure
}
```
Errback Example
```js
function foundBooks(books) {
}
function failure(reason) {
}
findAuthor(function(author, err){
if (err) {
failure(err);
// failure
} else {
try {
findBoooksByAuthor(author, function(books, err) {
if (err) {
failure(err);
} else {
try {
foundBooks(books);
} catch(reason) {
failure(reason);
}
}
});
} catch(error) {
failure(err);
}
// success
}
});
```
Promise Example;
```javascript
findAuthor().
then(findBooksByAuthor).
then(function(books){
// found books
}).catch(function(reason){
// something went wrong
});
```
@method then
@param {Function} onFulfilled
@param {Function} onRejected
Useful for tooling.
@return {Promise}
*/
then: then,
/**
`catch` is simply sugar for `then(undefined, onRejection)` which makes it the same
as the catch block of a try/catch statement.
```js
function findAuthor(){
throw new Error('couldn't find that author');
}
// synchronous
try {
findAuthor();
} catch(reason) {
// something went wrong
}
// async with promises
findAuthor().catch(function(reason){
// something went wrong
});
```
@method catch
@param {Function} onRejection
Useful for tooling.
@return {Promise}
*/
'catch': function _catch(onRejection) {
return this.then(null, onRejection);
}
};
function polyfill() {
var local = undefined;
if (typeof global !== 'undefined') {
local = global;
} else if (typeof self !== 'undefined') {
local = self;
} else {
try {
local = Function('return this')();
} catch (e) {
throw new Error('polyfill failed because global object is unavailable in this environment');
}
}
var P = local.Promise;
if (P) {
var promiseToString = null;
try {
promiseToString = Object.prototype.toString.call(P.resolve());
} catch (e) {
// silently ignored
}
if (promiseToString === '[object Promise]' && !P.cast) {
return;
}
}
local.Promise = Promise;
}
polyfill();
// Strange compat..
Promise.polyfill = polyfill;
Promise.Promise = Promise;
return Promise;
})));
}).call(this,_dereq_('_process'),typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {})
},{"_process":462}],203:[function(_dereq_,module,exports){
'use strict';
module.exports = _dereq_('./is-implemented')() ? Symbol : _dereq_('./polyfill');
},{"./is-implemented":204,"./polyfill":206}],204:[function(_dereq_,module,exports){
'use strict';
var validTypes = { object: true, symbol: true };
module.exports = function () {
var symbol;
if (typeof Symbol !== 'function') return false;
symbol = Symbol('test symbol');
try { String(symbol); } catch (e) { return false; }
// Return 'true' also for polyfills
if (!validTypes[typeof Symbol.iterator]) return false;
if (!validTypes[typeof Symbol.toPrimitive]) return false;
if (!validTypes[typeof Symbol.toStringTag]) return false;
return true;
};
},{}],205:[function(_dereq_,module,exports){
'use strict';
module.exports = function (x) {
if (!x) return false;
if (typeof x === 'symbol') return true;
if (!x.constructor) return false;
if (x.constructor.name !== 'Symbol') return false;
return (x[x.constructor.toStringTag] === 'Symbol');
};
},{}],206:[function(_dereq_,module,exports){
// ES2015 Symbol polyfill for environments that do not (or partially) support it
'use strict';
var d = _dereq_('d')
, validateSymbol = _dereq_('./validate-symbol')
, create = Object.create, defineProperties = Object.defineProperties
, defineProperty = Object.defineProperty, objPrototype = Object.prototype
, NativeSymbol, SymbolPolyfill, HiddenSymbol, globalSymbols = create(null)
, isNativeSafe;
if (typeof Symbol === 'function') {
NativeSymbol = Symbol;
try {
String(NativeSymbol());
isNativeSafe = true;
} catch (ignore) {}
}
var generateName = (function () {
var created = create(null);
return function (desc) {
var postfix = 0, name, ie11BugWorkaround;
while (created[desc + (postfix || '')]) ++postfix;
desc += (postfix || '');
created[desc] = true;
name = '@@' + desc;
defineProperty(objPrototype, name, d.gs(null, function (value) {
// For IE11 issue see:
// https://connect.microsoft.com/IE/feedbackdetail/view/1928508/
// ie11-broken-getters-on-dom-objects
// https://github.com/medikoo/es6-symbol/issues/12
if (ie11BugWorkaround) return;
ie11BugWorkaround = true;
defineProperty(this, name, d(value));
ie11BugWorkaround = false;
}));
return name;
};
}());
// Internal constructor (not one exposed) for creating Symbol instances.
// This one is used to ensure that `someSymbol instanceof Symbol` always return false
HiddenSymbol = function Symbol(description) {
if (this instanceof HiddenSymbol) throw new TypeError('Symbol is not a constructor');
return SymbolPolyfill(description);
};
// Exposed `Symbol` constructor
// (returns instances of HiddenSymbol)
module.exports = SymbolPolyfill = function Symbol(description) {
var symbol;
if (this instanceof Symbol) throw new TypeError('Symbol is not a constructor');
if (isNativeSafe) return NativeSymbol(description);
symbol = create(HiddenSymbol.prototype);
description = (description === undefined ? '' : String(description));
return defineProperties(symbol, {
__description__: d('', description),
__name__: d('', generateName(description))
});
};
defineProperties(SymbolPolyfill, {
for: d(function (key) {
if (globalSymbols[key]) return globalSymbols[key];
return (globalSymbols[key] = SymbolPolyfill(String(key)));
}),
keyFor: d(function (s) {
var key;
validateSymbol(s);
for (key in globalSymbols) if (globalSymbols[key] === s) return key;
}),
// To ensure proper interoperability with other native functions (e.g. Array.from)
// fallback to eventual native implementation of given symbol
hasInstance: d('', (NativeSymbol && NativeSymbol.hasInstance) || SymbolPolyfill('hasInstance')),
isConcatSpreadable: d('', (NativeSymbol && NativeSymbol.isConcatSpreadable) ||
SymbolPolyfill('isConcatSpreadable')),
iterator: d('', (NativeSymbol && NativeSymbol.iterator) || SymbolPolyfill('iterator')),
match: d('', (NativeSymbol && NativeSymbol.match) || SymbolPolyfill('match')),
replace: d('', (NativeSymbol && NativeSymbol.replace) || SymbolPolyfill('replace')),
search: d('', (NativeSymbol && NativeSymbol.search) || SymbolPolyfill('search')),
species: d('', (NativeSymbol && NativeSymbol.species) || SymbolPolyfill('species')),
split: d('', (NativeSymbol && NativeSymbol.split) || SymbolPolyfill('split')),
toPrimitive: d('', (NativeSymbol && NativeSymbol.toPrimitive) || SymbolPolyfill('toPrimitive')),
toStringTag: d('', (NativeSymbol && NativeSymbol.toStringTag) || SymbolPolyfill('toStringTag')),
unscopables: d('', (NativeSymbol && NativeSymbol.unscopables) || SymbolPolyfill('unscopables'))
});
// Internal tweaks for real symbol producer
defineProperties(HiddenSymbol.prototype, {
constructor: d(SymbolPolyfill),
toString: d('', function () { return this.__name__; })
});
// Proper implementation of methods exposed on Symbol.prototype
// They won't be accessible on produced symbol instances as they derive from HiddenSymbol.prototype
defineProperties(SymbolPolyfill.prototype, {
toString: d(function () { return 'Symbol (' + validateSymbol(this).__description__ + ')'; }),
valueOf: d(function () { return validateSymbol(this); })
});
defineProperty(SymbolPolyfill.prototype, SymbolPolyfill.toPrimitive, d('', function () {
var symbol = validateSymbol(this);
if (typeof symbol === 'symbol') return symbol;
return symbol.toString();
}));
defineProperty(SymbolPolyfill.prototype, SymbolPolyfill.toStringTag, d('c', 'Symbol'));
// Proper implementaton of toPrimitive and toStringTag for returned symbol instances
defineProperty(HiddenSymbol.prototype, SymbolPolyfill.toStringTag,
d('c', SymbolPolyfill.prototype[SymbolPolyfill.toStringTag]));
// Note: It's important to define `toPrimitive` as last one, as some implementations
// implement `toPrimitive` natively without implementing `toStringTag` (or other specified symbols)
// And that may invoke error in definition flow:
// See: https://github.com/medikoo/es6-symbol/issues/13#issuecomment-164146149
defineProperty(HiddenSymbol.prototype, SymbolPolyfill.toPrimitive,
d('c', SymbolPolyfill.prototype[SymbolPolyfill.toPrimitive]));
},{"./validate-symbol":207,"d":138}],207:[function(_dereq_,module,exports){
'use strict';
var isSymbol = _dereq_('./is-symbol');
module.exports = function (value) {
if (!isSymbol(value)) throw new TypeError(value + " is not a symbol");
return value;
};
},{"./is-symbol":205}],208:[function(_dereq_,module,exports){
'use strict';
module.exports = _dereq_('./is-implemented')() ? WeakMap : _dereq_('./polyfill');
},{"./is-implemented":209,"./polyfill":211}],209:[function(_dereq_,module,exports){
'use strict';
module.exports = function () {
var weakMap, x;
if (typeof WeakMap !== 'function') return false;
try {
// WebKit doesn't support arguments and crashes
weakMap = new WeakMap([[x = {}, 'one'], [{}, 'two'], [{}, 'three']]);
} catch (e) {
return false;
}
if (String(weakMap) !== '[object WeakMap]') return false;
if (typeof weakMap.set !== 'function') return false;
if (weakMap.set({}, 1) !== weakMap) return false;
if (typeof weakMap.delete !== 'function') return false;
if (typeof weakMap.has !== 'function') return false;
if (weakMap.get(x) !== 'one') return false;
return true;
};
},{}],210:[function(_dereq_,module,exports){
// Exports true if environment provides native `WeakMap` implementation, whatever that is.
'use strict';
module.exports = (function () {
if (typeof WeakMap !== 'function') return false;
return (Object.prototype.toString.call(new WeakMap()) === '[object WeakMap]');
}());
},{}],211:[function(_dereq_,module,exports){
'use strict';
var setPrototypeOf = _dereq_('es5-ext/object/set-prototype-of')
, object = _dereq_('es5-ext/object/valid-object')
, value = _dereq_('es5-ext/object/valid-value')
, randomUniq = _dereq_('es5-ext/string/random-uniq')
, d = _dereq_('d')
, getIterator = _dereq_('es6-iterator/get')
, forOf = _dereq_('es6-iterator/for-of')
, toStringTagSymbol = _dereq_('es6-symbol').toStringTag
, isNative = _dereq_('./is-native-implemented')
, isArray = Array.isArray, defineProperty = Object.defineProperty
, hasOwnProperty = Object.prototype.hasOwnProperty, getPrototypeOf = Object.getPrototypeOf
, WeakMapPoly;
module.exports = WeakMapPoly = function (/*iterable*/) {
var iterable = arguments[0], self;
if (!(this instanceof WeakMapPoly)) throw new TypeError('Constructor requires \'new\'');
if (isNative && setPrototypeOf && (WeakMap !== WeakMapPoly)) {
self = setPrototypeOf(new WeakMap(), getPrototypeOf(this));
} else {
self = this;
}
if (iterable != null) {
if (!isArray(iterable)) iterable = getIterator(iterable);
}
defineProperty(self, '__weakMapData__', d('c', '$weakMap$' + randomUniq()));
if (!iterable) return self;
forOf(iterable, function (val) {
value(val);
self.set(val[0], val[1]);
});
return self;
};
if (isNative) {
if (setPrototypeOf) setPrototypeOf(WeakMapPoly, WeakMap);
WeakMapPoly.prototype = Object.create(WeakMap.prototype, {
constructor: d(WeakMapPoly)
});
}
Object.defineProperties(WeakMapPoly.prototype, {
delete: d(function (key) {
if (hasOwnProperty.call(object(key), this.__weakMapData__)) {
delete key[this.__weakMapData__];
return true;
}
return false;
}),
get: d(function (key) {
if (hasOwnProperty.call(object(key), this.__weakMapData__)) {
return key[this.__weakMapData__];
}
}),
has: d(function (key) {
return hasOwnProperty.call(object(key), this.__weakMapData__);
}),
set: d(function (key, value) {
defineProperty(object(key), this.__weakMapData__, d('c', value));
return this;
}),
toString: d(function () { return '[object WeakMap]'; })
});
defineProperty(WeakMapPoly.prototype, toStringTagSymbol, d('c', 'WeakMap'));
},{"./is-native-implemented":210,"d":138,"es5-ext/object/set-prototype-of":184,"es5-ext/object/valid-object":188,"es5-ext/object/valid-value":189,"es5-ext/string/random-uniq":194,"es6-iterator/for-of":196,"es6-iterator/get":197,"es6-symbol":203}],212:[function(_dereq_,module,exports){
"use strict"
module.exports = extractPlanes
function extractPlanes(M, zNear, zFar) {
var z = zNear || 0.0
var zf = zFar || 1.0
return [
[ M[12] + M[0], M[13] + M[1], M[14] + M[2], M[15] + M[3] ],
[ M[12] - M[0], M[13] - M[1], M[14] - M[2], M[15] - M[3] ],
[ M[12] + M[4], M[13] + M[5], M[14] + M[6], M[15] + M[7] ],
[ M[12] - M[4], M[13] - M[5], M[14] - M[6], M[15] - M[7] ],
[ z*M[12] + M[8], z*M[13] + M[9], z*M[14] + M[10], z*M[15] + M[11] ],
[ zf*M[12] - M[8], zf*M[13] - M[9], zf*M[14] - M[10], zf*M[15] - M[11] ]
]
}
},{}],213:[function(_dereq_,module,exports){
/**
* inspired by is-number <https://github.com/jonschlinkert/is-number>
* but significantly simplified and sped up by ignoring number and string constructors
* ie these return false:
* new Number(1)
* new String('1')
*/
'use strict';
/**
* Is this string all whitespace?
* This solution kind of makes my brain hurt, but it's significantly faster
* than !str.trim() or any other solution I could find.
*
* whitespace codes from: http://en.wikipedia.org/wiki/Whitespace_character
* and verified with:
*
* for(var i = 0; i < 65536; i++) {
* var s = String.fromCharCode(i);
* if(+s===0 && !s.trim()) console.log(i, s);
* }
*
* which counts a couple of these as *not* whitespace, but finds nothing else
* that *is* whitespace. Note that charCodeAt stops at 16 bits, but it appears
* that there are no whitespace characters above this, and code points above
* this do not map onto white space characters.
*/
function allBlankCharCodes(str){
var l = str.length,
a;
for(var i = 0; i < l; i++) {
a = str.charCodeAt(i);
if((a < 9 || a > 13) && (a !== 32) && (a !== 133) && (a !== 160) &&
(a !== 5760) && (a !== 6158) && (a < 8192 || a > 8205) &&
(a !== 8232) && (a !== 8233) && (a !== 8239) && (a !== 8287) &&
(a !== 8288) && (a !== 12288) && (a !== 65279)) {
return false;
}
}
return true;
}
module.exports = function(n) {
var type = typeof n;
if(type === 'string') {
var original = n;
n = +n;
// whitespace strings cast to zero - filter them out
if(n===0 && allBlankCharCodes(original)) return false;
}
else if(type !== 'number') return false;
return n - n < 1;
};
},{}],214:[function(_dereq_,module,exports){
'use strict'
module.exports = createFilteredVector
var cubicHermite = _dereq_('cubic-hermite')
var bsearch = _dereq_('binary-search-bounds')
function clamp(lo, hi, x) {
return Math.min(hi, Math.max(lo, x))
}
function FilteredVector(state0, velocity0, t0) {
this.dimension = state0.length
this.bounds = [ new Array(this.dimension), new Array(this.dimension) ]
for(var i=0; i<this.dimension; ++i) {
this.bounds[0][i] = -Infinity
this.bounds[1][i] = Infinity
}
this._state = state0.slice().reverse()
this._velocity = velocity0.slice().reverse()
this._time = [ t0 ]
this._scratch = [ state0.slice(), state0.slice(), state0.slice(), state0.slice(), state0.slice() ]
}
var proto = FilteredVector.prototype
proto.flush = function(t) {
var idx = bsearch.gt(this._time, t) - 1
if(idx <= 0) {
return
}
this._time.splice(0, idx)
this._state.splice(0, idx * this.dimension)
this._velocity.splice(0, idx * this.dimension)
}
proto.curve = function(t) {
var time = this._time
var n = time.length
var idx = bsearch.le(time, t)
var result = this._scratch[0]
var state = this._state
var velocity = this._velocity
var d = this.dimension
var bounds = this.bounds
if(idx < 0) {
var ptr = d-1
for(var i=0; i<d; ++i, --ptr) {
result[i] = state[ptr]
}
} else if(idx >= n-1) {
var ptr = state.length-1
var tf = t - time[n-1]
for(var i=0; i<d; ++i, --ptr) {
result[i] = state[ptr] + tf * velocity[ptr]
}
} else {
var ptr = d * (idx+1) - 1
var t0 = time[idx]
var t1 = time[idx+1]
var dt = (t1 - t0) || 1.0
var x0 = this._scratch[1]
var x1 = this._scratch[2]
var v0 = this._scratch[3]
var v1 = this._scratch[4]
var steady = true
for(var i=0; i<d; ++i, --ptr) {
x0[i] = state[ptr]
v0[i] = velocity[ptr] * dt
x1[i] = state[ptr+d]
v1[i] = velocity[ptr+d] * dt
steady = steady && (x0[i] === x1[i] && v0[i] === v1[i] && v0[i] === 0.0)
}
if(steady) {
for(var i=0; i<d; ++i) {
result[i] = x0[i]
}
} else {
cubicHermite(x0, v0, x1, v1, (t-t0)/dt, result)
}
}
var lo = bounds[0]
var hi = bounds[1]
for(var i=0; i<d; ++i) {
result[i] = clamp(lo[i], hi[i], result[i])
}
return result
}
proto.dcurve = function(t) {
var time = this._time
var n = time.length
var idx = bsearch.le(time, t)
var result = this._scratch[0]
var state = this._state
var velocity = this._velocity
var d = this.dimension
if(idx >= n-1) {
var ptr = state.length-1
var tf = t - time[n-1]
for(var i=0; i<d; ++i, --ptr) {
result[i] = velocity[ptr]
}
} else {
var ptr = d * (idx+1) - 1
var t0 = time[idx]
var t1 = time[idx+1]
var dt = (t1 - t0) || 1.0
var x0 = this._scratch[1]
var x1 = this._scratch[2]
var v0 = this._scratch[3]
var v1 = this._scratch[4]
var steady = true
for(var i=0; i<d; ++i, --ptr) {
x0[i] = state[ptr]
v0[i] = velocity[ptr] * dt
x1[i] = state[ptr+d]
v1[i] = velocity[ptr+d] * dt
steady = steady && (x0[i] === x1[i] && v0[i] === v1[i] && v0[i] === 0.0)
}
if(steady) {
for(var i=0; i<d; ++i) {
result[i] = 0.0
}
} else {
cubicHermite.derivative(x0, v0, x1, v1, (t-t0)/dt, result)
for(var i=0; i<d; ++i) {
result[i] /= dt
}
}
}
return result
}
proto.lastT = function() {
var time = this._time
return time[time.length-1]
}
proto.stable = function() {
var velocity = this._velocity
var ptr = velocity.length
for(var i=this.dimension-1; i>=0; --i) {
if(velocity[--ptr]) {
return false
}
}
return true
}
proto.jump = function(t) {
var t0 = this.lastT()
var d = this.dimension
if(t < t0 || arguments.length !== d+1) {
return
}
var state = this._state
var velocity = this._velocity
var ptr = state.length-this.dimension
var bounds = this.bounds
var lo = bounds[0]
var hi = bounds[1]
this._time.push(t0, t)
for(var j=0; j<2; ++j) {
for(var i=0; i<d; ++i) {
state.push(state[ptr++])
velocity.push(0)
}
}
this._time.push(t)
for(var i=d; i>0; --i) {
state.push(clamp(lo[i-1], hi[i-1], arguments[i]))
velocity.push(0)
}
}
proto.push = function(t) {
var t0 = this.lastT()
var d = this.dimension
if(t < t0 || arguments.length !== d+1) {
return
}
var state = this._state
var velocity = this._velocity
var ptr = state.length-this.dimension
var dt = t - t0
var bounds = this.bounds
var lo = bounds[0]
var hi = bounds[1]
var sf = (dt > 1e-6) ? 1/dt : 0
this._time.push(t)
for(var i=d; i>0; --i) {
var xc = clamp(lo[i-1], hi[i-1], arguments[i])
state.push(xc)
velocity.push((xc - state[ptr++]) * sf)
}
}
proto.set = function(t) {
var d = this.dimension
if(t < this.lastT() || arguments.length !== d+1) {
return
}
var state = this._state
var velocity = this._velocity
var bounds = this.bounds
var lo = bounds[0]
var hi = bounds[1]
this._time.push(t)
for(var i=d; i>0; --i) {
state.push(clamp(lo[i-1], hi[i-1], arguments[i]))
velocity.push(0)
}
}
proto.move = function(t) {
var t0 = this.lastT()
var d = this.dimension
if(t <= t0 || arguments.length !== d+1) {
return
}
var state = this._state
var velocity = this._velocity
var statePtr = state.length - this.dimension
var bounds = this.bounds
var lo = bounds[0]
var hi = bounds[1]
var dt = t - t0
var sf = (dt > 1e-6) ? 1/dt : 0.0
this._time.push(t)
for(var i=d; i>0; --i) {
var dx = arguments[i]
state.push(clamp(lo[i-1], hi[i-1], state[statePtr++] + dx))
velocity.push(dx * sf)
}
}
proto.idle = function(t) {
var t0 = this.lastT()
if(t < t0) {
return
}
var d = this.dimension
var state = this._state
var velocity = this._velocity
var statePtr = state.length-d
var bounds = this.bounds
var lo = bounds[0]
var hi = bounds[1]
var dt = t - t0
this._time.push(t)
for(var i=d-1; i>=0; --i) {
state.push(clamp(lo[i], hi[i], state[statePtr] + dt * velocity[statePtr]))
velocity.push(0)
statePtr += 1
}
}
function getZero(d) {
var result = new Array(d)
for(var i=0; i<d; ++i) {
result[i] = 0.0
}
return result
}
function createFilteredVector(initState, initVelocity, initTime) {
switch(arguments.length) {
case 0:
return new FilteredVector([0], [0], 0)
case 1:
if(typeof initState === 'number') {
var zero = getZero(initState)
return new FilteredVector(zero, zero, 0)
} else {
return new FilteredVector(initState, getZero(initState.length), 0)
}
case 2:
if(typeof initVelocity === 'number') {
var zero = getZero(initState.length)
return new FilteredVector(initState, zero, +initVelocity)
} else {
initTime = 0
}
case 3:
if(initState.length !== initVelocity.length) {
throw new Error('state and velocity lengths must match')
}
return new FilteredVector(initState, initVelocity, initTime)
}
}
},{"binary-search-bounds":78,"cubic-hermite":132}],215:[function(_dereq_,module,exports){
/*eslint new-cap:0*/
var dtype = _dereq_('dtype')
module.exports = flattenVertexData
function flattenVertexData (data, output, offset) {
if (!data) throw new TypeError('must specify data as first parameter')
offset = +(offset || 0) | 0
if (Array.isArray(data) && (data[0] && typeof data[0][0] === 'number')) {
var dim = data[0].length
var length = data.length * dim
var i, j, k, l
// no output specified, create a new typed array
if (!output || typeof output === 'string') {
output = new (dtype(output || 'float32'))(length + offset)
}
var dstLength = output.length - offset
if (length !== dstLength) {
throw new Error('source length ' + length + ' (' + dim + 'x' + data.length + ')' +
' does not match destination length ' + dstLength)
}
for (i = 0, k = offset; i < data.length; i++) {
for (j = 0; j < dim; j++) {
output[k++] = data[i][j] === null ? NaN : data[i][j]
}
}
} else {
if (!output || typeof output === 'string') {
// no output, create a new one
var Ctor = dtype(output || 'float32')
// handle arrays separately due to possible nulls
if (Array.isArray(data) || output === 'array') {
output = new Ctor(data.length + offset)
for (i = 0, k = offset, l = output.length; k < l; k++, i++) {
output[k] = data[i] === null ? NaN : data[i]
}
} else {
if (offset === 0) {
output = new Ctor(data)
} else {
output = new Ctor(data.length + offset)
output.set(data, offset)
}
}
} else {
// store output in existing array
output.set(data, offset)
}
}
return output
}
},{"dtype":153}],216:[function(_dereq_,module,exports){
'use strict'
var stringifyFont = _dereq_('css-font/stringify')
var defaultChars = [32, 126]
module.exports = atlas
function atlas(options) {
options = options || {}
var shape = options.shape ? options.shape : options.canvas ? [options.canvas.width, options.canvas.height] : [512, 512]
var canvas = options.canvas || document.createElement('canvas')
var font = options.font
var step = typeof options.step === 'number' ? [options.step, options.step] : options.step || [32, 32]
var chars = options.chars || defaultChars
if (font && typeof font !== 'string') font = stringifyFont(font)
if (!Array.isArray(chars)) {
chars = String(chars).split('')
} else
if (chars.length === 2
&& typeof chars[0] === 'number'
&& typeof chars[1] === 'number'
) {
var newchars = []
for (var i = chars[0], j = 0; i <= chars[1]; i++) {
newchars[j++] = String.fromCharCode(i)
}
chars = newchars
}
shape = shape.slice()
canvas.width = shape[0]
canvas.height = shape[1]
var ctx = canvas.getContext('2d')
ctx.fillStyle = '#000'
ctx.fillRect(0, 0, canvas.width, canvas.height)
ctx.font = font
ctx.textAlign = 'center'
ctx.textBaseline = 'middle'
ctx.fillStyle = '#fff'
var x = step[0] / 2
var y = step[1] / 2
for (var i = 0; i < chars.length; i++) {
ctx.fillText(chars[i], x, y)
if ((x += step[0]) > shape[0] - step[0]/2) (x = step[0]/2), (y += step[1])
}
return canvas
}
},{"css-font/stringify":129}],217:[function(_dereq_,module,exports){
'use strict'
module.exports = measure
measure.canvas = document.createElement('canvas')
measure.cache = {}
function measure (font, o) {
if (!o) o = {}
if (typeof font === 'string' || Array.isArray(font)) {
o.family = font
}
var family = Array.isArray(o.family) ? o.family.join(', ') : o.family
if (!family) throw Error('`family` must be defined')
var fs = o.size || o.fontSize || o.em || 48
var weight = o.weight || o.fontWeight || ''
var style = o.style || o.fontStyle || ''
var font = [style, weight, fs].join(' ') + 'px ' + family
var origin = o.origin || 'top'
if (measure.cache[family]) {
// return more precise values if cache has them
if (fs <= measure.cache[family].em) {
return applyOrigin(measure.cache[family], origin)
}
}
var canvas = o.canvas || measure.canvas
var ctx = canvas.getContext('2d')
var chars = {
upper: o.upper !== undefined ? o.upper : 'H',
lower: o.lower !== undefined ? o.lower : 'x',
descent: o.descent !== undefined ? o.descent : 'p',
ascent: o.ascent !== undefined ? o.ascent : 'h',
tittle: o.tittle !== undefined ? o.tittle : 'i',
overshoot: o.overshoot !== undefined ? o.overshoot : 'O'
}
var l = Math.ceil(fs * 1.5)
canvas.height = l
canvas.width = l * .5
ctx.font = font
var char = 'H'
var result = {
top: 0
}
// measure line-height
ctx.clearRect(0, 0, l, l)
ctx.textBaseline = 'top'
ctx.fillStyle = 'black'
ctx.fillText(char, 0, 0)
var topPx = firstTop(ctx.getImageData(0, 0, l, l))
ctx.clearRect(0, 0, l, l)
ctx.textBaseline = 'bottom'
ctx.fillText(char, 0, l)
var bottomPx = firstTop(ctx.getImageData(0, 0, l, l))
result.lineHeight =
result.bottom = l - bottomPx + topPx
// measure baseline
ctx.clearRect(0, 0, l, l)
ctx.textBaseline = 'alphabetic'
ctx.fillText(char, 0, l)
var baselinePx = firstTop(ctx.getImageData(0, 0, l, l))
var baseline = l - baselinePx - 1 + topPx
result.baseline =
result.alphabetic = baseline
// measure median
ctx.clearRect(0, 0, l, l)
ctx.textBaseline = 'middle'
ctx.fillText(char, 0, l * .5)
var medianPx = firstTop(ctx.getImageData(0, 0, l, l))
result.median =
result.middle = l - medianPx - 1 + topPx - l * .5
// measure hanging
ctx.clearRect(0, 0, l, l)
ctx.textBaseline = 'hanging'
ctx.fillText(char, 0, l * .5)
var hangingPx = firstTop(ctx.getImageData(0, 0, l, l))
result.hanging = l - hangingPx - 1 + topPx - l * .5
// measure ideographic
ctx.clearRect(0, 0, l, l)
ctx.textBaseline = 'ideographic'
ctx.fillText(char, 0, l)
var ideographicPx = firstTop(ctx.getImageData(0, 0, l, l))
result.ideographic = l - ideographicPx - 1 + topPx
// measure cap
if (chars.upper) {
ctx.clearRect(0, 0, l, l)
ctx.textBaseline = 'top'
ctx.fillText(chars.upper, 0, 0)
result.upper = firstTop(ctx.getImageData(0, 0, l, l))
result.capHeight = (result.baseline - result.upper)
}
// measure x
if (chars.lower) {
ctx.clearRect(0, 0, l, l)
ctx.textBaseline = 'top'
ctx.fillText(chars.lower, 0, 0)
result.lower = firstTop(ctx.getImageData(0, 0, l, l))
result.xHeight = (result.baseline - result.lower)
}
// measure tittle
if (chars.tittle) {
ctx.clearRect(0, 0, l, l)
ctx.textBaseline = 'top'
ctx.fillText(chars.tittle, 0, 0)
result.tittle = firstTop(ctx.getImageData(0, 0, l, l))
}
// measure ascent
if (chars.ascent) {
ctx.clearRect(0, 0, l, l)
ctx.textBaseline = 'top'
ctx.fillText(chars.ascent, 0, 0)
result.ascent = firstTop(ctx.getImageData(0, 0, l, l))
}
// measure descent
if (chars.descent) {
ctx.clearRect(0, 0, l, l)
ctx.textBaseline = 'top'
ctx.fillText(chars.descent, 0, 0)
result.descent = firstBottom(ctx.getImageData(0, 0, l, l))
}
// measure overshoot
if (chars.overshoot) {
ctx.clearRect(0, 0, l, l)
ctx.textBaseline = 'top'
ctx.fillText(chars.overshoot, 0, 0)
var overshootPx = firstBottom(ctx.getImageData(0, 0, l, l))
result.overshoot = overshootPx - baseline
}
// normalize result
for (var name in result) {
result[name] /= fs
}
result.em = fs
measure.cache[family] = result
return applyOrigin(result, origin)
}
function applyOrigin(obj, origin) {
var res = {}
if (typeof origin === 'string') origin = obj[origin]
for (var name in obj) {
if (name === 'em') continue
res[name] = obj[name] - origin
}
return res
}
function firstTop(iData) {
var l = iData.height
var data = iData.data
for (var i = 3; i < data.length; i+=4) {
if (data[i] !== 0) {
return Math.floor((i - 3) *.25 / l)
}
}
}
function firstBottom(iData) {
var l = iData.height
var data = iData.data
for (var i = data.length - 1; i > 0; i -= 4) {
if (data[i] !== 0) {
return Math.floor((i - 3) *.25 / l)
}
}
}
},{}],218:[function(_dereq_,module,exports){
"use strict"
module.exports = createRBTree
var RED = 0
var BLACK = 1
function RBNode(color, key, value, left, right, count) {
this._color = color
this.key = key
this.value = value
this.left = left
this.right = right
this._count = count
}
function cloneNode(node) {
return new RBNode(node._color, node.key, node.value, node.left, node.right, node._count)
}
function repaint(color, node) {
return new RBNode(color, node.key, node.value, node.left, node.right, node._count)
}
function recount(node) {
node._count = 1 + (node.left ? node.left._count : 0) + (node.right ? node.right._count : 0)
}
function RedBlackTree(compare, root) {
this._compare = compare
this.root = root
}
var proto = RedBlackTree.prototype
Object.defineProperty(proto, "keys", {
get: function() {
var result = []
this.forEach(function(k,v) {
result.push(k)
})
return result
}
})
Object.defineProperty(proto, "values", {
get: function() {
var result = []
this.forEach(function(k,v) {
result.push(v)
})
return result
}
})
//Returns the number of nodes in the tree
Object.defineProperty(proto, "length", {
get: function() {
if(this.root) {
return this.root._count
}
return 0
}
})
//Insert a new item into the tree
proto.insert = function(key, value) {
var cmp = this._compare
//Find point to insert new node at
var n = this.root
var n_stack = []
var d_stack = []
while(n) {
var d = cmp(key, n.key)
n_stack.push(n)
d_stack.push(d)
if(d <= 0) {
n = n.left
} else {
n = n.right
}
}
//Rebuild path to leaf node
n_stack.push(new RBNode(RED, key, value, null, null, 1))
for(var s=n_stack.length-2; s>=0; --s) {
var n = n_stack[s]
if(d_stack[s] <= 0) {
n_stack[s] = new RBNode(n._color, n.key, n.value, n_stack[s+1], n.right, n._count+1)
} else {
n_stack[s] = new RBNode(n._color, n.key, n.value, n.left, n_stack[s+1], n._count+1)
}
}
//Rebalance tree using rotations
//console.log("start insert", key, d_stack)
for(var s=n_stack.length-1; s>1; --s) {
var p = n_stack[s-1]
var n = n_stack[s]
if(p._color === BLACK || n._color === BLACK) {
break
}
var pp = n_stack[s-2]
if(pp.left === p) {
if(p.left === n) {
var y = pp.right
if(y && y._color === RED) {
//console.log("LLr")
p._color = BLACK
pp.right = repaint(BLACK, y)
pp._color = RED
s -= 1
} else {
//console.log("LLb")
pp._color = RED
pp.left = p.right
p._color = BLACK
p.right = pp
n_stack[s-2] = p
n_stack[s-1] = n
recount(pp)
recount(p)
if(s >= 3) {
var ppp = n_stack[s-3]
if(ppp.left === pp) {
ppp.left = p
} else {
ppp.right = p
}
}
break
}
} else {
var y = pp.right
if(y && y._color === RED) {
//console.log("LRr")
p._color = BLACK
pp.right = repaint(BLACK, y)
pp._color = RED
s -= 1
} else {
//console.log("LRb")
p.right = n.left
pp._color = RED
pp.left = n.right
n._color = BLACK
n.left = p
n.right = pp
n_stack[s-2] = n
n_stack[s-1] = p
recount(pp)
recount(p)
recount(n)
if(s >= 3) {
var ppp = n_stack[s-3]
if(ppp.left === pp) {
ppp.left = n
} else {
ppp.right = n
}
}
break
}
}
} else {
if(p.right === n) {
var y = pp.left
if(y && y._color === RED) {
//console.log("RRr", y.key)
p._color = BLACK
pp.left = repaint(BLACK, y)
pp._color = RED
s -= 1
} else {
//console.log("RRb")
pp._color = RED
pp.right = p.left
p._color = BLACK
p.left = pp
n_stack[s-2] = p
n_stack[s-1] = n
recount(pp)
recount(p)
if(s >= 3) {
var ppp = n_stack[s-3]
if(ppp.right === pp) {
ppp.right = p
} else {
ppp.left = p
}
}
break
}
} else {
var y = pp.left
if(y && y._color === RED) {
//console.log("RLr")
p._color = BLACK
pp.left = repaint(BLACK, y)
pp._color = RED
s -= 1
} else {
//console.log("RLb")
p.left = n.right
pp._color = RED
pp.right = n.left
n._color = BLACK
n.right = p
n.left = pp
n_stack[s-2] = n
n_stack[s-1] = p
recount(pp)
recount(p)
recount(n)
if(s >= 3) {
var ppp = n_stack[s-3]
if(ppp.right === pp) {
ppp.right = n
} else {
ppp.left = n
}
}
break
}
}
}
}
//Return new tree
n_stack[0]._color = BLACK
return new RedBlackTree(cmp, n_stack[0])
}
//Visit all nodes inorder
function doVisitFull(visit, node) {
if(node.left) {
var v = doVisitFull(visit, node.left)
if(v) { return v }
}
var v = visit(node.key, node.value)
if(v) { return v }
if(node.right) {
return doVisitFull(visit, node.right)
}
}
//Visit half nodes in order
function doVisitHalf(lo, compare, visit, node) {
var l = compare(lo, node.key)
if(l <= 0) {
if(node.left) {
var v = doVisitHalf(lo, compare, visit, node.left)
if(v) { return v }
}
var v = visit(node.key, node.value)
if(v) { return v }
}
if(node.right) {
return doVisitHalf(lo, compare, visit, node.right)
}
}
//Visit all nodes within a range
function doVisit(lo, hi, compare, visit, node) {
var l = compare(lo, node.key)
var h = compare(hi, node.key)
var v
if(l <= 0) {
if(node.left) {
v = doVisit(lo, hi, compare, visit, node.left)
if(v) { return v }
}
if(h > 0) {
v = visit(node.key, node.value)
if(v) { return v }
}
}
if(h > 0 && node.right) {
return doVisit(lo, hi, compare, visit, node.right)
}
}
proto.forEach = function rbTreeForEach(visit, lo, hi) {
if(!this.root) {
return
}
switch(arguments.length) {
case 1:
return doVisitFull(visit, this.root)
break
case 2:
return doVisitHalf(lo, this._compare, visit, this.root)
break
case 3:
if(this._compare(lo, hi) >= 0) {
return
}
return doVisit(lo, hi, this._compare, visit, this.root)
break
}
}
//First item in list
Object.defineProperty(proto, "begin", {
get: function() {
var stack = []
var n = this.root
while(n) {
stack.push(n)
n = n.left
}
return new RedBlackTreeIterator(this, stack)
}
})
//Last item in list
Object.defineProperty(proto, "end", {
get: function() {
var stack = []
var n = this.root
while(n) {
stack.push(n)
n = n.right
}
return new RedBlackTreeIterator(this, stack)
}
})
//Find the ith item in the tree
proto.at = function(idx) {
if(idx < 0) {
return new RedBlackTreeIterator(this, [])
}
var n = this.root
var stack = []
while(true) {
stack.push(n)
if(n.left) {
if(idx < n.left._count) {
n = n.left
continue
}
idx -= n.left._count
}
if(!idx) {
return new RedBlackTreeIterator(this, stack)
}
idx -= 1
if(n.right) {
if(idx >= n.right._count) {
break
}
n = n.right
} else {
break
}
}
return new RedBlackTreeIterator(this, [])
}
proto.ge = function(key) {
var cmp = this._compare
var n = this.root
var stack = []
var last_ptr = 0
while(n) {
var d = cmp(key, n.key)
stack.push(n)
if(d <= 0) {
last_ptr = stack.length
}
if(d <= 0) {
n = n.left
} else {
n = n.right
}
}
stack.length = last_ptr
return new RedBlackTreeIterator(this, stack)
}
proto.gt = function(key) {
var cmp = this._compare
var n = this.root
var stack = []
var last_ptr = 0
while(n) {
var d = cmp(key, n.key)
stack.push(n)
if(d < 0) {
last_ptr = stack.length
}
if(d < 0) {
n = n.left
} else {
n = n.right
}
}
stack.length = last_ptr
return new RedBlackTreeIterator(this, stack)
}
proto.lt = function(key) {
var cmp = this._compare
var n = this.root
var stack = []
var last_ptr = 0
while(n) {
var d = cmp(key, n.key)
stack.push(n)
if(d > 0) {
last_ptr = stack.length
}
if(d <= 0) {
n = n.left
} else {
n = n.right
}
}
stack.length = last_ptr
return new RedBlackTreeIterator(this, stack)
}
proto.le = function(key) {
var cmp = this._compare
var n = this.root
var stack = []
var last_ptr = 0
while(n) {
var d = cmp(key, n.key)
stack.push(n)
if(d >= 0) {
last_ptr = stack.length
}
if(d < 0) {
n = n.left
} else {
n = n.right
}
}
stack.length = last_ptr
return new RedBlackTreeIterator(this, stack)
}
//Finds the item with key if it exists
proto.find = function(key) {
var cmp = this._compare
var n = this.root
var stack = []
while(n) {
var d = cmp(key, n.key)
stack.push(n)
if(d === 0) {
return new RedBlackTreeIterator(this, stack)
}
if(d <= 0) {
n = n.left
} else {
n = n.right
}
}
return new RedBlackTreeIterator(this, [])
}
//Removes item with key from tree
proto.remove = function(key) {
var iter = this.find(key)
if(iter) {
return iter.remove()
}
return this
}
//Returns the item at `key`
proto.get = function(key) {
var cmp = this._compare
var n = this.root
while(n) {
var d = cmp(key, n.key)
if(d === 0) {
return n.value
}
if(d <= 0) {
n = n.left
} else {
n = n.right
}
}
return
}
//Iterator for red black tree
function RedBlackTreeIterator(tree, stack) {
this.tree = tree
this._stack = stack
}
var iproto = RedBlackTreeIterator.prototype
//Test if iterator is valid
Object.defineProperty(iproto, "valid", {
get: function() {
return this._stack.length > 0
}
})
//Node of the iterator
Object.defineProperty(iproto, "node", {
get: function() {
if(this._stack.length > 0) {
return this._stack[this._stack.length-1]
}
return null
},
enumerable: true
})
//Makes a copy of an iterator
iproto.clone = function() {
return new RedBlackTreeIterator(this.tree, this._stack.slice())
}
//Swaps two nodes
function swapNode(n, v) {
n.key = v.key
n.value = v.value
n.left = v.left
n.right = v.right
n._color = v._color
n._count = v._count
}
//Fix up a double black node in a tree
function fixDoubleBlack(stack) {
var n, p, s, z
for(var i=stack.length-1; i>=0; --i) {
n = stack[i]
if(i === 0) {
n._color = BLACK
return
}
//console.log("visit node:", n.key, i, stack[i].key, stack[i-1].key)
p = stack[i-1]
if(p.left === n) {
//console.log("left child")
s = p.right
if(s.right && s.right._color === RED) {
//console.log("case 1: right sibling child red")
s = p.right = cloneNode(s)
z = s.right = cloneNode(s.right)
p.right = s.left
s.left = p
s.right = z
s._color = p._color
n._color = BLACK
p._color = BLACK
z._color = BLACK
recount(p)
recount(s)
if(i > 1) {
var pp = stack[i-2]
if(pp.left === p) {
pp.left = s
} else {
pp.right = s
}
}
stack[i-1] = s
return
} else if(s.left && s.left._color === RED) {
//console.log("case 1: left sibling child red")
s = p.right = cloneNode(s)
z = s.left = cloneNode(s.left)
p.right = z.left
s.left = z.right
z.left = p
z.right = s
z._color = p._color
p._color = BLACK
s._color = BLACK
n._color = BLACK
recount(p)
recount(s)
recount(z)
if(i > 1) {
var pp = stack[i-2]
if(pp.left === p) {
pp.left = z
} else {
pp.right = z
}
}
stack[i-1] = z
return
}
if(s._color === BLACK) {
if(p._color === RED) {
//console.log("case 2: black sibling, red parent", p.right.value)
p._color = BLACK
p.right = repaint(RED, s)
return
} else {
//console.log("case 2: black sibling, black parent", p.right.value)
p.right = repaint(RED, s)
continue
}
} else {
//console.log("case 3: red sibling")
s = cloneNode(s)
p.right = s.left
s.left = p
s._color = p._color
p._color = RED
recount(p)
recount(s)
if(i > 1) {
var pp = stack[i-2]
if(pp.left === p) {
pp.left = s
} else {
pp.right = s
}
}
stack[i-1] = s
stack[i] = p
if(i+1 < stack.length) {
stack[i+1] = n
} else {
stack.push(n)
}
i = i+2
}
} else {
//console.log("right child")
s = p.left
if(s.left && s.left._color === RED) {
//console.log("case 1: left sibling child red", p.value, p._color)
s = p.left = cloneNode(s)
z = s.left = cloneNode(s.left)
p.left = s.right
s.right = p
s.left = z
s._color = p._color
n._color = BLACK
p._color = BLACK
z._color = BLACK
recount(p)
recount(s)
if(i > 1) {
var pp = stack[i-2]
if(pp.right === p) {
pp.right = s
} else {
pp.left = s
}
}
stack[i-1] = s
return
} else if(s.right && s.right._color === RED) {
//console.log("case 1: right sibling child red")
s = p.left = cloneNode(s)
z = s.right = cloneNode(s.right)
p.left = z.right
s.right = z.left
z.right = p
z.left = s
z._color = p._color
p._color = BLACK
s._color = BLACK
n._color = BLACK
recount(p)
recount(s)
recount(z)
if(i > 1) {
var pp = stack[i-2]
if(pp.right === p) {
pp.right = z
} else {
pp.left = z
}
}
stack[i-1] = z
return
}
if(s._color === BLACK) {
if(p._color === RED) {
//console.log("case 2: black sibling, red parent")
p._color = BLACK
p.left = repaint(RED, s)
return
} else {
//console.log("case 2: black sibling, black parent")
p.left = repaint(RED, s)
continue
}
} else {
//console.log("case 3: red sibling")
s = cloneNode(s)
p.left = s.right
s.right = p
s._color = p._color
p._color = RED
recount(p)
recount(s)
if(i > 1) {
var pp = stack[i-2]
if(pp.right === p) {
pp.right = s
} else {
pp.left = s
}
}
stack[i-1] = s
stack[i] = p
if(i+1 < stack.length) {
stack[i+1] = n
} else {
stack.push(n)
}
i = i+2
}
}
}
}
//Removes item at iterator from tree
iproto.remove = function() {
var stack = this._stack
if(stack.length === 0) {
return this.tree
}
//First copy path to node
var cstack = new Array(stack.length)
var n = stack[stack.length-1]
cstack[cstack.length-1] = new RBNode(n._color, n.key, n.value, n.left, n.right, n._count)
for(var i=stack.length-2; i>=0; --i) {
var n = stack[i]
if(n.left === stack[i+1]) {
cstack[i] = new RBNode(n._color, n.key, n.value, cstack[i+1], n.right, n._count)
} else {
cstack[i] = new RBNode(n._color, n.key, n.value, n.left, cstack[i+1], n._count)
}
}
//Get node
n = cstack[cstack.length-1]
//console.log("start remove: ", n.value)
//If not leaf, then swap with previous node
if(n.left && n.right) {
//console.log("moving to leaf")
//First walk to previous leaf
var split = cstack.length
n = n.left
while(n.right) {
cstack.push(n)
n = n.right
}
//Copy path to leaf
var v = cstack[split-1]
cstack.push(new RBNode(n._color, v.key, v.value, n.left, n.right, n._count))
cstack[split-1].key = n.key
cstack[split-1].value = n.value
//Fix up stack
for(var i=cstack.length-2; i>=split; --i) {
n = cstack[i]
cstack[i] = new RBNode(n._color, n.key, n.value, n.left, cstack[i+1], n._count)
}
cstack[split-1].left = cstack[split]
}
//console.log("stack=", cstack.map(function(v) { return v.value }))
//Remove leaf node
n = cstack[cstack.length-1]
if(n._color === RED) {
//Easy case: removing red leaf
//console.log("RED leaf")
var p = cstack[cstack.length-2]
if(p.left === n) {
p.left = null
} else if(p.right === n) {
p.right = null
}
cstack.pop()
for(var i=0; i<cstack.length; ++i) {
cstack[i]._count--
}
return new RedBlackTree(this.tree._compare, cstack[0])
} else {
if(n.left || n.right) {
//Second easy case: Single child black parent
//console.log("BLACK single child")
if(n.left) {
swapNode(n, n.left)
} else if(n.right) {
swapNode(n, n.right)
}
//Child must be red, so repaint it black to balance color
n._color = BLACK
for(var i=0; i<cstack.length-1; ++i) {
cstack[i]._count--
}
return new RedBlackTree(this.tree._compare, cstack[0])
} else if(cstack.length === 1) {
//Third easy case: root
//console.log("ROOT")
return new RedBlackTree(this.tree._compare, null)
} else {
//Hard case: Repaint n, and then do some nasty stuff
//console.log("BLACK leaf no children")
for(var i=0; i<cstack.length; ++i) {
cstack[i]._count--
}
var parent = cstack[cstack.length-2]
fixDoubleBlack(cstack)
//Fix up links
if(parent.left === n) {
parent.left = null
} else {
parent.right = null
}
}
}
return new RedBlackTree(this.tree._compare, cstack[0])
}
//Returns key
Object.defineProperty(iproto, "key", {
get: function() {
if(this._stack.length > 0) {
return this._stack[this._stack.length-1].key
}
return
},
enumerable: true
})
//Returns value
Object.defineProperty(iproto, "value", {
get: function() {
if(this._stack.length > 0) {
return this._stack[this._stack.length-1].value
}
return
},
enumerable: true
})
//Returns the position of this iterator in the sorted list
Object.defineProperty(iproto, "index", {
get: function() {
var idx = 0
var stack = this._stack
if(stack.length === 0) {
var r = this.tree.root
if(r) {
return r._count
}
return 0
} else if(stack[stack.length-1].left) {
idx = stack[stack.length-1].left._count
}
for(var s=stack.length-2; s>=0; --s) {
if(stack[s+1] === stack[s].right) {
++idx
if(stack[s].left) {
idx += stack[s].left._count
}
}
}
return idx
},
enumerable: true
})
//Advances iterator to next element in list
iproto.next = function() {
var stack = this._stack
if(stack.length === 0) {
return
}
var n = stack[stack.length-1]
if(n.right) {
n = n.right
while(n) {
stack.push(n)
n = n.left
}
} else {
stack.pop()
while(stack.length > 0 && stack[stack.length-1].right === n) {
n = stack[stack.length-1]
stack.pop()
}
}
}
//Checks if iterator is at end of tree
Object.defineProperty(iproto, "hasNext", {
get: function() {
var stack = this._stack
if(stack.length === 0) {
return false
}
if(stack[stack.length-1].right) {
return true
}
for(var s=stack.length-1; s>0; --s) {
if(stack[s-1].left === stack[s]) {
return true
}
}
return false
}
})
//Update value
iproto.update = function(value) {
var stack = this._stack
if(stack.length === 0) {
throw new Error("Can't update empty node!")
}
var cstack = new Array(stack.length)
var n = stack[stack.length-1]
cstack[cstack.length-1] = new RBNode(n._color, n.key, value, n.left, n.right, n._count)
for(var i=stack.length-2; i>=0; --i) {
n = stack[i]
if(n.left === stack[i+1]) {
cstack[i] = new RBNode(n._color, n.key, n.value, cstack[i+1], n.right, n._count)
} else {
cstack[i] = new RBNode(n._color, n.key, n.value, n.left, cstack[i+1], n._count)
}
}
return new RedBlackTree(this.tree._compare, cstack[0])
}
//Moves iterator backward one element
iproto.prev = function() {
var stack = this._stack
if(stack.length === 0) {
return
}
var n = stack[stack.length-1]
if(n.left) {
n = n.left
while(n) {
stack.push(n)
n = n.right
}
} else {
stack.pop()
while(stack.length > 0 && stack[stack.length-1].left === n) {
n = stack[stack.length-1]
stack.pop()
}
}
}
//Checks if iterator is at start of tree
Object.defineProperty(iproto, "hasPrev", {
get: function() {
var stack = this._stack
if(stack.length === 0) {
return false
}
if(stack[stack.length-1].left) {
return true
}
for(var s=stack.length-1; s>0; --s) {
if(stack[s-1].right === stack[s]) {
return true
}
}
return false
}
})
//Default comparison function
function defaultCompare(a, b) {
if(a < b) {
return -1
}
if(a > b) {
return 1
}
return 0
}
//Build a tree
function createRBTree(compare) {
return new RedBlackTree(compare || defaultCompare, null)
}
},{}],219:[function(_dereq_,module,exports){
// transliterated from the python snippet here:
// http://en.wikipedia.org/wiki/Lanczos_approximation
var g = 7;
var p = [
0.99999999999980993,
676.5203681218851,
-1259.1392167224028,
771.32342877765313,
-176.61502916214059,
12.507343278686905,
-0.13857109526572012,
9.9843695780195716e-6,
1.5056327351493116e-7
];
var g_ln = 607/128;
var p_ln = [
0.99999999999999709182,
57.156235665862923517,
-59.597960355475491248,
14.136097974741747174,
-0.49191381609762019978,
0.33994649984811888699e-4,
0.46523628927048575665e-4,
-0.98374475304879564677e-4,
0.15808870322491248884e-3,
-0.21026444172410488319e-3,
0.21743961811521264320e-3,
-0.16431810653676389022e-3,
0.84418223983852743293e-4,
-0.26190838401581408670e-4,
0.36899182659531622704e-5
];
// Spouge approximation (suitable for large arguments)
function lngamma(z) {
if(z < 0) return Number('0/0');
var x = p_ln[0];
for(var i = p_ln.length - 1; i > 0; --i) x += p_ln[i] / (z + i);
var t = z + g_ln + 0.5;
return .5*Math.log(2*Math.PI)+(z+.5)*Math.log(t)-t+Math.log(x)-Math.log(z);
}
module.exports = function gamma (z) {
if (z < 0.5) {
return Math.PI / (Math.sin(Math.PI * z) * gamma(1 - z));
}
else if(z > 100) return Math.exp(lngamma(z));
else {
z -= 1;
var x = p[0];
for (var i = 1; i < g + 2; i++) {
x += p[i] / (z + i);
}
var t = z + g + 0.5;
return Math.sqrt(2 * Math.PI)
* Math.pow(t, z + 0.5)
* Math.exp(-t)
* x
;
}
};
module.exports.log = lngamma;
},{}],220:[function(_dereq_,module,exports){
module.exports = getCanvasContext
function getCanvasContext (type, opts) {
if (typeof type !== 'string') {
throw new TypeError('must specify type string')
}
opts = opts || {}
if (typeof document === 'undefined' && !opts.canvas) {
return null // check for Node
}
var canvas = opts.canvas || document.createElement('canvas')
if (typeof opts.width === 'number') {
canvas.width = opts.width
}
if (typeof opts.height === 'number') {
canvas.height = opts.height
}
var attribs = opts
var gl
try {
var names = [ type ]
// prefix GL contexts
if (type.indexOf('webgl') === 0) {
names.push('experimental-' + type)
}
for (var i = 0; i < names.length; i++) {
gl = canvas.getContext(names[i], attribs)
if (gl) return gl
}
} catch (e) {
gl = null
}
return (gl || null) // ensure null on fail
}
},{}],221:[function(_dereq_,module,exports){
'use strict'
module.exports = createAxes
var createText = _dereq_('./lib/text.js')
var createLines = _dereq_('./lib/lines.js')
var createBackground = _dereq_('./lib/background.js')
var getCubeProperties = _dereq_('./lib/cube.js')
var Ticks = _dereq_('./lib/ticks.js')
var identity = new Float32Array([
1, 0, 0, 0,
0, 1, 0, 0,
0, 0, 1, 0,
0, 0, 0, 1])
function copyVec3(a, b) {
a[0] = b[0]
a[1] = b[1]
a[2] = b[2]
return a
}
function Axes(gl) {
this.gl = gl
this.pixelRatio = 1
this.bounds = [ [-10, -10, -10],
[ 10, 10, 10] ]
this.ticks = [ [], [], [] ]
this.autoTicks = true
this.tickSpacing = [ 1, 1, 1 ]
this.tickEnable = [ true, true, true ]
this.tickFont = [ 'sans-serif', 'sans-serif', 'sans-serif' ]
this.tickSize = [ 12, 12, 12 ]
this.tickAngle = [ 0, 0, 0 ]
this.tickColor = [ [0,0,0,1], [0,0,0,1], [0,0,0,1] ]
this.tickPad = [ 10, 10, 10 ]
this.lastCubeProps = {
cubeEdges: [0,0,0],
axis: [0,0,0]
}
this.labels = [ 'x', 'y', 'z' ]
this.labelEnable = [ true, true, true ]
this.labelFont = 'sans-serif'
this.labelSize = [ 20, 20, 20 ]
this.labelAngle = [ 0, 0, 0 ]
this.labelColor = [ [0,0,0,1], [0,0,0,1], [0,0,0,1] ]
this.labelPad = [ 10, 10, 10 ]
this.lineEnable = [ true, true, true ]
this.lineMirror = [ false, false, false ]
this.lineWidth = [ 1, 1, 1 ]
this.lineColor = [ [0,0,0,1], [0,0,0,1], [0,0,0,1] ]
this.lineTickEnable = [ true, true, true ]
this.lineTickMirror = [ false, false, false ]
this.lineTickLength = [ 0, 0, 0 ]
this.lineTickWidth = [ 1, 1, 1 ]
this.lineTickColor = [ [0,0,0,1], [0,0,0,1], [0,0,0,1] ]
this.gridEnable = [ true, true, true ]
this.gridWidth = [ 1, 1, 1 ]
this.gridColor = [ [0,0,0,1], [0,0,0,1], [0,0,0,1] ]
this.zeroEnable = [ true, true, true ]
this.zeroLineColor = [ [0,0,0,1], [0,0,0,1], [0,0,0,1] ]
this.zeroLineWidth = [ 2, 2, 2 ]
this.backgroundEnable = [ false, false, false ]
this.backgroundColor = [ [0.8, 0.8, 0.8, 0.5],
[0.8, 0.8, 0.8, 0.5],
[0.8, 0.8, 0.8, 0.5] ]
this._firstInit = true
this._text = null
this._lines = null
this._background = createBackground(gl)
}
var proto = Axes.prototype
proto.update = function(options) {
options = options || {}
//Option parsing helper functions
function parseOption(nest, cons, name) {
if(name in options) {
var opt = options[name]
var prev = this[name]
var next
if(nest ? (Array.isArray(opt) && Array.isArray(opt[0])) :
Array.isArray(opt) ) {
this[name] = next = [ cons(opt[0]), cons(opt[1]), cons(opt[2]) ]
} else {
this[name] = next = [ cons(opt), cons(opt), cons(opt) ]
}
for(var i=0; i<3; ++i) {
if(next[i] !== prev[i]) {
return true
}
}
}
return false
}
var NUMBER = parseOption.bind(this, false, Number)
var BOOLEAN = parseOption.bind(this, false, Boolean)
var STRING = parseOption.bind(this, false, String)
var COLOR = parseOption.bind(this, true, function(v) {
if(Array.isArray(v)) {
if(v.length === 3) {
return [ +v[0], +v[1], +v[2], 1.0 ]
} else if(v.length === 4) {
return [ +v[0], +v[1], +v[2], +v[3] ]
}
}
return [ 0, 0, 0, 1 ]
})
//Tick marks and bounds
var nextTicks
var ticksUpdate = false
var boundsChanged = false
if('bounds' in options) {
var bounds = options.bounds
i_loop:
for(var i=0; i<2; ++i) {
for(var j=0; j<3; ++j) {
if(bounds[i][j] !== this.bounds[i][j]) {
boundsChanged = true
}
this.bounds[i][j] = bounds[i][j]
}
}
}
if('ticks' in options) {
nextTicks = options.ticks
ticksUpdate = true
this.autoTicks = false
for(var i=0; i<3; ++i) {
this.tickSpacing[i] = 0.0
}
} else if(NUMBER('tickSpacing')) {
this.autoTicks = true
boundsChanged = true
}
if(this._firstInit) {
if(!('ticks' in options || 'tickSpacing' in options)) {
this.autoTicks = true
}
//Force tick recomputation on first update
boundsChanged = true
ticksUpdate = true
this._firstInit = false
}
if(boundsChanged && this.autoTicks) {
nextTicks = Ticks.create(this.bounds, this.tickSpacing)
ticksUpdate = true
}
//Compare next ticks to previous ticks, only update if needed
if(ticksUpdate) {
for(var i=0; i<3; ++i) {
nextTicks[i].sort(function(a,b) {
return a.x-b.x
})
}
if(Ticks.equal(nextTicks, this.ticks)) {
ticksUpdate = false
} else {
this.ticks = nextTicks
}
}
//Parse tick properties
BOOLEAN('tickEnable')
if(STRING('tickFont')) {
ticksUpdate = true //If font changes, must rebuild vbo
}
NUMBER('tickSize')
NUMBER('tickAngle')
NUMBER('tickPad')
COLOR('tickColor')
//Axis labels
var labelUpdate = STRING('labels')
if(STRING('labelFont')) {
labelUpdate = true
}
BOOLEAN('labelEnable')
NUMBER('labelSize')
NUMBER('labelPad')
COLOR('labelColor')
//Axis lines
BOOLEAN('lineEnable')
BOOLEAN('lineMirror')
NUMBER('lineWidth')
COLOR('lineColor')
//Axis line ticks
BOOLEAN('lineTickEnable')
BOOLEAN('lineTickMirror')
NUMBER('lineTickLength')
NUMBER('lineTickWidth')
COLOR('lineTickColor')
//Grid lines
BOOLEAN('gridEnable')
NUMBER('gridWidth')
COLOR('gridColor')
//Zero line
BOOLEAN('zeroEnable')
COLOR('zeroLineColor')
NUMBER('zeroLineWidth')
//Background
BOOLEAN('backgroundEnable')
COLOR('backgroundColor')
//Update text if necessary
if(!this._text) {
this._text = createText(
this.gl,
this.bounds,
this.labels,
this.labelFont,
this.ticks,
this.tickFont)
} else if(this._text && (labelUpdate || ticksUpdate)) {
this._text.update(
this.bounds,
this.labels,
this.labelFont,
this.ticks,
this.tickFont)
}
//Update lines if necessary
if(this._lines && ticksUpdate) {
this._lines.dispose()
this._lines = null
}
if(!this._lines) {
this._lines = createLines(this.gl, this.bounds, this.ticks)
}
}
function OffsetInfo() {
this.primalOffset = [0,0,0]
this.primalMinor = [0,0,0]
this.mirrorOffset = [0,0,0]
this.mirrorMinor = [0,0,0]
}
var LINE_OFFSET = [ new OffsetInfo(), new OffsetInfo(), new OffsetInfo() ]
function computeLineOffset(result, i, bounds, cubeEdges, cubeAxis) {
var primalOffset = result.primalOffset
var primalMinor = result.primalMinor
var dualOffset = result.mirrorOffset
var dualMinor = result.mirrorMinor
var e = cubeEdges[i]
//Calculate offsets
for(var j=0; j<3; ++j) {
if(i === j) {
continue
}
var a = primalOffset,
b = dualOffset,
c = primalMinor,
d = dualMinor
if(e & (1<<j)) {
a = dualOffset
b = primalOffset
c = dualMinor
d = primalMinor
}
a[j] = bounds[0][j]
b[j] = bounds[1][j]
if(cubeAxis[j] > 0) {
c[j] = -1
d[j] = 0
} else {
c[j] = 0
d[j] = +1
}
}
}
var CUBE_ENABLE = [0,0,0]
var DEFAULT_PARAMS = {
model: identity,
view: identity,
projection: identity
}
proto.isOpaque = function() {
return true
}
proto.isTransparent = function() {
return false
}
proto.drawTransparent = function(params) {}
var PRIMAL_MINOR = [0,0,0]
var MIRROR_MINOR = [0,0,0]
var PRIMAL_OFFSET = [0,0,0]
proto.draw = function(params) {
params = params || DEFAULT_PARAMS
var gl = this.gl
//Geometry for camera and axes
var model = params.model || identity
var view = params.view || identity
var projection = params.projection || identity
var bounds = this.bounds
//Unpack axis info
var cubeParams = getCubeProperties(model, view, projection, bounds)
var cubeEdges = cubeParams.cubeEdges
var cubeAxis = cubeParams.axis
var cx = view[12]
var cy = view[13]
var cz = view[14]
var cw = view[15]
var pixelScaleF = this.pixelRatio * (projection[3]*cx + projection[7]*cy + projection[11]*cz + projection[15]*cw) / gl.drawingBufferHeight
for(var i=0; i<3; ++i) {
this.lastCubeProps.cubeEdges[i] = cubeEdges[i]
this.lastCubeProps.axis[i] = cubeAxis[i]
}
//Compute axis info
var lineOffset = LINE_OFFSET
for(var i=0; i<3; ++i) {
computeLineOffset(
LINE_OFFSET[i],
i,
this.bounds,
cubeEdges,
cubeAxis)
}
//Set up state parameters
var gl = this.gl
//Draw background first
var cubeEnable = CUBE_ENABLE
for(var i=0; i<3; ++i) {
if(this.backgroundEnable[i]) {
cubeEnable[i] = cubeAxis[i]
} else {
cubeEnable[i] = 0
}
}
this._background.draw(
model,
view,
projection,
bounds,
cubeEnable,
this.backgroundColor)
//Draw lines
this._lines.bind(
model,
view,
projection,
this)
//First draw grid lines and zero lines
for(var i=0; i<3; ++i) {
var x = [0,0,0]
if(cubeAxis[i] > 0) {
x[i] = bounds[1][i]
} else {
x[i] = bounds[0][i]
}
//Draw grid lines
for(var j=0; j<2; ++j) {
var u = (i + 1 + j) % 3
var v = (i + 1 + (j^1)) % 3
if(this.gridEnable[u]) {
this._lines.drawGrid(u, v, this.bounds, x, this.gridColor[u], this.gridWidth[u]*this.pixelRatio)
}
}
//Draw zero lines (need to do this AFTER all grid lines are drawn)
for(var j=0; j<2; ++j) {
var u = (i + 1 + j) % 3
var v = (i + 1 + (j^1)) % 3
if(this.zeroEnable[v]) {
//Check if zero line in bounds
if(bounds[0][v] <= 0 && bounds[1][v] >= 0) {
this._lines.drawZero(u, v, this.bounds, x, this.zeroLineColor[v], this.zeroLineWidth[v]*this.pixelRatio)
}
}
}
}
//Then draw axis lines and tick marks
for(var i=0; i<3; ++i) {
//Draw axis lines
if(this.lineEnable[i]) {
this._lines.drawAxisLine(i, this.bounds, lineOffset[i].primalOffset, this.lineColor[i], this.lineWidth[i]*this.pixelRatio)
}
if(this.lineMirror[i]) {
this._lines.drawAxisLine(i, this.bounds, lineOffset[i].mirrorOffset, this.lineColor[i], this.lineWidth[i]*this.pixelRatio)
}
//Compute minor axes
var primalMinor = copyVec3(PRIMAL_MINOR, lineOffset[i].primalMinor)
var mirrorMinor = copyVec3(MIRROR_MINOR, lineOffset[i].mirrorMinor)
var tickLength = this.lineTickLength
var op = 0
for(var j=0; j<3; ++j) {
var scaleFactor = pixelScaleF / model[5*j]
primalMinor[j] *= tickLength[j] * scaleFactor
mirrorMinor[j] *= tickLength[j] * scaleFactor
}
//Draw axis line ticks
if(this.lineTickEnable[i]) {
this._lines.drawAxisTicks(i, lineOffset[i].primalOffset, primalMinor, this.lineTickColor[i], this.lineTickWidth[i]*this.pixelRatio)
}
if(this.lineTickMirror[i]) {
this._lines.drawAxisTicks(i, lineOffset[i].mirrorOffset, mirrorMinor, this.lineTickColor[i], this.lineTickWidth[i]*this.pixelRatio)
}
}
this._lines.unbind()
//Draw text sprites
this._text.bind(
model,
view,
projection,
this.pixelRatio)
for(var i=0; i<3; ++i) {
var minor = lineOffset[i].primalMinor
var offset = copyVec3(PRIMAL_OFFSET, lineOffset[i].primalOffset)
for(var j=0; j<3; ++j) {
if(this.lineTickEnable[i]) {
offset[j] += pixelScaleF * minor[j] * Math.max(this.lineTickLength[j], 0) / model[5*j]
}
}
//Draw tick text
if(this.tickEnable[i]) {
//Add tick padding
for(var j=0; j<3; ++j) {
offset[j] += pixelScaleF * minor[j] * this.tickPad[j] / model[5*j]
}
//Draw axis
this._text.drawTicks(
i,
this.tickSize[i],
this.tickAngle[i],
offset,
this.tickColor[i])
}
//Draw labels
if(this.labelEnable[i]) {
//Add label padding
for(var j=0; j<3; ++j) {
offset[j] += pixelScaleF * minor[j] * this.labelPad[j] / model[5*j]
}
offset[i] += 0.5 * (bounds[0][i] + bounds[1][i])
//Draw axis
this._text.drawLabel(
i,
this.labelSize[i],
this.labelAngle[i],
offset,
this.labelColor[i])
}
}
this._text.unbind()
}
proto.dispose = function() {
this._text.dispose()
this._lines.dispose()
this._background.dispose()
this._lines = null
this._text = null
this._background = null
this.gl = null
}
function createAxes(gl, options) {
var axes = new Axes(gl)
axes.update(options)
return axes
}
},{"./lib/background.js":222,"./lib/cube.js":223,"./lib/lines.js":224,"./lib/text.js":226,"./lib/ticks.js":227}],222:[function(_dereq_,module,exports){
'use strict'
module.exports = createBackgroundCube
var createBuffer = _dereq_('gl-buffer')
var createVAO = _dereq_('gl-vao')
var createShader = _dereq_('./shaders').bg
function BackgroundCube(gl, buffer, vao, shader) {
this.gl = gl
this.buffer = buffer
this.vao = vao
this.shader = shader
}
var proto = BackgroundCube.prototype
proto.draw = function(model, view, projection, bounds, enable, colors) {
var needsBG = false
for(var i=0; i<3; ++i) {
needsBG = needsBG || enable[i]
}
if(!needsBG) {
return
}
var gl = this.gl
gl.enable(gl.POLYGON_OFFSET_FILL)
gl.polygonOffset(1, 2)
this.shader.bind()
this.shader.uniforms = {
model: model,
view: view,
projection: projection,
bounds: bounds,
enable: enable,
colors: colors
}
this.vao.bind()
this.vao.draw(this.gl.TRIANGLES, 36)
this.vao.unbind()
gl.disable(gl.POLYGON_OFFSET_FILL)
}
proto.dispose = function() {
this.vao.dispose()
this.buffer.dispose()
this.shader.dispose()
}
function createBackgroundCube(gl) {
//Create cube vertices
var vertices = []
var indices = []
var ptr = 0
for(var d=0; d<3; ++d) {
var u = (d+1) % 3
var v = (d+2) % 3
var x = [0,0,0]
var c = [0,0,0]
for(var s=-1; s<=1; s+=2) {
indices.push(ptr, ptr+2, ptr+1,
ptr+1, ptr+2, ptr+3)
x[d] = s
c[d] = s
for(var i=-1; i<=1; i+=2) {
x[u] = i
for(var j=-1; j<=1; j+=2) {
x[v] = j
vertices.push(x[0], x[1], x[2],
c[0], c[1], c[2])
ptr += 1
}
}
//Swap u and v
var tt = u
u = v
v = tt
}
}
//Allocate buffer and vertex array
var buffer = createBuffer(gl, new Float32Array(vertices))
var elements = createBuffer(gl, new Uint16Array(indices), gl.ELEMENT_ARRAY_BUFFER)
var vao = createVAO(gl, [
{
buffer: buffer,
type: gl.FLOAT,
size: 3,
offset: 0,
stride: 24
},
{
buffer: buffer,
type: gl.FLOAT,
size: 3,
offset: 12,
stride: 24
}
], elements)
//Create shader object
var shader = createShader(gl)
shader.attributes.position.location = 0
shader.attributes.normal.location = 1
return new BackgroundCube(gl, buffer, vao, shader)
}
},{"./shaders":225,"gl-buffer":229,"gl-vao":308}],223:[function(_dereq_,module,exports){
"use strict"
module.exports = getCubeEdges
var bits = _dereq_('bit-twiddle')
var multiply = _dereq_('gl-mat4/multiply')
var invert = _dereq_('gl-mat4/invert')
var splitPoly = _dereq_('split-polygon')
var orient = _dereq_('robust-orientation')
var mvp = new Array(16)
var imvp = new Array(16)
var pCubeVerts = new Array(8)
var cubeVerts = new Array(8)
var x = new Array(3)
var zero3 = [0,0,0]
;(function() {
for(var i=0; i<8; ++i) {
pCubeVerts[i] =[1,1,1,1]
cubeVerts[i] = [1,1,1]
}
})()
function transformHg(result, x, mat) {
for(var i=0; i<4; ++i) {
result[i] = mat[12+i]
for(var j=0; j<3; ++j) {
result[i] += x[j]*mat[4*j+i]
}
}
}
var FRUSTUM_PLANES = [
[ 0, 0, 1, 0, 0],
[ 0, 0,-1, 1, 0],
[ 0,-1, 0, 1, 0],
[ 0, 1, 0, 1, 0],
[-1, 0, 0, 1, 0],
[ 1, 0, 0, 1, 0]
]
function polygonArea(p) {
for(var i=0; i<FRUSTUM_PLANES.length; ++i) {
p = splitPoly.positive(p, FRUSTUM_PLANES[i])
if(p.length < 3) {
return 0
}
}
var base = p[0]
var ax = base[0] / base[3]
var ay = base[1] / base[3]
var area = 0.0
for(var i=1; i+1<p.length; ++i) {
var b = p[i]
var c = p[i+1]
var bx = b[0]/b[3]
var by = b[1]/b[3]
var cx = c[0]/c[3]
var cy = c[1]/c[3]
var ux = bx - ax
var uy = by - ay
var vx = cx - ax
var vy = cy - ay
area += Math.abs(ux * vy - uy * vx)
}
return area
}
var CUBE_EDGES = [1,1,1]
var CUBE_AXIS = [0,0,0]
var CUBE_RESULT = {
cubeEdges: CUBE_EDGES,
axis: CUBE_AXIS
}
function getCubeEdges(model, view, projection, bounds) {
//Concatenate matrices
multiply(mvp, view, model)
multiply(mvp, projection, mvp)
//First project cube vertices
var ptr = 0
for(var i=0; i<2; ++i) {
x[2] = bounds[i][2]
for(var j=0; j<2; ++j) {
x[1] = bounds[j][1]
for(var k=0; k<2; ++k) {
x[0] = bounds[k][0]
transformHg(pCubeVerts[ptr], x, mvp)
ptr += 1
}
}
}
//Classify camera against cube faces
var closest = -1
for(var i=0; i<8; ++i) {
var w = pCubeVerts[i][3]
for(var l=0; l<3; ++l) {
cubeVerts[i][l] = pCubeVerts[i][l] / w
}
if(w < 0) {
if(closest < 0) {
closest = i
} else if(cubeVerts[i][2] < cubeVerts[closest][2]) {
closest = i
}
}
}
if(closest < 0) {
closest = 0
for(var d=0; d<3; ++d) {
var u = (d+2) % 3
var v = (d+1) % 3
var o0 = -1
var o1 = -1
for(var s=0; s<2; ++s) {
var f0 = (s<<d)
var f1 = f0 + (s << u) + ((1-s) << v)
var f2 = f0 + ((1-s) << u) + (s << v)
if(orient(cubeVerts[f0], cubeVerts[f1], cubeVerts[f2], zero3) < 0) {
continue
}
if(s) {
o0 = 1
} else {
o1 = 1
}
}
if(o0 < 0 || o1 < 0) {
if(o1 > o0) {
closest |= 1<<d
}
continue
}
for(var s=0; s<2; ++s) {
var f0 = (s<<d)
var f1 = f0 + (s << u) + ((1-s) << v)
var f2 = f0 + ((1-s) << u) + (s << v)
var o = polygonArea([
pCubeVerts[f0],
pCubeVerts[f1],
pCubeVerts[f2],
pCubeVerts[f0+(1<<u)+(1<<v)]])
if(s) {
o0 = o
} else {
o1 = o
}
}
if(o1 > o0) {
closest |= 1<<d
continue
}
}
}
var farthest = 7^closest
//Find lowest vertex which is not closest closest
var bottom = -1
for(var i=0; i<8; ++i) {
if(i === closest || i === farthest) {
continue
}
if(bottom < 0) {
bottom = i
} else if(cubeVerts[bottom][1] > cubeVerts[i][1]) {
bottom = i
}
}
//Find left/right neighbors of bottom vertex
var left = -1
for(var i=0; i<3; ++i) {
var idx = bottom ^ (1<<i)
if(idx === closest || idx === farthest) {
continue
}
if(left < 0) {
left = idx
}
var v = cubeVerts[idx]
if(v[0] < cubeVerts[left][0]) {
left = idx
}
}
var right = -1
for(var i=0; i<3; ++i) {
var idx = bottom ^ (1<<i)
if(idx === closest || idx === farthest || idx === left) {
continue
}
if(right < 0) {
right = idx
}
var v = cubeVerts[idx]
if(v[0] > cubeVerts[right][0]) {
right = idx
}
}
//Determine edge axis coordinates
var cubeEdges = CUBE_EDGES
cubeEdges[0] = cubeEdges[1] = cubeEdges[2] = 0
cubeEdges[bits.log2(left^bottom)] = bottom&left
cubeEdges[bits.log2(bottom^right)] = bottom&right
var top = right ^ 7
if(top === closest || top === farthest) {
top = left ^ 7
cubeEdges[bits.log2(right^top)] = top&right
} else {
cubeEdges[bits.log2(left^top)] = top&left
}
//Determine visible faces
var axis = CUBE_AXIS
var cutCorner = closest
for(var d=0; d<3; ++d) {
if(cutCorner & (1<<d)) {
axis[d] = -1
} else {
axis[d] = 1
}
}
//Return result
return CUBE_RESULT
}
},{"bit-twiddle":79,"gl-mat4/invert":253,"gl-mat4/multiply":255,"robust-orientation":483,"split-polygon":500}],224:[function(_dereq_,module,exports){
'use strict'
module.exports = createLines
var createBuffer = _dereq_('gl-buffer')
var createVAO = _dereq_('gl-vao')
var createShader = _dereq_('./shaders').line
var MAJOR_AXIS = [0,0,0]
var MINOR_AXIS = [0,0,0]
var SCREEN_AXIS = [0,0,0]
var OFFSET_VEC = [0,0,0]
var SHAPE = [1,1]
function zeroVec(a) {
a[0] = a[1] = a[2] = 0
return a
}
function copyVec(a,b) {
a[0] = b[0]
a[1] = b[1]
a[2] = b[2]
return a
}
function Lines(gl, vertBuffer, vao, shader, tickCount, tickOffset, gridCount, gridOffset) {
this.gl = gl
this.vertBuffer = vertBuffer
this.vao = vao
this.shader = shader
this.tickCount = tickCount
this.tickOffset = tickOffset
this.gridCount = gridCount
this.gridOffset = gridOffset
}
var proto = Lines.prototype
proto.bind = function(model, view, projection) {
this.shader.bind()
this.shader.uniforms.model = model
this.shader.uniforms.view = view
this.shader.uniforms.projection = projection
SHAPE[0] = this.gl.drawingBufferWidth
SHAPE[1] = this.gl.drawingBufferHeight
this.shader.uniforms.screenShape = SHAPE
this.vao.bind()
}
proto.unbind = function() {
this.vao.unbind()
}
proto.drawAxisLine = function(j, bounds, offset, color, lineWidth) {
var minorAxis = zeroVec(MINOR_AXIS)
this.shader.uniforms.majorAxis = MINOR_AXIS
minorAxis[j] = bounds[1][j] - bounds[0][j]
this.shader.uniforms.minorAxis = minorAxis
var noffset = copyVec(OFFSET_VEC, offset)
noffset[j] += bounds[0][j]
this.shader.uniforms.offset = noffset
this.shader.uniforms.lineWidth = lineWidth
this.shader.uniforms.color = color
var screenAxis = zeroVec(SCREEN_AXIS)
screenAxis[(j+2)%3] = 1
this.shader.uniforms.screenAxis = screenAxis
this.vao.draw(this.gl.TRIANGLES, 6)
var screenAxis = zeroVec(SCREEN_AXIS)
screenAxis[(j+1)%3] = 1
this.shader.uniforms.screenAxis = screenAxis
this.vao.draw(this.gl.TRIANGLES, 6)
}
proto.drawAxisTicks = function(j, offset, minorAxis, color, lineWidth) {
if(!this.tickCount[j]) {
return
}
var majorAxis = zeroVec(MAJOR_AXIS)
majorAxis[j] = 1
this.shader.uniforms.majorAxis = majorAxis
this.shader.uniforms.offset = offset
this.shader.uniforms.minorAxis = minorAxis
this.shader.uniforms.color = color
this.shader.uniforms.lineWidth = lineWidth
var screenAxis = zeroVec(SCREEN_AXIS)
screenAxis[j] = 1
this.shader.uniforms.screenAxis = screenAxis
this.vao.draw(this.gl.TRIANGLES, this.tickCount[j], this.tickOffset[j])
}
proto.drawGrid = function(i, j, bounds, offset, color, lineWidth) {
if(!this.gridCount[i]) {
return
}
var minorAxis = zeroVec(MINOR_AXIS)
minorAxis[j] = bounds[1][j] - bounds[0][j]
this.shader.uniforms.minorAxis = minorAxis
var noffset = copyVec(OFFSET_VEC, offset)
noffset[j] += bounds[0][j]
this.shader.uniforms.offset = noffset
var majorAxis = zeroVec(MAJOR_AXIS)
majorAxis[i] = 1
this.shader.uniforms.majorAxis = majorAxis
var screenAxis = zeroVec(SCREEN_AXIS)
screenAxis[i] = 1
this.shader.uniforms.screenAxis = screenAxis
this.shader.uniforms.lineWidth = lineWidth
this.shader.uniforms.color = color
this.vao.draw(this.gl.TRIANGLES, this.gridCount[i], this.gridOffset[i])
}
proto.drawZero = function(j, i, bounds, offset, color, lineWidth) {
var minorAxis = zeroVec(MINOR_AXIS)
this.shader.uniforms.majorAxis = minorAxis
minorAxis[j] = bounds[1][j] - bounds[0][j]
this.shader.uniforms.minorAxis = minorAxis
var noffset = copyVec(OFFSET_VEC, offset)
noffset[j] += bounds[0][j]
this.shader.uniforms.offset = noffset
var screenAxis = zeroVec(SCREEN_AXIS)
screenAxis[i] = 1
this.shader.uniforms.screenAxis = screenAxis
this.shader.uniforms.lineWidth = lineWidth
this.shader.uniforms.color = color
this.vao.draw(this.gl.TRIANGLES, 6)
}
proto.dispose = function() {
this.vao.dispose()
this.vertBuffer.dispose()
this.shader.dispose()
}
function createLines(gl, bounds, ticks) {
var vertices = []
var tickOffset = [0,0,0]
var tickCount = [0,0,0]
//Create grid lines for each axis/direction
var gridOffset = [0,0,0]
var gridCount = [0,0,0]
//Add zero line
vertices.push(
0,0,1, 0,1,1, 0,0,-1,
0,0,-1, 0,1,1, 0,1,-1)
for(var i=0; i<3; ++i) {
//Axis tick marks
var start = ((vertices.length / 3)|0)
for(var j=0; j<ticks[i].length; ++j) {
var x = +ticks[i][j].x
vertices.push(
x,0,1, x,1,1, x,0,-1,
x,0,-1, x,1,1, x,1,-1)
}
var end = ((vertices.length / 3)|0)
tickOffset[i] = start
tickCount[i] = end - start
//Grid lines
var start = ((vertices.length / 3)|0)
for(var k=0; k<ticks[i].length; ++k) {
var x = +ticks[i][k].x
vertices.push(
x,0,1, x,1,1, x,0,-1,
x,0,-1, x,1,1, x,1,-1)
}
var end = ((vertices.length / 3)|0)
gridOffset[i] = start
gridCount[i] = end - start
}
//Create cube VAO
var vertBuf = createBuffer(gl, new Float32Array(vertices))
var vao = createVAO(gl, [
{ "buffer": vertBuf,
"type": gl.FLOAT,
"size": 3,
"stride": 0,
"offset": 0
}
])
var shader = createShader(gl)
shader.attributes.position.location = 0
return new Lines(gl, vertBuf, vao, shader, tickCount, tickOffset, gridCount, gridOffset)
}
},{"./shaders":225,"gl-buffer":229,"gl-vao":308}],225:[function(_dereq_,module,exports){
'use strict'
var glslify = _dereq_('glslify')
var createShader = _dereq_('gl-shader')
var lineVert = glslify(["#define GLSLIFY 1\nattribute vec3 position;\n\nuniform mat4 model, view, projection;\nuniform vec3 offset, majorAxis, minorAxis, screenAxis;\nuniform float lineWidth;\nuniform vec2 screenShape;\n\nvec3 project(vec3 p) {\n vec4 pp = projection * view * model * vec4(p, 1.0);\n return pp.xyz / max(pp.w, 0.0001);\n}\n\nvoid main() {\n vec3 major = position.x * majorAxis;\n vec3 minor = position.y * minorAxis;\n\n vec3 vPosition = major + minor + offset;\n vec3 pPosition = project(vPosition);\n vec3 offset = project(vPosition + screenAxis * position.z);\n\n vec2 screen = normalize((offset - pPosition).xy * screenShape) / screenShape;\n\n gl_Position = vec4(pPosition + vec3(0.5 * screen * lineWidth, 0), 1.0);\n}\n"])
var lineFrag = glslify(["precision mediump float;\n#define GLSLIFY 1\nuniform vec4 color;\nvoid main() {\n gl_FragColor = color;\n}"])
exports.line = function(gl) {
return createShader(gl, lineVert, lineFrag, null, [
{name: 'position', type: 'vec3'}
])
}
var textVert = glslify(["#define GLSLIFY 1\nattribute vec3 position;\n\nuniform mat4 model, view, projection;\nuniform vec3 offset, axis;\nuniform float scale, angle, pixelScale;\nuniform vec2 resolution;\n\nvoid main() { \n //Compute plane offset\n vec2 planeCoord = position.xy * pixelScale;\n mat2 planeXform = scale * mat2(cos(angle), sin(angle),\n -sin(angle), cos(angle));\n vec2 viewOffset = 2.0 * planeXform * planeCoord / resolution;\n\n //Compute world offset\n float axisDistance = position.z;\n vec3 dataPosition = axisDistance * axis + offset;\n vec4 worldPosition = model * vec4(dataPosition, 1);\n \n //Compute clip position\n vec4 viewPosition = view * worldPosition;\n vec4 clipPosition = projection * viewPosition;\n clipPosition /= clipPosition.w;\n\n //Apply text offset in clip coordinates\n clipPosition += vec4(viewOffset, 0, 0);\n\n //Done\n gl_Position = clipPosition;\n}"])
var textFrag = glslify(["precision mediump float;\n#define GLSLIFY 1\nuniform vec4 color;\nvoid main() {\n gl_FragColor = color;\n}"])
exports.text = function(gl) {
return createShader(gl, textVert, textFrag, null, [
{name: 'position', type: 'vec3'}
])
}
var bgVert = glslify(["#define GLSLIFY 1\nattribute vec3 position;\nattribute vec3 normal;\n\nuniform mat4 model, view, projection;\nuniform vec3 enable;\nuniform vec3 bounds[2];\n\nvarying vec3 colorChannel;\n\nvoid main() {\n if(dot(normal, enable) > 0.0) {\n vec3 nPosition = mix(bounds[0], bounds[1], 0.5 * (position + 1.0));\n gl_Position = projection * view * model * vec4(nPosition, 1.0);\n } else {\n gl_Position = vec4(0,0,0,0);\n }\n colorChannel = abs(normal);\n}"])
var bgFrag = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nuniform vec4 colors[3];\n\nvarying vec3 colorChannel;\n\nvoid main() {\n gl_FragColor = colorChannel.x * colors[0] + \n colorChannel.y * colors[1] +\n colorChannel.z * colors[2];\n}"])
exports.bg = function(gl) {
return createShader(gl, bgVert, bgFrag, null, [
{name: 'position', type: 'vec3'},
{name: 'normal', type: 'vec3'}
])
}
},{"gl-shader":286,"glslify":390}],226:[function(_dereq_,module,exports){
(function (process){
"use strict"
module.exports = createTextSprites
var createBuffer = _dereq_('gl-buffer')
var createVAO = _dereq_('gl-vao')
var vectorizeText = _dereq_('vectorize-text')
var createShader = _dereq_('./shaders').text
var globals = window || process.global || {}
var __TEXT_CACHE = globals.__TEXT_CACHE || {}
globals.__TEXT_CACHE = {}
//Vertex buffer format for text is:
//
/// [x,y,z] = Spatial coordinate
//
var VERTEX_SIZE = 3
var VERTEX_STRIDE = VERTEX_SIZE * 4
function TextSprites(
gl,
shader,
buffer,
vao) {
this.gl = gl
this.shader = shader
this.buffer = buffer
this.vao = vao
this.tickOffset =
this.tickCount =
this.labelOffset =
this.labelCount = null
}
var proto = TextSprites.prototype
//Bind textures for rendering
var SHAPE = [0,0]
proto.bind = function(model, view, projection, pixelScale) {
this.vao.bind()
this.shader.bind()
var uniforms = this.shader.uniforms
uniforms.model = model
uniforms.view = view
uniforms.projection = projection
uniforms.pixelScale = pixelScale
SHAPE[0] = this.gl.drawingBufferWidth
SHAPE[1] = this.gl.drawingBufferHeight
this.shader.uniforms.resolution = SHAPE
}
proto.unbind = function() {
this.vao.unbind()
}
proto.update = function(bounds, labels, labelFont, ticks, tickFont) {
var gl = this.gl
var data = []
function addItem(t, text, font, size) {
var fontcache = __TEXT_CACHE[font]
if(!fontcache) {
fontcache = __TEXT_CACHE[font] = {}
}
var mesh = fontcache[text]
if(!mesh) {
mesh = fontcache[text] = tryVectorizeText(text, {
triangles: true,
font: font,
textAlign: 'center',
textBaseline: 'middle'
})
}
var scale = (size || 12) / 12
var positions = mesh.positions
var cells = mesh.cells
var lo = [ Infinity, Infinity]
var hi = [-Infinity,-Infinity]
for(var i=0, nc=cells.length; i<nc; ++i) {
var c = cells[i]
for(var j=2; j>=0; --j) {
var p = positions[c[j]]
data.push(scale*p[0], -scale*p[1], t)
}
}
}
//Generate sprites for all 3 axes, store data in texture atlases
var tickOffset = [0,0,0]
var tickCount = [0,0,0]
var labelOffset = [0,0,0]
var labelCount = [0,0,0]
for(var d=0; d<3; ++d) {
//Generate label
labelOffset[d] = (data.length/VERTEX_SIZE)|0
addItem(0.5*(bounds[0][d]+bounds[1][d]), labels[d], labelFont)
labelCount[d] = ((data.length/VERTEX_SIZE)|0) - labelOffset[d]
//Generate sprites for tick marks
tickOffset[d] = (data.length/VERTEX_SIZE)|0
for(var i=0; i<ticks[d].length; ++i) {
if(!ticks[d][i].text) {
continue
}
addItem(
ticks[d][i].x,
ticks[d][i].text,
ticks[d][i].font || tickFont,
ticks[d][i].fontSize || 12)
}
tickCount[d] = ((data.length/VERTEX_SIZE)|0) - tickOffset[d]
}
this.buffer.update(data)
this.tickOffset = tickOffset
this.tickCount = tickCount
this.labelOffset = labelOffset
this.labelCount = labelCount
}
//Draws the tick marks for an axis
var AXIS = [0,0,0]
proto.drawTicks = function(d, scale, angle, offset, color) {
if(!this.tickCount[d]) {
return
}
var v = AXIS
v[0] = v[1] = v[2] = 0
v[d] = 1
this.shader.uniforms.axis = v
this.shader.uniforms.color = color
this.shader.uniforms.angle = angle
this.shader.uniforms.scale = scale
this.shader.uniforms.offset = offset
this.vao.draw(this.gl.TRIANGLES, this.tickCount[d], this.tickOffset[d])
}
//Draws the text label for an axis
var ZERO = [0,0,0]
proto.drawLabel = function(d, scale, angle, offset, color) {
if(!this.labelCount[d]) {
return
}
this.shader.uniforms.axis = ZERO
this.shader.uniforms.color = color
this.shader.uniforms.angle = angle
this.shader.uniforms.scale = scale
this.shader.uniforms.offset = offset
this.vao.draw(this.gl.TRIANGLES, this.labelCount[d], this.labelOffset[d])
}
//Releases all resources attached to this object
proto.dispose = function() {
this.shader.dispose()
this.vao.dispose()
this.buffer.dispose()
}
function tryVectorizeText(text, options) {
try {
return vectorizeText(text, options)
} catch(e) {
console.warn('error vectorizing text:', e)
return {
cells: [],
positions: []
}
}
}
function createTextSprites(
gl,
bounds,
labels,
labelFont,
ticks,
tickFont) {
var buffer = createBuffer(gl)
var vao = createVAO(gl, [
{ "buffer": buffer,
"size": 3
}
])
var shader = createShader(gl)
shader.attributes.position.location = 0
var result = new TextSprites(
gl,
shader,
buffer,
vao)
result.update(bounds, labels, labelFont, ticks, tickFont)
return result
}
}).call(this,_dereq_('_process'))
},{"./shaders":225,"_process":462,"gl-buffer":229,"gl-vao":308,"vectorize-text":524}],227:[function(_dereq_,module,exports){
'use strict'
exports.create = defaultTicks
exports.equal = ticksEqual
function prettyPrint(spacing, i) {
var stepStr = spacing + ""
var u = stepStr.indexOf(".")
var sigFigs = 0
if(u >= 0) {
sigFigs = stepStr.length - u - 1
}
var shift = Math.pow(10, sigFigs)
var x = Math.round(spacing * i * shift)
var xstr = x + ""
if(xstr.indexOf("e") >= 0) {
return xstr
}
var xi = x / shift, xf = x % shift
if(x < 0) {
xi = -Math.ceil(xi)|0
xf = (-xf)|0
} else {
xi = Math.floor(xi)|0
xf = xf|0
}
var xis = "" + xi
if(x < 0) {
xis = "-" + xis
}
if(sigFigs) {
var xs = "" + xf
while(xs.length < sigFigs) {
xs = "0" + xs
}
return xis + "." + xs
} else {
return xis
}
}
function defaultTicks(bounds, tickSpacing) {
var array = []
for(var d=0; d<3; ++d) {
var ticks = []
var m = 0.5*(bounds[0][d]+bounds[1][d])
for(var t=0; t*tickSpacing[d]<=bounds[1][d]; ++t) {
ticks.push({x: t*tickSpacing[d], text: prettyPrint(tickSpacing[d], t)})
}
for(var t=-1; t*tickSpacing[d]>=bounds[0][d]; --t) {
ticks.push({x: t*tickSpacing[d], text: prettyPrint(tickSpacing[d], t)})
}
array.push(ticks)
}
return array
}
function ticksEqual(ticksA, ticksB) {
for(var i=0; i<3; ++i) {
if(ticksA[i].length !== ticksB[i].length) {
return false
}
for(var j=0; j<ticksA[i].length; ++j) {
var a = ticksA[i][j]
var b = ticksB[i][j]
if(
a.x !== b.x ||
a.text !== b.text ||
a.font !== b.font ||
a.fontColor !== b.fontColor ||
a.fontSize !== b.fontSize ||
a.dx !== b.dx ||
a.dy !== b.dy
) {
return false
}
}
}
return true
}
},{}],228:[function(_dereq_,module,exports){
"use strict"
module.exports = axesProperties
var getPlanes = _dereq_("extract-frustum-planes")
var splitPoly = _dereq_("split-polygon")
var cubeParams = _dereq_("./lib/cube.js")
var m4mul = _dereq_("gl-mat4/multiply")
var m4transpose = _dereq_("gl-mat4/transpose")
var v4transformMat4 = _dereq_("gl-vec4/transformMat4")
var identity = new Float32Array([
1, 0, 0, 0,
0, 1, 0, 0,
0, 0, 1, 0,
0, 0, 0, 1
])
var mvp = new Float32Array(16)
function AxesRange3D(lo, hi, pixelsPerDataUnit) {
this.lo = lo
this.hi = hi
this.pixelsPerDataUnit = pixelsPerDataUnit
}
var SCRATCH_P = [0,0,0,1]
var SCRATCH_Q = [0,0,0,1]
function gradient(result, M, v, width, height) {
for(var i=0; i<3; ++i) {
var p = SCRATCH_P
var q = SCRATCH_Q
for(var j=0; j<3; ++j) {
q[j] = p[j] = v[j]
}
q[3] = p[3] = 1
q[i] += 1
v4transformMat4(q, q, M)
if(q[3] < 0) {
result[i] = Infinity
}
p[i] -= 1
v4transformMat4(p, p, M)
if(p[3] < 0) {
result[i] = Infinity
}
var dx = (p[0]/p[3] - q[0]/q[3]) * width
var dy = (p[1]/p[3] - q[1]/q[3]) * height
result[i] = 0.25 * Math.sqrt(dx*dx + dy*dy)
}
return result
}
var RANGES = [
new AxesRange3D(Infinity, -Infinity, Infinity),
new AxesRange3D(Infinity, -Infinity, Infinity),
new AxesRange3D(Infinity, -Infinity, Infinity)
]
var SCRATCH_X = [0,0,0]
function axesProperties(axes, camera, width, height, params) {
var model = camera.model || identity
var view = camera.view || identity
var projection = camera.projection || identity
var bounds = axes.bounds
var params = params || cubeParams(model, view, projection, bounds)
var axis = params.axis
var edges = params.edges
m4mul(mvp, view, model)
m4mul(mvp, projection, mvp)
//Calculate the following properties for each axis:
//
// * lo - start of visible range for each axis in tick coordinates
// * hi - end of visible range for each axis in tick coordinates
// * ticksPerPixel - pixel density of tick marks for the axis
//
var ranges = RANGES
for(var i=0; i<3; ++i) {
ranges[i].lo = Infinity
ranges[i].hi = -Infinity
ranges[i].pixelsPerDataUnit = Infinity
}
//Compute frustum planes, intersect with box
var frustum = getPlanes(m4transpose(mvp, mvp))
m4transpose(mvp, mvp)
//Loop over vertices of viewable box
for(var d=0; d<3; ++d) {
var u = (d+1)%3
var v = (d+2)%3
var x = SCRATCH_X
i_loop:
for(var i=0; i<2; ++i) {
var poly = []
if((axis[d] < 0) === !!i) {
continue
}
x[d] = bounds[i][d]
for(var j=0; j<2; ++j) {
x[u] = bounds[j^i][u]
for(var k=0; k<2; ++k) {
x[v] = bounds[k^j^i][v]
poly.push(x.slice())
}
}
for(var j=0; j<frustum.length; ++j) {
if(poly.length === 0) {
continue i_loop
}
poly = splitPoly.positive(poly, frustum[j])
}
//Loop over vertices of polygon to find extremal points
for(var j=0; j<poly.length; ++j) {
var v = poly[j]
var grad = gradient(SCRATCH_X, mvp, v, width, height)
for(var k=0; k<3; ++k) {
ranges[k].lo = Math.min(ranges[k].lo, v[k])
ranges[k].hi = Math.max(ranges[k].hi, v[k])
if(k !== d) {
ranges[k].pixelsPerDataUnit = Math.min(ranges[k].pixelsPerDataUnit, Math.abs(grad[k]))
}
}
}
}
}
return ranges
}
},{"./lib/cube.js":223,"extract-frustum-planes":212,"gl-mat4/multiply":255,"gl-mat4/transpose":263,"gl-vec4/transformMat4":379,"split-polygon":500}],229:[function(_dereq_,module,exports){
"use strict"
var pool = _dereq_("typedarray-pool")
var ops = _dereq_("ndarray-ops")
var ndarray = _dereq_("ndarray")
var SUPPORTED_TYPES = [
"uint8",
"uint8_clamped",
"uint16",
"uint32",
"int8",
"int16",
"int32",
"float32" ]
function GLBuffer(gl, type, handle, length, usage) {
this.gl = gl
this.type = type
this.handle = handle
this.length = length
this.usage = usage
}
var proto = GLBuffer.prototype
proto.bind = function() {
this.gl.bindBuffer(this.type, this.handle)
}
proto.unbind = function() {
this.gl.bindBuffer(this.type, null)
}
proto.dispose = function() {
this.gl.deleteBuffer(this.handle)
}
function updateTypeArray(gl, type, len, usage, data, offset) {
var dataLen = data.length * data.BYTES_PER_ELEMENT
if(offset < 0) {
gl.bufferData(type, data, usage)
return dataLen
}
if(dataLen + offset > len) {
throw new Error("gl-buffer: If resizing buffer, must not specify offset")
}
gl.bufferSubData(type, offset, data)
return len
}
function makeScratchTypeArray(array, dtype) {
var res = pool.malloc(array.length, dtype)
var n = array.length
for(var i=0; i<n; ++i) {
res[i] = array[i]
}
return res
}
function isPacked(shape, stride) {
var n = 1
for(var i=stride.length-1; i>=0; --i) {
if(stride[i] !== n) {
return false
}
n *= shape[i]
}
return true
}
proto.update = function(array, offset) {
if(typeof offset !== "number") {
offset = -1
}
this.bind()
if(typeof array === "object" && typeof array.shape !== "undefined") { //ndarray
var dtype = array.dtype
if(SUPPORTED_TYPES.indexOf(dtype) < 0) {
dtype = "float32"
}
if(this.type === this.gl.ELEMENT_ARRAY_BUFFER) {
var ext = gl.getExtension('OES_element_index_uint')
if(ext && dtype !== "uint16") {
dtype = "uint32"
} else {
dtype = "uint16"
}
}
if(dtype === array.dtype && isPacked(array.shape, array.stride)) {
if(array.offset === 0 && array.data.length === array.shape[0]) {
this.length = updateTypeArray(this.gl, this.type, this.length, this.usage, array.data, offset)
} else {
this.length = updateTypeArray(this.gl, this.type, this.length, this.usage, array.data.subarray(array.offset, array.shape[0]), offset)
}
} else {
var tmp = pool.malloc(array.size, dtype)
var ndt = ndarray(tmp, array.shape)
ops.assign(ndt, array)
if(offset < 0) {
this.length = updateTypeArray(this.gl, this.type, this.length, this.usage, tmp, offset)
} else {
this.length = updateTypeArray(this.gl, this.type, this.length, this.usage, tmp.subarray(0, array.size), offset)
}
pool.free(tmp)
}
} else if(Array.isArray(array)) { //Vanilla array
var t
if(this.type === this.gl.ELEMENT_ARRAY_BUFFER) {
t = makeScratchTypeArray(array, "uint16")
} else {
t = makeScratchTypeArray(array, "float32")
}
if(offset < 0) {
this.length = updateTypeArray(this.gl, this.type, this.length, this.usage, t, offset)
} else {
this.length = updateTypeArray(this.gl, this.type, this.length, this.usage, t.subarray(0, array.length), offset)
}
pool.free(t)
} else if(typeof array === "object" && typeof array.length === "number") { //Typed array
this.length = updateTypeArray(this.gl, this.type, this.length, this.usage, array, offset)
} else if(typeof array === "number" || array === undefined) { //Number/default
if(offset >= 0) {
throw new Error("gl-buffer: Cannot specify offset when resizing buffer")
}
array = array | 0
if(array <= 0) {
array = 1
}
this.gl.bufferData(this.type, array|0, this.usage)
this.length = array
} else { //Error, case should not happen
throw new Error("gl-buffer: Invalid data type")
}
}
function createBuffer(gl, data, type, usage) {
type = type || gl.ARRAY_BUFFER
usage = usage || gl.DYNAMIC_DRAW
if(type !== gl.ARRAY_BUFFER && type !== gl.ELEMENT_ARRAY_BUFFER) {
throw new Error("gl-buffer: Invalid type for webgl buffer, must be either gl.ARRAY_BUFFER or gl.ELEMENT_ARRAY_BUFFER")
}
if(usage !== gl.DYNAMIC_DRAW && usage !== gl.STATIC_DRAW && usage !== gl.STREAM_DRAW) {
throw new Error("gl-buffer: Invalid usage for buffer, must be either gl.DYNAMIC_DRAW, gl.STATIC_DRAW or gl.STREAM_DRAW")
}
var handle = gl.createBuffer()
var result = new GLBuffer(gl, type, handle, 0, usage)
result.update(data)
return result
}
module.exports = createBuffer
},{"ndarray":430,"ndarray-ops":424,"typedarray-pool":519}],230:[function(_dereq_,module,exports){
"use strict";
var V = _dereq_('gl-vec3');
var V4 = _dereq_('gl-vec4');
var vec3 = function(x, y, z) {
var v = V.create();
if (x !== undefined) {
V.set(v, x, y, z);
}
return v;
}
var createPositionsForMeshgrid = function(meshgrid) {
var xs = meshgrid[0], ys = meshgrid[1], zs = meshgrid[2];
var positions = [];
for (var z=0; z<zs.length; z++) {
for (var y=0; y<ys.length; y++) {
for (var x=0; x<xs.length; x++) {
positions.push([zs[z], ys[y], xs[x]]);
}
}
}
return positions;
};
var findLastSmallerIndex = function(points, v) {
for (var i=0; i<points.length; i++) {
if (points[i] >= v) {
return i-1;
}
}
return i;
};
var tmp = V.create();
var tmp2 = V.create();
var clamp = function(v, min, max) {
return v < min ? min : (v > max ? max : v);
};
var sampleMeshgrid = function(point, array, meshgrid, clampOverflow) {
var x = point[0];
var y = point[1];
var z = point[2];
var w = meshgrid[0].length;
var h = meshgrid[1].length;
var d = meshgrid[2].length;
// Find the index of the nearest smaller value in the meshgrid for each coordinate of (x,y,z).
// The nearest smaller value index for x is the index x0 such that
// meshgrid[0][x0] < x and for all x1 > x0, meshgrid[0][x1] >= x.
var x0 = findLastSmallerIndex(meshgrid[0], x);
var y0 = findLastSmallerIndex(meshgrid[1], y);
var z0 = findLastSmallerIndex(meshgrid[2], z);
// Get the nearest larger meshgrid value indices.
// From the above "nearest smaller value", we know that
// meshgrid[0][x0] < x
// meshgrid[0][x0+1] >= x
var x1 = x0 + 1;
var y1 = y0 + 1;
var z1 = z0 + 1;
if (clampOverflow) {
x0 = clamp(x0, 0, w-1);
x1 = clamp(x1, 0, w-1);
y0 = clamp(y0, 0, h-1);
y1 = clamp(y1, 0, h-1);
z0 = clamp(z0, 0, d-1);
z1 = clamp(z1, 0, d-1);
}
// Reject points outside the meshgrid, return a zero vector.
if (x0 < 0 || y0 < 0 || z0 < 0 || x1 >= w || y1 >= h || z1 >= d) {
return V.create();
}
// Normalize point coordinates to 0..1 scaling factor between x0 and x1.
var xf = (x - meshgrid[0][x0]) / (meshgrid[0][x1] - meshgrid[0][x0]);
var yf = (y - meshgrid[1][y0]) / (meshgrid[1][y1] - meshgrid[1][y0]);
var zf = (z - meshgrid[2][z0]) / (meshgrid[2][z1] - meshgrid[2][z0]);
if (xf < 0 || xf > 1 || isNaN(xf)) xf = 0;
if (yf < 0 || yf > 1 || isNaN(yf)) yf = 0;
if (zf < 0 || zf > 1 || isNaN(zf)) zf = 0;
var z0off = z0*w*h;
var z1off = z1*w*h;
var y0off = y0*w;
var y1off = y1*w;
var x0off = x0;
var x1off = x1;
// Sample data array around the (x,y,z) point.
// vZYX = array[zZoff + yYoff + xXoff]
var v000 = array[y0off + z0off + x0off];
var v001 = array[y0off + z0off + x1off];
var v010 = array[y1off + z0off + x0off];
var v011 = array[y1off + z0off + x1off];
var v100 = array[y0off + z1off + x0off];
var v101 = array[y0off + z1off + x1off];
var v110 = array[y1off + z1off + x0off];
var v111 = array[y1off + z1off + x1off];
var result = V.create();
// Average samples according to distance to point.
V.lerp(result, v000, v001, xf);
V.lerp(tmp, v010, v011, xf);
V.lerp(result, result, tmp, yf);
V.lerp(tmp, v100, v101, xf);
V.lerp(tmp2, v110, v111, xf);
V.lerp(tmp, tmp, tmp2, yf);
V.lerp(result, result, tmp, zf);
return result;
};
var getOrthogonalVector = function(dst, v) {
// Return up-vector for only-z vector.
if (v[0] === 0 && v[1] === 0) {
V.set(dst, 0, 1, 0);
} else {
// Return ax + by + cz = 0, a point that lies on the plane that has v as a normal and that isn't (0,0,0).
// From the above if-statement we have ||a|| > 0 U ||b|| > 0.
// Assign z = 0, x = -b, y = a:
// a*-b + b*a + c*0 = -ba + ba + 0 = 0
V.set(dst, -v[1], v[0], 0);
}
return dst;
};
module.exports = function(vectorfield, bounds) {
var positions;
if (vectorfield.positions) {
positions = vectorfield.positions;
} else {
positions = createPositionsForMeshgrid(vectorfield.meshgrid);
}
var meshgrid = vectorfield.meshgrid;
var vectors = vectorfield.vectors;
var geo = {
positions: [],
vertexIntensity: [],
vertexIntensityBounds: vectorfield.vertexIntensityBounds,
vertexNormals: [],
vectors: [],
cells: [],
coneOffset: vectorfield.coneOffset,
colormap: vectorfield.colormap
};
if (vectorfield.positions.length === 0) {
if (bounds) {
bounds[0] = [0,0,0];
bounds[1] = [0,0,0];
}
return geo;
}
// Compute bounding box for the dataset.
// Compute maximum velocity for the dataset to use for scaling the cones.
var maxNorm = 0;
var minX = 1/0, maxX = -1/0;
var minY = 1/0, maxY = -1/0;
var minZ = 1/0, maxZ = -1/0;
var p2 = null;
var u2 = null;
var positionVectors = [];
var vectorScale = 1/0;
for (var i = 0; i < positions.length; i++) {
var p = positions[i];
minX = Math.min(p[0], minX);
maxX = Math.max(p[0], maxX);
minY = Math.min(p[1], minY);
maxY = Math.max(p[1], maxY);
minZ = Math.min(p[2], minZ);
maxZ = Math.max(p[2], maxZ);
var u;
if (meshgrid) {
u = sampleMeshgrid(p, vectors, meshgrid, true);
} else {
u = vectors[i];
}
if (V.length(u) > maxNorm) {
maxNorm = V.length(u);
}
if (i) {
// Find vector scale [w/ units of time] using "successive" positions
// (not "adjacent" with would be O(n^2)),
//
// The vector scale corresponds to the minimum "time" to travel across two
// two adjacent positions at the average velocity of those two adjacent positions
vectorScale = Math.min(vectorScale,
2 * V.distance(p2, p) / (V.length(u2) + V.length(u))
);
}
p2 = p;
u2 = u;
positionVectors.push(u);
}
var minV = [minX, minY, minZ];
var maxV = [maxX, maxY, maxZ];
if (bounds) {
bounds[0] = minV;
bounds[1] = maxV;
}
if (maxNorm === 0) {
maxNorm = 1;
}
// Inverted max norm would map vector with norm maxNorm to 1 coord space units in length
var invertedMaxNorm = 1 / maxNorm;
if (!isFinite(vectorScale) || isNaN(vectorScale)) {
vectorScale = 1.0;
}
geo.vectorScale = vectorScale;
var nml = vec3(0,1,0);
var coneScale = vectorfield.coneSize || 0.5;
if (vectorfield.absoluteConeSize) {
coneScale = vectorfield.absoluteConeSize * invertedMaxNorm;
}
geo.coneScale = coneScale;
// Build the cone model.
for (var i = 0, j = 0; i < positions.length; i++) {
var p = positions[i];
var x = p[0], y = p[1], z = p[2];
var d = positionVectors[i];
var intensity = V.length(d) * invertedMaxNorm;
for (var k = 0, l = 8; k < l; k++) {
geo.positions.push([x, y, z, j++]);
geo.positions.push([x, y, z, j++]);
geo.positions.push([x, y, z, j++]);
geo.positions.push([x, y, z, j++]);
geo.positions.push([x, y, z, j++]);
geo.positions.push([x, y, z, j++]);
geo.vectors.push(d);
geo.vectors.push(d);
geo.vectors.push(d);
geo.vectors.push(d);
geo.vectors.push(d);
geo.vectors.push(d);
geo.vertexIntensity.push(intensity, intensity, intensity);
geo.vertexIntensity.push(intensity, intensity, intensity);
geo.vertexNormals.push(nml, nml, nml);
geo.vertexNormals.push(nml, nml, nml);
var m = geo.positions.length;
geo.cells.push([m-6, m-5, m-4], [m-3, m-2, m-1]);
}
}
return geo;
};
module.exports.createConeMesh = _dereq_('./lib/conemesh');
},{"./lib/conemesh":232,"gl-vec3":327,"gl-vec4":363}],231:[function(_dereq_,module,exports){
'use strict'
var barycentric = _dereq_('barycentric')
var closestPointToTriangle = _dereq_('polytope-closest-point/lib/closest_point_2d.js')
module.exports = closestPointToPickLocation
function xformMatrix(m, v) {
var out = [0,0,0,0]
for(var i=0; i<4; ++i) {
for(var j=0; j<4; ++j) {
out[j] += m[4*i + j] * v[i]
}
}
return out
}
function projectVertex(v, model, view, projection, resolution) {
var p = xformMatrix(projection,
xformMatrix(view,
xformMatrix(model, [v[0], v[1], v[2], 1])))
for(var i=0; i<3; ++i) {
p[i] /= p[3]
}
return [ 0.5 * resolution[0] * (1.0+p[0]), 0.5 * resolution[1] * (1.0-p[1]) ]
}
function barycentricCoord(simplex, point) {
if(simplex.length === 2) {
var d0 = 0.0
var d1 = 0.0
for(var i=0; i<2; ++i) {
d0 += Math.pow(point[i] - simplex[0][i], 2)
d1 += Math.pow(point[i] - simplex[1][i], 2)
}
d0 = Math.sqrt(d0)
d1 = Math.sqrt(d1)
if(d0+d1 < 1e-6) {
return [1,0]
}
return [d1/(d0+d1),d0/(d1+d0)]
} else if(simplex.length === 3) {
var closestPoint = [0,0]
closestPointToTriangle(simplex[0], simplex[1], simplex[2], point, closestPoint)
return barycentric(simplex, closestPoint)
}
return []
}
function interpolate(simplex, weights) {
var result = [0,0,0]
for(var i=0; i<simplex.length; ++i) {
var p = simplex[i]
var w = weights[i]
for(var j=0; j<3; ++j) {
result[j] += w * p[j]
}
}
return result
}
function closestPointToPickLocation(simplex, pixelCoord, model, view, projection, resolution) {
if(simplex.length === 1) {
return [0, simplex[0].slice()]
}
var simplex2D = new Array(simplex.length)
for(var i=0; i<simplex.length; ++i) {
simplex2D[i] = projectVertex(simplex[i], model, view, projection, resolution);
}
var closestIndex = 0
var closestDist = Infinity
for(var i=0; i<simplex2D.length; ++i) {
var d2 = 0.0
for(var j=0; j<2; ++j) {
d2 += Math.pow(simplex2D[i][j] - pixelCoord[j], 2)
}
if(d2 < closestDist) {
closestDist = d2
closestIndex = i
}
}
var weights = barycentricCoord(simplex2D, pixelCoord)
var s = 0.0
for(var i=0; i<3; ++i) {
if(weights[i] < -0.001 ||
weights[i] > 1.0001) {
return null
}
s += weights[i]
}
if(Math.abs(s - 1.0) > 0.001) {
return null
}
return [closestIndex, interpolate(simplex, weights), weights]
}
},{"barycentric":60,"polytope-closest-point/lib/closest_point_2d.js":461}],232:[function(_dereq_,module,exports){
'use strict'
var DEFAULT_VERTEX_NORMALS_EPSILON = 1e-6; // may be too large if triangles are very small
var DEFAULT_FACE_NORMALS_EPSILON = 1e-6;
var createShader = _dereq_('gl-shader')
var createBuffer = _dereq_('gl-buffer')
var createVAO = _dereq_('gl-vao')
var createTexture = _dereq_('gl-texture2d')
var normals = _dereq_('normals')
var multiply = _dereq_('gl-mat4/multiply')
var invert = _dereq_('gl-mat4/invert')
var ndarray = _dereq_('ndarray')
var colormap = _dereq_('colormap')
var getContour = _dereq_('simplicial-complex-contour')
var pool = _dereq_('typedarray-pool')
var shaders = _dereq_('./shaders')
var closestPoint = _dereq_('./closest-point')
var meshShader = shaders.meshShader
var pickShader = shaders.pickShader
var identityMatrix = [
1,0,0,0,
0,1,0,0,
0,0,1,0,
0,0,0,1]
function SimplicialMesh(gl
, texture
, triShader
, lineShader
, pointShader
, pickShader
, pointPickShader
, contourShader
, trianglePositions
, triangleVectors
, triangleIds
, triangleColors
, triangleUVs
, triangleNormals
, triangleVAO
, edgePositions
, edgeIds
, edgeColors
, edgeUVs
, edgeVAO
, pointPositions
, pointIds
, pointColors
, pointUVs
, pointSizes
, pointVAO
, contourPositions
, contourVAO) {
this.gl = gl
this.cells = []
this.positions = []
this.intensity = []
this.texture = texture
this.dirty = true
this.triShader = triShader
this.lineShader = lineShader
this.pointShader = pointShader
this.pickShader = pickShader
this.pointPickShader = pointPickShader
this.contourShader = contourShader
this.trianglePositions = trianglePositions
this.triangleVectors = triangleVectors
this.triangleColors = triangleColors
this.triangleNormals = triangleNormals
this.triangleUVs = triangleUVs
this.triangleIds = triangleIds
this.triangleVAO = triangleVAO
this.triangleCount = 0
this.lineWidth = 1
this.edgePositions = edgePositions
this.edgeColors = edgeColors
this.edgeUVs = edgeUVs
this.edgeIds = edgeIds
this.edgeVAO = edgeVAO
this.edgeCount = 0
this.pointPositions = pointPositions
this.pointColors = pointColors
this.pointUVs = pointUVs
this.pointSizes = pointSizes
this.pointIds = pointIds
this.pointVAO = pointVAO
this.pointCount = 0
this.contourLineWidth = 1
this.contourPositions = contourPositions
this.contourVAO = contourVAO
this.contourCount = 0
this.contourColor = [0,0,0]
this.contourEnable = true
this.pickId = 1
this.bounds = [
[ Infinity, Infinity, Infinity],
[-Infinity,-Infinity,-Infinity] ]
this.clipBounds = [
[-Infinity,-Infinity,-Infinity],
[ Infinity, Infinity, Infinity] ]
this.lightPosition = [1e5, 1e5, 0]
this.ambientLight = 0.8
this.diffuseLight = 0.8
this.specularLight = 2.0
this.roughness = 0.5
this.fresnel = 1.5
this.opacity = 1.0
this.coneScale = 2.0
this.vectorScale = 1.0
this.coneOffset = 1.0 / 4.0;
this._model = identityMatrix
this._view = identityMatrix
this._projection = identityMatrix
this._resolution = [1,1]
}
var proto = SimplicialMesh.prototype
proto.isOpaque = function() {
return this.opacity >= 1
}
proto.isTransparent = function() {
return this.opacity < 1
}
proto.pickSlots = 1
proto.setPickBase = function(id) {
this.pickId = id
}
function genColormap(param) {
var colors = colormap({
colormap: param
, nshades: 256
, format: 'rgba'
})
var result = new Uint8Array(256*4)
for(var i=0; i<256; ++i) {
var c = colors[i]
for(var j=0; j<3; ++j) {
result[4*i+j] = c[j]
}
result[4*i+3] = c[3]*255
}
return ndarray(result, [256,256,4], [4,0,1])
}
function unpackIntensity(cells, numVerts, cellIntensity) {
var result = new Array(numVerts)
for(var i=0; i<numVerts; ++i) {
result[i] = 0
}
var numCells = cells.length
for(var i=0; i<numCells; ++i) {
var c = cells[i]
for(var j=0; j<c.length; ++j) {
result[c[j]] = cellIntensity[i]
}
}
return result
}
function takeZComponent(array) {
var n = array.length
var result = new Array(n)
for(var i=0; i<n; ++i) {
result[i] = array[i][2]
}
return result
}
proto.highlight = function(selection) {
if(!selection || !this.contourEnable) {
this.contourCount = 0
return
}
var level = getContour(this.cells, this.intensity, selection.intensity)
var cells = level.cells
var vertexIds = level.vertexIds
var vertexWeights = level.vertexWeights
var numCells = cells.length
var result = pool.mallocFloat32(2 * 3 * numCells)
var ptr = 0
for(var i=0; i<numCells; ++i) {
var c = cells[i]
for(var j=0; j<2; ++j) {
var v = c[0]
if(c.length === 2) {
v = c[j]
}
var a = vertexIds[v][0]
var b = vertexIds[v][1]
var w = vertexWeights[v]
var wi = 1.0 - w
var pa = this.positions[a]
var pb = this.positions[b]
for(var k=0; k<3; ++k) {
result[ptr++] = w * pa[k] + wi * pb[k]
}
}
}
this.contourCount = (ptr / 3)|0
this.contourPositions.update(result.subarray(0, ptr))
pool.free(result)
}
proto.update = function(params) {
params = params || {}
var gl = this.gl
this.dirty = true
if('contourEnable' in params) {
this.contourEnable = params.contourEnable
}
if('contourColor' in params) {
this.contourColor = params.contourColor
}
if('lineWidth' in params) {
this.lineWidth = params.lineWidth
}
if('lightPosition' in params) {
this.lightPosition = params.lightPosition
}
if('opacity' in params) {
this.opacity = params.opacity
}
if('ambient' in params) {
this.ambientLight = params.ambient
}
if('diffuse' in params) {
this.diffuseLight = params.diffuse
}
if('specular' in params) {
this.specularLight = params.specular
}
if('roughness' in params) {
this.roughness = params.roughness
}
if('fresnel' in params) {
this.fresnel = params.fresnel
}
if (params.vectorScale !== undefined) {
this.vectorScale = params.vectorScale;
}
if (params.coneScale !== undefined) {
this.coneScale = params.coneScale;
}
if (params.coneOffset !== undefined) {
this.coneOffset = params.coneOffset;
}
if(params.texture) {
this.texture.dispose()
this.texture = createTexture(gl, params.texture)
} else if (params.colormap) {
this.texture.shape = [256,256]
this.texture.minFilter = gl.LINEAR_MIPMAP_LINEAR
this.texture.magFilter = gl.LINEAR
this.texture.setPixels(genColormap(params.colormap))
this.texture.generateMipmap()
}
var cells = params.cells
var positions = params.positions
var vectors = params.vectors
if(!positions || !cells || !vectors) {
return
}
var tPos = []
var tVec = []
var tCol = []
var tNor = []
var tUVs = []
var tIds = []
var ePos = []
var eCol = []
var eUVs = []
var eIds = []
var pPos = []
var pCol = []
var pUVs = []
var pSiz = []
var pIds = []
//Save geometry data for picking calculations
this.cells = cells
this.positions = positions
//Compute normals
var vertexNormals = params.vertexNormals
var cellNormals = params.cellNormals
var vertexNormalsEpsilon = params.vertexNormalsEpsilon === void(0) ? DEFAULT_VERTEX_NORMALS_EPSILON : params.vertexNormalsEpsilon
var faceNormalsEpsilon = params.faceNormalsEpsilon === void(0) ? DEFAULT_FACE_NORMALS_EPSILON : params.faceNormalsEpsilon
if(params.useFacetNormals && !cellNormals) {
cellNormals = normals.faceNormals(cells, positions, faceNormalsEpsilon)
}
if(!cellNormals && !vertexNormals) {
vertexNormals = normals.vertexNormals(cells, positions, vertexNormalsEpsilon)
}
//Compute colors
var vertexColors = params.vertexColors
var cellColors = params.cellColors
var meshColor = params.meshColor || [1,1,1,1]
//UVs
var vertexUVs = params.vertexUVs
var vertexIntensity = params.vertexIntensity
var cellUVs = params.cellUVs
var cellIntensity = params.cellIntensity
var intensityLo = Infinity
var intensityHi = -Infinity
if(!vertexUVs && !cellUVs) {
if(vertexIntensity) {
if(params.vertexIntensityBounds) {
intensityLo = +params.vertexIntensityBounds[0]
intensityHi = +params.vertexIntensityBounds[1]
} else {
for(var i=0; i<vertexIntensity.length; ++i) {
var f = vertexIntensity[i]
intensityLo = Math.min(intensityLo, f)
intensityHi = Math.max(intensityHi, f)
}
}
} else if(cellIntensity) {
for(var i=0; i<cellIntensity.length; ++i) {
var f = cellIntensity[i]
intensityLo = Math.min(intensityLo, f)
intensityHi = Math.max(intensityHi, f)
}
} else {
for(var i=0; i<positions.length; ++i) {
var f = positions[i][2]
intensityLo = Math.min(intensityLo, f)
intensityHi = Math.max(intensityHi, f)
}
}
}
if(vertexIntensity) {
this.intensity = vertexIntensity
} else if(cellIntensity) {
this.intensity = unpackIntensity(cells, positions.length, cellIntensity)
} else {
this.intensity = takeZComponent(positions)
}
//Point size
var pointSizes = params.pointSizes
var meshPointSize = params.pointSize || 1.0
//Update bounds
this.bounds = [[Infinity,Infinity,Infinity], [-Infinity,-Infinity,-Infinity]]
for(var i=0; i<positions.length; ++i) {
var p = positions[i]
for(var j=0; j<3; ++j) {
if(isNaN(p[j]) || !isFinite(p[j])) {
continue
}
this.bounds[0][j] = Math.min(this.bounds[0][j], p[j])
this.bounds[1][j] = Math.max(this.bounds[1][j], p[j])
}
}
//Pack cells into buffers
var triangleCount = 0
var edgeCount = 0
var pointCount = 0
fill_loop:
for(var i=0; i<cells.length; ++i) {
var cell = cells[i]
switch(cell.length) {
case 1:
var v = cell[0]
var p = positions[v]
//Check NaNs
for(var j=0; j<3; ++j) {
if(isNaN(p[j]) || !isFinite(p[j])) {
continue fill_loop
}
}
pPos.push(p[0], p[1], p[2], p[3])
var c
if(vertexColors) {
c = vertexColors[v]
} else if(cellColors) {
c = cellColors[i]
} else {
c = meshColor
}
if(c.length === 3) {
pCol.push(c[0], c[1], c[2], 1)
} else {
pCol.push(c[0], c[1], c[2], c[3])
}
var uv
if(vertexUVs) {
uv = vertexUVs[v]
} else if(vertexIntensity) {
uv = [
(vertexIntensity[v] - intensityLo) /
(intensityHi - intensityLo), 0]
} else if(cellUVs) {
uv = cellUVs[i]
} else if(cellIntensity) {
uv = [
(cellIntensity[i] - intensityLo) /
(intensityHi - intensityLo), 0]
} else {
uv = [
(p[2] - intensityLo) /
(intensityHi - intensityLo), 0]
}
pUVs.push(uv[0], uv[1])
if(pointSizes) {
pSiz.push(pointSizes[v])
} else {
pSiz.push(meshPointSize)
}
pIds.push(i)
pointCount += 1
break
case 2:
//Check NaNs
for(var j=0; j<2; ++j) {
var v = cell[j]
var p = positions[v]
for(var k=0; k<3; ++k) {
if(isNaN(p[k]) || !isFinite(p[k])) {
continue fill_loop
}
}
}
for(var j=0; j<2; ++j) {
var v = cell[j]
var p = positions[v]
ePos.push(p[0], p[1], p[2])
var c
if(vertexColors) {
c = vertexColors[v]
} else if(cellColors) {
c = cellColors[i]
} else {
c = meshColor
}
if(c.length === 3) {
eCol.push(c[0], c[1], c[2], 1)
} else {
eCol.push(c[0], c[1], c[2], c[3])
}
var uv
if(vertexUVs) {
uv = vertexUVs[v]
} else if(vertexIntensity) {
uv = [
(vertexIntensity[v] - intensityLo) /
(intensityHi - intensityLo), 0]
} else if(cellUVs) {
uv = cellUVs[i]
} else if(cellIntensity) {
uv = [
(cellIntensity[i] - intensityLo) /
(intensityHi - intensityLo), 0]
} else {
uv = [
(p[2] - intensityLo) /
(intensityHi - intensityLo), 0]
}
eUVs.push(uv[0], uv[1])
eIds.push(i)
}
edgeCount += 1
break
case 3:
//Check NaNs
for(var j=0; j<3; ++j) {
var v = cell[j]
var p = positions[v]
for(var k=0; k<3; ++k) {
if(isNaN(p[k]) || !isFinite(p[k])) {
continue fill_loop
}
}
}
for(var j=0; j<3; ++j) {
var v = cell[j]
var p = positions[v]
tPos.push(p[0], p[1], p[2], p[3])
var w = vectors[v]
tVec.push(w[0], w[1], w[2]);
var c
if(vertexColors) {
c = vertexColors[v]
} else if(cellColors) {
c = cellColors[i]
} else {
c = meshColor
}
if(c.length === 3) {
tCol.push(c[0], c[1], c[2], 1)
} else {
tCol.push(c[0], c[1], c[2], c[3])
}
var uv
if(vertexUVs) {
uv = vertexUVs[v]
} else if(vertexIntensity) {
uv = [
(vertexIntensity[v] - intensityLo) /
(intensityHi - intensityLo), 0]
} else if(cellUVs) {
uv = cellUVs[i]
} else if(cellIntensity) {
uv = [
(cellIntensity[i] - intensityLo) /
(intensityHi - intensityLo), 0]
} else {
uv = [
(p[2] - intensityLo) /
(intensityHi - intensityLo), 0]
}
tUVs.push(uv[0], uv[1])
var q
if(vertexNormals) {
q = vertexNormals[v]
} else {
q = cellNormals[i]
}
tNor.push(q[0], q[1], q[2])
tIds.push(i)
}
triangleCount += 1
break
default:
break
}
}
this.pointCount = pointCount
this.edgeCount = edgeCount
this.triangleCount = triangleCount
this.pointPositions.update(pPos)
this.pointColors.update(pCol)
this.pointUVs.update(pUVs)
this.pointSizes.update(pSiz)
this.pointIds.update(new Uint32Array(pIds))
this.edgePositions.update(ePos)
this.edgeColors.update(eCol)
this.edgeUVs.update(eUVs)
this.edgeIds.update(new Uint32Array(eIds))
this.trianglePositions.update(tPos)
this.triangleVectors.update(tVec)
this.triangleColors.update(tCol)
this.triangleUVs.update(tUVs)
this.triangleNormals.update(tNor)
this.triangleIds.update(new Uint32Array(tIds))
}
proto.drawTransparent = proto.draw = function(params) {
params = params || {}
var gl = this.gl
var model = params.model || identityMatrix
var view = params.view || identityMatrix
var projection = params.projection || identityMatrix
var clipBounds = [[-1e6,-1e6,-1e6],[1e6,1e6,1e6]]
for(var i=0; i<3; ++i) {
clipBounds[0][i] = Math.max(clipBounds[0][i], this.clipBounds[0][i])
clipBounds[1][i] = Math.min(clipBounds[1][i], this.clipBounds[1][i])
}
var uniforms = {
model: model,
view: view,
projection: projection,
clipBounds: clipBounds,
kambient: this.ambientLight,
kdiffuse: this.diffuseLight,
kspecular: this.specularLight,
roughness: this.roughness,
fresnel: this.fresnel,
eyePosition: [0,0,0],
lightPosition: [0,0,0],
opacity: this.opacity,
vectorScale: this.vectorScale,
coneScale: this.coneScale,
coneOffset: this.coneOffset,
contourColor: this.contourColor,
texture: 0
}
this.texture.bind(0)
var invCameraMatrix = new Array(16)
multiply(invCameraMatrix, uniforms.view, uniforms.model)
multiply(invCameraMatrix, uniforms.projection, invCameraMatrix)
invert(invCameraMatrix, invCameraMatrix)
for(var i=0; i<3; ++i) {
uniforms.eyePosition[i] = invCameraMatrix[12+i] / invCameraMatrix[15]
}
var w = invCameraMatrix[15]
for(var i=0; i<3; ++i) {
w += this.lightPosition[i] * invCameraMatrix[4*i+3]
}
for(var i=0; i<3; ++i) {
var s = invCameraMatrix[12+i]
for(var j=0; j<3; ++j) {
s += invCameraMatrix[4*j+i] * this.lightPosition[j]
}
uniforms.lightPosition[i] = s / w
}
if(this.triangleCount > 0) {
var shader = this.triShader
shader.bind()
shader.uniforms = uniforms
this.triangleVAO.bind()
gl.drawArrays(gl.TRIANGLES, 0, this.triangleCount*3)
this.triangleVAO.unbind()
}
if(this.edgeCount > 0 && this.lineWidth > 0) {
var shader = this.lineShader
shader.bind()
shader.uniforms = uniforms
this.edgeVAO.bind()
gl.lineWidth(this.lineWidth)
gl.drawArrays(gl.LINES, 0, this.edgeCount*2)
this.edgeVAO.unbind()
}
if(this.pointCount > 0) {
var shader = this.pointShader
shader.bind()
shader.uniforms = uniforms
this.pointVAO.bind()
gl.drawArrays(gl.POINTS, 0, this.pointCount)
this.pointVAO.unbind()
}
if(this.contourEnable && this.contourCount > 0 && this.contourLineWidth > 0) {
var shader = this.contourShader
shader.bind()
shader.uniforms = uniforms
this.contourVAO.bind()
gl.drawArrays(gl.LINES, 0, this.contourCount)
this.contourVAO.unbind()
}
}
proto.drawPick = function(params) {
params = params || {}
var gl = this.gl
var model = params.model || identityMatrix
var view = params.view || identityMatrix
var projection = params.projection || identityMatrix
var clipBounds = [[-1e6,-1e6,-1e6],[1e6,1e6,1e6]]
for(var i=0; i<3; ++i) {
clipBounds[0][i] = Math.max(clipBounds[0][i], this.clipBounds[0][i])
clipBounds[1][i] = Math.min(clipBounds[1][i], this.clipBounds[1][i])
}
//Save camera parameters
this._model = [].slice.call(model)
this._view = [].slice.call(view)
this._projection = [].slice.call(projection)
this._resolution = [gl.drawingBufferWidth, gl.drawingBufferHeight]
var uniforms = {
model: model,
view: view,
projection: projection,
clipBounds: clipBounds,
vectorScale: this.vectorScale,
coneScale: this.coneScale,
coneOffset: this.coneOffset,
pickId: this.pickId / 255.0,
}
var shader = this.pickShader
shader.bind()
shader.uniforms = uniforms
if(this.triangleCount > 0) {
this.triangleVAO.bind()
gl.drawArrays(gl.TRIANGLES, 0, this.triangleCount*3)
this.triangleVAO.unbind()
}
if(this.edgeCount > 0) {
this.edgeVAO.bind()
gl.lineWidth(this.lineWidth)
gl.drawArrays(gl.LINES, 0, this.edgeCount*2)
this.edgeVAO.unbind()
}
if(this.pointCount > 0) {
var shader = this.pointPickShader
shader.bind()
shader.uniforms = uniforms
this.pointVAO.bind()
gl.drawArrays(gl.POINTS, 0, this.pointCount)
this.pointVAO.unbind()
}
}
proto.pick = function(pickData) {
if(!pickData) {
return null
}
if(pickData.id !== this.pickId) {
return null
}
var cellId = pickData.value[0] + 256*pickData.value[1] + 65536*pickData.value[2]
var cell = this.cells[cellId]
var pos = this.positions[cell[1]].slice(0, 3)
return {
// corresponding to input indices
index: Math.floor(cell[1] / 48),
position: pos,
dataCoordinate: pos
}
}
proto.dispose = function() {
this.texture.dispose()
this.triShader.dispose()
// this.lineShader.dispose()
// this.pointShader.dispose()
this.pickShader.dispose()
// this.pointPickShader.dispose()
this.triangleVAO.dispose()
this.trianglePositions.dispose()
this.triangleVectors.dispose()
this.triangleColors.dispose()
this.triangleUVs.dispose()
this.triangleNormals.dispose()
this.triangleIds.dispose()
this.edgeVAO.dispose()
this.edgePositions.dispose()
this.edgeColors.dispose()
this.edgeUVs.dispose()
this.edgeIds.dispose()
this.pointVAO.dispose()
this.pointPositions.dispose()
this.pointColors.dispose()
this.pointUVs.dispose()
this.pointSizes.dispose()
this.pointIds.dispose()
this.contourVAO.dispose()
this.contourPositions.dispose()
// this.contourShader.dispose()
}
function createMeshShader(gl) {
// need to pass meshShader attributes manually,
// to make this work on etpinard's Ubuntu Thinkpad
var shader = createShader(gl, meshShader.vertex, meshShader.fragment, null, meshShader.attributes)
shader.attributes.position.location = 0
shader.attributes.color.location = 2
shader.attributes.uv.location = 3
shader.attributes.vector.location = 5
return shader
}
function createWireShader(gl) {
var shader = createShader(gl, wireShader.vertex, wireShader.fragment)
shader.attributes.position.location = 0
shader.attributes.color.location = 2
shader.attributes.uv.location = 3
return shader
}
function createPointShader(gl) {
var shader = createShader(gl, pointShader.vertex, pointShader.fragment)
shader.attributes.position.location = 0
shader.attributes.color.location = 2
shader.attributes.uv.location = 3
shader.attributes.pointSize.location = 4
return shader
}
function createPickShader(gl) {
var shader = createShader(gl, pickShader.vertex, pickShader.fragment, null, pickShader.attributes)
shader.attributes.position.location = 0
shader.attributes.id.location = 1
shader.attributes.vector.location = 5
return shader
}
function createPointPickShader(gl) {
var shader = createShader(gl, pointPickShader.vertex, pointPickShader.fragment)
shader.attributes.position.location = 0
shader.attributes.id.location = 1
shader.attributes.pointSize.location = 4
return shader
}
function createContourShader(gl) {
var shader = createShader(gl, contourShader.vertex, contourShader.fragment)
shader.attributes.position.location = 0
return shader
}
function createSimplicialMesh(gl, params) {
if (arguments.length === 1) {
params = gl;
gl = params.gl;
}
var triShader = params.triShader || createMeshShader(gl)
var lineShader = null; //createWireShader(gl)
var pointShader = null; //createPointShader(gl)
var pickShader = createPickShader(gl)
var pointPickShader = null; //createPointPickShader(gl)
var contourShader = null; //createContourShader(gl)
var meshTexture = createTexture(gl,
ndarray(new Uint8Array([255,255,255,255]), [1,1,4]))
meshTexture.generateMipmap()
meshTexture.minFilter = gl.LINEAR_MIPMAP_LINEAR
meshTexture.magFilter = gl.LINEAR
var trianglePositions = createBuffer(gl)
var triangleVectors = createBuffer(gl)
var triangleColors = createBuffer(gl)
var triangleUVs = createBuffer(gl)
var triangleNormals = createBuffer(gl)
var triangleIds = createBuffer(gl)
var triangleVAO = createVAO(gl, [
{ buffer: trianglePositions,
type: gl.FLOAT,
size: 4
},
{ buffer: triangleIds,
type: gl.UNSIGNED_BYTE,
size: 4,
normalized: true
},
{ buffer: triangleColors,
type: gl.FLOAT,
size: 4
},
{ buffer: triangleUVs,
type: gl.FLOAT,
size: 2
},
{ buffer: triangleNormals,
type: gl.FLOAT,
size: 3
},
{ buffer: triangleVectors,
type: gl.FLOAT,
size: 3
}
])
var edgePositions = createBuffer(gl)
var edgeColors = createBuffer(gl)
var edgeUVs = createBuffer(gl)
var edgeIds = createBuffer(gl)
var edgeVAO = createVAO(gl, [
{ buffer: edgePositions,
type: gl.FLOAT,
size: 3
},
{ buffer: edgeIds,
type: gl.UNSIGNED_BYTE,
size: 4,
normalized: true
},
{ buffer: edgeColors,
type: gl.FLOAT,
size: 4
},
{ buffer: edgeUVs,
type: gl.FLOAT,
size: 2
}
])
var pointPositions = createBuffer(gl)
var pointColors = createBuffer(gl)
var pointUVs = createBuffer(gl)
var pointSizes = createBuffer(gl)
var pointIds = createBuffer(gl)
var pointVAO = createVAO(gl, [
{ buffer: pointPositions,
type: gl.FLOAT,
size: 3
},
{ buffer: pointIds,
type: gl.UNSIGNED_BYTE,
size: 4,
normalized: true
},
{ buffer: pointColors,
type: gl.FLOAT,
size: 4
},
{ buffer: pointUVs,
type: gl.FLOAT,
size: 2
},
{ buffer: pointSizes,
type: gl.FLOAT,
size: 1
}
])
var contourPositions = createBuffer(gl)
var contourVAO = createVAO(gl, [
{ buffer: contourPositions,
type: gl.FLOAT,
size: 3
}])
var mesh = new SimplicialMesh(gl
, meshTexture
, triShader
, lineShader
, pointShader
, pickShader
, pointPickShader
, contourShader
, trianglePositions
, triangleVectors
, triangleIds
, triangleColors
, triangleUVs
, triangleNormals
, triangleVAO
, edgePositions
, edgeIds
, edgeColors
, edgeUVs
, edgeVAO
, pointPositions
, pointIds
, pointColors
, pointUVs
, pointSizes
, pointVAO
, contourPositions
, contourVAO)
mesh.update(params)
return mesh
}
module.exports = createSimplicialMesh
},{"./closest-point":231,"./shaders":233,"colormap":113,"gl-buffer":229,"gl-mat4/invert":253,"gl-mat4/multiply":255,"gl-shader":286,"gl-texture2d":303,"gl-vao":308,"ndarray":430,"normals":433,"simplicial-complex-contour":491,"typedarray-pool":519}],233:[function(_dereq_,module,exports){
var glslify = _dereq_('glslify')
var triVertSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nfloat inverse(float m) {\n return 1.0 / m;\n}\n\nmat2 inverse(mat2 m) {\n return mat2(m[1][1],-m[0][1],\n -m[1][0], m[0][0]) / (m[0][0]*m[1][1] - m[0][1]*m[1][0]);\n}\n\nmat3 inverse(mat3 m) {\n float a00 = m[0][0], a01 = m[0][1], a02 = m[0][2];\n float a10 = m[1][0], a11 = m[1][1], a12 = m[1][2];\n float a20 = m[2][0], a21 = m[2][1], a22 = m[2][2];\n\n float b01 = a22 * a11 - a12 * a21;\n float b11 = -a22 * a10 + a12 * a20;\n float b21 = a21 * a10 - a11 * a20;\n\n float det = a00 * b01 + a01 * b11 + a02 * b21;\n\n return mat3(b01, (-a22 * a01 + a02 * a21), (a12 * a01 - a02 * a11),\n b11, (a22 * a00 - a02 * a20), (-a12 * a00 + a02 * a10),\n b21, (-a21 * a00 + a01 * a20), (a11 * a00 - a01 * a10)) / det;\n}\n\nmat4 inverse(mat4 m) {\n float\n a00 = m[0][0], a01 = m[0][1], a02 = m[0][2], a03 = m[0][3],\n a10 = m[1][0], a11 = m[1][1], a12 = m[1][2], a13 = m[1][3],\n a20 = m[2][0], a21 = m[2][1], a22 = m[2][2], a23 = m[2][3],\n a30 = m[3][0], a31 = m[3][1], a32 = m[3][2], a33 = m[3][3],\n\n b00 = a00 * a11 - a01 * a10,\n b01 = a00 * a12 - a02 * a10,\n b02 = a00 * a13 - a03 * a10,\n b03 = a01 * a12 - a02 * a11,\n b04 = a01 * a13 - a03 * a11,\n b05 = a02 * a13 - a03 * a12,\n b06 = a20 * a31 - a21 * a30,\n b07 = a20 * a32 - a22 * a30,\n b08 = a20 * a33 - a23 * a30,\n b09 = a21 * a32 - a22 * a31,\n b10 = a21 * a33 - a23 * a31,\n b11 = a22 * a33 - a23 * a32,\n\n det = b00 * b11 - b01 * b10 + b02 * b09 + b03 * b08 - b04 * b07 + b05 * b06;\n\n return mat4(\n a11 * b11 - a12 * b10 + a13 * b09,\n a02 * b10 - a01 * b11 - a03 * b09,\n a31 * b05 - a32 * b04 + a33 * b03,\n a22 * b04 - a21 * b05 - a23 * b03,\n a12 * b08 - a10 * b11 - a13 * b07,\n a00 * b11 - a02 * b08 + a03 * b07,\n a32 * b02 - a30 * b05 - a33 * b01,\n a20 * b05 - a22 * b02 + a23 * b01,\n a10 * b10 - a11 * b08 + a13 * b06,\n a01 * b08 - a00 * b10 - a03 * b06,\n a30 * b04 - a31 * b02 + a33 * b00,\n a21 * b02 - a20 * b04 - a23 * b00,\n a11 * b07 - a10 * b09 - a12 * b06,\n a00 * b09 - a01 * b07 + a02 * b06,\n a31 * b01 - a30 * b03 - a32 * b00,\n a20 * b03 - a21 * b01 + a22 * b00) / det;\n}\n\nvec3 getOrthogonalVector(vec3 v) {\n // Return up-vector for only-z vector.\n // Return ax + by + cz = 0, a point that lies on the plane that has v as a normal and that isn't (0,0,0).\n // From the above if-statement we have ||a|| > 0 U ||b|| > 0.\n // Assign z = 0, x = -b, y = a:\n // a*-b + b*a + c*0 = -ba + ba + 0 = 0\n if (v.x*v.x > v.z*v.z || v.y*v.y > v.z*v.z) {\n return normalize(vec3(-v.y, v.x, 0.0));\n } else {\n return normalize(vec3(0.0, v.z, -v.y));\n }\n}\n\n// Calculate the cone vertex and normal at the given index.\n//\n// The returned vertex is for a cone with its top at origin and height of 1.0,\n// pointing in the direction of the vector attribute.\n//\n// Each cone is made up of a top vertex, a center base vertex and base perimeter vertices.\n// These vertices are used to make up the triangles of the cone by the following:\n// segment + 0 top vertex\n// segment + 1 perimeter vertex a+1\n// segment + 2 perimeter vertex a\n// segment + 3 center base vertex\n// segment + 4 perimeter vertex a\n// segment + 5 perimeter vertex a+1\n// Where segment is the number of the radial segment * 6 and a is the angle at that radial segment.\n// To go from index to segment, floor(index / 6)\n// To go from segment to angle, 2*pi * (segment/segmentCount)\n// To go from index to segment index, index - (segment*6)\n//\nvec3 getConePosition(vec3 d, float index, float coneOffset, out vec3 normal) {\n\n const float segmentCount = 8.0;\n\n index = mod(index, segmentCount * 6.0);\n\n float segment = floor(index/6.0);\n float segmentIndex = index - (segment*6.0);\n\n normal = -normalize(d);\n\n if (segmentIndex == 3.0) {\n return mix(vec3(0.0), -d, coneOffset);\n }\n\n // angle = 2pi * ((segment + ((segmentIndex == 1.0 || segmentIndex == 5.0) ? 1.0 : 0.0)) / segmentCount)\n float nextAngle = float(segmentIndex == 1.0 || segmentIndex == 5.0);\n float angle = 2.0 * 3.14159 * ((segment + nextAngle) / segmentCount);\n\n vec3 v1 = mix(d, vec3(0.0), coneOffset);\n vec3 v2 = v1 - d;\n\n vec3 u = getOrthogonalVector(d);\n vec3 v = normalize(cross(u, d));\n\n vec3 x = u * cos(angle) * length(d)*0.25;\n vec3 y = v * sin(angle) * length(d)*0.25;\n vec3 v3 = v2 + x + y;\n if (segmentIndex <= 2.0) {\n vec3 tx = u * sin(angle);\n vec3 ty = v * -cos(angle);\n vec3 tangent = tx + ty;\n normal = normalize(cross(v3 - v1, tangent));\n }\n\n if (segmentIndex == 0.0) {\n return mix(d, vec3(0.0), coneOffset);\n }\n return v3;\n}\n\nattribute vec3 vector;\nattribute vec4 color, position;\nattribute vec2 uv;\nuniform float vectorScale;\nuniform float coneScale;\n\nuniform float coneOffset;\n\nuniform mat4 model\n , view\n , projection;\nuniform vec3 eyePosition\n , lightPosition;\n\nvarying vec3 f_normal\n , f_lightDirection\n , f_eyeDirection\n , f_data;\nvarying vec4 f_color;\nvarying vec2 f_uv;\n\nvoid main() {\n // Scale the vector magnitude to stay constant with\n // model & view changes.\n vec3 normal;\n vec4 conePosition = model * vec4(position.xyz, 1.0) + vec4(getConePosition(mat3(model) * ((vectorScale * coneScale) * vector), position.w, coneOffset, normal), 0.0);\n normal = normalize(normal * inverse(mat3(model)));\n\n // vec4 m_position = model * vec4(conePosition, 1.0);\n vec4 t_position = view * conePosition;\n gl_Position = projection * t_position;\n f_color = color; //vec4(position.w, color.r, 0, 0);\n f_normal = normal;\n f_data = conePosition.xyz;\n f_eyeDirection = eyePosition - conePosition.xyz;\n f_lightDirection = lightPosition - conePosition.xyz;\n f_uv = uv;\n}\n"])
var triFragSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nfloat beckmannDistribution(float x, float roughness) {\n float NdotH = max(x, 0.0001);\n float cos2Alpha = NdotH * NdotH;\n float tan2Alpha = (cos2Alpha - 1.0) / cos2Alpha;\n float roughness2 = roughness * roughness;\n float denom = 3.141592653589793 * roughness2 * cos2Alpha * cos2Alpha;\n return exp(tan2Alpha / roughness2) / denom;\n}\n\nfloat cookTorranceSpecular(\n vec3 lightDirection,\n vec3 viewDirection,\n vec3 surfaceNormal,\n float roughness,\n float fresnel) {\n\n float VdotN = max(dot(viewDirection, surfaceNormal), 0.0);\n float LdotN = max(dot(lightDirection, surfaceNormal), 0.0);\n\n //Half angle vector\n vec3 H = normalize(lightDirection + viewDirection);\n\n //Geometric term\n float NdotH = max(dot(surfaceNormal, H), 0.0);\n float VdotH = max(dot(viewDirection, H), 0.000001);\n float LdotH = max(dot(lightDirection, H), 0.000001);\n float G1 = (2.0 * NdotH * VdotN) / VdotH;\n float G2 = (2.0 * NdotH * LdotN) / LdotH;\n float G = min(1.0, min(G1, G2));\n \n //Distribution term\n float D = beckmannDistribution(NdotH, roughness);\n\n //Fresnel term\n float F = pow(1.0 - VdotN, fresnel);\n\n //Multiply terms and done\n return G * F * D / max(3.14159265 * VdotN, 0.000001);\n}\n\nuniform vec3 clipBounds[2];\nuniform float roughness\n , fresnel\n , kambient\n , kdiffuse\n , kspecular\n , opacity;\nuniform sampler2D texture;\n\nvarying vec3 f_normal\n , f_lightDirection\n , f_eyeDirection\n , f_data;\nvarying vec4 f_color;\nvarying vec2 f_uv;\n\nvoid main() {\n //if(any(lessThan(f_data, clipBounds[0])) || \n // any(greaterThan(f_data, clipBounds[1]))) {\n // discard;\n //}\n\n vec3 N = normalize(f_normal);\n vec3 L = normalize(f_lightDirection);\n vec3 V = normalize(f_eyeDirection);\n \n if(!gl_FrontFacing) {\n N = -N;\n }\n\n float specular = cookTorranceSpecular(L, V, N, roughness, fresnel);\n float diffuse = min(kambient + kdiffuse * max(dot(N, L), 0.0), 1.0);\n\n vec4 surfaceColor = texture2D(texture, f_uv);\n vec4 litColor = surfaceColor.a * vec4(diffuse * surfaceColor.rgb + kspecular * vec3(1,1,1) * specular, 1.0);\n\n gl_FragColor = litColor * opacity;\n}"])
var pickVertSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nvec3 getOrthogonalVector(vec3 v) {\n // Return up-vector for only-z vector.\n // Return ax + by + cz = 0, a point that lies on the plane that has v as a normal and that isn't (0,0,0).\n // From the above if-statement we have ||a|| > 0 U ||b|| > 0.\n // Assign z = 0, x = -b, y = a:\n // a*-b + b*a + c*0 = -ba + ba + 0 = 0\n if (v.x*v.x > v.z*v.z || v.y*v.y > v.z*v.z) {\n return normalize(vec3(-v.y, v.x, 0.0));\n } else {\n return normalize(vec3(0.0, v.z, -v.y));\n }\n}\n\n// Calculate the cone vertex and normal at the given index.\n//\n// The returned vertex is for a cone with its top at origin and height of 1.0,\n// pointing in the direction of the vector attribute.\n//\n// Each cone is made up of a top vertex, a center base vertex and base perimeter vertices.\n// These vertices are used to make up the triangles of the cone by the following:\n// segment + 0 top vertex\n// segment + 1 perimeter vertex a+1\n// segment + 2 perimeter vertex a\n// segment + 3 center base vertex\n// segment + 4 perimeter vertex a\n// segment + 5 perimeter vertex a+1\n// Where segment is the number of the radial segment * 6 and a is the angle at that radial segment.\n// To go from index to segment, floor(index / 6)\n// To go from segment to angle, 2*pi * (segment/segmentCount)\n// To go from index to segment index, index - (segment*6)\n//\nvec3 getConePosition(vec3 d, float index, float coneOffset, out vec3 normal) {\n\n const float segmentCount = 8.0;\n\n index = mod(index, segmentCount * 6.0);\n\n float segment = floor(index/6.0);\n float segmentIndex = index - (segment*6.0);\n\n normal = -normalize(d);\n\n if (segmentIndex == 3.0) {\n return mix(vec3(0.0), -d, coneOffset);\n }\n\n // angle = 2pi * ((segment + ((segmentIndex == 1.0 || segmentIndex == 5.0) ? 1.0 : 0.0)) / segmentCount)\n float nextAngle = float(segmentIndex == 1.0 || segmentIndex == 5.0);\n float angle = 2.0 * 3.14159 * ((segment + nextAngle) / segmentCount);\n\n vec3 v1 = mix(d, vec3(0.0), coneOffset);\n vec3 v2 = v1 - d;\n\n vec3 u = getOrthogonalVector(d);\n vec3 v = normalize(cross(u, d));\n\n vec3 x = u * cos(angle) * length(d)*0.25;\n vec3 y = v * sin(angle) * length(d)*0.25;\n vec3 v3 = v2 + x + y;\n if (segmentIndex <= 2.0) {\n vec3 tx = u * sin(angle);\n vec3 ty = v * -cos(angle);\n vec3 tangent = tx + ty;\n normal = normalize(cross(v3 - v1, tangent));\n }\n\n if (segmentIndex == 0.0) {\n return mix(d, vec3(0.0), coneOffset);\n }\n return v3;\n}\n\nattribute vec3 vector;\nattribute vec4 position;\nattribute vec4 id;\n\nuniform mat4 model, view, projection;\n\nuniform float vectorScale;\nuniform float coneScale;\nuniform float coneOffset;\n\nvarying vec3 f_position;\nvarying vec4 f_id;\n\nvoid main() {\n vec3 normal;\n vec4 conePosition = model * vec4(position.xyz, 1.0) + vec4(getConePosition(mat3(model) * ((vectorScale * coneScale) * vector), position.w, coneOffset, normal), 0.0);\n gl_Position = projection * view * conePosition;\n f_id = id;\n f_position = position.xyz;\n}\n"])
var pickFragSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nuniform vec3 clipBounds[2];\nuniform float pickId;\n\nvarying vec3 f_position;\nvarying vec4 f_id;\n\nvoid main() {\n if(any(lessThan(f_position, clipBounds[0])) || \n any(greaterThan(f_position, clipBounds[1]))) {\n discard;\n }\n gl_FragColor = vec4(pickId, f_id.xyz);\n}"])
exports.meshShader = {
vertex: triVertSrc,
fragment: triFragSrc,
attributes: [
{name: 'position', type: 'vec4'},
{name: 'normal', type: 'vec3'},
{name: 'color', type: 'vec4'},
{name: 'uv', type: 'vec2'},
{name: 'vector', type: 'vec3'}
]
}
exports.pickShader = {
vertex: pickVertSrc,
fragment: pickFragSrc,
attributes: [
{name: 'position', type: 'vec4'},
{name: 'id', type: 'vec4'},
{name: 'vector', type: 'vec3'}
]
}
},{"glslify":390}],234:[function(_dereq_,module,exports){
module.exports = {
0: 'NONE',
1: 'ONE',
2: 'LINE_LOOP',
3: 'LINE_STRIP',
4: 'TRIANGLES',
5: 'TRIANGLE_STRIP',
6: 'TRIANGLE_FAN',
256: 'DEPTH_BUFFER_BIT',
512: 'NEVER',
513: 'LESS',
514: 'EQUAL',
515: 'LEQUAL',
516: 'GREATER',
517: 'NOTEQUAL',
518: 'GEQUAL',
519: 'ALWAYS',
768: 'SRC_COLOR',
769: 'ONE_MINUS_SRC_COLOR',
770: 'SRC_ALPHA',
771: 'ONE_MINUS_SRC_ALPHA',
772: 'DST_ALPHA',
773: 'ONE_MINUS_DST_ALPHA',
774: 'DST_COLOR',
775: 'ONE_MINUS_DST_COLOR',
776: 'SRC_ALPHA_SATURATE',
1024: 'STENCIL_BUFFER_BIT',
1028: 'FRONT',
1029: 'BACK',
1032: 'FRONT_AND_BACK',
1280: 'INVALID_ENUM',
1281: 'INVALID_VALUE',
1282: 'INVALID_OPERATION',
1285: 'OUT_OF_MEMORY',
1286: 'INVALID_FRAMEBUFFER_OPERATION',
2304: 'CW',
2305: 'CCW',
2849: 'LINE_WIDTH',
2884: 'CULL_FACE',
2885: 'CULL_FACE_MODE',
2886: 'FRONT_FACE',
2928: 'DEPTH_RANGE',
2929: 'DEPTH_TEST',
2930: 'DEPTH_WRITEMASK',
2931: 'DEPTH_CLEAR_VALUE',
2932: 'DEPTH_FUNC',
2960: 'STENCIL_TEST',
2961: 'STENCIL_CLEAR_VALUE',
2962: 'STENCIL_FUNC',
2963: 'STENCIL_VALUE_MASK',
2964: 'STENCIL_FAIL',
2965: 'STENCIL_PASS_DEPTH_FAIL',
2966: 'STENCIL_PASS_DEPTH_PASS',
2967: 'STENCIL_REF',
2968: 'STENCIL_WRITEMASK',
2978: 'VIEWPORT',
3024: 'DITHER',
3042: 'BLEND',
3088: 'SCISSOR_BOX',
3089: 'SCISSOR_TEST',
3106: 'COLOR_CLEAR_VALUE',
3107: 'COLOR_WRITEMASK',
3317: 'UNPACK_ALIGNMENT',
3333: 'PACK_ALIGNMENT',
3379: 'MAX_TEXTURE_SIZE',
3386: 'MAX_VIEWPORT_DIMS',
3408: 'SUBPIXEL_BITS',
3410: 'RED_BITS',
3411: 'GREEN_BITS',
3412: 'BLUE_BITS',
3413: 'ALPHA_BITS',
3414: 'DEPTH_BITS',
3415: 'STENCIL_BITS',
3553: 'TEXTURE_2D',
4352: 'DONT_CARE',
4353: 'FASTEST',
4354: 'NICEST',
5120: 'BYTE',
5121: 'UNSIGNED_BYTE',
5122: 'SHORT',
5123: 'UNSIGNED_SHORT',
5124: 'INT',
5125: 'UNSIGNED_INT',
5126: 'FLOAT',
5386: 'INVERT',
5890: 'TEXTURE',
6401: 'STENCIL_INDEX',
6402: 'DEPTH_COMPONENT',
6406: 'ALPHA',
6407: 'RGB',
6408: 'RGBA',
6409: 'LUMINANCE',
6410: 'LUMINANCE_ALPHA',
7680: 'KEEP',
7681: 'REPLACE',
7682: 'INCR',
7683: 'DECR',
7936: 'VENDOR',
7937: 'RENDERER',
7938: 'VERSION',
9728: 'NEAREST',
9729: 'LINEAR',
9984: 'NEAREST_MIPMAP_NEAREST',
9985: 'LINEAR_MIPMAP_NEAREST',
9986: 'NEAREST_MIPMAP_LINEAR',
9987: 'LINEAR_MIPMAP_LINEAR',
10240: 'TEXTURE_MAG_FILTER',
10241: 'TEXTURE_MIN_FILTER',
10242: 'TEXTURE_WRAP_S',
10243: 'TEXTURE_WRAP_T',
10497: 'REPEAT',
10752: 'POLYGON_OFFSET_UNITS',
16384: 'COLOR_BUFFER_BIT',
32769: 'CONSTANT_COLOR',
32770: 'ONE_MINUS_CONSTANT_COLOR',
32771: 'CONSTANT_ALPHA',
32772: 'ONE_MINUS_CONSTANT_ALPHA',
32773: 'BLEND_COLOR',
32774: 'FUNC_ADD',
32777: 'BLEND_EQUATION_RGB',
32778: 'FUNC_SUBTRACT',
32779: 'FUNC_REVERSE_SUBTRACT',
32819: 'UNSIGNED_SHORT_4_4_4_4',
32820: 'UNSIGNED_SHORT_5_5_5_1',
32823: 'POLYGON_OFFSET_FILL',
32824: 'POLYGON_OFFSET_FACTOR',
32854: 'RGBA4',
32855: 'RGB5_A1',
32873: 'TEXTURE_BINDING_2D',
32926: 'SAMPLE_ALPHA_TO_COVERAGE',
32928: 'SAMPLE_COVERAGE',
32936: 'SAMPLE_BUFFERS',
32937: 'SAMPLES',
32938: 'SAMPLE_COVERAGE_VALUE',
32939: 'SAMPLE_COVERAGE_INVERT',
32968: 'BLEND_DST_RGB',
32969: 'BLEND_SRC_RGB',
32970: 'BLEND_DST_ALPHA',
32971: 'BLEND_SRC_ALPHA',
33071: 'CLAMP_TO_EDGE',
33170: 'GENERATE_MIPMAP_HINT',
33189: 'DEPTH_COMPONENT16',
33306: 'DEPTH_STENCIL_ATTACHMENT',
33635: 'UNSIGNED_SHORT_5_6_5',
33648: 'MIRRORED_REPEAT',
33901: 'ALIASED_POINT_SIZE_RANGE',
33902: 'ALIASED_LINE_WIDTH_RANGE',
33984: 'TEXTURE0',
33985: 'TEXTURE1',
33986: 'TEXTURE2',
33987: 'TEXTURE3',
33988: 'TEXTURE4',
33989: 'TEXTURE5',
33990: 'TEXTURE6',
33991: 'TEXTURE7',
33992: 'TEXTURE8',
33993: 'TEXTURE9',
33994: 'TEXTURE10',
33995: 'TEXTURE11',
33996: 'TEXTURE12',
33997: 'TEXTURE13',
33998: 'TEXTURE14',
33999: 'TEXTURE15',
34000: 'TEXTURE16',
34001: 'TEXTURE17',
34002: 'TEXTURE18',
34003: 'TEXTURE19',
34004: 'TEXTURE20',
34005: 'TEXTURE21',
34006: 'TEXTURE22',
34007: 'TEXTURE23',
34008: 'TEXTURE24',
34009: 'TEXTURE25',
34010: 'TEXTURE26',
34011: 'TEXTURE27',
34012: 'TEXTURE28',
34013: 'TEXTURE29',
34014: 'TEXTURE30',
34015: 'TEXTURE31',
34016: 'ACTIVE_TEXTURE',
34024: 'MAX_RENDERBUFFER_SIZE',
34041: 'DEPTH_STENCIL',
34055: 'INCR_WRAP',
34056: 'DECR_WRAP',
34067: 'TEXTURE_CUBE_MAP',
34068: 'TEXTURE_BINDING_CUBE_MAP',
34069: 'TEXTURE_CUBE_MAP_POSITIVE_X',
34070: 'TEXTURE_CUBE_MAP_NEGATIVE_X',
34071: 'TEXTURE_CUBE_MAP_POSITIVE_Y',
34072: 'TEXTURE_CUBE_MAP_NEGATIVE_Y',
34073: 'TEXTURE_CUBE_MAP_POSITIVE_Z',
34074: 'TEXTURE_CUBE_MAP_NEGATIVE_Z',
34076: 'MAX_CUBE_MAP_TEXTURE_SIZE',
34338: 'VERTEX_ATTRIB_ARRAY_ENABLED',
34339: 'VERTEX_ATTRIB_ARRAY_SIZE',
34340: 'VERTEX_ATTRIB_ARRAY_STRIDE',
34341: 'VERTEX_ATTRIB_ARRAY_TYPE',
34342: 'CURRENT_VERTEX_ATTRIB',
34373: 'VERTEX_ATTRIB_ARRAY_POINTER',
34466: 'NUM_COMPRESSED_TEXTURE_FORMATS',
34467: 'COMPRESSED_TEXTURE_FORMATS',
34660: 'BUFFER_SIZE',
34661: 'BUFFER_USAGE',
34816: 'STENCIL_BACK_FUNC',
34817: 'STENCIL_BACK_FAIL',
34818: 'STENCIL_BACK_PASS_DEPTH_FAIL',
34819: 'STENCIL_BACK_PASS_DEPTH_PASS',
34877: 'BLEND_EQUATION_ALPHA',
34921: 'MAX_VERTEX_ATTRIBS',
34922: 'VERTEX_ATTRIB_ARRAY_NORMALIZED',
34930: 'MAX_TEXTURE_IMAGE_UNITS',
34962: 'ARRAY_BUFFER',
34963: 'ELEMENT_ARRAY_BUFFER',
34964: 'ARRAY_BUFFER_BINDING',
34965: 'ELEMENT_ARRAY_BUFFER_BINDING',
34975: 'VERTEX_ATTRIB_ARRAY_BUFFER_BINDING',
35040: 'STREAM_DRAW',
35044: 'STATIC_DRAW',
35048: 'DYNAMIC_DRAW',
35632: 'FRAGMENT_SHADER',
35633: 'VERTEX_SHADER',
35660: 'MAX_VERTEX_TEXTURE_IMAGE_UNITS',
35661: 'MAX_COMBINED_TEXTURE_IMAGE_UNITS',
35663: 'SHADER_TYPE',
35664: 'FLOAT_VEC2',
35665: 'FLOAT_VEC3',
35666: 'FLOAT_VEC4',
35667: 'INT_VEC2',
35668: 'INT_VEC3',
35669: 'INT_VEC4',
35670: 'BOOL',
35671: 'BOOL_VEC2',
35672: 'BOOL_VEC3',
35673: 'BOOL_VEC4',
35674: 'FLOAT_MAT2',
35675: 'FLOAT_MAT3',
35676: 'FLOAT_MAT4',
35678: 'SAMPLER_2D',
35680: 'SAMPLER_CUBE',
35712: 'DELETE_STATUS',
35713: 'COMPILE_STATUS',
35714: 'LINK_STATUS',
35715: 'VALIDATE_STATUS',
35716: 'INFO_LOG_LENGTH',
35717: 'ATTACHED_SHADERS',
35718: 'ACTIVE_UNIFORMS',
35719: 'ACTIVE_UNIFORM_MAX_LENGTH',
35720: 'SHADER_SOURCE_LENGTH',
35721: 'ACTIVE_ATTRIBUTES',
35722: 'ACTIVE_ATTRIBUTE_MAX_LENGTH',
35724: 'SHADING_LANGUAGE_VERSION',
35725: 'CURRENT_PROGRAM',
36003: 'STENCIL_BACK_REF',
36004: 'STENCIL_BACK_VALUE_MASK',
36005: 'STENCIL_BACK_WRITEMASK',
36006: 'FRAMEBUFFER_BINDING',
36007: 'RENDERBUFFER_BINDING',
36048: 'FRAMEBUFFER_ATTACHMENT_OBJECT_TYPE',
36049: 'FRAMEBUFFER_ATTACHMENT_OBJECT_NAME',
36050: 'FRAMEBUFFER_ATTACHMENT_TEXTURE_LEVEL',
36051: 'FRAMEBUFFER_ATTACHMENT_TEXTURE_CUBE_MAP_FACE',
36053: 'FRAMEBUFFER_COMPLETE',
36054: 'FRAMEBUFFER_INCOMPLETE_ATTACHMENT',
36055: 'FRAMEBUFFER_INCOMPLETE_MISSING_ATTACHMENT',
36057: 'FRAMEBUFFER_INCOMPLETE_DIMENSIONS',
36061: 'FRAMEBUFFER_UNSUPPORTED',
36064: 'COLOR_ATTACHMENT0',
36096: 'DEPTH_ATTACHMENT',
36128: 'STENCIL_ATTACHMENT',
36160: 'FRAMEBUFFER',
36161: 'RENDERBUFFER',
36162: 'RENDERBUFFER_WIDTH',
36163: 'RENDERBUFFER_HEIGHT',
36164: 'RENDERBUFFER_INTERNAL_FORMAT',
36168: 'STENCIL_INDEX8',
36176: 'RENDERBUFFER_RED_SIZE',
36177: 'RENDERBUFFER_GREEN_SIZE',
36178: 'RENDERBUFFER_BLUE_SIZE',
36179: 'RENDERBUFFER_ALPHA_SIZE',
36180: 'RENDERBUFFER_DEPTH_SIZE',
36181: 'RENDERBUFFER_STENCIL_SIZE',
36194: 'RGB565',
36336: 'LOW_FLOAT',
36337: 'MEDIUM_FLOAT',
36338: 'HIGH_FLOAT',
36339: 'LOW_INT',
36340: 'MEDIUM_INT',
36341: 'HIGH_INT',
36346: 'SHADER_COMPILER',
36347: 'MAX_VERTEX_UNIFORM_VECTORS',
36348: 'MAX_VARYING_VECTORS',
36349: 'MAX_FRAGMENT_UNIFORM_VECTORS',
37440: 'UNPACK_FLIP_Y_WEBGL',
37441: 'UNPACK_PREMULTIPLY_ALPHA_WEBGL',
37442: 'CONTEXT_LOST_WEBGL',
37443: 'UNPACK_COLORSPACE_CONVERSION_WEBGL',
37444: 'BROWSER_DEFAULT_WEBGL'
}
},{}],235:[function(_dereq_,module,exports){
var gl10 = _dereq_('./1.0/numbers')
module.exports = function lookupConstant (number) {
return gl10[number]
}
},{"./1.0/numbers":234}],236:[function(_dereq_,module,exports){
'use strict'
module.exports = createErrorBars
var createBuffer = _dereq_('gl-buffer')
var createVAO = _dereq_('gl-vao')
var createShader = _dereq_('./shaders/index')
var IDENTITY = [1,0,0,0,
0,1,0,0,
0,0,1,0,
0,0,0,1]
function ErrorBars(gl, buffer, vao, shader) {
this.gl = gl
this.shader = shader
this.buffer = buffer
this.vao = vao
this.pixelRatio = 1
this.bounds = [[ Infinity, Infinity, Infinity], [-Infinity,-Infinity,-Infinity]]
this.clipBounds = [[-Infinity,-Infinity,-Infinity], [ Infinity, Infinity, Infinity]]
this.lineWidth = [1,1,1]
this.capSize = [10,10,10]
this.lineCount = [0,0,0]
this.lineOffset = [0,0,0]
this.opacity = 1
}
var proto = ErrorBars.prototype
proto.isOpaque = function() {
return this.opacity >= 1
}
proto.isTransparent = function() {
return this.opacity < 1
}
proto.drawTransparent = proto.draw = function(cameraParams) {
var gl = this.gl
var uniforms = this.shader.uniforms
this.shader.bind()
var view = uniforms.view = cameraParams.view || IDENTITY
var projection = uniforms.projection = cameraParams.projection || IDENTITY
uniforms.model = cameraParams.model || IDENTITY
uniforms.clipBounds = this.clipBounds
uniforms.opacity = this.opacity
var cx = view[12]
var cy = view[13]
var cz = view[14]
var cw = view[15]
var pixelScaleF = this.pixelRatio * (projection[3]*cx + projection[7]*cy + projection[11]*cz + projection[15]*cw) / gl.drawingBufferHeight
this.vao.bind()
for(var i=0; i<3; ++i) {
gl.lineWidth(this.lineWidth[i])
uniforms.capSize = this.capSize[i] * pixelScaleF
if (this.lineCount[i]) {
gl.drawArrays(gl.LINES, this.lineOffset[i], this.lineCount[i])
}
}
this.vao.unbind()
}
function updateBounds(bounds, point) {
for(var i=0; i<3; ++i) {
bounds[0][i] = Math.min(bounds[0][i], point[i])
bounds[1][i] = Math.max(bounds[1][i], point[i])
}
}
var FACE_TABLE = (function(){
var table = new Array(3)
for(var d=0; d<3; ++d) {
var row = []
for(var j=1; j<=2; ++j) {
for(var s=-1; s<=1; s+=2) {
var u = (j+d) % 3
var y = [0,0,0]
y[u] = s
row.push(y)
}
}
table[d] = row
}
return table
})()
function emitFace(verts, x, c, d) {
var offsets = FACE_TABLE[d]
for(var i=0; i<offsets.length; ++i) {
var o = offsets[i]
verts.push(x[0], x[1], x[2],
c[0], c[1], c[2], c[3],
o[0], o[1], o[2])
}
return offsets.length
}
proto.update = function(options) {
options = options || {}
if('lineWidth' in options) {
this.lineWidth = options.lineWidth
if(!Array.isArray(this.lineWidth)) {
this.lineWidth = [this.lineWidth, this.lineWidth, this.lineWidth]
}
}
if('capSize' in options) {
this.capSize = options.capSize
if(!Array.isArray(this.capSize)) {
this.capSize = [this.capSize, this.capSize, this.capSize]
}
}
if('opacity' in options) {
this.opacity = options.opacity
}
var color = options.color || [[0,0,0],[0,0,0],[0,0,0]]
var position = options.position
var error = options.error
if(!Array.isArray(color[0])) {
color = [color,color,color]
}
if(position && error) {
var verts = []
var n = position.length
var vertexCount = 0
this.bounds = [[ Infinity, Infinity, Infinity],
[-Infinity,-Infinity,-Infinity]]
this.lineCount = [0,0,0]
//Build geometry for lines
for(var j=0; j<3; ++j) {
this.lineOffset[j] = vertexCount
i_loop:
for(var i=0; i<n; ++i) {
var p = position[i]
for(var k=0; k<3; ++k) {
if(isNaN(p[k]) || !isFinite(p[k])) {
continue i_loop
}
}
var e = error[i]
var c = color[j]
if(Array.isArray(c[0])) {
c = color[i]
}
if(c.length === 3) {
c = [c[0], c[1], c[2], 1]
}
if(isNaN(e[0][j]) || isNaN(e[1][j])) {
continue
}
if(e[0][j] < 0) {
var x = p.slice()
x[j] += e[0][j]
verts.push(p[0], p[1], p[2],
c[0], c[1], c[2], c[3],
0, 0, 0,
x[0], x[1], x[2],
c[0], c[1], c[2], c[3],
0, 0, 0)
updateBounds(this.bounds, x)
vertexCount += 2 + emitFace(verts, x, c, j)
}
if(e[1][j] > 0) {
var x = p.slice()
x[j] += e[1][j]
verts.push(p[0], p[1], p[2],
c[0], c[1], c[2], c[3],
0, 0, 0,
x[0], x[1], x[2],
c[0], c[1], c[2], c[3],
0, 0, 0)
updateBounds(this.bounds, x)
vertexCount += 2 + emitFace(verts, x, c, j)
}
}
this.lineCount[j] = vertexCount - this.lineOffset[j]
}
this.buffer.update(verts)
}
}
proto.dispose = function() {
this.shader.dispose()
this.buffer.dispose()
this.vao.dispose()
}
function createErrorBars(options) {
var gl = options.gl
var buffer = createBuffer(gl)
var vao = createVAO(gl, [
{
buffer: buffer,
type: gl.FLOAT,
size: 3,
offset: 0,
stride: 40
},
{
buffer: buffer,
type: gl.FLOAT,
size: 4,
offset: 12,
stride: 40
},
{
buffer: buffer,
type: gl.FLOAT,
size: 3,
offset: 28,
stride: 40
}
])
var shader = createShader(gl)
shader.attributes.position.location = 0
shader.attributes.color.location = 1
shader.attributes.offset.location = 2
var result = new ErrorBars(gl, buffer, vao, shader)
result.update(options)
return result
}
},{"./shaders/index":237,"gl-buffer":229,"gl-vao":308}],237:[function(_dereq_,module,exports){
'use strict'
var glslify = _dereq_('glslify')
var createShader = _dereq_('gl-shader')
var vertSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3 position, offset;\nattribute vec4 color;\nuniform mat4 model, view, projection;\nuniform float capSize;\nvarying vec4 fragColor;\nvarying vec3 fragPosition;\n\nvoid main() {\n vec4 worldPosition = model * vec4(position, 1.0);\n worldPosition = (worldPosition / worldPosition.w) + vec4(capSize * offset, 0.0);\n gl_Position = projection * view * worldPosition;\n fragColor = color;\n fragPosition = position;\n}"])
var fragSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\nuniform vec3 clipBounds[2];\nuniform float opacity;\nvarying vec3 fragPosition;\nvarying vec4 fragColor;\n\nvoid main() {\n if(any(lessThan(fragPosition, clipBounds[0])) || any(greaterThan(fragPosition, clipBounds[1]))) {\n discard;\n }\n gl_FragColor = opacity * fragColor;\n}"])
module.exports = function(gl) {
return createShader(gl, vertSrc, fragSrc, null, [
{name: 'position', type: 'vec3'},
{name: 'color', type: 'vec4'},
{name: 'offset', type: 'vec3'}
])
}
},{"gl-shader":286,"glslify":390}],238:[function(_dereq_,module,exports){
'use strict'
var createTexture = _dereq_('gl-texture2d')
module.exports = createFBO
var colorAttachmentArrays = null
var FRAMEBUFFER_UNSUPPORTED
var FRAMEBUFFER_INCOMPLETE_ATTACHMENT
var FRAMEBUFFER_INCOMPLETE_DIMENSIONS
var FRAMEBUFFER_INCOMPLETE_MISSING_ATTACHMENT
function saveFBOState(gl) {
var fbo = gl.getParameter(gl.FRAMEBUFFER_BINDING)
var rbo = gl.getParameter(gl.RENDERBUFFER_BINDING)
var tex = gl.getParameter(gl.TEXTURE_BINDING_2D)
return [fbo, rbo, tex]
}
function restoreFBOState(gl, data) {
gl.bindFramebuffer(gl.FRAMEBUFFER, data[0])
gl.bindRenderbuffer(gl.RENDERBUFFER, data[1])
gl.bindTexture(gl.TEXTURE_2D, data[2])
}
function lazyInitColorAttachments(gl, ext) {
var maxColorAttachments = gl.getParameter(ext.MAX_COLOR_ATTACHMENTS_WEBGL)
colorAttachmentArrays = new Array(maxColorAttachments + 1)
for(var i=0; i<=maxColorAttachments; ++i) {
var x = new Array(maxColorAttachments)
for(var j=0; j<i; ++j) {
x[j] = gl.COLOR_ATTACHMENT0 + j
}
for(var j=i; j<maxColorAttachments; ++j) {
x[j] = gl.NONE
}
colorAttachmentArrays[i] = x
}
}
//Throw an appropriate error
function throwFBOError(status) {
switch(status){
case FRAMEBUFFER_UNSUPPORTED:
throw new Error('gl-fbo: Framebuffer unsupported')
case FRAMEBUFFER_INCOMPLETE_ATTACHMENT:
throw new Error('gl-fbo: Framebuffer incomplete attachment')
case FRAMEBUFFER_INCOMPLETE_DIMENSIONS:
throw new Error('gl-fbo: Framebuffer incomplete dimensions')
case FRAMEBUFFER_INCOMPLETE_MISSING_ATTACHMENT:
throw new Error('gl-fbo: Framebuffer incomplete missing attachment')
default:
throw new Error('gl-fbo: Framebuffer failed for unspecified reason')
}
}
//Initialize a texture object
function initTexture(gl, width, height, type, format, attachment) {
if(!type) {
return null
}
var result = createTexture(gl, width, height, format, type)
result.magFilter = gl.NEAREST
result.minFilter = gl.NEAREST
result.mipSamples = 1
result.bind()
gl.framebufferTexture2D(gl.FRAMEBUFFER, attachment, gl.TEXTURE_2D, result.handle, 0)
return result
}
//Initialize a render buffer object
function initRenderBuffer(gl, width, height, component, attachment) {
var result = gl.createRenderbuffer()
gl.bindRenderbuffer(gl.RENDERBUFFER, result)
gl.renderbufferStorage(gl.RENDERBUFFER, component, width, height)
gl.framebufferRenderbuffer(gl.FRAMEBUFFER, attachment, gl.RENDERBUFFER, result)
return result
}
//Rebuild the frame buffer
function rebuildFBO(fbo) {
//Save FBO state
var state = saveFBOState(fbo.gl)
var gl = fbo.gl
var handle = fbo.handle = gl.createFramebuffer()
var width = fbo._shape[0]
var height = fbo._shape[1]
var numColors = fbo.color.length
var ext = fbo._ext
var useStencil = fbo._useStencil
var useDepth = fbo._useDepth
var colorType = fbo._colorType
//Bind the fbo
gl.bindFramebuffer(gl.FRAMEBUFFER, handle)
//Allocate color buffers
for(var i=0; i<numColors; ++i) {
fbo.color[i] = initTexture(gl, width, height, colorType, gl.RGBA, gl.COLOR_ATTACHMENT0 + i)
}
if(numColors === 0) {
fbo._color_rb = initRenderBuffer(gl, width, height, gl.RGBA4, gl.COLOR_ATTACHMENT0)
if(ext) {
ext.drawBuffersWEBGL(colorAttachmentArrays[0])
}
} else if(numColors > 1) {
ext.drawBuffersWEBGL(colorAttachmentArrays[numColors])
}
//Allocate depth/stencil buffers
var WEBGL_depth_texture = gl.getExtension('WEBGL_depth_texture')
if(WEBGL_depth_texture) {
if(useStencil) {
fbo.depth = initTexture(gl, width, height,
WEBGL_depth_texture.UNSIGNED_INT_24_8_WEBGL,
gl.DEPTH_STENCIL,
gl.DEPTH_STENCIL_ATTACHMENT)
} else if(useDepth) {
fbo.depth = initTexture(gl, width, height,
gl.UNSIGNED_SHORT,
gl.DEPTH_COMPONENT,
gl.DEPTH_ATTACHMENT)
}
} else {
if(useDepth && useStencil) {
fbo._depth_rb = initRenderBuffer(gl, width, height, gl.DEPTH_STENCIL, gl.DEPTH_STENCIL_ATTACHMENT)
} else if(useDepth) {
fbo._depth_rb = initRenderBuffer(gl, width, height, gl.DEPTH_COMPONENT16, gl.DEPTH_ATTACHMENT)
} else if(useStencil) {
fbo._depth_rb = initRenderBuffer(gl, width, height, gl.STENCIL_INDEX, gl.STENCIL_ATTACHMENT)
}
}
//Check frame buffer state
var status = gl.checkFramebufferStatus(gl.FRAMEBUFFER)
if(status !== gl.FRAMEBUFFER_COMPLETE) {
//Release all partially allocated resources
fbo._destroyed = true
//Release all resources
gl.bindFramebuffer(gl.FRAMEBUFFER, null)
gl.deleteFramebuffer(fbo.handle)
fbo.handle = null
if(fbo.depth) {
fbo.depth.dispose()
fbo.depth = null
}
if(fbo._depth_rb) {
gl.deleteRenderbuffer(fbo._depth_rb)
fbo._depth_rb = null
}
for(var i=0; i<fbo.color.length; ++i) {
fbo.color[i].dispose()
fbo.color[i] = null
}
if(fbo._color_rb) {
gl.deleteRenderbuffer(fbo._color_rb)
fbo._color_rb = null
}
restoreFBOState(gl, state)
//Throw the frame buffer error
throwFBOError(status)
}
//Everything ok, let's get on with life
restoreFBOState(gl, state)
}
function Framebuffer(gl, width, height, colorType, numColors, useDepth, useStencil, ext) {
//Handle and set properties
this.gl = gl
this._shape = [width|0, height|0]
this._destroyed = false
this._ext = ext
//Allocate buffers
this.color = new Array(numColors)
for(var i=0; i<numColors; ++i) {
this.color[i] = null
}
this._color_rb = null
this.depth = null
this._depth_rb = null
//Save depth and stencil flags
this._colorType = colorType
this._useDepth = useDepth
this._useStencil = useStencil
//Shape vector for resizing
var parent = this
var shapeVector = [width|0, height|0]
Object.defineProperties(shapeVector, {
0: {
get: function() {
return parent._shape[0]
},
set: function(w) {
return parent.width = w
}
},
1: {
get: function() {
return parent._shape[1]
},
set: function(h) {
return parent.height = h
}
}
})
this._shapeVector = shapeVector
//Initialize all attachments
rebuildFBO(this)
}
var proto = Framebuffer.prototype
function reshapeFBO(fbo, w, h) {
//If fbo is invalid, just skip this
if(fbo._destroyed) {
throw new Error('gl-fbo: Can\'t resize destroyed FBO')
}
//Don't resize if no change in shape
if( (fbo._shape[0] === w) &&
(fbo._shape[1] === h) ) {
return
}
var gl = fbo.gl
//Check parameter ranges
var maxFBOSize = gl.getParameter(gl.MAX_RENDERBUFFER_SIZE)
if( w < 0 || w > maxFBOSize ||
h < 0 || h > maxFBOSize) {
throw new Error('gl-fbo: Can\'t resize FBO, invalid dimensions')
}
//Update shape
fbo._shape[0] = w
fbo._shape[1] = h
//Save framebuffer state
var state = saveFBOState(gl)
//Resize framebuffer attachments
for(var i=0; i<fbo.color.length; ++i) {
fbo.color[i].shape = fbo._shape
}
if(fbo._color_rb) {
gl.bindRenderbuffer(gl.RENDERBUFFER, fbo._color_rb)
gl.renderbufferStorage(gl.RENDERBUFFER, gl.RGBA4, fbo._shape[0], fbo._shape[1])
}
if(fbo.depth) {
fbo.depth.shape = fbo._shape
}
if(fbo._depth_rb) {
gl.bindRenderbuffer(gl.RENDERBUFFER, fbo._depth_rb)
if(fbo._useDepth && fbo._useStencil) {
gl.renderbufferStorage(gl.RENDERBUFFER, gl.DEPTH_STENCIL, fbo._shape[0], fbo._shape[1])
} else if(fbo._useDepth) {
gl.renderbufferStorage(gl.RENDERBUFFER, gl.DEPTH_COMPONENT16, fbo._shape[0], fbo._shape[1])
} else if(fbo._useStencil) {
gl.renderbufferStorage(gl.RENDERBUFFER, gl.STENCIL_INDEX, fbo._shape[0], fbo._shape[1])
}
}
//Check FBO status after resize, if something broke then die in a fire
gl.bindFramebuffer(gl.FRAMEBUFFER, fbo.handle)
var status = gl.checkFramebufferStatus(gl.FRAMEBUFFER)
if(status !== gl.FRAMEBUFFER_COMPLETE) {
fbo.dispose()
restoreFBOState(gl, state)
throwFBOError(status)
}
//Restore framebuffer state
restoreFBOState(gl, state)
}
Object.defineProperties(proto, {
'shape': {
get: function() {
if(this._destroyed) {
return [0,0]
}
return this._shapeVector
},
set: function(x) {
if(!Array.isArray(x)) {
x = [x|0, x|0]
}
if(x.length !== 2) {
throw new Error('gl-fbo: Shape vector must be length 2')
}
var w = x[0]|0
var h = x[1]|0
reshapeFBO(this, w, h)
return [w, h]
},
enumerable: false
},
'width': {
get: function() {
if(this._destroyed) {
return 0
}
return this._shape[0]
},
set: function(w) {
w = w|0
reshapeFBO(this, w, this._shape[1])
return w
},
enumerable: false
},
'height': {
get: function() {
if(this._destroyed) {
return 0
}
return this._shape[1]
},
set: function(h) {
h = h|0
reshapeFBO(this, this._shape[0], h)
return h
},
enumerable: false
}
})
proto.bind = function() {
if(this._destroyed) {
return
}
var gl = this.gl
gl.bindFramebuffer(gl.FRAMEBUFFER, this.handle)
gl.viewport(0, 0, this._shape[0], this._shape[1])
}
proto.dispose = function() {
if(this._destroyed) {
return
}
this._destroyed = true
var gl = this.gl
gl.deleteFramebuffer(this.handle)
this.handle = null
if(this.depth) {
this.depth.dispose()
this.depth = null
}
if(this._depth_rb) {
gl.deleteRenderbuffer(this._depth_rb)
this._depth_rb = null
}
for(var i=0; i<this.color.length; ++i) {
this.color[i].dispose()
this.color[i] = null
}
if(this._color_rb) {
gl.deleteRenderbuffer(this._color_rb)
this._color_rb = null
}
}
function createFBO(gl, width, height, options) {
//Update frame buffer error code values
if(!FRAMEBUFFER_UNSUPPORTED) {
FRAMEBUFFER_UNSUPPORTED = gl.FRAMEBUFFER_UNSUPPORTED
FRAMEBUFFER_INCOMPLETE_ATTACHMENT = gl.FRAMEBUFFER_INCOMPLETE_ATTACHMENT
FRAMEBUFFER_INCOMPLETE_DIMENSIONS = gl.FRAMEBUFFER_INCOMPLETE_DIMENSIONS
FRAMEBUFFER_INCOMPLETE_MISSING_ATTACHMENT = gl.FRAMEBUFFER_INCOMPLETE_MISSING_ATTACHMENT
}
//Lazily initialize color attachment arrays
var WEBGL_draw_buffers = gl.getExtension('WEBGL_draw_buffers')
if(!colorAttachmentArrays && WEBGL_draw_buffers) {
lazyInitColorAttachments(gl, WEBGL_draw_buffers)
}
//Special case: Can accept an array as argument
if(Array.isArray(width)) {
options = height
height = width[1]|0
width = width[0]|0
}
if(typeof width !== 'number') {
throw new Error('gl-fbo: Missing shape parameter')
}
//Validate width/height properties
var maxFBOSize = gl.getParameter(gl.MAX_RENDERBUFFER_SIZE)
if(width < 0 || width > maxFBOSize || height < 0 || height > maxFBOSize) {
throw new Error('gl-fbo: Parameters are too large for FBO')
}
//Handle each option type
options = options || {}
//Figure out number of color buffers to use
var numColors = 1
if('color' in options) {
numColors = Math.max(options.color|0, 0)
if(numColors < 0) {
throw new Error('gl-fbo: Must specify a nonnegative number of colors')
}
if(numColors > 1) {
//Check if multiple render targets supported
if(!WEBGL_draw_buffers) {
throw new Error('gl-fbo: Multiple draw buffer extension not supported')
} else if(numColors > gl.getParameter(WEBGL_draw_buffers.MAX_COLOR_ATTACHMENTS_WEBGL)) {
throw new Error('gl-fbo: Context does not support ' + numColors + ' draw buffers')
}
}
}
//Determine whether to use floating point textures
var colorType = gl.UNSIGNED_BYTE
var OES_texture_float = gl.getExtension('OES_texture_float')
if(options.float && numColors > 0) {
if(!OES_texture_float) {
throw new Error('gl-fbo: Context does not support floating point textures')
}
colorType = gl.FLOAT
} else if(options.preferFloat && numColors > 0) {
if(OES_texture_float) {
colorType = gl.FLOAT
}
}
//Check if we should use depth buffer
var useDepth = true
if('depth' in options) {
useDepth = !!options.depth
}
//Check if we should use a stencil buffer
var useStencil = false
if('stencil' in options) {
useStencil = !!options.stencil
}
return new Framebuffer(
gl,
width,
height,
colorType,
numColors,
useDepth,
useStencil,
WEBGL_draw_buffers)
}
},{"gl-texture2d":303}],239:[function(_dereq_,module,exports){
var sprintf = _dereq_('sprintf-js').sprintf;
var glConstants = _dereq_('gl-constants/lookup');
var shaderName = _dereq_('glsl-shader-name');
var addLineNumbers = _dereq_('add-line-numbers');
module.exports = formatCompilerError;
function formatCompilerError(errLog, src, type) {
"use strict";
var name = shaderName(src) || 'of unknown name (see npm glsl-shader-name)';
var typeName = 'unknown type';
if (type !== undefined) {
typeName = type === glConstants.FRAGMENT_SHADER ? 'fragment' : 'vertex'
}
var longForm = sprintf('Error compiling %s shader %s:\n', typeName, name);
var shortForm = sprintf("%s%s", longForm, errLog);
var errorStrings = errLog.split('\n');
var errors = {};
for (var i = 0; i < errorStrings.length; i++) {
var errorString = errorStrings[i];
if (errorString === '' || errorString === "\0") continue;
var lineNo = parseInt(errorString.split(':')[2]);
if (isNaN(lineNo)) {
throw new Error(sprintf('Could not parse error: %s', errorString));
}
errors[lineNo] = errorString;
}
var lines = addLineNumbers(src).split('\n');
for (var i = 0; i < lines.length; i++) {
if (!errors[i+3] && !errors[i+2] && !errors[i+1]) continue;
var line = lines[i];
longForm += line + '\n';
if (errors[i+1]) {
var e = errors[i+1];
e = e.substr(e.split(':', 3).join(':').length + 1).trim();
longForm += sprintf('^^^ %s\n\n', e);
}
}
return {
long: longForm.trim(),
short: shortForm.trim()
};
}
},{"add-line-numbers":48,"gl-constants/lookup":235,"glsl-shader-name":382,"sprintf-js":501}],240:[function(_dereq_,module,exports){
'use strict'
module.exports = createHeatmap2D
var bsearch = _dereq_('binary-search-bounds')
var iota = _dereq_('iota-array')
var pool = _dereq_('typedarray-pool')
var createShader = _dereq_('gl-shader')
var createBuffer = _dereq_('gl-buffer')
var shaders = _dereq_('./lib/shaders')
function GLHeatmap2D (
plot,
shader,
pickShader,
positionBuffer,
weightBuffer,
colorBuffer,
idBuffer) {
this.plot = plot
this.shader = shader
this.pickShader = pickShader
this.positionBuffer = positionBuffer
this.weightBuffer = weightBuffer
this.colorBuffer = colorBuffer
this.idBuffer = idBuffer
this.xData = []
this.yData = []
this.shape = [0, 0]
this.bounds = [Infinity, Infinity, -Infinity, -Infinity]
this.pickOffset = 0
}
var proto = GLHeatmap2D.prototype
var WEIGHTS = [
0, 0,
1, 0,
0, 1,
1, 0,
1, 1,
0, 1
]
proto.draw = (function () {
var MATRIX = [
1, 0, 0,
0, 1, 0,
0, 0, 1
]
return function () {
var plot = this.plot
var shader = this.shader
var bounds = this.bounds
var numVertices = this.numVertices
if (numVertices <= 0) {
return
}
var gl = plot.gl
var dataBox = plot.dataBox
var boundX = bounds[2] - bounds[0]
var boundY = bounds[3] - bounds[1]
var dataX = dataBox[2] - dataBox[0]
var dataY = dataBox[3] - dataBox[1]
MATRIX[0] = 2.0 * boundX / dataX
MATRIX[4] = 2.0 * boundY / dataY
MATRIX[6] = 2.0 * (bounds[0] - dataBox[0]) / dataX - 1.0
MATRIX[7] = 2.0 * (bounds[1] - dataBox[1]) / dataY - 1.0
shader.bind()
var uniforms = shader.uniforms
uniforms.viewTransform = MATRIX
uniforms.shape = this.shape
var attributes = shader.attributes
this.positionBuffer.bind()
attributes.position.pointer()
this.weightBuffer.bind()
attributes.weight.pointer(gl.UNSIGNED_BYTE, false)
this.colorBuffer.bind()
attributes.color.pointer(gl.UNSIGNED_BYTE, true)
gl.drawArrays(gl.TRIANGLES, 0, numVertices)
}
})()
proto.drawPick = (function () {
var MATRIX = [
1, 0, 0,
0, 1, 0,
0, 0, 1
]
var PICK_VECTOR = [0, 0, 0, 0]
return function (pickOffset) {
var plot = this.plot
var shader = this.pickShader
var bounds = this.bounds
var numVertices = this.numVertices
if (numVertices <= 0) {
return
}
var gl = plot.gl
var dataBox = plot.dataBox
var boundX = bounds[2] - bounds[0]
var boundY = bounds[3] - bounds[1]
var dataX = dataBox[2] - dataBox[0]
var dataY = dataBox[3] - dataBox[1]
MATRIX[0] = 2.0 * boundX / dataX
MATRIX[4] = 2.0 * boundY / dataY
MATRIX[6] = 2.0 * (bounds[0] - dataBox[0]) / dataX - 1.0
MATRIX[7] = 2.0 * (bounds[1] - dataBox[1]) / dataY - 1.0
for (var i = 0; i < 4; ++i) {
PICK_VECTOR[i] = (pickOffset >> (i * 8)) & 0xff
}
this.pickOffset = pickOffset
shader.bind()
var uniforms = shader.uniforms
uniforms.viewTransform = MATRIX
uniforms.pickOffset = PICK_VECTOR
uniforms.shape = this.shape
var attributes = shader.attributes
this.positionBuffer.bind()
attributes.position.pointer()
this.weightBuffer.bind()
attributes.weight.pointer(gl.UNSIGNED_BYTE, false)
this.idBuffer.bind()
attributes.pickId.pointer(gl.UNSIGNED_BYTE, false)
gl.drawArrays(gl.TRIANGLES, 0, numVertices)
return pickOffset + this.shape[0] * this.shape[1]
}
})()
proto.pick = function (x, y, value) {
var pickOffset = this.pickOffset
var pointCount = this.shape[0] * this.shape[1]
if (value < pickOffset || value >= pickOffset + pointCount) {
return null
}
var pointId = value - pickOffset
var xData = this.xData
var yData = this.yData
return {
object: this,
pointId: pointId,
dataCoord: [
xData[pointId % this.shape[0]],
yData[(pointId / this.shape[0]) | 0]]
}
}
proto.update = function (options) {
options = options || {}
var shape = options.shape || [0, 0]
var x = options.x || iota(shape[0])
var y = options.y || iota(shape[1])
var z = options.z || new Float32Array(shape[0] * shape[1])
this.xData = x
this.yData = y
var colorLevels = options.colorLevels || [0]
var colorValues = options.colorValues || [0, 0, 0, 1]
var colorCount = colorLevels.length
var bounds = this.bounds
var lox = bounds[0] = x[0]
var loy = bounds[1] = y[0]
var hix = bounds[2] = x[x.length - 1]
var hiy = bounds[3] = y[y.length - 1]
var xs = 1.0 / (hix - lox)
var ys = 1.0 / (hiy - loy)
var numX = shape[0]
var numY = shape[1]
this.shape = [numX, numY]
var numVerts = (numX - 1) * (numY - 1) * (WEIGHTS.length >>> 1)
this.numVertices = numVerts
var colors = pool.mallocUint8(numVerts * 4)
var positions = pool.mallocFloat32(numVerts * 2)
var weights = pool.mallocUint8 (numVerts * 2)
var ids = pool.mallocUint32(numVerts)
var ptr = 0
for (var j = 0; j < numY - 1; ++j) {
var yc0 = ys * (y[j] - loy)
var yc1 = ys * (y[j + 1] - loy)
for (var i = 0; i < numX - 1; ++i) {
var xc0 = xs * (x[i] - lox)
var xc1 = xs * (x[i + 1] - lox)
for (var dd = 0; dd < WEIGHTS.length; dd += 2) {
var dx = WEIGHTS[dd]
var dy = WEIGHTS[dd + 1]
var offset = (j + dy) * numX + (i + dx)
var zc = z[offset]
var colorIdx = bsearch.le(colorLevels, zc)
var r, g, b, a
if (colorIdx < 0) {
r = colorValues[0]
g = colorValues[1]
b = colorValues[2]
a = colorValues[3]
} else if (colorIdx === colorCount - 1) {
r = colorValues[4 * colorCount - 4]
g = colorValues[4 * colorCount - 3]
b = colorValues[4 * colorCount - 2]
a = colorValues[4 * colorCount - 1]
} else {
var t = (zc - colorLevels[colorIdx]) /
(colorLevels[colorIdx + 1] - colorLevels[colorIdx])
var ti = 1.0 - t
var i0 = 4 * colorIdx
var i1 = 4 * (colorIdx + 1)
r = ti * colorValues[i0] + t * colorValues[i1]
g = ti * colorValues[i0 + 1] + t * colorValues[i1 + 1]
b = ti * colorValues[i0 + 2] + t * colorValues[i1 + 2]
a = ti * colorValues[i0 + 3] + t * colorValues[i1 + 3]
}
colors[4 * ptr] = 255 * r
colors[4 * ptr + 1] = 255 * g
colors[4 * ptr + 2] = 255 * b
colors[4 * ptr + 3] = 255 * a
positions[2*ptr] = xc0*.5 + xc1*.5;
positions[2*ptr+1] = yc0*.5 + yc1*.5;
weights[2*ptr] = dx;
weights[2*ptr+1] = dy;
ids[ptr] = j * numX + i
ptr += 1
}
}
}
this.positionBuffer.update(positions)
this.weightBuffer.update(weights)
this.colorBuffer.update(colors)
this.idBuffer.update(ids)
pool.free(positions)
pool.free(colors)
pool.free(weights)
pool.free(ids)
}
proto.dispose = function () {
this.shader.dispose()
this.pickShader.dispose()
this.positionBuffer.dispose()
this.weightBuffer.dispose()
this.colorBuffer.dispose()
this.idBuffer.dispose()
this.plot.removeObject(this)
}
function createHeatmap2D (plot, options) {
var gl = plot.gl
var shader = createShader(gl, shaders.vertex, shaders.fragment)
var pickShader = createShader(gl, shaders.pickVertex, shaders.pickFragment)
var positionBuffer = createBuffer(gl)
var weightBuffer = createBuffer(gl)
var colorBuffer = createBuffer(gl)
var idBuffer = createBuffer(gl)
var heatmap = new GLHeatmap2D(
plot,
shader,
pickShader,
positionBuffer,
weightBuffer,
colorBuffer,
idBuffer)
heatmap.update(options)
plot.addObject(heatmap)
return heatmap
}
},{"./lib/shaders":241,"binary-search-bounds":242,"gl-buffer":229,"gl-shader":286,"iota-array":397,"typedarray-pool":519}],241:[function(_dereq_,module,exports){
'use strict'
var glslify = _dereq_('glslify')
module.exports = {
fragment: glslify(["precision lowp float;\n#define GLSLIFY 1\nvarying vec4 fragColor;\nvoid main() {\n gl_FragColor = vec4(fragColor.rgb * fragColor.a, fragColor.a);\n}\n"]),
vertex: glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute vec2 position;\nattribute vec4 color;\nattribute vec2 weight;\n\nuniform vec2 shape;\nuniform mat3 viewTransform;\n\nvarying vec4 fragColor;\n\nvoid main() {\n vec3 vPosition = viewTransform * vec3( position + (weight-.5)/(shape-1.) , 1.0);\n fragColor = color;\n gl_Position = vec4(vPosition.xy, 0, vPosition.z);\n}\n"]),
pickFragment: glslify(["precision mediump float;\n#define GLSLIFY 1\n\nvarying vec4 fragId;\nvarying vec2 vWeight;\n\nuniform vec2 shape;\nuniform vec4 pickOffset;\n\nvoid main() {\n vec2 d = step(.5, vWeight);\n vec4 id = fragId + pickOffset;\n id.x += d.x + d.y*shape.x;\n\n id.y += floor(id.x / 256.0);\n id.x -= floor(id.x / 256.0) * 256.0;\n\n id.z += floor(id.y / 256.0);\n id.y -= floor(id.y / 256.0) * 256.0;\n\n id.w += floor(id.z / 256.0);\n id.z -= floor(id.z / 256.0) * 256.0;\n\n gl_FragColor = id/255.;\n}\n"]),
pickVertex: glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute vec2 position;\nattribute vec4 pickId;\nattribute vec2 weight;\n\nuniform vec2 shape;\nuniform mat3 viewTransform;\n\nvarying vec4 fragId;\nvarying vec2 vWeight;\n\nvoid main() {\n vWeight = weight;\n\n fragId = pickId;\n\n vec3 vPosition = viewTransform * vec3( position + (weight-.5)/(shape-1.) , 1.0);\n gl_Position = vec4(vPosition.xy, 0, vPosition.z);\n}\n"])
}
},{"glslify":390}],242:[function(_dereq_,module,exports){
arguments[4][98][0].apply(exports,arguments)
},{"dup":98}],243:[function(_dereq_,module,exports){
var glslify = _dereq_('glslify')
var createShader = _dereq_('gl-shader')
var vertSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3 position, nextPosition;\nattribute float arcLength, lineWidth;\nattribute vec4 color;\n\nuniform vec2 screenShape;\nuniform float pixelRatio;\nuniform mat4 model, view, projection;\n\nvarying vec4 fragColor;\nvarying vec3 worldPosition;\nvarying float pixelArcLength;\n\nvoid main() {\n vec4 projected = projection * view * model * vec4(position, 1.0);\n vec4 tangentClip = projection * view * model * vec4(nextPosition - position, 0.0);\n vec2 tangent = normalize(screenShape * tangentClip.xy);\n vec2 offset = 0.5 * pixelRatio * lineWidth * vec2(tangent.y, -tangent.x) / screenShape;\n\n gl_Position = vec4(projected.xy + projected.w * offset, projected.zw);\n\n worldPosition = position;\n pixelArcLength = arcLength;\n fragColor = color;\n}\n"])
var forwardFrag = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nuniform vec3 clipBounds[2];\nuniform sampler2D dashTexture;\nuniform float dashScale;\nuniform float opacity;\n\nvarying vec3 worldPosition;\nvarying float pixelArcLength;\nvarying vec4 fragColor;\n\nvoid main() {\n if(any(lessThan(worldPosition, clipBounds[0])) || any(greaterThan(worldPosition, clipBounds[1]))) {\n discard;\n }\n float dashWeight = texture2D(dashTexture, vec2(dashScale * pixelArcLength, 0)).r;\n if(dashWeight < 0.5) {\n discard;\n }\n gl_FragColor = fragColor * opacity;\n}\n"])
var pickFrag = glslify(["precision mediump float;\n#define GLSLIFY 1\n\n#define FLOAT_MAX 1.70141184e38\n#define FLOAT_MIN 1.17549435e-38\n\nlowp vec4 encode_float_1540259130(highp float v) {\n highp float av = abs(v);\n\n //Handle special cases\n if(av < FLOAT_MIN) {\n return vec4(0.0, 0.0, 0.0, 0.0);\n } else if(v > FLOAT_MAX) {\n return vec4(127.0, 128.0, 0.0, 0.0) / 255.0;\n } else if(v < -FLOAT_MAX) {\n return vec4(255.0, 128.0, 0.0, 0.0) / 255.0;\n }\n\n highp vec4 c = vec4(0,0,0,0);\n\n //Compute exponent and mantissa\n highp float e = floor(log2(av));\n highp float m = av * pow(2.0, -e) - 1.0;\n \n //Unpack mantissa\n c[1] = floor(128.0 * m);\n m -= c[1] / 128.0;\n c[2] = floor(32768.0 * m);\n m -= c[2] / 32768.0;\n c[3] = floor(8388608.0 * m);\n \n //Unpack exponent\n highp float ebias = e + 127.0;\n c[0] = floor(ebias / 2.0);\n ebias -= c[0] * 2.0;\n c[1] += floor(ebias) * 128.0; \n\n //Unpack sign bit\n c[0] += 128.0 * step(0.0, -v);\n\n //Scale back to range\n return c / 255.0;\n}\n\nuniform float pickId;\nuniform vec3 clipBounds[2];\n\nvarying vec3 worldPosition;\nvarying float pixelArcLength;\nvarying vec4 fragColor;\n\nvoid main() {\n if(any(lessThan(worldPosition, clipBounds[0])) || any(greaterThan(worldPosition, clipBounds[1]))) {\n discard;\n }\n gl_FragColor = vec4(pickId/255.0, encode_float_1540259130(pixelArcLength).xyz);\n}"])
var ATTRIBUTES = [
{name: 'position', type: 'vec3'},
{name: 'nextPosition', type: 'vec3'},
{name: 'arcLength', type: 'float'},
{name: 'lineWidth', type: 'float'},
{name: 'color', type: 'vec4'}
]
exports.createShader = function(gl) {
return createShader(gl, vertSrc, forwardFrag, null, ATTRIBUTES)
}
exports.createPickShader = function(gl) {
return createShader(gl, vertSrc, pickFrag, null, ATTRIBUTES)
}
},{"gl-shader":286,"glslify":390}],244:[function(_dereq_,module,exports){
'use strict'
module.exports = createLinePlot
var createBuffer = _dereq_('gl-buffer')
var createVAO = _dereq_('gl-vao')
var createTexture = _dereq_('gl-texture2d')
var unpackFloat = _dereq_('glsl-read-float')
var bsearch = _dereq_('binary-search-bounds')
var ndarray = _dereq_('ndarray')
var shaders = _dereq_('./lib/shaders')
var createShader = shaders.createShader
var createPickShader = shaders.createPickShader
var identity = [1, 0, 0, 0,
0, 1, 0, 0,
0, 0, 1, 0,
0, 0, 0, 1]
function distance (a, b) {
var s = 0.0
for (var i = 0; i < 3; ++i) {
var d = a[i] - b[i]
s += d * d
}
return Math.sqrt(s)
}
function filterClipBounds (bounds) {
var result = [[-1e6, -1e6, -1e6], [1e6, 1e6, 1e6]]
for (var i = 0; i < 3; ++i) {
result[0][i] = Math.max(bounds[0][i], result[0][i])
result[1][i] = Math.min(bounds[1][i], result[1][i])
}
return result
}
function PickResult (tau, position, index, dataCoordinate) {
this.arcLength = tau
this.position = position
this.index = index
this.dataCoordinate = dataCoordinate
}
function LinePlot (gl, shader, pickShader, buffer, vao, texture) {
this.gl = gl
this.shader = shader
this.pickShader = pickShader
this.buffer = buffer
this.vao = vao
this.clipBounds = [
[ -Infinity, -Infinity, -Infinity ],
[ Infinity, Infinity, Infinity ]]
this.points = []
this.arcLength = []
this.vertexCount = 0
this.bounds = [[0, 0, 0], [0, 0, 0]]
this.pickId = 0
this.lineWidth = 1
this.texture = texture
this.dashScale = 1
this.opacity = 1
this.dirty = true
this.pixelRatio = 1
}
var proto = LinePlot.prototype
proto.isTransparent = function () {
return this.opacity < 1
}
proto.isOpaque = function () {
return this.opacity >= 1
}
proto.pickSlots = 1
proto.setPickBase = function (id) {
this.pickId = id
}
proto.drawTransparent = proto.draw = function (camera) {
var gl = this.gl
var shader = this.shader
var vao = this.vao
shader.bind()
shader.uniforms = {
model: camera.model || identity,
view: camera.view || identity,
projection: camera.projection || identity,
clipBounds: filterClipBounds(this.clipBounds),
dashTexture: this.texture.bind(),
dashScale: this.dashScale / this.arcLength[this.arcLength.length - 1],
opacity: this.opacity,
screenShape: [gl.drawingBufferWidth, gl.drawingBufferHeight],
pixelRatio: this.pixelRatio
}
vao.bind()
vao.draw(gl.TRIANGLE_STRIP, this.vertexCount)
vao.unbind()
}
proto.drawPick = function (camera) {
var gl = this.gl
var shader = this.pickShader
var vao = this.vao
shader.bind()
shader.uniforms = {
model: camera.model || identity,
view: camera.view || identity,
projection: camera.projection || identity,
pickId: this.pickId,
clipBounds: filterClipBounds(this.clipBounds),
screenShape: [gl.drawingBufferWidth, gl.drawingBufferHeight],
pixelRatio: this.pixelRatio
}
vao.bind()
vao.draw(gl.TRIANGLE_STRIP, this.vertexCount)
vao.unbind()
}
proto.update = function (options) {
var i, j
this.dirty = true
var connectGaps = !!options.connectGaps
if ('dashScale' in options) {
this.dashScale = options.dashScale
}
if ('opacity' in options) {
this.opacity = +options.opacity
}
var positions = options.position || options.positions
if (!positions) {
return
}
// Default color
var colors = options.color || options.colors || [0, 0, 0, 1]
var lineWidth = options.lineWidth || 1
// Recalculate buffer data
var buffer = []
var arcLengthArray = []
var pointArray = []
var arcLength = 0.0
var vertexCount = 0
var bounds = [
[ Infinity, Infinity, Infinity ],
[ -Infinity, -Infinity, -Infinity ]]
var hadGap = false
fill_loop:
for (i = 1; i < positions.length; ++i) {
var a = positions[i - 1]
var b = positions[i]
arcLengthArray.push(arcLength)
pointArray.push(a.slice())
for (j = 0; j < 3; ++j) {
if (isNaN(a[j]) || isNaN(b[j]) ||
!isFinite(a[j]) || !isFinite(b[j])) {
if (!connectGaps && buffer.length > 0) {
for (var k = 0; k < 24; ++k) {
buffer.push(buffer[buffer.length - 12])
}
vertexCount += 2
hadGap = true
}
continue fill_loop
}
bounds[0][j] = Math.min(bounds[0][j], a[j], b[j])
bounds[1][j] = Math.max(bounds[1][j], a[j], b[j])
}
var acolor, bcolor
if (Array.isArray(colors[0])) {
acolor = colors[i - 1]
bcolor = colors[i]
} else {
acolor = bcolor = colors
}
if (acolor.length === 3) {
acolor = [acolor[0], acolor[1], acolor[2], 1]
}
if (bcolor.length === 3) {
bcolor = [bcolor[0], bcolor[1], bcolor[2], 1]
}
var w0
if (Array.isArray(lineWidth)) {
w0 = lineWidth[i - 1]
} else {
w0 = lineWidth
}
var t0 = arcLength
arcLength += distance(a, b)
if (hadGap) {
for (j = 0; j < 2; ++j) {
buffer.push(
a[0], a[1], a[2], b[0], b[1], b[2], t0, w0, acolor[0], acolor[1], acolor[2], acolor[3])
}
vertexCount += 2
hadGap = false
}
buffer.push(
a[0], a[1], a[2], b[0], b[1], b[2], t0, w0, acolor[0], acolor[1], acolor[2], acolor[3],
a[0], a[1], a[2], b[0], b[1], b[2], t0, -w0, acolor[0], acolor[1], acolor[2], acolor[3],
b[0], b[1], b[2], a[0], a[1], a[2], arcLength, -w0, bcolor[0], bcolor[1], bcolor[2], bcolor[3],
b[0], b[1], b[2], a[0], a[1], a[2], arcLength, w0, bcolor[0], bcolor[1], bcolor[2], bcolor[3])
vertexCount += 4
}
this.buffer.update(buffer)
arcLengthArray.push(arcLength)
pointArray.push(positions[positions.length - 1].slice())
this.bounds = bounds
this.vertexCount = vertexCount
this.points = pointArray
this.arcLength = arcLengthArray
if ('dashes' in options) {
var dashArray = options.dashes
// Calculate prefix sum
var prefixSum = dashArray.slice()
prefixSum.unshift(0)
for (i = 1; i < prefixSum.length; ++i) {
prefixSum[i] = prefixSum[i - 1] + prefixSum[i]
}
var dashTexture = ndarray(new Array(256 * 4), [256, 1, 4])
for (i = 0; i < 256; ++i) {
for (j = 0; j < 4; ++j) {
dashTexture.set(i, 0, j, 0)
}
if (bsearch.le(prefixSum, prefixSum[prefixSum.length - 1] * i / 255.0) & 1) {
dashTexture.set(i, 0, 0, 0)
} else {
dashTexture.set(i, 0, 0, 255)
}
}
this.texture.setPixels(dashTexture)
}
}
proto.dispose = function () {
this.shader.dispose()
this.vao.dispose()
this.buffer.dispose()
}
proto.pick = function (selection) {
if (!selection) {
return null
}
if (selection.id !== this.pickId) {
return null
}
var tau = unpackFloat(
selection.value[0],
selection.value[1],
selection.value[2],
0)
var index = bsearch.le(this.arcLength, tau)
if (index < 0) {
return null
}
if (index === this.arcLength.length - 1) {
return new PickResult(
this.arcLength[this.arcLength.length - 1],
this.points[this.points.length - 1].slice(),
index)
}
var a = this.points[index]
var b = this.points[Math.min(index + 1, this.points.length - 1)]
var t = (tau - this.arcLength[index]) / (this.arcLength[index + 1] - this.arcLength[index])
var ti = 1.0 - t
var x = [0, 0, 0]
for (var i = 0; i < 3; ++i) {
x[i] = ti * a[i] + t * b[i]
}
var dataIndex = Math.min((t < 0.5) ? index : (index + 1), this.points.length - 1)
return new PickResult(
tau,
x,
dataIndex,
this.points[dataIndex])
}
function createLinePlot (options) {
var gl = options.gl || (options.scene && options.scene.gl)
var shader = createShader(gl)
shader.attributes.position.location = 0
shader.attributes.nextPosition.location = 1
shader.attributes.arcLength.location = 2
shader.attributes.lineWidth.location = 3
shader.attributes.color.location = 4
var pickShader = createPickShader(gl)
pickShader.attributes.position.location = 0
pickShader.attributes.nextPosition.location = 1
pickShader.attributes.arcLength.location = 2
pickShader.attributes.lineWidth.location = 3
pickShader.attributes.color.location = 4
var buffer = createBuffer(gl)
var vao = createVAO(gl, [
{
'buffer': buffer,
'size': 3,
'offset': 0,
'stride': 48
},
{
'buffer': buffer,
'size': 3,
'offset': 12,
'stride': 48
},
{
'buffer': buffer,
'size': 1,
'offset': 24,
'stride': 48
},
{
'buffer': buffer,
'size': 1,
'offset': 28,
'stride': 48
},
{
'buffer': buffer,
'size': 4,
'offset': 32,
'stride': 48
}
])
// Create texture for dash pattern
var defaultTexture = ndarray(new Array(256 * 4), [256, 1, 4])
for (var i = 0; i < 256 * 4; ++i) {
defaultTexture.data[i] = 255
}
var texture = createTexture(gl, defaultTexture)
texture.wrap = gl.REPEAT
var linePlot = new LinePlot(gl, shader, pickShader, buffer, vao, texture)
linePlot.update(options)
return linePlot
}
},{"./lib/shaders":243,"binary-search-bounds":78,"gl-buffer":229,"gl-texture2d":303,"gl-vao":308,"glsl-read-float":381,"ndarray":430}],245:[function(_dereq_,module,exports){
module.exports = invert
/**
* Inverts a mat2
*
* @alias mat2.invert
* @param {mat2} out the receiving matrix
* @param {mat2} a the source matrix
* @returns {mat2} out
*/
function invert(out, a) {
var a0 = a[0]
var a1 = a[1]
var a2 = a[2]
var a3 = a[3]
var det = a0 * a3 - a2 * a1
if (!det) return null
det = 1.0 / det
out[0] = a3 * det
out[1] = -a1 * det
out[2] = -a2 * det
out[3] = a0 * det
return out
}
},{}],246:[function(_dereq_,module,exports){
module.exports = invert
/**
* Inverts a mat3
*
* @alias mat3.invert
* @param {mat3} out the receiving matrix
* @param {mat3} a the source matrix
* @returns {mat3} out
*/
function invert(out, a) {
var a00 = a[0], a01 = a[1], a02 = a[2]
var a10 = a[3], a11 = a[4], a12 = a[5]
var a20 = a[6], a21 = a[7], a22 = a[8]
var b01 = a22 * a11 - a12 * a21
var b11 = -a22 * a10 + a12 * a20
var b21 = a21 * a10 - a11 * a20
// Calculate the determinant
var det = a00 * b01 + a01 * b11 + a02 * b21
if (!det) return null
det = 1.0 / det
out[0] = b01 * det
out[1] = (-a22 * a01 + a02 * a21) * det
out[2] = (a12 * a01 - a02 * a11) * det
out[3] = b11 * det
out[4] = (a22 * a00 - a02 * a20) * det
out[5] = (-a12 * a00 + a02 * a10) * det
out[6] = b21 * det
out[7] = (-a21 * a00 + a01 * a20) * det
out[8] = (a11 * a00 - a01 * a10) * det
return out
}
},{}],247:[function(_dereq_,module,exports){
module.exports = clone;
/**
* Creates a new mat4 initialized with values from an existing matrix
*
* @param {mat4} a matrix to clone
* @returns {mat4} a new 4x4 matrix
*/
function clone(a) {
var out = new Float32Array(16);
out[0] = a[0];
out[1] = a[1];
out[2] = a[2];
out[3] = a[3];
out[4] = a[4];
out[5] = a[5];
out[6] = a[6];
out[7] = a[7];
out[8] = a[8];
out[9] = a[9];
out[10] = a[10];
out[11] = a[11];
out[12] = a[12];
out[13] = a[13];
out[14] = a[14];
out[15] = a[15];
return out;
};
},{}],248:[function(_dereq_,module,exports){
module.exports = create;
/**
* Creates a new identity mat4
*
* @returns {mat4} a new 4x4 matrix
*/
function create() {
var out = new Float32Array(16);
out[0] = 1;
out[1] = 0;
out[2] = 0;
out[3] = 0;
out[4] = 0;
out[5] = 1;
out[6] = 0;
out[7] = 0;
out[8] = 0;
out[9] = 0;
out[10] = 1;
out[11] = 0;
out[12] = 0;
out[13] = 0;
out[14] = 0;
out[15] = 1;
return out;
};
},{}],249:[function(_dereq_,module,exports){
module.exports = determinant;
/**
* Calculates the determinant of a mat4
*
* @param {mat4} a the source matrix
* @returns {Number} determinant of a
*/
function determinant(a) {
var a00 = a[0], a01 = a[1], a02 = a[2], a03 = a[3],
a10 = a[4], a11 = a[5], a12 = a[6], a13 = a[7],
a20 = a[8], a21 = a[9], a22 = a[10], a23 = a[11],
a30 = a[12], a31 = a[13], a32 = a[14], a33 = a[15],
b00 = a00 * a11 - a01 * a10,
b01 = a00 * a12 - a02 * a10,
b02 = a00 * a13 - a03 * a10,
b03 = a01 * a12 - a02 * a11,
b04 = a01 * a13 - a03 * a11,
b05 = a02 * a13 - a03 * a12,
b06 = a20 * a31 - a21 * a30,
b07 = a20 * a32 - a22 * a30,
b08 = a20 * a33 - a23 * a30,
b09 = a21 * a32 - a22 * a31,
b10 = a21 * a33 - a23 * a31,
b11 = a22 * a33 - a23 * a32;
// Calculate the determinant
return b00 * b11 - b01 * b10 + b02 * b09 + b03 * b08 - b04 * b07 + b05 * b06;
};
},{}],250:[function(_dereq_,module,exports){
module.exports = fromQuat;
/**
* Creates a matrix from a quaternion rotation.
*
* @param {mat4} out mat4 receiving operation result
* @param {quat4} q Rotation quaternion
* @returns {mat4} out
*/
function fromQuat(out, q) {
var x = q[0], y = q[1], z = q[2], w = q[3],
x2 = x + x,
y2 = y + y,
z2 = z + z,
xx = x * x2,
yx = y * x2,
yy = y * y2,
zx = z * x2,
zy = z * y2,
zz = z * z2,
wx = w * x2,
wy = w * y2,
wz = w * z2;
out[0] = 1 - yy - zz;
out[1] = yx + wz;
out[2] = zx - wy;
out[3] = 0;
out[4] = yx - wz;
out[5] = 1 - xx - zz;
out[6] = zy + wx;
out[7] = 0;
out[8] = zx + wy;
out[9] = zy - wx;
out[10] = 1 - xx - yy;
out[11] = 0;
out[12] = 0;
out[13] = 0;
out[14] = 0;
out[15] = 1;
return out;
};
},{}],251:[function(_dereq_,module,exports){
module.exports = fromRotationTranslation;
/**
* Creates a matrix from a quaternion rotation and vector translation
* This is equivalent to (but much faster than):
*
* mat4.identity(dest);
* mat4.translate(dest, vec);
* var quatMat = mat4.create();
* quat4.toMat4(quat, quatMat);
* mat4.multiply(dest, quatMat);
*
* @param {mat4} out mat4 receiving operation result
* @param {quat4} q Rotation quaternion
* @param {vec3} v Translation vector
* @returns {mat4} out
*/
function fromRotationTranslation(out, q, v) {
// Quaternion math
var x = q[0], y = q[1], z = q[2], w = q[3],
x2 = x + x,
y2 = y + y,
z2 = z + z,
xx = x * x2,
xy = x * y2,
xz = x * z2,
yy = y * y2,
yz = y * z2,
zz = z * z2,
wx = w * x2,
wy = w * y2,
wz = w * z2;
out[0] = 1 - (yy + zz);
out[1] = xy + wz;
out[2] = xz - wy;
out[3] = 0;
out[4] = xy - wz;
out[5] = 1 - (xx + zz);
out[6] = yz + wx;
out[7] = 0;
out[8] = xz + wy;
out[9] = yz - wx;
out[10] = 1 - (xx + yy);
out[11] = 0;
out[12] = v[0];
out[13] = v[1];
out[14] = v[2];
out[15] = 1;
return out;
};
},{}],252:[function(_dereq_,module,exports){
module.exports = identity;
/**
* Set a mat4 to the identity matrix
*
* @param {mat4} out the receiving matrix
* @returns {mat4} out
*/
function identity(out) {
out[0] = 1;
out[1] = 0;
out[2] = 0;
out[3] = 0;
out[4] = 0;
out[5] = 1;
out[6] = 0;
out[7] = 0;
out[8] = 0;
out[9] = 0;
out[10] = 1;
out[11] = 0;
out[12] = 0;
out[13] = 0;
out[14] = 0;
out[15] = 1;
return out;
};
},{}],253:[function(_dereq_,module,exports){
module.exports = invert;
/**
* Inverts a mat4
*
* @param {mat4} out the receiving matrix
* @param {mat4} a the source matrix
* @returns {mat4} out
*/
function invert(out, a) {
var a00 = a[0], a01 = a[1], a02 = a[2], a03 = a[3],
a10 = a[4], a11 = a[5], a12 = a[6], a13 = a[7],
a20 = a[8], a21 = a[9], a22 = a[10], a23 = a[11],
a30 = a[12], a31 = a[13], a32 = a[14], a33 = a[15],
b00 = a00 * a11 - a01 * a10,
b01 = a00 * a12 - a02 * a10,
b02 = a00 * a13 - a03 * a10,
b03 = a01 * a12 - a02 * a11,
b04 = a01 * a13 - a03 * a11,
b05 = a02 * a13 - a03 * a12,
b06 = a20 * a31 - a21 * a30,
b07 = a20 * a32 - a22 * a30,
b08 = a20 * a33 - a23 * a30,
b09 = a21 * a32 - a22 * a31,
b10 = a21 * a33 - a23 * a31,
b11 = a22 * a33 - a23 * a32,
// Calculate the determinant
det = b00 * b11 - b01 * b10 + b02 * b09 + b03 * b08 - b04 * b07 + b05 * b06;
if (!det) {
return null;
}
det = 1.0 / det;
out[0] = (a11 * b11 - a12 * b10 + a13 * b09) * det;
out[1] = (a02 * b10 - a01 * b11 - a03 * b09) * det;
out[2] = (a31 * b05 - a32 * b04 + a33 * b03) * det;
out[3] = (a22 * b04 - a21 * b05 - a23 * b03) * det;
out[4] = (a12 * b08 - a10 * b11 - a13 * b07) * det;
out[5] = (a00 * b11 - a02 * b08 + a03 * b07) * det;
out[6] = (a32 * b02 - a30 * b05 - a33 * b01) * det;
out[7] = (a20 * b05 - a22 * b02 + a23 * b01) * det;
out[8] = (a10 * b10 - a11 * b08 + a13 * b06) * det;
out[9] = (a01 * b08 - a00 * b10 - a03 * b06) * det;
out[10] = (a30 * b04 - a31 * b02 + a33 * b00) * det;
out[11] = (a21 * b02 - a20 * b04 - a23 * b00) * det;
out[12] = (a11 * b07 - a10 * b09 - a12 * b06) * det;
out[13] = (a00 * b09 - a01 * b07 + a02 * b06) * det;
out[14] = (a31 * b01 - a30 * b03 - a32 * b00) * det;
out[15] = (a20 * b03 - a21 * b01 + a22 * b00) * det;
return out;
};
},{}],254:[function(_dereq_,module,exports){
var identity = _dereq_('./identity');
module.exports = lookAt;
/**
* Generates a look-at matrix with the given eye position, focal point, and up axis
*
* @param {mat4} out mat4 frustum matrix will be written into
* @param {vec3} eye Position of the viewer
* @param {vec3} center Point the viewer is looking at
* @param {vec3} up vec3 pointing up
* @returns {mat4} out
*/
function lookAt(out, eye, center, up) {
var x0, x1, x2, y0, y1, y2, z0, z1, z2, len,
eyex = eye[0],
eyey = eye[1],
eyez = eye[2],
upx = up[0],
upy = up[1],
upz = up[2],
centerx = center[0],
centery = center[1],
centerz = center[2];
if (Math.abs(eyex - centerx) < 0.000001 &&
Math.abs(eyey - centery) < 0.000001 &&
Math.abs(eyez - centerz) < 0.000001) {
return identity(out);
}
z0 = eyex - centerx;
z1 = eyey - centery;
z2 = eyez - centerz;
len = 1 / Math.sqrt(z0 * z0 + z1 * z1 + z2 * z2);
z0 *= len;
z1 *= len;
z2 *= len;
x0 = upy * z2 - upz * z1;
x1 = upz * z0 - upx * z2;
x2 = upx * z1 - upy * z0;
len = Math.sqrt(x0 * x0 + x1 * x1 + x2 * x2);
if (!len) {
x0 = 0;
x1 = 0;
x2 = 0;
} else {
len = 1 / len;
x0 *= len;
x1 *= len;
x2 *= len;
}
y0 = z1 * x2 - z2 * x1;
y1 = z2 * x0 - z0 * x2;
y2 = z0 * x1 - z1 * x0;
len = Math.sqrt(y0 * y0 + y1 * y1 + y2 * y2);
if (!len) {
y0 = 0;
y1 = 0;
y2 = 0;
} else {
len = 1 / len;
y0 *= len;
y1 *= len;
y2 *= len;
}
out[0] = x0;
out[1] = y0;
out[2] = z0;
out[3] = 0;
out[4] = x1;
out[5] = y1;
out[6] = z1;
out[7] = 0;
out[8] = x2;
out[9] = y2;
out[10] = z2;
out[11] = 0;
out[12] = -(x0 * eyex + x1 * eyey + x2 * eyez);
out[13] = -(y0 * eyex + y1 * eyey + y2 * eyez);
out[14] = -(z0 * eyex + z1 * eyey + z2 * eyez);
out[15] = 1;
return out;
};
},{"./identity":252}],255:[function(_dereq_,module,exports){
module.exports = multiply;
/**
* Multiplies two mat4's
*
* @param {mat4} out the receiving matrix
* @param {mat4} a the first operand
* @param {mat4} b the second operand
* @returns {mat4} out
*/
function multiply(out, a, b) {
var a00 = a[0], a01 = a[1], a02 = a[2], a03 = a[3],
a10 = a[4], a11 = a[5], a12 = a[6], a13 = a[7],
a20 = a[8], a21 = a[9], a22 = a[10], a23 = a[11],
a30 = a[12], a31 = a[13], a32 = a[14], a33 = a[15];
// Cache only the current line of the second matrix
var b0 = b[0], b1 = b[1], b2 = b[2], b3 = b[3];
out[0] = b0*a00 + b1*a10 + b2*a20 + b3*a30;
out[1] = b0*a01 + b1*a11 + b2*a21 + b3*a31;
out[2] = b0*a02 + b1*a12 + b2*a22 + b3*a32;
out[3] = b0*a03 + b1*a13 + b2*a23 + b3*a33;
b0 = b[4]; b1 = b[5]; b2 = b[6]; b3 = b[7];
out[4] = b0*a00 + b1*a10 + b2*a20 + b3*a30;
out[5] = b0*a01 + b1*a11 + b2*a21 + b3*a31;
out[6] = b0*a02 + b1*a12 + b2*a22 + b3*a32;
out[7] = b0*a03 + b1*a13 + b2*a23 + b3*a33;
b0 = b[8]; b1 = b[9]; b2 = b[10]; b3 = b[11];
out[8] = b0*a00 + b1*a10 + b2*a20 + b3*a30;
out[9] = b0*a01 + b1*a11 + b2*a21 + b3*a31;
out[10] = b0*a02 + b1*a12 + b2*a22 + b3*a32;
out[11] = b0*a03 + b1*a13 + b2*a23 + b3*a33;
b0 = b[12]; b1 = b[13]; b2 = b[14]; b3 = b[15];
out[12] = b0*a00 + b1*a10 + b2*a20 + b3*a30;
out[13] = b0*a01 + b1*a11 + b2*a21 + b3*a31;
out[14] = b0*a02 + b1*a12 + b2*a22 + b3*a32;
out[15] = b0*a03 + b1*a13 + b2*a23 + b3*a33;
return out;
};
},{}],256:[function(_dereq_,module,exports){
module.exports = perspective;
/**
* Generates a perspective projection matrix with the given bounds
*
* @param {mat4} out mat4 frustum matrix will be written into
* @param {number} fovy Vertical field of view in radians
* @param {number} aspect Aspect ratio. typically viewport width/height
* @param {number} near Near bound of the frustum
* @param {number} far Far bound of the frustum
* @returns {mat4} out
*/
function perspective(out, fovy, aspect, near, far) {
var f = 1.0 / Math.tan(fovy / 2),
nf = 1 / (near - far);
out[0] = f / aspect;
out[1] = 0;
out[2] = 0;
out[3] = 0;
out[4] = 0;
out[5] = f;
out[6] = 0;
out[7] = 0;
out[8] = 0;
out[9] = 0;
out[10] = (far + near) * nf;
out[11] = -1;
out[12] = 0;
out[13] = 0;
out[14] = (2 * far * near) * nf;
out[15] = 0;
return out;
};
},{}],257:[function(_dereq_,module,exports){
module.exports = rotate;
/**
* Rotates a mat4 by the given angle
*
* @param {mat4} out the receiving matrix
* @param {mat4} a the matrix to rotate
* @param {Number} rad the angle to rotate the matrix by
* @param {vec3} axis the axis to rotate around
* @returns {mat4} out
*/
function rotate(out, a, rad, axis) {
var x = axis[0], y = axis[1], z = axis[2],
len = Math.sqrt(x * x + y * y + z * z),
s, c, t,
a00, a01, a02, a03,
a10, a11, a12, a13,
a20, a21, a22, a23,
b00, b01, b02,
b10, b11, b12,
b20, b21, b22;
if (Math.abs(len) < 0.000001) { return null; }
len = 1 / len;
x *= len;
y *= len;
z *= len;
s = Math.sin(rad);
c = Math.cos(rad);
t = 1 - c;
a00 = a[0]; a01 = a[1]; a02 = a[2]; a03 = a[3];
a10 = a[4]; a11 = a[5]; a12 = a[6]; a13 = a[7];
a20 = a[8]; a21 = a[9]; a22 = a[10]; a23 = a[11];
// Construct the elements of the rotation matrix
b00 = x * x * t + c; b01 = y * x * t + z * s; b02 = z * x * t - y * s;
b10 = x * y * t - z * s; b11 = y * y * t + c; b12 = z * y * t + x * s;
b20 = x * z * t + y * s; b21 = y * z * t - x * s; b22 = z * z * t + c;
// Perform rotation-specific matrix multiplication
out[0] = a00 * b00 + a10 * b01 + a20 * b02;
out[1] = a01 * b00 + a11 * b01 + a21 * b02;
out[2] = a02 * b00 + a12 * b01 + a22 * b02;
out[3] = a03 * b00 + a13 * b01 + a23 * b02;
out[4] = a00 * b10 + a10 * b11 + a20 * b12;
out[5] = a01 * b10 + a11 * b11 + a21 * b12;
out[6] = a02 * b10 + a12 * b11 + a22 * b12;
out[7] = a03 * b10 + a13 * b11 + a23 * b12;
out[8] = a00 * b20 + a10 * b21 + a20 * b22;
out[9] = a01 * b20 + a11 * b21 + a21 * b22;
out[10] = a02 * b20 + a12 * b21 + a22 * b22;
out[11] = a03 * b20 + a13 * b21 + a23 * b22;
if (a !== out) { // If the source and destination differ, copy the unchanged last row
out[12] = a[12];
out[13] = a[13];
out[14] = a[14];
out[15] = a[15];
}
return out;
};
},{}],258:[function(_dereq_,module,exports){
module.exports = rotateX;
/**
* Rotates a matrix by the given angle around the X axis
*
* @param {mat4} out the receiving matrix
* @param {mat4} a the matrix to rotate
* @param {Number} rad the angle to rotate the matrix by
* @returns {mat4} out
*/
function rotateX(out, a, rad) {
var s = Math.sin(rad),
c = Math.cos(rad),
a10 = a[4],
a11 = a[5],
a12 = a[6],
a13 = a[7],
a20 = a[8],
a21 = a[9],
a22 = a[10],
a23 = a[11];
if (a !== out) { // If the source and destination differ, copy the unchanged rows
out[0] = a[0];
out[1] = a[1];
out[2] = a[2];
out[3] = a[3];
out[12] = a[12];
out[13] = a[13];
out[14] = a[14];
out[15] = a[15];
}
// Perform axis-specific matrix multiplication
out[4] = a10 * c + a20 * s;
out[5] = a11 * c + a21 * s;
out[6] = a12 * c + a22 * s;
out[7] = a13 * c + a23 * s;
out[8] = a20 * c - a10 * s;
out[9] = a21 * c - a11 * s;
out[10] = a22 * c - a12 * s;
out[11] = a23 * c - a13 * s;
return out;
};
},{}],259:[function(_dereq_,module,exports){
module.exports = rotateY;
/**
* Rotates a matrix by the given angle around the Y axis
*
* @param {mat4} out the receiving matrix
* @param {mat4} a the matrix to rotate
* @param {Number} rad the angle to rotate the matrix by
* @returns {mat4} out
*/
function rotateY(out, a, rad) {
var s = Math.sin(rad),
c = Math.cos(rad),
a00 = a[0],
a01 = a[1],
a02 = a[2],
a03 = a[3],
a20 = a[8],
a21 = a[9],
a22 = a[10],
a23 = a[11];
if (a !== out) { // If the source and destination differ, copy the unchanged rows
out[4] = a[4];
out[5] = a[5];
out[6] = a[6];
out[7] = a[7];
out[12] = a[12];
out[13] = a[13];
out[14] = a[14];
out[15] = a[15];
}
// Perform axis-specific matrix multiplication
out[0] = a00 * c - a20 * s;
out[1] = a01 * c - a21 * s;
out[2] = a02 * c - a22 * s;
out[3] = a03 * c - a23 * s;
out[8] = a00 * s + a20 * c;
out[9] = a01 * s + a21 * c;
out[10] = a02 * s + a22 * c;
out[11] = a03 * s + a23 * c;
return out;
};
},{}],260:[function(_dereq_,module,exports){
module.exports = rotateZ;
/**
* Rotates a matrix by the given angle around the Z axis
*
* @param {mat4} out the receiving matrix
* @param {mat4} a the matrix to rotate
* @param {Number} rad the angle to rotate the matrix by
* @returns {mat4} out
*/
function rotateZ(out, a, rad) {
var s = Math.sin(rad),
c = Math.cos(rad),
a00 = a[0],
a01 = a[1],
a02 = a[2],
a03 = a[3],
a10 = a[4],
a11 = a[5],
a12 = a[6],
a13 = a[7];
if (a !== out) { // If the source and destination differ, copy the unchanged last row
out[8] = a[8];
out[9] = a[9];
out[10] = a[10];
out[11] = a[11];
out[12] = a[12];
out[13] = a[13];
out[14] = a[14];
out[15] = a[15];
}
// Perform axis-specific matrix multiplication
out[0] = a00 * c + a10 * s;
out[1] = a01 * c + a11 * s;
out[2] = a02 * c + a12 * s;
out[3] = a03 * c + a13 * s;
out[4] = a10 * c - a00 * s;
out[5] = a11 * c - a01 * s;
out[6] = a12 * c - a02 * s;
out[7] = a13 * c - a03 * s;
return out;
};
},{}],261:[function(_dereq_,module,exports){
module.exports = scale;
/**
* Scales the mat4 by the dimensions in the given vec3
*
* @param {mat4} out the receiving matrix
* @param {mat4} a the matrix to scale
* @param {vec3} v the vec3 to scale the matrix by
* @returns {mat4} out
**/
function scale(out, a, v) {
var x = v[0], y = v[1], z = v[2];
out[0] = a[0] * x;
out[1] = a[1] * x;
out[2] = a[2] * x;
out[3] = a[3] * x;
out[4] = a[4] * y;
out[5] = a[5] * y;
out[6] = a[6] * y;
out[7] = a[7] * y;
out[8] = a[8] * z;
out[9] = a[9] * z;
out[10] = a[10] * z;
out[11] = a[11] * z;
out[12] = a[12];
out[13] = a[13];
out[14] = a[14];
out[15] = a[15];
return out;
};
},{}],262:[function(_dereq_,module,exports){
module.exports = translate;
/**
* Translate a mat4 by the given vector
*
* @param {mat4} out the receiving matrix
* @param {mat4} a the matrix to translate
* @param {vec3} v vector to translate by
* @returns {mat4} out
*/
function translate(out, a, v) {
var x = v[0], y = v[1], z = v[2],
a00, a01, a02, a03,
a10, a11, a12, a13,
a20, a21, a22, a23;
if (a === out) {
out[12] = a[0] * x + a[4] * y + a[8] * z + a[12];
out[13] = a[1] * x + a[5] * y + a[9] * z + a[13];
out[14] = a[2] * x + a[6] * y + a[10] * z + a[14];
out[15] = a[3] * x + a[7] * y + a[11] * z + a[15];
} else {
a00 = a[0]; a01 = a[1]; a02 = a[2]; a03 = a[3];
a10 = a[4]; a11 = a[5]; a12 = a[6]; a13 = a[7];
a20 = a[8]; a21 = a[9]; a22 = a[10]; a23 = a[11];
out[0] = a00; out[1] = a01; out[2] = a02; out[3] = a03;
out[4] = a10; out[5] = a11; out[6] = a12; out[7] = a13;
out[8] = a20; out[9] = a21; out[10] = a22; out[11] = a23;
out[12] = a00 * x + a10 * y + a20 * z + a[12];
out[13] = a01 * x + a11 * y + a21 * z + a[13];
out[14] = a02 * x + a12 * y + a22 * z + a[14];
out[15] = a03 * x + a13 * y + a23 * z + a[15];
}
return out;
};
},{}],263:[function(_dereq_,module,exports){
module.exports = transpose;
/**
* Transpose the values of a mat4
*
* @param {mat4} out the receiving matrix
* @param {mat4} a the source matrix
* @returns {mat4} out
*/
function transpose(out, a) {
// If we are transposing ourselves we can skip a few steps but have to cache some values
if (out === a) {
var a01 = a[1], a02 = a[2], a03 = a[3],
a12 = a[6], a13 = a[7],
a23 = a[11];
out[1] = a[4];
out[2] = a[8];
out[3] = a[12];
out[4] = a01;
out[6] = a[9];
out[7] = a[13];
out[8] = a02;
out[9] = a12;
out[11] = a[14];
out[12] = a03;
out[13] = a13;
out[14] = a23;
} else {
out[0] = a[0];
out[1] = a[4];
out[2] = a[8];
out[3] = a[12];
out[4] = a[1];
out[5] = a[5];
out[6] = a[9];
out[7] = a[13];
out[8] = a[2];
out[9] = a[6];
out[10] = a[10];
out[11] = a[14];
out[12] = a[3];
out[13] = a[7];
out[14] = a[11];
out[15] = a[15];
}
return out;
};
},{}],264:[function(_dereq_,module,exports){
'use strict'
module.exports = invert
var invert2 = _dereq_('gl-mat2/invert')
var invert3 = _dereq_('gl-mat3/invert')
var invert4 = _dereq_('gl-mat4/invert')
function invert(out, M) {
switch(M.length) {
case 0:
break
case 1:
out[0] = 1.0 / M[0]
break
case 4:
invert2(out, M)
break
case 9:
invert3(out, M)
break
case 16:
invert4(out, M)
break
default:
throw new Error('currently supports matrices up to 4x4')
break
}
return out
}
},{"gl-mat2/invert":245,"gl-mat3/invert":246,"gl-mat4/invert":253}],265:[function(_dereq_,module,exports){
'use strict'
var barycentric = _dereq_('barycentric')
var closestPointToTriangle = _dereq_('polytope-closest-point/lib/closest_point_2d.js')
module.exports = closestPointToPickLocation
function xformMatrix(m, v) {
var out = [0,0,0,0]
for(var i=0; i<4; ++i) {
for(var j=0; j<4; ++j) {
out[j] += m[4*i + j] * v[i]
}
}
return out
}
function projectVertex(v, model, view, projection, resolution) {
var p = xformMatrix(projection,
xformMatrix(view,
xformMatrix(model, [v[0], v[1], v[2], 1])))
for(var i=0; i<3; ++i) {
p[i] /= p[3]
}
return [ 0.5 * resolution[0] * (1.0+p[0]), 0.5 * resolution[1] * (1.0-p[1]) ]
}
function barycentricCoord(simplex, point) {
if(simplex.length === 2) {
var d0 = 0.0
var d1 = 0.0
for(var i=0; i<2; ++i) {
d0 += Math.pow(point[i] - simplex[0][i], 2)
d1 += Math.pow(point[i] - simplex[1][i], 2)
}
d0 = Math.sqrt(d0)
d1 = Math.sqrt(d1)
if(d0+d1 < 1e-6) {
return [1,0]
}
return [d1/(d0+d1),d0/(d1+d0)]
} else if(simplex.length === 3) {
var closestPoint = [0,0]
closestPointToTriangle(simplex[0], simplex[1], simplex[2], point, closestPoint)
return barycentric(simplex, closestPoint)
}
return []
}
function interpolate(simplex, weights) {
var result = [0,0,0]
for(var i=0; i<simplex.length; ++i) {
var p = simplex[i]
var w = weights[i]
for(var j=0; j<3; ++j) {
result[j] += w * p[j]
}
}
return result
}
function closestPointToPickLocation(simplex, pixelCoord, model, view, projection, resolution) {
if(simplex.length === 1) {
return [0, simplex[0].slice()]
}
var simplex2D = new Array(simplex.length)
for(var i=0; i<simplex.length; ++i) {
simplex2D[i] = projectVertex(simplex[i], model, view, projection, resolution);
}
var closestIndex = 0
var closestDist = Infinity
for(var i=0; i<simplex2D.length; ++i) {
var d2 = 0.0
for(var j=0; j<2; ++j) {
d2 += Math.pow(simplex2D[i][j] - pixelCoord[j], 2)
}
if(d2 < closestDist) {
closestDist = d2
closestIndex = i
}
}
var weights = barycentricCoord(simplex2D, pixelCoord)
var s = 0.0
for(var i=0; i<3; ++i) {
if(weights[i] < -0.001 ||
weights[i] > 1.0001) {
return null
}
s += weights[i]
}
if(Math.abs(s - 1.0) > 0.001) {
return null
}
return [closestIndex, interpolate(simplex, weights), weights]
}
},{"barycentric":60,"polytope-closest-point/lib/closest_point_2d.js":461}],266:[function(_dereq_,module,exports){
var glslify = _dereq_('glslify')
var triVertSrc = glslify(["precision highp float;\n#define GLSLIFY 1\n\nattribute vec3 position, normal;\nattribute vec4 color;\nattribute vec2 uv;\n\nuniform mat4 model\n , view\n , projection;\nuniform vec3 eyePosition\n , lightPosition;\n\nvarying vec3 f_normal\n , f_lightDirection\n , f_eyeDirection\n , f_data;\nvarying vec4 f_color;\nvarying vec2 f_uv;\n\nvoid main() {\n vec4 m_position = model * vec4(position, 1.0);\n vec4 t_position = view * m_position;\n gl_Position = projection * t_position;\n f_color = color;\n f_normal = normal;\n f_data = position;\n f_eyeDirection = eyePosition - position;\n f_lightDirection = lightPosition - position;\n f_uv = uv;\n}\n"])
var triFragSrc = glslify(["#extension GL_OES_standard_derivatives : enable\n\nprecision highp float;\n#define GLSLIFY 1\n\nfloat beckmannDistribution(float x, float roughness) {\n float NdotH = max(x, 0.0001);\n float cos2Alpha = NdotH * NdotH;\n float tan2Alpha = (cos2Alpha - 1.0) / cos2Alpha;\n float roughness2 = roughness * roughness;\n float denom = 3.141592653589793 * roughness2 * cos2Alpha * cos2Alpha;\n return exp(tan2Alpha / roughness2) / denom;\n}\n\nfloat cookTorranceSpecular(\n vec3 lightDirection,\n vec3 viewDirection,\n vec3 surfaceNormal,\n float roughness,\n float fresnel) {\n\n float VdotN = max(dot(viewDirection, surfaceNormal), 0.0);\n float LdotN = max(dot(lightDirection, surfaceNormal), 0.0);\n\n //Half angle vector\n vec3 H = normalize(lightDirection + viewDirection);\n\n //Geometric term\n float NdotH = max(dot(surfaceNormal, H), 0.0);\n float VdotH = max(dot(viewDirection, H), 0.000001);\n float LdotH = max(dot(lightDirection, H), 0.000001);\n float G1 = (2.0 * NdotH * VdotN) / VdotH;\n float G2 = (2.0 * NdotH * LdotN) / LdotH;\n float G = min(1.0, min(G1, G2));\n \n //Distribution term\n float D = beckmannDistribution(NdotH, roughness);\n\n //Fresnel term\n float F = pow(1.0 - VdotN, fresnel);\n\n //Multiply terms and done\n return G * F * D / max(3.14159265 * VdotN, 0.000001);\n}\n\nvec3 normals(vec3 pos) {\n vec3 fdx = dFdx(pos);\n vec3 fdy = dFdy(pos);\n return normalize(cross(fdx, fdy));\n}\n\nuniform vec3 clipBounds[2];\nuniform float roughness\n , fresnel\n , kambient\n , kdiffuse\n , kspecular\n , opacity;\nuniform sampler2D texture;\n\nvarying vec3 f_normal\n , f_lightDirection\n , f_eyeDirection\n , f_data;\nvarying vec4 f_color;\nvarying vec2 f_uv;\n\nvoid main() {\n if(any(lessThan(f_data, clipBounds[0])) ||\n any(greaterThan(f_data, clipBounds[1]))) {\n discard;\n }\n\n vec3 N = normalize(f_normal);\n vec3 L = normalize(f_lightDirection);\n vec3 V = normalize(f_eyeDirection);\n\n vec3 normal = normals(f_data);\n\n if (\n dot(N, normal) < 0.0\n ) {\n N = -N;\n }\n\n float specular = cookTorranceSpecular(L, V, N, roughness, fresnel);\n float diffuse = min(kambient + kdiffuse * max(dot(N, L), 0.0), 1.0);\n\n vec4 surfaceColor = f_color * texture2D(texture, f_uv);\n vec4 litColor = surfaceColor.a * vec4(diffuse * surfaceColor.rgb + kspecular * vec3(1,1,1) * specular, 1.0);\n\n gl_FragColor = litColor * opacity;\n}\n"])
var edgeVertSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3 position;\nattribute vec4 color;\nattribute vec2 uv;\n\nuniform mat4 model, view, projection;\n\nvarying vec4 f_color;\nvarying vec3 f_data;\nvarying vec2 f_uv;\n\nvoid main() {\n gl_Position = projection * view * model * vec4(position, 1.0);\n f_color = color;\n f_data = position;\n f_uv = uv;\n}"])
var edgeFragSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nuniform vec3 clipBounds[2];\nuniform sampler2D texture;\nuniform float opacity;\n\nvarying vec4 f_color;\nvarying vec3 f_data;\nvarying vec2 f_uv;\n\nvoid main() {\n if(any(lessThan(f_data, clipBounds[0])) || \n any(greaterThan(f_data, clipBounds[1]))) {\n discard;\n }\n\n gl_FragColor = f_color * texture2D(texture, f_uv) * opacity;\n}"])
var pointVertSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3 position;\nattribute vec4 color;\nattribute vec2 uv;\nattribute float pointSize;\n\nuniform mat4 model, view, projection;\nuniform vec3 clipBounds[2];\n\nvarying vec4 f_color;\nvarying vec2 f_uv;\n\nvoid main() {\n if(any(lessThan(position, clipBounds[0])) || \n any(greaterThan(position, clipBounds[1]))) {\n gl_Position = vec4(0,0,0,0);\n } else {\n gl_Position = projection * view * model * vec4(position, 1.0);\n }\n gl_PointSize = pointSize;\n f_color = color;\n f_uv = uv;\n}"])
var pointFragSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nuniform sampler2D texture;\nuniform float opacity;\n\nvarying vec4 f_color;\nvarying vec2 f_uv;\n\nvoid main() {\n vec2 pointR = gl_PointCoord.xy - vec2(0.5,0.5);\n if(dot(pointR, pointR) > 0.25) {\n discard;\n }\n gl_FragColor = f_color * texture2D(texture, f_uv) * opacity;\n}"])
var pickVertSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3 position;\nattribute vec4 id;\n\nuniform mat4 model, view, projection;\n\nvarying vec3 f_position;\nvarying vec4 f_id;\n\nvoid main() {\n gl_Position = projection * view * model * vec4(position, 1.0);\n f_id = id;\n f_position = position;\n}"])
var pickFragSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nuniform vec3 clipBounds[2];\nuniform float pickId;\n\nvarying vec3 f_position;\nvarying vec4 f_id;\n\nvoid main() {\n if(any(lessThan(f_position, clipBounds[0])) || \n any(greaterThan(f_position, clipBounds[1]))) {\n discard;\n }\n gl_FragColor = vec4(pickId, f_id.xyz);\n}"])
var pickPointVertSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3 position;\nattribute float pointSize;\nattribute vec4 id;\n\nuniform mat4 model, view, projection;\nuniform vec3 clipBounds[2];\n\nvarying vec3 f_position;\nvarying vec4 f_id;\n\nvoid main() {\n if(any(lessThan(position, clipBounds[0])) || \n any(greaterThan(position, clipBounds[1]))) {\n gl_Position = vec4(0,0,0,0);\n } else {\n gl_Position = projection * view * model * vec4(position, 1.0);\n gl_PointSize = pointSize;\n }\n f_id = id;\n f_position = position;\n}"])
var contourVertSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3 position;\n\nuniform mat4 model, view, projection;\n\nvoid main() {\n gl_Position = projection * view * model * vec4(position, 1.0);\n}"])
var contourFragSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nuniform vec3 contourColor;\n\nvoid main() {\n gl_FragColor = vec4(contourColor,1);\n}\n"])
exports.meshShader = {
vertex: triVertSrc,
fragment: triFragSrc,
attributes: [
{name: 'position', type: 'vec3'},
{name: 'normal', type: 'vec3'},
{name: 'color', type: 'vec4'},
{name: 'uv', type: 'vec2'}
]
}
exports.wireShader = {
vertex: edgeVertSrc,
fragment: edgeFragSrc,
attributes: [
{name: 'position', type: 'vec3'},
{name: 'color', type: 'vec4'},
{name: 'uv', type: 'vec2'}
]
}
exports.pointShader = {
vertex: pointVertSrc,
fragment: pointFragSrc,
attributes: [
{name: 'position', type: 'vec3'},
{name: 'color', type: 'vec4'},
{name: 'uv', type: 'vec2'},
{name: 'pointSize', type: 'float'}
]
}
exports.pickShader = {
vertex: pickVertSrc,
fragment: pickFragSrc,
attributes: [
{name: 'position', type: 'vec3'},
{name: 'id', type: 'vec4'}
]
}
exports.pointPickShader = {
vertex: pickPointVertSrc,
fragment: pickFragSrc,
attributes: [
{name: 'position', type: 'vec3'},
{name: 'pointSize', type: 'float'},
{name: 'id', type: 'vec4'}
]
}
exports.contourShader = {
vertex: contourVertSrc,
fragment: contourFragSrc,
attributes: [
{name: 'position', type: 'vec3'}
]
}
},{"glslify":390}],267:[function(_dereq_,module,exports){
'use strict'
var DEFAULT_VERTEX_NORMALS_EPSILON = 1e-6; // may be too large if triangles are very small
var DEFAULT_FACE_NORMALS_EPSILON = 1e-6;
var createShader = _dereq_('gl-shader')
var createBuffer = _dereq_('gl-buffer')
var createVAO = _dereq_('gl-vao')
var createTexture = _dereq_('gl-texture2d')
var normals = _dereq_('normals')
var multiply = _dereq_('gl-mat4/multiply')
var invert = _dereq_('gl-mat4/invert')
var ndarray = _dereq_('ndarray')
var colormap = _dereq_('colormap')
var getContour = _dereq_('simplicial-complex-contour')
var pool = _dereq_('typedarray-pool')
var shaders = _dereq_('./lib/shaders')
var closestPoint = _dereq_('./lib/closest-point')
var meshShader = shaders.meshShader
var wireShader = shaders.wireShader
var pointShader = shaders.pointShader
var pickShader = shaders.pickShader
var pointPickShader = shaders.pointPickShader
var contourShader = shaders.contourShader
var identityMatrix = [
1,0,0,0,
0,1,0,0,
0,0,1,0,
0,0,0,1]
function SimplicialMesh(gl
, texture
, triShader
, lineShader
, pointShader
, pickShader
, pointPickShader
, contourShader
, trianglePositions
, triangleIds
, triangleColors
, triangleUVs
, triangleNormals
, triangleVAO
, edgePositions
, edgeIds
, edgeColors
, edgeUVs
, edgeVAO
, pointPositions
, pointIds
, pointColors
, pointUVs
, pointSizes
, pointVAO
, contourPositions
, contourVAO) {
this.gl = gl
this.cells = []
this.positions = []
this.intensity = []
this.texture = texture
this.dirty = true
this.triShader = triShader
this.lineShader = lineShader
this.pointShader = pointShader
this.pickShader = pickShader
this.pointPickShader = pointPickShader
this.contourShader = contourShader
this.trianglePositions = trianglePositions
this.triangleColors = triangleColors
this.triangleNormals = triangleNormals
this.triangleUVs = triangleUVs
this.triangleIds = triangleIds
this.triangleVAO = triangleVAO
this.triangleCount = 0
this.lineWidth = 1
this.edgePositions = edgePositions
this.edgeColors = edgeColors
this.edgeUVs = edgeUVs
this.edgeIds = edgeIds
this.edgeVAO = edgeVAO
this.edgeCount = 0
this.pointPositions = pointPositions
this.pointColors = pointColors
this.pointUVs = pointUVs
this.pointSizes = pointSizes
this.pointIds = pointIds
this.pointVAO = pointVAO
this.pointCount = 0
this.contourLineWidth = 1
this.contourPositions = contourPositions
this.contourVAO = contourVAO
this.contourCount = 0
this.contourColor = [0,0,0]
this.contourEnable = true
this.pickId = 1
this.bounds = [
[ Infinity, Infinity, Infinity],
[-Infinity,-Infinity,-Infinity] ]
this.clipBounds = [
[-Infinity,-Infinity,-Infinity],
[ Infinity, Infinity, Infinity] ]
this.lightPosition = [1e5, 1e5, 0]
this.ambientLight = 0.8
this.diffuseLight = 0.8
this.specularLight = 2.0
this.roughness = 0.5
this.fresnel = 1.5
this.opacity = 1.0
this._model = identityMatrix
this._view = identityMatrix
this._projection = identityMatrix
this._resolution = [1,1]
}
var proto = SimplicialMesh.prototype
proto.isOpaque = function() {
return this.opacity >= 1
}
proto.isTransparent = function() {
return this.opacity < 1
}
proto.pickSlots = 1
proto.setPickBase = function(id) {
this.pickId = id
}
function genColormap(param) {
var colors = colormap({
colormap: param
, nshades: 256
, format: 'rgba'
})
var result = new Uint8Array(256*4)
for(var i=0; i<256; ++i) {
var c = colors[i]
for(var j=0; j<3; ++j) {
result[4*i+j] = c[j]
}
result[4*i+3] = c[3]*255
}
return ndarray(result, [256,256,4], [4,0,1])
}
function unpackIntensity(cells, numVerts, cellIntensity) {
var result = new Array(numVerts)
for(var i=0; i<numVerts; ++i) {
result[i] = 0
}
var numCells = cells.length
for(var i=0; i<numCells; ++i) {
var c = cells[i]
for(var j=0; j<c.length; ++j) {
result[c[j]] = cellIntensity[i]
}
}
return result
}
function takeZComponent(array) {
var n = array.length
var result = new Array(n)
for(var i=0; i<n; ++i) {
result[i] = array[i][2]
}
return result
}
proto.highlight = function(selection) {
if(!selection || !this.contourEnable) {
this.contourCount = 0
return
}
var level = getContour(this.cells, this.intensity, selection.intensity)
var cells = level.cells
var vertexIds = level.vertexIds
var vertexWeights = level.vertexWeights
var numCells = cells.length
var result = pool.mallocFloat32(2 * 3 * numCells)
var ptr = 0
for(var i=0; i<numCells; ++i) {
var c = cells[i]
for(var j=0; j<2; ++j) {
var v = c[0]
if(c.length === 2) {
v = c[j]
}
var a = vertexIds[v][0]
var b = vertexIds[v][1]
var w = vertexWeights[v]
var wi = 1.0 - w
var pa = this.positions[a]
var pb = this.positions[b]
for(var k=0; k<3; ++k) {
result[ptr++] = w * pa[k] + wi * pb[k]
}
}
}
this.contourCount = (ptr / 3)|0
this.contourPositions.update(result.subarray(0, ptr))
pool.free(result)
}
proto.update = function(params) {
params = params || {}
var gl = this.gl
this.dirty = true
if('contourEnable' in params) {
this.contourEnable = params.contourEnable
}
if('contourColor' in params) {
this.contourColor = params.contourColor
}
if('lineWidth' in params) {
this.lineWidth = params.lineWidth
}
if('lightPosition' in params) {
this.lightPosition = params.lightPosition
}
if('opacity' in params) {
this.opacity = params.opacity
}
if('ambient' in params) {
this.ambientLight = params.ambient
}
if('diffuse' in params) {
this.diffuseLight = params.diffuse
}
if('specular' in params) {
this.specularLight = params.specular
}
if('roughness' in params) {
this.roughness = params.roughness
}
if('fresnel' in params) {
this.fresnel = params.fresnel
}
if(params.texture) {
this.texture.dispose()
this.texture = createTexture(gl, params.texture)
} else if (params.colormap) {
this.texture.shape = [256,256]
this.texture.minFilter = gl.LINEAR_MIPMAP_LINEAR
this.texture.magFilter = gl.LINEAR
this.texture.setPixels(genColormap(params.colormap))
this.texture.generateMipmap()
}
var cells = params.cells
var positions = params.positions
if(!positions || !cells) {
return
}
var tPos = []
var tCol = []
var tNor = []
var tUVs = []
var tIds = []
var ePos = []
var eCol = []
var eUVs = []
var eIds = []
var pPos = []
var pCol = []
var pUVs = []
var pSiz = []
var pIds = []
//Save geometry data for picking calculations
this.cells = cells
this.positions = positions
//Compute normals
var vertexNormals = params.vertexNormals
var cellNormals = params.cellNormals
var vertexNormalsEpsilon = params.vertexNormalsEpsilon === void(0) ? DEFAULT_VERTEX_NORMALS_EPSILON : params.vertexNormalsEpsilon
var faceNormalsEpsilon = params.faceNormalsEpsilon === void(0) ? DEFAULT_FACE_NORMALS_EPSILON : params.faceNormalsEpsilon
if(params.useFacetNormals && !cellNormals) {
cellNormals = normals.faceNormals(cells, positions, faceNormalsEpsilon)
}
if(!cellNormals && !vertexNormals) {
vertexNormals = normals.vertexNormals(cells, positions, vertexNormalsEpsilon)
}
//Compute colors
var vertexColors = params.vertexColors
var cellColors = params.cellColors
var meshColor = params.meshColor || [1,1,1,1]
//UVs
var vertexUVs = params.vertexUVs
var vertexIntensity = params.vertexIntensity
var cellUVs = params.cellUVs
var cellIntensity = params.cellIntensity
var intensityLo = Infinity
var intensityHi = -Infinity
if(!vertexUVs && !cellUVs) {
if(vertexIntensity) {
if(params.vertexIntensityBounds) {
intensityLo = +params.vertexIntensityBounds[0]
intensityHi = +params.vertexIntensityBounds[1]
} else {
for(var i=0; i<vertexIntensity.length; ++i) {
var f = vertexIntensity[i]
intensityLo = Math.min(intensityLo, f)
intensityHi = Math.max(intensityHi, f)
}
}
} else if(cellIntensity) {
for(var i=0; i<cellIntensity.length; ++i) {
var f = cellIntensity[i]
intensityLo = Math.min(intensityLo, f)
intensityHi = Math.max(intensityHi, f)
}
} else {
for(var i=0; i<positions.length; ++i) {
var f = positions[i][2]
intensityLo = Math.min(intensityLo, f)
intensityHi = Math.max(intensityHi, f)
}
}
}
if(vertexIntensity) {
this.intensity = vertexIntensity
} else if(cellIntensity) {
this.intensity = unpackIntensity(cells, positions.length, cellIntensity)
} else {
this.intensity = takeZComponent(positions)
}
//Point size
var pointSizes = params.pointSizes
var meshPointSize = params.pointSize || 1.0
//Update bounds
this.bounds = [[Infinity,Infinity,Infinity], [-Infinity,-Infinity,-Infinity]]
for(var i=0; i<positions.length; ++i) {
var p = positions[i]
for(var j=0; j<3; ++j) {
if(isNaN(p[j]) || !isFinite(p[j])) {
continue
}
this.bounds[0][j] = Math.min(this.bounds[0][j], p[j])
this.bounds[1][j] = Math.max(this.bounds[1][j], p[j])
}
}
//Pack cells into buffers
var triangleCount = 0
var edgeCount = 0
var pointCount = 0
fill_loop:
for(var i=0; i<cells.length; ++i) {
var cell = cells[i]
switch(cell.length) {
case 1:
var v = cell[0]
var p = positions[v]
//Check NaNs
for(var j=0; j<3; ++j) {
if(isNaN(p[j]) || !isFinite(p[j])) {
continue fill_loop
}
}
pPos.push(p[0], p[1], p[2])
var c
if(vertexColors) {
c = vertexColors[v]
} else if(cellColors) {
c = cellColors[i]
} else {
c = meshColor
}
if(c.length === 3) {
pCol.push(c[0], c[1], c[2], 1)
} else {
pCol.push(c[0], c[1], c[2], c[3])
}
var uv
if(vertexUVs) {
uv = vertexUVs[v]
} else if(vertexIntensity) {
uv = [
(vertexIntensity[v] - intensityLo) /
(intensityHi - intensityLo), 0]
} else if(cellUVs) {
uv = cellUVs[i]
} else if(cellIntensity) {
uv = [
(cellIntensity[i] - intensityLo) /
(intensityHi - intensityLo), 0]
} else {
uv = [
(p[2] - intensityLo) /
(intensityHi - intensityLo), 0]
}
pUVs.push(uv[0], uv[1])
if(pointSizes) {
pSiz.push(pointSizes[v])
} else {
pSiz.push(meshPointSize)
}
pIds.push(i)
pointCount += 1
break
case 2:
//Check NaNs
for(var j=0; j<2; ++j) {
var v = cell[j]
var p = positions[v]
for(var k=0; k<3; ++k) {
if(isNaN(p[k]) || !isFinite(p[k])) {
continue fill_loop
}
}
}
for(var j=0; j<2; ++j) {
var v = cell[j]
var p = positions[v]
ePos.push(p[0], p[1], p[2])
var c
if(vertexColors) {
c = vertexColors[v]
} else if(cellColors) {
c = cellColors[i]
} else {
c = meshColor
}
if(c.length === 3) {
eCol.push(c[0], c[1], c[2], 1)
} else {
eCol.push(c[0], c[1], c[2], c[3])
}
var uv
if(vertexUVs) {
uv = vertexUVs[v]
} else if(vertexIntensity) {
uv = [
(vertexIntensity[v] - intensityLo) /
(intensityHi - intensityLo), 0]
} else if(cellUVs) {
uv = cellUVs[i]
} else if(cellIntensity) {
uv = [
(cellIntensity[i] - intensityLo) /
(intensityHi - intensityLo), 0]
} else {
uv = [
(p[2] - intensityLo) /
(intensityHi - intensityLo), 0]
}
eUVs.push(uv[0], uv[1])
eIds.push(i)
}
edgeCount += 1
break
case 3:
//Check NaNs
for(var j=0; j<3; ++j) {
var v = cell[j]
var p = positions[v]
for(var k=0; k<3; ++k) {
if(isNaN(p[k]) || !isFinite(p[k])) {
continue fill_loop
}
}
}
for(var j=0; j<3; ++j) {
var v = cell[j]
var p = positions[v]
tPos.push(p[0], p[1], p[2])
var c
if(vertexColors) {
c = vertexColors[v]
} else if(cellColors) {
c = cellColors[i]
} else {
c = meshColor
}
if(c.length === 3) {
tCol.push(c[0], c[1], c[2], 1)
} else {
tCol.push(c[0], c[1], c[2], c[3])
}
var uv
if(vertexUVs) {
uv = vertexUVs[v]
} else if(vertexIntensity) {
uv = [
(vertexIntensity[v] - intensityLo) /
(intensityHi - intensityLo), 0]
} else if(cellUVs) {
uv = cellUVs[i]
} else if(cellIntensity) {
uv = [
(cellIntensity[i] - intensityLo) /
(intensityHi - intensityLo), 0]
} else {
uv = [
(p[2] - intensityLo) /
(intensityHi - intensityLo), 0]
}
tUVs.push(uv[0], uv[1])
var q
if(vertexNormals) {
q = vertexNormals[v]
} else {
q = cellNormals[i]
}
tNor.push(q[0], q[1], q[2])
tIds.push(i)
}
triangleCount += 1
break
default:
break
}
}
this.pointCount = pointCount
this.edgeCount = edgeCount
this.triangleCount = triangleCount
this.pointPositions.update(pPos)
this.pointColors.update(pCol)
this.pointUVs.update(pUVs)
this.pointSizes.update(pSiz)
this.pointIds.update(new Uint32Array(pIds))
this.edgePositions.update(ePos)
this.edgeColors.update(eCol)
this.edgeUVs.update(eUVs)
this.edgeIds.update(new Uint32Array(eIds))
this.trianglePositions.update(tPos)
this.triangleColors.update(tCol)
this.triangleUVs.update(tUVs)
this.triangleNormals.update(tNor)
this.triangleIds.update(new Uint32Array(tIds))
}
proto.drawTransparent = proto.draw = function(params) {
params = params || {}
var gl = this.gl
var model = params.model || identityMatrix
var view = params.view || identityMatrix
var projection = params.projection || identityMatrix
var clipBounds = [[-1e6,-1e6,-1e6],[1e6,1e6,1e6]]
for(var i=0; i<3; ++i) {
clipBounds[0][i] = Math.max(clipBounds[0][i], this.clipBounds[0][i])
clipBounds[1][i] = Math.min(clipBounds[1][i], this.clipBounds[1][i])
}
var uniforms = {
model: model,
view: view,
projection: projection,
clipBounds: clipBounds,
kambient: this.ambientLight,
kdiffuse: this.diffuseLight,
kspecular: this.specularLight,
roughness: this.roughness,
fresnel: this.fresnel,
eyePosition: [0,0,0],
lightPosition: [0,0,0],
opacity: this.opacity,
contourColor: this.contourColor,
texture: 0
}
this.texture.bind(0)
var invCameraMatrix = new Array(16)
multiply(invCameraMatrix, uniforms.view, uniforms.model)
multiply(invCameraMatrix, uniforms.projection, invCameraMatrix)
invert(invCameraMatrix, invCameraMatrix)
for(var i=0; i<3; ++i) {
uniforms.eyePosition[i] = invCameraMatrix[12+i] / invCameraMatrix[15]
}
var w = invCameraMatrix[15]
for(var i=0; i<3; ++i) {
w += this.lightPosition[i] * invCameraMatrix[4*i+3]
}
for(var i=0; i<3; ++i) {
var s = invCameraMatrix[12+i]
for(var j=0; j<3; ++j) {
s += invCameraMatrix[4*j+i] * this.lightPosition[j]
}
uniforms.lightPosition[i] = s / w
}
if(this.triangleCount > 0) {
var shader = this.triShader
shader.bind()
shader.uniforms = uniforms
this.triangleVAO.bind()
gl.drawArrays(gl.TRIANGLES, 0, this.triangleCount*3)
this.triangleVAO.unbind()
}
if(this.edgeCount > 0 && this.lineWidth > 0) {
var shader = this.lineShader
shader.bind()
shader.uniforms = uniforms
this.edgeVAO.bind()
gl.lineWidth(this.lineWidth)
gl.drawArrays(gl.LINES, 0, this.edgeCount*2)
this.edgeVAO.unbind()
}
if(this.pointCount > 0) {
var shader = this.pointShader
shader.bind()
shader.uniforms = uniforms
this.pointVAO.bind()
gl.drawArrays(gl.POINTS, 0, this.pointCount)
this.pointVAO.unbind()
}
if(this.contourEnable && this.contourCount > 0 && this.contourLineWidth > 0) {
var shader = this.contourShader
shader.bind()
shader.uniforms = uniforms
this.contourVAO.bind()
gl.drawArrays(gl.LINES, 0, this.contourCount)
this.contourVAO.unbind()
}
}
proto.drawPick = function(params) {
params = params || {}
var gl = this.gl
var model = params.model || identityMatrix
var view = params.view || identityMatrix
var projection = params.projection || identityMatrix
var clipBounds = [[-1e6,-1e6,-1e6],[1e6,1e6,1e6]]
for(var i=0; i<3; ++i) {
clipBounds[0][i] = Math.max(clipBounds[0][i], this.clipBounds[0][i])
clipBounds[1][i] = Math.min(clipBounds[1][i], this.clipBounds[1][i])
}
//Save camera parameters
this._model = [].slice.call(model)
this._view = [].slice.call(view)
this._projection = [].slice.call(projection)
this._resolution = [gl.drawingBufferWidth, gl.drawingBufferHeight]
var uniforms = {
model: model,
view: view,
projection: projection,
clipBounds: clipBounds,
pickId: this.pickId / 255.0,
}
var shader = this.pickShader
shader.bind()
shader.uniforms = uniforms
if(this.triangleCount > 0) {
this.triangleVAO.bind()
gl.drawArrays(gl.TRIANGLES, 0, this.triangleCount*3)
this.triangleVAO.unbind()
}
if(this.edgeCount > 0) {
this.edgeVAO.bind()
gl.lineWidth(this.lineWidth)
gl.drawArrays(gl.LINES, 0, this.edgeCount*2)
this.edgeVAO.unbind()
}
if(this.pointCount > 0) {
var shader = this.pointPickShader
shader.bind()
shader.uniforms = uniforms
this.pointVAO.bind()
gl.drawArrays(gl.POINTS, 0, this.pointCount)
this.pointVAO.unbind()
}
}
proto.pick = function(pickData) {
if(!pickData) {
return null
}
if(pickData.id !== this.pickId) {
return null
}
var cellId = pickData.value[0] + 256*pickData.value[1] + 65536*pickData.value[2]
var cell = this.cells[cellId]
var positions = this.positions
var simplex = new Array(cell.length)
for(var i=0; i<cell.length; ++i) {
simplex[i] = positions[cell[i]]
}
var data = closestPoint(
simplex,
[pickData.coord[0], this._resolution[1]-pickData.coord[1]],
this._model,
this._view,
this._projection,
this._resolution)
if(!data) {
return null
}
var weights = data[2]
var interpIntensity = 0.0
for(var i=0; i<cell.length; ++i) {
interpIntensity += weights[i] * this.intensity[cell[i]]
}
return {
position: data[1],
index: cell[data[0]],
cell: cell,
cellId: cellId,
intensity: interpIntensity,
dataCoordinate: this.positions[cell[data[0]]]
}
}
proto.dispose = function() {
this.texture.dispose()
this.triShader.dispose()
this.lineShader.dispose()
this.pointShader.dispose()
this.pickShader.dispose()
this.pointPickShader.dispose()
this.triangleVAO.dispose()
this.trianglePositions.dispose()
this.triangleColors.dispose()
this.triangleUVs.dispose()
this.triangleNormals.dispose()
this.triangleIds.dispose()
this.edgeVAO.dispose()
this.edgePositions.dispose()
this.edgeColors.dispose()
this.edgeUVs.dispose()
this.edgeIds.dispose()
this.pointVAO.dispose()
this.pointPositions.dispose()
this.pointColors.dispose()
this.pointUVs.dispose()
this.pointSizes.dispose()
this.pointIds.dispose()
this.contourVAO.dispose()
this.contourPositions.dispose()
this.contourShader.dispose()
}
function createMeshShader(gl) {
var shader = createShader(gl, meshShader.vertex, meshShader.fragment)
shader.attributes.position.location = 0
shader.attributes.color.location = 2
shader.attributes.uv.location = 3
shader.attributes.normal.location = 4
return shader
}
function createWireShader(gl) {
var shader = createShader(gl, wireShader.vertex, wireShader.fragment)
shader.attributes.position.location = 0
shader.attributes.color.location = 2
shader.attributes.uv.location = 3
return shader
}
function createPointShader(gl) {
var shader = createShader(gl, pointShader.vertex, pointShader.fragment)
shader.attributes.position.location = 0
shader.attributes.color.location = 2
shader.attributes.uv.location = 3
shader.attributes.pointSize.location = 4
return shader
}
function createPickShader(gl) {
var shader = createShader(gl, pickShader.vertex, pickShader.fragment)
shader.attributes.position.location = 0
shader.attributes.id.location = 1
return shader
}
function createPointPickShader(gl) {
var shader = createShader(gl, pointPickShader.vertex, pointPickShader.fragment)
shader.attributes.position.location = 0
shader.attributes.id.location = 1
shader.attributes.pointSize.location = 4
return shader
}
function createContourShader(gl) {
var shader = createShader(gl, contourShader.vertex, contourShader.fragment)
shader.attributes.position.location = 0
return shader
}
function createSimplicialMesh(gl, params) {
if (arguments.length === 1) {
params = gl;
gl = params.gl;
}
//enable derivatives for face normals
var ext = gl.getExtension('OES_standard_derivatives') || gl.getExtension('MOZ_OES_standard_derivatives') || gl.getExtension('WEBKIT_OES_standard_derivatives')
if (!ext)
throw new Error('derivatives not supported')
var triShader = createMeshShader(gl)
var lineShader = createWireShader(gl)
var pointShader = createPointShader(gl)
var pickShader = createPickShader(gl)
var pointPickShader = createPointPickShader(gl)
var contourShader = createContourShader(gl)
var meshTexture = createTexture(gl,
ndarray(new Uint8Array([255,255,255,255]), [1,1,4]))
meshTexture.generateMipmap()
meshTexture.minFilter = gl.LINEAR_MIPMAP_LINEAR
meshTexture.magFilter = gl.LINEAR
var trianglePositions = createBuffer(gl)
var triangleColors = createBuffer(gl)
var triangleUVs = createBuffer(gl)
var triangleNormals = createBuffer(gl)
var triangleIds = createBuffer(gl)
var triangleVAO = createVAO(gl, [
{ buffer: trianglePositions,
type: gl.FLOAT,
size: 3
},
{ buffer: triangleIds,
type: gl.UNSIGNED_BYTE,
size: 4,
normalized: true
},
{ buffer: triangleColors,
type: gl.FLOAT,
size: 4
},
{ buffer: triangleUVs,
type: gl.FLOAT,
size: 2
},
{ buffer: triangleNormals,
type: gl.FLOAT,
size: 3
}
])
var edgePositions = createBuffer(gl)
var edgeColors = createBuffer(gl)
var edgeUVs = createBuffer(gl)
var edgeIds = createBuffer(gl)
var edgeVAO = createVAO(gl, [
{ buffer: edgePositions,
type: gl.FLOAT,
size: 3
},
{ buffer: edgeIds,
type: gl.UNSIGNED_BYTE,
size: 4,
normalized: true
},
{ buffer: edgeColors,
type: gl.FLOAT,
size: 4
},
{ buffer: edgeUVs,
type: gl.FLOAT,
size: 2
}
])
var pointPositions = createBuffer(gl)
var pointColors = createBuffer(gl)
var pointUVs = createBuffer(gl)
var pointSizes = createBuffer(gl)
var pointIds = createBuffer(gl)
var pointVAO = createVAO(gl, [
{ buffer: pointPositions,
type: gl.FLOAT,
size: 3
},
{ buffer: pointIds,
type: gl.UNSIGNED_BYTE,
size: 4,
normalized: true
},
{ buffer: pointColors,
type: gl.FLOAT,
size: 4
},
{ buffer: pointUVs,
type: gl.FLOAT,
size: 2
},
{ buffer: pointSizes,
type: gl.FLOAT,
size: 1
}
])
var contourPositions = createBuffer(gl)
var contourVAO = createVAO(gl, [
{ buffer: contourPositions,
type: gl.FLOAT,
size: 3
}])
var mesh = new SimplicialMesh(gl
, meshTexture
, triShader
, lineShader
, pointShader
, pickShader
, pointPickShader
, contourShader
, trianglePositions
, triangleIds
, triangleColors
, triangleUVs
, triangleNormals
, triangleVAO
, edgePositions
, edgeIds
, edgeColors
, edgeUVs
, edgeVAO
, pointPositions
, pointIds
, pointColors
, pointUVs
, pointSizes
, pointVAO
, contourPositions
, contourVAO)
mesh.update(params)
return mesh
}
module.exports = createSimplicialMesh
},{"./lib/closest-point":265,"./lib/shaders":266,"colormap":113,"gl-buffer":229,"gl-mat4/invert":253,"gl-mat4/multiply":255,"gl-shader":286,"gl-texture2d":303,"gl-vao":308,"ndarray":430,"normals":433,"simplicial-complex-contour":491,"typedarray-pool":519}],268:[function(_dereq_,module,exports){
'use strict'
module.exports = createBoxes
var createBuffer = _dereq_('gl-buffer')
var createShader = _dereq_('gl-shader')
var shaders = _dereq_('./shaders')
function Boxes(plot, vbo, shader) {
this.plot = plot
this.vbo = vbo
this.shader = shader
}
var proto = Boxes.prototype
proto.bind = function() {
var shader = this.shader
this.vbo.bind()
this.shader.bind()
shader.attributes.coord.pointer()
shader.uniforms.screenBox = this.plot.screenBox
}
proto.drawBox = (function() {
var lo = [0,0]
var hi = [0,0]
return function(loX, loY, hiX, hiY, color) {
var plot = this.plot
var shader = this.shader
var gl = plot.gl
lo[0] = loX
lo[1] = loY
hi[0] = hiX
hi[1] = hiY
shader.uniforms.lo = lo
shader.uniforms.hi = hi
shader.uniforms.color = color
gl.drawArrays(gl.TRIANGLE_STRIP, 0, 4)
}
}())
proto.dispose = function() {
this.vbo.dispose()
this.shader.dispose()
}
function createBoxes(plot) {
var gl = plot.gl
var vbo = createBuffer(gl, [
0,0,
0,1,
1,0,
1,1])
var shader = createShader(gl, shaders.boxVert, shaders.lineFrag)
return new Boxes(plot, vbo, shader)
}
},{"./shaders":271,"gl-buffer":229,"gl-shader":286}],269:[function(_dereq_,module,exports){
'use strict'
module.exports = createGrid
var createBuffer = _dereq_('gl-buffer')
var createShader = _dereq_('gl-shader')
var bsearch = _dereq_('binary-search-bounds')
var shaders = _dereq_('./shaders')
function Grid(plot, vbo, shader, tickShader) {
this.plot = plot
this.vbo = vbo
this.shader = shader
this.tickShader = tickShader
this.ticks = [[], []]
}
function compareTickNum(a, b) {
return a - b
}
var proto = Grid.prototype
proto.draw = (function() {
var DATA_SHIFT = [0,0]
var DATA_SCALE = [0,0]
var DATA_AXIS = [0,0]
return function() {
var plot = this.plot
var vbo = this.vbo
var shader = this.shader
var ticks = this.ticks
var gl = plot.gl
var bounds = plot._tickBounds
var dataBox = plot.dataBox
var viewPixels = plot.viewBox
var lineWidth = plot.gridLineWidth
var gridColor = plot.gridLineColor
var gridEnable = plot.gridLineEnable
var pixelRatio = plot.pixelRatio
for(var i=0; i<2; ++i) {
var lo = bounds[i]
var hi = bounds[i+2]
var boundScale = hi - lo
var dataCenter = 0.5 * (dataBox[i+2] + dataBox[i])
var dataWidth = dataBox[i+2] - dataBox[i]
DATA_SCALE[i] = 2.0 * boundScale / dataWidth
DATA_SHIFT[i] = 2.0 * (lo - dataCenter) / dataWidth
}
shader.bind()
vbo.bind()
shader.attributes.dataCoord.pointer()
shader.uniforms.dataShift = DATA_SHIFT
shader.uniforms.dataScale = DATA_SCALE
var offset = 0
for(var i=0; i<2; ++i) {
DATA_AXIS[0] = DATA_AXIS[1] = 0
DATA_AXIS[i] = 1
shader.uniforms.dataAxis = DATA_AXIS
shader.uniforms.lineWidth = lineWidth[i] / (viewPixels[i+2] - viewPixels[i]) * pixelRatio
shader.uniforms.color = gridColor[i]
var size = ticks[i].length * 6
if(gridEnable[i] && size) {
gl.drawArrays(gl.TRIANGLES, offset, size)
}
offset += size
}
}
})()
proto.drawTickMarks = (function() {
var DATA_SHIFT = [0,0]
var DATA_SCALE = [0,0]
var X_AXIS = [1,0]
var Y_AXIS = [0,1]
var SCR_OFFSET = [0,0]
var TICK_SCALE = [0,0]
return function() {
var plot = this.plot
var vbo = this.vbo
var shader = this.tickShader
var ticks = this.ticks
var gl = plot.gl
var bounds = plot._tickBounds
var dataBox = plot.dataBox
var viewBox = plot.viewBox
var pixelRatio = plot.pixelRatio
var screenBox = plot.screenBox
var screenWidth = screenBox[2] - screenBox[0]
var screenHeight = screenBox[3] - screenBox[1]
var viewWidth = viewBox[2] - viewBox[0]
var viewHeight = viewBox[3] - viewBox[1]
for(var i=0; i<2; ++i) {
var lo = bounds[i]
var hi = bounds[i+2]
var boundScale = hi - lo
var dataCenter = 0.5 * (dataBox[i+2] + dataBox[i])
var dataWidth = (dataBox[i+2] - dataBox[i])
DATA_SCALE[i] = 2.0 * boundScale / dataWidth
DATA_SHIFT[i] = 2.0 * (lo - dataCenter) / dataWidth
}
DATA_SCALE[0] *= viewWidth / screenWidth
DATA_SHIFT[0] *= viewWidth / screenWidth
DATA_SCALE[1] *= viewHeight / screenHeight
DATA_SHIFT[1] *= viewHeight / screenHeight
shader.bind()
vbo.bind()
shader.attributes.dataCoord.pointer()
var uniforms = shader.uniforms
uniforms.dataShift = DATA_SHIFT
uniforms.dataScale = DATA_SCALE
var tickMarkLength = plot.tickMarkLength
var tickMarkWidth = plot.tickMarkWidth
var tickMarkColor = plot.tickMarkColor
var xTicksOffset = 0
var yTicksOffset = ticks[0].length * 6
var xStart = Math.min(bsearch.ge(ticks[0], (dataBox[0] - bounds[0]) / (bounds[2] - bounds[0]), compareTickNum), ticks[0].length)
var xEnd = Math.min(bsearch.gt(ticks[0], (dataBox[2] - bounds[0]) / (bounds[2] - bounds[0]), compareTickNum), ticks[0].length)
var xOffset = xTicksOffset + 6 * xStart
var xCount = 6 * Math.max(0, xEnd - xStart)
var yStart = Math.min(bsearch.ge(ticks[1], (dataBox[1] - bounds[1]) / (bounds[3] - bounds[1]), compareTickNum), ticks[1].length)
var yEnd = Math.min(bsearch.gt(ticks[1], (dataBox[3] - bounds[1]) / (bounds[3] - bounds[1]), compareTickNum), ticks[1].length)
var yOffset = yTicksOffset + 6 * yStart
var yCount = 6 * Math.max(0, yEnd - yStart)
SCR_OFFSET[0] = 2.0 * (viewBox[0] - tickMarkLength[1]) / screenWidth - 1.0
SCR_OFFSET[1] = (viewBox[3] + viewBox[1]) / screenHeight - 1.0
TICK_SCALE[0] = tickMarkLength[1] * pixelRatio / screenWidth
TICK_SCALE[1] = tickMarkWidth[1] * pixelRatio / screenHeight
if(yCount) {
uniforms.color = tickMarkColor[1]
uniforms.tickScale = TICK_SCALE
uniforms.dataAxis = Y_AXIS
uniforms.screenOffset = SCR_OFFSET
gl.drawArrays(gl.TRIANGLES, yOffset, yCount)
}
SCR_OFFSET[0] = (viewBox[2] + viewBox[0]) / screenWidth - 1.0
SCR_OFFSET[1] = 2.0 * (viewBox[1] - tickMarkLength[0]) / screenHeight - 1.0
TICK_SCALE[0] = tickMarkWidth[0] * pixelRatio / screenWidth
TICK_SCALE[1] = tickMarkLength[0] * pixelRatio / screenHeight
if(xCount) {
uniforms.color = tickMarkColor[0]
uniforms.tickScale = TICK_SCALE
uniforms.dataAxis = X_AXIS
uniforms.screenOffset = SCR_OFFSET
gl.drawArrays(gl.TRIANGLES, xOffset, xCount)
}
SCR_OFFSET[0] = 2.0 * (viewBox[2] + tickMarkLength[3]) / screenWidth - 1.0
SCR_OFFSET[1] = (viewBox[3] + viewBox[1]) / screenHeight - 1.0
TICK_SCALE[0] = tickMarkLength[3] * pixelRatio / screenWidth
TICK_SCALE[1] = tickMarkWidth[3] * pixelRatio / screenHeight
if(yCount) {
uniforms.color = tickMarkColor[3]
uniforms.tickScale = TICK_SCALE
uniforms.dataAxis = Y_AXIS
uniforms.screenOffset = SCR_OFFSET
gl.drawArrays(gl.TRIANGLES, yOffset, yCount)
}
SCR_OFFSET[0] = (viewBox[2] + viewBox[0]) / screenWidth - 1.0
SCR_OFFSET[1] = 2.0 * (viewBox[3] + tickMarkLength[2]) / screenHeight - 1.0
TICK_SCALE[0] = tickMarkWidth[2] * pixelRatio / screenWidth
TICK_SCALE[1] = tickMarkLength[2] * pixelRatio / screenHeight
if(xCount) {
uniforms.color = tickMarkColor[2]
uniforms.tickScale = TICK_SCALE
uniforms.dataAxis = X_AXIS
uniforms.screenOffset = SCR_OFFSET
gl.drawArrays(gl.TRIANGLES, xOffset, xCount)
}
}
})()
proto.update = (function() {
var OFFSET_X = [1, 1, -1, -1, 1, -1]
var OFFSET_Y = [1, -1, 1, 1, -1, -1]
return function(options) {
var ticks = options.ticks
var bounds = options.bounds
var data = new Float32Array(6 * 3 * (ticks[0].length + ticks[1].length))
var zeroLineEnable = this.plot.zeroLineEnable
var ptr = 0
var gridTicks = [[], []]
for(var dim=0; dim<2; ++dim) {
var localTicks = gridTicks[dim]
var axisTicks = ticks[dim]
var lo = bounds[dim]
var hi = bounds[dim+2]
for(var i=0; i<axisTicks.length; ++i) {
var x = (axisTicks[i].x - lo) / (hi - lo)
localTicks.push(x)
for(var j=0; j<6; ++j) {
data[ptr++] = x
data[ptr++] = OFFSET_X[j]
data[ptr++] = OFFSET_Y[j]
}
}
}
this.ticks = gridTicks
this.vbo.update(data)
}
})()
proto.dispose = function() {
this.vbo.dispose()
this.shader.dispose()
this.tickShader.dispose()
}
function createGrid(plot) {
var gl = plot.gl
var vbo = createBuffer(gl)
var shader = createShader(gl, shaders.gridVert, shaders.gridFrag)
var tickShader = createShader(gl, shaders.tickVert, shaders.gridFrag)
var grid = new Grid(plot, vbo, shader, tickShader)
return grid
}
},{"./shaders":271,"binary-search-bounds":273,"gl-buffer":229,"gl-shader":286}],270:[function(_dereq_,module,exports){
'use strict'
module.exports = createLines
var createBuffer = _dereq_('gl-buffer')
var createShader = _dereq_('gl-shader')
var shaders = _dereq_('./shaders')
function Lines(plot, vbo, shader) {
this.plot = plot
this.vbo = vbo
this.shader = shader
}
var proto = Lines.prototype
proto.bind = function() {
var shader = this.shader
this.vbo.bind()
this.shader.bind()
shader.attributes.coord.pointer()
shader.uniforms.screenBox = this.plot.screenBox
}
proto.drawLine = (function() {
var start = [0,0]
var end = [0,0]
return function(startX, startY, endX, endY, width, color) {
var plot = this.plot
var shader = this.shader
var gl = plot.gl
start[0] = startX
start[1] = startY
end[0] = endX
end[1] = endY
shader.uniforms.start = start
shader.uniforms.end = end
shader.uniforms.width = width * plot.pixelRatio
shader.uniforms.color = color
gl.drawArrays(gl.TRIANGLE_STRIP, 0, 4)
}
}())
proto.dispose = function() {
this.vbo.dispose()
this.shader.dispose()
}
function createLines(plot) {
var gl = plot.gl
var vbo = createBuffer(gl, [
-1,-1,
-1,1,
1,-1,
1,1])
var shader = createShader(gl, shaders.lineVert, shaders.lineFrag)
var lines = new Lines(plot, vbo, shader)
return lines
}
},{"./shaders":271,"gl-buffer":229,"gl-shader":286}],271:[function(_dereq_,module,exports){
'use strict'
var glslify = _dereq_('glslify')
var FRAGMENT = glslify(["precision lowp float;\n#define GLSLIFY 1\nuniform vec4 color;\nvoid main() {\n gl_FragColor = vec4(color.xyz * color.w, color.w);\n}\n"])
module.exports = {
lineVert: glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute vec2 coord;\n\nuniform vec4 screenBox;\nuniform vec2 start, end;\nuniform float width;\n\nvec2 perp(vec2 v) {\n return vec2(v.y, -v.x);\n}\n\nvec2 screen(vec2 v) {\n return 2.0 * (v - screenBox.xy) / (screenBox.zw - screenBox.xy) - 1.0;\n}\n\nvoid main() {\n vec2 delta = normalize(perp(start - end));\n vec2 offset = mix(start, end, 0.5 * (coord.y+1.0));\n gl_Position = vec4(screen(offset + 0.5 * width * delta * coord.x), 0, 1);\n}\n"]),
lineFrag: FRAGMENT,
textVert: glslify(["#define GLSLIFY 1\nattribute vec3 textCoordinate;\n\nuniform vec2 dataScale, dataShift, dataAxis, screenOffset, textScale;\nuniform float angle;\n\nvoid main() {\n float dataOffset = textCoordinate.z;\n vec2 glyphOffset = textCoordinate.xy;\n mat2 glyphMatrix = mat2(cos(angle), sin(angle), -sin(angle), cos(angle));\n vec2 screenCoordinate = dataAxis * (dataScale * dataOffset + dataShift) +\n glyphMatrix * glyphOffset * textScale + screenOffset;\n gl_Position = vec4(screenCoordinate, 0, 1);\n}\n"]),
textFrag: FRAGMENT,
gridVert: glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3 dataCoord;\n\nuniform vec2 dataAxis, dataShift, dataScale;\nuniform float lineWidth;\n\nvoid main() {\n vec2 pos = dataAxis * (dataScale * dataCoord.x + dataShift);\n pos += 10.0 * dataCoord.y * vec2(dataAxis.y, -dataAxis.x) + dataCoord.z * lineWidth;\n gl_Position = vec4(pos, 0, 1);\n}\n"]),
gridFrag: FRAGMENT,
boxVert: glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute vec2 coord;\n\nuniform vec4 screenBox;\nuniform vec2 lo, hi;\n\nvec2 screen(vec2 v) {\n return 2.0 * (v - screenBox.xy) / (screenBox.zw - screenBox.xy) - 1.0;\n}\n\nvoid main() {\n gl_Position = vec4(screen(mix(lo, hi, coord)), 0, 1);\n}\n"]),
tickVert: glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3 dataCoord;\n\nuniform vec2 dataAxis, dataShift, dataScale, screenOffset, tickScale;\n\nvoid main() {\n vec2 pos = dataAxis * (dataScale * dataCoord.x + dataShift);\n gl_Position = vec4(pos + tickScale*dataCoord.yz + screenOffset, 0, 1);\n}\n"])
}
},{"glslify":390}],272:[function(_dereq_,module,exports){
'use strict'
module.exports = createTextElements
var createBuffer = _dereq_('gl-buffer')
var createShader = _dereq_('gl-shader')
var getText = _dereq_('text-cache')
var bsearch = _dereq_('binary-search-bounds')
var shaders = _dereq_('./shaders')
function TextElements(plot, vbo, shader) {
this.plot = plot
this.vbo = vbo
this.shader = shader
this.tickOffset = [[],[]]
this.tickX = [[],[]]
this.labelOffset = [0,0]
this.labelCount = [0,0]
}
var proto = TextElements.prototype
proto.drawTicks = (function() {
var DATA_AXIS = [0,0]
var SCREEN_OFFSET = [0,0]
var ZERO_2 = [0,0]
return function(axis) {
var plot = this.plot
var shader = this.shader
var tickX = this.tickX[axis]
var tickOffset = this.tickOffset[axis]
var gl = plot.gl
var viewBox = plot.viewBox
var dataBox = plot.dataBox
var screenBox = plot.screenBox
var pixelRatio = plot.pixelRatio
var tickEnable = plot.tickEnable
var tickPad = plot.tickPad
var textColor = plot.tickColor
var textAngle = plot.tickAngle
// todo check if this should be used (now unused)
// var tickLength = plot.tickMarkLength
var labelEnable = plot.labelEnable
var labelPad = plot.labelPad
var labelColor = plot.labelColor
var labelAngle = plot.labelAngle
var labelOffset = this.labelOffset[axis]
var labelCount = this.labelCount[axis]
var start = bsearch.lt(tickX, dataBox[axis])
var end = bsearch.le(tickX, dataBox[axis+2])
DATA_AXIS[0] = DATA_AXIS[1] = 0
DATA_AXIS[axis] = 1
SCREEN_OFFSET[axis] = (viewBox[2+axis] + viewBox[axis]) / (screenBox[2+axis] - screenBox[axis]) - 1.0
var screenScale = 2.0 / screenBox[2+(axis^1)] - screenBox[axis^1]
SCREEN_OFFSET[axis^1] = screenScale * viewBox[axis^1] - 1.0
if(tickEnable[axis]) {
SCREEN_OFFSET[axis^1] -= screenScale * pixelRatio * tickPad[axis]
if(start < end && tickOffset[end] > tickOffset[start]) {
shader.uniforms.dataAxis = DATA_AXIS
shader.uniforms.screenOffset = SCREEN_OFFSET
shader.uniforms.color = textColor[axis]
shader.uniforms.angle = textAngle[axis]
gl.drawArrays(
gl.TRIANGLES,
tickOffset[start],
tickOffset[end] - tickOffset[start])
}
}
if(labelEnable[axis] && labelCount) {
SCREEN_OFFSET[axis^1] -= screenScale * pixelRatio * labelPad[axis]
shader.uniforms.dataAxis = ZERO_2
shader.uniforms.screenOffset = SCREEN_OFFSET
shader.uniforms.color = labelColor[axis]
shader.uniforms.angle = labelAngle[axis]
gl.drawArrays(
gl.TRIANGLES,
labelOffset,
labelCount)
}
SCREEN_OFFSET[axis^1] = screenScale * viewBox[2+(axis^1)] - 1.0
if(tickEnable[axis+2]) {
SCREEN_OFFSET[axis^1] += screenScale * pixelRatio * tickPad[axis+2]
if(start < end && tickOffset[end] > tickOffset[start]) {
shader.uniforms.dataAxis = DATA_AXIS
shader.uniforms.screenOffset = SCREEN_OFFSET
shader.uniforms.color = textColor[axis+2]
shader.uniforms.angle = textAngle[axis+2]
gl.drawArrays(
gl.TRIANGLES,
tickOffset[start],
tickOffset[end] - tickOffset[start])
}
}
if(labelEnable[axis+2] && labelCount) {
SCREEN_OFFSET[axis^1] += screenScale * pixelRatio * labelPad[axis+2]
shader.uniforms.dataAxis = ZERO_2
shader.uniforms.screenOffset = SCREEN_OFFSET
shader.uniforms.color = labelColor[axis+2]
shader.uniforms.angle = labelAngle[axis+2]
gl.drawArrays(
gl.TRIANGLES,
labelOffset,
labelCount)
}
}
})()
proto.drawTitle = (function() {
var DATA_AXIS = [0,0]
var SCREEN_OFFSET = [0,0]
return function() {
var plot = this.plot
var shader = this.shader
var gl = plot.gl
var screenBox = plot.screenBox
var titleCenter = plot.titleCenter
var titleAngle = plot.titleAngle
var titleColor = plot.titleColor
var pixelRatio = plot.pixelRatio
if(!this.titleCount) {
return
}
for(var i=0; i<2; ++i) {
SCREEN_OFFSET[i] = 2.0 * (titleCenter[i]*pixelRatio - screenBox[i]) /
(screenBox[2+i] - screenBox[i]) - 1
}
shader.bind()
shader.uniforms.dataAxis = DATA_AXIS
shader.uniforms.screenOffset = SCREEN_OFFSET
shader.uniforms.angle = titleAngle
shader.uniforms.color = titleColor
gl.drawArrays(gl.TRIANGLES, this.titleOffset, this.titleCount)
}
})()
proto.bind = (function() {
var DATA_SHIFT = [0,0]
var DATA_SCALE = [0,0]
var TEXT_SCALE = [0,0]
return function() {
var plot = this.plot
var shader = this.shader
var bounds = plot._tickBounds
var dataBox = plot.dataBox
var screenBox = plot.screenBox
var viewBox = plot.viewBox
shader.bind()
//Set up coordinate scaling uniforms
for(var i=0; i<2; ++i) {
var lo = bounds[i]
var hi = bounds[i+2]
var boundScale = hi - lo
var dataCenter = 0.5 * (dataBox[i+2] + dataBox[i])
var dataWidth = (dataBox[i+2] - dataBox[i])
var viewLo = viewBox[i]
var viewHi = viewBox[i+2]
var viewScale = viewHi - viewLo
var screenLo = screenBox[i]
var screenHi = screenBox[i+2]
var screenScale = screenHi - screenLo
DATA_SCALE[i] = 2.0 * boundScale / dataWidth * viewScale / screenScale
DATA_SHIFT[i] = 2.0 * (lo - dataCenter) / dataWidth * viewScale / screenScale
}
TEXT_SCALE[1] = 2.0 * plot.pixelRatio / (screenBox[3] - screenBox[1])
TEXT_SCALE[0] = TEXT_SCALE[1] * (screenBox[3] - screenBox[1]) / (screenBox[2] - screenBox[0])
shader.uniforms.dataScale = DATA_SCALE
shader.uniforms.dataShift = DATA_SHIFT
shader.uniforms.textScale = TEXT_SCALE
//Set attributes
this.vbo.bind()
shader.attributes.textCoordinate.pointer()
}
})()
proto.update = function(options) {
var vertices = []
var axesTicks = options.ticks
var bounds = options.bounds
var i, j, k, data, scale, dimension
for(dimension=0; dimension<2; ++dimension) {
var offsets = [Math.floor(vertices.length/3)], tickX = [-Infinity]
//Copy vertices over to buffer
var ticks = axesTicks[dimension]
for(i=0; i<ticks.length; ++i) {
var tick = ticks[i]
var x = tick.x
var text = tick.text
var font = tick.font || 'sans-serif'
scale = (tick.fontSize || 12)
var coordScale = 1.0 / (bounds[dimension+2] - bounds[dimension])
var coordShift = bounds[dimension]
var rows = text.split('\n')
for(var r = 0; r < rows.length; r++) {
data = getText(font, rows[r]).data
for (j = 0; j < data.length; j += 2) {
vertices.push(
data[j] * scale,
-data[j + 1] * scale - r * scale * 1.2,
(x - coordShift) * coordScale)
}
}
offsets.push(Math.floor(vertices.length/3))
tickX.push(x)
}
this.tickOffset[dimension] = offsets
this.tickX[dimension] = tickX
}
//Add labels
for(dimension=0; dimension<2; ++dimension) {
this.labelOffset[dimension] = Math.floor(vertices.length/3)
data = getText(options.labelFont[dimension], options.labels[dimension], { textAlign: 'center' }).data
scale = options.labelSize[dimension]
for(i=0; i<data.length; i+=2) {
vertices.push(data[i]*scale, -data[i+1]*scale, 0)
}
this.labelCount[dimension] =
Math.floor(vertices.length/3) - this.labelOffset[dimension]
}
//Add title
this.titleOffset = Math.floor(vertices.length/3)
data = getText(options.titleFont, options.title).data
scale = options.titleSize
for(i=0; i<data.length; i+=2) {
vertices.push(data[i]*scale, -data[i+1]*scale, 0)
}
this.titleCount = Math.floor(vertices.length/3) - this.titleOffset
//Upload new vertices
this.vbo.update(vertices)
}
proto.dispose = function() {
this.vbo.dispose()
this.shader.dispose()
}
function createTextElements(plot) {
var gl = plot.gl
var vbo = createBuffer(gl)
var shader = createShader(gl, shaders.textVert, shaders.textFrag)
var text = new TextElements(plot, vbo, shader)
return text
}
},{"./shaders":271,"binary-search-bounds":273,"gl-buffer":229,"gl-shader":286,"text-cache":510}],273:[function(_dereq_,module,exports){
arguments[4][98][0].apply(exports,arguments)
},{"dup":98}],274:[function(_dereq_,module,exports){
'use strict'
module.exports = createGLPlot2D
var createPick = _dereq_('gl-select-static')
var createGrid = _dereq_('./lib/grid')
var createText = _dereq_('./lib/text')
var createLine = _dereq_('./lib/line')
var createBox = _dereq_('./lib/box')
function GLPlot2D(gl, pickBuffer) {
this.gl = gl
this.pickBuffer = pickBuffer
this.screenBox = [0, 0, gl.drawingBufferWidth, gl.drawingBufferHeight]
this.viewBox = [0, 0, 0, 0]
this.dataBox = [-10, -10, 10, 10]
this.gridLineEnable = [true,true]
this.gridLineWidth = [1,1]
this.gridLineColor = [[0,0,0,1],
[0,0,0,1]]
this.pixelRatio = 1
this.tickMarkLength = [0,0,0,0]
this.tickMarkWidth = [0,0,0,0]
this.tickMarkColor = [[0,0,0,1],
[0,0,0,1],
[0,0,0,1],
[0,0,0,1]]
this.tickPad = [15,15,15,15]
this.tickAngle = [0,0,0,0]
this.tickEnable = [true,true,true,true]
this.tickColor = [[0,0,0,1],
[0,0,0,1],
[0,0,0,1],
[0,0,0,1]]
this.labelPad = [15,15,15,15]
this.labelAngle = [0,Math.PI/2,0,3.0*Math.PI/2]
this.labelEnable = [true,true,true,true]
this.labelColor = [[0,0,0,1],
[0,0,0,1],
[0,0,0,1],
[0,0,0,1]]
this.titleCenter = [0,0]
this.titleEnable = true
this.titleAngle = 0
this.titleColor = [0,0,0,1]
this.borderColor = [0,0,0,0]
this.backgroundColor = [0,0,0,0]
this.zeroLineEnable = [true, true]
this.zeroLineWidth = [4, 4]
this.zeroLineColor = [[0, 0, 0, 1],[0, 0, 0, 1]]
this.borderLineEnable = [true,true,true,true]
this.borderLineWidth = [2,2,2,2]
this.borderLineColor = [[0,0,0,1],
[0,0,0,1],
[0,0,0,1],
[0,0,0,1]]
//Drawing parameters
this.grid = null
this.text = null
this.line = null
this.box = null
this.objects = []
this.overlays = []
this._tickBounds = [Infinity, Infinity, -Infinity, -Infinity]
this.static = false
this.dirty = false
this.pickDirty = false
this.pickDelay = 120
this.pickRadius = 10
this._pickTimeout = null
this._drawPick = this.drawPick.bind(this)
this._depthCounter = 0
}
var proto = GLPlot2D.prototype
proto.setDirty = function() {
this.dirty = this.pickDirty = true
}
proto.setOverlayDirty = function() {
this.dirty = true
}
proto.nextDepthValue = function() {
return (this._depthCounter++) / 65536.0
}
function lerp(a, b, t) {
var s = 0.5 * (t + 1.0)
return Math.floor((1.0-s)*a + s*b)|0
}
proto.draw = (function() {
var TICK_MARK_BOX = [0,0,0,0]
return function() {
var gl = this.gl
var screenBox = this.screenBox
var viewPixels = this.viewBox
var dataBox = this.dataBox
var pixelRatio = this.pixelRatio
var grid = this.grid
var line = this.line
var text = this.text
var objects = this.objects
this._depthCounter = 0
if(this.pickDirty) {
if(this._pickTimeout) {
clearTimeout(this._pickTimeout)
}
this.pickDirty = false
this._pickTimeout = setTimeout(this._drawPick, this.pickDelay)
}
if(!this.dirty) {
return
}
this.dirty = false
gl.bindFramebuffer(gl.FRAMEBUFFER, null)
//Turn on scissor
gl.enable(gl.SCISSOR_TEST)
//Turn off depth buffer
gl.disable(gl.DEPTH_TEST)
gl.depthFunc(gl.LESS)
gl.depthMask(false)
//Configure premultiplied alpha blending
gl.enable(gl.BLEND)
gl.blendEquation(gl.FUNC_ADD, gl.FUNC_ADD);
gl.blendFunc(gl.ONE, gl.ONE_MINUS_SRC_ALPHA);
//Draw border
if (this.borderColor) {
gl.scissor(
screenBox[0],
screenBox[1],
screenBox[2]-screenBox[0],
screenBox[3]-screenBox[1])
var borderColor = this.borderColor
gl.clearColor(
borderColor[0]*borderColor[3],
borderColor[1]*borderColor[3],
borderColor[2]*borderColor[3],
borderColor[3])
gl.clear(gl.COLOR_BUFFER_BIT | gl.DEPTH_BUFFER_BIT)
}
//Draw center pane
gl.scissor(
viewPixels[0],
viewPixels[1],
viewPixels[2]-viewPixels[0],
viewPixels[3]-viewPixels[1])
gl.viewport(
viewPixels[0],
viewPixels[1],
viewPixels[2]-viewPixels[0],
viewPixels[3]-viewPixels[1])
var backgroundColor = this.backgroundColor
gl.clearColor(
backgroundColor[0]*backgroundColor[3],
backgroundColor[1]*backgroundColor[3],
backgroundColor[2]*backgroundColor[3],
backgroundColor[3])
gl.clear(gl.COLOR_BUFFER_BIT)
//Draw grid
grid.draw()
//Draw zero lines separately
var zeroLineEnable = this.zeroLineEnable
var zeroLineColor = this.zeroLineColor
var zeroLineWidth = this.zeroLineWidth
if(zeroLineEnable[0] || zeroLineEnable[1]) {
line.bind()
for(var i=0; i<2; ++i) {
if(!zeroLineEnable[i] ||
!(dataBox[i] <= 0 && dataBox[i+2] >= 0)) {
continue
}
var zeroIntercept = screenBox[i] -
dataBox[i] * (screenBox[i+2] - screenBox[i]) / (dataBox[i+2] - dataBox[i])
if(i === 0) {
line.drawLine(
zeroIntercept, screenBox[1], zeroIntercept, screenBox[3],
zeroLineWidth[i],
zeroLineColor[i])
} else {
line.drawLine(
screenBox[0], zeroIntercept, screenBox[2], zeroIntercept,
zeroLineWidth[i],
zeroLineColor[i])
}
}
}
//Draw traces
for(var i=0; i<objects.length; ++i) {
objects[i].draw()
}
//Return viewport to default
gl.viewport(
screenBox[0],
screenBox[1],
screenBox[2]-screenBox[0],
screenBox[3]-screenBox[1])
gl.scissor(
screenBox[0],
screenBox[1],
screenBox[2]-screenBox[0],
screenBox[3]-screenBox[1])
//Draw tick marks
this.grid.drawTickMarks()
//Draw line elements
line.bind()
//Draw border lines
var borderLineEnable = this.borderLineEnable
var borderLineWidth = this.borderLineWidth
var borderLineColor = this.borderLineColor
if(borderLineEnable[1]) {
line.drawLine(
viewPixels[0], viewPixels[1] - 0.5*borderLineWidth[1]*pixelRatio,
viewPixels[0], viewPixels[3] + 0.5*borderLineWidth[3]*pixelRatio,
borderLineWidth[1], borderLineColor[1])
}
if(borderLineEnable[0]) {
line.drawLine(
viewPixels[0] - 0.5*borderLineWidth[0]*pixelRatio, viewPixels[1],
viewPixels[2] + 0.5*borderLineWidth[2]*pixelRatio, viewPixels[1],
borderLineWidth[0], borderLineColor[0])
}
if(borderLineEnable[3]) {
line.drawLine(
viewPixels[2], viewPixels[1] - 0.5*borderLineWidth[1]*pixelRatio,
viewPixels[2], viewPixels[3] + 0.5*borderLineWidth[3]*pixelRatio,
borderLineWidth[3], borderLineColor[3])
}
if(borderLineEnable[2]) {
line.drawLine(
viewPixels[0] - 0.5*borderLineWidth[0]*pixelRatio, viewPixels[3],
viewPixels[2] + 0.5*borderLineWidth[2]*pixelRatio, viewPixels[3],
borderLineWidth[2], borderLineColor[2])
}
//Draw text elements
text.bind()
for(var i=0; i<2; ++i) {
text.drawTicks(i)
}
if(this.titleEnable) {
text.drawTitle()
}
//Draw other overlay elements (select boxes, etc.)
var overlays = this.overlays
for(var i=0; i<overlays.length; ++i) {
overlays[i].draw()
}
//Turn off scissor test
gl.disable(gl.SCISSOR_TEST)
gl.disable(gl.BLEND)
gl.depthMask(true)
}
})()
proto.drawPick = (function() {
return function() {
if (this.static) return;
var pickBuffer = this.pickBuffer
var gl = this.gl
this._pickTimeout = null
pickBuffer.begin()
var pickOffset = 1
var objects = this.objects
for(var i=0; i<objects.length; ++i) {
pickOffset = objects[i].drawPick(pickOffset)
}
pickBuffer.end()
}
})()
proto.pick = (function() {
return function(x, y) {
if (this.static) return;
var pixelRatio = this.pixelRatio
var pickPixelRatio = this.pickPixelRatio
var viewBox = this.viewBox
var scrX = Math.round((x - viewBox[0] / pixelRatio) * pickPixelRatio)|0
var scrY = Math.round((y - viewBox[1] / pixelRatio) * pickPixelRatio)|0
var pickResult = this.pickBuffer.query(scrX, scrY, this.pickRadius)
if(!pickResult) {
return null
}
var pickValue = pickResult.id +
(pickResult.value[0]<<8) +
(pickResult.value[1]<<16) +
(pickResult.value[2]<<24)
var objects = this.objects
for(var i=0; i<objects.length; ++i) {
var result = objects[i].pick(scrX, scrY, pickValue)
if(result) {
return result
}
}
return null
}
})()
function deepClone(array) {
var result = array.slice()
for(var i=0; i<result.length; ++i) {
result[i] = result[i].slice()
}
return result
}
function compareTicks(a, b) {
return a.x - b.x
}
proto.setScreenBox = function(nbox) {
var screenBox = this.screenBox
var pixelRatio = this.pixelRatio
screenBox[0] = Math.round(nbox[0] * pixelRatio) | 0
screenBox[1] = Math.round(nbox[1] * pixelRatio) | 0
screenBox[2] = Math.round(nbox[2] * pixelRatio) | 0
screenBox[3] = Math.round(nbox[3] * pixelRatio) | 0
this.setDirty()
}
proto.setDataBox = function(nbox) {
var dataBox = this.dataBox
var different =
dataBox[0] !== nbox[0] ||
dataBox[1] !== nbox[1] ||
dataBox[2] !== nbox[2] ||
dataBox[3] !== nbox[3]
if(different) {
dataBox[0] = nbox[0]
dataBox[1] = nbox[1]
dataBox[2] = nbox[2]
dataBox[3] = nbox[3]
this.setDirty()
}
}
proto.setViewBox = function(nbox) {
var pixelRatio = this.pixelRatio
var viewBox = this.viewBox
viewBox[0] = Math.round(nbox[0] * pixelRatio)|0
viewBox[1] = Math.round(nbox[1] * pixelRatio)|0
viewBox[2] = Math.round(nbox[2] * pixelRatio)|0
viewBox[3] = Math.round(nbox[3] * pixelRatio)|0
var pickPixelRatio = this.pickPixelRatio
this.pickBuffer.shape = [
Math.round((nbox[2] - nbox[0]) * pickPixelRatio)|0,
Math.round((nbox[3] - nbox[1]) * pickPixelRatio)|0 ]
this.setDirty()
}
proto.update = function(options) {
options = options || {}
var gl = this.gl
this.pixelRatio = options.pixelRatio || 1
var pixelRatio = this.pixelRatio
this.pickPixelRatio = Math.max(pixelRatio, 1)
this.setScreenBox(options.screenBox ||
[0, 0, gl.drawingBufferWidth/pixelRatio, gl.drawingBufferHeight/pixelRatio])
var screenBox = this.screenBox
this.setViewBox(options.viewBox ||
[0.125*(this.screenBox[2]-this.screenBox[0])/pixelRatio,
0.125*(this.screenBox[3]-this.screenBox[1])/pixelRatio,
0.875*(this.screenBox[2]-this.screenBox[0])/pixelRatio,
0.875*(this.screenBox[3]-this.screenBox[1])/pixelRatio])
var viewBox = this.viewBox
var aspectRatio = (viewBox[2] - viewBox[0]) / (viewBox[3] - viewBox[1])
this.setDataBox(options.dataBox || [-10, -10/aspectRatio, 10, 10/aspectRatio])
this.borderColor = options.borderColor !== false ? (options.borderColor || [0,0,0,0]).slice() : false
this.backgroundColor = (options.backgroundColor || [0,0,0,0]).slice()
this.gridLineEnable = (options.gridLineEnable || [true,true]).slice()
this.gridLineWidth = (options.gridLineWidth || [1,1]).slice()
this.gridLineColor = deepClone(options.gridLineColor ||
[[0.5,0.5,0.5,1],[0.5,0.5,0.5,1]])
this.zeroLineEnable = (options.zeroLineEnable || [true, true]).slice()
this.zeroLineWidth = (options.zeroLineWidth || [4, 4]).slice()
this.zeroLineColor = deepClone(options.zeroLineColor ||
[[0, 0, 0, 1],[0, 0, 0, 1]])
this.tickMarkLength = (options.tickMarkLength || [0,0,0,0]).slice()
this.tickMarkWidth = (options.tickMarkWidth || [0,0,0,0]).slice()
this.tickMarkColor = deepClone(options.tickMarkColor ||
[[0,0,0,1],[0,0,0,1],[0,0,0,1],[0,0,0,1]])
this.titleCenter = (options.titleCenter || [
0.5*(viewBox[0]+viewBox[2])/pixelRatio,(viewBox[3]+120)/pixelRatio]).slice()
this.titleEnable = !('titleEnable' in options) || !!options.titleEnable
this.titleAngle = options.titleAngle || 0
this.titleColor = (options.titleColor || [0,0,0,1]).slice()
this.labelPad = (options.labelPad || [15,15,15,15]).slice()
this.labelAngle = (options.labelAngle ||
[0,Math.PI/2,0,3.0*Math.PI/2]).slice()
this.labelEnable = (options.labelEnable || [true,true,true,true]).slice()
this.labelColor = deepClone(options.labelColor ||
[[0,0,0,1],[0,0,0,1],[0,0,0,1],[0,0,0,1]])
this.tickPad = (options.tickPad || [15,15,15,15]).slice()
this.tickAngle = (options.tickAngle || [0,0,0,0]).slice()
this.tickEnable = (options.tickEnable || [true,true,true,true]).slice()
this.tickColor = deepClone(options.tickColor ||
[[0,0,0,1],[0,0,0,1],[0,0,0,1],[0,0,0,1]])
this.borderLineEnable = (options.borderLineEnable ||
[true,true,true,true]).slice()
this.borderLineWidth = (options.borderLineWidth || [2,2,2,2]).slice()
this.borderLineColor = deepClone(options.borderLineColor ||
[[0,0,0,1],
[0,0,0,1],
[0,0,0,1],
[0,0,0,1]])
var ticks = options.ticks || [ [], [] ]
//Compute bounds on ticks
var bounds = this._tickBounds
bounds[0] = bounds[1] = Infinity
bounds[2] = bounds[3] = -Infinity
for(var i=0; i<2; ++i) {
var axisTicks = ticks[i].slice(0)
if(axisTicks.length === 0) {
continue
}
axisTicks.sort(compareTicks)
bounds[i] = Math.min(bounds[i], axisTicks[0].x)
bounds[i+2] = Math.max(bounds[i+2], axisTicks[axisTicks.length-1].x)
}
//Update grid
this.grid.update({
bounds: bounds,
ticks: ticks
})
//Update text
this.text.update({
bounds: bounds,
ticks: ticks,
labels: options.labels || ['x', 'y'],
labelSize: options.labelSize || [12,12],
labelFont: options.labelFont || ['sans-serif', 'sans-serif'],
title: options.title || '',
titleSize: options.titleSize || 18,
titleFont: options.titleFont || 'sans-serif'
})
this.static = !!options.static;
this.setDirty()
}
proto.dispose = function() {
this.box.dispose()
this.grid.dispose()
this.text.dispose()
this.line.dispose()
for(var i=this.objects.length-1; i>=0; --i) {
this.objects[i].dispose()
}
this.objects.length = 0
for(var i=this.overlays.length-1; i>=0; --i) {
this.overlays[i].dispose()
}
this.overlays.length = 0
this.gl = null
}
proto.addObject = function(object) {
if(this.objects.indexOf(object) < 0) {
this.objects.push(object)
this.setDirty()
}
}
proto.removeObject = function(object) {
var objects = this.objects
for(var i=0; i<objects.length; ++i) {
if(objects[i] === object) {
objects.splice(i,1)
this.setDirty()
break
}
}
}
proto.addOverlay = function(object) {
if(this.overlays.indexOf(object) < 0) {
this.overlays.push(object)
this.setOverlayDirty()
}
}
proto.removeOverlay = function(object) {
var objects = this.overlays
for(var i=0; i<objects.length; ++i) {
if(objects[i] === object) {
objects.splice(i,1)
this.setOverlayDirty()
break
}
}
}
function createGLPlot2D(options) {
var gl = options.gl
var pickBuffer = createPick(gl, [
gl.drawingBufferWidth, gl.drawingBufferHeight])
var plot = new GLPlot2D(gl, pickBuffer)
plot.grid = createGrid(plot)
plot.text = createText(plot)
plot.line = createLine(plot)
plot.box = createBox(plot)
plot.update(options)
return plot
}
},{"./lib/box":268,"./lib/grid":269,"./lib/line":270,"./lib/text":272,"gl-select-static":285}],275:[function(_dereq_,module,exports){
var glslify = _dereq_('glslify')
var createShader = _dereq_('gl-shader')
var vertSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\nattribute vec2 position;\nvarying vec2 uv;\nvoid main() {\n uv = position;\n gl_Position = vec4(position, 0, 1);\n}"])
var fragSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nuniform sampler2D accumBuffer;\nvarying vec2 uv;\n\nvoid main() {\n vec4 accum = texture2D(accumBuffer, 0.5 * (uv + 1.0));\n gl_FragColor = min(vec4(1,1,1,1), accum);\n}"])
module.exports = function(gl) {
return createShader(gl, vertSrc, fragSrc, null, [ { name: 'position', type: 'vec2'}])
}
},{"gl-shader":286,"glslify":390}],276:[function(_dereq_,module,exports){
'use strict'
module.exports = createScene
var createCamera = _dereq_('3d-view-controls')
var createAxes = _dereq_('gl-axes3d')
var axesRanges = _dereq_('gl-axes3d/properties')
var createSpikes = _dereq_('gl-spikes3d')
var createSelect = _dereq_('gl-select-static')
var createFBO = _dereq_('gl-fbo')
var drawTriangle = _dereq_('a-big-triangle')
var mouseChange = _dereq_('mouse-change')
var perspective = _dereq_('gl-mat4/perspective')
var createShader = _dereq_('./lib/shader')
var isMobile = _dereq_('is-mobile')()
function MouseSelect() {
this.mouse = [-1,-1]
this.screen = null
this.distance = Infinity
this.index = null
this.dataCoordinate = null
this.dataPosition = null
this.object = null
this.data = null
}
function getContext(canvas, options) {
var gl = null
try {
gl = canvas.getContext('webgl', options)
if(!gl) {
gl = canvas.getContext('experimental-webgl', options)
}
} catch(e) {
return null
}
return gl
}
function roundUpPow10(x) {
var y = Math.round(Math.log(Math.abs(x)) / Math.log(10))
if(y < 0) {
var base = Math.round(Math.pow(10, -y))
return Math.ceil(x*base) / base
} else if(y > 0) {
var base = Math.round(Math.pow(10, y))
return Math.ceil(x/base) * base
}
return Math.ceil(x)
}
function defaultBool(x) {
if(typeof x === 'boolean') {
return x
}
return true
}
function createScene(options) {
options = options || {}
var stopped = false
var pixelRatio = options.pixelRatio || parseFloat(window.devicePixelRatio)
var canvas = options.canvas
if(!canvas) {
canvas = document.createElement('canvas')
if(options.container) {
var container = options.container
container.appendChild(canvas)
} else {
document.body.appendChild(canvas)
}
}
var gl = options.gl
if(!gl) {
gl = getContext(canvas,
options.glOptions || {
premultipliedAlpha: true,
antialias: true
})
}
if(!gl) {
throw new Error('webgl not supported')
}
//Initial bounds
var bounds = options.bounds || [[-10,-10,-10], [10,10,10]]
//Create selection
var selection = new MouseSelect()
//Accumulation buffer
var accumBuffer = createFBO(gl,
[gl.drawingBufferWidth, gl.drawingBufferHeight], {
preferFloat: !isMobile
})
var accumShader = createShader(gl)
//Create a camera
var cameraOptions = options.camera || {
eye: [2,0,0],
center: [0,0,0],
up: [0,1,0],
zoomMin: 0.1,
zoomMax: 100,
mode: 'turntable'
}
//Create axes
var axesOptions = options.axes || {}
var axes = createAxes(gl, axesOptions)
axes.enable = !axesOptions.disable
//Create spikes
var spikeOptions = options.spikes || {}
var spikes = createSpikes(gl, spikeOptions)
//Object list is empty initially
var objects = []
var pickBufferIds = []
var pickBufferCount = []
var pickBuffers = []
//Dirty flag, skip redraw if scene static
var dirty = true
var pickDirty = true
var projection = new Array(16)
var model = new Array(16)
var cameraParams = {
view: null,
projection: projection,
model: model
}
var pickDirty = true
var viewShape = [ gl.drawingBufferWidth, gl.drawingBufferHeight ]
//Create scene object
var scene = {
gl: gl,
contextLost: false,
pixelRatio: options.pixelRatio || parseFloat(window.devicePixelRatio),
canvas: canvas,
selection: selection,
camera: createCamera(canvas, cameraOptions),
axes: axes,
axesPixels: null,
spikes: spikes,
bounds: bounds,
objects: objects,
shape: viewShape,
aspect: options.aspectRatio || [1,1,1],
pickRadius: options.pickRadius || 10,
zNear: options.zNear || 0.01,
zFar: options.zFar || 1000,
fovy: options.fovy || Math.PI/4,
clearColor: options.clearColor || [0,0,0,0],
autoResize: defaultBool(options.autoResize),
autoBounds: defaultBool(options.autoBounds),
autoScale: !!options.autoScale,
autoCenter: defaultBool(options.autoCenter),
clipToBounds: defaultBool(options.clipToBounds),
snapToData: !!options.snapToData,
onselect: options.onselect || null,
onrender: options.onrender || null,
onclick: options.onclick || null,
cameraParams: cameraParams,
oncontextloss: null,
mouseListener: null
}
var pickShape = [ (gl.drawingBufferWidth/scene.pixelRatio)|0, (gl.drawingBufferHeight/scene.pixelRatio)|0 ]
function resizeListener() {
if(stopped) {
return
}
if(!scene.autoResize) {
return
}
var parent = canvas.parentNode
var width = 1
var height = 1
if(parent && parent !== document.body) {
width = parent.clientWidth
height = parent.clientHeight
} else {
width = window.innerWidth
height = window.innerHeight
}
var nextWidth = Math.ceil(width * scene.pixelRatio)|0
var nextHeight = Math.ceil(height * scene.pixelRatio)|0
if(nextWidth !== canvas.width || nextHeight !== canvas.height) {
canvas.width = nextWidth
canvas.height = nextHeight
var style = canvas.style
style.position = style.position || 'absolute'
style.left = '0px'
style.top = '0px'
style.width = width + 'px'
style.height = height + 'px'
dirty = true
}
}
if(scene.autoResize) {
resizeListener()
}
window.addEventListener('resize', resizeListener)
function reallocPickIds() {
var numObjs = objects.length
var numPick = pickBuffers.length
for(var i=0; i<numPick; ++i) {
pickBufferCount[i] = 0
}
obj_loop:
for(var i=0; i<numObjs; ++i) {
var obj = objects[i]
var pickCount = obj.pickSlots
if(!pickCount) {
pickBufferIds[i] = -1
continue
}
for(var j=0; j<numPick; ++j) {
if(pickBufferCount[j] + pickCount < 255) {
pickBufferIds[i] = j
obj.setPickBase(pickBufferCount[j]+1)
pickBufferCount[j] += pickCount
continue obj_loop
}
}
//Create new pick buffer
var nbuffer = createSelect(gl, viewShape)
pickBufferIds[i] = numPick
pickBuffers.push(nbuffer)
pickBufferCount.push(pickCount)
obj.setPickBase(1)
numPick += 1
}
while(numPick > 0 && pickBufferCount[numPick-1] === 0) {
pickBufferCount.pop()
pickBuffers.pop().dispose()
}
}
scene.update = function(options) {
if(stopped) {
return
}
options = options || {}
dirty = true
pickDirty = true
}
scene.add = function(obj) {
if(stopped) {
return
}
obj.axes = axes
objects.push(obj)
pickBufferIds.push(-1)
dirty = true
pickDirty = true
reallocPickIds()
}
scene.remove = function(obj) {
if(stopped) {
return
}
var idx = objects.indexOf(obj)
if(idx < 0) {
return
}
objects.splice(idx, 1)
pickBufferIds.pop()
dirty = true
pickDirty = true
reallocPickIds()
}
scene.dispose = function() {
if(stopped) {
return
}
stopped = true
window.removeEventListener('resize', resizeListener)
canvas.removeEventListener('webglcontextlost', checkContextLoss)
scene.mouseListener.enabled = false
if(scene.contextLost) {
return
}
//Destroy objects
axes.dispose()
spikes.dispose()
for(var i=0; i<objects.length; ++i) {
objects[i].dispose()
}
//Clean up buffers
accumBuffer.dispose()
for(var i=0; i<pickBuffers.length; ++i) {
pickBuffers[i].dispose()
}
//Clean up shaders
accumShader.dispose()
//Release all references
gl = null
axes = null
spikes = null
objects = []
}
//Update mouse position
var mouseRotating = false
var prevButtons = 0
scene.mouseListener = mouseChange(canvas, function(buttons, x, y) {
if(stopped) {
return
}
var numPick = pickBuffers.length
var numObjs = objects.length
var prevObj = selection.object
selection.distance = Infinity
selection.mouse[0] = x
selection.mouse[1] = y
selection.object = null
selection.screen = null
selection.dataCoordinate = selection.dataPosition = null
var change = false
if(buttons && prevButtons) {
mouseRotating = true
} else {
if(mouseRotating) {
pickDirty = true
}
mouseRotating = false
for(var i=0; i<numPick; ++i) {
var result = pickBuffers[i].query(x, pickShape[1] - y - 1, scene.pickRadius)
if(result) {
if(result.distance > selection.distance) {
continue
}
for(var j=0; j<numObjs; ++j) {
var obj = objects[j]
if(pickBufferIds[j] !== i) {
continue
}
var objPick = obj.pick(result)
if(objPick) {
selection.buttons = buttons
selection.screen = result.coord
selection.distance = result.distance
selection.object = obj
selection.index = objPick.distance
selection.dataPosition = objPick.position
selection.dataCoordinate = objPick.dataCoordinate
selection.data = objPick
change = true
}
}
}
}
}
if(prevObj && prevObj !== selection.object) {
if(prevObj.highlight) {
prevObj.highlight(null)
}
dirty = true
}
if(selection.object) {
if(selection.object.highlight) {
selection.object.highlight(selection.data)
}
dirty = true
}
change = change || (selection.object !== prevObj)
if(change && scene.onselect) {
scene.onselect(selection)
}
if((buttons & 1) && !(prevButtons & 1) && scene.onclick) {
scene.onclick(selection)
}
prevButtons = buttons
})
function checkContextLoss() {
if(scene.contextLost) {
return true
}
if(gl.isContextLost()) {
scene.contextLost = true
scene.mouseListener.enabled = false
scene.selection.object = null
if(scene.oncontextloss) {
scene.oncontextloss()
}
}
}
canvas.addEventListener('webglcontextlost', checkContextLoss)
//Render the scene for mouse picking
function renderPick() {
if(checkContextLoss()) {
return
}
gl.colorMask(true, true, true, true)
gl.depthMask(true)
gl.disable(gl.BLEND)
gl.enable(gl.DEPTH_TEST)
var numObjs = objects.length
var numPick = pickBuffers.length
for(var j=0; j<numPick; ++j) {
var buf = pickBuffers[j]
buf.shape = pickShape
buf.begin()
for(var i=0; i<numObjs; ++i) {
if(pickBufferIds[i] !== j) {
continue
}
var obj = objects[i]
if(obj.drawPick) {
obj.pixelRatio = 1
obj.drawPick(cameraParams)
}
}
buf.end()
}
}
var nBounds = [
[ Infinity, Infinity, Infinity],
[-Infinity,-Infinity,-Infinity]]
var prevBounds = [nBounds[0].slice(), nBounds[1].slice()]
function redraw() {
if(checkContextLoss()) {
return
}
resizeListener()
//Tick camera
var cameraMoved = scene.camera.tick()
cameraParams.view = scene.camera.matrix
dirty = dirty || cameraMoved
pickDirty = pickDirty || cameraMoved
//Set pixel ratio
axes.pixelRatio = scene.pixelRatio
spikes.pixelRatio = scene.pixelRatio
//Check if any objects changed, recalculate bounds
var numObjs = objects.length
var lo = nBounds[0]
var hi = nBounds[1]
lo[0] = lo[1] = lo[2] = Infinity
hi[0] = hi[1] = hi[2] = -Infinity
for(var i=0; i<numObjs; ++i) {
var obj = objects[i]
//Set the axes properties for each object
obj.pixelRatio = scene.pixelRatio
obj.axes = scene.axes
dirty = dirty || !!obj.dirty
pickDirty = pickDirty || !!obj.dirty
var obb = obj.bounds
if(obb) {
var olo = obb[0]
var ohi = obb[1]
for(var j=0; j<3; ++j) {
lo[j] = Math.min(lo[j], olo[j])
hi[j] = Math.max(hi[j], ohi[j])
}
}
}
//Recalculate bounds
var bounds = scene.bounds
if(scene.autoBounds) {
for(var j=0; j<3; ++j) {
if(hi[j] < lo[j]) {
lo[j] = -1
hi[j] = 1
} else {
if(lo[j] === hi[j]) {
lo[j] -= 1
hi[j] += 1
}
var padding = 0.05 * (hi[j] - lo[j])
lo[j] = lo[j] - padding
hi[j] = hi[j] + padding
}
bounds[0][j] = lo[j]
bounds[1][j] = hi[j]
}
}
var boundsChanged = false
for(var j=0; j<3; ++j) {
boundsChanged = boundsChanged ||
(prevBounds[0][j] !== bounds[0][j]) ||
(prevBounds[1][j] !== bounds[1][j])
prevBounds[0][j] = bounds[0][j]
prevBounds[1][j] = bounds[1][j]
}
//Recalculate bounds
pickDirty = pickDirty || boundsChanged
dirty = dirty || boundsChanged
if(!dirty) {
return
}
if(boundsChanged) {
var tickSpacing = [0,0,0]
for(var i=0; i<3; ++i) {
tickSpacing[i] = roundUpPow10((bounds[1][i]-bounds[0][i]) / 10.0)
}
if(axes.autoTicks) {
axes.update({
bounds: bounds,
tickSpacing: tickSpacing
})
} else {
axes.update({
bounds: bounds
})
}
}
//Get scene
var width = gl.drawingBufferWidth
var height = gl.drawingBufferHeight
viewShape[0] = width
viewShape[1] = height
pickShape[0] = Math.max(width/scene.pixelRatio, 1)|0
pickShape[1] = Math.max(height/scene.pixelRatio, 1)|0
//Compute camera parameters
perspective(projection,
scene.fovy,
width/height,
scene.zNear,
scene.zFar)
//Compute model matrix
for(var i=0; i<16; ++i) {
model[i] = 0
}
model[15] = 1
var maxS = 0
for(var i=0; i<3; ++i) {
maxS = Math.max(maxS, bounds[1][i] - bounds[0][i])
}
for(var i=0; i<3; ++i) {
if(scene.autoScale) {
model[5*i] = scene.aspect[i] / (bounds[1][i] - bounds[0][i])
} else {
model[5*i] = 1 / maxS
}
if(scene.autoCenter) {
model[12+i] = -model[5*i] * 0.5 * (bounds[0][i] + bounds[1][i])
}
}
//Apply axes/clip bounds
for(var i=0; i<numObjs; ++i) {
var obj = objects[i]
//Set axes bounds
obj.axesBounds = bounds
//Set clip bounds
if(scene.clipToBounds) {
obj.clipBounds = bounds
}
}
//Set spike parameters
if(selection.object) {
if(scene.snapToData) {
spikes.position = selection.dataCoordinate
} else {
spikes.position = selection.dataPosition
}
spikes.bounds = bounds
}
//If state changed, then redraw pick buffers
if(pickDirty) {
pickDirty = false
renderPick()
}
//Recalculate pixel data
scene.axesPixels = axesRanges(scene.axes, cameraParams, width, height)
//Call render callback
if(scene.onrender) {
scene.onrender()
}
//Read value
gl.bindFramebuffer(gl.FRAMEBUFFER, null)
gl.viewport(0, 0, width, height)
//General strategy: 3 steps
// 1. render non-transparent objects
// 2. accumulate transparent objects into separate fbo
// 3. composite final scene
//Clear FBO
var clearColor = scene.clearColor
gl.clearColor(clearColor[0], clearColor[1], clearColor[2], clearColor[3])
gl.clear(gl.COLOR_BUFFER_BIT | gl.DEPTH_BUFFER_BIT)
gl.depthMask(true)
gl.colorMask(true, true, true, true)
gl.enable(gl.DEPTH_TEST)
gl.depthFunc(gl.LEQUAL)
gl.disable(gl.BLEND)
gl.disable(gl.CULL_FACE) //most visualization surfaces are 2 sided
//Render opaque pass
var hasTransparent = false
if(axes.enable) {
hasTransparent = hasTransparent || axes.isTransparent()
axes.draw(cameraParams)
}
spikes.axes = axes
if(selection.object) {
spikes.draw(cameraParams)
}
gl.disable(gl.CULL_FACE) //most visualization surfaces are 2 sided
for(var i=0; i<numObjs; ++i) {
var obj = objects[i]
obj.axes = axes
obj.pixelRatio = scene.pixelRatio
if(obj.isOpaque && obj.isOpaque()) {
obj.draw(cameraParams)
}
if(obj.isTransparent && obj.isTransparent()) {
hasTransparent = true
}
}
if(hasTransparent) {
//Render transparent pass
accumBuffer.shape = viewShape
accumBuffer.bind()
gl.clear(gl.DEPTH_BUFFER_BIT)
gl.colorMask(false, false, false, false)
gl.depthMask(true)
gl.depthFunc(gl.LESS)
//Render forward facing objects
if(axes.enable && axes.isTransparent()) {
axes.drawTransparent(cameraParams)
}
for(var i=0; i<numObjs; ++i) {
var obj = objects[i]
if(obj.isOpaque && obj.isOpaque()) {
obj.draw(cameraParams)
}
}
//Render transparent pass
gl.enable(gl.BLEND)
gl.blendEquation(gl.FUNC_ADD)
gl.blendFunc(gl.ONE, gl.ONE_MINUS_SRC_ALPHA)
gl.colorMask(true, true, true, true)
gl.depthMask(false)
gl.clearColor(0,0,0,0)
gl.clear(gl.COLOR_BUFFER_BIT)
if(axes.isTransparent()) {
axes.drawTransparent(cameraParams)
}
for(var i=0; i<numObjs; ++i) {
var obj = objects[i]
if(obj.isTransparent && obj.isTransparent()) {
obj.drawTransparent(cameraParams)
}
}
//Unbind framebuffer
gl.bindFramebuffer(gl.FRAMEBUFFER, null)
//Draw composite pass
gl.blendFunc(gl.ONE, gl.ONE_MINUS_SRC_ALPHA)
gl.disable(gl.DEPTH_TEST)
accumShader.bind()
accumBuffer.color[0].bind(0)
accumShader.uniforms.accumBuffer = 0
drawTriangle(gl)
//Turn off blending
gl.disable(gl.BLEND)
}
//Clear dirty flags
dirty = false
for(var i=0; i<numObjs; ++i) {
objects[i].dirty = false
}
}
//Draw the whole scene
function render() {
if(stopped || scene.contextLost) {
return
}
requestAnimationFrame(render)
redraw()
}
render()
//Force redraw of whole scene
scene.redraw = function() {
if(stopped) {
return
}
dirty = true
redraw()
}
return scene
}
},{"./lib/shader":275,"3d-view-controls":43,"a-big-triangle":46,"gl-axes3d":221,"gl-axes3d/properties":228,"gl-fbo":238,"gl-mat4/perspective":256,"gl-select-static":285,"gl-spikes3d":295,"is-mobile":401,"mouse-change":415}],277:[function(_dereq_,module,exports){
var glslify = _dereq_('glslify')
exports.pointVertex = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute vec2 position;\n\nuniform mat3 matrix;\nuniform float pointSize;\nuniform float pointCloud;\n\nhighp float rand(vec2 co) {\n highp float a = 12.9898;\n highp float b = 78.233;\n highp float c = 43758.5453;\n highp float d = dot(co.xy, vec2(a, b));\n highp float e = mod(d, 3.14);\n return fract(sin(e) * c);\n}\n\nvoid main() {\n vec3 hgPosition = matrix * vec3(position, 1);\n gl_Position = vec4(hgPosition.xy, 0, hgPosition.z);\n // if we don't jitter the point size a bit, overall point cloud\n // saturation 'jumps' on zooming, which is disturbing and confusing\n gl_PointSize = pointSize * ((19.5 + rand(position)) / 20.0);\n if(pointCloud != 0.0) { // pointCloud is truthy\n // get the same square surface as circle would be\n gl_PointSize *= 0.886;\n }\n}"])
exports.pointFragment = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nuniform vec4 color, borderColor;\nuniform float centerFraction;\nuniform float pointCloud;\n\nvoid main() {\n float radius;\n vec4 baseColor;\n if(pointCloud != 0.0) { // pointCloud is truthy\n if(centerFraction == 1.0) {\n gl_FragColor = color;\n } else {\n gl_FragColor = mix(borderColor, color, centerFraction);\n }\n } else {\n radius = length(2.0 * gl_PointCoord.xy - 1.0);\n if(radius > 1.0) {\n discard;\n }\n baseColor = mix(borderColor, color, step(radius, centerFraction));\n gl_FragColor = vec4(baseColor.rgb * baseColor.a, baseColor.a);\n }\n}\n"])
exports.pickVertex = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute vec2 position;\nattribute vec4 pickId;\n\nuniform mat3 matrix;\nuniform float pointSize;\nuniform vec4 pickOffset;\n\nvarying vec4 fragId;\n\nvoid main() {\n vec3 hgPosition = matrix * vec3(position, 1);\n gl_Position = vec4(hgPosition.xy, 0, hgPosition.z);\n gl_PointSize = pointSize;\n\n vec4 id = pickId + pickOffset;\n id.y += floor(id.x / 256.0);\n id.x -= floor(id.x / 256.0) * 256.0;\n\n id.z += floor(id.y / 256.0);\n id.y -= floor(id.y / 256.0) * 256.0;\n\n id.w += floor(id.z / 256.0);\n id.z -= floor(id.z / 256.0) * 256.0;\n\n fragId = id;\n}\n"])
exports.pickFragment = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nvarying vec4 fragId;\n\nvoid main() {\n float radius = length(2.0 * gl_PointCoord.xy - 1.0);\n if(radius > 1.0) {\n discard;\n }\n gl_FragColor = fragId / 255.0;\n}\n"])
},{"glslify":390}],278:[function(_dereq_,module,exports){
'use strict'
var createShader = _dereq_('gl-shader')
var createBuffer = _dereq_('gl-buffer')
var pool = _dereq_('typedarray-pool')
var SHADERS = _dereq_('./lib/shader')
module.exports = createPointcloud2D
function Pointcloud2D(plot, offsetBuffer, pickBuffer, shader, pickShader) {
this.plot = plot
this.offsetBuffer = offsetBuffer
this.pickBuffer = pickBuffer
this.shader = shader
this.pickShader = pickShader
this.sizeMin = 0.5
this.sizeMinCap = 2
this.sizeMax = 20
this.areaRatio = 1.0
this.pointCount = 0
this.color = [1, 0, 0, 1]
this.borderColor = [0, 0, 0, 1]
this.blend = false
this.pickOffset = 0
this.points = null
}
var proto = Pointcloud2D.prototype
proto.dispose = function() {
this.shader.dispose()
this.pickShader.dispose()
this.offsetBuffer.dispose()
this.pickBuffer.dispose()
this.plot.removeObject(this)
}
proto.update = function(options) {
var i
options = options || {}
function dflt(opt, value) {
if(opt in options) {
return options[opt]
}
return value
}
this.sizeMin = dflt('sizeMin', 0.5)
// this.sizeMinCap = dflt('sizeMinCap', 2)
this.sizeMax = dflt('sizeMax', 20)
this.color = dflt('color', [1, 0, 0, 1]).slice()
this.areaRatio = dflt('areaRatio', 1)
this.borderColor = dflt('borderColor', [0, 0, 0, 1]).slice()
this.blend = dflt('blend', false)
//Update point data
// Attempt straight-through processing (STP) to avoid allocation and copy
// TODO eventually abstract out STP logic, maybe into `pool` or a layer above
var pointCount = options.positions.length >>> 1
var dataStraightThrough = options.positions instanceof Float32Array
var idStraightThrough = options.idToIndex instanceof Int32Array && options.idToIndex.length >= pointCount // permit larger to help reuse
var data = options.positions
var packed = dataStraightThrough ? data : pool.mallocFloat32(data.length)
var packedId = idStraightThrough ? options.idToIndex : pool.mallocInt32(pointCount)
if(!dataStraightThrough) {
packed.set(data)
}
if(!idStraightThrough) {
packed.set(data)
for(i = 0; i < pointCount; i++) {
packedId[i] = i
}
}
this.points = data
this.offsetBuffer.update(packed)
this.pickBuffer.update(packedId)
if(!dataStraightThrough) {
pool.free(packed)
}
if(!idStraightThrough) {
pool.free(packedId)
}
this.pointCount = pointCount
this.pickOffset = 0
}
function count(points, dataBox) {
var visiblePointCountEstimate = 0
var length = points.length >>> 1
var i
for(i = 0; i < length; i++) {
var x = points[i * 2]
var y = points[i * 2 + 1]
if(x >= dataBox[0] && x <= dataBox[2] && y >= dataBox[1] && y <= dataBox[3])
visiblePointCountEstimate++
}
return visiblePointCountEstimate
}
proto.unifiedDraw = (function() {
var MATRIX = [1, 0, 0,
0, 1, 0,
0, 0, 1]
var PICK_VEC4 = [0, 0, 0, 0]
return function(pickOffset) {
var pick = pickOffset !== void(0)
var shader = pick ? this.pickShader : this.shader
var gl = this.plot.gl
var dataBox = this.plot.dataBox
if(this.pointCount === 0) {
return pickOffset
}
var dataX = dataBox[2] - dataBox[0]
var dataY = dataBox[3] - dataBox[1]
var visiblePointCountEstimate = count(this.points, dataBox)
var basicPointSize = this.plot.pickPixelRatio * Math.max(Math.min(this.sizeMinCap, this.sizeMin), Math.min(this.sizeMax, this.sizeMax / Math.pow(visiblePointCountEstimate, 0.33333)))
MATRIX[0] = 2.0 / dataX
MATRIX[4] = 2.0 / dataY
MATRIX[6] = -2.0 * dataBox[0] / dataX - 1.0
MATRIX[7] = -2.0 * dataBox[1] / dataY - 1.0
this.offsetBuffer.bind()
shader.bind()
shader.attributes.position.pointer()
shader.uniforms.matrix = MATRIX
shader.uniforms.color = this.color
shader.uniforms.borderColor = this.borderColor
shader.uniforms.pointCloud = basicPointSize < 5
shader.uniforms.pointSize = basicPointSize
shader.uniforms.centerFraction = Math.min(1, Math.max(0, Math.sqrt(1 - this.areaRatio)))
if(pick) {
PICK_VEC4[0] = ( pickOffset & 0xff)
PICK_VEC4[1] = ((pickOffset >> 8) & 0xff)
PICK_VEC4[2] = ((pickOffset >> 16) & 0xff)
PICK_VEC4[3] = ((pickOffset >> 24) & 0xff)
this.pickBuffer.bind()
shader.attributes.pickId.pointer(gl.UNSIGNED_BYTE)
shader.uniforms.pickOffset = PICK_VEC4
this.pickOffset = pickOffset
}
// Worth switching these off, but we can't make assumptions about other
// renderers, so let's restore it after each draw
var blend = gl.getParameter(gl.BLEND)
var dither = gl.getParameter(gl.DITHER)
if(blend && !this.blend)
gl.disable(gl.BLEND)
if(dither)
gl.disable(gl.DITHER)
gl.drawArrays(gl.POINTS, 0, this.pointCount)
if(blend && !this.blend)
gl.enable(gl.BLEND)
if(dither)
gl.enable(gl.DITHER)
return pickOffset + this.pointCount
}
})()
proto.draw = proto.unifiedDraw
proto.drawPick = proto.unifiedDraw
proto.pick = function(x, y, value) {
var pickOffset = this.pickOffset
var pointCount = this.pointCount
if(value < pickOffset || value >= pickOffset + pointCount) {
return null
}
var pointId = value - pickOffset
var points = this.points
return {
object: this,
pointId: pointId,
dataCoord: [points[2 * pointId], points[2 * pointId + 1] ]
}
}
function createPointcloud2D(plot, options) {
var gl = plot.gl
var buffer = createBuffer(gl)
var pickBuffer = createBuffer(gl)
var shader = createShader(gl, SHADERS.pointVertex, SHADERS.pointFragment)
var pickShader = createShader(gl, SHADERS.pickVertex, SHADERS.pickFragment)
var result = new Pointcloud2D(plot, buffer, pickBuffer, shader, pickShader)
result.update(options)
//Register with plot
plot.addObject(result)
return result
}
},{"./lib/shader":277,"gl-buffer":229,"gl-shader":286,"typedarray-pool":519}],279:[function(_dereq_,module,exports){
module.exports = slerp
/**
* Performs a spherical linear interpolation between two quat
*
* @param {quat} out the receiving quaternion
* @param {quat} a the first operand
* @param {quat} b the second operand
* @param {Number} t interpolation amount between the two inputs
* @returns {quat} out
*/
function slerp (out, a, b, t) {
// benchmarks:
// http://jsperf.com/quaternion-slerp-implementations
var ax = a[0], ay = a[1], az = a[2], aw = a[3],
bx = b[0], by = b[1], bz = b[2], bw = b[3]
var omega, cosom, sinom, scale0, scale1
// calc cosine
cosom = ax * bx + ay * by + az * bz + aw * bw
// adjust signs (if necessary)
if (cosom < 0.0) {
cosom = -cosom
bx = -bx
by = -by
bz = -bz
bw = -bw
}
// calculate coefficients
if ((1.0 - cosom) > 0.000001) {
// standard case (slerp)
omega = Math.acos(cosom)
sinom = Math.sin(omega)
scale0 = Math.sin((1.0 - t) * omega) / sinom
scale1 = Math.sin(t * omega) / sinom
} else {
// "from" and "to" quaternions are very close
// ... so we can do a linear interpolation
scale0 = 1.0 - t
scale1 = t
}
// calculate final values
out[0] = scale0 * ax + scale1 * bx
out[1] = scale0 * ay + scale1 * by
out[2] = scale0 * az + scale1 * bz
out[3] = scale0 * aw + scale1 * bw
return out
}
},{}],280:[function(_dereq_,module,exports){
"use strict"
var vectorizeText = _dereq_("vectorize-text")
module.exports = getGlyph
var GLYPH_CACHE = {}
function getGlyph(symbol, font) {
var fontCache = GLYPH_CACHE[font]
if(!fontCache) {
fontCache = GLYPH_CACHE[font] = {}
}
if(symbol in fontCache) {
return fontCache[symbol]
}
//Get line and triangle meshes for glyph
var lineSymbol = vectorizeText(symbol, {
textAlign: "center",
textBaseline: "middle",
lineHeight: 1.0,
font: font
})
var triSymbol = vectorizeText(symbol, {
triangles: true,
textAlign: "center",
textBaseline: "middle",
lineHeight: 1.0,
font: font
})
//Calculate bounding box
var bounds = [[Infinity,Infinity], [-Infinity,-Infinity]]
for(var i=0; i<lineSymbol.positions.length; ++i) {
var p = lineSymbol.positions[i]
for(var j=0; j<2; ++j) {
bounds[0][j] = Math.min(bounds[0][j], p[j])
bounds[1][j] = Math.max(bounds[1][j], p[j])
}
}
//Save cached symbol
return fontCache[symbol] = [triSymbol, lineSymbol, bounds]
}
},{"vectorize-text":524}],281:[function(_dereq_,module,exports){
var createShaderWrapper = _dereq_('gl-shader')
var glslify = _dereq_('glslify')
var perspectiveVertSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3 position;\nattribute vec4 color;\nattribute vec2 glyph;\nattribute vec4 id;\n\nuniform vec4 highlightId;\nuniform float highlightScale;\nuniform mat4 model, view, projection;\nuniform vec3 clipBounds[2];\n\nvarying vec4 interpColor;\nvarying vec4 pickId;\nvarying vec3 dataCoordinate;\n\nvoid main() {\n if(any(lessThan(position, clipBounds[0])) || \n any(greaterThan(position, clipBounds[1])) ) {\n gl_Position = vec4(0,0,0,0);\n } else {\n float scale = 1.0;\n if(distance(highlightId, id) < 0.0001) {\n scale = highlightScale;\n }\n\n vec4 worldPosition = model * vec4(position, 1);\n vec4 viewPosition = view * worldPosition;\n viewPosition = viewPosition / viewPosition.w;\n vec4 clipPosition = projection * (viewPosition + scale * vec4(glyph.x, -glyph.y, 0, 0));\n \n gl_Position = clipPosition;\n interpColor = color;\n pickId = id;\n dataCoordinate = position;\n }\n}"])
var orthographicVertSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3 position;\nattribute vec4 color;\nattribute vec2 glyph;\nattribute vec4 id;\n\nuniform mat4 model, view, projection;\nuniform vec2 screenSize;\nuniform vec3 clipBounds[2];\nuniform float highlightScale, pixelRatio;\nuniform vec4 highlightId;\n\nvarying vec4 interpColor;\nvarying vec4 pickId;\nvarying vec3 dataCoordinate;\n\nvoid main() {\n if(any(lessThan(position, clipBounds[0])) || any(greaterThan(position, clipBounds[1]))) {\n gl_Position = vec4(0,0,0,0);\n } else {\n float scale = pixelRatio;\n if(distance(highlightId.bgr, id.bgr) < 0.001) {\n scale *= highlightScale;\n }\n\n vec4 worldPosition = model * vec4(position, 1.0);\n vec4 viewPosition = view * worldPosition;\n vec4 clipPosition = projection * viewPosition;\n clipPosition /= clipPosition.w;\n \n gl_Position = clipPosition + vec4(screenSize * scale * vec2(glyph.x, -glyph.y), 0.0, 0.0);\n interpColor = color;\n pickId = id;\n dataCoordinate = position;\n }\n}"])
var projectionVertSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3 position;\nattribute vec4 color;\nattribute vec2 glyph;\nattribute vec4 id;\n\nuniform float highlightScale;\nuniform vec4 highlightId;\nuniform vec3 axes[2];\nuniform mat4 model, view, projection;\nuniform vec2 screenSize;\nuniform vec3 clipBounds[2];\nuniform float scale, pixelRatio;\n\nvarying vec4 interpColor;\nvarying vec4 pickId;\nvarying vec3 dataCoordinate;\n\nvoid main() {\n if(any(lessThan(position, clipBounds[0])) ||\n any(greaterThan(position, clipBounds[1])) ) {\n gl_Position = vec4(0,0,0,0);\n } else {\n float lscale = pixelRatio * scale;\n if(distance(highlightId, id) < 0.0001) {\n lscale *= highlightScale;\n }\n\n vec4 clipCenter = projection * view * model * vec4(position, 1);\n vec3 dataPosition = position + 0.5*lscale*(axes[0] * glyph.x + axes[1] * glyph.y) * clipCenter.w * screenSize.y;\n vec4 clipPosition = projection * view * model * vec4(dataPosition, 1);\n\n gl_Position = clipPosition;\n interpColor = color;\n pickId = id;\n dataCoordinate = dataPosition;\n }\n}\n"])
var drawFragSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nuniform vec3 fragClipBounds[2];\nuniform float opacity;\n\nvarying vec4 interpColor;\nvarying vec4 pickId;\nvarying vec3 dataCoordinate;\n\nvoid main() {\n if(any(lessThan(dataCoordinate, fragClipBounds[0])) ||\n any(greaterThan(dataCoordinate, fragClipBounds[1])) ) {\n discard;\n } else {\n gl_FragColor = interpColor * opacity;\n }\n}\n"])
var pickFragSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nuniform vec3 fragClipBounds[2];\nuniform float pickGroup;\n\nvarying vec4 pickId;\nvarying vec3 dataCoordinate;\n\nvoid main() {\n if(any(lessThan(dataCoordinate, fragClipBounds[0])) || \n any(greaterThan(dataCoordinate, fragClipBounds[1])) ) {\n discard;\n } else {\n gl_FragColor = vec4(pickGroup, pickId.bgr);\n }\n}"])
var ATTRIBUTES = [
{name: 'position', type: 'vec3'},
{name: 'color', type: 'vec4'},
{name: 'glyph', type: 'vec2'},
{name: 'id', type: 'vec4'}
]
var perspective = {
vertex: perspectiveVertSrc,
fragment: drawFragSrc,
attributes: ATTRIBUTES
},
ortho = {
vertex: orthographicVertSrc,
fragment: drawFragSrc,
attributes: ATTRIBUTES
},
project = {
vertex: projectionVertSrc,
fragment: drawFragSrc,
attributes: ATTRIBUTES
},
pickPerspective = {
vertex: perspectiveVertSrc,
fragment: pickFragSrc,
attributes: ATTRIBUTES
},
pickOrtho = {
vertex: orthographicVertSrc,
fragment: pickFragSrc,
attributes: ATTRIBUTES
},
pickProject = {
vertex: projectionVertSrc,
fragment: pickFragSrc,
attributes: ATTRIBUTES
}
function createShader(gl, src) {
var shader = createShaderWrapper(gl, src)
var attr = shader.attributes
attr.position.location = 0
attr.color.location = 1
attr.glyph.location = 2
attr.id.location = 3
return shader
}
exports.createPerspective = function(gl) {
return createShader(gl, perspective)
}
exports.createOrtho = function(gl) {
return createShader(gl, ortho)
}
exports.createProject = function(gl) {
return createShader(gl, project)
}
exports.createPickPerspective = function(gl) {
return createShader(gl, pickPerspective)
}
exports.createPickOrtho = function(gl) {
return createShader(gl, pickOrtho)
}
exports.createPickProject = function(gl) {
return createShader(gl, pickProject)
}
},{"gl-shader":286,"glslify":390}],282:[function(_dereq_,module,exports){
'use strict'
var createBuffer = _dereq_('gl-buffer')
var createVAO = _dereq_('gl-vao')
var pool = _dereq_('typedarray-pool')
var mat4mult = _dereq_('gl-mat4/multiply')
var shaders = _dereq_('./lib/shaders')
var getGlyph = _dereq_('./lib/glyphs')
var IDENTITY = [1,0,0,0,
0,1,0,0,
0,0,1,0,
0,0,0,1]
module.exports = createPointCloud
function transformMat4(x, m) {
var x0 = x[0]
var x1 = x[1]
var x2 = x[2]
var x3 = x[3]
x[0] = m[0] * x0 + m[4] * x1 + m[8] * x2 + m[12] * x3
x[1] = m[1] * x0 + m[5] * x1 + m[9] * x2 + m[13] * x3
x[2] = m[2] * x0 + m[6] * x1 + m[10] * x2 + m[14] * x3
x[3] = m[3] * x0 + m[7] * x1 + m[11] * x2 + m[15] * x3
return x
}
function project(p, v, m, x) {
transformMat4(x, x, m)
transformMat4(x, x, v)
return transformMat4(x, x, p)
}
function clampVec(v) {
var result = new Array(3)
for(var i=0; i<3; ++i) {
result[i] = Math.min(Math.max(v[i], -1e8), 1e8)
}
return result
}
function ScatterPlotPickResult(index, position) {
this.index = index
this.dataCoordinate = this.position = position
}
function PointCloud(
gl,
shader,
orthoShader,
projectShader,
pointBuffer,
colorBuffer,
glyphBuffer,
idBuffer,
vao,
pickPerspectiveShader,
pickOrthoShader,
pickProjectShader) {
this.gl = gl
this.pixelRatio = 1
this.shader = shader
this.orthoShader = orthoShader
this.projectShader = projectShader
this.pointBuffer = pointBuffer
this.colorBuffer = colorBuffer
this.glyphBuffer = glyphBuffer
this.idBuffer = idBuffer
this.vao = vao
this.vertexCount = 0
this.lineVertexCount = 0
this.opacity = 1.0
this.lineWidth = 0
this.projectScale = [2.0/3.0, 2.0/3.0, 2.0/3.0]
this.projectOpacity = [1,1,1]
this.pickId = 0
this.pickPerspectiveShader = pickPerspectiveShader
this.pickOrthoShader = pickOrthoShader
this.pickProjectShader = pickProjectShader
this.points = []
this._selectResult = new ScatterPlotPickResult(0, [0,0,0])
this.useOrtho = true
this.bounds = [[ Infinity,Infinity,Infinity],
[-Infinity,-Infinity,-Infinity]]
//Axes projections
this.axesProject = [ true, true, true ]
this.axesBounds = [[-Infinity,-Infinity,-Infinity],
[ Infinity, Infinity, Infinity]]
this.highlightId = [1,1,1,1]
this.highlightScale = 2
this.clipBounds = [[-Infinity,-Infinity,-Infinity],
[ Infinity, Infinity, Infinity]]
this.dirty = true
}
var proto = PointCloud.prototype
proto.pickSlots = 1
proto.setPickBase = function(pickBase) {
this.pickId = pickBase
}
proto.isTransparent = function() {
if(this.opacity < 1) {
return true
}
for(var i=0; i<3; ++i) {
if(this.axesProject[i] && this.projectOpacity[i] < 1) {
return true
}
}
return false
}
proto.isOpaque = function() {
if(this.opacity >= 1) {
return true
}
for(var i=0; i<3; ++i) {
if(this.axesProject[i] && this.projectOpacity[i] >= 1) {
return true
}
}
return false
}
var VIEW_SHAPE = [0,0]
var U_VEC = [0,0,0]
var V_VEC = [0,0,0]
var MU_VEC = [0,0,0,1]
var MV_VEC = [0,0,0,1]
var SCRATCH_MATRIX = IDENTITY.slice()
var SCRATCH_VEC = [0,0,0]
var CLIP_BOUNDS = [[0,0,0], [0,0,0]]
function zeroVec(a) {
a[0] = a[1] = a[2] = 0
return a
}
function augment(hg, af) {
hg[0] = af[0]
hg[1] = af[1]
hg[2] = af[2]
hg[3] = 1
return hg
}
function setComponent(out, v, i, x) {
out[0] = v[0]
out[1] = v[1]
out[2] = v[2]
out[i] = x
return out
}
function getClipBounds(bounds) {
var result = CLIP_BOUNDS
for(var i=0; i<2; ++i) {
for(var j=0; j<3; ++j) {
result[i][j] = Math.max(Math.min(bounds[i][j], 1e8), -1e8)
}
}
return result
}
function drawProject(shader, points, camera, transparent, forceDraw) {
var axesProject = points.axesProject
var gl = points.gl
var uniforms = shader.uniforms
var model = camera.model || IDENTITY
var view = camera.view || IDENTITY
var projection = camera.projection || IDENTITY
var bounds = points.axesBounds
var clipBounds = getClipBounds(points.clipBounds)
var cubeAxis
if(points.axes && points.axes.lastCubeProps) {
cubeAxis = points.axes.lastCubeProps.axis
} else {
cubeAxis = [1,1,1]
}
VIEW_SHAPE[0] = 2.0/gl.drawingBufferWidth
VIEW_SHAPE[1] = 2.0/gl.drawingBufferHeight
shader.bind()
uniforms.view = view
uniforms.projection = projection
uniforms.screenSize = VIEW_SHAPE
uniforms.highlightId = points.highlightId
uniforms.highlightScale = points.highlightScale
uniforms.clipBounds = clipBounds
uniforms.pickGroup = points.pickId / 255.0
uniforms.pixelRatio = points.pixelRatio
for(var i=0; i<3; ++i) {
if(!axesProject[i]) {
continue
}
if((points.projectOpacity[i] < 1) !== transparent) {
continue
}
uniforms.scale = points.projectScale[i]
uniforms.opacity = points.projectOpacity[i]
//Project model matrix
var pmodel = SCRATCH_MATRIX
for(var j=0; j<16; ++j) {
pmodel[j] = 0
}
for(var j=0; j<4; ++j) {
pmodel[5*j] = 1
}
pmodel[5*i] = 0
if(cubeAxis[i] < 0) {
pmodel[12+i] = bounds[0][i]
} else {
pmodel[12+i] = bounds[1][i]
}
mat4mult(pmodel, model, pmodel)
uniforms.model = pmodel
//Compute initial axes
var u = (i+1)%3
var v = (i+2)%3
var du = zeroVec(U_VEC)
var dv = zeroVec(V_VEC)
du[u] = 1
dv[v] = 1
//Align orientation relative to viewer
var mdu = project(projection, view, model, augment(MU_VEC, du))
var mdv = project(projection, view, model, augment(MV_VEC, dv))
if(Math.abs(mdu[1]) > Math.abs(mdv[1])) {
var tmp = mdu
mdu = mdv
mdv = tmp
tmp = du
du = dv
dv = tmp
var t = u
u = v
v = t
}
if(mdu[0] < 0) {
du[u] = -1
}
if(mdv[1] > 0) {
dv[v] = -1
}
var su = 0.0
var sv = 0.0
for(var j=0; j<4; ++j) {
su += Math.pow(model[4*u+j], 2)
sv += Math.pow(model[4*v+j], 2)
}
du[u] /= Math.sqrt(su)
dv[v] /= Math.sqrt(sv)
uniforms.axes[0] = du
uniforms.axes[1] = dv
//Update fragment clip bounds
uniforms.fragClipBounds[0] = setComponent(SCRATCH_VEC, clipBounds[0], i, -1e8)
uniforms.fragClipBounds[1] = setComponent(SCRATCH_VEC, clipBounds[1], i, 1e8)
//Draw interior
points.vao.draw(gl.TRIANGLES, points.vertexCount)
//Draw edges
if(points.lineWidth > 0) {
gl.lineWidth(points.lineWidth)
points.vao.draw(gl.LINES, points.lineVertexCount, points.vertexCount)
}
}
}
var NEG_INFINITY3 = [-1e8, -1e8, -1e8]
var POS_INFINITY3 = [1e8, 1e8, 1e8]
var CLIP_GROUP = [NEG_INFINITY3, POS_INFINITY3]
function drawFull(shader, pshader, points, camera, transparent, forceDraw) {
var gl = points.gl
points.vao.bind()
if(transparent === (points.opacity < 1) || forceDraw) {
shader.bind()
var uniforms = shader.uniforms
uniforms.model = camera.model || IDENTITY
uniforms.view = camera.view || IDENTITY
uniforms.projection = camera.projection || IDENTITY
VIEW_SHAPE[0] = 2.0/gl.drawingBufferWidth
VIEW_SHAPE[1] = 2.0/gl.drawingBufferHeight
uniforms.screenSize = VIEW_SHAPE
uniforms.highlightId = points.highlightId
uniforms.highlightScale = points.highlightScale
uniforms.fragClipBounds = CLIP_GROUP
uniforms.clipBounds = points.axes.bounds
uniforms.opacity = points.opacity
uniforms.pickGroup = points.pickId / 255.0
uniforms.pixelRatio = points.pixelRatio
//Draw interior
points.vao.draw(gl.TRIANGLES, points.vertexCount)
//Draw edges
if(points.lineWidth > 0) {
gl.lineWidth(points.lineWidth)
points.vao.draw(gl.LINES, points.lineVertexCount, points.vertexCount)
}
}
drawProject(pshader, points, camera, transparent, forceDraw)
points.vao.unbind()
}
proto.draw = function(camera) {
var shader = this.useOrtho ? this.orthoShader : this.shader
drawFull(shader, this.projectShader, this, camera, false, false)
}
proto.drawTransparent = function(camera) {
var shader = this.useOrtho ? this.orthoShader : this.shader
drawFull(shader, this.projectShader, this, camera, true, false)
}
proto.drawPick = function(camera) {
var shader = this.useOrtho ? this.pickOrthoShader : this.pickPerspectiveShader
drawFull(shader, this.pickProjectShader, this, camera, false, true)
}
proto.pick = function(selected) {
if(!selected) {
return null
}
if(selected.id !== this.pickId) {
return null
}
var x = selected.value[2] + (selected.value[1]<<8) + (selected.value[0]<<16)
if(x >= this.pointCount || x < 0) {
return null
}
//Unpack result
var coord = this.points[x]
var result = this._selectResult
result.index = x
for(var i=0; i<3; ++i) {
result.position[i] = result.dataCoordinate[i] = coord[i]
}
return result
}
proto.highlight = function(selection) {
if(!selection) {
this.highlightId = [1,1,1,1]
} else {
var pointId = selection.index
var a0 = pointId &0xff
var a1 = (pointId>>8) &0xff
var a2 = (pointId>>16)&0xff
this.highlightId = [a0/255.0, a1/255.0, a2/255.0, 0]
}
}
proto.update = function(options) {
options = options || {}
if('perspective' in options) {
this.useOrtho = !options.perspective
}
if('orthographic' in options) {
this.useOrtho = !!options.orthographic
}
if('lineWidth' in options) {
this.lineWidth = options.lineWidth
}
if('project' in options) {
if(Array.isArray(options.project)) {
this.axesProject = options.project
} else {
var v = !!options.project
this.axesProject = [v,v,v]
}
}
if('projectScale' in options) {
if(Array.isArray(options.projectScale)) {
this.projectScale = options.projectScale.slice()
} else {
var s = +options.projectScale
this.projectScale = [s,s,s]
}
}
if('projectOpacity' in options) {
if(Array.isArray(options.projectOpacity)) {
this.projectOpacity = options.projectOpacity.slice()
} else {
var s = +options.projectOpacity
this.projectOpacity = [s,s,s]
}
}
if('opacity' in options) {
this.opacity = options.opacity
}
//Set dirty flag
this.dirty = true
//Create new buffers
var points = options.position
if(!points) {
return
}
//Text font
var font = options.font || 'normal'
var alignment = options.alignment || [0,0]
//Bounds
var lowerBound = [ Infinity, Infinity, Infinity]
var upperBound = [-Infinity,-Infinity,-Infinity]
//Unpack options
var glyphs = options.glyph
var colors = options.color
var sizes = options.size
var angles = options.angle
var lineColors = options.lineColor
//Picking geometry
var pickCounter = 0
//First do pass to compute buffer sizes
var triVertexCount = 0
var lineVertexCount = 0
//Count number of points and buffer size
var numPoints = points.length
count_loop:
for(var i=0; i<numPoints; ++i) {
var x = points[i]
for(var j=0; j<3; ++j) {
if(isNaN(x[j]) || !isFinite(x[j])) {
continue count_loop
}
}
var glyphData
if(Array.isArray(glyphs)) {
glyphData = getGlyph(glyphs[i], font)
} else if(glyphs) {
glyphData = getGlyph(glyphs, font)
} else {
glyphData = getGlyph('●', font)
}
var glyphMesh = glyphData[0]
var glyphLines = glyphData[1]
var glyphBounds = glyphData[2]
triVertexCount += glyphMesh.cells.length * 3
lineVertexCount += glyphLines.edges.length * 2
}
//Preallocate data
var vertexCount = triVertexCount + lineVertexCount
var positionArray = pool.mallocFloat(3*vertexCount)
var colorArray = pool.mallocFloat(4*vertexCount)
var glyphArray = pool.mallocFloat(2*vertexCount)
var idArray = pool.mallocUint32(vertexCount)
var textOffset = [0,alignment[1]]
var triOffset = 0
var lineOffset = triVertexCount
var color = [0,0,0,1]
var lineColor = [0,0,0,1]
var isColorArray = Array.isArray(colors) && Array.isArray(colors[0])
var isLineColorArray = Array.isArray(lineColors) && Array.isArray(lineColors[0])
fill_loop:
for(var i=0; i<numPoints; ++i) {
var x = points[i]
for(var j=0; j<3; ++j) {
if(isNaN(x[j]) || !isFinite(x[j])) {
pickCounter += 1
continue fill_loop
}
upperBound[j] = Math.max(upperBound[j], x[j])
lowerBound[j] = Math.min(lowerBound[j], x[j])
}
var glyphData
if(Array.isArray(glyphs)) {
glyphData = getGlyph(glyphs[i], font)
} else if(glyphs) {
glyphData = getGlyph(glyphs, font)
} else {
glyphData = getGlyph('●', font)
}
var glyphMesh = glyphData[0]
var glyphLines = glyphData[1]
var glyphBounds = glyphData[2]
//Get color
if(Array.isArray(colors)) {
var c
if(isColorArray) {
c = colors[i]
} else {
c = colors
}
if(c.length === 3) {
for(var j=0; j<3; ++j) {
color[j] = c[j]
}
color[3] = 1
} else if(c.length === 4) {
for(var j=0; j<4; ++j) {
color[j] = c[j]
}
}
} else {
color[0] = color[1] = color[2] = 0
color[3] = 1
}
//Get lineColor
if(Array.isArray(lineColors)) {
var c
if(isLineColorArray) {
c = lineColors[i]
} else {
c = lineColors
}
if(c.length === 3) {
for(var j=0; j<3; ++j) {
lineColor[j] = c[j]
}
lineColor[j] = 1
} else if(c.length === 4) {
for(var j=0; j<4; ++j) {
lineColor[j] = c[j]
}
}
} else {
lineColor[0] = lineColor[1] = lineColor[2] = 0
lineColor[3] = 1
}
var size = 0.5
if(Array.isArray(sizes)) {
size = +sizes[i]
} else if(sizes) {
size = +sizes
} else if(this.useOrtho) {
size = 12
}
var angle = 0
if(Array.isArray(angles)) {
angle = +angles[i]
} else if(angles) {
angle = +angles
}
//Loop through markers and append to buffers
var cos = Math.cos(angle)
var sin = Math.sin(angle)
var x = points[i]
for(var j=0; j<3; ++j) {
upperBound[j] = Math.max(upperBound[j], x[j])
lowerBound[j] = Math.min(lowerBound[j], x[j])
}
//Calculate text offset
if(alignment[0] < 0) {
textOffset[0] = alignment[0] * (1+glyphBounds[1][0])
} else if(alignment[0] > 0) {
textOffset[0] = -alignment[0] * (1+glyphBounds[0][0])
}
//Write out inner marker
var cells = glyphMesh.cells
var verts = glyphMesh.positions
for(var j=0; j<cells.length; ++j) {
var cell = cells[j]
for(var k=0; k<3; ++k) {
for(var l=0; l<3; ++l) {
positionArray[3*triOffset+l] = x[l]
}
for(var l=0; l<4; ++l) {
colorArray[4*triOffset+l] = color[l]
}
idArray[triOffset] = pickCounter
var p = verts[cell[k]]
glyphArray[2*triOffset] = size * (cos*p[0] - sin*p[1] + textOffset[0])
glyphArray[2*triOffset+1] = size * (sin*p[0] + cos*p[1] + textOffset[1])
triOffset += 1
}
}
var cells = glyphLines.edges
var verts = glyphLines.positions
for(var j=0; j<cells.length; ++j) {
var cell = cells[j]
for(var k=0; k<2; ++k) {
for(var l=0; l<3; ++l) {
positionArray[3*lineOffset+l] = x[l]
}
for(var l=0; l<4; ++l) {
colorArray[4*lineOffset+l] = lineColor[l]
}
idArray[lineOffset] = pickCounter
var p = verts[cell[k]]
glyphArray[2*lineOffset] = size * (cos*p[0] - sin*p[1] + textOffset[0])
glyphArray[2*lineOffset+1] = size * (sin*p[0] + cos*p[1] + textOffset[1])
lineOffset += 1
}
}
//Increment pickCounter
pickCounter += 1
}
//Update vertex counts
this.vertexCount = triVertexCount
this.lineVertexCount = lineVertexCount
//Update buffers
this.pointBuffer.update(positionArray)
this.colorBuffer.update(colorArray)
this.glyphBuffer.update(glyphArray)
this.idBuffer.update(new Uint32Array(idArray))
pool.free(positionArray)
pool.free(colorArray)
pool.free(glyphArray)
pool.free(idArray)
//Update bounds
this.bounds = [lowerBound, upperBound]
//Save points
this.points = points
//Save number of points
this.pointCount = points.length
}
proto.dispose = function() {
//Shaders
this.shader.dispose()
this.orthoShader.dispose()
this.pickPerspectiveShader.dispose()
this.pickOrthoShader.dispose()
//Vertex array
this.vao.dispose()
//Buffers
this.pointBuffer.dispose()
this.colorBuffer.dispose()
this.glyphBuffer.dispose()
this.idBuffer.dispose()
}
function createPointCloud(options) {
var gl = options.gl
var shader = shaders.createPerspective(gl)
var orthoShader = shaders.createOrtho(gl)
var projectShader = shaders.createProject(gl)
var pickPerspectiveShader = shaders.createPickPerspective(gl)
var pickOrthoShader = shaders.createPickOrtho(gl)
var pickProjectShader = shaders.createPickProject(gl)
var pointBuffer = createBuffer(gl)
var colorBuffer = createBuffer(gl)
var glyphBuffer = createBuffer(gl)
var idBuffer = createBuffer(gl)
var vao = createVAO(gl, [
{
buffer: pointBuffer,
size: 3,
type: gl.FLOAT
},
{
buffer: colorBuffer,
size: 4,
type: gl.FLOAT
},
{
buffer: glyphBuffer,
size: 2,
type: gl.FLOAT
},
{
buffer: idBuffer,
size: 4,
type: gl.UNSIGNED_BYTE,
normalized: true
}
])
var pointCloud = new PointCloud(
gl,
shader,
orthoShader,
projectShader,
pointBuffer,
colorBuffer,
glyphBuffer,
idBuffer,
vao,
pickPerspectiveShader,
pickOrthoShader,
pickProjectShader)
pointCloud.update(options)
return pointCloud
}
},{"./lib/glyphs":280,"./lib/shaders":281,"gl-buffer":229,"gl-mat4/multiply":255,"gl-vao":308,"typedarray-pool":519}],283:[function(_dereq_,module,exports){
'use strict'
var glslify = _dereq_('glslify')
exports.boxVertex = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute vec2 vertex;\n\nuniform vec2 cornerA, cornerB;\n\nvoid main() {\n gl_Position = vec4(mix(cornerA, cornerB, vertex), 0, 1);\n}\n"])
exports.boxFragment = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nuniform vec4 color;\n\nvoid main() {\n gl_FragColor = color;\n}\n"])
},{"glslify":390}],284:[function(_dereq_,module,exports){
'use strict'
var createShader = _dereq_('gl-shader')
var createBuffer = _dereq_('gl-buffer')
var SHADERS = _dereq_('./lib/shaders')
module.exports = createSelectBox
function SelectBox(plot, boxBuffer, boxShader) {
this.plot = plot
this.boxBuffer = boxBuffer
this.boxShader = boxShader
this.enabled = true
this.selectBox = [Infinity,Infinity,-Infinity,-Infinity]
this.borderColor = [0,0,0,1]
this.innerFill = false
this.innerColor = [0,0,0,0.25]
this.outerFill = true
this.outerColor = [0,0,0,0.5]
this.borderWidth = 10
}
var proto = SelectBox.prototype
proto.draw = function() {
if(!this.enabled) {
return
}
var plot = this.plot
var selectBox = this.selectBox
var lineWidth = this.borderWidth
var innerFill = this.innerFill
var innerColor = this.innerColor
var outerFill = this.outerFill
var outerColor = this.outerColor
var borderColor = this.borderColor
var boxes = plot.box
var screenBox = plot.screenBox
var dataBox = plot.dataBox
var viewBox = plot.viewBox
var pixelRatio = plot.pixelRatio
//Map select box into pixel coordinates
var loX = (selectBox[0]-dataBox[0])*(viewBox[2]-viewBox[0])/(dataBox[2]-dataBox[0])+viewBox[0]
var loY = (selectBox[1]-dataBox[1])*(viewBox[3]-viewBox[1])/(dataBox[3]-dataBox[1])+viewBox[1]
var hiX = (selectBox[2]-dataBox[0])*(viewBox[2]-viewBox[0])/(dataBox[2]-dataBox[0])+viewBox[0]
var hiY = (selectBox[3]-dataBox[1])*(viewBox[3]-viewBox[1])/(dataBox[3]-dataBox[1])+viewBox[1]
loX = Math.max(loX, viewBox[0])
loY = Math.max(loY, viewBox[1])
hiX = Math.min(hiX, viewBox[2])
hiY = Math.min(hiY, viewBox[3])
if(hiX < loX || hiY < loY) {
return
}
boxes.bind()
//Draw box
var screenWidth = screenBox[2] - screenBox[0]
var screenHeight = screenBox[3] - screenBox[1]
if(this.outerFill) {
boxes.drawBox(0, 0, screenWidth, loY, outerColor)
boxes.drawBox(0, loY, loX, hiY, outerColor)
boxes.drawBox(0, hiY, screenWidth, screenHeight, outerColor)
boxes.drawBox(hiX, loY, screenWidth, hiY, outerColor)
}
if(this.innerFill) {
boxes.drawBox(loX, loY, hiX, hiY, innerColor)
}
//Draw border
if(lineWidth > 0) {
//Draw border
var w = lineWidth * pixelRatio
boxes.drawBox(loX-w, loY-w, hiX+w, loY+w, borderColor)
boxes.drawBox(loX-w, hiY-w, hiX+w, hiY+w, borderColor)
boxes.drawBox(loX-w, loY-w, loX+w, hiY+w, borderColor)
boxes.drawBox(hiX-w, loY-w, hiX+w, hiY+w, borderColor)
}
}
proto.update = function(options) {
options = options || {}
this.innerFill = !!options.innerFill
this.outerFill = !!options.outerFill
this.innerColor = (options.innerColor || [0,0,0,0.5]).slice()
this.outerColor = (options.outerColor || [0,0,0,0.5]).slice()
this.borderColor = (options.borderColor || [0,0,0,1]).slice()
this.borderWidth = options.borderWidth || 0
this.selectBox = (options.selectBox || this.selectBox).slice()
}
proto.dispose = function() {
this.boxBuffer.dispose()
this.boxShader.dispose()
this.plot.removeOverlay(this)
}
function createSelectBox(plot, options) {
var gl = plot.gl
var buffer = createBuffer(gl, [
0, 0,
0, 1,
1, 0,
1, 1 ])
var shader = createShader(gl, SHADERS.boxVertex, SHADERS.boxFragment)
var selectBox = new SelectBox(plot, buffer, shader)
selectBox.update(options)
plot.addOverlay(selectBox)
return selectBox
}
},{"./lib/shaders":283,"gl-buffer":229,"gl-shader":286}],285:[function(_dereq_,module,exports){
'use strict'
module.exports = createSelectBuffer
var createFBO = _dereq_('gl-fbo')
var pool = _dereq_('typedarray-pool')
var ndarray = _dereq_('ndarray')
var nextPow2 = _dereq_('bit-twiddle').nextPow2
var selectRange = _dereq_('cwise/lib/wrapper')({"args":["array",{"offset":[0,0,1],"array":0},{"offset":[0,0,2],"array":0},{"offset":[0,0,3],"array":0},"scalar","scalar","index"],"pre":{"body":"{this_closestD2=1e8,this_closestX=-1,this_closestY=-1}","args":[],"thisVars":["this_closestD2","this_closestX","this_closestY"],"localVars":[]},"body":{"body":"{if(_inline_16_arg0_<255||_inline_16_arg1_<255||_inline_16_arg2_<255||_inline_16_arg3_<255){var _inline_16_l=_inline_16_arg4_-_inline_16_arg6_[0],_inline_16_a=_inline_16_arg5_-_inline_16_arg6_[1],_inline_16_f=_inline_16_l*_inline_16_l+_inline_16_a*_inline_16_a;_inline_16_f<this_closestD2&&(this_closestD2=_inline_16_f,this_closestX=_inline_16_arg6_[0],this_closestY=_inline_16_arg6_[1])}}","args":[{"name":"_inline_16_arg0_","lvalue":false,"rvalue":true,"count":1},{"name":"_inline_16_arg1_","lvalue":false,"rvalue":true,"count":1},{"name":"_inline_16_arg2_","lvalue":false,"rvalue":true,"count":1},{"name":"_inline_16_arg3_","lvalue":false,"rvalue":true,"count":1},{"name":"_inline_16_arg4_","lvalue":false,"rvalue":true,"count":1},{"name":"_inline_16_arg5_","lvalue":false,"rvalue":true,"count":1},{"name":"_inline_16_arg6_","lvalue":false,"rvalue":true,"count":4}],"thisVars":["this_closestD2","this_closestX","this_closestY"],"localVars":["_inline_16_a","_inline_16_f","_inline_16_l"]},"post":{"body":"{return[this_closestX,this_closestY,this_closestD2]}","args":[],"thisVars":["this_closestD2","this_closestX","this_closestY"],"localVars":[]},"debug":false,"funcName":"cwise","blockSize":64})
function SelectResult(x, y, id, value, distance) {
this.coord = [x, y]
this.id = id
this.value = value
this.distance = distance
}
function SelectBuffer(gl, fbo, buffer) {
this.gl = gl
this.fbo = fbo
this.buffer = buffer
this._readTimeout = null
var self = this
this._readCallback = function() {
if(!self.gl) {
return
}
fbo.bind()
gl.readPixels(0,0,fbo.shape[0],fbo.shape[1],gl.RGBA,gl.UNSIGNED_BYTE,self.buffer)
self._readTimeout = null
}
}
var proto = SelectBuffer.prototype
Object.defineProperty(proto, 'shape', {
get: function() {
if(!this.gl) {
return [0,0]
}
return this.fbo.shape.slice()
},
set: function(v) {
if(!this.gl) {
return
}
this.fbo.shape = v
var c = this.fbo.shape[0]
var r = this.fbo.shape[1]
if(r*c*4 > this.buffer.length) {
pool.free(this.buffer)
var buffer = this.buffer = pool.mallocUint8(nextPow2(r*c*4))
for(var i=0; i<r*c*4; ++i) {
buffer[i] = 0xff
}
}
return v
}
})
proto.begin = function() {
var gl = this.gl
var shape = this.shape
if(!gl) {
return
}
this.fbo.bind()
gl.clearColor(1,1,1,1)
gl.clear(gl.COLOR_BUFFER_BIT | gl.DEPTH_BUFFER_BIT)
}
proto.end = function() {
var gl = this.gl
if(!gl) {
return
}
gl.bindFramebuffer(gl.FRAMEBUFFER, null)
if(!this._readTimeout) {
clearTimeout(this._readTimeout)
}
this._readTimeout = setTimeout(this._readCallback, 1)
}
proto.query = function(x, y, radius) {
if(!this.gl) {
return null
}
var shape = this.fbo.shape.slice()
x = x|0
y = y|0
if(typeof radius !== 'number') {
radius = 1.0
}
var x0 = Math.min(Math.max(x - radius, 0), shape[0])|0
var x1 = Math.min(Math.max(x + radius, 0), shape[0])|0
var y0 = Math.min(Math.max(y - radius, 0), shape[1])|0
var y1 = Math.min(Math.max(y + radius, 0), shape[1])|0
if(x1 <= x0 || y1 <= y0) {
return null
}
var dims = [x1-x0,y1-y0]
var region = ndarray(
this.buffer,
[dims[0], dims[1], 4],
[4, shape[0]*4, 1],
4*(x0 + shape[0]*y0));
var closest = selectRange(region.hi(dims[0],dims[1],1), radius, radius)
var dx = closest[0]
var dy = closest[1]
if(dx < 0 || Math.pow(this.radius, 2) < closest[2]) {
return null
}
var c0 = region.get(dx, dy, 0)
var c1 = region.get(dx, dy, 1)
var c2 = region.get(dx, dy, 2)
var c3 = region.get(dx, dy, 3)
return new SelectResult(
(dx + x0)|0,
(dy + y0)|0,
c0,
[c1, c2, c3],
Math.sqrt(closest[2]))
}
proto.dispose = function() {
if(!this.gl) {
return
}
this.fbo.dispose()
pool.free(this.buffer)
this.gl = null
if(this._readTimeout) {
clearTimeout(this._readTimeout)
}
}
function createSelectBuffer(gl, shape) {
var fbo = createFBO(gl, shape)
var buffer = pool.mallocUint8(shape[0]*shape[1]*4)
return new SelectBuffer(gl, fbo, buffer)
}
},{"bit-twiddle":79,"cwise/lib/wrapper":136,"gl-fbo":238,"ndarray":430,"typedarray-pool":519}],286:[function(_dereq_,module,exports){
'use strict'
var createUniformWrapper = _dereq_('./lib/create-uniforms')
var createAttributeWrapper = _dereq_('./lib/create-attributes')
var makeReflect = _dereq_('./lib/reflect')
var shaderCache = _dereq_('./lib/shader-cache')
var runtime = _dereq_('./lib/runtime-reflect')
var GLError = _dereq_("./lib/GLError")
//Shader object
function Shader(gl) {
this.gl = gl
this.gl.lastAttribCount = 0 // fixme where else should we store info, safe but not nice on the gl object
//Default initialize these to null
this._vref =
this._fref =
this._relink =
this.vertShader =
this.fragShader =
this.program =
this.attributes =
this.uniforms =
this.types = null
}
var proto = Shader.prototype
proto.bind = function() {
if(!this.program) {
this._relink()
}
// ensuring that we have the right number of enabled vertex attributes
var i
var newAttribCount = this.gl.getProgramParameter(this.program, this.gl.ACTIVE_ATTRIBUTES) // more robust approach
//var newAttribCount = Object.keys(this.attributes).length // avoids the probably immaterial introspection slowdown
var oldAttribCount = this.gl.lastAttribCount
if(newAttribCount > oldAttribCount) {
for(i = oldAttribCount; i < newAttribCount; i++) {
this.gl.enableVertexAttribArray(i)
}
} else if(oldAttribCount > newAttribCount) {
for(i = newAttribCount; i < oldAttribCount; i++) {
this.gl.disableVertexAttribArray(i)
}
}
this.gl.lastAttribCount = newAttribCount
this.gl.useProgram(this.program)
}
proto.dispose = function() {
// disabling vertex attributes so new shader starts with zero
// and it's also useful if all shaders are disposed but the
// gl context is reused for subsequent replotting
var oldAttribCount = this.gl.lastAttribCount
for (var i = 0; i < oldAttribCount; i++) {
this.gl.disableVertexAttribArray(i)
}
this.gl.lastAttribCount = 0
if(this._fref) {
this._fref.dispose()
}
if(this._vref) {
this._vref.dispose()
}
this.attributes =
this.types =
this.vertShader =
this.fragShader =
this.program =
this._relink =
this._fref =
this._vref = null
}
function compareAttributes(a, b) {
if(a.name < b.name) {
return -1
}
return 1
}
//Update export hook for glslify-live
proto.update = function(
vertSource
, fragSource
, uniforms
, attributes) {
//If only one object passed, assume glslify style output
if(!fragSource || arguments.length === 1) {
var obj = vertSource
vertSource = obj.vertex
fragSource = obj.fragment
uniforms = obj.uniforms
attributes = obj.attributes
}
var wrapper = this
var gl = wrapper.gl
//Compile vertex and fragment shaders
var pvref = wrapper._vref
wrapper._vref = shaderCache.shader(gl, gl.VERTEX_SHADER, vertSource)
if(pvref) {
pvref.dispose()
}
wrapper.vertShader = wrapper._vref.shader
var pfref = this._fref
wrapper._fref = shaderCache.shader(gl, gl.FRAGMENT_SHADER, fragSource)
if(pfref) {
pfref.dispose()
}
wrapper.fragShader = wrapper._fref.shader
//If uniforms/attributes is not specified, use RT reflection
if(!uniforms || !attributes) {
//Create initial test program
var testProgram = gl.createProgram()
gl.attachShader(testProgram, wrapper.fragShader)
gl.attachShader(testProgram, wrapper.vertShader)
gl.linkProgram(testProgram)
if(!gl.getProgramParameter(testProgram, gl.LINK_STATUS)) {
var errLog = gl.getProgramInfoLog(testProgram)
throw new GLError(errLog, 'Error linking program:' + errLog)
}
//Load data from runtime
uniforms = uniforms || runtime.uniforms(gl, testProgram)
attributes = attributes || runtime.attributes(gl, testProgram)
//Release test program
gl.deleteProgram(testProgram)
}
//Sort attributes lexicographically
// overrides undefined WebGL behavior for attribute locations
attributes = attributes.slice()
attributes.sort(compareAttributes)
//Convert attribute types, read out locations
var attributeUnpacked = []
var attributeNames = []
var attributeLocations = []
var i
for(i=0; i<attributes.length; ++i) {
var attr = attributes[i]
if(attr.type.indexOf('mat') >= 0) {
var size = attr.type.charAt(attr.type.length-1)|0
var locVector = new Array(size)
for(var j=0; j<size; ++j) {
locVector[j] = attributeLocations.length
attributeNames.push(attr.name + '[' + j + ']')
if(typeof attr.location === 'number') {
attributeLocations.push(attr.location + j)
} else if(Array.isArray(attr.location) &&
attr.location.length === size &&
typeof attr.location[j] === 'number') {
attributeLocations.push(attr.location[j]|0)
} else {
attributeLocations.push(-1)
}
}
attributeUnpacked.push({
name: attr.name,
type: attr.type,
locations: locVector
})
} else {
attributeUnpacked.push({
name: attr.name,
type: attr.type,
locations: [ attributeLocations.length ]
})
attributeNames.push(attr.name)
if(typeof attr.location === 'number') {
attributeLocations.push(attr.location|0)
} else {
attributeLocations.push(-1)
}
}
}
//For all unspecified attributes, assign them lexicographically min attribute
var curLocation = 0
for(i=0; i<attributeLocations.length; ++i) {
if(attributeLocations[i] < 0) {
while(attributeLocations.indexOf(curLocation) >= 0) {
curLocation += 1
}
attributeLocations[i] = curLocation
}
}
//Rebuild program and recompute all uniform locations
var uniformLocations = new Array(uniforms.length)
function relink() {
wrapper.program = shaderCache.program(
gl
, wrapper._vref
, wrapper._fref
, attributeNames
, attributeLocations)
for(var i=0; i<uniforms.length; ++i) {
uniformLocations[i] = gl.getUniformLocation(
wrapper.program
, uniforms[i].name)
}
}
//Perform initial linking, reuse program used for reflection
relink()
//Save relinking procedure, defer until runtime
wrapper._relink = relink
//Generate type info
wrapper.types = {
uniforms: makeReflect(uniforms),
attributes: makeReflect(attributes)
}
//Generate attribute wrappers
wrapper.attributes = createAttributeWrapper(
gl
, wrapper
, attributeUnpacked
, attributeLocations)
//Generate uniform wrappers
Object.defineProperty(wrapper, 'uniforms', createUniformWrapper(
gl
, wrapper
, uniforms
, uniformLocations))
}
//Compiles and links a shader program with the given attribute and vertex list
function createShader(
gl
, vertSource
, fragSource
, uniforms
, attributes) {
var shader = new Shader(gl)
shader.update(
vertSource
, fragSource
, uniforms
, attributes)
return shader
}
module.exports = createShader
},{"./lib/GLError":287,"./lib/create-attributes":288,"./lib/create-uniforms":289,"./lib/reflect":290,"./lib/runtime-reflect":291,"./lib/shader-cache":292}],287:[function(_dereq_,module,exports){
function GLError (rawError, shortMessage, longMessage) {
this.shortMessage = shortMessage || ''
this.longMessage = longMessage || ''
this.rawError = rawError || ''
this.message =
'gl-shader: ' + (shortMessage || rawError || '') +
(longMessage ? '\n'+longMessage : '')
this.stack = (new Error()).stack
}
GLError.prototype = new Error
GLError.prototype.name = 'GLError'
GLError.prototype.constructor = GLError
module.exports = GLError
},{}],288:[function(_dereq_,module,exports){
'use strict'
module.exports = createAttributeWrapper
var GLError = _dereq_("./GLError")
function ShaderAttribute(
gl
, wrapper
, index
, locations
, dimension
, constFunc) {
this._gl = gl
this._wrapper = wrapper
this._index = index
this._locations = locations
this._dimension = dimension
this._constFunc = constFunc
}
var proto = ShaderAttribute.prototype
proto.pointer = function setAttribPointer(
type
, normalized
, stride
, offset) {
var self = this
var gl = self._gl
var location = self._locations[self._index]
gl.vertexAttribPointer(
location
, self._dimension
, type || gl.FLOAT
, !!normalized
, stride || 0
, offset || 0)
gl.enableVertexAttribArray(location)
}
proto.set = function(x0, x1, x2, x3) {
return this._constFunc(this._locations[this._index], x0, x1, x2, x3)
}
Object.defineProperty(proto, 'location', {
get: function() {
return this._locations[this._index]
}
, set: function(v) {
if(v !== this._locations[this._index]) {
this._locations[this._index] = v|0
this._wrapper.program = null
}
return v|0
}
})
//Adds a vector attribute to obj
function addVectorAttribute(
gl
, wrapper
, index
, locations
, dimension
, obj
, name) {
//Construct constant function
var constFuncArgs = [ 'gl', 'v' ]
var varNames = []
for(var i=0; i<dimension; ++i) {
constFuncArgs.push('x'+i)
varNames.push('x'+i)
}
constFuncArgs.push(
'if(x0.length===void 0){return gl.vertexAttrib' +
dimension + 'f(v,' +
varNames.join() +
')}else{return gl.vertexAttrib' +
dimension +
'fv(v,x0)}')
var constFunc = Function.apply(null, constFuncArgs)
//Create attribute wrapper
var attr = new ShaderAttribute(
gl
, wrapper
, index
, locations
, dimension
, constFunc)
//Create accessor
Object.defineProperty(obj, name, {
set: function(x) {
gl.disableVertexAttribArray(locations[index])
constFunc(gl, locations[index], x)
return x
}
, get: function() {
return attr
}
, enumerable: true
})
}
function addMatrixAttribute(
gl
, wrapper
, index
, locations
, dimension
, obj
, name) {
var parts = new Array(dimension)
var attrs = new Array(dimension)
for(var i=0; i<dimension; ++i) {
addVectorAttribute(
gl
, wrapper
, index[i]
, locations
, dimension
, parts
, i)
attrs[i] = parts[i]
}
Object.defineProperty(parts, 'location', {
set: function(v) {
if(Array.isArray(v)) {
for(var i=0; i<dimension; ++i) {
attrs[i].location = v[i]
}
} else {
for(var i=0; i<dimension; ++i) {
attrs[i].location = v + i
}
}
return v
}
, get: function() {
var result = new Array(dimension)
for(var i=0; i<dimension; ++i) {
result[i] = locations[index[i]]
}
return result
}
, enumerable: true
})
parts.pointer = function(type, normalized, stride, offset) {
type = type || gl.FLOAT
normalized = !!normalized
stride = stride || (dimension * dimension)
offset = offset || 0
for(var i=0; i<dimension; ++i) {
var location = locations[index[i]]
gl.vertexAttribPointer(
location
, dimension
, type
, normalized
, stride
, offset + i * dimension)
gl.enableVertexAttribArray(location)
}
}
var scratch = new Array(dimension)
var vertexAttrib = gl['vertexAttrib' + dimension + 'fv']
Object.defineProperty(obj, name, {
set: function(x) {
for(var i=0; i<dimension; ++i) {
var loc = locations[index[i]]
gl.disableVertexAttribArray(loc)
if(Array.isArray(x[0])) {
vertexAttrib.call(gl, loc, x[i])
} else {
for(var j=0; j<dimension; ++j) {
scratch[j] = x[dimension*i + j]
}
vertexAttrib.call(gl, loc, scratch)
}
}
return x
}
, get: function() {
return parts
}
, enumerable: true
})
}
//Create shims for attributes
function createAttributeWrapper(
gl
, wrapper
, attributes
, locations) {
var obj = {}
for(var i=0, n=attributes.length; i<n; ++i) {
var a = attributes[i]
var name = a.name
var type = a.type
var locs = a.locations
switch(type) {
case 'bool':
case 'int':
case 'float':
addVectorAttribute(
gl
, wrapper
, locs[0]
, locations
, 1
, obj
, name)
break
default:
if(type.indexOf('vec') >= 0) {
var d = type.charCodeAt(type.length-1) - 48
if(d < 2 || d > 4) {
throw new GLError('', 'Invalid data type for attribute ' + name + ': ' + type)
}
addVectorAttribute(
gl
, wrapper
, locs[0]
, locations
, d
, obj
, name)
} else if(type.indexOf('mat') >= 0) {
var d = type.charCodeAt(type.length-1) - 48
if(d < 2 || d > 4) {
throw new GLError('', 'Invalid data type for attribute ' + name + ': ' + type)
}
addMatrixAttribute(
gl
, wrapper
, locs
, locations
, d
, obj
, name)
} else {
throw new GLError('', 'Unknown data type for attribute ' + name + ': ' + type)
}
break
}
}
return obj
}
},{"./GLError":287}],289:[function(_dereq_,module,exports){
'use strict'
var coallesceUniforms = _dereq_('./reflect')
var GLError = _dereq_("./GLError")
module.exports = createUniformWrapper
//Binds a function and returns a value
function identity(x) {
var c = new Function('y', 'return function(){return y}')
return c(x)
}
function makeVector(length, fill) {
var result = new Array(length)
for(var i=0; i<length; ++i) {
result[i] = fill
}
return result
}
//Create shims for uniforms
function createUniformWrapper(gl, wrapper, uniforms, locations) {
function makeGetter(index) {
var proc = new Function(
'gl'
, 'wrapper'
, 'locations'
, 'return function(){return gl.getUniform(wrapper.program,locations[' + index + '])}')
return proc(gl, wrapper, locations)
}
function makePropSetter(path, index, type) {
switch(type) {
case 'bool':
case 'int':
case 'sampler2D':
case 'samplerCube':
return 'gl.uniform1i(locations[' + index + '],obj' + path + ')'
case 'float':
return 'gl.uniform1f(locations[' + index + '],obj' + path + ')'
default:
var vidx = type.indexOf('vec')
if(0 <= vidx && vidx <= 1 && type.length === 4 + vidx) {
var d = type.charCodeAt(type.length-1) - 48
if(d < 2 || d > 4) {
throw new GLError('', 'Invalid data type')
}
switch(type.charAt(0)) {
case 'b':
case 'i':
return 'gl.uniform' + d + 'iv(locations[' + index + '],obj' + path + ')'
case 'v':
return 'gl.uniform' + d + 'fv(locations[' + index + '],obj' + path + ')'
default:
throw new GLError('', 'Unrecognized data type for vector ' + name + ': ' + type)
}
} else if(type.indexOf('mat') === 0 && type.length === 4) {
var d = type.charCodeAt(type.length-1) - 48
if(d < 2 || d > 4) {
throw new GLError('', 'Invalid uniform dimension type for matrix ' + name + ': ' + type)
}
return 'gl.uniformMatrix' + d + 'fv(locations[' + index + '],false,obj' + path + ')'
} else {
throw new GLError('', 'Unknown uniform data type for ' + name + ': ' + type)
}
break
}
}
function enumerateIndices(prefix, type) {
if(typeof type !== 'object') {
return [ [prefix, type] ]
}
var indices = []
for(var id in type) {
var prop = type[id]
var tprefix = prefix
if(parseInt(id) + '' === id) {
tprefix += '[' + id + ']'
} else {
tprefix += '.' + id
}
if(typeof prop === 'object') {
indices.push.apply(indices, enumerateIndices(tprefix, prop))
} else {
indices.push([tprefix, prop])
}
}
return indices
}
function makeSetter(type) {
var code = [ 'return function updateProperty(obj){' ]
var indices = enumerateIndices('', type)
for(var i=0; i<indices.length; ++i) {
var item = indices[i]
var path = item[0]
var idx = item[1]
if(locations[idx]) {
code.push(makePropSetter(path, idx, uniforms[idx].type))
}
}
code.push('return obj}')
var proc = new Function('gl', 'locations', code.join('\n'))
return proc(gl, locations)
}
function defaultValue(type) {
switch(type) {
case 'bool':
return false
case 'int':
case 'sampler2D':
case 'samplerCube':
return 0
case 'float':
return 0.0
default:
var vidx = type.indexOf('vec')
if(0 <= vidx && vidx <= 1 && type.length === 4 + vidx) {
var d = type.charCodeAt(type.length-1) - 48
if(d < 2 || d > 4) {
throw new GLError('', 'Invalid data type')
}
if(type.charAt(0) === 'b') {
return makeVector(d, false)
}
return makeVector(d, 0)
} else if(type.indexOf('mat') === 0 && type.length === 4) {
var d = type.charCodeAt(type.length-1) - 48
if(d < 2 || d > 4) {
throw new GLError('', 'Invalid uniform dimension type for matrix ' + name + ': ' + type)
}
return makeVector(d*d, 0)
} else {
throw new GLError('', 'Unknown uniform data type for ' + name + ': ' + type)
}
break
}
}
function storeProperty(obj, prop, type) {
if(typeof type === 'object') {
var child = processObject(type)
Object.defineProperty(obj, prop, {
get: identity(child),
set: makeSetter(type),
enumerable: true,
configurable: false
})
} else {
if(locations[type]) {
Object.defineProperty(obj, prop, {
get: makeGetter(type),
set: makeSetter(type),
enumerable: true,
configurable: false
})
} else {
obj[prop] = defaultValue(uniforms[type].type)
}
}
}
function processObject(obj) {
var result
if(Array.isArray(obj)) {
result = new Array(obj.length)
for(var i=0; i<obj.length; ++i) {
storeProperty(result, i, obj[i])
}
} else {
result = {}
for(var id in obj) {
storeProperty(result, id, obj[id])
}
}
return result
}
//Return data
var coallesced = coallesceUniforms(uniforms, true)
return {
get: identity(processObject(coallesced)),
set: makeSetter(coallesced),
enumerable: true,
configurable: true
}
}
},{"./GLError":287,"./reflect":290}],290:[function(_dereq_,module,exports){
'use strict'
module.exports = makeReflectTypes
//Construct type info for reflection.
//
// This iterates over the flattened list of uniform type values and smashes them into a JSON object.
//
// The leaves of the resulting object are either indices or type strings representing primitive glslify types
function makeReflectTypes(uniforms, useIndex) {
var obj = {}
for(var i=0; i<uniforms.length; ++i) {
var n = uniforms[i].name
var parts = n.split(".")
var o = obj
for(var j=0; j<parts.length; ++j) {
var x = parts[j].split("[")
if(x.length > 1) {
if(!(x[0] in o)) {
o[x[0]] = []
}
o = o[x[0]]
for(var k=1; k<x.length; ++k) {
var y = parseInt(x[k])
if(k<x.length-1 || j<parts.length-1) {
if(!(y in o)) {
if(k < x.length-1) {
o[y] = []
} else {
o[y] = {}
}
}
o = o[y]
} else {
if(useIndex) {
o[y] = i
} else {
o[y] = uniforms[i].type
}
}
}
} else if(j < parts.length-1) {
if(!(x[0] in o)) {
o[x[0]] = {}
}
o = o[x[0]]
} else {
if(useIndex) {
o[x[0]] = i
} else {
o[x[0]] = uniforms[i].type
}
}
}
}
return obj
}
},{}],291:[function(_dereq_,module,exports){
'use strict'
exports.uniforms = runtimeUniforms
exports.attributes = runtimeAttributes
var GL_TO_GLSL_TYPES = {
'FLOAT': 'float',
'FLOAT_VEC2': 'vec2',
'FLOAT_VEC3': 'vec3',
'FLOAT_VEC4': 'vec4',
'INT': 'int',
'INT_VEC2': 'ivec2',
'INT_VEC3': 'ivec3',
'INT_VEC4': 'ivec4',
'BOOL': 'bool',
'BOOL_VEC2': 'bvec2',
'BOOL_VEC3': 'bvec3',
'BOOL_VEC4': 'bvec4',
'FLOAT_MAT2': 'mat2',
'FLOAT_MAT3': 'mat3',
'FLOAT_MAT4': 'mat4',
'SAMPLER_2D': 'sampler2D',
'SAMPLER_CUBE':'samplerCube'
}
var GL_TABLE = null
function getType(gl, type) {
if(!GL_TABLE) {
var typeNames = Object.keys(GL_TO_GLSL_TYPES)
GL_TABLE = {}
for(var i=0; i<typeNames.length; ++i) {
var tn = typeNames[i]
GL_TABLE[gl[tn]] = GL_TO_GLSL_TYPES[tn]
}
}
return GL_TABLE[type]
}
function runtimeUniforms(gl, program) {
var numUniforms = gl.getProgramParameter(program, gl.ACTIVE_UNIFORMS)
var result = []
for(var i=0; i<numUniforms; ++i) {
var info = gl.getActiveUniform(program, i)
if(info) {
var type = getType(gl, info.type)
if(info.size > 1) {
for(var j=0; j<info.size; ++j) {
result.push({
name: info.name.replace('[0]', '[' + j + ']'),
type: type
})
}
} else {
result.push({
name: info.name,
type: type
})
}
}
}
return result
}
function runtimeAttributes(gl, program) {
var numAttributes = gl.getProgramParameter(program, gl.ACTIVE_ATTRIBUTES)
var result = []
for(var i=0; i<numAttributes; ++i) {
var info = gl.getActiveAttrib(program, i)
if(info) {
result.push({
name: info.name,
type: getType(gl, info.type)
})
}
}
return result
}
},{}],292:[function(_dereq_,module,exports){
'use strict'
exports.shader = getShaderReference
exports.program = createProgram
var GLError = _dereq_("./GLError")
var formatCompilerError = _dereq_('gl-format-compiler-error');
var weakMap = typeof WeakMap === 'undefined' ? _dereq_('weakmap-shim') : WeakMap
var CACHE = new weakMap()
var SHADER_COUNTER = 0
function ShaderReference(id, src, type, shader, programs, count, cache) {
this.id = id
this.src = src
this.type = type
this.shader = shader
this.count = count
this.programs = []
this.cache = cache
}
ShaderReference.prototype.dispose = function() {
if(--this.count === 0) {
var cache = this.cache
var gl = cache.gl
//Remove program references
var programs = this.programs
for(var i=0, n=programs.length; i<n; ++i) {
var p = cache.programs[programs[i]]
if(p) {
delete cache.programs[i]
gl.deleteProgram(p)
}
}
//Remove shader reference
gl.deleteShader(this.shader)
delete cache.shaders[(this.type === gl.FRAGMENT_SHADER)|0][this.src]
}
}
function ContextCache(gl) {
this.gl = gl
this.shaders = [{}, {}]
this.programs = {}
}
var proto = ContextCache.prototype
function compileShader(gl, type, src) {
var shader = gl.createShader(type)
gl.shaderSource(shader, src)
gl.compileShader(shader)
if(!gl.getShaderParameter(shader, gl.COMPILE_STATUS)) {
var errLog = gl.getShaderInfoLog(shader)
try {
var fmt = formatCompilerError(errLog, src, type);
} catch (e){
console.warn('Failed to format compiler error: ' + e);
throw new GLError(errLog, 'Error compiling shader:\n' + errLog)
}
throw new GLError(errLog, fmt.short, fmt.long)
}
return shader
}
proto.getShaderReference = function(type, src) {
var gl = this.gl
var shaders = this.shaders[(type === gl.FRAGMENT_SHADER)|0]
var shader = shaders[src]
if(!shader || !gl.isShader(shader.shader)) {
var shaderObj = compileShader(gl, type, src)
shader = shaders[src] = new ShaderReference(
SHADER_COUNTER++,
src,
type,
shaderObj,
[],
1,
this)
} else {
shader.count += 1
}
return shader
}
function linkProgram(gl, vshader, fshader, attribs, locations) {
var program = gl.createProgram()
gl.attachShader(program, vshader)
gl.attachShader(program, fshader)
for(var i=0; i<attribs.length; ++i) {
gl.bindAttribLocation(program, locations[i], attribs[i])
}
gl.linkProgram(program)
if(!gl.getProgramParameter(program, gl.LINK_STATUS)) {
var errLog = gl.getProgramInfoLog(program)
throw new GLError(errLog, 'Error linking program: ' + errLog)
}
return program
}
proto.getProgram = function(vref, fref, attribs, locations) {
var token = [vref.id, fref.id, attribs.join(':'), locations.join(':')].join('@')
var prog = this.programs[token]
if(!prog || !this.gl.isProgram(prog)) {
this.programs[token] = prog = linkProgram(
this.gl,
vref.shader,
fref.shader,
attribs,
locations)
vref.programs.push(token)
fref.programs.push(token)
}
return prog
}
function getCache(gl) {
var ctxCache = CACHE.get(gl)
if(!ctxCache) {
ctxCache = new ContextCache(gl)
CACHE.set(gl, ctxCache)
}
return ctxCache
}
function getShaderReference(gl, type, src) {
return getCache(gl).getShaderReference(type, src)
}
function createProgram(gl, vref, fref, attribs, locations) {
return getCache(gl).getProgram(vref, fref, attribs, locations)
}
},{"./GLError":287,"gl-format-compiler-error":239,"weakmap-shim":529}],293:[function(_dereq_,module,exports){
'use strict'
module.exports = createSpikes2D
function GLSpikes2D(plot) {
this.plot = plot
this.enable = [true, true, false, false]
this.width = [1, 1, 1, 1]
this.color = [[0,0,0,1],
[0,0,0,1],
[0,0,0,1],
[0,0,0,1]]
this.center = [Infinity, Infinity]
}
var proto = GLSpikes2D.prototype
proto.update = function(options) {
options = options || {}
this.enable = (options.enable || [true,true,false,false]).slice()
this.width = (options.width || [1,1,1,1]).slice()
this.color = (options.color || [
[0,0,0,1],
[0,0,0,1],
[0,0,0,1],
[0,0,0,1]]).map(function(x) { return x.slice() })
this.center = (options.center || [Infinity,Infinity]).slice()
this.plot.setOverlayDirty()
}
proto.draw = function() {
var spikeEnable = this.enable
var spikeWidth = this.width
var spikeColor = this.color
var spikeCenter = this.center
var plot = this.plot
var line = plot.line
var dataBox = plot.dataBox
var viewPixels = plot.viewBox
line.bind()
if(dataBox[0] <= spikeCenter[0] && spikeCenter[0] <= dataBox[2] &&
dataBox[1] <= spikeCenter[1] && spikeCenter[1] <= dataBox[3]) {
var centerX = viewPixels[0] + (spikeCenter[0] - dataBox[0]) / (dataBox[2] - dataBox[0]) * (viewPixels[2] - viewPixels[0])
var centerY = viewPixels[1] + (spikeCenter[1] - dataBox[1]) / (dataBox[3] - dataBox[1]) * (viewPixels[3] - viewPixels[1])
if(spikeEnable[0]) {
line.drawLine(
centerX, centerY,
viewPixels[0], centerY,
spikeWidth[0], spikeColor[0])
}
if(spikeEnable[1]) {
line.drawLine(
centerX, centerY,
centerX, viewPixels[1],
spikeWidth[1], spikeColor[1])
}
if(spikeEnable[2]) {
line.drawLine(
centerX, centerY,
viewPixels[2], centerY,
spikeWidth[2], spikeColor[2])
}
if(spikeEnable[3]) {
line.drawLine(
centerX, centerY,
centerX, viewPixels[3],
spikeWidth[3], spikeColor[3])
}
}
}
proto.dispose = function() {
this.plot.removeOverlay(this)
}
function createSpikes2D(plot, options) {
var spikes = new GLSpikes2D(plot)
spikes.update(options)
plot.addOverlay(spikes)
return spikes
}
},{}],294:[function(_dereq_,module,exports){
'use strict'
var glslify = _dereq_('glslify')
var createShader = _dereq_('gl-shader')
var vertSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3 position, color;\nattribute float weight;\n\nuniform mat4 model, view, projection;\nuniform vec3 coordinates[3];\nuniform vec4 colors[3];\nuniform vec2 screenShape;\nuniform float lineWidth;\n\nvarying vec4 fragColor;\n\nvoid main() {\n vec3 vertexPosition = mix(coordinates[0],\n mix(coordinates[2], coordinates[1], 0.5 * (position + 1.0)), abs(position));\n\n vec4 clipPos = projection * view * model * vec4(vertexPosition, 1.0);\n vec2 clipOffset = (projection * view * model * vec4(color, 0.0)).xy;\n vec2 delta = weight * clipOffset * screenShape;\n vec2 lineOffset = normalize(vec2(delta.y, -delta.x)) / screenShape;\n\n gl_Position = vec4(clipPos.xy + clipPos.w * 0.5 * lineWidth * lineOffset, clipPos.z, clipPos.w);\n fragColor = color.x * colors[0] + color.y * colors[1] + color.z * colors[2];\n}\n"])
var fragSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nvarying vec4 fragColor;\n\nvoid main() {\n gl_FragColor = fragColor;\n}"])
module.exports = function(gl) {
return createShader(gl, vertSrc, fragSrc, null, [
{name: 'position', type: 'vec3'},
{name: 'color', type: 'vec3'},
{name: 'weight', type: 'float'}
])
}
},{"gl-shader":286,"glslify":390}],295:[function(_dereq_,module,exports){
'use strict'
var createBuffer = _dereq_('gl-buffer')
var createVAO = _dereq_('gl-vao')
var createShader = _dereq_('./shaders/index')
module.exports = createSpikes
var identity = [1,0,0,0,
0,1,0,0,
0,0,1,0,
0,0,0,1]
function AxisSpikes(gl, buffer, vao, shader) {
this.gl = gl
this.buffer = buffer
this.vao = vao
this.shader = shader
this.pixelRatio = 1
this.bounds = [[-1000,-1000,-1000], [1000,1000,1000]]
this.position = [0,0,0]
this.lineWidth = [2,2,2]
this.colors = [[0,0,0,1], [0,0,0,1], [0,0,0,1]]
this.enabled = [true,true,true]
this.drawSides = [true,true,true]
this.axes = null
}
var proto = AxisSpikes.prototype
var OUTER_FACE = [0,0,0]
var INNER_FACE = [0,0,0]
var SHAPE = [0,0]
proto.isTransparent = function() {
return false
}
proto.drawTransparent = function(camera) {}
proto.draw = function(camera) {
var gl = this.gl
var vao = this.vao
var shader = this.shader
vao.bind()
shader.bind()
var model = camera.model || identity
var view = camera.view || identity
var projection = camera.projection || identity
var axis
if(this.axes) {
axis = this.axes.lastCubeProps.axis
}
var outerFace = OUTER_FACE
var innerFace = INNER_FACE
for(var i=0; i<3; ++i) {
if(axis && axis[i] < 0) {
outerFace[i] = this.bounds[0][i]
innerFace[i] = this.bounds[1][i]
} else {
outerFace[i] = this.bounds[1][i]
innerFace[i] = this.bounds[0][i]
}
}
SHAPE[0] = gl.drawingBufferWidth
SHAPE[1] = gl.drawingBufferHeight
shader.uniforms.model = model
shader.uniforms.view = view
shader.uniforms.projection = projection
shader.uniforms.coordinates = [this.position, outerFace, innerFace]
shader.uniforms.colors = this.colors
shader.uniforms.screenShape = SHAPE
for(var i=0; i<3; ++i) {
shader.uniforms.lineWidth = this.lineWidth[i] * this.pixelRatio
if(this.enabled[i]) {
vao.draw(gl.TRIANGLES, 6, 6*i)
if(this.drawSides[i]) {
vao.draw(gl.TRIANGLES, 12, 18+12*i)
}
}
}
vao.unbind()
}
proto.update = function(options) {
if(!options) {
return
}
if("bounds" in options) {
this.bounds = options.bounds
}
if("position" in options) {
this.position = options.position
}
if("lineWidth" in options) {
this.lineWidth = options.lineWidth
}
if("colors" in options) {
this.colors = options.colors
}
if("enabled" in options) {
this.enabled = options.enabled
}
if("drawSides" in options) {
this.drawSides = options.drawSides
}
}
proto.dispose = function() {
this.vao.dispose()
this.buffer.dispose()
this.shader.dispose()
}
function createSpikes(gl, options) {
//Create buffers
var data = [ ]
function line(x,y,z,i,l,h) {
var row = [x,y,z, 0,0,0, 1]
row[i+3] = 1
row[i] = l
data.push.apply(data, row)
row[6] = -1
data.push.apply(data, row)
row[i] = h
data.push.apply(data, row)
data.push.apply(data, row)
row[6] = 1
data.push.apply(data, row)
row[i] = l
data.push.apply(data, row)
}
line(0,0,0, 0, 0, 1)
line(0,0,0, 1, 0, 1)
line(0,0,0, 2, 0, 1)
line(1,0,0, 1, -1,1)
line(1,0,0, 2, -1,1)
line(0,1,0, 0, -1,1)
line(0,1,0, 2, -1,1)
line(0,0,1, 0, -1,1)
line(0,0,1, 1, -1,1)
var buffer = createBuffer(gl, data)
var vao = createVAO(gl, [{
type: gl.FLOAT,
buffer: buffer,
size: 3,
offset: 0,
stride: 28
}, {
type: gl.FLOAT,
buffer: buffer,
size: 3,
offset: 12,
stride: 28
}, {
type: gl.FLOAT,
buffer: buffer,
size: 1,
offset: 24,
stride: 28
}])
//Create shader
var shader = createShader(gl)
shader.attributes.position.location = 0
shader.attributes.color.location = 1
shader.attributes.weight.location = 2
//Create spike object
var spikes = new AxisSpikes(gl, buffer, vao, shader)
//Set parameters
spikes.update(options)
//Return resulting object
return spikes
}
},{"./shaders/index":294,"gl-buffer":229,"gl-vao":308}],296:[function(_dereq_,module,exports){
arguments[4][231][0].apply(exports,arguments)
},{"barycentric":60,"dup":231,"polytope-closest-point/lib/closest_point_2d.js":461}],297:[function(_dereq_,module,exports){
var glslify = _dereq_('glslify')
var triVertSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nfloat inverse(float m) {\n return 1.0 / m;\n}\n\nmat2 inverse(mat2 m) {\n return mat2(m[1][1],-m[0][1],\n -m[1][0], m[0][0]) / (m[0][0]*m[1][1] - m[0][1]*m[1][0]);\n}\n\nmat3 inverse(mat3 m) {\n float a00 = m[0][0], a01 = m[0][1], a02 = m[0][2];\n float a10 = m[1][0], a11 = m[1][1], a12 = m[1][2];\n float a20 = m[2][0], a21 = m[2][1], a22 = m[2][2];\n\n float b01 = a22 * a11 - a12 * a21;\n float b11 = -a22 * a10 + a12 * a20;\n float b21 = a21 * a10 - a11 * a20;\n\n float det = a00 * b01 + a01 * b11 + a02 * b21;\n\n return mat3(b01, (-a22 * a01 + a02 * a21), (a12 * a01 - a02 * a11),\n b11, (a22 * a00 - a02 * a20), (-a12 * a00 + a02 * a10),\n b21, (-a21 * a00 + a01 * a20), (a11 * a00 - a01 * a10)) / det;\n}\n\nmat4 inverse(mat4 m) {\n float\n a00 = m[0][0], a01 = m[0][1], a02 = m[0][2], a03 = m[0][3],\n a10 = m[1][0], a11 = m[1][1], a12 = m[1][2], a13 = m[1][3],\n a20 = m[2][0], a21 = m[2][1], a22 = m[2][2], a23 = m[2][3],\n a30 = m[3][0], a31 = m[3][1], a32 = m[3][2], a33 = m[3][3],\n\n b00 = a00 * a11 - a01 * a10,\n b01 = a00 * a12 - a02 * a10,\n b02 = a00 * a13 - a03 * a10,\n b03 = a01 * a12 - a02 * a11,\n b04 = a01 * a13 - a03 * a11,\n b05 = a02 * a13 - a03 * a12,\n b06 = a20 * a31 - a21 * a30,\n b07 = a20 * a32 - a22 * a30,\n b08 = a20 * a33 - a23 * a30,\n b09 = a21 * a32 - a22 * a31,\n b10 = a21 * a33 - a23 * a31,\n b11 = a22 * a33 - a23 * a32,\n\n det = b00 * b11 - b01 * b10 + b02 * b09 + b03 * b08 - b04 * b07 + b05 * b06;\n\n return mat4(\n a11 * b11 - a12 * b10 + a13 * b09,\n a02 * b10 - a01 * b11 - a03 * b09,\n a31 * b05 - a32 * b04 + a33 * b03,\n a22 * b04 - a21 * b05 - a23 * b03,\n a12 * b08 - a10 * b11 - a13 * b07,\n a00 * b11 - a02 * b08 + a03 * b07,\n a32 * b02 - a30 * b05 - a33 * b01,\n a20 * b05 - a22 * b02 + a23 * b01,\n a10 * b10 - a11 * b08 + a13 * b06,\n a01 * b08 - a00 * b10 - a03 * b06,\n a30 * b04 - a31 * b02 + a33 * b00,\n a21 * b02 - a20 * b04 - a23 * b00,\n a11 * b07 - a10 * b09 - a12 * b06,\n a00 * b09 - a01 * b07 + a02 * b06,\n a31 * b01 - a30 * b03 - a32 * b00,\n a20 * b03 - a21 * b01 + a22 * b00) / det;\n}\n\nvec3 getOrthogonalVector(vec3 v) {\n // Return up-vector for only-z vector.\n // Return ax + by + cz = 0, a point that lies on the plane that has v as a normal and that isn't (0,0,0).\n // From the above if-statement we have ||a|| > 0 U ||b|| > 0.\n // Assign z = 0, x = -b, y = a:\n // a*-b + b*a + c*0 = -ba + ba + 0 = 0\n if (v.x*v.x > v.z*v.z || v.y*v.y > v.z*v.z) {\n return normalize(vec3(-v.y, v.x, 0.0));\n } else {\n return normalize(vec3(0.0, v.z, -v.y));\n }\n}\n\n// Calculate the tube vertex and normal at the given index.\n//\n// The returned vertex is for a tube ring with its center at origin, radius of length(d), pointing in the direction of d.\n//\n// Each tube segment is made up of a ring of vertices.\n// These vertices are used to make up the triangles of the tube by connecting them together in the vertex array.\n// The indexes of tube segments run from 0 to 8.\n//\nvec3 getTubePosition(vec3 d, float index, out vec3 normal) {\n float segmentCount = 8.0;\n\n float angle = 2.0 * 3.14159 * (index / segmentCount);\n\n vec3 u = getOrthogonalVector(d);\n vec3 v = normalize(cross(u, d));\n\n vec3 x = u * cos(angle) * length(d);\n vec3 y = v * sin(angle) * length(d);\n vec3 v3 = x + y;\n\n normal = normalize(v3);\n\n return v3;\n}\n\nattribute vec4 vector;\nattribute vec4 color, position;\nattribute vec2 uv;\nuniform float tubeScale;\n\nuniform mat4 model\n , view\n , projection;\nuniform vec3 eyePosition\n , lightPosition;\n\nvarying vec3 f_normal\n , f_lightDirection\n , f_eyeDirection\n , f_data;\nvarying vec4 f_color;\nvarying vec2 f_uv;\n\nvoid main() {\n // Scale the vector magnitude to stay constant with\n // model & view changes.\n vec3 normal;\n vec4 tubePosition = model * vec4(position.xyz, 1.0) + vec4(getTubePosition(mat3(model) * (tubeScale * vector.w * normalize(vector.xyz)), position.w, normal), 0.0);\n normal = normalize(normal * inverse(mat3(model)));\n\n vec4 t_position = view * tubePosition;\n gl_Position = projection * t_position;\n f_color = color;\n f_normal = normal;\n f_data = tubePosition.xyz;\n f_eyeDirection = eyePosition - tubePosition.xyz;\n f_lightDirection = lightPosition - tubePosition.xyz;\n f_uv = uv;\n}\n"])
var triFragSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nfloat beckmannDistribution(float x, float roughness) {\n float NdotH = max(x, 0.0001);\n float cos2Alpha = NdotH * NdotH;\n float tan2Alpha = (cos2Alpha - 1.0) / cos2Alpha;\n float roughness2 = roughness * roughness;\n float denom = 3.141592653589793 * roughness2 * cos2Alpha * cos2Alpha;\n return exp(tan2Alpha / roughness2) / denom;\n}\n\nfloat cookTorranceSpecular(\n vec3 lightDirection,\n vec3 viewDirection,\n vec3 surfaceNormal,\n float roughness,\n float fresnel) {\n\n float VdotN = max(dot(viewDirection, surfaceNormal), 0.0);\n float LdotN = max(dot(lightDirection, surfaceNormal), 0.0);\n\n //Half angle vector\n vec3 H = normalize(lightDirection + viewDirection);\n\n //Geometric term\n float NdotH = max(dot(surfaceNormal, H), 0.0);\n float VdotH = max(dot(viewDirection, H), 0.000001);\n float LdotH = max(dot(lightDirection, H), 0.000001);\n float G1 = (2.0 * NdotH * VdotN) / VdotH;\n float G2 = (2.0 * NdotH * LdotN) / LdotH;\n float G = min(1.0, min(G1, G2));\n \n //Distribution term\n float D = beckmannDistribution(NdotH, roughness);\n\n //Fresnel term\n float F = pow(1.0 - VdotN, fresnel);\n\n //Multiply terms and done\n return G * F * D / max(3.14159265 * VdotN, 0.000001);\n}\n\nuniform vec3 clipBounds[2];\nuniform float roughness\n , fresnel\n , kambient\n , kdiffuse\n , kspecular\n , opacity;\nuniform sampler2D texture;\n\nvarying vec3 f_normal\n , f_lightDirection\n , f_eyeDirection\n , f_data;\nvarying vec4 f_color;\nvarying vec2 f_uv;\n\nvoid main() {\n vec3 N = normalize(f_normal);\n vec3 L = normalize(f_lightDirection);\n vec3 V = normalize(f_eyeDirection);\n \n if(!gl_FrontFacing) {\n N = -N;\n }\n\n float specular = cookTorranceSpecular(L, V, N, roughness, fresnel);\n float diffuse = min(kambient + kdiffuse * max(dot(N, L), 0.0), 1.0);\n\n vec4 surfaceColor = texture2D(texture, f_uv);\n vec4 litColor = surfaceColor.a * vec4(diffuse * surfaceColor.rgb + kspecular * vec3(1,1,1) * specular, 1.0);\n\n gl_FragColor = litColor * opacity;\n}"])
var pickVertSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nvec3 getOrthogonalVector(vec3 v) {\n // Return up-vector for only-z vector.\n // Return ax + by + cz = 0, a point that lies on the plane that has v as a normal and that isn't (0,0,0).\n // From the above if-statement we have ||a|| > 0 U ||b|| > 0.\n // Assign z = 0, x = -b, y = a:\n // a*-b + b*a + c*0 = -ba + ba + 0 = 0\n if (v.x*v.x > v.z*v.z || v.y*v.y > v.z*v.z) {\n return normalize(vec3(-v.y, v.x, 0.0));\n } else {\n return normalize(vec3(0.0, v.z, -v.y));\n }\n}\n\n// Calculate the tube vertex and normal at the given index.\n//\n// The returned vertex is for a tube ring with its center at origin, radius of length(d), pointing in the direction of d.\n//\n// Each tube segment is made up of a ring of vertices.\n// These vertices are used to make up the triangles of the tube by connecting them together in the vertex array.\n// The indexes of tube segments run from 0 to 8.\n//\nvec3 getTubePosition(vec3 d, float index, out vec3 normal) {\n float segmentCount = 8.0;\n\n float angle = 2.0 * 3.14159 * (index / segmentCount);\n\n vec3 u = getOrthogonalVector(d);\n vec3 v = normalize(cross(u, d));\n\n vec3 x = u * cos(angle) * length(d);\n vec3 y = v * sin(angle) * length(d);\n vec3 v3 = x + y;\n\n normal = normalize(v3);\n\n return v3;\n}\n\nattribute vec4 vector;\nattribute vec4 position;\nattribute vec4 id;\n\nuniform mat4 model, view, projection;\nuniform float tubeScale;\n\nvarying vec3 f_position;\nvarying vec4 f_id;\n\nvoid main() {\n vec3 normal;\n vec4 tubePosition = model * vec4(position.xyz, 1.0) + vec4(getTubePosition(mat3(model) * (tubeScale * vector.w * normalize(vector.xyz)), position.w, normal), 0.0);\n gl_Position = projection * view * tubePosition;\n f_id = id;\n f_position = position.xyz;\n}\n"])
var pickFragSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nuniform vec3 clipBounds[2];\nuniform float pickId;\n\nvarying vec3 f_position;\nvarying vec4 f_id;\n\nvoid main() {\n gl_FragColor = vec4(pickId, f_id.xyz);\n}"])
exports.meshShader = {
vertex: triVertSrc,
fragment: triFragSrc,
attributes: [
{name: 'position', type: 'vec4'},
{name: 'normal', type: 'vec3'},
{name: 'color', type: 'vec4'},
{name: 'uv', type: 'vec2'},
{name: 'vector', type: 'vec4'}
]
}
exports.pickShader = {
vertex: pickVertSrc,
fragment: pickFragSrc,
attributes: [
{name: 'position', type: 'vec4'},
{name: 'id', type: 'vec4'},
{name: 'vector', type: 'vec4'}
]
}
},{"glslify":390}],298:[function(_dereq_,module,exports){
'use strict'
var DEFAULT_VERTEX_NORMALS_EPSILON = 1e-6; // may be too large if triangles are very small
var DEFAULT_FACE_NORMALS_EPSILON = 1e-6;
var createShader = _dereq_('gl-shader')
var createBuffer = _dereq_('gl-buffer')
var createVAO = _dereq_('gl-vao')
var createTexture = _dereq_('gl-texture2d')
var normals = _dereq_('normals')
var multiply = _dereq_('gl-mat4/multiply')
var invert = _dereq_('gl-mat4/invert')
var ndarray = _dereq_('ndarray')
var colormap = _dereq_('colormap')
var getContour = _dereq_('simplicial-complex-contour')
var pool = _dereq_('typedarray-pool')
var shaders = _dereq_('./shaders')
var closestPoint = _dereq_('./closest-point')
var meshShader = shaders.meshShader
var pickShader = shaders.pickShader
var identityMatrix = [
1,0,0,0,
0,1,0,0,
0,0,1,0,
0,0,0,1]
function SimplicialMesh(gl
, texture
, triShader
, lineShader
, pointShader
, pickShader
, pointPickShader
, contourShader
, trianglePositions
, triangleVectors
, triangleIds
, triangleColors
, triangleUVs
, triangleNormals
, triangleVAO
, edgePositions
, edgeIds
, edgeColors
, edgeUVs
, edgeVAO
, pointPositions
, pointIds
, pointColors
, pointUVs
, pointSizes
, pointVAO
, contourPositions
, contourVAO) {
this.gl = gl
this.cells = []
this.positions = []
this.intensity = []
this.texture = texture
this.dirty = true
this.triShader = triShader
this.lineShader = lineShader
this.pointShader = pointShader
this.pickShader = pickShader
this.pointPickShader = pointPickShader
this.contourShader = contourShader
this.trianglePositions = trianglePositions
this.triangleVectors = triangleVectors
this.triangleColors = triangleColors
this.triangleNormals = triangleNormals
this.triangleUVs = triangleUVs
this.triangleIds = triangleIds
this.triangleVAO = triangleVAO
this.triangleCount = 0
this.lineWidth = 1
this.edgePositions = edgePositions
this.edgeColors = edgeColors
this.edgeUVs = edgeUVs
this.edgeIds = edgeIds
this.edgeVAO = edgeVAO
this.edgeCount = 0
this.pointPositions = pointPositions
this.pointColors = pointColors
this.pointUVs = pointUVs
this.pointSizes = pointSizes
this.pointIds = pointIds
this.pointVAO = pointVAO
this.pointCount = 0
this.contourLineWidth = 1
this.contourPositions = contourPositions
this.contourVAO = contourVAO
this.contourCount = 0
this.contourColor = [0,0,0]
this.contourEnable = false
this.pickId = 1
this.bounds = [
[ Infinity, Infinity, Infinity],
[-Infinity,-Infinity,-Infinity] ]
this.clipBounds = [
[-Infinity,-Infinity,-Infinity],
[ Infinity, Infinity, Infinity] ]
this.lightPosition = [1e5, 1e5, 0]
this.ambientLight = 0.8
this.diffuseLight = 0.8
this.specularLight = 2.0
this.roughness = 0.5
this.fresnel = 1.5
this.opacity = 1.0
this.tubeScale = 1.0
this._model = identityMatrix
this._view = identityMatrix
this._projection = identityMatrix
this._resolution = [1,1]
}
var proto = SimplicialMesh.prototype
proto.isOpaque = function() {
return this.opacity >= 1
}
proto.isTransparent = function() {
return this.opacity < 1
}
proto.pickSlots = 1
proto.setPickBase = function(id) {
this.pickId = id
}
function genColormap(param) {
var colors = colormap({
colormap: param
, nshades: 256
, format: 'rgba'
})
var result = new Uint8Array(256*4)
for(var i=0; i<256; ++i) {
var c = colors[i]
for(var j=0; j<3; ++j) {
result[4*i+j] = c[j]
}
result[4*i+3] = c[3]*255
}
return ndarray(result, [256,256,4], [4,0,1])
}
function unpackIntensity(cells, numVerts, cellIntensity) {
var result = new Array(numVerts)
for(var i=0; i<numVerts; ++i) {
result[i] = 0
}
var numCells = cells.length
for(var i=0; i<numCells; ++i) {
var c = cells[i]
for(var j=0; j<c.length; ++j) {
result[c[j]] = cellIntensity[i]
}
}
return result
}
function takeZComponent(array) {
var n = array.length
var result = new Array(n)
for(var i=0; i<n; ++i) {
result[i] = array[i][2]
}
return result
}
proto.highlight = function(selection) {
if(!selection || !this.contourEnable) {
this.contourCount = 0
return
}
var level = getContour(this.cells, this.intensity, selection.intensity)
var cells = level.cells
var vertexIds = level.vertexIds
var vertexWeights = level.vertexWeights
var numCells = cells.length
var result = pool.mallocFloat32(2 * 3 * numCells)
var ptr = 0
for(var i=0; i<numCells; ++i) {
var c = cells[i]
for(var j=0; j<2; ++j) {
var v = c[0]
if(c.length === 2) {
v = c[j]
}
var a = vertexIds[v][0]
var b = vertexIds[v][1]
var w = vertexWeights[v]
var wi = 1.0 - w
var pa = this.positions[a]
var pb = this.positions[b]
for(var k=0; k<3; ++k) {
result[ptr++] = w * pa[k] + wi * pb[k]
}
}
}
this.contourCount = (ptr / 3)|0
this.contourPositions.update(result.subarray(0, ptr))
pool.free(result)
}
proto.update = function(params) {
params = params || {}
var gl = this.gl
this.dirty = true
if('contourEnable' in params) {
this.contourEnable = params.contourEnable
}
if('contourColor' in params) {
this.contourColor = params.contourColor
}
if('lineWidth' in params) {
this.lineWidth = params.lineWidth
}
if('lightPosition' in params) {
this.lightPosition = params.lightPosition
}
if('opacity' in params) {
this.opacity = params.opacity
}
if('ambient' in params) {
this.ambientLight = params.ambient
}
if('diffuse' in params) {
this.diffuseLight = params.diffuse
}
if('specular' in params) {
this.specularLight = params.specular
}
if('roughness' in params) {
this.roughness = params.roughness
}
if('fresnel' in params) {
this.fresnel = params.fresnel
}
if(params.texture) {
this.texture.dispose()
this.texture = createTexture(gl, params.texture)
} else if (params.colormap) {
this.texture.shape = [256,256]
this.texture.minFilter = gl.LINEAR_MIPMAP_LINEAR
this.texture.magFilter = gl.LINEAR
this.texture.setPixels(genColormap(params.colormap))
this.texture.generateMipmap()
}
var cells = params.cells
var positions = params.positions
var vectors = params.vectors
if(!positions || !cells || !vectors) {
return
}
if (params.tubeScale !== undefined) {
this.tubeScale = params.tubeScale;
}
var tPos = []
var tVec = []
var tCol = []
var tNor = []
var tUVs = []
var tIds = []
var ePos = []
var eCol = []
var eUVs = []
var eIds = []
var pPos = []
var pCol = []
var pUVs = []
var pSiz = []
var pIds = []
//Save geometry data for picking calculations
this.cells = cells
this.positions = positions
this.vectors = vectors
//Compute normals
var vertexNormals = params.vertexNormals
var cellNormals = params.cellNormals
var vertexNormalsEpsilon = params.vertexNormalsEpsilon === void(0) ? DEFAULT_VERTEX_NORMALS_EPSILON : params.vertexNormalsEpsilon
var faceNormalsEpsilon = params.faceNormalsEpsilon === void(0) ? DEFAULT_FACE_NORMALS_EPSILON : params.faceNormalsEpsilon
if(params.useFacetNormals && !cellNormals) {
cellNormals = normals.faceNormals(cells, positions, faceNormalsEpsilon)
}
if(!cellNormals && !vertexNormals) {
vertexNormals = normals.vertexNormals(cells, positions, vertexNormalsEpsilon)
}
//Compute colors
var vertexColors = params.vertexColors
var cellColors = params.cellColors
var meshColor = params.meshColor || [1,1,1,1]
//UVs
var vertexUVs = params.vertexUVs
var vertexIntensity = params.vertexIntensity
var cellUVs = params.cellUVs
var cellIntensity = params.cellIntensity
var intensityLo = Infinity
var intensityHi = -Infinity
if(!vertexUVs && !cellUVs) {
if(vertexIntensity) {
if(params.vertexIntensityBounds) {
intensityLo = +params.vertexIntensityBounds[0]
intensityHi = +params.vertexIntensityBounds[1]
} else {
for(var i=0; i<vertexIntensity.length; ++i) {
var f = vertexIntensity[i]
intensityLo = Math.min(intensityLo, f)
intensityHi = Math.max(intensityHi, f)
}
}
} else if(cellIntensity) {
for(var i=0; i<cellIntensity.length; ++i) {
var f = cellIntensity[i]
intensityLo = Math.min(intensityLo, f)
intensityHi = Math.max(intensityHi, f)
}
} else {
for(var i=0; i<positions.length; ++i) {
var f = positions[i][2]
intensityLo = Math.min(intensityLo, f)
intensityHi = Math.max(intensityHi, f)
}
}
}
if(vertexIntensity) {
this.intensity = vertexIntensity
} else if(cellIntensity) {
this.intensity = unpackIntensity(cells, positions.length, cellIntensity)
} else {
this.intensity = takeZComponent(positions)
}
//Point size
var pointSizes = params.pointSizes
var meshPointSize = params.pointSize || 1.0
//Update bounds
this.bounds = [[Infinity,Infinity,Infinity], [-Infinity,-Infinity,-Infinity]]
for(var i=0; i<positions.length; ++i) {
var p = positions[i]
for(var j=0; j<3; ++j) {
if(isNaN(p[j]) || !isFinite(p[j])) {
continue
}
this.bounds[0][j] = Math.min(this.bounds[0][j], p[j])
this.bounds[1][j] = Math.max(this.bounds[1][j], p[j])
}
}
//Pack cells into buffers
var triangleCount = 0
var edgeCount = 0
var pointCount = 0
fill_loop:
for(var i=0; i<cells.length; ++i) {
var cell = cells[i]
switch(cell.length) {
case 1:
var v = cell[0]
var p = positions[v]
//Check NaNs
for(var j=0; j<3; ++j) {
if(isNaN(p[j]) || !isFinite(p[j])) {
continue fill_loop
}
}
pPos.push(p[0], p[1], p[2], p[3])
var c
if(vertexColors) {
c = vertexColors[v]
} else if(cellColors) {
c = cellColors[i]
} else {
c = meshColor
}
if(c.length === 3) {
pCol.push(c[0], c[1], c[2], 1)
} else {
pCol.push(c[0], c[1], c[2], c[3])
}
var uv
if(vertexUVs) {
uv = vertexUVs[v]
} else if(vertexIntensity) {
uv = [
(vertexIntensity[v] - intensityLo) /
(intensityHi - intensityLo), 0]
} else if(cellUVs) {
uv = cellUVs[i]
} else if(cellIntensity) {
uv = [
(cellIntensity[i] - intensityLo) /
(intensityHi - intensityLo), 0]
} else {
uv = [
(p[2] - intensityLo) /
(intensityHi - intensityLo), 0]
}
pUVs.push(uv[0], uv[1])
if(pointSizes) {
pSiz.push(pointSizes[v])
} else {
pSiz.push(meshPointSize)
}
pIds.push(i)
pointCount += 1
break
case 2:
//Check NaNs
for(var j=0; j<2; ++j) {
var v = cell[j]
var p = positions[v]
for(var k=0; k<3; ++k) {
if(isNaN(p[k]) || !isFinite(p[k])) {
continue fill_loop
}
}
}
for(var j=0; j<2; ++j) {
var v = cell[j]
var p = positions[v]
ePos.push(p[0], p[1], p[2])
var c
if(vertexColors) {
c = vertexColors[v]
} else if(cellColors) {
c = cellColors[i]
} else {
c = meshColor
}
if(c.length === 3) {
eCol.push(c[0], c[1], c[2], 1)
} else {
eCol.push(c[0], c[1], c[2], c[3])
}
var uv
if(vertexUVs) {
uv = vertexUVs[v]
} else if(vertexIntensity) {
uv = [
(vertexIntensity[v] - intensityLo) /
(intensityHi - intensityLo), 0]
} else if(cellUVs) {
uv = cellUVs[i]
} else if(cellIntensity) {
uv = [
(cellIntensity[i] - intensityLo) /
(intensityHi - intensityLo), 0]
} else {
uv = [
(p[2] - intensityLo) /
(intensityHi - intensityLo), 0]
}
eUVs.push(uv[0], uv[1])
eIds.push(i)
}
edgeCount += 1
break
case 3:
//Check NaNs
for(var j=0; j<3; ++j) {
var v = cell[j]
var p = positions[v]
for(var k=0; k<3; ++k) {
if(isNaN(p[k]) || !isFinite(p[k])) {
continue fill_loop
}
}
}
for(var j=0; j<3; ++j) {
var v = cell[j]
var p = positions[v]
tPos.push(p[0], p[1], p[2], p[3])
var w = vectors[v]
tVec.push(w[0], w[1], w[2], w[3]);
var c
if(vertexColors) {
c = vertexColors[v]
} else if(cellColors) {
c = cellColors[i]
} else {
c = meshColor
}
if(c.length === 3) {
tCol.push(c[0], c[1], c[2], 1)
} else {
tCol.push(c[0], c[1], c[2], c[3])
}
var uv
if(vertexUVs) {
uv = vertexUVs[v]
} else if(vertexIntensity) {
uv = [
(vertexIntensity[v] - intensityLo) /
(intensityHi - intensityLo), 0]
} else if(cellUVs) {
uv = cellUVs[i]
} else if(cellIntensity) {
uv = [
(cellIntensity[i] - intensityLo) /
(intensityHi - intensityLo), 0]
} else {
uv = [
(p[2] - intensityLo) /
(intensityHi - intensityLo), 0]
}
tUVs.push(uv[0], uv[1])
var q
if(vertexNormals) {
q = vertexNormals[v]
} else {
q = cellNormals[i]
}
tNor.push(q[0], q[1], q[2])
tIds.push(i)
}
triangleCount += 1
break
default:
break
}
}
this.pointCount = pointCount
this.edgeCount = edgeCount
this.triangleCount = triangleCount
this.pointPositions.update(pPos)
this.pointColors.update(pCol)
this.pointUVs.update(pUVs)
this.pointSizes.update(pSiz)
this.pointIds.update(new Uint32Array(pIds))
this.edgePositions.update(ePos)
this.edgeColors.update(eCol)
this.edgeUVs.update(eUVs)
this.edgeIds.update(new Uint32Array(eIds))
this.trianglePositions.update(tPos)
this.triangleVectors.update(tVec)
this.triangleColors.update(tCol)
this.triangleUVs.update(tUVs)
this.triangleNormals.update(tNor)
this.triangleIds.update(new Uint32Array(tIds))
}
proto.drawTransparent = proto.draw = function(params) {
params = params || {}
var gl = this.gl
var model = params.model || identityMatrix
var view = params.view || identityMatrix
var projection = params.projection || identityMatrix
var clipBounds = [[-1e6,-1e6,-1e6],[1e6,1e6,1e6]]
for(var i=0; i<3; ++i) {
clipBounds[0][i] = Math.max(clipBounds[0][i], this.clipBounds[0][i])
clipBounds[1][i] = Math.min(clipBounds[1][i], this.clipBounds[1][i])
}
var uniforms = {
model: model,
view: view,
projection: projection,
clipBounds: clipBounds,
kambient: this.ambientLight,
kdiffuse: this.diffuseLight,
kspecular: this.specularLight,
roughness: this.roughness,
fresnel: this.fresnel,
eyePosition: [0,0,0],
lightPosition: [0,0,0],
opacity: this.opacity,
tubeScale: this.tubeScale,
contourColor: this.contourColor,
texture: 0
}
this.texture.bind(0)
var invCameraMatrix = new Array(16)
multiply(invCameraMatrix, uniforms.view, uniforms.model)
multiply(invCameraMatrix, uniforms.projection, invCameraMatrix)
invert(invCameraMatrix, invCameraMatrix)
for(var i=0; i<3; ++i) {
uniforms.eyePosition[i] = invCameraMatrix[12+i] / invCameraMatrix[15]
}
var w = invCameraMatrix[15]
for(var i=0; i<3; ++i) {
w += this.lightPosition[i] * invCameraMatrix[4*i+3]
}
for(var i=0; i<3; ++i) {
var s = invCameraMatrix[12+i]
for(var j=0; j<3; ++j) {
s += invCameraMatrix[4*j+i] * this.lightPosition[j]
}
uniforms.lightPosition[i] = s / w
}
if(this.triangleCount > 0) {
var shader = this.triShader
shader.bind()
shader.uniforms = uniforms
this.triangleVAO.bind()
gl.drawArrays(gl.TRIANGLES, 0, this.triangleCount*3)
this.triangleVAO.unbind()
}
if(this.edgeCount > 0 && this.lineWidth > 0) {
var shader = this.lineShader
shader.bind()
shader.uniforms = uniforms
this.edgeVAO.bind()
gl.lineWidth(this.lineWidth)
gl.drawArrays(gl.LINES, 0, this.edgeCount*2)
this.edgeVAO.unbind()
}
if(this.pointCount > 0) {
var shader = this.pointShader
shader.bind()
shader.uniforms = uniforms
this.pointVAO.bind()
gl.drawArrays(gl.POINTS, 0, this.pointCount)
this.pointVAO.unbind()
}
if(this.contourEnable && this.contourCount > 0 && this.contourLineWidth > 0) {
var shader = this.contourShader
shader.bind()
shader.uniforms = uniforms
this.contourVAO.bind()
gl.drawArrays(gl.LINES, 0, this.contourCount)
this.contourVAO.unbind()
}
}
proto.drawPick = function(params) {
params = params || {}
var gl = this.gl
var model = params.model || identityMatrix
var view = params.view || identityMatrix
var projection = params.projection || identityMatrix
var clipBounds = [[-1e6,-1e6,-1e6],[1e6,1e6,1e6]]
for(var i=0; i<3; ++i) {
clipBounds[0][i] = Math.max(clipBounds[0][i], this.clipBounds[0][i])
clipBounds[1][i] = Math.min(clipBounds[1][i], this.clipBounds[1][i])
}
//Save camera parameters
this._model = [].slice.call(model)
this._view = [].slice.call(view)
this._projection = [].slice.call(projection)
this._resolution = [gl.drawingBufferWidth, gl.drawingBufferHeight]
var uniforms = {
model: model,
view: view,
projection: projection,
clipBounds: clipBounds,
tubeScale: this.tubeScale,
pickId: this.pickId / 255.0,
}
var shader = this.pickShader
shader.bind()
shader.uniforms = uniforms
if(this.triangleCount > 0) {
this.triangleVAO.bind()
gl.drawArrays(gl.TRIANGLES, 0, this.triangleCount*3)
this.triangleVAO.unbind()
}
if(this.edgeCount > 0) {
this.edgeVAO.bind()
gl.lineWidth(this.lineWidth)
gl.drawArrays(gl.LINES, 0, this.edgeCount*2)
this.edgeVAO.unbind()
}
if(this.pointCount > 0) {
var shader = this.pointPickShader
shader.bind()
shader.uniforms = uniforms
this.pointVAO.bind()
gl.drawArrays(gl.POINTS, 0, this.pointCount)
this.pointVAO.unbind()
}
}
proto.pick = function(pickData) {
if(!pickData) {
return null
}
if(pickData.id !== this.pickId) {
return null
}
var cellId = pickData.value[0] + 256*pickData.value[1] + 65536*pickData.value[2]
var cell = this.cells[cellId]
var pos = this.positions[cell[1]].slice(0, 3)
var intensity = this.intensity[cell[1]]
var velocity = this.vectors[cell[1]].slice(0, 3)
var divergence = this.vectors[cell[1]][3]
return {
index: cellId,
position: pos,
intensity: intensity,
velocity: velocity,
divergence: divergence,
dataCoordinate: pos
}
}
proto.dispose = function() {
this.texture.dispose()
this.triShader.dispose()
// this.lineShader.dispose()
// this.pointShader.dispose()
this.pickShader.dispose()
// this.pointPickShader.dispose()
this.triangleVAO.dispose()
this.trianglePositions.dispose()
this.triangleVectors.dispose()
this.triangleColors.dispose()
this.triangleUVs.dispose()
this.triangleNormals.dispose()
this.triangleIds.dispose()
this.edgeVAO.dispose()
this.edgePositions.dispose()
this.edgeColors.dispose()
this.edgeUVs.dispose()
this.edgeIds.dispose()
this.pointVAO.dispose()
this.pointPositions.dispose()
this.pointColors.dispose()
this.pointUVs.dispose()
this.pointSizes.dispose()
this.pointIds.dispose()
this.contourVAO.dispose()
this.contourPositions.dispose()
// this.contourShader.dispose()
}
function createMeshShader(gl) {
var shader = createShader(gl, meshShader.vertex, meshShader.fragment, null, meshShader.attributes)
shader.attributes.position.location = 0
shader.attributes.color.location = 2
shader.attributes.uv.location = 3
shader.attributes.vector.location = 5
return shader
}
function createWireShader(gl) {
var shader = createShader(gl, wireShader.vertex, wireShader.fragment)
shader.attributes.position.location = 0
shader.attributes.color.location = 2
shader.attributes.uv.location = 3
return shader
}
function createPointShader(gl) {
var shader = createShader(gl, pointShader.vertex, pointShader.fragment)
shader.attributes.position.location = 0
shader.attributes.color.location = 2
shader.attributes.uv.location = 3
shader.attributes.pointSize.location = 4
return shader
}
function createPickShader(gl) {
var shader = createShader(gl, pickShader.vertex, pickShader.fragment, null, pickShader.attributes)
shader.attributes.position.location = 0
shader.attributes.id.location = 1
shader.attributes.vector.location = 5
return shader
}
function createPointPickShader(gl) {
var shader = createShader(gl, pointPickShader.vertex, pointPickShader.fragment)
shader.attributes.position.location = 0
shader.attributes.id.location = 1
shader.attributes.pointSize.location = 4
return shader
}
function createContourShader(gl) {
var shader = createShader(gl, contourShader.vertex, contourShader.fragment)
shader.attributes.position.location = 0
return shader
}
function createSimplicialMesh(gl, params) {
if (arguments.length === 1) {
params = gl;
gl = params.gl;
}
var triShader = params.triShader || createMeshShader(gl)
var lineShader = null; //createWireShader(gl)
var pointShader = null; //createPointShader(gl)
var pickShader = createPickShader(gl)
var pointPickShader = null; //createPointPickShader(gl)
var contourShader = null; //createContourShader(gl)
var meshTexture = createTexture(gl,
ndarray(new Uint8Array([255,255,255,255]), [1,1,4]))
meshTexture.generateMipmap()
meshTexture.minFilter = gl.LINEAR_MIPMAP_LINEAR
meshTexture.magFilter = gl.LINEAR
var trianglePositions = createBuffer(gl)
var triangleVectors = createBuffer(gl)
var triangleColors = createBuffer(gl)
var triangleUVs = createBuffer(gl)
var triangleNormals = createBuffer(gl)
var triangleIds = createBuffer(gl)
var triangleVAO = createVAO(gl, [
{ buffer: trianglePositions,
type: gl.FLOAT,
size: 4
},
{ buffer: triangleIds,
type: gl.UNSIGNED_BYTE,
size: 4,
normalized: true
},
{ buffer: triangleColors,
type: gl.FLOAT,
size: 4
},
{ buffer: triangleUVs,
type: gl.FLOAT,
size: 2
},
{ buffer: triangleNormals,
type: gl.FLOAT,
size: 3
},
{ buffer: triangleVectors,
type: gl.FLOAT,
size: 4
}
])
var edgePositions = createBuffer(gl)
var edgeColors = createBuffer(gl)
var edgeUVs = createBuffer(gl)
var edgeIds = createBuffer(gl)
var edgeVAO = createVAO(gl, [
{ buffer: edgePositions,
type: gl.FLOAT,
size: 3
},
{ buffer: edgeIds,
type: gl.UNSIGNED_BYTE,
size: 4,
normalized: true
},
{ buffer: edgeColors,
type: gl.FLOAT,
size: 4
},
{ buffer: edgeUVs,
type: gl.FLOAT,
size: 2
}
])
var pointPositions = createBuffer(gl)
var pointColors = createBuffer(gl)
var pointUVs = createBuffer(gl)
var pointSizes = createBuffer(gl)
var pointIds = createBuffer(gl)
var pointVAO = createVAO(gl, [
{ buffer: pointPositions,
type: gl.FLOAT,
size: 3
},
{ buffer: pointIds,
type: gl.UNSIGNED_BYTE,
size: 4,
normalized: true
},
{ buffer: pointColors,
type: gl.FLOAT,
size: 4
},
{ buffer: pointUVs,
type: gl.FLOAT,
size: 2
},
{ buffer: pointSizes,
type: gl.FLOAT,
size: 1
}
])
var contourPositions = createBuffer(gl)
var contourVAO = createVAO(gl, [
{ buffer: contourPositions,
type: gl.FLOAT,
size: 3
}])
var mesh = new SimplicialMesh(gl
, meshTexture
, triShader
, lineShader
, pointShader
, pickShader
, pointPickShader
, contourShader
, trianglePositions
, triangleVectors
, triangleIds
, triangleColors
, triangleUVs
, triangleNormals
, triangleVAO
, edgePositions
, edgeIds
, edgeColors
, edgeUVs
, edgeVAO
, pointPositions
, pointIds
, pointColors
, pointUVs
, pointSizes
, pointVAO
, contourPositions
, contourVAO)
mesh.update(params)
return mesh
}
module.exports = createSimplicialMesh
},{"./closest-point":296,"./shaders":297,"colormap":113,"gl-buffer":229,"gl-mat4/invert":253,"gl-mat4/multiply":255,"gl-shader":286,"gl-texture2d":303,"gl-vao":308,"ndarray":430,"normals":433,"simplicial-complex-contour":491,"typedarray-pool":519}],299:[function(_dereq_,module,exports){
"use strict";
var vec3 = _dereq_('gl-vec3');
var vec4 = _dereq_('gl-vec4');
var streamToTube = function(stream, maxDivergence, minDistance, maxNorm) {
var points = stream.points;
var velocities = stream.velocities;
var divergences = stream.divergences;
var p, fwd, r, u, v, up;
up = vec3.set(vec3.create(), 0, 1, 0);
u = vec3.create();
v = vec3.create();
var p2 = vec3.create();
var verts = [];
var faces = [];
var vectors = [];
var previousVerts = [];
var currentVerts = [];
var intensities = [];
var previousIntensity = 0;
var currentIntensity = 0;
var currentVector = vec4.create();
var previousVector = vec4.create();
var facets = 8;
for (var i = 0; i < points.length; i++) {
p = points[i];
fwd = velocities[i];
r = divergences[i];
if (maxDivergence === 0) {
r = minDistance * 0.05;
}
currentIntensity = vec3.length(fwd) / maxNorm;
currentVector = vec4.create();
vec3.copy(currentVector, fwd);
currentVector[3] = r;
for (var a = 0; a < facets; a++) {
currentVerts[a] = [p[0], p[1], p[2], a];
}
if (previousVerts.length > 0) {
for (var a = 0; a < facets; a++) {
var a1 = (a+1) % facets;
verts.push(
previousVerts[a],
currentVerts[a],
currentVerts[a1],
currentVerts[a1],
previousVerts[a1],
previousVerts[a]
);
vectors.push(
previousVector,
currentVector,
currentVector,
currentVector,
previousVector,
previousVector
);
intensities.push(
previousIntensity,
currentIntensity,
currentIntensity,
currentIntensity,
previousIntensity,
previousIntensity
);
faces.push(
[verts.length-6, verts.length-5, verts.length-4],
[verts.length-3, verts.length-2, verts.length-1]
);
}
}
var tmp = previousVerts;
previousVerts = currentVerts;
currentVerts = tmp;
tmp = previousVector;
previousVector = currentVector;
currentVector = tmp;
tmp = previousIntensity;
previousIntensity = currentIntensity;
currentIntensity = tmp;
}
return {
positions: verts,
cells: faces,
vectors: vectors,
vertexIntensity: intensities
};
};
var createTubes = function(streams, colormap, maxDivergence, minDistance) {
var maxNorm = 0;
for (var i=0; i<streams.length; i++) {
var velocities = streams[i].velocities;
for (var j=0; j<velocities.length; j++) {
var norm = vec3.length(velocities[j]);
if (norm > maxNorm) {
maxNorm = norm;
}
}
}
var tubes = streams.map(function(s) {
return streamToTube(s, maxDivergence, minDistance, maxNorm);
});
var positions = [];
var cells = [];
var vectors = [];
var vertexIntensity = [];
for (var i=0; i < tubes.length; i++) {
var tube = tubes[i];
var offset = positions.length;
positions = positions.concat(tube.positions);
vectors = vectors.concat(tube.vectors);
vertexIntensity = vertexIntensity.concat(tube.vertexIntensity);
for (var j=0; j<tube.cells.length; j++) {
var cell = tube.cells[j];
var newCell = [];
cells.push(newCell);
for (var k=0; k<cell.length; k++) {
newCell.push(cell[k] + offset);
}
}
}
return {
positions: positions,
cells: cells,
vectors: vectors,
vertexIntensity: vertexIntensity,
colormap: colormap
};
};
var defaultGetDivergence = function(p, v0) {
var dp = vec3.create();
var e = 1/10000;
vec3.add(dp, p, [e, 0, 0]);
var vx = this.getVelocity(dp);
vec3.subtract(vx, vx, v0);
vec3.scale(vx, vx, 1/e);
vec3.add(dp, p, [0, e, 0]);
var vy = this.getVelocity(dp);
vec3.subtract(vy, vy, v0);
vec3.scale(vy, vy, 1/e);
vec3.add(dp, p, [0, 0, e]);
var vz = this.getVelocity(dp);
vec3.subtract(vz, vz, v0);
vec3.scale(vz, vz, 1/e);
vec3.add(dp, vx, vy);
vec3.add(dp, dp, vz);
return dp;
};
var defaultGetVelocity = function(p) {
var u = sampleMeshgrid(p, this.vectors, this.meshgrid, this.clampBorders);
return u;
};
var findLastSmallerIndex = function(points, v) {
for (var i=0; i<points.length; i++) {
var p = points[i];
if (p === v) return i;
if (p > v) return i-1;
}
return i;
};
var tmp = vec3.create();
var tmp2 = vec3.create();
var clamp = function(v, min, max) {
return v < min ? min : (v > max ? max : v);
};
var sampleMeshgrid = function(point, array, meshgrid, clampOverflow) {
var x = point[0];
var y = point[1];
var z = point[2];
var w = meshgrid[0].length;
var h = meshgrid[1].length;
var d = meshgrid[2].length;
// Find the index of the nearest smaller value in the meshgrid for each coordinate of (x,y,z).
// The nearest smaller value index for x is the index x0 such that
// meshgrid[0][x0] < x and for all x1 > x0, meshgrid[0][x1] >= x.
var x0 = findLastSmallerIndex(meshgrid[0], x);
var y0 = findLastSmallerIndex(meshgrid[1], y);
var z0 = findLastSmallerIndex(meshgrid[2], z);
// Get the nearest larger meshgrid value indices.
// From the above "nearest smaller value", we know that
// meshgrid[0][x0] < x
// meshgrid[0][x0+1] >= x
var x1 = x0 + 1;
var y1 = y0 + 1;
var z1 = z0 + 1;
if (meshgrid[0][x0] === x) x1 = x0;
if (meshgrid[1][y0] === y) y1 = y0;
if (meshgrid[2][z0] === z) z1 = z0;
if (clampOverflow) {
x0 = clamp(x0, 0, w-1);
x1 = clamp(x1, 0, w-1);
y0 = clamp(y0, 0, h-1);
y1 = clamp(y1, 0, h-1);
z0 = clamp(z0, 0, d-1);
z1 = clamp(z1, 0, d-1);
}
// Reject points outside the meshgrid, return a zero vector.
if (x0 < 0 || y0 < 0 || z0 < 0 || x1 >= w || y1 >= h || z1 >= d) {
return vec3.create();
}
// Normalize point coordinates to 0..1 scaling factor between x0 and x1.
var xf = (x - meshgrid[0][x0]) / (meshgrid[0][x1] - meshgrid[0][x0]);
var yf = (y - meshgrid[1][y0]) / (meshgrid[1][y1] - meshgrid[1][y0]);
var zf = (z - meshgrid[2][z0]) / (meshgrid[2][z1] - meshgrid[2][z0]);
if (xf < 0 || xf > 1 || isNaN(xf)) xf = 0;
if (yf < 0 || yf > 1 || isNaN(yf)) yf = 0;
if (zf < 0 || zf > 1 || isNaN(zf)) zf = 0;
var z0off = z0*w*h;
var z1off = z1*w*h;
var y0off = y0*w;
var y1off = y1*w;
var x0off = x0;
var x1off = x1;
// Sample data array around the (x,y,z) point.
// vZYX = array[zZoff + yYoff + xXoff]
var v000 = array[y0off + z0off + x0off];
var v001 = array[y0off + z0off + x1off];
var v010 = array[y1off + z0off + x0off];
var v011 = array[y1off + z0off + x1off];
var v100 = array[y0off + z1off + x0off];
var v101 = array[y0off + z1off + x1off];
var v110 = array[y1off + z1off + x0off];
var v111 = array[y1off + z1off + x1off];
var result = vec3.create();
// Average samples according to distance to point.
vec3.lerp(result, v000, v001, xf);
vec3.lerp(tmp, v010, v011, xf);
vec3.lerp(result, result, tmp, yf);
vec3.lerp(tmp, v100, v101, xf);
vec3.lerp(tmp2, v110, v111, xf);
vec3.lerp(tmp, tmp, tmp2, yf);
vec3.lerp(result, result, tmp, zf);
return result;
};
var vabs = function(dst, v) {
var x = v[0];
var y = v[1];
var z = v[2];
dst[0] = x >= 0 ? x : -x;
dst[1] = y >= 0 ? y : -y;
dst[2] = z >= 0 ? z : -z;
return dst;
};
var findMinSeparation = function(xs) {
var minSeparation = 1/0;
xs.sort(function(a, b) { return a - b; });
for (var i=1; i<xs.length; i++) {
var d = Math.abs(xs[i] - xs[i-1]);
if (d < minSeparation) {
minSeparation = d;
}
}
return minSeparation;
};
// Finds the minimum per-component distance in positions.
//
var calculateMinPositionDistance = function(positions) {
var xs = [], ys = [], zs = [];
var xi = {}, yi = {}, zi = {};
for (var i=0; i<positions.length; i++) {
var p = positions[i];
var x = p[0], y = p[1], z = p[2];
// Split the positions array into arrays of unique component values.
//
// Why go through the trouble of using a uniqueness hash table vs
// sort and uniq:
//
// Suppose you've got a million positions in a 100x100x100 grid.
//
// Using a uniqueness hash table, you're doing 1M array reads,
// 3M hash table lookups from 100-element hashes, 300 hash table inserts, then
// sorting three 100-element arrays and iterating over them.
// Roughly, 1M + 3M * ln(100) + 300 * ln(100/2) + 3 * 100 * ln(100) + 3 * 100 =
// 1M + 13.8M + 0.0012M + 0.0014M + 0.0003M
// =~ 15M
//
// Sort and uniq solution would do 1M array reads, 3M array inserts,
// sort three 1M-element arrays and iterate over them.
// Roughly, 1M + 3M + 3 * 1M * ln(1M) + 3 * 1M =
// 1M + 3M + 41.4M + 3M
// =~ 48.4M
//
// Guessing that a hard-coded sort & uniq would be faster due to not having
// to run a hashing function on everything. More memory usage though
// (bunch of small hash tables vs. duplicating the input array.)
//
// In JS-land, who knows. Maybe xi[x] casts x to string and destroys perf,
// maybe numeric keys get special-cased, maybe the object lookups run at near O(1)-speeds.
// Maybe the sorting comparison function is expensive to call, maybe it gets inlined or special-cased.
//
// ... You're probably not going to call this with more than 10k positions anyhow, so this is very academic.
//
if (!xi[x]) {
xs.push(x);
xi[x] = true;
}
if (!yi[y]) {
ys.push(y);
yi[y] = true;
}
if (!zi[z]) {
zs.push(z);
zi[z] = true;
}
}
var xSep = findMinSeparation(xs);
var ySep = findMinSeparation(ys);
var zSep = findMinSeparation(zs);
var minSeparation = Math.min(xSep, ySep, zSep);
if (!isFinite(minSeparation)) {
return 1;
}
return minSeparation;
};
module.exports = function(vectorField, bounds) {
var positions = vectorField.startingPositions;
var maxLength = vectorField.maxLength || 1000;
var tubeSize = vectorField.tubeSize || 1;
var absoluteTubeSize = vectorField.absoluteTubeSize;
if (!vectorField.getDivergence) {
vectorField.getDivergence = defaultGetDivergence;
}
if (!vectorField.getVelocity) {
vectorField.getVelocity = defaultGetVelocity;
}
if (vectorField.clampBorders === undefined) {
vectorField.clampBorders = true;
}
var streams = [];
var minX = bounds[0][0], minY = bounds[0][1], minZ = bounds[0][2];
var maxX = bounds[1][0], maxY = bounds[1][1], maxZ = bounds[1][2];
var inBounds = function(bounds, p) {
var x = p[0];
var y = p[1];
var z = p[2];
return (
x >= minX && x <= maxX &&
y >= minY && y <= maxY &&
z >= minZ && z <= maxZ
);
};
var boundsSize = vec3.distance(bounds[0], bounds[1]);
var maxStepSize = 10 * boundsSize / maxLength;
var maxStepSizeSq = maxStepSize * maxStepSize;
var minDistance = 1;
var maxDivergence = 0; // For component-wise divergence vec3.create();
var tmp = vec3.create();
if (positions.length >= 2) {
minDistance = calculateMinPositionDistance(positions);
}
for (var i = 0; i < positions.length; i++) {
var p = vec3.create();
vec3.copy(p, positions[i]);
var stream = [p];
var velocities = [];
var v = vectorField.getVelocity(p);
var op = p;
velocities.push(v);
var divergences = [];
var dv = vectorField.getDivergence(p, v);
var dvLength = vec3.length(dv);
if (dvLength > maxDivergence && !isNaN(dvLength) && isFinite(dvLength)) {
maxDivergence = dvLength;
}
// In case we need to do component-wise divergence visualization
// vec3.max(maxDivergence, maxDivergence, vabs(tmp, dv));
divergences.push(dvLength);
streams.push({points: stream, velocities: velocities, divergences: divergences});
var j = 0;
while (j < maxLength * 100 && stream.length < maxLength && inBounds(bounds, p)) {
j++;
var np = vec3.clone(v);
var sqLen = vec3.squaredLength(np);
if (sqLen === 0) {
break;
} else if (sqLen > maxStepSizeSq) {
vec3.scale(np, np, maxStepSize / Math.sqrt(sqLen));
}
vec3.add(np, np, p);
v = vectorField.getVelocity(np);
if (vec3.squaredDistance(op, np) - maxStepSizeSq > -0.0001 * maxStepSizeSq) {
stream.push(np);
op = np;
velocities.push(v);
var dv = vectorField.getDivergence(np, v);
var dvLength = vec3.length(dv);
if (dvLength > maxDivergence && !isNaN(dvLength) && isFinite(dvLength)) {
maxDivergence = dvLength;
}
// In case we need to do component-wise divergence visualization
//vec3.max(maxDivergence, maxDivergence, vabs(tmp, dv));
divergences.push(dvLength);
}
p = np;
}
}
// Replace NaNs and Infinities with non-NaN, finite maxDivergence
for (var i=0; i<divergences.length; i++) {
var dvLength = divergences[i];
if (isNaN(dvLength) || !isFinite(dvLength)) {
divergences[i] = maxDivergence;
}
}
var tubes = createTubes(streams, vectorField.colormap, maxDivergence, minDistance);
if (absoluteTubeSize) {
tubes.tubeScale = absoluteTubeSize;
} else {
// Avoid division by zero.
if (maxDivergence === 0) {
maxDivergence = 1;
}
tubes.tubeScale = tubeSize * 0.5 * minDistance / maxDivergence;
}
return tubes;
};
module.exports.createTubeMesh = _dereq_('./lib/tubemesh');
},{"./lib/tubemesh":298,"gl-vec3":327,"gl-vec4":363}],300:[function(_dereq_,module,exports){
var createShader = _dereq_('gl-shader')
var glslify = _dereq_('glslify')
var vertSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute vec4 uv;\nattribute vec3 f;\nattribute vec3 normal;\n\nuniform mat4 model, view, projection, inverseModel;\nuniform vec3 lightPosition, eyePosition;\nuniform sampler2D colormap;\n\nvarying float value, kill;\nvarying vec3 worldCoordinate;\nvarying vec2 planeCoordinate;\nvarying vec3 lightDirection, eyeDirection, surfaceNormal;\nvarying vec4 vColor;\n\nvoid main() {\n worldCoordinate = vec3(uv.zw, f.x);\n vec4 worldPosition = model * vec4(worldCoordinate, 1.0);\n vec4 clipPosition = projection * view * worldPosition;\n gl_Position = clipPosition;\n kill = f.y;\n value = f.z;\n planeCoordinate = uv.xy;\n\n vColor = texture2D(colormap, vec2(value, value));\n\n //Lighting geometry parameters\n vec4 cameraCoordinate = view * worldPosition;\n cameraCoordinate.xyz /= cameraCoordinate.w;\n lightDirection = lightPosition - cameraCoordinate.xyz;\n eyeDirection = eyePosition - cameraCoordinate.xyz;\n surfaceNormal = normalize((vec4(normal,0) * inverseModel).xyz);\n}\n"])
var fragSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nfloat beckmannDistribution(float x, float roughness) {\n float NdotH = max(x, 0.0001);\n float cos2Alpha = NdotH * NdotH;\n float tan2Alpha = (cos2Alpha - 1.0) / cos2Alpha;\n float roughness2 = roughness * roughness;\n float denom = 3.141592653589793 * roughness2 * cos2Alpha * cos2Alpha;\n return exp(tan2Alpha / roughness2) / denom;\n}\n\nfloat beckmannSpecular(\n vec3 lightDirection,\n vec3 viewDirection,\n vec3 surfaceNormal,\n float roughness) {\n return beckmannDistribution(dot(surfaceNormal, normalize(lightDirection + viewDirection)), roughness);\n}\n\nuniform vec3 lowerBound, upperBound;\nuniform float contourTint;\nuniform vec4 contourColor;\nuniform sampler2D colormap;\nuniform vec3 clipBounds[2];\nuniform float roughness, fresnel, kambient, kdiffuse, kspecular, opacity;\nuniform float vertexColor;\n\nvarying float value, kill;\nvarying vec3 worldCoordinate;\nvarying vec3 lightDirection, eyeDirection, surfaceNormal;\nvarying vec4 vColor;\n\nvoid main() {\n if (kill > 0.0 ||\n any(lessThan(worldCoordinate, clipBounds[0])) || any(greaterThan(worldCoordinate, clipBounds[1]))) {\n discard;\n }\n\n vec3 N = normalize(surfaceNormal);\n vec3 V = normalize(eyeDirection);\n vec3 L = normalize(lightDirection);\n\n if(gl_FrontFacing) {\n N = -N;\n }\n\n float specular = max(beckmannSpecular(L, V, N, roughness), 0.);\n float diffuse = min(kambient + kdiffuse * max(dot(N, L), 0.0), 1.0);\n\n //decide how to interpolate color — in vertex or in fragment\n vec4 surfaceColor = step(vertexColor, .5) * texture2D(colormap, vec2(value, value)) + step(.5, vertexColor) * vColor;\n\n vec4 litColor = surfaceColor.a * vec4(diffuse * surfaceColor.rgb + kspecular * vec3(1,1,1) * specular, 1.0);\n\n gl_FragColor = mix(litColor, contourColor, contourTint) * opacity;\n}\n"])
var contourVertSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute vec4 uv;\nattribute float f;\n\nuniform mat3 permutation;\nuniform mat4 model, view, projection;\nuniform float height, zOffset;\nuniform sampler2D colormap;\n\nvarying float value, kill;\nvarying vec3 worldCoordinate;\nvarying vec2 planeCoordinate;\nvarying vec3 lightDirection, eyeDirection, surfaceNormal;\nvarying vec4 vColor;\n\nvoid main() {\n vec3 dataCoordinate = permutation * vec3(uv.xy, height);\n vec4 worldPosition = model * vec4(dataCoordinate, 1.0);\n\n vec4 clipPosition = projection * view * worldPosition;\n clipPosition.z = clipPosition.z + zOffset;\n\n gl_Position = clipPosition;\n value = f;\n kill = -1.0;\n worldCoordinate = dataCoordinate;\n planeCoordinate = uv.zw;\n\n vColor = texture2D(colormap, vec2(value, value));\n\n //Don't do lighting for contours\n surfaceNormal = vec3(1,0,0);\n eyeDirection = vec3(0,1,0);\n lightDirection = vec3(0,0,1);\n}\n"])
var pickSrc = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nuniform vec2 shape;\nuniform vec3 clipBounds[2];\nuniform float pickId;\n\nvarying float value, kill;\nvarying vec3 worldCoordinate;\nvarying vec2 planeCoordinate;\nvarying vec3 surfaceNormal;\n\nvec2 splitFloat(float v) {\n float vh = 255.0 * v;\n float upper = floor(vh);\n float lower = fract(vh);\n return vec2(upper / 255.0, floor(lower * 16.0) / 16.0);\n}\n\nvoid main() {\n if(kill > 0.0 ||\n any(lessThan(worldCoordinate, clipBounds[0])) || any(greaterThan(worldCoordinate, clipBounds[1]))) {\n discard;\n }\n vec2 ux = splitFloat(planeCoordinate.x / shape.x);\n vec2 uy = splitFloat(planeCoordinate.y / shape.y);\n gl_FragColor = vec4(pickId, ux.x, uy.x, ux.y + (uy.y/16.0));\n}\n"])
exports.createShader = function (gl) {
var shader = createShader(gl, vertSrc, fragSrc, null, [
{name: 'uv', type: 'vec4'},
{name: 'f', type: 'vec3'},
{name: 'normal', type: 'vec3'}
])
shader.attributes.uv.location = 0
shader.attributes.f.location = 1
shader.attributes.normal.location = 2
return shader
}
exports.createPickShader = function (gl) {
var shader = createShader(gl, vertSrc, pickSrc, null, [
{name: 'uv', type: 'vec4'},
{name: 'f', type: 'vec3'},
{name: 'normal', type: 'vec3'}
])
shader.attributes.uv.location = 0
shader.attributes.f.location = 1
shader.attributes.normal.location = 2
return shader
}
exports.createContourShader = function (gl) {
var shader = createShader(gl, contourVertSrc, fragSrc, null, [
{name: 'uv', type: 'vec4'},
{name: 'f', type: 'float'}
])
shader.attributes.uv.location = 0
shader.attributes.f.location = 1
return shader
}
exports.createPickContourShader = function (gl) {
var shader = createShader(gl, contourVertSrc, pickSrc, null, [
{name: 'uv', type: 'vec4'},
{name: 'f', type: 'float'}
])
shader.attributes.uv.location = 0
shader.attributes.f.location = 1
return shader
}
},{"gl-shader":286,"glslify":390}],301:[function(_dereq_,module,exports){
'use strict'
module.exports = createSurfacePlot
var bits = _dereq_('bit-twiddle')
var createBuffer = _dereq_('gl-buffer')
var createVAO = _dereq_('gl-vao')
var createTexture = _dereq_('gl-texture2d')
var pool = _dereq_('typedarray-pool')
var colormap = _dereq_('colormap')
var ops = _dereq_('ndarray-ops')
var pack = _dereq_('ndarray-pack')
var ndarray = _dereq_('ndarray')
var surfaceNets = _dereq_('surface-nets')
var multiply = _dereq_('gl-mat4/multiply')
var invert = _dereq_('gl-mat4/invert')
var bsearch = _dereq_('binary-search-bounds')
var gradient = _dereq_('ndarray-gradient')
var shaders = _dereq_('./lib/shaders')
var createShader = shaders.createShader
var createContourShader = shaders.createContourShader
var createPickShader = shaders.createPickShader
var createPickContourShader = shaders.createPickContourShader
var SURFACE_VERTEX_SIZE = 4 * (4 + 3 + 3)
var IDENTITY = [
1, 0, 0, 0,
0, 1, 0, 0,
0, 0, 1, 0,
0, 0, 0, 1 ]
var QUAD = [
[0, 0],
[0, 1],
[1, 0],
[1, 1],
[1, 0],
[0, 1]
]
var PERMUTATIONS = [
[0, 0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0, 0]
]
;(function () {
for (var i = 0; i < 3; ++i) {
var p = PERMUTATIONS[i]
var u = (i + 1) % 3
var v = (i + 2) % 3
p[u + 0] = 1
p[v + 3] = 1
p[i + 6] = 1
}
})()
function SurfacePickResult (position, index, uv, level, dataCoordinate) {
this.position = position
this.index = index
this.uv = uv
this.level = level
this.dataCoordinate = dataCoordinate
}
var N_COLORS = 256
function genColormap (name) {
var x = pack([colormap({
colormap: name,
nshades: N_COLORS,
format: 'rgba'
}).map(function (c) {
return [c[0], c[1], c[2], 255 * c[3]]
})])
ops.divseq(x, 255.0)
return x
}
function SurfacePlot (
gl,
shape,
bounds,
shader,
pickShader,
coordinates,
vao,
colorMap,
contourShader,
contourPickShader,
contourBuffer,
contourVAO,
dynamicBuffer,
dynamicVAO) {
this.gl = gl
this.shape = shape
this.bounds = bounds
this.intensityBounds = [];
this._shader = shader
this._pickShader = pickShader
this._coordinateBuffer = coordinates
this._vao = vao
this._colorMap = colorMap
this._contourShader = contourShader
this._contourPickShader = contourPickShader
this._contourBuffer = contourBuffer
this._contourVAO = contourVAO
this._contourOffsets = [[], [], []]
this._contourCounts = [[], [], []]
this._vertexCount = 0
this._pickResult = new SurfacePickResult([0, 0, 0], [0, 0], [0, 0], [0, 0, 0], [0, 0, 0])
this._dynamicBuffer = dynamicBuffer
this._dynamicVAO = dynamicVAO
this._dynamicOffsets = [0, 0, 0]
this._dynamicCounts = [0, 0, 0]
this.contourWidth = [ 1, 1, 1 ]
this.contourLevels = [[1], [1], [1]]
this.contourTint = [0, 0, 0]
this.contourColor = [[0.5, 0.5, 0.5, 1], [0.5, 0.5, 0.5, 1], [0.5, 0.5, 0.5, 1]]
this.showContour = true
this.showSurface = true
this.enableHighlight = [true, true, true]
this.highlightColor = [[0, 0, 0, 1], [0, 0, 0, 1], [0, 0, 0, 1]]
this.highlightTint = [ 1, 1, 1 ]
this.highlightLevel = [-1, -1, -1]
// Dynamic contour options
this.enableDynamic = [ true, true, true ]
this.dynamicLevel = [ NaN, NaN, NaN ]
this.dynamicColor = [ [0, 0, 0, 1], [0, 0, 0, 1], [0, 0, 0, 1] ]
this.dynamicTint = [ 1, 1, 1 ]
this.dynamicWidth = [ 1, 1, 1 ]
this.axesBounds = [[Infinity, Infinity, Infinity], [-Infinity, -Infinity, -Infinity]]
this.surfaceProject = [ false, false, false ]
this.contourProject = [[ false, false, false ],
[ false, false, false ],
[ false, false, false ]]
this.colorBounds = [ false, false ]
// Store xyz fields, need this for picking
this._field = [
ndarray(pool.mallocFloat(1024), [0, 0]),
ndarray(pool.mallocFloat(1024), [0, 0]),
ndarray(pool.mallocFloat(1024), [0, 0]) ]
this.pickId = 1
this.clipBounds = [[-Infinity, -Infinity, -Infinity], [Infinity, Infinity, Infinity]]
this.snapToData = false
this.opacity = 1.0
this.lightPosition = [10, 10000, 0]
this.ambientLight = 0.8
this.diffuseLight = 0.8
this.specularLight = 2.0
this.roughness = 0.5
this.fresnel = 1.5
this.vertexColor = 0;
this.dirty = true
}
var proto = SurfacePlot.prototype
proto.isTransparent = function () {
return this.opacity < 1
}
proto.isOpaque = function () {
if (this.opacity >= 1) {
return true
}
for (var i = 0; i < 3; ++i) {
if (this._contourCounts[i].length > 0 || this._dynamicCounts[i] > 0) {
return true
}
}
return false
}
proto.pickSlots = 1
proto.setPickBase = function (id) {
this.pickId = id
}
var ZERO_VEC = [0, 0, 0]
var PROJECT_DATA = {
showSurface: false,
showContour: false,
projections: [IDENTITY.slice(), IDENTITY.slice(), IDENTITY.slice()],
clipBounds: [
[[0, 0, 0], [0, 0, 0]],
[[0, 0, 0], [0, 0, 0]],
[[0, 0, 0], [0, 0, 0]]]
}
function computeProjectionData (camera, obj) {
var i, j, k
// Compute cube properties
var cubeAxis = (obj.axes && obj.axes.lastCubeProps.axis) || ZERO_VEC
var showSurface = obj.showSurface
var showContour = obj.showContour
for (i = 0; i < 3; ++i) {
showSurface = showSurface || obj.surfaceProject[i]
for (j = 0; j < 3; ++j) {
showContour = showContour || obj.contourProject[i][j]
}
}
for (i = 0; i < 3; ++i) {
// Construct projection onto axis
var axisSquish = PROJECT_DATA.projections[i]
for (j = 0; j < 16; ++j) {
axisSquish[j] = 0
}
for (j = 0; j < 4; ++j) {
axisSquish[5 * j] = 1
}
axisSquish[5 * i] = 0
axisSquish[12 + i] = obj.axesBounds[+(cubeAxis[i] > 0)][i]
multiply(axisSquish, camera.model, axisSquish)
var nclipBounds = PROJECT_DATA.clipBounds[i]
for (k = 0; k < 2; ++k) {
for (j = 0; j < 3; ++j) {
nclipBounds[k][j] = camera.clipBounds[k][j]
}
}
nclipBounds[0][i] = -1e8
nclipBounds[1][i] = 1e8
}
PROJECT_DATA.showSurface = showSurface
PROJECT_DATA.showContour = showContour
return PROJECT_DATA
}
var UNIFORMS = {
model: IDENTITY,
view: IDENTITY,
projection: IDENTITY,
inverseModel: IDENTITY.slice(),
lowerBound: [0, 0, 0],
upperBound: [0, 0, 0],
colorMap: 0,
clipBounds: [[0, 0, 0], [0, 0, 0]],
height: 0.0,
contourTint: 0,
contourColor: [0, 0, 0, 1],
permutation: [1, 0, 0, 0, 1, 0, 0, 0, 1],
zOffset: -1e-4,
kambient: 1,
kdiffuse: 1,
kspecular: 1,
lightPosition: [1000, 1000, 1000],
eyePosition: [0, 0, 0],
roughness: 1,
fresnel: 1,
opacity: 1,
vertexColor: 0
}
var MATRIX_INVERSE = IDENTITY.slice()
var DEFAULT_PERM = [1, 0, 0, 0, 1, 0, 0, 0, 1]
function drawCore (params, transparent) {
params = params || {}
var gl = this.gl
gl.disable(gl.CULL_FACE)
this._colorMap.bind(0)
var uniforms = UNIFORMS
uniforms.model = params.model || IDENTITY
uniforms.view = params.view || IDENTITY
uniforms.projection = params.projection || IDENTITY
uniforms.lowerBound = [this.bounds[0][0], this.bounds[0][1], this.colorBounds[0] || this.bounds[0][2]]
uniforms.upperBound = [this.bounds[1][0], this.bounds[1][1], this.colorBounds[1] || this.bounds[1][2]]
uniforms.contourColor = this.contourColor[0]
uniforms.inverseModel = invert(uniforms.inverseModel, uniforms.model)
for (var i = 0; i < 2; ++i) {
var clipClamped = uniforms.clipBounds[i]
for (var j = 0; j < 3; ++j) {
clipClamped[j] = Math.min(Math.max(this.clipBounds[i][j], -1e8), 1e8)
}
}
uniforms.kambient = this.ambientLight
uniforms.kdiffuse = this.diffuseLight
uniforms.kspecular = this.specularLight
uniforms.roughness = this.roughness
uniforms.fresnel = this.fresnel
uniforms.opacity = this.opacity
uniforms.height = 0.0
uniforms.permutation = DEFAULT_PERM
uniforms.vertexColor = this.vertexColor
// Compute camera matrix inverse
var invCameraMatrix = MATRIX_INVERSE
multiply(invCameraMatrix, uniforms.view, uniforms.model)
multiply(invCameraMatrix, uniforms.projection, invCameraMatrix)
invert(invCameraMatrix, invCameraMatrix)
for (i = 0; i < 3; ++i) {
uniforms.eyePosition[i] = invCameraMatrix[12 + i] / invCameraMatrix[15]
}
var w = invCameraMatrix[15]
for (i = 0; i < 3; ++i) {
w += this.lightPosition[i] * invCameraMatrix[4 * i + 3]
}
for (i = 0; i < 3; ++i) {
var s = invCameraMatrix[12 + i]
for (j = 0; j < 3; ++j) {
s += invCameraMatrix[4 * j + i] * this.lightPosition[j]
}
uniforms.lightPosition[i] = s / w
}
var projectData = computeProjectionData(uniforms, this)
if (projectData.showSurface && (transparent === (this.opacity < 1))) {
// Set up uniforms
this._shader.bind()
this._shader.uniforms = uniforms
// Draw it
this._vao.bind()
if (this.showSurface && this._vertexCount) {
this._vao.draw(gl.TRIANGLES, this._vertexCount)
}
// Draw projections of surface
for (i = 0; i < 3; ++i) {
if (!this.surfaceProject[i] || !this.vertexCount) {
continue
}
this._shader.uniforms.model = projectData.projections[i]
this._shader.uniforms.clipBounds = projectData.clipBounds[i]
this._vao.draw(gl.TRIANGLES, this._vertexCount)
}
this._vao.unbind()
}
if (projectData.showContour && !transparent) {
var shader = this._contourShader
// Don't apply lighting to contours
uniforms.kambient = 1.0
uniforms.kdiffuse = 0.0
uniforms.kspecular = 0.0
uniforms.opacity = 1.0
shader.bind()
shader.uniforms = uniforms
// Draw contour lines
var vao = this._contourVAO
vao.bind()
// Draw contour levels
for (i = 0; i < 3; ++i) {
shader.uniforms.permutation = PERMUTATIONS[i]
gl.lineWidth(this.contourWidth[i])
for (j = 0; j < this.contourLevels[i].length; ++j) {
if (j === this.highlightLevel[i]) {
shader.uniforms.contourColor = this.highlightColor[i]
shader.uniforms.contourTint = this.highlightTint[i]
} else if (j === 0 || (j - 1) === this.highlightLevel[i]) {
shader.uniforms.contourColor = this.contourColor[i]
shader.uniforms.contourTint = this.contourTint[i]
}
if (!this._contourCounts[i][j]) {
continue
}
shader.uniforms.height = this.contourLevels[i][j]
vao.draw(gl.LINES, this._contourCounts[i][j], this._contourOffsets[i][j])
}
}
// Draw projections of surface
for (i = 0; i < 3; ++i) {
shader.uniforms.model = projectData.projections[i]
shader.uniforms.clipBounds = projectData.clipBounds[i]
for (j = 0; j < 3; ++j) {
if (!this.contourProject[i][j]) {
continue
}
shader.uniforms.permutation = PERMUTATIONS[j]
gl.lineWidth(this.contourWidth[j])
for (var k = 0; k < this.contourLevels[j].length; ++k) {
if (k === this.highlightLevel[j]) {
shader.uniforms.contourColor = this.highlightColor[j]
shader.uniforms.contourTint = this.highlightTint[j]
} else if (k === 0 || (k - 1) === this.highlightLevel[j]) {
shader.uniforms.contourColor = this.contourColor[j]
shader.uniforms.contourTint = this.contourTint[j]
}
shader.uniforms.height = this.contourLevels[j][k]
vao.draw(gl.LINES, this._contourCounts[j][k], this._contourOffsets[j][k])
}
}
}
vao.unbind()
// Draw dynamic contours
vao = this._dynamicVAO
vao.bind()
// Draw contour levels
for (i = 0; i < 3; ++i) {
if (this._dynamicCounts[i] === 0) {
continue
}
shader.uniforms.model = uniforms.model
shader.uniforms.clipBounds = uniforms.clipBounds
shader.uniforms.permutation = PERMUTATIONS[i]
gl.lineWidth(this.dynamicWidth[i])
shader.uniforms.contourColor = this.dynamicColor[i]
shader.uniforms.contourTint = this.dynamicTint[i]
shader.uniforms.height = this.dynamicLevel[i]
vao.draw(gl.LINES, this._dynamicCounts[i], this._dynamicOffsets[i])
for (j = 0; j < 3; ++j) {
if (!this.contourProject[j][i]) {
continue
}
shader.uniforms.model = projectData.projections[j]
shader.uniforms.clipBounds = projectData.clipBounds[j]
vao.draw(gl.LINES, this._dynamicCounts[i], this._dynamicOffsets[i])
}
}
vao.unbind()
}
}
proto.draw = function (params) {
return drawCore.call(this, params, false)
}
proto.drawTransparent = function (params) {
return drawCore.call(this, params, true)
}
var PICK_UNIFORMS = {
model: IDENTITY,
view: IDENTITY,
projection: IDENTITY,
inverseModel: IDENTITY,
clipBounds: [[0, 0, 0], [0, 0, 0]],
height: 0.0,
shape: [0, 0],
pickId: 0,
lowerBound: [0, 0, 0],
upperBound: [0, 0, 0],
zOffset: 0.0,
permutation: [1, 0, 0, 0, 1, 0, 0, 0, 1],
lightPosition: [0, 0, 0],
eyePosition: [0, 0, 0]
}
proto.drawPick = function (params) {
params = params || {}
var gl = this.gl
gl.disable(gl.CULL_FACE)
var uniforms = PICK_UNIFORMS
uniforms.model = params.model || IDENTITY
uniforms.view = params.view || IDENTITY
uniforms.projection = params.projection || IDENTITY
uniforms.shape = this._field[2].shape
uniforms.pickId = this.pickId / 255.0
uniforms.lowerBound = this.bounds[0]
uniforms.upperBound = this.bounds[1]
uniforms.permutation = DEFAULT_PERM
for (var i = 0; i < 2; ++i) {
var clipClamped = uniforms.clipBounds[i]
for (var j = 0; j < 3; ++j) {
clipClamped[j] = Math.min(Math.max(this.clipBounds[i][j], -1e8), 1e8)
}
}
var projectData = computeProjectionData(uniforms, this)
if (projectData.showSurface) {
// Set up uniforms
this._pickShader.bind()
this._pickShader.uniforms = uniforms
// Draw it
this._vao.bind()
this._vao.draw(gl.TRIANGLES, this._vertexCount)
// Draw projections of surface
for (i = 0; i < 3; ++i) {
if (!this.surfaceProject[i]) {
continue
}
this._pickShader.uniforms.model = projectData.projections[i]
this._pickShader.uniforms.clipBounds = projectData.clipBounds[i]
this._vao.draw(gl.TRIANGLES, this._vertexCount)
}
this._vao.unbind()
}
if (projectData.showContour) {
var shader = this._contourPickShader
shader.bind()
shader.uniforms = uniforms
var vao = this._contourVAO
vao.bind()
for (j = 0; j < 3; ++j) {
gl.lineWidth(this.contourWidth[j])
shader.uniforms.permutation = PERMUTATIONS[j]
for (i = 0; i < this.contourLevels[j].length; ++i) {
if (this._contourCounts[j][i]) {
shader.uniforms.height = this.contourLevels[j][i]
vao.draw(gl.LINES, this._contourCounts[j][i], this._contourOffsets[j][i])
}
}
}
// Draw projections of surface
for (i = 0; i < 3; ++i) {
shader.uniforms.model = projectData.projections[i]
shader.uniforms.clipBounds = projectData.clipBounds[i]
for (j = 0; j < 3; ++j) {
if (!this.contourProject[i][j]) {
continue
}
shader.uniforms.permutation = PERMUTATIONS[j]
gl.lineWidth(this.contourWidth[j])
for (var k = 0; k < this.contourLevels[j].length; ++k) {
if (this._contourCounts[j][k]) {
shader.uniforms.height = this.contourLevels[j][k]
vao.draw(gl.LINES, this._contourCounts[j][k], this._contourOffsets[j][k])
}
}
}
}
vao.unbind()
}
}
proto.pick = function (selection) {
if (!selection) {
return null
}
if (selection.id !== this.pickId) {
return null
}
var shape = this._field[2].shape
var result = this._pickResult
// Compute uv coordinate
var x = shape[0] * (selection.value[0] + (selection.value[2] >> 4) / 16.0) / 255.0
var ix = Math.floor(x)
var fx = x - ix
var y = shape[1] * (selection.value[1] + (selection.value[2] & 15) / 16.0) / 255.0
var iy = Math.floor(y)
var fy = y - iy
ix += 1
iy += 1
// Compute xyz coordinate
var pos = result.position
pos[0] = pos[1] = pos[2] = 0
for (var dx = 0; dx < 2; ++dx) {
var s = dx ? fx : 1.0 - fx
for (var dy = 0; dy < 2; ++dy) {
var t = dy ? fy : 1.0 - fy
var r = ix + dx
var c = iy + dy
var w = s * t
for (var i = 0; i < 3; ++i) {
pos[i] += this._field[i].get(r, c) * w
}
}
}
// Find closest level
var levelIndex = this._pickResult.level
for (var j = 0; j < 3; ++j) {
levelIndex[j] = bsearch.le(this.contourLevels[j], pos[j])
if (levelIndex[j] < 0) {
if (this.contourLevels[j].length > 0) {
levelIndex[j] = 0
}
} else if (levelIndex[j] < this.contourLevels[j].length - 1) {
var a = this.contourLevels[j][levelIndex[j]]
var b = this.contourLevels[j][levelIndex[j] + 1]
if (Math.abs(a - pos[j]) > Math.abs(b - pos[j])) {
levelIndex[j] += 1
}
}
}
result.index[0] = fx < 0.5 ? ix : (ix + 1)
result.index[1] = fy < 0.5 ? iy : (iy + 1)
result.uv[0] = x / shape[0]
result.uv[1] = y / shape[1]
for (i = 0; i < 3; ++i) {
result.dataCoordinate[i] = this._field[i].get(result.index[0], result.index[1])
}
return result
}
function padField (nfield, field) {
var shape = field.shape.slice()
var nshape = nfield.shape.slice()
// Center
ops.assign(nfield.lo(1, 1).hi(shape[0], shape[1]), field)
// Edges
ops.assign(nfield.lo(1).hi(shape[0], 1),
field.hi(shape[0], 1))
ops.assign(nfield.lo(1, nshape[1] - 1).hi(shape[0], 1),
field.lo(0, shape[1] - 1).hi(shape[0], 1))
ops.assign(nfield.lo(0, 1).hi(1, shape[1]),
field.hi(1))
ops.assign(nfield.lo(nshape[0] - 1, 1).hi(1, shape[1]),
field.lo(shape[0] - 1))
// Corners
nfield.set(0, 0, field.get(0, 0))
nfield.set(0, nshape[1] - 1, field.get(0, shape[1] - 1))
nfield.set(nshape[0] - 1, 0, field.get(shape[0] - 1, 0))
nfield.set(nshape[0] - 1, nshape[1] - 1, field.get(shape[0] - 1, shape[1] - 1))
}
function handleArray (param, ctor) {
if (Array.isArray(param)) {
return [ ctor(param[0]), ctor(param[1]), ctor(param[2]) ]
}
return [ ctor(param), ctor(param), ctor(param) ]
}
function toColor (x) {
if (Array.isArray(x)) {
if (x.length === 3) {
return [x[0], x[1], x[2], 1]
}
return [x[0], x[1], x[2], x[3]]
}
return [0, 0, 0, 1]
}
function handleColor (param) {
if (Array.isArray(param)) {
if (Array.isArray(param)) {
return [
toColor(param[0]),
toColor(param[1]),
toColor(param[2]) ]
} else {
var c = toColor(param)
return [
c.slice(),
c.slice(),
c.slice() ]
}
}
}
proto.update = function (params) {
params = params || {}
this.dirty = true
if ('contourWidth' in params) {
this.contourWidth = handleArray(params.contourWidth, Number)
}
if ('showContour' in params) {
this.showContour = handleArray(params.showContour, Boolean)
}
if ('showSurface' in params) {
this.showSurface = !!params.showSurface
}
if ('contourTint' in params) {
this.contourTint = handleArray(params.contourTint, Boolean)
}
if ('contourColor' in params) {
this.contourColor = handleColor(params.contourColor)
}
if ('contourProject' in params) {
this.contourProject = handleArray(params.contourProject, function (x) {
return handleArray(x, Boolean)
})
}
if ('surfaceProject' in params) {
this.surfaceProject = params.surfaceProject
}
if ('dynamicColor' in params) {
this.dynamicColor = handleColor(params.dynamicColor)
}
if ('dynamicTint' in params) {
this.dynamicTint = handleArray(params.dynamicTint, Number)
}
if ('dynamicWidth' in params) {
this.dynamicWidth = handleArray(params.dynamicWidth, Number)
}
if ('opacity' in params) {
this.opacity = params.opacity
}
if ('colorBounds' in params) {
this.colorBounds = params.colorBounds
}
if ('vertexColor' in params) {
this.vertexColor = params.vertexColor ? 1 : 0;
}
var field = params.field || (params.coords && params.coords[2]) || null
var levelsChanged = false
if (!field) {
if (this._field[2].shape[0] || this._field[2].shape[2]) {
field = this._field[2].lo(1, 1).hi(this._field[2].shape[0] - 2, this._field[2].shape[1] - 2)
} else {
field = this._field[2].hi(0, 0)
}
}
// Update field
if ('field' in params || 'coords' in params) {
var fsize = (field.shape[0] + 2) * (field.shape[1] + 2)
// Resize if necessary
if (fsize > this._field[2].data.length) {
pool.freeFloat(this._field[2].data)
this._field[2].data = pool.mallocFloat(bits.nextPow2(fsize))
}
// Pad field
this._field[2] = ndarray(this._field[2].data, [field.shape[0] + 2, field.shape[1] + 2])
padField(this._field[2], field)
// Save shape of field
this.shape = field.shape.slice()
var shape = this.shape
// Resize coordinate fields if necessary
for (var i = 0; i < 2; ++i) {
if (this._field[2].size > this._field[i].data.length) {
pool.freeFloat(this._field[i].data)
this._field[i].data = pool.mallocFloat(this._field[2].size)
}
this._field[i] = ndarray(this._field[i].data, [shape[0] + 2, shape[1] + 2])
}
// Generate x/y coordinates
if (params.coords) {
var coords = params.coords
if (!Array.isArray(coords) || coords.length !== 3) {
throw new Error('gl-surface: invalid coordinates for x/y')
}
for (i = 0; i < 2; ++i) {
var coord = coords[i]
for (j = 0; j < 2; ++j) {
if (coord.shape[j] !== shape[j]) {
throw new Error('gl-surface: coords have incorrect shape')
}
}
padField(this._field[i], coord)
}
} else if (params.ticks) {
var ticks = params.ticks
if (!Array.isArray(ticks) || ticks.length !== 2) {
throw new Error('gl-surface: invalid ticks')
}
for (i = 0; i < 2; ++i) {
var tick = ticks[i]
if (Array.isArray(tick) || tick.length) {
tick = ndarray(tick)
}
if (tick.shape[0] !== shape[i]) {
throw new Error('gl-surface: invalid tick length')
}
// Make a copy view of the tick array
var tick2 = ndarray(tick.data, shape)
tick2.stride[i] = tick.stride[0]
tick2.stride[i ^ 1] = 0
// Fill in field array
padField(this._field[i], tick2)
}
} else {
for (i = 0; i < 2; ++i) {
var offset = [0, 0]
offset[i] = 1
this._field[i] = ndarray(this._field[i].data, [shape[0] + 2, shape[1] + 2], offset, 0)
}
this._field[0].set(0, 0, 0)
for (var j = 0; j < shape[0]; ++j) {
this._field[0].set(j + 1, 0, j)
}
this._field[0].set(shape[0] + 1, 0, shape[0] - 1)
this._field[1].set(0, 0, 0)
for (j = 0; j < shape[1]; ++j) {
this._field[1].set(0, j + 1, j)
}
this._field[1].set(0, shape[1] + 1, shape[1] - 1)
}
// Save shape
var fields = this._field
// Compute surface normals
var dfields = ndarray(pool.mallocFloat(fields[2].size * 3 * 2), [3, shape[0] + 2, shape[1] + 2, 2])
for (i = 0; i < 3; ++i) {
gradient(dfields.pick(i), fields[i], 'mirror')
}
var normals = ndarray(pool.mallocFloat(fields[2].size * 3), [shape[0] + 2, shape[1] + 2, 3])
for (i = 0; i < shape[0] + 2; ++i) {
for (j = 0; j < shape[1] + 2; ++j) {
var dxdu = dfields.get(0, i, j, 0)
var dxdv = dfields.get(0, i, j, 1)
var dydu = dfields.get(1, i, j, 0)
var dydv = dfields.get(1, i, j, 1)
var dzdu = dfields.get(2, i, j, 0)
var dzdv = dfields.get(2, i, j, 1)
var nx = dydu * dzdv - dydv * dzdu
var ny = dzdu * dxdv - dzdv * dxdu
var nz = dxdu * dydv - dxdv * dydu
var nl = Math.sqrt(nx * nx + ny * ny + nz * nz)
if (nl < 1e-8) {
nl = Math.max(Math.abs(nx), Math.abs(ny), Math.abs(nz))
if (nl < 1e-8) {
nz = 1.0
ny = nx = 0.0
nl = 1.0
} else {
nl = 1.0 / nl
}
} else {
nl = 1.0 / Math.sqrt(nl)
}
normals.set(i, j, 0, nx * nl)
normals.set(i, j, 1, ny * nl)
normals.set(i, j, 2, nz * nl)
}
}
pool.free(dfields.data)
// Initialize surface
var lo = [ Infinity, Infinity, Infinity ]
var hi = [ -Infinity, -Infinity, -Infinity ]
var lo_intensity = Infinity
var hi_intensity = -Infinity
var count = (shape[0] - 1) * (shape[1] - 1) * 6
var tverts = pool.mallocFloat(bits.nextPow2(10 * count))
var tptr = 0
var vertexCount = 0
for (i = 0; i < shape[0] - 1; ++i) {
j_loop:
for (j = 0; j < shape[1] - 1; ++j) {
// Test for NaNs
for (var dx = 0; dx < 2; ++dx) {
for (var dy = 0; dy < 2; ++dy) {
for (var k = 0; k < 3; ++k) {
var f = this._field[k].get(1 + i + dx, 1 + j + dy)
if (isNaN(f) || !isFinite(f)) {
continue j_loop
}
}
}
}
for (k = 0; k < 6; ++k) {
var r = i + QUAD[k][0]
var c = j + QUAD[k][1]
var tx = this._field[0].get(r + 1, c + 1)
var ty = this._field[1].get(r + 1, c + 1)
f = this._field[2].get(r + 1, c + 1)
var vf = f
nx = normals.get(r + 1, c + 1, 0)
ny = normals.get(r + 1, c + 1, 1)
nz = normals.get(r + 1, c + 1, 2)
if (params.intensity) {
vf = params.intensity.get(r, c)
}
tverts[tptr++] = r
tverts[tptr++] = c
tverts[tptr++] = tx
tverts[tptr++] = ty
tverts[tptr++] = f
tverts[tptr++] = 0
tverts[tptr++] = vf
tverts[tptr++] = nx
tverts[tptr++] = ny
tverts[tptr++] = nz
lo[0] = Math.min(lo[0], tx)
lo[1] = Math.min(lo[1], ty)
lo[2] = Math.min(lo[2], f)
lo_intensity = Math.min(lo_intensity, vf)
hi[0] = Math.max(hi[0], tx)
hi[1] = Math.max(hi[1], ty)
hi[2] = Math.max(hi[2], f)
hi_intensity = Math.max(hi_intensity, vf)
vertexCount += 1
}
}
}
if (params.intensityBounds) {
lo_intensity = +params.intensityBounds[0]
hi_intensity = +params.intensityBounds[1]
}
// Scale all vertex intensities
for (i = 6; i < tptr; i += 10) {
tverts[i] = (tverts[i] - lo_intensity) / (hi_intensity - lo_intensity)
}
this._vertexCount = vertexCount
this._coordinateBuffer.update(tverts.subarray(0, tptr))
pool.freeFloat(tverts)
pool.free(normals.data)
// Update bounds
this.bounds = [lo, hi]
// Save intensity
this.intensity = params.intensity || this._field[2]
if(this.intensityBounds[0] !== lo_intensity || this.intensityBounds[1] !== hi_intensity) {
levelsChanged = true
}
// Save intensity bound
this.intensityBounds = [lo_intensity, hi_intensity]
}
// Update level crossings
if ('levels' in params) {
var levels = params.levels
if (!Array.isArray(levels[0])) {
levels = [ [], [], levels ]
} else {
levels = levels.slice()
}
for (i = 0; i < 3; ++i) {
levels[i] = levels[i].slice()
levels.sort(function (a, b) {
return a - b
})
}
change_test:
for (i = 0; i < 3; ++i) {
if (levels[i].length !== this.contourLevels[i].length) {
levelsChanged = true
break
}
for (j = 0; j < levels[i].length; ++j) {
if (levels[i][j] !== this.contourLevels[i][j]) {
levelsChanged = true
break change_test
}
}
}
this.contourLevels = levels
}
if (levelsChanged) {
fields = this._field
shape = this.shape
// Update contour lines
var contourVerts = []
for (var dim = 0; dim < 3; ++dim) {
levels = this.contourLevels[dim]
var levelOffsets = []
var levelCounts = []
var parts = [0, 0, 0]
for (i = 0; i < levels.length; ++i) {
var graph = surfaceNets(this._field[dim], levels[i])
levelOffsets.push((contourVerts.length / 5) | 0)
vertexCount = 0
edge_loop:
for (j = 0; j < graph.cells.length; ++j) {
var e = graph.cells[j]
for (k = 0; k < 2; ++k) {
var p = graph.positions[e[k]]
var x = p[0]
var ix = Math.floor(x) | 0
var fx = x - ix
var y = p[1]
var iy = Math.floor(y) | 0
var fy = y - iy
var hole = false
dd_loop:
for (var dd = 0; dd < 3; ++dd) {
parts[dd] = 0.0
var iu = (dim + dd + 1) % 3
for (dx = 0; dx < 2; ++dx) {
var s = dx ? fx : 1.0 - fx
r = Math.min(Math.max(ix + dx, 0), shape[0]) | 0
for (dy = 0; dy < 2; ++dy) {
var t = dy ? fy : 1.0 - fy
c = Math.min(Math.max(iy + dy, 0), shape[1]) | 0
if (dd < 2) {
f = this._field[iu].get(r, c)
} else {
f = (this.intensity.get(r, c) - this.intensityBounds[0]) / (this.intensityBounds[1] - this.intensityBounds[0])
}
if (!isFinite(f) || isNaN(f)) {
hole = true
break dd_loop
}
var w = s * t
parts[dd] += w * f
}
}
}
if (!hole) {
contourVerts.push(parts[0], parts[1], p[0], p[1], parts[2])
vertexCount += 1
} else {
if (k > 0) {
// If we already added first edge, pop off verts
for (var l = 0; l < 5; ++l) {
contourVerts.pop()
}
vertexCount -= 1
}
continue edge_loop
}
}
}
levelCounts.push(vertexCount)
}
// Store results
this._contourOffsets[dim] = levelOffsets
this._contourCounts[dim] = levelCounts
}
var floatBuffer = pool.mallocFloat(contourVerts.length)
for (i = 0; i < contourVerts.length; ++i) {
floatBuffer[i] = contourVerts[i]
}
this._contourBuffer.update(floatBuffer)
pool.freeFloat(floatBuffer)
}
if (params.colormap) {
this._colorMap.setPixels(genColormap(params.colormap))
}
}
proto.dispose = function () {
this._shader.dispose()
this._vao.dispose()
this._coordinateBuffer.dispose()
this._colorMap.dispose()
this._contourBuffer.dispose()
this._contourVAO.dispose()
this._contourShader.dispose()
this._contourPickShader.dispose()
this._dynamicBuffer.dispose()
this._dynamicVAO.dispose()
for (var i = 0; i < 3; ++i) {
pool.freeFloat(this._field[i].data)
}
}
proto.highlight = function (selection) {
if (!selection) {
this._dynamicCounts = [0, 0, 0]
this.dyanamicLevel = [NaN, NaN, NaN]
this.highlightLevel = [-1, -1, -1]
return
}
for (var i = 0; i < 3; ++i) {
if (this.enableHighlight[i]) {
this.highlightLevel[i] = selection.level[i]
} else {
this.highlightLevel[i] = -1
}
}
var levels
if (this.snapToData) {
levels = selection.dataCoordinate
} else {
levels = selection.position
}
if ((!this.enableDynamic[0] || levels[0] === this.dynamicLevel[0]) &&
(!this.enableDynamic[1] || levels[1] === this.dynamicLevel[1]) &&
(!this.enableDynamic[2] || levels[2] === this.dynamicLevel[2])) {
return
}
var vertexCount = 0
var shape = this.shape
var scratchBuffer = pool.mallocFloat(12 * shape[0] * shape[1])
for (var d = 0; d < 3; ++d) {
if (!this.enableDynamic[d]) {
this.dynamicLevel[d] = NaN
this._dynamicCounts[d] = 0
continue
}
this.dynamicLevel[d] = levels[d]
var u = (d + 1) % 3
var v = (d + 2) % 3
var f = this._field[d]
var g = this._field[u]
var h = this._field[v]
var intensity = this.intensity
var graph = surfaceNets(f, levels[d])
var edges = graph.cells
var positions = graph.positions
this._dynamicOffsets[d] = vertexCount
for (i = 0; i < edges.length; ++i) {
var e = edges[i]
for (var j = 0; j < 2; ++j) {
var p = positions[e[j]]
var x = +p[0]
var ix = x | 0
var jx = Math.min(ix + 1, shape[0]) | 0
var fx = x - ix
var hx = 1.0 - fx
var y = +p[1]
var iy = y | 0
var jy = Math.min(iy + 1, shape[1]) | 0
var fy = y - iy
var hy = 1.0 - fy
var w00 = hx * hy
var w01 = hx * fy
var w10 = fx * hy
var w11 = fx * fy
var cu = w00 * g.get(ix, iy) +
w01 * g.get(ix, jy) +
w10 * g.get(jx, iy) +
w11 * g.get(jx, jy)
var cv = w00 * h.get(ix, iy) +
w01 * h.get(ix, jy) +
w10 * h.get(jx, iy) +
w11 * h.get(jx, jy)
if (isNaN(cu) || isNaN(cv)) {
if (j) {
vertexCount -= 1
}
break
}
scratchBuffer[2 * vertexCount + 0] = cu
scratchBuffer[2 * vertexCount + 1] = cv
vertexCount += 1
}
}
this._dynamicCounts[d] = vertexCount - this._dynamicOffsets[d]
}
this._dynamicBuffer.update(scratchBuffer.subarray(0, 2 * vertexCount))
pool.freeFloat(scratchBuffer)
}
function createSurfacePlot (params) {
var gl = params.gl
var shader = createShader(gl)
var pickShader = createPickShader(gl)
var contourShader = createContourShader(gl)
var contourPickShader = createPickContourShader(gl)
var coordinateBuffer = createBuffer(gl)
var vao = createVAO(gl, [
{ buffer: coordinateBuffer,
size: 4,
stride: SURFACE_VERTEX_SIZE,
offset: 0
},
{ buffer: coordinateBuffer,
size: 3,
stride: SURFACE_VERTEX_SIZE,
offset: 16
},
{
buffer: coordinateBuffer,
size: 3,
stride: SURFACE_VERTEX_SIZE,
offset: 28
}
])
var contourBuffer = createBuffer(gl)
var contourVAO = createVAO(gl, [
{
buffer: contourBuffer,
size: 4,
stride: 20,
offset: 0
},
{
buffer: contourBuffer,
size: 1,
stride: 20,
offset: 16
}
])
var dynamicBuffer = createBuffer(gl)
var dynamicVAO = createVAO(gl, [
{
buffer: dynamicBuffer,
size: 2,
type: gl.FLOAT
}])
var cmap = createTexture(gl, 1, N_COLORS, gl.RGBA, gl.UNSIGNED_BYTE)
cmap.minFilter = gl.LINEAR
cmap.magFilter = gl.LINEAR
var surface = new SurfacePlot(
gl,
[0, 0],
[[0, 0, 0], [0, 0, 0]],
shader,
pickShader,
coordinateBuffer,
vao,
cmap,
contourShader,
contourPickShader,
contourBuffer,
contourVAO,
dynamicBuffer,
dynamicVAO
)
var nparams = {
levels: [[], [], []]
}
for (var id in params) {
nparams[id] = params[id]
}
nparams.colormap = nparams.colormap || 'jet'
surface.update(nparams)
return surface
}
},{"./lib/shaders":300,"binary-search-bounds":78,"bit-twiddle":79,"colormap":113,"gl-buffer":229,"gl-mat4/invert":253,"gl-mat4/multiply":255,"gl-texture2d":303,"gl-vao":308,"ndarray":430,"ndarray-gradient":421,"ndarray-ops":424,"ndarray-pack":425,"surface-nets":505,"typedarray-pool":519}],302:[function(_dereq_,module,exports){
'use strict'
var Font = _dereq_('css-font')
var pick = _dereq_('pick-by-alias')
var createRegl = _dereq_('regl')
var createGl = _dereq_('gl-util/context')
var WeakMap = _dereq_('es6-weak-map')
var rgba = _dereq_('color-normalize')
var fontAtlas = _dereq_('font-atlas')
var pool = _dereq_('typedarray-pool')
var parseRect = _dereq_('parse-rect')
var isObj = _dereq_('is-plain-obj')
var parseUnit = _dereq_('parse-unit')
var px = _dereq_('to-px')
var kerning = _dereq_('detect-kerning')
var extend = _dereq_('object-assign')
var metrics = _dereq_('font-measure')
var flatten = _dereq_('flatten-vertex-data')
var ref = _dereq_('bit-twiddle');
var nextPow2 = ref.nextPow2;
var shaderCache = new WeakMap
// Safari does not support font-stretch
var isStretchSupported = false
if (document.body) {
var el = document.body.appendChild(document.createElement('div'))
el.style.font = 'italic small-caps bold condensed 16px/2 cursive'
if (getComputedStyle(el).fontStretch) {
isStretchSupported = true
}
document.body.removeChild(el)
}
var GlText = function GlText (o) {
if (isRegl(o)) {
o = {regl: o}
this.gl = o.regl._gl
}
else {
this.gl = createGl(o)
}
this.shader = shaderCache.get(this.gl)
if (!this.shader) {
this.regl = o.regl || createRegl({ gl: this.gl })
}
else {
this.regl = this.shader.regl
}
this.charBuffer = this.regl.buffer({ type: 'uint8', usage: 'stream' })
this.sizeBuffer = this.regl.buffer({ type: 'float', usage: 'stream' })
if (!this.shader) {
this.shader = this.createShader()
shaderCache.set(this.gl, this.shader)
}
this.batch = []
// multiple options initial state
this.fontSize = []
this.font = []
this.fontAtlas = []
this.draw = this.shader.draw.bind(this)
this.render = function () {
// FIXME: add Safari regl report here:
// charBuffer and width just do not trigger
this.regl._refresh()
this.draw(this.batch)
}
this.canvas = this.gl.canvas
this.update(isObj(o) ? o : {})
};
GlText.prototype.createShader = function createShader () {
var regl = this.regl
// FIXME: store 2 shader versions: with normal viewport and without
// draw texture method
var draw = regl({
blend: {
enable: true,
color: [0,0,0,1],
func: {
srcRGB: 'src alpha',
dstRGB: 'one minus src alpha',
srcAlpha: 'one minus dst alpha',
dstAlpha: 'one'
}
},
stencil: {enable: false},
depth: {enable: false},
count: regl.prop('count'),
offset: regl.prop('offset'),
attributes: {
charOffset: {
offset: 4,
stride: 8,
buffer: regl.this('sizeBuffer')
},
width: {
offset: 0,
stride: 8,
buffer: regl.this('sizeBuffer')
},
char: regl.this('charBuffer'),
position: regl.this('position')
},
uniforms: {
atlasSize: function (c, p) { return [p.atlas.width, p.atlas.height]; },
atlasDim: function (c, p) { return [p.atlas.cols, p.atlas.rows]; },
atlas: function (c, p) { return p.atlas.texture; },
charStep: function (c, p) { return p.atlas.step; },
em: function (c, p) { return p.atlas.em; },
color: regl.prop('color'),
opacity: regl.prop('opacity'),
viewport: regl.this('viewportArray'),
scale: regl.this('scale'),
align: regl.prop('align'),
baseline: regl.prop('baseline'),
translate: regl.this('translate'),
positionOffset: regl.prop('positionOffset')
},
primitive: 'points',
viewport: regl.this('viewport'),
vert: ("\n\t\t\tprecision highp float;\n\t\t\tattribute float width, charOffset, char;\n\t\t\tattribute vec2 position;\n\t\t\tuniform float fontSize, charStep, em, align, baseline;\n\t\t\tuniform vec4 viewport;\n\t\t\tuniform vec4 color;\n\t\t\tuniform vec2 atlasSize, atlasDim, scale, translate, positionOffset;\n\t\t\tvarying vec2 charCoord, charId;\n\t\t\tvarying float charWidth;\n\t\t\tvarying vec4 fontColor;\n\t\t\tvoid main () {\n\t\t\t\t" + (!GlText.normalViewport ? 'vec2 positionOffset = vec2(positionOffset.x,- positionOffset.y);' : '') + "\n\n\t\t\t\tvec2 offset = floor(em * (vec2(align + charOffset, baseline)\n\t\t\t\t\t+ positionOffset))\n\t\t\t\t\t/ (viewport.zw * scale.xy);\n\n\t\t\t\tvec2 position = (position + translate) * scale;\n\t\t\t\tposition += offset * scale;\n\n\t\t\t\t" + (GlText.normalViewport ? 'position.y = 1. - position.y;' : '') + "\n\n\t\t\t\tcharCoord = position * viewport.zw + viewport.xy;\n\n\t\t\t\tgl_Position = vec4(position * 2. - 1., 0, 1);\n\n\t\t\t\tgl_PointSize = charStep;\n\n\t\t\t\tcharId.x = mod(char, atlasDim.x);\n\t\t\t\tcharId.y = floor(char / atlasDim.x);\n\n\t\t\t\tcharWidth = width * em;\n\n\t\t\t\tfontColor = color / 255.;\n\t\t\t}"),
frag: "\n\t\t\tprecision highp float;\n\t\t\tuniform sampler2D atlas;\n\t\t\tuniform float fontSize, charStep, opacity;\n\t\t\tuniform vec2 atlasSize;\n\t\t\tuniform vec4 viewport;\n\t\t\tvarying vec4 fontColor;\n\t\t\tvarying vec2 charCoord, charId;\n\t\t\tvarying float charWidth;\n\n\t\t\tfloat lightness(vec4 color) {\n\t\t\t\treturn color.r * 0.299 + color.g * 0.587 + color.b * 0.114;\n\t\t\t}\n\n\t\t\tvoid main () {\n\t\t\t\tvec2 uv = gl_FragCoord.xy - charCoord + charStep * .5;\n\t\t\t\tfloat halfCharStep = floor(charStep * .5 + .5);\n\n\t\t\t\t// invert y and shift by 1px (FF expecially needs that)\n\t\t\t\tuv.y = charStep - uv.y;\n\n\t\t\t\t// ignore points outside of character bounding box\n\t\t\t\tfloat halfCharWidth = ceil(charWidth * .5);\n\t\t\t\tif (floor(uv.x) > halfCharStep + halfCharWidth ||\n\t\t\t\t\tfloor(uv.x) < halfCharStep - halfCharWidth) return;\n\n\t\t\t\tuv += charId * charStep;\n\t\t\t\tuv = uv / atlasSize;\n\n\t\t\t\tvec4 color = fontColor;\n\t\t\t\tvec4 mask = texture2D(atlas, uv);\n\n\t\t\t\tfloat maskY = lightness(mask);\n\t\t\t\t// float colorY = lightness(color);\n\t\t\t\tcolor.a *= maskY;\n\t\t\t\tcolor.a *= opacity;\n\n\t\t\t\t// color.a += .1;\n\n\t\t\t\t// antialiasing, see yiq color space y-channel formula\n\t\t\t\t// color.rgb += (1. - color.rgb) * (1. - mask.rgb);\n\n\t\t\t\tgl_FragColor = color;\n\t\t\t}"
})
// per font-size atlas
var atlas = {}
return { regl: regl, draw: draw, atlas: atlas }
};
GlText.prototype.update = function update (o) {
var this$1 = this;
if (typeof o === 'string') { o = { text: o } }
else if (!o) { return }
// FIXME: make this a static transform or more general approact
o = pick(o, {
position: 'position positions coord coords coordinates',
font: 'font fontFace fontface typeface cssFont css-font family fontFamily',
fontSize: 'fontSize fontsize size font-size',
text: 'text texts chars characters value values symbols',
align: 'align alignment textAlign textbaseline',
baseline: 'baseline textBaseline textbaseline',
direction: 'dir direction textDirection',
color: 'color colour fill fill-color fillColor textColor textcolor',
kerning: 'kerning kern',
range: 'range dataBox',
viewport: 'vp viewport viewBox viewbox viewPort',
opacity: 'opacity alpha transparency visible visibility opaque',
offset: 'offset positionOffset padding shift indent indentation'
}, true)
if (o.opacity != null) {
if (Array.isArray(o.opacity)) {
this.opacity = o.opacity.map(function (o) { return parseFloat(o); })
}
else {
this.opacity = parseFloat(o.opacity)
}
}
if (o.viewport != null) {
this.viewport = parseRect(o.viewport)
if (GlText.normalViewport) {
this.viewport.y = this.canvas.height - this.viewport.y - this.viewport.height
}
this.viewportArray = [this.viewport.x, this.viewport.y, this.viewport.width, this.viewport.height]
}
if (this.viewport == null) {
this.viewport = {
x: 0, y: 0,
width: this.gl.drawingBufferWidth,
height: this.gl.drawingBufferHeight
}
this.viewportArray = [this.viewport.x, this.viewport.y, this.viewport.width, this.viewport.height]
}
if (o.kerning != null) { this.kerning = o.kerning }
if (o.offset != null) {
if (typeof o.offset === 'number') { o.offset = [o.offset, 0] }
this.positionOffset = flatten(o.offset)
}
if (o.direction) { this.direction = o.direction }
if (o.range) {
this.range = o.range
this.scale = [1 / (o.range[2] - o.range[0]), 1 / (o.range[3] - o.range[1])]
this.translate = [-o.range[0], -o.range[1]]
}
if (o.scale) { this.scale = o.scale }
if (o.translate) { this.translate = o.translate }
// default scale corresponds to viewport
if (!this.scale) { this.scale = [1 / this.viewport.width, 1 / this.viewport.height] }
if (!this.translate) { this.translate = [0, 0] }
if (!this.font.length && !o.font) { o.font = GlText.baseFontSize + 'px sans-serif' }
// normalize font caching string
var newFont = false, newFontSize = false
// obtain new font data
if (o.font) {
(Array.isArray(o.font) ? o.font : [o.font]).forEach(function (font, i) {
// normalize font
if (typeof font === 'string') {
try {
font = Font.parse(font)
} catch (e) {
font = Font.parse(GlText.baseFontSize + 'px ' + font)
}
}
else { font = Font.parse(Font.stringify(font)) }
var baseString = Font.stringify({
size: GlText.baseFontSize,
family: font.family,
stretch: isStretchSupported ? font.stretch : undefined,
variant: font.variant,
weight: font.weight,
style: font.style
})
var unit = parseUnit(font.size)
var fs = Math.round(unit[0] * px(unit[1]))
if (fs !== this$1.fontSize[i]) {
newFontSize = true
this$1.fontSize[i] = fs
}
// calc new font metrics/atlas
if (!this$1.font[i] || baseString != this$1.font[i].baseString) {
newFont = true
// obtain font cache or create one
this$1.font[i] = GlText.fonts[baseString]
if (!this$1.font[i]) {
var family = font.family.join(', ')
var style = [font.style]
if (font.style != font.variant) { style.push(font.variant) }
if (font.variant != font.weight) { style.push(font.weight) }
if (isStretchSupported && font.weight != font.stretch) { style.push(font.stretch) }
this$1.font[i] = {
baseString: baseString,
// typeface
family: family,
weight: font.weight,
stretch: font.stretch,
style: font.style,
variant: font.variant,
// widths of characters
width: {},
// kernin pairs offsets
kerning: {},
metrics: metrics(family, {
origin: 'top',
fontSize: GlText.baseFontSize,
fontStyle: style.join(' ')
})
}
GlText.fonts[baseString] = this$1.font[i]
}
}
})
}
// FIXME: make independend font-size
// if (o.fontSize) {
// let unit = parseUnit(o.fontSize)
// let fs = Math.round(unit[0] * px(unit[1]))
// if (fs != this.fontSize) {
// newFontSize = true
// this.fontSize = fs
// }
// }
if (newFont || newFontSize) {
this.font.forEach(function (font, i) {
var fontString = Font.stringify({
size: this$1.fontSize[i],
family: font.family,
stretch: isStretchSupported ? font.stretch : undefined,
variant: font.variant,
weight: font.weight,
style: font.style
})
// calc new font size atlas
this$1.fontAtlas[i] = this$1.shader.atlas[fontString]
if (!this$1.fontAtlas[i]) {
var metrics = font.metrics
this$1.shader.atlas[fontString] =
this$1.fontAtlas[i] = {
fontString: fontString,
// even step is better for rendered characters
step: Math.ceil(this$1.fontSize[i] * metrics.bottom * .5) * 2,
em: this$1.fontSize[i],
cols: 0,
rows: 0,
height: 0,
width: 0,
chars: [],
ids: {},
texture: this$1.regl.texture()
}
}
// bump atlas characters
if (o.text == null) { o.text = this$1.text }
})
}
// if multiple positions - duplicate text arguments
// FIXME: this possibly can be done better to avoid array spawn
if (typeof o.text === 'string' && o.position && o.position.length > 2) {
var textArray = Array(o.position.length * .5)
for (var i = 0; i < textArray.length; i++) {
textArray[i] = o.text
}
o.text = textArray
}
// calculate offsets for the new font/text
var newAtlasChars
if (o.text != null || newFont) {
// FIXME: ignore spaces
// text offsets within the text buffer
this.textOffsets = [0]
if (Array.isArray(o.text)) {
this.count = o.text[0].length
this.counts = [this.count]
for (var i$1 = 1; i$1 < o.text.length; i$1++) {
this$1.textOffsets[i$1] = this$1.textOffsets[i$1 - 1] + o.text[i$1 - 1].length
this$1.count += o.text[i$1].length
this$1.counts.push(o.text[i$1].length)
}
this.text = o.text.join('')
}
else {
this.text = o.text
this.count = this.text.length
this.counts = [this.count]
}
newAtlasChars = []
// detect & measure new characters
this.font.forEach(function (font, idx) {
GlText.atlasContext.font = font.baseString
var atlas = this$1.fontAtlas[idx]
for (var i = 0; i < this$1.text.length; i++) {
var char = this$1.text.charAt(i)
if (atlas.ids[char] == null) {
atlas.ids[char] = atlas.chars.length
atlas.chars.push(char)
newAtlasChars.push(char)
}
if (font.width[char] == null) {
font.width[char] = GlText.atlasContext.measureText(char).width / GlText.baseFontSize
// measure kerning pairs for the new character
if (this$1.kerning) {
var pairs = []
for (var baseChar in font.width) {
pairs.push(baseChar + char, char + baseChar)
}
extend(font.kerning, kerning(font.family, {
pairs: pairs
}))
}
}
}
})
}
// create single position buffer (faster than batch or multiple separate instances)
if (o.position) {
if (o.position.length > 2) {
var flat = !o.position[0].length
var positionData = pool.mallocFloat(this.count * 2)
for (var i$2 = 0, ptr = 0; i$2 < this.counts.length; i$2++) {
var count = this$1.counts[i$2]
if (flat) {
for (var j = 0; j < count; j++) {
positionData[ptr++] = o.position[i$2 * 2]
positionData[ptr++] = o.position[i$2 * 2 + 1]
}
}
else {
for (var j$1 = 0; j$1 < count; j$1++) {
positionData[ptr++] = o.position[i$2][0]
positionData[ptr++] = o.position[i$2][1]
}
}
}
if (this.position.call) {
this.position({
type: 'float',
data: positionData
})
} else {
this.position = this.regl.buffer({
type: 'float',
data: positionData
})
}
pool.freeFloat(positionData)
}
else {
if (this.position.destroy) { this.position.destroy() }
this.position = {
constant: o.position
}
}
}
// populate text/offset buffers if font/text has changed
// as [charWidth, offset, charWidth, offset...]
// that is in em units since font-size can change often
if (o.text || newFont) {
var charIds = pool.mallocUint8(this.count)
var sizeData = pool.mallocFloat(this.count * 2)
this.textWidth = []
for (var i$3 = 0, ptr$1 = 0; i$3 < this.counts.length; i$3++) {
var count$1 = this$1.counts[i$3]
var font = this$1.font[i$3] || this$1.font[0]
var atlas = this$1.fontAtlas[i$3] || this$1.fontAtlas[0]
for (var j$2 = 0; j$2 < count$1; j$2++) {
var char = this$1.text.charAt(ptr$1)
var prevChar = this$1.text.charAt(ptr$1 - 1)
charIds[ptr$1] = atlas.ids[char]
sizeData[ptr$1 * 2] = font.width[char]
if (j$2) {
var prevWidth = sizeData[ptr$1 * 2 - 2]
var currWidth = sizeData[ptr$1 * 2]
var prevOffset = sizeData[ptr$1 * 2 - 1]
var offset = prevOffset + prevWidth * .5 + currWidth * .5;
if (this$1.kerning) {
var kerning$1 = font.kerning[prevChar + char]
if (kerning$1) {
offset += kerning$1 * 1e-3
}
}
sizeData[ptr$1 * 2 + 1] = offset
}
else {
sizeData[ptr$1 * 2 + 1] = sizeData[ptr$1 * 2] * .5
}
ptr$1++
}
this$1.textWidth.push(
!sizeData.length ? 0 :
// last offset + half last width
sizeData[ptr$1 * 2 - 2] * .5 + sizeData[ptr$1 * 2 - 1]
)
}
// bump recalc align offset
if (!o.align) { o.align = this.align }
this.charBuffer({data: charIds, type: 'uint8', usage: 'stream'})
this.sizeBuffer({data: sizeData, type: 'float', usage: 'stream'})
pool.freeUint8(charIds)
pool.freeFloat(sizeData)
// udpate font atlas and texture
if (newAtlasChars.length) {
this.font.forEach(function (font, i) {
var atlas = this$1.fontAtlas[i]
// FIXME: insert metrics-based ratio here
var step = atlas.step
var maxCols = Math.floor(GlText.maxAtlasSize / step)
var cols = Math.min(maxCols, atlas.chars.length)
var rows = Math.ceil(atlas.chars.length / cols)
var atlasWidth = nextPow2( cols * step )
// let atlasHeight = Math.min(rows * step + step * .5, GlText.maxAtlasSize);
var atlasHeight = nextPow2( rows * step );
atlas.width = atlasWidth
atlas.height = atlasHeight;
atlas.rows = rows
atlas.cols = cols
if (!atlas.em) { return }
atlas.texture({
data: fontAtlas({
canvas: GlText.atlasCanvas,
font: atlas.fontString,
chars: atlas.chars,
shape: [atlasWidth, atlasHeight],
step: [step, step]
})
})
})
}
}
if (o.align) {
this.align = o.align
this.alignOffset = this.textWidth.map(function (textWidth, i) {
var align = !Array.isArray(this$1.align) ? this$1.align : this$1.align.length > 1 ? this$1.align[i] : this$1.align[0]
if (typeof align === 'number') { return align }
switch (align) {
case 'right':
case 'end':
return -textWidth
case 'center':
case 'centre':
case 'middle':
return -textWidth * .5
}
return 0
})
}
if (this.baseline == null && o.baseline == null) {
o.baseline = 0
}
if (o.baseline != null) {
this.baseline = o.baseline
if (!Array.isArray(this.baseline)) { this.baseline = [this.baseline] }
this.baselineOffset = this.baseline.map(function (baseline, i) {
var m = (this$1.font[i] || this$1.font[0]).metrics
var base = 0
base += m.bottom * .5
if (typeof baseline === 'number') {
base += (baseline - m.baseline)
}
else {
base += -m[baseline]
}
if (!GlText.normalViewport) { base *= -1 }
return base
})
}
// flatten colors to a single uint8 array
if (o.color != null) {
if (!o.color) { o.color = 'transparent' }
// single color
if (typeof o.color === 'string' || !isNaN(o.color)) {
this.color = rgba(o.color, 'uint8')
}
// array
else {
var colorData
// flat array
if (typeof o.color[0] === 'number' && o.color.length > this.counts.length) {
var l = o.color.length
colorData = pool.mallocUint8(l)
var sub = (o.color.subarray || o.color.slice).bind(o.color)
for (var i$4 = 0; i$4 < l; i$4 += 4) {
colorData.set(rgba(sub(i$4, i$4 + 4), 'uint8'), i$4)
}
}
// nested array
else {
var l$1 = o.color.length
colorData = pool.mallocUint8(l$1 * 4)
for (var i$5 = 0; i$5 < l$1; i$5++) {
colorData.set(rgba(o.color[i$5] || 0, 'uint8'), i$5 * 4)
}
}
this.color = colorData
}
}
// update render batch
if (o.position || o.text || o.color || o.baseline || o.align || o.font || o.offset || o.opacity) {
var isBatch = (this.color.length > 4)
|| (this.baselineOffset.length > 1)
|| (this.align && this.align.length > 1)
|| (this.fontAtlas.length > 1)
|| (this.positionOffset.length > 2)
if (isBatch) {
var length = Math.max(
this.position.length * .5 || 0,
this.color.length * .25 || 0,
this.baselineOffset.length || 0,
this.alignOffset.length || 0,
this.font.length || 0,
this.opacity.length || 0,
this.positionOffset.length * .5 || 0
)
this.batch = Array(length)
for (var i$6 = 0; i$6 < this.batch.length; i$6++) {
this$1.batch[i$6] = {
count: this$1.counts.length > 1 ? this$1.counts[i$6] : this$1.counts[0],
offset: this$1.textOffsets.length > 1 ? this$1.textOffsets[i$6] : this$1.textOffsets[0],
color: !this$1.color ? [0,0,0,255] : this$1.color.length <= 4 ? this$1.color : this$1.color.subarray(i$6 * 4, i$6 * 4 + 4),
opacity: Array.isArray(this$1.opacity) ? this$1.opacity[i$6] : this$1.opacity,
baseline: this$1.baselineOffset[i$6] != null ? this$1.baselineOffset[i$6] : this$1.baselineOffset[0],
align: !this$1.align ? 0 : this$1.alignOffset[i$6] != null ? this$1.alignOffset[i$6] : this$1.alignOffset[0],
atlas: this$1.fontAtlas[i$6] || this$1.fontAtlas[0],
positionOffset: this$1.positionOffset.length > 2 ? this$1.positionOffset.subarray(i$6 * 2, i$6 * 2 + 2) : this$1.positionOffset
}
}
}
// single-color, single-baseline, single-align batch is faster to render
else {
if (this.count) {
this.batch = [{
count: this.count,
offset: 0,
color: this.color || [0,0,0,255],
opacity: Array.isArray(this.opacity) ? this.opacity[0] : this.opacity,
baseline: this.baselineOffset[0],
align: this.alignOffset ? this.alignOffset[0] : 0,
atlas: this.fontAtlas[0],
positionOffset: this.positionOffset
}]
}
else {
this.batch = []
}
}
}
};
GlText.prototype.destroy = function destroy () {
// TODO: count instances of atlases and destroy all on null
};
// defaults
GlText.prototype.kerning = true
GlText.prototype.position = { constant: new Float32Array(2) }
GlText.prototype.translate = null
GlText.prototype.scale = null
GlText.prototype.font = null
GlText.prototype.text = ''
GlText.prototype.positionOffset = [0, 0]
GlText.prototype.opacity = 1
GlText.prototype.color = new Uint8Array([0, 0, 0, 255])
GlText.prototype.alignOffset = [0, 0]
// whether viewport should be top↓bottom 2d one (true) or webgl one (false)
GlText.normalViewport = false
// size of an atlas
GlText.maxAtlasSize = 1024
// font atlas canvas is singleton
GlText.atlasCanvas = document.createElement('canvas')
GlText.atlasContext = GlText.atlasCanvas.getContext('2d', {alpha: false})
// font-size used for metrics, atlas step calculation
GlText.baseFontSize = 64
// fonts storage
GlText.fonts = {}
// max number of different font atlases/textures cached
// FIXME: enable atlas size limitation via LRU
// GlText.atlasCacheSize = 64
function isRegl (o) {
return typeof o === 'function' &&
o._gl &&
o.prop &&
o.texture &&
o.buffer
}
module.exports = GlText
},{"bit-twiddle":79,"color-normalize":107,"css-font":126,"detect-kerning":150,"es6-weak-map":208,"flatten-vertex-data":215,"font-atlas":216,"font-measure":217,"gl-util/context":304,"is-plain-obj":403,"object-assign":434,"parse-rect":439,"parse-unit":441,"pick-by-alias":445,"regl":475,"to-px":513,"typedarray-pool":519}],303:[function(_dereq_,module,exports){
'use strict'
var ndarray = _dereq_('ndarray')
var ops = _dereq_('ndarray-ops')
var pool = _dereq_('typedarray-pool')
module.exports = createTexture2D
var linearTypes = null
var filterTypes = null
var wrapTypes = null
function lazyInitLinearTypes(gl) {
linearTypes = [
gl.LINEAR,
gl.NEAREST_MIPMAP_LINEAR,
gl.LINEAR_MIPMAP_NEAREST,
gl.LINEAR_MIPMAP_NEAREST
]
filterTypes = [
gl.NEAREST,
gl.LINEAR,
gl.NEAREST_MIPMAP_NEAREST,
gl.NEAREST_MIPMAP_LINEAR,
gl.LINEAR_MIPMAP_NEAREST,
gl.LINEAR_MIPMAP_LINEAR
]
wrapTypes = [
gl.REPEAT,
gl.CLAMP_TO_EDGE,
gl.MIRRORED_REPEAT
]
}
function acceptTextureDOM (obj) {
return (
('undefined' != typeof HTMLCanvasElement && obj instanceof HTMLCanvasElement) ||
('undefined' != typeof HTMLImageElement && obj instanceof HTMLImageElement) ||
('undefined' != typeof HTMLVideoElement && obj instanceof HTMLVideoElement) ||
('undefined' != typeof ImageData && obj instanceof ImageData))
}
var convertFloatToUint8 = function(out, inp) {
ops.muls(out, inp, 255.0)
}
function reshapeTexture(tex, w, h) {
var gl = tex.gl
var maxSize = gl.getParameter(gl.MAX_TEXTURE_SIZE)
if(w < 0 || w > maxSize || h < 0 || h > maxSize) {
throw new Error('gl-texture2d: Invalid texture size')
}
tex._shape = [w, h]
tex.bind()
gl.texImage2D(gl.TEXTURE_2D, 0, tex.format, w, h, 0, tex.format, tex.type, null)
tex._mipLevels = [0]
return tex
}
function Texture2D(gl, handle, width, height, format, type) {
this.gl = gl
this.handle = handle
this.format = format
this.type = type
this._shape = [width, height]
this._mipLevels = [0]
this._magFilter = gl.NEAREST
this._minFilter = gl.NEAREST
this._wrapS = gl.CLAMP_TO_EDGE
this._wrapT = gl.CLAMP_TO_EDGE
this._anisoSamples = 1
var parent = this
var wrapVector = [this._wrapS, this._wrapT]
Object.defineProperties(wrapVector, [
{
get: function() {
return parent._wrapS
},
set: function(v) {
return parent.wrapS = v
}
},
{
get: function() {
return parent._wrapT
},
set: function(v) {
return parent.wrapT = v
}
}
])
this._wrapVector = wrapVector
var shapeVector = [this._shape[0], this._shape[1]]
Object.defineProperties(shapeVector, [
{
get: function() {
return parent._shape[0]
},
set: function(v) {
return parent.width = v
}
},
{
get: function() {
return parent._shape[1]
},
set: function(v) {
return parent.height = v
}
}
])
this._shapeVector = shapeVector
}
var proto = Texture2D.prototype
Object.defineProperties(proto, {
minFilter: {
get: function() {
return this._minFilter
},
set: function(v) {
this.bind()
var gl = this.gl
if(this.type === gl.FLOAT && linearTypes.indexOf(v) >= 0) {
if(!gl.getExtension('OES_texture_float_linear')) {
v = gl.NEAREST
}
}
if(filterTypes.indexOf(v) < 0) {
throw new Error('gl-texture2d: Unknown filter mode ' + v)
}
gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MIN_FILTER, v)
return this._minFilter = v
}
},
magFilter: {
get: function() {
return this._magFilter
},
set: function(v) {
this.bind()
var gl = this.gl
if(this.type === gl.FLOAT && linearTypes.indexOf(v) >= 0) {
if(!gl.getExtension('OES_texture_float_linear')) {
v = gl.NEAREST
}
}
if(filterTypes.indexOf(v) < 0) {
throw new Error('gl-texture2d: Unknown filter mode ' + v)
}
gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MAG_FILTER, v)
return this._magFilter = v
}
},
mipSamples: {
get: function() {
return this._anisoSamples
},
set: function(i) {
var psamples = this._anisoSamples
this._anisoSamples = Math.max(i, 1)|0
if(psamples !== this._anisoSamples) {
var ext = this.gl.getExtension('EXT_texture_filter_anisotropic')
if(ext) {
this.gl.texParameterf(this.gl.TEXTURE_2D, ext.TEXTURE_MAX_ANISOTROPY_EXT, this._anisoSamples)
}
}
return this._anisoSamples
}
},
wrapS: {
get: function() {
return this._wrapS
},
set: function(v) {
this.bind()
if(wrapTypes.indexOf(v) < 0) {
throw new Error('gl-texture2d: Unknown wrap mode ' + v)
}
this.gl.texParameteri(this.gl.TEXTURE_2D, this.gl.TEXTURE_WRAP_S, v)
return this._wrapS = v
}
},
wrapT: {
get: function() {
return this._wrapT
},
set: function(v) {
this.bind()
if(wrapTypes.indexOf(v) < 0) {
throw new Error('gl-texture2d: Unknown wrap mode ' + v)
}
this.gl.texParameteri(this.gl.TEXTURE_2D, this.gl.TEXTURE_WRAP_T, v)
return this._wrapT = v
}
},
wrap: {
get: function() {
return this._wrapVector
},
set: function(v) {
if(!Array.isArray(v)) {
v = [v,v]
}
if(v.length !== 2) {
throw new Error('gl-texture2d: Must specify wrap mode for rows and columns')
}
for(var i=0; i<2; ++i) {
if(wrapTypes.indexOf(v[i]) < 0) {
throw new Error('gl-texture2d: Unknown wrap mode ' + v)
}
}
this._wrapS = v[0]
this._wrapT = v[1]
var gl = this.gl
this.bind()
gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_WRAP_S, this._wrapS)
gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_WRAP_T, this._wrapT)
return v
}
},
shape: {
get: function() {
return this._shapeVector
},
set: function(x) {
if(!Array.isArray(x)) {
x = [x|0,x|0]
} else {
if(x.length !== 2) {
throw new Error('gl-texture2d: Invalid texture shape')
}
}
reshapeTexture(this, x[0]|0, x[1]|0)
return [x[0]|0, x[1]|0]
}
},
width: {
get: function() {
return this._shape[0]
},
set: function(w) {
w = w|0
reshapeTexture(this, w, this._shape[1])
return w
}
},
height: {
get: function() {
return this._shape[1]
},
set: function(h) {
h = h|0
reshapeTexture(this, this._shape[0], h)
return h
}
}
})
proto.bind = function(unit) {
var gl = this.gl
if(unit !== undefined) {
gl.activeTexture(gl.TEXTURE0 + (unit|0))
}
gl.bindTexture(gl.TEXTURE_2D, this.handle)
if(unit !== undefined) {
return (unit|0)
}
return gl.getParameter(gl.ACTIVE_TEXTURE) - gl.TEXTURE0
}
proto.dispose = function() {
this.gl.deleteTexture(this.handle)
}
proto.generateMipmap = function() {
this.bind()
this.gl.generateMipmap(this.gl.TEXTURE_2D)
//Update mip levels
var l = Math.min(this._shape[0], this._shape[1])
for(var i=0; l>0; ++i, l>>>=1) {
if(this._mipLevels.indexOf(i) < 0) {
this._mipLevels.push(i)
}
}
}
proto.setPixels = function(data, x_off, y_off, mip_level) {
var gl = this.gl
this.bind()
if(Array.isArray(x_off)) {
mip_level = y_off
y_off = x_off[1]|0
x_off = x_off[0]|0
} else {
x_off = x_off || 0
y_off = y_off || 0
}
mip_level = mip_level || 0
var directData = acceptTextureDOM(data) ? data : data.raw
if(directData) {
var needsMip = this._mipLevels.indexOf(mip_level) < 0
if(needsMip) {
gl.texImage2D(gl.TEXTURE_2D, 0, this.format, this.format, this.type, directData)
this._mipLevels.push(mip_level)
} else {
gl.texSubImage2D(gl.TEXTURE_2D, mip_level, x_off, y_off, this.format, this.type, directData)
}
} else if(data.shape && data.stride && data.data) {
if(data.shape.length < 2 ||
x_off + data.shape[1] > this._shape[1]>>>mip_level ||
y_off + data.shape[0] > this._shape[0]>>>mip_level ||
x_off < 0 ||
y_off < 0) {
throw new Error('gl-texture2d: Texture dimensions are out of bounds')
}
texSubImageArray(gl, x_off, y_off, mip_level, this.format, this.type, this._mipLevels, data)
} else {
throw new Error('gl-texture2d: Unsupported data type')
}
}
function isPacked(shape, stride) {
if(shape.length === 3) {
return (stride[2] === 1) &&
(stride[1] === shape[0]*shape[2]) &&
(stride[0] === shape[2])
}
return (stride[0] === 1) &&
(stride[1] === shape[0])
}
function texSubImageArray(gl, x_off, y_off, mip_level, cformat, ctype, mipLevels, array) {
var dtype = array.dtype
var shape = array.shape.slice()
if(shape.length < 2 || shape.length > 3) {
throw new Error('gl-texture2d: Invalid ndarray, must be 2d or 3d')
}
var type = 0, format = 0
var packed = isPacked(shape, array.stride.slice())
if(dtype === 'float32') {
type = gl.FLOAT
} else if(dtype === 'float64') {
type = gl.FLOAT
packed = false
dtype = 'float32'
} else if(dtype === 'uint8') {
type = gl.UNSIGNED_BYTE
} else {
type = gl.UNSIGNED_BYTE
packed = false
dtype = 'uint8'
}
var channels = 1
if(shape.length === 2) {
format = gl.LUMINANCE
shape = [shape[0], shape[1], 1]
array = ndarray(array.data, shape, [array.stride[0], array.stride[1], 1], array.offset)
} else if(shape.length === 3) {
if(shape[2] === 1) {
format = gl.ALPHA
} else if(shape[2] === 2) {
format = gl.LUMINANCE_ALPHA
} else if(shape[2] === 3) {
format = gl.RGB
} else if(shape[2] === 4) {
format = gl.RGBA
} else {
throw new Error('gl-texture2d: Invalid shape for pixel coords')
}
channels = shape[2]
} else {
throw new Error('gl-texture2d: Invalid shape for texture')
}
//For 1-channel textures allow conversion between formats
if((format === gl.LUMINANCE || format === gl.ALPHA) &&
(cformat === gl.LUMINANCE || cformat === gl.ALPHA)) {
format = cformat
}
if(format !== cformat) {
throw new Error('gl-texture2d: Incompatible texture format for setPixels')
}
var size = array.size
var needsMip = mipLevels.indexOf(mip_level) < 0
if(needsMip) {
mipLevels.push(mip_level)
}
if(type === ctype && packed) {
//Array data types are compatible, can directly copy into texture
if(array.offset === 0 && array.data.length === size) {
if(needsMip) {
gl.texImage2D(gl.TEXTURE_2D, mip_level, cformat, shape[0], shape[1], 0, cformat, ctype, array.data)
} else {
gl.texSubImage2D(gl.TEXTURE_2D, mip_level, x_off, y_off, shape[0], shape[1], cformat, ctype, array.data)
}
} else {
if(needsMip) {
gl.texImage2D(gl.TEXTURE_2D, mip_level, cformat, shape[0], shape[1], 0, cformat, ctype, array.data.subarray(array.offset, array.offset+size))
} else {
gl.texSubImage2D(gl.TEXTURE_2D, mip_level, x_off, y_off, shape[0], shape[1], cformat, ctype, array.data.subarray(array.offset, array.offset+size))
}
}
} else {
//Need to do type conversion to pack data into buffer
var pack_buffer
if(ctype === gl.FLOAT) {
pack_buffer = pool.mallocFloat32(size)
} else {
pack_buffer = pool.mallocUint8(size)
}
var pack_view = ndarray(pack_buffer, shape, [shape[2], shape[2]*shape[0], 1])
if(type === gl.FLOAT && ctype === gl.UNSIGNED_BYTE) {
convertFloatToUint8(pack_view, array)
} else {
ops.assign(pack_view, array)
}
if(needsMip) {
gl.texImage2D(gl.TEXTURE_2D, mip_level, cformat, shape[0], shape[1], 0, cformat, ctype, pack_buffer.subarray(0, size))
} else {
gl.texSubImage2D(gl.TEXTURE_2D, mip_level, x_off, y_off, shape[0], shape[1], cformat, ctype, pack_buffer.subarray(0, size))
}
if(ctype === gl.FLOAT) {
pool.freeFloat32(pack_buffer)
} else {
pool.freeUint8(pack_buffer)
}
}
}
function initTexture(gl) {
var tex = gl.createTexture()
gl.bindTexture(gl.TEXTURE_2D, tex)
gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MIN_FILTER, gl.NEAREST)
gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MAG_FILTER, gl.NEAREST)
gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_WRAP_S, gl.CLAMP_TO_EDGE)
gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_WRAP_T, gl.CLAMP_TO_EDGE)
return tex
}
function createTextureShape(gl, width, height, format, type) {
var maxTextureSize = gl.getParameter(gl.MAX_TEXTURE_SIZE)
if(width < 0 || width > maxTextureSize || height < 0 || height > maxTextureSize) {
throw new Error('gl-texture2d: Invalid texture shape')
}
if(type === gl.FLOAT && !gl.getExtension('OES_texture_float')) {
throw new Error('gl-texture2d: Floating point textures not supported on this platform')
}
var tex = initTexture(gl)
gl.texImage2D(gl.TEXTURE_2D, 0, format, width, height, 0, format, type, null)
return new Texture2D(gl, tex, width, height, format, type)
}
function createTextureDOM(gl, directData, width, height, format, type) {
var tex = initTexture(gl)
gl.texImage2D(gl.TEXTURE_2D, 0, format, format, type, directData)
return new Texture2D(gl, tex, width, height, format, type)
}
//Creates a texture from an ndarray
function createTextureArray(gl, array) {
var dtype = array.dtype
var shape = array.shape.slice()
var maxSize = gl.getParameter(gl.MAX_TEXTURE_SIZE)
if(shape[0] < 0 || shape[0] > maxSize || shape[1] < 0 || shape[1] > maxSize) {
throw new Error('gl-texture2d: Invalid texture size')
}
var packed = isPacked(shape, array.stride.slice())
var type = 0
if(dtype === 'float32') {
type = gl.FLOAT
} else if(dtype === 'float64') {
type = gl.FLOAT
packed = false
dtype = 'float32'
} else if(dtype === 'uint8') {
type = gl.UNSIGNED_BYTE
} else {
type = gl.UNSIGNED_BYTE
packed = false
dtype = 'uint8'
}
var format = 0
if(shape.length === 2) {
format = gl.LUMINANCE
shape = [shape[0], shape[1], 1]
array = ndarray(array.data, shape, [array.stride[0], array.stride[1], 1], array.offset)
} else if(shape.length === 3) {
if(shape[2] === 1) {
format = gl.ALPHA
} else if(shape[2] === 2) {
format = gl.LUMINANCE_ALPHA
} else if(shape[2] === 3) {
format = gl.RGB
} else if(shape[2] === 4) {
format = gl.RGBA
} else {
throw new Error('gl-texture2d: Invalid shape for pixel coords')
}
} else {
throw new Error('gl-texture2d: Invalid shape for texture')
}
if(type === gl.FLOAT && !gl.getExtension('OES_texture_float')) {
type = gl.UNSIGNED_BYTE
packed = false
}
var buffer, buf_store
var size = array.size
if(!packed) {
var stride = [shape[2], shape[2]*shape[0], 1]
buf_store = pool.malloc(size, dtype)
var buf_array = ndarray(buf_store, shape, stride, 0)
if((dtype === 'float32' || dtype === 'float64') && type === gl.UNSIGNED_BYTE) {
convertFloatToUint8(buf_array, array)
} else {
ops.assign(buf_array, array)
}
buffer = buf_store.subarray(0, size)
} else if (array.offset === 0 && array.data.length === size) {
buffer = array.data
} else {
buffer = array.data.subarray(array.offset, array.offset + size)
}
var tex = initTexture(gl)
gl.texImage2D(gl.TEXTURE_2D, 0, format, shape[0], shape[1], 0, format, type, buffer)
if(!packed) {
pool.free(buf_store)
}
return new Texture2D(gl, tex, shape[0], shape[1], format, type)
}
function createTexture2D(gl) {
if(arguments.length <= 1) {
throw new Error('gl-texture2d: Missing arguments for texture2d constructor')
}
if(!linearTypes) {
lazyInitLinearTypes(gl)
}
if(typeof arguments[1] === 'number') {
return createTextureShape(gl, arguments[1], arguments[2], arguments[3]||gl.RGBA, arguments[4]||gl.UNSIGNED_BYTE)
}
if(Array.isArray(arguments[1])) {
return createTextureShape(gl, arguments[1][0]|0, arguments[1][1]|0, arguments[2]||gl.RGBA, arguments[3]||gl.UNSIGNED_BYTE)
}
if(typeof arguments[1] === 'object') {
var obj = arguments[1]
var directData = acceptTextureDOM(obj) ? obj : obj.raw
if (directData) {
return createTextureDOM(gl, directData, obj.width|0, obj.height|0, arguments[2]||gl.RGBA, arguments[3]||gl.UNSIGNED_BYTE)
} else if(obj.shape && obj.data && obj.stride) {
return createTextureArray(gl, obj)
}
}
throw new Error('gl-texture2d: Invalid arguments for texture2d constructor')
}
},{"ndarray":430,"ndarray-ops":424,"typedarray-pool":519}],304:[function(_dereq_,module,exports){
/** @module gl-util/context */
'use strict'
var pick = _dereq_('pick-by-alias')
module.exports = function setContext (o) {
if (!o) o = {}
else if (typeof o === 'string') o = {container: o}
// HTMLCanvasElement
if (isCanvas(o)) {
o = {container: o}
}
// HTMLElement
else if (isElement(o)) {
o = {container: o}
}
// WebGLContext
else if (isContext(o)) {
o = {gl: o}
}
// options object
else {
o = pick(o, {
container: 'container target element el canvas holder parent parentNode wrapper use ref root node',
gl: 'gl context webgl glContext',
attrs: 'attributes attrs contextAttributes',
pixelRatio: 'pixelRatio pxRatio px ratio pxratio pixelratio'
}, true)
}
if (!o.pixelRatio) o.pixelRatio = window.pixelRatio || 1
// make sure there is container and canvas
if (o.gl) {
return o.gl
}
if (o.canvas) {
o.container = o.canvas.parentNode
}
if (o.container) {
if (typeof o.container === 'string') {
var c = document.querySelector(o.container)
if (!c) throw Error('Element ' + o.container + ' is not found')
o.container = c
}
if (isCanvas(o.container)) {
o.canvas = o.container
o.container = o.canvas.parentNode
}
else if (!o.canvas) {
o.canvas = document.createElement('canvas')
o.container.appendChild(o.canvas)
resize(o)
}
}
// blank new canvas
else if (!o.canvas) {
o.container = document.body || document.documentElement
o.canvas = document.createElement('canvas')
o.canvas.style.position = 'absolute'
o.canvas.style.top = 0
o.canvas.style.left = 0
o.container.appendChild(o.canvas)
resize(o)
}
// make sure there is context
if (!o.gl) {
try {
o.gl = o.canvas.getContext('webgl', o.attrs)
} catch (e) {
try {
o.gl = o.canvas.getContext('experimental-webgl', o.attrs)
}
catch (e) {
o.gl = o.canvas.getContext('webgl-experimental', o.attrs)
}
}
}
return o.gl
}
function resize (o) {
if (o.container) {
if (o.container == document.body) {
if (!document.body.style.width) o.canvas.width = o.width || (o.pixelRatio * window.innerWidth)
if (!document.body.style.height) o.canvas.height = o.height || (o.pixelRatio * window.innerHeight)
}
else {
var bounds = o.container.getBoundingClientRect()
o.canvas.width = o.width || (bounds.right - bounds.left)
o.canvas.height = o.height || (bounds.bottom - bounds.top)
}
}
}
function isCanvas (e) {
return typeof e.getContext === 'function'
&& 'width' in e
&& 'height' in e
}
function isElement (e) {
return typeof e.nodeName === 'string' &&
typeof e.appendChild === 'function' &&
typeof e.getBoundingClientRect === 'function'
}
function isContext (e) {
return typeof e.drawArrays === 'function' ||
typeof e.drawElements === 'function'
}
},{"pick-by-alias":445}],305:[function(_dereq_,module,exports){
"use strict"
function doBind(gl, elements, attributes) {
if(elements) {
elements.bind()
} else {
gl.bindBuffer(gl.ELEMENT_ARRAY_BUFFER, null)
}
var nattribs = gl.getParameter(gl.MAX_VERTEX_ATTRIBS)|0
if(attributes) {
if(attributes.length > nattribs) {
throw new Error("gl-vao: Too many vertex attributes")
}
for(var i=0; i<attributes.length; ++i) {
var attrib = attributes[i]
if(attrib.buffer) {
var buffer = attrib.buffer
var size = attrib.size || 4
var type = attrib.type || gl.FLOAT
var normalized = !!attrib.normalized
var stride = attrib.stride || 0
var offset = attrib.offset || 0
buffer.bind()
gl.enableVertexAttribArray(i)
gl.vertexAttribPointer(i, size, type, normalized, stride, offset)
} else {
if(typeof attrib === "number") {
gl.vertexAttrib1f(i, attrib)
} else if(attrib.length === 1) {
gl.vertexAttrib1f(i, attrib[0])
} else if(attrib.length === 2) {
gl.vertexAttrib2f(i, attrib[0], attrib[1])
} else if(attrib.length === 3) {
gl.vertexAttrib3f(i, attrib[0], attrib[1], attrib[2])
} else if(attrib.length === 4) {
gl.vertexAttrib4f(i, attrib[0], attrib[1], attrib[2], attrib[3])
} else {
throw new Error("gl-vao: Invalid vertex attribute")
}
gl.disableVertexAttribArray(i)
}
}
for(; i<nattribs; ++i) {
gl.disableVertexAttribArray(i)
}
} else {
gl.bindBuffer(gl.ARRAY_BUFFER, null)
for(var i=0; i<nattribs; ++i) {
gl.disableVertexAttribArray(i)
}
}
}
module.exports = doBind
},{}],306:[function(_dereq_,module,exports){
"use strict"
var bindAttribs = _dereq_("./do-bind.js")
function VAOEmulated(gl) {
this.gl = gl
this._elements = null
this._attributes = null
this._elementsType = gl.UNSIGNED_SHORT
}
VAOEmulated.prototype.bind = function() {
bindAttribs(this.gl, this._elements, this._attributes)
}
VAOEmulated.prototype.update = function(attributes, elements, elementsType) {
this._elements = elements
this._attributes = attributes
this._elementsType = elementsType || this.gl.UNSIGNED_SHORT
}
VAOEmulated.prototype.dispose = function() { }
VAOEmulated.prototype.unbind = function() { }
VAOEmulated.prototype.draw = function(mode, count, offset) {
offset = offset || 0
var gl = this.gl
if(this._elements) {
gl.drawElements(mode, count, this._elementsType, offset)
} else {
gl.drawArrays(mode, offset, count)
}
}
function createVAOEmulated(gl) {
return new VAOEmulated(gl)
}
module.exports = createVAOEmulated
},{"./do-bind.js":305}],307:[function(_dereq_,module,exports){
"use strict"
var bindAttribs = _dereq_("./do-bind.js")
function VertexAttribute(location, dimension, a, b, c, d) {
this.location = location
this.dimension = dimension
this.a = a
this.b = b
this.c = c
this.d = d
}
VertexAttribute.prototype.bind = function(gl) {
switch(this.dimension) {
case 1:
gl.vertexAttrib1f(this.location, this.a)
break
case 2:
gl.vertexAttrib2f(this.location, this.a, this.b)
break
case 3:
gl.vertexAttrib3f(this.location, this.a, this.b, this.c)
break
case 4:
gl.vertexAttrib4f(this.location, this.a, this.b, this.c, this.d)
break
}
}
function VAONative(gl, ext, handle) {
this.gl = gl
this._ext = ext
this.handle = handle
this._attribs = []
this._useElements = false
this._elementsType = gl.UNSIGNED_SHORT
}
VAONative.prototype.bind = function() {
this._ext.bindVertexArrayOES(this.handle)
for(var i=0; i<this._attribs.length; ++i) {
this._attribs[i].bind(this.gl)
}
}
VAONative.prototype.unbind = function() {
this._ext.bindVertexArrayOES(null)
}
VAONative.prototype.dispose = function() {
this._ext.deleteVertexArrayOES(this.handle)
}
VAONative.prototype.update = function(attributes, elements, elementsType) {
this.bind()
bindAttribs(this.gl, elements, attributes)
this.unbind()
this._attribs.length = 0
if(attributes)
for(var i=0; i<attributes.length; ++i) {
var a = attributes[i]
if(typeof a === "number") {
this._attribs.push(new VertexAttribute(i, 1, a))
} else if(Array.isArray(a)) {
this._attribs.push(new VertexAttribute(i, a.length, a[0], a[1], a[2], a[3]))
}
}
this._useElements = !!elements
this._elementsType = elementsType || this.gl.UNSIGNED_SHORT
}
VAONative.prototype.draw = function(mode, count, offset) {
offset = offset || 0
var gl = this.gl
if(this._useElements) {
gl.drawElements(mode, count, this._elementsType, offset)
} else {
gl.drawArrays(mode, offset, count)
}
}
function createVAONative(gl, ext) {
return new VAONative(gl, ext, ext.createVertexArrayOES())
}
module.exports = createVAONative
},{"./do-bind.js":305}],308:[function(_dereq_,module,exports){
"use strict"
var createVAONative = _dereq_("./lib/vao-native.js")
var createVAOEmulated = _dereq_("./lib/vao-emulated.js")
function ExtensionShim (gl) {
this.bindVertexArrayOES = gl.bindVertexArray.bind(gl)
this.createVertexArrayOES = gl.createVertexArray.bind(gl)
this.deleteVertexArrayOES = gl.deleteVertexArray.bind(gl)
}
function createVAO(gl, attributes, elements, elementsType) {
var ext = gl.createVertexArray
? new ExtensionShim(gl)
: gl.getExtension('OES_vertex_array_object')
var vao
if(ext) {
vao = createVAONative(gl, ext)
} else {
vao = createVAOEmulated(gl)
}
vao.update(attributes, elements, elementsType)
return vao
}
module.exports = createVAO
},{"./lib/vao-emulated.js":306,"./lib/vao-native.js":307}],309:[function(_dereq_,module,exports){
module.exports = add;
/**
* Adds two vec3's
*
* @param {vec3} out the receiving vector
* @param {vec3} a the first operand
* @param {vec3} b the second operand
* @returns {vec3} out
*/
function add(out, a, b) {
out[0] = a[0] + b[0]
out[1] = a[1] + b[1]
out[2] = a[2] + b[2]
return out
}
},{}],310:[function(_dereq_,module,exports){
module.exports = angle
var fromValues = _dereq_('./fromValues')
var normalize = _dereq_('./normalize')
var dot = _dereq_('./dot')
/**
* Get the angle between two 3D vectors
* @param {vec3} a The first operand
* @param {vec3} b The second operand
* @returns {Number} The angle in radians
*/
function angle(a, b) {
var tempA = fromValues(a[0], a[1], a[2])
var tempB = fromValues(b[0], b[1], b[2])
normalize(tempA, tempA)
normalize(tempB, tempB)
var cosine = dot(tempA, tempB)
if(cosine > 1.0){
return 0
} else {
return Math.acos(cosine)
}
}
},{"./dot":320,"./fromValues":326,"./normalize":337}],311:[function(_dereq_,module,exports){
module.exports = ceil
/**
* Math.ceil the components of a vec3
*
* @param {vec3} out the receiving vector
* @param {vec3} a vector to ceil
* @returns {vec3} out
*/
function ceil(out, a) {
out[0] = Math.ceil(a[0])
out[1] = Math.ceil(a[1])
out[2] = Math.ceil(a[2])
return out
}
},{}],312:[function(_dereq_,module,exports){
module.exports = clone;
/**
* Creates a new vec3 initialized with values from an existing vector
*
* @param {vec3} a vector to clone
* @returns {vec3} a new 3D vector
*/
function clone(a) {
var out = new Float32Array(3)
out[0] = a[0]
out[1] = a[1]
out[2] = a[2]
return out
}
},{}],313:[function(_dereq_,module,exports){
module.exports = copy;
/**
* Copy the values from one vec3 to another
*
* @param {vec3} out the receiving vector
* @param {vec3} a the source vector
* @returns {vec3} out
*/
function copy(out, a) {
out[0] = a[0]
out[1] = a[1]
out[2] = a[2]
return out
}
},{}],314:[function(_dereq_,module,exports){
module.exports = create;
/**
* Creates a new, empty vec3
*
* @returns {vec3} a new 3D vector
*/
function create() {
var out = new Float32Array(3)
out[0] = 0
out[1] = 0
out[2] = 0
return out
}
},{}],315:[function(_dereq_,module,exports){
module.exports = cross;
/**
* Computes the cross product of two vec3's
*
* @param {vec3} out the receiving vector
* @param {vec3} a the first operand
* @param {vec3} b the second operand
* @returns {vec3} out
*/
function cross(out, a, b) {
var ax = a[0], ay = a[1], az = a[2],
bx = b[0], by = b[1], bz = b[2]
out[0] = ay * bz - az * by
out[1] = az * bx - ax * bz
out[2] = ax * by - ay * bx
return out
}
},{}],316:[function(_dereq_,module,exports){
module.exports = _dereq_('./distance')
},{"./distance":317}],317:[function(_dereq_,module,exports){
module.exports = distance;
/**
* Calculates the euclidian distance between two vec3's
*
* @param {vec3} a the first operand
* @param {vec3} b the second operand
* @returns {Number} distance between a and b
*/
function distance(a, b) {
var x = b[0] - a[0],
y = b[1] - a[1],
z = b[2] - a[2]
return Math.sqrt(x*x + y*y + z*z)
}
},{}],318:[function(_dereq_,module,exports){
module.exports = _dereq_('./divide')
},{"./divide":319}],319:[function(_dereq_,module,exports){
module.exports = divide;
/**
* Divides two vec3's
*
* @param {vec3} out the receiving vector
* @param {vec3} a the first operand
* @param {vec3} b the second operand
* @returns {vec3} out
*/
function divide(out, a, b) {
out[0] = a[0] / b[0]
out[1] = a[1] / b[1]
out[2] = a[2] / b[2]
return out
}
},{}],320:[function(_dereq_,module,exports){
module.exports = dot;
/**
* Calculates the dot product of two vec3's
*
* @param {vec3} a the first operand
* @param {vec3} b the second operand
* @returns {Number} dot product of a and b
*/
function dot(a, b) {
return a[0] * b[0] + a[1] * b[1] + a[2] * b[2]
}
},{}],321:[function(_dereq_,module,exports){
module.exports = 0.000001
},{}],322:[function(_dereq_,module,exports){
module.exports = equals
var EPSILON = _dereq_('./epsilon')
/**
* Returns whether or not the vectors have approximately the same elements in the same position.
*
* @param {vec3} a The first vector.
* @param {vec3} b The second vector.
* @returns {Boolean} True if the vectors are equal, false otherwise.
*/
function equals(a, b) {
var a0 = a[0]
var a1 = a[1]
var a2 = a[2]
var b0 = b[0]
var b1 = b[1]
var b2 = b[2]
return (Math.abs(a0 - b0) <= EPSILON * Math.max(1.0, Math.abs(a0), Math.abs(b0)) &&
Math.abs(a1 - b1) <= EPSILON * Math.max(1.0, Math.abs(a1), Math.abs(b1)) &&
Math.abs(a2 - b2) <= EPSILON * Math.max(1.0, Math.abs(a2), Math.abs(b2)))
}
},{"./epsilon":321}],323:[function(_dereq_,module,exports){
module.exports = exactEquals
/**
* Returns whether or not the vectors exactly have the same elements in the same position (when compared with ===)
*
* @param {vec3} a The first vector.
* @param {vec3} b The second vector.
* @returns {Boolean} True if the vectors are equal, false otherwise.
*/
function exactEquals(a, b) {
return a[0] === b[0] && a[1] === b[1] && a[2] === b[2]
}
},{}],324:[function(_dereq_,module,exports){
module.exports = floor
/**
* Math.floor the components of a vec3
*
* @param {vec3} out the receiving vector
* @param {vec3} a vector to floor
* @returns {vec3} out
*/
function floor(out, a) {
out[0] = Math.floor(a[0])
out[1] = Math.floor(a[1])
out[2] = Math.floor(a[2])
return out
}
},{}],325:[function(_dereq_,module,exports){
module.exports = forEach;
var vec = _dereq_('./create')()
/**
* Perform some operation over an array of vec3s.
*
* @param {Array} a the array of vectors to iterate over
* @param {Number} stride Number of elements between the start of each vec3. If 0 assumes tightly packed
* @param {Number} offset Number of elements to skip at the beginning of the array
* @param {Number} count Number of vec3s to iterate over. If 0 iterates over entire array
* @param {Function} fn Function to call for each vector in the array
* @param {Object} [arg] additional argument to pass to fn
* @returns {Array} a
* @function
*/
function forEach(a, stride, offset, count, fn, arg) {
var i, l
if(!stride) {
stride = 3
}
if(!offset) {
offset = 0
}
if(count) {
l = Math.min((count * stride) + offset, a.length)
} else {
l = a.length
}
for(i = offset; i < l; i += stride) {
vec[0] = a[i]
vec[1] = a[i+1]
vec[2] = a[i+2]
fn(vec, vec, arg)
a[i] = vec[0]
a[i+1] = vec[1]
a[i+2] = vec[2]
}
return a
}
},{"./create":314}],326:[function(_dereq_,module,exports){
module.exports = fromValues;
/**
* Creates a new vec3 initialized with the given values
*
* @param {Number} x X component
* @param {Number} y Y component
* @param {Number} z Z component
* @returns {vec3} a new 3D vector
*/
function fromValues(x, y, z) {
var out = new Float32Array(3)
out[0] = x
out[1] = y
out[2] = z
return out
}
},{}],327:[function(_dereq_,module,exports){
module.exports = {
EPSILON: _dereq_('./epsilon')
, create: _dereq_('./create')
, clone: _dereq_('./clone')
, angle: _dereq_('./angle')
, fromValues: _dereq_('./fromValues')
, copy: _dereq_('./copy')
, set: _dereq_('./set')
, equals: _dereq_('./equals')
, exactEquals: _dereq_('./exactEquals')
, add: _dereq_('./add')
, subtract: _dereq_('./subtract')
, sub: _dereq_('./sub')
, multiply: _dereq_('./multiply')
, mul: _dereq_('./mul')
, divide: _dereq_('./divide')
, div: _dereq_('./div')
, min: _dereq_('./min')
, max: _dereq_('./max')
, floor: _dereq_('./floor')
, ceil: _dereq_('./ceil')
, round: _dereq_('./round')
, scale: _dereq_('./scale')
, scaleAndAdd: _dereq_('./scaleAndAdd')
, distance: _dereq_('./distance')
, dist: _dereq_('./dist')
, squaredDistance: _dereq_('./squaredDistance')
, sqrDist: _dereq_('./sqrDist')
, length: _dereq_('./length')
, len: _dereq_('./len')
, squaredLength: _dereq_('./squaredLength')
, sqrLen: _dereq_('./sqrLen')
, negate: _dereq_('./negate')
, inverse: _dereq_('./inverse')
, normalize: _dereq_('./normalize')
, dot: _dereq_('./dot')
, cross: _dereq_('./cross')
, lerp: _dereq_('./lerp')
, random: _dereq_('./random')
, transformMat4: _dereq_('./transformMat4')
, transformMat3: _dereq_('./transformMat3')
, transformQuat: _dereq_('./transformQuat')
, rotateX: _dereq_('./rotateX')
, rotateY: _dereq_('./rotateY')
, rotateZ: _dereq_('./rotateZ')
, forEach: _dereq_('./forEach')
}
},{"./add":309,"./angle":310,"./ceil":311,"./clone":312,"./copy":313,"./create":314,"./cross":315,"./dist":316,"./distance":317,"./div":318,"./divide":319,"./dot":320,"./epsilon":321,"./equals":322,"./exactEquals":323,"./floor":324,"./forEach":325,"./fromValues":326,"./inverse":328,"./len":329,"./length":330,"./lerp":331,"./max":332,"./min":333,"./mul":334,"./multiply":335,"./negate":336,"./normalize":337,"./random":338,"./rotateX":339,"./rotateY":340,"./rotateZ":341,"./round":342,"./scale":343,"./scaleAndAdd":344,"./set":345,"./sqrDist":346,"./sqrLen":347,"./squaredDistance":348,"./squaredLength":349,"./sub":350,"./subtract":351,"./transformMat3":352,"./transformMat4":353,"./transformQuat":354}],328:[function(_dereq_,module,exports){
module.exports = inverse;
/**
* Returns the inverse of the components of a vec3
*
* @param {vec3} out the receiving vector
* @param {vec3} a vector to invert
* @returns {vec3} out
*/
function inverse(out, a) {
out[0] = 1.0 / a[0]
out[1] = 1.0 / a[1]
out[2] = 1.0 / a[2]
return out
}
},{}],329:[function(_dereq_,module,exports){
module.exports = _dereq_('./length')
},{"./length":330}],330:[function(_dereq_,module,exports){
module.exports = length;
/**
* Calculates the length of a vec3
*
* @param {vec3} a vector to calculate length of
* @returns {Number} length of a
*/
function length(a) {
var x = a[0],
y = a[1],
z = a[2]
return Math.sqrt(x*x + y*y + z*z)
}
},{}],331:[function(_dereq_,module,exports){
module.exports = lerp;
/**
* Performs a linear interpolation between two vec3's
*
* @param {vec3} out the receiving vector
* @param {vec3} a the first operand
* @param {vec3} b the second operand
* @param {Number} t interpolation amount between the two inputs
* @returns {vec3} out
*/
function lerp(out, a, b, t) {
var ax = a[0],
ay = a[1],
az = a[2]
out[0] = ax + t * (b[0] - ax)
out[1] = ay + t * (b[1] - ay)
out[2] = az + t * (b[2] - az)
return out
}
},{}],332:[function(_dereq_,module,exports){
module.exports = max;
/**
* Returns the maximum of two vec3's
*
* @param {vec3} out the receiving vector
* @param {vec3} a the first operand
* @param {vec3} b the second operand
* @returns {vec3} out
*/
function max(out, a, b) {
out[0] = Math.max(a[0], b[0])
out[1] = Math.max(a[1], b[1])
out[2] = Math.max(a[2], b[2])
return out
}
},{}],333:[function(_dereq_,module,exports){
module.exports = min;
/**
* Returns the minimum of two vec3's
*
* @param {vec3} out the receiving vector
* @param {vec3} a the first operand
* @param {vec3} b the second operand
* @returns {vec3} out
*/
function min(out, a, b) {
out[0] = Math.min(a[0], b[0])
out[1] = Math.min(a[1], b[1])
out[2] = Math.min(a[2], b[2])
return out
}
},{}],334:[function(_dereq_,module,exports){
module.exports = _dereq_('./multiply')
},{"./multiply":335}],335:[function(_dereq_,module,exports){
module.exports = multiply;
/**
* Multiplies two vec3's
*
* @param {vec3} out the receiving vector
* @param {vec3} a the first operand
* @param {vec3} b the second operand
* @returns {vec3} out
*/
function multiply(out, a, b) {
out[0] = a[0] * b[0]
out[1] = a[1] * b[1]
out[2] = a[2] * b[2]
return out
}
},{}],336:[function(_dereq_,module,exports){
module.exports = negate;
/**
* Negates the components of a vec3
*
* @param {vec3} out the receiving vector
* @param {vec3} a vector to negate
* @returns {vec3} out
*/
function negate(out, a) {
out[0] = -a[0]
out[1] = -a[1]
out[2] = -a[2]
return out
}
},{}],337:[function(_dereq_,module,exports){
module.exports = normalize;
/**
* Normalize a vec3
*
* @param {vec3} out the receiving vector
* @param {vec3} a vector to normalize
* @returns {vec3} out
*/
function normalize(out, a) {
var x = a[0],
y = a[1],
z = a[2]
var len = x*x + y*y + z*z
if (len > 0) {
//TODO: evaluate use of glm_invsqrt here?
len = 1 / Math.sqrt(len)
out[0] = a[0] * len
out[1] = a[1] * len
out[2] = a[2] * len
}
return out
}
},{}],338:[function(_dereq_,module,exports){
module.exports = random;
/**
* Generates a random vector with the given scale
*
* @param {vec3} out the receiving vector
* @param {Number} [scale] Length of the resulting vector. If ommitted, a unit vector will be returned
* @returns {vec3} out
*/
function random(out, scale) {
scale = scale || 1.0
var r = Math.random() * 2.0 * Math.PI
var z = (Math.random() * 2.0) - 1.0
var zScale = Math.sqrt(1.0-z*z) * scale
out[0] = Math.cos(r) * zScale
out[1] = Math.sin(r) * zScale
out[2] = z * scale
return out
}
},{}],339:[function(_dereq_,module,exports){
module.exports = rotateX;
/**
* Rotate a 3D vector around the x-axis
* @param {vec3} out The receiving vec3
* @param {vec3} a The vec3 point to rotate
* @param {vec3} b The origin of the rotation
* @param {Number} c The angle of rotation
* @returns {vec3} out
*/
function rotateX(out, a, b, c){
var by = b[1]
var bz = b[2]
// Translate point to the origin
var py = a[1] - by
var pz = a[2] - bz
var sc = Math.sin(c)
var cc = Math.cos(c)
// perform rotation and translate to correct position
out[0] = a[0]
out[1] = by + py * cc - pz * sc
out[2] = bz + py * sc + pz * cc
return out
}
},{}],340:[function(_dereq_,module,exports){
module.exports = rotateY;
/**
* Rotate a 3D vector around the y-axis
* @param {vec3} out The receiving vec3
* @param {vec3} a The vec3 point to rotate
* @param {vec3} b The origin of the rotation
* @param {Number} c The angle of rotation
* @returns {vec3} out
*/
function rotateY(out, a, b, c){
var bx = b[0]
var bz = b[2]
// translate point to the origin
var px = a[0] - bx
var pz = a[2] - bz
var sc = Math.sin(c)
var cc = Math.cos(c)
// perform rotation and translate to correct position
out[0] = bx + pz * sc + px * cc
out[1] = a[1]
out[2] = bz + pz * cc - px * sc
return out
}
},{}],341:[function(_dereq_,module,exports){
module.exports = rotateZ;
/**
* Rotate a 3D vector around the z-axis
* @param {vec3} out The receiving vec3
* @param {vec3} a The vec3 point to rotate
* @param {vec3} b The origin of the rotation
* @param {Number} c The angle of rotation
* @returns {vec3} out
*/
function rotateZ(out, a, b, c){
var bx = b[0]
var by = b[1]
//Translate point to the origin
var px = a[0] - bx
var py = a[1] - by
var sc = Math.sin(c)
var cc = Math.cos(c)
// perform rotation and translate to correct position
out[0] = bx + px * cc - py * sc
out[1] = by + px * sc + py * cc
out[2] = a[2]
return out
}
},{}],342:[function(_dereq_,module,exports){
module.exports = round
/**
* Math.round the components of a vec3
*
* @param {vec3} out the receiving vector
* @param {vec3} a vector to round
* @returns {vec3} out
*/
function round(out, a) {
out[0] = Math.round(a[0])
out[1] = Math.round(a[1])
out[2] = Math.round(a[2])
return out
}
},{}],343:[function(_dereq_,module,exports){
module.exports = scale;
/**
* Scales a vec3 by a scalar number
*
* @param {vec3} out the receiving vector
* @param {vec3} a the vector to scale
* @param {Number} b amount to scale the vector by
* @returns {vec3} out
*/
function scale(out, a, b) {
out[0] = a[0] * b
out[1] = a[1] * b
out[2] = a[2] * b
return out
}
},{}],344:[function(_dereq_,module,exports){
module.exports = scaleAndAdd;
/**
* Adds two vec3's after scaling the second operand by a scalar value
*
* @param {vec3} out the receiving vector
* @param {vec3} a the first operand
* @param {vec3} b the second operand
* @param {Number} scale the amount to scale b by before adding
* @returns {vec3} out
*/
function scaleAndAdd(out, a, b, scale) {
out[0] = a[0] + (b[0] * scale)
out[1] = a[1] + (b[1] * scale)
out[2] = a[2] + (b[2] * scale)
return out
}
},{}],345:[function(_dereq_,module,exports){
module.exports = set;
/**
* Set the components of a vec3 to the given values
*
* @param {vec3} out the receiving vector
* @param {Number} x X component
* @param {Number} y Y component
* @param {Number} z Z component
* @returns {vec3} out
*/
function set(out, x, y, z) {
out[0] = x
out[1] = y
out[2] = z
return out
}
},{}],346:[function(_dereq_,module,exports){
module.exports = _dereq_('./squaredDistance')
},{"./squaredDistance":348}],347:[function(_dereq_,module,exports){
module.exports = _dereq_('./squaredLength')
},{"./squaredLength":349}],348:[function(_dereq_,module,exports){
module.exports = squaredDistance;
/**
* Calculates the squared euclidian distance between two vec3's
*
* @param {vec3} a the first operand
* @param {vec3} b the second operand
* @returns {Number} squared distance between a and b
*/
function squaredDistance(a, b) {
var x = b[0] - a[0],
y = b[1] - a[1],
z = b[2] - a[2]
return x*x + y*y + z*z
}
},{}],349:[function(_dereq_,module,exports){
module.exports = squaredLength;
/**
* Calculates the squared length of a vec3
*
* @param {vec3} a vector to calculate squared length of
* @returns {Number} squared length of a
*/
function squaredLength(a) {
var x = a[0],
y = a[1],
z = a[2]
return x*x + y*y + z*z
}
},{}],350:[function(_dereq_,module,exports){
module.exports = _dereq_('./subtract')
},{"./subtract":351}],351:[function(_dereq_,module,exports){
module.exports = subtract;
/**
* Subtracts vector b from vector a
*
* @param {vec3} out the receiving vector
* @param {vec3} a the first operand
* @param {vec3} b the second operand
* @returns {vec3} out
*/
function subtract(out, a, b) {
out[0] = a[0] - b[0]
out[1] = a[1] - b[1]
out[2] = a[2] - b[2]
return out
}
},{}],352:[function(_dereq_,module,exports){
module.exports = transformMat3;
/**
* Transforms the vec3 with a mat3.
*
* @param {vec3} out the receiving vector
* @param {vec3} a the vector to transform
* @param {mat4} m the 3x3 matrix to transform with
* @returns {vec3} out
*/
function transformMat3(out, a, m) {
var x = a[0], y = a[1], z = a[2]
out[0] = x * m[0] + y * m[3] + z * m[6]
out[1] = x * m[1] + y * m[4] + z * m[7]
out[2] = x * m[2] + y * m[5] + z * m[8]
return out
}
},{}],353:[function(_dereq_,module,exports){
module.exports = transformMat4;
/**
* Transforms the vec3 with a mat4.
* 4th vector component is implicitly '1'
*
* @param {vec3} out the receiving vector
* @param {vec3} a the vector to transform
* @param {mat4} m matrix to transform with
* @returns {vec3} out
*/
function transformMat4(out, a, m) {
var x = a[0], y = a[1], z = a[2],
w = m[3] * x + m[7] * y + m[11] * z + m[15]
w = w || 1.0
out[0] = (m[0] * x + m[4] * y + m[8] * z + m[12]) / w
out[1] = (m[1] * x + m[5] * y + m[9] * z + m[13]) / w
out[2] = (m[2] * x + m[6] * y + m[10] * z + m[14]) / w
return out
}
},{}],354:[function(_dereq_,module,exports){
module.exports = transformQuat;
/**
* Transforms the vec3 with a quat
*
* @param {vec3} out the receiving vector
* @param {vec3} a the vector to transform
* @param {quat} q quaternion to transform with
* @returns {vec3} out
*/
function transformQuat(out, a, q) {
// benchmarks: http://jsperf.com/quaternion-transform-vec3-implementations
var x = a[0], y = a[1], z = a[2],
qx = q[0], qy = q[1], qz = q[2], qw = q[3],
// calculate quat * vec
ix = qw * x + qy * z - qz * y,
iy = qw * y + qz * x - qx * z,
iz = qw * z + qx * y - qy * x,
iw = -qx * x - qy * y - qz * z
// calculate result * inverse quat
out[0] = ix * qw + iw * -qx + iy * -qz - iz * -qy
out[1] = iy * qw + iw * -qy + iz * -qx - ix * -qz
out[2] = iz * qw + iw * -qz + ix * -qy - iy * -qx
return out
}
},{}],355:[function(_dereq_,module,exports){
module.exports = add
/**
* Adds two vec4's
*
* @param {vec4} out the receiving vector
* @param {vec4} a the first operand
* @param {vec4} b the second operand
* @returns {vec4} out
*/
function add (out, a, b) {
out[0] = a[0] + b[0]
out[1] = a[1] + b[1]
out[2] = a[2] + b[2]
out[3] = a[3] + b[3]
return out
}
},{}],356:[function(_dereq_,module,exports){
module.exports = clone
/**
* Creates a new vec4 initialized with values from an existing vector
*
* @param {vec4} a vector to clone
* @returns {vec4} a new 4D vector
*/
function clone (a) {
var out = new Float32Array(4)
out[0] = a[0]
out[1] = a[1]
out[2] = a[2]
out[3] = a[3]
return out
}
},{}],357:[function(_dereq_,module,exports){
module.exports = copy
/**
* Copy the values from one vec4 to another
*
* @param {vec4} out the receiving vector
* @param {vec4} a the source vector
* @returns {vec4} out
*/
function copy (out, a) {
out[0] = a[0]
out[1] = a[1]
out[2] = a[2]
out[3] = a[3]
return out
}
},{}],358:[function(_dereq_,module,exports){
module.exports = create
/**
* Creates a new, empty vec4
*
* @returns {vec4} a new 4D vector
*/
function create () {
var out = new Float32Array(4)
out[0] = 0
out[1] = 0
out[2] = 0
out[3] = 0
return out
}
},{}],359:[function(_dereq_,module,exports){
module.exports = distance
/**
* Calculates the euclidian distance between two vec4's
*
* @param {vec4} a the first operand
* @param {vec4} b the second operand
* @returns {Number} distance between a and b
*/
function distance (a, b) {
var x = b[0] - a[0],
y = b[1] - a[1],
z = b[2] - a[2],
w = b[3] - a[3]
return Math.sqrt(x * x + y * y + z * z + w * w)
}
},{}],360:[function(_dereq_,module,exports){
module.exports = divide
/**
* Divides two vec4's
*
* @param {vec4} out the receiving vector
* @param {vec4} a the first operand
* @param {vec4} b the second operand
* @returns {vec4} out
*/
function divide (out, a, b) {
out[0] = a[0] / b[0]
out[1] = a[1] / b[1]
out[2] = a[2] / b[2]
out[3] = a[3] / b[3]
return out
}
},{}],361:[function(_dereq_,module,exports){
module.exports = dot
/**
* Calculates the dot product of two vec4's
*
* @param {vec4} a the first operand
* @param {vec4} b the second operand
* @returns {Number} dot product of a and b
*/
function dot (a, b) {
return a[0] * b[0] + a[1] * b[1] + a[2] * b[2] + a[3] * b[3]
}
},{}],362:[function(_dereq_,module,exports){
module.exports = fromValues
/**
* Creates a new vec4 initialized with the given values
*
* @param {Number} x X component
* @param {Number} y Y component
* @param {Number} z Z component
* @param {Number} w W component
* @returns {vec4} a new 4D vector
*/
function fromValues (x, y, z, w) {
var out = new Float32Array(4)
out[0] = x
out[1] = y
out[2] = z
out[3] = w
return out
}
},{}],363:[function(_dereq_,module,exports){
module.exports = {
create: _dereq_('./create'),
clone: _dereq_('./clone'),
fromValues: _dereq_('./fromValues'),
copy: _dereq_('./copy'),
set: _dereq_('./set'),
add: _dereq_('./add'),
subtract: _dereq_('./subtract'),
multiply: _dereq_('./multiply'),
divide: _dereq_('./divide'),
min: _dereq_('./min'),
max: _dereq_('./max'),
scale: _dereq_('./scale'),
scaleAndAdd: _dereq_('./scaleAndAdd'),
distance: _dereq_('./distance'),
squaredDistance: _dereq_('./squaredDistance'),
length: _dereq_('./length'),
squaredLength: _dereq_('./squaredLength'),
negate: _dereq_('./negate'),
inverse: _dereq_('./inverse'),
normalize: _dereq_('./normalize'),
dot: _dereq_('./dot'),
lerp: _dereq_('./lerp'),
random: _dereq_('./random'),
transformMat4: _dereq_('./transformMat4'),
transformQuat: _dereq_('./transformQuat')
}
},{"./add":355,"./clone":356,"./copy":357,"./create":358,"./distance":359,"./divide":360,"./dot":361,"./fromValues":362,"./inverse":364,"./length":365,"./lerp":366,"./max":367,"./min":368,"./multiply":369,"./negate":370,"./normalize":371,"./random":372,"./scale":373,"./scaleAndAdd":374,"./set":375,"./squaredDistance":376,"./squaredLength":377,"./subtract":378,"./transformMat4":379,"./transformQuat":380}],364:[function(_dereq_,module,exports){
module.exports = inverse
/**
* Returns the inverse of the components of a vec4
*
* @param {vec4} out the receiving vector
* @param {vec4} a vector to invert
* @returns {vec4} out
*/
function inverse (out, a) {
out[0] = 1.0 / a[0]
out[1] = 1.0 / a[1]
out[2] = 1.0 / a[2]
out[3] = 1.0 / a[3]
return out
}
},{}],365:[function(_dereq_,module,exports){
module.exports = length
/**
* Calculates the length of a vec4
*
* @param {vec4} a vector to calculate length of
* @returns {Number} length of a
*/
function length (a) {
var x = a[0],
y = a[1],
z = a[2],
w = a[3]
return Math.sqrt(x * x + y * y + z * z + w * w)
}
},{}],366:[function(_dereq_,module,exports){
module.exports = lerp
/**
* Performs a linear interpolation between two vec4's
*
* @param {vec4} out the receiving vector
* @param {vec4} a the first operand
* @param {vec4} b the second operand
* @param {Number} t interpolation amount between the two inputs
* @returns {vec4} out
*/
function lerp (out, a, b, t) {
var ax = a[0],
ay = a[1],
az = a[2],
aw = a[3]
out[0] = ax + t * (b[0] - ax)
out[1] = ay + t * (b[1] - ay)
out[2] = az + t * (b[2] - az)
out[3] = aw + t * (b[3] - aw)
return out
}
},{}],367:[function(_dereq_,module,exports){
module.exports = max
/**
* Returns the maximum of two vec4's
*
* @param {vec4} out the receiving vector
* @param {vec4} a the first operand
* @param {vec4} b the second operand
* @returns {vec4} out
*/
function max (out, a, b) {
out[0] = Math.max(a[0], b[0])
out[1] = Math.max(a[1], b[1])
out[2] = Math.max(a[2], b[2])
out[3] = Math.max(a[3], b[3])
return out
}
},{}],368:[function(_dereq_,module,exports){
module.exports = min
/**
* Returns the minimum of two vec4's
*
* @param {vec4} out the receiving vector
* @param {vec4} a the first operand
* @param {vec4} b the second operand
* @returns {vec4} out
*/
function min (out, a, b) {
out[0] = Math.min(a[0], b[0])
out[1] = Math.min(a[1], b[1])
out[2] = Math.min(a[2], b[2])
out[3] = Math.min(a[3], b[3])
return out
}
},{}],369:[function(_dereq_,module,exports){
module.exports = multiply
/**
* Multiplies two vec4's
*
* @param {vec4} out the receiving vector
* @param {vec4} a the first operand
* @param {vec4} b the second operand
* @returns {vec4} out
*/
function multiply (out, a, b) {
out[0] = a[0] * b[0]
out[1] = a[1] * b[1]
out[2] = a[2] * b[2]
out[3] = a[3] * b[3]
return out
}
},{}],370:[function(_dereq_,module,exports){
module.exports = negate
/**
* Negates the components of a vec4
*
* @param {vec4} out the receiving vector
* @param {vec4} a vector to negate
* @returns {vec4} out
*/
function negate (out, a) {
out[0] = -a[0]
out[1] = -a[1]
out[2] = -a[2]
out[3] = -a[3]
return out
}
},{}],371:[function(_dereq_,module,exports){
module.exports = normalize
/**
* Normalize a vec4
*
* @param {vec4} out the receiving vector
* @param {vec4} a vector to normalize
* @returns {vec4} out
*/
function normalize (out, a) {
var x = a[0],
y = a[1],
z = a[2],
w = a[3]
var len = x * x + y * y + z * z + w * w
if (len > 0) {
len = 1 / Math.sqrt(len)
out[0] = x * len
out[1] = y * len
out[2] = z * len
out[3] = w * len
}
return out
}
},{}],372:[function(_dereq_,module,exports){
var vecNormalize = _dereq_('./normalize')
var vecScale = _dereq_('./scale')
module.exports = random
/**
* Generates a random vector with the given scale
*
* @param {vec4} out the receiving vector
* @param {Number} [scale] Length of the resulting vector. If ommitted, a unit vector will be returned
* @returns {vec4} out
*/
function random (out, scale) {
scale = scale || 1.0
// TODO: This is a pretty awful way of doing this. Find something better.
out[0] = Math.random()
out[1] = Math.random()
out[2] = Math.random()
out[3] = Math.random()
vecNormalize(out, out)
vecScale(out, out, scale)
return out
}
},{"./normalize":371,"./scale":373}],373:[function(_dereq_,module,exports){
module.exports = scale
/**
* Scales a vec4 by a scalar number
*
* @param {vec4} out the receiving vector
* @param {vec4} a the vector to scale
* @param {Number} b amount to scale the vector by
* @returns {vec4} out
*/
function scale (out, a, b) {
out[0] = a[0] * b
out[1] = a[1] * b
out[2] = a[2] * b
out[3] = a[3] * b
return out
}
},{}],374:[function(_dereq_,module,exports){
module.exports = scaleAndAdd
/**
* Adds two vec4's after scaling the second operand by a scalar value
*
* @param {vec4} out the receiving vector
* @param {vec4} a the first operand
* @param {vec4} b the second operand
* @param {Number} scale the amount to scale b by before adding
* @returns {vec4} out
*/
function scaleAndAdd (out, a, b, scale) {
out[0] = a[0] + (b[0] * scale)
out[1] = a[1] + (b[1] * scale)
out[2] = a[2] + (b[2] * scale)
out[3] = a[3] + (b[3] * scale)
return out
}
},{}],375:[function(_dereq_,module,exports){
module.exports = set
/**
* Set the components of a vec4 to the given values
*
* @param {vec4} out the receiving vector
* @param {Number} x X component
* @param {Number} y Y component
* @param {Number} z Z component
* @param {Number} w W component
* @returns {vec4} out
*/
function set (out, x, y, z, w) {
out[0] = x
out[1] = y
out[2] = z
out[3] = w
return out
}
},{}],376:[function(_dereq_,module,exports){
module.exports = squaredDistance
/**
* Calculates the squared euclidian distance between two vec4's
*
* @param {vec4} a the first operand
* @param {vec4} b the second operand
* @returns {Number} squared distance between a and b
*/
function squaredDistance (a, b) {
var x = b[0] - a[0],
y = b[1] - a[1],
z = b[2] - a[2],
w = b[3] - a[3]
return x * x + y * y + z * z + w * w
}
},{}],377:[function(_dereq_,module,exports){
module.exports = squaredLength
/**
* Calculates the squared length of a vec4
*
* @param {vec4} a vector to calculate squared length of
* @returns {Number} squared length of a
*/
function squaredLength (a) {
var x = a[0],
y = a[1],
z = a[2],
w = a[3]
return x * x + y * y + z * z + w * w
}
},{}],378:[function(_dereq_,module,exports){
module.exports = subtract
/**
* Subtracts vector b from vector a
*
* @param {vec4} out the receiving vector
* @param {vec4} a the first operand
* @param {vec4} b the second operand
* @returns {vec4} out
*/
function subtract (out, a, b) {
out[0] = a[0] - b[0]
out[1] = a[1] - b[1]
out[2] = a[2] - b[2]
out[3] = a[3] - b[3]
return out
}
},{}],379:[function(_dereq_,module,exports){
module.exports = transformMat4
/**
* Transforms the vec4 with a mat4.
*
* @param {vec4} out the receiving vector
* @param {vec4} a the vector to transform
* @param {mat4} m matrix to transform with
* @returns {vec4} out
*/
function transformMat4 (out, a, m) {
var x = a[0], y = a[1], z = a[2], w = a[3]
out[0] = m[0] * x + m[4] * y + m[8] * z + m[12] * w
out[1] = m[1] * x + m[5] * y + m[9] * z + m[13] * w
out[2] = m[2] * x + m[6] * y + m[10] * z + m[14] * w
out[3] = m[3] * x + m[7] * y + m[11] * z + m[15] * w
return out
}
},{}],380:[function(_dereq_,module,exports){
module.exports = transformQuat
/**
* Transforms the vec4 with a quat
*
* @param {vec4} out the receiving vector
* @param {vec4} a the vector to transform
* @param {quat} q quaternion to transform with
* @returns {vec4} out
*/
function transformQuat (out, a, q) {
var x = a[0], y = a[1], z = a[2],
qx = q[0], qy = q[1], qz = q[2], qw = q[3],
// calculate quat * vec
ix = qw * x + qy * z - qz * y,
iy = qw * y + qz * x - qx * z,
iz = qw * z + qx * y - qy * x,
iw = -qx * x - qy * y - qz * z
// calculate result * inverse quat
out[0] = ix * qw + iw * -qx + iy * -qz - iz * -qy
out[1] = iy * qw + iw * -qy + iz * -qx - ix * -qz
out[2] = iz * qw + iw * -qz + ix * -qy - iy * -qx
out[3] = a[3]
return out
}
},{}],381:[function(_dereq_,module,exports){
module.exports = decodeFloat
var UINT8_VIEW = new Uint8Array(4)
var FLOAT_VIEW = new Float32Array(UINT8_VIEW.buffer)
function decodeFloat(x, y, z, w) {
UINT8_VIEW[0] = w
UINT8_VIEW[1] = z
UINT8_VIEW[2] = y
UINT8_VIEW[3] = x
return FLOAT_VIEW[0]
}
},{}],382:[function(_dereq_,module,exports){
var tokenize = _dereq_('glsl-tokenizer')
var atob = _dereq_('atob-lite')
module.exports = getName
function getName(src) {
var tokens = Array.isArray(src)
? src
: tokenize(src)
for (var i = 0; i < tokens.length; i++) {
var token = tokens[i]
if (token.type !== 'preprocessor') continue
var match = token.data.match(/\#define\s+SHADER_NAME(_B64)?\s+(.+)$/)
if (!match) continue
if (!match[2]) continue
var b64 = match[1]
var name = match[2]
return (b64 ? atob(name) : name).trim()
}
}
},{"atob-lite":59,"glsl-tokenizer":389}],383:[function(_dereq_,module,exports){
module.exports = tokenize
var literals100 = _dereq_('./lib/literals')
, operators = _dereq_('./lib/operators')
, builtins100 = _dereq_('./lib/builtins')
, literals300es = _dereq_('./lib/literals-300es')
, builtins300es = _dereq_('./lib/builtins-300es')
var NORMAL = 999 // <-- never emitted
, TOKEN = 9999 // <-- never emitted
, BLOCK_COMMENT = 0
, LINE_COMMENT = 1
, PREPROCESSOR = 2
, OPERATOR = 3
, INTEGER = 4
, FLOAT = 5
, IDENT = 6
, BUILTIN = 7
, KEYWORD = 8
, WHITESPACE = 9
, EOF = 10
, HEX = 11
var map = [
'block-comment'
, 'line-comment'
, 'preprocessor'
, 'operator'
, 'integer'
, 'float'
, 'ident'
, 'builtin'
, 'keyword'
, 'whitespace'
, 'eof'
, 'integer'
]
function tokenize(opt) {
var i = 0
, total = 0
, mode = NORMAL
, c
, last
, content = []
, tokens = []
, token_idx = 0
, token_offs = 0
, line = 1
, col = 0
, start = 0
, isnum = false
, isoperator = false
, input = ''
, len
opt = opt || {}
var allBuiltins = builtins100
var allLiterals = literals100
if (opt.version === '300 es') {
allBuiltins = builtins300es
allLiterals = literals300es
}
return function(data) {
tokens = []
if (data !== null) return write(data.replace ? data.replace(/\r\n/g, '\n') : data)
return end()
}
function token(data) {
if (data.length) {
tokens.push({
type: map[mode]
, data: data
, position: start
, line: line
, column: col
})
}
}
function write(chunk) {
i = 0
input += chunk
len = input.length
var last
while(c = input[i], i < len) {
last = i
switch(mode) {
case BLOCK_COMMENT: i = block_comment(); break
case LINE_COMMENT: i = line_comment(); break
case PREPROCESSOR: i = preprocessor(); break
case OPERATOR: i = operator(); break
case INTEGER: i = integer(); break
case HEX: i = hex(); break
case FLOAT: i = decimal(); break
case TOKEN: i = readtoken(); break
case WHITESPACE: i = whitespace(); break
case NORMAL: i = normal(); break
}
if(last !== i) {
switch(input[last]) {
case '\n': col = 0; ++line; break
default: ++col; break
}
}
}
total += i
input = input.slice(i)
return tokens
}
function end(chunk) {
if(content.length) {
token(content.join(''))
}
mode = EOF
token('(eof)')
return tokens
}
function normal() {
content = content.length ? [] : content
if(last === '/' && c === '*') {
start = total + i - 1
mode = BLOCK_COMMENT
last = c
return i + 1
}
if(last === '/' && c === '/') {
start = total + i - 1
mode = LINE_COMMENT
last = c
return i + 1
}
if(c === '#') {
mode = PREPROCESSOR
start = total + i
return i
}
if(/\s/.test(c)) {
mode = WHITESPACE
start = total + i
return i
}
isnum = /\d/.test(c)
isoperator = /[^\w_]/.test(c)
start = total + i
mode = isnum ? INTEGER : isoperator ? OPERATOR : TOKEN
return i
}
function whitespace() {
if(/[^\s]/g.test(c)) {
token(content.join(''))
mode = NORMAL
return i
}
content.push(c)
last = c
return i + 1
}
function preprocessor() {
if((c === '\r' || c === '\n') && last !== '\\') {
token(content.join(''))
mode = NORMAL
return i
}
content.push(c)
last = c
return i + 1
}
function line_comment() {
return preprocessor()
}
function block_comment() {
if(c === '/' && last === '*') {
content.push(c)
token(content.join(''))
mode = NORMAL
return i + 1
}
content.push(c)
last = c
return i + 1
}
function operator() {
if(last === '.' && /\d/.test(c)) {
mode = FLOAT
return i
}
if(last === '/' && c === '*') {
mode = BLOCK_COMMENT
return i
}
if(last === '/' && c === '/') {
mode = LINE_COMMENT
return i
}
if(c === '.' && content.length) {
while(determine_operator(content));
mode = FLOAT
return i
}
if(c === ';' || c === ')' || c === '(') {
if(content.length) while(determine_operator(content));
token(c)
mode = NORMAL
return i + 1
}
var is_composite_operator = content.length === 2 && c !== '='
if(/[\w_\d\s]/.test(c) || is_composite_operator) {
while(determine_operator(content));
mode = NORMAL
return i
}
content.push(c)
last = c
return i + 1
}
function determine_operator(buf) {
var j = 0
, idx
, res
do {
idx = operators.indexOf(buf.slice(0, buf.length + j).join(''))
res = operators[idx]
if(idx === -1) {
if(j-- + buf.length > 0) continue
res = buf.slice(0, 1).join('')
}
token(res)
start += res.length
content = content.slice(res.length)
return content.length
} while(1)
}
function hex() {
if(/[^a-fA-F0-9]/.test(c)) {
token(content.join(''))
mode = NORMAL
return i
}
content.push(c)
last = c
return i + 1
}
function integer() {
if(c === '.') {
content.push(c)
mode = FLOAT
last = c
return i + 1
}
if(/[eE]/.test(c)) {
content.push(c)
mode = FLOAT
last = c
return i + 1
}
if(c === 'x' && content.length === 1 && content[0] === '0') {
mode = HEX
content.push(c)
last = c
return i + 1
}
if(/[^\d]/.test(c)) {
token(content.join(''))
mode = NORMAL
return i
}
content.push(c)
last = c
return i + 1
}
function decimal() {
if(c === 'f') {
content.push(c)
last = c
i += 1
}
if(/[eE]/.test(c)) {
content.push(c)
last = c
return i + 1
}
if (c === '-' && /[eE]/.test(last)) {
content.push(c)
last = c
return i + 1
}
if(/[^\d]/.test(c)) {
token(content.join(''))
mode = NORMAL
return i
}
content.push(c)
last = c
return i + 1
}
function readtoken() {
if(/[^\d\w_]/.test(c)) {
var contentstr = content.join('')
if(allLiterals.indexOf(contentstr) > -1) {
mode = KEYWORD
} else if(allBuiltins.indexOf(contentstr) > -1) {
mode = BUILTIN
} else {
mode = IDENT
}
token(content.join(''))
mode = NORMAL
return i
}
content.push(c)
last = c
return i + 1
}
}
},{"./lib/builtins":385,"./lib/builtins-300es":384,"./lib/literals":387,"./lib/literals-300es":386,"./lib/operators":388}],384:[function(_dereq_,module,exports){
// 300es builtins/reserved words that were previously valid in v100
var v100 = _dereq_('./builtins')
// The texture2D|Cube functions have been removed
// And the gl_ features are updated
v100 = v100.slice().filter(function (b) {
return !/^(gl\_|texture)/.test(b)
})
module.exports = v100.concat([
// the updated gl_ constants
'gl_VertexID'
, 'gl_InstanceID'
, 'gl_Position'
, 'gl_PointSize'
, 'gl_FragCoord'
, 'gl_FrontFacing'
, 'gl_FragDepth'
, 'gl_PointCoord'
, 'gl_MaxVertexAttribs'
, 'gl_MaxVertexUniformVectors'
, 'gl_MaxVertexOutputVectors'
, 'gl_MaxFragmentInputVectors'
, 'gl_MaxVertexTextureImageUnits'
, 'gl_MaxCombinedTextureImageUnits'
, 'gl_MaxTextureImageUnits'
, 'gl_MaxFragmentUniformVectors'
, 'gl_MaxDrawBuffers'
, 'gl_MinProgramTexelOffset'
, 'gl_MaxProgramTexelOffset'
, 'gl_DepthRangeParameters'
, 'gl_DepthRange'
// other builtins
, 'trunc'
, 'round'
, 'roundEven'
, 'isnan'
, 'isinf'
, 'floatBitsToInt'
, 'floatBitsToUint'
, 'intBitsToFloat'
, 'uintBitsToFloat'
, 'packSnorm2x16'
, 'unpackSnorm2x16'
, 'packUnorm2x16'
, 'unpackUnorm2x16'
, 'packHalf2x16'
, 'unpackHalf2x16'
, 'outerProduct'
, 'transpose'
, 'determinant'
, 'inverse'
, 'texture'
, 'textureSize'
, 'textureProj'
, 'textureLod'
, 'textureOffset'
, 'texelFetch'
, 'texelFetchOffset'
, 'textureProjOffset'
, 'textureLodOffset'
, 'textureProjLod'
, 'textureProjLodOffset'
, 'textureGrad'
, 'textureGradOffset'
, 'textureProjGrad'
, 'textureProjGradOffset'
])
},{"./builtins":385}],385:[function(_dereq_,module,exports){
module.exports = [
// Keep this list sorted
'abs'
, 'acos'
, 'all'
, 'any'
, 'asin'
, 'atan'
, 'ceil'
, 'clamp'
, 'cos'
, 'cross'
, 'dFdx'
, 'dFdy'
, 'degrees'
, 'distance'
, 'dot'
, 'equal'
, 'exp'
, 'exp2'
, 'faceforward'
, 'floor'
, 'fract'
, 'gl_BackColor'
, 'gl_BackLightModelProduct'
, 'gl_BackLightProduct'
, 'gl_BackMaterial'
, 'gl_BackSecondaryColor'
, 'gl_ClipPlane'
, 'gl_ClipVertex'
, 'gl_Color'
, 'gl_DepthRange'
, 'gl_DepthRangeParameters'
, 'gl_EyePlaneQ'
, 'gl_EyePlaneR'
, 'gl_EyePlaneS'
, 'gl_EyePlaneT'
, 'gl_Fog'
, 'gl_FogCoord'
, 'gl_FogFragCoord'
, 'gl_FogParameters'
, 'gl_FragColor'
, 'gl_FragCoord'
, 'gl_FragData'
, 'gl_FragDepth'
, 'gl_FragDepthEXT'
, 'gl_FrontColor'
, 'gl_FrontFacing'
, 'gl_FrontLightModelProduct'
, 'gl_FrontLightProduct'
, 'gl_FrontMaterial'
, 'gl_FrontSecondaryColor'
, 'gl_LightModel'
, 'gl_LightModelParameters'
, 'gl_LightModelProducts'
, 'gl_LightProducts'
, 'gl_LightSource'
, 'gl_LightSourceParameters'
, 'gl_MaterialParameters'
, 'gl_MaxClipPlanes'
, 'gl_MaxCombinedTextureImageUnits'
, 'gl_MaxDrawBuffers'
, 'gl_MaxFragmentUniformComponents'
, 'gl_MaxLights'
, 'gl_MaxTextureCoords'
, 'gl_MaxTextureImageUnits'
, 'gl_MaxTextureUnits'
, 'gl_MaxVaryingFloats'
, 'gl_MaxVertexAttribs'
, 'gl_MaxVertexTextureImageUnits'
, 'gl_MaxVertexUniformComponents'
, 'gl_ModelViewMatrix'
, 'gl_ModelViewMatrixInverse'
, 'gl_ModelViewMatrixInverseTranspose'
, 'gl_ModelViewMatrixTranspose'
, 'gl_ModelViewProjectionMatrix'
, 'gl_ModelViewProjectionMatrixInverse'
, 'gl_ModelViewProjectionMatrixInverseTranspose'
, 'gl_ModelViewProjectionMatrixTranspose'
, 'gl_MultiTexCoord0'
, 'gl_MultiTexCoord1'
, 'gl_MultiTexCoord2'
, 'gl_MultiTexCoord3'
, 'gl_MultiTexCoord4'
, 'gl_MultiTexCoord5'
, 'gl_MultiTexCoord6'
, 'gl_MultiTexCoord7'
, 'gl_Normal'
, 'gl_NormalMatrix'
, 'gl_NormalScale'
, 'gl_ObjectPlaneQ'
, 'gl_ObjectPlaneR'
, 'gl_ObjectPlaneS'
, 'gl_ObjectPlaneT'
, 'gl_Point'
, 'gl_PointCoord'
, 'gl_PointParameters'
, 'gl_PointSize'
, 'gl_Position'
, 'gl_ProjectionMatrix'
, 'gl_ProjectionMatrixInverse'
, 'gl_ProjectionMatrixInverseTranspose'
, 'gl_ProjectionMatrixTranspose'
, 'gl_SecondaryColor'
, 'gl_TexCoord'
, 'gl_TextureEnvColor'
, 'gl_TextureMatrix'
, 'gl_TextureMatrixInverse'
, 'gl_TextureMatrixInverseTranspose'
, 'gl_TextureMatrixTranspose'
, 'gl_Vertex'
, 'greaterThan'
, 'greaterThanEqual'
, 'inversesqrt'
, 'length'
, 'lessThan'
, 'lessThanEqual'
, 'log'
, 'log2'
, 'matrixCompMult'
, 'max'
, 'min'
, 'mix'
, 'mod'
, 'normalize'
, 'not'
, 'notEqual'
, 'pow'
, 'radians'
, 'reflect'
, 'refract'
, 'sign'
, 'sin'
, 'smoothstep'
, 'sqrt'
, 'step'
, 'tan'
, 'texture2D'
, 'texture2DLod'
, 'texture2DProj'
, 'texture2DProjLod'
, 'textureCube'
, 'textureCubeLod'
, 'texture2DLodEXT'
, 'texture2DProjLodEXT'
, 'textureCubeLodEXT'
, 'texture2DGradEXT'
, 'texture2DProjGradEXT'
, 'textureCubeGradEXT'
]
},{}],386:[function(_dereq_,module,exports){
var v100 = _dereq_('./literals')
module.exports = v100.slice().concat([
'layout'
, 'centroid'
, 'smooth'
, 'case'
, 'mat2x2'
, 'mat2x3'
, 'mat2x4'
, 'mat3x2'
, 'mat3x3'
, 'mat3x4'
, 'mat4x2'
, 'mat4x3'
, 'mat4x4'
, 'uint'
, 'uvec2'
, 'uvec3'
, 'uvec4'
, 'samplerCubeShadow'
, 'sampler2DArray'
, 'sampler2DArrayShadow'
, 'isampler2D'
, 'isampler3D'
, 'isamplerCube'
, 'isampler2DArray'
, 'usampler2D'
, 'usampler3D'
, 'usamplerCube'
, 'usampler2DArray'
, 'coherent'
, 'restrict'
, 'readonly'
, 'writeonly'
, 'resource'
, 'atomic_uint'
, 'noperspective'
, 'patch'
, 'sample'
, 'subroutine'
, 'common'
, 'partition'
, 'active'
, 'filter'
, 'image1D'
, 'image2D'
, 'image3D'
, 'imageCube'
, 'iimage1D'
, 'iimage2D'
, 'iimage3D'
, 'iimageCube'
, 'uimage1D'
, 'uimage2D'
, 'uimage3D'
, 'uimageCube'
, 'image1DArray'
, 'image2DArray'
, 'iimage1DArray'
, 'iimage2DArray'
, 'uimage1DArray'
, 'uimage2DArray'
, 'image1DShadow'
, 'image2DShadow'
, 'image1DArrayShadow'
, 'image2DArrayShadow'
, 'imageBuffer'
, 'iimageBuffer'
, 'uimageBuffer'
, 'sampler1DArray'
, 'sampler1DArrayShadow'
, 'isampler1D'
, 'isampler1DArray'
, 'usampler1D'
, 'usampler1DArray'
, 'isampler2DRect'
, 'usampler2DRect'
, 'samplerBuffer'
, 'isamplerBuffer'
, 'usamplerBuffer'
, 'sampler2DMS'
, 'isampler2DMS'
, 'usampler2DMS'
, 'sampler2DMSArray'
, 'isampler2DMSArray'
, 'usampler2DMSArray'
])
},{"./literals":387}],387:[function(_dereq_,module,exports){
module.exports = [
// current
'precision'
, 'highp'
, 'mediump'
, 'lowp'
, 'attribute'
, 'const'
, 'uniform'
, 'varying'
, 'break'
, 'continue'
, 'do'
, 'for'
, 'while'
, 'if'
, 'else'
, 'in'
, 'out'
, 'inout'
, 'float'
, 'int'
, 'void'
, 'bool'
, 'true'
, 'false'
, 'discard'
, 'return'
, 'mat2'
, 'mat3'
, 'mat4'
, 'vec2'
, 'vec3'
, 'vec4'
, 'ivec2'
, 'ivec3'
, 'ivec4'
, 'bvec2'
, 'bvec3'
, 'bvec4'
, 'sampler1D'
, 'sampler2D'
, 'sampler3D'
, 'samplerCube'
, 'sampler1DShadow'
, 'sampler2DShadow'
, 'struct'
// future
, 'asm'
, 'class'
, 'union'
, 'enum'
, 'typedef'
, 'template'
, 'this'
, 'packed'
, 'goto'
, 'switch'
, 'default'
, 'inline'
, 'noinline'
, 'volatile'
, 'public'
, 'static'
, 'extern'
, 'external'
, 'interface'
, 'long'
, 'short'
, 'double'
, 'half'
, 'fixed'
, 'unsigned'
, 'input'
, 'output'
, 'hvec2'
, 'hvec3'
, 'hvec4'
, 'dvec2'
, 'dvec3'
, 'dvec4'
, 'fvec2'
, 'fvec3'
, 'fvec4'
, 'sampler2DRect'
, 'sampler3DRect'
, 'sampler2DRectShadow'
, 'sizeof'
, 'cast'
, 'namespace'
, 'using'
]
},{}],388:[function(_dereq_,module,exports){
module.exports = [
'<<='
, '>>='
, '++'
, '--'
, '<<'
, '>>'
, '<='
, '>='
, '=='
, '!='
, '&&'
, '||'
, '+='
, '-='
, '*='
, '/='
, '%='
, '&='
, '^^'
, '^='
, '|='
, '('
, ')'
, '['
, ']'
, '.'
, '!'
, '~'
, '*'
, '/'
, '%'
, '+'
, '-'
, '<'
, '>'
, '&'
, '^'
, '|'
, '?'
, ':'
, '='
, ','
, ';'
, '{'
, '}'
]
},{}],389:[function(_dereq_,module,exports){
var tokenize = _dereq_('./index')
module.exports = tokenizeString
function tokenizeString(str, opt) {
var generator = tokenize(opt)
var tokens = []
tokens = tokens.concat(generator(str))
tokens = tokens.concat(generator(null))
return tokens
}
},{"./index":383}],390:[function(_dereq_,module,exports){
module.exports = function(strings) {
if (typeof strings === 'string') strings = [strings]
var exprs = [].slice.call(arguments,1)
var parts = []
for (var i = 0; i < strings.length-1; i++) {
parts.push(strings[i], exprs[i] || '')
}
parts.push(strings[i])
return parts.join('')
}
},{}],391:[function(_dereq_,module,exports){
(function (global){
'use strict'
var isBrowser = _dereq_('is-browser')
var hasHover
if (typeof global.matchMedia === 'function') {
hasHover = !global.matchMedia('(hover: none)').matches
}
else {
hasHover = isBrowser
}
module.exports = hasHover
}).call(this,typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {})
},{"is-browser":398}],392:[function(_dereq_,module,exports){
'use strict'
var isBrowser = _dereq_('is-browser')
function detect() {
var supported = false
try {
var opts = Object.defineProperty({}, 'passive', {
get: function() {
supported = true
}
})
window.addEventListener('test', null, opts)
window.removeEventListener('test', null, opts)
} catch(e) {
supported = false
}
return supported
}
module.exports = isBrowser && detect()
},{"is-browser":398}],393:[function(_dereq_,module,exports){
exports.read = function (buffer, offset, isLE, mLen, nBytes) {
var e, m
var eLen = (nBytes * 8) - mLen - 1
var eMax = (1 << eLen) - 1
var eBias = eMax >> 1
var nBits = -7
var i = isLE ? (nBytes - 1) : 0
var d = isLE ? -1 : 1
var s = buffer[offset + i]
i += d
e = s & ((1 << (-nBits)) - 1)
s >>= (-nBits)
nBits += eLen
for (; nBits > 0; e = (e * 256) + buffer[offset + i], i += d, nBits -= 8) {}
m = e & ((1 << (-nBits)) - 1)
e >>= (-nBits)
nBits += mLen
for (; nBits > 0; m = (m * 256) + buffer[offset + i], i += d, nBits -= 8) {}
if (e === 0) {
e = 1 - eBias
} else if (e === eMax) {
return m ? NaN : ((s ? -1 : 1) * Infinity)
} else {
m = m + Math.pow(2, mLen)
e = e - eBias
}
return (s ? -1 : 1) * m * Math.pow(2, e - mLen)
}
exports.write = function (buffer, value, offset, isLE, mLen, nBytes) {
var e, m, c
var eLen = (nBytes * 8) - mLen - 1
var eMax = (1 << eLen) - 1
var eBias = eMax >> 1
var rt = (mLen === 23 ? Math.pow(2, -24) - Math.pow(2, -77) : 0)
var i = isLE ? 0 : (nBytes - 1)
var d = isLE ? 1 : -1
var s = value < 0 || (value === 0 && 1 / value < 0) ? 1 : 0
value = Math.abs(value)
if (isNaN(value) || value === Infinity) {
m = isNaN(value) ? 1 : 0
e = eMax
} else {
e = Math.floor(Math.log(value) / Math.LN2)
if (value * (c = Math.pow(2, -e)) < 1) {
e--
c *= 2
}
if (e + eBias >= 1) {
value += rt / c
} else {
value += rt * Math.pow(2, 1 - eBias)
}
if (value * c >= 2) {
e++
c /= 2
}
if (e + eBias >= eMax) {
m = 0
e = eMax
} else if (e + eBias >= 1) {
m = ((value * c) - 1) * Math.pow(2, mLen)
e = e + eBias
} else {
m = value * Math.pow(2, eBias - 1) * Math.pow(2, mLen)
e = 0
}
}
for (; mLen >= 8; buffer[offset + i] = m & 0xff, i += d, m /= 256, mLen -= 8) {}
e = (e << mLen) | m
eLen += mLen
for (; eLen > 0; buffer[offset + i] = e & 0xff, i += d, e /= 256, eLen -= 8) {}
buffer[offset + i - d] |= s * 128
}
},{}],394:[function(_dereq_,module,exports){
"use strict"
//High level idea:
// 1. Use Clarkson's incremental construction to find convex hull
// 2. Point location in triangulation by jump and walk
module.exports = incrementalConvexHull
var orient = _dereq_("robust-orientation")
var compareCell = _dereq_("simplicial-complex").compareCells
function compareInt(a, b) {
return a - b
}
function Simplex(vertices, adjacent, boundary) {
this.vertices = vertices
this.adjacent = adjacent
this.boundary = boundary
this.lastVisited = -1
}
Simplex.prototype.flip = function() {
var t = this.vertices[0]
this.vertices[0] = this.vertices[1]
this.vertices[1] = t
var u = this.adjacent[0]
this.adjacent[0] = this.adjacent[1]
this.adjacent[1] = u
}
function GlueFacet(vertices, cell, index) {
this.vertices = vertices
this.cell = cell
this.index = index
}
function compareGlue(a, b) {
return compareCell(a.vertices, b.vertices)
}
function bakeOrient(d) {
var code = ["function orient(){var tuple=this.tuple;return test("]
for(var i=0; i<=d; ++i) {
if(i > 0) {
code.push(",")
}
code.push("tuple[", i, "]")
}
code.push(")}return orient")
var proc = new Function("test", code.join(""))
var test = orient[d+1]
if(!test) {
test = orient
}
return proc(test)
}
var BAKED = []
function Triangulation(dimension, vertices, simplices) {
this.dimension = dimension
this.vertices = vertices
this.simplices = simplices
this.interior = simplices.filter(function(c) {
return !c.boundary
})
this.tuple = new Array(dimension+1)
for(var i=0; i<=dimension; ++i) {
this.tuple[i] = this.vertices[i]
}
var o = BAKED[dimension]
if(!o) {
o = BAKED[dimension] = bakeOrient(dimension)
}
this.orient = o
}
var proto = Triangulation.prototype
//Degenerate situation where we are on boundary, but coplanar to face
proto.handleBoundaryDegeneracy = function(cell, point) {
var d = this.dimension
var n = this.vertices.length - 1
var tuple = this.tuple
var verts = this.vertices
//Dumb solution: Just do dfs from boundary cell until we find any peak, or terminate
var toVisit = [ cell ]
cell.lastVisited = -n
while(toVisit.length > 0) {
cell = toVisit.pop()
var cellVerts = cell.vertices
var cellAdj = cell.adjacent
for(var i=0; i<=d; ++i) {
var neighbor = cellAdj[i]
if(!neighbor.boundary || neighbor.lastVisited <= -n) {
continue
}
var nv = neighbor.vertices
for(var j=0; j<=d; ++j) {
var vv = nv[j]
if(vv < 0) {
tuple[j] = point
} else {
tuple[j] = verts[vv]
}
}
var o = this.orient()
if(o > 0) {
return neighbor
}
neighbor.lastVisited = -n
if(o === 0) {
toVisit.push(neighbor)
}
}
}
return null
}
proto.walk = function(point, random) {
//Alias local properties
var n = this.vertices.length - 1
var d = this.dimension
var verts = this.vertices
var tuple = this.tuple
//Compute initial jump cell
var initIndex = random ? (this.interior.length * Math.random())|0 : (this.interior.length-1)
var cell = this.interior[ initIndex ]
//Start walking
outerLoop:
while(!cell.boundary) {
var cellVerts = cell.vertices
var cellAdj = cell.adjacent
for(var i=0; i<=d; ++i) {
tuple[i] = verts[cellVerts[i]]
}
cell.lastVisited = n
//Find farthest adjacent cell
for(var i=0; i<=d; ++i) {
var neighbor = cellAdj[i]
if(neighbor.lastVisited >= n) {
continue
}
var prev = tuple[i]
tuple[i] = point
var o = this.orient()
tuple[i] = prev
if(o < 0) {
cell = neighbor
continue outerLoop
} else {
if(!neighbor.boundary) {
neighbor.lastVisited = n
} else {
neighbor.lastVisited = -n
}
}
}
return
}
return cell
}
proto.addPeaks = function(point, cell) {
var n = this.vertices.length - 1
var d = this.dimension
var verts = this.vertices
var tuple = this.tuple
var interior = this.interior
var simplices = this.simplices
//Walking finished at boundary, time to add peaks
var tovisit = [ cell ]
//Stretch initial boundary cell into a peak
cell.lastVisited = n
cell.vertices[cell.vertices.indexOf(-1)] = n
cell.boundary = false
interior.push(cell)
//Record a list of all new boundaries created by added peaks so we can glue them together when we are all done
var glueFacets = []
//Do a traversal of the boundary walking outward from starting peak
while(tovisit.length > 0) {
//Pop off peak and walk over adjacent cells
var cell = tovisit.pop()
var cellVerts = cell.vertices
var cellAdj = cell.adjacent
var indexOfN = cellVerts.indexOf(n)
if(indexOfN < 0) {
continue
}
for(var i=0; i<=d; ++i) {
if(i === indexOfN) {
continue
}
//For each boundary neighbor of the cell
var neighbor = cellAdj[i]
if(!neighbor.boundary || neighbor.lastVisited >= n) {
continue
}
var nv = neighbor.vertices
//Test if neighbor is a peak
if(neighbor.lastVisited !== -n) {
//Compute orientation of p relative to each boundary peak
var indexOfNeg1 = 0
for(var j=0; j<=d; ++j) {
if(nv[j] < 0) {
indexOfNeg1 = j
tuple[j] = point
} else {
tuple[j] = verts[nv[j]]
}
}
var o = this.orient()
//Test if neighbor cell is also a peak
if(o > 0) {
nv[indexOfNeg1] = n
neighbor.boundary = false
interior.push(neighbor)
tovisit.push(neighbor)
neighbor.lastVisited = n
continue
} else {
neighbor.lastVisited = -n
}
}
var na = neighbor.adjacent
//Otherwise, replace neighbor with new face
var vverts = cellVerts.slice()
var vadj = cellAdj.slice()
var ncell = new Simplex(vverts, vadj, true)
simplices.push(ncell)
//Connect to neighbor
var opposite = na.indexOf(cell)
if(opposite < 0) {
continue
}
na[opposite] = ncell
vadj[indexOfN] = neighbor
//Connect to cell
vverts[i] = -1
vadj[i] = cell
cellAdj[i] = ncell
//Flip facet
ncell.flip()
//Add to glue list
for(var j=0; j<=d; ++j) {
var uu = vverts[j]
if(uu < 0 || uu === n) {
continue
}
var nface = new Array(d-1)
var nptr = 0
for(var k=0; k<=d; ++k) {
var vv = vverts[k]
if(vv < 0 || k === j) {
continue
}
nface[nptr++] = vv
}
glueFacets.push(new GlueFacet(nface, ncell, j))
}
}
}
//Glue boundary facets together
glueFacets.sort(compareGlue)
for(var i=0; i+1<glueFacets.length; i+=2) {
var a = glueFacets[i]
var b = glueFacets[i+1]
var ai = a.index
var bi = b.index
if(ai < 0 || bi < 0) {
continue
}
a.cell.adjacent[a.index] = b.cell
b.cell.adjacent[b.index] = a.cell
}
}
proto.insert = function(point, random) {
//Add point
var verts = this.vertices
verts.push(point)
var cell = this.walk(point, random)
if(!cell) {
return
}
//Alias local properties
var d = this.dimension
var tuple = this.tuple
//Degenerate case: If point is coplanar to cell, then walk until we find a non-degenerate boundary
for(var i=0; i<=d; ++i) {
var vv = cell.vertices[i]
if(vv < 0) {
tuple[i] = point
} else {
tuple[i] = verts[vv]
}
}
var o = this.orient(tuple)
if(o < 0) {
return
} else if(o === 0) {
cell = this.handleBoundaryDegeneracy(cell, point)
if(!cell) {
return
}
}
//Add peaks
this.addPeaks(point, cell)
}
//Extract all boundary cells
proto.boundary = function() {
var d = this.dimension
var boundary = []
var cells = this.simplices
var nc = cells.length
for(var i=0; i<nc; ++i) {
var c = cells[i]
if(c.boundary) {
var bcell = new Array(d)
var cv = c.vertices
var ptr = 0
var parity = 0
for(var j=0; j<=d; ++j) {
if(cv[j] >= 0) {
bcell[ptr++] = cv[j]
} else {
parity = j&1
}
}
if(parity === (d&1)) {
var t = bcell[0]
bcell[0] = bcell[1]
bcell[1] = t
}
boundary.push(bcell)
}
}
return boundary
}
function incrementalConvexHull(points, randomSearch) {
var n = points.length
if(n === 0) {
throw new Error("Must have at least d+1 points")
}
var d = points[0].length
if(n <= d) {
throw new Error("Must input at least d+1 points")
}
//FIXME: This could be degenerate, but need to select d+1 non-coplanar points to bootstrap process
var initialSimplex = points.slice(0, d+1)
//Make sure initial simplex is positively oriented
var o = orient.apply(void 0, initialSimplex)
if(o === 0) {
throw new Error("Input not in general position")
}
var initialCoords = new Array(d+1)
for(var i=0; i<=d; ++i) {
initialCoords[i] = i
}
if(o < 0) {
initialCoords[0] = 1
initialCoords[1] = 0
}
//Create initial topological index, glue pointers together (kind of messy)
var initialCell = new Simplex(initialCoords, new Array(d+1), false)
var boundary = initialCell.adjacent
var list = new Array(d+2)
for(var i=0; i<=d; ++i) {
var verts = initialCoords.slice()
for(var j=0; j<=d; ++j) {
if(j === i) {
verts[j] = -1
}
}
var t = verts[0]
verts[0] = verts[1]
verts[1] = t
var cell = new Simplex(verts, new Array(d+1), true)
boundary[i] = cell
list[i] = cell
}
list[d+1] = initialCell
for(var i=0; i<=d; ++i) {
var verts = boundary[i].vertices
var adj = boundary[i].adjacent
for(var j=0; j<=d; ++j) {
var v = verts[j]
if(v < 0) {
adj[j] = initialCell
continue
}
for(var k=0; k<=d; ++k) {
if(boundary[k].vertices.indexOf(v) < 0) {
adj[j] = boundary[k]
}
}
}
}
//Initialize triangles
var triangles = new Triangulation(d, initialSimplex, list)
//Insert remaining points
var useRandom = !!randomSearch
for(var i=d+1; i<n; ++i) {
triangles.insert(points[i], useRandom)
}
//Extract boundary cells
return triangles.boundary()
}
},{"robust-orientation":483,"simplicial-complex":493}],395:[function(_dereq_,module,exports){
"use strict"
var bounds = _dereq_("binary-search-bounds")
var NOT_FOUND = 0
var SUCCESS = 1
var EMPTY = 2
module.exports = createWrapper
function IntervalTreeNode(mid, left, right, leftPoints, rightPoints) {
this.mid = mid
this.left = left
this.right = right
this.leftPoints = leftPoints
this.rightPoints = rightPoints
this.count = (left ? left.count : 0) + (right ? right.count : 0) + leftPoints.length
}
var proto = IntervalTreeNode.prototype
function copy(a, b) {
a.mid = b.mid
a.left = b.left
a.right = b.right
a.leftPoints = b.leftPoints
a.rightPoints = b.rightPoints
a.count = b.count
}
function rebuild(node, intervals) {
var ntree = createIntervalTree(intervals)
node.mid = ntree.mid
node.left = ntree.left
node.right = ntree.right
node.leftPoints = ntree.leftPoints
node.rightPoints = ntree.rightPoints
node.count = ntree.count
}
function rebuildWithInterval(node, interval) {
var intervals = node.intervals([])
intervals.push(interval)
rebuild(node, intervals)
}
function rebuildWithoutInterval(node, interval) {
var intervals = node.intervals([])
var idx = intervals.indexOf(interval)
if(idx < 0) {
return NOT_FOUND
}
intervals.splice(idx, 1)
rebuild(node, intervals)
return SUCCESS
}
proto.intervals = function(result) {
result.push.apply(result, this.leftPoints)
if(this.left) {
this.left.intervals(result)
}
if(this.right) {
this.right.intervals(result)
}
return result
}
proto.insert = function(interval) {
var weight = this.count - this.leftPoints.length
this.count += 1
if(interval[1] < this.mid) {
if(this.left) {
if(4*(this.left.count+1) > 3*(weight+1)) {
rebuildWithInterval(this, interval)
} else {
this.left.insert(interval)
}
} else {
this.left = createIntervalTree([interval])
}
} else if(interval[0] > this.mid) {
if(this.right) {
if(4*(this.right.count+1) > 3*(weight+1)) {
rebuildWithInterval(this, interval)
} else {
this.right.insert(interval)
}
} else {
this.right = createIntervalTree([interval])
}
} else {
var l = bounds.ge(this.leftPoints, interval, compareBegin)
var r = bounds.ge(this.rightPoints, interval, compareEnd)
this.leftPoints.splice(l, 0, interval)
this.rightPoints.splice(r, 0, interval)
}
}
proto.remove = function(interval) {
var weight = this.count - this.leftPoints
if(interval[1] < this.mid) {
if(!this.left) {
return NOT_FOUND
}
var rw = this.right ? this.right.count : 0
if(4 * rw > 3 * (weight-1)) {
return rebuildWithoutInterval(this, interval)
}
var r = this.left.remove(interval)
if(r === EMPTY) {
this.left = null
this.count -= 1
return SUCCESS
} else if(r === SUCCESS) {
this.count -= 1
}
return r
} else if(interval[0] > this.mid) {
if(!this.right) {
return NOT_FOUND
}
var lw = this.left ? this.left.count : 0
if(4 * lw > 3 * (weight-1)) {
return rebuildWithoutInterval(this, interval)
}
var r = this.right.remove(interval)
if(r === EMPTY) {
this.right = null
this.count -= 1
return SUCCESS
} else if(r === SUCCESS) {
this.count -= 1
}
return r
} else {
if(this.count === 1) {
if(this.leftPoints[0] === interval) {
return EMPTY
} else {
return NOT_FOUND
}
}
if(this.leftPoints.length === 1 && this.leftPoints[0] === interval) {
if(this.left && this.right) {
var p = this
var n = this.left
while(n.right) {
p = n
n = n.right
}
if(p === this) {
n.right = this.right
} else {
var l = this.left
var r = this.right
p.count -= n.count
p.right = n.left
n.left = l
n.right = r
}
copy(this, n)
this.count = (this.left?this.left.count:0) + (this.right?this.right.count:0) + this.leftPoints.length
} else if(this.left) {
copy(this, this.left)
} else {
copy(this, this.right)
}
return SUCCESS
}
for(var l = bounds.ge(this.leftPoints, interval, compareBegin); l<this.leftPoints.length; ++l) {
if(this.leftPoints[l][0] !== interval[0]) {
break
}
if(this.leftPoints[l] === interval) {
this.count -= 1
this.leftPoints.splice(l, 1)
for(var r = bounds.ge(this.rightPoints, interval, compareEnd); r<this.rightPoints.length; ++r) {
if(this.rightPoints[r][1] !== interval[1]) {
break
} else if(this.rightPoints[r] === interval) {
this.rightPoints.splice(r, 1)
return SUCCESS
}
}
}
}
return NOT_FOUND
}
}
function reportLeftRange(arr, hi, cb) {
for(var i=0; i<arr.length && arr[i][0] <= hi; ++i) {
var r = cb(arr[i])
if(r) { return r }
}
}
function reportRightRange(arr, lo, cb) {
for(var i=arr.length-1; i>=0 && arr[i][1] >= lo; --i) {
var r = cb(arr[i])
if(r) { return r }
}
}
function reportRange(arr, cb) {
for(var i=0; i<arr.length; ++i) {
var r = cb(arr[i])
if(r) { return r }
}
}
proto.queryPoint = function(x, cb) {
if(x < this.mid) {
if(this.left) {
var r = this.left.queryPoint(x, cb)
if(r) { return r }
}
return reportLeftRange(this.leftPoints, x, cb)
} else if(x > this.mid) {
if(this.right) {
var r = this.right.queryPoint(x, cb)
if(r) { return r }
}
return reportRightRange(this.rightPoints, x, cb)
} else {
return reportRange(this.leftPoints, cb)
}
}
proto.queryInterval = function(lo, hi, cb) {
if(lo < this.mid && this.left) {
var r = this.left.queryInterval(lo, hi, cb)
if(r) { return r }
}
if(hi > this.mid && this.right) {
var r = this.right.queryInterval(lo, hi, cb)
if(r) { return r }
}
if(hi < this.mid) {
return reportLeftRange(this.leftPoints, hi, cb)
} else if(lo > this.mid) {
return reportRightRange(this.rightPoints, lo, cb)
} else {
return reportRange(this.leftPoints, cb)
}
}
function compareNumbers(a, b) {
return a - b
}
function compareBegin(a, b) {
var d = a[0] - b[0]
if(d) { return d }
return a[1] - b[1]
}
function compareEnd(a, b) {
var d = a[1] - b[1]
if(d) { return d }
return a[0] - b[0]
}
function createIntervalTree(intervals) {
if(intervals.length === 0) {
return null
}
var pts = []
for(var i=0; i<intervals.length; ++i) {
pts.push(intervals[i][0], intervals[i][1])
}
pts.sort(compareNumbers)
var mid = pts[pts.length>>1]
var leftIntervals = []
var rightIntervals = []
var centerIntervals = []
for(var i=0; i<intervals.length; ++i) {
var s = intervals[i]
if(s[1] < mid) {
leftIntervals.push(s)
} else if(mid < s[0]) {
rightIntervals.push(s)
} else {
centerIntervals.push(s)
}
}
//Split center intervals
var leftPoints = centerIntervals
var rightPoints = centerIntervals.slice()
leftPoints.sort(compareBegin)
rightPoints.sort(compareEnd)
return new IntervalTreeNode(mid,
createIntervalTree(leftIntervals),
createIntervalTree(rightIntervals),
leftPoints,
rightPoints)
}
//User friendly wrapper that makes it possible to support empty trees
function IntervalTree(root) {
this.root = root
}
var tproto = IntervalTree.prototype
tproto.insert = function(interval) {
if(this.root) {
this.root.insert(interval)
} else {
this.root = new IntervalTreeNode(interval[0], null, null, [interval], [interval])
}
}
tproto.remove = function(interval) {
if(this.root) {
var r = this.root.remove(interval)
if(r === EMPTY) {
this.root = null
}
return r !== NOT_FOUND
}
return false
}
tproto.queryPoint = function(p, cb) {
if(this.root) {
return this.root.queryPoint(p, cb)
}
}
tproto.queryInterval = function(lo, hi, cb) {
if(lo <= hi && this.root) {
return this.root.queryInterval(lo, hi, cb)
}
}
Object.defineProperty(tproto, "count", {
get: function() {
if(this.root) {
return this.root.count
}
return 0
}
})
Object.defineProperty(tproto, "intervals", {
get: function() {
if(this.root) {
return this.root.intervals([])
}
return []
}
})
function createWrapper(intervals) {
if(!intervals || intervals.length === 0) {
return new IntervalTree(null)
}
return new IntervalTree(createIntervalTree(intervals))
}
},{"binary-search-bounds":78}],396:[function(_dereq_,module,exports){
"use strict"
function invertPermutation(pi, result) {
result = result || new Array(pi.length)
for(var i=0; i<pi.length; ++i) {
result[pi[i]] = i
}
return result
}
module.exports = invertPermutation
},{}],397:[function(_dereq_,module,exports){
"use strict"
function iota(n) {
var result = new Array(n)
for(var i=0; i<n; ++i) {
result[i] = i
}
return result
}
module.exports = iota
},{}],398:[function(_dereq_,module,exports){
module.exports = true;
},{}],399:[function(_dereq_,module,exports){
/*!
* Determine if an object is a Buffer
*
* @author Feross Aboukhadijeh <https://feross.org>
* @license MIT
*/
// The _isBuffer check is for Safari 5-7 support, because it's missing
// Object.prototype.constructor. Remove this eventually
module.exports = function (obj) {
return obj != null && (isBuffer(obj) || isSlowBuffer(obj) || !!obj._isBuffer)
}
function isBuffer (obj) {
return !!obj.constructor && typeof obj.constructor.isBuffer === 'function' && obj.constructor.isBuffer(obj)
}
// For Node v0.10 support. Remove this eventually.
function isSlowBuffer (obj) {
return typeof obj.readFloatLE === 'function' && typeof obj.slice === 'function' && isBuffer(obj.slice(0, 0))
}
},{}],400:[function(_dereq_,module,exports){
'use strict';
module.exports = typeof navigator !== 'undefined' &&
(/MSIE/.test(navigator.userAgent) || /Trident\//.test(navigator.appVersion));
},{}],401:[function(_dereq_,module,exports){
module.exports = isMobile;
function isMobile (ua) {
if (!ua && typeof navigator != 'undefined') ua = navigator.userAgent;
if (ua && ua.headers && typeof ua.headers['user-agent'] == 'string') {
ua = ua.headers['user-agent'];
}
if (typeof ua != 'string') return false;
return /(android|bb\d+|meego).+mobile|avantgo|bada\/|blackberry|blazer|compal|elaine|fennec|hiptop|iemobile|ip(hone|od)|iris|kindle|lge |maemo|midp|mmp|mobile.+firefox|netfront|opera m(ob|in)i|palm( os)?|phone|p(ixi|re)\/|plucker|pocket|psp|series(4|6)0|symbian|treo|up\.(browser|link)|vodafone|wap|windows (ce|phone)|xda|xiino/i.test(ua) || /1207|6310|6590|3gso|4thp|50[1-6]i|770s|802s|a wa|abac|ac(er|oo|s\-)|ai(ko|rn)|al(av|ca|co)|amoi|an(ex|ny|yw)|aptu|ar(ch|go)|as(te|us)|attw|au(di|\-m|r |s )|avan|be(ck|ll|nq)|bi(lb|rd)|bl(ac|az)|br(e|v)w|bumb|bw\-(n|u)|c55\/|capi|ccwa|cdm\-|cell|chtm|cldc|cmd\-|co(mp|nd)|craw|da(it|ll|ng)|dbte|dc\-s|devi|dica|dmob|do(c|p)o|ds(12|\-d)|el(49|ai)|em(l2|ul)|er(ic|k0)|esl8|ez([4-7]0|os|wa|ze)|fetc|fly(\-|_)|g1 u|g560|gene|gf\-5|g\-mo|go(\.w|od)|gr(ad|un)|haie|hcit|hd\-(m|p|t)|hei\-|hi(pt|ta)|hp( i|ip)|hs\-c|ht(c(\-| |_|a|g|p|s|t)|tp)|hu(aw|tc)|i\-(20|go|ma)|i230|iac( |\-|\/)|ibro|idea|ig01|ikom|im1k|inno|ipaq|iris|ja(t|v)a|jbro|jemu|jigs|kddi|keji|kgt( |\/)|klon|kpt |kwc\-|kyo(c|k)|le(no|xi)|lg( g|\/(k|l|u)|50|54|\-[a-w])|libw|lynx|m1\-w|m3ga|m50\/|ma(te|ui|xo)|mc(01|21|ca)|m\-cr|me(rc|ri)|mi(o8|oa|ts)|mmef|mo(01|02|bi|de|do|t(\-| |o|v)|zz)|mt(50|p1|v )|mwbp|mywa|n10[0-2]|n20[2-3]|n30(0|2)|n50(0|2|5)|n7(0(0|1)|10)|ne((c|m)\-|on|tf|wf|wg|wt)|nok(6|i)|nzph|o2im|op(ti|wv)|oran|owg1|p800|pan(a|d|t)|pdxg|pg(13|\-([1-8]|c))|phil|pire|pl(ay|uc)|pn\-2|po(ck|rt|se)|prox|psio|pt\-g|qa\-a|qc(07|12|21|32|60|\-[2-7]|i\-)|qtek|r380|r600|raks|rim9|ro(ve|zo)|s55\/|sa(ge|ma|mm|ms|ny|va)|sc(01|h\-|oo|p\-)|sdk\/|se(c(\-|0|1)|47|mc|nd|ri)|sgh\-|shar|sie(\-|m)|sk\-0|sl(45|id)|sm(al|ar|b3|it|t5)|so(ft|ny)|sp(01|h\-|v\-|v )|sy(01|mb)|t2(18|50)|t6(00|10|18)|ta(gt|lk)|tcl\-|tdg\-|tel(i|m)|tim\-|t\-mo|to(pl|sh)|ts(70|m\-|m3|m5)|tx\-9|up(\.b|g1|si)|utst|v400|v750|veri|vi(rg|te)|vk(40|5[0-3]|\-v)|vm40|voda|vulc|vx(52|53|60|61|70|80|81|83|85|98)|w3c(\-| )|webc|whit|wi(g |nc|nw)|wmlb|wonu|x700|yas\-|your|zeto|zte\-/i.test(ua.substr(0,4));
}
},{}],402:[function(_dereq_,module,exports){
'use strict';
module.exports = function (x) {
var type = typeof x;
return x !== null && (type === 'object' || type === 'function');
};
},{}],403:[function(_dereq_,module,exports){
'use strict';
var toString = Object.prototype.toString;
module.exports = function (x) {
var prototype;
return toString.call(x) === '[object Object]' && (prototype = Object.getPrototypeOf(x), prototype === null || prototype === Object.getPrototypeOf({}));
};
},{}],404:[function(_dereq_,module,exports){
'use strict'
module.exports = function isPath(str) {
if (typeof str !== 'string') return false
str = str.trim()
// https://www.w3.org/TR/SVG/paths.html#PathDataBNF
if (/^[mzlhvcsqta]\s*[-+.0-9][^mlhvzcsqta]+/i.test(str) && /[\dz]$/i.test(str) && str.length > 4) return true
return false
}
},{}],405:[function(_dereq_,module,exports){
function lerp(v0, v1, t) {
return v0*(1-t)+v1*t
}
module.exports = lerp
},{}],406:[function(_dereq_,module,exports){
(function (global){
(function (global, factory) {
typeof exports === 'object' && typeof module !== 'undefined' ? module.exports = factory() :
typeof define === 'function' && define.amd ? define(factory) :
(global.mapboxgl = factory());
}(this, (function () { 'use strict';
/* eslint-disable */
var shared, worker, mapboxgl;
// define gets called three times: one for each chunk. we rely on the order
// they're imported to know which is which
function define(_, chunk) {
if (!shared) {
shared = chunk;
} else if (!worker) {
worker = chunk;
} else {
var workerBundleString = 'var sharedChunk = {}; (' + shared + ')(sharedChunk); (' + worker + ')(sharedChunk);'
var sharedChunk = {};
shared(sharedChunk);
mapboxgl = chunk(sharedChunk);
mapboxgl.workerUrl = window.URL.createObjectURL(new Blob([workerBundleString], { type: 'text/javascript' }));
}
}
define(["exports"],function(t){"use strict";var e="undefined"!=typeof window?window:"undefined"!=typeof global?global:"undefined"!=typeof self?self:{};function r(t){return t&&t.__esModule&&Object.prototype.hasOwnProperty.call(t,"default")?t.default:t}function n(t,e){return t(e={exports:{}},e.exports),e.exports}var i=o;function o(t,e,r,n){this.cx=3*t,this.bx=3*(r-t)-this.cx,this.ax=1-this.cx-this.bx,this.cy=3*e,this.by=3*(n-e)-this.cy,this.ay=1-this.cy-this.by,this.p1x=t,this.p1y=n,this.p2x=r,this.p2y=n;}o.prototype.sampleCurveX=function(t){return((this.ax*t+this.bx)*t+this.cx)*t},o.prototype.sampleCurveY=function(t){return((this.ay*t+this.by)*t+this.cy)*t},o.prototype.sampleCurveDerivativeX=function(t){return(3*this.ax*t+2*this.bx)*t+this.cx},o.prototype.solveCurveX=function(t,e){var r,n,i,o,a;for(void 0===e&&(e=1e-6),i=t,a=0;a<8;a++){if(o=this.sampleCurveX(i)-t,Math.abs(o)<e)return i;var s=this.sampleCurveDerivativeX(i);if(Math.abs(s)<1e-6)break;i-=o/s;}if((i=t)<(r=0))return 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Ar,kr=!1,zr=null,Sr=!1,Mr=new I,Vr={applyArabicShaping:null,processBidirectionalText:null,isLoaded:function(){return Sr||null!=Vr.applyArabicShaping}},Br=function(t,e){this.zoom=t,e?(this.now=e.now,this.fadeDuration=e.fadeDuration,this.zoomHistory=e.zoomHistory,this.transition=e.transition):(this.now=0,this.fadeDuration=0,this.zoomHistory=new vr,this.transition={});};Br.prototype.isSupportedScript=function(t){return function(t,e){for(var r=0,n=t;r<n.length;r+=1)if(!_r(n[r].charCodeAt(0),e))return!1;return!0}(t,Vr.isLoaded())},Br.prototype.crossFadingFactor=function(){return 0===this.fadeDuration?1:Math.min((this.now-this.zoomHistory.lastIntegerZoomTime)/this.fadeDuration,1)};var Cr=function(t,e){this.property=t,this.value=e,this.expression=Se(void 0===e?t.specification.default:e,t.specification);};Cr.prototype.isDataDriven=function(){return"source"===this.expression.kind||"composite"===this.expression.kind},Cr.prototype.possiblyEvaluate=function(t){return this.property.possiblyEvaluate(this,t)};var Ir=function(t){this.property=t,this.value=new Cr(t,void 0);};Ir.prototype.transitioned=function(t,e){return new Fr(this.property,this.value,e,h({},t.transition,this.transition),t.now)},Ir.prototype.untransitioned=function(){return new Fr(this.property,this.value,null,{},0)};var Er=function(t){this._properties=t,this._values=Object.create(t.defaultTransitionablePropertyValues);};Er.prototype.getValue=function(t){return g(this._values[t].value.value)},Er.prototype.setValue=function(t,e){this._values.hasOwnProperty(t)||(this._values[t]=new Ir(this._values[t].property)),this._values[t].value=new Cr(this._values[t].property,null===e?void 0:g(e));},Er.prototype.getTransition=function(t){return g(this._values[t].transition)},Er.prototype.setTransition=function(t,e){this._values.hasOwnProperty(t)||(this._values[t]=new Ir(this._values[t].property)),this._values[t].transition=g(e)||void 0;},Er.prototype.serialize=function(){for(var t={},e=0,r=Object.keys(this._values);e<r.length;e+=1){var n=r[e],i=this.getValue(n);void 0!==i&&(t[n]=i);var o=this.getTransition(n);void 0!==o&&(t[n+"-transition"]=o);}return t},Er.prototype.transitioned=function(t,e){for(var r=new Pr(this._properties),n=0,i=Object.keys(this._values);n<i.length;n+=1){var o=i[n];r._values[o]=this._values[o].transitioned(t,e._values[o]);}return r},Er.prototype.untransitioned=function(){for(var t=new Pr(this._properties),e=0,r=Object.keys(this._values);e<r.length;e+=1){var n=r[e];t._values[n]=this._values[n].untransitioned();}return t};var Fr=function(t,e,r,n,i){this.property=t,this.value=e,this.begin=i+n.delay||0,this.end=this.begin+n.duration||0,t.specification.transition&&(n.delay||n.duration)&&(this.prior=r);};Fr.prototype.possiblyEvaluate=function(t){var e=t.now||0,r=this.value.possiblyEvaluate(t),n=this.prior;if(n){if(e>this.end)return this.prior=null,r;if(this.value.isDataDriven())return this.prior=null,r;if(e<this.begin)return n.possiblyEvaluate(t);var i=(e-this.begin)/(this.end-this.begin);return this.property.interpolate(n.possiblyEvaluate(t),r,function(t){if(t<=0)return 0;if(t>=1)return 1;var e=t*t,r=e*t;return 4*(t<.5?r:3*(t-e)+r-.75)}(i))}return r};var Pr=function(t){this._properties=t,this._values=Object.create(t.defaultTransitioningPropertyValues);};Pr.prototype.possiblyEvaluate=function(t){for(var e=new Lr(this._properties),r=0,n=Object.keys(this._values);r<n.length;r+=1){var i=n[r];e._values[i]=this._values[i].possiblyEvaluate(t);}return e},Pr.prototype.hasTransition=function(){for(var t=0,e=Object.keys(this._values);t<e.length;t+=1){var r=e[t];if(this._values[r].prior)return!0}return!1};var Tr=function(t){this._properties=t,this._values=Object.create(t.defaultPropertyValues);};Tr.prototype.getValue=function(t){return g(this._values[t].value)},Tr.prototype.setValue=function(t,e){this._values[t]=new Cr(this._values[t].property,null===e?void 0:g(e));},Tr.prototype.serialize=function(){for(var t={},e=0,r=Object.keys(this._values);e<r.length;e+=1){var n=r[e],i=this.getValue(n);void 0!==i&&(t[n]=i);}return t},Tr.prototype.possiblyEvaluate=function(t){for(var e=new Lr(this._properties),r=0,n=Object.keys(this._values);r<n.length;r+=1){var i=n[r];e._values[i]=this._values[i].possiblyEvaluate(t);}return e};var Or=function(t,e,r){this.property=t,this.value=e,this.globals=r;};Or.prototype.isConstant=function(){return"constant"===this.value.kind},Or.prototype.constantOr=function(t){return"constant"===this.value.kind?this.value.value:t},Or.prototype.evaluate=function(t){return this.property.evaluate(this.value,this.globals,t)};var Lr=function(t){this._properties=t,this._values=Object.create(t.defaultPossiblyEvaluatedValues);};Lr.prototype.get=function(t){return this._values[t]};var jr=function(t){this.specification=t;};jr.prototype.possiblyEvaluate=function(t,e){return t.expression.evaluate(e)},jr.prototype.interpolate=function(t,e,r){var n=_t[this.specification.type];return n?n(t,e,r):t};var qr=function(t){this.specification=t;};qr.prototype.possiblyEvaluate=function(t,e){return"constant"===t.expression.kind||"camera"===t.expression.kind?new Or(this,{kind:"constant",value:t.expression.evaluate(e)},e):new Or(this,t.expression,e)},qr.prototype.interpolate=function(t,e,r){if("constant"!==t.value.kind||"constant"!==e.value.kind)return t;if(void 0===t.value.value||void 0===e.value.value)return new Or(this,{kind:"constant",value:void 0},t.globals);var n=_t[this.specification.type];return n?new Or(this,{kind:"constant",value:n(t.value.value,e.value.value,r)},t.globals):t},qr.prototype.evaluate=function(t,e,r){return"constant"===t.kind?t.value:t.evaluate(e,r)};var Rr=function(t){this.specification=t;};Rr.prototype.possiblyEvaluate=function(t,e){if(void 0!==t.value){if("constant"===t.expression.kind){var r=t.expression.evaluate(e);return this._calculate(r,r,r,e)}return this._calculate(t.expression.evaluate(new Br(Math.floor(e.zoom-1),e)),t.expression.evaluate(new Br(Math.floor(e.zoom),e)),t.expression.evaluate(new Br(Math.floor(e.zoom+1),e)),e)}},Rr.prototype._calculate=function(t,e,r,n){var i=n.zoom,o=i-Math.floor(i),a=n.crossFadingFactor();return i>n.zoomHistory.lastIntegerZoom?{from:t,to:e,fromScale:2,toScale:1,t:o+(1-o)*a}:{from:r,to:e,fromScale:.5,toScale:1,t:1-(1-a)*o}},Rr.prototype.interpolate=function(t){return t};var Ur=function(t){this.specification=t;};Ur.prototype.possiblyEvaluate=function(t,e){return!!t.expression.evaluate(e)},Ur.prototype.interpolate=function(){return!1};var Dr=function(t){for(var e in this.properties=t,this.defaultPropertyValues={},this.defaultTransitionablePropertyValues={},this.defaultTransitioningPropertyValues={},this.defaultPossiblyEvaluatedValues={},t){var r=t[e],n=this.defaultPropertyValues[e]=new Cr(r,void 0),i=this.defaultTransitionablePropertyValues[e]=new Ir(r);this.defaultTransitioningPropertyValues[e]=i.untransitioned(),this.defaultPossiblyEvaluatedValues[e]=n.possiblyEvaluate({});}};hr("DataDrivenProperty",qr),hr("DataConstantProperty",jr),hr("CrossFadedProperty",Rr),hr("ColorRampProperty",Ur);var Nr=function(t){function e(e,r){for(var n in t.call(this),this.id=e.id,this.metadata=e.metadata,this.type=e.type,this.minzoom=e.minzoom,this.maxzoom=e.maxzoom,this.visibility="visible","background"!==e.type&&(this.source=e.source,this.sourceLayer=e["source-layer"],this.filter=e.filter),this._featureFilter=function(){return!0},r.layout&&(this._unevaluatedLayout=new Tr(r.layout)),this._transitionablePaint=new Er(r.paint),e.paint)this.setPaintProperty(n,e.paint[n],{validate:!1});for(var i in e.layout)this.setLayoutProperty(i,e.layout[i],{validate:!1});this._transitioningPaint=this._transitionablePaint.untransitioned();}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype.getLayoutProperty=function(t){return"visibility"===t?this.visibility:this._unevaluatedLayout.getValue(t)},e.prototype.setLayoutProperty=function(t,e,r){if(null!=e){var n="layers."+this.id+".layout."+t;if(this._validate(or,n,t,e,r))return}"visibility"!==t?this._unevaluatedLayout.setValue(t,e):this.visibility="none"===e?e:"visible";},e.prototype.getPaintProperty=function(t){return d(t,"-transition")?this._transitionablePaint.getTransition(t.slice(0,-"-transition".length)):this._transitionablePaint.getValue(t)},e.prototype.setPaintProperty=function(t,e,r){if(null!=e){var n="layers."+this.id+".paint."+t;if(this._validate(ir,n,t,e,r))return}d(t,"-transition")?this._transitionablePaint.setTransition(t.slice(0,-"-transition".length),e||void 0):this._transitionablePaint.setValue(t,e);},e.prototype.isHidden=function(t){return!!(this.minzoom&&t<this.minzoom)||(!!(this.maxzoom&&t>=this.maxzoom)||"none"===this.visibility)},e.prototype.updateTransitions=function(t){this._transitioningPaint=this._transitionablePaint.transitioned(t,this._transitioningPaint);},e.prototype.hasTransition=function(){return this._transitioningPaint.hasTransition()},e.prototype.recalculate=function(t){this._unevaluatedLayout&&(this.layout=this._unevaluatedLayout.possiblyEvaluate(t)),this.paint=this._transitioningPaint.possiblyEvaluate(t);},e.prototype.serialize=function(){var t={id:this.id,type:this.type,source:this.source,"source-layer":this.sourceLayer,metadata:this.metadata,minzoom:this.minzoom,maxzoom:this.maxzoom,filter:this.filter,layout:this._unevaluatedLayout&&this._unevaluatedLayout.serialize(),paint:this._transitionablePaint&&this._transitionablePaint.serialize()};return"none"===this.visibility&&(t.layout=t.layout||{},t.layout.visibility="none"),m(t,function(t,e){return!(void 0===t||"layout"===e&&!Object.keys(t).length||"paint"===e&&!Object.keys(t).length)})},e.prototype._validate=function(t,e,r,n,i){return(!i||!1!==i.validate)&&ar(this,t.call(rr,{key:e,layerType:this.type,objectKey:r,value:n,styleSpec:E,style:{glyphs:!0,sprite:!0}}))},e.prototype.hasOffscreenPass=function(){return!1},e.prototype.resize=function(){},e}(I),Zr={Int8:Int8Array,Uint8:Uint8Array,Int16:Int16Array,Uint16:Uint16Array,Int32:Int32Array,Uint32:Uint32Array,Float32:Float32Array},Kr=function(t,e){this._structArray=t,this._pos1=e*this.size,this._pos2=this._pos1/2,this._pos4=this._pos1/4,this._pos8=this._pos1/8;},Jr=function(){this.isTransferred=!1,this.capacity=-1,this.resize(0);};function $r(t,e){void 0===e&&(e=1);var r=0,n=0;return{members:t.map(function(t){var i,o=(i=t.type,Zr[i].BYTES_PER_ELEMENT),a=r=Hr(r,Math.max(e,o)),s=t.components||1;return n=Math.max(n,o),r+=o*s,{name:t.name,type:t.type,components:s,offset:a}}),size:Hr(r,Math.max(n,e)),alignment:e}}function Hr(t,e){return Math.ceil(t/e)*e}Jr.serialize=function(t,e){return t._trim(),e&&(t.isTransferred=!0,e.push(t.arrayBuffer)),{length:t.length,arrayBuffer:t.arrayBuffer}},Jr.deserialize=function(t){var e=Object.create(this.prototype);return e.arrayBuffer=t.arrayBuffer,e.length=t.length,e.capacity=t.arrayBuffer.byteLength/e.bytesPerElement,e._refreshViews(),e},Jr.prototype._trim=function(){this.length!==this.capacity&&(this.capacity=this.length,this.arrayBuffer=this.arrayBuffer.slice(0,this.length*this.bytesPerElement),this._refreshViews());},Jr.prototype.clear=function(){this.length=0;},Jr.prototype.resize=function(t){this.reserve(t),this.length=t;},Jr.prototype.reserve=function(t){if(t>this.capacity){this.capacity=Math.max(t,Math.floor(5*this.capacity),128),this.arrayBuffer=new ArrayBuffer(this.capacity*this.bytesPerElement);var e=this.uint8;this._refreshViews(),e&&this.uint8.set(e);}},Jr.prototype._refreshViews=function(){throw new Error("_refreshViews() must be implemented by each concrete StructArray 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this.int16[o+0]=t,this.int16[o+1]=e,this.int16[o+2]=r,this.int16[o+3]=n,i},e}(Jr);Gr.prototype.bytesPerElement=8,hr("StructArrayLayout4i8",Gr);var Yr=function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype._refreshViews=function(){this.uint8=new Uint8Array(this.arrayBuffer),this.int16=new Int16Array(this.arrayBuffer);},e.prototype.emplaceBack=function(t,e,r,n,i,o){var a=this.length;this.resize(a+1);var s=6*a;return this.int16[s+0]=t,this.int16[s+1]=e,this.int16[s+2]=r,this.int16[s+3]=n,this.int16[s+4]=i,this.int16[s+5]=o,a},e}(Jr);Yr.prototype.bytesPerElement=12,hr("StructArrayLayout2i4i12",Yr);var Wr=function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype._refreshViews=function(){this.uint8=new Uint8Array(this.arrayBuffer),this.int16=new Int16Array(this.arrayBuffer);},e.prototype.emplaceBack=function(t,e,r,n,i,o,a,s){var u=this.length;this.resize(u+1);var l=6*u,p=12*u;return this.int16[l+0]=t,this.int16[l+1]=e,this.int16[l+2]=r,this.int16[l+3]=n,this.uint8[p+8]=i,this.uint8[p+9]=o,this.uint8[p+10]=a,this.uint8[p+11]=s,u},e}(Jr);Wr.prototype.bytesPerElement=12,hr("StructArrayLayout4i4ub12",Wr);var Qr=function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype._refreshViews=function(){this.uint8=new Uint8Array(this.arrayBuffer),this.int16=new Int16Array(this.arrayBuffer),this.uint16=new Uint16Array(this.arrayBuffer);},e.prototype.emplaceBack=function(t,e,r,n,i,o,a,s){var u=this.length;this.resize(u+1);var l=8*u;return this.int16[l+0]=t,this.int16[l+1]=e,this.int16[l+2]=r,this.int16[l+3]=n,this.uint16[l+4]=i,this.uint16[l+5]=o,this.uint16[l+6]=a,this.uint16[l+7]=s,u},e}(Jr);Qr.prototype.bytesPerElement=16,hr("StructArrayLayout4i4ui16",Qr);var tn=function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype._refreshViews=function(){this.uint8=new Uint8Array(this.arrayBuffer),this.float32=new Float32Array(this.arrayBuffer);},e.prototype.emplaceBack=function(t,e,r){var n=this.length;this.resize(n+1);var i=3*n;return this.float32[i+0]=t,this.float32[i+1]=e,this.float32[i+2]=r,n},e}(Jr);tn.prototype.bytesPerElement=12,hr("StructArrayLayout3f12",tn);var en=function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype._refreshViews=function(){this.uint8=new Uint8Array(this.arrayBuffer),this.uint32=new Uint32Array(this.arrayBuffer);},e.prototype.emplaceBack=function(t){var e=this.length;this.resize(e+1);var r=1*e;return this.uint32[r+0]=t,e},e}(Jr);en.prototype.bytesPerElement=4,hr("StructArrayLayout1ul4",en);var rn=function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype._refreshViews=function(){this.uint8=new Uint8Array(this.arrayBuffer),this.int16=new Int16Array(this.arrayBuffer),this.uint32=new Uint32Array(this.arrayBuffer),this.uint16=new Uint16Array(this.arrayBuffer);},e.prototype.emplaceBack=function(t,e,r,n,i,o,a,s,u,l,p){var c=this.length;this.resize(c+1);var h=12*c,f=6*c;return this.int16[h+0]=t,this.int16[h+1]=e,this.int16[h+2]=r,this.int16[h+3]=n,this.int16[h+4]=i,this.int16[h+5]=o,this.uint32[f+3]=a,this.uint16[h+8]=s,this.uint16[h+9]=u,this.int16[h+10]=l,this.int16[h+11]=p,c},e}(Jr);rn.prototype.bytesPerElement=24,hr("StructArrayLayout6i1ul2ui2i24",rn);var nn=function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype._refreshViews=function(){this.uint8=new Uint8Array(this.arrayBuffer),this.int16=new Int16Array(this.arrayBuffer);},e.prototype.emplaceBack=function(t,e,r,n,i,o){var a=this.length;this.resize(a+1);var s=6*a;return this.int16[s+0]=t,this.int16[s+1]=e,this.int16[s+2]=r,this.int16[s+3]=n,this.int16[s+4]=i,this.int16[s+5]=o,a},e}(Jr);nn.prototype.bytesPerElement=12,hr("StructArrayLayout2i2i2i12",nn);var on=function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype._refreshViews=function(){this.uint8=new Uint8Array(this.arrayBuffer);},e.prototype.emplaceBack=function(t,e){var r=this.length;this.resize(r+1);var n=4*r;return this.uint8[n+0]=t,this.uint8[n+1]=e,r},e}(Jr);on.prototype.bytesPerElement=4,hr("StructArrayLayout2ub4",on);var an=function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype._refreshViews=function(){this.uint8=new Uint8Array(this.arrayBuffer),this.int16=new Int16Array(this.arrayBuffer),this.uint16=new Uint16Array(this.arrayBuffer),this.uint32=new Uint32Array(this.arrayBuffer),this.float32=new Float32Array(this.arrayBuffer);},e.prototype.emplaceBack=function(t,e,r,n,i,o,a,s,u,l,p,c,h,f){var y=this.length;this.resize(y+1);var d=20*y,v=10*y,m=40*y;return this.int16[d+0]=t,this.int16[d+1]=e,this.uint16[d+2]=r,this.uint16[d+3]=n,this.uint32[v+2]=i,this.uint32[v+3]=o,this.uint32[v+4]=a,this.uint16[d+10]=s,this.uint16[d+11]=u,this.uint16[d+12]=l,this.float32[v+7]=p,this.float32[v+8]=c,this.uint8[m+36]=h,this.uint8[m+37]=f,y},e}(Jr);an.prototype.bytesPerElement=40,hr("StructArrayLayout2i2ui3ul3ui2f2ub40",an);var sn=function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype._refreshViews=function(){this.uint8=new Uint8Array(this.arrayBuffer),this.float32=new Float32Array(this.arrayBuffer);},e.prototype.emplaceBack=function(t){var e=this.length;this.resize(e+1);var r=1*e;return this.float32[r+0]=t,e},e}(Jr);sn.prototype.bytesPerElement=4,hr("StructArrayLayout1f4",sn);var un=function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype._refreshViews=function(){this.uint8=new Uint8Array(this.arrayBuffer),this.int16=new Int16Array(this.arrayBuffer);},e.prototype.emplaceBack=function(t,e,r){var n=this.length;this.resize(n+1);var i=3*n;return this.int16[i+0]=t,this.int16[i+1]=e,this.int16[i+2]=r,n},e}(Jr);un.prototype.bytesPerElement=6,hr("StructArrayLayout3i6",un);var ln=function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype._refreshViews=function(){this.uint8=new Uint8Array(this.arrayBuffer),this.uint32=new Uint32Array(this.arrayBuffer),this.uint16=new Uint16Array(this.arrayBuffer);},e.prototype.emplaceBack=function(t,e,r){var n=this.length;this.resize(n+1);var i=2*n,o=4*n;return this.uint32[i+0]=t,this.uint16[o+2]=e,this.uint16[o+3]=r,n},e}(Jr);ln.prototype.bytesPerElement=8,hr("StructArrayLayout1ul2ui8",ln);var pn=function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype._refreshViews=function(){this.uint8=new Uint8Array(this.arrayBuffer),this.uint16=new Uint16Array(this.arrayBuffer);},e.prototype.emplaceBack=function(t,e,r){var n=this.length;this.resize(n+1);var i=3*n;return this.uint16[i+0]=t,this.uint16[i+1]=e,this.uint16[i+2]=r,n},e}(Jr);pn.prototype.bytesPerElement=6,hr("StructArrayLayout3ui6",pn);var cn=function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype._refreshViews=function(){this.uint8=new Uint8Array(this.arrayBuffer),this.uint16=new Uint16Array(this.arrayBuffer);},e.prototype.emplaceBack=function(t,e){var r=this.length;this.resize(r+1);var n=2*r;return this.uint16[n+0]=t,this.uint16[n+1]=e,r},e}(Jr);cn.prototype.bytesPerElement=4,hr("StructArrayLayout2ui4",cn);var hn=function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype._refreshViews=function(){this.uint8=new Uint8Array(this.arrayBuffer),this.float32=new Float32Array(this.arrayBuffer);},e.prototype.emplaceBack=function(t,e){var r=this.length;this.resize(r+1);var n=2*r;return this.float32[n+0]=t,this.float32[n+1]=e,r},e}(Jr);hn.prototype.bytesPerElement=8,hr("StructArrayLayout2f8",hn);var fn=function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype._refreshViews=function(){this.uint8=new Uint8Array(this.arrayBuffer),this.float32=new Float32Array(this.arrayBuffer);},e.prototype.emplaceBack=function(t,e,r,n){var i=this.length;this.resize(i+1);var o=4*i;return this.float32[o+0]=t,this.float32[o+1]=e,this.float32[o+2]=r,this.float32[o+3]=n,i},e}(Jr);fn.prototype.bytesPerElement=16,hr("StructArrayLayout4f16",fn);var yn=function(t){function e(){t.apply(this,arguments);}t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e;var r={anchorPointX:{configurable:!0},anchorPointY:{configurable:!0},x1:{configurable:!0},y1:{configurable:!0},x2:{configurable:!0},y2:{configurable:!0},featureIndex:{configurable:!0},sourceLayerIndex:{configurable:!0},bucketIndex:{configurable:!0},radius:{configurable:!0},signedDistanceFromAnchor:{configurable:!0},anchorPoint:{configurable:!0}};return r.anchorPointX.get=function(){return this._structArray.int16[this._pos2+0]},r.anchorPointX.set=function(t){this._structArray.int16[this._pos2+0]=t;},r.anchorPointY.get=function(){return this._structArray.int16[this._pos2+1]},r.anchorPointY.set=function(t){this._structArray.int16[this._pos2+1]=t;},r.x1.get=function(){return this._structArray.int16[this._pos2+2]},r.x1.set=function(t){this._structArray.int16[this._pos2+2]=t;},r.y1.get=function(){return this._structArray.int16[this._pos2+3]},r.y1.set=function(t){this._structArray.int16[this._pos2+3]=t;},r.x2.get=function(){return this._structArray.int16[this._pos2+4]},r.x2.set=function(t){this._structArray.int16[this._pos2+4]=t;},r.y2.get=function(){return this._structArray.int16[this._pos2+5]},r.y2.set=function(t){this._structArray.int16[this._pos2+5]=t;},r.featureIndex.get=function(){return this._structArray.uint32[this._pos4+3]},r.featureIndex.set=function(t){this._structArray.uint32[this._pos4+3]=t;},r.sourceLayerIndex.get=function(){return this._structArray.uint16[this._pos2+8]},r.sourceLayerIndex.set=function(t){this._structArray.uint16[this._pos2+8]=t;},r.bucketIndex.get=function(){return this._structArray.uint16[this._pos2+9]},r.bucketIndex.set=function(t){this._structArray.uint16[this._pos2+9]=t;},r.radius.get=function(){return this._structArray.int16[this._pos2+10]},r.radius.set=function(t){this._structArray.int16[this._pos2+10]=t;},r.signedDistanceFromAnchor.get=function(){return this._structArray.int16[this._pos2+11]},r.signedDistanceFromAnchor.set=function(t){this._structArray.int16[this._pos2+11]=t;},r.anchorPoint.get=function(){return new s(this.anchorPointX,this.anchorPointY)},Object.defineProperties(e.prototype,r),e}(Kr);yn.prototype.size=24;var dn=function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype.get=function(t){return new yn(this,t)},e}(rn);hr("CollisionBoxArray",dn);var vn=function(t){function e(){t.apply(this,arguments);}t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e;var r={anchorX:{configurable:!0},anchorY:{configurable:!0},glyphStartIndex:{configurable:!0},numGlyphs:{configurable:!0},vertexStartIndex:{configurable:!0},lineStartIndex:{configurable:!0},lineLength:{configurable:!0},segment:{configurable:!0},lowerSize:{configurable:!0},upperSize:{configurable:!0},lineOffsetX:{configurable:!0},lineOffsetY:{configurable:!0},writingMode:{configurable:!0},hidden:{configurable:!0}};return r.anchorX.get=function(){return this._structArray.int16[this._pos2+0]},r.anchorX.set=function(t){this._structArray.int16[this._pos2+0]=t;},r.anchorY.get=function(){return this._structArray.int16[this._pos2+1]},r.anchorY.set=function(t){this._structArray.int16[this._pos2+1]=t;},r.glyphStartIndex.get=function(){return this._structArray.uint16[this._pos2+2]},r.glyphStartIndex.set=function(t){this._structArray.uint16[this._pos2+2]=t;},r.numGlyphs.get=function(){return this._structArray.uint16[this._pos2+3]},r.numGlyphs.set=function(t){this._structArray.uint16[this._pos2+3]=t;},r.vertexStartIndex.get=function(){return this._structArray.uint32[this._pos4+2]},r.vertexStartIndex.set=function(t){this._structArray.uint32[this._pos4+2]=t;},r.lineStartIndex.get=function(){return this._structArray.uint32[this._pos4+3]},r.lineStartIndex.set=function(t){this._structArray.uint32[this._pos4+3]=t;},r.lineLength.get=function(){return this._structArray.uint32[this._pos4+4]},r.lineLength.set=function(t){this._structArray.uint32[this._pos4+4]=t;},r.segment.get=function(){return this._structArray.uint16[this._pos2+10]},r.segment.set=function(t){this._structArray.uint16[this._pos2+10]=t;},r.lowerSize.get=function(){return this._structArray.uint16[this._pos2+11]},r.lowerSize.set=function(t){this._structArray.uint16[this._pos2+11]=t;},r.upperSize.get=function(){return this._structArray.uint16[this._pos2+12]},r.upperSize.set=function(t){this._structArray.uint16[this._pos2+12]=t;},r.lineOffsetX.get=function(){return this._structArray.float32[this._pos4+7]},r.lineOffsetX.set=function(t){this._structArray.float32[this._pos4+7]=t;},r.lineOffsetY.get=function(){return this._structArray.float32[this._pos4+8]},r.lineOffsetY.set=function(t){this._structArray.float32[this._pos4+8]=t;},r.writingMode.get=function(){return this._structArray.uint8[this._pos1+36]},r.writingMode.set=function(t){this._structArray.uint8[this._pos1+36]=t;},r.hidden.get=function(){return this._structArray.uint8[this._pos1+37]},r.hidden.set=function(t){this._structArray.uint8[this._pos1+37]=t;},Object.defineProperties(e.prototype,r),e}(Kr);vn.prototype.size=40;var mn=function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype.get=function(t){return new vn(this,t)},e}(an);hr("PlacedSymbolArray",mn);var gn=function(t){function e(){t.apply(this,arguments);}t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e;var r={offsetX:{configurable:!0}};return r.offsetX.get=function(){return this._structArray.float32[this._pos4+0]},r.offsetX.set=function(t){this._structArray.float32[this._pos4+0]=t;},Object.defineProperties(e.prototype,r),e}(Kr);gn.prototype.size=4;var xn=function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype.getoffsetX=function(t){return this.float32[1*t+0]},e.prototype.get=function(t){return new gn(this,t)},e}(sn);hr("GlyphOffsetArray",xn);var bn=function(t){function e(){t.apply(this,arguments);}t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e;var r={x:{configurable:!0},y:{configurable:!0},tileUnitDistanceFromAnchor:{configurable:!0}};return r.x.get=function(){return this._structArray.int16[this._pos2+0]},r.x.set=function(t){this._structArray.int16[this._pos2+0]=t;},r.y.get=function(){return this._structArray.int16[this._pos2+1]},r.y.set=function(t){this._structArray.int16[this._pos2+1]=t;},r.tileUnitDistanceFromAnchor.get=function(){return this._structArray.int16[this._pos2+2]},r.tileUnitDistanceFromAnchor.set=function(t){this._structArray.int16[this._pos2+2]=t;},Object.defineProperties(e.prototype,r),e}(Kr);bn.prototype.size=6;var wn=function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype.getx=function(t){return this.int16[3*t+0]},e.prototype.gety=function(t){return this.int16[3*t+1]},e.prototype.gettileUnitDistanceFromAnchor=function(t){return this.int16[3*t+2]},e.prototype.get=function(t){return new bn(this,t)},e}(un);hr("SymbolLineVertexArray",wn);var _n=function(t){function e(){t.apply(this,arguments);}t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e;var r={featureIndex:{configurable:!0},sourceLayerIndex:{configurable:!0},bucketIndex:{configurable:!0}};return r.featureIndex.get=function(){return this._structArray.uint32[this._pos4+0]},r.featureIndex.set=function(t){this._structArray.uint32[this._pos4+0]=t;},r.sourceLayerIndex.get=function(){return this._structArray.uint16[this._pos2+2]},r.sourceLayerIndex.set=function(t){this._structArray.uint16[this._pos2+2]=t;},r.bucketIndex.get=function(){return this._structArray.uint16[this._pos2+3]},r.bucketIndex.set=function(t){this._structArray.uint16[this._pos2+3]=t;},Object.defineProperties(e.prototype,r),e}(Kr);_n.prototype.size=8;var An=function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype.get=function(t){return new _n(this,t)},e}(ln);hr("FeatureIndexArray",An);var kn=$r([{name:"a_pos",components:2,type:"Int16"}],4).members,zn=function(t){void 0===t&&(t=[]),this.segments=t;};zn.prototype.prepareSegment=function(t,e,r){var n=this.segments[this.segments.length-1];return t>zn.MAX_VERTEX_ARRAY_LENGTH&&b("Max vertices per segment is "+zn.MAX_VERTEX_ARRAY_LENGTH+": bucket requested "+t),(!n||n.vertexLength+t>zn.MAX_VERTEX_ARRAY_LENGTH)&&(n={vertexOffset:e.length,primitiveOffset:r.length,vertexLength:0,primitiveLength:0},this.segments.push(n)),n},zn.prototype.get=function(){return this.segments},zn.prototype.destroy=function(){for(var t=0,e=this.segments;t<e.length;t+=1){var r=e[t];for(var n in r.vaos)r.vaos[n].destroy();}},zn.MAX_VERTEX_ARRAY_LENGTH=Math.pow(2,16)-1,hr("SegmentVector",zn);var Sn=function(t,e){return 256*(t=c(Math.floor(t),0,255))+(e=c(Math.floor(e),0,255))};function Mn(t){return[Sn(255*t.r,255*t.g),Sn(255*t.b,255*t.a)]}var Vn=function(t,e,r){this.value=t,this.name=e,this.type=r,this.statistics={max:-1/0};};Vn.prototype.defines=function(){return["#define HAS_UNIFORM_u_"+this.name]},Vn.prototype.populatePaintArray=function(){},Vn.prototype.upload=function(){},Vn.prototype.destroy=function(){},Vn.prototype.setUniforms=function(t,e,r,n){var i=n.constantOr(this.value),o=t.gl;"color"===this.type?o.uniform4f(e.uniforms["u_"+this.name],i.r,i.g,i.b,i.a):o.uniform1f(e.uniforms["u_"+this.name],i);};var Bn=function(t,e,r){this.expression=t,this.name=e,this.type=r,this.statistics={max:-1/0};var n="color"===r?hn:sn;this.paintVertexAttributes=[{name:"a_"+e,type:"Float32",components:"color"===r?2:1,offset:0}],this.paintVertexArray=new n;};Bn.prototype.defines=function(){return[]},Bn.prototype.populatePaintArray=function(t,e){var r=this.paintVertexArray,n=r.length;r.reserve(t);var i=this.expression.evaluate(new Br(0),e);if("color"===this.type)for(var o=Mn(i),a=n;a<t;a++)r.emplaceBack(o[0],o[1]);else{for(var s=n;s<t;s++)r.emplaceBack(i);this.statistics.max=Math.max(this.statistics.max,i);}},Bn.prototype.upload=function(t){this.paintVertexArray&&(this.paintVertexBuffer=t.createVertexBuffer(this.paintVertexArray,this.paintVertexAttributes));},Bn.prototype.destroy=function(){this.paintVertexBuffer&&this.paintVertexBuffer.destroy();},Bn.prototype.setUniforms=function(t,e){t.gl.uniform1f(e.uniforms["a_"+this.name+"_t"],0);};var Cn=function(t,e,r,n,i){this.expression=t,this.name=e,this.type=r,this.useIntegerZoom=n,this.zoom=i,this.statistics={max:-1/0};var o="color"===r?fn:hn;this.paintVertexAttributes=[{name:"a_"+e,type:"Float32",components:"color"===r?4:2,offset:0}],this.paintVertexArray=new o;};Cn.prototype.defines=function(){return[]},Cn.prototype.populatePaintArray=function(t,e){var r=this.paintVertexArray,n=r.length;r.reserve(t);var i=this.expression.evaluate(new Br(this.zoom),e),o=this.expression.evaluate(new Br(this.zoom+1),e);if("color"===this.type)for(var a=Mn(i),s=Mn(o),u=n;u<t;u++)r.emplaceBack(a[0],a[1],s[0],s[1]);else{for(var l=n;l<t;l++)r.emplaceBack(i,o);this.statistics.max=Math.max(this.statistics.max,i,o);}},Cn.prototype.upload=function(t){this.paintVertexArray&&(this.paintVertexBuffer=t.createVertexBuffer(this.paintVertexArray,this.paintVertexAttributes));},Cn.prototype.destroy=function(){this.paintVertexBuffer&&this.paintVertexBuffer.destroy();},Cn.prototype.interpolationFactor=function(t){return this.useIntegerZoom?this.expression.interpolationFactor(Math.floor(t),this.zoom,this.zoom+1):this.expression.interpolationFactor(t,this.zoom,this.zoom+1)},Cn.prototype.setUniforms=function(t,e,r){t.gl.uniform1f(e.uniforms["a_"+this.name+"_t"],this.interpolationFactor(r.zoom));};var In=function(){this.binders={},this.cacheKey="",this._buffers=[];};In.createDynamic=function(t,e,r){var n=new In,i=[];for(var o in t.paint._values)if(r(o)){var a=t.paint.get(o);if(a instanceof Or&&a.property.specification["property-function"]){var s=Fn(o,t.type),u=a.property.specification.type,l=a.property.useIntegerZoom;"constant"===a.value.kind?(n.binders[o]=new Vn(a.value,s,u),i.push("/u_"+s)):"source"===a.value.kind?(n.binders[o]=new Bn(a.value,s,u),i.push("/a_"+s)):(n.binders[o]=new Cn(a.value,s,u,l,e),i.push("/z_"+s));}}return n.cacheKey=i.sort().join(""),n},In.prototype.populatePaintArrays=function(t,e){for(var r in this.binders)this.binders[r].populatePaintArray(t,e);},In.prototype.defines=function(){var t=[];for(var e in this.binders)t.push.apply(t,this.binders[e].defines());return t},In.prototype.setUniforms=function(t,e,r,n){for(var i in this.binders){this.binders[i].setUniforms(t,e,n,r.get(i));}},In.prototype.getPaintVertexBuffers=function(){return this._buffers},In.prototype.upload=function(t){for(var e in this.binders)this.binders[e].upload(t);var r=[];for(var n in this.binders){var i=this.binders[n];(i instanceof Bn||i instanceof Cn)&&i.paintVertexBuffer&&r.push(i.paintVertexBuffer);}this._buffers=r;},In.prototype.destroy=function(){for(var t in this.binders)this.binders[t].destroy();};var En=function(t,e,r,n){void 0===n&&(n=function(){return!0}),this.programConfigurations={};for(var i=0,o=e;i<o.length;i+=1){var a=o[i];this.programConfigurations[a.id]=In.createDynamic(a,r,n),this.programConfigurations[a.id].layoutAttributes=t;}};function Fn(t,e){return{"text-opacity":"opacity","icon-opacity":"opacity","text-color":"fill_color","icon-color":"fill_color","text-halo-color":"halo_color","icon-halo-color":"halo_color","text-halo-blur":"halo_blur","icon-halo-blur":"halo_blur","text-halo-width":"halo_width","icon-halo-width":"halo_width","line-gap-width":"gapwidth"}[t]||t.replace(e+"-","").replace(/-/g,"_")}En.prototype.populatePaintArrays=function(t,e){for(var r in this.programConfigurations)this.programConfigurations[r].populatePaintArrays(t,e);},En.prototype.get=function(t){return this.programConfigurations[t]},En.prototype.upload=function(t){for(var e in this.programConfigurations)this.programConfigurations[e].upload(t);},En.prototype.destroy=function(){for(var t in this.programConfigurations)this.programConfigurations[t].destroy();},hr("ConstantBinder",Vn),hr("SourceExpressionBinder",Bn),hr("CompositeExpressionBinder",Cn),hr("ProgramConfiguration",In,{omit:["_buffers"]}),hr("ProgramConfigurationSet",En);var Pn=8192;var Tn,On=(Tn=16,{min:-1*Math.pow(2,Tn-1),max:Math.pow(2,Tn-1)-1});function Ln(t){for(var e=Pn/t.extent,r=t.loadGeometry(),n=0;n<r.length;n++)for(var i=r[n],o=0;o<i.length;o++){var a=i[o];a.x=Math.round(a.x*e),a.y=Math.round(a.y*e),(a.x<On.min||a.x>On.max||a.y<On.min||a.y>On.max)&&b("Geometry exceeds allowed extent, reduce your vector tile buffer size");}return r}function jn(t,e,r,n,i){t.emplaceBack(2*e+(n+1)/2,2*r+(i+1)/2);}var qn=function(t){this.zoom=t.zoom,this.overscaling=t.overscaling,this.layers=t.layers,this.layerIds=this.layers.map(function(t){return t.id}),this.index=t.index,this.layoutVertexArray=new Xr,this.indexArray=new pn,this.segments=new zn,this.programConfigurations=new En(kn,t.layers,t.zoom);};function Rn(t,e,r){for(var n=0;n<t.length;n++){var i=t[n];if(Xn(i,e))return!0;if(Jn(e,i,r))return!0}return!1}function Un(t,e){if(1===t.length&&1===t[0].length)return Hn(e,t[0][0]);for(var r=0;r<e.length;r++)for(var n=e[r],i=0;i<n.length;i++)if(Hn(t,n[i]))return!0;for(var o=0;o<t.length;o++){for(var a=t[o],s=0;s<a.length;s++)if(Hn(e,a[s]))return!0;for(var u=0;u<e.length;u++)if(Zn(a,e[u]))return!0}return!1}function Dn(t,e,r){for(var n=0;n<e.length;n++)for(var i=e[n],o=0;o<t.length;o++){var a=t[o];if(a.length>=3)for(var s=0;s<i.length;s++)if(Xn(a,i[s]))return!0;if(Nn(a,i,r))return!0}return!1}function Nn(t,e,r){if(t.length>1){if(Zn(t,e))return!0;for(var n=0;n<e.length;n++)if(Jn(e[n],t,r))return!0}for(var i=0;i<t.length;i++)if(Jn(t[i],e,r))return!0;return!1}function Zn(t,e){if(0===t.length||0===e.length)return!1;for(var r=0;r<t.length-1;r++)for(var n=t[r],i=t[r+1],o=0;o<e.length-1;o++){if(Kn(n,i,e[o],e[o+1]))return!0}return!1}function Kn(t,e,r,n){return w(t,r,n)!==w(e,r,n)&&w(t,e,r)!==w(t,e,n)}function Jn(t,e,r){var n=r*r;if(1===e.length)return t.distSqr(e[0])<n;for(var i=1;i<e.length;i++){if($n(t,e[i-1],e[i])<n)return!0}return!1}function $n(t,e,r){var n=e.distSqr(r);if(0===n)return t.distSqr(e);var i=((t.x-e.x)*(r.x-e.x)+(t.y-e.y)*(r.y-e.y))/n;return 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l=this.segments.prepareSegment(4,this.layoutVertexArray,this.indexArray),p=l.vertexLength;jn(this.layoutVertexArray,s,u,-1,-1),jn(this.layoutVertexArray,s,u,1,-1),jn(this.layoutVertexArray,s,u,1,1),jn(this.layoutVertexArray,s,u,-1,1),this.indexArray.emplaceBack(p,p+1,p+2),this.indexArray.emplaceBack(p,p+3,p+2),l.vertexLength+=4,l.primitiveLength+=2;}}this.programConfigurations.populatePaintArrays(this.layoutVertexArray.length,t);},hr("CircleBucket",qn,{omit:["layers"]});var Qn={paint:new Dr({"circle-radius":new qr(E.paint_circle["circle-radius"]),"circle-color":new qr(E.paint_circle["circle-color"]),"circle-blur":new qr(E.paint_circle["circle-blur"]),"circle-opacity":new qr(E.paint_circle["circle-opacity"]),"circle-translate":new jr(E.paint_circle["circle-translate"]),"circle-translate-anchor":new jr(E.paint_circle["circle-translate-anchor"]),"circle-pitch-scale":new jr(E.paint_circle["circle-pitch-scale"]),"circle-pitch-alignment":new 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t[0]=x*n+b*s+w*c+_*d,t[1]=x*i+b*u+w*h+_*v,t[2]=x*o+b*l+w*f+_*m,t[3]=x*a+b*p+w*y+_*g,x=r[4],b=r[5],w=r[6],_=r[7],t[4]=x*n+b*s+w*c+_*d,t[5]=x*i+b*u+w*h+_*v,t[6]=x*o+b*l+w*f+_*m,t[7]=x*a+b*p+w*y+_*g,x=r[8],b=r[9],w=r[10],_=r[11],t[8]=x*n+b*s+w*c+_*d,t[9]=x*i+b*u+w*h+_*v,t[10]=x*o+b*l+w*f+_*m,t[11]=x*a+b*p+w*y+_*g,x=r[12],b=r[13],w=r[14],_=r[15],t[12]=x*n+b*s+w*c+_*d,t[13]=x*i+b*u+w*h+_*v,t[14]=x*o+b*l+w*f+_*m,t[15]=x*a+b*p+w*y+_*g,t},perspective:function(t,e,r,n,i){var o=1/Math.tan(e/2),a=1/(n-i);return t[0]=o/r,t[1]=0,t[2]=0,t[3]=0,t[4]=0,t[5]=o,t[6]=0,t[7]=0,t[8]=0,t[9]=0,t[10]=(i+n)*a,t[11]=-1,t[12]=0,t[13]=0,t[14]=2*i*n*a,t[15]=0,t},rotateX:function(t,e,r){var n=Math.sin(r),i=Math.cos(r),o=e[4],a=e[5],s=e[6],u=e[7],l=e[8],p=e[9],c=e[10],h=e[11];return e!==t&&(t[0]=e[0],t[1]=e[1],t[2]=e[2],t[3]=e[3],t[12]=e[12],t[13]=e[13],t[14]=e[14],t[15]=e[15]),t[4]=o*i+l*n,t[5]=a*i+p*n,t[6]=s*i+c*n,t[7]=u*i+h*n,t[8]=l*i-o*n,t[9]=p*i-a*n,t[10]=c*i-s*n,t[11]=h*i-u*n,t},rotateZ:function(t,e,r){var 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s=1/(e-r),u=1/(n-i),l=1/(o-a);return t[0]=-2*s,t[1]=0,t[2]=0,t[3]=0,t[4]=0,t[5]=-2*u,t[6]=0,t[7]=0,t[8]=0,t[9]=0,t[10]=2*l,t[11]=0,t[12]=(e+r)*s,t[13]=(i+n)*u,t[14]=(a+o)*l,t[15]=1,t}}});}),ei=(ti.vec3,ti.vec4),ri=(ti.mat2,ti.mat3,ti.mat4),ni=function(t){function e(e){t.call(this,e,Qn);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype.createBucket=function(t){return new qn(t)},e.prototype.queryRadius=function(t){var e=t;return Gn("circle-radius",this,e)+Gn("circle-stroke-width",this,e)+Yn(this.paint.get("circle-translate"))},e.prototype.queryIntersectsFeature=function(t,e,r,n,i,o,a){for(var s=Wn(t,this.paint.get("circle-translate"),this.paint.get("circle-translate-anchor"),i.angle,o),u=this.paint.get("circle-radius").evaluate(e)+this.paint.get("circle-stroke-width").evaluate(e),l="map"===this.paint.get("circle-pitch-alignment"),p=l?s:function(t,e,r){return t.map(function(t){return t.map(function(t){return 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i=n[r],o=i.feature,a=i.index,s=i.sourceLayerIndex;if(this.layers[0]._featureFilter(new Br(this.zoom),o)){var u=Ln(o);this.addFeature(o,u),e.featureIndex.insert(o,u,a,s,this.index);}}},eo.prototype.isEmpty=function(){return 0===this.layoutVertexArray.length},eo.prototype.upload=function(t){this.layoutVertexBuffer=t.createVertexBuffer(this.layoutVertexArray,Wi),this.indexBuffer=t.createIndexBuffer(this.indexArray),this.programConfigurations.upload(t);},eo.prototype.destroy=function(){this.layoutVertexBuffer&&(this.layoutVertexBuffer.destroy(),this.indexBuffer.destroy(),this.programConfigurations.destroy(),this.segments.destroy());},eo.prototype.addFeature=function(t,e){for(var r=0,n=$i(e,500);r<n.length;r+=1){for(var i=n[r],o=0,a=0,s=i;a<s.length;a+=1){o+=s[a].length;}for(var u=this.segments.prepareSegment(4,this.layoutVertexArray,this.indexArray),l=0,p=i;l<p.length;l+=1){var c=p[l];if(0!==c.length&&!no(c))for(var h=0,f=0;f<c.length;f++){var y=c[f];if(f>=1){var d=c[f-1];if(!ro(y,d)){u.vertexLength+4>zn.MAX_VERTEX_ARRAY_LENGTH&&(u=this.segments.prepareSegment(4,this.layoutVertexArray,this.indexArray));var v=y.sub(d)._perp()._unit(),m=d.dist(y);h+m>32768&&(h=0),to(this.layoutVertexArray,y.x,y.y,v.x,v.y,0,0,h),to(this.layoutVertexArray,y.x,y.y,v.x,v.y,0,1,h),h+=m,to(this.layoutVertexArray,d.x,d.y,v.x,v.y,0,0,h),to(this.layoutVertexArray,d.x,d.y,v.x,v.y,0,1,h);var g=u.vertexLength;this.indexArray.emplaceBack(g,g+1,g+2),this.indexArray.emplaceBack(g+1,g+2,g+3),u.vertexLength+=4,u.primitiveLength+=2;}}}}u.vertexLength+o>zn.MAX_VERTEX_ARRAY_LENGTH&&(u=this.segments.prepareSegment(o,this.layoutVertexArray,this.indexArray));for(var x=[],b=[],w=u.vertexLength,_=0,A=i;_<A.length;_+=1){var k=A[_];if(0!==k.length){k!==i[0]&&b.push(x.length/2);for(var z=0;z<k.length;z++){var S=k[z];to(this.layoutVertexArray,S.x,S.y,0,0,1,1,0),x.push(S.x),x.push(S.y);}}}for(var M=mi(x,b),V=0;V<M.length;V+=3)this.indexArray.emplaceBack(w+M[V],w+M[V+1],w+M[V+2]);u.primitiveLength+=M.length/3,u.vertexLength+=o;}this.programConfigurations.populatePaintArrays(this.layoutVertexArray.length,t);},hr("FillExtrusionBucket",eo,{omit:["layers"]});var io={paint:new Dr({"fill-extrusion-opacity":new jr(E["paint_fill-extrusion"]["fill-extrusion-opacity"]),"fill-extrusion-color":new qr(E["paint_fill-extrusion"]["fill-extrusion-color"]),"fill-extrusion-translate":new jr(E["paint_fill-extrusion"]["fill-extrusion-translate"]),"fill-extrusion-translate-anchor":new jr(E["paint_fill-extrusion"]["fill-extrusion-translate-anchor"]),"fill-extrusion-pattern":new Rr(E["paint_fill-extrusion"]["fill-extrusion-pattern"]),"fill-extrusion-height":new qr(E["paint_fill-extrusion"]["fill-extrusion-height"]),"fill-extrusion-base":new qr(E["paint_fill-extrusion"]["fill-extrusion-base"])})},oo=function(t){function e(e){t.call(this,e,io);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype.createBucket=function(t){return new eo(t)},e.prototype.queryRadius=function(){return Yn(this.paint.get("fill-extrusion-translate"))},e.prototype.queryIntersectsFeature=function(t,e,r,n,i,o){return Un(Wn(t,this.paint.get("fill-extrusion-translate"),this.paint.get("fill-extrusion-translate-anchor"),i.angle,o),r)},e.prototype.hasOffscreenPass=function(){return 0!==this.paint.get("fill-extrusion-opacity")&&"none"!==this.visibility},e.prototype.resize=function(){this.viewportFrame&&(this.viewportFrame.destroy(),this.viewportFrame=null);},e}(Nr),ao=$r([{name:"a_pos_normal",components:4,type:"Int16"},{name:"a_data",components:4,type:"Uint8"}],4).members,so=uo;function uo(t,e,r,n,i){this.properties={},this.extent=r,this.type=0,this._pbf=t,this._geometry=-1,this._keys=n,this._values=i,t.readFields(lo,this,e);}function lo(t,e,r){1==t?e.id=r.readVarint():2==t?function(t,e){var r=t.readVarint()+t.pos;for(;t.pos<r;){var n=e._keys[t.readVarint()],i=e._values[t.readVarint()];e.properties[n]=i;}}(r,e):3==t?e.type=r.readVarint():4==t&&(e._geometry=r.pos);}function po(t){for(var e,r,n=0,i=0,o=t.length,a=o-1;i<o;a=i++)e=t[i],n+=((r=t[a]).x-e.x)*(e.y+r.y);return n}uo.types=["Unknown","Point","LineString","Polygon"],uo.prototype.loadGeometry=function(){var t=this._pbf;t.pos=this._geometry;for(var e,r=t.readVarint()+t.pos,n=1,i=0,o=0,a=0,u=[];t.pos<r;){if(i<=0){var l=t.readVarint();n=7&l,i=l>>3;}if(i--,1===n||2===n)o+=t.readSVarint(),a+=t.readSVarint(),1===n&&(e&&u.push(e),e=[]),e.push(new s(o,a));else{if(7!==n)throw new Error("unknown command "+n);e&&e.push(e[0].clone());}}return e&&u.push(e),u},uo.prototype.bbox=function(){var t=this._pbf;t.pos=this._geometry;for(var e=t.readVarint()+t.pos,r=1,n=0,i=0,o=0,a=1/0,s=-1/0,u=1/0,l=-1/0;t.pos<e;){if(n<=0){var p=t.readVarint();r=7&p,n=p>>3;}if(n--,1===r||2===r)(i+=t.readSVarint())<a&&(a=i),i>s&&(s=i),(o+=t.readSVarint())<u&&(u=o),o>l&&(l=o);else if(7!==r)throw new Error("unknown command "+r)}return[a,u,s,l]},uo.prototype.toGeoJSON=function(t,e,r){var n,i,o=this.extent*Math.pow(2,r),a=this.extent*t,s=this.extent*e,u=this.loadGeometry(),l=uo.types[this.type];function p(t){for(var e=0;e<t.length;e++){var r=t[e],n=180-360*(r.y+s)/o;t[e]=[360*(r.x+a)/o-180,360/Math.PI*Math.atan(Math.exp(n*Math.PI/180))-90];}}switch(this.type){case 1:var c=[];for(n=0;n<u.length;n++)c[n]=u[n][0];p(u=c);break;case 2:for(n=0;n<u.length;n++)p(u[n]);break;case 3:for(u=function(t){var e=t.length;if(e<=1)return[t];for(var r,n,i=[],o=0;o<e;o++){var a=po(t[o]);0!==a&&(void 0===n&&(n=a<0),n===a<0?(r&&i.push(r),r=[t[o]]):r.push(t[o]));}r&&i.push(r);return i}(u),n=0;n<u.length;n++)for(i=0;i<u[n].length;i++)p(u[n][i]);}1===u.length?u=u[0]:l="Multi"+l;var h={type:"Feature",geometry:{type:l,coordinates:u},properties:this.properties};return"id"in this&&(h.id=this.id),h};var co=ho;function ho(t,e){this.version=1,this.name=null,this.extent=4096,this.length=0,this._pbf=t,this._keys=[],this._values=[],this._features=[],t.readFields(fo,this,e),this.length=this._features.length;}function fo(t,e,r){15===t?e.version=r.readVarint():1===t?e.name=r.readString():5===t?e.extent=r.readVarint():2===t?e._features.push(r.pos):3===t?e._keys.push(r.readString()):4===t&&e._values.push(function(t){var e=null,r=t.readVarint()+t.pos;for(;t.pos<r;){var n=t.readVarint()>>3;e=1===n?t.readString():2===n?t.readFloat():3===n?t.readDouble():4===n?t.readVarint64():5===n?t.readVarint():6===n?t.readSVarint():7===n?t.readBoolean():null;}return e}(r));}function yo(t,e,r){if(3===t){var n=new co(r,r.readVarint()+r.pos);n.length&&(e[n.name]=n);}}ho.prototype.feature=function(t){if(t<0||t>=this._features.length)throw new Error("feature index out of bounds");this._pbf.pos=this._features[t];var e=this._pbf.readVarint()+this._pbf.pos;return new so(this._pbf,e,this.extent,this._keys,this._values)};var vo={VectorTile:function(t,e){this.layers=t.readFields(yo,{},e);},VectorTileFeature:so,VectorTileLayer:co},mo=vo.VectorTileFeature.types,go=63,xo=Math.cos(Math.PI/180*37.5),bo=.5,wo=Math.pow(2,14)/bo;function _o(t,e,r,n,i,o,a){t.emplaceBack(e.x,e.y,n?1:0,i?1:-1,Math.round(go*r.x)+128,Math.round(go*r.y)+128,1+(0===o?0:o<0?-1:1)|(a*bo&63)<<2,a*bo>>6);}var Ao=function(t){this.zoom=t.zoom,this.overscaling=t.overscaling,this.layers=t.layers,this.layerIds=this.layers.map(function(t){return t.id}),this.index=t.index,this.layoutVertexArray=new Wr,this.indexArray=new pn,this.programConfigurations=new En(ao,t.layers,t.zoom),this.segments=new zn;};function ko(t,e){return(t/e.tileTotal*(e.end-e.start)+e.start)*(wo-1)}Ao.prototype.populate=function(t,e){for(var r=0,n=t;r<n.length;r+=1){var i=n[r],o=i.feature,a=i.index,s=i.sourceLayerIndex;if(this.layers[0]._featureFilter(new Br(this.zoom),o)){var u=Ln(o);this.addFeature(o,u),e.featureIndex.insert(o,u,a,s,this.index);}}},Ao.prototype.isEmpty=function(){return 0===this.layoutVertexArray.length},Ao.prototype.upload=function(t){this.layoutVertexBuffer=t.createVertexBuffer(this.layoutVertexArray,ao),this.indexBuffer=t.createIndexBuffer(this.indexArray),this.programConfigurations.upload(t);},Ao.prototype.destroy=function(){this.layoutVertexBuffer&&(this.layoutVertexBuffer.destroy(),this.indexBuffer.destroy(),this.programConfigurations.destroy(),this.segments.destroy());},Ao.prototype.addFeature=function(t,e){for(var r=this.layers[0].layout,n=r.get("line-join").evaluate(t),i=r.get("line-cap"),o=r.get("line-miter-limit"),a=r.get("line-round-limit"),s=0,u=e;s<u.length;s+=1){var l=u[s];this.addLine(l,t,n,i,o,a);}},Ao.prototype.addLine=function(t,e,r,n,i,o){var a=null;e.properties&&e.properties.hasOwnProperty("mapbox_clip_start")&&e.properties.hasOwnProperty("mapbox_clip_end")&&(a={start:e.properties.mapbox_clip_start,end:e.properties.mapbox_clip_end,tileTotal:void 0});for(var s="Polygon"===mo[e.type],u=t.length;u>=2&&t[u-1].equals(t[u-2]);)u--;for(var l=0;l<u-1&&t[l].equals(t[l+1]);)l++;if(!(u<(s?3:2))){a&&(a.tileTotal=function(t,e,r){for(var n,i,o=0,a=e;a<r-1;a++)n=t[a],i=t[a+1],o+=n.dist(i);return o}(t,l,u)),"bevel"===r&&(i=1.05);var p=Pn/(512*this.overscaling)*15,c=t[l],h=this.segments.prepareSegment(10*u,this.layoutVertexArray,this.indexArray);this.distance=0;var f,y,d,v=n,m=s?"butt":n,g=!0,x=void 0,b=void 0,w=void 0,_=void 0;this.e1=this.e2=this.e3=-1,s&&(f=t[u-2],_=c.sub(f)._unit()._perp());for(var A=l;A<u;A++)if(!(b=s&&A===u-1?t[l+1]:t[A+1])||!t[A].equals(b)){_&&(w=_),f&&(x=f),f=t[A],_=b?b.sub(f)._unit()._perp():w;var k=(w=w||_).add(_);0===k.x&&0===k.y||k._unit();var z=k.x*_.x+k.y*_.y,S=0!==z?1/z:1/0,M=z<xo&&x&&b;if(M&&A>l){var V=f.dist(x);if(V>2*p){var B=f.sub(f.sub(x)._mult(p/V)._round());this.distance+=B.dist(x),this.addCurrentVertex(B,this.distance,w.mult(1),0,0,!1,h,a),x=B;}}var C=x&&b,I=C?r:b?v:m;if(C&&"round"===I&&(S<o?I="miter":S<=2&&(I="fakeround")),"miter"===I&&S>i&&(I="bevel"),"bevel"===I&&(S>2&&(I="flipbevel"),S<i&&(I="miter")),x&&(this.distance+=f.dist(x)),"miter"===I)k._mult(S),this.addCurrentVertex(f,this.distance,k,0,0,!1,h,a);else if("flipbevel"===I){if(S>100)k=_.clone().mult(-1);else{var E=w.x*_.y-w.y*_.x>0?-1:1,F=S*w.add(_).mag()/w.sub(_).mag();k._perp()._mult(F*E);}this.addCurrentVertex(f,this.distance,k,0,0,!1,h,a),this.addCurrentVertex(f,this.distance,k.mult(-1),0,0,!1,h,a);}else if("bevel"===I||"fakeround"===I){var P=w.x*_.y-w.y*_.x>0,T=-Math.sqrt(S*S-1);if(P?(d=0,y=T):(y=0,d=T),g||this.addCurrentVertex(f,this.distance,w,y,d,!1,h,a),"fakeround"===I){for(var O=Math.floor(8*(.5-(z-.5))),L=void 0,j=0;j<O;j++)L=_.mult((j+1)/(O+1))._add(w)._unit(),this.addPieSliceVertex(f,this.distance,L,P,h,a);this.addPieSliceVertex(f,this.distance,k,P,h,a);for(var q=O-1;q>=0;q--)L=w.mult((q+1)/(O+1))._add(_)._unit(),this.addPieSliceVertex(f,this.distance,L,P,h,a);}b&&this.addCurrentVertex(f,this.distance,_,-y,-d,!1,h,a);}else"butt"===I?(g||this.addCurrentVertex(f,this.distance,w,0,0,!1,h,a),b&&this.addCurrentVertex(f,this.distance,_,0,0,!1,h,a)):"square"===I?(g||(this.addCurrentVertex(f,this.distance,w,1,1,!1,h,a),this.e1=this.e2=-1),b&&this.addCurrentVertex(f,this.distance,_,-1,-1,!1,h,a)):"round"===I&&(g||(this.addCurrentVertex(f,this.distance,w,0,0,!1,h,a),this.addCurrentVertex(f,this.distance,w,1,1,!0,h,a),this.e1=this.e2=-1),b&&(this.addCurrentVertex(f,this.distance,_,-1,-1,!0,h,a),this.addCurrentVertex(f,this.distance,_,0,0,!1,h,a)));if(M&&A<u-1){var R=f.dist(b);if(R>2*p){var U=f.add(b.sub(f)._mult(p/R)._round());this.distance+=U.dist(f),this.addCurrentVertex(U,this.distance,_.mult(1),0,0,!1,h,a),f=U;}}g=!1;}this.programConfigurations.populatePaintArrays(this.layoutVertexArray.length,e);}},Ao.prototype.addCurrentVertex=function(t,e,r,n,i,o,a,s){var u,l=this.layoutVertexArray,p=this.indexArray;s&&(e=ko(e,s)),u=r.clone(),n&&u._sub(r.perp()._mult(n)),_o(l,t,u,o,!1,n,e),this.e3=a.vertexLength++,this.e1>=0&&this.e2>=0&&(p.emplaceBack(this.e1,this.e2,this.e3),a.primitiveLength++),this.e1=this.e2,this.e2=this.e3,u=r.mult(-1),i&&u._sub(r.perp()._mult(i)),_o(l,t,u,o,!0,-i,e),this.e3=a.vertexLength++,this.e1>=0&&this.e2>=0&&(p.emplaceBack(this.e1,this.e2,this.e3),a.primitiveLength++),this.e1=this.e2,this.e2=this.e3,e>wo/2&&!s&&(this.distance=0,this.addCurrentVertex(t,this.distance,r,n,i,o,a));},Ao.prototype.addPieSliceVertex=function(t,e,r,n,i,o){r=r.mult(n?-1:1);var a=this.layoutVertexArray,s=this.indexArray;o&&(e=ko(e,o)),_o(a,t,r,!1,n,0,e),this.e3=i.vertexLength++,this.e1>=0&&this.e2>=0&&(s.emplaceBack(this.e1,this.e2,this.e3),i.primitiveLength++),n?this.e2=this.e3:this.e1=this.e3;},hr("LineBucket",Ao,{omit:["layers"]});var zo=new Dr({"line-cap":new jr(E.layout_line["line-cap"]),"line-join":new qr(E.layout_line["line-join"]),"line-miter-limit":new jr(E.layout_line["line-miter-limit"]),"line-round-limit":new jr(E.layout_line["line-round-limit"])}),So={paint:new Dr({"line-opacity":new qr(E.paint_line["line-opacity"]),"line-color":new qr(E.paint_line["line-color"]),"line-translate":new jr(E.paint_line["line-translate"]),"line-translate-anchor":new jr(E.paint_line["line-translate-anchor"]),"line-width":new qr(E.paint_line["line-width"]),"line-gap-width":new qr(E.paint_line["line-gap-width"]),"line-offset":new qr(E.paint_line["line-offset"]),"line-blur":new qr(E.paint_line["line-blur"]),"line-dasharray":new Rr(E.paint_line["line-dasharray"]),"line-pattern":new Rr(E.paint_line["line-pattern"]),"line-gradient":new Ur(E.paint_line["line-gradient"])}),layout:zo},Mo=new(function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype.possiblyEvaluate=function(e,r){return r=new Br(Math.floor(r.zoom),{now:r.now,fadeDuration:r.fadeDuration,zoomHistory:r.zoomHistory,transition:r.transition}),t.prototype.possiblyEvaluate.call(this,e,r)},e.prototype.evaluate=function(e,r,n){return r=h({},r,{zoom:Math.floor(r.zoom)}),t.prototype.evaluate.call(this,e,r,n)},e}(qr))(So.paint.properties["line-width"].specification);Mo.useIntegerZoom=!0;var Vo=function(t){function e(e){t.call(this,e,So);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype.setPaintProperty=function(e,r,n){t.prototype.setPaintProperty.call(this,e,r,n),"line-gradient"===e&&this._updateGradient();},e.prototype._updateGradient=function(){var t=this._transitionablePaint._values["line-gradient"].value.expression;this.gradient=hi(t,"lineProgress"),this.gradientTexture=null;},e.prototype.recalculate=function(e){t.prototype.recalculate.call(this,e),this.paint._values["line-floorwidth"]=Mo.possiblyEvaluate(this._transitioningPaint._values["line-width"].value,e);},e.prototype.createBucket=function(t){return new Ao(t)},e.prototype.queryRadius=function(t){var e=t,r=Bo(Gn("line-width",this,e),Gn("line-gap-width",this,e)),n=Gn("line-offset",this,e);return r/2+Math.abs(n)+Yn(this.paint.get("line-translate"))},e.prototype.queryIntersectsFeature=function(t,e,r,n,i,o){var a=Wn(t,this.paint.get("line-translate"),this.paint.get("line-translate-anchor"),i.angle,o),u=o/2*Bo(this.paint.get("line-width").evaluate(e),this.paint.get("line-gap-width").evaluate(e)),l=this.paint.get("line-offset").evaluate(e);return l&&(r=function(t,e){for(var r=[],n=new s(0,0),i=0;i<t.length;i++){for(var o=t[i],a=[],u=0;u<o.length;u++){var l=o[u-1],p=o[u],c=o[u+1],h=0===u?n:p.sub(l)._unit()._perp(),f=u===o.length-1?n:c.sub(p)._unit()._perp(),y=h._add(f)._unit(),d=y.x*f.x+y.y*f.y;y._mult(1/d),a.push(y._mult(e)._add(p));}r.push(a);}return r}(r,l*o)),Dn(a,r,u)},e}(Nr);function Bo(t,e){return e>0?e+2*t:t}var Co=$r([{name:"a_pos_offset",components:4,type:"Int16"},{name:"a_data",components:4,type:"Uint16"}]),Io=$r([{name:"a_projected_pos",components:3,type:"Float32"}],4),Eo=($r([{name:"a_fade_opacity",components:1,type:"Uint32"}],4),$r([{name:"a_placed",components:2,type:"Uint8"}],4)),Fo=($r([{type:"Int16",name:"anchorPointX"},{type:"Int16",name:"anchorPointY"},{type:"Int16",name:"x1"},{type:"Int16",name:"y1"},{type:"Int16",name:"x2"},{type:"Int16",name:"y2"},{type:"Uint32",name:"featureIndex"},{type:"Uint16",name:"sourceLayerIndex"},{type:"Uint16",name:"bucketIndex"},{type:"Int16",name:"radius"},{type:"Int16",name:"signedDistanceFromAnchor"}]),$r([{name:"a_pos",components:2,type:"Int16"},{name:"a_anchor_pos",components:2,type:"Int16"},{name:"a_extrude",components:2,type:"Int16"}],4)),Po=$r([{name:"a_pos",components:2,type:"Int16"},{name:"a_anchor_pos",components:2,type:"Int16"},{name:"a_extrude",components:2,type:"Int16"}],4);$r([{type:"Int16",name:"anchorX"},{type:"Int16",name:"anchorY"},{type:"Uint16",name:"glyphStartIndex"},{type:"Uint16",name:"numGlyphs"},{type:"Uint32",name:"vertexStartIndex"},{type:"Uint32",name:"lineStartIndex"},{type:"Uint32",name:"lineLength"},{type:"Uint16",name:"segment"},{type:"Uint16",name:"lowerSize"},{type:"Uint16",name:"upperSize"},{type:"Float32",name:"lineOffsetX"},{type:"Float32",name:"lineOffsetY"},{type:"Uint8",name:"writingMode"},{type:"Uint8",name:"hidden"}]),$r([{type:"Float32",name:"offsetX"}]),$r([{type:"Int16",name:"x"},{type:"Int16",name:"y"},{type:"Int16",name:"tileUnitDistanceFromAnchor"}]);function To(t,e,r){var n=e.layout.get("text-transform").evaluate(r);return"uppercase"===n?t=t.toLocaleUpperCase():"lowercase"===n&&(t=t.toLocaleLowerCase()),Vr.applyArabicShaping&&(t=Vr.applyArabicShaping(t)),t}var Oo={"!":"︕","#":"#",$:"$","%":"%","&":"&","(":"︵",")":"︶","*":"*","+":"+",",":"︐","-":"︲",".":"・","/":"/",":":"︓",";":"︔","<":"︿","=":"=",">":"﹀","?":"︖","@":"@","[":"﹇","\\":"\","]":"﹈","^":"^",_:"︳","`":"`","{":"︷","|":"―","}":"︸","~":"~","¢":"¢","£":"£","¥":"¥","¦":"¦","¬":"¬","¯":" ̄","–":"︲","—":"︱","‘":"﹃","’":"﹄","“":"﹁","”":"﹂","…":"︙","‧":"・","₩":"₩","、":"︑","。":"︒","〈":"︿","〉":"﹀","《":"︽","》":"︾","「":"﹁","」":"﹂","『":"﹃","』":"﹄","【":"︻","】":"︼","〔":"︹","〕":"︺","〖":"︗","〗":"︘","!":"︕","(":"︵",")":"︶",",":"︐","-":"︲",".":"・",":":"︓",";":"︔","<":"︿",">":"﹀","?":"︖","[":"﹇","]":"﹈","_":"︳","{":"︷","|":"―","}":"︸","⦅":"︵","⦆":"︶","。":"︒","「":"﹁","」":"﹂"};var Lo=function(t){function e(e,r,n,i){t.call(this,e,r),this.angle=n,void 0!==i&&(this.segment=i);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype.clone=function(){return new e(this.x,this.y,this.angle,this.segment)},e}(s);function jo(t,e){var r=e.expression;if("constant"===r.kind)return{functionType:"constant",layoutSize:r.evaluate(new Br(t+1))};if("source"===r.kind)return{functionType:"source"};for(var n=r.zoomStops,i=0;i<n.length&&n[i]<=t;)i++;for(var o=i=Math.max(0,i-1);o<n.length&&n[o]<t+1;)o++;o=Math.min(n.length-1,o);var a={min:n[i],max:n[o]};return"composite"===r.kind?{functionType:"composite",zoomRange:a,propertyValue:e.value}:{functionType:"camera",layoutSize:r.evaluate(new Br(t+1)),zoomRange:a,sizeRange:{min:r.evaluate(new Br(a.min)),max:r.evaluate(new Br(a.max))},propertyValue:e.value}}hr("Anchor",Lo);var qo=vo.VectorTileFeature.types,Ro=[{name:"a_fade_opacity",components:1,type:"Uint8",offset:0}];function Uo(t,e,r,n,i,o,a,s){t.emplaceBack(e,r,Math.round(32*n),Math.round(32*i),o,a,s?s[0]:0,s?s[1]:0);}function Do(t,e,r){t.emplaceBack(e.x,e.y,r),t.emplaceBack(e.x,e.y,r),t.emplaceBack(e.x,e.y,r),t.emplaceBack(e.x,e.y,r);}var No=function(t){this.layoutVertexArray=new Qr,this.indexArray=new pn,this.programConfigurations=t,this.segments=new zn,this.dynamicLayoutVertexArray=new tn,this.opacityVertexArray=new en,this.placedSymbolArray=new mn;};No.prototype.upload=function(t,e){this.layoutVertexBuffer=t.createVertexBuffer(this.layoutVertexArray,Co.members),this.indexBuffer=t.createIndexBuffer(this.indexArray,e),this.programConfigurations.upload(t),this.dynamicLayoutVertexBuffer=t.createVertexBuffer(this.dynamicLayoutVertexArray,Io.members,!0),this.opacityVertexBuffer=t.createVertexBuffer(this.opacityVertexArray,Ro,!0),this.opacityVertexBuffer.itemSize=1;},No.prototype.destroy=function(){this.layoutVertexBuffer&&(this.layoutVertexBuffer.destroy(),this.indexBuffer.destroy(),this.programConfigurations.destroy(),this.segments.destroy(),this.dynamicLayoutVertexBuffer.destroy(),this.opacityVertexBuffer.destroy());},hr("SymbolBuffers",No);var Zo=function(t,e,r){this.layoutVertexArray=new t,this.layoutAttributes=e,this.indexArray=new r,this.segments=new zn,this.collisionVertexArray=new on;};Zo.prototype.upload=function(t){this.layoutVertexBuffer=t.createVertexBuffer(this.layoutVertexArray,this.layoutAttributes),this.indexBuffer=t.createIndexBuffer(this.indexArray),this.collisionVertexBuffer=t.createVertexBuffer(this.collisionVertexArray,Eo.members,!0);},Zo.prototype.destroy=function(){this.layoutVertexBuffer&&(this.layoutVertexBuffer.destroy(),this.indexBuffer.destroy(),this.segments.destroy(),this.collisionVertexBuffer.destroy());},hr("CollisionBuffers",Zo);var Ko=function(t){this.collisionBoxArray=t.collisionBoxArray,this.zoom=t.zoom,this.overscaling=t.overscaling,this.layers=t.layers,this.layerIds=this.layers.map(function(t){return t.id}),this.index=t.index,this.pixelRatio=t.pixelRatio,this.sourceLayerIndex=t.sourceLayerIndex;var e=this.layers[0]._unevaluatedLayout._values;this.textSizeData=jo(this.zoom,e["text-size"]),this.iconSizeData=jo(this.zoom,e["icon-size"]);var r=this.layers[0].layout;this.sortFeaturesByY=r.get("text-allow-overlap")||r.get("icon-allow-overlap")||r.get("text-ignore-placement")||r.get("icon-ignore-placement");};Ko.prototype.createArrays=function(){this.text=new No(new En(Co.members,this.layers,this.zoom,function(t){return/^text/.test(t)})),this.icon=new No(new En(Co.members,this.layers,this.zoom,function(t){return/^icon/.test(t)})),this.collisionBox=new Zo(nn,Fo.members,cn),this.collisionCircle=new Zo(nn,Po.members,pn),this.glyphOffsetArray=new xn,this.lineVertexArray=new wn;},Ko.prototype.populate=function(t,e){var r=this.layers[0],n=r.layout,i=n.get("text-font"),o=n.get("text-field"),a=n.get("icon-image"),s=("constant"!==o.value.kind||o.value.value.length>0)&&("constant"!==i.value.kind||i.value.value.length>0),u="constant"!==a.value.kind||a.value.value&&a.value.value.length>0;if(this.features=[],s||u){for(var l=e.iconDependencies,p=e.glyphDependencies,c=new Br(this.zoom),h=0,f=t;h<f.length;h+=1){var y=f[h],d=y.feature,v=y.index,m=y.sourceLayerIndex;if(r._featureFilter(c,d)){var g=void 0;s&&(g=To(g=r.getValueAndResolveTokens("text-field",d),r,d));var x=void 0;if(u&&(x=r.getValueAndResolveTokens("icon-image",d)),g||x){var b={text:g,icon:x,index:v,sourceLayerIndex:m,geometry:Ln(d),properties:d.properties,type:qo[d.type]};if(void 0!==d.id&&(b.id=d.id),this.features.push(b),x&&(l[x]=!0),g)for(var w=i.evaluate(d).join(","),_=p[w]=p[w]||{},A="map"===n.get("text-rotation-alignment")&&"line"===n.get("symbol-placement"),k=gr(g),z=0;z<g.length;z++)if(_[g.charCodeAt(z)]=!0,A&&k){var S=Oo[g.charAt(z)];S&&(_[S.charCodeAt(0)]=!0);}}}}"line"===n.get("symbol-placement")&&(this.features=function(t){var e={},r={},n=[],i=0;function o(e){n.push(t[e]),i++;}function a(t,e,i){var o=r[t];return delete r[t],r[e]=o,n[o].geometry[0].pop(),n[o].geometry[0]=n[o].geometry[0].concat(i[0]),o}function s(t,r,i){var o=e[r];return delete e[r],e[t]=o,n[o].geometry[0].shift(),n[o].geometry[0]=i[0].concat(n[o].geometry[0]),o}function u(t,e,r){var n=r?e[0][e[0].length-1]:e[0][0];return t+":"+n.x+":"+n.y}for(var l=0;l<t.length;l++){var p=t[l],c=p.geometry,h=p.text;if(h){var f=u(h,c),y=u(h,c,!0);if(f in r&&y in e&&r[f]!==e[y]){var d=s(f,y,c),v=a(f,y,n[d].geometry);delete e[f],delete r[y],r[u(h,n[v].geometry,!0)]=v,n[d].geometry=null;}else f in r?a(f,y,c):y in e?s(f,y,c):(o(l),e[f]=i-1,r[y]=i-1);}else o(l);}return n.filter(function(t){return t.geometry})}(this.features));}},Ko.prototype.isEmpty=function(){return 0===this.symbolInstances.length},Ko.prototype.upload=function(t){this.text.upload(t,this.sortFeaturesByY),this.icon.upload(t,this.sortFeaturesByY),this.collisionBox.upload(t),this.collisionCircle.upload(t);},Ko.prototype.destroy=function(){this.text.destroy(),this.icon.destroy(),this.collisionBox.destroy(),this.collisionCircle.destroy();},Ko.prototype.addToLineVertexArray=function(t,e){var r=this.lineVertexArray.length;if(void 0!==t.segment){for(var n=t.dist(e[t.segment+1]),i=t.dist(e[t.segment]),o={},a=t.segment+1;a<e.length;a++)o[a]={x:e[a].x,y:e[a].y,tileUnitDistanceFromAnchor:n},a<e.length-1&&(n+=e[a+1].dist(e[a]));for(var s=t.segment||0;s>=0;s--)o[s]={x:e[s].x,y:e[s].y,tileUnitDistanceFromAnchor:i},s>0&&(i+=e[s-1].dist(e[s]));for(var u=0;u<e.length;u++){var l=o[u];this.lineVertexArray.emplaceBack(l.x,l.y,l.tileUnitDistanceFromAnchor);}}return{lineStartIndex:r,lineLength:this.lineVertexArray.length-r}},Ko.prototype.addSymbols=function(t,e,r,n,i,o,a,s,u,l){for(var p=t.indexArray,c=t.layoutVertexArray,h=t.dynamicLayoutVertexArray,f=t.segments.prepareSegment(4*e.length,t.layoutVertexArray,t.indexArray),y=this.glyphOffsetArray.length,d=f.vertexLength,v=0,m=e;v<m.length;v+=1){var g=m[v],x=g.tl,b=g.tr,w=g.bl,_=g.br,A=g.tex,k=f.vertexLength,z=g.glyphOffset[1];Uo(c,s.x,s.y,x.x,z+x.y,A.x,A.y,r),Uo(c,s.x,s.y,b.x,z+b.y,A.x+A.w,A.y,r),Uo(c,s.x,s.y,w.x,z+w.y,A.x,A.y+A.h,r),Uo(c,s.x,s.y,_.x,z+_.y,A.x+A.w,A.y+A.h,r),Do(h,s,0),p.emplaceBack(k,k+1,k+2),p.emplaceBack(k+1,k+2,k+3),f.vertexLength+=4,f.primitiveLength+=2,this.glyphOffsetArray.emplaceBack(g.glyphOffset[0]);}t.placedSymbolArray.emplaceBack(s.x,s.y,y,this.glyphOffsetArray.length-y,d,u,l,s.segment,r?r[0]:0,r?r[1]:0,n[0],n[1],a,!1),t.programConfigurations.populatePaintArrays(t.layoutVertexArray.length,o);},Ko.prototype._addCollisionDebugVertex=function(t,e,r,n,i){return e.emplaceBack(0,0),t.emplaceBack(r.x,r.y,n.x,n.y,Math.round(i.x),Math.round(i.y))},Ko.prototype.addCollisionDebugVertices=function(t,e,r,n,i,o,a,u){var l=i.segments.prepareSegment(4,i.layoutVertexArray,i.indexArray),p=l.vertexLength,c=i.layoutVertexArray,h=i.collisionVertexArray;if(this._addCollisionDebugVertex(c,h,o,a.anchor,new s(t,e)),this._addCollisionDebugVertex(c,h,o,a.anchor,new s(r,e)),this._addCollisionDebugVertex(c,h,o,a.anchor,new s(r,n)),this._addCollisionDebugVertex(c,h,o,a.anchor,new s(t,n)),l.vertexLength+=4,u){var f=i.indexArray;f.emplaceBack(p,p+1,p+2),f.emplaceBack(p,p+2,p+3),l.primitiveLength+=2;}else{var y=i.indexArray;y.emplaceBack(p,p+1),y.emplaceBack(p+1,p+2),y.emplaceBack(p+2,p+3),y.emplaceBack(p+3,p),l.primitiveLength+=4;}},Ko.prototype.generateCollisionDebugBuffers=function(){for(var t=0,e=this.symbolInstances;t<e.length;t+=1){var r=e[t];r.textCollisionFeature={boxStartIndex:r.textBoxStartIndex,boxEndIndex:r.textBoxEndIndex},r.iconCollisionFeature={boxStartIndex:r.iconBoxStartIndex,boxEndIndex:r.iconBoxEndIndex};for(var n=0;n<2;n++){var i=r[0===n?"textCollisionFeature":"iconCollisionFeature"];if(i)for(var o=i.boxStartIndex;o<i.boxEndIndex;o++){var a=this.collisionBoxArray.get(o),s=a.x1,u=a.y1,l=a.x2,p=a.y2,c=a.radius>0;this.addCollisionDebugVertices(s,u,l,p,c?this.collisionCircle:this.collisionBox,a.anchorPoint,r,c);}}}},Ko.prototype.deserializeCollisionBoxes=function(t,e,r,n,i){for(var o={},a=e;a<r;a++){var s=t.get(a);if(0===s.radius){o.textBox={x1:s.x1,y1:s.y1,x2:s.x2,y2:s.y2,anchorPointX:s.anchorPointX,anchorPointY:s.anchorPointY},o.textFeatureIndex=s.featureIndex;break}o.textCircles||(o.textCircles=[],o.textFeatureIndex=s.featureIndex);o.textCircles.push(s.anchorPointX,s.anchorPointY,s.radius,s.signedDistanceFromAnchor,1);}for(var u=n;u<i;u++){var l=t.get(u);if(0===l.radius){o.iconBox={x1:l.x1,y1:l.y1,x2:l.x2,y2:l.y2,anchorPointX:l.anchorPointX,anchorPointY:l.anchorPointY},o.iconFeatureIndex=l.featureIndex;break}}return o},Ko.prototype.hasTextData=function(){return this.text.segments.get().length>0},Ko.prototype.hasIconData=function(){return this.icon.segments.get().length>0},Ko.prototype.hasCollisionBoxData=function(){return this.collisionBox.segments.get().length>0},Ko.prototype.hasCollisionCircleData=function(){return this.collisionCircle.segments.get().length>0},Ko.prototype.sortFeatures=function(t){var e=this;if(this.sortFeaturesByY&&this.sortedAngle!==t&&(this.sortedAngle=t,!(this.text.segments.get().length>1||this.icon.segments.get().length>1))){for(var r=[],n=0;n<this.symbolInstances.length;n++)r.push(n);var i=Math.sin(t),o=Math.cos(t);r.sort(function(t,r){var n=e.symbolInstances[t],a=e.symbolInstances[r];return(i*n.anchor.x+o*n.anchor.y|0)-(i*a.anchor.x+o*a.anchor.y|0)||a.featureIndex-n.featureIndex}),this.text.indexArray.clear(),this.icon.indexArray.clear(),this.featureSortOrder=[];for(var a=0,s=r;a<s.length;a+=1){var u=s[a],l=e.symbolInstances[u];e.featureSortOrder.push(l.featureIndex);for(var p=0,c=l.placedTextSymbolIndices;p<c.length;p+=1)for(var h=c[p],f=e.text.placedSymbolArray.get(h),y=f.vertexStartIndex+4*f.numGlyphs,d=f.vertexStartIndex;d<y;d+=4)e.text.indexArray.emplaceBack(d,d+1,d+2),e.text.indexArray.emplaceBack(d+1,d+2,d+3);var v=e.icon.placedSymbolArray.get(u);if(v.numGlyphs){var m=v.vertexStartIndex;e.icon.indexArray.emplaceBack(m,m+1,m+2),e.icon.indexArray.emplaceBack(m+1,m+2,m+3);}}this.text.indexBuffer&&this.text.indexBuffer.updateData(this.text.indexArray),this.icon.indexBuffer&&this.icon.indexBuffer.updateData(this.icon.indexArray);}},hr("SymbolBucket",Ko,{omit:["layers","collisionBoxArray","features","compareText"],shallow:["symbolInstances"]}),Ko.MAX_GLYPHS=65535,Ko.addDynamicAttributes=Do;var Jo=new Dr({"symbol-placement":new jr(E.layout_symbol["symbol-placement"]),"symbol-spacing":new jr(E.layout_symbol["symbol-spacing"]),"symbol-avoid-edges":new jr(E.layout_symbol["symbol-avoid-edges"]),"icon-allow-overlap":new jr(E.layout_symbol["icon-allow-overlap"]),"icon-ignore-placement":new jr(E.layout_symbol["icon-ignore-placement"]),"icon-optional":new jr(E.layout_symbol["icon-optional"]),"icon-rotation-alignment":new jr(E.layout_symbol["icon-rotation-alignment"]),"icon-size":new qr(E.layout_symbol["icon-size"]),"icon-text-fit":new jr(E.layout_symbol["icon-text-fit"]),"icon-text-fit-padding":new jr(E.layout_symbol["icon-text-fit-padding"]),"icon-image":new qr(E.layout_symbol["icon-image"]),"icon-rotate":new qr(E.layout_symbol["icon-rotate"]),"icon-padding":new jr(E.layout_symbol["icon-padding"]),"icon-keep-upright":new jr(E.layout_symbol["icon-keep-upright"]),"icon-offset":new qr(E.layout_symbol["icon-offset"]),"icon-anchor":new qr(E.layout_symbol["icon-anchor"]),"icon-pitch-alignment":new jr(E.layout_symbol["icon-pitch-alignment"]),"text-pitch-alignment":new jr(E.layout_symbol["text-pitch-alignment"]),"text-rotation-alignment":new jr(E.layout_symbol["text-rotation-alignment"]),"text-field":new qr(E.layout_symbol["text-field"]),"text-font":new qr(E.layout_symbol["text-font"]),"text-size":new qr(E.layout_symbol["text-size"]),"text-max-width":new qr(E.layout_symbol["text-max-width"]),"text-line-height":new jr(E.layout_symbol["text-line-height"]),"text-letter-spacing":new qr(E.layout_symbol["text-letter-spacing"]),"text-justify":new qr(E.layout_symbol["text-justify"]),"text-anchor":new qr(E.layout_symbol["text-anchor"]),"text-max-angle":new jr(E.layout_symbol["text-max-angle"]),"text-rotate":new qr(E.layout_symbol["text-rotate"]),"text-padding":new jr(E.layout_symbol["text-padding"]),"text-keep-upright":new jr(E.layout_symbol["text-keep-upright"]),"text-transform":new qr(E.layout_symbol["text-transform"]),"text-offset":new qr(E.layout_symbol["text-offset"]),"text-allow-overlap":new jr(E.layout_symbol["text-allow-overlap"]),"text-ignore-placement":new jr(E.layout_symbol["text-ignore-placement"]),"text-optional":new jr(E.layout_symbol["text-optional"])}),$o={paint:new Dr({"icon-opacity":new qr(E.paint_symbol["icon-opacity"]),"icon-color":new qr(E.paint_symbol["icon-color"]),"icon-halo-color":new qr(E.paint_symbol["icon-halo-color"]),"icon-halo-width":new qr(E.paint_symbol["icon-halo-width"]),"icon-halo-blur":new qr(E.paint_symbol["icon-halo-blur"]),"icon-translate":new jr(E.paint_symbol["icon-translate"]),"icon-translate-anchor":new jr(E.paint_symbol["icon-translate-anchor"]),"text-opacity":new qr(E.paint_symbol["text-opacity"]),"text-color":new qr(E.paint_symbol["text-color"]),"text-halo-color":new qr(E.paint_symbol["text-halo-color"]),"text-halo-width":new qr(E.paint_symbol["text-halo-width"]),"text-halo-blur":new qr(E.paint_symbol["text-halo-blur"]),"text-translate":new jr(E.paint_symbol["text-translate"]),"text-translate-anchor":new jr(E.paint_symbol["text-translate-anchor"])}),layout:Jo},Ho=function(t){function e(e){t.call(this,e,$o);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype.recalculate=function(e){t.prototype.recalculate.call(this,e),"auto"===this.layout.get("icon-rotation-alignment")&&("line"===this.layout.get("symbol-placement")?this.layout._values["icon-rotation-alignment"]="map":this.layout._values["icon-rotation-alignment"]="viewport"),"auto"===this.layout.get("text-rotation-alignment")&&("line"===this.layout.get("symbol-placement")?this.layout._values["text-rotation-alignment"]="map":this.layout._values["text-rotation-alignment"]="viewport"),"auto"===this.layout.get("text-pitch-alignment")&&(this.layout._values["text-pitch-alignment"]=this.layout.get("text-rotation-alignment")),"auto"===this.layout.get("icon-pitch-alignment")&&(this.layout._values["icon-pitch-alignment"]=this.layout.get("icon-rotation-alignment"));},e.prototype.getValueAndResolveTokens=function(t,e){var r,n=this.layout.get(t).evaluate(e),i=this._unevaluatedLayout._values[t];return i.isDataDriven()||be(i.value)?n:(r=e.properties,n.replace(/{([^{}]+)}/g,function(t,e){return e in r?String(r[e]):""}))},e.prototype.createBucket=function(t){return new Ko(t)},e.prototype.queryRadius=function(){return 0},e.prototype.queryIntersectsFeature=function(){return!1},e}(Nr),Xo={paint:new Dr({"background-color":new jr(E.paint_background["background-color"]),"background-pattern":new Rr(E.paint_background["background-pattern"]),"background-opacity":new jr(E.paint_background["background-opacity"])})},Go=function(t){function e(e){t.call(this,e,Xo);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e}(Nr),Yo={paint:new Dr({"raster-opacity":new jr(E.paint_raster["raster-opacity"]),"raster-hue-rotate":new jr(E.paint_raster["raster-hue-rotate"]),"raster-brightness-min":new jr(E.paint_raster["raster-brightness-min"]),"raster-brightness-max":new jr(E.paint_raster["raster-brightness-max"]),"raster-saturation":new jr(E.paint_raster["raster-saturation"]),"raster-contrast":new jr(E.paint_raster["raster-contrast"]),"raster-fade-duration":new jr(E.paint_raster["raster-fade-duration"])})},Wo={circle:ni,heatmap:fi,hillshade:di,fill:Yi,"fill-extrusion":oo,line:Vo,symbol:Ho,background:Go,raster:function(t){function e(e){t.call(this,e,Yo);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e}(Nr)};var Qo=n(function(t,e){t.exports=function(){function t(t,e,r){r=r||{},this.w=t||64,this.h=e||64,this.autoResize=!!r.autoResize,this.shelves=[],this.freebins=[],this.stats={},this.bins={},this.maxId=0;}function e(t,e,r){this.x=0,this.y=t,this.w=this.free=e,this.h=r;}return t.prototype.pack=function(t,e){t=[].concat(t),e=e||{};for(var r,n,i,o,a=[],s=0;s<t.length;s++)if(r=t[s].w||t[s].width,n=t[s].h||t[s].height,i=t[s].id,r&&n){if(!(o=this.packOne(r,n,i)))continue;e.inPlace&&(t[s].x=o.x,t[s].y=o.y,t[s].id=o.id),a.push(o);}return this.shrink(),a},t.prototype.packOne=function(t,r,n){var i,o,a,s,u,l,p,c,h={freebin:-1,shelf:-1,waste:1/0},f=0;if("string"==typeof n||"number"==typeof n){if(i=this.getBin(n))return this.ref(i),i;"number"==typeof n&&(this.maxId=Math.max(n,this.maxId));}else n=++this.maxId;for(s=0;s<this.freebins.length;s++){if(r===(i=this.freebins[s]).maxh&&t===i.maxw)return this.allocFreebin(s,t,r,n);r>i.maxh||t>i.maxw||r<=i.maxh&&t<=i.maxw&&(a=i.maxw*i.maxh-t*r)<h.waste&&(h.waste=a,h.freebin=s);}for(s=0;s<this.shelves.length;s++)if(f+=(o=this.shelves[s]).h,!(t>o.free)){if(r===o.h)return this.allocShelf(s,t,r,n);r>o.h||r<o.h&&(a=(o.h-r)*t)<h.waste&&(h.freebin=-1,h.waste=a,h.shelf=s);}return-1!==h.freebin?this.allocFreebin(h.freebin,t,r,n):-1!==h.shelf?this.allocShelf(h.shelf,t,r,n):r<=this.h-f&&t<=this.w?(o=new e(f,this.w,r),this.allocShelf(this.shelves.push(o)-1,t,r,n)):this.autoResize?(u=l=this.h,((p=c=this.w)<=u||t>p)&&(c=2*Math.max(t,p)),(u<p||r>u)&&(l=2*Math.max(r,u)),this.resize(c,l),this.packOne(t,r,n)):null},t.prototype.allocFreebin=function(t,e,r,n){var i=this.freebins.splice(t,1)[0];return i.id=n,i.w=e,i.h=r,i.refcount=0,this.bins[n]=i,this.ref(i),i},t.prototype.allocShelf=function(t,e,r,n){var i=this.shelves[t].alloc(e,r,n);return this.bins[n]=i,this.ref(i),i},t.prototype.shrink=function(){if(this.shelves.length>0){for(var t=0,e=0,r=0;r<this.shelves.length;r++){var n=this.shelves[r];e+=n.h,t=Math.max(n.w-n.free,t);}this.resize(t,e);}},t.prototype.getBin=function(t){return this.bins[t]},t.prototype.ref=function(t){if(1==++t.refcount){var e=t.h;this.stats[e]=1+(0|this.stats[e]);}return t.refcount},t.prototype.unref=function(t){return 0===t.refcount?0:(0==--t.refcount&&(this.stats[t.h]--,delete 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r=e.pixelRatio;this.paddedRect=t,this.pixelRatio=r;},ea={tl:{configurable:!0},br:{configurable:!0},displaySize:{configurable:!0}};ea.tl.get=function(){return[this.paddedRect.x+1,this.paddedRect.y+1]},ea.br.get=function(){return[this.paddedRect.x+this.paddedRect.w-1,this.paddedRect.y+this.paddedRect.h-1]},ea.displaySize.get=function(){return[(this.paddedRect.w-2)/this.pixelRatio,(this.paddedRect.h-2)/this.pixelRatio]},Object.defineProperties(ta.prototype,ea);var ra=function(t){var e=new pi({width:0,height:0}),r={},n=new Qo(0,0,{autoResize:!0});for(var i in t){var o=t[i],a=n.packOne(o.data.width+2,o.data.height+2);e.resize({width:n.w,height:n.h}),pi.copy(o.data,e,{x:0,y:0},{x:a.x+1,y:a.y+1},o.data),r[i]=new ta(a,o);}n.shrink(),e.resize({width:n.w,height:n.h}),this.image=e,this.positions=r;};hr("ImagePosition",ta),hr("ImageAtlas",ra);var na=function(t,e,r,n,i){var o,a,s=8*i-n-1,u=(1<<s)-1,l=u>>1,p=-7,c=r?i-1:0,h=r?-1:1,f=t[e+c];for(c+=h,o=f&(1<<-p)-1,f>>=-p,p+=s;p>0;o=256*o+t[e+c],c+=h,p-=8);for(a=o&(1<<-p)-1,o>>=-p,p+=n;p>0;a=256*a+t[e+c],c+=h,p-=8);if(0===o)o=1-l;else{if(o===u)return a?NaN:1/0*(f?-1:1);a+=Math.pow(2,n),o-=l;}return(f?-1:1)*a*Math.pow(2,o-n)},ia=function(t,e,r,n,i,o){var a,s,u,l=8*o-i-1,p=(1<<l)-1,c=p>>1,h=23===i?Math.pow(2,-24)-Math.pow(2,-77):0,f=n?0:o-1,y=n?1:-1,d=e<0||0===e&&1/e<0?1:0;for(e=Math.abs(e),isNaN(e)||e===1/0?(s=isNaN(e)?1:0,a=p):(a=Math.floor(Math.log(e)/Math.LN2),e*(u=Math.pow(2,-a))<1&&(a--,u*=2),(e+=a+c>=1?h/u:h*Math.pow(2,1-c))*u>=2&&(a++,u/=2),a+c>=p?(s=0,a=p):a+c>=1?(s=(e*u-1)*Math.pow(2,i),a+=c):(s=e*Math.pow(2,c-1)*Math.pow(2,i),a=0));i>=8;t[r+f]=255&s,f+=y,s/=256,i-=8);for(a=a<<i|s,l+=i;l>0;t[r+f]=255&a,f+=y,a/=256,l-=8);t[r+f-y]|=128*d;},oa=aa;function aa(t){this.buf=ArrayBuffer.isView&&ArrayBuffer.isView(t)?t:new 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r=0;r<t.length;r++)e.writeSFixed64(t[r]);}function xa(t,e){return(t[e]|t[e+1]<<8|t[e+2]<<16)+16777216*t[e+3]}function ba(t,e,r){t[r]=e,t[r+1]=e>>>8,t[r+2]=e>>>16,t[r+3]=e>>>24;}function wa(t,e){return(t[e]|t[e+1]<<8|t[e+2]<<16)+(t[e+3]<<24)}aa.prototype={destroy:function(){this.buf=null;},readFields:function(t,e,r){for(r=r||this.length;this.pos<r;){var n=this.readVarint(),i=n>>3,o=this.pos;this.type=7&n,t(i,e,this),this.pos===o&&this.skip(n);}return e},readMessage:function(t,e){return this.readFields(t,e,this.readVarint()+this.pos)},readFixed32:function(){var t=xa(this.buf,this.pos);return this.pos+=4,t},readSFixed32:function(){var t=wa(this.buf,this.pos);return this.pos+=4,t},readFixed64:function(){var t=xa(this.buf,this.pos)+4294967296*xa(this.buf,this.pos+4);return this.pos+=8,t},readSFixed64:function(){var t=xa(this.buf,this.pos)+4294967296*wa(this.buf,this.pos+4);return this.pos+=8,t},readFloat:function(){var t=na(this.buf,this.pos,!0,23,4);return this.pos+=4,t},readDouble:function(){var t=na(this.buf,this.pos,!0,52,8);return this.pos+=8,t},readVarint:function(t){var e,r,n=this.buf;return e=127&(r=n[this.pos++]),r<128?e:(e|=(127&(r=n[this.pos++]))<<7,r<128?e:(e|=(127&(r=n[this.pos++]))<<14,r<128?e:(e|=(127&(r=n[this.pos++]))<<21,r<128?e:function(t,e,r){var n,i,o=r.buf;if(i=o[r.pos++],n=(112&i)>>4,i<128)return ua(t,n,e);if(i=o[r.pos++],n|=(127&i)<<3,i<128)return ua(t,n,e);if(i=o[r.pos++],n|=(127&i)<<10,i<128)return ua(t,n,e);if(i=o[r.pos++],n|=(127&i)<<17,i<128)return ua(t,n,e);if(i=o[r.pos++],n|=(127&i)<<24,i<128)return ua(t,n,e);if(i=o[r.pos++],n|=(1&i)<<31,i<128)return ua(t,n,e);throw new Error("Expected varint not more than 10 bytes")}(e|=(15&(r=n[this.pos]))<<28,t,this))))},readVarint64:function(){return this.readVarint(!0)},readSVarint:function(){var t=this.readVarint();return t%2==1?(t+1)/-2:t/2},readBoolean:function(){return Boolean(this.readVarint())},readString:function(){var t=this.readVarint()+this.pos,e=function(t,e,r){var n="",i=e;for(;i<r;){var o,a,s,u=t[i],l=null,p=u>239?4:u>223?3:u>191?2:1;if(i+p>r)break;1===p?u<128&&(l=u):2===p?128==(192&(o=t[i+1]))&&(l=(31&u)<<6|63&o)<=127&&(l=null):3===p?(o=t[i+1],a=t[i+2],128==(192&o)&&128==(192&a)&&((l=(15&u)<<12|(63&o)<<6|63&a)<=2047||l>=55296&&l<=57343)&&(l=null)):4===p&&(o=t[i+1],a=t[i+2],s=t[i+3],128==(192&o)&&128==(192&a)&&128==(192&s)&&((l=(15&u)<<18|(63&o)<<12|(63&a)<<6|63&s)<=65535||l>=1114112)&&(l=null)),null===l?(l=65533,p=1):l>65535&&(l-=65536,n+=String.fromCharCode(l>>>10&1023|55296),l=56320|1023&l),n+=String.fromCharCode(l),i+=p;}return n}(this.buf,this.pos,t);return this.pos=t,e},readBytes:function(){var t=this.readVarint()+this.pos,e=this.buf.subarray(this.pos,t);return this.pos=t,e},readPackedVarint:function(t,e){var r=sa(this);for(t=t||[];this.pos<r;)t.push(this.readVarint(e));return t},readPackedSVarint:function(t){var e=sa(this);for(t=t||[];this.pos<e;)t.push(this.readSVarint());return t},readPackedBoolean:function(t){var e=sa(this);for(t=t||[];this.pos<e;)t.push(this.readBoolean());return t},readPackedFloat:function(t){var e=sa(this);for(t=t||[];this.pos<e;)t.push(this.readFloat());return t},readPackedDouble:function(t){var e=sa(this);for(t=t||[];this.pos<e;)t.push(this.readDouble());return t},readPackedFixed32:function(t){var e=sa(this);for(t=t||[];this.pos<e;)t.push(this.readFixed32());return t},readPackedSFixed32:function(t){var e=sa(this);for(t=t||[];this.pos<e;)t.push(this.readSFixed32());return t},readPackedFixed64:function(t){var e=sa(this);for(t=t||[];this.pos<e;)t.push(this.readFixed64());return t},readPackedSFixed64:function(t){var e=sa(this);for(t=t||[];this.pos<e;)t.push(this.readSFixed64());return t},skip:function(t){var e=7&t;if(e===aa.Varint)for(;this.buf[this.pos++]>127;);else if(e===aa.Bytes)this.pos=this.readVarint()+this.pos;else if(e===aa.Fixed32)this.pos+=4;else{if(e!==aa.Fixed64)throw new Error("Unimplemented type: "+e);this.pos+=8;}},writeTag:function(t,e){this.writeVarint(t<<3|e);},realloc:function(t){for(var e=this.length||16;e<this.pos+t;)e*=2;if(e!==this.length){var r=new Uint8Array(e);r.set(this.buf),this.buf=r,this.length=e;}},finish:function(){return this.length=this.pos,this.pos=0,this.buf.subarray(0,this.length)},writeFixed32:function(t){this.realloc(4),ba(this.buf,t,this.pos),this.pos+=4;},writeSFixed32:function(t){this.realloc(4),ba(this.buf,t,this.pos),this.pos+=4;},writeFixed64:function(t){this.realloc(8),ba(this.buf,-1&t,this.pos),ba(this.buf,Math.floor(t*(1/4294967296)),this.pos+4),this.pos+=8;},writeSFixed64:function(t){this.realloc(8),ba(this.buf,-1&t,this.pos),ba(this.buf,Math.floor(t*(1/4294967296)),this.pos+4),this.pos+=8;},writeVarint:function(t){(t=+t||0)>268435455||t<0?function(t,e){var r,n;t>=0?(r=t%4294967296|0,n=t/4294967296|0):(n=~(-t/4294967296),4294967295^(r=~(-t%4294967296))?r=r+1|0:(r=0,n=n+1|0));if(t>=0x10000000000000000||t<-0x10000000000000000)throw new Error("Given varint doesn't fit into 10 bytes");e.realloc(10),function(t,e,r){r.buf[r.pos++]=127&t|128,t>>>=7,r.buf[r.pos++]=127&t|128,t>>>=7,r.buf[r.pos++]=127&t|128,t>>>=7,r.buf[r.pos++]=127&t|128,t>>>=7,r.buf[r.pos]=127&t;}(r,0,e),function(t,e){var r=(7&t)<<4;if(e.buf[e.pos++]|=r|((t>>>=3)?128:0),!t)return;if(e.buf[e.pos++]=127&t|((t>>>=7)?128:0),!t)return;if(e.buf[e.pos++]=127&t|((t>>>=7)?128:0),!t)return;if(e.buf[e.pos++]=127&t|((t>>>=7)?128:0),!t)return;if(e.buf[e.pos++]=127&t|((t>>>=7)?128:0),!t)return;e.buf[e.pos++]=127&t;}(n,e);}(t,this):(this.realloc(4),this.buf[this.pos++]=127&t|(t>127?128:0),t<=127||(this.buf[this.pos++]=127&(t>>>=7)|(t>127?128:0),t<=127||(this.buf[this.pos++]=127&(t>>>=7)|(t>127?128:0),t<=127||(this.buf[this.pos++]=t>>>7&127))));},writeSVarint:function(t){this.writeVarint(t<0?2*-t-1:2*t);},writeBoolean:function(t){this.writeVarint(Boolean(t));},writeString:function(t){t=String(t),this.realloc(4*t.length),this.pos++;var e=this.pos;this.pos=function(t,e,r){for(var n,i,o=0;o<e.length;o++){if((n=e.charCodeAt(o))>55295&&n<57344){if(!i){n>56319||o+1===e.length?(t[r++]=239,t[r++]=191,t[r++]=189):i=n;continue}if(n<56320){t[r++]=239,t[r++]=191,t[r++]=189,i=n;continue}n=i-55296<<10|n-56320|65536,i=null;}else i&&(t[r++]=239,t[r++]=191,t[r++]=189,i=null);n<128?t[r++]=n:(n<2048?t[r++]=n>>6|192:(n<65536?t[r++]=n>>12|224:(t[r++]=n>>18|240,t[r++]=n>>12&63|128),t[r++]=n>>6&63|128),t[r++]=63&n|128);}return r}(this.buf,t,this.pos);var r=this.pos-e;r>=128&&la(e,r,this),this.pos=e-1,this.writeVarint(r),this.pos+=r;},writeFloat:function(t){this.realloc(4),ia(this.buf,t,this.pos,!0,23,4),this.pos+=4;},writeDouble:function(t){this.realloc(8),ia(this.buf,t,this.pos,!0,52,8),this.pos+=8;},writeBytes:function(t){var e=t.length;this.writeVarint(e),this.realloc(e);for(var r=0;r<e;r++)this.buf[this.pos++]=t[r];},writeRawMessage:function(t,e){this.pos++;var r=this.pos;t(e,this);var n=this.pos-r;n>=128&&la(r,n,this),this.pos=r-1,this.writeVarint(n),this.pos+=n;},writeMessage:function(t,e,r){this.writeTag(t,aa.Bytes),this.writeRawMessage(e,r);},writePackedVarint:function(t,e){this.writeMessage(t,pa,e);},writePackedSVarint:function(t,e){this.writeMessage(t,ca,e);},writePackedBoolean:function(t,e){this.writeMessage(t,ya,e);},writePackedFloat:function(t,e){this.writeMessage(t,ha,e);},writePackedDouble:function(t,e){this.writeMessage(t,fa,e);},writePackedFixed32:function(t,e){this.writeMessage(t,da,e);},writePackedSFixed32:function(t,e){this.writeMessage(t,va,e);},writePackedFixed64:function(t,e){this.writeMessage(t,ma,e);},writePackedSFixed64:function(t,e){this.writeMessage(t,ga,e);},writeBytesField:function(t,e){this.writeTag(t,aa.Bytes),this.writeBytes(e);},writeFixed32Field:function(t,e){this.writeTag(t,aa.Fixed32),this.writeFixed32(e);},writeSFixed32Field:function(t,e){this.writeTag(t,aa.Fixed32),this.writeSFixed32(e);},writeFixed64Field:function(t,e){this.writeTag(t,aa.Fixed64),this.writeFixed64(e);},writeSFixed64Field:function(t,e){this.writeTag(t,aa.Fixed64),this.writeSFixed64(e);},writeVarintField:function(t,e){this.writeTag(t,aa.Varint),this.writeVarint(e);},writeSVarintField:function(t,e){this.writeTag(t,aa.Varint),this.writeSVarint(e);},writeStringField:function(t,e){this.writeTag(t,aa.Bytes),this.writeString(e);},writeFloatField:function(t,e){this.writeTag(t,aa.Fixed32),this.writeFloat(e);},writeDoubleField:function(t,e){this.writeTag(t,aa.Fixed64),this.writeDouble(e);},writeBooleanField:function(t,e){this.writeVarintField(t,Boolean(e));}};var _a=3;function Aa(t,e,r){1===t&&r.readMessage(ka,e);}function ka(t,e,r){if(3===t){var n=r.readMessage(za,{}),i=n.id,o=n.bitmap,a=n.width,s=n.height,u=n.left,l=n.top,p=n.advance;e.push({id:i,bitmap:new li({width:a+2*_a,height:s+2*_a},o),metrics:{width:a,height:s,left:u,top:l,advance:p}});}}function za(t,e,r){1===t?e.id=r.readVarint():2===t?e.bitmap=r.readBytes():3===t?e.width=r.readVarint():4===t?e.height=r.readVarint():5===t?e.left=r.readSVarint():6===t?e.top=r.readSVarint():7===t&&(e.advance=r.readVarint());}var Sa=_a,Ma=function(t,e,r){this.target=t,this.parent=e,this.mapId=r,this.callbacks={},this.callbackID=0,y(["receive"],this),this.target.addEventListener("message",this.receive,!1);};Ma.prototype.send=function(t,e,r,n){var i=r?this.mapId+":"+this.callbackID++:null;r&&(this.callbacks[i]=r);var o=[];this.target.postMessage({targetMapId:n,sourceMapId:this.mapId,type:t,id:String(i),data:yr(e,o)},o);},Ma.prototype.receive=function(t){var e,r=this,n=t.data,i=n.id;if(!n.targetMapId||this.mapId===n.targetMapId){var o=function(t,e){var n=[];r.target.postMessage({sourceMapId:r.mapId,type:"<response>",id:String(i),error:t?yr(t):null,data:yr(e,n)},n);};if("<response>"===n.type)e=this.callbacks[n.id],delete this.callbacks[n.id],e&&n.error?e(dr(n.error)):e&&e(null,dr(n.data));else if(void 0!==n.id&&this.parent[n.type])this.parent[n.type](n.sourceMapId,dr(n.data),o);else if(void 0!==n.id&&this.parent.getWorkerSource){var a=n.type.split(".");this.parent.getWorkerSource(n.sourceMapId,a[0],a[1])[a[2]](dr(n.data),o);}else this.parent[n.type](dr(n.data));}},Ma.prototype.remove=function(){this.target.removeEventListener("message",this.receive,!1);};var Va=r(n(function(t,e){!function(t){function e(t,e,n){e=Math.pow(2,n)-e-1;var i=r(256*t,256*e,n),o=r(256*(t+1),256*(e+1),n);return i[0]+","+i[1]+","+o[0]+","+o[1]}function r(t,e,r){var n=2*Math.PI*6378137/256/Math.pow(2,r),i=t*n-2*Math.PI*6378137/2,o=e*n-2*Math.PI*6378137/2;return[i,o]}t.getURL=function(t,r,n,i,o,a){return a=a||{},t+"?"+["bbox="+e(n,i,o),"format="+(a.format||"image/png"),"service="+(a.service||"WMS"),"version="+(a.version||"1.1.1"),"request="+(a.request||"GetMap"),"srs="+(a.srs||"EPSG:3857"),"width="+(a.width||256),"height="+(a.height||256),"layers="+r].join("&")},t.getTileBBox=e,t.getMercCoords=r,Object.defineProperty(t,"__esModule",{value:!0});}(e);})),Ba=function(t,e,r){this.z=t,this.x=e,this.y=r,this.key=Ea(0,t,e,r);};Ba.prototype.equals=function(t){return this.z===t.z&&this.x===t.x&&this.y===t.y},Ba.prototype.url=function(t,e){var r=Va.getTileBBox(this.x,this.y,this.z),n=function(t,e,r){for(var n,i="",o=t;o>0;o--)i+=(e&(n=1<<o-1)?1:0)+(r&n?2:0);return i}(this.z,this.x,this.y);return t[(this.x+this.y)%t.length].replace("{prefix}",(this.x%16).toString(16)+(this.y%16).toString(16)).replace("{z}",String(this.z)).replace("{x}",String(this.x)).replace("{y}",String("tms"===e?Math.pow(2,this.z)-this.y-1:this.y)).replace("{quadkey}",n).replace("{bbox-epsg-3857}",r)};var Ca=function(t,e){this.wrap=t,this.canonical=e,this.key=Ea(t,e.z,e.x,e.y);},Ia=function(t,e,r,n,i){this.overscaledZ=t,this.wrap=e,this.canonical=new Ba(r,+n,+i),this.key=Ea(e,t,n,i);};function Ea(t,e,r,n){(t*=2)<0&&(t=-1*t-1);var i=1<<e;return 32*(i*i*t+i*n+r)+e}Ia.prototype.equals=function(t){return this.overscaledZ===t.overscaledZ&&this.wrap===t.wrap&&this.canonical.equals(t.canonical)},Ia.prototype.scaledTo=function(t){var e=this.canonical.z-t;return t>this.canonical.z?new Ia(t,this.wrap,this.canonical.z,this.canonical.x,this.canonical.y):new Ia(t,this.wrap,t,this.canonical.x>>e,this.canonical.y>>e)},Ia.prototype.isChildOf=function(t){var e=this.canonical.z-t.canonical.z;return 0===t.overscaledZ||t.overscaledZ<this.overscaledZ&&t.canonical.x===this.canonical.x>>e&&t.canonical.y===this.canonical.y>>e},Ia.prototype.children=function(t){if(this.overscaledZ>=t)return[new Ia(this.overscaledZ+1,this.wrap,this.canonical.z,this.canonical.x,this.canonical.y)];var e=this.canonical.z+1,r=2*this.canonical.x,n=2*this.canonical.y;return[new Ia(e,this.wrap,e,r,n),new Ia(e,this.wrap,e,r+1,n),new Ia(e,this.wrap,e,r,n+1),new Ia(e,this.wrap,e,r+1,n+1)]},Ia.prototype.isLessThan=function(t){return this.wrap<t.wrap||!(this.wrap>t.wrap)&&(this.overscaledZ<t.overscaledZ||!(this.overscaledZ>t.overscaledZ)&&(this.canonical.x<t.canonical.x||!(this.canonical.x>t.canonical.x)&&this.canonical.y<t.canonical.y))},Ia.prototype.wrapped=function(){return new Ia(this.overscaledZ,0,this.canonical.z,this.canonical.x,this.canonical.y)},Ia.prototype.unwrapTo=function(t){return new Ia(this.overscaledZ,t,this.canonical.z,this.canonical.x,this.canonical.y)},Ia.prototype.overscaleFactor=function(){return Math.pow(2,this.overscaledZ-this.canonical.z)},Ia.prototype.toUnwrapped=function(){return new Ca(this.wrap,this.canonical)},Ia.prototype.toString=function(){return this.overscaledZ+"/"+this.canonical.x+"/"+this.canonical.y},Ia.prototype.toCoordinate=function(){return new a(this.canonical.x+Math.pow(2,this.wrap),this.canonical.y,this.canonical.z)},hr("CanonicalTileID",Ba),hr("OverscaledTileID",Ia,{omit:["posMatrix"]});var Fa=function(t,e,r){if(t<=0)throw new RangeError("Level must have positive dimension");this.dim=t,this.border=e,this.stride=this.dim+2*this.border,this.data=r||new Int32Array((this.dim+2*this.border)*(this.dim+2*this.border));};Fa.prototype.set=function(t,e,r){this.data[this._idx(t,e)]=r+65536;},Fa.prototype.get=function(t,e){return this.data[this._idx(t,e)]-65536},Fa.prototype._idx=function(t,e){if(t<-this.border||t>=this.dim+this.border||e<-this.border||e>=this.dim+this.border)throw new RangeError("out of range source coordinates for DEM data");return(e+this.border)*this.stride+(t+this.border)},hr("Level",Fa);var Pa=function(t,e,r){this.uid=t,this.scale=e||1,this.level=r||new Fa(256,512),this.loaded=!!r;};Pa.prototype.loadFromImage=function(t,e){if(t.height!==t.width)throw new RangeError("DEM tiles must be square");if(e&&"mapbox"!==e&&"terrarium"!==e)return b('"'+e+'" is not a valid encoding type. Valid types include "mapbox" and "terrarium".');var r=this.level=new Fa(t.width,t.width/2),n=t.data;this._unpackData(r,n,e||"mapbox");for(var i=0;i<r.dim;i++)r.set(-1,i,r.get(0,i)),r.set(r.dim,i,r.get(r.dim-1,i)),r.set(i,-1,r.get(i,0)),r.set(i,r.dim,r.get(i,r.dim-1));r.set(-1,-1,r.get(0,0)),r.set(r.dim,-1,r.get(r.dim-1,0)),r.set(-1,r.dim,r.get(0,r.dim-1)),r.set(r.dim,r.dim,r.get(r.dim-1,r.dim-1)),this.loaded=!0;},Pa.prototype._unpackMapbox=function(t,e,r){return(256*t*256+256*e+r)/10-1e4},Pa.prototype._unpackTerrarium=function(t,e,r){return 256*t+e+r/256-32768},Pa.prototype._unpackData=function(t,e,r){for(var n={mapbox:this._unpackMapbox,terrarium:this._unpackTerrarium}[r],i=0;i<t.dim;i++)for(var o=0;o<t.dim;o++){var a=4*(i*t.dim+o);t.set(o,i,this.scale*n(e[a],e[a+1],e[a+2]));}},Pa.prototype.getPixels=function(){return new pi({width:this.level.dim+2*this.level.border,height:this.level.dim+2*this.level.border},new Uint8Array(this.level.data.buffer))},Pa.prototype.backfillBorder=function(t,e,r){var n=this.level,i=t.level;if(n.dim!==i.dim)throw new Error("level mismatch (dem dimension)");var o=e*n.dim,a=e*n.dim+n.dim,s=r*n.dim,u=r*n.dim+n.dim;switch(e){case-1:o=a-1;break;case 1:a=o+1;}switch(r){case-1:s=u-1;break;case 1:u=s+1;}for(var l=c(o,-n.border,n.dim+n.border),p=c(a,-n.border,n.dim+n.border),h=c(s,-n.border,n.dim+n.border),f=c(u,-n.border,n.dim+n.border),y=-e*n.dim,d=-r*n.dim,v=h;v<f;v++)for(var m=l;m<p;m++)n.set(m,v,i.get(m+y,v+d));},hr("DEMData",Pa);var Ta=function(t){this._stringToNumber={},this._numberToString=[];for(var e=0;e<t.length;e++){var r=t[e];this._stringToNumber[r]=e,this._numberToString[e]=r;}};Ta.prototype.encode=function(t){return this._stringToNumber[t]},Ta.prototype.decode=function(t){return this._numberToString[t]};var Oa=function(t,e,r,n){this.type="Feature",this._vectorTileFeature=t,t._z=e,t._x=r,t._y=n,this.properties=t.properties,null!=t.id&&(this.id=t.id);},La={geometry:{configurable:!0}};La.geometry.get=function(){return void 0===this._geometry&&(this._geometry=this._vectorTileFeature.toGeoJSON(this._vectorTileFeature._x,this._vectorTileFeature._y,this._vectorTileFeature._z).geometry),this._geometry},La.geometry.set=function(t){this._geometry=t;},Oa.prototype.toJSON=function(){var t={geometry:this.geometry};for(var e in this)"_geometry"!==e&&"_vectorTileFeature"!==e&&(t[e]=this[e]);return t},Object.defineProperties(Oa.prototype,La);var ja=function(t,e,r){this.tileID=t,this.x=t.canonical.x,this.y=t.canonical.y,this.z=t.canonical.z,this.grid=e||new sr(Pn,16,0),this.featureIndexArray=r||new An;};function qa(t,e){return e-t}ja.prototype.insert=function(t,e,r,n,i){var o=this.featureIndexArray.length;this.featureIndexArray.emplaceBack(r,n,i);for(var a=0;a<e.length;a++){for(var s=e[a],u=[1/0,1/0,-1/0,-1/0],l=0;l<s.length;l++){var p=s[l];u[0]=Math.min(u[0],p.x),u[1]=Math.min(u[1],p.y),u[2]=Math.max(u[2],p.x),u[3]=Math.max(u[3],p.y);}u[0]<Pn&&u[1]<Pn&&u[2]>=0&&u[3]>=0&&this.grid.insert(o,u[0],u[1],u[2],u[3]);}},ja.prototype.loadVTLayers=function(){return this.vtLayers||(this.vtLayers=new vo.VectorTile(new oa(this.rawTileData)).layers,this.sourceLayerCoder=new Ta(this.vtLayers?Object.keys(this.vtLayers).sort():["_geojsonTileLayer"])),this.vtLayers},ja.prototype.query=function(t,e){var r=this;this.loadVTLayers();for(var n=t.params||{},i=Pn/t.tileSize/t.scale,o=Te(n.filter),a=t.queryGeometry,s=t.queryPadding*i,u=1/0,l=1/0,p=-1/0,c=-1/0,h=0;h<a.length;h++)for(var f=a[h],y=0;y<f.length;y++){var d=f[y];u=Math.min(u,d.x),l=Math.min(l,d.y),p=Math.max(p,d.x),c=Math.max(c,d.y);}var v=this.grid.query(u-s,l-s,p+s,c+s);v.sort(qa);for(var m,g={},x=function(s){var u=v[s];if(u!==m){m=u;var 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d=t.layers[0].layout,g=d.get("text-offset").evaluate(i),v=d.get("icon-offset").evaluate(i),x=h/24,w=t.tilePixelRatio*x,S=t.tilePixelRatio*p/24,M=t.tilePixelRatio*c,b=t.tilePixelRatio*d.get("symbol-spacing"),_=d.get("text-padding")*t.tilePixelRatio,I=d.get("icon-padding")*t.tilePixelRatio,z=d.get("text-max-angle")/180*Math.PI,T="map"===d.get("text-rotation-alignment")&&"line"===d.get("symbol-placement"),P="map"===d.get("icon-rotation-alignment")&&"line"===d.get("symbol-placement"),k=b/2,L=function(o,h){h.x<0||h.x>=e.default$8||h.y<0||h.y>=e.default$8||t.symbolInstances.push(function(t,i,r,n,o,l,u,h,c,f,p,d,g,v,m,x,w,S,M,b,_){var I,z,T=t.addToLineVertexArray(i,r),P=0,k=0,L=0,$=n.horizontal?n.horizontal.text:"",D=[];n.horizontal&&(I=new s(u,r,i,h,c,f,n.horizontal,p,d,g,t.overscaling),k+=y(t,i,n.horizontal,l,g,M,v,T,n.vertical?e.WritingMode.horizontal:e.WritingMode.horizontalOnly,D,b,_),n.vertical&&(L+=y(t,i,n.vertical,l,g,M,v,T,e.WritingMode.vertical,D,b,_)));var O=I?I.boxStartIndex:t.collisionBoxArray.length,C=I?I.boxEndIndex:t.collisionBoxArray.length;if(o){var A=function(t,i,r,n,o,a){var s,l,u,h,c=i.image,f=r.layout,p=i.top-1/c.pixelRatio,d=i.left-1/c.pixelRatio,g=i.bottom+1/c.pixelRatio,v=i.right+1/c.pixelRatio;if("none"!==f.get("icon-text-fit")&&o){var y=v-d,m=g-p,x=f.get("text-size").evaluate(a)/24,w=o.left*x,S=o.right*x,M=o.top*x,b=S-w,_=o.bottom*x-M,I=f.get("icon-text-fit-padding")[0],z=f.get("icon-text-fit-padding")[1],T=f.get("icon-text-fit-padding")[2],P=f.get("icon-text-fit-padding")[3],k="width"===f.get("icon-text-fit")?.5*(_-m):0,L="height"===f.get("icon-text-fit")?.5*(b-y):0,$="width"===f.get("icon-text-fit")||"both"===f.get("icon-text-fit")?b:y,D="height"===f.get("icon-text-fit")||"both"===f.get("icon-text-fit")?_:m;s=new e.default$1(w+L-P,M+k-I),l=new e.default$1(w+L+z+$,M+k-I),u=new e.default$1(w+L+z+$,M+k+T+D),h=new e.default$1(w+L-P,M+k+T+D);}else s=new e.default$1(d,p),l=new e.default$1(v,p),u=new e.default$1(v,g),h=new e.default$1(d,g);var O=r.layout.get("icon-rotate").evaluate(a)*Math.PI/180;if(O){var C=Math.sin(O),A=Math.cos(O),E=[A,-C,C,A];s._matMult(E),l._matMult(E),h._matMult(E),u._matMult(E);}return[{tl:s,tr:l,bl:h,br:u,tex:c.paddedRect,writingMode:void 0,glyphOffset:[0,0]}]}(0,o,l,0,n.horizontal,M);z=new s(u,r,i,h,c,f,o,m,x,!1,t.overscaling),P=4*A.length;var E=t.iconSizeData,N=null;"source"===E.functionType?N=[10*l.layout.get("icon-size").evaluate(M)]:"composite"===E.functionType&&(N=[10*_.compositeIconSizes[0].evaluate(M),10*_.compositeIconSizes[1].evaluate(M)]),t.addSymbols(t.icon,A,N,S,w,M,!1,i,T.lineStartIndex,T.lineLength);}var R=z?z.boxStartIndex:t.collisionBoxArray.length,B=z?z.boxEndIndex:t.collisionBoxArray.length;t.glyphOffsetArray.length>=e.default$14.MAX_GLYPHS&&e.warnOnce("Too many glyphs being rendered in a tile. 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t=this.data,i=this.compare,r=t[e];e>0;){var n=e-1>>1,o=t[n];if(i(r,o)>=0)break;t[e]=o,e=n;}t[e]=r;},_down:function(e){for(var t=this.data,i=this.compare,r=this.length>>1,n=t[e];e<r;){var o=1+(e<<1),a=o+1,s=t[o];if(a<this.length&&i(t[a],s)<0&&(o=a,s=t[a]),i(s,n)>=0)break;t[e]=s,e=o;}t[e]=n;}},l.default=u;var x=function(t){var i=new e.AlphaImage({width:0,height:0}),r={},n=new e.default$2(0,0,{autoResize:!0});for(var o in t){var a=t[o],s=r[o]={};for(var l in a){var u=a[+l];if(u&&0!==u.bitmap.width&&0!==u.bitmap.height){var h=n.packOne(u.bitmap.width+2,u.bitmap.height+2);i.resize({width:n.w,height:n.h}),e.AlphaImage.copy(u.bitmap,i,{x:0,y:0},{x:h.x+1,y:h.y+1},u.bitmap),s[l]={rect:h,metrics:u.metrics};}}}n.shrink(),i.resize({width:n.w,height:n.h}),this.image=i,this.positions=r;};e.register("GlyphAtlas",x);var w=function(t){this.tileID=new e.OverscaledTileID(t.tileID.overscaledZ,t.tileID.wrap,t.tileID.canonical.z,t.tileID.canonical.x,t.tileID.canonical.y),this.uid=t.uid,this.zoom=t.zoom,this.pixelRatio=t.pixelRatio,this.tileSize=t.tileSize,this.source=t.source,this.overscaling=this.tileID.overscaleFactor(),this.showCollisionBoxes=t.showCollisionBoxes,this.collectResourceTiming=!!t.collectResourceTiming;};function S(t,i){for(var r=new e.default$16(i),n=0,o=t;n<o.length;n+=1){o[n].recalculate(r);}}w.prototype.parse=function(t,i,r,n){var o=this;this.status="parsing",this.data=t,this.collisionBoxArray=new e.CollisionBoxArray;var a=new e.default$27(Object.keys(t.layers).sort()),s=new e.default$11(this.tileID);s.bucketLayerIDs=[];var l,u,h,c={},f={featureIndex:s,iconDependencies:{},glyphDependencies:{}},p=i.familiesBySource[this.source];for(var d in p){var v=t.layers[d];if(v){1===v.version&&e.warnOnce('Vector tile source "'+o.source+'" layer "'+d+'" does not use vector tile spec v2 and therefore may have some rendering errors.');for(var y=a.encode(d),m=[],w=0;w<v.length;w++){var M=v.feature(w);m.push({feature:M,index:w,sourceLayerIndex:y});}for(var b=0,_=p[d];b<_.length;b+=1){var I=_[b],z=I[0];if(!(z.minzoom&&o.zoom<Math.floor(z.minzoom)))if(!(z.maxzoom&&o.zoom>=z.maxzoom))if("none"!==z.visibility)S(I,o.zoom),(c[z.id]=z.createBucket({index:s.bucketLayerIDs.length,layers:I,zoom:o.zoom,pixelRatio:o.pixelRatio,overscaling:o.overscaling,collisionBoxArray:o.collisionBoxArray,sourceLayerIndex:y})).populate(m,f),s.bucketLayerIDs.push(I.map(function(e){return e.id}));}}}var T=e.mapObject(f.glyphDependencies,function(e){return Object.keys(e).map(Number)});Object.keys(T).length?r.send("getGlyphs",{uid:this.uid,stacks:T},function(e,t){l||(l=e,u=t,k.call(o));}):u={};var P=Object.keys(f.iconDependencies);function k(){if(l)return n(l);if(u&&h){var t=new x(u),i=new e.default$28(h);for(var r in c){var o=c[r];o instanceof 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l=0;l<n.length;l++){var u=n[l];for(s=0;s<u.length;s++)We(a,u[s],e,i,!0,0===s);}if(a.length){var h=t.tags||null;if("LineString"===o&&r.lineMetrics){for(var c in h={},t.tags)h[c]=t.tags[c];h.mapbox_clip_start=n.start/n.size,h.mapbox_clip_end=n.end/n.size;}var f={geometry:a,type:"Polygon"===o||"MultiPolygon"===o?3:"LineString"===o||"MultiLineString"===o?2:1,tags:h};null!==t.id&&(f.id=t.id),e.features.push(f);}}function We(e,t,i,r,n,o){var a=r*r;if(r>0&&t.size<(n?a:r))i.numPoints+=t.length/3;else{for(var s=[],l=0;l<t.length;l+=3)(0===r||t[l+2]>a)&&(i.numSimplified++,s.push(t[l]),s.push(t[l+1])),i.numPoints++;n&&function(e,t){for(var i=0,r=0,n=e.length,o=n-2;r<n;o=r,r+=2)i+=(e[r]-e[o])*(e[r+1]+e[o+1]);if(i>0===t)for(r=0,n=e.length;r<n/2;r+=2){var a=e[r],s=e[r+1];e[r]=e[n-2-r],e[r+1]=e[n-1-r],e[n-2-r]=a,e[n-1-r]=s;}}(s,o),e.push(s);}}function Ye(e,t){var i=(t=this.options=function(e,t){for(var i in t)e[i]=t[i];return e}(Object.create(this.options),t)).debug;if(i&&console.time("preprocess 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i=e.tileID.canonical;if(!this._geoJSONIndex)return t(null,null);var r=this._geoJSONIndex.getTile(i.z,i.x,i.y);if(!r)return t(null,null);var n=new N(r.features),o=V(n);0===o.byteOffset&&o.byteLength===o.buffer.byteLength||(o=new Uint8Array(o)),t(null,{vectorTile:n,rawData:o.buffer});}ce.prototype={options:{minZoom:0,maxZoom:16,radius:40,extent:512,nodeSize:64,log:!1,reduce:null,initial:function(){return{}},map:function(e){return e}},load:function(e){var t=this.options.log;t&&console.time("total time");var i="prepare "+e.length+" points";t&&console.time(i),this.points=e;var r=e.map(pe);t&&console.timeEnd(i);for(var n=this.options.maxZoom;n>=this.options.minZoom;n--){var o=+Date.now();this.trees[n+1]=ae(r,xe,we,this.options.nodeSize,Float32Array),r=this._cluster(r,n),t&&console.log("z%d: %d clusters in %dms",n,r.length,+Date.now()-o);}return this.trees[this.options.minZoom]=ae(r,xe,we,this.options.nodeSize,Float32Array),t&&console.timeEnd("total time"),this},getClusters:function(e,t){for(var i=this.trees[this._limitZoom(t)],r=i.range(ve(e[0]),ye(e[3]),ve(e[2]),ye(e[1])),n=[],o=0;o<r.length;o++){var a=i.points[r[o]];n.push(a.numPoints?de(a):this.points[a.id]);}return n},getChildren:function(e,t){for(var i=this.trees[t+1].points[e],r=this.options.radius/(this.options.extent*Math.pow(2,t)),n=this.trees[t+1].within(i.x,i.y,r),o=[],a=0;a<n.length;a++){var s=this.trees[t+1].points[n[a]];s.parentId===e&&o.push(s.numPoints?de(s):this.points[s.id]);}return o},getLeaves:function(e,t,i,r){i=i||10,r=r||0;var n=[];return this._appendLeaves(n,e,t,i,r,0),n},getTile:function(e,t,i){var r=this.trees[this._limitZoom(e)],n=Math.pow(2,e),o=this.options.extent,a=this.options.radius/o,s=(i-a)/n,l=(i+1+a)/n,u={features:[]};return this._addTileFeatures(r.range((t-a)/n,s,(t+1+a)/n,l),r.points,t,i,n,u),0===t&&this._addTileFeatures(r.range(1-a/n,s,1,l),r.points,n,i,n,u),t===n-1&&this._addTileFeatures(r.range(0,s,a/n,l),r.points,-1,i,n,u),u.features.length?u:null},getClusterExpansionZoom:function(e,t){for(;t<this.options.maxZoom;){var i=this.getChildren(e,t);if(t++,1!==i.length)break;e=i[0].properties.cluster_id;}return t},_appendLeaves:function(e,t,i,r,n,o){for(var a=this.getChildren(t,i),s=0;s<a.length;s++){var l=a[s].properties;if(l.cluster?o+l.point_count<=n?o+=l.point_count:o=this._appendLeaves(e,l.cluster_id,i+1,r,n,o):o<n?o++:e.push(a[s]),e.length===r)break}return o},_addTileFeatures:function(e,t,i,r,n,o){for(var a=0;a<e.length;a++){var s=t[e[a]];o.features.push({type:1,geometry:[[Math.round(this.options.extent*(s.x*n-i)),Math.round(this.options.extent*(s.y*n-r))]],tags:s.numPoints?ge(s):this.points[s.id].properties});}},_limitZoom:function(e){return Math.max(this.options.minZoom,Math.min(e,this.options.maxZoom+1))},_cluster:function(e,t){for(var i=[],r=this.options.radius/(this.options.extent*Math.pow(2,t)),n=0;n<e.length;n++){var o=e[n];if(!(o.zoom<=t)){o.zoom=t;var a=this.trees[t+1],s=a.within(o.x,o.y,r),l=o.numPoints||1,u=o.x*l,h=o.y*l,c=null;this.options.reduce&&(c=this.options.initial(),this._accumulate(c,o));for(var f=0;f<s.length;f++){var p=a.points[s[f]];if(t<p.zoom){var d=p.numPoints||1;p.zoom=t,u+=p.x*d,h+=p.y*d,l+=d,p.parentId=n,this.options.reduce&&this._accumulate(c,p);}}1===l?i.push(o):(o.parentId=n,i.push(fe(u/l,h/l,l,n,c)));}}return i},_accumulate:function(e,t){var i=t.numPoints?t.properties:this.options.map(this.points[t.id].properties);this.options.reduce(e,i);}},Ye.prototype.options={maxZoom:14,indexMaxZoom:5,indexMaxPoints:1e5,tolerance:3,extent:4096,buffer:64,lineMetrics:!1,debug:0},Ye.prototype.splitTile=function(e,t,i,r,n,o,a){for(var s=[e,t,i,r],l=this.options,u=l.debug;s.length;){r=s.pop(),i=s.pop(),t=s.pop(),e=s.pop();var h=1<<t,c=Ze(t,i,r),f=this.tiles[c];if(!f&&(u>1&&console.time("creation"),f=this.tiles[c]=Ve(e,t,i,r,l),this.tileCoords.push({z:t,x:i,y:r}),u)){u>1&&(console.log("tile z%d-%d-%d (features: %d, points: %d, simplified: %d)",t,i,r,f.numFeatures,f.numPoints,f.numSimplified),console.timeEnd("creation"));var p="z"+t;this.stats[p]=(this.stats[p]||0)+1,this.total++;}if(f.source=e,n){if(t===l.maxZoom||t===n)continue;var d=1<<n-t;if(i!==Math.floor(o/d)||r!==Math.floor(a/d))continue}else if(t===l.indexMaxZoom||f.numPoints<=l.indexMaxPoints)continue;if(f.source=null,0!==e.length){u>1&&console.time("clipping");var g,v,y,m,x,w,S=.5*l.buffer/l.extent,M=.5-S,b=.5+S,_=1+S;g=v=y=m=null,x=Le(e,h,i-S,i+b,0,f.minX,f.maxX,l),w=Le(e,h,i+M,i+_,0,f.minX,f.maxX,l),e=null,x&&(g=Le(x,h,r-S,r+b,1,f.minY,f.maxY,l),v=Le(x,h,r+M,r+_,1,f.minY,f.maxY,l),x=null),w&&(y=Le(w,h,r-S,r+b,1,f.minY,f.maxY,l),m=Le(w,h,r+M,r+_,1,f.minY,f.maxY,l),w=null),u>1&&console.timeEnd("clipping"),s.push(g||[],t+1,2*i,2*r),s.push(v||[],t+1,2*i,2*r+1),s.push(y||[],t+1,2*i+1,2*r),s.push(m||[],t+1,2*i+1,2*r+1);}}},Ye.prototype.getTile=function(e,t,i){var r=this.options,n=r.extent,o=r.debug;if(e<0||e>24)return null;var a=1<<e,s=Ze(e,t=(t%a+a)%a,i);if(this.tiles[s])return Fe(this.tiles[s],n);o>1&&console.log("drilling down to z%d-%d-%d",e,t,i);for(var l,u=e,h=t,c=i;!l&&u>0;)u--,h=Math.floor(h/2),c=Math.floor(c/2),l=this.tiles[Ze(u,h,c)];return l&&l.source?(o>1&&console.log("found parent tile z%d-%d-%d",u,h,c),o>1&&console.time("drilling down"),this.splitTile(l.source,u,h,c,e,t,i),o>1&&console.timeEnd("drilling down"),this.tiles[s]?Fe(this.tiles[s],n):null):null};var Xe=function(t){function i(e,i,r){t.call(this,e,i,je),r&&(this.loadGeoJSON=r);}return t&&(i.__proto__=t),i.prototype=Object.create(t&&t.prototype),i.prototype.constructor=i,i.prototype.loadData=function(e,t){this._pendingCallback&&this._pendingCallback(null,{abandoned:!0}),this._pendingCallback=t,this._pendingLoadDataParams=e,this._state&&"Idle"!==this._state?this._state="NeedsLoadData":(this._state="Coalescing",this._loadData());},i.prototype._loadData=function(){var e=this;if(this._pendingCallback&&this._pendingLoadDataParams){var t=this._pendingCallback,i=this._pendingLoadDataParams;delete this._pendingCallback,delete this._pendingLoadDataParams,this.loadGeoJSON(i,function(r,n){if(r||!n)return t(r);if("object"!=typeof n)return t(new Error("Input data is not a valid GeoJSON object."));$(n,!0);try{e._geoJSONIndex=i.cluster?he(i.superclusterOptions).load(n.features):function(e,t){return new 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e.default$7(t,this),this.layerIndexes={},this.workerSourceTypes={vector:_,geojson:Xe},this.workerSources={},this.demWorkerSources={},this.self.registerWorkerSource=function(e,t){if(i.workerSourceTypes[e])throw new Error('Worker source with name "'+e+'" already registered.');i.workerSourceTypes[e]=t;},this.self.registerRTLTextPlugin=function(t){if(e.plugin.isLoaded())throw new Error("RTL text plugin already registered.");e.plugin.applyArabicShaping=t.applyArabicShaping,e.plugin.processBidirectionalText=t.processBidirectionalText;};};return qe.prototype.setLayers=function(e,t,i){this.getLayerIndex(e).replace(t),i();},qe.prototype.updateLayers=function(e,t,i){this.getLayerIndex(e).update(t.layers,t.removedIds),i();},qe.prototype.loadTile=function(e,t,i){this.getWorkerSource(e,t.type,t.source).loadTile(t,i);},qe.prototype.loadDEMTile=function(e,t,i){this.getDEMWorkerSource(e,t.source).loadTile(t,i);},qe.prototype.reloadTile=function(e,t,i){this.getWorkerSource(e,t.type,t.source).reloadTile(t,i);},qe.prototype.abortTile=function(e,t,i){this.getWorkerSource(e,t.type,t.source).abortTile(t,i);},qe.prototype.removeTile=function(e,t,i){this.getWorkerSource(e,t.type,t.source).removeTile(t,i);},qe.prototype.removeDEMTile=function(e,t){this.getDEMWorkerSource(e,t.source).removeTile(t);},qe.prototype.removeSource=function(e,t,i){if(this.workerSources[e]&&this.workerSources[e][t.type]&&this.workerSources[e][t.type][t.source]){var r=this.workerSources[e][t.type][t.source];delete this.workerSources[e][t.type][t.source],void 0!==r.removeSource?r.removeSource(t,i):i();}},qe.prototype.loadWorkerSource=function(e,t,i){try{this.self.importScripts(t.url),i();}catch(e){i(e.toString());}},qe.prototype.loadRTLTextPlugin=function(t,i,r){try{e.plugin.isLoaded()||(this.self.importScripts(i),r(e.plugin.isLoaded()?null:new Error("RTL Text Plugin failed to import scripts from "+i)));}catch(e){r(e.toString());}},qe.prototype.getLayerIndex=function(e){var t=this.layerIndexes[e];return t||(t=this.layerIndexes[e]=new r),t},qe.prototype.getWorkerSource=function(e,t,i){var r=this;if(this.workerSources[e]||(this.workerSources[e]={}),this.workerSources[e][t]||(this.workerSources[e][t]={}),!this.workerSources[e][t][i]){var n={send:function(t,i,n){r.actor.send(t,i,n,e);}};this.workerSources[e][t][i]=new this.workerSourceTypes[t](n,this.getLayerIndex(e));}return this.workerSources[e][t][i]},qe.prototype.getDEMWorkerSource=function(e,t){return this.demWorkerSources[e]||(this.demWorkerSources[e]={}),this.demWorkerSources[e][t]||(this.demWorkerSources[e][t]=new I),this.demWorkerSources[e][t]},"undefined"!=typeof WorkerGlobalScope&&"undefined"!=typeof self&&self instanceof WorkerGlobalScope&&new qe(self),qe});
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D?a.texSubImage2D(a.TEXTURE_2D,0,0,0,a.RGBA,a.UNSIGNED_BYTE,t):a.texSubImage2D(a.TEXTURE_2D,0,0,0,i,n,a.RGBA,a.UNSIGNED_BYTE,t.data),this.useMipmap&&this.isSizePowerOfTwo()&&a.generateMipmap(a.TEXTURE_2D);},M.prototype.bind=function(t,e,i){var n=this.context.gl;n.bindTexture(n.TEXTURE_2D,this.texture),i!==n.LINEAR_MIPMAP_NEAREST||this.isSizePowerOfTwo()||(i=n.LINEAR),t!==this.filter&&(n.texParameteri(n.TEXTURE_2D,n.TEXTURE_MAG_FILTER,t),n.texParameteri(n.TEXTURE_2D,n.TEXTURE_MIN_FILTER,i||t),this.filter=t),e!==this.wrap&&(n.texParameteri(n.TEXTURE_2D,n.TEXTURE_WRAP_S,e),n.texParameteri(n.TEXTURE_2D,n.TEXTURE_WRAP_T,e),this.wrap=e);},M.prototype.isSizePowerOfTwo=function(){return this.size[0]===this.size[1]&&Math.log(this.size[0])/Math.LN2%1==0},M.prototype.destroy=function(){this.context.gl.deleteTexture(this.texture),this.texture=null;};var L=function(){this.images={},this.loaded=!1,this.requestors=[],this.shelfPack=new t.default$2(64,64,{autoResize:!0}),this.patterns={},this.atlasImage=new t.RGBAImage({width:64,height:64}),this.dirty=!0;};L.prototype.isLoaded=function(){return this.loaded},L.prototype.setLoaded=function(t){if(this.loaded!==t&&(this.loaded=t,t)){for(var e=0,i=this.requestors;e<i.length;e+=1){var n=i[e],o=n.ids,r=n.callback;this._notify(o,r);}this.requestors=[];}},L.prototype.getImage=function(t){return this.images[t]},L.prototype.addImage=function(t,e){this.images[t]=e;},L.prototype.removeImage=function(t){delete this.images[t];var e=this.patterns[t];e&&(this.shelfPack.unref(e.bin),delete this.patterns[t]);},L.prototype.getImages=function(t,e){var i=!0;if(!this.isLoaded())for(var n=0,o=t;n<o.length;n+=1){var r=o[n];this.images[r]||(i=!1);}this.isLoaded()||i?this._notify(t,e):this.requestors.push({ids:t,callback:e});},L.prototype._notify=function(t,e){for(var i={},n=0,o=t;n<o.length;n+=1){var 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e=t.gl;this.atlasTexture?this.dirty&&(this.atlasTexture.update(this.atlasImage),this.dirty=!1):this.atlasTexture=new M(t,this.atlasImage,e.RGBA),this.atlasTexture.bind(e.LINEAR,e.CLAMP_TO_EDGE);};var P=B,k=1e20;function B(t,e,i,n,o,r){this.fontSize=t||24,this.buffer=void 0===e?3:e,this.cutoff=n||.25,this.fontFamily=o||"sans-serif",this.fontWeight=r||"normal",this.radius=i||8;var a=this.size=this.fontSize+2*this.buffer;this.canvas=document.createElement("canvas"),this.canvas.width=this.canvas.height=a,this.ctx=this.canvas.getContext("2d"),this.ctx.font=this.fontWeight+" "+this.fontSize+"px "+this.fontFamily,this.ctx.textBaseline="middle",this.ctx.fillStyle="black",this.gridOuter=new Float64Array(a*a),this.gridInner=new Float64Array(a*a),this.f=new Float64Array(a),this.d=new Float64Array(a),this.z=new Float64Array(a+1),this.v=new Int16Array(a),this.middle=Math.round(a/2*(navigator.userAgent.indexOf("Gecko/")>=0?1.2:1));}function O(t,e,i,n,o,r,a){for(var s=0;s<e;s++){for(var l=0;l<i;l++)n[l]=t[l*e+s];for(F(n,o,r,a,i),l=0;l<i;l++)t[l*e+s]=o[l];}for(l=0;l<i;l++){for(s=0;s<e;s++)n[s]=t[l*e+s];for(F(n,o,r,a,e),s=0;s<e;s++)t[l*e+s]=Math.sqrt(o[s]);}}function F(t,e,i,n,o){i[0]=0,n[0]=-k,n[1]=+k;for(var r=1,a=0;r<o;r++){for(var s=(t[r]+r*r-(t[i[a]]+i[a]*i[a]))/(2*r-2*i[a]);s<=n[a];)a--,s=(t[r]+r*r-(t[i[a]]+i[a]*i[a]))/(2*r-2*i[a]);i[++a]=r,n[a]=s,n[a+1]=+k;}for(r=0,a=0;r<o;r++){for(;n[a+1]<r;)a++;e[r]=(r-i[a])*(r-i[a])+t[i[a]];}}B.prototype.draw=function(t){this.ctx.clearRect(0,0,this.size,this.size),this.ctx.fillText(t,this.buffer,this.middle);for(var e=this.ctx.getImageData(0,0,this.size,this.size),i=new Uint8ClampedArray(this.size*this.size),n=0;n<this.size*this.size;n++){var o=e.data[4*n+3]/255;this.gridOuter[n]=1===o?0:0===o?k:Math.pow(Math.max(0,.5-o),2),this.gridInner[n]=1===o?k:0===o?0:Math.pow(Math.max(0,o-.5),2);}for(O(this.gridOuter,this.size,this.size,this.f,this.d,this.v,this.z),O(this.gridInner,this.size,this.size,this.f,this.d,this.v,this.z),n=0;n<this.size*this.size;n++){var r=this.gridOuter[n]-this.gridInner[n];i[n]=Math.max(0,Math.min(255,Math.round(255-255*(r/this.radius+this.cutoff))));}return i};var N=function(t,e){this.requestTransform=t,this.localIdeographFontFamily=e,this.entries={};};N.prototype.setURL=function(t){this.url=t;},N.prototype.getGlyphs=function(e,i){var n=this,o=[];for(var r in e)for(var a=0,s=e[r];a<s.length;a+=1){var l=s[a];o.push({stack:r,id:l});}t.asyncAll(o,function(t,e){var i=t.stack,o=t.id,r=n.entries[i];r||(r=n.entries[i]={glyphs:{},requests:{}});var a=r.glyphs[o];if(void 0===a)if(a=n._tinySDF(r,i,o))e(null,{stack:i,id:o,glyph:a});else{var s=Math.floor(o/256);if(256*s>65535)e(new Error("glyphs > 65535 not supported"));else{var l=r.requests[s];l||(l=r.requests[s]=[],N.loadGlyphRange(i,s,n.url,n.requestTransform,function(t,e){if(e)for(var i in e)r.glyphs[+i]=e[+i];for(var n=0,o=l;n<o.length;n+=1){(0,o[n])(t,e);}delete r.requests[s];})),l.push(function(t,n){t?e(t):n&&e(null,{stack:i,id:o,glyph:n[o]||null});});}}else e(null,{stack:i,id:o,glyph:a});},function(t,e){if(t)i(t);else if(e){for(var n={},o=0,r=e;o<r.length;o+=1){var a=r[o],s=a.stack,l=a.id,c=a.glyph;(n[s]||(n[s]={}))[l]=c&&{id:c.id,bitmap:c.bitmap.clone(),metrics:c.metrics};}i(null,n);}});},N.prototype._tinySDF=function(e,i,n){var o=this.localIdeographFontFamily;if(o&&(t.default$4["CJK Unified Ideographs"](n)||t.default$4["Hangul Syllables"](n))){var r=e.tinySDF;if(!r){var a="400";/bold/i.test(i)?a="900":/medium/i.test(i)?a="500":/light/i.test(i)&&(a="200"),r=e.tinySDF=new N.TinySDF(24,3,8,.25,o,a);}return{id:n,bitmap:new t.AlphaImage({width:30,height:30},r.draw(String.fromCharCode(n))),metrics:{width:24,height:24,left:0,top:-8,advance:24}}}},N.loadGlyphRange=function(e,i,n,o,r){var a=256*i,s=a+255,l=o(x(n).replace("{fontstack}",e).replace("{range}",a+"-"+s),t.ResourceType.Glyphs);t.getArrayBuffer(l,function(e,i){if(e)r(e);else if(i){for(var n={},o=0,a=t.default$3(i.data);o<a.length;o+=1){var s=a[o];n[s.id]=s;}r(null,n);}});},N.TinySDF=P;var U=function(){this.specification=t.default$5.light.position;};U.prototype.possiblyEvaluate=function(e,i){return t.sphericalToCartesian(e.expression.evaluate(i))},U.prototype.interpolate=function(e,i,n){return{x:t.number(e.x,i.x,n),y:t.number(e.y,i.y,n),z:t.number(e.z,i.z,n)}};var Z=new t.Properties({anchor:new t.DataConstantProperty(t.default$5.light.anchor),position:new U,color:new t.DataConstantProperty(t.default$5.light.color),intensity:new t.DataConstantProperty(t.default$5.light.intensity)}),V=function(e){function i(i){e.call(this),this._transitionable=new t.Transitionable(Z),this.setLight(i),this._transitioning=this._transitionable.untransitioned();}return e&&(i.__proto__=e),i.prototype=Object.create(e&&e.prototype),i.prototype.constructor=i,i.prototype.getLight=function(){return this._transitionable.serialize()},i.prototype.setLight=function(e){if(!this._validate(t.validateLight,e))for(var i in e){var n=e[i];t.endsWith(i,"-transition")?this._transitionable.setTransition(i.slice(0,-"-transition".length),n):this._transitionable.setValue(i,n);}},i.prototype.updateTransitions=function(t){this._transitioning=this._transitionable.transitioned(t,this._transitioning);},i.prototype.hasTransition=function(){return this._transitioning.hasTransition()},i.prototype.recalculate=function(t){this.properties=this._transitioning.possiblyEvaluate(t);},i.prototype._validate=function(e,i){return t.emitValidationErrors(this,e.call(t.validateStyle,t.extend({value:i,style:{glyphs:!0,sprite:!0},styleSpec:t.default$5})))},i}(t.Evented),j=function(t,e){this.width=t,this.height=e,this.nextRow=0,this.bytes=4,this.data=new Uint8Array(this.width*this.height*this.bytes),this.positions={};};j.prototype.getDash=function(t,e){var i=t.join(",")+String(e);return this.positions[i]||(this.positions[i]=this.addDash(t,e)),this.positions[i]},j.prototype.addDash=function(e,i){var n=i?7:0,o=2*n+1;if(this.nextRow+o>this.height)return t.warnOnce("LineAtlas out of space"),null;for(var r=0,a=0;a<e.length;a++)r+=e[a];for(var s=this.width/r,l=s/2,c=e.length%2==1,u=-n;u<=n;u++)for(var h=this.nextRow+n+u,p=this.width*h,d=c?-e[e.length-1]:0,f=e[0],m=1,_=0;_<this.width;_++){for(;f<_/s;)d=f,f+=e[m],c&&m===e.length-1&&(f+=e[0]),m++;var g=Math.abs(_-d*s),v=Math.abs(_-f*s),y=Math.min(g,v),x=m%2==1,b=void 0;if(i){var w=n?u/n*(l+1):0;if(x){var E=l-Math.abs(w);b=Math.sqrt(y*y+E*E);}else b=l-Math.sqrt(y*y+w*w);}else b=(x?1:-1)*y;this.data[3+4*(p+_)]=Math.max(0,Math.min(255,b+128));}var T={y:(this.nextRow+n+.5)/this.height,height:2*n/this.height,width:r};return this.nextRow+=o,this.dirty=!0,T},j.prototype.bind=function(t){var e=t.gl;this.texture?(e.bindTexture(e.TEXTURE_2D,this.texture),this.dirty&&(this.dirty=!1,e.texSubImage2D(e.TEXTURE_2D,0,0,0,this.width,this.height,e.RGBA,e.UNSIGNED_BYTE,this.data))):(this.texture=e.createTexture(),e.bindTexture(e.TEXTURE_2D,this.texture),e.texParameteri(e.TEXTURE_2D,e.TEXTURE_WRAP_S,e.REPEAT),e.texParameteri(e.TEXTURE_2D,e.TEXTURE_WRAP_T,e.REPEAT),e.texParameteri(e.TEXTURE_2D,e.TEXTURE_MIN_FILTER,e.LINEAR),e.texParameteri(e.TEXTURE_2D,e.TEXTURE_MAG_FILTER,e.LINEAR),e.texImage2D(e.TEXTURE_2D,0,e.RGBA,this.width,this.height,0,e.RGBA,e.UNSIGNED_BYTE,this.data));};var $=function e(i,n){this.workerPool=i,this.actors=[],this.currentActor=0,this.id=t.uniqueId();for(var o=this.workerPool.acquire(this.id),r=0;r<o.length;r++){var a=o[r],s=new e.Actor(a,n,this.id);s.name="Worker "+r,this.actors.push(s);}};function G(e,i,n){var o=function(e,i){if(e)return n(e);if(i){var o=t.pick(i,["tiles","minzoom","maxzoom","attribution","mapbox_logo","bounds"]);i.vector_layers&&(o.vectorLayers=i.vector_layers,o.vectorLayerIds=o.vectorLayers.map(function(t){return t.id})),n(null,o);}};e.url?t.getJSON(i(b(e.url),t.ResourceType.Source),o):r.frame(function(){return o(null,e)});}$.prototype.broadcast=function(e,i,n){n=n||function(){},t.asyncAll(this.actors,function(t,n){t.send(e,i,n);},n);},$.prototype.send=function(t,e,i,n){return("number"!=typeof n||isNaN(n))&&(n=this.currentActor=(this.currentActor+1)%this.actors.length),this.actors[n].send(t,e,i),n},$.prototype.remove=function(){this.actors.forEach(function(t){t.remove();}),this.actors=[],this.workerPool.release(this.id);},$.Actor=t.default$7;var W=function(t,e){if(isNaN(t)||isNaN(e))throw new Error("Invalid LngLat object: ("+t+", "+e+")");if(this.lng=+t,this.lat=+e,this.lat>90||this.lat<-90)throw new Error("Invalid LngLat latitude value: must be between -90 and 90")};W.prototype.wrap=function(){return new W(t.wrap(this.lng,-180,180),this.lat)},W.prototype.toArray=function(){return[this.lng,this.lat]},W.prototype.toString=function(){return"LngLat("+this.lng+", "+this.lat+")"},W.prototype.toBounds=function(t){var e=360*t/40075017,i=e/Math.cos(Math.PI/180*this.lat);return new q(new W(this.lng-i,this.lat-e),new W(this.lng+i,this.lat+e))},W.convert=function(t){if(t instanceof W)return t;if(Array.isArray(t)&&(2===t.length||3===t.length))return new W(Number(t[0]),Number(t[1]));if(!Array.isArray(t)&&"object"==typeof t&&null!==t)return new W(Number(t.lng),Number(t.lat));throw new Error("`LngLatLike` argument must be specified as a LngLat instance, an object {lng: <lng>, lat: <lat>}, or an array of [<lng>, <lat>]")};var q=function(t,e){t&&(e?this.setSouthWest(t).setNorthEast(e):4===t.length?this.setSouthWest([t[0],t[1]]).setNorthEast([t[2],t[3]]):this.setSouthWest(t[0]).setNorthEast(t[1]));};q.prototype.setNorthEast=function(t){return this._ne=t instanceof W?new W(t.lng,t.lat):W.convert(t),this},q.prototype.setSouthWest=function(t){return this._sw=t instanceof W?new W(t.lng,t.lat):W.convert(t),this},q.prototype.extend=function(t){var e,i,n=this._sw,o=this._ne;if(t instanceof W)e=t,i=t;else{if(!(t instanceof q))return Array.isArray(t)?t.every(Array.isArray)?this.extend(q.convert(t)):this.extend(W.convert(t)):this;if(e=t._sw,i=t._ne,!e||!i)return this}return n||o?(n.lng=Math.min(e.lng,n.lng),n.lat=Math.min(e.lat,n.lat),o.lng=Math.max(i.lng,o.lng),o.lat=Math.max(i.lat,o.lat)):(this._sw=new W(e.lng,e.lat),this._ne=new W(i.lng,i.lat)),this},q.prototype.getCenter=function(){return new W((this._sw.lng+this._ne.lng)/2,(this._sw.lat+this._ne.lat)/2)},q.prototype.getSouthWest=function(){return this._sw},q.prototype.getNorthEast=function(){return this._ne},q.prototype.getNorthWest=function(){return new W(this.getWest(),this.getNorth())},q.prototype.getSouthEast=function(){return new W(this.getEast(),this.getSouth())},q.prototype.getWest=function(){return this._sw.lng},q.prototype.getSouth=function(){return this._sw.lat},q.prototype.getEast=function(){return this._ne.lng},q.prototype.getNorth=function(){return this._ne.lat},q.prototype.toArray=function(){return[this._sw.toArray(),this._ne.toArray()]},q.prototype.toString=function(){return"LngLatBounds("+this._sw.toString()+", "+this._ne.toString()+")"},q.prototype.isEmpty=function(){return!(this._sw&&this._ne)},q.convert=function(t){return!t||t instanceof q?t:new q(t)};var X=function(t,e,i){this.bounds=q.convert(this.validateBounds(t)),this.minzoom=e||0,this.maxzoom=i||24;};X.prototype.validateBounds=function(t){return Array.isArray(t)&&4===t.length?[Math.max(-180,t[0]),Math.max(-90,t[1]),Math.min(180,t[2]),Math.min(90,t[3])]:[-180,-90,180,90]},X.prototype.contains=function(t){var e=Math.floor(this.lngX(this.bounds.getWest(),t.z)),i=Math.floor(this.latY(this.bounds.getNorth(),t.z)),n=Math.ceil(this.lngX(this.bounds.getEast(),t.z)),o=Math.ceil(this.latY(this.bounds.getSouth(),t.z));return t.x>=e&&t.x<n&&t.y>=i&&t.y<o},X.prototype.lngX=function(t,e){return(t+180)*(Math.pow(2,e)/360)},X.prototype.latY=function(e,i){var n=t.clamp(Math.sin(Math.PI/180*e),-.9999,.9999),o=Math.pow(2,i)/(2*Math.PI);return Math.pow(2,i-1)+.5*Math.log((1+n)/(1-n))*-o};var H=function(e){function i(i,n,o,r){if(e.call(this),this.id=i,this.dispatcher=o,this.type="vector",this.minzoom=0,this.maxzoom=22,this.scheme="xyz",this.tileSize=512,this.reparseOverscaled=!0,this.isTileClipped=!0,t.extend(this,t.pick(n,["url","scheme","tileSize"])),this._options=t.extend({type:"vector"},n),this._collectResourceTiming=n.collectResourceTiming,512!==this.tileSize)throw new Error("vector tile sources must have a tileSize of 512");this.setEventedParent(r);}return e&&(i.__proto__=e),i.prototype=Object.create(e&&e.prototype),i.prototype.constructor=i,i.prototype.load=function(){var e=this;this.fire(new t.Event("dataloading",{dataType:"source"})),G(this._options,this.map._transformRequest,function(i,n){i?e.fire(new t.ErrorEvent(i)):n&&(t.extend(e,n),n.bounds&&(e.tileBounds=new X(n.bounds,e.minzoom,e.maxzoom)),e.fire(new t.Event("data",{dataType:"source",sourceDataType:"metadata"})),e.fire(new t.Event("data",{dataType:"source",sourceDataType:"content"})));});},i.prototype.hasTile=function(t){return!this.tileBounds||this.tileBounds.contains(t.canonical)},i.prototype.onAdd=function(t){this.map=t,this.load();},i.prototype.serialize=function(){return t.extend({},this._options)},i.prototype.loadTile=function(e,i){var n=T(e.tileID.canonical.url(this.tiles,this.scheme),this.url),o={request:this.map._transformRequest(n,t.ResourceType.Tile),uid:e.uid,tileID:e.tileID,zoom:e.tileID.overscaledZ,tileSize:this.tileSize*e.tileID.overscaleFactor(),type:this.type,source:this.id,pixelRatio:r.devicePixelRatio,showCollisionBoxes:this.map.showCollisionBoxes};function a(t,n){return e.aborted?i(null):t?i(t):(n&&n.resourceTiming&&(e.resourceTiming=n.resourceTiming),this.map._refreshExpiredTiles&&e.setExpiryData(n),e.loadVectorData(n,this.map.painter),i(null),void(e.reloadCallback&&(this.loadTile(e,e.reloadCallback),e.reloadCallback=null)))}o.request.collectResourceTiming=this._collectResourceTiming,void 0===e.workerID||"expired"===e.state?e.workerID=this.dispatcher.send("loadTile",o,a.bind(this)):"loading"===e.state?e.reloadCallback=i:this.dispatcher.send("reloadTile",o,a.bind(this),e.workerID);},i.prototype.abortTile=function(t){this.dispatcher.send("abortTile",{uid:t.uid,type:this.type,source:this.id},void 0,t.workerID);},i.prototype.unloadTile=function(t){t.unloadVectorData(),this.dispatcher.send("removeTile",{uid:t.uid,type:this.type,source:this.id},void 0,t.workerID);},i.prototype.hasTransition=function(){return!1},i}(t.Evented),K=function(e){function i(i,n,o,r){e.call(this),this.id=i,this.dispatcher=o,this.setEventedParent(r),this.type="raster",this.minzoom=0,this.maxzoom=22,this.roundZoom=!0,this.scheme="xyz",this.tileSize=512,this._loaded=!1,this._options=t.extend({},n),t.extend(this,t.pick(n,["url","scheme","tileSize"]));}return e&&(i.__proto__=e),i.prototype=Object.create(e&&e.prototype),i.prototype.constructor=i,i.prototype.load=function(){var e=this;this.fire(new t.Event("dataloading",{dataType:"source"})),G(this._options,this.map._transformRequest,function(i,n){i?e.fire(new t.ErrorEvent(i)):n&&(t.extend(e,n),n.bounds&&(e.tileBounds=new X(n.bounds,e.minzoom,e.maxzoom)),e.fire(new t.Event("data",{dataType:"source",sourceDataType:"metadata"})),e.fire(new t.Event("data",{dataType:"source",sourceDataType:"content"})));});},i.prototype.onAdd=function(t){this.map=t,this.load();},i.prototype.serialize=function(){return t.extend({},this._options)},i.prototype.hasTile=function(t){return!this.tileBounds||this.tileBounds.contains(t.canonical)},i.prototype.loadTile=function(e,i){var n=this,o=T(e.tileID.canonical.url(this.tiles,this.scheme),this.url,this.tileSize);e.request=t.getImage(this.map._transformRequest(o,t.ResourceType.Tile),function(t,o){if(delete e.request,e.aborted)e.state="unloaded",i(null);else if(t)e.state="errored",i(t);else if(o){n.map._refreshExpiredTiles&&e.setExpiryData(o),delete o.cacheControl,delete o.expires;var r=n.map.painter.context,a=r.gl;e.texture=n.map.painter.getTileTexture(o.width),e.texture?e.texture.update(o,{useMipmap:!0}):(e.texture=new M(r,o,a.RGBA,{useMipmap:!0}),e.texture.bind(a.LINEAR,a.CLAMP_TO_EDGE,a.LINEAR_MIPMAP_NEAREST),r.extTextureFilterAnisotropic&&a.texParameterf(a.TEXTURE_2D,r.extTextureFilterAnisotropic.TEXTURE_MAX_ANISOTROPY_EXT,r.extTextureFilterAnisotropicMax)),e.state="loaded",i(null);}});},i.prototype.abortTile=function(t,e){t.request&&(t.request.abort(),delete t.request),e();},i.prototype.unloadTile=function(t,e){t.texture&&this.map.painter.saveTileTexture(t.texture),e();},i.prototype.hasTransition=function(){return!1},i}(t.Evented),Y=function(e){function i(i,n,o,r){e.call(this,i,n,o,r),this.type="raster-dem",this.maxzoom=22,this._options=t.extend({},n),this.encoding=n.encoding||"mapbox";}return e&&(i.__proto__=e),i.prototype=Object.create(e&&e.prototype),i.prototype.constructor=i,i.prototype.serialize=function(){return{type:"raster-dem",url:this.url,tileSize:this.tileSize,tiles:this.tiles,bounds:this.bounds,encoding:this.encoding}},i.prototype.loadTile=function(e,i){var n=T(e.tileID.canonical.url(this.tiles,this.scheme),this.url,this.tileSize);e.request=t.getImage(this.map._transformRequest(n,t.ResourceType.Tile),function(t,n){if(delete e.request,e.aborted)e.state="unloaded",i(null);else if(t)e.state="errored",i(t);else if(n){this.map._refreshExpiredTiles&&e.setExpiryData(n),delete n.cacheControl,delete n.expires;var o=r.getImageData(n),a={uid:e.uid,coord:e.tileID,source:this.id,rawImageData:o,encoding:this.encoding};e.workerID&&"expired"!==e.state||(e.workerID=this.dispatcher.send("loadDEMTile",a,function(t,n){t&&(e.state="errored",i(t));n&&(e.dem=n,e.needsHillshadePrepare=!0,e.state="loaded",i(null));}.bind(this)));}}.bind(this)),e.neighboringTiles=this._getNeighboringTiles(e.tileID);},i.prototype._getNeighboringTiles=function(e){var i=e.canonical,n=Math.pow(2,i.z),o=(i.x-1+n)%n,r=0===i.x?e.wrap-1:e.wrap,a=(i.x+1+n)%n,s=i.x+1===n?e.wrap+1:e.wrap,l={};return l[new t.OverscaledTileID(e.overscaledZ,r,i.z,o,i.y).key]={backfilled:!1},l[new t.OverscaledTileID(e.overscaledZ,s,i.z,a,i.y).key]={backfilled:!1},i.y>0&&(l[new t.OverscaledTileID(e.overscaledZ,r,i.z,o,i.y-1).key]={backfilled:!1},l[new t.OverscaledTileID(e.overscaledZ,e.wrap,i.z,i.x,i.y-1).key]={backfilled:!1},l[new t.OverscaledTileID(e.overscaledZ,s,i.z,a,i.y-1).key]={backfilled:!1}),i.y+1<n&&(l[new t.OverscaledTileID(e.overscaledZ,r,i.z,o,i.y+1).key]={backfilled:!1},l[new t.OverscaledTileID(e.overscaledZ,e.wrap,i.z,i.x,i.y+1).key]={backfilled:!1},l[new t.OverscaledTileID(e.overscaledZ,s,i.z,a,i.y+1).key]={backfilled:!1}),l},i.prototype.unloadTile=function(t){t.demTexture&&this.map.painter.saveTileTexture(t.demTexture),t.fbo&&(t.fbo.destroy(),delete t.fbo),t.dem&&delete t.dem,delete t.neighboringTiles,t.state="unloaded",this.dispatcher.send("removeDEMTile",{uid:t.uid,source:this.id},void 0,t.workerID);},i}(K),J=function(e){function i(i,n,o,r){e.call(this),this.id=i,this.type="geojson",this.minzoom=0,this.maxzoom=18,this.tileSize=512,this.isTileClipped=!0,this.reparseOverscaled=!0,this._removed=!1,this.dispatcher=o,this.setEventedParent(r),this._data=n.data,this._options=t.extend({},n),this._collectResourceTiming=n.collectResourceTiming,this._resourceTiming=[],void 0!==n.maxzoom&&(this.maxzoom=n.maxzoom),n.type&&(this.type=n.type);var a=t.default$8/this.tileSize;this.workerOptions=t.extend({source:this.id,cluster:n.cluster||!1,geojsonVtOptions:{buffer:(void 0!==n.buffer?n.buffer:128)*a,tolerance:(void 0!==n.tolerance?n.tolerance:.375)*a,extent:t.default$8,maxZoom:this.maxzoom,lineMetrics:n.lineMetrics||!1},superclusterOptions:{maxZoom:void 0!==n.clusterMaxZoom?Math.min(n.clusterMaxZoom,this.maxzoom-1):this.maxzoom-1,extent:t.default$8,radius:(n.clusterRadius||50)*a,log:!1}},n.workerOptions);}return e&&(i.__proto__=e),i.prototype=Object.create(e&&e.prototype),i.prototype.constructor=i,i.prototype.load=function(){var e=this;this.fire(new t.Event("dataloading",{dataType:"source"})),this._updateWorkerData(function(i){if(i)e.fire(new t.ErrorEvent(i));else{var n={dataType:"source",sourceDataType:"metadata"};e._collectResourceTiming&&e._resourceTiming&&e._resourceTiming.length>0&&(n.resourceTiming=e._resourceTiming,e._resourceTiming=[]),e.fire(new t.Event("data",n));}});},i.prototype.onAdd=function(t){this.map=t,this.load();},i.prototype.setData=function(e){var i=this;return this._data=e,this.fire(new t.Event("dataloading",{dataType:"source"})),this._updateWorkerData(function(e){if(e)return i.fire(new t.ErrorEvent(e));var n={dataType:"source",sourceDataType:"content"};i._collectResourceTiming&&i._resourceTiming&&i._resourceTiming.length>0&&(n.resourceTiming=i._resourceTiming,i._resourceTiming=[]),i.fire(new t.Event("data",n));}),this},i.prototype._updateWorkerData=function(e){var i,n,o=this,r=t.extend({},this.workerOptions),a=this._data;"string"==typeof a?(r.request=this.map._transformRequest((i=a,(n=t.default.document.createElement("a")).href=i,n.href),t.ResourceType.Source),r.request.collectResourceTiming=this._collectResourceTiming):r.data=JSON.stringify(a),this.workerID=this.dispatcher.send(this.type+"."+r.source+".loadData",r,function(t,i){o._removed||i&&i.abandoned||(o._loaded=!0,i&&i.resourceTiming&&i.resourceTiming[o.id]&&(o._resourceTiming=i.resourceTiming[o.id].slice(0)),o.dispatcher.send(o.type+"."+r.source+".coalesce",null,null,o.workerID),e(t));},this.workerID);},i.prototype.loadTile=function(t,e){var i=this,n=void 0===t.workerID?"loadTile":"reloadTile",o={type:this.type,uid:t.uid,tileID:t.tileID,zoom:t.tileID.overscaledZ,maxZoom:this.maxzoom,tileSize:this.tileSize,source:this.id,pixelRatio:r.devicePixelRatio,showCollisionBoxes:this.map.showCollisionBoxes};t.workerID=this.dispatcher.send(n,o,function(o,r){return t.unloadVectorData(),t.aborted?e(null):o?e(o):(t.loadVectorData(r,i.map.painter,"reloadTile"===n),e(null))},this.workerID);},i.prototype.abortTile=function(t){t.aborted=!0;},i.prototype.unloadTile=function(t){t.unloadVectorData(),this.dispatcher.send("removeTile",{uid:t.uid,type:this.type,source:this.id},null,t.workerID);},i.prototype.onRemove=function(){this._removed=!0,this.dispatcher.send("removeSource",{type:this.type,source:this.id},null,this.workerID);},i.prototype.serialize=function(){return t.extend({},this._options,{type:this.type,data:this._data})},i.prototype.hasTransition=function(){return!1},i}(t.Evented);var Q=t.createLayout([{name:"a_pos",type:"Int16",components:2},{name:"a_texture_pos",type:"Int16",components:2}]),tt=function(){this.boundProgram=null,this.boundLayoutVertexBuffer=null,this.boundPaintVertexBuffers=[],this.boundIndexBuffer=null,this.boundVertexOffset=null,this.boundDynamicVertexBuffer=null,this.vao=null;};tt.prototype.bind=function(t,e,i,n,o,r,a,s){this.context=t;for(var l=this.boundPaintVertexBuffers.length!==n.length,c=0;!l&&c<n.length;c++)this.boundPaintVertexBuffers[c]!==n[c]&&(l=!0);var u=!this.vao||this.boundProgram!==e||this.boundLayoutVertexBuffer!==i||l||this.boundIndexBuffer!==o||this.boundVertexOffset!==r||this.boundDynamicVertexBuffer!==a||this.boundDynamicVertexBuffer2!==s;!t.extVertexArrayObject||u?this.freshBind(e,i,n,o,r,a,s):(t.bindVertexArrayOES.set(this.vao),a&&a.bind(),o&&o.dynamicDraw&&o.bind(),s&&s.bind());},tt.prototype.freshBind=function(t,e,i,n,o,r,a){var s,l=t.numAttributes,c=this.context,u=c.gl;if(c.extVertexArrayObject)this.vao&&this.destroy(),this.vao=c.extVertexArrayObject.createVertexArrayOES(),c.bindVertexArrayOES.set(this.vao),s=0,this.boundProgram=t,this.boundLayoutVertexBuffer=e,this.boundPaintVertexBuffers=i,this.boundIndexBuffer=n,this.boundVertexOffset=o,this.boundDynamicVertexBuffer=r,this.boundDynamicVertexBuffer2=a;else{s=c.currentNumAttributes||0;for(var h=l;h<s;h++)u.disableVertexAttribArray(h);}e.enableAttributes(u,t);for(var p=0,d=i;p<d.length;p+=1){d[p].enableAttributes(u,t);}r&&r.enableAttributes(u,t),a&&a.enableAttributes(u,t),e.bind(),e.setVertexAttribPointers(u,t,o);for(var f=0,m=i;f<m.length;f+=1){var _=m[f];_.bind(),_.setVertexAttribPointers(u,t,o);}r&&(r.bind(),r.setVertexAttribPointers(u,t,o)),n&&n.bind(),a&&(a.bind(),a.setVertexAttribPointers(u,t,o)),c.currentNumAttributes=l;},tt.prototype.destroy=function(){this.vao&&(this.context.extVertexArrayObject.deleteVertexArrayOES(this.vao),this.vao=null);};var et=function(e){function i(t,i,n,o){e.call(this),this.id=t,this.dispatcher=n,this.coordinates=i.coordinates,this.type="image",this.minzoom=0,this.maxzoom=22,this.tileSize=512,this.tiles={},this.setEventedParent(o),this.options=i;}return e&&(i.__proto__=e),i.prototype=Object.create(e&&e.prototype),i.prototype.constructor=i,i.prototype.load=function(){var e=this;this.fire(new t.Event("dataloading",{dataType:"source"})),this.url=this.options.url,t.getImage(this.map._transformRequest(this.url,t.ResourceType.Image),function(i,n){i?e.fire(new t.ErrorEvent(i)):n&&(e.image=r.getImageData(n),e._finishLoading());});},i.prototype._finishLoading=function(){this.map&&(this.setCoordinates(this.coordinates),this.fire(new t.Event("data",{dataType:"source",sourceDataType:"metadata"})));},i.prototype.onAdd=function(t){this.map=t,this.load();},i.prototype.setCoordinates=function(e){this.coordinates=e;var i=this.map,n=e.map(function(t){return i.transform.locationCoordinate(W.convert(t)).zoomTo(0)}),o=this.centerCoord=t.getCoordinatesCenter(n);o.column=Math.floor(o.column),o.row=Math.floor(o.row),this.tileID=new t.CanonicalTileID(o.zoom,o.column,o.row),this.minzoom=this.maxzoom=o.zoom;var r=n.map(function(e){var i=e.zoomTo(o.zoom);return new t.default$1(Math.round((i.column-o.column)*t.default$8),Math.round((i.row-o.row)*t.default$8))});return this._boundsArray=new t.RasterBoundsArray,this._boundsArray.emplaceBack(r[0].x,r[0].y,0,0),this._boundsArray.emplaceBack(r[1].x,r[1].y,t.default$8,0),this._boundsArray.emplaceBack(r[3].x,r[3].y,0,t.default$8),this._boundsArray.emplaceBack(r[2].x,r[2].y,t.default$8,t.default$8),this.boundsBuffer&&(this.boundsBuffer.destroy(),delete this.boundsBuffer),this.fire(new t.Event("data",{dataType:"source",sourceDataType:"content"})),this},i.prototype.prepare=function(){if(0!==Object.keys(this.tiles).length&&this.image){var t=this.map.painter.context,e=t.gl;for(var i in this.boundsBuffer||(this.boundsBuffer=t.createVertexBuffer(this._boundsArray,Q.members)),this.boundsVAO||(this.boundsVAO=new tt),this.texture||(this.texture=new M(t,this.image,e.RGBA),this.texture.bind(e.LINEAR,e.CLAMP_TO_EDGE)),this.tiles){var n=this.tiles[i];"loaded"!==n.state&&(n.state="loaded",n.texture=this.texture);}}},i.prototype.loadTile=function(t,e){this.tileID&&this.tileID.equals(t.tileID.canonical)?(this.tiles[String(t.tileID.wrap)]=t,t.buckets={},e(null)):(t.state="errored",e(null));},i.prototype.serialize=function(){return{type:"image",url:this.options.url,coordinates:this.coordinates}},i.prototype.hasTransition=function(){return!1},i}(t.Evented),it=function(e){function i(t,i,n,o){e.call(this,t,i,n,o),this.roundZoom=!0,this.type="video",this.options=i;}return e&&(i.__proto__=e),i.prototype=Object.create(e&&e.prototype),i.prototype.constructor=i,i.prototype.load=function(){var e=this,i=this.options;this.urls=[];for(var n=0,o=i.urls;n<o.length;n+=1){var r=o[n];e.urls.push(e.map._transformRequest(r,t.ResourceType.Source).url);}t.getVideo(this.urls,function(i,n){i?e.fire(new t.ErrorEvent(i)):n&&(e.video=n,e.video.loop=!0,e.video.addEventListener("playing",function(){e.map._rerender();}),e.map&&e.video.play(),e._finishLoading());});},i.prototype.getVideo=function(){return this.video},i.prototype.onAdd=function(t){this.map||(this.map=t,this.load(),this.video&&(this.video.play(),this.setCoordinates(this.coordinates)));},i.prototype.prepare=function(){if(!(0===Object.keys(this.tiles).length||this.video.readyState<2)){var t=this.map.painter.context,e=t.gl;for(var i in this.boundsBuffer||(this.boundsBuffer=t.createVertexBuffer(this._boundsArray,Q.members)),this.boundsVAO||(this.boundsVAO=new tt),this.texture?this.video.paused||(this.texture.bind(e.LINEAR,e.CLAMP_TO_EDGE),e.texSubImage2D(e.TEXTURE_2D,0,0,0,e.RGBA,e.UNSIGNED_BYTE,this.video)):(this.texture=new M(t,this.video,e.RGBA),this.texture.bind(e.LINEAR,e.CLAMP_TO_EDGE)),this.tiles){var n=this.tiles[i];"loaded"!==n.state&&(n.state="loaded",n.texture=this.texture);}}},i.prototype.serialize=function(){return{type:"video",urls:this.urls,coordinates:this.coordinates}},i.prototype.hasTransition=function(){return this.video&&!this.video.paused},i}(et),nt=function(e){function i(i,n,o,r){e.call(this,i,n,o,r),n.coordinates?Array.isArray(n.coordinates)&&4===n.coordinates.length&&!n.coordinates.some(function(t){return!Array.isArray(t)||2!==t.length||t.some(function(t){return"number"!=typeof t})})||this.fire(new t.ErrorEvent(new t.default$9("sources."+i,null,'"coordinates" property must be an array of 4 longitude/latitude array pairs'))):this.fire(new t.ErrorEvent(new t.default$9("sources."+i,null,'missing required property "coordinates"'))),n.animate&&"boolean"!=typeof n.animate&&this.fire(new t.ErrorEvent(new t.default$9("sources."+i,null,'optional "animate" property must be a boolean value'))),n.canvas?"string"==typeof n.canvas||n.canvas instanceof t.default.HTMLCanvasElement||this.fire(new t.ErrorEvent(new t.default$9("sources."+i,null,'"canvas" must be either a string representing the ID of the canvas element from which to read, or an HTMLCanvasElement instance'))):this.fire(new t.ErrorEvent(new t.default$9("sources."+i,null,'missing required property "canvas"'))),this.options=n,this.animate=void 0===n.animate||n.animate;}return e&&(i.__proto__=e),i.prototype=Object.create(e&&e.prototype),i.prototype.constructor=i,i.prototype.load=function(){this.canvas||(this.canvas=this.options.canvas instanceof t.default.HTMLCanvasElement?this.options.canvas:t.default.document.getElementById(this.options.canvas)),this.width=this.canvas.width,this.height=this.canvas.height,this._hasInvalidDimensions()?this.fire(new t.ErrorEvent(new Error("Canvas dimensions cannot be less than or equal to zero."))):(this.play=function(){this._playing=!0,this.map._rerender();},this.pause=function(){this._playing=!1;},this._finishLoading());},i.prototype.getCanvas=function(){return this.canvas},i.prototype.onAdd=function(t){this.map=t,this.load(),this.canvas&&this.animate&&this.play();},i.prototype.onRemove=function(){this.pause();},i.prototype.prepare=function(){var t=!1;if(this.canvas.width!==this.width&&(this.width=this.canvas.width,t=!0),this.canvas.height!==this.height&&(this.height=this.canvas.height,t=!0),!this._hasInvalidDimensions()&&0!==Object.keys(this.tiles).length){var e=this.map.painter.context,i=e.gl;for(var n in this.boundsBuffer||(this.boundsBuffer=e.createVertexBuffer(this._boundsArray,Q.members)),this.boundsVAO||(this.boundsVAO=new tt),this.texture?t?this.texture.update(this.canvas):this._playing&&(this.texture.bind(i.LINEAR,i.CLAMP_TO_EDGE),i.texSubImage2D(i.TEXTURE_2D,0,0,0,i.RGBA,i.UNSIGNED_BYTE,this.canvas)):(this.texture=new M(e,this.canvas,i.RGBA),this.texture.bind(i.LINEAR,i.CLAMP_TO_EDGE)),this.tiles){var o=this.tiles[n];"loaded"!==o.state&&(o.state="loaded",o.texture=this.texture);}}},i.prototype.serialize=function(){return{type:"canvas",coordinates:this.coordinates}},i.prototype.hasTransition=function(){return this._playing},i.prototype._hasInvalidDimensions=function(){for(var t=0,e=[this.canvas.width,this.canvas.height];t<e.length;t+=1){var i=e[t];if(isNaN(i)||i<=0)return!0}return!1},i}(et),ot={vector:H,raster:K,"raster-dem":Y,geojson:J,video:it,image:et,canvas:nt},rt=function(e,i,n,o){var r=new ot[i.type](e,i,n,o);if(r.id!==e)throw new Error("Expected Source id to be "+e+" instead of "+r.id);return t.bindAll(["load","abort","unload","serialize","prepare"],r),r};function at(t,e,i,n,o){var r=o.maxPitchScaleFactor(),a=t.tilesIn(i,r);a.sort(st);for(var s=[],l=0,c=a;l<c.length;l+=1){var u=c[l];s.push({wrappedTileID:u.tileID.wrapped().key,queryResults:u.tile.queryRenderedFeatures(e,u.queryGeometry,u.scale,n,o,r,t.transform.calculatePosMatrix(u.tileID.toUnwrapped()))});}return function(t){for(var e={},i={},n=0,o=t;n<o.length;n+=1){var r=o[n],a=r.queryResults,s=r.wrappedTileID,l=i[s]=i[s]||{};for(var c in a)for(var u=a[c],h=l[c]=l[c]||{},p=e[c]=e[c]||[],d=0,f=u;d<f.length;d+=1){var m=f[d];h[m.featureIndex]||(h[m.featureIndex]=!0,p.push(m.feature));}}return e}(s)}function st(t,e){var i=t.tileID,n=e.tileID;return i.overscaledZ-n.overscaledZ||i.canonical.y-n.canonical.y||i.wrap-n.wrap||i.canonical.x-n.canonical.x}var lt=function(e,i){this.tileID=e,this.uid=t.uniqueId(),this.uses=0,this.tileSize=i,this.buckets={},this.expirationTime=null,this.queryPadding=0,this.expiredRequestCount=0,this.state="loading";};lt.prototype.registerFadeDuration=function(t){var e=t+this.timeAdded;e<r.now()||this.fadeEndTime&&e<this.fadeEndTime||(this.fadeEndTime=e);},lt.prototype.wasRequested=function(){return"errored"===this.state||"loaded"===this.state||"reloading"===this.state},lt.prototype.loadVectorData=function(e,i,n){if(this.hasData()&&this.unloadVectorData(),this.state="loaded",e){if(e.featureIndex&&(this.latestFeatureIndex=e.featureIndex,e.rawTileData?(this.latestRawTileData=e.rawTileData,this.latestFeatureIndex.rawTileData=e.rawTileData):this.latestRawTileData&&(this.latestFeatureIndex.rawTileData=this.latestRawTileData)),this.collisionBoxArray=e.collisionBoxArray,this.buckets=function(t,e){var i={};if(!e)return i;for(var n=0,o=t;n<o.length;n+=1){var r=o[n],a=r.layerIds.map(function(t){return e.getLayer(t)}).filter(Boolean);if(0!==a.length){r.layers=a;for(var s=0,l=a;s<l.length;s+=1)i[l[s].id]=r;}}return i}(e.buckets,i.style),n)for(var o in this.buckets){var r=this.buckets[o];r instanceof t.default$14&&(r.justReloaded=!0);}for(var a in this.queryPadding=0,this.buckets){var s=this.buckets[a];this.queryPadding=Math.max(this.queryPadding,i.style.getLayer(s.layerIds[0]).queryRadius(s));}e.iconAtlasImage&&(this.iconAtlasImage=e.iconAtlasImage),e.glyphAtlasImage&&(this.glyphAtlasImage=e.glyphAtlasImage);}else this.collisionBoxArray=new t.CollisionBoxArray;},lt.prototype.unloadVectorData=function(){for(var t in this.buckets)this.buckets[t].destroy();this.buckets={},this.iconAtlasTexture&&this.iconAtlasTexture.destroy(),this.glyphAtlasTexture&&this.glyphAtlasTexture.destroy(),this.latestFeatureIndex=null,this.state="unloaded";},lt.prototype.unloadDEMData=function(){this.dem=null,this.neighboringTiles=null,this.state="unloaded";},lt.prototype.getBucket=function(t){return this.buckets[t.id]},lt.prototype.upload=function(t){for(var e in this.buckets){var i=this.buckets[e];i.uploaded||(i.upload(t),i.uploaded=!0);}var n=t.gl;this.iconAtlasImage&&(this.iconAtlasTexture=new M(t,this.iconAtlasImage,n.RGBA),this.iconAtlasImage=null),this.glyphAtlasImage&&(this.glyphAtlasTexture=new M(t,this.glyphAtlasImage,n.ALPHA),this.glyphAtlasImage=null);},lt.prototype.queryRenderedFeatures=function(t,e,i,n,o,r,a){return this.latestFeatureIndex&&this.latestFeatureIndex.rawTileData?this.latestFeatureIndex.query({queryGeometry:e,scale:i,tileSize:this.tileSize,posMatrix:a,transform:o,params:n,queryPadding:this.queryPadding*r},t):{}},lt.prototype.querySourceFeatures=function(e,i){if(this.latestFeatureIndex&&this.latestFeatureIndex.rawTileData){var n=this.latestFeatureIndex.loadVTLayers(),o=i?i.sourceLayer:"",r=n._geojsonTileLayer||n[o];if(r)for(var a=t.default$13(i&&i.filter),s={z:this.tileID.overscaledZ,x:this.tileID.canonical.x,y:this.tileID.canonical.y},l=0;l<r.length;l++){var c=r.feature(l);if(a(new t.default$16(this.tileID.overscaledZ),c)){var u=new t.default$12(c,s.z,s.x,s.y);u.tile=s,e.push(u);}}}},lt.prototype.clearMask=function(){this.segments&&(this.segments.destroy(),delete this.segments),this.maskedBoundsBuffer&&(this.maskedBoundsBuffer.destroy(),delete this.maskedBoundsBuffer),this.maskedIndexBuffer&&(this.maskedIndexBuffer.destroy(),delete this.maskedIndexBuffer);},lt.prototype.setMask=function(e,i){if(!t.default$10(this.mask,e)&&(this.mask=e,this.clearMask(),!t.default$10(e,{0:!0}))){var n=new t.RasterBoundsArray,o=new t.TriangleIndexArray;this.segments=new t.default$15,this.segments.prepareSegment(0,n,o);for(var r=Object.keys(e),a=0;a<r.length;a++){var s=e[r[a]],l=t.default$8>>s.z,c=new t.default$1(s.x*l,s.y*l),u=new t.default$1(c.x+l,c.y+l),h=this.segments.prepareSegment(4,n,o);n.emplaceBack(c.x,c.y,c.x,c.y),n.emplaceBack(u.x,c.y,u.x,c.y),n.emplaceBack(c.x,u.y,c.x,u.y),n.emplaceBack(u.x,u.y,u.x,u.y);var p=h.vertexLength;o.emplaceBack(p,p+1,p+2),o.emplaceBack(p+1,p+2,p+3),h.vertexLength+=4,h.primitiveLength+=2;}this.maskedBoundsBuffer=i.createVertexBuffer(n,Q.members),this.maskedIndexBuffer=i.createIndexBuffer(o);}},lt.prototype.hasData=function(){return"loaded"===this.state||"reloading"===this.state||"expired"===this.state},lt.prototype.setExpiryData=function(e){var i=this.expirationTime;if(e.cacheControl){var n=t.parseCacheControl(e.cacheControl);n["max-age"]&&(this.expirationTime=Date.now()+1e3*n["max-age"]);}else e.expires&&(this.expirationTime=new Date(e.expires).getTime());if(this.expirationTime){var o=Date.now(),r=!1;if(this.expirationTime>o)r=!1;else if(i)if(this.expirationTime<i)r=!0;else{var a=this.expirationTime-i;a?this.expirationTime=o+Math.max(a,3e4):r=!0;}else r=!0;r?(this.expiredRequestCount++,this.state="expired"):this.expiredRequestCount=0;}},lt.prototype.getExpiryTimeout=function(){if(this.expirationTime)return this.expiredRequestCount?1e3*(1<<Math.min(this.expiredRequestCount-1,31)):Math.min(this.expirationTime-(new Date).getTime(),Math.pow(2,31)-1)};var ct=function(t,e){this.max=t,this.onRemove=e,this.reset();};ct.prototype.reset=function(){for(var t in this.data)for(var e=0,i=this.data[t];e<i.length;e+=1){var n=i[e];n.timeout&&clearTimeout(n.timeout),this.onRemove(n.value);}return this.data={},this.order=[],this},ct.prototype.add=function(t,e,i){var n=this,o=t.wrapped().key;void 0===this.data[o]&&(this.data[o]=[]);var r={value:e,timeout:void 0};if(void 0!==i&&(r.timeout=setTimeout(function(){n.remove(t,r);},i)),this.data[o].push(r),this.order.push(o),this.order.length>this.max){var a=this._getAndRemoveByKey(this.order[0]);a&&this.onRemove(a);}return this},ct.prototype.has=function(t){return t.wrapped().key in this.data},ct.prototype.getAndRemove=function(t){return this.has(t)?this._getAndRemoveByKey(t.wrapped().key):null},ct.prototype._getAndRemoveByKey=function(t){var e=this.data[t].shift();return e.timeout&&clearTimeout(e.timeout),0===this.data[t].length&&delete this.data[t],this.order.splice(this.order.indexOf(t),1),e.value},ct.prototype.get=function(t){return this.has(t)?this.data[t.wrapped().key][0].value:null},ct.prototype.remove=function(t,e){if(!this.has(t))return this;var i=t.wrapped().key,n=void 0===e?0:this.data[i].indexOf(e),o=this.data[i][n];return this.data[i].splice(n,1),o.timeout&&clearTimeout(o.timeout),0===this.data[i].length&&delete this.data[i],this.onRemove(o.value),this.order.splice(this.order.indexOf(i),1),this},ct.prototype.setMaxSize=function(t){for(this.max=t;this.order.length>this.max;){var e=this._getAndRemoveByKey(this.order[0]);e&&this.onRemove(e);}return this};var ut=function(t,e,i){this.context=t;var n=t.gl;this.buffer=n.createBuffer(),this.dynamicDraw=Boolean(i),this.unbindVAO(),t.bindElementBuffer.set(this.buffer),n.bufferData(n.ELEMENT_ARRAY_BUFFER,e.arrayBuffer,this.dynamicDraw?n.DYNAMIC_DRAW:n.STATIC_DRAW),this.dynamicDraw||delete e.arrayBuffer;};ut.prototype.unbindVAO=function(){this.context.extVertexArrayObject&&this.context.bindVertexArrayOES.set(null);},ut.prototype.bind=function(){this.context.bindElementBuffer.set(this.buffer);},ut.prototype.updateData=function(t){var e=this.context.gl;this.unbindVAO(),this.bind(),e.bufferSubData(e.ELEMENT_ARRAY_BUFFER,0,t.arrayBuffer);},ut.prototype.destroy=function(){var t=this.context.gl;this.buffer&&(t.deleteBuffer(this.buffer),delete this.buffer);};var ht={Int8:"BYTE",Uint8:"UNSIGNED_BYTE",Int16:"SHORT",Uint16:"UNSIGNED_SHORT",Int32:"INT",Uint32:"UNSIGNED_INT",Float32:"FLOAT"},pt=function(t,e,i,n){this.length=e.length,this.attributes=i,this.itemSize=e.bytesPerElement,this.dynamicDraw=n,this.context=t;var o=t.gl;this.buffer=o.createBuffer(),t.bindVertexBuffer.set(this.buffer),o.bufferData(o.ARRAY_BUFFER,e.arrayBuffer,this.dynamicDraw?o.DYNAMIC_DRAW:o.STATIC_DRAW),this.dynamicDraw||delete e.arrayBuffer;};pt.prototype.bind=function(){this.context.bindVertexBuffer.set(this.buffer);},pt.prototype.updateData=function(t){var e=this.context.gl;this.bind(),e.bufferSubData(e.ARRAY_BUFFER,0,t.arrayBuffer);},pt.prototype.enableAttributes=function(t,e){for(var i=0;i<this.attributes.length;i++){var n=this.attributes[i],o=e.attributes[n.name];void 0!==o&&t.enableVertexAttribArray(o);}},pt.prototype.setVertexAttribPointers=function(t,e,i){for(var n=0;n<this.attributes.length;n++){var o=this.attributes[n],r=e.attributes[o.name];void 0!==r&&t.vertexAttribPointer(r,o.components,t[ht[o.type]],!1,this.itemSize,o.offset+this.itemSize*(i||0));}},pt.prototype.destroy=function(){var t=this.context.gl;this.buffer&&(t.deleteBuffer(this.buffer),delete this.buffer);};var dt=function(e){this.context=e,this.current=t.default$6.transparent;};dt.prototype.get=function(){return this.current},dt.prototype.set=function(t){var e=this.current;t.r===e.r&&t.g===e.g&&t.b===e.b&&t.a===e.a||(this.context.gl.clearColor(t.r,t.g,t.b,t.a),this.current=t);};var ft=function(t){this.context=t,this.current=1;};ft.prototype.get=function(){return this.current},ft.prototype.set=function(t){this.current!==t&&(this.context.gl.clearDepth(t),this.current=t);};var mt=function(t){this.context=t,this.current=0;};mt.prototype.get=function(){return this.current},mt.prototype.set=function(t){this.current!==t&&(this.context.gl.clearStencil(t),this.current=t);};var _t=function(t){this.context=t,this.current=[!0,!0,!0,!0];};_t.prototype.get=function(){return this.current},_t.prototype.set=function(t){var e=this.current;t[0]===e[0]&&t[1]===e[1]&&t[2]===e[2]&&t[3]===e[3]||(this.context.gl.colorMask(t[0],t[1],t[2],t[3]),this.current=t);};var gt=function(t){this.context=t,this.current=!0;};gt.prototype.get=function(){return this.current},gt.prototype.set=function(t){this.current!==t&&(this.context.gl.depthMask(t),this.current=t);};var vt=function(t){this.context=t,this.current=255;};vt.prototype.get=function(){return this.current},vt.prototype.set=function(t){this.current!==t&&(this.context.gl.stencilMask(t),this.current=t);};var yt=function(t){this.context=t,this.current={func:t.gl.ALWAYS,ref:0,mask:255};};yt.prototype.get=function(){return this.current},yt.prototype.set=function(t){var e=this.current;t.func===e.func&&t.ref===e.ref&&t.mask===e.mask||(this.context.gl.stencilFunc(t.func,t.ref,t.mask),this.current=t);};var xt=function(t){this.context=t;var e=this.context.gl;this.current=[e.KEEP,e.KEEP,e.KEEP];};xt.prototype.get=function(){return this.current},xt.prototype.set=function(t){var e=this.current;t[0]===e[0]&&t[1]===e[1]&&t[2]===e[2]||(this.context.gl.stencilOp(t[0],t[1],t[2]),this.current=t);};var bt=function(t){this.context=t,this.current=!1;};bt.prototype.get=function(){return this.current},bt.prototype.set=function(t){if(this.current!==t){var e=this.context.gl;t?e.enable(e.STENCIL_TEST):e.disable(e.STENCIL_TEST),this.current=t;}};var wt=function(t){this.context=t,this.current=[0,1];};wt.prototype.get=function(){return this.current},wt.prototype.set=function(t){var e=this.current;t[0]===e[0]&&t[1]===e[1]||(this.context.gl.depthRange(t[0],t[1]),this.current=t);};var Et=function(t){this.context=t,this.current=!1;};Et.prototype.get=function(){return this.current},Et.prototype.set=function(t){if(this.current!==t){var e=this.context.gl;t?e.enable(e.DEPTH_TEST):e.disable(e.DEPTH_TEST),this.current=t;}};var Tt=function(t){this.context=t,this.current=t.gl.LESS;};Tt.prototype.get=function(){return this.current},Tt.prototype.set=function(t){this.current!==t&&(this.context.gl.depthFunc(t),this.current=t);};var It=function(t){this.context=t,this.current=!1;};It.prototype.get=function(){return this.current},It.prototype.set=function(t){if(this.current!==t){var e=this.context.gl;t?e.enable(e.BLEND):e.disable(e.BLEND),this.current=t;}};var Ct=function(t){this.context=t;var e=this.context.gl;this.current=[e.ONE,e.ZERO];};Ct.prototype.get=function(){return this.current},Ct.prototype.set=function(t){var e=this.current;t[0]===e[0]&&t[1]===e[1]||(this.context.gl.blendFunc(t[0],t[1]),this.current=t);};var St=function(e){this.context=e,this.current=t.default$6.transparent;};St.prototype.get=function(){return this.current},St.prototype.set=function(t){var e=this.current;t.r===e.r&&t.g===e.g&&t.b===e.b&&t.a===e.a||(this.context.gl.blendColor(t.r,t.g,t.b,t.a),this.current=t);};var zt=function(t){this.context=t,this.current=null;};zt.prototype.get=function(){return this.current},zt.prototype.set=function(t){this.current!==t&&(this.context.gl.useProgram(t),this.current=t);};var At=function(t){this.context=t,this.current=1;};At.prototype.get=function(){return this.current},At.prototype.set=function(e){var i=this.context.lineWidthRange,n=t.clamp(e,i[0],i[1]);this.current!==n&&(this.context.gl.lineWidth(n),this.current=e);};var Rt=function(t){this.context=t,this.current=t.gl.TEXTURE0;};Rt.prototype.get=function(){return this.current},Rt.prototype.set=function(t){this.current!==t&&(this.context.gl.activeTexture(t),this.current=t);};var Dt=function(t){this.context=t;var e=this.context.gl;this.current=[0,0,e.drawingBufferWidth,e.drawingBufferHeight];};Dt.prototype.get=function(){return this.current},Dt.prototype.set=function(t){var e=this.current;t[0]===e[0]&&t[1]===e[1]&&t[2]===e[2]&&t[3]===e[3]||(this.context.gl.viewport(t[0],t[1],t[2],t[3]),this.current=t);};var Mt=function(t){this.context=t,this.current=null;};Mt.prototype.get=function(){return this.current},Mt.prototype.set=function(t){if(this.current!==t){var e=this.context.gl;e.bindFramebuffer(e.FRAMEBUFFER,t),this.current=t;}};var Lt=function(t){this.context=t,this.current=null;};Lt.prototype.get=function(){return this.current},Lt.prototype.set=function(t){if(this.current!==t){var e=this.context.gl;e.bindRenderbuffer(e.RENDERBUFFER,t),this.current=t;}};var Pt=function(t){this.context=t,this.current=null;};Pt.prototype.get=function(){return this.current},Pt.prototype.set=function(t){if(this.current!==t){var e=this.context.gl;e.bindTexture(e.TEXTURE_2D,t),this.current=t;}};var kt=function(t){this.context=t,this.current=null;};kt.prototype.get=function(){return this.current},kt.prototype.set=function(t){if(this.current!==t){var e=this.context.gl;e.bindBuffer(e.ARRAY_BUFFER,t),this.current=t;}};var Bt=function(t){this.context=t,this.current=null;};Bt.prototype.get=function(){return this.current},Bt.prototype.set=function(t){var e=this.context.gl;e.bindBuffer(e.ELEMENT_ARRAY_BUFFER,t),this.current=t;};var Ot=function(t){this.context=t,this.current=null;};Ot.prototype.get=function(){return this.current},Ot.prototype.set=function(t){this.current!==t&&this.context.extVertexArrayObject&&(this.context.extVertexArrayObject.bindVertexArrayOES(t),this.current=t);};var Ft=function(t){this.context=t,this.current=4;};Ft.prototype.get=function(){return this.current},Ft.prototype.set=function(t){if(this.current!==t){var e=this.context.gl;e.pixelStorei(e.UNPACK_ALIGNMENT,t),this.current=t;}};var Nt=function(t){this.context=t,this.current=!1;};Nt.prototype.get=function(){return this.current},Nt.prototype.set=function(t){if(this.current!==t){var e=this.context.gl;e.pixelStorei(e.UNPACK_PREMULTIPLY_ALPHA_WEBGL,t),this.current=t;}};var Ut=function(t,e){this.context=t,this.current=null,this.parent=e;};Ut.prototype.get=function(){return this.current};var Zt=function(t){function e(e,i){t.call(this,e,i),this.dirty=!1;}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype.set=function(t){if(this.dirty||this.current!==t){var e=this.context.gl;this.context.bindFramebuffer.set(this.parent),e.framebufferTexture2D(e.FRAMEBUFFER,e.COLOR_ATTACHMENT0,e.TEXTURE_2D,t,0),this.current=t,this.dirty=!1;}},e.prototype.setDirty=function(){this.dirty=!0;},e}(Ut),Vt=function(t){function e(){t.apply(this,arguments);}return t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e,e.prototype.set=function(t){if(this.current!==t){var e=this.context.gl;this.context.bindFramebuffer.set(this.parent),e.framebufferRenderbuffer(e.FRAMEBUFFER,e.DEPTH_ATTACHMENT,e.RENDERBUFFER,t),this.current=t;}},e}(Ut),jt=function(t,e,i){this.context=t,this.width=e,this.height=i;var n=t.gl,o=this.framebuffer=n.createFramebuffer();this.colorAttachment=new Zt(t,o),this.depthAttachment=new Vt(t,o);};jt.prototype.destroy=function(){var t=this.context.gl,e=this.colorAttachment.get();e&&t.deleteTexture(e);var i=this.depthAttachment.get();i&&t.deleteRenderbuffer(i),t.deleteFramebuffer(this.framebuffer);};var $t=function(t,e,i){this.func=t,this.mask=e,this.range=i;};$t.ReadOnly=!1,$t.ReadWrite=!0,$t.disabled=new $t(519,$t.ReadOnly,[0,1]);var Gt=function(t,e,i,n,o,r){this.test=t,this.ref=e,this.mask=i,this.fail=n,this.depthFail=o,this.pass=r;};Gt.disabled=new Gt({func:519,mask:0},0,0,7680,7680,7680);var Wt=function(t,e,i){this.blendFunction=t,this.blendColor=e,this.mask=i;};Wt.Replace=[1,0],Wt.disabled=new Wt(Wt.Replace,t.default$6.transparent,[!1,!1,!1,!1]),Wt.unblended=new Wt(Wt.Replace,t.default$6.transparent,[!0,!0,!0,!0]),Wt.alphaBlended=new Wt([1,771],t.default$6.transparent,[!0,!0,!0,!0]);var qt=function(t){this.gl=t,this.extVertexArrayObject=this.gl.getExtension("OES_vertex_array_object"),this.lineWidthRange=t.getParameter(t.ALIASED_LINE_WIDTH_RANGE),this.clearColor=new dt(this),this.clearDepth=new ft(this),this.clearStencil=new mt(this),this.colorMask=new _t(this),this.depthMask=new gt(this),this.stencilMask=new vt(this),this.stencilFunc=new yt(this),this.stencilOp=new xt(this),this.stencilTest=new bt(this),this.depthRange=new wt(this),this.depthTest=new Et(this),this.depthFunc=new Tt(this),this.blend=new It(this),this.blendFunc=new Ct(this),this.blendColor=new St(this),this.program=new zt(this),this.lineWidth=new At(this),this.activeTexture=new Rt(this),this.viewport=new Dt(this),this.bindFramebuffer=new Mt(this),this.bindRenderbuffer=new Lt(this),this.bindTexture=new Pt(this),this.bindVertexBuffer=new kt(this),this.bindElementBuffer=new Bt(this),this.bindVertexArrayOES=this.extVertexArrayObject&&new Ot(this),this.pixelStoreUnpack=new Ft(this),this.pixelStoreUnpackPremultiplyAlpha=new Nt(this),this.extTextureFilterAnisotropic=t.getExtension("EXT_texture_filter_anisotropic")||t.getExtension("MOZ_EXT_texture_filter_anisotropic")||t.getExtension("WEBKIT_EXT_texture_filter_anisotropic"),this.extTextureFilterAnisotropic&&(this.extTextureFilterAnisotropicMax=t.getParameter(this.extTextureFilterAnisotropic.MAX_TEXTURE_MAX_ANISOTROPY_EXT)),this.extTextureHalfFloat=t.getExtension("OES_texture_half_float"),this.extTextureHalfFloat&&t.getExtension("OES_texture_half_float_linear");};qt.prototype.createIndexBuffer=function(t,e){return new ut(this,t,e)},qt.prototype.createVertexBuffer=function(t,e,i){return new pt(this,t,e,i)},qt.prototype.createRenderbuffer=function(t,e,i){var n=this.gl,o=n.createRenderbuffer();return this.bindRenderbuffer.set(o),n.renderbufferStorage(n.RENDERBUFFER,t,e,i),this.bindRenderbuffer.set(null),o},qt.prototype.createFramebuffer=function(t,e){return new jt(this,t,e)},qt.prototype.clear=function(t){var e=t.color,i=t.depth,n=this.gl,o=0;e&&(o|=n.COLOR_BUFFER_BIT,this.clearColor.set(e),this.colorMask.set([!0,!0,!0,!0])),void 0!==i&&(o|=n.DEPTH_BUFFER_BIT,this.clearDepth.set(i),this.depthMask.set(!0)),n.clear(o);},qt.prototype.setDepthMode=function(t){t.func!==this.gl.ALWAYS||t.mask?(this.depthTest.set(!0),this.depthFunc.set(t.func),this.depthMask.set(t.mask),this.depthRange.set(t.range)):this.depthTest.set(!1);},qt.prototype.setStencilMode=function(t){t.test.func!==this.gl.ALWAYS||t.mask?(this.stencilTest.set(!0),this.stencilMask.set(t.mask),this.stencilOp.set([t.fail,t.depthFail,t.pass]),this.stencilFunc.set({func:t.test.func,ref:t.ref,mask:t.test.mask})):this.stencilTest.set(!1);},qt.prototype.setColorMode=function(e){t.default$10(e.blendFunction,Wt.Replace)?this.blend.set(!1):(this.blend.set(!0),this.blendFunc.set(e.blendFunction),this.blendColor.set(e.blendColor)),this.colorMask.set(e.mask);};var Xt=function(e){function i(t,i,n){var o=this;e.call(this),this.id=t,this.dispatcher=n,this.on("data",function(t){"source"===t.dataType&&"metadata"===t.sourceDataType&&(o._sourceLoaded=!0),o._sourceLoaded&&!o._paused&&"source"===t.dataType&&"content"===t.sourceDataType&&(o.reload(),o.transform&&o.update(o.transform));}),this.on("error",function(){o._sourceErrored=!0;}),this._source=rt(t,i,n,this),this._tiles={},this._cache=new ct(0,this._unloadTile.bind(this)),this._timers={},this._cacheTimers={},this._maxTileCacheSize=null,this._isIdRenderable=this._isIdRenderable.bind(this),this._coveredTiles={};}return e&&(i.__proto__=e),i.prototype=Object.create(e&&e.prototype),i.prototype.constructor=i,i.prototype.onAdd=function(t){this.map=t,this._maxTileCacheSize=t?t._maxTileCacheSize:null,this._source&&this._source.onAdd&&this._source.onAdd(t);},i.prototype.onRemove=function(t){this._source&&this._source.onRemove&&this._source.onRemove(t);},i.prototype.loaded=function(){if(this._sourceErrored)return!0;if(!this._sourceLoaded)return!1;for(var t in this._tiles){var e=this._tiles[t];if("loaded"!==e.state&&"errored"!==e.state)return!1}return!0},i.prototype.getSource=function(){return this._source},i.prototype.pause=function(){this._paused=!0;},i.prototype.resume=function(){if(this._paused){var t=this._shouldReloadOnResume;this._paused=!1,this._shouldReloadOnResume=!1,t&&this.reload(),this.transform&&this.update(this.transform);}},i.prototype._loadTile=function(t,e){return this._source.loadTile(t,e)},i.prototype._unloadTile=function(t){if(this._source.unloadTile)return this._source.unloadTile(t,function(){})},i.prototype._abortTile=function(t){if(this._source.abortTile)return this._source.abortTile(t,function(){})},i.prototype.serialize=function(){return this._source.serialize()},i.prototype.prepare=function(t){for(var e in this._source.prepare&&this._source.prepare(),this._tiles)this._tiles[e].upload(t);},i.prototype.getIds=function(){var e=this;return Object.keys(this._tiles).map(Number).sort(function(i,n){var o=e._tiles[i].tileID,r=e._tiles[n].tileID,a=new t.default$1(o.canonical.x,o.canonical.y).rotate(e.transform.angle),s=new t.default$1(r.canonical.x,r.canonical.y).rotate(e.transform.angle);return o.overscaledZ-r.overscaledZ||s.y-a.y||s.x-a.x})},i.prototype.getRenderableIds=function(){return this.getIds().filter(this._isIdRenderable)},i.prototype.hasRenderableParent=function(t){var e=this.findLoadedParent(t,0,{});return!!e&&this._isIdRenderable(e.tileID.key)},i.prototype._isIdRenderable=function(t){return this._tiles[t]&&this._tiles[t].hasData()&&!this._coveredTiles[t]},i.prototype.reload=function(){if(this._paused)this._shouldReloadOnResume=!0;else for(var t in this._cache.reset(),this._tiles)this._reloadTile(t,"reloading");},i.prototype._reloadTile=function(t,e){var i=this._tiles[t];i&&("loading"!==i.state&&(i.state=e),this._loadTile(i,this._tileLoaded.bind(this,i,t,e)));},i.prototype._tileLoaded=function(e,i,n,o){if(o)return e.state="errored",void(404!==o.status?this._source.fire(new t.ErrorEvent(o,{tile:e})):this.update(this.transform));e.timeAdded=r.now(),"expired"===n&&(e.refreshedUponExpiration=!0),this._setTileReloadTimer(i,e),"raster-dem"===this.getSource().type&&e.dem&&this._backfillDEM(e),this._source.fire(new t.Event("data",{dataType:"source",tile:e,coord:e.tileID})),this.map&&(this.map.painter.tileExtentVAO.vao=null);},i.prototype._backfillDEM=function(t){for(var e=this.getRenderableIds(),i=0;i<e.length;i++){var n=e[i];if(t.neighboringTiles&&t.neighboringTiles[n]){var o=this.getTileByID(n);r(t,o),r(o,t);}}function r(t,e){t.needsHillshadePrepare=!0;var i=e.tileID.canonical.x-t.tileID.canonical.x,n=e.tileID.canonical.y-t.tileID.canonical.y,o=Math.pow(2,t.tileID.canonical.z),r=e.tileID.key;0===i&&0===n||Math.abs(n)>1||(Math.abs(i)>1&&(1===Math.abs(i+o)?i+=o:1===Math.abs(i-o)&&(i-=o)),e.dem&&t.dem&&(t.dem.backfillBorder(e.dem,i,n),t.neighboringTiles&&t.neighboringTiles[r]&&(t.neighboringTiles[r].backfilled=!0)));}},i.prototype.getTile=function(t){return this.getTileByID(t.key)},i.prototype.getTileByID=function(t){return this._tiles[t]},i.prototype.getZoom=function(t){return t.zoom+t.scaleZoom(t.tileSize/this._source.tileSize)},i.prototype._findLoadedChildren=function(t,e,i){var n=!1;for(var o in this._tiles){var r=this._tiles[o];if(!(i[o]||!r.hasData()||r.tileID.overscaledZ<=t.overscaledZ||r.tileID.overscaledZ>e)){var a=Math.pow(2,r.tileID.canonical.z-t.canonical.z);if(Math.floor(r.tileID.canonical.x/a)===t.canonical.x&&Math.floor(r.tileID.canonical.y/a)===t.canonical.y)for(i[o]=r.tileID,n=!0;r&&r.tileID.overscaledZ-1>t.overscaledZ;){var s=r.tileID.scaledTo(r.tileID.overscaledZ-1);if(!s)break;(r=this._tiles[s.key])&&r.hasData()&&(delete i[o],i[s.key]=s);}}}return n},i.prototype.findLoadedParent=function(t,e,i){for(var n=t.overscaledZ-1;n>=e;n--){var o=t.scaledTo(n);if(!o)return;var r=String(o.key),a=this._tiles[r];if(a&&a.hasData())return i[r]=o,a;if(this._cache.has(o))return i[r]=o,this._cache.get(o)}},i.prototype.updateCacheSize=function(t){var e=(Math.ceil(t.width/this._source.tileSize)+1)*(Math.ceil(t.height/this._source.tileSize)+1),i=Math.floor(5*e),n="number"==typeof this._maxTileCacheSize?Math.min(this._maxTileCacheSize,i):i;this._cache.setMaxSize(n);},i.prototype.handleWrapJump=function(t){var e=(t-(void 0===this._prevLng?t:this._prevLng))/360,i=Math.round(e);if(this._prevLng=t,i){var n={};for(var o in this._tiles){var r=this._tiles[o];r.tileID=r.tileID.unwrapTo(r.tileID.wrap+i),n[r.tileID.key]=r;}for(var a in this._tiles=n,this._timers)clearTimeout(this._timers[a]),delete this._timers[a];for(var s in this._tiles){var l=this._tiles[s];this._setTileReloadTimer(s,l);}}},i.prototype.update=function(e){var n=this;if(this.transform=e,this._sourceLoaded&&!this._paused){var o;this.updateCacheSize(e),this.handleWrapJump(this.transform.center.lng),this._coveredTiles={},this.used?this._source.tileID?o=e.getVisibleUnwrappedCoordinates(this._source.tileID).map(function(e){return new t.OverscaledTileID(e.canonical.z,e.wrap,e.canonical.z,e.canonical.x,e.canonical.y)}):(o=e.coveringTiles({tileSize:this._source.tileSize,minzoom:this._source.minzoom,maxzoom:this._source.maxzoom,roundZoom:this._source.roundZoom,reparseOverscaled:this._source.reparseOverscaled}),this._source.hasTile&&(o=o.filter(function(t){return n._source.hasTile(t)}))):o=[];var a,s=(this._source.roundZoom?Math.round:Math.floor)(this.getZoom(e)),l=Math.max(s-i.maxOverzooming,this._source.minzoom),c=Math.max(s+i.maxUnderzooming,this._source.minzoom),u=this._updateRetainedTiles(o,s),h={};if(Kt(this._source.type))for(var p=Object.keys(u),d=0;d<p.length;d++){var f=p[d],m=u[f],_=n._tiles[f];if(_&&(void 0===_.fadeEndTime||_.fadeEndTime>=r.now())){n._findLoadedChildren(m,c,u)&&(u[f]=m);var g=n.findLoadedParent(m,l,h);g&&n._addTile(g.tileID);}}for(a in h)u[a]||(n._coveredTiles[a]=!0);for(a in h)u[a]=h[a];for(var v=t.keysDifference(this._tiles,u),y=0;y<v.length;y++)n._removeTile(v[y]);}},i.prototype._updateRetainedTiles=function(t,e){for(var n={},o={},r=Math.max(e-i.maxOverzooming,this._source.minzoom),a=Math.max(e+i.maxUnderzooming,this._source.minzoom),s=0;s<t.length;s++){var l=t[s],c=this._addTile(l),u=!1;if(c.hasData())n[l.key]=l;else{u=c.wasRequested(),n[l.key]=l;var h=!0;if(e+1>this._source.maxzoom){var p=l.children(this._source.maxzoom)[0],d=this.getTile(p);d&&d.hasData()?n[p.key]=p:h=!1;}else{this._findLoadedChildren(l,a,n);for(var f=l.children(this._source.maxzoom),m=0;m<f.length;m++)if(!n[f[m].key]){h=!1;break}}if(!h)for(var _=l.overscaledZ-1;_>=r;--_){var g=l.scaledTo(_);if(o[g.key])break;if(o[g.key]=!0,!(c=this.getTile(g))&&u&&(c=this._addTile(g)),c&&(n[g.key]=g,u=c.wasRequested(),c.hasData()))break}}}return n},i.prototype._addTile=function(e){var i=this._tiles[e.key];if(i)return i;(i=this._cache.getAndRemove(e))&&(this._setTileReloadTimer(e.key,i),i.tileID=e);var n=Boolean(i);return n||(i=new lt(e,this._source.tileSize*e.overscaleFactor()),this._loadTile(i,this._tileLoaded.bind(this,i,e.key,i.state))),i?(i.uses++,this._tiles[e.key]=i,n||this._source.fire(new t.Event("dataloading",{tile:i,coord:i.tileID,dataType:"source"})),i):null},i.prototype._setTileReloadTimer=function(t,e){var i=this;t in this._timers&&(clearTimeout(this._timers[t]),delete this._timers[t]);var n=e.getExpiryTimeout();n&&(this._timers[t]=setTimeout(function(){i._reloadTile(t,"expired"),delete i._timers[t];},n));},i.prototype._removeTile=function(t){var e=this._tiles[t];e&&(e.uses--,delete this._tiles[t],this._timers[t]&&(clearTimeout(this._timers[t]),delete this._timers[t]),e.uses>0||(e.hasData()?this._cache.add(e.tileID,e,e.getExpiryTimeout()):(e.aborted=!0,this._abortTile(e),this._unloadTile(e))));},i.prototype.clearTiles=function(){for(var t in this._shouldReloadOnResume=!1,this._paused=!1,this._tiles)this._removeTile(t);this._cache.reset();},i.prototype.tilesIn=function(e,i){for(var n=[],o=this.getIds(),r=1/0,a=1/0,s=-1/0,l=-1/0,c=e[0].zoom,u=0;u<e.length;u++){var h=e[u];r=Math.min(r,h.column),a=Math.min(a,h.row),s=Math.max(s,h.column),l=Math.max(l,h.row);}for(var p=0;p<o.length;p++){var d=this._tiles[o[p]],f=d.tileID,m=Math.pow(2,this.transform.zoom-d.tileID.overscaledZ),_=i*d.queryPadding*t.default$8/d.tileSize/m,g=[Ht(f,new t.default$17(r,a,c)),Ht(f,new t.default$17(s,l,c))];if(g[0].x-_<t.default$8&&g[0].y-_<t.default$8&&g[1].x+_>=0&&g[1].y+_>=0){for(var v=[],y=0;y<e.length;y++)v.push(Ht(f,e[y]));n.push({tile:d,tileID:f,queryGeometry:[v],scale:m});}}return n},i.prototype.getVisibleCoordinates=function(){for(var t=this,e=this.getRenderableIds().map(function(e){return t._tiles[e].tileID}),i=0,n=e;i<n.length;i+=1){var o=n[i];o.posMatrix=t.transform.calculatePosMatrix(o.toUnwrapped());}return e},i.prototype.hasTransition=function(){if(this._source.hasTransition())return!0;if(Kt(this._source.type))for(var t in this._tiles){var e=this._tiles[t];if(void 0!==e.fadeEndTime&&e.fadeEndTime>=r.now())return!0}return!1},i}(t.Evented);function Ht(e,i){var n=i.zoomTo(e.canonical.z);return new t.default$1((n.column-(e.canonical.x+e.wrap*Math.pow(2,e.canonical.z)))*t.default$8,(n.row-e.canonical.y)*t.default$8)}function Kt(t){return"raster"===t||"image"===t||"video"===t}function Yt(){return new t.default.Worker(Rn.workerUrl)}Xt.maxOverzooming=10,Xt.maxUnderzooming=3;var Jt,Qt=function(){this.active={};};function te(e,i){var n={};for(var o in e)"ref"!==o&&(n[o]=e[o]);return t.default$18.forEach(function(t){t in i&&(n[t]=i[t]);}),n}function ee(t){t=t.slice();for(var e=Object.create(null),i=0;i<t.length;i++)e[t[i].id]=t[i];for(var n=0;n<t.length;n++)"ref"in t[n]&&(t[n]=te(t[n],e[t[n].ref]));return t}Qt.prototype.acquire=function(t){if(!this.workers){var e=Rn.workerCount;for(this.workers=[];this.workers.length<e;)this.workers.push(new Yt);}return this.active[t]=!0,this.workers.slice()},Qt.prototype.release=function(t){delete this.active[t],0===Object.keys(this.active).length&&(this.workers.forEach(function(t){t.terminate();}),this.workers=null);};var ie={setStyle:"setStyle",addLayer:"addLayer",removeLayer:"removeLayer",setPaintProperty:"setPaintProperty",setLayoutProperty:"setLayoutProperty",setFilter:"setFilter",addSource:"addSource",removeSource:"removeSource",setGeoJSONSourceData:"setGeoJSONSourceData",setLayerZoomRange:"setLayerZoomRange",setLayerProperty:"setLayerProperty",setCenter:"setCenter",setZoom:"setZoom",setBearing:"setBearing",setPitch:"setPitch",setSprite:"setSprite",setGlyphs:"setGlyphs",setTransition:"setTransition",setLight:"setLight"};function ne(t,e,i){i.push({command:ie.addSource,args:[t,e[t]]});}function oe(t,e,i){e.push({command:ie.removeSource,args:[t]}),i[t]=!0;}function re(t,e,i,n){oe(t,i,n),ne(t,e,i);}function ae(e,i,n){var o;for(o in e[n])if(e[n].hasOwnProperty(o)&&"data"!==o&&!t.default$10(e[n][o],i[n][o]))return!1;for(o in i[n])if(i[n].hasOwnProperty(o)&&"data"!==o&&!t.default$10(e[n][o],i[n][o]))return!1;return!0}function se(e,i,n,o,r,a){var s;for(s in i=i||{},e=e||{})e.hasOwnProperty(s)&&(t.default$10(e[s],i[s])||n.push({command:a,args:[o,s,i[s],r]}));for(s in i)i.hasOwnProperty(s)&&!e.hasOwnProperty(s)&&(t.default$10(e[s],i[s])||n.push({command:a,args:[o,s,i[s],r]}));}function le(t){return t.id}function ce(t,e){return t[e.id]=e,t}function ue(e,i){if(!e)return[{command:ie.setStyle,args:[i]}];var n=[];try{if(!t.default$10(e.version,i.version))return[{command:ie.setStyle,args:[i]}];t.default$10(e.center,i.center)||n.push({command:ie.setCenter,args:[i.center]}),t.default$10(e.zoom,i.zoom)||n.push({command:ie.setZoom,args:[i.zoom]}),t.default$10(e.bearing,i.bearing)||n.push({command:ie.setBearing,args:[i.bearing]}),t.default$10(e.pitch,i.pitch)||n.push({command:ie.setPitch,args:[i.pitch]}),t.default$10(e.sprite,i.sprite)||n.push({command:ie.setSprite,args:[i.sprite]}),t.default$10(e.glyphs,i.glyphs)||n.push({command:ie.setGlyphs,args:[i.glyphs]}),t.default$10(e.transition,i.transition)||n.push({command:ie.setTransition,args:[i.transition]}),t.default$10(e.light,i.light)||n.push({command:ie.setLight,args:[i.light]});var o={},r=[];!function(e,i,n,o){var r;for(r in i=i||{},e=e||{})e.hasOwnProperty(r)&&(i.hasOwnProperty(r)||oe(r,n,o));for(r in i)i.hasOwnProperty(r)&&(e.hasOwnProperty(r)?t.default$10(e[r],i[r])||("geojson"===e[r].type&&"geojson"===i[r].type&&ae(e,i,r)?n.push({command:ie.setGeoJSONSourceData,args:[r,i[r].data]}):re(r,i,n,o)):ne(r,i,n));}(e.sources,i.sources,r,o);var a=[];e.layers&&e.layers.forEach(function(t){o[t.source]?n.push({command:ie.removeLayer,args:[t.id]}):a.push(t);}),n=n.concat(r),function(e,i,n){i=i||[];var o,r,a,s,l,c,u,h=(e=e||[]).map(le),p=i.map(le),d=e.reduce(ce,{}),f=i.reduce(ce,{}),m=h.slice(),_=Object.create(null);for(o=0,r=0;o<h.length;o++)a=h[o],f.hasOwnProperty(a)?r++:(n.push({command:ie.removeLayer,args:[a]}),m.splice(m.indexOf(a,r),1));for(o=0,r=0;o<p.length;o++)a=p[p.length-1-o],m[m.length-1-o]!==a&&(d.hasOwnProperty(a)?(n.push({command:ie.removeLayer,args:[a]}),m.splice(m.lastIndexOf(a,m.length-r),1)):r++,c=m[m.length-o],n.push({command:ie.addLayer,args:[f[a],c]}),m.splice(m.length-o,0,a),_[a]=!0);for(o=0;o<p.length;o++)if(s=d[a=p[o]],l=f[a],!_[a]&&!t.default$10(s,l))if(t.default$10(s.source,l.source)&&t.default$10(s["source-layer"],l["source-layer"])&&t.default$10(s.type,l.type)){for(u in se(s.layout,l.layout,n,a,null,ie.setLayoutProperty),se(s.paint,l.paint,n,a,null,ie.setPaintProperty),t.default$10(s.filter,l.filter)||n.push({command:ie.setFilter,args:[a,l.filter]}),t.default$10(s.minzoom,l.minzoom)&&t.default$10(s.maxzoom,l.maxzoom)||n.push({command:ie.setLayerZoomRange,args:[a,l.minzoom,l.maxzoom]}),s)s.hasOwnProperty(u)&&"layout"!==u&&"paint"!==u&&"filter"!==u&&"metadata"!==u&&"minzoom"!==u&&"maxzoom"!==u&&(0===u.indexOf("paint.")?se(s[u],l[u],n,a,u.slice(6),ie.setPaintProperty):t.default$10(s[u],l[u])||n.push({command:ie.setLayerProperty,args:[a,u,l[u]]}));for(u in l)l.hasOwnProperty(u)&&!s.hasOwnProperty(u)&&"layout"!==u&&"paint"!==u&&"filter"!==u&&"metadata"!==u&&"minzoom"!==u&&"maxzoom"!==u&&(0===u.indexOf("paint.")?se(s[u],l[u],n,a,u.slice(6),ie.setPaintProperty):t.default$10(s[u],l[u])||n.push({command:ie.setLayerProperty,args:[a,u,l[u]]}));}else n.push({command:ie.removeLayer,args:[a]}),c=m[m.lastIndexOf(a)+1],n.push({command:ie.addLayer,args:[l,c]});}(a,i.layers,n);}catch(t){console.warn("Unable to compute style diff:",t),n=[{command:ie.setStyle,args:[i]}];}return n}var he=function(t,e,i){var n=this.boxCells=[],o=this.circleCells=[];this.xCellCount=Math.ceil(t/i),this.yCellCount=Math.ceil(e/i);for(var r=0;r<this.xCellCount*this.yCellCount;r++)n.push([]),o.push([]);this.circleKeys=[],this.boxKeys=[],this.bboxes=[],this.circles=[],this.width=t,this.height=e,this.xScale=this.xCellCount/t,this.yScale=this.yCellCount/e,this.boxUid=0,this.circleUid=0;};he.prototype.keysLength=function(){return this.boxKeys.length+this.circleKeys.length},he.prototype.insert=function(t,e,i,n,o){this._forEachCell(e,i,n,o,this._insertBoxCell,this.boxUid++),this.boxKeys.push(t),this.bboxes.push(e),this.bboxes.push(i),this.bboxes.push(n),this.bboxes.push(o);},he.prototype.insertCircle=function(t,e,i,n){this._forEachCell(e-n,i-n,e+n,i+n,this._insertCircleCell,this.circleUid++),this.circleKeys.push(t),this.circles.push(e),this.circles.push(i),this.circles.push(n);},he.prototype._insertBoxCell=function(t,e,i,n,o,r){this.boxCells[o].push(r);},he.prototype._insertCircleCell=function(t,e,i,n,o,r){this.circleCells[o].push(r);},he.prototype._query=function(t,e,i,n,o){if(i<0||t>this.width||n<0||e>this.height)return!o&&[];var r=[];if(t<=0&&e<=0&&this.width<=i&&this.height<=n){if(o)return!0;for(var a=0;a<this.boxKeys.length;a++)r.push({key:this.boxKeys[a],x1:this.bboxes[4*a],y1:this.bboxes[4*a+1],x2:this.bboxes[4*a+2],y2:this.bboxes[4*a+3]});for(var s=0;s<this.circleKeys.length;s++){var l=this.circles[3*s],c=this.circles[3*s+1],u=this.circles[3*s+2];r.push({key:this.circleKeys[s],x1:l-u,y1:c-u,x2:l+u,y2:c+u});}}else{var h={hitTest:o,seenUids:{box:{},circle:{}}};this._forEachCell(t,e,i,n,this._queryCell,r,h);}return o?r.length>0:r},he.prototype._queryCircle=function(t,e,i,n){var o=t-i,r=t+i,a=e-i,s=e+i;if(r<0||o>this.width||s<0||a>this.height)return!n&&[];var l=[],c={hitTest:n,circle:{x:t,y:e,radius:i},seenUids:{box:{},circle:{}}};return this._forEachCell(o,a,r,s,this._queryCellCircle,l,c),n?l.length>0:l},he.prototype.query=function(t,e,i,n){return this._query(t,e,i,n,!1)},he.prototype.hitTest=function(t,e,i,n){return this._query(t,e,i,n,!0)},he.prototype.hitTestCircle=function(t,e,i){return this._queryCircle(t,e,i,!0)},he.prototype._queryCell=function(t,e,i,n,o,r,a){var s=a.seenUids,l=this.boxCells[o];if(null!==l)for(var c=this.bboxes,u=0,h=l;u<h.length;u+=1){var p=h[u];if(!s.box[p]){s.box[p]=!0;var d=4*p;if(t<=c[d+2]&&e<=c[d+3]&&i>=c[d+0]&&n>=c[d+1]){if(a.hitTest)return r.push(!0),!0;r.push({key:this.boxKeys[p],x1:c[d],y1:c[d+1],x2:c[d+2],y2:c[d+3]});}}}var f=this.circleCells[o];if(null!==f)for(var m=this.circles,_=0,g=f;_<g.length;_+=1){var v=g[_];if(!s.circle[v]){s.circle[v]=!0;var y=3*v;if(this._circleAndRectCollide(m[y],m[y+1],m[y+2],t,e,i,n)){if(a.hitTest)return r.push(!0),!0;var x=m[y],b=m[y+1],w=m[y+2];r.push({key:this.circleKeys[v],x1:x-w,y1:b-w,x2:x+w,y2:b+w});}}}},he.prototype._queryCellCircle=function(t,e,i,n,o,r,a){var s=a.circle,l=a.seenUids,c=this.boxCells[o];if(null!==c)for(var u=this.bboxes,h=0,p=c;h<p.length;h+=1){var d=p[h];if(!l.box[d]){l.box[d]=!0;var f=4*d;if(this._circleAndRectCollide(s.x,s.y,s.radius,u[f+0],u[f+1],u[f+2],u[f+3]))return r.push(!0),!0}}var m=this.circleCells[o];if(null!==m)for(var _=this.circles,g=0,v=m;g<v.length;g+=1){var y=v[g];if(!l.circle[y]){l.circle[y]=!0;var x=3*y;if(this._circlesCollide(_[x],_[x+1],_[x+2],s.x,s.y,s.radius))return r.push(!0),!0}}},he.prototype._forEachCell=function(t,e,i,n,o,r,a){for(var s=this._convertToXCellCoord(t),l=this._convertToYCellCoord(e),c=this._convertToXCellCoord(i),u=this._convertToYCellCoord(n),h=s;h<=c;h++)for(var p=l;p<=u;p++){var d=this.xCellCount*p+h;if(o.call(this,t,e,i,n,d,r,a))return}},he.prototype._convertToXCellCoord=function(t){return Math.max(0,Math.min(this.xCellCount-1,Math.floor(t*this.xScale)))},he.prototype._convertToYCellCoord=function(t){return Math.max(0,Math.min(this.yCellCount-1,Math.floor(t*this.yScale)))},he.prototype._circlesCollide=function(t,e,i,n,o,r){var a=n-t,s=o-e,l=i+r;return l*l>a*a+s*s},he.prototype._circleAndRectCollide=function(t,e,i,n,o,r,a){var s=(r-n)/2,l=Math.abs(t-(n+s));if(l>s+i)return!1;var c=(a-o)/2,u=Math.abs(e-(o+c));if(u>c+i)return!1;if(l<=s||u<=c)return!0;var h=l-s,p=u-c;return h*h+p*p<=i*i};var pe=t.default$19.layout;function de(e,i,n,o,r){var a=t.mat4.identity(new Float32Array(16));return i?(t.mat4.identity(a),t.mat4.scale(a,a,[1/r,1/r,1]),n||t.mat4.rotateZ(a,a,o.angle)):(t.mat4.scale(a,a,[o.width/2,-o.height/2,1]),t.mat4.translate(a,a,[1,-1,0]),t.mat4.multiply(a,a,e)),a}function fe(e,i,n,o,r){var a=t.mat4.identity(new Float32Array(16));return i?(t.mat4.multiply(a,a,e),t.mat4.scale(a,a,[r,r,1]),n||t.mat4.rotateZ(a,a,-o.angle)):(t.mat4.scale(a,a,[1,-1,1]),t.mat4.translate(a,a,[-1,-1,0]),t.mat4.scale(a,a,[2/o.width,2/o.height,1])),a}function me(e,i){var n=[e.x,e.y,0,1];Ie(n,n,i);var o=n[3];return{point:new t.default$1(n[0]/o,n[1]/o),signedDistanceFromCamera:o}}function _e(t,e){var i=t[0]/t[3],n=t[1]/t[3];return i>=-e[0]&&i<=e[0]&&n>=-e[1]&&n<=e[1]}function ge(e,i,n,o,r,a,s,l){var c=o?e.textSizeData:e.iconSizeData,u=t.evaluateSizeForZoom(c,n.transform.zoom,pe.properties[o?"text-size":"icon-size"]),h=[256/n.width*2+1,256/n.height*2+1],p=o?e.text.dynamicLayoutVertexArray:e.icon.dynamicLayoutVertexArray;p.clear();for(var d=e.lineVertexArray,f=o?e.text.placedSymbolArray:e.icon.placedSymbolArray,m=n.transform.width/n.transform.height,_=!1,g=0;g<f.length;g++){var v=f.get(g);if(v.hidden||v.writingMode===t.WritingMode.vertical&&!_)Te(v.numGlyphs,p);else{_=!1;var y=[v.anchorX,v.anchorY,0,1];if(t.vec4.transformMat4(y,y,i),_e(y,h)){var x=.5+y[3]/n.transform.cameraToCenterDistance*.5,b=t.evaluateSizeForFeature(c,u,v),w=s?b*x:b/x,E=new t.default$1(v.anchorX,v.anchorY),T=me(E,r).point,I={},C=xe(v,w,!1,l,i,r,a,e.glyphOffsetArray,d,p,T,E,I,m);_=C.useVertical,(C.notEnoughRoom||_||C.needsFlipping&&xe(v,w,!0,l,i,r,a,e.glyphOffsetArray,d,p,T,E,I,m).notEnoughRoom)&&Te(v.numGlyphs,p);}else Te(v.numGlyphs,p);}}o?e.text.dynamicLayoutVertexBuffer.updateData(p):e.icon.dynamicLayoutVertexBuffer.updateData(p);}function ve(t,e,i,n,o,r,a,s,l,c,u,h){var p=s.glyphStartIndex+s.numGlyphs,d=s.lineStartIndex,f=s.lineStartIndex+s.lineLength,m=e.getoffsetX(s.glyphStartIndex),_=e.getoffsetX(p-1),g=we(t*m,i,n,o,r,a,s.segment,d,f,l,c,u,h);if(!g)return null;var v=we(t*_,i,n,o,r,a,s.segment,d,f,l,c,u,h);return v?{first:g,last:v}:null}function ye(e,i,n,o){if(e===t.WritingMode.horizontal&&Math.abs(n.y-i.y)>Math.abs(n.x-i.x)*o)return{useVertical:!0};return(e===t.WritingMode.vertical?i.y<n.y:i.x>n.x)?{needsFlipping:!0}:null}function xe(e,i,n,o,r,a,s,l,c,u,h,p,d,f){var m,_=i/24,g=e.lineOffsetX*i,v=e.lineOffsetY*i;if(e.numGlyphs>1){var y=e.glyphStartIndex+e.numGlyphs,x=e.lineStartIndex,b=e.lineStartIndex+e.lineLength,w=ve(_,l,g,v,n,h,p,e,c,a,d,!1);if(!w)return{notEnoughRoom:!0};var E=me(w.first.point,s).point,T=me(w.last.point,s).point;if(o&&!n){var I=ye(e.writingMode,E,T,f);if(I)return I}m=[w.first];for(var C=e.glyphStartIndex+1;C<y-1;C++)m.push(we(_*l.getoffsetX(C),g,v,n,h,p,e.segment,x,b,c,a,d,!1));m.push(w.last);}else{if(o&&!n){var S=me(p,r).point,z=e.lineStartIndex+e.segment+1,A=new t.default$1(c.getx(z),c.gety(z)),R=me(A,r),D=R.signedDistanceFromCamera>0?R.point:be(p,A,S,1,r),M=ye(e.writingMode,S,D,f);if(M)return M}var L=we(_*l.getoffsetX(e.glyphStartIndex),g,v,n,h,p,e.segment,e.lineStartIndex,e.lineStartIndex+e.lineLength,c,a,d,!1);if(!L)return{notEnoughRoom:!0};m=[L];}for(var P=0,k=m;P<k.length;P+=1){var B=k[P];t.addDynamicAttributes(u,B.point,B.angle);}return{}}function be(t,e,i,n,o){var r=me(t.add(t.sub(e)._unit()),o).point,a=i.sub(r);return i.add(a._mult(n/a.mag()))}function we(e,i,n,o,r,a,s,l,c,u,h,p,d){var f=o?e-i:e+i,m=f>0?1:-1,_=0;o&&(m*=-1,_=Math.PI),m<0&&(_+=Math.PI);for(var g=m>0?l+s:l+s+1,v=g,y=r,x=r,b=0,w=0,E=Math.abs(f);b+w<=E;){if((g+=m)<l||g>=c)return null;if(x=y,void 0===(y=p[g])){var T=new t.default$1(u.getx(g),u.gety(g)),I=me(T,h);if(I.signedDistanceFromCamera>0)y=p[g]=I.point;else{var C=g-m;y=be(0===b?a:new t.default$1(u.getx(C),u.gety(C)),T,x,E-b+1,h);}}b+=w,w=x.dist(y);}var S=(E-b)/w,z=y.sub(x),A=z.mult(S)._add(x);return A._add(z._unit()._perp()._mult(n*m)),{point:A,angle:_+Math.atan2(y.y-x.y,y.x-x.x),tileDistance:d?{prevTileDistance:g-m===v?0:u.gettileUnitDistanceFromAnchor(g-m),lastSegmentViewportDistance:E-b}:null}}var Ee=new Float32Array([-1/0,-1/0,0,-1/0,-1/0,0,-1/0,-1/0,0,-1/0,-1/0,0]);function Te(t,e){for(var i=0;i<t;i++){var n=e.length;e.resize(n+4),e.float32.set(Ee,3*n);}}function Ie(t,e,i){var n=e[0],o=e[1];return t[0]=i[0]*n+i[4]*o+i[12],t[1]=i[1]*n+i[5]*o+i[13],t[3]=i[3]*n+i[7]*o+i[15],t}t.default$20.mat4;var Ce=function(t,e,i){void 0===e&&(e=new he(t.width+200,t.height+200,25)),void 0===i&&(i=new he(t.width+200,t.height+200,25)),this.transform=t,this.grid=e,this.ignoredGrid=i,this.pitchfactor=Math.cos(t._pitch)*t.cameraToCenterDistance,this.screenRightBoundary=t.width+100,this.screenBottomBoundary=t.height+100;};function Se(t,e,i){t[e+4]=i?1:0;}function ze(e,i,n){return i*(t.default$8/(e.tileSize*Math.pow(2,n-e.tileID.overscaledZ)))}Ce.prototype.placeCollisionBox=function(t,e,i,n){var o=this.projectAndGetPerspectiveRatio(n,t.anchorPointX,t.anchorPointY),r=i*o.perspectiveRatio,a=t.x1*r+o.point.x,s=t.y1*r+o.point.y,l=t.x2*r+o.point.x,c=t.y2*r+o.point.y;return!e&&this.grid.hitTest(a,s,l,c)?{box:[],offscreen:!1}:{box:[a,s,l,c],offscreen:this.isOffscreen(a,s,l,c)}},Ce.prototype.approximateTileDistance=function(t,e,i,n,o){var r=o?1:n/this.pitchfactor,a=t.lastSegmentViewportDistance*i;return t.prevTileDistance+a+(r-1)*a*Math.abs(Math.sin(e))},Ce.prototype.placeCollisionCircles=function(e,i,n,o,r,a,s,l,c,u,h,p,d){var f=[],m=this.projectAnchor(u,a.anchorX,a.anchorY),_=c/24,g=a.lineOffsetX*c,v=a.lineOffsetY*c,y=new t.default$1(a.anchorX,a.anchorY),x=ve(_,l,g,v,!1,me(y,h).point,y,a,s,h,{},!0),b=!1,w=!0,E=m.perspectiveRatio*o,T=1/(o*n),I=0,C=0;x&&(I=this.approximateTileDistance(x.first.tileDistance,x.first.angle,T,m.cameraDistance,d),C=this.approximateTileDistance(x.last.tileDistance,x.last.angle,T,m.cameraDistance,d));for(var S=0;S<e.length;S+=5){var z=e[S],A=e[S+1],R=e[S+2],D=e[S+3];if(!x||D<-I||D>C)Se(e,S,!1);else{var M=this.projectPoint(u,z,A),L=R*E;if(f.length>0){var P=M.x-f[f.length-4],k=M.y-f[f.length-3];if(L*L*2>P*P+k*k)if(S+8<e.length){var B=e[S+8];if(B>-I&&B<C){Se(e,S,!1);continue}}}var O=S/5;if(f.push(M.x,M.y,L,O),Se(e,S,!0),w=w&&this.isOffscreen(M.x-L,M.y-L,M.x+L,M.y+L),!i&&this.grid.hitTestCircle(M.x,M.y,L)){if(!p)return{circles:[],offscreen:!1};b=!0;}}}return{circles:b?[]:f,offscreen:w}},Ce.prototype.queryRenderedSymbols=function(e){if(0===e.length||0===this.grid.keysLength()&&0===this.ignoredGrid.keysLength())return{};for(var i=[],n=1/0,o=1/0,r=-1/0,a=-1/0,s=0,l=e;s<l.length;s+=1){var c=l[s],u=new t.default$1(c.x+100,c.y+100);n=Math.min(n,u.x),o=Math.min(o,u.y),r=Math.max(r,u.x),a=Math.max(a,u.y),i.push(u);}for(var h={},p={},d=0,f=this.grid.query(n,o,r,a).concat(this.ignoredGrid.query(n,o,r,a));d<f.length;d+=1){var m=f[d],_=m.key;if(void 0===h[_.bucketInstanceId]&&(h[_.bucketInstanceId]={}),!h[_.bucketInstanceId][_.featureIndex]){var g=[new t.default$1(m.x1,m.y1),new t.default$1(m.x2,m.y1),new t.default$1(m.x2,m.y2),new t.default$1(m.x1,m.y2)];t.polygonIntersectsPolygon(i,g)&&(h[_.bucketInstanceId][_.featureIndex]=!0,void 0===p[_.bucketInstanceId]&&(p[_.bucketInstanceId]=[]),p[_.bucketInstanceId].push(_.featureIndex));}}return p},Ce.prototype.insertCollisionBox=function(t,e,i,n){var o={bucketInstanceId:i,featureIndex:n};(e?this.ignoredGrid:this.grid).insert(o,t[0],t[1],t[2],t[3]);},Ce.prototype.insertCollisionCircles=function(t,e,i,n){for(var o=e?this.ignoredGrid:this.grid,r={bucketInstanceId:i,featureIndex:n},a=0;a<t.length;a+=4)o.insertCircle(r,t[a],t[a+1],t[a+2]);},Ce.prototype.projectAnchor=function(t,e,i){var n=[e,i,0,1];return Ie(n,n,t),{perspectiveRatio:.5+this.transform.cameraToCenterDistance/n[3]*.5,cameraDistance:n[3]}},Ce.prototype.projectPoint=function(e,i,n){var o=[i,n,0,1];return Ie(o,o,e),new t.default$1((o[0]/o[3]+1)/2*this.transform.width+100,(-o[1]/o[3]+1)/2*this.transform.height+100)},Ce.prototype.projectAndGetPerspectiveRatio=function(e,i,n){var o=[i,n,0,1];return Ie(o,o,e),{point:new t.default$1((o[0]/o[3]+1)/2*this.transform.width+100,(-o[1]/o[3]+1)/2*this.transform.height+100),perspectiveRatio:.5+this.transform.cameraToCenterDistance/o[3]*.5}},Ce.prototype.isOffscreen=function(t,e,i,n){return i<100||t>=this.screenRightBoundary||n<100||e>this.screenBottomBoundary};var Ae=t.default$19.layout,Re=function(t,e,i,n){this.opacity=t?Math.max(0,Math.min(1,t.opacity+(t.placed?e:-e))):n&&i?1:0,this.placed=i;};Re.prototype.isHidden=function(){return 0===this.opacity&&!this.placed};var De=function(t,e,i,n,o){this.text=new Re(t?t.text:null,e,i,o),this.icon=new Re(t?t.icon:null,e,n,o);};De.prototype.isHidden=function(){return this.text.isHidden()&&this.icon.isHidden()};var Me=function(t,e,i){this.text=t,this.icon=e,this.skipFade=i;},Le=function(t,e){this.transform=t.clone(),this.collisionIndex=new Ce(this.transform),this.placements={},this.opacities={},this.stale=!1,this.fadeDuration=e,this.retainedQueryData={};};function Pe(t,e,i){t.emplaceBack(e?1:0,i?1:0),t.emplaceBack(e?1:0,i?1:0),t.emplaceBack(e?1:0,i?1:0),t.emplaceBack(e?1:0,i?1:0);}Le.prototype.placeLayerTile=function(e,i,n,o){var r=i.getBucket(e),a=i.latestFeatureIndex;if(r&&a&&e.id===r.layerIds[0]){var s=i.collisionBoxArray,l=r.layers[0].layout,c=Math.pow(2,this.transform.zoom-i.tileID.overscaledZ),u=i.tileSize/t.default$8,h=this.transform.calculatePosMatrix(i.tileID.toUnwrapped()),p=de(h,"map"===l.get("text-pitch-alignment"),"map"===l.get("text-rotation-alignment"),this.transform,ze(i,1,this.transform.zoom)),d=de(h,"map"===l.get("icon-pitch-alignment"),"map"===l.get("icon-rotation-alignment"),this.transform,ze(i,1,this.transform.zoom));this.retainedQueryData[r.bucketInstanceId]=new function(t,e,i,n,o){this.bucketInstanceId=t,this.featureIndex=e,this.sourceLayerIndex=i,this.bucketIndex=n,this.tileID=o;}(r.bucketInstanceId,a,r.sourceLayerIndex,r.index,i.tileID),this.placeLayerBucket(r,h,p,d,c,u,n,o,s);}},Le.prototype.placeLayerBucket=function(e,i,n,o,r,a,s,l,c){for(var u=e.layers[0].layout,h=t.evaluateSizeForZoom(e.textSizeData,this.transform.zoom,Ae.properties["text-size"]),p=!e.hasTextData()||u.get("text-optional"),d=!e.hasIconData()||u.get("icon-optional"),f=0,m=e.symbolInstances;f<m.length;f+=1){var _=m[f];if(!l[_.crossTileID]){var g=void 0!==_.feature.text,v=void 0!==_.feature.icon,y=!0,x=null,b=null,w=null,E=0,T=0;_.collisionArrays||(_.collisionArrays=e.deserializeCollisionBoxes(c,_.textBoxStartIndex,_.textBoxEndIndex,_.iconBoxStartIndex,_.iconBoxEndIndex)),_.collisionArrays.textFeatureIndex&&(E=_.collisionArrays.textFeatureIndex),_.collisionArrays.textBox&&(g=(x=this.collisionIndex.placeCollisionBox(_.collisionArrays.textBox,u.get("text-allow-overlap"),a,i)).box.length>0,y=y&&x.offscreen);var I=_.collisionArrays.textCircles;if(I){var C=e.text.placedSymbolArray.get(_.placedTextSymbolIndices[0]),S=t.evaluateSizeForFeature(e.textSizeData,h,C);b=this.collisionIndex.placeCollisionCircles(I,u.get("text-allow-overlap"),r,a,_.key,C,e.lineVertexArray,e.glyphOffsetArray,S,i,n,s,"map"===u.get("text-pitch-alignment")),g=u.get("text-allow-overlap")||b.circles.length>0,y=y&&b.offscreen;}_.collisionArrays.iconFeatureIndex&&(T=_.collisionArrays.iconFeatureIndex),_.collisionArrays.iconBox&&(v=(w=this.collisionIndex.placeCollisionBox(_.collisionArrays.iconBox,u.get("icon-allow-overlap"),a,i)).box.length>0,y=y&&w.offscreen),p||d?d?p||(v=v&&g):g=v&&g:v=g=v&&g,g&&x&&this.collisionIndex.insertCollisionBox(x.box,u.get("text-ignore-placement"),e.bucketInstanceId,E),v&&w&&this.collisionIndex.insertCollisionBox(w.box,u.get("icon-ignore-placement"),e.bucketInstanceId,T),g&&b&&this.collisionIndex.insertCollisionCircles(b.circles,u.get("text-ignore-placement"),e.bucketInstanceId,E),this.placements[_.crossTileID]=new Me(g,v,y||e.justReloaded),l[_.crossTileID]=!0;}}e.justReloaded=!1;},Le.prototype.commit=function(t,e){this.commitTime=e;var i=!1,n=t&&0!==this.fadeDuration?(this.commitTime-t.commitTime)/this.fadeDuration:1,o=t?t.opacities:{};for(var r in this.placements){var a=this.placements[r],s=o[r];s?(this.opacities[r]=new De(s,n,a.text,a.icon),i=i||a.text!==s.text.placed||a.icon!==s.icon.placed):(this.opacities[r]=new De(null,n,a.text,a.icon,a.skipFade),i=i||a.text||a.icon);}for(var l in o){var c=o[l];if(!this.opacities[l]){var u=new De(c,n,!1,!1);u.isHidden()||(this.opacities[l]=u,i=i||c.text.placed||c.icon.placed);}}i?this.lastPlacementChangeTime=e:"number"!=typeof this.lastPlacementChangeTime&&(this.lastPlacementChangeTime=t?t.lastPlacementChangeTime:e);},Le.prototype.updateLayerOpacities=function(t,e){for(var i={},n=0,o=e;n<o.length;n+=1){var r=o[n],a=r.getBucket(t);a&&r.latestFeatureIndex&&t.id===a.layerIds[0]&&this.updateBucketOpacities(a,i,r.collisionBoxArray);}},Le.prototype.updateBucketOpacities=function(t,e,i){t.hasTextData()&&t.text.opacityVertexArray.clear(),t.hasIconData()&&t.icon.opacityVertexArray.clear(),t.hasCollisionBoxData()&&t.collisionBox.collisionVertexArray.clear(),t.hasCollisionCircleData()&&t.collisionCircle.collisionVertexArray.clear();for(var n=t.layers[0].layout,o=new De(null,0,!1,!1,!0),r=new De(null,0,n.get("text-allow-overlap"),n.get("icon-allow-overlap"),!0),a=0;a<t.symbolInstances.length;a++){var s=t.symbolInstances[a],l=e[s.crossTileID],c=this.opacities[s.crossTileID];l?c=o:c||(c=r,this.opacities[s.crossTileID]=c),e[s.crossTileID]=!0;var u=s.numGlyphVertices>0||s.numVerticalGlyphVertices>0,h=s.numIconVertices>0;if(u){for(var p=Ve(c.text),d=(s.numGlyphVertices+s.numVerticalGlyphVertices)/4,f=0;f<d;f++)t.text.opacityVertexArray.emplaceBack(p);for(var m=0,_=s.placedTextSymbolIndices;m<_.length;m+=1){var g=_[m];t.text.placedSymbolArray.get(g).hidden=c.text.isHidden();}}if(h){for(var v=Ve(c.icon),y=0;y<s.numIconVertices/4;y++)t.icon.opacityVertexArray.emplaceBack(v);t.icon.placedSymbolArray.get(a).hidden=c.icon.isHidden();}s.collisionArrays||(s.collisionArrays=t.deserializeCollisionBoxes(i,s.textBoxStartIndex,s.textBoxEndIndex,s.iconBoxStartIndex,s.iconBoxEndIndex));var x=s.collisionArrays;if(x){x.textBox&&t.hasCollisionBoxData()&&Pe(t.collisionBox.collisionVertexArray,c.text.placed,!1),x.iconBox&&t.hasCollisionBoxData()&&Pe(t.collisionBox.collisionVertexArray,c.icon.placed,!1);var b=x.textCircles;if(b&&t.hasCollisionCircleData())for(var w=0;w<b.length;w+=5){var E=l||0===b[w+4];Pe(t.collisionCircle.collisionVertexArray,c.text.placed,E);}}}t.sortFeatures(this.transform.angle),this.retainedQueryData[t.bucketInstanceId]&&(this.retainedQueryData[t.bucketInstanceId].featureSortOrder=t.featureSortOrder),t.hasTextData()&&t.text.opacityVertexBuffer&&t.text.opacityVertexBuffer.updateData(t.text.opacityVertexArray),t.hasIconData()&&t.icon.opacityVertexBuffer&&t.icon.opacityVertexBuffer.updateData(t.icon.opacityVertexArray),t.hasCollisionBoxData()&&t.collisionBox.collisionVertexBuffer&&t.collisionBox.collisionVertexBuffer.updateData(t.collisionBox.collisionVertexArray),t.hasCollisionCircleData()&&t.collisionCircle.collisionVertexBuffer&&t.collisionCircle.collisionVertexBuffer.updateData(t.collisionCircle.collisionVertexArray);},Le.prototype.symbolFadeChange=function(t){return 0===this.fadeDuration?1:(t-this.commitTime)/this.fadeDuration},Le.prototype.hasTransitions=function(t){return this.stale||t-this.lastPlacementChangeTime<this.fadeDuration},Le.prototype.stillRecent=function(t){return"undefined"!==this.commitTime&&this.commitTime+this.fadeDuration>t},Le.prototype.setStale=function(){this.stale=!0;};var ke=Math.pow(2,25),Be=Math.pow(2,24),Oe=Math.pow(2,17),Fe=Math.pow(2,16),Ne=Math.pow(2,9),Ue=Math.pow(2,8),Ze=Math.pow(2,1);function Ve(t){if(0===t.opacity&&!t.placed)return 0;if(1===t.opacity&&t.placed)return 4294967295;var e=t.placed?1:0,i=Math.floor(127*t.opacity);return i*ke+e*Be+i*Oe+e*Fe+i*Ne+e*Ue+i*Ze+e}var je=function(){this._currentTileIndex=0,this._seenCrossTileIDs={};};je.prototype.continuePlacement=function(t,e,i,n,o){for(;this._currentTileIndex<t.length;){var r=t[this._currentTileIndex];if(e.placeLayerTile(n,r,i,this._seenCrossTileIDs),this._currentTileIndex++,o())return!0}};var $e=function(t,e,i,n,o){this.placement=new Le(t,o),this._currentPlacementIndex=e.length-1,this._forceFullPlacement=i,this._showCollisionBoxes=n,this._done=!1;};$e.prototype.isDone=function(){return this._done},$e.prototype.continuePlacement=function(t,e,i){for(var n=this,o=r.now(),a=function(){var t=r.now()-o;return!n._forceFullPlacement&&t>2};this._currentPlacementIndex>=0;){var s=e[t[n._currentPlacementIndex]],l=n.placement.collisionIndex.transform.zoom;if("symbol"===s.type&&(!s.minzoom||s.minzoom<=l)&&(!s.maxzoom||s.maxzoom>l)){if(n._inProgressLayer||(n._inProgressLayer=new je),n._inProgressLayer.continuePlacement(i[s.source],n.placement,n._showCollisionBoxes,s,a))return;delete n._inProgressLayer;}n._currentPlacementIndex--;}this._done=!0;},$e.prototype.commit=function(t,e){return this.placement.commit(t,e),this.placement};var Ge=512/t.default$8/2,We=function(t,e,i){this.tileID=t,this.indexedSymbolInstances={},this.bucketInstanceId=i;for(var n=0,o=e;n<o.length;n+=1){var r=o[n],a=r.key;this.indexedSymbolInstances[a]||(this.indexedSymbolInstances[a]=[]),this.indexedSymbolInstances[a].push({crossTileID:r.crossTileID,coord:this.getScaledCoordinates(r,t)});}};We.prototype.getScaledCoordinates=function(e,i){var n=i.canonical.z-this.tileID.canonical.z,o=Ge/Math.pow(2,n),r=e.anchor;return{x:Math.floor((i.canonical.x*t.default$8+r.x)*o),y:Math.floor((i.canonical.y*t.default$8+r.y)*o)}},We.prototype.findMatches=function(t,e,i){for(var n=this.tileID.canonical.z<e.canonical.z?1:Math.pow(2,this.tileID.canonical.z-e.canonical.z),o=0,r=t;o<r.length;o+=1){var a=r[o];if(!a.crossTileID){var s=this.indexedSymbolInstances[a.key];if(s)for(var l=this.getScaledCoordinates(a,e),c=0,u=s;c<u.length;c+=1){var h=u[c];if(Math.abs(h.coord.x-l.x)<=n&&Math.abs(h.coord.y-l.y)<=n&&!i[h.crossTileID]){i[h.crossTileID]=!0,a.crossTileID=h.crossTileID;break}}}}};var qe=function(){this.maxCrossTileID=0;};qe.prototype.generate=function(){return++this.maxCrossTileID};var Xe=function(){this.indexes={},this.usedCrossTileIDs={},this.lng=0;};Xe.prototype.handleWrapJump=function(t){var e=Math.round((t-this.lng)/360);if(0!==e)for(var i in this.indexes){var n=this.indexes[i],o={};for(var r in n){var a=n[r];a.tileID=a.tileID.unwrapTo(a.tileID.wrap+e),o[a.tileID.key]=a;}this.indexes[i]=o;}this.lng=t;},Xe.prototype.addBucket=function(t,e,i){if(this.indexes[t.overscaledZ]&&this.indexes[t.overscaledZ][t.key]){if(this.indexes[t.overscaledZ][t.key].bucketInstanceId===e.bucketInstanceId)return!1;this.removeBucketCrossTileIDs(t.overscaledZ,this.indexes[t.overscaledZ][t.key]);}for(var n=0,o=e.symbolInstances;n<o.length;n+=1){o[n].crossTileID=0;}this.usedCrossTileIDs[t.overscaledZ]||(this.usedCrossTileIDs[t.overscaledZ]={});var r=this.usedCrossTileIDs[t.overscaledZ];for(var a in this.indexes){var s=this.indexes[a];if(Number(a)>t.overscaledZ)for(var l in s){var c=s[l];c.tileID.isChildOf(t)&&c.findMatches(e.symbolInstances,t,r);}else{var u=s[t.scaledTo(Number(a)).key];u&&u.findMatches(e.symbolInstances,t,r);}}for(var h=0,p=e.symbolInstances;h<p.length;h+=1){var d=p[h];d.crossTileID||(d.crossTileID=i.generate(),r[d.crossTileID]=!0);}return void 0===this.indexes[t.overscaledZ]&&(this.indexes[t.overscaledZ]={}),this.indexes[t.overscaledZ][t.key]=new We(t,e.symbolInstances,e.bucketInstanceId),!0},Xe.prototype.removeBucketCrossTileIDs=function(t,e){for(var i in e.indexedSymbolInstances)for(var n=0,o=e.indexedSymbolInstances[i];n<o.length;n+=1){var r=o[n];delete this.usedCrossTileIDs[t][r.crossTileID];}},Xe.prototype.removeStaleBuckets=function(t){var e=!1;for(var i in this.indexes){var n=this.indexes[i];for(var o in n)t[n[o].bucketInstanceId]||(this.removeBucketCrossTileIDs(i,n[o]),delete n[o],e=!0);}return e};var He=function(){this.layerIndexes={},this.crossTileIDs=new qe,this.maxBucketInstanceId=0,this.bucketsInCurrentPlacement={};};He.prototype.addLayer=function(t,e,i){var n=this.layerIndexes[t.id];void 0===n&&(n=this.layerIndexes[t.id]=new Xe);var o=!1,r={};n.handleWrapJump(i);for(var a=0,s=e;a<s.length;a+=1){var l=s[a],c=l.getBucket(t);c&&t.id===c.layerIds[0]&&(c.bucketInstanceId||(c.bucketInstanceId=++this.maxBucketInstanceId),n.addBucket(l.tileID,c,this.crossTileIDs)&&(o=!0),r[c.bucketInstanceId]=!0);}return n.removeStaleBuckets(r)&&(o=!0),o},He.prototype.pruneUnusedLayers=function(t){var e={};for(var i in t.forEach(function(t){e[t]=!0;}),this.layerIndexes)e[i]||delete this.layerIndexes[i];};var Ke=function(e,i){return t.emitValidationErrors(e,i&&i.filter(function(t){return"source.canvas"!==t.identifier}))},Ye=t.pick(ie,["addLayer","removeLayer","setPaintProperty","setLayoutProperty","setFilter","addSource","removeSource","setLayerZoomRange","setLight","setTransition","setGeoJSONSourceData"]),Je=t.pick(ie,["setCenter","setZoom","setBearing","setPitch"]),Qe=function(e){function i(n,o){var r=this;void 0===o&&(o={}),e.call(this),this.map=n,this.dispatcher=new $((Jt||(Jt=new Qt),Jt),this),this.imageManager=new L,this.glyphManager=new N(n._transformRequest,o.localIdeographFontFamily),this.lineAtlas=new j(256,512),this.crossTileSymbolIndex=new He,this._layers={},this._order=[],this.sourceCaches={},this.zoomHistory=new t.default$23,this._loaded=!1,this._resetUpdates();var a=this;this._rtlTextPluginCallback=i.registerForPluginAvailability(function(t){for(var e in a.dispatcher.broadcast("loadRTLTextPlugin",t.pluginURL,t.completionCallback),a.sourceCaches)a.sourceCaches[e].reload();}),this.on("data",function(t){if("source"===t.dataType&&"metadata"===t.sourceDataType){var e=r.sourceCaches[t.sourceId];if(e){var i=e.getSource();if(i&&i.vectorLayerIds)for(var n in r._layers){var o=r._layers[n];o.source===i.id&&r._validateLayer(o);}}}});}return e&&(i.__proto__=e),i.prototype=Object.create(e&&e.prototype),i.prototype.constructor=i,i.prototype.loadURL=function(e,i){var n=this;void 0===i&&(i={}),this.fire(new t.Event("dataloading",{dataType:"style"}));var o="boolean"==typeof i.validate?i.validate:!y(e);e=function(t,e){if(!y(t))return t;var i=C(t);return i.path="/styles/v1"+i.path,v(i,e)}(e,i.accessToken);var r=this.map._transformRequest(e,t.ResourceType.Style);t.getJSON(r,function(e,i){e?n.fire(new t.ErrorEvent(e)):i&&n._load(i,o);});},i.prototype.loadJSON=function(e,i){var n=this;void 0===i&&(i={}),this.fire(new t.Event("dataloading",{dataType:"style"})),r.frame(function(){n._load(e,!1!==i.validate);});},i.prototype._load=function(e,i){var n=this;if(!i||!Ke(this,t.validateStyle(e))){for(var o in this._loaded=!0,this.stylesheet=e,e.sources)n.addSource(o,e.sources[o],{validate:!1});e.sprite?function(e,i,n){var o,a,s,l=r.devicePixelRatio>1?"@2x":"";function c(){if(s)n(s);else if(o&&a){var e=r.getImageData(a),i={};for(var l in o){var c=o[l],u=c.width,h=c.height,p=c.x,d=c.y,f=c.sdf,m=c.pixelRatio,_=new t.RGBAImage({width:u,height:h});t.RGBAImage.copy(e,_,{x:p,y:d},{x:0,y:0},{width:u,height:h}),i[l]={data:_,pixelRatio:m,sdf:f};}n(null,i);}}t.getJSON(i(w(e,l,".json"),t.ResourceType.SpriteJSON),function(t,e){s||(s=t,o=e,c());}),t.getImage(i(w(e,l,".png"),t.ResourceType.SpriteImage),function(t,e){s||(s=t,a=e,c());});}(e.sprite,this.map._transformRequest,function(e,i){if(e)n.fire(new t.ErrorEvent(e));else if(i)for(var o in i)n.imageManager.addImage(o,i[o]);n.imageManager.setLoaded(!0),n.fire(new t.Event("data",{dataType:"style"}));}):this.imageManager.setLoaded(!0),this.glyphManager.setURL(e.glyphs);var a=ee(this.stylesheet.layers);this._order=a.map(function(t){return t.id}),this._layers={};for(var s=0,l=a;s<l.length;s+=1){var c=l[s];(c=t.default$22(c)).setEventedParent(n,{layer:{id:c.id}}),n._layers[c.id]=c;}this.dispatcher.broadcast("setLayers",this._serializeLayers(this._order)),this.light=new V(this.stylesheet.light),this.fire(new t.Event("data",{dataType:"style"})),this.fire(new t.Event("style.load"));}},i.prototype._validateLayer=function(e){var i=this.sourceCaches[e.source];if(i){var n=e.sourceLayer;if(n){var o=i.getSource();("geojson"===o.type||o.vectorLayerIds&&-1===o.vectorLayerIds.indexOf(n))&&this.fire(new t.ErrorEvent(new Error('Source layer "'+n+'" does not exist on source "'+o.id+'" as specified by style layer "'+e.id+'"')));}}},i.prototype.loaded=function(){if(!this._loaded)return!1;if(Object.keys(this._updatedSources).length)return!1;for(var t in this.sourceCaches)if(!this.sourceCaches[t].loaded())return!1;return!!this.imageManager.isLoaded()},i.prototype._serializeLayers=function(t){var e=this;return t.map(function(t){return e._layers[t].serialize()})},i.prototype.hasTransitions=function(){if(this.light&&this.light.hasTransition())return!0;for(var t in this.sourceCaches)if(this.sourceCaches[t].hasTransition())return!0;for(var e in this._layers)if(this._layers[e].hasTransition())return!0;return!1},i.prototype._checkLoaded=function(){if(!this._loaded)throw new Error("Style is not done loading")},i.prototype.update=function(e){if(this._loaded){if(this._changed){var i=Object.keys(this._updatedLayers),n=Object.keys(this._removedLayers);for(var o in(i.length||n.length)&&this._updateWorkerLayers(i,n),this._updatedSources){var r=this._updatedSources[o];"reload"===r?this._reloadSource(o):"clear"===r&&this._clearSource(o);}for(var a in this._updatedPaintProps)this._layers[a].updateTransitions(e);this.light.updateTransitions(e),this._resetUpdates(),this.fire(new t.Event("data",{dataType:"style"}));}for(var s in this.sourceCaches)this.sourceCaches[s].used=!1;for(var l=0,c=this._order;l<c.length;l+=1){var u=c[l],h=this._layers[u];h.recalculate(e),!h.isHidden(e.zoom)&&h.source&&(this.sourceCaches[h.source].used=!0);}this.light.recalculate(e),this.z=e.zoom;}},i.prototype._updateWorkerLayers=function(t,e){this.dispatcher.broadcast("updateLayers",{layers:this._serializeLayers(t),removedIds:e});},i.prototype._resetUpdates=function(){this._changed=!1,this._updatedLayers={},this._removedLayers={},this._updatedSources={},this._updatedPaintProps={};},i.prototype.setState=function(e){var i=this;if(this._checkLoaded(),Ke(this,t.validateStyle(e)))return!1;(e=t.clone(e)).layers=ee(e.layers);var n=ue(this.serialize(),e).filter(function(t){return!(t.command in Je)});if(0===n.length)return!1;var o=n.filter(function(t){return!(t.command in Ye)});if(o.length>0)throw new Error("Unimplemented: "+o.map(function(t){return t.command}).join(", ")+".");return n.forEach(function(t){"setTransition"!==t.command&&i[t.command].apply(i,t.args);}),this.stylesheet=e,!0},i.prototype.addImage=function(e,i){if(this.getImage(e))return this.fire(new t.ErrorEvent(new Error("An image with this name already exists.")));this.imageManager.addImage(e,i),this.fire(new t.Event("data",{dataType:"style"}));},i.prototype.getImage=function(t){return this.imageManager.getImage(t)},i.prototype.removeImage=function(e){if(!this.getImage(e))return this.fire(new t.ErrorEvent(new Error("No image with this name exists.")));this.imageManager.removeImage(e),this.fire(new t.Event("data",{dataType:"style"}));},i.prototype.addSource=function(e,i,n){var o=this;if(this._checkLoaded(),void 0!==this.sourceCaches[e])throw new Error("There is already a source with this ID");if(!i.type)throw new Error("The type property must be defined, but the only the following properties were given: "+Object.keys(i).join(", ")+".");if(!(["vector","raster","geojson","video","image"].indexOf(i.type)>=0)||!this._validate(t.validateStyle.source,"sources."+e,i,null,n)){this.map&&this.map._collectResourceTiming&&(i.collectResourceTiming=!0);var r=this.sourceCaches[e]=new Xt(e,i,this.dispatcher);r.style=this,r.setEventedParent(this,function(){return{isSourceLoaded:o.loaded(),source:r.serialize(),sourceId:e}}),r.onAdd(this.map),this._changed=!0;}},i.prototype.removeSource=function(e){if(this._checkLoaded(),void 0===this.sourceCaches[e])throw new Error("There is no source with this ID");for(var i in this._layers)if(this._layers[i].source===e)return this.fire(new t.ErrorEvent(new Error('Source "'+e+'" cannot be removed while layer "'+i+'" is using it.')));var n=this.sourceCaches[e];delete this.sourceCaches[e],delete this._updatedSources[e],n.fire(new t.Event("data",{sourceDataType:"metadata",dataType:"source",sourceId:e})),n.setEventedParent(null),n.clearTiles(),n.onRemove&&n.onRemove(this.map),this._changed=!0;},i.prototype.setGeoJSONSourceData=function(t,e){this._checkLoaded(),this.sourceCaches[t].getSource().setData(e),this._changed=!0;},i.prototype.getSource=function(t){return this.sourceCaches[t]&&this.sourceCaches[t].getSource()},i.prototype.addLayer=function(e,i,n){this._checkLoaded();var o=e.id;if(this.getLayer(o))this.fire(new t.ErrorEvent(new Error('Layer with id "'+o+'" already exists on this map')));else if("object"==typeof e.source&&(this.addSource(o,e.source),e=t.clone(e),e=t.extend(e,{source:o})),!this._validate(t.validateStyle.layer,"layers."+o,e,{arrayIndex:-1},n)){var r=t.default$22(e);this._validateLayer(r),r.setEventedParent(this,{layer:{id:o}});var a=i?this._order.indexOf(i):this._order.length;if(i&&-1===a)this.fire(new t.ErrorEvent(new Error('Layer with id "'+i+'" does not exist on this map.')));else{if(this._order.splice(a,0,o),this._layerOrderChanged=!0,this._layers[o]=r,this._removedLayers[o]&&r.source){var s=this._removedLayers[o];delete this._removedLayers[o],s.type!==r.type?this._updatedSources[r.source]="clear":(this._updatedSources[r.source]="reload",this.sourceCaches[r.source].pause());}this._updateLayer(r);}}},i.prototype.moveLayer=function(e,i){if(this._checkLoaded(),this._changed=!0,this._layers[e]){if(e!==i){var n=this._order.indexOf(e);this._order.splice(n,1);var o=i?this._order.indexOf(i):this._order.length;i&&-1===o?this.fire(new t.ErrorEvent(new Error('Layer with id "'+i+'" does not exist on this map.'))):(this._order.splice(o,0,e),this._layerOrderChanged=!0);}}else this.fire(new t.ErrorEvent(new Error("The layer '"+e+"' does not exist in the map's style and cannot be moved.")));},i.prototype.removeLayer=function(e){this._checkLoaded();var i=this._layers[e];if(i){i.setEventedParent(null);var n=this._order.indexOf(e);this._order.splice(n,1),this._layerOrderChanged=!0,this._changed=!0,this._removedLayers[e]=i,delete this._layers[e],delete this._updatedLayers[e],delete this._updatedPaintProps[e];}else this.fire(new t.ErrorEvent(new Error("The layer '"+e+"' does not exist in the map's style and cannot be removed.")));},i.prototype.getLayer=function(t){return this._layers[t]},i.prototype.setLayerZoomRange=function(e,i,n){this._checkLoaded();var o=this.getLayer(e);o?o.minzoom===i&&o.maxzoom===n||(null!=i&&(o.minzoom=i),null!=n&&(o.maxzoom=n),this._updateLayer(o)):this.fire(new t.ErrorEvent(new Error("The layer '"+e+"' does not exist in the map's style and cannot have zoom extent.")));},i.prototype.setFilter=function(e,i){this._checkLoaded();var n=this.getLayer(e);if(n){if(!t.default$10(n.filter,i))return null==i?(n.filter=void 0,void this._updateLayer(n)):void(this._validate(t.validateStyle.filter,"layers."+n.id+".filter",i)||(n.filter=t.clone(i),this._updateLayer(n)))}else this.fire(new t.ErrorEvent(new Error("The layer '"+e+"' does not exist in the map's style and cannot be filtered.")));},i.prototype.getFilter=function(e){return t.clone(this.getLayer(e).filter)},i.prototype.setLayoutProperty=function(e,i,n){this._checkLoaded();var o=this.getLayer(e);o?t.default$10(o.getLayoutProperty(i),n)||(o.setLayoutProperty(i,n),this._updateLayer(o)):this.fire(new t.ErrorEvent(new Error("The layer '"+e+"' does not exist in the map's style and cannot be styled.")));},i.prototype.getLayoutProperty=function(t,e){return this.getLayer(t).getLayoutProperty(e)},i.prototype.setPaintProperty=function(e,i,n){this._checkLoaded();var o=this.getLayer(e);if(o){if(!t.default$10(o.getPaintProperty(i),n)){var r=o._transitionablePaint._values[i].value.isDataDriven();o.setPaintProperty(i,n),(o._transitionablePaint._values[i].value.isDataDriven()||r)&&this._updateLayer(o),this._changed=!0,this._updatedPaintProps[e]=!0;}}else this.fire(new t.ErrorEvent(new Error("The layer '"+e+"' does not exist in the map's style and cannot be styled.")));},i.prototype.getPaintProperty=function(t,e){return this.getLayer(t).getPaintProperty(e)},i.prototype.getTransition=function(){return t.extend({duration:300,delay:0},this.stylesheet&&this.stylesheet.transition)},i.prototype.serialize=function(){var e=this;return t.filterObject({version:this.stylesheet.version,name:this.stylesheet.name,metadata:this.stylesheet.metadata,light:this.stylesheet.light,center:this.stylesheet.center,zoom:this.stylesheet.zoom,bearing:this.stylesheet.bearing,pitch:this.stylesheet.pitch,sprite:this.stylesheet.sprite,glyphs:this.stylesheet.glyphs,transition:this.stylesheet.transition,sources:t.mapObject(this.sourceCaches,function(t){return t.serialize()}),layers:this._order.map(function(t){return e._layers[t].serialize()})},function(t){return void 0!==t})},i.prototype._updateLayer=function(t){this._updatedLayers[t.id]=!0,t.source&&!this._updatedSources[t.source]&&(this._updatedSources[t.source]="reload",this.sourceCaches[t.source].pause()),this._changed=!0;},i.prototype._flattenRenderedFeatures=function(t){for(var e=[],i=this._order.length-1;i>=0;i--)for(var n=this._order[i],o=0,r=t;o<r.length;o+=1){var a=r[o][n];if(a)for(var s=0,l=a;s<l.length;s+=1){var c=l[s];e.push(c);}}return e},i.prototype.queryRenderedFeatures=function(e,i,n){i&&i.filter&&this._validate(t.validateStyle.filter,"queryRenderedFeatures.filter",i.filter);var o={};if(i&&i.layers){if(!Array.isArray(i.layers))return this.fire(new t.ErrorEvent(new Error("parameters.layers must be an Array."))),[];for(var r=0,a=i.layers;r<a.length;r+=1){var s=a[r],l=this._layers[s];if(!l)return this.fire(new t.ErrorEvent(new Error("The layer '"+s+"' does not exist in the map's style and cannot be queried for features."))),[];o[l.source]=!0;}}var c=[];for(var u in this.sourceCaches)i.layers&&!o[u]||c.push(at(this.sourceCaches[u],this._layers,e.worldCoordinate,i,n));return this.placement&&c.push(function(t,e,i,n,o){for(var r={},a=n.queryRenderedSymbols(e),s=[],l=0,c=Object.keys(a).map(Number);l<c.length;l+=1){var u=c[l];s.push(o[u]);}s.sort(st);for(var h=function(){var e=d[p],n=e.featureIndex.lookupSymbolFeatures(a[e.bucketInstanceId],e.bucketIndex,e.sourceLayerIndex,i.filter,i.layers,t);for(var o in n){var s=r[o]=r[o]||[],l=n[o];l.sort(function(t,i){var n=e.featureSortOrder;if(n){var o=n.indexOf(t.featureIndex);return n.indexOf(i.featureIndex)-o}return i.featureIndex-t.featureIndex});for(var c=0,u=l;c<u.length;c+=1){var h=u[c];s.push(h.feature);}}},p=0,d=s;p<d.length;p+=1)h();return r}(this._layers,e.viewport,i,this.placement.collisionIndex,this.placement.retainedQueryData)),this._flattenRenderedFeatures(c)},i.prototype.querySourceFeatures=function(e,i){i&&i.filter&&this._validate(t.validateStyle.filter,"querySourceFeatures.filter",i.filter);var n=this.sourceCaches[e];return n?function(t,e){for(var i=t.getRenderableIds().map(function(e){return t.getTileByID(e)}),n=[],o={},r=0;r<i.length;r++){var a=i[r],s=a.tileID.canonical.key;o[s]||(o[s]=!0,a.querySourceFeatures(n,e));}return n}(n,i):[]},i.prototype.addSourceType=function(t,e,n){return i.getSourceType(t)?n(new Error('A source type called "'+t+'" already exists.')):(i.setSourceType(t,e),e.workerSourceURL?void this.dispatcher.broadcast("loadWorkerSource",{name:t,url:e.workerSourceURL},n):n(null,null))},i.prototype.getLight=function(){return this.light.getLight()},i.prototype.setLight=function(e){this._checkLoaded();var i=this.light.getLight(),n=!1;for(var o in e)if(!t.default$10(e[o],i[o])){n=!0;break}if(n){var a={now:r.now(),transition:t.extend({duration:300,delay:0},this.stylesheet.transition)};this.light.setLight(e),this.light.updateTransitions(a);}},i.prototype._validate=function(e,i,n,o,r){return(!r||!1!==r.validate)&&Ke(this,e.call(t.validateStyle,t.extend({key:i,style:this.serialize(),value:n,styleSpec:t.default$5},o)))},i.prototype._remove=function(){for(var e in t.evented.off("pluginAvailable",this._rtlTextPluginCallback),this.sourceCaches)this.sourceCaches[e].clearTiles();this.dispatcher.remove();},i.prototype._clearSource=function(t){this.sourceCaches[t].clearTiles();},i.prototype._reloadSource=function(t){this.sourceCaches[t].resume(),this.sourceCaches[t].reload();},i.prototype._updateSources=function(t){for(var e in this.sourceCaches)this.sourceCaches[e].update(t);},i.prototype._generateCollisionBoxes=function(){for(var t in this.sourceCaches)this._reloadSource(t);},i.prototype._updatePlacement=function(t,e,i){for(var n=!1,o=!1,a={},s=0,l=this._order;s<l.length;s+=1){var c=l[s],u=this._layers[c];if("symbol"===u.type){if(!a[u.source]){var h=this.sourceCaches[u.source];a[u.source]=h.getRenderableIds().map(function(t){return h.getTileByID(t)}).sort(function(t,e){return e.tileID.overscaledZ-t.tileID.overscaledZ||(t.tileID.isLessThan(e.tileID)?-1:1)});}var p=this.crossTileSymbolIndex.addLayer(u,a[u.source],t.center.lng);n=n||p;}}this.crossTileSymbolIndex.pruneUnusedLayers(this._order);var d=this._layerOrderChanged;if((d||!this.pauseablePlacement||this.pauseablePlacement.isDone()&&!this.placement.stillRecent(r.now()))&&(this.pauseablePlacement=new $e(t,this._order,d,e,i),this._layerOrderChanged=!1),this.pauseablePlacement.isDone()?this.placement.setStale():(this.pauseablePlacement.continuePlacement(this._order,this._layers,a),this.pauseablePlacement.isDone()&&(this.placement=this.pauseablePlacement.commit(this.placement,r.now()),o=!0),n&&this.pauseablePlacement.placement.setStale()),o||n)for(var f=0,m=this._order;f<m.length;f+=1){var _=m[f],g=this._layers[_];"symbol"===g.type&&this.placement.updateLayerOpacities(g,a[g.source]);}return!this.pauseablePlacement.isDone()||this.placement.hasTransitions(r.now())},i.prototype.getImages=function(t,e,i){this.imageManager.getImages(e.icons,i);},i.prototype.getGlyphs=function(t,e,i){this.glyphManager.getGlyphs(e.stacks,i);},i}(t.Evented);Qe.getSourceType=function(t){return ot[t]},Qe.setSourceType=function(t,e){ot[t]=e;},Qe.registerForPluginAvailability=t.registerForPluginAvailability;var ti=t.createLayout([{name:"a_pos",type:"Int16",components:2}]),ei={prelude:{fragmentSource:"#ifdef GL_ES\nprecision mediump float;\n#else\n\n#if !defined(lowp)\n#define lowp\n#endif\n\n#if !defined(mediump)\n#define mediump\n#endif\n\n#if !defined(highp)\n#define highp\n#endif\n\n#endif\n",vertexSource:"#ifdef GL_ES\nprecision highp float;\n#else\n\n#if !defined(lowp)\n#define lowp\n#endif\n\n#if !defined(mediump)\n#define mediump\n#endif\n\n#if !defined(highp)\n#define highp\n#endif\n\n#endif\n\n// Unpack a pair of values that have been packed into a single float.\n// The packed values are assumed to be 8-bit unsigned integers, and are\n// packed like so:\n// packedValue = floor(input[0]) * 256 + input[1],\nvec2 unpack_float(const float packedValue) {\n int packedIntValue = int(packedValue);\n int v0 = packedIntValue / 256;\n return vec2(v0, packedIntValue - v0 * 256);\n}\n\nvec2 unpack_opacity(const float packedOpacity) {\n int intOpacity = int(packedOpacity) / 2;\n return vec2(float(intOpacity) / 127.0, mod(packedOpacity, 2.0));\n}\n\n// To minimize the number of attributes needed, we encode a 4-component\n// color into a pair of floats (i.e. a vec2) as follows:\n// [ floor(color.r * 255) * 256 + color.g * 255,\n// floor(color.b * 255) * 256 + color.g * 255 ]\nvec4 decode_color(const vec2 encodedColor) {\n return vec4(\n unpack_float(encodedColor[0]) / 255.0,\n unpack_float(encodedColor[1]) / 255.0\n );\n}\n\n// Unpack a pair of paint values and interpolate between them.\nfloat unpack_mix_vec2(const vec2 packedValue, const float t) {\n return mix(packedValue[0], packedValue[1], t);\n}\n\n// Unpack a pair of paint values and interpolate between them.\nvec4 unpack_mix_vec4(const vec4 packedColors, const float t) {\n vec4 minColor = decode_color(vec2(packedColors[0], packedColors[1]));\n vec4 maxColor = decode_color(vec2(packedColors[2], packedColors[3]));\n return mix(minColor, maxColor, t);\n}\n\n// The offset depends on how many pixels are between the world origin and the edge of the tile:\n// vec2 offset = mod(pixel_coord, size)\n//\n// At high zoom levels there are a ton of pixels between the world origin and the edge of the tile.\n// The glsl spec only guarantees 16 bits of precision for highp floats. We need more than that.\n//\n// The pixel_coord is passed in as two 16 bit values:\n// pixel_coord_upper = floor(pixel_coord / 2^16)\n// pixel_coord_lower = mod(pixel_coord, 2^16)\n//\n// The offset is calculated in a series of steps that should preserve this precision:\nvec2 get_pattern_pos(const vec2 pixel_coord_upper, const vec2 pixel_coord_lower,\n const vec2 pattern_size, const float tile_units_to_pixels, const vec2 pos) {\n\n vec2 offset = mod(mod(mod(pixel_coord_upper, pattern_size) * 256.0, pattern_size) * 256.0 + pixel_coord_lower, pattern_size);\n return (tile_units_to_pixels * pos + offset) / pattern_size;\n}\n"},background:{fragmentSource:"uniform vec4 u_color;\nuniform float u_opacity;\n\nvoid main() {\n gl_FragColor = u_color * u_opacity;\n\n#ifdef OVERDRAW_INSPECTOR\n gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"attribute vec2 a_pos;\n\nuniform mat4 u_matrix;\n\nvoid main() {\n gl_Position = u_matrix * vec4(a_pos, 0, 1);\n}\n"},backgroundPattern:{fragmentSource:"uniform vec2 u_pattern_tl_a;\nuniform vec2 u_pattern_br_a;\nuniform vec2 u_pattern_tl_b;\nuniform vec2 u_pattern_br_b;\nuniform vec2 u_texsize;\nuniform float u_mix;\nuniform float u_opacity;\n\nuniform sampler2D u_image;\n\nvarying vec2 v_pos_a;\nvarying vec2 v_pos_b;\n\nvoid main() {\n vec2 imagecoord = mod(v_pos_a, 1.0);\n vec2 pos = mix(u_pattern_tl_a / u_texsize, u_pattern_br_a / u_texsize, imagecoord);\n vec4 color1 = texture2D(u_image, pos);\n\n vec2 imagecoord_b = mod(v_pos_b, 1.0);\n vec2 pos2 = mix(u_pattern_tl_b / u_texsize, u_pattern_br_b / u_texsize, imagecoord_b);\n vec4 color2 = texture2D(u_image, pos2);\n\n gl_FragColor = mix(color1, color2, u_mix) * u_opacity;\n\n#ifdef OVERDRAW_INSPECTOR\n gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"uniform mat4 u_matrix;\nuniform vec2 u_pattern_size_a;\nuniform vec2 u_pattern_size_b;\nuniform vec2 u_pixel_coord_upper;\nuniform vec2 u_pixel_coord_lower;\nuniform float u_scale_a;\nuniform float u_scale_b;\nuniform float u_tile_units_to_pixels;\n\nattribute vec2 a_pos;\n\nvarying vec2 v_pos_a;\nvarying vec2 v_pos_b;\n\nvoid main() {\n gl_Position = u_matrix * vec4(a_pos, 0, 1);\n\n v_pos_a = get_pattern_pos(u_pixel_coord_upper, u_pixel_coord_lower, u_scale_a * u_pattern_size_a, u_tile_units_to_pixels, a_pos);\n v_pos_b = get_pattern_pos(u_pixel_coord_upper, u_pixel_coord_lower, u_scale_b * u_pattern_size_b, u_tile_units_to_pixels, a_pos);\n}\n"},circle:{fragmentSource:"#pragma mapbox: define highp vec4 color\n#pragma mapbox: define mediump float radius\n#pragma mapbox: define lowp float blur\n#pragma mapbox: define lowp float opacity\n#pragma mapbox: define highp vec4 stroke_color\n#pragma mapbox: define mediump float stroke_width\n#pragma mapbox: define lowp float stroke_opacity\n\nvarying vec3 v_data;\n\nvoid main() {\n #pragma mapbox: initialize highp vec4 color\n #pragma mapbox: initialize mediump float radius\n #pragma mapbox: initialize lowp float blur\n #pragma mapbox: initialize lowp float opacity\n #pragma mapbox: initialize highp vec4 stroke_color\n #pragma mapbox: initialize mediump float stroke_width\n #pragma mapbox: initialize lowp float stroke_opacity\n\n vec2 extrude = v_data.xy;\n float extrude_length = length(extrude);\n\n lowp float antialiasblur = v_data.z;\n float antialiased_blur = -max(blur, antialiasblur);\n\n float opacity_t = smoothstep(0.0, antialiased_blur, extrude_length - 1.0);\n\n float color_t = stroke_width < 0.01 ? 0.0 : smoothstep(\n antialiased_blur,\n 0.0,\n extrude_length - radius / (radius + stroke_width)\n );\n\n gl_FragColor = opacity_t * mix(color * opacity, stroke_color * stroke_opacity, color_t);\n\n#ifdef OVERDRAW_INSPECTOR\n gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"uniform mat4 u_matrix;\nuniform bool u_scale_with_map;\nuniform bool u_pitch_with_map;\nuniform vec2 u_extrude_scale;\nuniform highp float u_camera_to_center_distance;\n\nattribute vec2 a_pos;\n\n#pragma mapbox: define highp vec4 color\n#pragma mapbox: define mediump float radius\n#pragma mapbox: define lowp float blur\n#pragma mapbox: define lowp float opacity\n#pragma mapbox: define highp vec4 stroke_color\n#pragma mapbox: define mediump float stroke_width\n#pragma mapbox: define lowp float stroke_opacity\n\nvarying vec3 v_data;\n\nvoid main(void) {\n #pragma mapbox: initialize highp vec4 color\n #pragma mapbox: initialize mediump float radius\n #pragma mapbox: initialize lowp float blur\n #pragma mapbox: initialize lowp float opacity\n #pragma mapbox: initialize highp vec4 stroke_color\n #pragma mapbox: initialize mediump float stroke_width\n #pragma mapbox: initialize lowp float stroke_opacity\n\n // unencode the extrusion vector that we snuck into the a_pos vector\n vec2 extrude = vec2(mod(a_pos, 2.0) * 2.0 - 1.0);\n\n // multiply a_pos by 0.5, since we had it * 2 in order to sneak\n // in extrusion data\n vec2 circle_center = floor(a_pos * 0.5);\n if (u_pitch_with_map) {\n vec2 corner_position = circle_center;\n if (u_scale_with_map) {\n corner_position += extrude * (radius + stroke_width) * u_extrude_scale;\n } else {\n // Pitching the circle with the map effectively scales it with the map\n // To counteract the effect for pitch-scale: viewport, we rescale the\n // whole circle based on the pitch scaling effect at its central point\n vec4 projected_center = u_matrix * vec4(circle_center, 0, 1);\n corner_position += extrude * (radius + stroke_width) * u_extrude_scale * (projected_center.w / u_camera_to_center_distance);\n }\n\n gl_Position = u_matrix * vec4(corner_position, 0, 1);\n } else {\n gl_Position = u_matrix * vec4(circle_center, 0, 1);\n\n if (u_scale_with_map) {\n gl_Position.xy += extrude * (radius + stroke_width) * u_extrude_scale * u_camera_to_center_distance;\n } else {\n gl_Position.xy += extrude * (radius + stroke_width) * u_extrude_scale * gl_Position.w;\n }\n }\n\n // This is a minimum blur distance that serves as a faux-antialiasing for\n // the circle. since blur is a ratio of the circle's size and the intent is\n // to keep the blur at roughly 1px, the two are inversely related.\n lowp float antialiasblur = 1.0 / DEVICE_PIXEL_RATIO / (radius + stroke_width);\n\n v_data = vec3(extrude.x, extrude.y, antialiasblur);\n}\n"},clippingMask:{fragmentSource:"void main() {\n gl_FragColor = vec4(1.0);\n}\n",vertexSource:"attribute vec2 a_pos;\n\nuniform mat4 u_matrix;\n\nvoid main() {\n gl_Position = u_matrix * vec4(a_pos, 0, 1);\n}\n"},heatmap:{fragmentSource:"#pragma mapbox: define highp float weight\n\nuniform highp float u_intensity;\nvarying vec2 v_extrude;\n\n// Gaussian kernel coefficient: 1 / sqrt(2 * PI)\n#define GAUSS_COEF 0.3989422804014327\n\nvoid main() {\n #pragma mapbox: initialize highp float weight\n\n // Kernel density estimation with a Gaussian kernel of size 5x5\n float d = -0.5 * 3.0 * 3.0 * dot(v_extrude, v_extrude);\n float val = weight * u_intensity * GAUSS_COEF * exp(d);\n\n gl_FragColor = vec4(val, 1.0, 1.0, 1.0);\n\n#ifdef OVERDRAW_INSPECTOR\n gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"#pragma mapbox: define highp float weight\n#pragma mapbox: define mediump float radius\n\nuniform mat4 u_matrix;\nuniform float u_extrude_scale;\nuniform float u_opacity;\nuniform float u_intensity;\n\nattribute vec2 a_pos;\n\nvarying vec2 v_extrude;\n\n// Effective \"0\" in the kernel density texture to adjust the kernel size to;\n// this empirically chosen number minimizes artifacts on overlapping kernels\n// for typical heatmap cases (assuming clustered source)\nconst highp float ZERO = 1.0 / 255.0 / 16.0;\n\n// Gaussian kernel coefficient: 1 / sqrt(2 * PI)\n#define GAUSS_COEF 0.3989422804014327\n\nvoid main(void) {\n #pragma mapbox: initialize highp float weight\n #pragma mapbox: initialize mediump float radius\n\n // unencode the extrusion vector that we snuck into the a_pos vector\n vec2 unscaled_extrude = vec2(mod(a_pos, 2.0) * 2.0 - 1.0);\n\n // This 'extrude' comes in ranging from [-1, -1], to [1, 1]. We'll use\n // it to produce the vertices of a square mesh framing the point feature\n // we're adding to the kernel density texture. We'll also pass it as\n // a varying, so that the fragment shader can determine the distance of\n // each fragment from the point feature.\n // Before we do so, we need to scale it up sufficiently so that the\n // kernel falls effectively to zero at the edge of the mesh.\n // That is, we want to know S such that\n // weight * u_intensity * GAUSS_COEF * exp(-0.5 * 3.0^2 * S^2) == ZERO\n // Which solves to:\n // S = sqrt(-2.0 * log(ZERO / (weight * u_intensity * GAUSS_COEF))) / 3.0\n float S = sqrt(-2.0 * log(ZERO / weight / u_intensity / GAUSS_COEF)) / 3.0;\n\n // Pass the varying in units of radius\n v_extrude = S * unscaled_extrude;\n\n // Scale by radius and the zoom-based scale factor to produce actual\n // mesh position\n vec2 extrude = v_extrude * radius * u_extrude_scale;\n\n // multiply a_pos by 0.5, since we had it * 2 in order to sneak\n // in extrusion data\n vec4 pos = vec4(floor(a_pos * 0.5) + extrude, 0, 1);\n\n gl_Position = u_matrix * pos;\n}\n"},heatmapTexture:{fragmentSource:"uniform sampler2D u_image;\nuniform sampler2D u_color_ramp;\nuniform float u_opacity;\nvarying vec2 v_pos;\n\nvoid main() {\n float t = texture2D(u_image, v_pos).r;\n vec4 color = texture2D(u_color_ramp, vec2(t, 0.5));\n gl_FragColor = color * u_opacity;\n\n#ifdef OVERDRAW_INSPECTOR\n gl_FragColor = vec4(0.0);\n#endif\n}\n",vertexSource:"uniform mat4 u_matrix;\nuniform vec2 u_world;\nattribute vec2 a_pos;\nvarying vec2 v_pos;\n\nvoid main() {\n gl_Position = u_matrix * vec4(a_pos * u_world, 0, 1);\n\n v_pos.x = a_pos.x;\n v_pos.y = 1.0 - a_pos.y;\n}\n"},collisionBox:{fragmentSource:"\nvarying float v_placed;\nvarying float v_notUsed;\n\nvoid main() {\n\n float alpha = 0.5;\n\n // Red = collision, hide label\n gl_FragColor = vec4(1.0, 0.0, 0.0, 1.0) * alpha;\n\n // Blue = no collision, label is showing\n if (v_placed > 0.5) {\n gl_FragColor = vec4(0.0, 0.0, 1.0, 0.5) * alpha;\n }\n\n if (v_notUsed > 0.5) {\n // This box not used, fade it out\n gl_FragColor *= .1;\n }\n}",vertexSource:"attribute vec2 a_pos;\nattribute vec2 a_anchor_pos;\nattribute vec2 a_extrude;\nattribute vec2 a_placed;\n\nuniform mat4 u_matrix;\nuniform vec2 u_extrude_scale;\nuniform float u_camera_to_center_distance;\n\nvarying float v_placed;\nvarying float v_notUsed;\n\nvoid main() {\n vec4 projectedPoint = u_matrix * vec4(a_anchor_pos, 0, 1);\n highp float camera_to_anchor_distance = projectedPoint.w;\n highp float collision_perspective_ratio = clamp(\n 0.5 + 0.5 * (u_camera_to_center_distance / camera_to_anchor_distance),\n 0.0, // Prevents oversized near-field boxes in pitched/overzoomed tiles\n 4.0);\n\n gl_Position = u_matrix * vec4(a_pos, 0.0, 1.0);\n gl_Position.xy += a_extrude * u_extrude_scale * gl_Position.w * collision_perspective_ratio;\n\n v_placed = a_placed.x;\n v_notUsed = a_placed.y;\n}\n"},collisionCircle:{fragmentSource:"uniform float u_overscale_factor;\n\nvarying float v_placed;\nvarying float v_notUsed;\nvarying float v_radius;\nvarying vec2 v_extrude;\nvarying vec2 v_extrude_scale;\n\nvoid main() {\n float alpha = 0.5;\n\n // Red = collision, hide label\n vec4 color = vec4(1.0, 0.0, 0.0, 1.0) * alpha;\n\n // Blue = no collision, label is showing\n if (v_placed > 0.5) {\n color = vec4(0.0, 0.0, 1.0, 0.5) * alpha;\n }\n\n if (v_notUsed > 0.5) {\n // This box not used, fade it out\n color *= .2;\n }\n\n float extrude_scale_length = length(v_extrude_scale);\n float extrude_length = length(v_extrude) * extrude_scale_length;\n float stroke_width = 15.0 * extrude_scale_length / u_overscale_factor;\n float radius = v_radius * extrude_scale_length;\n\n float distance_to_edge = abs(extrude_length - radius);\n float opacity_t = smoothstep(-stroke_width, 0.0, -distance_to_edge);\n\n gl_FragColor = opacity_t * color;\n}\n",vertexSource:"attribute vec2 a_pos;\nattribute vec2 a_anchor_pos;\nattribute vec2 a_extrude;\nattribute vec2 a_placed;\n\nuniform mat4 u_matrix;\nuniform vec2 u_extrude_scale;\nuniform float u_camera_to_center_distance;\n\nvarying float v_placed;\nvarying float v_notUsed;\nvarying float v_radius;\n\nvarying vec2 v_extrude;\nvarying vec2 v_extrude_scale;\n\nvoid main() {\n vec4 projectedPoint = u_matrix * vec4(a_anchor_pos, 0, 1);\n highp float camera_to_anchor_distance = projectedPoint.w;\n highp float collision_perspective_ratio = clamp(\n 0.5 + 0.5 * (u_camera_to_center_distance / camera_to_anchor_distance),\n 0.0, // Prevents oversized near-field circles in pitched/overzoomed tiles\n 4.0);\n\n gl_Position = u_matrix * vec4(a_pos, 0.0, 1.0);\n\n highp float padding_factor = 1.2; // Pad the vertices slightly to make room for anti-alias blur\n gl_Position.xy += a_extrude * u_extrude_scale * padding_factor * gl_Position.w * collision_perspective_ratio;\n\n v_placed = a_placed.x;\n v_notUsed = a_placed.y;\n v_radius = abs(a_extrude.y); // We don't pitch the circles, so both units of the extrusion vector are equal in magnitude to the radius\n\n v_extrude = a_extrude * padding_factor;\n v_extrude_scale = u_extrude_scale * u_camera_to_center_distance * collision_perspective_ratio;\n}\n"},debug:{fragmentSource:"uniform highp vec4 u_color;\n\nvoid main() {\n gl_FragColor = u_color;\n}\n",vertexSource:"attribute vec2 a_pos;\n\nuniform mat4 u_matrix;\n\nvoid main() {\n gl_Position = u_matrix * vec4(a_pos, 0, 1);\n}\n"},fill:{fragmentSource:"#pragma mapbox: define highp vec4 color\n#pragma mapbox: define lowp float opacity\n\nvoid main() {\n #pragma mapbox: initialize highp vec4 color\n #pragma mapbox: initialize lowp float opacity\n\n gl_FragColor = color * opacity;\n\n#ifdef OVERDRAW_INSPECTOR\n gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"attribute vec2 a_pos;\n\nuniform mat4 u_matrix;\n\n#pragma mapbox: define highp vec4 color\n#pragma mapbox: define lowp float opacity\n\nvoid main() {\n #pragma mapbox: initialize highp vec4 color\n #pragma mapbox: initialize lowp float opacity\n\n gl_Position = u_matrix * vec4(a_pos, 0, 1);\n}\n"},fillOutline:{fragmentSource:"#pragma mapbox: define highp vec4 outline_color\n#pragma mapbox: define lowp float opacity\n\nvarying vec2 v_pos;\n\nvoid main() {\n #pragma mapbox: initialize highp vec4 outline_color\n #pragma mapbox: initialize lowp float opacity\n\n float dist = length(v_pos - gl_FragCoord.xy);\n float alpha = 1.0 - smoothstep(0.0, 1.0, dist);\n gl_FragColor = outline_color * (alpha * opacity);\n\n#ifdef OVERDRAW_INSPECTOR\n gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"attribute vec2 a_pos;\n\nuniform mat4 u_matrix;\nuniform vec2 u_world;\n\nvarying vec2 v_pos;\n\n#pragma mapbox: define highp vec4 outline_color\n#pragma mapbox: define lowp float opacity\n\nvoid main() {\n #pragma mapbox: initialize highp vec4 outline_color\n #pragma mapbox: initialize lowp float opacity\n\n gl_Position = u_matrix * vec4(a_pos, 0, 1);\n v_pos = (gl_Position.xy / gl_Position.w + 1.0) / 2.0 * u_world;\n}\n"},fillOutlinePattern:{fragmentSource:"uniform vec2 u_pattern_tl_a;\nuniform vec2 u_pattern_br_a;\nuniform vec2 u_pattern_tl_b;\nuniform vec2 u_pattern_br_b;\nuniform vec2 u_texsize;\nuniform float u_mix;\n\nuniform sampler2D u_image;\n\nvarying vec2 v_pos_a;\nvarying vec2 v_pos_b;\nvarying vec2 v_pos;\n\n#pragma mapbox: define lowp float opacity\n\nvoid main() {\n #pragma mapbox: initialize lowp float opacity\n\n vec2 imagecoord = mod(v_pos_a, 1.0);\n vec2 pos = mix(u_pattern_tl_a / u_texsize, u_pattern_br_a / u_texsize, imagecoord);\n vec4 color1 = texture2D(u_image, pos);\n\n vec2 imagecoord_b = mod(v_pos_b, 1.0);\n vec2 pos2 = mix(u_pattern_tl_b / u_texsize, u_pattern_br_b / u_texsize, imagecoord_b);\n vec4 color2 = texture2D(u_image, pos2);\n\n // find distance to outline for alpha interpolation\n\n float dist = length(v_pos - gl_FragCoord.xy);\n float alpha = 1.0 - smoothstep(0.0, 1.0, dist);\n\n\n gl_FragColor = mix(color1, color2, u_mix) * alpha * opacity;\n\n#ifdef OVERDRAW_INSPECTOR\n gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"uniform mat4 u_matrix;\nuniform vec2 u_world;\nuniform vec2 u_pattern_size_a;\nuniform vec2 u_pattern_size_b;\nuniform vec2 u_pixel_coord_upper;\nuniform vec2 u_pixel_coord_lower;\nuniform float u_scale_a;\nuniform float u_scale_b;\nuniform float u_tile_units_to_pixels;\n\nattribute vec2 a_pos;\n\nvarying vec2 v_pos_a;\nvarying vec2 v_pos_b;\nvarying vec2 v_pos;\n\n#pragma mapbox: define lowp float opacity\n\nvoid main() {\n #pragma mapbox: initialize lowp float opacity\n\n gl_Position = u_matrix * vec4(a_pos, 0, 1);\n\n v_pos_a = get_pattern_pos(u_pixel_coord_upper, u_pixel_coord_lower, u_scale_a * u_pattern_size_a, u_tile_units_to_pixels, a_pos);\n v_pos_b = get_pattern_pos(u_pixel_coord_upper, u_pixel_coord_lower, u_scale_b * u_pattern_size_b, u_tile_units_to_pixels, a_pos);\n\n v_pos = (gl_Position.xy / gl_Position.w + 1.0) / 2.0 * u_world;\n}\n"},fillPattern:{fragmentSource:"uniform vec2 u_pattern_tl_a;\nuniform vec2 u_pattern_br_a;\nuniform vec2 u_pattern_tl_b;\nuniform vec2 u_pattern_br_b;\nuniform vec2 u_texsize;\nuniform float u_mix;\n\nuniform sampler2D u_image;\n\nvarying vec2 v_pos_a;\nvarying vec2 v_pos_b;\n\n#pragma mapbox: define lowp float opacity\n\nvoid main() {\n #pragma mapbox: initialize lowp float opacity\n\n vec2 imagecoord = mod(v_pos_a, 1.0);\n vec2 pos = mix(u_pattern_tl_a / u_texsize, u_pattern_br_a / u_texsize, imagecoord);\n vec4 color1 = texture2D(u_image, pos);\n\n vec2 imagecoord_b = mod(v_pos_b, 1.0);\n vec2 pos2 = mix(u_pattern_tl_b / u_texsize, u_pattern_br_b / u_texsize, imagecoord_b);\n vec4 color2 = texture2D(u_image, pos2);\n\n gl_FragColor = mix(color1, color2, u_mix) * opacity;\n\n#ifdef OVERDRAW_INSPECTOR\n gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"uniform mat4 u_matrix;\nuniform vec2 u_pattern_size_a;\nuniform vec2 u_pattern_size_b;\nuniform vec2 u_pixel_coord_upper;\nuniform vec2 u_pixel_coord_lower;\nuniform float u_scale_a;\nuniform float u_scale_b;\nuniform float u_tile_units_to_pixels;\n\nattribute vec2 a_pos;\n\nvarying vec2 v_pos_a;\nvarying vec2 v_pos_b;\n\n#pragma mapbox: define lowp float opacity\n\nvoid main() {\n #pragma mapbox: initialize lowp float opacity\n\n gl_Position = u_matrix * vec4(a_pos, 0, 1);\n\n v_pos_a = get_pattern_pos(u_pixel_coord_upper, u_pixel_coord_lower, u_scale_a * u_pattern_size_a, u_tile_units_to_pixels, a_pos);\n v_pos_b = get_pattern_pos(u_pixel_coord_upper, u_pixel_coord_lower, u_scale_b * u_pattern_size_b, u_tile_units_to_pixels, a_pos);\n}\n"},fillExtrusion:{fragmentSource:"varying vec4 v_color;\n#pragma mapbox: define lowp float base\n#pragma mapbox: define lowp float height\n#pragma mapbox: define highp vec4 color\n\nvoid main() {\n #pragma mapbox: initialize lowp float base\n #pragma mapbox: initialize lowp float height\n #pragma mapbox: initialize highp vec4 color\n\n gl_FragColor = v_color;\n\n#ifdef OVERDRAW_INSPECTOR\n gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"uniform mat4 u_matrix;\nuniform vec3 u_lightcolor;\nuniform lowp vec3 u_lightpos;\nuniform lowp float u_lightintensity;\n\nattribute vec2 a_pos;\nattribute vec4 a_normal_ed;\n\nvarying vec4 v_color;\n\n#pragma mapbox: define lowp float base\n#pragma mapbox: define lowp float height\n\n#pragma mapbox: define highp vec4 color\n\nvoid main() {\n #pragma mapbox: initialize lowp float base\n #pragma mapbox: initialize lowp float height\n #pragma mapbox: initialize highp vec4 color\n\n vec3 normal = a_normal_ed.xyz;\n\n base = max(0.0, base);\n height = max(0.0, height);\n\n float t = mod(normal.x, 2.0);\n\n gl_Position = u_matrix * vec4(a_pos, t > 0.0 ? height : base, 1);\n\n // Relative luminance (how dark/bright is the surface color?)\n float colorvalue = color.r * 0.2126 + color.g * 0.7152 + color.b * 0.0722;\n\n v_color = vec4(0.0, 0.0, 0.0, 1.0);\n\n // Add slight ambient lighting so no extrusions are totally black\n vec4 ambientlight = vec4(0.03, 0.03, 0.03, 1.0);\n color += ambientlight;\n\n // Calculate cos(theta), where theta is the angle between surface normal and diffuse light ray\n float directional = clamp(dot(normal / 16384.0, u_lightpos), 0.0, 1.0);\n\n // Adjust directional so that\n // the range of values for highlight/shading is narrower\n // with lower light intensity\n // and with lighter/brighter surface colors\n directional = mix((1.0 - u_lightintensity), max((1.0 - colorvalue + u_lightintensity), 1.0), directional);\n\n // Add gradient along z axis of side surfaces\n if (normal.y != 0.0) {\n directional *= clamp((t + base) * pow(height / 150.0, 0.5), mix(0.7, 0.98, 1.0 - u_lightintensity), 1.0);\n }\n\n // Assign final color based on surface + ambient light color, diffuse light directional, and light color\n // with lower bounds adjusted to hue of light\n // so that shading is tinted with the complementary (opposite) color to the light color\n v_color.r += clamp(color.r * directional * u_lightcolor.r, mix(0.0, 0.3, 1.0 - u_lightcolor.r), 1.0);\n v_color.g += clamp(color.g * directional * u_lightcolor.g, mix(0.0, 0.3, 1.0 - u_lightcolor.g), 1.0);\n v_color.b += clamp(color.b * directional * u_lightcolor.b, mix(0.0, 0.3, 1.0 - u_lightcolor.b), 1.0);\n}\n"},fillExtrusionPattern:{fragmentSource:"uniform vec2 u_pattern_tl_a;\nuniform vec2 u_pattern_br_a;\nuniform vec2 u_pattern_tl_b;\nuniform vec2 u_pattern_br_b;\nuniform vec2 u_texsize;\nuniform float u_mix;\n\nuniform sampler2D u_image;\n\nvarying vec2 v_pos_a;\nvarying vec2 v_pos_b;\nvarying vec4 v_lighting;\n\n#pragma mapbox: define lowp float base\n#pragma mapbox: define lowp float height\n\nvoid main() {\n #pragma mapbox: initialize lowp float base\n #pragma mapbox: initialize lowp float height\n\n vec2 imagecoord = mod(v_pos_a, 1.0);\n vec2 pos = mix(u_pattern_tl_a / u_texsize, u_pattern_br_a / u_texsize, imagecoord);\n vec4 color1 = texture2D(u_image, pos);\n\n vec2 imagecoord_b = mod(v_pos_b, 1.0);\n vec2 pos2 = mix(u_pattern_tl_b / u_texsize, u_pattern_br_b / u_texsize, imagecoord_b);\n vec4 color2 = texture2D(u_image, pos2);\n\n vec4 mixedColor = mix(color1, color2, u_mix);\n\n gl_FragColor = mixedColor * v_lighting;\n\n#ifdef OVERDRAW_INSPECTOR\n gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"uniform mat4 u_matrix;\nuniform vec2 u_pattern_size_a;\nuniform vec2 u_pattern_size_b;\nuniform vec2 u_pixel_coord_upper;\nuniform vec2 u_pixel_coord_lower;\nuniform float u_scale_a;\nuniform float u_scale_b;\nuniform float u_tile_units_to_pixels;\nuniform float u_height_factor;\n\nuniform vec3 u_lightcolor;\nuniform lowp vec3 u_lightpos;\nuniform lowp float u_lightintensity;\n\nattribute vec2 a_pos;\nattribute vec4 a_normal_ed;\n\nvarying vec2 v_pos_a;\nvarying vec2 v_pos_b;\nvarying vec4 v_lighting;\nvarying float v_directional;\n\n#pragma mapbox: define lowp float base\n#pragma mapbox: define lowp float height\n\nvoid main() {\n #pragma mapbox: initialize lowp float base\n #pragma mapbox: initialize lowp float height\n\n vec3 normal = a_normal_ed.xyz;\n float edgedistance = a_normal_ed.w;\n\n base = max(0.0, base);\n height = max(0.0, height);\n\n float t = mod(normal.x, 2.0);\n float z = t > 0.0 ? height : base;\n\n gl_Position = u_matrix * vec4(a_pos, z, 1);\n\n vec2 pos = normal.x == 1.0 && normal.y == 0.0 && normal.z == 16384.0\n ? a_pos // extrusion top\n : vec2(edgedistance, z * u_height_factor); // extrusion side\n\n v_pos_a = get_pattern_pos(u_pixel_coord_upper, u_pixel_coord_lower, u_scale_a * u_pattern_size_a, u_tile_units_to_pixels, pos);\n v_pos_b = get_pattern_pos(u_pixel_coord_upper, u_pixel_coord_lower, u_scale_b * u_pattern_size_b, u_tile_units_to_pixels, pos);\n\n v_lighting = vec4(0.0, 0.0, 0.0, 1.0);\n float directional = clamp(dot(normal / 16383.0, u_lightpos), 0.0, 1.0);\n directional = mix((1.0 - u_lightintensity), max((0.5 + u_lightintensity), 1.0), directional);\n\n if (normal.y != 0.0) {\n directional *= clamp((t + base) * pow(height / 150.0, 0.5), mix(0.7, 0.98, 1.0 - u_lightintensity), 1.0);\n }\n\n v_lighting.rgb += clamp(directional * u_lightcolor, mix(vec3(0.0), vec3(0.3), 1.0 - u_lightcolor), vec3(1.0));\n}\n"},extrusionTexture:{fragmentSource:"uniform sampler2D u_image;\nuniform float u_opacity;\nvarying vec2 v_pos;\n\nvoid main() {\n gl_FragColor = texture2D(u_image, v_pos) * u_opacity;\n\n#ifdef OVERDRAW_INSPECTOR\n gl_FragColor = vec4(0.0);\n#endif\n}\n",vertexSource:"uniform mat4 u_matrix;\nuniform vec2 u_world;\nattribute vec2 a_pos;\nvarying vec2 v_pos;\n\nvoid main() {\n gl_Position = u_matrix * vec4(a_pos * u_world, 0, 1);\n\n v_pos.x = a_pos.x;\n v_pos.y = 1.0 - a_pos.y;\n}\n"},hillshadePrepare:{fragmentSource:"#ifdef GL_ES\nprecision highp float;\n#endif\n\nuniform sampler2D u_image;\nvarying vec2 v_pos;\nuniform vec2 u_dimension;\nuniform float u_zoom;\nuniform float u_maxzoom;\n\nfloat getElevation(vec2 coord, float bias) {\n // Convert encoded elevation value to meters\n vec4 data = texture2D(u_image, coord) * 255.0;\n return (data.r + data.g * 256.0 + data.b * 256.0 * 256.0) / 4.0;\n}\n\nvoid main() {\n vec2 epsilon = 1.0 / u_dimension;\n\n // queried pixels:\n // +-----------+\n // | | | |\n // | a | b | c |\n // | | | |\n // +-----------+\n // | | | |\n // | d | e | f |\n // | | | |\n // +-----------+\n // | | | |\n // | g | h | i |\n // | | | |\n // +-----------+\n\n float a = getElevation(v_pos + vec2(-epsilon.x, -epsilon.y), 0.0);\n float b = getElevation(v_pos + vec2(0, -epsilon.y), 0.0);\n float c = getElevation(v_pos + vec2(epsilon.x, -epsilon.y), 0.0);\n float d = getElevation(v_pos + vec2(-epsilon.x, 0), 0.0);\n float e = getElevation(v_pos, 0.0);\n float f = getElevation(v_pos + vec2(epsilon.x, 0), 0.0);\n float g = getElevation(v_pos + vec2(-epsilon.x, epsilon.y), 0.0);\n float h = getElevation(v_pos + vec2(0, epsilon.y), 0.0);\n float i = getElevation(v_pos + vec2(epsilon.x, epsilon.y), 0.0);\n\n // here we divide the x and y slopes by 8 * pixel size\n // where pixel size (aka meters/pixel) is:\n // circumference of the world / (pixels per tile * number of tiles)\n // which is equivalent to: 8 * 40075016.6855785 / (512 * pow(2, u_zoom))\n // which can be reduced to: pow(2, 19.25619978527 - u_zoom)\n // we want to vertically exaggerate the hillshading though, because otherwise\n // it is barely noticeable at low zooms. to do this, we multiply this by some\n // scale factor pow(2, (u_zoom - u_maxzoom) * a) where a is an arbitrary value\n // Here we use a=0.3 which works out to the expression below. see \n // nickidlugash's awesome breakdown for more info\n // https://github.com/mapbox/mapbox-gl-js/pull/5286#discussion_r148419556\n float exaggeration = u_zoom < 2.0 ? 0.4 : u_zoom < 4.5 ? 0.35 : 0.3;\n\n vec2 deriv = vec2(\n (c + f + f + i) - (a + d + d + g),\n (g + h + h + i) - (a + b + b + c)\n ) / pow(2.0, (u_zoom - u_maxzoom) * exaggeration + 19.2562 - u_zoom);\n\n gl_FragColor = clamp(vec4(\n deriv.x / 2.0 + 0.5,\n deriv.y / 2.0 + 0.5,\n 1.0,\n 1.0), 0.0, 1.0);\n\n#ifdef OVERDRAW_INSPECTOR\n gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"uniform mat4 u_matrix;\n\nattribute vec2 a_pos;\nattribute vec2 a_texture_pos;\n\nvarying vec2 v_pos;\n\nvoid main() {\n gl_Position = u_matrix * vec4(a_pos, 0, 1);\n v_pos = (a_texture_pos / 8192.0) / 2.0 + 0.25;\n}\n"},hillshade:{fragmentSource:"uniform sampler2D u_image;\nvarying vec2 v_pos;\n\nuniform vec2 u_latrange;\nuniform vec2 u_light;\nuniform vec4 u_shadow;\nuniform vec4 u_highlight;\nuniform vec4 u_accent;\n\n#define PI 3.141592653589793\n\nvoid main() {\n vec4 pixel = texture2D(u_image, v_pos);\n\n vec2 deriv = ((pixel.rg * 2.0) - 1.0);\n\n // We divide the slope by a scale factor based on the cosin of the pixel's approximate latitude\n // to account for mercator projection distortion. see #4807 for details\n float scaleFactor = cos(radians((u_latrange[0] - u_latrange[1]) * (1.0 - v_pos.y) + u_latrange[1]));\n // We also multiply the slope by an arbitrary z-factor of 1.25\n float slope = atan(1.25 * length(deriv) / scaleFactor);\n float aspect = deriv.x != 0.0 ? atan(deriv.y, -deriv.x) : PI / 2.0 * (deriv.y > 0.0 ? 1.0 : -1.0);\n\n float intensity = u_light.x;\n // We add PI to make this property match the global light object, which adds PI/2 to the light's azimuthal\n // position property to account for 0deg corresponding to north/the top of the viewport in the style spec\n // and the original shader was written to accept (-illuminationDirection - 90) as the azimuthal.\n float azimuth = u_light.y + PI;\n\n // We scale the slope exponentially based on intensity, using a calculation similar to\n // the exponential interpolation function in the style spec:\n // https://github.com/mapbox/mapbox-gl-js/blob/master/src/style-spec/expression/definitions/interpolate.js#L217-L228\n // so that higher intensity values create more opaque hillshading.\n float base = 1.875 - intensity * 1.75;\n float maxValue = 0.5 * PI;\n float scaledSlope = intensity != 0.5 ? ((pow(base, slope) - 1.0) / (pow(base, maxValue) - 1.0)) * maxValue : slope;\n\n // The accent color is calculated with the cosine of the slope while the shade color is calculated with the sine\n // so that the accent color's rate of change eases in while the shade color's eases out.\n float accent = cos(scaledSlope);\n // We multiply both the accent and shade color by a clamped intensity value\n // so that intensities >= 0.5 do not additionally affect the color values\n // while intensity values < 0.5 make the overall color more transparent.\n vec4 accent_color = (1.0 - accent) * u_accent * clamp(intensity * 2.0, 0.0, 1.0);\n float shade = abs(mod((aspect + azimuth) / PI + 0.5, 2.0) - 1.0);\n vec4 shade_color = mix(u_shadow, u_highlight, shade) * sin(scaledSlope) * clamp(intensity * 2.0, 0.0, 1.0);\n gl_FragColor = accent_color * (1.0 - shade_color.a) + shade_color;\n\n#ifdef OVERDRAW_INSPECTOR\n gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"uniform mat4 u_matrix;\n\nattribute vec2 a_pos;\nattribute vec2 a_texture_pos;\n\nvarying vec2 v_pos;\n\nvoid main() {\n gl_Position = u_matrix * vec4(a_pos, 0, 1);\n v_pos = a_texture_pos / 8192.0;\n}\n"},line:{fragmentSource:"#pragma mapbox: define highp vec4 color\n#pragma mapbox: define lowp float blur\n#pragma mapbox: define lowp float opacity\n\nvarying vec2 v_width2;\nvarying vec2 v_normal;\nvarying float v_gamma_scale;\n\nvoid main() {\n #pragma mapbox: initialize highp vec4 color\n #pragma mapbox: initialize lowp float blur\n #pragma mapbox: initialize lowp float opacity\n\n // Calculate the distance of the pixel from the line in pixels.\n float dist = length(v_normal) * v_width2.s;\n\n // Calculate the antialiasing fade factor. This is either when fading in\n // the line in case of an offset line (v_width2.t) or when fading out\n // (v_width2.s)\n float blur2 = (blur + 1.0 / DEVICE_PIXEL_RATIO) * v_gamma_scale;\n float alpha = clamp(min(dist - (v_width2.t - blur2), v_width2.s - dist) / blur2, 0.0, 1.0);\n\n gl_FragColor = color * (alpha * opacity);\n\n#ifdef OVERDRAW_INSPECTOR\n gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"\n\n// the distance over which the line edge fades out.\n// Retina devices need a smaller distance to avoid aliasing.\n#define ANTIALIASING 1.0 / DEVICE_PIXEL_RATIO / 2.0\n\n// floor(127 / 2) == 63.0\n// the maximum allowed miter limit is 2.0 at the moment. the extrude normal is\n// stored in a byte (-128..127). we scale regular normals up to length 63, but\n// there are also \"special\" normals that have a bigger length (of up to 126 in\n// this case).\n// #define scale 63.0\n#define scale 0.015873016\n\nattribute vec4 a_pos_normal;\nattribute vec4 a_data;\n\nuniform mat4 u_matrix;\nuniform mediump float u_ratio;\nuniform vec2 u_gl_units_to_pixels;\n\nvarying vec2 v_normal;\nvarying vec2 v_width2;\nvarying float v_gamma_scale;\nvarying highp float v_linesofar;\n\n#pragma mapbox: define highp vec4 color\n#pragma mapbox: define lowp float blur\n#pragma mapbox: define lowp float opacity\n#pragma mapbox: define mediump float gapwidth\n#pragma mapbox: define lowp float offset\n#pragma mapbox: define mediump float width\n\nvoid main() {\n #pragma mapbox: initialize highp vec4 color\n #pragma mapbox: initialize lowp float blur\n #pragma mapbox: initialize lowp float opacity\n #pragma mapbox: initialize mediump float gapwidth\n #pragma mapbox: initialize lowp float offset\n #pragma mapbox: initialize mediump float width\n\n vec2 a_extrude = a_data.xy - 128.0;\n float a_direction = mod(a_data.z, 4.0) - 1.0;\n\n v_linesofar = (floor(a_data.z / 4.0) + a_data.w * 64.0) * 2.0;\n\n vec2 pos = a_pos_normal.xy;\n\n // x is 1 if it's a round cap, 0 otherwise\n // y is 1 if the normal points up, and -1 if it points down\n mediump vec2 normal = a_pos_normal.zw;\n v_normal = normal;\n\n // these transformations used to be applied in the JS and native code bases.\n // moved them into the shader for clarity and simplicity.\n gapwidth = gapwidth / 2.0;\n float halfwidth = width / 2.0;\n offset = -1.0 * offset;\n\n float inset = gapwidth + (gapwidth > 0.0 ? ANTIALIASING : 0.0);\n float outset = gapwidth + halfwidth * (gapwidth > 0.0 ? 2.0 : 1.0) + ANTIALIASING;\n\n // Scale the extrusion vector down to a normal and then up by the line width\n // of this vertex.\n mediump vec2 dist = outset * a_extrude * scale;\n\n // Calculate the offset when drawing a line that is to the side of the actual line.\n // We do this by creating a vector that points towards the extrude, but rotate\n // it when we're drawing round end points (a_direction = -1 or 1) since their\n // extrude vector points in another direction.\n mediump float u = 0.5 * a_direction;\n mediump float t = 1.0 - abs(u);\n mediump vec2 offset2 = offset * a_extrude * scale * normal.y * mat2(t, -u, u, t);\n\n vec4 projected_extrude = u_matrix * vec4(dist / u_ratio, 0.0, 0.0);\n gl_Position = u_matrix * vec4(pos + offset2 / u_ratio, 0.0, 1.0) + projected_extrude;\n\n // calculate how much the perspective view squishes or stretches the extrude\n float extrude_length_without_perspective = length(dist);\n float extrude_length_with_perspective = length(projected_extrude.xy / gl_Position.w * u_gl_units_to_pixels);\n v_gamma_scale = extrude_length_without_perspective / extrude_length_with_perspective;\n\n v_width2 = vec2(outset, inset);\n}\n"},lineGradient:{fragmentSource:"\n#pragma mapbox: define lowp float blur\n#pragma mapbox: define lowp float opacity\n\nuniform sampler2D u_image;\n\nvarying vec2 v_width2;\nvarying vec2 v_normal;\nvarying float v_gamma_scale;\nvarying highp float v_lineprogress;\n\nvoid main() {\n #pragma mapbox: initialize lowp float blur\n #pragma mapbox: initialize lowp float opacity\n\n // Calculate the distance of the pixel from the line in pixels.\n float dist = length(v_normal) * v_width2.s;\n\n // Calculate the antialiasing fade factor. This is either when fading in\n // the line in case of an offset line (v_width2.t) or when fading out\n // (v_width2.s)\n float blur2 = (blur + 1.0 / DEVICE_PIXEL_RATIO) * v_gamma_scale;\n float alpha = clamp(min(dist - (v_width2.t - blur2), v_width2.s - dist) / blur2, 0.0, 1.0);\n\n // For gradient lines, v_lineprogress is the ratio along the entire line,\n // scaled to [0, 2^15), and the gradient ramp is stored in a texture.\n vec4 color = texture2D(u_image, vec2(v_lineprogress, 0.5));\n\n gl_FragColor = color * (alpha * opacity);\n\n#ifdef OVERDRAW_INSPECTOR\n gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"\n// the attribute conveying progress along a line is scaled to [0, 2^15)\n#define MAX_LINE_DISTANCE 32767.0\n\n// the distance over which the line edge fades out.\n// Retina devices need a smaller distance to avoid aliasing.\n#define ANTIALIASING 1.0 / DEVICE_PIXEL_RATIO / 2.0\n\n// floor(127 / 2) == 63.0\n// the maximum allowed miter limit is 2.0 at the moment. the extrude normal is\n// stored in a byte (-128..127). we scale regular normals up to length 63, but\n// there are also \"special\" normals that have a bigger length (of up to 126 in\n// this case).\n// #define scale 63.0\n#define scale 0.015873016\n\nattribute vec4 a_pos_normal;\nattribute vec4 a_data;\n\nuniform mat4 u_matrix;\nuniform mediump float u_ratio;\nuniform vec2 u_gl_units_to_pixels;\n\nvarying vec2 v_normal;\nvarying vec2 v_width2;\nvarying float v_gamma_scale;\nvarying highp float v_lineprogress;\n\n#pragma mapbox: define lowp float blur\n#pragma mapbox: define lowp float opacity\n#pragma mapbox: define mediump float gapwidth\n#pragma mapbox: define lowp float offset\n#pragma mapbox: define mediump float width\n\nvoid main() {\n #pragma mapbox: initialize lowp float blur\n #pragma mapbox: initialize lowp float opacity\n #pragma mapbox: initialize mediump float gapwidth\n #pragma mapbox: initialize lowp float offset\n #pragma mapbox: initialize mediump float width\n\n vec2 a_extrude = a_data.xy - 128.0;\n float a_direction = mod(a_data.z, 4.0) - 1.0;\n\n v_lineprogress = (floor(a_data.z / 4.0) + a_data.w * 64.0) * 2.0 / MAX_LINE_DISTANCE;\n\n vec2 pos = a_pos_normal.xy;\n\n // x is 1 if it's a round cap, 0 otherwise\n // y is 1 if the normal points up, and -1 if it points down\n mediump vec2 normal = a_pos_normal.zw;\n v_normal = normal;\n\n // these transformations used to be applied in the JS and native code bases.\n // moved them into the shader for clarity and simplicity.\n gapwidth = gapwidth / 2.0;\n float halfwidth = width / 2.0;\n offset = -1.0 * offset;\n\n float inset = gapwidth + (gapwidth > 0.0 ? ANTIALIASING : 0.0);\n float outset = gapwidth + halfwidth * (gapwidth > 0.0 ? 2.0 : 1.0) + ANTIALIASING;\n\n // Scale the extrusion vector down to a normal and then up by the line width\n // of this vertex.\n mediump vec2 dist = outset * a_extrude * scale;\n\n // Calculate the offset when drawing a line that is to the side of the actual line.\n // We do this by creating a vector that points towards the extrude, but rotate\n // it when we're drawing round end points (a_direction = -1 or 1) since their\n // extrude vector points in another direction.\n mediump float u = 0.5 * a_direction;\n mediump float t = 1.0 - abs(u);\n mediump vec2 offset2 = offset * a_extrude * scale * normal.y * mat2(t, -u, u, t);\n\n vec4 projected_extrude = u_matrix * vec4(dist / u_ratio, 0.0, 0.0);\n gl_Position = u_matrix * vec4(pos + offset2 / u_ratio, 0.0, 1.0) + projected_extrude;\n\n // calculate how much the perspective view squishes or stretches the extrude\n float extrude_length_without_perspective = length(dist);\n float extrude_length_with_perspective = length(projected_extrude.xy / gl_Position.w * u_gl_units_to_pixels);\n v_gamma_scale = extrude_length_without_perspective / extrude_length_with_perspective;\n\n v_width2 = vec2(outset, inset);\n}\n"},linePattern:{fragmentSource:"uniform vec2 u_pattern_size_a;\nuniform vec2 u_pattern_size_b;\nuniform vec2 u_pattern_tl_a;\nuniform vec2 u_pattern_br_a;\nuniform vec2 u_pattern_tl_b;\nuniform vec2 u_pattern_br_b;\nuniform vec2 u_texsize;\nuniform float u_fade;\n\nuniform sampler2D u_image;\n\nvarying vec2 v_normal;\nvarying vec2 v_width2;\nvarying float v_linesofar;\nvarying float v_gamma_scale;\n\n#pragma mapbox: define lowp float blur\n#pragma mapbox: define lowp float opacity\n\nvoid main() {\n #pragma mapbox: initialize lowp float blur\n #pragma mapbox: initialize lowp float opacity\n\n // Calculate the distance of the pixel from the line in pixels.\n float dist = length(v_normal) * v_width2.s;\n\n // Calculate the antialiasing fade factor. This is either when fading in\n // the line in case of an offset line (v_width2.t) or when fading out\n // (v_width2.s)\n float blur2 = (blur + 1.0 / DEVICE_PIXEL_RATIO) * v_gamma_scale;\n float alpha = clamp(min(dist - (v_width2.t - blur2), v_width2.s - dist) / blur2, 0.0, 1.0);\n\n float x_a = mod(v_linesofar / u_pattern_size_a.x, 1.0);\n float x_b = mod(v_linesofar / u_pattern_size_b.x, 1.0);\n\n // v_normal.y is 0 at the midpoint of the line, -1 at the lower edge, 1 at the upper edge\n // we clamp the line width outset to be between 0 and half the pattern height plus padding (2.0)\n // to ensure we don't sample outside the designated symbol on the sprite sheet.\n // 0.5 is added to shift the component to be bounded between 0 and 1 for interpolation of\n // the texture coordinate\n float y_a = 0.5 + (v_normal.y * clamp(v_width2.s, 0.0, (u_pattern_size_a.y + 2.0) / 2.0) / u_pattern_size_a.y);\n float y_b = 0.5 + (v_normal.y * clamp(v_width2.s, 0.0, (u_pattern_size_b.y + 2.0) / 2.0) / u_pattern_size_b.y);\n vec2 pos_a = mix(u_pattern_tl_a / u_texsize, u_pattern_br_a / u_texsize, vec2(x_a, y_a));\n vec2 pos_b = mix(u_pattern_tl_b / u_texsize, u_pattern_br_b / u_texsize, vec2(x_b, y_b));\n\n vec4 color = mix(texture2D(u_image, pos_a), texture2D(u_image, pos_b), u_fade);\n\n gl_FragColor = color * alpha * opacity;\n\n#ifdef OVERDRAW_INSPECTOR\n gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"// floor(127 / 2) == 63.0\n// the maximum allowed miter limit is 2.0 at the moment. the extrude normal is\n// stored in a byte (-128..127). we scale regular normals up to length 63, but\n// there are also \"special\" normals that have a bigger length (of up to 126 in\n// this case).\n// #define scale 63.0\n#define scale 0.015873016\n\n// We scale the distance before adding it to the buffers so that we can store\n// long distances for long segments. Use this value to unscale the distance.\n#define LINE_DISTANCE_SCALE 2.0\n\n// the distance over which the line edge fades out.\n// Retina devices need a smaller distance to avoid aliasing.\n#define ANTIALIASING 1.0 / DEVICE_PIXEL_RATIO / 2.0\n\nattribute vec4 a_pos_normal;\nattribute vec4 a_data;\n\nuniform mat4 u_matrix;\nuniform mediump float u_ratio;\nuniform vec2 u_gl_units_to_pixels;\n\nvarying vec2 v_normal;\nvarying vec2 v_width2;\nvarying float v_linesofar;\nvarying float v_gamma_scale;\n\n#pragma mapbox: define lowp float blur\n#pragma mapbox: define lowp float opacity\n#pragma mapbox: define lowp float offset\n#pragma mapbox: define mediump float gapwidth\n#pragma mapbox: define mediump float width\n\nvoid main() {\n #pragma mapbox: initialize lowp float blur\n #pragma mapbox: initialize lowp float opacity\n #pragma mapbox: initialize lowp float offset\n #pragma mapbox: initialize mediump float gapwidth\n #pragma mapbox: initialize mediump float width\n\n vec2 a_extrude = a_data.xy - 128.0;\n float a_direction = mod(a_data.z, 4.0) - 1.0;\n float a_linesofar = (floor(a_data.z / 4.0) + a_data.w * 64.0) * LINE_DISTANCE_SCALE;\n\n vec2 pos = a_pos_normal.xy;\n\n // x is 1 if it's a round cap, 0 otherwise\n // y is 1 if the normal points up, and -1 if it points down\n mediump vec2 normal = a_pos_normal.zw;\n v_normal = normal;\n\n // these transformations used to be applied in the JS and native code bases.\n // moved them into the shader for clarity and simplicity.\n gapwidth = gapwidth / 2.0;\n float halfwidth = width / 2.0;\n offset = -1.0 * offset;\n\n float inset = gapwidth + (gapwidth > 0.0 ? ANTIALIASING : 0.0);\n float outset = gapwidth + halfwidth * (gapwidth > 0.0 ? 2.0 : 1.0) + ANTIALIASING;\n\n // Scale the extrusion vector down to a normal and then up by the line width\n // of this vertex.\n mediump vec2 dist = outset * a_extrude * scale;\n\n // Calculate the offset when drawing a line that is to the side of the actual line.\n // We do this by creating a vector that points towards the extrude, but rotate\n // it when we're drawing round end points (a_direction = -1 or 1) since their\n // extrude vector points in another direction.\n mediump float u = 0.5 * a_direction;\n mediump float t = 1.0 - abs(u);\n mediump vec2 offset2 = offset * a_extrude * scale * normal.y * mat2(t, -u, u, t);\n\n vec4 projected_extrude = u_matrix * vec4(dist / u_ratio, 0.0, 0.0);\n gl_Position = u_matrix * vec4(pos + offset2 / u_ratio, 0.0, 1.0) + projected_extrude;\n\n // calculate how much the perspective view squishes or stretches the extrude\n float extrude_length_without_perspective = length(dist);\n float extrude_length_with_perspective = length(projected_extrude.xy / gl_Position.w * u_gl_units_to_pixels);\n v_gamma_scale = extrude_length_without_perspective / extrude_length_with_perspective;\n\n v_linesofar = a_linesofar;\n v_width2 = vec2(outset, inset);\n}\n"},lineSDF:{fragmentSource:"\nuniform sampler2D u_image;\nuniform float u_sdfgamma;\nuniform float u_mix;\n\nvarying vec2 v_normal;\nvarying vec2 v_width2;\nvarying vec2 v_tex_a;\nvarying vec2 v_tex_b;\nvarying float v_gamma_scale;\n\n#pragma mapbox: define highp vec4 color\n#pragma mapbox: define lowp float blur\n#pragma mapbox: define lowp float opacity\n#pragma mapbox: define mediump float width\n#pragma mapbox: define lowp float floorwidth\n\nvoid main() {\n #pragma mapbox: initialize highp vec4 color\n #pragma mapbox: initialize lowp float blur\n #pragma mapbox: initialize lowp float opacity\n #pragma mapbox: initialize mediump float width\n #pragma mapbox: initialize lowp float floorwidth\n\n // Calculate the distance of the pixel from the line in pixels.\n float dist = length(v_normal) * v_width2.s;\n\n // Calculate the antialiasing fade factor. This is either when fading in\n // the line in case of an offset line (v_width2.t) or when fading out\n // (v_width2.s)\n float blur2 = (blur + 1.0 / DEVICE_PIXEL_RATIO) * v_gamma_scale;\n float alpha = clamp(min(dist - (v_width2.t - blur2), v_width2.s - dist) / blur2, 0.0, 1.0);\n\n float sdfdist_a = texture2D(u_image, v_tex_a).a;\n float sdfdist_b = texture2D(u_image, v_tex_b).a;\n float sdfdist = mix(sdfdist_a, sdfdist_b, u_mix);\n alpha *= smoothstep(0.5 - u_sdfgamma / floorwidth, 0.5 + u_sdfgamma / floorwidth, sdfdist);\n\n gl_FragColor = color * (alpha * opacity);\n\n#ifdef OVERDRAW_INSPECTOR\n gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"// floor(127 / 2) == 63.0\n// the maximum allowed miter limit is 2.0 at the moment. the extrude normal is\n// stored in a byte (-128..127). we scale regular normals up to length 63, but\n// there are also \"special\" normals that have a bigger length (of up to 126 in\n// this case).\n// #define scale 63.0\n#define scale 0.015873016\n\n// We scale the distance before adding it to the buffers so that we can store\n// long distances for long segments. Use this value to unscale the distance.\n#define LINE_DISTANCE_SCALE 2.0\n\n// the distance over which the line edge fades out.\n// Retina devices need a smaller distance to avoid aliasing.\n#define ANTIALIASING 1.0 / DEVICE_PIXEL_RATIO / 2.0\n\nattribute vec4 a_pos_normal;\nattribute vec4 a_data;\n\nuniform mat4 u_matrix;\nuniform mediump float u_ratio;\nuniform vec2 u_patternscale_a;\nuniform float u_tex_y_a;\nuniform vec2 u_patternscale_b;\nuniform float u_tex_y_b;\nuniform vec2 u_gl_units_to_pixels;\n\nvarying vec2 v_normal;\nvarying vec2 v_width2;\nvarying vec2 v_tex_a;\nvarying vec2 v_tex_b;\nvarying float v_gamma_scale;\n\n#pragma mapbox: define highp vec4 color\n#pragma mapbox: define lowp float blur\n#pragma mapbox: define lowp float opacity\n#pragma mapbox: define mediump float gapwidth\n#pragma mapbox: define lowp float offset\n#pragma mapbox: define mediump float width\n#pragma mapbox: define lowp float floorwidth\n\nvoid main() {\n #pragma mapbox: initialize highp vec4 color\n #pragma mapbox: initialize lowp float blur\n #pragma mapbox: initialize lowp float opacity\n #pragma mapbox: initialize mediump float gapwidth\n #pragma mapbox: initialize lowp float offset\n #pragma mapbox: initialize mediump float width\n #pragma mapbox: initialize lowp float floorwidth\n\n vec2 a_extrude = a_data.xy - 128.0;\n float a_direction = mod(a_data.z, 4.0) - 1.0;\n float a_linesofar = (floor(a_data.z / 4.0) + a_data.w * 64.0) * LINE_DISTANCE_SCALE;\n\n vec2 pos = a_pos_normal.xy;\n\n // x is 1 if it's a round cap, 0 otherwise\n // y is 1 if the normal points up, and -1 if it points down\n mediump vec2 normal = a_pos_normal.zw;\n v_normal = normal;\n\n // these transformations used to be applied in the JS and native code bases.\n // moved them into the shader for clarity and simplicity.\n gapwidth = gapwidth / 2.0;\n float halfwidth = width / 2.0;\n offset = -1.0 * offset;\n\n float inset = gapwidth + (gapwidth > 0.0 ? ANTIALIASING : 0.0);\n float outset = gapwidth + halfwidth * (gapwidth > 0.0 ? 2.0 : 1.0) + ANTIALIASING;\n\n // Scale the extrusion vector down to a normal and then up by the line width\n // of this vertex.\n mediump vec2 dist =outset * a_extrude * scale;\n\n // Calculate the offset when drawing a line that is to the side of the actual line.\n // We do this by creating a vector that points towards the extrude, but rotate\n // it when we're drawing round end points (a_direction = -1 or 1) since their\n // extrude vector points in another direction.\n mediump float u = 0.5 * a_direction;\n mediump float t = 1.0 - abs(u);\n mediump vec2 offset2 = offset * a_extrude * scale * normal.y * mat2(t, -u, u, t);\n\n vec4 projected_extrude = u_matrix * vec4(dist / u_ratio, 0.0, 0.0);\n gl_Position = u_matrix * vec4(pos + offset2 / u_ratio, 0.0, 1.0) + projected_extrude;\n\n // calculate how much the perspective view squishes or stretches the extrude\n float extrude_length_without_perspective = length(dist);\n float extrude_length_with_perspective = length(projected_extrude.xy / gl_Position.w * u_gl_units_to_pixels);\n v_gamma_scale = extrude_length_without_perspective / extrude_length_with_perspective;\n\n v_tex_a = vec2(a_linesofar * u_patternscale_a.x / floorwidth, normal.y * u_patternscale_a.y + u_tex_y_a);\n v_tex_b = vec2(a_linesofar * u_patternscale_b.x / floorwidth, normal.y * u_patternscale_b.y + u_tex_y_b);\n\n v_width2 = vec2(outset, inset);\n}\n"},raster:{fragmentSource:"uniform float u_fade_t;\nuniform float u_opacity;\nuniform sampler2D u_image0;\nuniform sampler2D u_image1;\nvarying vec2 v_pos0;\nvarying vec2 v_pos1;\n\nuniform float u_brightness_low;\nuniform float u_brightness_high;\n\nuniform float u_saturation_factor;\nuniform float u_contrast_factor;\nuniform vec3 u_spin_weights;\n\nvoid main() {\n\n // read and cross-fade colors from the main and parent tiles\n vec4 color0 = texture2D(u_image0, v_pos0);\n vec4 color1 = texture2D(u_image1, v_pos1);\n if (color0.a > 0.0) {\n color0.rgb = color0.rgb / color0.a;\n }\n if (color1.a > 0.0) {\n color1.rgb = color1.rgb / color1.a;\n }\n vec4 color = mix(color0, color1, u_fade_t);\n color.a *= u_opacity;\n vec3 rgb = color.rgb;\n\n // spin\n rgb = vec3(\n dot(rgb, u_spin_weights.xyz),\n dot(rgb, u_spin_weights.zxy),\n dot(rgb, u_spin_weights.yzx));\n\n // saturation\n float average = (color.r + color.g + color.b) / 3.0;\n rgb += (average - rgb) * u_saturation_factor;\n\n // contrast\n rgb = (rgb - 0.5) * u_contrast_factor + 0.5;\n\n // brightness\n vec3 u_high_vec = vec3(u_brightness_low, u_brightness_low, u_brightness_low);\n vec3 u_low_vec = vec3(u_brightness_high, u_brightness_high, u_brightness_high);\n\n gl_FragColor = vec4(mix(u_high_vec, u_low_vec, rgb) * color.a, color.a);\n\n#ifdef OVERDRAW_INSPECTOR\n gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"uniform mat4 u_matrix;\nuniform vec2 u_tl_parent;\nuniform float u_scale_parent;\nuniform float u_buffer_scale;\n\nattribute vec2 a_pos;\nattribute vec2 a_texture_pos;\n\nvarying vec2 v_pos0;\nvarying vec2 v_pos1;\n\nvoid main() {\n gl_Position = u_matrix * vec4(a_pos, 0, 1);\n // We are using Int16 for texture position coordinates to give us enough precision for\n // fractional coordinates. We use 8192 to scale the texture coordinates in the buffer\n // as an arbitrarily high number to preserve adequate precision when rendering.\n // This is also the same value as the EXTENT we are using for our tile buffer pos coordinates,\n // so math for modifying either is consistent.\n v_pos0 = (((a_texture_pos / 8192.0) - 0.5) / u_buffer_scale ) + 0.5;\n v_pos1 = (v_pos0 * u_scale_parent) + u_tl_parent;\n}\n"},symbolIcon:{fragmentSource:"uniform sampler2D u_texture;\n\n#pragma mapbox: define lowp float opacity\n\nvarying vec2 v_tex;\nvarying float v_fade_opacity;\n\nvoid main() {\n #pragma mapbox: initialize lowp float opacity\n\n lowp float alpha = opacity * v_fade_opacity;\n gl_FragColor = texture2D(u_texture, v_tex) * alpha;\n\n#ifdef OVERDRAW_INSPECTOR\n gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"const float PI = 3.141592653589793;\n\nattribute vec4 a_pos_offset;\nattribute vec4 a_data;\nattribute vec3 a_projected_pos;\nattribute float a_fade_opacity;\n\nuniform bool u_is_size_zoom_constant;\nuniform bool u_is_size_feature_constant;\nuniform highp float u_size_t; // used to interpolate between zoom stops when size is a composite function\nuniform highp float u_size; // used when size is both zoom and feature constant\nuniform highp float u_camera_to_center_distance;\nuniform highp float u_pitch;\nuniform bool u_rotate_symbol;\nuniform highp float u_aspect_ratio;\nuniform float u_fade_change;\n\n#pragma mapbox: define lowp float opacity\n\nuniform mat4 u_matrix;\nuniform mat4 u_label_plane_matrix;\nuniform mat4 u_gl_coord_matrix;\n\nuniform bool u_is_text;\nuniform bool u_pitch_with_map;\n\nuniform vec2 u_texsize;\n\nvarying vec2 v_tex;\nvarying float v_fade_opacity;\n\nvoid main() {\n #pragma mapbox: initialize lowp float opacity\n\n vec2 a_pos = a_pos_offset.xy;\n vec2 a_offset = a_pos_offset.zw;\n\n vec2 a_tex = a_data.xy;\n vec2 a_size = a_data.zw;\n\n highp float segment_angle = -a_projected_pos[2];\n\n float size;\n if (!u_is_size_zoom_constant && !u_is_size_feature_constant) {\n size = mix(a_size[0], a_size[1], u_size_t) / 10.0;\n } else if (u_is_size_zoom_constant && !u_is_size_feature_constant) {\n size = a_size[0] / 10.0;\n } else if (!u_is_size_zoom_constant && u_is_size_feature_constant) {\n size = u_size;\n } else {\n size = u_size;\n }\n\n vec4 projectedPoint = u_matrix * vec4(a_pos, 0, 1);\n highp float camera_to_anchor_distance = projectedPoint.w;\n // See comments in symbol_sdf.vertex\n highp float distance_ratio = u_pitch_with_map ?\n camera_to_anchor_distance / u_camera_to_center_distance :\n u_camera_to_center_distance / camera_to_anchor_distance;\n highp float perspective_ratio = clamp(\n 0.5 + 0.5 * distance_ratio,\n 0.0, // Prevents oversized near-field symbols in pitched/overzoomed tiles\n 4.0);\n\n size *= perspective_ratio;\n\n float fontScale = u_is_text ? size / 24.0 : size;\n\n highp float symbol_rotation = 0.0;\n if (u_rotate_symbol) {\n // See comments in symbol_sdf.vertex\n vec4 offsetProjectedPoint = u_matrix * vec4(a_pos + vec2(1, 0), 0, 1);\n\n vec2 a = projectedPoint.xy / projectedPoint.w;\n vec2 b = offsetProjectedPoint.xy / offsetProjectedPoint.w;\n\n symbol_rotation = atan((b.y - a.y) / u_aspect_ratio, b.x - a.x);\n }\n\n highp float angle_sin = sin(segment_angle + symbol_rotation);\n highp float angle_cos = cos(segment_angle + symbol_rotation);\n mat2 rotation_matrix = mat2(angle_cos, -1.0 * angle_sin, angle_sin, angle_cos);\n\n vec4 projected_pos = u_label_plane_matrix * vec4(a_projected_pos.xy, 0.0, 1.0);\n gl_Position = u_gl_coord_matrix * vec4(projected_pos.xy / projected_pos.w + rotation_matrix * (a_offset / 32.0 * fontScale), 0.0, 1.0);\n\n v_tex = a_tex / u_texsize;\n vec2 fade_opacity = unpack_opacity(a_fade_opacity);\n float fade_change = fade_opacity[1] > 0.5 ? u_fade_change : -u_fade_change;\n v_fade_opacity = max(0.0, min(1.0, fade_opacity[0] + fade_change));\n}\n"},symbolSDF:{fragmentSource:"#define SDF_PX 8.0\n#define EDGE_GAMMA 0.105/DEVICE_PIXEL_RATIO\n\nuniform bool u_is_halo;\n#pragma mapbox: define highp vec4 fill_color\n#pragma mapbox: define highp vec4 halo_color\n#pragma mapbox: define lowp float opacity\n#pragma mapbox: define lowp float halo_width\n#pragma mapbox: define lowp float halo_blur\n\nuniform sampler2D u_texture;\nuniform highp float u_gamma_scale;\nuniform bool u_is_text;\n\nvarying vec2 v_data0;\nvarying vec3 v_data1;\n\nvoid main() {\n #pragma mapbox: initialize highp vec4 fill_color\n #pragma mapbox: initialize highp vec4 halo_color\n #pragma mapbox: initialize lowp float opacity\n #pragma mapbox: initialize lowp float halo_width\n #pragma mapbox: initialize lowp float halo_blur\n\n vec2 tex = v_data0.xy;\n float gamma_scale = v_data1.x;\n float size = v_data1.y;\n float fade_opacity = v_data1[2];\n\n float fontScale = u_is_text ? size / 24.0 : size;\n\n lowp vec4 color = fill_color;\n highp float gamma = EDGE_GAMMA / (fontScale * u_gamma_scale);\n lowp float buff = (256.0 - 64.0) / 256.0;\n if (u_is_halo) {\n color = halo_color;\n gamma = (halo_blur * 1.19 / SDF_PX + EDGE_GAMMA) / (fontScale * u_gamma_scale);\n buff = (6.0 - halo_width / fontScale) / SDF_PX;\n }\n\n lowp float dist = texture2D(u_texture, tex).a;\n highp float gamma_scaled = gamma * gamma_scale;\n highp float alpha = smoothstep(buff - gamma_scaled, buff + gamma_scaled, dist);\n\n gl_FragColor = color * (alpha * opacity * fade_opacity);\n\n#ifdef OVERDRAW_INSPECTOR\n gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"const float PI = 3.141592653589793;\n\nattribute vec4 a_pos_offset;\nattribute vec4 a_data;\nattribute vec3 a_projected_pos;\nattribute float a_fade_opacity;\n\n// contents of a_size vary based on the type of property value\n// used for {text,icon}-size.\n// For constants, a_size is disabled.\n// For source functions, we bind only one value per vertex: the value of {text,icon}-size evaluated for the current feature.\n// For composite functions:\n// [ text-size(lowerZoomStop, feature),\n// text-size(upperZoomStop, feature) ]\nuniform bool u_is_size_zoom_constant;\nuniform bool u_is_size_feature_constant;\nuniform highp float u_size_t; // used to interpolate between zoom stops when size is a composite function\nuniform highp float u_size; // used when size is both zoom and feature constant\n\n#pragma mapbox: define highp vec4 fill_color\n#pragma mapbox: define highp vec4 halo_color\n#pragma mapbox: define lowp float opacity\n#pragma mapbox: define lowp float halo_width\n#pragma mapbox: define lowp float halo_blur\n\nuniform mat4 u_matrix;\nuniform mat4 u_label_plane_matrix;\nuniform mat4 u_gl_coord_matrix;\n\nuniform bool u_is_text;\nuniform bool u_pitch_with_map;\nuniform highp float u_pitch;\nuniform bool u_rotate_symbol;\nuniform highp float u_aspect_ratio;\nuniform highp float u_camera_to_center_distance;\nuniform float u_fade_change;\n\nuniform vec2 u_texsize;\n\nvarying vec2 v_data0;\nvarying vec3 v_data1;\n\nvoid main() {\n #pragma mapbox: initialize highp vec4 fill_color\n #pragma mapbox: initialize highp vec4 halo_color\n #pragma mapbox: initialize lowp float opacity\n #pragma mapbox: initialize lowp float halo_width\n #pragma mapbox: initialize lowp float halo_blur\n\n vec2 a_pos = a_pos_offset.xy;\n vec2 a_offset = a_pos_offset.zw;\n\n vec2 a_tex = a_data.xy;\n vec2 a_size = a_data.zw;\n\n highp float segment_angle = -a_projected_pos[2];\n float size;\n\n if (!u_is_size_zoom_constant && !u_is_size_feature_constant) {\n size = mix(a_size[0], a_size[1], u_size_t) / 10.0;\n } else if (u_is_size_zoom_constant && !u_is_size_feature_constant) {\n size = a_size[0] / 10.0;\n } else if (!u_is_size_zoom_constant && u_is_size_feature_constant) {\n size = u_size;\n } else {\n size = u_size;\n }\n\n vec4 projectedPoint = u_matrix * vec4(a_pos, 0, 1);\n highp float camera_to_anchor_distance = projectedPoint.w;\n // If the label is pitched with the map, layout is done in pitched space,\n // which makes labels in the distance smaller relative to viewport space.\n // We counteract part of that effect by multiplying by the perspective ratio.\n // If the label isn't pitched with the map, we do layout in viewport space,\n // which makes labels in the distance larger relative to the features around\n // them. We counteract part of that effect by dividing by the perspective ratio.\n highp float distance_ratio = u_pitch_with_map ?\n camera_to_anchor_distance / u_camera_to_center_distance :\n u_camera_to_center_distance / camera_to_anchor_distance;\n highp float perspective_ratio = clamp(\n 0.5 + 0.5 * distance_ratio,\n 0.0, // Prevents oversized near-field symbols in pitched/overzoomed tiles\n 4.0);\n\n size *= perspective_ratio;\n\n float fontScale = u_is_text ? size / 24.0 : size;\n\n highp float symbol_rotation = 0.0;\n if (u_rotate_symbol) {\n // Point labels with 'rotation-alignment: map' are horizontal with respect to tile units\n // To figure out that angle in projected space, we draw a short horizontal line in tile\n // space, project it, and measure its angle in projected space.\n vec4 offsetProjectedPoint = u_matrix * vec4(a_pos + vec2(1, 0), 0, 1);\n\n vec2 a = projectedPoint.xy / projectedPoint.w;\n vec2 b = offsetProjectedPoint.xy / offsetProjectedPoint.w;\n\n symbol_rotation = atan((b.y - a.y) / u_aspect_ratio, b.x - a.x);\n }\n\n highp float angle_sin = sin(segment_angle + symbol_rotation);\n highp float angle_cos = cos(segment_angle + symbol_rotation);\n mat2 rotation_matrix = mat2(angle_cos, -1.0 * angle_sin, angle_sin, angle_cos);\n\n vec4 projected_pos = u_label_plane_matrix * vec4(a_projected_pos.xy, 0.0, 1.0);\n gl_Position = u_gl_coord_matrix * vec4(projected_pos.xy / projected_pos.w + rotation_matrix * (a_offset / 32.0 * fontScale), 0.0, 1.0);\n float gamma_scale = gl_Position.w;\n\n vec2 tex = a_tex / u_texsize;\n vec2 fade_opacity = unpack_opacity(a_fade_opacity);\n float fade_change = fade_opacity[1] > 0.5 ? u_fade_change : -u_fade_change;\n float interpolated_fade_opacity = max(0.0, min(1.0, fade_opacity[0] + fade_change));\n\n v_data0 = vec2(tex.x, tex.y);\n v_data1 = vec3(gamma_scale, size, interpolated_fade_opacity);\n}\n"}},ii=/#pragma mapbox: ([\w]+) ([\w]+) ([\w]+) ([\w]+)/g,ni=function(t){var e=ei[t],i={};e.fragmentSource=e.fragmentSource.replace(ii,function(t,e,n,o,r){return i[r]=!0,"define"===e?"\n#ifndef HAS_UNIFORM_u_"+r+"\nvarying "+n+" "+o+" "+r+";\n#else\nuniform "+n+" "+o+" u_"+r+";\n#endif\n":"\n#ifdef HAS_UNIFORM_u_"+r+"\n "+n+" "+o+" "+r+" = u_"+r+";\n#endif\n"}),e.vertexSource=e.vertexSource.replace(ii,function(t,e,n,o,r){var a="float"===o?"vec2":"vec4";return i[r]?"define"===e?"\n#ifndef HAS_UNIFORM_u_"+r+"\nuniform lowp float a_"+r+"_t;\nattribute "+n+" "+a+" a_"+r+";\nvarying "+n+" "+o+" "+r+";\n#else\nuniform "+n+" "+o+" u_"+r+";\n#endif\n":"\n#ifndef HAS_UNIFORM_u_"+r+"\n "+r+" = unpack_mix_"+a+"(a_"+r+", a_"+r+"_t);\n#else\n "+n+" "+o+" "+r+" = u_"+r+";\n#endif\n":"define"===e?"\n#ifndef HAS_UNIFORM_u_"+r+"\nuniform lowp float a_"+r+"_t;\nattribute "+n+" "+a+" a_"+r+";\n#else\nuniform "+n+" "+o+" u_"+r+";\n#endif\n":"\n#ifndef HAS_UNIFORM_u_"+r+"\n "+n+" "+o+" "+r+" = unpack_mix_"+a+"(a_"+r+", a_"+r+"_t);\n#else\n "+n+" "+o+" "+r+" = u_"+r+";\n#endif\n"});};for(var oi in ei)ni(oi);var ri=ei,ai=function(t,e,i,n){var o=t.gl;this.program=o.createProgram();var a=i.defines().concat("#define DEVICE_PIXEL_RATIO "+r.devicePixelRatio.toFixed(1));n&&a.push("#define OVERDRAW_INSPECTOR;");var s=a.concat(ri.prelude.fragmentSource,e.fragmentSource).join("\n"),l=a.concat(ri.prelude.vertexSource,e.vertexSource).join("\n"),c=o.createShader(o.FRAGMENT_SHADER);o.shaderSource(c,s),o.compileShader(c),o.attachShader(this.program,c);var u=o.createShader(o.VERTEX_SHADER);o.shaderSource(u,l),o.compileShader(u),o.attachShader(this.program,u);for(var h=i.layoutAttributes||[],p=0;p<h.length;p++)o.bindAttribLocation(this.program,p,h[p].name);o.linkProgram(this.program),this.numAttributes=o.getProgramParameter(this.program,o.ACTIVE_ATTRIBUTES),this.attributes={},this.uniforms={};for(var d=0;d<this.numAttributes;d++){var f=o.getActiveAttrib(this.program,d);f&&(this.attributes[f.name]=o.getAttribLocation(this.program,f.name));}for(var m=o.getProgramParameter(this.program,o.ACTIVE_UNIFORMS),_=0;_<m;_++){var g=o.getActiveUniform(this.program,_);g&&(this.uniforms[g.name]=o.getUniformLocation(this.program,g.name));}};function si(e,i,n,o,r){for(var a=0;a<n.length;a++){var s=n[a];if(o.isLessThan(s.tileID))break;if(i.key===s.tileID.key)return;if(s.tileID.isChildOf(i)){for(var l=i.children(1/0),c=0;c<l.length;c++){si(e,l[c],n.slice(a),o,r);}return}}var u=i.overscaledZ-e.overscaledZ,h=new t.CanonicalTileID(u,i.canonical.x-(e.canonical.x<<u),i.canonical.y-(e.canonical.y<<u));r[h.key]=r[h.key]||h;}function li(t,e,i,n,o){var r=t.context,a=r.gl,s=o?t.useProgram("collisionCircle"):t.useProgram("collisionBox");r.setDepthMode($t.disabled),r.setStencilMode(Gt.disabled),r.setColorMode(t.colorModeForRenderPass());for(var l=0;l<n.length;l++){var c=n[l],u=e.getTile(c),h=u.getBucket(i);if(h){var p=o?h.collisionCircle:h.collisionBox;if(p){a.uniformMatrix4fv(s.uniforms.u_matrix,!1,c.posMatrix),o||r.lineWidth.set(1),a.uniform1f(s.uniforms.u_camera_to_center_distance,t.transform.cameraToCenterDistance);var d=ze(u,1,t.transform.zoom),f=Math.pow(2,t.transform.zoom-u.tileID.overscaledZ);a.uniform1f(s.uniforms.u_pixels_to_tile_units,d),a.uniform2f(s.uniforms.u_extrude_scale,t.transform.pixelsToGLUnits[0]/(d*f),t.transform.pixelsToGLUnits[1]/(d*f)),a.uniform1f(s.uniforms.u_overscale_factor,u.tileID.overscaleFactor()),s.draw(r,o?a.TRIANGLES:a.LINES,i.id,p.layoutVertexBuffer,p.indexBuffer,p.segments,null,p.collisionVertexBuffer,null);}}}}ai.prototype.draw=function(t,e,i,n,o,r,a,s,l){for(var c,u=t.gl,h=(c={},c[u.LINES]=2,c[u.TRIANGLES]=3,c)[e],p=0,d=r.get();p<d.length;p+=1){var f=d[p],m=f.vaos||(f.vaos={});(m[i]||(m[i]=new tt)).bind(t,this,n,a?a.getPaintVertexBuffers():[],o,f.vertexOffset,s,l),u.drawElements(e,f.primitiveLength*h,u.UNSIGNED_SHORT,f.primitiveOffset*h*2);}};var ci=t.mat4.identity(new Float32Array(16)),ui=t.default$19.layout;function hi(t,e,i,n,o,r,a,s,l,c){var u,h=t.context,p=h.gl,d=t.transform,f="map"===s,m="map"===l,_=f&&"line"===i.layout.get("symbol-placement"),g=f&&!m&&!_,v=m;h.setDepthMode(v?t.depthModeForSublayer(0,$t.ReadOnly):$t.disabled);for(var y=0,x=n;y<x.length;y+=1){var b=x[y],w=e.getTile(b),E=w.getBucket(i);if(E){var T=o?E.text:E.icon;if(T&&T.segments.get().length){var I=T.programConfigurations.get(i.id),C=o||E.sdfIcons,S=o?E.textSizeData:E.iconSizeData;if(u||(u=t.useProgram(C?"symbolSDF":"symbolIcon",I),I.setUniforms(t.context,u,i.paint,{zoom:t.transform.zoom}),pi(u,t,i,o,g,m,S)),h.activeTexture.set(p.TEXTURE0),p.uniform1i(u.uniforms.u_texture,0),o)w.glyphAtlasTexture.bind(p.LINEAR,p.CLAMP_TO_EDGE),p.uniform2fv(u.uniforms.u_texsize,w.glyphAtlasTexture.size);else{var z=1!==i.layout.get("icon-size").constantOr(0)||E.iconsNeedLinear,A=m||0!==d.pitch;w.iconAtlasTexture.bind(C||t.options.rotating||t.options.zooming||z||A?p.LINEAR:p.NEAREST,p.CLAMP_TO_EDGE),p.uniform2fv(u.uniforms.u_texsize,w.iconAtlasTexture.size);}p.uniformMatrix4fv(u.uniforms.u_matrix,!1,t.translatePosMatrix(b.posMatrix,w,r,a));var R=ze(w,1,t.transform.zoom),D=de(b.posMatrix,m,f,t.transform,R),M=fe(b.posMatrix,m,f,t.transform,R);p.uniformMatrix4fv(u.uniforms.u_gl_coord_matrix,!1,t.translatePosMatrix(M,w,r,a,!0)),_?(p.uniformMatrix4fv(u.uniforms.u_label_plane_matrix,!1,ci),ge(E,b.posMatrix,t,o,D,M,m,c)):p.uniformMatrix4fv(u.uniforms.u_label_plane_matrix,!1,D),p.uniform1f(u.uniforms.u_fade_change,t.options.fadeDuration?t.symbolFadeChange:1),di(u,I,t,i,w,T,o,C,m);}}}}function pi(e,i,n,o,r,a,s){var l=i.context.gl,c=i.transform;l.uniform1i(e.uniforms.u_pitch_with_map,a?1:0),l.uniform1f(e.uniforms.u_is_text,o?1:0),l.uniform1f(e.uniforms.u_pitch,c.pitch/360*2*Math.PI);var u="constant"===s.functionType||"source"===s.functionType,h="constant"===s.functionType||"camera"===s.functionType;l.uniform1i(e.uniforms.u_is_size_zoom_constant,u?1:0),l.uniform1i(e.uniforms.u_is_size_feature_constant,h?1:0),l.uniform1f(e.uniforms.u_camera_to_center_distance,c.cameraToCenterDistance);var p=t.evaluateSizeForZoom(s,c.zoom,ui.properties[o?"text-size":"icon-size"]);void 0!==p.uSizeT&&l.uniform1f(e.uniforms.u_size_t,p.uSizeT),void 0!==p.uSize&&l.uniform1f(e.uniforms.u_size,p.uSize),l.uniform1f(e.uniforms.u_aspect_ratio,c.width/c.height),l.uniform1i(e.uniforms.u_rotate_symbol,r?1:0);}function di(t,e,i,n,o,r,a,s,l){var c=i.context,u=c.gl,h=i.transform;if(s){var p=0!==n.paint.get(a?"text-halo-width":"icon-halo-width").constantOr(1),d=l?Math.cos(h._pitch)*h.cameraToCenterDistance:1;u.uniform1f(t.uniforms.u_gamma_scale,d),p&&(u.uniform1f(t.uniforms.u_is_halo,1),fi(r,n,c,t)),u.uniform1f(t.uniforms.u_is_halo,0);}fi(r,n,c,t);}function fi(t,e,i,n){n.draw(i,i.gl.TRIANGLES,e.id,t.layoutVertexBuffer,t.indexBuffer,t.segments,t.programConfigurations.get(e.id),t.dynamicLayoutVertexBuffer,t.opacityVertexBuffer);}function mi(t,e,i,n,o,a,s,l,c){var u,h,p,d,f=e.context,m=f.gl,_=o.paint.get("line-dasharray"),g=o.paint.get("line-pattern");if(l||c){var v=1/ze(i,1,e.transform.tileZoom);if(_){u=e.lineAtlas.getDash(_.from,"round"===o.layout.get("line-cap")),h=e.lineAtlas.getDash(_.to,"round"===o.layout.get("line-cap"));var y=u.width*_.fromScale,x=h.width*_.toScale;m.uniform2f(t.uniforms.u_patternscale_a,v/y,-u.height/2),m.uniform2f(t.uniforms.u_patternscale_b,v/x,-h.height/2),m.uniform1f(t.uniforms.u_sdfgamma,e.lineAtlas.width/(256*Math.min(y,x)*r.devicePixelRatio)/2);}else if(g){if(p=e.imageManager.getPattern(g.from),d=e.imageManager.getPattern(g.to),!p||!d)return;m.uniform2f(t.uniforms.u_pattern_size_a,p.displaySize[0]*g.fromScale/v,p.displaySize[1]),m.uniform2f(t.uniforms.u_pattern_size_b,d.displaySize[0]*g.toScale/v,d.displaySize[1]);var b=e.imageManager.getPixelSize(),w=b.width,E=b.height;m.uniform2fv(t.uniforms.u_texsize,[w,E]);}m.uniform2f(t.uniforms.u_gl_units_to_pixels,1/e.transform.pixelsToGLUnits[0],1/e.transform.pixelsToGLUnits[1]);}l&&(_?(m.uniform1i(t.uniforms.u_image,0),f.activeTexture.set(m.TEXTURE0),e.lineAtlas.bind(f),m.uniform1f(t.uniforms.u_tex_y_a,u.y),m.uniform1f(t.uniforms.u_tex_y_b,h.y),m.uniform1f(t.uniforms.u_mix,_.t)):g&&(m.uniform1i(t.uniforms.u_image,0),f.activeTexture.set(m.TEXTURE0),e.imageManager.bind(f),m.uniform2fv(t.uniforms.u_pattern_tl_a,p.tl),m.uniform2fv(t.uniforms.u_pattern_br_a,p.br),m.uniform2fv(t.uniforms.u_pattern_tl_b,d.tl),m.uniform2fv(t.uniforms.u_pattern_br_b,d.br),m.uniform1f(t.uniforms.u_fade,g.t))),f.setStencilMode(e.stencilModeForClipping(a));var T=e.translatePosMatrix(a.posMatrix,i,o.paint.get("line-translate"),o.paint.get("line-translate-anchor"));if(m.uniformMatrix4fv(t.uniforms.u_matrix,!1,T),m.uniform1f(t.uniforms.u_ratio,1/ze(i,1,e.transform.zoom)),o.paint.get("line-gradient")){f.activeTexture.set(m.TEXTURE0);var I=o.gradientTexture;if(!o.gradient)return;I||(I=o.gradientTexture=new M(f,o.gradient,m.RGBA)),I.bind(m.LINEAR,m.CLAMP_TO_EDGE),m.uniform1i(t.uniforms.u_image,0);}t.draw(f,m.TRIANGLES,o.id,n.layoutVertexBuffer,n.indexBuffer,n.segments,s);}var _i=function(t,e){if(!t)return!1;var i=e.imageManager.getPattern(t.from),n=e.imageManager.getPattern(t.to);return!i||!n},gi=function(t,e,i){var n=e.context,o=n.gl,r=e.imageManager.getPattern(t.from),a=e.imageManager.getPattern(t.to);o.uniform1i(i.uniforms.u_image,0),o.uniform2fv(i.uniforms.u_pattern_tl_a,r.tl),o.uniform2fv(i.uniforms.u_pattern_br_a,r.br),o.uniform2fv(i.uniforms.u_pattern_tl_b,a.tl),o.uniform2fv(i.uniforms.u_pattern_br_b,a.br);var s=e.imageManager.getPixelSize(),l=s.width,c=s.height;o.uniform2fv(i.uniforms.u_texsize,[l,c]),o.uniform1f(i.uniforms.u_mix,t.t),o.uniform2fv(i.uniforms.u_pattern_size_a,r.displaySize),o.uniform2fv(i.uniforms.u_pattern_size_b,a.displaySize),o.uniform1f(i.uniforms.u_scale_a,t.fromScale),o.uniform1f(i.uniforms.u_scale_b,t.toScale),n.activeTexture.set(o.TEXTURE0),e.imageManager.bind(e.context);},vi=function(t,e,i){var n=e.context.gl;n.uniform1f(i.uniforms.u_tile_units_to_pixels,1/ze(t,1,e.transform.tileZoom));var o=Math.pow(2,t.tileID.overscaledZ),r=t.tileSize*Math.pow(2,e.transform.tileZoom)/o,a=r*(t.tileID.canonical.x+t.tileID.wrap*o),s=r*t.tileID.canonical.y;n.uniform2f(i.uniforms.u_pixel_coord_upper,a>>16,s>>16),n.uniform2f(i.uniforms.u_pixel_coord_lower,65535&a,65535&s);};function yi(t,e,i,n,o){if(!_i(i.paint.get("fill-pattern"),t))for(var r=!0,a=0,s=n;a<s.length;a+=1){var l=s[a],c=e.getTile(l),u=c.getBucket(i);u&&(t.context.setStencilMode(t.stencilModeForClipping(l)),o(t,e,i,c,l,u,r),r=!1);}}function xi(t,e,i,n,o,r,a){var s=t.context.gl,l=r.programConfigurations.get(i.id);wi("fill",i.paint.get("fill-pattern"),t,l,i,n,o,a).draw(t.context,s.TRIANGLES,i.id,r.layoutVertexBuffer,r.indexBuffer,r.segments,l);}function bi(t,e,i,n,o,r,a){var s=t.context.gl,l=r.programConfigurations.get(i.id),c=wi("fillOutline",i.getPaintProperty("fill-outline-color")?null:i.paint.get("fill-pattern"),t,l,i,n,o,a);s.uniform2f(c.uniforms.u_world,s.drawingBufferWidth,s.drawingBufferHeight),c.draw(t.context,s.LINES,i.id,r.layoutVertexBuffer,r.indexBuffer2,r.segments2,l);}function wi(t,e,i,n,o,r,a,s){var l,c=i.context.program.get();return e?(l=i.useProgram(t+"Pattern",n),(s||l.program!==c)&&(n.setUniforms(i.context,l,o.paint,{zoom:i.transform.zoom}),gi(e,i,l)),vi(r,i,l)):(l=i.useProgram(t,n),(s||l.program!==c)&&n.setUniforms(i.context,l,o.paint,{zoom:i.transform.zoom})),i.context.gl.uniformMatrix4fv(l.uniforms.u_matrix,!1,i.translatePosMatrix(a.posMatrix,r,o.paint.get("fill-translate"),o.paint.get("fill-translate-anchor"))),l}var Ei=t.default$20.mat3,Ti=t.default$20.mat4,Ii=t.default$20.vec3;function Ci(t,e,i,n,o,r,a){var s=t.context,l=s.gl,c=i.paint.get("fill-extrusion-pattern"),u=t.context.program.get(),h=r.programConfigurations.get(i.id),p=t.useProgram(c?"fillExtrusionPattern":"fillExtrusion",h);if((a||p.program!==u)&&h.setUniforms(s,p,i.paint,{zoom:t.transform.zoom}),c){if(_i(c,t))return;gi(c,t,p),vi(n,t,p),l.uniform1f(p.uniforms.u_height_factor,-Math.pow(2,o.overscaledZ)/n.tileSize/8);}t.context.gl.uniformMatrix4fv(p.uniforms.u_matrix,!1,t.translatePosMatrix(o.posMatrix,n,i.paint.get("fill-extrusion-translate"),i.paint.get("fill-extrusion-translate-anchor"))),function(t,e){var i=e.context.gl,n=e.style.light,o=n.properties.get("position"),r=[o.x,o.y,o.z],a=Ei.create();"viewport"===n.properties.get("anchor")&&Ei.fromRotation(a,-e.transform.angle);Ii.transformMat3(r,r,a);var s=n.properties.get("color");i.uniform3fv(t.uniforms.u_lightpos,r),i.uniform1f(t.uniforms.u_lightintensity,n.properties.get("intensity")),i.uniform3f(t.uniforms.u_lightcolor,s.r,s.g,s.b);}(p,t),p.draw(s,l.TRIANGLES,i.id,r.layoutVertexBuffer,r.indexBuffer,r.segments,h);}function Si(e,i,n){var o=e.context,r=o.gl,a=i.fbo;if(a){var s=e.useProgram("hillshade"),l=e.transform.calculatePosMatrix(i.tileID.toUnwrapped(),!0);!function(t,e,i){var n=i.paint.get("hillshade-illumination-direction")*(Math.PI/180);"viewport"===i.paint.get("hillshade-illumination-anchor")&&(n-=e.transform.angle),e.context.gl.uniform2f(t.uniforms.u_light,i.paint.get("hillshade-exaggeration"),n);}(s,e,n);var c=function(e,i){var n=i.toCoordinate(),o=new t.default$17(n.column,n.row+1,n.zoom);return[e.transform.coordinateLocation(n).lat,e.transform.coordinateLocation(o).lat]}(e,i.tileID);o.activeTexture.set(r.TEXTURE0),r.bindTexture(r.TEXTURE_2D,a.colorAttachment.get()),r.uniformMatrix4fv(s.uniforms.u_matrix,!1,l),r.uniform2fv(s.uniforms.u_latrange,c),r.uniform1i(s.uniforms.u_image,0);var u=n.paint.get("hillshade-shadow-color");r.uniform4f(s.uniforms.u_shadow,u.r,u.g,u.b,u.a);var h=n.paint.get("hillshade-highlight-color");r.uniform4f(s.uniforms.u_highlight,h.r,h.g,h.b,h.a);var p=n.paint.get("hillshade-accent-color");if(r.uniform4f(s.uniforms.u_accent,p.r,p.g,p.b,p.a),i.maskedBoundsBuffer&&i.maskedIndexBuffer&&i.segments)s.draw(o,r.TRIANGLES,n.id,i.maskedBoundsBuffer,i.maskedIndexBuffer,i.segments);else{var d=e.rasterBoundsBuffer;e.rasterBoundsVAO.bind(o,s,d,[]),r.drawArrays(r.TRIANGLE_STRIP,0,d.length);}}}function zi(e,i,n){var o=e.context,r=o.gl;if(i.dem&&i.dem.level){var a=i.dem.level.dim,s=i.dem.getPixels();if(o.activeTexture.set(r.TEXTURE1),o.pixelStoreUnpackPremultiplyAlpha.set(!1),i.demTexture=i.demTexture||e.getTileTexture(i.tileSize),i.demTexture){var l=i.demTexture;l.update(s,{premultiply:!1}),l.bind(r.NEAREST,r.CLAMP_TO_EDGE);}else i.demTexture=new M(o,s,r.RGBA,{premultiply:!1}),i.demTexture.bind(r.NEAREST,r.CLAMP_TO_EDGE);o.activeTexture.set(r.TEXTURE0);var c=i.fbo;if(!c){var u=new M(o,{width:a,height:a,data:null},r.RGBA);u.bind(r.LINEAR,r.CLAMP_TO_EDGE),(c=i.fbo=o.createFramebuffer(a,a)).colorAttachment.set(u.texture);}o.bindFramebuffer.set(c.framebuffer),o.viewport.set([0,0,a,a]);var h=t.mat4.create();t.mat4.ortho(h,0,t.default$8,-t.default$8,0,0,1),t.mat4.translate(h,h,[0,-t.default$8,0]);var p=e.useProgram("hillshadePrepare");r.uniformMatrix4fv(p.uniforms.u_matrix,!1,h),r.uniform1f(p.uniforms.u_zoom,i.tileID.overscaledZ),r.uniform2fv(p.uniforms.u_dimension,[2*a,2*a]),r.uniform1i(p.uniforms.u_image,1),r.uniform1f(p.uniforms.u_maxzoom,n);var d=e.rasterBoundsBuffer;e.rasterBoundsVAO.bind(o,p,d,[]),r.drawArrays(r.TRIANGLE_STRIP,0,d.length),i.needsHillshadePrepare=!1;}}function Ai(e,i,n,o,a){var s=o.paint.get("raster-fade-duration");if(s>0){var l=r.now(),c=(l-e.timeAdded)/s,u=i?(l-i.timeAdded)/s:-1,h=n.getSource(),p=a.coveringZoomLevel({tileSize:h.tileSize,roundZoom:h.roundZoom}),d=!i||Math.abs(i.tileID.overscaledZ-p)>Math.abs(e.tileID.overscaledZ-p),f=d&&e.refreshedUponExpiration?1:t.clamp(d?c:1-u,0,1);return e.refreshedUponExpiration&&c>=1&&(e.refreshedUponExpiration=!1),i?{opacity:1,mix:1-f}:{opacity:f,mix:0}}return{opacity:1,mix:0}}function Ri(e,i,n){var o=e.context,a=o.gl;o.lineWidth.set(1*r.devicePixelRatio);var 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g=m[_];a.uniformMatrix4fv(l.uniforms.u_matrix,!1,t.mat4.translate([],s,[f*g[0],f*g[1],0])),a.drawArrays(a.LINES,0,p.length);}a.uniform4f(l.uniforms.u_color,0,0,0,1),a.uniformMatrix4fv(l.uniforms.u_matrix,!1,s),a.drawArrays(a.LINES,0,p.length);}var Di={" 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p=e.context.program.get(),d=h.programConfigurations.get(n.id),f=e.useProgram("heatmap",d),m=e.transform.zoom;(s||f.program!==p)&&(d.setUniforms(e.context,f,n.paint,{zoom:m}),s=!1),a.uniform1f(f.uniforms.u_extrude_scale,ze(u,1,m)),a.uniform1f(f.uniforms.u_intensity,n.paint.get("heatmap-intensity")),a.uniformMatrix4fv(f.uniforms.u_matrix,!1,c.posMatrix),f.draw(r,a.TRIANGLES,n.id,h.layoutVertexBuffer,h.indexBuffer,h.segments,d);}}}r.viewport.set([0,0,e.width,e.height]);}else"translucent"===e.renderPass&&(e.context.setColorMode(e.colorModeForRenderPass()),function(e,i){var n=e.context,o=n.gl,r=i.heatmapFbo;if(r){n.activeTexture.set(o.TEXTURE0),o.bindTexture(o.TEXTURE_2D,r.colorAttachment.get()),n.activeTexture.set(o.TEXTURE1);var a=i.colorRampTexture;a||(a=i.colorRampTexture=new M(n,i.colorRamp,o.RGBA)),a.bind(o.LINEAR,o.CLAMP_TO_EDGE),n.setDepthMode($t.disabled);var s=e.useProgram("heatmapTexture"),l=i.paint.get("heatmap-opacity");o.uniform1f(s.uniforms.u_opacity,l),o.uniform1i(s.uniforms.u_image,0),o.uniform1i(s.uniforms.u_color_ramp,1);var c=t.mat4.create();t.mat4.ortho(c,0,e.width,e.height,0,0,1),o.uniformMatrix4fv(s.uniforms.u_matrix,!1,c),o.uniform2f(s.uniforms.u_world,o.drawingBufferWidth,o.drawingBufferHeight),e.viewportVAO.bind(e.context,s,e.viewportBuffer,[]),o.drawArrays(o.TRIANGLE_STRIP,0,4);}}(e,n));},line:function(t,e,i,n){if("translucent"===t.renderPass&&0!==i.paint.get("line-opacity").constantOr(1)){var o=t.context;o.setDepthMode(t.depthModeForSublayer(0,$t.ReadOnly)),o.setColorMode(t.colorModeForRenderPass());for(var r,a=i.paint.get("line-dasharray")?"lineSDF":i.paint.get("line-pattern")?"linePattern":i.paint.get("line-gradient")?"lineGradient":"line",s=!0,l=0,c=n;l<c.length;l+=1){var u=c[l],h=e.getTile(u),p=h.getBucket(i);if(p){var d=p.programConfigurations.get(i.id),f=t.context.program.get(),m=t.useProgram(a,d),_=s||m.program!==f,g=r!==h.tileID.overscaledZ;_&&d.setUniforms(t.context,m,i.paint,{zoom:t.transform.zoom}),mi(m,t,h,p,i,u,d,_,g),r=h.tileID.overscaledZ,s=!1;}}}},fill:function(e,i,n,o){var r=n.paint.get("fill-color"),a=n.paint.get("fill-opacity");if(0!==a.constantOr(1)){var s=e.context;s.setColorMode(e.colorModeForRenderPass());var l=n.paint.get("fill-pattern")||1!==r.constantOr(t.default$6.transparent).a||1!==a.constantOr(0)?"translucent":"opaque";e.renderPass===l&&(s.setDepthMode(e.depthModeForSublayer(1,"opaque"===e.renderPass?$t.ReadWrite:$t.ReadOnly)),yi(e,i,n,o,xi)),"translucent"===e.renderPass&&n.paint.get("fill-antialias")&&(s.lineWidth.set(2),s.setDepthMode(e.depthModeForSublayer(n.getPaintProperty("fill-outline-color")?2:0,$t.ReadOnly)),yi(e,i,n,o,bi));}},"fill-extrusion":function(e,i,n,o){if(0!==n.paint.get("fill-extrusion-opacity"))if("offscreen"===e.renderPass){!function(e,i){var n=e.context,o=n.gl,r=i.viewportFrame;if(e.depthRboNeedsClear&&e.setupOffscreenDepthRenderbuffer(),!r){var a=new M(n,{width:e.width,height:e.height,data:null},o.RGBA);a.bind(o.LINEAR,o.CLAMP_TO_EDGE),(r=i.viewportFrame=n.createFramebuffer(e.width,e.height)).colorAttachment.set(a.texture);}n.bindFramebuffer.set(r.framebuffer),r.depthAttachment.set(e.depthRbo),e.depthRboNeedsClear&&(n.clear({depth:1}),e.depthRboNeedsClear=!1),n.clear({color:t.default$6.transparent}),n.setStencilMode(Gt.disabled),n.setDepthMode(new $t(o.LEQUAL,$t.ReadWrite,[0,1])),n.setColorMode(e.colorModeForRenderPass());}(e,n);for(var r=!0,a=0,s=o;a<s.length;a+=1){var l=s[a],c=i.getTile(l),u=c.getBucket(n);u&&(Ci(e,0,n,c,l,u,r),r=!1);}}else"translucent"===e.renderPass&&function(t,e){var i=e.viewportFrame;if(i){var n=t.context,o=n.gl,r=t.useProgram("extrusionTexture");n.setStencilMode(Gt.disabled),n.setDepthMode($t.disabled),n.setColorMode(t.colorModeForRenderPass()),n.activeTexture.set(o.TEXTURE0),o.bindTexture(o.TEXTURE_2D,i.colorAttachment.get()),o.uniform1f(r.uniforms.u_opacity,e.paint.get("fill-extrusion-opacity")),o.uniform1i(r.uniforms.u_image,0);var a=Ti.create();Ti.ortho(a,0,t.width,t.height,0,0,1),o.uniformMatrix4fv(r.uniforms.u_matrix,!1,a),o.uniform2f(r.uniforms.u_world,o.drawingBufferWidth,o.drawingBufferHeight),t.viewportVAO.bind(n,r,t.viewportBuffer,[]),o.drawArrays(o.TRIANGLE_STRIP,0,4);}}(e,n);},hillshade:function(t,e,i,n){if("offscreen"===t.renderPass||"translucent"===t.renderPass){var o=t.context,r=e.getSource().maxzoom;o.setDepthMode(t.depthModeForSublayer(0,$t.ReadOnly)),o.setStencilMode(Gt.disabled),o.setColorMode(t.colorModeForRenderPass());for(var a=0,s=n;a<s.length;a+=1){var l=s[a],c=e.getTile(l);c.needsHillshadePrepare&&"offscreen"===t.renderPass?zi(t,c,r):"translucent"===t.renderPass&&Si(t,c,i);}o.viewport.set([0,0,t.width,t.height]);}},raster:function(t,e,i,n){if("translucent"===t.renderPass&&0!==i.paint.get("raster-opacity")){var o,r,a=t.context,s=a.gl,l=e.getSource(),c=t.useProgram("raster");a.setStencilMode(Gt.disabled),a.setColorMode(t.colorModeForRenderPass()),s.uniform1f(c.uniforms.u_brightness_low,i.paint.get("raster-brightness-min")),s.uniform1f(c.uniforms.u_brightness_high,i.paint.get("raster-brightness-max")),s.uniform1f(c.uniforms.u_saturation_factor,(o=i.paint.get("raster-saturation"))>0?1-1/(1.001-o):-o),s.uniform1f(c.uniforms.u_contrast_factor,(r=i.paint.get("raster-contrast"))>0?1/(1-r):1+r),s.uniform3fv(c.uniforms.u_spin_weights,function(t){t*=Math.PI/180;var e=Math.sin(t),i=Math.cos(t);return[(2*i+1)/3,(-Math.sqrt(3)*e-i+1)/3,(Math.sqrt(3)*e-i+1)/3]}(i.paint.get("raster-hue-rotate"))),s.uniform1f(c.uniforms.u_buffer_scale,1),s.uniform1i(c.uniforms.u_image0,0),s.uniform1i(c.uniforms.u_image1,1);for(var u=n.length&&n[0].overscaledZ,h=0,p=n;h<p.length;h+=1){var d=p[h];a.setDepthMode(t.depthModeForSublayer(d.overscaledZ-u,1===i.paint.get("raster-opacity")?$t.ReadWrite:$t.ReadOnly,s.LESS));var f=e.getTile(d),m=t.transform.calculatePosMatrix(d.toUnwrapped(),!0);f.registerFadeDuration(i.paint.get("raster-fade-duration")),s.uniformMatrix4fv(c.uniforms.u_matrix,!1,m);var _=e.findLoadedParent(d,0,{}),g=Ai(f,_,e,i,t.transform),v=void 0,y=void 0;if(a.activeTexture.set(s.TEXTURE0),f.texture.bind(s.LINEAR,s.CLAMP_TO_EDGE,s.LINEAR_MIPMAP_NEAREST),a.activeTexture.set(s.TEXTURE1),_?(_.texture.bind(s.LINEAR,s.CLAMP_TO_EDGE,s.LINEAR_MIPMAP_NEAREST),v=Math.pow(2,_.tileID.overscaledZ-f.tileID.overscaledZ),y=[f.tileID.canonical.x*v%1,f.tileID.canonical.y*v%1]):f.texture.bind(s.LINEAR,s.CLAMP_TO_EDGE,s.LINEAR_MIPMAP_NEAREST),s.uniform2fv(c.uniforms.u_tl_parent,y||[0,0]),s.uniform1f(c.uniforms.u_scale_parent,v||1),s.uniform1f(c.uniforms.u_fade_t,g.mix),s.uniform1f(c.uniforms.u_opacity,g.opacity*i.paint.get("raster-opacity")),l instanceof et){var x=l.boundsBuffer;l.boundsVAO.bind(a,c,x,[]),s.drawArrays(s.TRIANGLE_STRIP,0,x.length);}else if(f.maskedBoundsBuffer&&f.maskedIndexBuffer&&f.segments)c.draw(a,s.TRIANGLES,i.id,f.maskedBoundsBuffer,f.maskedIndexBuffer,f.segments);else{var b=t.rasterBoundsBuffer;t.rasterBoundsVAO.bind(a,c,b,[]),s.drawArrays(s.TRIANGLE_STRIP,0,b.length);}}}},background:function(t,e,i){var n=i.paint.get("background-color"),o=i.paint.get("background-opacity");if(0!==o){var r=t.context,a=r.gl,s=t.transform,l=s.tileSize,c=i.paint.get("background-pattern"),u=c||1!==n.a||1!==o?"translucent":"opaque";if(t.renderPass===u){var h;if(r.setStencilMode(Gt.disabled),r.setDepthMode(t.depthModeForSublayer(0,"opaque"===u?$t.ReadWrite:$t.ReadOnly)),r.setColorMode(t.colorModeForRenderPass()),c){if(_i(c,t))return;h=t.useProgram("backgroundPattern"),gi(c,t,h),t.tileExtentPatternVAO.bind(r,h,t.tileExtentBuffer,[]);}else h=t.useProgram("background"),a.uniform4fv(h.uniforms.u_color,[n.r,n.g,n.b,n.a]),t.tileExtentVAO.bind(r,h,t.tileExtentBuffer,[]);a.uniform1f(h.uniforms.u_opacity,o);for(var p=0,d=s.coveringTiles({tileSize:l});p<d.length;p+=1){var f=d[p];c&&vi({tileID:f,tileSize:l},t,h),a.uniformMatrix4fv(h.uniforms.u_matrix,!1,t.transform.calculatePosMatrix(f.toUnwrapped())),a.drawArrays(a.TRIANGLE_STRIP,0,t.tileExtentBuffer.length);}}}},debug:function(t,e,i){for(var n=0;n<i.length;n++)Ri(t,e,i[n]);}},Li=function(e,i){this.context=new qt(e),this.transform=i,this._tileTextures={},this.setup(),this.numSublayers=Xt.maxUnderzooming+Xt.maxOverzooming+1,this.depthEpsilon=1/Math.pow(2,16),this.depthRboNeedsClear=!0,this.emptyProgramConfiguration=new t.default$24,this.crossTileSymbolIndex=new He;};function Pi(t,e){if(t.row>e.row){var i=t;t=e,e=i;}return{x0:t.column,y0:t.row,x1:e.column,y1:e.row,dx:e.column-t.column,dy:e.row-t.row}}function ki(t,e,i,n,o){var r=Math.max(i,Math.floor(e.y0)),a=Math.min(n,Math.ceil(e.y1));if(t.x0===e.x0&&t.y0===e.y0?t.x0+e.dy/t.dy*t.dx<e.x1:t.x1-e.dy/t.dy*t.dx<e.x0){var s=t;t=e,e=s;}for(var l=t.dx/t.dy,c=e.dx/e.dy,u=t.dx>0,h=e.dx<0,p=r;p<a;p++){var d=l*Math.max(0,Math.min(t.dy,p+u-t.y0))+t.x0,f=c*Math.max(0,Math.min(e.dy,p+h-e.y0))+e.x0;o(Math.floor(f),Math.ceil(d),p);}}function Bi(t,e,i,n,o,r){var a,s=Pi(t,e),l=Pi(e,i),c=Pi(i,t);s.dy>l.dy&&(a=s,s=l,l=a),s.dy>c.dy&&(a=s,s=c,c=a),l.dy>c.dy&&(a=l,l=c,c=a),s.dy&&ki(c,s,n,o,r),l.dy&&ki(c,l,n,o,r);}Li.prototype.resize=function(t,e){var i=this.context.gl;if(this.width=t*r.devicePixelRatio,this.height=e*r.devicePixelRatio,this.context.viewport.set([0,0,this.width,this.height]),this.style)for(var n=0,o=this.style._order;n<o.length;n+=1){var a=o[n];this.style._layers[a].resize();}this.depthRbo&&(i.deleteRenderbuffer(this.depthRbo),this.depthRbo=null);},Li.prototype.setup=function(){var e=this.context,i=new t.PosArray;i.emplaceBack(0,0),i.emplaceBack(t.default$8,0),i.emplaceBack(0,t.default$8),i.emplaceBack(t.default$8,t.default$8),this.tileExtentBuffer=e.createVertexBuffer(i,ti.members),this.tileExtentVAO=new tt,this.tileExtentPatternVAO=new tt;var n=new t.PosArray;n.emplaceBack(0,0),n.emplaceBack(t.default$8,0),n.emplaceBack(t.default$8,t.default$8),n.emplaceBack(0,t.default$8),n.emplaceBack(0,0),this.debugBuffer=e.createVertexBuffer(n,ti.members),this.debugVAO=new tt;var o=new t.RasterBoundsArray;o.emplaceBack(0,0,0,0),o.emplaceBack(t.default$8,0,t.default$8,0),o.emplaceBack(0,t.default$8,0,t.default$8),o.emplaceBack(t.default$8,t.default$8,t.default$8,t.default$8),this.rasterBoundsBuffer=e.createVertexBuffer(o,Q.members),this.rasterBoundsVAO=new tt;var r=new t.PosArray;r.emplaceBack(0,0),r.emplaceBack(1,0),r.emplaceBack(0,1),r.emplaceBack(1,1),this.viewportBuffer=e.createVertexBuffer(r,ti.members),this.viewportVAO=new tt;},Li.prototype.clearStencil=function(){var e=this.context,i=e.gl;e.setColorMode(Wt.disabled),e.setDepthMode($t.disabled),e.setStencilMode(new Gt({func:i.ALWAYS,mask:0},0,255,i.ZERO,i.ZERO,i.ZERO));var n=t.mat4.create();t.mat4.ortho(n,0,this.width,this.height,0,0,1),t.mat4.scale(n,n,[i.drawingBufferWidth,i.drawingBufferHeight,0]);var o=this.useProgram("clippingMask");i.uniformMatrix4fv(o.uniforms.u_matrix,!1,n),this.viewportVAO.bind(e,o,this.viewportBuffer,[]),i.drawArrays(i.TRIANGLE_STRIP,0,4);},Li.prototype._renderTileClippingMasks=function(t){var e=this.context,i=e.gl;e.setColorMode(Wt.disabled),e.setDepthMode($t.disabled);var n=1;this._tileClippingMaskIDs={};for(var o=0,r=t;o<r.length;o+=1){var a=r[o],s=this._tileClippingMaskIDs[a.key]=n++;e.setStencilMode(new Gt({func:i.ALWAYS,mask:0},s,255,i.KEEP,i.KEEP,i.REPLACE));var l=this.useProgram("clippingMask");i.uniformMatrix4fv(l.uniforms.u_matrix,!1,a.posMatrix),this.tileExtentVAO.bind(this.context,l,this.tileExtentBuffer,[]),i.drawArrays(i.TRIANGLE_STRIP,0,this.tileExtentBuffer.length);}},Li.prototype.stencilModeForClipping=function(t){var e=this.context.gl;return new Gt({func:e.EQUAL,mask:255},this._tileClippingMaskIDs[t.key],0,e.KEEP,e.KEEP,e.REPLACE)},Li.prototype.colorModeForRenderPass=function(){var e=this.context.gl;if(this._showOverdrawInspector){return new Wt([e.CONSTANT_COLOR,e.ONE],new t.default$6(1/8,1/8,1/8,0),[!0,!0,!0,!0])}return"opaque"===this.renderPass?Wt.unblended:Wt.alphaBlended},Li.prototype.depthModeForSublayer=function(t,e,i){var n=1-((1+this.currentLayer)*this.numSublayers+t)*this.depthEpsilon,o=n-1+this.depthRange;return new $t(i||this.context.gl.LEQUAL,e,[o,n])},Li.prototype.render=function(e,i){var n=this;for(var o in this.style=e,this.options=i,this.lineAtlas=e.lineAtlas,this.imageManager=e.imageManager,this.glyphManager=e.glyphManager,this.symbolFadeChange=e.placement.symbolFadeChange(r.now()),e.sourceCaches){var a=n.style.sourceCaches[o];a.used&&a.prepare(n.context);}var s=this.style._order,l=t.filterObject(this.style.sourceCaches,function(t){return"raster"===t.getSource().type||"raster-dem"===t.getSource().type}),c=function(e){var i=l[e];!function(e,i){for(var n=e.sort(function(t,e){return t.tileID.isLessThan(e.tileID)?-1:e.tileID.isLessThan(t.tileID)?1:0}),o=0;o<n.length;o++){var r={},a=n[o],s=n.slice(o+1);si(a.tileID.wrapped(),a.tileID,s,new t.OverscaledTileID(0,a.tileID.wrap+1,0,0,0),r),a.setMask(r,i);}}(i.getVisibleCoordinates().map(function(t){return i.getTile(t)}),n.context);};for(var u in l)c(u);this.renderPass="offscreen";var h,p=[];this.depthRboNeedsClear=!0;for(var d=0;d<s.length;d++){var f=n.style._layers[s[d]];f.hasOffscreenPass()&&!f.isHidden(n.transform.zoom)&&(f.source!==(h&&h.id)&&(p=[],(h=n.style.sourceCaches[f.source])&&(p=h.getVisibleCoordinates()).reverse()),p.length&&n.renderLayer(n,h,f,p));}this.context.bindFramebuffer.set(null),this.context.clear({color:i.showOverdrawInspector?t.default$6.black:t.default$6.transparent,depth:1}),this._showOverdrawInspector=i.showOverdrawInspector,this.depthRange=(e._order.length+2)*this.numSublayers*this.depthEpsilon,this.renderPass="opaque";var m,_=[];for(this.currentLayer=s.length-1,this.currentLayer;this.currentLayer>=0;this.currentLayer--){var g=n.style._layers[s[n.currentLayer]];g.source!==(m&&m.id)&&(_=[],(m=n.style.sourceCaches[g.source])&&(n.clearStencil(),_=m.getVisibleCoordinates(),m.getSource().isTileClipped&&n._renderTileClippingMasks(_))),n.renderLayer(n,m,g,_);}this.renderPass="translucent";var v,y=[];for(this.currentLayer=0,this.currentLayer;this.currentLayer<s.length;this.currentLayer++){var x=n.style._layers[s[n.currentLayer]];x.source!==(v&&v.id)&&(y=[],(v=n.style.sourceCaches[x.source])&&(n.clearStencil(),y=v.getVisibleCoordinates(),v.getSource().isTileClipped&&n._renderTileClippingMasks(y)),y.reverse()),n.renderLayer(n,v,x,y);}if(this.options.showTileBoundaries){var b=this.style.sourceCaches[Object.keys(this.style.sourceCaches)[0]];b&&Mi.debug(this,b,b.getVisibleCoordinates());}},Li.prototype.setupOffscreenDepthRenderbuffer=function(){var t=this.context;this.depthRbo||(this.depthRbo=t.createRenderbuffer(t.gl.DEPTH_COMPONENT16,this.width,this.height));},Li.prototype.renderLayer=function(t,e,i,n){i.isHidden(this.transform.zoom)||("background"===i.type||n.length)&&(this.id=i.id,Mi[i.type](t,e,i,n));},Li.prototype.translatePosMatrix=function(e,i,n,o,r){if(!n[0]&&!n[1])return e;var a=r?"map"===o?this.transform.angle:0:"viewport"===o?-this.transform.angle:0;if(a){var s=Math.sin(a),l=Math.cos(a);n=[n[0]*l-n[1]*s,n[0]*s+n[1]*l];}var c=[r?n[0]:ze(i,n[0],this.transform.zoom),r?n[1]:ze(i,n[1],this.transform.zoom),0],u=new Float32Array(16);return t.mat4.translate(u,e,c),u},Li.prototype.saveTileTexture=function(t){var e=this._tileTextures[t.size[0]];e?e.push(t):this._tileTextures[t.size[0]]=[t];},Li.prototype.getTileTexture=function(t){var e=this._tileTextures[t];return e&&e.length>0?e.pop():null},Li.prototype._createProgramCached=function(t,e){this.cache=this.cache||{};var i=""+t+(e.cacheKey||"")+(this._showOverdrawInspector?"/overdraw":"");return this.cache[i]||(this.cache[i]=new ai(this.context,ri[t],e,this._showOverdrawInspector)),this.cache[i]},Li.prototype.useProgram=function(t,e){var i=this._createProgramCached(t,e||this.emptyProgramConfiguration);return this.context.program.set(i.program),i};var Oi=t.default$20.vec4,Fi=t.default$20.mat4,Ni=t.default$20.mat2,Ui=function(t,e,i){this.tileSize=512,this._renderWorldCopies=void 0===i||i,this._minZoom=t||0,this._maxZoom=e||22,this.latRange=[-85.05113,85.05113],this.width=0,this.height=0,this._center=new W(0,0),this.zoom=0,this.angle=0,this._fov=.6435011087932844,this._pitch=0,this._unmodified=!0,this._posMatrixCache={},this._alignedPosMatrixCache={};},Zi={minZoom:{configurable:!0},maxZoom:{configurable:!0},renderWorldCopies:{configurable:!0},worldSize:{configurable:!0},centerPoint:{configurable:!0},size:{configurable:!0},bearing:{configurable:!0},pitch:{configurable:!0},fov:{configurable:!0},zoom:{configurable:!0},center:{configurable:!0},unmodified:{configurable:!0},x:{configurable:!0},y:{configurable:!0},point:{configurable:!0}};Ui.prototype.clone=function(){var t=new Ui(this._minZoom,this._maxZoom,this._renderWorldCopies);return t.tileSize=this.tileSize,t.latRange=this.latRange,t.width=this.width,t.height=this.height,t._center=this._center,t.zoom=this.zoom,t.angle=this.angle,t._fov=this._fov,t._pitch=this._pitch,t._unmodified=this._unmodified,t._calcMatrices(),t},Zi.minZoom.get=function(){return this._minZoom},Zi.minZoom.set=function(t){this._minZoom!==t&&(this._minZoom=t,this.zoom=Math.max(this.zoom,t));},Zi.maxZoom.get=function(){return this._maxZoom},Zi.maxZoom.set=function(t){this._maxZoom!==t&&(this._maxZoom=t,this.zoom=Math.min(this.zoom,t));},Zi.renderWorldCopies.get=function(){return this._renderWorldCopies},Zi.renderWorldCopies.set=function(t){void 0===t?t=!0:null===t&&(t=!1),this._renderWorldCopies=t;},Zi.worldSize.get=function(){return this.tileSize*this.scale},Zi.centerPoint.get=function(){return this.size._div(2)},Zi.size.get=function(){return new t.default$1(this.width,this.height)},Zi.bearing.get=function(){return-this.angle/Math.PI*180},Zi.bearing.set=function(e){var i=-t.wrap(e,-180,180)*Math.PI/180;this.angle!==i&&(this._unmodified=!1,this.angle=i,this._calcMatrices(),this.rotationMatrix=Ni.create(),Ni.rotate(this.rotationMatrix,this.rotationMatrix,this.angle));},Zi.pitch.get=function(){return this._pitch/Math.PI*180},Zi.pitch.set=function(e){var i=t.clamp(e,0,60)/180*Math.PI;this._pitch!==i&&(this._unmodified=!1,this._pitch=i,this._calcMatrices());},Zi.fov.get=function(){return this._fov/Math.PI*180},Zi.fov.set=function(t){t=Math.max(.01,Math.min(60,t)),this._fov!==t&&(this._unmodified=!1,this._fov=t/180*Math.PI,this._calcMatrices());},Zi.zoom.get=function(){return this._zoom},Zi.zoom.set=function(t){var e=Math.min(Math.max(t,this.minZoom),this.maxZoom);this._zoom!==e&&(this._unmodified=!1,this._zoom=e,this.scale=this.zoomScale(e),this.tileZoom=Math.floor(e),this.zoomFraction=e-this.tileZoom,this._constrain(),this._calcMatrices());},Zi.center.get=function(){return this._center},Zi.center.set=function(t){t.lat===this._center.lat&&t.lng===this._center.lng||(this._unmodified=!1,this._center=t,this._constrain(),this._calcMatrices());},Ui.prototype.coveringZoomLevel=function(t){return(t.roundZoom?Math.round:Math.floor)(this.zoom+this.scaleZoom(this.tileSize/t.tileSize))},Ui.prototype.getVisibleUnwrappedCoordinates=function(e){var i=this.pointCoordinate(new t.default$1(0,0),0),n=this.pointCoordinate(new t.default$1(this.width,0),0),o=Math.floor(i.column),r=Math.floor(n.column),a=[new t.UnwrappedTileID(0,e)];if(this._renderWorldCopies)for(var s=o;s<=r;s++)0!==s&&a.push(new t.UnwrappedTileID(s,e));return a},Ui.prototype.coveringTiles=function(e){var i=this.coveringZoomLevel(e),n=i;if(void 0!==e.minzoom&&i<e.minzoom)return[];void 0!==e.maxzoom&&i>e.maxzoom&&(i=e.maxzoom);var o=this.pointCoordinate(this.centerPoint,i),r=new t.default$1(o.column-.5,o.row-.5);return function(e,i,n,o){void 0===o&&(o=!0);var r=1<<e,a={};function s(i,s,l){var c,u,h,p;if(l>=0&&l<=r)for(c=i;c<s;c++)u=Math.floor(c/r),h=(c%r+r)%r,0!==u&&!0!==o||(p=new t.OverscaledTileID(n,u,e,h,l),a[p.key]=p);}return Bi(i[0],i[1],i[2],0,r,s),Bi(i[2],i[3],i[0],0,r,s),Object.keys(a).map(function(t){return a[t]})}(i,[this.pointCoordinate(new t.default$1(0,0),i),this.pointCoordinate(new t.default$1(this.width,0),i),this.pointCoordinate(new t.default$1(this.width,this.height),i),this.pointCoordinate(new t.default$1(0,this.height),i)],e.reparseOverscaled?n:i,this._renderWorldCopies).sort(function(t,e){return r.dist(t.canonical)-r.dist(e.canonical)})},Ui.prototype.resize=function(t,e){this.width=t,this.height=e,this.pixelsToGLUnits=[2/t,-2/e],this._constrain(),this._calcMatrices();},Zi.unmodified.get=function(){return this._unmodified},Ui.prototype.zoomScale=function(t){return Math.pow(2,t)},Ui.prototype.scaleZoom=function(t){return Math.log(t)/Math.LN2},Ui.prototype.project=function(e){return new t.default$1(this.lngX(e.lng),this.latY(e.lat))},Ui.prototype.unproject=function(t){return new W(this.xLng(t.x),this.yLat(t.y))},Zi.x.get=function(){return this.lngX(this.center.lng)},Zi.y.get=function(){return this.latY(this.center.lat)},Zi.point.get=function(){return new t.default$1(this.x,this.y)},Ui.prototype.lngX=function(t){return(180+t)*this.worldSize/360},Ui.prototype.latY=function(t){return(180-180/Math.PI*Math.log(Math.tan(Math.PI/4+t*Math.PI/360)))*this.worldSize/360},Ui.prototype.xLng=function(t){return 360*t/this.worldSize-180},Ui.prototype.yLat=function(t){var e=180-360*t/this.worldSize;return 360/Math.PI*Math.atan(Math.exp(e*Math.PI/180))-90},Ui.prototype.setLocationAtPoint=function(t,e){var i=this.pointCoordinate(e)._sub(this.pointCoordinate(this.centerPoint));this.center=this.coordinateLocation(this.locationCoordinate(t)._sub(i)),this._renderWorldCopies&&(this.center=this.center.wrap());},Ui.prototype.locationPoint=function(t){return this.coordinatePoint(this.locationCoordinate(t))},Ui.prototype.pointLocation=function(t){return this.coordinateLocation(this.pointCoordinate(t))},Ui.prototype.locationCoordinate=function(e){return new t.default$17(this.lngX(e.lng)/this.tileSize,this.latY(e.lat)/this.tileSize,this.zoom).zoomTo(this.tileZoom)},Ui.prototype.coordinateLocation=function(t){var e=t.zoomTo(this.zoom);return new W(this.xLng(e.column*this.tileSize),this.yLat(e.row*this.tileSize))},Ui.prototype.pointCoordinate=function(e,i){void 0===i&&(i=this.tileZoom);var n=[e.x,e.y,0,1],o=[e.x,e.y,1,1];Oi.transformMat4(n,n,this.pixelMatrixInverse),Oi.transformMat4(o,o,this.pixelMatrixInverse);var r=n[3],a=o[3],s=n[0]/r,l=o[0]/a,c=n[1]/r,u=o[1]/a,h=n[2]/r,p=o[2]/a,d=h===p?0:(0-h)/(p-h);return new t.default$17(t.number(s,l,d)/this.tileSize,t.number(c,u,d)/this.tileSize,this.zoom)._zoomTo(i)},Ui.prototype.coordinatePoint=function(e){var i=e.zoomTo(this.zoom),n=[i.column*this.tileSize,i.row*this.tileSize,0,1];return Oi.transformMat4(n,n,this.pixelMatrix),new t.default$1(n[0]/n[3],n[1]/n[3])},Ui.prototype.calculatePosMatrix=function(e,i){void 0===i&&(i=!1);var n=e.key,o=i?this._alignedPosMatrixCache:this._posMatrixCache;if(o[n])return o[n];var r=e.canonical,a=this.worldSize/this.zoomScale(r.z),s=r.x+Math.pow(2,r.z)*e.wrap,l=Fi.identity(new Float64Array(16));return Fi.translate(l,l,[s*a,r.y*a,0]),Fi.scale(l,l,[a/t.default$8,a/t.default$8,1]),Fi.multiply(l,i?this.alignedProjMatrix:this.projMatrix,l),o[n]=new Float32Array(l),o[n]},Ui.prototype._constrain=function(){if(this.center&&this.width&&this.height&&!this._constraining){this._constraining=!0;var e,i,n,o,r=-90,a=90,s=-180,l=180,c=this.size,u=this._unmodified;if(this.latRange){var h=this.latRange;r=this.latY(h[1]),e=(a=this.latY(h[0]))-r<c.y?c.y/(a-r):0;}if(this.lngRange){var p=this.lngRange;s=this.lngX(p[0]),i=(l=this.lngX(p[1]))-s<c.x?c.x/(l-s):0;}var d=Math.max(i||0,e||0);if(d)return this.center=this.unproject(new t.default$1(i?(l+s)/2:this.x,e?(a+r)/2:this.y)),this.zoom+=this.scaleZoom(d),this._unmodified=u,void(this._constraining=!1);if(this.latRange){var f=this.y,m=c.y/2;f-m<r&&(o=r+m),f+m>a&&(o=a-m);}if(this.lngRange){var _=this.x,g=c.x/2;_-g<s&&(n=s+g),_+g>l&&(n=l-g);}void 0===n&&void 0===o||(this.center=this.unproject(new t.default$1(void 0!==n?n:this.x,void 0!==o?o:this.y))),this._unmodified=u,this._constraining=!1;}},Ui.prototype._calcMatrices=function(){if(this.height){this.cameraToCenterDistance=.5/Math.tan(this._fov/2)*this.height;var t=this._fov/2,e=Math.PI/2+this._pitch,i=Math.sin(t)*this.cameraToCenterDistance/Math.sin(Math.PI-e-t),n=this.x,o=this.y,r=1.01*(Math.cos(Math.PI/2-this._pitch)*i+this.cameraToCenterDistance),a=new Float64Array(16);Fi.perspective(a,this._fov,this.width/this.height,1,r),Fi.scale(a,a,[1,-1,1]),Fi.translate(a,a,[0,0,-this.cameraToCenterDistance]),Fi.rotateX(a,a,this._pitch),Fi.rotateZ(a,a,this.angle),Fi.translate(a,a,[-n,-o,0]);var s=this.worldSize/(2*Math.PI*6378137*Math.abs(Math.cos(this.center.lat*(Math.PI/180))));Fi.scale(a,a,[1,1,s,1]),this.projMatrix=a;var l=this.width%2/2,c=this.height%2/2,u=Math.cos(this.angle),h=Math.sin(this.angle),p=n-Math.round(n)+u*l+h*c,d=o-Math.round(o)+u*c+h*l,f=new Float64Array(a);if(Fi.translate(f,f,[p>.5?p-1:p,d>.5?d-1:d,0]),this.alignedProjMatrix=f,a=Fi.create(),Fi.scale(a,a,[this.width/2,-this.height/2,1]),Fi.translate(a,a,[1,-1,0]),this.pixelMatrix=Fi.multiply(new Float64Array(16),a,this.projMatrix),!(a=Fi.invert(new Float64Array(16),this.pixelMatrix)))throw new Error("failed to invert matrix");this.pixelMatrixInverse=a,this._posMatrixCache={},this._alignedPosMatrixCache={};}},Ui.prototype.maxPitchScaleFactor=function(){if(!this.pixelMatrixInverse)return 1;var e=this.pointCoordinate(new t.default$1(0,0)).zoomTo(this.zoom),i=[e.column*this.tileSize,e.row*this.tileSize,0,1];return Oi.transformMat4(i,i,this.pixelMatrix)[3]/this.cameraToCenterDistance},Object.defineProperties(Ui.prototype,Zi);var Vi=function(){var e,i,n,o,r;t.bindAll(["_onHashChange","_updateHash"],this),this._updateHash=(e=this._updateHashUnthrottled.bind(this),i=300,n=!1,o=0,r=function(){o=0,n&&(e(),o=setTimeout(r,i),n=!1);},function(){return n=!0,o||r(),o});};Vi.prototype.addTo=function(e){return this._map=e,t.default.addEventListener("hashchange",this._onHashChange,!1),this._map.on("moveend",this._updateHash),this},Vi.prototype.remove=function(){return t.default.removeEventListener("hashchange",this._onHashChange,!1),this._map.off("moveend",this._updateHash),clearTimeout(this._updateHash()),delete this._map,this},Vi.prototype.getHashString=function(t){var e=this._map.getCenter(),i=Math.round(100*this._map.getZoom())/100,n=Math.ceil((i*Math.LN2+Math.log(512/360/.5))/Math.LN10),o=Math.pow(10,n),r=Math.round(e.lng*o)/o,a=Math.round(e.lat*o)/o,s=this._map.getBearing(),l=this._map.getPitch(),c="";return c+=t?"#/"+r+"/"+a+"/"+i:"#"+i+"/"+a+"/"+r,(s||l)&&(c+="/"+Math.round(10*s)/10),l&&(c+="/"+Math.round(l)),c},Vi.prototype._onHashChange=function(){var e=t.default.location.hash.replace("#","").split("/");return e.length>=3&&(this._map.jumpTo({center:[+e[2],+e[1]],zoom:+e[0],bearing:+(e[3]||0),pitch:+(e[4]||0)}),!0)},Vi.prototype._updateHashUnthrottled=function(){var e=this.getHashString();t.default.history.replaceState(t.default.history.state,"",e);};var ji=function(e){function i(i,n,o,r){void 0===r&&(r={});var a=s.mousePos(n.getCanvasContainer(),o),l=n.unproject(a);e.call(this,i,t.extend({point:a,lngLat:l,originalEvent:o},r)),this._defaultPrevented=!1,this.target=n;}e&&(i.__proto__=e),i.prototype=Object.create(e&&e.prototype),i.prototype.constructor=i;var n={defaultPrevented:{configurable:!0}};return i.prototype.preventDefault=function(){this._defaultPrevented=!0;},n.defaultPrevented.get=function(){return this._defaultPrevented},Object.defineProperties(i.prototype,n),i}(t.Event),$i=function(e){function i(i,n,o){var r=s.touchPos(n.getCanvasContainer(),o),a=r.map(function(t){return n.unproject(t)}),l=r.reduce(function(t,e,i,n){return t.add(e.div(n.length))},new t.default$1(0,0)),c=n.unproject(l);e.call(this,i,{points:r,point:l,lngLats:a,lngLat:c,originalEvent:o}),this._defaultPrevented=!1;}e&&(i.__proto__=e),i.prototype=Object.create(e&&e.prototype),i.prototype.constructor=i;var n={defaultPrevented:{configurable:!0}};return i.prototype.preventDefault=function(){this._defaultPrevented=!0;},n.defaultPrevented.get=function(){return this._defaultPrevented},Object.defineProperties(i.prototype,n),i}(t.Event),Gi=function(t){function e(e,i,n){t.call(this,e,{originalEvent:n}),this._defaultPrevented=!1;}t&&(e.__proto__=t),e.prototype=Object.create(t&&t.prototype),e.prototype.constructor=e;var i={defaultPrevented:{configurable:!0}};return e.prototype.preventDefault=function(){this._defaultPrevented=!0;},i.defaultPrevented.get=function(){return this._defaultPrevented},Object.defineProperties(e.prototype,i),e}(t.Event),Wi=function(e){this._map=e,this._el=e.getCanvasContainer(),this._delta=0,t.bindAll(["_onWheel","_onTimeout","_onScrollFrame","_onScrollFinished"],this);};Wi.prototype.isEnabled=function(){return!!this._enabled},Wi.prototype.isActive=function(){return!!this._active},Wi.prototype.enable=function(t){this.isEnabled()||(this._enabled=!0,this._aroundCenter=t&&"center"===t.around);},Wi.prototype.disable=function(){this.isEnabled()&&(this._enabled=!1);},Wi.prototype.onWheel=function(e){if(this.isEnabled()){var i=e.deltaMode===t.default.WheelEvent.DOM_DELTA_LINE?40*e.deltaY:e.deltaY,n=r.now(),o=n-(this._lastWheelEventTime||0);this._lastWheelEventTime=n,0!==i&&i%4.000244140625==0?this._type="wheel":0!==i&&Math.abs(i)<4?this._type="trackpad":o>400?(this._type=null,this._lastValue=i,this._timeout=setTimeout(this._onTimeout,40,e)):this._type||(this._type=Math.abs(o*i)<200?"trackpad":"wheel",this._timeout&&(clearTimeout(this._timeout),this._timeout=null,i+=this._lastValue)),e.shiftKey&&i&&(i/=4),this._type&&(this._lastWheelEvent=e,this._delta-=i,this.isActive()||this._start(e)),e.preventDefault();}},Wi.prototype._onTimeout=function(t){this._type="wheel",this._delta-=this._lastValue,this.isActive()||this._start(t);},Wi.prototype._start=function(e){if(this._delta){this._frameId&&(this._map._cancelRenderFrame(this._frameId),this._frameId=null),this._active=!0,this._map.fire(new t.Event("movestart",{originalEvent:e})),this._map.fire(new t.Event("zoomstart",{originalEvent:e})),this._finishTimeout&&clearTimeout(this._finishTimeout);var i=s.mousePos(this._el,e);this._around=W.convert(this._aroundCenter?this._map.getCenter():this._map.unproject(i)),this._aroundPoint=this._map.transform.locationPoint(this._around),this._frameId||(this._frameId=this._map._requestRenderFrame(this._onScrollFrame));}},Wi.prototype._onScrollFrame=function(){var e=this;if(this._frameId=null,this.isActive()){var i=this._map.transform;if(0!==this._delta){var n="wheel"===this._type&&Math.abs(this._delta)>4.000244140625?1/450:.01,o=2/(1+Math.exp(-Math.abs(this._delta*n)));this._delta<0&&0!==o&&(o=1/o);var a="number"==typeof this._targetZoom?i.zoomScale(this._targetZoom):i.scale;this._targetZoom=Math.min(i.maxZoom,Math.max(i.minZoom,i.scaleZoom(a*o))),"wheel"===this._type&&(this._startZoom=i.zoom,this._easing=this._smoothOutEasing(200)),this._delta=0;}var s=!1;if("wheel"===this._type){var l=Math.min((r.now()-this._lastWheelEventTime)/200,1),c=this._easing(l);i.zoom=t.number(this._startZoom,this._targetZoom,c),l<1?this._frameId||(this._frameId=this._map._requestRenderFrame(this._onScrollFrame)):s=!0;}else i.zoom=this._targetZoom,s=!0;i.setLocationAtPoint(this._around,this._aroundPoint),this._map.fire(new t.Event("move",{originalEvent:this._lastWheelEvent})),this._map.fire(new t.Event("zoom",{originalEvent:this._lastWheelEvent})),s&&(this._active=!1,this._finishTimeout=setTimeout(function(){e._map.fire(new t.Event("zoomend",{originalEvent:e._lastWheelEvent})),e._map.fire(new t.Event("moveend",{originalEvent:e._lastWheelEvent})),delete e._targetZoom;},200));}},Wi.prototype._smoothOutEasing=function(e){var i=t.ease;if(this._prevEase){var n=this._prevEase,o=(r.now()-n.start)/n.duration,a=n.easing(o+.01)-n.easing(o),s=.27/Math.sqrt(a*a+1e-4)*.01,l=Math.sqrt(.0729-s*s);i=t.bezier(s,l,.25,1);}return this._prevEase={start:r.now(),duration:e,easing:i},i};var qi=function(e){this._map=e,this._el=e.getCanvasContainer(),this._container=e.getContainer(),t.bindAll(["_onMouseMove","_onMouseUp","_onKeyDown"],this);};qi.prototype.isEnabled=function(){return!!this._enabled},qi.prototype.isActive=function(){return!!this._active},qi.prototype.enable=function(){this.isEnabled()||(this._enabled=!0);},qi.prototype.disable=function(){this.isEnabled()&&(this._enabled=!1);},qi.prototype.onMouseDown=function(e){this.isEnabled()&&e.shiftKey&&0===e.button&&(t.default.document.addEventListener("mousemove",this._onMouseMove,!1),t.default.document.addEventListener("keydown",this._onKeyDown,!1),t.default.document.addEventListener("mouseup",this._onMouseUp,!1),s.disableDrag(),this._startPos=s.mousePos(this._el,e),this._active=!0);},qi.prototype._onMouseMove=function(t){var e=this._startPos,i=s.mousePos(this._el,t);this._box||(this._box=s.create("div","mapboxgl-boxzoom",this._container),this._container.classList.add("mapboxgl-crosshair"),this._fireEvent("boxzoomstart",t));var n=Math.min(e.x,i.x),o=Math.max(e.x,i.x),r=Math.min(e.y,i.y),a=Math.max(e.y,i.y);s.setTransform(this._box,"translate("+n+"px,"+r+"px)"),this._box.style.width=o-n+"px",this._box.style.height=a-r+"px";},qi.prototype._onMouseUp=function(e){if(0===e.button){var i=this._startPos,n=s.mousePos(this._el,e),o=(new q).extend(this._map.unproject(i)).extend(this._map.unproject(n));this._finish(),s.suppressClick(),i.x===n.x&&i.y===n.y?this._fireEvent("boxzoomcancel",e):this._map.fitBounds(o,{linear:!0}).fire(new t.Event("boxzoomend",{originalEvent:e,boxZoomBounds:o}));}},qi.prototype._onKeyDown=function(t){27===t.keyCode&&(this._finish(),this._fireEvent("boxzoomcancel",t));},qi.prototype._finish=function(){this._active=!1,t.default.document.removeEventListener("mousemove",this._onMouseMove,!1),t.default.document.removeEventListener("keydown",this._onKeyDown,!1),t.default.document.removeEventListener("mouseup",this._onMouseUp,!1),this._container.classList.remove("mapboxgl-crosshair"),this._box&&(s.remove(this._box),this._box=null),s.enableDrag();},qi.prototype._fireEvent=function(e,i){return this._map.fire(new t.Event(e,{originalEvent:i}))};var Xi=t.bezier(0,0,.25,1),Hi=function(e,i){this._map=e,this._el=i.element||e.getCanvasContainer(),this._state="disabled",this._button=i.button||"right",this._bearingSnap=i.bearingSnap||0,this._pitchWithRotate=!1!==i.pitchWithRotate,t.bindAll(["_onMouseMove","_onMouseUp","_onBlur","_onDragFrame"],this);};Hi.prototype.isEnabled=function(){return"disabled"!==this._state},Hi.prototype.isActive=function(){return"active"===this._state},Hi.prototype.enable=function(){this.isEnabled()||(this._state="enabled");},Hi.prototype.disable=function(){if(this.isEnabled())switch(this._state){case"active":this._state="disabled",this._unbind(),this._deactivate(),this._fireEvent("rotateend"),this._pitchWithRotate&&this._fireEvent("pitchend"),this._fireEvent("moveend");break;case"pending":this._state="disabled",this._unbind();break;default:this._state="disabled";}},Hi.prototype.onMouseDown=function(e){if("enabled"===this._state){if("right"===this._button){if(this._eventButton=s.mouseButton(e),this._eventButton!==(e.ctrlKey?0:2))return}else{if(e.ctrlKey||0!==s.mouseButton(e))return;this._eventButton=0;}s.disableDrag(),t.default.document.addEventListener("mousemove",this._onMouseMove,{capture:!0}),t.default.document.addEventListener("mouseup",this._onMouseUp),t.default.addEventListener("blur",this._onBlur),this._state="pending",this._inertia=[[r.now(),this._map.getBearing()]],this._previousPos=s.mousePos(this._el,e),this._center=this._map.transform.centerPoint,e.preventDefault();}},Hi.prototype._onMouseMove=function(t){this._lastMoveEvent=t,this._pos=s.mousePos(this._el,t),"pending"===this._state&&(this._state="active",this._fireEvent("rotatestart",t),this._fireEvent("movestart",t),this._pitchWithRotate&&this._fireEvent("pitchstart",t)),this._frameId||(this._frameId=this._map._requestRenderFrame(this._onDragFrame));},Hi.prototype._onDragFrame=function(){this._frameId=null;var t=this._lastMoveEvent;if(t){var e=this._map.transform,i=this._previousPos,n=this._pos,o=.8*(i.x-n.x),a=-.5*(i.y-n.y),s=e.bearing-o,l=e.pitch-a,c=this._inertia,u=c[c.length-1];this._drainInertiaBuffer(),c.push([r.now(),this._map._normalizeBearing(s,u[1])]),e.bearing=s,this._pitchWithRotate&&(this._fireEvent("pitch",t),e.pitch=l),this._fireEvent("rotate",t),this._fireEvent("move",t),delete this._lastMoveEvent,this._previousPos=this._pos;}},Hi.prototype._onMouseUp=function(t){if(s.mouseButton(t)===this._eventButton)switch(this._state){case"active":this._state="enabled",s.suppressClick(),this._unbind(),this._deactivate(),this._inertialRotate(t);break;case"pending":this._state="enabled",this._unbind();}},Hi.prototype._onBlur=function(t){switch(this._state){case"active":this._state="enabled",this._unbind(),this._deactivate(),this._fireEvent("rotateend",t),this._pitchWithRotate&&this._fireEvent("pitchend",t),this._fireEvent("moveend",t);break;case"pending":this._state="enabled",this._unbind();}},Hi.prototype._unbind=function(){t.default.document.removeEventListener("mousemove",this._onMouseMove,{capture:!0}),t.default.document.removeEventListener("mouseup",this._onMouseUp),t.default.removeEventListener("blur",this._onBlur),s.enableDrag();},Hi.prototype._deactivate=function(){this._frameId&&(this._map._cancelRenderFrame(this._frameId),this._frameId=null),delete this._lastMoveEvent,delete this._previousPos;},Hi.prototype._inertialRotate=function(t){var e=this;this._fireEvent("rotateend",t),this._drainInertiaBuffer();var i=this._map,n=i.getBearing(),o=this._inertia,r=function(){Math.abs(n)<e._bearingSnap?i.resetNorth({noMoveStart:!0},{originalEvent:t}):e._fireEvent("moveend",t),e._pitchWithRotate&&e._fireEvent("pitchend",t);};if(o.length<2)r();else{var a=o[0],s=o[o.length-1],l=o[o.length-2],c=i._normalizeBearing(n,l[1]),u=s[1]-a[1],h=u<0?-1:1,p=(s[0]-a[0])/1e3;if(0!==u&&0!==p){var d=Math.abs(u*(.25/p));d>180&&(d=180);var f=d/180;c+=h*d*(f/2),Math.abs(i._normalizeBearing(c,0))<this._bearingSnap&&(c=i._normalizeBearing(0,c)),i.rotateTo(c,{duration:1e3*f,easing:Xi,noMoveStart:!0},{originalEvent:t});}else r();}},Hi.prototype._fireEvent=function(e,i){return this._map.fire(new t.Event(e,i?{originalEvent:i}:{}))},Hi.prototype._drainInertiaBuffer=function(){for(var t=this._inertia,e=r.now();t.length>0&&e-t[0][0]>160;)t.shift();};var Ki=t.bezier(0,0,.3,1),Yi=function(e){this._map=e,this._el=e.getCanvasContainer(),this._state="disabled",t.bindAll(["_onMove","_onMouseUp","_onTouchEnd","_onBlur","_onDragFrame"],this);};Yi.prototype.isEnabled=function(){return"disabled"!==this._state},Yi.prototype.isActive=function(){return"active"===this._state},Yi.prototype.enable=function(){this.isEnabled()||(this._el.classList.add("mapboxgl-touch-drag-pan"),this._state="enabled");},Yi.prototype.disable=function(){if(this.isEnabled())switch(this._el.classList.remove("mapboxgl-touch-drag-pan"),this._state){case"active":this._state="disabled",this._unbind(),this._deactivate(),this._fireEvent("dragend"),this._fireEvent("moveend");break;case"pending":this._state="disabled",this._unbind();break;default:this._state="disabled";}},Yi.prototype.onMouseDown=function(e){"enabled"===this._state&&(e.ctrlKey||0!==s.mouseButton(e)||(s.addEventListener(t.default.document,"mousemove",this._onMove,{capture:!0}),s.addEventListener(t.default.document,"mouseup",this._onMouseUp),this._start(e)));},Yi.prototype.onTouchStart=function(e){"enabled"===this._state&&(e.touches.length>1||(s.addEventListener(t.default.document,"touchmove",this._onMove,{capture:!0,passive:!1}),s.addEventListener(t.default.document,"touchend",this._onTouchEnd),this._start(e)));},Yi.prototype._start=function(e){t.default.addEventListener("blur",this._onBlur),this._state="pending",this._previousPos=s.mousePos(this._el,e),this._inertia=[[r.now(),this._previousPos]];},Yi.prototype._onMove=function(t){this._lastMoveEvent=t,t.preventDefault(),this._pos=s.mousePos(this._el,t),this._drainInertiaBuffer(),this._inertia.push([r.now(),this._pos]),"pending"===this._state&&(this._state="active",this._fireEvent("dragstart",t),this._fireEvent("movestart",t)),this._frameId||(this._frameId=this._map._requestRenderFrame(this._onDragFrame));},Yi.prototype._onDragFrame=function(){this._frameId=null;var t=this._lastMoveEvent;if(t){var e=this._map.transform;e.setLocationAtPoint(e.pointLocation(this._previousPos),this._pos),this._fireEvent("drag",t),this._fireEvent("move",t),this._previousPos=this._pos,delete this._lastMoveEvent;}},Yi.prototype._onMouseUp=function(t){if(0===s.mouseButton(t))switch(this._state){case"active":this._state="enabled",s.suppressClick(),this._unbind(),this._deactivate(),this._inertialPan(t);break;case"pending":this._state="enabled",this._unbind();}},Yi.prototype._onTouchEnd=function(t){switch(this._state){case"active":this._state="enabled",this._unbind(),this._deactivate(),this._inertialPan(t);break;case"pending":this._state="enabled",this._unbind();}},Yi.prototype._onBlur=function(t){switch(this._state){case"active":this._state="enabled",this._unbind(),this._deactivate(),this._fireEvent("dragend",t),this._fireEvent("moveend",t);break;case"pending":this._state="enabled",this._unbind();}},Yi.prototype._unbind=function(){s.removeEventListener(t.default.document,"touchmove",this._onMove,{capture:!0,passive:!1}),s.removeEventListener(t.default.document,"touchend",this._onTouchEnd),s.removeEventListener(t.default.document,"mousemove",this._onMove,{capture:!0}),s.removeEventListener(t.default.document,"mouseup",this._onMouseUp),s.removeEventListener(t.default,"blur",this._onBlur);},Yi.prototype._deactivate=function(){this._frameId&&(this._map._cancelRenderFrame(this._frameId),this._frameId=null),delete this._lastMoveEvent,delete this._previousPos,delete this._pos;},Yi.prototype._inertialPan=function(t){this._fireEvent("dragend",t),this._drainInertiaBuffer();var e=this._inertia;if(e.length<2)this._fireEvent("moveend",t);else{var i=e[e.length-1],n=e[0],o=i[1].sub(n[1]),r=(i[0]-n[0])/1e3;if(0===r||i[1].equals(n[1]))this._fireEvent("moveend",t);else{var a=o.mult(.3/r),s=a.mag();s>1400&&(s=1400,a._unit()._mult(s));var l=s/750,c=a.mult(-l/2);this._map.panBy(c,{duration:1e3*l,easing:Ki,noMoveStart:!0},{originalEvent:t});}}},Yi.prototype._fireEvent=function(e,i){return this._map.fire(new t.Event(e,i?{originalEvent:i}:{}))},Yi.prototype._drainInertiaBuffer=function(){for(var t=this._inertia,e=r.now();t.length>0&&e-t[0][0]>160;)t.shift();};var Ji=function(e){this._map=e,this._el=e.getCanvasContainer(),t.bindAll(["_onKeyDown"],this);};function Qi(t){return t*(2-t)}Ji.prototype.isEnabled=function(){return!!this._enabled},Ji.prototype.enable=function(){this.isEnabled()||(this._el.addEventListener("keydown",this._onKeyDown,!1),this._enabled=!0);},Ji.prototype.disable=function(){this.isEnabled()&&(this._el.removeEventListener("keydown",this._onKeyDown),this._enabled=!1);},Ji.prototype._onKeyDown=function(t){if(!(t.altKey||t.ctrlKey||t.metaKey)){var e=0,i=0,n=0,o=0,r=0;switch(t.keyCode){case 61:case 107:case 171:case 187:e=1;break;case 189:case 109:case 173:e=-1;break;case 37:t.shiftKey?i=-1:(t.preventDefault(),o=-1);break;case 39:t.shiftKey?i=1:(t.preventDefault(),o=1);break;case 38:t.shiftKey?n=1:(t.preventDefault(),r=-1);break;case 40:t.shiftKey?n=-1:(r=1,t.preventDefault());break;default:return}var a=this._map,s=a.getZoom(),l={duration:300,delayEndEvents:500,easing:Qi,zoom:e?Math.round(s)+e*(t.shiftKey?2:1):s,bearing:a.getBearing()+15*i,pitch:a.getPitch()+10*n,offset:[100*-o,100*-r],center:a.getCenter()};a.easeTo(l,{originalEvent:t});}};var tn=function(e){this._map=e,t.bindAll(["_onDblClick","_onZoomEnd"],this);};tn.prototype.isEnabled=function(){return!!this._enabled},tn.prototype.isActive=function(){return!!this._active},tn.prototype.enable=function(){this.isEnabled()||(this._enabled=!0);},tn.prototype.disable=function(){this.isEnabled()&&(this._enabled=!1);},tn.prototype.onTouchStart=function(t){var e=this;this.isEnabled()&&(t.points.length>1||(this._tapped?(clearTimeout(this._tapped),this._tapped=null,this._zoom(t)):this._tapped=setTimeout(function(){e._tapped=null;},300)));},tn.prototype.onDblClick=function(t){this.isEnabled()&&(t.originalEvent.preventDefault(),this._zoom(t));},tn.prototype._zoom=function(t){this._active=!0,this._map.on("zoomend",this._onZoomEnd),this._map.zoomTo(this._map.getZoom()+(t.originalEvent.shiftKey?-1:1),{around:t.lngLat},t);},tn.prototype._onZoomEnd=function(){this._active=!1,this._map.off("zoomend",this._onZoomEnd);};var en=t.bezier(0,0,.15,1),nn=function(e){this._map=e,this._el=e.getCanvasContainer(),t.bindAll(["_onMove","_onEnd","_onTouchFrame"],this);};nn.prototype.isEnabled=function(){return!!this._enabled},nn.prototype.enable=function(t){this.isEnabled()||(this._el.classList.add("mapboxgl-touch-zoom-rotate"),this._enabled=!0,this._aroundCenter=!!t&&"center"===t.around);},nn.prototype.disable=function(){this.isEnabled()&&(this._el.classList.remove("mapboxgl-touch-zoom-rotate"),this._enabled=!1);},nn.prototype.disableRotation=function(){this._rotationDisabled=!0;},nn.prototype.enableRotation=function(){this._rotationDisabled=!1;},nn.prototype.onStart=function(e){if(this.isEnabled()&&2===e.touches.length){var i=s.mousePos(this._el,e.touches[0]),n=s.mousePos(this._el,e.touches[1]);this._startVec=i.sub(n),this._gestureIntent=void 0,this._inertia=[],s.addEventListener(t.default.document,"touchmove",this._onMove,{passive:!1}),s.addEventListener(t.default.document,"touchend",this._onEnd);}},nn.prototype._getTouchEventData=function(t){var e=s.mousePos(this._el,t.touches[0]),i=s.mousePos(this._el,t.touches[1]),n=e.sub(i);return{vec:n,center:e.add(i).div(2),scale:n.mag()/this._startVec.mag(),bearing:this._rotationDisabled?0:180*n.angleWith(this._startVec)/Math.PI}},nn.prototype._onMove=function(e){if(2===e.touches.length){var i=this._getTouchEventData(e),n=i.vec,o=i.scale,r=i.bearing;if(!this._gestureIntent){var a=Math.abs(1-o)>.15;Math.abs(r)>10?this._gestureIntent="rotate":a&&(this._gestureIntent="zoom"),this._gestureIntent&&(this._map.fire(new t.Event(this._gestureIntent+"start",{originalEvent:e})),this._map.fire(new t.Event("movestart",{originalEvent:e})),this._startVec=n);}this._lastTouchEvent=e,this._frameId||(this._frameId=this._map._requestRenderFrame(this._onTouchFrame)),e.preventDefault();}},nn.prototype._onTouchFrame=function(){this._frameId=null;var e=this._gestureIntent;if(e){var i=this._map.transform;this._startScale||(this._startScale=i.scale,this._startBearing=i.bearing);var n=this._getTouchEventData(this._lastTouchEvent),o=n.center,a=n.bearing,s=n.scale,l=i.pointLocation(o),c=i.locationPoint(l);"rotate"===e&&(i.bearing=this._startBearing+a),i.zoom=i.scaleZoom(this._startScale*s),i.setLocationAtPoint(l,c),this._map.fire(new t.Event(e,{originalEvent:this._lastTouchEvent})),this._map.fire(new t.Event("move",{originalEvent:this._lastTouchEvent})),this._drainInertiaBuffer(),this._inertia.push([r.now(),s,o]);}},nn.prototype._onEnd=function(e){s.removeEventListener(t.default.document,"touchmove",this._onMove,{passive:!1}),s.removeEventListener(t.default.document,"touchend",this._onEnd);var i=this._gestureIntent,n=this._startScale;if(this._frameId&&(this._map._cancelRenderFrame(this._frameId),this._frameId=null),delete this._gestureIntent,delete this._startScale,delete this._startBearing,delete this._lastTouchEvent,i){this._map.fire(new t.Event(i+"end",{originalEvent:e})),this._drainInertiaBuffer();var o=this._inertia,r=this._map;if(o.length<2)r.snapToNorth({},{originalEvent:e});else{var a=o[o.length-1],l=o[0],c=r.transform.scaleZoom(n*a[1]),u=r.transform.scaleZoom(n*l[1]),h=c-u,p=(a[0]-l[0])/1e3,d=a[2];if(0!==p&&c!==u){var f=.15*h/p;Math.abs(f)>2.5&&(f=f>0?2.5:-2.5);var m=1e3*Math.abs(f/(12*.15)),_=c+f*m/2e3;_<0&&(_=0),r.easeTo({zoom:_,duration:m,easing:en,around:this._aroundCenter?r.getCenter():r.unproject(d),noMoveStart:!0},{originalEvent:e});}else r.snapToNorth({},{originalEvent:e});}}},nn.prototype._drainInertiaBuffer=function(){for(var t=this._inertia,e=r.now();t.length>2&&e-t[0][0]>160;)t.shift();};var on={scrollZoom:Wi,boxZoom:qi,dragRotate:Hi,dragPan:Yi,keyboard:Ji,doubleClickZoom:tn,touchZoomRotate:nn};var rn=function(e){function i(i,n){e.call(this),this._moving=!1,this._zooming=!1,this.transform=i,this._bearingSnap=n.bearingSnap,t.bindAll(["_renderFrameCallback"],this);}return e&&(i.__proto__=e),i.prototype=Object.create(e&&e.prototype),i.prototype.constructor=i,i.prototype.getCenter=function(){return this.transform.center},i.prototype.setCenter=function(t,e){return this.jumpTo({center:t},e)},i.prototype.panBy=function(e,i,n){return e=t.default$1.convert(e).mult(-1),this.panTo(this.transform.center,t.extend({offset:e},i),n)},i.prototype.panTo=function(e,i,n){return this.easeTo(t.extend({center:e},i),n)},i.prototype.getZoom=function(){return this.transform.zoom},i.prototype.setZoom=function(t,e){return this.jumpTo({zoom:t},e),this},i.prototype.zoomTo=function(e,i,n){return this.easeTo(t.extend({zoom:e},i),n)},i.prototype.zoomIn=function(t,e){return this.zoomTo(this.getZoom()+1,t,e),this},i.prototype.zoomOut=function(t,e){return this.zoomTo(this.getZoom()-1,t,e),this},i.prototype.getBearing=function(){return this.transform.bearing},i.prototype.setBearing=function(t,e){return this.jumpTo({bearing:t},e),this},i.prototype.rotateTo=function(e,i,n){return this.easeTo(t.extend({bearing:e},i),n)},i.prototype.resetNorth=function(e,i){return this.rotateTo(0,t.extend({duration:1e3},e),i),this},i.prototype.snapToNorth=function(t,e){return Math.abs(this.getBearing())<this._bearingSnap?this.resetNorth(t,e):this},i.prototype.getPitch=function(){return this.transform.pitch},i.prototype.setPitch=function(t,e){return this.jumpTo({pitch:t},e),this},i.prototype.fitBounds=function(e,i,n){if("number"==typeof(i=t.extend({padding:{top:0,bottom:0,right:0,left:0},offset:[0,0],maxZoom:this.transform.maxZoom},i)).padding){var o=i.padding;i.padding={top:o,bottom:o,right:o,left:o};}if(!t.default$10(Object.keys(i.padding).sort(function(t,e){return t<e?-1:t>e?1:0}),["bottom","left","right","top"]))return t.warnOnce("options.padding must be a positive number, or an Object with keys 'bottom', 'left', 'right', 'top'"),this;e=q.convert(e);var r=[(i.padding.left-i.padding.right)/2,(i.padding.top-i.padding.bottom)/2],a=Math.min(i.padding.right,i.padding.left),s=Math.min(i.padding.top,i.padding.bottom);i.offset=[i.offset[0]+r[0],i.offset[1]+r[1]];var l=t.default$1.convert(i.offset),c=this.transform,u=c.project(e.getNorthWest()),h=c.project(e.getSouthEast()),p=h.sub(u),d=(c.width-2*a-2*Math.abs(l.x))/p.x,f=(c.height-2*s-2*Math.abs(l.y))/p.y;return f<0||d<0?(t.warnOnce("Map cannot fit within canvas with the given bounds, padding, and/or offset."),this):(i.center=c.unproject(u.add(h).div(2)),i.zoom=Math.min(c.scaleZoom(c.scale*Math.min(d,f)),i.maxZoom),i.bearing=0,i.linear?this.easeTo(i,n):this.flyTo(i,n))},i.prototype.jumpTo=function(e,i){this.stop();var n=this.transform,o=!1,r=!1,a=!1;return"zoom"in e&&n.zoom!==+e.zoom&&(o=!0,n.zoom=+e.zoom),void 0!==e.center&&(n.center=W.convert(e.center)),"bearing"in e&&n.bearing!==+e.bearing&&(r=!0,n.bearing=+e.bearing),"pitch"in e&&n.pitch!==+e.pitch&&(a=!0,n.pitch=+e.pitch),this.fire(new t.Event("movestart",i)).fire(new t.Event("move",i)),o&&this.fire(new t.Event("zoomstart",i)).fire(new t.Event("zoom",i)).fire(new t.Event("zoomend",i)),r&&this.fire(new t.Event("rotatestart",i)).fire(new t.Event("rotate",i)).fire(new t.Event("rotateend",i)),a&&this.fire(new t.Event("pitchstart",i)).fire(new t.Event("pitch",i)).fire(new t.Event("pitchend",i)),this.fire(new t.Event("moveend",i))},i.prototype.easeTo=function(e,i){var n=this;this.stop(),!1===(e=t.extend({offset:[0,0],duration:500,easing:t.ease},e)).animate&&(e.duration=0);var o=this.transform,r=this.getZoom(),a=this.getBearing(),s=this.getPitch(),l="zoom"in e?+e.zoom:r,c="bearing"in e?this._normalizeBearing(e.bearing,a):a,u="pitch"in e?+e.pitch:s,h=o.centerPoint.add(t.default$1.convert(e.offset)),p=o.pointLocation(h),d=W.convert(e.center||p);this._normalizeCenter(d);var f,m,_=o.project(p),g=o.project(d).sub(_),v=o.zoomScale(l-r);return e.around&&(f=W.convert(e.around),m=o.locationPoint(f)),this._zooming=l!==r,this._rotating=a!==c,this._pitching=u!==s,this._prepareEase(i,e.noMoveStart),clearTimeout(this._easeEndTimeoutID),this._ease(function(e){if(n._zooming&&(o.zoom=t.number(r,l,e)),n._rotating&&(o.bearing=t.number(a,c,e)),n._pitching&&(o.pitch=t.number(s,u,e)),f)o.setLocationAtPoint(f,m);else{var p=o.zoomScale(o.zoom-r),d=l>r?Math.min(2,v):Math.max(.5,v),y=Math.pow(d,1-e),x=o.unproject(_.add(g.mult(e*y)).mult(p));o.setLocationAtPoint(o.renderWorldCopies?x.wrap():x,h);}n._fireMoveEvents(i);},function(){e.delayEndEvents?n._easeEndTimeoutID=setTimeout(function(){return n._afterEase(i)},e.delayEndEvents):n._afterEase(i);},e),this},i.prototype._prepareEase=function(e,i){this._moving=!0,i||this.fire(new t.Event("movestart",e)),this._zooming&&this.fire(new t.Event("zoomstart",e)),this._rotating&&this.fire(new t.Event("rotatestart",e)),this._pitching&&this.fire(new t.Event("pitchstart",e));},i.prototype._fireMoveEvents=function(e){this.fire(new t.Event("move",e)),this._zooming&&this.fire(new t.Event("zoom",e)),this._rotating&&this.fire(new t.Event("rotate",e)),this._pitching&&this.fire(new t.Event("pitch",e));},i.prototype._afterEase=function(e){var i=this._zooming,n=this._rotating,o=this._pitching;this._moving=!1,this._zooming=!1,this._rotating=!1,this._pitching=!1,i&&this.fire(new t.Event("zoomend",e)),n&&this.fire(new t.Event("rotateend",e)),o&&this.fire(new t.Event("pitchend",e)),this.fire(new t.Event("moveend",e));},i.prototype.flyTo=function(e,i){var n=this;this.stop(),e=t.extend({offset:[0,0],speed:1.2,curve:1.42,easing:t.ease},e);var o=this.transform,r=this.getZoom(),a=this.getBearing(),s=this.getPitch(),l="zoom"in e?t.clamp(+e.zoom,o.minZoom,o.maxZoom):r,c="bearing"in e?this._normalizeBearing(e.bearing,a):a,u="pitch"in e?+e.pitch:s,h=o.zoomScale(l-r),p=o.centerPoint.add(t.default$1.convert(e.offset)),d=o.pointLocation(p),f=W.convert(e.center||d);this._normalizeCenter(f);var m=o.project(d),_=o.project(f).sub(m),g=e.curve,v=Math.max(o.width,o.height),y=v/h,x=_.mag();if("minZoom"in e){var b=t.clamp(Math.min(e.minZoom,r,l),o.minZoom,o.maxZoom),w=v/o.zoomScale(b-r);g=Math.sqrt(w/x*2);}var E=g*g;function T(t){var e=(y*y-v*v+(t?-1:1)*E*E*x*x)/(2*(t?y:v)*E*x);return Math.log(Math.sqrt(e*e+1)-e)}function I(t){return(Math.exp(t)-Math.exp(-t))/2}function C(t){return(Math.exp(t)+Math.exp(-t))/2}var S=T(0),z=function(t){return C(S)/C(S+g*t)},A=function(t){return v*((C(S)*(I(e=S+g*t)/C(e))-I(S))/E)/x;var e;},R=(T(1)-S)/g;if(Math.abs(x)<1e-6||!isFinite(R)){if(Math.abs(v-y)<1e-6)return this.easeTo(e,i);var D=y<v?-1:1;R=Math.abs(Math.log(y/v))/g,A=function(){return 0},z=function(t){return Math.exp(D*g*t)};}if("duration"in e)e.duration=+e.duration;else{var M="screenSpeed"in e?+e.screenSpeed/g:+e.speed;e.duration=1e3*R/M;}return e.maxDuration&&e.duration>e.maxDuration&&(e.duration=0),this._zooming=!0,this._rotating=a!==c,this._pitching=u!==s,this._prepareEase(i,!1),this._ease(function(e){var l=e*R,h=1/z(l);o.zoom=r+o.scaleZoom(h),n._rotating&&(o.bearing=t.number(a,c,e)),n._pitching&&(o.pitch=t.number(s,u,e));var d=o.unproject(m.add(_.mult(A(l))).mult(h));o.setLocationAtPoint(o.renderWorldCopies?d.wrap():d,p),n._fireMoveEvents(i);},function(){return n._afterEase(i)},e),this},i.prototype.isEasing=function(){return!!this._easeFrameId},i.prototype.stop=function(){if(this._easeFrameId&&(this._cancelRenderFrame(this._easeFrameId),delete this._easeFrameId,delete this._onEaseFrame),this._onEaseEnd){var t=this._onEaseEnd;delete this._onEaseEnd,t.call(this);}return this},i.prototype._ease=function(t,e,i){!1===i.animate||0===i.duration?(t(1),e()):(this._easeStart=r.now(),this._easeOptions=i,this._onEaseFrame=t,this._onEaseEnd=e,this._easeFrameId=this._requestRenderFrame(this._renderFrameCallback));},i.prototype._renderFrameCallback=function(){var t=Math.min((r.now()-this._easeStart)/this._easeOptions.duration,1);this._onEaseFrame(this._easeOptions.easing(t)),t<1?this._easeFrameId=this._requestRenderFrame(this._renderFrameCallback):this.stop();},i.prototype._normalizeBearing=function(e,i){e=t.wrap(e,-180,180);var n=Math.abs(e-i);return Math.abs(e-360-i)<n&&(e-=360),Math.abs(e+360-i)<n&&(e+=360),e},i.prototype._normalizeCenter=function(t){var e=this.transform;if(e.renderWorldCopies&&!e.lngRange){var i=t.lng-e.center.lng;t.lng+=i>180?-360:i<-180?360:0;}},i}(t.Evented),an=function(e){void 0===e&&(e={}),this.options=e,t.bindAll(["_updateEditLink","_updateData","_updateCompact"],this);};an.prototype.getDefaultPosition=function(){return"bottom-right"},an.prototype.onAdd=function(t){var e=this.options&&this.options.compact;return this._map=t,this._container=s.create("div","mapboxgl-ctrl mapboxgl-ctrl-attrib"),e&&this._container.classList.add("mapboxgl-compact"),this._updateAttributions(),this._updateEditLink(),this._map.on("sourcedata",this._updateData),this._map.on("moveend",this._updateEditLink),void 0===e&&(this._map.on("resize",this._updateCompact),this._updateCompact()),this._container},an.prototype.onRemove=function(){s.remove(this._container),this._map.off("sourcedata",this._updateData),this._map.off("moveend",this._updateEditLink),this._map.off("resize",this._updateCompact),this._map=void 0;},an.prototype._updateEditLink=function(){var t=this._editLink;t||(t=this._editLink=this._container.querySelector(".mapbox-improve-map"));var e=[{key:"owner",value:this.styleOwner},{key:"id",value:this.styleId},{key:"access_token",value:_.ACCESS_TOKEN}];if(t){var i=e.reduce(function(t,i,n){return i.value&&(t+=i.key+"="+i.value+(n<e.length-1?"&":"")),t},"?");t.href="https://www.mapbox.com/feedback/"+i+(this._map._hash?this._map._hash.getHashString(!0):"");}},an.prototype._updateData=function(t){t&&"metadata"===t.sourceDataType&&(this._updateAttributions(),this._updateEditLink());},an.prototype._updateAttributions=function(){if(this._map.style){var t=[];if(this._map.style.stylesheet){var e=this._map.style.stylesheet;this.styleOwner=e.owner,this.styleId=e.id;}var i=this._map.style.sourceCaches;for(var n in i){var o=i[n].getSource();o.attribution&&t.indexOf(o.attribution)<0&&t.push(o.attribution);}t.sort(function(t,e){return t.length-e.length}),(t=t.filter(function(e,i){for(var n=i+1;n<t.length;n++)if(t[n].indexOf(e)>=0)return!1;return!0})).length?(this._container.innerHTML=t.join(" | "),this._container.classList.remove("mapboxgl-attrib-empty")):this._container.classList.add("mapboxgl-attrib-empty"),this._editLink=null;}},an.prototype._updateCompact=function(){this._map.getCanvasContainer().offsetWidth<=640?this._container.classList.add("mapboxgl-compact"):this._container.classList.remove("mapboxgl-compact");};var sn=function(){t.bindAll(["_updateLogo"],this);};sn.prototype.onAdd=function(t){this._map=t,this._container=s.create("div","mapboxgl-ctrl");var e=s.create("a","mapboxgl-ctrl-logo");return e.target="_blank",e.href="https://www.mapbox.com/",e.setAttribute("aria-label","Mapbox logo"),this._container.appendChild(e),this._container.style.display="none",this._map.on("sourcedata",this._updateLogo),this._updateLogo(),this._container},sn.prototype.onRemove=function(){s.remove(this._container),this._map.off("sourcedata",this._updateLogo);},sn.prototype.getDefaultPosition=function(){return"bottom-left"},sn.prototype._updateLogo=function(t){t&&"metadata"!==t.sourceDataType||(this._container.style.display=this._logoRequired()?"block":"none");},sn.prototype._logoRequired=function(){if(this._map.style){var t=this._map.style.sourceCaches;for(var e in t){if(t[e].getSource().mapbox_logo)return!0}return!1}};var ln=function(){this._queue=[],this._id=0,this._cleared=!1,this._currentlyRunning=!1;};ln.prototype.add=function(t){var e=++this._id;return this._queue.push({callback:t,id:e,cancelled:!1}),e},ln.prototype.remove=function(t){for(var e=this._currentlyRunning,i=0,n=e?this._queue.concat(e):this._queue;i<n.length;i+=1){var o=n[i];if(o.id===t)return void(o.cancelled=!0)}},ln.prototype.run=function(){var t=this._currentlyRunning=this._queue;this._queue=[];for(var e=0,i=t;e<i.length;e+=1){var n=i[e];if(!n.cancelled&&(n.callback(),this._cleared))break}this._cleared=!1,this._currentlyRunning=!1;},ln.prototype.clear=function(){this._currentlyRunning&&(this._cleared=!0),this._queue=[];};var cn=t.default.HTMLImageElement,un=t.default.HTMLElement,hn={center:[0,0],zoom:0,bearing:0,pitch:0,minZoom:0,maxZoom:22,interactive:!0,scrollZoom:!0,boxZoom:!0,dragRotate:!0,dragPan:!0,keyboard:!0,doubleClickZoom:!0,touchZoomRotate:!0,bearingSnap:7,hash:!1,attributionControl:!0,failIfMajorPerformanceCaveat:!1,preserveDrawingBuffer:!1,trackResize:!0,renderWorldCopies:!0,refreshExpiredTiles:!0,maxTileCacheSize:null,transformRequest:null,fadeDuration:300},pn=function(i){function n(e){if(null!=(e=t.extend({},hn,e)).minZoom&&null!=e.maxZoom&&e.minZoom>e.maxZoom)throw new Error("maxZoom must be greater than minZoom");var n=new Ui(e.minZoom,e.maxZoom,e.renderWorldCopies);i.call(this,n,e),this._interactive=e.interactive,this._maxTileCacheSize=e.maxTileCacheSize,this._failIfMajorPerformanceCaveat=e.failIfMajorPerformanceCaveat,this._preserveDrawingBuffer=e.preserveDrawingBuffer,this._trackResize=e.trackResize,this._bearingSnap=e.bearingSnap,this._refreshExpiredTiles=e.refreshExpiredTiles,this._fadeDuration=e.fadeDuration,this._crossFadingFactor=1,this._collectResourceTiming=e.collectResourceTiming,this._renderTaskQueue=new ln;var o=e.transformRequest;if(this._transformRequest=o?function(t,e){return o(t,e)||{url:t}}:function(t){return{url:t}},"string"==typeof e.container){var r=t.default.document.getElementById(e.container);if(!r)throw new Error("Container '"+e.container+"' not found.");this._container=r;}else{if(!(e.container instanceof un))throw new Error("Invalid type: 'container' must be a String or HTMLElement.");this._container=e.container;}e.maxBounds&&this.setMaxBounds(e.maxBounds),t.bindAll(["_onWindowOnline","_onWindowResize","_contextLost","_contextRestored","_update","_render","_onData","_onDataLoading"],this),this._setupContainer(),this._setupPainter(),this.on("move",this._update.bind(this,!1)),this.on("zoom",this._update.bind(this,!0)),void 0!==t.default&&(t.default.addEventListener("online",this._onWindowOnline,!1),t.default.addEventListener("resize",this._onWindowResize,!1)),function(t,e){var i=t.getCanvasContainer(),n=null,o=!1;for(var r in on)t[r]=new on[r](t,e),e.interactive&&e[r]&&t[r].enable(e[r]);s.addEventListener(i,"mouseout",function(e){t.fire(new ji("mouseout",t,e));}),s.addEventListener(i,"mousedown",function(i){o=!0;var n=new ji("mousedown",t,i);t.fire(n),n.defaultPrevented||(e.interactive&&!t.doubleClickZoom.isActive()&&t.stop(),t.boxZoom.onMouseDown(i),t.boxZoom.isActive()||t.dragPan.isActive()||t.dragRotate.onMouseDown(i),t.boxZoom.isActive()||t.dragRotate.isActive()||t.dragPan.onMouseDown(i));}),s.addEventListener(i,"mouseup",function(e){var i=t.dragRotate.isActive();n&&!i&&t.fire(new ji("contextmenu",t,n)),n=null,o=!1,t.fire(new ji("mouseup",t,e));}),s.addEventListener(i,"mousemove",function(e){if(!t.dragPan.isActive()&&!t.dragRotate.isActive()){for(var n=e.toElement||e.target;n&&n!==i;)n=n.parentNode;n===i&&t.fire(new ji("mousemove",t,e));}}),s.addEventListener(i,"mouseover",function(e){for(var n=e.toElement||e.target;n&&n!==i;)n=n.parentNode;n===i&&t.fire(new ji("mouseover",t,e));}),s.addEventListener(i,"touchstart",function(i){var n=new $i("touchstart",t,i);t.fire(n),n.defaultPrevented||(e.interactive&&t.stop(),t.boxZoom.isActive()||t.dragRotate.isActive()||t.dragPan.onTouchStart(i),t.touchZoomRotate.onStart(i),t.doubleClickZoom.onTouchStart(n));},{passive:!1}),s.addEventListener(i,"touchmove",function(e){t.fire(new $i("touchmove",t,e));},{passive:!1}),s.addEventListener(i,"touchend",function(e){t.fire(new $i("touchend",t,e));}),s.addEventListener(i,"touchcancel",function(e){t.fire(new $i("touchcancel",t,e));}),s.addEventListener(i,"click",function(e){t.fire(new ji("click",t,e));}),s.addEventListener(i,"dblclick",function(e){var i=new ji("dblclick",t,e);t.fire(i),i.defaultPrevented||t.doubleClickZoom.onDblClick(i);}),s.addEventListener(i,"contextmenu",function(e){var i=t.dragRotate.isActive();o||i?o&&(n=e):t.fire(new ji("contextmenu",t,e)),e.preventDefault();}),s.addEventListener(i,"wheel",function(e){var i=new Gi("wheel",t,e);t.fire(i),i.defaultPrevented||t.scrollZoom.onWheel(e);},{passive:!1});}(this,e),this._hash=e.hash&&(new Vi).addTo(this),this._hash&&this._hash._onHashChange()||this.jumpTo({center:e.center,zoom:e.zoom,bearing:e.bearing,pitch:e.pitch}),this.resize(),e.style&&this.setStyle(e.style,{localIdeographFontFamily:e.localIdeographFontFamily}),e.attributionControl&&this.addControl(new an),this.addControl(new sn,e.logoPosition),this.on("style.load",function(){this.transform.unmodified&&this.jumpTo(this.style.stylesheet);}),this.on("data",this._onData),this.on("dataloading",this._onDataLoading);}i&&(n.__proto__=i),n.prototype=Object.create(i&&i.prototype),n.prototype.constructor=n;var o={showTileBoundaries:{configurable:!0},showCollisionBoxes:{configurable:!0},showOverdrawInspector:{configurable:!0},repaint:{configurable:!0},vertices:{configurable:!0}};return n.prototype.addControl=function(t,e){void 0===e&&t.getDefaultPosition&&(e=t.getDefaultPosition()),void 0===e&&(e="top-right");var i=t.onAdd(this),n=this._controlPositions[e];return-1!==e.indexOf("bottom")?n.insertBefore(i,n.firstChild):n.appendChild(i),this},n.prototype.removeControl=function(t){return t.onRemove(this),this},n.prototype.resize=function(e){var i=this._containerDimensions(),n=i[0],o=i[1];return this._resizeCanvas(n,o),this.transform.resize(n,o),this.painter.resize(n,o),this.fire(new t.Event("movestart",e)).fire(new t.Event("move",e)).fire(new t.Event("resize",e)).fire(new t.Event("moveend",e))},n.prototype.getBounds=function(){var e=new q(this.transform.pointLocation(new t.default$1(0,this.transform.height)),this.transform.pointLocation(new t.default$1(this.transform.width,0)));return(this.transform.angle||this.transform.pitch)&&(e.extend(this.transform.pointLocation(new t.default$1(this.transform.size.x,0))),e.extend(this.transform.pointLocation(new t.default$1(0,this.transform.size.y)))),e},n.prototype.getMaxBounds=function(){return this.transform.latRange&&2===this.transform.latRange.length&&this.transform.lngRange&&2===this.transform.lngRange.length?new q([this.transform.lngRange[0],this.transform.latRange[0]],[this.transform.lngRange[1],this.transform.latRange[1]]):null},n.prototype.setMaxBounds=function(t){if(t){var e=q.convert(t);this.transform.lngRange=[e.getWest(),e.getEast()],this.transform.latRange=[e.getSouth(),e.getNorth()],this.transform._constrain(),this._update();}else null==t&&(this.transform.lngRange=null,this.transform.latRange=null,this._update());return this},n.prototype.setMinZoom=function(t){if((t=null==t?0:t)>=0&&t<=this.transform.maxZoom)return this.transform.minZoom=t,this._update(),this.getZoom()<t&&this.setZoom(t),this;throw new Error("minZoom must be between 0 and the current maxZoom, inclusive")},n.prototype.getMinZoom=function(){return this.transform.minZoom},n.prototype.setMaxZoom=function(t){if((t=null==t?22:t)>=this.transform.minZoom)return this.transform.maxZoom=t,this._update(),this.getZoom()>t&&this.setZoom(t),this;throw new Error("maxZoom must be greater than the current minZoom")},n.prototype.getRenderWorldCopies=function(){return this.transform.renderWorldCopies},n.prototype.setRenderWorldCopies=function(t){return this.transform.renderWorldCopies=t,this._update(),this},n.prototype.getMaxZoom=function(){return this.transform.maxZoom},n.prototype.project=function(t){return this.transform.locationPoint(W.convert(t))},n.prototype.unproject=function(e){return this.transform.pointLocation(t.default$1.convert(e))},n.prototype.isMoving=function(){return this._moving||this.dragPan.isActive()||this.dragRotate.isActive()||this.scrollZoom.isActive()},n.prototype.isZooming=function(){return this._zooming||this.scrollZoom.isActive()},n.prototype.isRotating=function(){return this._rotating||this.dragRotate.isActive()},n.prototype.on=function(t,e,n){var o,r=this;if(void 0===n)return i.prototype.on.call(this,t,e);var a=function(){if("mouseenter"===t||"mouseover"===t){var i=!1;return{layer:e,listener:n,delegates:{mousemove:function(o){var a=r.getLayer(e)?r.queryRenderedFeatures(o.point,{layers:[e]}):[];a.length?i||(i=!0,n.call(r,new ji(t,r,o.originalEvent,{features:a}))):i=!1;},mouseout:function(){i=!1;}}}}if("mouseleave"===t||"mouseout"===t){var a=!1;return{layer:e,listener:n,delegates:{mousemove:function(i){(r.getLayer(e)?r.queryRenderedFeatures(i.point,{layers:[e]}):[]).length?a=!0:a&&(a=!1,n.call(r,new ji(t,r,i.originalEvent)));},mouseout:function(e){a&&(a=!1,n.call(r,new ji(t,r,e.originalEvent)));}}}}return{layer:e,listener:n,delegates:(o={},o[t]=function(t){var i=r.getLayer(e)?r.queryRenderedFeatures(t.point,{layers:[e]}):[];i.length&&(t.features=i,n.call(r,t),delete t.features);},o)}}();for(var s in this._delegatedListeners=this._delegatedListeners||{},this._delegatedListeners[t]=this._delegatedListeners[t]||[],this._delegatedListeners[t].push(a),a.delegates)r.on(s,a.delegates[s]);return this},n.prototype.off=function(t,e,n){if(void 0===n)return i.prototype.off.call(this,t,e);if(this._delegatedListeners&&this._delegatedListeners[t])for(var o=this._delegatedListeners[t],r=0;r<o.length;r++){var a=o[r];if(a.layer===e&&a.listener===n){for(var s in a.delegates)this.off(s,a.delegates[s]);return o.splice(r,1),this}}return this},n.prototype.queryRenderedFeatures=function(e,i){var n;return 2===arguments.length?(e=arguments[0],i=arguments[1]):1===arguments.length&&((n=arguments[0])instanceof t.default$1||Array.isArray(n))?(e=arguments[0],i={}):1===arguments.length?(e=void 0,i=arguments[0]):(e=void 0,i={}),this.style?this.style.queryRenderedFeatures(this._makeQueryGeometry(e),i,this.transform):[]},n.prototype._makeQueryGeometry=function(e){var i,n=this;if(void 0===e&&(e=[t.default$1.convert([0,0]),t.default$1.convert([this.transform.width,this.transform.height])]),e instanceof t.default$1||"number"==typeof e[0]){i=[t.default$1.convert(e)];}else{var o=[t.default$1.convert(e[0]),t.default$1.convert(e[1])];i=[o[0],new t.default$1(o[1].x,o[0].y),o[1],new t.default$1(o[0].x,o[1].y),o[0]];}return{viewport:i,worldCoordinate:i.map(function(t){return n.transform.pointCoordinate(t)})}},n.prototype.querySourceFeatures=function(t,e){return this.style.querySourceFeatures(t,e)},n.prototype.setStyle=function(e,i){if((!i||!1!==i.diff&&!i.localIdeographFontFamily)&&this.style&&e&&"object"==typeof e)try{return this.style.setState(e)&&this._update(!0),this}catch(e){t.warnOnce("Unable to perform style diff: "+(e.message||e.error||e)+". Rebuilding the style from scratch.");}return this.style&&(this.style.setEventedParent(null),this.style._remove()),e?(this.style=new Qe(this,i||{}),this.style.setEventedParent(this,{style:this.style}),"string"==typeof e?this.style.loadURL(e):this.style.loadJSON(e),this):(delete this.style,this)},n.prototype.getStyle=function(){if(this.style)return this.style.serialize()},n.prototype.isStyleLoaded=function(){return this.style?this.style.loaded():t.warnOnce("There is no style added to the map.")},n.prototype.addSource=function(t,e){return this.style.addSource(t,e),this._update(!0),this},n.prototype.isSourceLoaded=function(e){var i=this.style&&this.style.sourceCaches[e];if(void 0!==i)return i.loaded();this.fire(new t.ErrorEvent(new Error("There is no source with ID '"+e+"'")));},n.prototype.areTilesLoaded=function(){var t=this.style&&this.style.sourceCaches;for(var e in t){var i=t[e]._tiles;for(var n in i){var o=i[n];if("loaded"!==o.state&&"errored"!==o.state)return!1}}return!0},n.prototype.addSourceType=function(t,e,i){return this.style.addSourceType(t,e,i)},n.prototype.removeSource=function(t){return this.style.removeSource(t),this._update(!0),this},n.prototype.getSource=function(t){return this.style.getSource(t)},n.prototype.addImage=function(e,i,n){void 0===n&&(n={});var o=n.pixelRatio;void 0===o&&(o=1);var a=n.sdf;if(void 0===a&&(a=!1),i instanceof cn){var s=r.getImageData(i),l=s.width,c=s.height,u=s.data;this.style.addImage(e,{data:new t.RGBAImage({width:l,height:c},u),pixelRatio:o,sdf:a});}else{if(void 0===i.width||void 0===i.height)return this.fire(new t.ErrorEvent(new Error("Invalid arguments to map.addImage(). The second argument must be an `HTMLImageElement`, `ImageData`, or object with `width`, `height`, and `data` properties with the same format as `ImageData`")));var h=i.width,p=i.height,d=i.data;this.style.addImage(e,{data:new t.RGBAImage({width:h,height:p},d.slice(0)),pixelRatio:o,sdf:a});}},n.prototype.hasImage=function(e){return e?!!this.style.getImage(e):(this.fire(new t.ErrorEvent(new Error("Missing required image id"))),!1)},n.prototype.removeImage=function(t){this.style.removeImage(t);},n.prototype.loadImage=function(e,i){t.getImage(this._transformRequest(e,t.ResourceType.Image),i);},n.prototype.addLayer=function(t,e){return this.style.addLayer(t,e),this._update(!0),this},n.prototype.moveLayer=function(t,e){return this.style.moveLayer(t,e),this._update(!0),this},n.prototype.removeLayer=function(t){return this.style.removeLayer(t),this._update(!0),this},n.prototype.getLayer=function(t){return this.style.getLayer(t)},n.prototype.setFilter=function(t,e){return this.style.setFilter(t,e),this._update(!0),this},n.prototype.setLayerZoomRange=function(t,e,i){return this.style.setLayerZoomRange(t,e,i),this._update(!0),this},n.prototype.getFilter=function(t){return this.style.getFilter(t)},n.prototype.setPaintProperty=function(t,e,i){return this.style.setPaintProperty(t,e,i),this._update(!0),this},n.prototype.getPaintProperty=function(t,e){return this.style.getPaintProperty(t,e)},n.prototype.setLayoutProperty=function(t,e,i){return this.style.setLayoutProperty(t,e,i),this._update(!0),this},n.prototype.getLayoutProperty=function(t,e){return this.style.getLayoutProperty(t,e)},n.prototype.setLight=function(t){return this.style.setLight(t),this._update(!0),this},n.prototype.getLight=function(){return this.style.getLight()},n.prototype.getContainer=function(){return this._container},n.prototype.getCanvasContainer=function(){return this._canvasContainer},n.prototype.getCanvas=function(){return this._canvas},n.prototype._containerDimensions=function(){var t=0,e=0;return this._container&&(t=this._container.offsetWidth||400,e=this._container.offsetHeight||300),[t,e]},n.prototype._setupContainer=function(){var t=this._container;t.classList.add("mapboxgl-map"),(this._missingCSSContainer=s.create("div","mapboxgl-missing-css",t)).innerHTML="Missing Mapbox GL JS CSS";var e=this._canvasContainer=s.create("div","mapboxgl-canvas-container",t);this._interactive&&e.classList.add("mapboxgl-interactive"),this._canvas=s.create("canvas","mapboxgl-canvas",e),this._canvas.style.position="absolute",this._canvas.addEventListener("webglcontextlost",this._contextLost,!1),this._canvas.addEventListener("webglcontextrestored",this._contextRestored,!1),this._canvas.setAttribute("tabindex","0"),this._canvas.setAttribute("aria-label","Map");var i=this._containerDimensions();this._resizeCanvas(i[0],i[1]);var n=this._controlContainer=s.create("div","mapboxgl-control-container",t),o=this._controlPositions={};["top-left","top-right","bottom-left","bottom-right"].forEach(function(t){o[t]=s.create("div","mapboxgl-ctrl-"+t,n);});},n.prototype._resizeCanvas=function(e,i){var n=t.default.devicePixelRatio||1;this._canvas.width=n*e,this._canvas.height=n*i,this._canvas.style.width=e+"px",this._canvas.style.height=i+"px";},n.prototype._setupPainter=function(){var i=t.extend({failIfMajorPerformanceCaveat:this._failIfMajorPerformanceCaveat,preserveDrawingBuffer:this._preserveDrawingBuffer},e.webGLContextAttributes),n=this._canvas.getContext("webgl",i)||this._canvas.getContext("experimental-webgl",i);n?this.painter=new Li(n,this.transform):this.fire(new t.ErrorEvent(new Error("Failed to initialize WebGL")));},n.prototype._contextLost=function(e){e.preventDefault(),this._frameId&&(r.cancelFrame(this._frameId),this._frameId=null),this.fire(new t.Event("webglcontextlost",{originalEvent:e}));},n.prototype._contextRestored=function(e){this._setupPainter(),this.resize(),this._update(),this.fire(new t.Event("webglcontextrestored",{originalEvent:e}));},n.prototype.loaded=function(){return!this._styleDirty&&!this._sourcesDirty&&!(!this.style||!this.style.loaded())},n.prototype._update=function(t){this.style&&(this._styleDirty=this._styleDirty||t,this._sourcesDirty=!0,this._rerender());},n.prototype._requestRenderFrame=function(t){return this._update(),this._renderTaskQueue.add(t)},n.prototype._cancelRenderFrame=function(t){this._renderTaskQueue.remove(t);},n.prototype._render=function(){this._renderTaskQueue.run();var e=!1;if(this.style&&this._styleDirty){this._styleDirty=!1;var i=this.transform.zoom,n=r.now();this.style.zoomHistory.update(i,n);var o=new t.default$16(i,{now:n,fadeDuration:this._fadeDuration,zoomHistory:this.style.zoomHistory,transition:this.style.getTransition()}),a=o.crossFadingFactor();1===a&&a===this._crossFadingFactor||(e=!0,this._crossFadingFactor=a),this.style.update(o);}return this.style&&this._sourcesDirty&&(this._sourcesDirty=!1,this.style._updateSources(this.transform)),this._placementDirty=this.style&&this.style._updatePlacement(this.painter.transform,this.showCollisionBoxes,this._fadeDuration),this.painter.render(this.style,{showTileBoundaries:this.showTileBoundaries,showOverdrawInspector:this._showOverdrawInspector,rotating:this.isRotating(),zooming:this.isZooming(),fadeDuration:this._fadeDuration}),this.fire(new t.Event("render")),this.loaded()&&!this._loaded&&(this._loaded=!0,this.fire(new t.Event("load"))),this.style&&(this.style.hasTransitions()||e)&&(this._styleDirty=!0),(this._sourcesDirty||this._repaint||this._styleDirty||this._placementDirty)&&this._rerender(),this},n.prototype.remove=function(){this._hash&&this._hash.remove(),r.cancelFrame(this._frameId),this._renderTaskQueue.clear(),this._frameId=null,this.setStyle(null),void 0!==t.default&&(t.default.removeEventListener("resize",this._onWindowResize,!1),t.default.removeEventListener("online",this._onWindowOnline,!1));var e=this.painter.context.gl.getExtension("WEBGL_lose_context");e&&e.loseContext(),dn(this._canvasContainer),dn(this._controlContainer),dn(this._missingCSSContainer),this._container.classList.remove("mapboxgl-map"),this.fire(new t.Event("remove"));},n.prototype._rerender=function(){var t=this;this.style&&!this._frameId&&(this._frameId=r.frame(function(){t._frameId=null,t._render();}));},n.prototype._onWindowOnline=function(){this._update();},n.prototype._onWindowResize=function(){this._trackResize&&this.stop().resize()._update();},o.showTileBoundaries.get=function(){return!!this._showTileBoundaries},o.showTileBoundaries.set=function(t){this._showTileBoundaries!==t&&(this._showTileBoundaries=t,this._update());},o.showCollisionBoxes.get=function(){return!!this._showCollisionBoxes},o.showCollisionBoxes.set=function(t){this._showCollisionBoxes!==t&&(this._showCollisionBoxes=t,t?this.style._generateCollisionBoxes():this._update());},o.showOverdrawInspector.get=function(){return!!this._showOverdrawInspector},o.showOverdrawInspector.set=function(t){this._showOverdrawInspector!==t&&(this._showOverdrawInspector=t,this._update());},o.repaint.get=function(){return!!this._repaint},o.repaint.set=function(t){this._repaint=t,this._update();},o.vertices.get=function(){return!!this._vertices},o.vertices.set=function(t){this._vertices=t,this._update();},n.prototype._onData=function(e){this._update("style"===e.dataType),this.fire(new t.Event(e.dataType+"data",e));},n.prototype._onDataLoading=function(e){this.fire(new t.Event(e.dataType+"dataloading",e));},Object.defineProperties(n.prototype,o),n}(rn);function dn(t){t.parentNode&&t.parentNode.removeChild(t);}var fn={showCompass:!0,showZoom:!0},mn=function(e){var i=this;this.options=t.extend({},fn,e),this._container=s.create("div","mapboxgl-ctrl mapboxgl-ctrl-group"),this._container.addEventListener("contextmenu",function(t){return t.preventDefault()}),this.options.showZoom&&(this._zoomInButton=this._createButton("mapboxgl-ctrl-icon mapboxgl-ctrl-zoom-in","Zoom In",function(){return i._map.zoomIn()}),this._zoomOutButton=this._createButton("mapboxgl-ctrl-icon mapboxgl-ctrl-zoom-out","Zoom Out",function(){return i._map.zoomOut()})),this.options.showCompass&&(t.bindAll(["_rotateCompassArrow"],this),this._compass=this._createButton("mapboxgl-ctrl-icon mapboxgl-ctrl-compass","Reset North",function(){return i._map.resetNorth()}),this._compassArrow=s.create("span","mapboxgl-ctrl-compass-arrow",this._compass));};function _n(t,e,i){if(t=new W(t.lng,t.lat),e){var n=new W(t.lng-360,t.lat),o=new W(t.lng+360,t.lat),r=i.locationPoint(t).distSqr(e);i.locationPoint(n).distSqr(e)<r?t=n:i.locationPoint(o).distSqr(e)<r&&(t=o);}for(;Math.abs(t.lng-i.center.lng)>180;){var a=i.locationPoint(t);if(a.x>=0&&a.y>=0&&a.x<=i.width&&a.y<=i.height)break;t.lng>i.center.lng?t.lng-=360:t.lng+=360;}return t}mn.prototype._rotateCompassArrow=function(){var t="rotate("+this._map.transform.angle*(180/Math.PI)+"deg)";this._compassArrow.style.transform=t;},mn.prototype.onAdd=function(t){return this._map=t,this.options.showCompass&&(this._map.on("rotate",this._rotateCompassArrow),this._rotateCompassArrow(),this._handler=new Hi(t,{button:"left",element:this._compass}),this._handler.enable()),this._container},mn.prototype.onRemove=function(){s.remove(this._container),this.options.showCompass&&(this._map.off("rotate",this._rotateCompassArrow),this._handler.disable(),delete this._handler),delete this._map;},mn.prototype._createButton=function(t,e,i){var n=s.create("button",t,this._container);return n.type="button",n.setAttribute("aria-label",e),n.addEventListener("click",i),n};var gn={center:"translate(-50%,-50%)",top:"translate(-50%,0)","top-left":"translate(0,0)","top-right":"translate(-100%,0)",bottom:"translate(-50%,-100%)","bottom-left":"translate(0,-100%)","bottom-right":"translate(-100%,-100%)",left:"translate(0,-50%)",right:"translate(-100%,-50%)"};function vn(t,e,i){var n=t.classList;for(var o in gn)n.remove("mapboxgl-"+i+"-anchor-"+o);n.add("mapboxgl-"+i+"-anchor-"+e);}var yn=function(e){if((arguments[0]instanceof t.default.HTMLElement||2===arguments.length)&&(e=t.extend({element:e},arguments[1])),t.bindAll(["_update","_onMapClick"],this),this._anchor=e&&e.anchor||"center",this._color=e&&e.color||"#3FB1CE",e&&e.element)this._element=e.element,this._offset=t.default$1.convert(e&&e.offset||[0,0]);else{this._defaultMarker=!0,this._element=s.create("div");var i=s.createNS("http://www.w3.org/2000/svg","svg");i.setAttributeNS(null,"height","41px"),i.setAttributeNS(null,"width","27px"),i.setAttributeNS(null,"viewBox","0 0 27 41");var n=s.createNS("http://www.w3.org/2000/svg","g");n.setAttributeNS(null,"stroke","none"),n.setAttributeNS(null,"stroke-width","1"),n.setAttributeNS(null,"fill","none"),n.setAttributeNS(null,"fill-rule","evenodd");var o=s.createNS("http://www.w3.org/2000/svg","g");o.setAttributeNS(null,"fill-rule","nonzero");var r=s.createNS("http://www.w3.org/2000/svg","g");r.setAttributeNS(null,"transform","translate(3.0, 29.0)"),r.setAttributeNS(null,"fill","#000000");for(var a=0,l=[{rx:"10.5",ry:"5.25002273"},{rx:"10.5",ry:"5.25002273"},{rx:"9.5",ry:"4.77275007"},{rx:"8.5",ry:"4.29549936"},{rx:"7.5",ry:"3.81822308"},{rx:"6.5",ry:"3.34094679"},{rx:"5.5",ry:"2.86367051"},{rx:"4.5",ry:"2.38636864"}];a<l.length;a+=1){var c=l[a],u=s.createNS("http://www.w3.org/2000/svg","ellipse");u.setAttributeNS(null,"opacity","0.04"),u.setAttributeNS(null,"cx","10.5"),u.setAttributeNS(null,"cy","5.80029008"),u.setAttributeNS(null,"rx",c.rx),u.setAttributeNS(null,"ry",c.ry),r.appendChild(u);}var h=s.createNS("http://www.w3.org/2000/svg","g");h.setAttributeNS(null,"fill",this._color);var p=s.createNS("http://www.w3.org/2000/svg","path");p.setAttributeNS(null,"d","M27,13.5 C27,19.074644 20.250001,27.000002 14.75,34.500002 C14.016665,35.500004 12.983335,35.500004 12.25,34.500002 C6.7499993,27.000002 0,19.222562 0,13.5 C0,6.0441559 6.0441559,0 13.5,0 C20.955844,0 27,6.0441559 27,13.5 Z"),h.appendChild(p);var d=s.createNS("http://www.w3.org/2000/svg","g");d.setAttributeNS(null,"opacity","0.25"),d.setAttributeNS(null,"fill","#000000");var f=s.createNS("http://www.w3.org/2000/svg","path");f.setAttributeNS(null,"d","M13.5,0 C6.0441559,0 0,6.0441559 0,13.5 C0,19.222562 6.7499993,27 12.25,34.5 C13,35.522727 14.016664,35.500004 14.75,34.5 C20.250001,27 27,19.074644 27,13.5 C27,6.0441559 20.955844,0 13.5,0 Z M13.5,1 C20.415404,1 26,6.584596 26,13.5 C26,15.898657 24.495584,19.181431 22.220703,22.738281 C19.945823,26.295132 16.705119,30.142167 13.943359,33.908203 C13.743445,34.180814 13.612715,34.322738 13.5,34.441406 C13.387285,34.322738 13.256555,34.180814 13.056641,33.908203 C10.284481,30.127985 7.4148684,26.314159 5.015625,22.773438 C2.6163816,19.232715 1,15.953538 1,13.5 C1,6.584596 6.584596,1 13.5,1 Z"),d.appendChild(f);var m=s.createNS("http://www.w3.org/2000/svg","g");m.setAttributeNS(null,"transform","translate(6.0, 7.0)"),m.setAttributeNS(null,"fill","#FFFFFF");var _=s.createNS("http://www.w3.org/2000/svg","g");_.setAttributeNS(null,"transform","translate(8.0, 8.0)");var g=s.createNS("http://www.w3.org/2000/svg","circle");g.setAttributeNS(null,"fill","#000000"),g.setAttributeNS(null,"opacity","0.25"),g.setAttributeNS(null,"cx","5.5"),g.setAttributeNS(null,"cy","5.5"),g.setAttributeNS(null,"r","5.4999962");var v=s.createNS("http://www.w3.org/2000/svg","circle");v.setAttributeNS(null,"fill","#FFFFFF"),v.setAttributeNS(null,"cx","5.5"),v.setAttributeNS(null,"cy","5.5"),v.setAttributeNS(null,"r","5.4999962"),_.appendChild(g),_.appendChild(v),o.appendChild(r),o.appendChild(h),o.appendChild(d),o.appendChild(m),o.appendChild(_),i.appendChild(o),this._element.appendChild(i),this._offset=t.default$1.convert(e&&e.offset||[0,-14]);}this._element.classList.add("mapboxgl-marker"),this._popup=null;};yn.prototype.addTo=function(t){return this.remove(),this._map=t,t.getCanvasContainer().appendChild(this._element),t.on("move",this._update),t.on("moveend",this._update),this._update(),this._map.on("click",this._onMapClick),this},yn.prototype.remove=function(){return this._map&&(this._map.off("click",this._onMapClick),this._map.off("move",this._update),this._map.off("moveend",this._update),delete this._map),s.remove(this._element),this._popup&&this._popup.remove(),this},yn.prototype.getLngLat=function(){return this._lngLat},yn.prototype.setLngLat=function(t){return this._lngLat=W.convert(t),this._pos=null,this._popup&&this._popup.setLngLat(this._lngLat),this._update(),this},yn.prototype.getElement=function(){return this._element},yn.prototype.setPopup=function(t){if(this._popup&&(this._popup.remove(),this._popup=null),t){if(!("offset"in t.options)){var e=Math.sqrt(Math.pow(13.5,2)/2);t.options.offset=this._defaultMarker?{top:[0,0],"top-left":[0,0],"top-right":[0,0],bottom:[0,-38.1],"bottom-left":[e,-1*(24.6+e)],"bottom-right":[-e,-1*(24.6+e)],left:[13.5,-24.6],right:[-13.5,-24.6]}:this._offset;}this._popup=t,this._lngLat&&this._popup.setLngLat(this._lngLat);}return this},yn.prototype._onMapClick=function(t){var e=t.originalEvent.target,i=this._element;this._popup&&(e===i||i.contains(e))&&this.togglePopup();},yn.prototype.getPopup=function(){return this._popup},yn.prototype.togglePopup=function(){var t=this._popup;return t?(t.isOpen()?t.remove():t.addTo(this._map),this):this},yn.prototype._update=function(t){this._map&&(this._map.transform.renderWorldCopies&&(this._lngLat=_n(this._lngLat,this._pos,this._map.transform)),this._pos=this._map.project(this._lngLat)._add(this._offset),t&&"moveend"!==t.type||(this._pos=this._pos.round()),s.setTransform(this._element,gn[this._anchor]+" translate("+this._pos.x+"px, "+this._pos.y+"px)"),vn(this._element,this._anchor,"marker"));},yn.prototype.getOffset=function(){return this._offset},yn.prototype.setOffset=function(e){return this._offset=t.default$1.convert(e),this._update(),this};var xn,bn={positionOptions:{enableHighAccuracy:!1,maximumAge:0,timeout:6e3},fitBoundsOptions:{maxZoom:15},trackUserLocation:!1,showUserLocation:!0};var wn=function(e){function i(i){e.call(this),this.options=t.extend({},bn,i),t.bindAll(["_onSuccess","_onError","_finish","_setupUI","_updateCamera","_updateMarker"],this);}return e&&(i.__proto__=e),i.prototype=Object.create(e&&e.prototype),i.prototype.constructor=i,i.prototype.onAdd=function(e){var i;return this._map=e,this._container=s.create("div","mapboxgl-ctrl mapboxgl-ctrl-group"),i=this._setupUI,void 0!==xn?i(xn):void 0!==t.default.navigator.permissions?t.default.navigator.permissions.query({name:"geolocation"}).then(function(t){xn="denied"!==t.state,i(xn);}):(xn=!!t.default.navigator.geolocation,i(xn)),this._container},i.prototype.onRemove=function(){void 0!==this._geolocationWatchID&&(t.default.navigator.geolocation.clearWatch(this._geolocationWatchID),this._geolocationWatchID=void 0),this.options.showUserLocation&&this._userLocationDotMarker.remove(),s.remove(this._container),this._map=void 0;},i.prototype._onSuccess=function(e){if(this.options.trackUserLocation)switch(this._lastKnownPosition=e,this._watchState){case"WAITING_ACTIVE":case"ACTIVE_LOCK":case"ACTIVE_ERROR":this._watchState="ACTIVE_LOCK",this._geolocateButton.classList.remove("mapboxgl-ctrl-geolocate-waiting"),this._geolocateButton.classList.remove("mapboxgl-ctrl-geolocate-active-error"),this._geolocateButton.classList.add("mapboxgl-ctrl-geolocate-active");break;case"BACKGROUND":case"BACKGROUND_ERROR":this._watchState="BACKGROUND",this._geolocateButton.classList.remove("mapboxgl-ctrl-geolocate-waiting"),this._geolocateButton.classList.remove("mapboxgl-ctrl-geolocate-background-error"),this._geolocateButton.classList.add("mapboxgl-ctrl-geolocate-background");}this.options.showUserLocation&&"OFF"!==this._watchState&&this._updateMarker(e),this.options.trackUserLocation&&"ACTIVE_LOCK"!==this._watchState||this._updateCamera(e),this.options.showUserLocation&&this._dotElement.classList.remove("mapboxgl-user-location-dot-stale"),this.fire(new t.Event("geolocate",e)),this._finish();},i.prototype._updateCamera=function(t){var e=new W(t.coords.longitude,t.coords.latitude),i=t.coords.accuracy;this._map.fitBounds(e.toBounds(i),this.options.fitBoundsOptions,{geolocateSource:!0});},i.prototype._updateMarker=function(t){t?this._userLocationDotMarker.setLngLat([t.coords.longitude,t.coords.latitude]).addTo(this._map):this._userLocationDotMarker.remove();},i.prototype._onError=function(e){if(this.options.trackUserLocation)if(1===e.code)this._watchState="OFF",this._geolocateButton.classList.remove("mapboxgl-ctrl-geolocate-waiting"),this._geolocateButton.classList.remove("mapboxgl-ctrl-geolocate-active"),this._geolocateButton.classList.remove("mapboxgl-ctrl-geolocate-active-error"),this._geolocateButton.classList.remove("mapboxgl-ctrl-geolocate-background"),this._geolocateButton.classList.remove("mapboxgl-ctrl-geolocate-background-error"),void 0!==this._geolocationWatchID&&this._clearWatch();else switch(this._watchState){case"WAITING_ACTIVE":this._watchState="ACTIVE_ERROR",this._geolocateButton.classList.remove("mapboxgl-ctrl-geolocate-active"),this._geolocateButton.classList.add("mapboxgl-ctrl-geolocate-active-error");break;case"ACTIVE_LOCK":this._watchState="ACTIVE_ERROR",this._geolocateButton.classList.remove("mapboxgl-ctrl-geolocate-active"),this._geolocateButton.classList.add("mapboxgl-ctrl-geolocate-active-error"),this._geolocateButton.classList.add("mapboxgl-ctrl-geolocate-waiting");break;case"BACKGROUND":this._watchState="BACKGROUND_ERROR",this._geolocateButton.classList.remove("mapboxgl-ctrl-geolocate-background"),this._geolocateButton.classList.add("mapboxgl-ctrl-geolocate-background-error"),this._geolocateButton.classList.add("mapboxgl-ctrl-geolocate-waiting");}"OFF"!==this._watchState&&this.options.showUserLocation&&this._dotElement.classList.add("mapboxgl-user-location-dot-stale"),this.fire(new t.Event("error",e)),this._finish();},i.prototype._finish=function(){this._timeoutId&&clearTimeout(this._timeoutId),this._timeoutId=void 0;},i.prototype._setupUI=function(e){var i=this;!1!==e&&(this._container.addEventListener("contextmenu",function(t){return t.preventDefault()}),this._geolocateButton=s.create("button","mapboxgl-ctrl-icon mapboxgl-ctrl-geolocate",this._container),this._geolocateButton.type="button",this._geolocateButton.setAttribute("aria-label","Geolocate"),this.options.trackUserLocation&&(this._geolocateButton.setAttribute("aria-pressed","false"),this._watchState="OFF"),this.options.showUserLocation&&(this._dotElement=s.create("div","mapboxgl-user-location-dot"),this._userLocationDotMarker=new yn(this._dotElement),this.options.trackUserLocation&&(this._watchState="OFF")),this._geolocateButton.addEventListener("click",this.trigger.bind(this)),this._setup=!0,this.options.trackUserLocation&&this._map.on("movestart",function(e){e.geolocateSource||"ACTIVE_LOCK"!==i._watchState||(i._watchState="BACKGROUND",i._geolocateButton.classList.add("mapboxgl-ctrl-geolocate-background"),i._geolocateButton.classList.remove("mapboxgl-ctrl-geolocate-active"),i.fire(new t.Event("trackuserlocationend")));}));},i.prototype.trigger=function(){if(!this._setup)return t.warnOnce("Geolocate control triggered before added to a map"),!1;if(this.options.trackUserLocation){switch(this._watchState){case"OFF":this._watchState="WAITING_ACTIVE",this.fire(new t.Event("trackuserlocationstart"));break;case"WAITING_ACTIVE":case"ACTIVE_LOCK":case"ACTIVE_ERROR":case"BACKGROUND_ERROR":this._watchState="OFF",this._geolocateButton.classList.remove("mapboxgl-ctrl-geolocate-waiting"),this._geolocateButton.classList.remove("mapboxgl-ctrl-geolocate-active"),this._geolocateButton.classList.remove("mapboxgl-ctrl-geolocate-active-error"),this._geolocateButton.classList.remove("mapboxgl-ctrl-geolocate-background"),this._geolocateButton.classList.remove("mapboxgl-ctrl-geolocate-background-error"),this.fire(new t.Event("trackuserlocationend"));break;case"BACKGROUND":this._watchState="ACTIVE_LOCK",this._geolocateButton.classList.remove("mapboxgl-ctrl-geolocate-background"),this._lastKnownPosition&&this._updateCamera(this._lastKnownPosition),this.fire(new t.Event("trackuserlocationstart"));}switch(this._watchState){case"WAITING_ACTIVE":this._geolocateButton.classList.add("mapboxgl-ctrl-geolocate-waiting"),this._geolocateButton.classList.add("mapboxgl-ctrl-geolocate-active");break;case"ACTIVE_LOCK":this._geolocateButton.classList.add("mapboxgl-ctrl-geolocate-active");break;case"ACTIVE_ERROR":this._geolocateButton.classList.add("mapboxgl-ctrl-geolocate-waiting"),this._geolocateButton.classList.add("mapboxgl-ctrl-geolocate-active-error");break;case"BACKGROUND":this._geolocateButton.classList.add("mapboxgl-ctrl-geolocate-background");break;case"BACKGROUND_ERROR":this._geolocateButton.classList.add("mapboxgl-ctrl-geolocate-waiting"),this._geolocateButton.classList.add("mapboxgl-ctrl-geolocate-background-error");}"OFF"===this._watchState&&void 0!==this._geolocationWatchID?this._clearWatch():void 0===this._geolocationWatchID&&(this._geolocateButton.classList.add("mapboxgl-ctrl-geolocate-waiting"),this._geolocateButton.setAttribute("aria-pressed","true"),this._geolocationWatchID=t.default.navigator.geolocation.watchPosition(this._onSuccess,this._onError,this.options.positionOptions));}else t.default.navigator.geolocation.getCurrentPosition(this._onSuccess,this._onError,this.options.positionOptions),this._timeoutId=setTimeout(this._finish,1e4);return!0},i.prototype._clearWatch=function(){t.default.navigator.geolocation.clearWatch(this._geolocationWatchID),this._geolocationWatchID=void 0,this._geolocateButton.classList.remove("mapboxgl-ctrl-geolocate-waiting"),this._geolocateButton.setAttribute("aria-pressed","false"),this.options.showUserLocation&&this._updateMarker(null);},i}(t.Evented),En={maxWidth:100,unit:"metric"},Tn=function(e){this.options=t.extend({},En,e),t.bindAll(["_onMove","setUnit"],this);};function In(t,e,i){var n,o,r,a,s,l,c=i&&i.maxWidth||100,u=t._container.clientHeight/2,h=(n=t.unproject([0,u]),o=t.unproject([c,u]),r=Math.PI/180,a=n.lat*r,s=o.lat*r,l=Math.sin(a)*Math.sin(s)+Math.cos(a)*Math.cos(s)*Math.cos((o.lng-n.lng)*r),6371e3*Math.acos(Math.min(l,1)));if(i&&"imperial"===i.unit){var p=3.2808*h;if(p>5280)Cn(e,c,p/5280,"mi");else Cn(e,c,p,"ft");}else if(i&&"nautical"===i.unit){Cn(e,c,h/1852,"nm");}else Cn(e,c,h,"m");}function Cn(t,e,i,n){var o,r,a,s=(o=i,(r=Math.pow(10,(""+Math.floor(o)).length-1))*(a=(a=o/r)>=10?10:a>=5?5:a>=3?3:a>=2?2:1)),l=s/i;"m"===n&&s>=1e3&&(s/=1e3,n="km"),t.style.width=e*l+"px",t.innerHTML=s+n;}Tn.prototype.getDefaultPosition=function(){return"bottom-left"},Tn.prototype._onMove=function(){In(this._map,this._container,this.options);},Tn.prototype.onAdd=function(t){return this._map=t,this._container=s.create("div","mapboxgl-ctrl mapboxgl-ctrl-scale",t.getContainer()),this._map.on("move",this._onMove),this._onMove(),this._container},Tn.prototype.onRemove=function(){s.remove(this._container),this._map.off("move",this._onMove),this._map=void 0;},Tn.prototype.setUnit=function(t){this.options.unit=t,In(this._map,this._container,this.options);};var Sn=function(){this._fullscreen=!1,t.bindAll(["_onClickFullscreen","_changeIcon"],this),"onfullscreenchange"in t.default.document?this._fullscreenchange="fullscreenchange":"onmozfullscreenchange"in t.default.document?this._fullscreenchange="mozfullscreenchange":"onwebkitfullscreenchange"in t.default.document?this._fullscreenchange="webkitfullscreenchange":"onmsfullscreenchange"in t.default.document&&(this._fullscreenchange="MSFullscreenChange"),this._className="mapboxgl-ctrl";};Sn.prototype.onAdd=function(e){return this._map=e,this._mapContainer=this._map.getContainer(),this._container=s.create("div",this._className+" mapboxgl-ctrl-group"),this._checkFullscreenSupport()?this._setupUI():(this._container.style.display="none",t.warnOnce("This device does not support fullscreen mode.")),this._container},Sn.prototype.onRemove=function(){s.remove(this._container),this._map=null,t.default.document.removeEventListener(this._fullscreenchange,this._changeIcon);},Sn.prototype._checkFullscreenSupport=function(){return!!(t.default.document.fullscreenEnabled||t.default.document.mozFullScreenEnabled||t.default.document.msFullscreenEnabled||t.default.document.webkitFullscreenEnabled)},Sn.prototype._setupUI=function(){var e=this._fullscreenButton=s.create("button",this._className+"-icon "+this._className+"-fullscreen",this._container);e.setAttribute("aria-label","Toggle fullscreen"),e.type="button",this._fullscreenButton.addEventListener("click",this._onClickFullscreen),t.default.document.addEventListener(this._fullscreenchange,this._changeIcon);},Sn.prototype._isFullscreen=function(){return this._fullscreen},Sn.prototype._changeIcon=function(){(t.default.document.fullscreenElement||t.default.document.mozFullScreenElement||t.default.document.webkitFullscreenElement||t.default.document.msFullscreenElement)===this._mapContainer!==this._fullscreen&&(this._fullscreen=!this._fullscreen,this._fullscreenButton.classList.toggle(this._className+"-shrink"),this._fullscreenButton.classList.toggle(this._className+"-fullscreen"));},Sn.prototype._onClickFullscreen=function(){this._isFullscreen()?t.default.document.exitFullscreen?t.default.document.exitFullscreen():t.default.document.mozCancelFullScreen?t.default.document.mozCancelFullScreen():t.default.document.msExitFullscreen?t.default.document.msExitFullscreen():t.default.document.webkitCancelFullScreen&&t.default.document.webkitCancelFullScreen():this._mapContainer.requestFullscreen?this._mapContainer.requestFullscreen():this._mapContainer.mozRequestFullScreen?this._mapContainer.mozRequestFullScreen():this._mapContainer.msRequestFullscreen?this._mapContainer.msRequestFullscreen():this._mapContainer.webkitRequestFullscreen&&this._mapContainer.webkitRequestFullscreen();};var zn={closeButton:!0,closeOnClick:!0},An=function(e){function i(i){e.call(this),this.options=t.extend(Object.create(zn),i),t.bindAll(["_update","_onClickClose"],this);}return e&&(i.__proto__=e),i.prototype=Object.create(e&&e.prototype),i.prototype.constructor=i,i.prototype.addTo=function(e){return this._map=e,this._map.on("move",this._update),this.options.closeOnClick&&this._map.on("click",this._onClickClose),this._update(),this.fire(new t.Event("open")),this},i.prototype.isOpen=function(){return!!this._map},i.prototype.remove=function(){return this._content&&s.remove(this._content),this._container&&(s.remove(this._container),delete this._container),this._map&&(this._map.off("move",this._update),this._map.off("click",this._onClickClose),delete this._map),this.fire(new t.Event("close")),this},i.prototype.getLngLat=function(){return this._lngLat},i.prototype.setLngLat=function(t){return this._lngLat=W.convert(t),this._pos=null,this._update(),this},i.prototype.setText=function(e){return this.setDOMContent(t.default.document.createTextNode(e))},i.prototype.setHTML=function(e){var i,n=t.default.document.createDocumentFragment(),o=t.default.document.createElement("body");for(o.innerHTML=e;i=o.firstChild;)n.appendChild(i);return this.setDOMContent(n)},i.prototype.setDOMContent=function(t){return this._createContent(),this._content.appendChild(t),this._update(),this},i.prototype._createContent=function(){this._content&&s.remove(this._content),this._content=s.create("div","mapboxgl-popup-content",this._container),this.options.closeButton&&(this._closeButton=s.create("button","mapboxgl-popup-close-button",this._content),this._closeButton.type="button",this._closeButton.setAttribute("aria-label","Close popup"),this._closeButton.innerHTML="×",this._closeButton.addEventListener("click",this._onClickClose));},i.prototype._update=function(){if(this._map&&this._lngLat&&this._content){this._container||(this._container=s.create("div","mapboxgl-popup",this._map.getContainer()),this._tip=s.create("div","mapboxgl-popup-tip",this._container),this._container.appendChild(this._content)),this._map.transform.renderWorldCopies&&(this._lngLat=_n(this._lngLat,this._pos,this._map.transform));var e=this._pos=this._map.project(this._lngLat),i=this.options.anchor,n=function e(i){if(i){if("number"==typeof i){var n=Math.round(Math.sqrt(.5*Math.pow(i,2)));return{center:new t.default$1(0,0),top:new t.default$1(0,i),"top-left":new t.default$1(n,n),"top-right":new t.default$1(-n,n),bottom:new t.default$1(0,-i),"bottom-left":new t.default$1(n,-n),"bottom-right":new t.default$1(-n,-n),left:new t.default$1(i,0),right:new t.default$1(-i,0)}}if(i instanceof t.default$1||Array.isArray(i)){var o=t.default$1.convert(i);return{center:o,top:o,"top-left":o,"top-right":o,bottom:o,"bottom-left":o,"bottom-right":o,left:o,right:o}}return{center:t.default$1.convert(i.center||[0,0]),top:t.default$1.convert(i.top||[0,0]),"top-left":t.default$1.convert(i["top-left"]||[0,0]),"top-right":t.default$1.convert(i["top-right"]||[0,0]),bottom:t.default$1.convert(i.bottom||[0,0]),"bottom-left":t.default$1.convert(i["bottom-left"]||[0,0]),"bottom-right":t.default$1.convert(i["bottom-right"]||[0,0]),left:t.default$1.convert(i.left||[0,0]),right:t.default$1.convert(i.right||[0,0])}}return e(new t.default$1(0,0))}(this.options.offset);if(!i){var o,r=this._container.offsetWidth,a=this._container.offsetHeight;o=e.y+n.bottom.y<a?["top"]:e.y>this._map.transform.height-a?["bottom"]:[],e.x<r/2?o.push("left"):e.x>this._map.transform.width-r/2&&o.push("right"),i=0===o.length?"bottom":o.join("-");}var l=e.add(n[i]).round();s.setTransform(this._container,gn[i]+" translate("+l.x+"px,"+l.y+"px)"),vn(this._container,i,"popup");}},i.prototype._onClickClose=function(){this.remove();},i}(t.Evented);var Rn={version:"0.45.0",supported:e,workerCount:Math.max(Math.floor(r.hardwareConcurrency/2),1),setRTLTextPlugin:t.setRTLTextPlugin,Map:pn,NavigationControl:mn,GeolocateControl:wn,AttributionControl:an,ScaleControl:Tn,FullscreenControl:Sn,Popup:An,Marker:yn,Style:Qe,LngLat:W,LngLatBounds:q,Point:t.default$1,Evented:t.Evented,config:_,get accessToken(){return _.ACCESS_TOKEN},set accessToken(t){_.ACCESS_TOKEN=t;},workerUrl:""};return Rn});
//
return mapboxgl;
})));
}).call(this,typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {})
},{}],407:[function(_dereq_,module,exports){
'use strict'
module.exports = createTable
var chull = _dereq_('convex-hull')
function constructVertex(d, a, b) {
var x = new Array(d)
for(var i=0; i<d; ++i) {
x[i] = 0.0
if(i === a) {
x[i] += 0.5
}
if(i === b) {
x[i] += 0.5
}
}
return x
}
function constructCell(dimension, mask) {
if(mask === 0 || mask === (1<<(dimension+1))-1) {
return []
}
var points = []
var index = []
for(var i=0; i<=dimension; ++i) {
if(mask & (1<<i)) {
points.push(constructVertex(dimension, i-1, i-1))
index.push(null)
for(var j=0; j<=dimension; ++j) {
if(~mask & (1<<j)) {
points.push(constructVertex(dimension, i-1, j-1))
index.push([i,j])
}
}
}
}
//Preprocess points so first d+1 points are linearly independent
var hull = chull(points)
var faces = []
i_loop:
for(var i=0; i<hull.length; ++i) {
var face = hull[i]
var nface = []
for(var j=0; j<face.length; ++j) {
if(!index[face[j]]) {
continue i_loop
}
nface.push(index[face[j]].slice())
}
faces.push(nface)
}
return faces
}
function createTable(dimension) {
var numCells = 1<<(dimension+1)
var result = new Array(numCells)
for(var i=0; i<numCells; ++i) {
result[i] = constructCell(dimension, i)
}
return result
}
},{"convex-hull":117}],408:[function(_dereq_,module,exports){
/*jshint unused:true*/
/*
Input: matrix ; a 4x4 matrix
Output: translation ; a 3 component vector
scale ; a 3 component vector
skew ; skew factors XY,XZ,YZ represented as a 3 component vector
perspective ; a 4 component vector
quaternion ; a 4 component vector
Returns false if the matrix cannot be decomposed, true if it can
References:
https://github.com/kamicane/matrix3d/blob/master/lib/Matrix3d.js
https://github.com/ChromiumWebApps/chromium/blob/master/ui/gfx/transform_util.cc
http://www.w3.org/TR/css3-transforms/#decomposing-a-3d-matrix
*/
var normalize = _dereq_('./normalize')
var create = _dereq_('gl-mat4/create')
var clone = _dereq_('gl-mat4/clone')
var determinant = _dereq_('gl-mat4/determinant')
var invert = _dereq_('gl-mat4/invert')
var transpose = _dereq_('gl-mat4/transpose')
var vec3 = {
length: _dereq_('gl-vec3/length'),
normalize: _dereq_('gl-vec3/normalize'),
dot: _dereq_('gl-vec3/dot'),
cross: _dereq_('gl-vec3/cross')
}
var tmp = create()
var perspectiveMatrix = create()
var tmpVec4 = [0, 0, 0, 0]
var row = [ [0,0,0], [0,0,0], [0,0,0] ]
var pdum3 = [0,0,0]
module.exports = function decomposeMat4(matrix, translation, scale, skew, perspective, quaternion) {
if (!translation) translation = [0,0,0]
if (!scale) scale = [0,0,0]
if (!skew) skew = [0,0,0]
if (!perspective) perspective = [0,0,0,1]
if (!quaternion) quaternion = [0,0,0,1]
//normalize, if not possible then bail out early
if (!normalize(tmp, matrix))
return false
// perspectiveMatrix is used to solve for perspective, but it also provides
// an easy way to test for singularity of the upper 3x3 component.
clone(perspectiveMatrix, tmp)
perspectiveMatrix[3] = 0
perspectiveMatrix[7] = 0
perspectiveMatrix[11] = 0
perspectiveMatrix[15] = 1
// If the perspectiveMatrix is not invertible, we are also unable to
// decompose, so we'll bail early. Constant taken from SkMatrix44::invert.
if (Math.abs(determinant(perspectiveMatrix) < 1e-8))
return false
var a03 = tmp[3], a13 = tmp[7], a23 = tmp[11],
a30 = tmp[12], a31 = tmp[13], a32 = tmp[14], a33 = tmp[15]
// First, isolate perspective.
if (a03 !== 0 || a13 !== 0 || a23 !== 0) {
tmpVec4[0] = a03
tmpVec4[1] = a13
tmpVec4[2] = a23
tmpVec4[3] = a33
// Solve the equation by inverting perspectiveMatrix and multiplying
// rightHandSide by the inverse.
// resuing the perspectiveMatrix here since it's no longer needed
var ret = invert(perspectiveMatrix, perspectiveMatrix)
if (!ret) return false
transpose(perspectiveMatrix, perspectiveMatrix)
//multiply by transposed inverse perspective matrix, into perspective vec4
vec4multMat4(perspective, tmpVec4, perspectiveMatrix)
} else {
//no perspective
perspective[0] = perspective[1] = perspective[2] = 0
perspective[3] = 1
}
// Next take care of translation
translation[0] = a30
translation[1] = a31
translation[2] = a32
// Now get scale and shear. 'row' is a 3 element array of 3 component vectors
mat3from4(row, tmp)
// Compute X scale factor and normalize first row.
scale[0] = vec3.length(row[0])
vec3.normalize(row[0], row[0])
// Compute XY shear factor and make 2nd row orthogonal to 1st.
skew[0] = vec3.dot(row[0], row[1])
combine(row[1], row[1], row[0], 1.0, -skew[0])
// Now, compute Y scale and normalize 2nd row.
scale[1] = vec3.length(row[1])
vec3.normalize(row[1], row[1])
skew[0] /= scale[1]
// Compute XZ and YZ shears, orthogonalize 3rd row
skew[1] = vec3.dot(row[0], row[2])
combine(row[2], row[2], row[0], 1.0, -skew[1])
skew[2] = vec3.dot(row[1], row[2])
combine(row[2], row[2], row[1], 1.0, -skew[2])
// Next, get Z scale and normalize 3rd row.
scale[2] = vec3.length(row[2])
vec3.normalize(row[2], row[2])
skew[1] /= scale[2]
skew[2] /= scale[2]
// At this point, the matrix (in rows) is orthonormal.
// Check for a coordinate system flip. If the determinant
// is -1, then negate the matrix and the scaling factors.
vec3.cross(pdum3, row[1], row[2])
if (vec3.dot(row[0], pdum3) < 0) {
for (var i = 0; i < 3; i++) {
scale[i] *= -1;
row[i][0] *= -1
row[i][1] *= -1
row[i][2] *= -1
}
}
// Now, get the rotations out
quaternion[0] = 0.5 * Math.sqrt(Math.max(1 + row[0][0] - row[1][1] - row[2][2], 0))
quaternion[1] = 0.5 * Math.sqrt(Math.max(1 - row[0][0] + row[1][1] - row[2][2], 0))
quaternion[2] = 0.5 * Math.sqrt(Math.max(1 - row[0][0] - row[1][1] + row[2][2], 0))
quaternion[3] = 0.5 * Math.sqrt(Math.max(1 + row[0][0] + row[1][1] + row[2][2], 0))
if (row[2][1] > row[1][2])
quaternion[0] = -quaternion[0]
if (row[0][2] > row[2][0])
quaternion[1] = -quaternion[1]
if (row[1][0] > row[0][1])
quaternion[2] = -quaternion[2]
return true
}
//will be replaced by gl-vec4 eventually
function vec4multMat4(out, a, m) {
var x = a[0], y = a[1], z = a[2], w = a[3];
out[0] = m[0] * x + m[4] * y + m[8] * z + m[12] * w;
out[1] = m[1] * x + m[5] * y + m[9] * z + m[13] * w;
out[2] = m[2] * x + m[6] * y + m[10] * z + m[14] * w;
out[3] = m[3] * x + m[7] * y + m[11] * z + m[15] * w;
return out;
}
//gets upper-left of a 4x4 matrix into a 3x3 of vectors
function mat3from4(out, mat4x4) {
out[0][0] = mat4x4[0]
out[0][1] = mat4x4[1]
out[0][2] = mat4x4[2]
out[1][0] = mat4x4[4]
out[1][1] = mat4x4[5]
out[1][2] = mat4x4[6]
out[2][0] = mat4x4[8]
out[2][1] = mat4x4[9]
out[2][2] = mat4x4[10]
}
function combine(out, a, b, scale1, scale2) {
out[0] = a[0] * scale1 + b[0] * scale2
out[1] = a[1] * scale1 + b[1] * scale2
out[2] = a[2] * scale1 + b[2] * scale2
}
},{"./normalize":409,"gl-mat4/clone":247,"gl-mat4/create":248,"gl-mat4/determinant":249,"gl-mat4/invert":253,"gl-mat4/transpose":263,"gl-vec3/cross":315,"gl-vec3/dot":320,"gl-vec3/length":330,"gl-vec3/normalize":337}],409:[function(_dereq_,module,exports){
module.exports = function normalize(out, mat) {
var m44 = mat[15]
// Cannot normalize.
if (m44 === 0)
return false
var scale = 1 / m44
for (var i=0; i<16; i++)
out[i] = mat[i] * scale
return true
}
},{}],410:[function(_dereq_,module,exports){
var lerp = _dereq_('gl-vec3/lerp')
var recompose = _dereq_('mat4-recompose')
var decompose = _dereq_('mat4-decompose')
var determinant = _dereq_('gl-mat4/determinant')
var slerp = _dereq_('quat-slerp')
var state0 = state()
var state1 = state()
var tmp = state()
module.exports = interpolate
function interpolate(out, start, end, alpha) {
if (determinant(start) === 0 || determinant(end) === 0)
return false
//decompose the start and end matrices into individual components
var r0 = decompose(start, state0.translate, state0.scale, state0.skew, state0.perspective, state0.quaternion)
var r1 = decompose(end, state1.translate, state1.scale, state1.skew, state1.perspective, state1.quaternion)
if (!r0 || !r1)
return false
//now lerp/slerp the start and end components into a temporary lerp(tmptranslate, state0.translate, state1.translate, alpha)
lerp(tmp.translate, state0.translate, state1.translate, alpha)
lerp(tmp.skew, state0.skew, state1.skew, alpha)
lerp(tmp.scale, state0.scale, state1.scale, alpha)
lerp(tmp.perspective, state0.perspective, state1.perspective, alpha)
slerp(tmp.quaternion, state0.quaternion, state1.quaternion, alpha)
//and recompose into our 'out' matrix
recompose(out, tmp.translate, tmp.scale, tmp.skew, tmp.perspective, tmp.quaternion)
return true
}
function state() {
return {
translate: vec3(),
scale: vec3(1),
skew: vec3(),
perspective: vec4(),
quaternion: vec4()
}
}
function vec3(n) {
return [n||0,n||0,n||0]
}
function vec4() {
return [0,0,0,1]
}
},{"gl-mat4/determinant":249,"gl-vec3/lerp":331,"mat4-decompose":408,"mat4-recompose":411,"quat-slerp":463}],411:[function(_dereq_,module,exports){
/*
Input: translation ; a 3 component vector
scale ; a 3 component vector
skew ; skew factors XY,XZ,YZ represented as a 3 component vector
perspective ; a 4 component vector
quaternion ; a 4 component vector
Output: matrix ; a 4x4 matrix
From: http://www.w3.org/TR/css3-transforms/#recomposing-to-a-3d-matrix
*/
var mat4 = {
identity: _dereq_('gl-mat4/identity'),
translate: _dereq_('gl-mat4/translate'),
multiply: _dereq_('gl-mat4/multiply'),
create: _dereq_('gl-mat4/create'),
scale: _dereq_('gl-mat4/scale'),
fromRotationTranslation: _dereq_('gl-mat4/fromRotationTranslation')
}
var rotationMatrix = mat4.create()
var temp = mat4.create()
module.exports = function recomposeMat4(matrix, translation, scale, skew, perspective, quaternion) {
mat4.identity(matrix)
//apply translation & rotation
mat4.fromRotationTranslation(matrix, quaternion, translation)
//apply perspective
matrix[3] = perspective[0]
matrix[7] = perspective[1]
matrix[11] = perspective[2]
matrix[15] = perspective[3]
// apply skew
// temp is a identity 4x4 matrix initially
mat4.identity(temp)
if (skew[2] !== 0) {
temp[9] = skew[2]
mat4.multiply(matrix, matrix, temp)
}
if (skew[1] !== 0) {
temp[9] = 0
temp[8] = skew[1]
mat4.multiply(matrix, matrix, temp)
}
if (skew[0] !== 0) {
temp[8] = 0
temp[4] = skew[0]
mat4.multiply(matrix, matrix, temp)
}
//apply scale
mat4.scale(matrix, matrix, scale)
return matrix
}
},{"gl-mat4/create":248,"gl-mat4/fromRotationTranslation":251,"gl-mat4/identity":252,"gl-mat4/multiply":255,"gl-mat4/scale":261,"gl-mat4/translate":262}],412:[function(_dereq_,module,exports){
'use strict';
module.exports = Math.log2 || function (x) {
return Math.log(x) * Math.LOG2E;
};
},{}],413:[function(_dereq_,module,exports){
'use strict'
var bsearch = _dereq_('binary-search-bounds')
var m4interp = _dereq_('mat4-interpolate')
var invert44 = _dereq_('gl-mat4/invert')
var rotateX = _dereq_('gl-mat4/rotateX')
var rotateY = _dereq_('gl-mat4/rotateY')
var rotateZ = _dereq_('gl-mat4/rotateZ')
var lookAt = _dereq_('gl-mat4/lookAt')
var translate = _dereq_('gl-mat4/translate')
var scale = _dereq_('gl-mat4/scale')
var normalize = _dereq_('gl-vec3/normalize')
var DEFAULT_CENTER = [0,0,0]
module.exports = createMatrixCameraController
function MatrixCameraController(initialMatrix) {
this._components = initialMatrix.slice()
this._time = [0]
this.prevMatrix = initialMatrix.slice()
this.nextMatrix = initialMatrix.slice()
this.computedMatrix = initialMatrix.slice()
this.computedInverse = initialMatrix.slice()
this.computedEye = [0,0,0]
this.computedUp = [0,0,0]
this.computedCenter = [0,0,0]
this.computedRadius = [0]
this._limits = [-Infinity, Infinity]
}
var proto = MatrixCameraController.prototype
proto.recalcMatrix = function(t) {
var time = this._time
var tidx = bsearch.le(time, t)
var mat = this.computedMatrix
if(tidx < 0) {
return
}
var comps = this._components
if(tidx === time.length-1) {
var ptr = 16*tidx
for(var i=0; i<16; ++i) {
mat[i] = comps[ptr++]
}
} else {
var dt = (time[tidx+1] - time[tidx])
var ptr = 16*tidx
var prev = this.prevMatrix
var allEqual = true
for(var i=0; i<16; ++i) {
prev[i] = comps[ptr++]
}
var next = this.nextMatrix
for(var i=0; i<16; ++i) {
next[i] = comps[ptr++]
allEqual = allEqual && (prev[i] === next[i])
}
if(dt < 1e-6 || allEqual) {
for(var i=0; i<16; ++i) {
mat[i] = prev[i]
}
} else {
m4interp(mat, prev, next, (t - time[tidx])/dt)
}
}
var up = this.computedUp
up[0] = mat[1]
up[1] = mat[5]
up[2] = mat[9]
normalize(up, up)
var imat = this.computedInverse
invert44(imat, mat)
var eye = this.computedEye
var w = imat[15]
eye[0] = imat[12]/w
eye[1] = imat[13]/w
eye[2] = imat[14]/w
var center = this.computedCenter
var radius = Math.exp(this.computedRadius[0])
for(var i=0; i<3; ++i) {
center[i] = eye[i] - mat[2+4*i] * radius
}
}
proto.idle = function(t) {
if(t < this.lastT()) {
return
}
var mc = this._components
var ptr = mc.length-16
for(var i=0; i<16; ++i) {
mc.push(mc[ptr++])
}
this._time.push(t)
}
proto.flush = function(t) {
var idx = bsearch.gt(this._time, t) - 2
if(idx < 0) {
return
}
this._time.splice(0, idx)
this._components.splice(0, 16*idx)
}
proto.lastT = function() {
return this._time[this._time.length-1]
}
proto.lookAt = function(t, eye, center, up) {
this.recalcMatrix(t)
eye = eye || this.computedEye
center = center || DEFAULT_CENTER
up = up || this.computedUp
this.setMatrix(t, lookAt(this.computedMatrix, eye, center, up))
var d2 = 0.0
for(var i=0; i<3; ++i) {
d2 += Math.pow(center[i] - eye[i], 2)
}
d2 = Math.log(Math.sqrt(d2))
this.computedRadius[0] = d2
}
proto.rotate = function(t, yaw, pitch, roll) {
this.recalcMatrix(t)
var mat = this.computedInverse
if(yaw) rotateY(mat, mat, yaw)
if(pitch) rotateX(mat, mat, pitch)
if(roll) rotateZ(mat, mat, roll)
this.setMatrix(t, invert44(this.computedMatrix, mat))
}
var tvec = [0,0,0]
proto.pan = function(t, dx, dy, dz) {
tvec[0] = -(dx || 0.0)
tvec[1] = -(dy || 0.0)
tvec[2] = -(dz || 0.0)
this.recalcMatrix(t)
var mat = this.computedInverse
translate(mat, mat, tvec)
this.setMatrix(t, invert44(mat, mat))
}
proto.translate = function(t, dx, dy, dz) {
tvec[0] = dx || 0.0
tvec[1] = dy || 0.0
tvec[2] = dz || 0.0
this.recalcMatrix(t)
var mat = this.computedMatrix
translate(mat, mat, tvec)
this.setMatrix(t, mat)
}
proto.setMatrix = function(t, mat) {
if(t < this.lastT()) {
return
}
this._time.push(t)
for(var i=0; i<16; ++i) {
this._components.push(mat[i])
}
}
proto.setDistance = function(t, d) {
this.computedRadius[0] = d
}
proto.setDistanceLimits = function(a,b) {
var lim = this._limits
lim[0] = a
lim[1] = b
}
proto.getDistanceLimits = function(out) {
var lim = this._limits
if(out) {
out[0] = lim[0]
out[1] = lim[1]
return out
}
return lim
}
function createMatrixCameraController(options) {
options = options || {}
var matrix = options.matrix ||
[1,0,0,0,
0,1,0,0,
0,0,1,0,
0,0,0,1]
return new MatrixCameraController(matrix)
}
},{"binary-search-bounds":78,"gl-mat4/invert":253,"gl-mat4/lookAt":254,"gl-mat4/rotateX":258,"gl-mat4/rotateY":259,"gl-mat4/rotateZ":260,"gl-mat4/scale":261,"gl-mat4/translate":262,"gl-vec3/normalize":337,"mat4-interpolate":410}],414:[function(_dereq_,module,exports){
'use strict'
module.exports = monotoneConvexHull2D
var orient = _dereq_('robust-orientation')[3]
function monotoneConvexHull2D(points) {
var n = points.length
if(n < 3) {
var result = new Array(n)
for(var i=0; i<n; ++i) {
result[i] = i
}
if(n === 2 &&
points[0][0] === points[1][0] &&
points[0][1] === points[1][1]) {
return [0]
}
return result
}
//Sort point indices along x-axis
var sorted = new Array(n)
for(var i=0; i<n; ++i) {
sorted[i] = i
}
sorted.sort(function(a,b) {
var d = points[a][0]-points[b][0]
if(d) {
return d
}
return points[a][1] - points[b][1]
})
//Construct upper and lower hulls
var lower = [sorted[0], sorted[1]]
var upper = [sorted[0], sorted[1]]
for(var i=2; i<n; ++i) {
var idx = sorted[i]
var p = points[idx]
//Insert into lower list
var m = lower.length
while(m > 1 && orient(
points[lower[m-2]],
points[lower[m-1]],
p) <= 0) {
m -= 1
lower.pop()
}
lower.push(idx)
//Insert into upper list
m = upper.length
while(m > 1 && orient(
points[upper[m-2]],
points[upper[m-1]],
p) >= 0) {
m -= 1
upper.pop()
}
upper.push(idx)
}
//Merge lists together
var result = new Array(upper.length + lower.length - 2)
var ptr = 0
for(var i=0, nl=lower.length; i<nl; ++i) {
result[ptr++] = lower[i]
}
for(var j=upper.length-2; j>0; --j) {
result[ptr++] = upper[j]
}
//Return result
return result
}
},{"robust-orientation":483}],415:[function(_dereq_,module,exports){
'use strict'
module.exports = mouseListen
var mouse = _dereq_('mouse-event')
function mouseListen (element, callback) {
if (!callback) {
callback = element
element = window
}
var buttonState = 0
var x = 0
var y = 0
var mods = {
shift: false,
alt: false,
control: false,
meta: false
}
var attached = false
function updateMods (ev) {
var changed = false
if ('altKey' in ev) {
changed = changed || ev.altKey !== mods.alt
mods.alt = !!ev.altKey
}
if ('shiftKey' in ev) {
changed = changed || ev.shiftKey !== mods.shift
mods.shift = !!ev.shiftKey
}
if ('ctrlKey' in ev) {
changed = changed || ev.ctrlKey !== mods.control
mods.control = !!ev.ctrlKey
}
if ('metaKey' in ev) {
changed = changed || ev.metaKey !== mods.meta
mods.meta = !!ev.metaKey
}
return changed
}
function handleEvent (nextButtons, ev) {
var nextX = mouse.x(ev)
var nextY = mouse.y(ev)
if ('buttons' in ev) {
nextButtons = ev.buttons | 0
}
if (nextButtons !== buttonState ||
nextX !== x ||
nextY !== y ||
updateMods(ev)) {
buttonState = nextButtons | 0
x = nextX || 0
y = nextY || 0
callback && callback(buttonState, x, y, mods)
}
}
function clearState (ev) {
handleEvent(0, ev)
}
function handleBlur () {
if (buttonState ||
x ||
y ||
mods.shift ||
mods.alt ||
mods.meta ||
mods.control) {
x = y = 0
buttonState = 0
mods.shift = mods.alt = mods.control = mods.meta = false
callback && callback(0, 0, 0, mods)
}
}
function handleMods (ev) {
if (updateMods(ev)) {
callback && callback(buttonState, x, y, mods)
}
}
function handleMouseMove (ev) {
if (mouse.buttons(ev) === 0) {
handleEvent(0, ev)
} else {
handleEvent(buttonState, ev)
}
}
function handleMouseDown (ev) {
handleEvent(buttonState | mouse.buttons(ev), ev)
}
function handleMouseUp (ev) {
handleEvent(buttonState & ~mouse.buttons(ev), ev)
}
function attachListeners () {
if (attached) {
return
}
attached = true
element.addEventListener('mousemove', handleMouseMove)
element.addEventListener('mousedown', handleMouseDown)
element.addEventListener('mouseup', handleMouseUp)
element.addEventListener('mouseleave', clearState)
element.addEventListener('mouseenter', clearState)
element.addEventListener('mouseout', clearState)
element.addEventListener('mouseover', clearState)
element.addEventListener('blur', handleBlur)
element.addEventListener('keyup', handleMods)
element.addEventListener('keydown', handleMods)
element.addEventListener('keypress', handleMods)
if (element !== window) {
window.addEventListener('blur', handleBlur)
window.addEventListener('keyup', handleMods)
window.addEventListener('keydown', handleMods)
window.addEventListener('keypress', handleMods)
}
}
function detachListeners () {
if (!attached) {
return
}
attached = false
element.removeEventListener('mousemove', handleMouseMove)
element.removeEventListener('mousedown', handleMouseDown)
element.removeEventListener('mouseup', handleMouseUp)
element.removeEventListener('mouseleave', clearState)
element.removeEventListener('mouseenter', clearState)
element.removeEventListener('mouseout', clearState)
element.removeEventListener('mouseover', clearState)
element.removeEventListener('blur', handleBlur)
element.removeEventListener('keyup', handleMods)
element.removeEventListener('keydown', handleMods)
element.removeEventListener('keypress', handleMods)
if (element !== window) {
window.removeEventListener('blur', handleBlur)
window.removeEventListener('keyup', handleMods)
window.removeEventListener('keydown', handleMods)
window.removeEventListener('keypress', handleMods)
}
}
// Attach listeners
attachListeners()
var result = {
element: element
}
Object.defineProperties(result, {
enabled: {
get: function () { return attached },
set: function (f) {
if (f) {
attachListeners()
} else {
detachListeners()
}
},
enumerable: true
},
buttons: {
get: function () { return buttonState },
enumerable: true
},
x: {
get: function () { return x },
enumerable: true
},
y: {
get: function () { return y },
enumerable: true
},
mods: {
get: function () { return mods },
enumerable: true
}
})
return result
}
},{"mouse-event":417}],416:[function(_dereq_,module,exports){
var rootPosition = { left: 0, top: 0 }
module.exports = mouseEventOffset
function mouseEventOffset (ev, target, out) {
target = target || ev.currentTarget || ev.srcElement
if (!Array.isArray(out)) {
out = [ 0, 0 ]
}
var cx = ev.clientX || 0
var cy = ev.clientY || 0
var rect = getBoundingClientOffset(target)
out[0] = cx - rect.left
out[1] = cy - rect.top
return out
}
function getBoundingClientOffset (element) {
if (element === window ||
element === document ||
element === document.body) {
return rootPosition
} else {
return element.getBoundingClientRect()
}
}
},{}],417:[function(_dereq_,module,exports){
'use strict'
function mouseButtons(ev) {
if(typeof ev === 'object') {
if('buttons' in ev) {
return ev.buttons
} else if('which' in ev) {
var b = ev.which
if(b === 2) {
return 4
} else if(b === 3) {
return 2
} else if(b > 0) {
return 1<<(b-1)
}
} else if('button' in ev) {
var b = ev.button
if(b === 1) {
return 4
} else if(b === 2) {
return 2
} else if(b >= 0) {
return 1<<b
}
}
}
return 0
}
exports.buttons = mouseButtons
function mouseElement(ev) {
return ev.target || ev.srcElement || window
}
exports.element = mouseElement
function mouseRelativeX(ev) {
if(typeof ev === 'object') {
if('offsetX' in ev) {
return ev.offsetX
}
var target = mouseElement(ev)
var bounds = target.getBoundingClientRect()
return ev.clientX - bounds.left
}
return 0
}
exports.x = mouseRelativeX
function mouseRelativeY(ev) {
if(typeof ev === 'object') {
if('offsetY' in ev) {
return ev.offsetY
}
var target = mouseElement(ev)
var bounds = target.getBoundingClientRect()
return ev.clientY - bounds.top
}
return 0
}
exports.y = mouseRelativeY
},{}],418:[function(_dereq_,module,exports){
'use strict'
var toPX = _dereq_('to-px')
module.exports = mouseWheelListen
function mouseWheelListen(element, callback, noScroll) {
if(typeof element === 'function') {
noScroll = !!callback
callback = element
element = window
}
var lineHeight = toPX('ex', element)
var listener = function(ev) {
if(noScroll) {
ev.preventDefault()
}
var dx = ev.deltaX || 0
var dy = ev.deltaY || 0
var dz = ev.deltaZ || 0
var mode = ev.deltaMode
var scale = 1
switch(mode) {
case 1:
scale = lineHeight
break
case 2:
scale = window.innerHeight
break
}
dx *= scale
dy *= scale
dz *= scale
if(dx || dy || dz) {
return callback(dx, dy, dz, ev)
}
}
element.addEventListener('wheel', listener)
return listener
}
},{"to-px":513}],419:[function(_dereq_,module,exports){
"use strict"
var pool = _dereq_("typedarray-pool")
module.exports = createSurfaceExtractor
//Helper macros
function array(i) {
return "a" + i
}
function data(i) {
return "d" + i
}
function cube(i,bitmask) {
return "c" + i + "_" + bitmask
}
function shape(i) {
return "s" + i
}
function stride(i,j) {
return "t" + i + "_" + j
}
function offset(i) {
return "o" + i
}
function scalar(i) {
return "x" + i
}
function pointer(i) {
return "p" + i
}
function delta(i,bitmask) {
return "d" + i + "_" + bitmask
}
function index(i) {
return "i" + i
}
function step(i,j) {
return "u" + i + "_" + j
}
function pcube(bitmask) {
return "b" + bitmask
}
function qcube(bitmask) {
return "y" + bitmask
}
function pdelta(bitmask) {
return "e" + bitmask
}
function vert(i) {
return "v" + i
}
var VERTEX_IDS = "V"
var PHASES = "P"
var VERTEX_COUNT = "N"
var POOL_SIZE = "Q"
var POINTER = "X"
var TEMPORARY = "T"
function permBitmask(dimension, mask, order) {
var r = 0
for(var i=0; i<dimension; ++i) {
if(mask & (1<<i)) {
r |= (1<<order[i])
}
}
return r
}
//Generates the surface procedure
function compileSurfaceProcedure(vertexFunc, faceFunc, phaseFunc, scalarArgs, order, typesig) {
var arrayArgs = typesig.length
var dimension = order.length
if(dimension < 2) {
throw new Error("ndarray-extract-contour: Dimension must be at least 2")
}
var funcName = "extractContour" + order.join("_")
var code = []
var vars = []
var args = []
//Assemble arguments
for(var i=0; i<arrayArgs; ++i) {
args.push(array(i))
}
for(var i=0; i<scalarArgs; ++i) {
args.push(scalar(i))
}
//Shape
for(var i=0; i<dimension; ++i) {
vars.push(shape(i) + "=" + array(0) + ".shape[" + i + "]|0")
}
//Data, stride, offset pointers
for(var i=0; i<arrayArgs; ++i) {
vars.push(data(i) + "=" + array(i) + ".data",
offset(i) + "=" + array(i) + ".offset|0")
for(var j=0; j<dimension; ++j) {
vars.push(stride(i,j) + "=" + array(i) + ".stride[" + j + "]|0")
}
}
//Pointer, delta and cube variables
for(var i=0; i<arrayArgs; ++i) {
vars.push(pointer(i) + "=" + offset(i))
vars.push(cube(i,0))
for(var j=1; j<(1<<dimension); ++j) {
var ptrStr = []
for(var k=0; k<dimension; ++k) {
if(j & (1<<k)) {
ptrStr.push("-" + stride(i,k))
}
}
vars.push(delta(i,j) + "=(" + ptrStr.join("") + ")|0")
vars.push(cube(i,j) + "=0")
}
}
//Create step variables
for(var i=0; i<arrayArgs; ++i) {
for(var j=0; j<dimension; ++j) {
var stepVal = [ stride(i,order[j]) ]
if(j > 0) {
stepVal.push(stride(i, order[j-1]) + "*" + shape(order[j-1]) )
}
vars.push(step(i,order[j]) + "=(" + stepVal.join("-") + ")|0")
}
}
//Create index variables
for(var i=0; i<dimension; ++i) {
vars.push(index(i) + "=0")
}
//Vertex count
vars.push(VERTEX_COUNT + "=0")
//Compute pool size, initialize pool step
var sizeVariable = ["2"]
for(var i=dimension-2; i>=0; --i) {
sizeVariable.push(shape(order[i]))
}
//Previous phases and vertex_ids
vars.push(POOL_SIZE + "=(" + sizeVariable.join("*") + ")|0",
PHASES + "=mallocUint32(" + POOL_SIZE + ")",
VERTEX_IDS + "=mallocUint32(" + POOL_SIZE + ")",
POINTER + "=0")
//Create cube variables for phases
vars.push(pcube(0) + "=0")
for(var j=1; j<(1<<dimension); ++j) {
var cubeDelta = []
var cubeStep = [ ]
for(var k=0; k<dimension; ++k) {
if(j & (1<<k)) {
if(cubeStep.length === 0) {
cubeDelta.push("1")
} else {
cubeDelta.unshift(cubeStep.join("*"))
}
}
cubeStep.push(shape(order[k]))
}
var signFlag = ""
if(cubeDelta[0].indexOf(shape(order[dimension-2])) < 0) {
signFlag = "-"
}
var jperm = permBitmask(dimension, j, order)
vars.push(pdelta(jperm) + "=(-" + cubeDelta.join("-") + ")|0",
qcube(jperm) + "=(" + signFlag + cubeDelta.join("-") + ")|0",
pcube(jperm) + "=0")
}
vars.push(vert(0) + "=0", TEMPORARY + "=0")
function forLoopBegin(i, start) {
code.push("for(", index(order[i]), "=", start, ";",
index(order[i]), "<", shape(order[i]), ";",
"++", index(order[i]), "){")
}
function forLoopEnd(i) {
for(var j=0; j<arrayArgs; ++j) {
code.push(pointer(j), "+=", step(j,order[i]), ";")
}
code.push("}")
}
function fillEmptySlice(k) {
for(var i=k-1; i>=0; --i) {
forLoopBegin(i, 0)
}
var phaseFuncArgs = []
for(var i=0; i<arrayArgs; ++i) {
if(typesig[i]) {
phaseFuncArgs.push(data(i) + ".get(" + pointer(i) + ")")
} else {
phaseFuncArgs.push(data(i) + "[" + pointer(i) + "]")
}
}
for(var i=0; i<scalarArgs; ++i) {
phaseFuncArgs.push(scalar(i))
}
code.push(PHASES, "[", POINTER, "++]=phase(", phaseFuncArgs.join(), ");")
for(var i=0; i<k; ++i) {
forLoopEnd(i)
}
for(var j=0; j<arrayArgs; ++j) {
code.push(pointer(j), "+=", step(j,order[k]), ";")
}
}
function processGridCell(mask) {
//Read in local data
for(var i=0; i<arrayArgs; ++i) {
if(typesig[i]) {
code.push(cube(i,0), "=", data(i), ".get(", pointer(i), ");")
} else {
code.push(cube(i,0), "=", data(i), "[", pointer(i), "];")
}
}
//Read in phase
var phaseFuncArgs = []
for(var i=0; i<arrayArgs; ++i) {
phaseFuncArgs.push(cube(i,0))
}
for(var i=0; i<scalarArgs; ++i) {
phaseFuncArgs.push(scalar(i))
}
code.push(pcube(0), "=", PHASES, "[", POINTER, "]=phase(", phaseFuncArgs.join(), ");")
//Read in other cube data
for(var j=1; j<(1<<dimension); ++j) {
code.push(pcube(j), "=", PHASES, "[", POINTER, "+", pdelta(j), "];")
}
//Check for boundary crossing
var vertexPredicate = []
for(var j=1; j<(1<<dimension); ++j) {
vertexPredicate.push("(" + pcube(0) + "!==" + pcube(j) + ")")
}
code.push("if(", vertexPredicate.join("||"), "){")
//Read in boundary data
var vertexArgs = []
for(var i=0; i<dimension; ++i) {
vertexArgs.push(index(i))
}
for(var i=0; i<arrayArgs; ++i) {
vertexArgs.push(cube(i,0))
for(var j=1; j<(1<<dimension); ++j) {
if(typesig[i]) {
code.push(cube(i,j), "=", data(i), ".get(", pointer(i), "+", delta(i,j), ");")
} else {
code.push(cube(i,j), "=", data(i), "[", pointer(i), "+", delta(i,j), "];")
}
vertexArgs.push(cube(i,j))
}
}
for(var i=0; i<(1<<dimension); ++i) {
vertexArgs.push(pcube(i))
}
for(var i=0; i<scalarArgs; ++i) {
vertexArgs.push(scalar(i))
}
//Generate vertex
code.push("vertex(", vertexArgs.join(), ");",
vert(0), "=", VERTEX_IDS, "[", POINTER, "]=", VERTEX_COUNT, "++;")
//Check for face crossings
var base = (1<<dimension)-1
var corner = pcube(base)
for(var j=0; j<dimension; ++j) {
if((mask & ~(1<<j))===0) {
//Check face
var subset = base^(1<<j)
var edge = pcube(subset)
var faceArgs = [ ]
for(var k=subset; k>0; k=(k-1)&subset) {
faceArgs.push(VERTEX_IDS + "[" + POINTER + "+" + pdelta(k) + "]")
}
faceArgs.push(vert(0))
for(var k=0; k<arrayArgs; ++k) {
if(j&1) {
faceArgs.push(cube(k,base), cube(k,subset))
} else {
faceArgs.push(cube(k,subset), cube(k,base))
}
}
if(j&1) {
faceArgs.push(corner, edge)
} else {
faceArgs.push(edge, corner)
}
for(var k=0; k<scalarArgs; ++k) {
faceArgs.push(scalar(k))
}
code.push("if(", corner, "!==", edge, "){",
"face(", faceArgs.join(), ")}")
}
}
//Increment pointer, close off if statement
code.push("}",
POINTER, "+=1;")
}
function flip() {
for(var j=1; j<(1<<dimension); ++j) {
code.push(TEMPORARY, "=", pdelta(j), ";",
pdelta(j), "=", qcube(j), ";",
qcube(j), "=", TEMPORARY, ";")
}
}
function createLoop(i, mask) {
if(i < 0) {
processGridCell(mask)
return
}
fillEmptySlice(i)
code.push("if(", shape(order[i]), ">0){",
index(order[i]), "=1;")
createLoop(i-1, mask|(1<<order[i]))
for(var j=0; j<arrayArgs; ++j) {
code.push(pointer(j), "+=", step(j,order[i]), ";")
}
if(i === dimension-1) {
code.push(POINTER, "=0;")
flip()
}
forLoopBegin(i, 2)
createLoop(i-1, mask)
if(i === dimension-1) {
code.push("if(", index(order[dimension-1]), "&1){",
POINTER, "=0;}")
flip()
}
forLoopEnd(i)
code.push("}")
}
createLoop(dimension-1, 0)
//Release scratch memory
code.push("freeUint32(", VERTEX_IDS, ");freeUint32(", PHASES, ");")
//Compile and link procedure
var procedureCode = [
"'use strict';",
"function ", funcName, "(", args.join(), "){",
"var ", vars.join(), ";",
code.join(""),
"}",
"return ", funcName ].join("")
var proc = new Function(
"vertex",
"face",
"phase",
"mallocUint32",
"freeUint32",
procedureCode)
return proc(
vertexFunc,
faceFunc,
phaseFunc,
pool.mallocUint32,
pool.freeUint32)
}
function createSurfaceExtractor(args) {
function error(msg) {
throw new Error("ndarray-extract-contour: " + msg)
}
if(typeof args !== "object") {
error("Must specify arguments")
}
var order = args.order
if(!Array.isArray(order)) {
error("Must specify order")
}
var arrays = args.arrayArguments||1
if(arrays < 1) {
error("Must have at least one array argument")
}
var scalars = args.scalarArguments||0
if(scalars < 0) {
error("Scalar arg count must be > 0")
}
if(typeof args.vertex !== "function") {
error("Must specify vertex creation function")
}
if(typeof args.cell !== "function") {
error("Must specify cell creation function")
}
if(typeof args.phase !== "function") {
error("Must specify phase function")
}
var getters = args.getters || []
var typesig = new Array(arrays)
for(var i=0; i<arrays; ++i) {
if(getters.indexOf(i) >= 0) {
typesig[i] = true
} else {
typesig[i] = false
}
}
return compileSurfaceProcedure(
args.vertex,
args.cell,
args.phase,
scalars,
order,
typesig)
}
},{"typedarray-pool":519}],420:[function(_dereq_,module,exports){
"use strict"
var fill = _dereq_('cwise/lib/wrapper')({"args":["index","array","scalar"],"pre":{"body":"{}","args":[],"thisVars":[],"localVars":[]},"body":{"body":"{_inline_1_arg1_=_inline_1_arg2_.apply(void 0,_inline_1_arg0_)}","args":[{"name":"_inline_1_arg0_","lvalue":false,"rvalue":true,"count":1},{"name":"_inline_1_arg1_","lvalue":true,"rvalue":false,"count":1},{"name":"_inline_1_arg2_","lvalue":false,"rvalue":true,"count":1}],"thisVars":[],"localVars":[]},"post":{"body":"{}","args":[],"thisVars":[],"localVars":[]},"debug":false,"funcName":"cwise","blockSize":64})
module.exports = function(array, f) {
fill(array, f)
return array
}
},{"cwise/lib/wrapper":136}],421:[function(_dereq_,module,exports){
'use strict'
module.exports = gradient
var dup = _dereq_('dup')
var cwiseCompiler = _dereq_('cwise-compiler')
var TEMPLATE_CACHE = {}
var GRADIENT_CACHE = {}
var EmptyProc = {
body: "",
args: [],
thisVars: [],
localVars: []
}
var centralDiff = cwiseCompiler({
args: [ 'array', 'array', 'array' ],
pre: EmptyProc,
post: EmptyProc,
body: {
args: [ {
name: 'out',
lvalue: true,
rvalue: false,
count: 1
}, {
name: 'left',
lvalue: false,
rvalue: true,
count: 1
}, {
name: 'right',
lvalue: false,
rvalue: true,
count: 1
}],
body: "out=0.5*(left-right)",
thisVars: [],
localVars: []
},
funcName: 'cdiff'
})
var zeroOut = cwiseCompiler({
args: [ 'array' ],
pre: EmptyProc,
post: EmptyProc,
body: {
args: [ {
name: 'out',
lvalue: true,
rvalue: false,
count: 1
}],
body: "out=0",
thisVars: [],
localVars: []
},
funcName: 'zero'
})
function generateTemplate(d) {
if(d in TEMPLATE_CACHE) {
return TEMPLATE_CACHE[d]
}
var code = []
for(var i=0; i<d; ++i) {
code.push('out', i, 's=0.5*(inp', i, 'l-inp', i, 'r);')
}
var args = [ 'array' ]
var names = ['junk']
for(var i=0; i<d; ++i) {
args.push('array')
names.push('out' + i + 's')
var o = dup(d)
o[i] = -1
args.push({
array: 0,
offset: o.slice()
})
o[i] = 1
args.push({
array: 0,
offset: o.slice()
})
names.push('inp' + i + 'l', 'inp' + i + 'r')
}
return TEMPLATE_CACHE[d] = cwiseCompiler({
args: args,
pre: EmptyProc,
post: EmptyProc,
body: {
body: code.join(''),
args: names.map(function(n) {
return {
name: n,
lvalue: n.indexOf('out') === 0,
rvalue: n.indexOf('inp') === 0,
count: (n!=='junk')|0
}
}),
thisVars: [],
localVars: []
},
funcName: 'fdTemplate' + d
})
}
function generateGradient(boundaryConditions) {
var token = boundaryConditions.join()
var proc = GRADIENT_CACHE[token]
if(proc) {
return proc
}
var d = boundaryConditions.length
var code = ['function gradient(dst,src){var s=src.shape.slice();' ]
function handleBoundary(facet) {
var cod = d - facet.length
var loStr = []
var hiStr = []
var pickStr = []
for(var i=0; i<d; ++i) {
if(facet.indexOf(i+1) >= 0) {
pickStr.push('0')
} else if(facet.indexOf(-(i+1)) >= 0) {
pickStr.push('s['+i+']-1')
} else {
pickStr.push('-1')
loStr.push('1')
hiStr.push('s['+i+']-2')
}
}
var boundStr = '.lo(' + loStr.join() + ').hi(' + hiStr.join() + ')'
if(loStr.length === 0) {
boundStr = ''
}
if(cod > 0) {
code.push('if(1')
for(var i=0; i<d; ++i) {
if(facet.indexOf(i+1) >= 0 || facet.indexOf(-(i+1)) >= 0) {
continue
}
code.push('&&s[', i, ']>2')
}
code.push('){grad', cod, '(src.pick(', pickStr.join(), ')', boundStr)
for(var i=0; i<d; ++i) {
if(facet.indexOf(i+1) >= 0 || facet.indexOf(-(i+1)) >= 0) {
continue
}
code.push(',dst.pick(', pickStr.join(), ',', i, ')', boundStr)
}
code.push(');')
}
for(var i=0; i<facet.length; ++i) {
var bnd = Math.abs(facet[i])-1
var outStr = 'dst.pick(' + pickStr.join() + ',' + bnd + ')' + boundStr
switch(boundaryConditions[bnd]) {
case 'clamp':
var cPickStr = pickStr.slice()
var dPickStr = pickStr.slice()
if(facet[i] < 0) {
cPickStr[bnd] = 's[' + bnd + ']-2'
} else {
dPickStr[bnd] = '1'
}
if(cod === 0) {
code.push('if(s[', bnd, ']>1){dst.set(',
pickStr.join(), ',', bnd, ',0.5*(src.get(',
cPickStr.join(), ')-src.get(',
dPickStr.join(), ')))}else{dst.set(',
pickStr.join(), ',', bnd, ',0)};')
} else {
code.push('if(s[', bnd, ']>1){diff(', outStr,
',src.pick(', cPickStr.join(), ')', boundStr,
',src.pick(', dPickStr.join(), ')', boundStr,
');}else{zero(', outStr, ');};')
}
break
case 'mirror':
if(cod === 0) {
code.push('dst.set(', pickStr.join(), ',', bnd, ',0);')
} else {
code.push('zero(', outStr, ');')
}
break
case 'wrap':
var aPickStr = pickStr.slice()
var bPickStr = pickStr.slice()
if(facet[i] < 0) {
aPickStr[bnd] = 's[' + bnd + ']-2'
bPickStr[bnd] = '0'
} else {
aPickStr[bnd] = 's[' + bnd + ']-1'
bPickStr[bnd] = '1'
}
if(cod === 0) {
code.push('if(s[', bnd, ']>2){dst.set(',
pickStr.join(), ',', bnd, ',0.5*(src.get(',
aPickStr.join(), ')-src.get(',
bPickStr.join(), ')))}else{dst.set(',
pickStr.join(), ',', bnd, ',0)};')
} else {
code.push('if(s[', bnd, ']>2){diff(', outStr,
',src.pick(', aPickStr.join(), ')', boundStr,
',src.pick(', bPickStr.join(), ')', boundStr,
');}else{zero(', outStr, ');};')
}
break
default:
throw new Error('ndarray-gradient: Invalid boundary condition')
}
}
if(cod > 0) {
code.push('};')
}
}
//Enumerate ridges, facets, etc. of hypercube
for(var i=0; i<(1<<d); ++i) {
var faces = []
for(var j=0; j<d; ++j) {
if(i & (1<<j)) {
faces.push(j+1)
}
}
for(var k=0; k<(1<<faces.length); ++k) {
var sfaces = faces.slice()
for(var j=0; j<faces.length; ++j) {
if(k & (1<<j)) {
sfaces[j] = -sfaces[j]
}
}
handleBoundary(sfaces)
}
}
code.push('return dst;};return gradient')
//Compile and link routine, save cached procedure
var linkNames = [ 'diff', 'zero' ]
var linkArgs = [ centralDiff, zeroOut ]
for(var i=1; i<=d; ++i) {
linkNames.push('grad' + i)
linkArgs.push(generateTemplate(i))
}
linkNames.push(code.join(''))
var link = Function.apply(void 0, linkNames)
var proc = link.apply(void 0, linkArgs)
TEMPLATE_CACHE[token] = proc
return proc
}
function gradient(out, inp, bc) {
if(Array.isArray(bc)) {
if(bc.length !== inp.dimension) {
throw new Error('ndarray-gradient: invalid boundary conditions')
}
} else if(typeof bc === 'string') {
bc = dup(inp.dimension, bc)
} else {
bc = dup(inp.dimension, 'clamp')
}
if(out.dimension !== inp.dimension + 1) {
throw new Error('ndarray-gradient: output dimension must be +1 input dimension')
}
if(out.shape[inp.dimension] !== inp.dimension) {
throw new Error('ndarray-gradient: output shape must match input shape')
}
for(var i=0; i<inp.dimension; ++i) {
if(out.shape[i] !== inp.shape[i]) {
throw new Error('ndarray-gradient: shape mismatch')
}
}
if(inp.size === 0) {
return out
}
if(inp.dimension <= 0) {
out.set(0)
return out
}
var cached = generateGradient(bc)
return cached(out, inp)
}
},{"cwise-compiler":133,"dup":154}],422:[function(_dereq_,module,exports){
'use strict'
var warp = _dereq_('ndarray-warp')
var invert = _dereq_('gl-matrix-invert')
module.exports = applyHomography
function applyHomography(dest, src, Xi) {
var n = src.dimension
var X = invert([], Xi)
warp(dest, src, function(out_c, inp_c) {
for(var i=0; i<n; ++i) {
out_c[i] = X[(n+1)*n + i]
for(var j=0; j<n; ++j) {
out_c[i] += X[(n+1)*j+i] * inp_c[j]
}
}
var w = X[(n+1)*(n+1)-1]
for(var j=0; j<n; ++j) {
w += X[(n+1)*j+n] * inp_c[j]
}
var wr = 1.0 / w
for(var i=0; i<n; ++i) {
out_c[i] *= wr
}
return out_c
})
return dest
}
},{"gl-matrix-invert":264,"ndarray-warp":429}],423:[function(_dereq_,module,exports){
"use strict"
function interp1d(arr, x) {
var ix = Math.floor(x)
, fx = x - ix
, s0 = 0 <= ix && ix < arr.shape[0]
, s1 = 0 <= ix+1 && ix+1 < arr.shape[0]
, w0 = s0 ? +arr.get(ix) : 0.0
, w1 = s1 ? +arr.get(ix+1) : 0.0
return (1.0-fx)*w0 + fx*w1
}
function interp2d(arr, x, y) {
var ix = Math.floor(x)
, fx = x - ix
, s0 = 0 <= ix && ix < arr.shape[0]
, s1 = 0 <= ix+1 && ix+1 < arr.shape[0]
, iy = Math.floor(y)
, fy = y - iy
, t0 = 0 <= iy && iy < arr.shape[1]
, t1 = 0 <= iy+1 && iy+1 < arr.shape[1]
, w00 = s0&&t0 ? arr.get(ix ,iy ) : 0.0
, w01 = s0&&t1 ? arr.get(ix ,iy+1) : 0.0
, w10 = s1&&t0 ? arr.get(ix+1,iy ) : 0.0
, w11 = s1&&t1 ? arr.get(ix+1,iy+1) : 0.0
return (1.0-fy) * ((1.0-fx)*w00 + fx*w10) + fy * ((1.0-fx)*w01 + fx*w11)
}
function interp3d(arr, x, y, z) {
var ix = Math.floor(x)
, fx = x - ix
, s0 = 0 <= ix && ix < arr.shape[0]
, s1 = 0 <= ix+1 && ix+1 < arr.shape[0]
, iy = Math.floor(y)
, fy = y - iy
, t0 = 0 <= iy && iy < arr.shape[1]
, t1 = 0 <= iy+1 && iy+1 < arr.shape[1]
, iz = Math.floor(z)
, fz = z - iz
, u0 = 0 <= iz && iz < arr.shape[2]
, u1 = 0 <= iz+1 && iz+1 < arr.shape[2]
, w000 = s0&&t0&&u0 ? arr.get(ix,iy,iz) : 0.0
, w010 = s0&&t1&&u0 ? arr.get(ix,iy+1,iz) : 0.0
, w100 = s1&&t0&&u0 ? arr.get(ix+1,iy,iz) : 0.0
, w110 = s1&&t1&&u0 ? arr.get(ix+1,iy+1,iz) : 0.0
, w001 = s0&&t0&&u1 ? arr.get(ix,iy,iz+1) : 0.0
, w011 = s0&&t1&&u1 ? arr.get(ix,iy+1,iz+1) : 0.0
, w101 = s1&&t0&&u1 ? arr.get(ix+1,iy,iz+1) : 0.0
, w111 = s1&&t1&&u1 ? arr.get(ix+1,iy+1,iz+1) : 0.0
return (1.0-fz) * ((1.0-fy) * ((1.0-fx)*w000 + fx*w100) + fy * ((1.0-fx)*w010 + fx*w110)) + fz * ((1.0-fy) * ((1.0-fx)*w001 + fx*w101) + fy * ((1.0-fx)*w011 + fx*w111))
}
function interpNd(arr) {
var d = arr.shape.length|0
, ix = new Array(d)
, fx = new Array(d)
, s0 = new Array(d)
, s1 = new Array(d)
, i, t
for(i=0; i<d; ++i) {
t = +arguments[i+1]
ix[i] = Math.floor(t)
fx[i] = t - ix[i]
s0[i] = (0 <= ix[i] && ix[i] < arr.shape[i])
s1[i] = (0 <= ix[i]+1 && ix[i]+1 < arr.shape[i])
}
var r = 0.0, j, w, idx
i_loop:
for(i=0; i<(1<<d); ++i) {
w = 1.0
idx = arr.offset
for(j=0; j<d; ++j) {
if(i & (1<<j)) {
if(!s1[j]) {
continue i_loop
}
w *= fx[j]
idx += arr.stride[j] * (ix[j] + 1)
} else {
if(!s0[j]) {
continue i_loop
}
w *= 1.0 - fx[j]
idx += arr.stride[j] * ix[j]
}
}
r += w * arr.data[idx]
}
return r
}
function interpolate(arr, x, y, z) {
switch(arr.shape.length) {
case 0:
return 0.0
case 1:
return interp1d(arr, x)
case 2:
return interp2d(arr, x, y)
case 3:
return interp3d(arr, x, y, z)
default:
return interpNd.apply(undefined, arguments)
}
}
module.exports = interpolate
module.exports.d1 = interp1d
module.exports.d2 = interp2d
module.exports.d3 = interp3d
},{}],424:[function(_dereq_,module,exports){
"use strict"
var compile = _dereq_("cwise-compiler")
var EmptyProc = {
body: "",
args: [],
thisVars: [],
localVars: []
}
function fixup(x) {
if(!x) {
return EmptyProc
}
for(var i=0; i<x.args.length; ++i) {
var a = x.args[i]
if(i === 0) {
x.args[i] = {name: a, lvalue:true, rvalue: !!x.rvalue, count:x.count||1 }
} else {
x.args[i] = {name: a, lvalue:false, rvalue:true, count: 1}
}
}
if(!x.thisVars) {
x.thisVars = []
}
if(!x.localVars) {
x.localVars = []
}
return x
}
function pcompile(user_args) {
return compile({
args: user_args.args,
pre: fixup(user_args.pre),
body: fixup(user_args.body),
post: fixup(user_args.proc),
funcName: user_args.funcName
})
}
function makeOp(user_args) {
var args = []
for(var i=0; i<user_args.args.length; ++i) {
args.push("a"+i)
}
var wrapper = new Function("P", [
"return function ", user_args.funcName, "_ndarrayops(", args.join(","), ") {P(", args.join(","), ");return a0}"
].join(""))
return wrapper(pcompile(user_args))
}
var assign_ops = {
add: "+",
sub: "-",
mul: "*",
div: "/",
mod: "%",
band: "&",
bor: "|",
bxor: "^",
lshift: "<<",
rshift: ">>",
rrshift: ">>>"
}
;(function(){
for(var id in assign_ops) {
var op = assign_ops[id]
exports[id] = makeOp({
args: ["array","array","array"],
body: {args:["a","b","c"],
body: "a=b"+op+"c"},
funcName: id
})
exports[id+"eq"] = makeOp({
args: ["array","array"],
body: {args:["a","b"],
body:"a"+op+"=b"},
rvalue: true,
funcName: id+"eq"
})
exports[id+"s"] = makeOp({
args: ["array", "array", "scalar"],
body: {args:["a","b","s"],
body:"a=b"+op+"s"},
funcName: id+"s"
})
exports[id+"seq"] = makeOp({
args: ["array","scalar"],
body: {args:["a","s"],
body:"a"+op+"=s"},
rvalue: true,
funcName: id+"seq"
})
}
})();
var unary_ops = {
not: "!",
bnot: "~",
neg: "-",
recip: "1.0/"
}
;(function(){
for(var id in unary_ops) {
var op = unary_ops[id]
exports[id] = makeOp({
args: ["array", "array"],
body: {args:["a","b"],
body:"a="+op+"b"},
funcName: id
})
exports[id+"eq"] = makeOp({
args: ["array"],
body: {args:["a"],
body:"a="+op+"a"},
rvalue: true,
count: 2,
funcName: id+"eq"
})
}
})();
var binary_ops = {
and: "&&",
or: "||",
eq: "===",
neq: "!==",
lt: "<",
gt: ">",
leq: "<=",
geq: ">="
}
;(function() {
for(var id in binary_ops) {
var op = binary_ops[id]
exports[id] = makeOp({
args: ["array","array","array"],
body: {args:["a", "b", "c"],
body:"a=b"+op+"c"},
funcName: id
})
exports[id+"s"] = makeOp({
args: ["array","array","scalar"],
body: {args:["a", "b", "s"],
body:"a=b"+op+"s"},
funcName: id+"s"
})
exports[id+"eq"] = makeOp({
args: ["array", "array"],
body: {args:["a", "b"],
body:"a=a"+op+"b"},
rvalue:true,
count:2,
funcName: id+"eq"
})
exports[id+"seq"] = makeOp({
args: ["array", "scalar"],
body: {args:["a","s"],
body:"a=a"+op+"s"},
rvalue:true,
count:2,
funcName: id+"seq"
})
}
})();
var math_unary = [
"abs",
"acos",
"asin",
"atan",
"ceil",
"cos",
"exp",
"floor",
"log",
"round",
"sin",
"sqrt",
"tan"
]
;(function() {
for(var i=0; i<math_unary.length; ++i) {
var f = math_unary[i]
exports[f] = makeOp({
args: ["array", "array"],
pre: {args:[], body:"this_f=Math."+f, thisVars:["this_f"]},
body: {args:["a","b"], body:"a=this_f(b)", thisVars:["this_f"]},
funcName: f
})
exports[f+"eq"] = makeOp({
args: ["array"],
pre: {args:[], body:"this_f=Math."+f, thisVars:["this_f"]},
body: {args: ["a"], body:"a=this_f(a)", thisVars:["this_f"]},
rvalue: true,
count: 2,
funcName: f+"eq"
})
}
})();
var math_comm = [
"max",
"min",
"atan2",
"pow"
]
;(function(){
for(var i=0; i<math_comm.length; ++i) {
var f= math_comm[i]
exports[f] = makeOp({
args:["array", "array", "array"],
pre: {args:[], body:"this_f=Math."+f, thisVars:["this_f"]},
body: {args:["a","b","c"], body:"a=this_f(b,c)", thisVars:["this_f"]},
funcName: f
})
exports[f+"s"] = makeOp({
args:["array", "array", "scalar"],
pre: {args:[], body:"this_f=Math."+f, thisVars:["this_f"]},
body: {args:["a","b","c"], body:"a=this_f(b,c)", thisVars:["this_f"]},
funcName: f+"s"
})
exports[f+"eq"] = makeOp({ args:["array", "array"],
pre: {args:[], body:"this_f=Math."+f, thisVars:["this_f"]},
body: {args:["a","b"], body:"a=this_f(a,b)", thisVars:["this_f"]},
rvalue: true,
count: 2,
funcName: f+"eq"
})
exports[f+"seq"] = makeOp({ args:["array", "scalar"],
pre: {args:[], body:"this_f=Math."+f, thisVars:["this_f"]},
body: {args:["a","b"], body:"a=this_f(a,b)", thisVars:["this_f"]},
rvalue:true,
count:2,
funcName: f+"seq"
})
}
})();
var math_noncomm = [
"atan2",
"pow"
]
;(function(){
for(var i=0; i<math_noncomm.length; ++i) {
var f= math_noncomm[i]
exports[f+"op"] = makeOp({
args:["array", "array", "array"],
pre: {args:[], body:"this_f=Math."+f, thisVars:["this_f"]},
body: {args:["a","b","c"], body:"a=this_f(c,b)", thisVars:["this_f"]},
funcName: f+"op"
})
exports[f+"ops"] = makeOp({
args:["array", "array", "scalar"],
pre: {args:[], body:"this_f=Math."+f, thisVars:["this_f"]},
body: {args:["a","b","c"], body:"a=this_f(c,b)", thisVars:["this_f"]},
funcName: f+"ops"
})
exports[f+"opeq"] = makeOp({ args:["array", "array"],
pre: {args:[], body:"this_f=Math."+f, thisVars:["this_f"]},
body: {args:["a","b"], body:"a=this_f(b,a)", thisVars:["this_f"]},
rvalue: true,
count: 2,
funcName: f+"opeq"
})
exports[f+"opseq"] = makeOp({ args:["array", "scalar"],
pre: {args:[], body:"this_f=Math."+f, thisVars:["this_f"]},
body: {args:["a","b"], body:"a=this_f(b,a)", thisVars:["this_f"]},
rvalue:true,
count:2,
funcName: f+"opseq"
})
}
})();
exports.any = compile({
args:["array"],
pre: EmptyProc,
body: {args:[{name:"a", lvalue:false, rvalue:true, count:1}], body: "if(a){return true}", localVars: [], thisVars: []},
post: {args:[], localVars:[], thisVars:[], body:"return false"},
funcName: "any"
})
exports.all = compile({
args:["array"],
pre: EmptyProc,
body: {args:[{name:"x", lvalue:false, rvalue:true, count:1}], body: "if(!x){return false}", localVars: [], thisVars: []},
post: {args:[], localVars:[], thisVars:[], body:"return true"},
funcName: "all"
})
exports.sum = compile({
args:["array"],
pre: {args:[], localVars:[], thisVars:["this_s"], body:"this_s=0"},
body: {args:[{name:"a", lvalue:false, rvalue:true, count:1}], body: "this_s+=a", localVars: [], thisVars: ["this_s"]},
post: {args:[], localVars:[], thisVars:["this_s"], body:"return this_s"},
funcName: "sum"
})
exports.prod = compile({
args:["array"],
pre: {args:[], localVars:[], thisVars:["this_s"], body:"this_s=1"},
body: {args:[{name:"a", lvalue:false, rvalue:true, count:1}], body: "this_s*=a", localVars: [], thisVars: ["this_s"]},
post: {args:[], localVars:[], thisVars:["this_s"], body:"return this_s"},
funcName: "prod"
})
exports.norm2squared = compile({
args:["array"],
pre: {args:[], localVars:[], thisVars:["this_s"], body:"this_s=0"},
body: {args:[{name:"a", lvalue:false, rvalue:true, count:2}], body: "this_s+=a*a", localVars: [], thisVars: ["this_s"]},
post: {args:[], localVars:[], thisVars:["this_s"], body:"return this_s"},
funcName: "norm2squared"
})
exports.norm2 = compile({
args:["array"],
pre: {args:[], localVars:[], thisVars:["this_s"], body:"this_s=0"},
body: {args:[{name:"a", lvalue:false, rvalue:true, count:2}], body: "this_s+=a*a", localVars: [], thisVars: ["this_s"]},
post: {args:[], localVars:[], thisVars:["this_s"], body:"return Math.sqrt(this_s)"},
funcName: "norm2"
})
exports.norminf = compile({
args:["array"],
pre: {args:[], localVars:[], thisVars:["this_s"], body:"this_s=0"},
body: {args:[{name:"a", lvalue:false, rvalue:true, count:4}], body:"if(-a>this_s){this_s=-a}else if(a>this_s){this_s=a}", localVars: [], thisVars: ["this_s"]},
post: {args:[], localVars:[], thisVars:["this_s"], body:"return this_s"},
funcName: "norminf"
})
exports.norm1 = compile({
args:["array"],
pre: {args:[], localVars:[], thisVars:["this_s"], body:"this_s=0"},
body: {args:[{name:"a", lvalue:false, rvalue:true, count:3}], body: "this_s+=a<0?-a:a", localVars: [], thisVars: ["this_s"]},
post: {args:[], localVars:[], thisVars:["this_s"], body:"return this_s"},
funcName: "norm1"
})
exports.sup = compile({
args: [ "array" ],
pre:
{ body: "this_h=-Infinity",
args: [],
thisVars: [ "this_h" ],
localVars: [] },
body:
{ body: "if(_inline_1_arg0_>this_h)this_h=_inline_1_arg0_",
args: [{"name":"_inline_1_arg0_","lvalue":false,"rvalue":true,"count":2} ],
thisVars: [ "this_h" ],
localVars: [] },
post:
{ body: "return this_h",
args: [],
thisVars: [ "this_h" ],
localVars: [] }
})
exports.inf = compile({
args: [ "array" ],
pre:
{ body: "this_h=Infinity",
args: [],
thisVars: [ "this_h" ],
localVars: [] },
body:
{ body: "if(_inline_1_arg0_<this_h)this_h=_inline_1_arg0_",
args: [{"name":"_inline_1_arg0_","lvalue":false,"rvalue":true,"count":2} ],
thisVars: [ "this_h" ],
localVars: [] },
post:
{ body: "return this_h",
args: [],
thisVars: [ "this_h" ],
localVars: [] }
})
exports.argmin = compile({
args:["index","array","shape"],
pre:{
body:"{this_v=Infinity;this_i=_inline_0_arg2_.slice(0)}",
args:[
{name:"_inline_0_arg0_",lvalue:false,rvalue:false,count:0},
{name:"_inline_0_arg1_",lvalue:false,rvalue:false,count:0},
{name:"_inline_0_arg2_",lvalue:false,rvalue:true,count:1}
],
thisVars:["this_i","this_v"],
localVars:[]},
body:{
body:"{if(_inline_1_arg1_<this_v){this_v=_inline_1_arg1_;for(var _inline_1_k=0;_inline_1_k<_inline_1_arg0_.length;++_inline_1_k){this_i[_inline_1_k]=_inline_1_arg0_[_inline_1_k]}}}",
args:[
{name:"_inline_1_arg0_",lvalue:false,rvalue:true,count:2},
{name:"_inline_1_arg1_",lvalue:false,rvalue:true,count:2}],
thisVars:["this_i","this_v"],
localVars:["_inline_1_k"]},
post:{
body:"{return this_i}",
args:[],
thisVars:["this_i"],
localVars:[]}
})
exports.argmax = compile({
args:["index","array","shape"],
pre:{
body:"{this_v=-Infinity;this_i=_inline_0_arg2_.slice(0)}",
args:[
{name:"_inline_0_arg0_",lvalue:false,rvalue:false,count:0},
{name:"_inline_0_arg1_",lvalue:false,rvalue:false,count:0},
{name:"_inline_0_arg2_",lvalue:false,rvalue:true,count:1}
],
thisVars:["this_i","this_v"],
localVars:[]},
body:{
body:"{if(_inline_1_arg1_>this_v){this_v=_inline_1_arg1_;for(var _inline_1_k=0;_inline_1_k<_inline_1_arg0_.length;++_inline_1_k){this_i[_inline_1_k]=_inline_1_arg0_[_inline_1_k]}}}",
args:[
{name:"_inline_1_arg0_",lvalue:false,rvalue:true,count:2},
{name:"_inline_1_arg1_",lvalue:false,rvalue:true,count:2}],
thisVars:["this_i","this_v"],
localVars:["_inline_1_k"]},
post:{
body:"{return this_i}",
args:[],
thisVars:["this_i"],
localVars:[]}
})
exports.random = makeOp({
args: ["array"],
pre: {args:[], body:"this_f=Math.random", thisVars:["this_f"]},
body: {args: ["a"], body:"a=this_f()", thisVars:["this_f"]},
funcName: "random"
})
exports.assign = makeOp({
args:["array", "array"],
body: {args:["a", "b"], body:"a=b"},
funcName: "assign" })
exports.assigns = makeOp({
args:["array", "scalar"],
body: {args:["a", "b"], body:"a=b"},
funcName: "assigns" })
exports.equals = compile({
args:["array", "array"],
pre: EmptyProc,
body: {args:[{name:"x", lvalue:false, rvalue:true, count:1},
{name:"y", lvalue:false, rvalue:true, count:1}],
body: "if(x!==y){return false}",
localVars: [],
thisVars: []},
post: {args:[], localVars:[], thisVars:[], body:"return true"},
funcName: "equals"
})
},{"cwise-compiler":133}],425:[function(_dereq_,module,exports){
"use strict"
var ndarray = _dereq_("ndarray")
var do_convert = _dereq_("./doConvert.js")
module.exports = function convert(arr, result) {
var shape = [], c = arr, sz = 1
while(Array.isArray(c)) {
shape.push(c.length)
sz *= c.length
c = c[0]
}
if(shape.length === 0) {
return ndarray()
}
if(!result) {
result = ndarray(new Float64Array(sz), shape)
}
do_convert(result, arr)
return result
}
},{"./doConvert.js":426,"ndarray":430}],426:[function(_dereq_,module,exports){
module.exports=_dereq_('cwise-compiler')({"args":["array","scalar","index"],"pre":{"body":"{}","args":[],"thisVars":[],"localVars":[]},"body":{"body":"{\nvar _inline_1_v=_inline_1_arg1_,_inline_1_i\nfor(_inline_1_i=0;_inline_1_i<_inline_1_arg2_.length-1;++_inline_1_i) {\n_inline_1_v=_inline_1_v[_inline_1_arg2_[_inline_1_i]]\n}\n_inline_1_arg0_=_inline_1_v[_inline_1_arg2_[_inline_1_arg2_.length-1]]\n}","args":[{"name":"_inline_1_arg0_","lvalue":true,"rvalue":false,"count":1},{"name":"_inline_1_arg1_","lvalue":false,"rvalue":true,"count":1},{"name":"_inline_1_arg2_","lvalue":false,"rvalue":true,"count":4}],"thisVars":[],"localVars":["_inline_1_i","_inline_1_v"]},"post":{"body":"{}","args":[],"thisVars":[],"localVars":[]},"funcName":"convert","blockSize":64})
},{"cwise-compiler":133}],427:[function(_dereq_,module,exports){
"use strict"
var pool = _dereq_("typedarray-pool")
var INSERTION_SORT_THRESHOLD = 32
function getMallocFree(dtype) {
switch(dtype) {
case "uint8":
return [pool.mallocUint8, pool.freeUint8]
case "uint16":
return [pool.mallocUint16, pool.freeUint16]
case "uint32":
return [pool.mallocUint32, pool.freeUint32]
case "int8":
return [pool.mallocInt8, pool.freeInt8]
case "int16":
return [pool.mallocInt16, pool.freeInt16]
case "int32":
return [pool.mallocInt32, pool.freeInt32]
case "float32":
return [pool.mallocFloat, pool.freeFloat]
case "float64":
return [pool.mallocDouble, pool.freeDouble]
default:
return null
}
}
function shapeArgs(dimension) {
var args = []
for(var i=0; i<dimension; ++i) {
args.push("s"+i)
}
for(var i=0; i<dimension; ++i) {
args.push("n"+i)
}
for(var i=1; i<dimension; ++i) {
args.push("d"+i)
}
for(var i=1; i<dimension; ++i) {
args.push("e"+i)
}
for(var i=1; i<dimension; ++i) {
args.push("f"+i)
}
return args
}
function createInsertionSort(order, dtype) {
var code = ["'use strict'"]
var funcName = ["ndarrayInsertionSort", order.join("d"), dtype].join("")
var funcArgs = ["left", "right", "data", "offset" ].concat(shapeArgs(order.length))
var allocator = getMallocFree(dtype)
var vars = [ "i,j,cptr,ptr=left*s0+offset" ]
if(order.length > 1) {
var scratch_shape = []
for(var i=1; i<order.length; ++i) {
vars.push("i"+i)
scratch_shape.push("n"+i)
}
if(allocator) {
vars.push("scratch=malloc(" + scratch_shape.join("*") + ")")
} else {
vars.push("scratch=new Array("+scratch_shape.join("*") + ")")
}
vars.push("dptr","sptr","a","b")
} else {
vars.push("scratch")
}
function dataRead(ptr) {
if(dtype === "generic") {
return ["data.get(", ptr, ")"].join("")
}
return ["data[",ptr,"]"].join("")
}
function dataWrite(ptr, v) {
if(dtype === "generic") {
return ["data.set(", ptr, ",", v, ")"].join("")
}
return ["data[",ptr,"]=",v].join("")
}
//Create function header
code.push(
["function ", funcName, "(", funcArgs.join(","), "){var ", vars.join(",")].join(""),
"for(i=left+1;i<=right;++i){",
"j=i;ptr+=s0",
"cptr=ptr")
if(order.length > 1) {
//Copy data into scratch
code.push("dptr=0;sptr=ptr")
for(var i=order.length-1; i>=0; --i) {
var j = order[i]
if(j === 0) {
continue
}
code.push(["for(i",j,"=0;i",j,"<n",j,";++i",j,"){"].join(""))
}
code.push("scratch[dptr++]=",dataRead("sptr"))
for(var i=0; i<order.length; ++i) {
var j = order[i]
if(j === 0) {
continue
}
code.push("sptr+=d"+j,"}")
}
//Compare items in outer loop
code.push("__g:while(j-->left){",
"dptr=0",
"sptr=cptr-s0")
for(var i=1; i<order.length; ++i) {
if(i === 1) {
code.push("__l:")
}
code.push(["for(i",i,"=0;i",i,"<n",i,";++i",i,"){"].join(""))
}
code.push(["a=", dataRead("sptr"),"\nb=scratch[dptr]\nif(a<b){break __g}\nif(a>b){break __l}"].join(""))
for(var i=order.length-1; i>=1; --i) {
code.push(
"sptr+=e"+i,
"dptr+=f"+i,
"}")
}
//Copy data back
code.push("dptr=cptr;sptr=cptr-s0")
for(var i=order.length-1; i>=0; --i) {
var j = order[i]
if(j === 0) {
continue
}
code.push(["for(i",j,"=0;i",j,"<n",j,";++i",j,"){"].join(""))
}
code.push(dataWrite("dptr", dataRead("sptr")))
for(var i=0; i<order.length; ++i) {
var j = order[i]
if(j === 0) {
continue
}
code.push(["dptr+=d",j,";sptr+=d",j].join(""),"}")
}
//Close while loop
code.push("cptr-=s0\n}")
//Copy scratch into cptr
code.push("dptr=cptr;sptr=0")
for(var i=order.length-1; i>=0; --i) {
var j = order[i]
if(j === 0) {
continue
}
code.push(["for(i",j,"=0;i",j,"<n",j,";++i",j,"){"].join(""))
}
code.push(dataWrite("dptr", "scratch[sptr++]"))
for(var i=0; i<order.length; ++i) {
var j = order[i]
if(j === 0) {
continue
}
code.push("dptr+=d"+j,"}")
}
} else {
code.push("scratch=" + dataRead("ptr"),
"while((j-->left)&&("+dataRead("cptr-s0")+">scratch)){",
dataWrite("cptr", dataRead("cptr-s0")),
"cptr-=s0",
"}",
dataWrite("cptr", "scratch"))
}
//Close outer loop body
code.push("}")
if(order.length > 1 && allocator) {
code.push("free(scratch)")
}
code.push("} return " + funcName)
//Compile and link function
if(allocator) {
var result = new Function("malloc", "free", code.join("\n"))
return result(allocator[0], allocator[1])
} else {
var result = new Function(code.join("\n"))
return result()
}
}
function createQuickSort(order, dtype, insertionSort) {
var code = [ "'use strict'" ]
var funcName = ["ndarrayQuickSort", order.join("d"), dtype].join("")
var funcArgs = ["left", "right", "data", "offset" ].concat(shapeArgs(order.length))
var allocator = getMallocFree(dtype)
var labelCounter=0
code.push(["function ", funcName, "(", funcArgs.join(","), "){"].join(""))
var vars = [
"sixth=((right-left+1)/6)|0",
"index1=left+sixth",
"index5=right-sixth",
"index3=(left+right)>>1",
"index2=index3-sixth",
"index4=index3+sixth",
"el1=index1",
"el2=index2",
"el3=index3",
"el4=index4",
"el5=index5",
"less=left+1",
"great=right-1",
"pivots_are_equal=true",
"tmp",
"tmp0",
"x",
"y",
"z",
"k",
"ptr0",
"ptr1",
"ptr2",
"comp_pivot1=0",
"comp_pivot2=0",
"comp=0"
]
if(order.length > 1) {
var ele_size = []
for(var i=1; i<order.length; ++i) {
ele_size.push("n"+i)
vars.push("i"+i)
}
for(var i=0; i<8; ++i) {
vars.push("b_ptr"+i)
}
vars.push(
"ptr3",
"ptr4",
"ptr5",
"ptr6",
"ptr7",
"pivot_ptr",
"ptr_shift",
"elementSize="+ele_size.join("*"))
if(allocator) {
vars.push("pivot1=malloc(elementSize)",
"pivot2=malloc(elementSize)")
} else {
vars.push("pivot1=new Array(elementSize),pivot2=new Array(elementSize)")
}
} else {
vars.push("pivot1", "pivot2")
}
//Initialize local variables
code.push("var " + vars.join(","))
function toPointer(v) {
return ["(offset+",v,"*s0)"].join("")
}
function dataRead(ptr) {
if(dtype === "generic") {
return ["data.get(", ptr, ")"].join("")
}
return ["data[",ptr,"]"].join("")
}
function dataWrite(ptr, v) {
if(dtype === "generic") {
return ["data.set(", ptr, ",", v, ")"].join("")
}
return ["data[",ptr,"]=",v].join("")
}
function cacheLoop(ptrs, usePivot, body) {
if(ptrs.length === 1) {
code.push("ptr0="+toPointer(ptrs[0]))
} else {
for(var i=0; i<ptrs.length; ++i) {
code.push(["b_ptr",i,"=s0*",ptrs[i]].join(""))
}
}
if(usePivot) {
code.push("pivot_ptr=0")
}
code.push("ptr_shift=offset")
for(var i=order.length-1; i>=0; --i) {
var j = order[i]
if(j === 0) {
continue
}
code.push(["for(i",j,"=0;i",j,"<n",j,";++i",j,"){"].join(""))
}
if(ptrs.length > 1) {
for(var i=0; i<ptrs.length; ++i) {
code.push(["ptr",i,"=b_ptr",i,"+ptr_shift"].join(""))
}
}
code.push(body)
if(usePivot) {
code.push("++pivot_ptr")
}
for(var i=0; i<order.length; ++i) {
var j = order[i]
if(j === 0) {
continue
}
if(ptrs.length>1) {
code.push("ptr_shift+=d"+j)
} else {
code.push("ptr0+=d"+j)
}
code.push("}")
}
}
function lexicoLoop(label, ptrs, usePivot, body) {
if(ptrs.length === 1) {
code.push("ptr0="+toPointer(ptrs[0]))
} else {
for(var i=0; i<ptrs.length; ++i) {
code.push(["b_ptr",i,"=s0*",ptrs[i]].join(""))
}
code.push("ptr_shift=offset")
}
if(usePivot) {
code.push("pivot_ptr=0")
}
if(label) {
code.push(label+":")
}
for(var i=1; i<order.length; ++i) {
code.push(["for(i",i,"=0;i",i,"<n",i,";++i",i,"){"].join(""))
}
if(ptrs.length > 1) {
for(var i=0; i<ptrs.length; ++i) {
code.push(["ptr",i,"=b_ptr",i,"+ptr_shift"].join(""))
}
}
code.push(body)
for(var i=order.length-1; i>=1; --i) {
if(usePivot) {
code.push("pivot_ptr+=f"+i)
}
if(ptrs.length > 1) {
code.push("ptr_shift+=e"+i)
} else {
code.push("ptr0+=e"+i)
}
code.push("}")
}
}
function cleanUp() {
if(order.length > 1 && allocator) {
code.push("free(pivot1)", "free(pivot2)")
}
}
function compareSwap(a_id, b_id) {
var a = "el"+a_id
var b = "el"+b_id
if(order.length > 1) {
var lbl = "__l" + (++labelCounter)
lexicoLoop(lbl, [a, b], false, [
"comp=",dataRead("ptr0"),"-",dataRead("ptr1"),"\n",
"if(comp>0){tmp0=", a, ";",a,"=",b,";", b,"=tmp0;break ", lbl,"}\n",
"if(comp<0){break ", lbl, "}"
].join(""))
} else {
code.push(["if(", dataRead(toPointer(a)), ">", dataRead(toPointer(b)), "){tmp0=", a, ";",a,"=",b,";", b,"=tmp0}"].join(""))
}
}
compareSwap(1, 2)
compareSwap(4, 5)
compareSwap(1, 3)
compareSwap(2, 3)
compareSwap(1, 4)
compareSwap(3, 4)
compareSwap(2, 5)
compareSwap(2, 3)
compareSwap(4, 5)
if(order.length > 1) {
cacheLoop(["el1", "el2", "el3", "el4", "el5", "index1", "index3", "index5"], true, [
"pivot1[pivot_ptr]=",dataRead("ptr1"),"\n",
"pivot2[pivot_ptr]=",dataRead("ptr3"),"\n",
"pivots_are_equal=pivots_are_equal&&(pivot1[pivot_ptr]===pivot2[pivot_ptr])\n",
"x=",dataRead("ptr0"),"\n",
"y=",dataRead("ptr2"),"\n",
"z=",dataRead("ptr4"),"\n",
dataWrite("ptr5", "x"),"\n",
dataWrite("ptr6", "y"),"\n",
dataWrite("ptr7", "z")
].join(""))
} else {
code.push([
"pivot1=", dataRead(toPointer("el2")), "\n",
"pivot2=", dataRead(toPointer("el4")), "\n",
"pivots_are_equal=pivot1===pivot2\n",
"x=", dataRead(toPointer("el1")), "\n",
"y=", dataRead(toPointer("el3")), "\n",
"z=", dataRead(toPointer("el5")), "\n",
dataWrite(toPointer("index1"), "x"), "\n",
dataWrite(toPointer("index3"), "y"), "\n",
dataWrite(toPointer("index5"), "z")
].join(""))
}
function moveElement(dst, src) {
if(order.length > 1) {
cacheLoop([dst, src], false,
dataWrite("ptr0", dataRead("ptr1"))
)
} else {
code.push(dataWrite(toPointer(dst), dataRead(toPointer(src))))
}
}
moveElement("index2", "left")
moveElement("index4", "right")
function comparePivot(result, ptr, n) {
if(order.length > 1) {
var lbl = "__l" + (++labelCounter)
lexicoLoop(lbl, [ptr], true, [
result,"=",dataRead("ptr0"),"-pivot",n,"[pivot_ptr]\n",
"if(",result,"!==0){break ", lbl, "}"
].join(""))
} else {
code.push([result,"=", dataRead(toPointer(ptr)), "-pivot", n].join(""))
}
}
function swapElements(a, b) {
if(order.length > 1) {
cacheLoop([a,b],false,[
"tmp=",dataRead("ptr0"),"\n",
dataWrite("ptr0", dataRead("ptr1")),"\n",
dataWrite("ptr1", "tmp")
].join(""))
} else {
code.push([
"ptr0=",toPointer(a),"\n",
"ptr1=",toPointer(b),"\n",
"tmp=",dataRead("ptr0"),"\n",
dataWrite("ptr0", dataRead("ptr1")),"\n",
dataWrite("ptr1", "tmp")
].join(""))
}
}
function tripleSwap(k, less, great) {
if(order.length > 1) {
cacheLoop([k,less,great], false, [
"tmp=",dataRead("ptr0"),"\n",
dataWrite("ptr0", dataRead("ptr1")),"\n",
dataWrite("ptr1", dataRead("ptr2")),"\n",
dataWrite("ptr2", "tmp")
].join(""))
code.push("++"+less, "--"+great)
} else {
code.push([
"ptr0=",toPointer(k),"\n",
"ptr1=",toPointer(less),"\n",
"ptr2=",toPointer(great),"\n",
"++",less,"\n",
"--",great,"\n",
"tmp=", dataRead("ptr0"), "\n",
dataWrite("ptr0", dataRead("ptr1")), "\n",
dataWrite("ptr1", dataRead("ptr2")), "\n",
dataWrite("ptr2", "tmp")
].join(""))
}
}
function swapAndDecrement(k, great) {
swapElements(k, great)
code.push("--"+great)
}
code.push("if(pivots_are_equal){")
//Pivots are equal case
code.push("for(k=less;k<=great;++k){")
comparePivot("comp", "k", 1)
code.push("if(comp===0){continue}")
code.push("if(comp<0){")
code.push("if(k!==less){")
swapElements("k", "less")
code.push("}")
code.push("++less")
code.push("}else{")
code.push("while(true){")
comparePivot("comp", "great", 1)
code.push("if(comp>0){")
code.push("great--")
code.push("}else if(comp<0){")
tripleSwap("k", "less", "great")
code.push("break")
code.push("}else{")
swapAndDecrement("k", "great")
code.push("break")
code.push("}")
code.push("}")
code.push("}")
code.push("}")
code.push("}else{")
//Pivots not equal case
code.push("for(k=less;k<=great;++k){")
comparePivot("comp_pivot1", "k", 1)
code.push("if(comp_pivot1<0){")
code.push("if(k!==less){")
swapElements("k", "less")
code.push("}")
code.push("++less")
code.push("}else{")
comparePivot("comp_pivot2", "k", 2)
code.push("if(comp_pivot2>0){")
code.push("while(true){")
comparePivot("comp", "great", 2)
code.push("if(comp>0){")
code.push("if(--great<k){break}")
code.push("continue")
code.push("}else{")
comparePivot("comp", "great", 1)
code.push("if(comp<0){")
tripleSwap("k", "less", "great")
code.push("}else{")
swapAndDecrement("k", "great")
code.push("}")
code.push("break")
code.push("}")
code.push("}")
code.push("}")
code.push("}")
code.push("}")
code.push("}")
//Move pivots to correct place
function storePivot(mem_dest, pivot_dest, pivot) {
if(order.length>1) {
cacheLoop([mem_dest, pivot_dest], true, [
dataWrite("ptr0", dataRead("ptr1")), "\n",
dataWrite("ptr1", ["pivot",pivot,"[pivot_ptr]"].join(""))
].join(""))
} else {
code.push(
dataWrite(toPointer(mem_dest), dataRead(toPointer(pivot_dest))),
dataWrite(toPointer(pivot_dest), "pivot"+pivot))
}
}
storePivot("left", "(less-1)", 1)
storePivot("right", "(great+1)", 2)
//Recursive sort call
function doSort(left, right) {
code.push([
"if((",right,"-",left,")<=",INSERTION_SORT_THRESHOLD,"){\n",
"insertionSort(", left, ",", right, ",data,offset,", shapeArgs(order.length).join(","), ")\n",
"}else{\n",
funcName, "(", left, ",", right, ",data,offset,", shapeArgs(order.length).join(","), ")\n",
"}"
].join(""))
}
doSort("left", "(less-2)")
doSort("(great+2)", "right")
//If pivots are equal, then early out
code.push("if(pivots_are_equal){")
cleanUp()
code.push("return")
code.push("}")
function walkPointer(ptr, pivot, body) {
if(order.length > 1) {
code.push(["__l",++labelCounter,":while(true){"].join(""))
cacheLoop([ptr], true, [
"if(", dataRead("ptr0"), "!==pivot", pivot, "[pivot_ptr]){break __l", labelCounter, "}"
].join(""))
code.push(body, "}")
} else {
code.push(["while(", dataRead(toPointer(ptr)), "===pivot", pivot, "){", body, "}"].join(""))
}
}
//Check bounds
code.push("if(less<index1&&great>index5){")
walkPointer("less", 1, "++less")
walkPointer("great", 2, "--great")
code.push("for(k=less;k<=great;++k){")
comparePivot("comp_pivot1", "k", 1)
code.push("if(comp_pivot1===0){")
code.push("if(k!==less){")
swapElements("k", "less")
code.push("}")
code.push("++less")
code.push("}else{")
comparePivot("comp_pivot2", "k", 2)
code.push("if(comp_pivot2===0){")
code.push("while(true){")
comparePivot("comp", "great", 2)
code.push("if(comp===0){")
code.push("if(--great<k){break}")
code.push("continue")
code.push("}else{")
comparePivot("comp", "great", 1)
code.push("if(comp<0){")
tripleSwap("k", "less", "great")
code.push("}else{")
swapAndDecrement("k", "great")
code.push("}")
code.push("break")
code.push("}")
code.push("}")
code.push("}")
code.push("}")
code.push("}")
code.push("}")
//Clean up and do a final sorting pass
cleanUp()
doSort("less", "great")
//Close off main loop
code.push("}return " + funcName)
//Compile and link
if(order.length > 1 && allocator) {
var compiled = new Function("insertionSort", "malloc", "free", code.join("\n"))
return compiled(insertionSort, allocator[0], allocator[1])
}
var compiled = new Function("insertionSort", code.join("\n"))
return compiled(insertionSort)
}
function compileSort(order, dtype) {
var code = ["'use strict'"]
var funcName = ["ndarraySortWrapper", order.join("d"), dtype].join("")
var funcArgs = [ "array" ]
code.push(["function ", funcName, "(", funcArgs.join(","), "){"].join(""))
//Unpack local variables from array
var vars = ["data=array.data,offset=array.offset|0,shape=array.shape,stride=array.stride"]
for(var i=0; i<order.length; ++i) {
vars.push(["s",i,"=stride[",i,"]|0,n",i,"=shape[",i,"]|0"].join(""))
}
var scratch_stride = new Array(order.length)
var nprod = []
for(var i=0; i<order.length; ++i) {
var k = order[i]
if(k === 0) {
continue
}
if(nprod.length === 0) {
scratch_stride[k] = "1"
} else {
scratch_stride[k] = nprod.join("*")
}
nprod.push("n"+k)
}
var p = -1, q = -1
for(var i=0; i<order.length; ++i) {
var j = order[i]
if(j !== 0) {
if(p > 0) {
vars.push(["d",j,"=s",j,"-d",p,"*n",p].join(""))
} else {
vars.push(["d",j,"=s",j].join(""))
}
p = j
}
var k = order.length-1-i
if(k !== 0) {
if(q > 0) {
vars.push(["e",k,"=s",k,"-e",q,"*n",q,
",f",k,"=",scratch_stride[k],"-f",q,"*n",q].join(""))
} else {
vars.push(["e",k,"=s",k,",f",k,"=",scratch_stride[k]].join(""))
}
q = k
}
}
//Declare local variables
code.push("var " + vars.join(","))
//Create arguments for subroutine
var sortArgs = ["0", "n0-1", "data", "offset"].concat(shapeArgs(order.length))
//Call main sorting routine
code.push([
"if(n0<=",INSERTION_SORT_THRESHOLD,"){",
"insertionSort(", sortArgs.join(","), ")}else{",
"quickSort(", sortArgs.join(","),
")}"
].join(""))
//Return
code.push("}return " + funcName)
//Link everything together
var result = new Function("insertionSort", "quickSort", code.join("\n"))
var insertionSort = createInsertionSort(order, dtype)
var quickSort = createQuickSort(order, dtype, insertionSort)
return result(insertionSort, quickSort)
}
module.exports = compileSort
},{"typedarray-pool":519}],428:[function(_dereq_,module,exports){
"use strict"
var compile = _dereq_("./lib/compile_sort.js")
var CACHE = {}
function sort(array) {
var order = array.order
var dtype = array.dtype
var typeSig = [order, dtype ]
var typeName = typeSig.join(":")
var compiled = CACHE[typeName]
if(!compiled) {
CACHE[typeName] = compiled = compile(order, dtype)
}
compiled(array)
return array
}
module.exports = sort
},{"./lib/compile_sort.js":427}],429:[function(_dereq_,module,exports){
'use strict'
var interp = _dereq_('ndarray-linear-interpolate')
var do_warp = _dereq_('cwise/lib/wrapper')({"args":["index","array","scalar","scalar","scalar"],"pre":{"body":"{this_warped=new Array(_inline_3_arg4_)}","args":[{"name":"_inline_3_arg0_","lvalue":false,"rvalue":false,"count":0},{"name":"_inline_3_arg1_","lvalue":false,"rvalue":false,"count":0},{"name":"_inline_3_arg2_","lvalue":false,"rvalue":false,"count":0},{"name":"_inline_3_arg3_","lvalue":false,"rvalue":false,"count":0},{"name":"_inline_3_arg4_","lvalue":false,"rvalue":true,"count":1}],"thisVars":["this_warped"],"localVars":[]},"body":{"body":"{_inline_4_arg2_(this_warped,_inline_4_arg0_),_inline_4_arg1_=_inline_4_arg3_.apply(void 0,this_warped)}","args":[{"name":"_inline_4_arg0_","lvalue":false,"rvalue":true,"count":1},{"name":"_inline_4_arg1_","lvalue":true,"rvalue":false,"count":1},{"name":"_inline_4_arg2_","lvalue":false,"rvalue":true,"count":1},{"name":"_inline_4_arg3_","lvalue":false,"rvalue":true,"count":1},{"name":"_inline_4_arg4_","lvalue":false,"rvalue":false,"count":0}],"thisVars":["this_warped"],"localVars":[]},"post":{"body":"{}","args":[],"thisVars":[],"localVars":[]},"debug":false,"funcName":"warpND","blockSize":64})
var do_warp_1 = _dereq_('cwise/lib/wrapper')({"args":["index","array","scalar","scalar","scalar"],"pre":{"body":"{this_warped=[0]}","args":[],"thisVars":["this_warped"],"localVars":[]},"body":{"body":"{_inline_7_arg2_(this_warped,_inline_7_arg0_),_inline_7_arg1_=_inline_7_arg3_(_inline_7_arg4_,this_warped[0])}","args":[{"name":"_inline_7_arg0_","lvalue":false,"rvalue":true,"count":1},{"name":"_inline_7_arg1_","lvalue":true,"rvalue":false,"count":1},{"name":"_inline_7_arg2_","lvalue":false,"rvalue":true,"count":1},{"name":"_inline_7_arg3_","lvalue":false,"rvalue":true,"count":1},{"name":"_inline_7_arg4_","lvalue":false,"rvalue":true,"count":1}],"thisVars":["this_warped"],"localVars":[]},"post":{"body":"{}","args":[],"thisVars":[],"localVars":[]},"debug":false,"funcName":"warp1D","blockSize":64})
var do_warp_2 = _dereq_('cwise/lib/wrapper')({"args":["index","array","scalar","scalar","scalar"],"pre":{"body":"{this_warped=[0,0]}","args":[],"thisVars":["this_warped"],"localVars":[]},"body":{"body":"{_inline_10_arg2_(this_warped,_inline_10_arg0_),_inline_10_arg1_=_inline_10_arg3_(_inline_10_arg4_,this_warped[0],this_warped[1])}","args":[{"name":"_inline_10_arg0_","lvalue":false,"rvalue":true,"count":1},{"name":"_inline_10_arg1_","lvalue":true,"rvalue":false,"count":1},{"name":"_inline_10_arg2_","lvalue":false,"rvalue":true,"count":1},{"name":"_inline_10_arg3_","lvalue":false,"rvalue":true,"count":1},{"name":"_inline_10_arg4_","lvalue":false,"rvalue":true,"count":1}],"thisVars":["this_warped"],"localVars":[]},"post":{"body":"{}","args":[],"thisVars":[],"localVars":[]},"debug":false,"funcName":"warp2D","blockSize":64})
var do_warp_3 = _dereq_('cwise/lib/wrapper')({"args":["index","array","scalar","scalar","scalar"],"pre":{"body":"{this_warped=[0,0,0]}","args":[],"thisVars":["this_warped"],"localVars":[]},"body":{"body":"{_inline_13_arg2_(this_warped,_inline_13_arg0_),_inline_13_arg1_=_inline_13_arg3_(_inline_13_arg4_,this_warped[0],this_warped[1],this_warped[2])}","args":[{"name":"_inline_13_arg0_","lvalue":false,"rvalue":true,"count":1},{"name":"_inline_13_arg1_","lvalue":true,"rvalue":false,"count":1},{"name":"_inline_13_arg2_","lvalue":false,"rvalue":true,"count":1},{"name":"_inline_13_arg3_","lvalue":false,"rvalue":true,"count":1},{"name":"_inline_13_arg4_","lvalue":false,"rvalue":true,"count":1}],"thisVars":["this_warped"],"localVars":[]},"post":{"body":"{}","args":[],"thisVars":[],"localVars":[]},"debug":false,"funcName":"warp3D","blockSize":64})
module.exports = function warp(dest, src, func) {
switch(src.shape.length) {
case 1:
do_warp_1(dest, func, interp.d1, src)
break
case 2:
do_warp_2(dest, func, interp.d2, src)
break
case 3:
do_warp_3(dest, func, interp.d3, src)
break
default:
do_warp(dest, func, interp.bind(undefined, src), src.shape.length)
break
}
return dest
}
},{"cwise/lib/wrapper":136,"ndarray-linear-interpolate":423}],430:[function(_dereq_,module,exports){
var iota = _dereq_("iota-array")
var isBuffer = _dereq_("is-buffer")
var hasTypedArrays = ((typeof Float64Array) !== "undefined")
function compare1st(a, b) {
return a[0] - b[0]
}
function order() {
var stride = this.stride
var terms = new Array(stride.length)
var i
for(i=0; i<terms.length; ++i) {
terms[i] = [Math.abs(stride[i]), i]
}
terms.sort(compare1st)
var result = new Array(terms.length)
for(i=0; i<result.length; ++i) {
result[i] = terms[i][1]
}
return result
}
function compileConstructor(dtype, dimension) {
var className = ["View", dimension, "d", dtype].join("")
if(dimension < 0) {
className = "View_Nil" + dtype
}
var useGetters = (dtype === "generic")
if(dimension === -1) {
//Special case for trivial arrays
var code =
"function "+className+"(a){this.data=a;};\
var proto="+className+".prototype;\
proto.dtype='"+dtype+"';\
proto.index=function(){return -1};\
proto.size=0;\
proto.dimension=-1;\
proto.shape=proto.stride=proto.order=[];\
proto.lo=proto.hi=proto.transpose=proto.step=\
function(){return new "+className+"(this.data);};\
proto.get=proto.set=function(){};\
proto.pick=function(){return null};\
return function construct_"+className+"(a){return new "+className+"(a);}"
var procedure = new Function(code)
return procedure()
} else if(dimension === 0) {
//Special case for 0d arrays
var code =
"function "+className+"(a,d) {\
this.data = a;\
this.offset = d\
};\
var proto="+className+".prototype;\
proto.dtype='"+dtype+"';\
proto.index=function(){return this.offset};\
proto.dimension=0;\
proto.size=1;\
proto.shape=\
proto.stride=\
proto.order=[];\
proto.lo=\
proto.hi=\
proto.transpose=\
proto.step=function "+className+"_copy() {\
return new "+className+"(this.data,this.offset)\
};\
proto.pick=function "+className+"_pick(){\
return TrivialArray(this.data);\
};\
proto.valueOf=proto.get=function "+className+"_get(){\
return "+(useGetters ? "this.data.get(this.offset)" : "this.data[this.offset]")+
"};\
proto.set=function "+className+"_set(v){\
return "+(useGetters ? "this.data.set(this.offset,v)" : "this.data[this.offset]=v")+"\
};\
return function construct_"+className+"(a,b,c,d){return new "+className+"(a,d)}"
var procedure = new Function("TrivialArray", code)
return procedure(CACHED_CONSTRUCTORS[dtype][0])
}
var code = ["'use strict'"]
//Create constructor for view
var indices = iota(dimension)
var args = indices.map(function(i) { return "i"+i })
var index_str = "this.offset+" + indices.map(function(i) {
return "this.stride[" + i + "]*i" + i
}).join("+")
var shapeArg = indices.map(function(i) {
return "b"+i
}).join(",")
var strideArg = indices.map(function(i) {
return "c"+i
}).join(",")
code.push(
"function "+className+"(a," + shapeArg + "," + strideArg + ",d){this.data=a",
"this.shape=[" + shapeArg + "]",
"this.stride=[" + strideArg + "]",
"this.offset=d|0}",
"var proto="+className+".prototype",
"proto.dtype='"+dtype+"'",
"proto.dimension="+dimension)
//view.size:
code.push("Object.defineProperty(proto,'size',{get:function "+className+"_size(){\
return "+indices.map(function(i) { return "this.shape["+i+"]" }).join("*"),
"}})")
//view.order:
if(dimension === 1) {
code.push("proto.order=[0]")
} else {
code.push("Object.defineProperty(proto,'order',{get:")
if(dimension < 4) {
code.push("function "+className+"_order(){")
if(dimension === 2) {
code.push("return (Math.abs(this.stride[0])>Math.abs(this.stride[1]))?[1,0]:[0,1]}})")
} else if(dimension === 3) {
code.push(
"var s0=Math.abs(this.stride[0]),s1=Math.abs(this.stride[1]),s2=Math.abs(this.stride[2]);\
if(s0>s1){\
if(s1>s2){\
return [2,1,0];\
}else if(s0>s2){\
return [1,2,0];\
}else{\
return [1,0,2];\
}\
}else if(s0>s2){\
return [2,0,1];\
}else if(s2>s1){\
return [0,1,2];\
}else{\
return [0,2,1];\
}}})")
}
} else {
code.push("ORDER})")
}
}
//view.set(i0, ..., v):
code.push(
"proto.set=function "+className+"_set("+args.join(",")+",v){")
if(useGetters) {
code.push("return this.data.set("+index_str+",v)}")
} else {
code.push("return this.data["+index_str+"]=v}")
}
//view.get(i0, ...):
code.push("proto.get=function "+className+"_get("+args.join(",")+"){")
if(useGetters) {
code.push("return this.data.get("+index_str+")}")
} else {
code.push("return this.data["+index_str+"]}")
}
//view.index:
code.push(
"proto.index=function "+className+"_index(", args.join(), "){return "+index_str+"}")
//view.hi():
code.push("proto.hi=function "+className+"_hi("+args.join(",")+"){return new "+className+"(this.data,"+
indices.map(function(i) {
return ["(typeof i",i,"!=='number'||i",i,"<0)?this.shape[", i, "]:i", i,"|0"].join("")
}).join(",")+","+
indices.map(function(i) {
return "this.stride["+i + "]"
}).join(",")+",this.offset)}")
//view.lo():
var a_vars = indices.map(function(i) { return "a"+i+"=this.shape["+i+"]" })
var c_vars = indices.map(function(i) { return "c"+i+"=this.stride["+i+"]" })
code.push("proto.lo=function "+className+"_lo("+args.join(",")+"){var b=this.offset,d=0,"+a_vars.join(",")+","+c_vars.join(","))
for(var i=0; i<dimension; ++i) {
code.push(
"if(typeof i"+i+"==='number'&&i"+i+">=0){\
d=i"+i+"|0;\
b+=c"+i+"*d;\
a"+i+"-=d}")
}
code.push("return new "+className+"(this.data,"+
indices.map(function(i) {
return "a"+i
}).join(",")+","+
indices.map(function(i) {
return "c"+i
}).join(",")+",b)}")
//view.step():
code.push("proto.step=function "+className+"_step("+args.join(",")+"){var "+
indices.map(function(i) {
return "a"+i+"=this.shape["+i+"]"
}).join(",")+","+
indices.map(function(i) {
return "b"+i+"=this.stride["+i+"]"
}).join(",")+",c=this.offset,d=0,ceil=Math.ceil")
for(var i=0; i<dimension; ++i) {
code.push(
"if(typeof i"+i+"==='number'){\
d=i"+i+"|0;\
if(d<0){\
c+=b"+i+"*(a"+i+"-1);\
a"+i+"=ceil(-a"+i+"/d)\
}else{\
a"+i+"=ceil(a"+i+"/d)\
}\
b"+i+"*=d\
}")
}
code.push("return new "+className+"(this.data,"+
indices.map(function(i) {
return "a" + i
}).join(",")+","+
indices.map(function(i) {
return "b" + i
}).join(",")+",c)}")
//view.transpose():
var tShape = new Array(dimension)
var tStride = new Array(dimension)
for(var i=0; i<dimension; ++i) {
tShape[i] = "a[i"+i+"]"
tStride[i] = "b[i"+i+"]"
}
code.push("proto.transpose=function "+className+"_transpose("+args+"){"+
args.map(function(n,idx) { return n + "=(" + n + "===undefined?" + idx + ":" + n + "|0)"}).join(";"),
"var a=this.shape,b=this.stride;return new "+className+"(this.data,"+tShape.join(",")+","+tStride.join(",")+",this.offset)}")
//view.pick():
code.push("proto.pick=function "+className+"_pick("+args+"){var a=[],b=[],c=this.offset")
for(var i=0; i<dimension; ++i) {
code.push("if(typeof i"+i+"==='number'&&i"+i+">=0){c=(c+this.stride["+i+"]*i"+i+")|0}else{a.push(this.shape["+i+"]);b.push(this.stride["+i+"])}")
}
code.push("var ctor=CTOR_LIST[a.length+1];return ctor(this.data,a,b,c)}")
//Add return statement
code.push("return function construct_"+className+"(data,shape,stride,offset){return new "+className+"(data,"+
indices.map(function(i) {
return "shape["+i+"]"
}).join(",")+","+
indices.map(function(i) {
return "stride["+i+"]"
}).join(",")+",offset)}")
//Compile procedure
var procedure = new Function("CTOR_LIST", "ORDER", code.join("\n"))
return procedure(CACHED_CONSTRUCTORS[dtype], order)
}
function arrayDType(data) {
if(isBuffer(data)) {
return "buffer"
}
if(hasTypedArrays) {
switch(Object.prototype.toString.call(data)) {
case "[object Float64Array]":
return "float64"
case "[object Float32Array]":
return "float32"
case "[object Int8Array]":
return "int8"
case "[object Int16Array]":
return "int16"
case "[object Int32Array]":
return "int32"
case "[object Uint8Array]":
return "uint8"
case "[object Uint16Array]":
return "uint16"
case "[object Uint32Array]":
return "uint32"
case "[object Uint8ClampedArray]":
return "uint8_clamped"
}
}
if(Array.isArray(data)) {
return "array"
}
return "generic"
}
var CACHED_CONSTRUCTORS = {
"float32":[],
"float64":[],
"int8":[],
"int16":[],
"int32":[],
"uint8":[],
"uint16":[],
"uint32":[],
"array":[],
"uint8_clamped":[],
"buffer":[],
"generic":[]
}
;(function() {
for(var id in CACHED_CONSTRUCTORS) {
CACHED_CONSTRUCTORS[id].push(compileConstructor(id, -1))
}
});
function wrappedNDArrayCtor(data, shape, stride, offset) {
if(data === undefined) {
var ctor = CACHED_CONSTRUCTORS.array[0]
return ctor([])
} else if(typeof data === "number") {
data = [data]
}
if(shape === undefined) {
shape = [ data.length ]
}
var d = shape.length
if(stride === undefined) {
stride = new Array(d)
for(var i=d-1, sz=1; i>=0; --i) {
stride[i] = sz
sz *= shape[i]
}
}
if(offset === undefined) {
offset = 0
for(var i=0; i<d; ++i) {
if(stride[i] < 0) {
offset -= (shape[i]-1)*stride[i]
}
}
}
var dtype = arrayDType(data)
var ctor_list = CACHED_CONSTRUCTORS[dtype]
while(ctor_list.length <= d+1) {
ctor_list.push(compileConstructor(dtype, ctor_list.length-1))
}
var ctor = ctor_list[d+1]
return ctor(data, shape, stride, offset)
}
module.exports = wrappedNDArrayCtor
},{"iota-array":397,"is-buffer":399}],431:[function(_dereq_,module,exports){
"use strict"
var doubleBits = _dereq_("double-bits")
var SMALLEST_DENORM = Math.pow(2, -1074)
var UINT_MAX = (-1)>>>0
module.exports = nextafter
function nextafter(x, y) {
if(isNaN(x) || isNaN(y)) {
return NaN
}
if(x === y) {
return x
}
if(x === 0) {
if(y < 0) {
return -SMALLEST_DENORM
} else {
return SMALLEST_DENORM
}
}
var hi = doubleBits.hi(x)
var lo = doubleBits.lo(x)
if((y > x) === (x > 0)) {
if(lo === UINT_MAX) {
hi += 1
lo = 0
} else {
lo += 1
}
} else {
if(lo === 0) {
lo = UINT_MAX
hi -= 1
} else {
lo -= 1
}
}
return doubleBits.pack(lo, hi)
}
},{"double-bits":151}],432:[function(_dereq_,module,exports){
var π = Math.PI
var _120 = radians(120)
module.exports = normalize
/**
* describe `path` in terms of cubic bézier
* curves and move commands
*
* @param {Array} path
* @return {Array}
*/
function normalize(path){
// init state
var prev
var result = []
var bezierX = 0
var bezierY = 0
var startX = 0
var startY = 0
var quadX = null
var quadY = null
var x = 0
var y = 0
for (var i = 0, len = path.length; i < len; i++) {
var seg = path[i]
var command = seg[0]
switch (command) {
case 'M':
startX = seg[1]
startY = seg[2]
break
case 'A':
seg = arc(x, y,seg[1],seg[2],radians(seg[3]),seg[4],seg[5],seg[6],seg[7])
// split multi part
seg.unshift('C')
if (seg.length > 7) {
result.push(seg.splice(0, 7))
seg.unshift('C')
}
break
case 'S':
// default control point
var cx = x
var cy = y
if (prev == 'C' || prev == 'S') {
cx += cx - bezierX // reflect the previous command's control
cy += cy - bezierY // point relative to the current point
}
seg = ['C', cx, cy, seg[1], seg[2], seg[3], seg[4]]
break
case 'T':
if (prev == 'Q' || prev == 'T') {
quadX = x * 2 - quadX // as with 'S' reflect previous control point
quadY = y * 2 - quadY
} else {
quadX = x
quadY = y
}
seg = quadratic(x, y, quadX, quadY, seg[1], seg[2])
break
case 'Q':
quadX = seg[1]
quadY = seg[2]
seg = quadratic(x, y, seg[1], seg[2], seg[3], seg[4])
break
case 'L':
seg = line(x, y, seg[1], seg[2])
break
case 'H':
seg = line(x, y, seg[1], y)
break
case 'V':
seg = line(x, y, x, seg[1])
break
case 'Z':
seg = line(x, y, startX, startY)
break
}
// update state
prev = command
x = seg[seg.length - 2]
y = seg[seg.length - 1]
if (seg.length > 4) {
bezierX = seg[seg.length - 4]
bezierY = seg[seg.length - 3]
} else {
bezierX = x
bezierY = y
}
result.push(seg)
}
return result
}
function line(x1, y1, x2, y2){
return ['C', x1, y1, x2, y2, x2, y2]
}
function quadratic(x1, y1, cx, cy, x2, y2){
return [
'C',
x1/3 + (2/3) * cx,
y1/3 + (2/3) * cy,
x2/3 + (2/3) * cx,
y2/3 + (2/3) * cy,
x2,
y2
]
}
// This function is ripped from
// github.com/DmitryBaranovskiy/raphael/blob/4d97d4/raphael.js#L2216-L2304
// which references w3.org/TR/SVG11/implnote.html#ArcImplementationNotes
// TODO: make it human readable
function arc(x1, y1, rx, ry, angle, large_arc_flag, sweep_flag, x2, y2, recursive) {
if (!recursive) {
var xy = rotate(x1, y1, -angle)
x1 = xy.x
y1 = xy.y
xy = rotate(x2, y2, -angle)
x2 = xy.x
y2 = xy.y
var x = (x1 - x2) / 2
var y = (y1 - y2) / 2
var h = (x * x) / (rx * rx) + (y * y) / (ry * ry)
if (h > 1) {
h = Math.sqrt(h)
rx = h * rx
ry = h * ry
}
var rx2 = rx * rx
var ry2 = ry * ry
var k = (large_arc_flag == sweep_flag ? -1 : 1)
* Math.sqrt(Math.abs((rx2 * ry2 - rx2 * y * y - ry2 * x * x) / (rx2 * y * y + ry2 * x * x)))
if (k == Infinity) k = 1 // neutralize
var cx = k * rx * y / ry + (x1 + x2) / 2
var cy = k * -ry * x / rx + (y1 + y2) / 2
var f1 = Math.asin(((y1 - cy) / ry).toFixed(9))
var f2 = Math.asin(((y2 - cy) / ry).toFixed(9))
f1 = x1 < cx ? π - f1 : f1
f2 = x2 < cx ? π - f2 : f2
if (f1 < 0) f1 = π * 2 + f1
if (f2 < 0) f2 = π * 2 + f2
if (sweep_flag && f1 > f2) f1 = f1 - π * 2
if (!sweep_flag && f2 > f1) f2 = f2 - π * 2
} else {
f1 = recursive[0]
f2 = recursive[1]
cx = recursive[2]
cy = recursive[3]
}
// greater than 120 degrees requires multiple segments
if (Math.abs(f2 - f1) > _120) {
var f2old = f2
var x2old = x2
var y2old = y2
f2 = f1 + _120 * (sweep_flag && f2 > f1 ? 1 : -1)
x2 = cx + rx * Math.cos(f2)
y2 = cy + ry * Math.sin(f2)
var res = arc(x2, y2, rx, ry, angle, 0, sweep_flag, x2old, y2old, [f2, f2old, cx, cy])
}
var t = Math.tan((f2 - f1) / 4)
var hx = 4 / 3 * rx * t
var hy = 4 / 3 * ry * t
var curve = [
2 * x1 - (x1 + hx * Math.sin(f1)),
2 * y1 - (y1 - hy * Math.cos(f1)),
x2 + hx * Math.sin(f2),
y2 - hy * Math.cos(f2),
x2,
y2
]
if (recursive) return curve
if (res) curve = curve.concat(res)
for (var i = 0; i < curve.length;) {
var rot = rotate(curve[i], curve[i+1], angle)
curve[i++] = rot.x
curve[i++] = rot.y
}
return curve
}
function rotate(x, y, rad){
return {
x: x * Math.cos(rad) - y * Math.sin(rad),
y: x * Math.sin(rad) + y * Math.cos(rad)
}
}
function radians(degress){
return degress * (π / 180)
}
},{}],433:[function(_dereq_,module,exports){
var DEFAULT_NORMALS_EPSILON = 1e-6;
var DEFAULT_FACE_EPSILON = 1e-6;
//Estimate the vertex normals of a mesh
exports.vertexNormals = function(faces, positions, specifiedEpsilon) {
var N = positions.length;
var normals = new Array(N);
var epsilon = specifiedEpsilon === void(0) ? DEFAULT_NORMALS_EPSILON : specifiedEpsilon;
//Initialize normal array
for(var i=0; i<N; ++i) {
normals[i] = [0.0, 0.0, 0.0];
}
//Walk over all the faces and add per-vertex contribution to normal weights
for(var i=0; i<faces.length; ++i) {
var f = faces[i];
var p = 0;
var c = f[f.length-1];
var n = f[0];
for(var j=0; j<f.length; ++j) {
//Shift indices back
p = c;
c = n;
n = f[(j+1) % f.length];
var v0 = positions[p];
var v1 = positions[c];
var v2 = positions[n];
//Compute infineteismal arcs
var d01 = new Array(3);
var m01 = 0.0;
var d21 = new Array(3);
var m21 = 0.0;
for(var k=0; k<3; ++k) {
d01[k] = v0[k] - v1[k];
m01 += d01[k] * d01[k];
d21[k] = v2[k] - v1[k];
m21 += d21[k] * d21[k];
}
//Accumulate values in normal
if(m01 * m21 > epsilon) {
var norm = normals[c];
var w = 1.0 / Math.sqrt(m01 * m21);
for(var k=0; k<3; ++k) {
var u = (k+1)%3;
var v = (k+2)%3;
norm[k] += w * (d21[u] * d01[v] - d21[v] * d01[u]);
}
}
}
}
//Scale all normals to unit length
for(var i=0; i<N; ++i) {
var norm = normals[i];
var m = 0.0;
for(var k=0; k<3; ++k) {
m += norm[k] * norm[k];
}
if(m > epsilon) {
var w = 1.0 / Math.sqrt(m);
for(var k=0; k<3; ++k) {
norm[k] *= w;
}
} else {
for(var k=0; k<3; ++k) {
norm[k] = 0.0;
}
}
}
//Return the resulting set of patches
return normals;
}
//Compute face normals of a mesh
exports.faceNormals = function(faces, positions, specifiedEpsilon) {
var N = faces.length;
var normals = new Array(N);
var epsilon = specifiedEpsilon === void(0) ? DEFAULT_FACE_EPSILON : specifiedEpsilon;
for(var i=0; i<N; ++i) {
var f = faces[i];
var pos = new Array(3);
for(var j=0; j<3; ++j) {
pos[j] = positions[f[j]];
}
var d01 = new Array(3);
var d21 = new Array(3);
for(var j=0; j<3; ++j) {
d01[j] = pos[1][j] - pos[0][j];
d21[j] = pos[2][j] - pos[0][j];
}
var n = new Array(3);
var l = 0.0;
for(var j=0; j<3; ++j) {
var u = (j+1)%3;
var v = (j+2)%3;
n[j] = d01[u] * d21[v] - d01[v] * d21[u];
l += n[j] * n[j];
}
if(l > epsilon) {
l = 1.0 / Math.sqrt(l);
} else {
l = 0.0;
}
for(var j=0; j<3; ++j) {
n[j] *= l;
}
normals[i] = n;
}
return normals;
}
},{}],434:[function(_dereq_,module,exports){
/*
object-assign
(c) Sindre Sorhus
@license MIT
*/
'use strict';
/* eslint-disable no-unused-vars */
var getOwnPropertySymbols = Object.getOwnPropertySymbols;
var hasOwnProperty = Object.prototype.hasOwnProperty;
var propIsEnumerable = Object.prototype.propertyIsEnumerable;
function toObject(val) {
if (val === null || val === undefined) {
throw new TypeError('Object.assign cannot be called with null or undefined');
}
return Object(val);
}
function shouldUseNative() {
try {
if (!Object.assign) {
return false;
}
// Detect buggy property enumeration order in older V8 versions.
// https://bugs.chromium.org/p/v8/issues/detail?id=4118
var test1 = new String('abc'); // eslint-disable-line no-new-wrappers
test1[5] = 'de';
if (Object.getOwnPropertyNames(test1)[0] === '5') {
return false;
}
// https://bugs.chromium.org/p/v8/issues/detail?id=3056
var test2 = {};
for (var i = 0; i < 10; i++) {
test2['_' + String.fromCharCode(i)] = i;
}
var order2 = Object.getOwnPropertyNames(test2).map(function (n) {
return test2[n];
});
if (order2.join('') !== '0123456789') {
return false;
}
// https://bugs.chromium.org/p/v8/issues/detail?id=3056
var test3 = {};
'abcdefghijklmnopqrst'.split('').forEach(function (letter) {
test3[letter] = letter;
});
if (Object.keys(Object.assign({}, test3)).join('') !==
'abcdefghijklmnopqrst') {
return false;
}
return true;
} catch (err) {
// We don't expect any of the above to throw, but better to be safe.
return false;
}
}
module.exports = shouldUseNative() ? Object.assign : function (target, source) {
var from;
var to = toObject(target);
var symbols;
for (var s = 1; s < arguments.length; s++) {
from = Object(arguments[s]);
for (var key in from) {
if (hasOwnProperty.call(from, key)) {
to[key] = from[key];
}
}
if (getOwnPropertySymbols) {
symbols = getOwnPropertySymbols(from);
for (var i = 0; i < symbols.length; i++) {
if (propIsEnumerable.call(from, symbols[i])) {
to[symbols[i]] = from[symbols[i]];
}
}
}
}
return to;
};
},{}],435:[function(_dereq_,module,exports){
'use strict'
module.exports = quatFromFrame
function quatFromFrame(
out,
rx, ry, rz,
ux, uy, uz,
fx, fy, fz) {
var tr = rx + uy + fz
if(l > 0) {
var l = Math.sqrt(tr + 1.0)
out[0] = 0.5 * (uz - fy) / l
out[1] = 0.5 * (fx - rz) / l
out[2] = 0.5 * (ry - uy) / l
out[3] = 0.5 * l
} else {
var tf = Math.max(rx, uy, fz)
var l = Math.sqrt(2 * tf - tr + 1.0)
if(rx >= tf) {
//x y z order
out[0] = 0.5 * l
out[1] = 0.5 * (ux + ry) / l
out[2] = 0.5 * (fx + rz) / l
out[3] = 0.5 * (uz - fy) / l
} else if(uy >= tf) {
//y z x order
out[0] = 0.5 * (ry + ux) / l
out[1] = 0.5 * l
out[2] = 0.5 * (fy + uz) / l
out[3] = 0.5 * (fx - rz) / l
} else {
//z x y order
out[0] = 0.5 * (rz + fx) / l
out[1] = 0.5 * (uz + fy) / l
out[2] = 0.5 * l
out[3] = 0.5 * (ry - ux) / l
}
}
return out
}
},{}],436:[function(_dereq_,module,exports){
'use strict'
module.exports = createOrbitController
var filterVector = _dereq_('filtered-vector')
var lookAt = _dereq_('gl-mat4/lookAt')
var mat4FromQuat = _dereq_('gl-mat4/fromQuat')
var invert44 = _dereq_('gl-mat4/invert')
var quatFromFrame = _dereq_('./lib/quatFromFrame')
function len3(x,y,z) {
return Math.sqrt(Math.pow(x,2) + Math.pow(y,2) + Math.pow(z,2))
}
function len4(w,x,y,z) {
return Math.sqrt(Math.pow(w,2) + Math.pow(x,2) + Math.pow(y,2) + Math.pow(z,2))
}
function normalize4(out, a) {
var ax = a[0]
var ay = a[1]
var az = a[2]
var aw = a[3]
var al = len4(ax, ay, az, aw)
if(al > 1e-6) {
out[0] = ax/al
out[1] = ay/al
out[2] = az/al
out[3] = aw/al
} else {
out[0] = out[1] = out[2] = 0.0
out[3] = 1.0
}
}
function OrbitCameraController(initQuat, initCenter, initRadius) {
this.radius = filterVector([initRadius])
this.center = filterVector(initCenter)
this.rotation = filterVector(initQuat)
this.computedRadius = this.radius.curve(0)
this.computedCenter = this.center.curve(0)
this.computedRotation = this.rotation.curve(0)
this.computedUp = [0.1,0,0]
this.computedEye = [0.1,0,0]
this.computedMatrix = [0.1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]
this.recalcMatrix(0)
}
var proto = OrbitCameraController.prototype
proto.lastT = function() {
return Math.max(
this.radius.lastT(),
this.center.lastT(),
this.rotation.lastT())
}
proto.recalcMatrix = function(t) {
this.radius.curve(t)
this.center.curve(t)
this.rotation.curve(t)
var quat = this.computedRotation
normalize4(quat, quat)
var mat = this.computedMatrix
mat4FromQuat(mat, quat)
var center = this.computedCenter
var eye = this.computedEye
var up = this.computedUp
var radius = Math.exp(this.computedRadius[0])
eye[0] = center[0] + radius * mat[2]
eye[1] = center[1] + radius * mat[6]
eye[2] = center[2] + radius * mat[10]
up[0] = mat[1]
up[1] = mat[5]
up[2] = mat[9]
for(var i=0; i<3; ++i) {
var rr = 0.0
for(var j=0; j<3; ++j) {
rr += mat[i+4*j] * eye[j]
}
mat[12+i] = -rr
}
}
proto.getMatrix = function(t, result) {
this.recalcMatrix(t)
var m = this.computedMatrix
if(result) {
for(var i=0; i<16; ++i) {
result[i] = m[i]
}
return result
}
return m
}
proto.idle = function(t) {
this.center.idle(t)
this.radius.idle(t)
this.rotation.idle(t)
}
proto.flush = function(t) {
this.center.flush(t)
this.radius.flush(t)
this.rotation.flush(t)
}
proto.pan = function(t, dx, dy, dz) {
dx = dx || 0.0
dy = dy || 0.0
dz = dz || 0.0
this.recalcMatrix(t)
var mat = this.computedMatrix
var ux = mat[1]
var uy = mat[5]
var uz = mat[9]
var ul = len3(ux, uy, uz)
ux /= ul
uy /= ul
uz /= ul
var rx = mat[0]
var ry = mat[4]
var rz = mat[8]
var ru = rx * ux + ry * uy + rz * uz
rx -= ux * ru
ry -= uy * ru
rz -= uz * ru
var rl = len3(rx, ry, rz)
rx /= rl
ry /= rl
rz /= rl
var fx = mat[2]
var fy = mat[6]
var fz = mat[10]
var fu = fx * ux + fy * uy + fz * uz
var fr = fx * rx + fy * ry + fz * rz
fx -= fu * ux + fr * rx
fy -= fu * uy + fr * ry
fz -= fu * uz + fr * rz
var fl = len3(fx, fy, fz)
fx /= fl
fy /= fl
fz /= fl
var vx = rx * dx + ux * dy
var vy = ry * dx + uy * dy
var vz = rz * dx + uz * dy
this.center.move(t, vx, vy, vz)
//Update z-component of radius
var radius = Math.exp(this.computedRadius[0])
radius = Math.max(1e-4, radius + dz)
this.radius.set(t, Math.log(radius))
}
proto.rotate = function(t, dx, dy, dz) {
this.recalcMatrix(t)
dx = dx||0.0
dy = dy||0.0
var mat = this.computedMatrix
var rx = mat[0]
var ry = mat[4]
var rz = mat[8]
var ux = mat[1]
var uy = mat[5]
var uz = mat[9]
var fx = mat[2]
var fy = mat[6]
var fz = mat[10]
var qx = dx * rx + dy * ux
var qy = dx * ry + dy * uy
var qz = dx * rz + dy * uz
var bx = -(fy * qz - fz * qy)
var by = -(fz * qx - fx * qz)
var bz = -(fx * qy - fy * qx)
var bw = Math.sqrt(Math.max(0.0, 1.0 - Math.pow(bx,2) - Math.pow(by,2) - Math.pow(bz,2)))
var bl = len4(bx, by, bz, bw)
if(bl > 1e-6) {
bx /= bl
by /= bl
bz /= bl
bw /= bl
} else {
bx = by = bz = 0.0
bw = 1.0
}
var rotation = this.computedRotation
var ax = rotation[0]
var ay = rotation[1]
var az = rotation[2]
var aw = rotation[3]
var cx = ax*bw + aw*bx + ay*bz - az*by
var cy = ay*bw + aw*by + az*bx - ax*bz
var cz = az*bw + aw*bz + ax*by - ay*bx
var cw = aw*bw - ax*bx - ay*by - az*bz
//Apply roll
if(dz) {
bx = fx
by = fy
bz = fz
var s = Math.sin(dz) / len3(bx, by, bz)
bx *= s
by *= s
bz *= s
bw = Math.cos(dx)
cx = cx*bw + cw*bx + cy*bz - cz*by
cy = cy*bw + cw*by + cz*bx - cx*bz
cz = cz*bw + cw*bz + cx*by - cy*bx
cw = cw*bw - cx*bx - cy*by - cz*bz
}
var cl = len4(cx, cy, cz, cw)
if(cl > 1e-6) {
cx /= cl
cy /= cl
cz /= cl
cw /= cl
} else {
cx = cy = cz = 0.0
cw = 1.0
}
this.rotation.set(t, cx, cy, cz, cw)
}
proto.lookAt = function(t, eye, center, up) {
this.recalcMatrix(t)
center = center || this.computedCenter
eye = eye || this.computedEye
up = up || this.computedUp
var mat = this.computedMatrix
lookAt(mat, eye, center, up)
var rotation = this.computedRotation
quatFromFrame(rotation,
mat[0], mat[1], mat[2],
mat[4], mat[5], mat[6],
mat[8], mat[9], mat[10])
normalize4(rotation, rotation)
this.rotation.set(t, rotation[0], rotation[1], rotation[2], rotation[3])
var fl = 0.0
for(var i=0; i<3; ++i) {
fl += Math.pow(center[i] - eye[i], 2)
}
this.radius.set(t, 0.5 * Math.log(Math.max(fl, 1e-6)))
this.center.set(t, center[0], center[1], center[2])
}
proto.translate = function(t, dx, dy, dz) {
this.center.move(t,
dx||0.0,
dy||0.0,
dz||0.0)
}
proto.setMatrix = function(t, matrix) {
var rotation = this.computedRotation
quatFromFrame(rotation,
matrix[0], matrix[1], matrix[2],
matrix[4], matrix[5], matrix[6],
matrix[8], matrix[9], matrix[10])
normalize4(rotation, rotation)
this.rotation.set(t, rotation[0], rotation[1], rotation[2], rotation[3])
var mat = this.computedMatrix
invert44(mat, matrix)
var w = mat[15]
if(Math.abs(w) > 1e-6) {
var cx = mat[12]/w
var cy = mat[13]/w
var cz = mat[14]/w
this.recalcMatrix(t)
var r = Math.exp(this.computedRadius[0])
this.center.set(t, cx-mat[2]*r, cy-mat[6]*r, cz-mat[10]*r)
this.radius.idle(t)
} else {
this.center.idle(t)
this.radius.idle(t)
}
}
proto.setDistance = function(t, d) {
if(d > 0) {
this.radius.set(t, Math.log(d))
}
}
proto.setDistanceLimits = function(lo, hi) {
if(lo > 0) {
lo = Math.log(lo)
} else {
lo = -Infinity
}
if(hi > 0) {
hi = Math.log(hi)
} else {
hi = Infinity
}
hi = Math.max(hi, lo)
this.radius.bounds[0][0] = lo
this.radius.bounds[1][0] = hi
}
proto.getDistanceLimits = function(out) {
var bounds = this.radius.bounds
if(out) {
out[0] = Math.exp(bounds[0][0])
out[1] = Math.exp(bounds[1][0])
return out
}
return [ Math.exp(bounds[0][0]), Math.exp(bounds[1][0]) ]
}
proto.toJSON = function() {
this.recalcMatrix(this.lastT())
return {
center: this.computedCenter.slice(),
rotation: this.computedRotation.slice(),
distance: Math.log(this.computedRadius[0]),
zoomMin: this.radius.bounds[0][0],
zoomMax: this.radius.bounds[1][0]
}
}
proto.fromJSON = function(options) {
var t = this.lastT()
var c = options.center
if(c) {
this.center.set(t, c[0], c[1], c[2])
}
var r = options.rotation
if(r) {
this.rotation.set(t, r[0], r[1], r[2], r[3])
}
var d = options.distance
if(d && d > 0) {
this.radius.set(t, Math.log(d))
}
this.setDistanceLimits(options.zoomMin, options.zoomMax)
}
function createOrbitController(options) {
options = options || {}
var center = options.center || [0,0,0]
var rotation = options.rotation || [0,0,0,1]
var radius = options.radius || 1.0
center = [].slice.call(center, 0, 3)
rotation = [].slice.call(rotation, 0, 4)
normalize4(rotation, rotation)
var result = new OrbitCameraController(
rotation,
center,
Math.log(radius))
result.setDistanceLimits(options.zoomMin, options.zoomMax)
if('eye' in options || 'up' in options) {
result.lookAt(0, options.eye, options.center, options.up)
}
return result
}
},{"./lib/quatFromFrame":435,"filtered-vector":214,"gl-mat4/fromQuat":250,"gl-mat4/invert":253,"gl-mat4/lookAt":254}],437:[function(_dereq_,module,exports){
/*!
* pad-left <https://github.com/jonschlinkert/pad-left>
*
* Copyright (c) 2014-2015, Jon Schlinkert.
* Licensed under the MIT license.
*/
'use strict';
var repeat = _dereq_('repeat-string');
module.exports = function padLeft(str, num, ch) {
ch = typeof ch !== 'undefined' ? (ch + '') : ' ';
return repeat(ch, num) + str;
};
},{"repeat-string":476}],438:[function(_dereq_,module,exports){
'use strict'
/**
* @module parenthesis
*/
function parse (str, opts) {
// pretend non-string parsed per-se
if (typeof str !== 'string') return [str]
var res = [str]
if (typeof opts === 'string' || Array.isArray(opts)) {
opts = {brackets: opts}
}
else if (!opts) opts = {}
var brackets = opts.brackets ? (Array.isArray(opts.brackets) ? opts.brackets : [opts.brackets]) : ['{}', '[]', '()']
var escape = opts.escape || '___'
var flat = !!opts.flat
brackets.forEach(function (bracket) {
// create parenthesis regex
var pRE = new RegExp(['\\', bracket[0], '[^\\', bracket[0], '\\', bracket[1], ']*\\', bracket[1]].join(''))
var ids = []
function replaceToken(token, idx, str){
// save token to res
var refId = res.push(token.slice(bracket[0].length, -bracket[1].length)) - 1
ids.push(refId)
return escape + refId
}
res.forEach(function (str, i) {
var prevStr
// replace paren tokens till there’s none
var a = 0
while (str != prevStr) {
prevStr = str
str = str.replace(pRE, replaceToken)
if (a++ > 10e3) throw Error('References have circular dependency. Please, check them.')
}
res[i] = str
})
// wrap found refs to brackets
ids = ids.reverse()
res = res.map(function (str) {
ids.forEach(function (id) {
str = str.replace(new RegExp('(\\' + escape + id + '(?![0-9]))', 'g'), bracket[0] + '$1' + bracket[1])
})
return str
})
})
var re = new RegExp('\\' + escape + '([0-9]+)')
// transform references to tree
function nest (str, refs, escape) {
var res = [], match
var a = 0
while (match = re.exec(str)) {
if (a++ > 10e3) throw Error('Circular references in parenthesis')
res.push(str.slice(0, match.index))
res.push(nest(refs[match[1]], refs))
str = str.slice(match.index + match[0].length)
}
res.push(str)
return res
}
return flat ? res : nest(res[0], res)
}
function stringify (arg, opts) {
if (opts && opts.flat) {
var escape = opts && opts.escape || '___'
var str = arg[0], prevStr
// pretend bad string stringified with no parentheses
if (!str) return ''
var re = new RegExp('\\' + escape + '([0-9]+)')
var a = 0
while (str != prevStr) {
if (a++ > 10e3) throw Error('Circular references in ' + arg)
prevStr = str
str = str.replace(re, replaceRef)
}
return str
}
return arg.reduce(function f (prev, curr) {
if (Array.isArray(curr)) {
curr = curr.reduce(f, '')
}
return prev + curr
}, '')
function replaceRef(match, idx){
if (arg[idx] == null) throw Error('Reference ' + idx + 'is undefined')
return arg[idx]
}
}
function parenthesis (arg, opts) {
if (Array.isArray(arg)) {
return stringify(arg, opts)
}
else {
return parse(arg, opts)
}
}
parenthesis.parse = parse
parenthesis.stringify = stringify
module.exports = parenthesis
},{}],439:[function(_dereq_,module,exports){
'use strict'
var pick = _dereq_('pick-by-alias')
module.exports = parseRect
function parseRect (arg) {
var rect
// direct arguments sequence
if (arguments.length > 1) {
arg = arguments
}
// svg viewbox
if (typeof arg === 'string') {
arg = arg.split(/\s/).map(parseFloat)
}
else if (typeof arg === 'number') {
arg = [arg]
}
// 0, 0, 100, 100 - array-like
if (arg.length && typeof arg[0] === 'number') {
// [w, w]
if (arg.length === 1) {
rect = {
width: arg[0],
height: arg[0],
x: 0, y: 0
}
}
// [w, h]
else if (arg.length === 2) {
rect = {
width: arg[0],
height: arg[1],
x: 0, y: 0
}
}
// [l, t, r, b]
else {
rect = {
x: arg[0],
y: arg[1],
width: (arg[2] - arg[0]) || 0,
height: (arg[3] - arg[1]) || 0
}
}
}
// {x, y, w, h} or {l, t, b, r}
else if (arg) {
arg = pick(arg, {
left: 'x l left Left',
top: 'y t top Top',
width: 'w width W Width',
height: 'h height W Width',
bottom: 'b bottom Bottom',
right: 'r right Right'
})
rect = {
x: arg.left || 0,
y: arg.top || 0
}
if (arg.width == null) {
if (arg.right) rect.width = arg.right - rect.x
else rect.width = 0
}
else {
rect.width = arg.width
}
if (arg.height == null) {
if (arg.bottom) rect.height = arg.bottom - rect.y
else rect.height = 0
}
else {
rect.height = arg.height
}
}
return rect
}
},{"pick-by-alias":445}],440:[function(_dereq_,module,exports){
module.exports = parse
/**
* expected argument lengths
* @type {Object}
*/
var length = {a: 7, c: 6, h: 1, l: 2, m: 2, q: 4, s: 4, t: 2, v: 1, z: 0}
/**
* segment pattern
* @type {RegExp}
*/
var segment = /([astvzqmhlc])([^astvzqmhlc]*)/ig
/**
* parse an svg path data string. Generates an Array
* of commands where each command is an Array of the
* form `[command, arg1, arg2, ...]`
*
* @param {String} path
* @return {Array}
*/
function parse(path) {
var data = []
path.replace(segment, function(_, command, args){
var type = command.toLowerCase()
args = parseValues(args)
// overloaded moveTo
if (type == 'm' && args.length > 2) {
data.push([command].concat(args.splice(0, 2)))
type = 'l'
command = command == 'm' ? 'l' : 'L'
}
while (true) {
if (args.length == length[type]) {
args.unshift(command)
return data.push(args)
}
if (args.length < length[type]) throw new Error('malformed path data')
data.push([command].concat(args.splice(0, length[type])))
}
})
return data
}
var number = /-?[0-9]*\.?[0-9]+(?:e[-+]?\d+)?/ig
function parseValues(args) {
var numbers = args.match(number)
return numbers ? numbers.map(Number) : []
}
},{}],441:[function(_dereq_,module,exports){
module.exports = function parseUnit(str, out) {
if (!out)
out = [ 0, '' ]
str = String(str)
var num = parseFloat(str, 10)
out[0] = num
out[1] = str.match(/[\d.\-\+]*\s*(.*)/)[1] || ''
return out
}
},{}],442:[function(_dereq_,module,exports){
(function (process){
// Generated by CoffeeScript 1.12.2
(function() {
var getNanoSeconds, hrtime, loadTime, moduleLoadTime, nodeLoadTime, upTime;
if ((typeof performance !== "undefined" && performance !== null) && performance.now) {
module.exports = function() {
return performance.now();
};
} else if ((typeof process !== "undefined" && process !== null) && process.hrtime) {
module.exports = function() {
return (getNanoSeconds() - nodeLoadTime) / 1e6;
};
hrtime = process.hrtime;
getNanoSeconds = function() {
var hr;
hr = hrtime();
return hr[0] * 1e9 + hr[1];
};
moduleLoadTime = getNanoSeconds();
upTime = process.uptime() * 1e9;
nodeLoadTime = moduleLoadTime - upTime;
} else if (Date.now) {
module.exports = function() {
return Date.now() - loadTime;
};
loadTime = Date.now();
} else {
module.exports = function() {
return new Date().getTime() - loadTime;
};
loadTime = new Date().getTime();
}
}).call(this);
}).call(this,_dereq_('_process'))
},{"_process":462}],443:[function(_dereq_,module,exports){
"use strict"
module.exports = permutationSign
var BRUTE_FORCE_CUTOFF = 32
var pool = _dereq_("typedarray-pool")
function permutationSign(p) {
var n = p.length
if(n < BRUTE_FORCE_CUTOFF) {
//Use quadratic algorithm for small n
var sgn = 1
for(var i=0; i<n; ++i) {
for(var j=0; j<i; ++j) {
if(p[i] < p[j]) {
sgn = -sgn
} else if(p[i] === p[j]) {
return 0
}
}
}
return sgn
} else {
//Otherwise use linear time algorithm
var visited = pool.mallocUint8(n)
for(var i=0; i<n; ++i) {
visited[i] = 0
}
var sgn = 1
for(var i=0; i<n; ++i) {
if(!visited[i]) {
var count = 1
visited[i] = 1
for(var j=p[i]; j!==i; j=p[j]) {
if(visited[j]) {
pool.freeUint8(visited)
return 0
}
count += 1
visited[j] = 1
}
if(!(count & 1)) {
sgn = -sgn
}
}
}
pool.freeUint8(visited)
return sgn
}
}
},{"typedarray-pool":519}],444:[function(_dereq_,module,exports){
"use strict"
var pool = _dereq_("typedarray-pool")
var inverse = _dereq_("invert-permutation")
function rank(permutation) {
var n = permutation.length
switch(n) {
case 0:
case 1:
return 0
case 2:
return permutation[1]
default:
break
}
var p = pool.mallocUint32(n)
var pinv = pool.mallocUint32(n)
var r = 0, s, t, i
inverse(permutation, pinv)
for(i=0; i<n; ++i) {
p[i] = permutation[i]
}
for(i=n-1; i>0; --i) {
t = pinv[i]
s = p[i]
p[i] = p[t]
p[t] = s
pinv[i] = pinv[s]
pinv[s] = t
r = (r + s) * i
}
pool.freeUint32(pinv)
pool.freeUint32(p)
return r
}
function unrank(n, r, p) {
switch(n) {
case 0:
if(p) { return p }
return []
case 1:
if(p) {
p[0] = 0
return p
} else {
return [0]
}
case 2:
if(p) {
if(r) {
p[0] = 0
p[1] = 1
} else {
p[0] = 1
p[1] = 0
}
return p
} else {
return r ? [0,1] : [1,0]
}
default:
break
}
p = p || new Array(n)
var s, t, i, nf=1
p[0] = 0
for(i=1; i<n; ++i) {
p[i] = i
nf = (nf*i)|0
}
for(i=n-1; i>0; --i) {
s = (r / nf)|0
r = (r - s * nf)|0
nf = (nf / i)|0
t = p[i]|0
p[i] = p[s]|0
p[s] = t|0
}
return p
}
exports.rank = rank
exports.unrank = unrank
},{"invert-permutation":396,"typedarray-pool":519}],445:[function(_dereq_,module,exports){
'use strict'
module.exports = function pick (src, props, keepRest) {
var result = {}, prop, i
if (typeof props === 'string') props = toList(props)
if (Array.isArray(props)) {
var res = {}
for (i = 0; i < props.length; i++) {
res[props[i]] = true
}
props = res
}
// convert strings to lists
for (prop in props) {
props[prop] = toList(props[prop])
}
// keep-rest strategy requires unmatched props to be preserved
var occupied = {}
for (prop in props) {
var aliases = props[prop]
if (Array.isArray(aliases)) {
for (i = 0; i < aliases.length; i++) {
var alias = aliases[i]
if (keepRest) {
occupied[alias] = true
}
if (alias in src) {
result[prop] = src[alias]
if (keepRest) {
for (var j = i; j < aliases.length; j++) {
occupied[aliases[j]] = true
}
}
break
}
}
}
else if (prop in src) {
if (props[prop]) {
result[prop] = src[prop]
}
if (keepRest) {
occupied[prop] = true
}
}
}
if (keepRest) {
for (prop in src) {
if (occupied[prop]) continue
result[prop] = src[prop]
}
}
return result
}
var CACHE = {}
function toList(arg) {
if (CACHE[arg]) return CACHE[arg]
if (typeof arg === 'string') {
arg = CACHE[arg] = arg.split(/\s*,\s*|\s+/)
}
return arg
}
},{}],446:[function(_dereq_,module,exports){
"use strict"
module.exports = planarDual
var compareAngle = _dereq_("compare-angle")
function planarDual(cells, positions) {
var numVertices = positions.length|0
var numEdges = cells.length
var adj = [new Array(numVertices), new Array(numVertices)]
for(var i=0; i<numVertices; ++i) {
adj[0][i] = []
adj[1][i] = []
}
for(var i=0; i<numEdges; ++i) {
var c = cells[i]
adj[0][c[0]].push(c)
adj[1][c[1]].push(c)
}
var cycles = []
//Add isolated vertices as trivial case
for(var i=0; i<numVertices; ++i) {
if(adj[0][i].length + adj[1][i].length === 0) {
cycles.push( [i] )
}
}
//Remove a half edge
function cut(c, i) {
var a = adj[i][c[i]]
a.splice(a.indexOf(c), 1)
}
//Find next vertex and cut edge
function next(a, b, noCut) {
var nextCell, nextVertex, nextDir
for(var i=0; i<2; ++i) {
if(adj[i][b].length > 0) {
nextCell = adj[i][b][0]
nextDir = i
break
}
}
nextVertex = nextCell[nextDir^1]
for(var dir=0; dir<2; ++dir) {
var nbhd = adj[dir][b]
for(var k=0; k<nbhd.length; ++k) {
var e = nbhd[k]
var p = e[dir^1]
var cmp = compareAngle(
positions[a],
positions[b],
positions[nextVertex],
positions[p])
if(cmp > 0) {
nextCell = e
nextVertex = p
nextDir = dir
}
}
}
if(noCut) {
return nextVertex
}
if(nextCell) {
cut(nextCell, nextDir)
}
return nextVertex
}
function extractCycle(v, dir) {
var e0 = adj[dir][v][0]
var cycle = [v]
cut(e0, dir)
var u = e0[dir^1]
var d0 = dir
while(true) {
while(u !== v) {
cycle.push(u)
u = next(cycle[cycle.length-2], u, false)
}
if(adj[0][v].length + adj[1][v].length === 0) {
break
}
var a = cycle[cycle.length-1]
var b = v
var c = cycle[1]
var d = next(a, b, true)
if(compareAngle(positions[a], positions[b], positions[c], positions[d]) < 0) {
break
}
cycle.push(v)
u = next(a, b)
}
return cycle
}
function shouldGlue(pcycle, ncycle) {
return (ncycle[1] === ncycle[ncycle.length-1])
}
for(var i=0; i<numVertices; ++i) {
for(var j=0; j<2; ++j) {
var pcycle = []
while(adj[j][i].length > 0) {
var ni = adj[0][i].length
var ncycle = extractCycle(i,j)
if(shouldGlue(pcycle, ncycle)) {
//Glue together trivial cycles
pcycle.push.apply(pcycle, ncycle)
} else {
if(pcycle.length > 0) {
cycles.push(pcycle)
}
pcycle = ncycle
}
}
if(pcycle.length > 0) {
cycles.push(pcycle)
}
}
}
//Combine paths and loops together
return cycles
}
},{"compare-angle":114}],447:[function(_dereq_,module,exports){
'use strict'
module.exports = trimLeaves
var e2a = _dereq_('edges-to-adjacency-list')
function trimLeaves(edges, positions) {
var adj = e2a(edges, positions.length)
var live = new Array(positions.length)
var nbhd = new Array(positions.length)
var dead = []
for(var i=0; i<positions.length; ++i) {
var count = adj[i].length
nbhd[i] = count
live[i] = true
if(count <= 1) {
dead.push(i)
}
}
while(dead.length > 0) {
var v = dead.pop()
live[v] = false
var n = adj[v]
for(var i=0; i<n.length; ++i) {
var u = n[i]
if(--nbhd[u] === 0) {
dead.push(u)
}
}
}
var newIndex = new Array(positions.length)
var npositions = []
for(var i=0; i<positions.length; ++i) {
if(live[i]) {
var v = npositions.length
newIndex[i] = v
npositions.push(positions[i])
} else {
newIndex[i] = -1
}
}
var nedges = []
for(var i=0; i<edges.length; ++i) {
var e = edges[i]
if(live[e[0]] && live[e[1]]) {
nedges.push([ newIndex[e[0]], newIndex[e[1]] ])
}
}
return [ nedges, npositions ]
}
},{"edges-to-adjacency-list":156}],448:[function(_dereq_,module,exports){
'use strict'
module.exports = planarGraphToPolyline
var e2a = _dereq_('edges-to-adjacency-list')
var planarDual = _dereq_('planar-dual')
var preprocessPolygon = _dereq_('point-in-big-polygon')
var twoProduct = _dereq_('two-product')
var robustSum = _dereq_('robust-sum')
var uniq = _dereq_('uniq')
var trimLeaves = _dereq_('./lib/trim-leaves')
function makeArray(length, fill) {
var result = new Array(length)
for(var i=0; i<length; ++i) {
result[i] = fill
}
return result
}
function makeArrayOfArrays(length) {
var result = new Array(length)
for(var i=0; i<length; ++i) {
result[i] = []
}
return result
}
function planarGraphToPolyline(edges, positions) {
//Trim leaves
var result = trimLeaves(edges, positions)
edges = result[0]
positions = result[1]
var numVertices = positions.length
var numEdges = edges.length
//Calculate adjacency list, check manifold
var adj = e2a(edges, positions.length)
for(var i=0; i<numVertices; ++i) {
if(adj[i].length % 2 === 1) {
throw new Error('planar-graph-to-polyline: graph must be manifold')
}
}
//Get faces
var faces = planarDual(edges, positions)
//Check orientation of a polygon using exact arithmetic
function ccw(c) {
var n = c.length
var area = [0]
for(var j=0; j<n; ++j) {
var a = positions[c[j]]
var b = positions[c[(j+1)%n]]
var t00 = twoProduct(-a[0], a[1])
var t01 = twoProduct(-a[0], b[1])
var t10 = twoProduct( b[0], a[1])
var t11 = twoProduct( b[0], b[1])
area = robustSum(area, robustSum(robustSum(t00, t01), robustSum(t10, t11)))
}
return area[area.length-1] > 0
}
//Extract all clockwise faces
faces = faces.filter(ccw)
//Detect which loops are contained in one another to handle parent-of relation
var numFaces = faces.length
var parent = new Array(numFaces)
var containment = new Array(numFaces)
for(var i=0; i<numFaces; ++i) {
parent[i] = i
var row = new Array(numFaces)
var loopVertices = faces[i].map(function(v) {
return positions[v]
})
var pmc = preprocessPolygon([loopVertices])
var count = 0
outer:
for(var j=0; j<numFaces; ++j) {
row[j] = 0
if(i === j) {
continue
}
var c = faces[j]
var n = c.length
for(var k=0; k<n; ++k) {
var d = pmc(positions[c[k]])
if(d !== 0) {
if(d < 0) {
row[j] = 1
count += 1
}
continue outer
}
}
row[j] = 1
count += 1
}
containment[i] = [count, i, row]
}
containment.sort(function(a,b) {
return b[0] - a[0]
})
for(var i=0; i<numFaces; ++i) {
var row = containment[i]
var idx = row[1]
var children = row[2]
for(var j=0; j<numFaces; ++j) {
if(children[j]) {
parent[j] = idx
}
}
}
//Initialize face adjacency list
var fadj = makeArrayOfArrays(numFaces)
for(var i=0; i<numFaces; ++i) {
fadj[i].push(parent[i])
fadj[parent[i]].push(i)
}
//Build adjacency matrix for edges
var edgeAdjacency = {}
var internalVertices = makeArray(numVertices, false)
for(var i=0; i<numFaces; ++i) {
var c = faces[i]
var n = c.length
for(var j=0; j<n; ++j) {
var a = c[j]
var b = c[(j+1)%n]
var key = Math.min(a,b) + ":" + Math.max(a,b)
if(key in edgeAdjacency) {
var neighbor = edgeAdjacency[key]
fadj[neighbor].push(i)
fadj[i].push(neighbor)
internalVertices[a] = internalVertices[b] = true
} else {
edgeAdjacency[key] = i
}
}
}
function sharedBoundary(c) {
var n = c.length
for(var i=0; i<n; ++i) {
if(!internalVertices[c[i]]) {
return false
}
}
return true
}
var toVisit = []
var parity = makeArray(numFaces, -1)
for(var i=0; i<numFaces; ++i) {
if(parent[i] === i && !sharedBoundary(faces[i])) {
toVisit.push(i)
parity[i] = 0
} else {
parity[i] = -1
}
}
//Using face adjacency, classify faces as in/out
var result = []
while(toVisit.length > 0) {
var top = toVisit.pop()
var nbhd = fadj[top]
uniq(nbhd, function(a,b) {
return a-b
})
var nnbhr = nbhd.length
var p = parity[top]
var polyline
if(p === 0) {
var c = faces[top]
polyline = [c]
}
for(var i=0; i<nnbhr; ++i) {
var f = nbhd[i]
if(parity[f] >= 0) {
continue
}
parity[f] = p^1
toVisit.push(f)
if(p === 0) {
var c = faces[f]
if(!sharedBoundary(c)) {
c.reverse()
polyline.push(c)
}
}
}
if(p === 0) {
result.push(polyline)
}
}
return result
}
},{"./lib/trim-leaves":447,"edges-to-adjacency-list":156,"planar-dual":446,"point-in-big-polygon":452,"robust-sum":488,"two-product":517,"uniq":521}],449:[function(_dereq_,module,exports){
'use strict'
module.exports = _dereq_('./quad')
},{"./quad":451}],450:[function(_dereq_,module,exports){
arguments[4][98][0].apply(exports,arguments)
},{"dup":98}],451:[function(_dereq_,module,exports){
/**
* @module point-cluster/quad
*
* Bucket based quad tree clustering
*/
'use strict'
var search = _dereq_('binary-search-bounds')
var clamp = _dereq_('clamp')
var rect = _dereq_('parse-rect')
var getBounds = _dereq_('array-bounds')
var pick = _dereq_('pick-by-alias')
var defined = _dereq_('defined')
var flatten = _dereq_('flatten-vertex-data')
var isObj = _dereq_('is-obj')
var dtype = _dereq_('dtype')
var log2 = _dereq_('math-log2')
module.exports = function cluster (srcPoints, options) {
if (!options) { options = {} }
srcPoints = flatten(srcPoints, 'float64')
options = pick(options, {
bounds: 'range bounds dataBox databox',
maxDepth: 'depth maxDepth maxdepth level maxLevel maxlevel levels',
dtype: 'type dtype format out dst output destination'
// sort: 'sortBy sortby sort',
// pick: 'pick levelPoint',
// nodeSize: 'node nodeSize minNodeSize minSize size'
})
// let nodeSize = defined(options.nodeSize, 1)
var maxDepth = defined(options.maxDepth, 255)
var bounds = defined(options.bounds, getBounds(srcPoints, 2))
if (bounds[0] === bounds[2]) { bounds[2]++ }
if (bounds[1] === bounds[3]) { bounds[3]++ }
var points = normalize(srcPoints, bounds)
// init variables
var n = srcPoints.length >>> 1
var ids
if (!options.dtype) { options.dtype = 'array' }
if (typeof options.dtype === 'string') {
ids = new (dtype(options.dtype))(n)
}
else if (options.dtype) {
ids = options.dtype
if (Array.isArray(ids)) { ids.length = n }
}
for (var i = 0; i < n; ++i) {
ids[i] = i
}
// point indexes for levels [0: [a,b,c,d], 1: [a,b,c,d,e,f,...], ...]
var levels = []
// starting indexes of subranges in sub levels, levels.length * 4
var sublevels = []
// unique group ids, sorted in z-curve fashion within levels
var groups = []
// level offsets in `ids`
var offsets = []
// sort points
sort(0, 0, 1, ids, 0, 1)
// return reordered ids with provided methods
// save level offsets in output buffer
var offset = 0
for (var level = 0; level < levels.length; level++) {
var levelItems = levels[level]
if (ids.set) { ids.set(levelItems, offset) }
else {
for (var i$1 = 0, l = levelItems.length; i$1 < l; i$1++) {
ids[i$1 + offset] = levelItems[i$1]
}
}
var nextOffset = offset + levels[level].length
offsets[level] = [offset, nextOffset]
offset = nextOffset
}
ids.range = range
return ids
// FIXME: it is possible to create one typed array heap and reuse that to avoid memory blow
function sort (x, y, diam, ids, level, group) {
if (!ids.length) { return null }
// save first point as level representative
var levelItems = levels[level] || (levels[level] = [])
var levelGroups = groups[level] || (groups[level] = [])
var sublevel = sublevels[level] || (sublevels[level] = [])
var offset = levelItems.length
level++
// max depth reached - put all items into a first group
if (level > maxDepth) {
for (var i = 0; i < ids.length; i++) {
levelItems.push(ids[i])
levelGroups.push(group)
sublevel.push(null, null, null, null)
}
return offset
}
levelItems.push(ids[0])
levelGroups.push(group)
if (ids.length <= 1) {
sublevel.push(null, null, null, null)
return offset
}
var d2 = diam * .5
var cx = x + d2, cy = y + d2
// distribute points by 4 buckets
var lolo = [], lohi = [], hilo = [], hihi = []
for (var i$1 = 1, l = ids.length; i$1 < l; i$1++) {
var idx = ids[i$1],
x$1 = points[idx * 2],
y$1 = points[idx * 2 + 1]
x$1 < cx ? (y$1 < cy ? lolo.push(idx) : lohi.push(idx)) : (y$1 < cy ? hilo.push(idx) : hihi.push(idx))
}
group <<= 2
sublevel.push(
sort(x, y, d2, lolo, level, group),
sort(x, cy, d2, lohi, level, group + 1),
sort(cx, y, d2, hilo, level, group + 2),
sort(cx, cy, d2, hihi, level, group + 3)
)
return offset
}
// get all points within the passed range
function range () {
var args = [], len = arguments.length;
while ( len-- ) args[ len ] = arguments[ len ];
var options
if (isObj(args[args.length - 1])) {
var arg = args.pop()
// detect if that was a rect object
if (!args.length && (arg.x != null || arg.l != null || arg.left != null)) {
args = [arg]
options = {}
}
options = pick(arg, {
level: 'level maxLevel',
d: 'd diam diameter r radius px pxSize pixel pixelSize maxD size minSize',
lod: 'lod details ranges offsets'
})
}
else {
options = {}
}
if (!args.length) { args = bounds }
var box = rect.apply( void 0, args )
var ref = [
Math.min(box.x, box.x + box.width),
Math.min(box.y, box.y + box.height),
Math.max(box.x, box.x + box.width),
Math.max(box.y, box.y + box.height)
];
var minX = ref[0];
var minY = ref[1];
var maxX = ref[2];
var maxY = ref[3];
var ref$1 = normalize([minX, minY, maxX, maxY], bounds );
var nminX = ref$1[0];
var nminY = ref$1[1];
var nmaxX = ref$1[2];
var nmaxY = ref$1[3];
var maxLevel = defined(options.level, levels.length)
// limit maxLevel by px size
if (options.d != null) {
var d
if (typeof options.d === 'number') { d = [options.d, options.d] }
else if (options.d.length) { d = options.d }
maxLevel = Math.min(
Math.max(
Math.ceil(-log2(Math.abs(d[0]) / (bounds[2] - bounds[0]))),
Math.ceil(-log2(Math.abs(d[1]) / (bounds[3] - bounds[1])))
),
maxLevel
)
}
maxLevel = Math.min(maxLevel, levels.length)
// return levels of details
if (options.lod) {
return lod(nminX, nminY, nmaxX, nmaxY, maxLevel)
}
// do selection ids
var selection = []
// FIXME: probably we can do LOD here beforehead
select( 0, 0, 1, 0, 0, 1)
function select ( lox, loy, d, level, from, to ) {
if (from === null || to === null) { return }
var hix = lox + d
var hiy = loy + d
// if box does not intersect level - ignore
if ( nminX > hix || nminY > hiy || nmaxX < lox || nmaxY < loy ) { return }
if ( level >= maxLevel ) { return }
if ( from === to ) { return }
// if points fall into box range - take it
var levelItems = levels[level]
if (to === undefined) { to = levelItems.length }
for (var i = from; i < to; i++) {
var id = levelItems[i]
var px = srcPoints[ id * 2 ]
var py = srcPoints[ id * 2 + 1 ]
if ( px >= minX && px <= maxX && py >= minY && py <= maxY ) {selection.push(id)
}
}
// for every subsection do select
var offsets = sublevels[ level ]
var off0 = offsets[ from * 4 + 0 ]
var off1 = offsets[ from * 4 + 1 ]
var off2 = offsets[ from * 4 + 2 ]
var off3 = offsets[ from * 4 + 3 ]
var end = nextOffset(offsets, from + 1)
var d2 = d * .5
var nextLevel = level + 1
select( lox, loy, d2, nextLevel, off0, off1 || off2 || off3 || end)
select( lox, loy + d2, d2, nextLevel, off1, off2 || off3 || end)
select( lox + d2, loy, d2, nextLevel, off2, off3 || end)
select( lox + d2, loy + d2, d2, nextLevel, off3, end)
}
function nextOffset(offsets, from) {
var offset = null, i = 0
while(offset === null) {
offset = offsets[ from * 4 + i ]
i++
if (i > offsets.length) { return null }
}
return offset
}
return selection
}
// get range offsets within levels to render lods appropriate for zoom level
// TODO: it is possible to store minSize of a point to optimize neede level calc
function lod (lox, loy, hix, hiy, maxLevel) {
var ranges = []
for (var level = 0; level < maxLevel; level++) {
var levelGroups = groups[level]
var from = offsets[level][0]
var levelGroupStart = group(lox, loy, level)
var levelGroupEnd = group(hix, hiy, level)
// FIXME: utilize sublevels to speed up search range here
var startOffset = search.ge(levelGroups, levelGroupStart)
var endOffset = search.gt(levelGroups, levelGroupEnd, startOffset, levelGroups.length - 1)
ranges[level] = [startOffset + from, endOffset + from]
}
return ranges
}
// get group id closest to the x,y coordinate, corresponding to a level
function group (x, y, level) {
var group = 1
var cx = .5, cy = .5
var diam = .5
for (var i = 0; i < level; i++) {
group <<= 2
group += x < cx ? (y < cy ? 0 : 1) : (y < cy ? 2 : 3)
diam *= .5
cx += x < cx ? -diam : diam
cy += y < cy ? -diam : diam
}
return group
}
}
// normalize points by bounds
function normalize (pts, bounds) {
var lox = bounds[0];
var loy = bounds[1];
var hix = bounds[2];
var hiy = bounds[3];
var scaleX = 1.0 / (hix - lox)
var scaleY = 1.0 / (hiy - loy)
var result = new Array(pts.length)
for (var i = 0, n = pts.length / 2; i < n; i++) {
result[2*i] = clamp((pts[2*i] - lox) * scaleX, 0, 1)
result[2*i+1] = clamp((pts[2*i+1] - loy) * scaleY, 0, 1)
}
return result
}
},{"array-bounds":52,"binary-search-bounds":450,"clamp":102,"defined":148,"dtype":153,"flatten-vertex-data":215,"is-obj":402,"math-log2":412,"parse-rect":439,"pick-by-alias":445}],452:[function(_dereq_,module,exports){
module.exports = preprocessPolygon
var orient = _dereq_('robust-orientation')[3]
var makeSlabs = _dereq_('slab-decomposition')
var makeIntervalTree = _dereq_('interval-tree-1d')
var bsearch = _dereq_('binary-search-bounds')
function visitInterval() {
return true
}
function intervalSearch(table) {
return function(x, y) {
var tree = table[x]
if(tree) {
return !!tree.queryPoint(y, visitInterval)
}
return false
}
}
function buildVerticalIndex(segments) {
var table = {}
for(var i=0; i<segments.length; ++i) {
var s = segments[i]
var x = s[0][0]
var y0 = s[0][1]
var y1 = s[1][1]
var p = [ Math.min(y0, y1), Math.max(y0, y1) ]
if(x in table) {
table[x].push(p)
} else {
table[x] = [ p ]
}
}
var intervalTable = {}
var keys = Object.keys(table)
for(var i=0; i<keys.length; ++i) {
var segs = table[keys[i]]
intervalTable[keys[i]] = makeIntervalTree(segs)
}
return intervalSearch(intervalTable)
}
function buildSlabSearch(slabs, coordinates) {
return function(p) {
var bucket = bsearch.le(coordinates, p[0])
if(bucket < 0) {
return 1
}
var root = slabs[bucket]
if(!root) {
if(bucket > 0 && coordinates[bucket] === p[0]) {
root = slabs[bucket-1]
} else {
return 1
}
}
var lastOrientation = 1
while(root) {
var s = root.key
var o = orient(p, s[0], s[1])
if(s[0][0] < s[1][0]) {
if(o < 0) {
root = root.left
} else if(o > 0) {
lastOrientation = -1
root = root.right
} else {
return 0
}
} else {
if(o > 0) {
root = root.left
} else if(o < 0) {
lastOrientation = 1
root = root.right
} else {
return 0
}
}
}
return lastOrientation
}
}
function classifyEmpty(p) {
return 1
}
function createClassifyVertical(testVertical) {
return function classify(p) {
if(testVertical(p[0], p[1])) {
return 0
}
return 1
}
}
function createClassifyPointDegen(testVertical, testNormal) {
return function classify(p) {
if(testVertical(p[0], p[1])) {
return 0
}
return testNormal(p)
}
}
function preprocessPolygon(loops) {
//Compute number of loops
var numLoops = loops.length
//Unpack segments
var segments = []
var vsegments = []
var ptr = 0
for(var i=0; i<numLoops; ++i) {
var loop = loops[i]
var numVertices = loop.length
for(var s=numVertices-1,t=0; t<numVertices; s=(t++)) {
var a = loop[s]
var b = loop[t]
if(a[0] === b[0]) {
vsegments.push([a,b])
} else {
segments.push([a,b])
}
}
}
//Degenerate case: All loops are empty
if(segments.length === 0) {
if(vsegments.length === 0) {
return classifyEmpty
} else {
return createClassifyVertical(buildVerticalIndex(vsegments))
}
}
//Build slab decomposition
var slabs = makeSlabs(segments)
var testSlab = buildSlabSearch(slabs.slabs, slabs.coordinates)
if(vsegments.length === 0) {
return testSlab
} else {
return createClassifyPointDegen(
buildVerticalIndex(vsegments),
testSlab)
}
}
},{"binary-search-bounds":78,"interval-tree-1d":395,"robust-orientation":483,"slab-decomposition":499}],453:[function(_dereq_,module,exports){
/*
* @copyright 2016 Sean Connelly (@voidqk), http://syntheti.cc
* @license MIT
* @preserve Project Home: https://github.com/voidqk/polybooljs
*/
var BuildLog = _dereq_('./lib/build-log');
var Epsilon = _dereq_('./lib/epsilon');
var Intersecter = _dereq_('./lib/intersecter');
var SegmentChainer = _dereq_('./lib/segment-chainer');
var SegmentSelector = _dereq_('./lib/segment-selector');
var GeoJSON = _dereq_('./lib/geojson');
var buildLog = false;
var epsilon = Epsilon();
var PolyBool;
PolyBool = {
// getter/setter for buildLog
buildLog: function(bl){
if (bl === true)
buildLog = BuildLog();
else if (bl === false)
buildLog = false;
return buildLog === false ? false : buildLog.list;
},
// getter/setter for epsilon
epsilon: function(v){
return epsilon.epsilon(v);
},
// core API
segments: function(poly){
var i = Intersecter(true, epsilon, buildLog);
poly.regions.forEach(i.addRegion);
return {
segments: i.calculate(poly.inverted),
inverted: poly.inverted
};
},
combine: function(segments1, segments2){
var i3 = Intersecter(false, epsilon, buildLog);
return {
combined: i3.calculate(
segments1.segments, segments1.inverted,
segments2.segments, segments2.inverted
),
inverted1: segments1.inverted,
inverted2: segments2.inverted
};
},
selectUnion: function(combined){
return {
segments: SegmentSelector.union(combined.combined, buildLog),
inverted: combined.inverted1 || combined.inverted2
}
},
selectIntersect: function(combined){
return {
segments: SegmentSelector.intersect(combined.combined, buildLog),
inverted: combined.inverted1 && combined.inverted2
}
},
selectDifference: function(combined){
return {
segments: SegmentSelector.difference(combined.combined, buildLog),
inverted: combined.inverted1 && !combined.inverted2
}
},
selectDifferenceRev: function(combined){
return {
segments: SegmentSelector.differenceRev(combined.combined, buildLog),
inverted: !combined.inverted1 && combined.inverted2
}
},
selectXor: function(combined){
return {
segments: SegmentSelector.xor(combined.combined, buildLog),
inverted: combined.inverted1 !== combined.inverted2
}
},
polygon: function(segments){
return {
regions: SegmentChainer(segments.segments, epsilon, buildLog),
inverted: segments.inverted
};
},
// GeoJSON converters
polygonFromGeoJSON: function(geojson){
return GeoJSON.toPolygon(PolyBool, geojson);
},
polygonToGeoJSON: function(poly){
return GeoJSON.fromPolygon(PolyBool, epsilon, poly);
},
// helper functions for common operations
union: function(poly1, poly2){
return operate(poly1, poly2, PolyBool.selectUnion);
},
intersect: function(poly1, poly2){
return operate(poly1, poly2, PolyBool.selectIntersect);
},
difference: function(poly1, poly2){
return operate(poly1, poly2, PolyBool.selectDifference);
},
differenceRev: function(poly1, poly2){
return operate(poly1, poly2, PolyBool.selectDifferenceRev);
},
xor: function(poly1, poly2){
return operate(poly1, poly2, PolyBool.selectXor);
}
};
function operate(poly1, poly2, selector){
var seg1 = PolyBool.segments(poly1);
var seg2 = PolyBool.segments(poly2);
var comb = PolyBool.combine(seg1, seg2);
var seg3 = selector(comb);
return PolyBool.polygon(seg3);
}
if (typeof window === 'object')
window.PolyBool = PolyBool;
module.exports = PolyBool;
},{"./lib/build-log":454,"./lib/epsilon":455,"./lib/geojson":456,"./lib/intersecter":457,"./lib/segment-chainer":459,"./lib/segment-selector":460}],454:[function(_dereq_,module,exports){
// (c) Copyright 2016, Sean Connelly (@voidqk), http://syntheti.cc
// MIT License
// Project Home: https://github.com/voidqk/polybooljs
//
// used strictly for logging the processing of the algorithm... only useful if you intend on
// looking under the covers (for pretty UI's or debugging)
//
function BuildLog(){
var my;
var nextSegmentId = 0;
var curVert = false;
function push(type, data){
my.list.push({
type: type,
data: data ? JSON.parse(JSON.stringify(data)) : void 0
});
return my;
}
my = {
list: [],
segmentId: function(){
return nextSegmentId++;
},
checkIntersection: function(seg1, seg2){
return push('check', { seg1: seg1, seg2: seg2 });
},
segmentChop: function(seg, end){
push('div_seg', { seg: seg, pt: end });
return push('chop', { seg: seg, pt: end });
},
statusRemove: function(seg){
return push('pop_seg', { seg: seg });
},
segmentUpdate: function(seg){
return push('seg_update', { seg: seg });
},
segmentNew: function(seg, primary){
return push('new_seg', { seg: seg, primary: primary });
},
segmentRemove: function(seg){
return push('rem_seg', { seg: seg });
},
tempStatus: function(seg, above, below){
return push('temp_status', { seg: seg, above: above, below: below });
},
rewind: function(seg){
return push('rewind', { seg: seg });
},
status: function(seg, above, below){
return push('status', { seg: seg, above: above, below: below });
},
vert: function(x){
if (x === curVert)
return my;
curVert = x;
return push('vert', { x: x });
},
log: function(data){
if (typeof data !== 'string')
data = JSON.stringify(data, false, ' ');
return push('log', { txt: data });
},
reset: function(){
return push('reset');
},
selected: function(segs){
return push('selected', { segs: segs });
},
chainStart: function(seg){
return push('chain_start', { seg: seg });
},
chainRemoveHead: function(index, pt){
return push('chain_rem_head', { index: index, pt: pt });
},
chainRemoveTail: function(index, pt){
return push('chain_rem_tail', { index: index, pt: pt });
},
chainNew: function(pt1, pt2){
return push('chain_new', { pt1: pt1, pt2: pt2 });
},
chainMatch: function(index){
return push('chain_match', { index: index });
},
chainClose: function(index){
return push('chain_close', { index: index });
},
chainAddHead: function(index, pt){
return push('chain_add_head', { index: index, pt: pt });
},
chainAddTail: function(index, pt){
return push('chain_add_tail', { index: index, pt: pt, });
},
chainConnect: function(index1, index2){
return push('chain_con', { index1: index1, index2: index2 });
},
chainReverse: function(index){
return push('chain_rev', { index: index });
},
chainJoin: function(index1, index2){
return push('chain_join', { index1: index1, index2: index2 });
},
done: function(){
return push('done');
}
};
return my;
}
module.exports = BuildLog;
},{}],455:[function(_dereq_,module,exports){
// (c) Copyright 2016, Sean Connelly (@voidqk), http://syntheti.cc
// MIT License
// Project Home: https://github.com/voidqk/polybooljs
//
// provides the raw computation functions that takes epsilon into account
//
// zero is defined to be between (-epsilon, epsilon) exclusive
//
function Epsilon(eps){
if (typeof eps !== 'number')
eps = 0.0000000001; // sane default? sure why not
var my = {
epsilon: function(v){
if (typeof v === 'number')
eps = v;
return eps;
},
pointAboveOrOnLine: function(pt, left, right){
var Ax = left[0];
var Ay = left[1];
var Bx = right[0];
var By = right[1];
var Cx = pt[0];
var Cy = pt[1];
return (Bx - Ax) * (Cy - Ay) - (By - Ay) * (Cx - Ax) >= -eps;
},
pointBetween: function(p, left, right){
// p must be collinear with left->right
// returns false if p == left, p == right, or left == right
var d_py_ly = p[1] - left[1];
var d_rx_lx = right[0] - left[0];
var d_px_lx = p[0] - left[0];
var d_ry_ly = right[1] - left[1];
var dot = d_px_lx * d_rx_lx + d_py_ly * d_ry_ly;
// if `dot` is 0, then `p` == `left` or `left` == `right` (reject)
// if `dot` is less than 0, then `p` is to the left of `left` (reject)
if (dot < eps)
return false;
var sqlen = d_rx_lx * d_rx_lx + d_ry_ly * d_ry_ly;
// if `dot` > `sqlen`, then `p` is to the right of `right` (reject)
// therefore, if `dot - sqlen` is greater than 0, then `p` is to the right of `right` (reject)
if (dot - sqlen > -eps)
return false;
return true;
},
pointsSameX: function(p1, p2){
return Math.abs(p1[0] - p2[0]) < eps;
},
pointsSameY: function(p1, p2){
return Math.abs(p1[1] - p2[1]) < eps;
},
pointsSame: function(p1, p2){
return my.pointsSameX(p1, p2) && my.pointsSameY(p1, p2);
},
pointsCompare: function(p1, p2){
// returns -1 if p1 is smaller, 1 if p2 is smaller, 0 if equal
if (my.pointsSameX(p1, p2))
return my.pointsSameY(p1, p2) ? 0 : (p1[1] < p2[1] ? -1 : 1);
return p1[0] < p2[0] ? -1 : 1;
},
pointsCollinear: function(pt1, pt2, pt3){
// does pt1->pt2->pt3 make a straight line?
// essentially this is just checking to see if the slope(pt1->pt2) === slope(pt2->pt3)
// if slopes are equal, then they must be collinear, because they share pt2
var dx1 = pt1[0] - pt2[0];
var dy1 = pt1[1] - pt2[1];
var dx2 = pt2[0] - pt3[0];
var dy2 = pt2[1] - pt3[1];
return Math.abs(dx1 * dy2 - dx2 * dy1) < eps;
},
linesIntersect: function(a0, a1, b0, b1){
// returns false if the lines are coincident (e.g., parallel or on top of each other)
//
// returns an object if the lines intersect:
// {
// pt: [x, y], where the intersection point is at
// alongA: where intersection point is along A,
// alongB: where intersection point is along B
// }
//
// alongA and alongB will each be one of: -2, -1, 0, 1, 2
//
// with the following meaning:
//
// -2 intersection point is before segment's first point
// -1 intersection point is directly on segment's first point
// 0 intersection point is between segment's first and second points (exclusive)
// 1 intersection point is directly on segment's second point
// 2 intersection point is after segment's second point
var adx = a1[0] - a0[0];
var ady = a1[1] - a0[1];
var bdx = b1[0] - b0[0];
var bdy = b1[1] - b0[1];
var axb = adx * bdy - ady * bdx;
if (Math.abs(axb) < eps)
return false; // lines are coincident
var dx = a0[0] - b0[0];
var dy = a0[1] - b0[1];
var A = (bdx * dy - bdy * dx) / axb;
var B = (adx * dy - ady * dx) / axb;
var ret = {
alongA: 0,
alongB: 0,
pt: [
a0[0] + A * adx,
a0[1] + A * ady
]
};
// categorize where intersection point is along A and B
if (A <= -eps)
ret.alongA = -2;
else if (A < eps)
ret.alongA = -1;
else if (A - 1 <= -eps)
ret.alongA = 0;
else if (A - 1 < eps)
ret.alongA = 1;
else
ret.alongA = 2;
if (B <= -eps)
ret.alongB = -2;
else if (B < eps)
ret.alongB = -1;
else if (B - 1 <= -eps)
ret.alongB = 0;
else if (B - 1 < eps)
ret.alongB = 1;
else
ret.alongB = 2;
return ret;
},
pointInsideRegion: function(pt, region){
var x = pt[0];
var y = pt[1];
var last_x = region[region.length - 1][0];
var last_y = region[region.length - 1][1];
var inside = false;
for (var i = 0; i < region.length; i++){
var curr_x = region[i][0];
var curr_y = region[i][1];
// if y is between curr_y and last_y, and
// x is to the right of the boundary created by the line
if ((curr_y - y > eps) != (last_y - y > eps) &&
(last_x - curr_x) * (y - curr_y) / (last_y - curr_y) + curr_x - x > eps)
inside = !inside
last_x = curr_x;
last_y = curr_y;
}
return inside;
}
};
return my;
}
module.exports = Epsilon;
},{}],456:[function(_dereq_,module,exports){
// (c) Copyright 2017, Sean Connelly (@voidqk), http://syntheti.cc
// MIT License
// Project Home: https://github.com/voidqk/polybooljs
//
// convert between PolyBool polygon format and GeoJSON formats (Polygon and MultiPolygon)
//
var GeoJSON = {
// convert a GeoJSON object to a PolyBool polygon
toPolygon: function(PolyBool, geojson){
// converts list of LineString's to segments
function GeoPoly(coords){
// check for empty coords
if (coords.length <= 0)
return PolyBool.segments({ inverted: false, regions: [] });
// convert LineString to segments
function LineString(ls){
// remove tail which should be the same as head
var reg = ls.slice(0, ls.length - 1);
return PolyBool.segments({ inverted: false, regions: [reg] });
}
// the first LineString is considered the outside
var out = LineString(coords[0]);
// the rest of the LineStrings are considered interior holes, so subtract them from the
// current result
for (var i = 1; i < coords.length; i++)
out = PolyBool.selectDifference(PolyBool.combine(out, LineString(coords[i])));
return out;
}
if (geojson.type === 'Polygon'){
// single polygon, so just convert it and we're done
return PolyBool.polygon(GeoPoly(geojson.coordinates));
}
else if (geojson.type === 'MultiPolygon'){
// multiple polygons, so union all the polygons together
var out = PolyBool.segments({ inverted: false, regions: [] });
for (var i = 0; i < geojson.coordinates.length; i++)
out = PolyBool.selectUnion(PolyBool.combine(out, GeoPoly(geojson.coordinates[i])));
return PolyBool.polygon(out);
}
throw new Error('PolyBool: Cannot convert GeoJSON object to PolyBool polygon');
},
// convert a PolyBool polygon to a GeoJSON object
fromPolygon: function(PolyBool, eps, poly){
// make sure out polygon is clean
poly = PolyBool.polygon(PolyBool.segments(poly));
// test if r1 is inside r2
function regionInsideRegion(r1, r2){
// we're guaranteed no lines intersect (because the polygon is clean), but a vertex
// could be on the edge -- so we just average pt[0] and pt[1] to produce a point on the
// edge of the first line, which cannot be on an edge
return eps.pointInsideRegion([
(r1[0][0] + r1[1][0]) * 0.5,
(r1[0][1] + r1[1][1]) * 0.5
], r2);
}
// calculate inside heirarchy
//
// _____________________ _______ roots -> A -> F
// | A | | F | | |
// | _______ _______ | | ___ | +-- B +-- G
// | | B | | C | | | | | | | |
// | | ___ | | ___ | | | | | | | +-- D
// | | | D | | | | E | | | | | G | | |
// | | |___| | | |___| | | | | | | +-- C
// | |_______| |_______| | | |___| | |
// |_____________________| |_______| +-- E
function newNode(region){
return {
region: region,
children: []
};
}
var roots = newNode(null);
function addChild(root, region){
// first check if we're inside any children
for (var i = 0; i < root.children.length; i++){
var child = root.children[i];
if (regionInsideRegion(region, child.region)){
// we are, so insert inside them instead
addChild(child, region);
return;
}
}
// not inside any children, so check to see if any children are inside us
var node = newNode(region);
for (var i = 0; i < root.children.length; i++){
var child = root.children[i];
if (regionInsideRegion(child.region, region)){
// oops... move the child beneath us, and remove them from root
node.children.push(child);
root.children.splice(i, 1);
i--;
}
}
// now we can add ourselves
root.children.push(node);
}
// add all regions to the root
for (var i = 0; i < poly.regions.length; i++){
var region = poly.regions[i];
if (region.length < 3) // regions must have at least 3 points (sanity check)
continue;
addChild(roots, region);
}
// with our heirarchy, we can distinguish between exterior borders, and interior holes
// the root nodes are exterior, children are interior, children's children are exterior,
// children's children's children are interior, etc
// while we're at it, exteriors are counter-clockwise, and interiors are clockwise
function forceWinding(region, clockwise){
// first, see if we're clockwise or counter-clockwise
// https://en.wikipedia.org/wiki/Shoelace_formula
var winding = 0;
var last_x = region[region.length - 1][0];
var last_y = region[region.length - 1][1];
var copy = [];
for (var i = 0; i < region.length; i++){
var curr_x = region[i][0];
var curr_y = region[i][1];
copy.push([curr_x, curr_y]); // create a copy while we're at it
winding += curr_y * last_x - curr_x * last_y;
last_x = curr_x;
last_y = curr_y;
}
// this assumes Cartesian coordinates (Y is positive going up)
var isclockwise = winding < 0;
if (isclockwise !== clockwise)
copy.reverse();
// while we're here, the last point must be the first point...
copy.push([copy[0][0], copy[0][1]]);
return copy;
}
var geopolys = [];
function addExterior(node){
var poly = [forceWinding(node.region, false)];
geopolys.push(poly);
// children of exteriors are interior
for (var i = 0; i < node.children.length; i++)
poly.push(getInterior(node.children[i]));
}
function getInterior(node){
// children of interiors are exterior
for (var i = 0; i < node.children.length; i++)
addExterior(node.children[i]);
// return the clockwise interior
return forceWinding(node.region, true);
}
// root nodes are exterior
for (var i = 0; i < roots.children.length; i++)
addExterior(roots.children[i]);
// lastly, construct the approrpriate GeoJSON object
if (geopolys.length <= 0) // empty GeoJSON Polygon
return { type: 'Polygon', coordinates: [] };
if (geopolys.length == 1) // use a GeoJSON Polygon
return { type: 'Polygon', coordinates: geopolys[0] };
return { // otherwise, use a GeoJSON MultiPolygon
type: 'MultiPolygon',
coordinates: geopolys
};
}
};
module.exports = GeoJSON;
},{}],457:[function(_dereq_,module,exports){
// (c) Copyright 2016, Sean Connelly (@voidqk), http://syntheti.cc
// MIT License
// Project Home: https://github.com/voidqk/polybooljs
//
// this is the core work-horse
//
var LinkedList = _dereq_('./linked-list');
function Intersecter(selfIntersection, eps, buildLog){
// selfIntersection is true/false depending on the phase of the overall algorithm
//
// segment creation
//
function segmentNew(start, end){
return {
id: buildLog ? buildLog.segmentId() : -1,
start: start,
end: end,
myFill: {
above: null, // is there fill above us?
below: null // is there fill below us?
},
otherFill: null
};
}
function segmentCopy(start, end, seg){
return {
id: buildLog ? buildLog.segmentId() : -1,
start: start,
end: end,
myFill: {
above: seg.myFill.above,
below: seg.myFill.below
},
otherFill: null
};
}
//
// event logic
//
var event_root = LinkedList.create();
function eventCompare(p1_isStart, p1_1, p1_2, p2_isStart, p2_1, p2_2){
// compare the selected points first
var comp = eps.pointsCompare(p1_1, p2_1);
if (comp !== 0)
return comp;
// the selected points are the same
if (eps.pointsSame(p1_2, p2_2)) // if the non-selected points are the same too...
return 0; // then the segments are equal
if (p1_isStart !== p2_isStart) // if one is a start and the other isn't...
return p1_isStart ? 1 : -1; // favor the one that isn't the start
// otherwise, we'll have to calculate which one is below the other manually
return eps.pointAboveOrOnLine(p1_2,
p2_isStart ? p2_1 : p2_2, // order matters
p2_isStart ? p2_2 : p2_1
) ? 1 : -1;
}
function eventAdd(ev, other_pt){
event_root.insertBefore(ev, function(here){
// should ev be inserted before here?
var comp = eventCompare(
ev .isStart, ev .pt, other_pt,
here.isStart, here.pt, here.other.pt
);
return comp < 0;
});
}
function eventAddSegmentStart(seg, primary){
var ev_start = LinkedList.node({
isStart: true,
pt: seg.start,
seg: seg,
primary: primary,
other: null,
status: null
});
eventAdd(ev_start, seg.end);
return ev_start;
}
function eventAddSegmentEnd(ev_start, seg, primary){
var ev_end = LinkedList.node({
isStart: false,
pt: seg.end,
seg: seg,
primary: primary,
other: ev_start,
status: null
});
ev_start.other = ev_end;
eventAdd(ev_end, ev_start.pt);
}
function eventAddSegment(seg, primary){
var ev_start = eventAddSegmentStart(seg, primary);
eventAddSegmentEnd(ev_start, seg, primary);
return ev_start;
}
function eventUpdateEnd(ev, end){
// slides an end backwards
// (start)------------(end) to:
// (start)---(end)
if (buildLog)
buildLog.segmentChop(ev.seg, end);
ev.other.remove();
ev.seg.end = end;
ev.other.pt = end;
eventAdd(ev.other, ev.pt);
}
function eventDivide(ev, pt){
var ns = segmentCopy(pt, ev.seg.end, ev.seg);
eventUpdateEnd(ev, pt);
return eventAddSegment(ns, ev.primary);
}
function calculate(primaryPolyInverted, secondaryPolyInverted){
// if selfIntersection is true then there is no secondary polygon, so that isn't used
//
// status logic
//
var status_root = LinkedList.create();
function statusCompare(ev1, ev2){
var a1 = ev1.seg.start;
var a2 = ev1.seg.end;
var b1 = ev2.seg.start;
var b2 = ev2.seg.end;
if (eps.pointsCollinear(a1, b1, b2)){
if (eps.pointsCollinear(a2, b1, b2))
return 1;//eventCompare(true, a1, a2, true, b1, b2);
return eps.pointAboveOrOnLine(a2, b1, b2) ? 1 : -1;
}
return eps.pointAboveOrOnLine(a1, b1, b2) ? 1 : -1;
}
function statusFindSurrounding(ev){
return status_root.findTransition(function(here){
var comp = statusCompare(ev, here.ev);
return comp > 0;
});
}
function checkIntersection(ev1, ev2){
// returns the segment equal to ev1, or false if nothing equal
var seg1 = ev1.seg;
var seg2 = ev2.seg;
var a1 = seg1.start;
var a2 = seg1.end;
var b1 = seg2.start;
var b2 = seg2.end;
if (buildLog)
buildLog.checkIntersection(seg1, seg2);
var i = eps.linesIntersect(a1, a2, b1, b2);
if (i === false){
// segments are parallel or coincident
// if points aren't collinear, then the segments are parallel, so no intersections
if (!eps.pointsCollinear(a1, a2, b1))
return false;
// otherwise, segments are on top of each other somehow (aka coincident)
if (eps.pointsSame(a1, b2) || eps.pointsSame(a2, b1))
return false; // segments touch at endpoints... no intersection
var a1_equ_b1 = eps.pointsSame(a1, b1);
var a2_equ_b2 = eps.pointsSame(a2, b2);
if (a1_equ_b1 && a2_equ_b2)
return ev2; // segments are exactly equal
var a1_between = !a1_equ_b1 && eps.pointBetween(a1, b1, b2);
var a2_between = !a2_equ_b2 && eps.pointBetween(a2, b1, b2);
// handy for debugging:
// buildLog.log({
// a1_equ_b1: a1_equ_b1,
// a2_equ_b2: a2_equ_b2,
// a1_between: a1_between,
// a2_between: a2_between
// });
if (a1_equ_b1){
if (a2_between){
// (a1)---(a2)
// (b1)----------(b2)
eventDivide(ev2, a2);
}
else{
// (a1)----------(a2)
// (b1)---(b2)
eventDivide(ev1, b2);
}
return ev2;
}
else if (a1_between){
if (!a2_equ_b2){
// make a2 equal to b2
if (a2_between){
// (a1)---(a2)
// (b1)-----------------(b2)
eventDivide(ev2, a2);
}
else{
// (a1)----------(a2)
// (b1)----------(b2)
eventDivide(ev1, b2);
}
}
// (a1)---(a2)
// (b1)----------(b2)
eventDivide(ev2, a1);
}
}
else{
// otherwise, lines intersect at i.pt, which may or may not be between the endpoints
// is A divided between its endpoints? (exclusive)
if (i.alongA === 0){
if (i.alongB === -1) // yes, at exactly b1
eventDivide(ev1, b1);
else if (i.alongB === 0) // yes, somewhere between B's endpoints
eventDivide(ev1, i.pt);
else if (i.alongB === 1) // yes, at exactly b2
eventDivide(ev1, b2);
}
// is B divided between its endpoints? (exclusive)
if (i.alongB === 0){
if (i.alongA === -1) // yes, at exactly a1
eventDivide(ev2, a1);
else if (i.alongA === 0) // yes, somewhere between A's endpoints (exclusive)
eventDivide(ev2, i.pt);
else if (i.alongA === 1) // yes, at exactly a2
eventDivide(ev2, a2);
}
}
return false;
}
//
// main event loop
//
var segments = [];
while (!event_root.isEmpty()){
var ev = event_root.getHead();
if (buildLog)
buildLog.vert(ev.pt[0]);
if (ev.isStart){
if (buildLog)
buildLog.segmentNew(ev.seg, ev.primary);
var surrounding = statusFindSurrounding(ev);
var above = surrounding.before ? surrounding.before.ev : null;
var below = surrounding.after ? surrounding.after.ev : null;
if (buildLog){
buildLog.tempStatus(
ev.seg,
above ? above.seg : false,
below ? below.seg : false
);
}
function checkBothIntersections(){
if (above){
var eve = checkIntersection(ev, above);
if (eve)
return eve;
}
if (below)
return checkIntersection(ev, below);
return false;
}
var eve = checkBothIntersections();
if (eve){
// ev and eve are equal
// we'll keep eve and throw away ev
// merge ev.seg's fill information into eve.seg
if (selfIntersection){
var toggle; // are we a toggling edge?
if (ev.seg.myFill.below === null)
toggle = true;
else
toggle = ev.seg.myFill.above !== ev.seg.myFill.below;
// merge two segments that belong to the same polygon
// think of this as sandwiching two segments together, where `eve.seg` is
// the bottom -- this will cause the above fill flag to toggle
if (toggle)
eve.seg.myFill.above = !eve.seg.myFill.above;
}
else{
// merge two segments that belong to different polygons
// each segment has distinct knowledge, so no special logic is needed
// note that this can only happen once per segment in this phase, because we
// are guaranteed that all self-intersections are gone
eve.seg.otherFill = ev.seg.myFill;
}
if (buildLog)
buildLog.segmentUpdate(eve.seg);
ev.other.remove();
ev.remove();
}
if (event_root.getHead() !== ev){
// something was inserted before us in the event queue, so loop back around and
// process it before continuing
if (buildLog)
buildLog.rewind(ev.seg);
continue;
}
//
// calculate fill flags
//
if (selfIntersection){
var toggle; // are we a toggling edge?
if (ev.seg.myFill.below === null) // if we are a new segment...
toggle = true; // then we toggle
else // we are a segment that has previous knowledge from a division
toggle = ev.seg.myFill.above !== ev.seg.myFill.below; // calculate toggle
// next, calculate whether we are filled below us
if (!below){ // if nothing is below us...
// we are filled below us if the polygon is inverted
ev.seg.myFill.below = primaryPolyInverted;
}
else{
// otherwise, we know the answer -- it's the same if whatever is below
// us is filled above it
ev.seg.myFill.below = below.seg.myFill.above;
}
// since now we know if we're filled below us, we can calculate whether
// we're filled above us by applying toggle to whatever is below us
if (toggle)
ev.seg.myFill.above = !ev.seg.myFill.below;
else
ev.seg.myFill.above = ev.seg.myFill.below;
}
else{
// now we fill in any missing transition information, since we are all-knowing
// at this point
if (ev.seg.otherFill === null){
// if we don't have other information, then we need to figure out if we're
// inside the other polygon
var inside;
if (!below){
// if nothing is below us, then we're inside if the other polygon is
// inverted
inside =
ev.primary ? secondaryPolyInverted : primaryPolyInverted;
}
else{ // otherwise, something is below us
// so copy the below segment's other polygon's above
if (ev.primary === below.primary)
inside = below.seg.otherFill.above;
else
inside = below.seg.myFill.above;
}
ev.seg.otherFill = {
above: inside,
below: inside
};
}
}
if (buildLog){
buildLog.status(
ev.seg,
above ? above.seg : false,
below ? below.seg : false
);
}
// insert the status and remember it for later removal
ev.other.status = surrounding.insert(LinkedList.node({ ev: ev }));
}
else{
var st = ev.status;
if (st === null){
throw new Error('PolyBool: Zero-length segment detected; your epsilon is ' +
'probably too small or too large');
}
// removing the status will create two new adjacent edges, so we'll need to check
// for those
if (status_root.exists(st.prev) && status_root.exists(st.next))
checkIntersection(st.prev.ev, st.next.ev);
if (buildLog)
buildLog.statusRemove(st.ev.seg);
// remove the status
st.remove();
// if we've reached this point, we've calculated everything there is to know, so
// save the segment for reporting
if (!ev.primary){
// make sure `seg.myFill` actually points to the primary polygon though
var s = ev.seg.myFill;
ev.seg.myFill = ev.seg.otherFill;
ev.seg.otherFill = s;
}
segments.push(ev.seg);
}
// remove the event and continue
event_root.getHead().remove();
}
if (buildLog)
buildLog.done();
return segments;
}
// return the appropriate API depending on what we're doing
if (!selfIntersection){
// performing combination of polygons, so only deal with already-processed segments
return {
calculate: function(segments1, inverted1, segments2, inverted2){
// segmentsX come from the self-intersection API, or this API
// invertedX is whether we treat that list of segments as an inverted polygon or not
// returns segments that can be used for further operations
segments1.forEach(function(seg){
eventAddSegment(segmentCopy(seg.start, seg.end, seg), true);
});
segments2.forEach(function(seg){
eventAddSegment(segmentCopy(seg.start, seg.end, seg), false);
});
return calculate(inverted1, inverted2);
}
};
}
// otherwise, performing self-intersection, so deal with regions
return {
addRegion: function(region){
// regions are a list of points:
// [ [0, 0], [100, 0], [50, 100] ]
// you can add multiple regions before running calculate
var pt1;
var pt2 = region[region.length - 1];
for (var i = 0; i < region.length; i++){
pt1 = pt2;
pt2 = region[i];
var forward = eps.pointsCompare(pt1, pt2);
if (forward === 0) // points are equal, so we have a zero-length segment
continue; // just skip it
eventAddSegment(
segmentNew(
forward < 0 ? pt1 : pt2,
forward < 0 ? pt2 : pt1
),
true
);
}
},
calculate: function(inverted){
// is the polygon inverted?
// returns segments
return calculate(inverted, false);
}
};
}
module.exports = Intersecter;
},{"./linked-list":458}],458:[function(_dereq_,module,exports){
// (c) Copyright 2016, Sean Connelly (@voidqk), http://syntheti.cc
// MIT License
// Project Home: https://github.com/voidqk/polybooljs
//
// simple linked list implementation that allows you to traverse down nodes and save positions
//
var LinkedList = {
create: function(){
var my = {
root: { root: true, next: null },
exists: function(node){
if (node === null || node === my.root)
return false;
return true;
},
isEmpty: function(){
return my.root.next === null;
},
getHead: function(){
return my.root.next;
},
insertBefore: function(node, check){
var last = my.root;
var here = my.root.next;
while (here !== null){
if (check(here)){
node.prev = here.prev;
node.next = here;
here.prev.next = node;
here.prev = node;
return;
}
last = here;
here = here.next;
}
last.next = node;
node.prev = last;
node.next = null;
},
findTransition: function(check){
var prev = my.root;
var here = my.root.next;
while (here !== null){
if (check(here))
break;
prev = here;
here = here.next;
}
return {
before: prev === my.root ? null : prev,
after: here,
insert: function(node){
node.prev = prev;
node.next = here;
prev.next = node;
if (here !== null)
here.prev = node;
return node;
}
};
}
};
return my;
},
node: function(data){
data.prev = null;
data.next = null;
data.remove = function(){
data.prev.next = data.next;
if (data.next)
data.next.prev = data.prev;
data.prev = null;
data.next = null;
};
return data;
}
};
module.exports = LinkedList;
},{}],459:[function(_dereq_,module,exports){
// (c) Copyright 2016, Sean Connelly (@voidqk), http://syntheti.cc
// MIT License
// Project Home: https://github.com/voidqk/polybooljs
//
// converts a list of segments into a list of regions, while also removing unnecessary verticies
//
function SegmentChainer(segments, eps, buildLog){
var chains = [];
var regions = [];
segments.forEach(function(seg){
var pt1 = seg.start;
var pt2 = seg.end;
if (eps.pointsSame(pt1, pt2)){
console.warn('PolyBool: Warning: Zero-length segment detected; your epsilon is ' +
'probably too small or too large');
return;
}
if (buildLog)
buildLog.chainStart(seg);
// search for two chains that this segment matches
var first_match = {
index: 0,
matches_head: false,
matches_pt1: false
};
var second_match = {
index: 0,
matches_head: false,
matches_pt1: false
};
var next_match = first_match;
function setMatch(index, matches_head, matches_pt1){
// return true if we've matched twice
next_match.index = index;
next_match.matches_head = matches_head;
next_match.matches_pt1 = matches_pt1;
if (next_match === first_match){
next_match = second_match;
return false;
}
next_match = null;
return true; // we've matched twice, we're done here
}
for (var i = 0; i < chains.length; i++){
var chain = chains[i];
var head = chain[0];
var head2 = chain[1];
var tail = chain[chain.length - 1];
var tail2 = chain[chain.length - 2];
if (eps.pointsSame(head, pt1)){
if (setMatch(i, true, true))
break;
}
else if (eps.pointsSame(head, pt2)){
if (setMatch(i, true, false))
break;
}
else if (eps.pointsSame(tail, pt1)){
if (setMatch(i, false, true))
break;
}
else if (eps.pointsSame(tail, pt2)){
if (setMatch(i, false, false))
break;
}
}
if (next_match === first_match){
// we didn't match anything, so create a new chain
chains.push([ pt1, pt2 ]);
if (buildLog)
buildLog.chainNew(pt1, pt2);
return;
}
if (next_match === second_match){
// we matched a single chain
if (buildLog)
buildLog.chainMatch(first_match.index);
// add the other point to the apporpriate end, and check to see if we've closed the
// chain into a loop
var index = first_match.index;
var pt = first_match.matches_pt1 ? pt2 : pt1; // if we matched pt1, then we add pt2, etc
var addToHead = first_match.matches_head; // if we matched at head, then add to the head
var chain = chains[index];
var grow = addToHead ? chain[0] : chain[chain.length - 1];
var grow2 = addToHead ? chain[1] : chain[chain.length - 2];
var oppo = addToHead ? chain[chain.length - 1] : chain[0];
var oppo2 = addToHead ? chain[chain.length - 2] : chain[1];
if (eps.pointsCollinear(grow2, grow, pt)){
// grow isn't needed because it's directly between grow2 and pt:
// grow2 ---grow---> pt
if (addToHead){
if (buildLog)
buildLog.chainRemoveHead(first_match.index, pt);
chain.shift();
}
else{
if (buildLog)
buildLog.chainRemoveTail(first_match.index, pt);
chain.pop();
}
grow = grow2; // old grow is gone... new grow is what grow2 was
}
if (eps.pointsSame(oppo, pt)){
// we're closing the loop, so remove chain from chains
chains.splice(index, 1);
if (eps.pointsCollinear(oppo2, oppo, grow)){
// oppo isn't needed because it's directly between oppo2 and grow:
// oppo2 ---oppo--->grow
if (addToHead){
if (buildLog)
buildLog.chainRemoveTail(first_match.index, grow);
chain.pop();
}
else{
if (buildLog)
buildLog.chainRemoveHead(first_match.index, grow);
chain.shift();
}
}
if (buildLog)
buildLog.chainClose(first_match.index);
// we have a closed chain!
regions.push(chain);
return;
}
// not closing a loop, so just add it to the apporpriate side
if (addToHead){
if (buildLog)
buildLog.chainAddHead(first_match.index, pt);
chain.unshift(pt);
}
else{
if (buildLog)
buildLog.chainAddTail(first_match.index, pt);
chain.push(pt);
}
return;
}
// otherwise, we matched two chains, so we need to combine those chains together
function reverseChain(index){
if (buildLog)
buildLog.chainReverse(index);
chains[index].reverse(); // gee, that's easy
}
function appendChain(index1, index2){
// index1 gets index2 appended to it, and index2 is removed
var chain1 = chains[index1];
var chain2 = chains[index2];
var tail = chain1[chain1.length - 1];
var tail2 = chain1[chain1.length - 2];
var head = chain2[0];
var head2 = chain2[1];
if (eps.pointsCollinear(tail2, tail, head)){
// tail isn't needed because it's directly between tail2 and head
// tail2 ---tail---> head
if (buildLog)
buildLog.chainRemoveTail(index1, tail);
chain1.pop();
tail = tail2; // old tail is gone... new tail is what tail2 was
}
if (eps.pointsCollinear(tail, head, head2)){
// head isn't needed because it's directly between tail and head2
// tail ---head---> head2
if (buildLog)
buildLog.chainRemoveHead(index2, head);
chain2.shift();
}
if (buildLog)
buildLog.chainJoin(index1, index2);
chains[index1] = chain1.concat(chain2);
chains.splice(index2, 1);
}
var F = first_match.index;
var S = second_match.index;
if (buildLog)
buildLog.chainConnect(F, S);
var reverseF = chains[F].length < chains[S].length; // reverse the shorter chain, if needed
if (first_match.matches_head){
if (second_match.matches_head){
if (reverseF){
// <<<< F <<<< --- >>>> S >>>>
reverseChain(F);
// >>>> F >>>> --- >>>> S >>>>
appendChain(F, S);
}
else{
// <<<< F <<<< --- >>>> S >>>>
reverseChain(S);
// <<<< F <<<< --- <<<< S <<<< logically same as:
// >>>> S >>>> --- >>>> F >>>>
appendChain(S, F);
}
}
else{
// <<<< F <<<< --- <<<< S <<<< logically same as:
// >>>> S >>>> --- >>>> F >>>>
appendChain(S, F);
}
}
else{
if (second_match.matches_head){
// >>>> F >>>> --- >>>> S >>>>
appendChain(F, S);
}
else{
if (reverseF){
// >>>> F >>>> --- <<<< S <<<<
reverseChain(F);
// <<<< F <<<< --- <<<< S <<<< logically same as:
// >>>> S >>>> --- >>>> F >>>>
appendChain(S, F);
}
else{
// >>>> F >>>> --- <<<< S <<<<
reverseChain(S);
// >>>> F >>>> --- >>>> S >>>>
appendChain(F, S);
}
}
}
});
return regions;
}
module.exports = SegmentChainer;
},{}],460:[function(_dereq_,module,exports){
// (c) Copyright 2016, Sean Connelly (@voidqk), http://syntheti.cc
// MIT License
// Project Home: https://github.com/voidqk/polybooljs
//
// filter a list of segments based on boolean operations
//
function select(segments, selection, buildLog){
var result = [];
segments.forEach(function(seg){
var index =
(seg.myFill.above ? 8 : 0) +
(seg.myFill.below ? 4 : 0) +
((seg.otherFill && seg.otherFill.above) ? 2 : 0) +
((seg.otherFill && seg.otherFill.below) ? 1 : 0);
if (selection[index] !== 0){
// copy the segment to the results, while also calculating the fill status
result.push({
id: buildLog ? buildLog.segmentId() : -1,
start: seg.start,
end: seg.end,
myFill: {
above: selection[index] === 1, // 1 if filled above
below: selection[index] === 2 // 2 if filled below
},
otherFill: null
});
}
});
if (buildLog)
buildLog.selected(result);
return result;
}
var SegmentSelector = {
union: function(segments, buildLog){ // primary | secondary
// above1 below1 above2 below2 Keep? Value
// 0 0 0 0 => no 0
// 0 0 0 1 => yes filled below 2
// 0 0 1 0 => yes filled above 1
// 0 0 1 1 => no 0
// 0 1 0 0 => yes filled below 2
// 0 1 0 1 => yes filled below 2
// 0 1 1 0 => no 0
// 0 1 1 1 => no 0
// 1 0 0 0 => yes filled above 1
// 1 0 0 1 => no 0
// 1 0 1 0 => yes filled above 1
// 1 0 1 1 => no 0
// 1 1 0 0 => no 0
// 1 1 0 1 => no 0
// 1 1 1 0 => no 0
// 1 1 1 1 => no 0
return select(segments, [
0, 2, 1, 0,
2, 2, 0, 0,
1, 0, 1, 0,
0, 0, 0, 0
], buildLog);
},
intersect: function(segments, buildLog){ // primary & secondary
// above1 below1 above2 below2 Keep? Value
// 0 0 0 0 => no 0
// 0 0 0 1 => no 0
// 0 0 1 0 => no 0
// 0 0 1 1 => no 0
// 0 1 0 0 => no 0
// 0 1 0 1 => yes filled below 2
// 0 1 1 0 => no 0
// 0 1 1 1 => yes filled below 2
// 1 0 0 0 => no 0
// 1 0 0 1 => no 0
// 1 0 1 0 => yes filled above 1
// 1 0 1 1 => yes filled above 1
// 1 1 0 0 => no 0
// 1 1 0 1 => yes filled below 2
// 1 1 1 0 => yes filled above 1
// 1 1 1 1 => no 0
return select(segments, [
0, 0, 0, 0,
0, 2, 0, 2,
0, 0, 1, 1,
0, 2, 1, 0
], buildLog);
},
difference: function(segments, buildLog){ // primary - secondary
// above1 below1 above2 below2 Keep? Value
// 0 0 0 0 => no 0
// 0 0 0 1 => no 0
// 0 0 1 0 => no 0
// 0 0 1 1 => no 0
// 0 1 0 0 => yes filled below 2
// 0 1 0 1 => no 0
// 0 1 1 0 => yes filled below 2
// 0 1 1 1 => no 0
// 1 0 0 0 => yes filled above 1
// 1 0 0 1 => yes filled above 1
// 1 0 1 0 => no 0
// 1 0 1 1 => no 0
// 1 1 0 0 => no 0
// 1 1 0 1 => yes filled above 1
// 1 1 1 0 => yes filled below 2
// 1 1 1 1 => no 0
return select(segments, [
0, 0, 0, 0,
2, 0, 2, 0,
1, 1, 0, 0,
0, 1, 2, 0
], buildLog);
},
differenceRev: function(segments, buildLog){ // secondary - primary
// above1 below1 above2 below2 Keep? Value
// 0 0 0 0 => no 0
// 0 0 0 1 => yes filled below 2
// 0 0 1 0 => yes filled above 1
// 0 0 1 1 => no 0
// 0 1 0 0 => no 0
// 0 1 0 1 => no 0
// 0 1 1 0 => yes filled above 1
// 0 1 1 1 => yes filled above 1
// 1 0 0 0 => no 0
// 1 0 0 1 => yes filled below 2
// 1 0 1 0 => no 0
// 1 0 1 1 => yes filled below 2
// 1 1 0 0 => no 0
// 1 1 0 1 => no 0
// 1 1 1 0 => no 0
// 1 1 1 1 => no 0
return select(segments, [
0, 2, 1, 0,
0, 0, 1, 1,
0, 2, 0, 2,
0, 0, 0, 0
], buildLog);
},
xor: function(segments, buildLog){ // primary ^ secondary
// above1 below1 above2 below2 Keep? Value
// 0 0 0 0 => no 0
// 0 0 0 1 => yes filled below 2
// 0 0 1 0 => yes filled above 1
// 0 0 1 1 => no 0
// 0 1 0 0 => yes filled below 2
// 0 1 0 1 => no 0
// 0 1 1 0 => no 0
// 0 1 1 1 => yes filled above 1
// 1 0 0 0 => yes filled above 1
// 1 0 0 1 => no 0
// 1 0 1 0 => no 0
// 1 0 1 1 => yes filled below 2
// 1 1 0 0 => no 0
// 1 1 0 1 => yes filled above 1
// 1 1 1 0 => yes filled below 2
// 1 1 1 1 => no 0
return select(segments, [
0, 2, 1, 0,
2, 0, 0, 1,
1, 0, 0, 2,
0, 1, 2, 0
], buildLog);
}
};
module.exports = SegmentSelector;
},{}],461:[function(_dereq_,module,exports){
//Optimized version for triangle closest point
// Based on Eberly's WildMagick codes
// http://www.geometrictools.com/LibMathematics/Distance/Distance.html
"use strict";
var diff = new Float64Array(4);
var edge0 = new Float64Array(4);
var edge1 = new Float64Array(4);
function closestPoint2d(V0, V1, V2, point, result) {
//Reallocate buffers if necessary
if(diff.length < point.length) {
diff = new Float64Array(point.length);
edge0 = new Float64Array(point.length);
edge1 = new Float64Array(point.length);
}
//Compute edges
for(var i=0; i<point.length; ++i) {
diff[i] = V0[i] - point[i];
edge0[i] = V1[i] - V0[i];
edge1[i] = V2[i] - V0[i];
}
//Compute coefficients for quadratic func
var a00 = 0.0
, a01 = 0.0
, a11 = 0.0
, b0 = 0.0
, b1 = 0.0
, c = 0.0;
for(var i=0; i<point.length; ++i) {
var e0 = edge0[i]
, e1 = edge1[i]
, d = diff[i];
a00 += e0 * e0;
a01 += e0 * e1;
a11 += e1 * e1;
b0 += d * e0;
b1 += d * e1;
c += d * d;
}
//Compute determinant/coeffs
var det = Math.abs(a00*a11 - a01*a01);
var s = a01*b1 - a11*b0;
var t = a01*b0 - a00*b1;
var sqrDistance;
//Hardcoded Voronoi diagram classification
if (s + t <= det) {
if (s < 0) {
if (t < 0) { // region 4
if (b0 < 0) {
t = 0;
if (-b0 >= a00) {
s = 1.0;
sqrDistance = a00 + 2.0*b0 + c;
} else {
s = -b0/a00;
sqrDistance = b0*s + c;
}
} else {
s = 0;
if (b1 >= 0) {
t = 0;
sqrDistance = c;
} else if (-b1 >= a11) {
t = 1;
sqrDistance = a11 + 2.0*b1 + c;
} else {
t = -b1/a11;
sqrDistance = b1*t + c;
}
}
} else { // region 3
s = 0;
if (b1 >= 0) {
t = 0;
sqrDistance = c;
} else if (-b1 >= a11) {
t = 1;
sqrDistance = a11 + 2.0*b1 + c;
} else {
t = -b1/a11;
sqrDistance = b1*t + c;
}
}
} else if (t < 0) { // region 5
t = 0;
if (b0 >= 0) {
s = 0;
sqrDistance = c;
} else if (-b0 >= a00) {
s = 1;
sqrDistance = a00 + 2.0*b0 + c;
} else {
s = -b0/a00;
sqrDistance = b0*s + c;
}
} else { // region 0
// minimum at interior point
var invDet = 1.0 / det;
s *= invDet;
t *= invDet;
sqrDistance = s*(a00*s + a01*t + 2.0*b0) + t*(a01*s + a11*t + 2.0*b1) + c;
}
} else {
var tmp0, tmp1, numer, denom;
if (s < 0) { // region 2
tmp0 = a01 + b0;
tmp1 = a11 + b1;
if (tmp1 > tmp0) {
numer = tmp1 - tmp0;
denom = a00 - 2.0*a01 + a11;
if (numer >= denom) {
s = 1;
t = 0;
sqrDistance = a00 + 2.0*b0 + c;
} else {
s = numer/denom;
t = 1 - s;
sqrDistance = s*(a00*s + a01*t + 2.0*b0) +
t*(a01*s + a11*t + 2.0*b1) + c;
}
} else {
s = 0;
if (tmp1 <= 0) {
t = 1;
sqrDistance = a11 + 2.0*b1 + c;
} else if (b1 >= 0) {
t = 0;
sqrDistance = c;
} else {
t = -b1/a11;
sqrDistance = b1*t + c;
}
}
} else if (t < 0) { // region 6
tmp0 = a01 + b1;
tmp1 = a00 + b0;
if (tmp1 > tmp0) {
numer = tmp1 - tmp0;
denom = a00 - 2.0*a01 + a11;
if (numer >= denom) {
t = 1;
s = 0;
sqrDistance = a11 + 2.0*b1 + c;
} else {
t = numer/denom;
s = 1 - t;
sqrDistance = s*(a00*s + a01*t + 2.0*b0) +
t*(a01*s + a11*t + 2.0*b1) + c;
}
} else {
t = 0;
if (tmp1 <= 0) {
s = 1;
sqrDistance = a00 + 2.0*b0 + c;
} else if (b0 >= 0) {
s = 0;
sqrDistance = c;
} else {
s = -b0/a00;
sqrDistance = b0*s + c;
}
}
} else { // region 1
numer = a11 + b1 - a01 - b0;
if (numer <= 0) {
s = 0;
t = 1;
sqrDistance = a11 + 2.0*b1 + c;
} else {
denom = a00 - 2.0*a01 + a11;
if (numer >= denom) {
s = 1;
t = 0;
sqrDistance = a00 + 2.0*b0 + c;
} else {
s = numer/denom;
t = 1 - s;
sqrDistance = s*(a00*s + a01*t + 2.0*b0) +
t*(a01*s + a11*t + 2.0*b1) + c;
}
}
}
}
var u = 1.0 - s - t;
for(var i=0; i<point.length; ++i) {
result[i] = u * V0[i] + s * V1[i] + t * V2[i];
}
if(sqrDistance < 0) {
return 0;
}
return sqrDistance;
}
module.exports = closestPoint2d;
},{}],462:[function(_dereq_,module,exports){
// shim for using process in browser
var process = module.exports = {};
// cached from whatever global is present so that test runners that stub it
// don't break things. But we need to wrap it in a try catch in case it is
// wrapped in strict mode code which doesn't define any globals. It's inside a
// function because try/catches deoptimize in certain engines.
var cachedSetTimeout;
var cachedClearTimeout;
function defaultSetTimout() {
throw new Error('setTimeout has not been defined');
}
function defaultClearTimeout () {
throw new Error('clearTimeout has not been defined');
}
(function () {
try {
if (typeof setTimeout === 'function') {
cachedSetTimeout = setTimeout;
} else {
cachedSetTimeout = defaultSetTimout;
}
} catch (e) {
cachedSetTimeout = defaultSetTimout;
}
try {
if (typeof clearTimeout === 'function') {
cachedClearTimeout = clearTimeout;
} else {
cachedClearTimeout = defaultClearTimeout;
}
} catch (e) {
cachedClearTimeout = defaultClearTimeout;
}
} ())
function runTimeout(fun) {
if (cachedSetTimeout === setTimeout) {
//normal enviroments in sane situations
return setTimeout(fun, 0);
}
// if setTimeout wasn't available but was latter defined
if ((cachedSetTimeout === defaultSetTimout || !cachedSetTimeout) && setTimeout) {
cachedSetTimeout = setTimeout;
return setTimeout(fun, 0);
}
try {
// when when somebody has screwed with setTimeout but no I.E. maddness
return cachedSetTimeout(fun, 0);
} catch(e){
try {
// When we are in I.E. but the script has been evaled so I.E. doesn't trust the global object when called normally
return cachedSetTimeout.call(null, fun, 0);
} catch(e){
// same as above but when it's a version of I.E. that must have the global object for 'this', hopfully our context correct otherwise it will throw a global error
return cachedSetTimeout.call(this, fun, 0);
}
}
}
function runClearTimeout(marker) {
if (cachedClearTimeout === clearTimeout) {
//normal enviroments in sane situations
return clearTimeout(marker);
}
// if clearTimeout wasn't available but was latter defined
if ((cachedClearTimeout === defaultClearTimeout || !cachedClearTimeout) && clearTimeout) {
cachedClearTimeout = clearTimeout;
return clearTimeout(marker);
}
try {
// when when somebody has screwed with setTimeout but no I.E. maddness
return cachedClearTimeout(marker);
} catch (e){
try {
// When we are in I.E. but the script has been evaled so I.E. doesn't trust the global object when called normally
return cachedClearTimeout.call(null, marker);
} catch (e){
// same as above but when it's a version of I.E. that must have the global object for 'this', hopfully our context correct otherwise it will throw a global error.
// Some versions of I.E. have different rules for clearTimeout vs setTimeout
return cachedClearTimeout.call(this, marker);
}
}
}
var queue = [];
var draining = false;
var currentQueue;
var queueIndex = -1;
function cleanUpNextTick() {
if (!draining || !currentQueue) {
return;
}
draining = false;
if (currentQueue.length) {
queue = currentQueue.concat(queue);
} else {
queueIndex = -1;
}
if (queue.length) {
drainQueue();
}
}
function drainQueue() {
if (draining) {
return;
}
var timeout = runTimeout(cleanUpNextTick);
draining = true;
var len = queue.length;
while(len) {
currentQueue = queue;
queue = [];
while (++queueIndex < len) {
if (currentQueue) {
currentQueue[queueIndex].run();
}
}
queueIndex = -1;
len = queue.length;
}
currentQueue = null;
draining = false;
runClearTimeout(timeout);
}
process.nextTick = function (fun) {
var args = new Array(arguments.length - 1);
if (arguments.length > 1) {
for (var i = 1; i < arguments.length; i++) {
args[i - 1] = arguments[i];
}
}
queue.push(new Item(fun, args));
if (queue.length === 1 && !draining) {
runTimeout(drainQueue);
}
};
// v8 likes predictible objects
function Item(fun, array) {
this.fun = fun;
this.array = array;
}
Item.prototype.run = function () {
this.fun.apply(null, this.array);
};
process.title = 'browser';
process.browser = true;
process.env = {};
process.argv = [];
process.version = ''; // empty string to avoid regexp issues
process.versions = {};
function noop() {}
process.on = noop;
process.addListener = noop;
process.once = noop;
process.off = noop;
process.removeListener = noop;
process.removeAllListeners = noop;
process.emit = noop;
process.prependListener = noop;
process.prependOnceListener = noop;
process.listeners = function (name) { return [] }
process.binding = function (name) {
throw new Error('process.binding is not supported');
};
process.cwd = function () { return '/' };
process.chdir = function (dir) {
throw new Error('process.chdir is not supported');
};
process.umask = function() { return 0; };
},{}],463:[function(_dereq_,module,exports){
module.exports = _dereq_('gl-quat/slerp')
},{"gl-quat/slerp":279}],464:[function(_dereq_,module,exports){
(function (global){
var now = _dereq_('performance-now')
, root = typeof window === 'undefined' ? global : window
, vendors = ['moz', 'webkit']
, suffix = 'AnimationFrame'
, raf = root['request' + suffix]
, caf = root['cancel' + suffix] || root['cancelRequest' + suffix]
for(var i = 0; !raf && i < vendors.length; i++) {
raf = root[vendors[i] + 'Request' + suffix]
caf = root[vendors[i] + 'Cancel' + suffix]
|| root[vendors[i] + 'CancelRequest' + suffix]
}
// Some versions of FF have rAF but not cAF
if(!raf || !caf) {
var last = 0
, id = 0
, queue = []
, frameDuration = 1000 / 60
raf = function(callback) {
if(queue.length === 0) {
var _now = now()
, next = Math.max(0, frameDuration - (_now - last))
last = next + _now
setTimeout(function() {
var cp = queue.slice(0)
// Clear queue here to prevent
// callbacks from appending listeners
// to the current frame's queue
queue.length = 0
for(var i = 0; i < cp.length; i++) {
if(!cp[i].cancelled) {
try{
cp[i].callback(last)
} catch(e) {
setTimeout(function() { throw e }, 0)
}
}
}
}, Math.round(next))
}
queue.push({
handle: ++id,
callback: callback,
cancelled: false
})
return id
}
caf = function(handle) {
for(var i = 0; i < queue.length; i++) {
if(queue[i].handle === handle) {
queue[i].cancelled = true
}
}
}
}
module.exports = function(fn) {
// Wrap in a new function to prevent
// `cancel` potentially being assigned
// to the native rAF function
return raf.call(root, fn)
}
module.exports.cancel = function() {
caf.apply(root, arguments)
}
module.exports.polyfill = function(object) {
if (!object) {
object = root;
}
object.requestAnimationFrame = raf
object.cancelAnimationFrame = caf
}
}).call(this,typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {})
},{"performance-now":442}],465:[function(_dereq_,module,exports){
'use strict'
var bnadd = _dereq_('big-rat/add')
module.exports = add
function add (a, b) {
var n = a.length
var r = new Array(n)
for (var i=0; i<n; ++i) {
r[i] = bnadd(a[i], b[i])
}
return r
}
},{"big-rat/add":62}],466:[function(_dereq_,module,exports){
'use strict'
module.exports = float2rat
var rat = _dereq_('big-rat')
function float2rat(v) {
var result = new Array(v.length)
for(var i=0; i<v.length; ++i) {
result[i] = rat(v[i])
}
return result
}
},{"big-rat":65}],467:[function(_dereq_,module,exports){
'use strict'
var rat = _dereq_('big-rat')
var mul = _dereq_('big-rat/mul')
module.exports = muls
function muls(a, x) {
var s = rat(x)
var n = a.length
var r = new Array(n)
for(var i=0; i<n; ++i) {
r[i] = mul(a[i], s)
}
return r
}
},{"big-rat":65,"big-rat/mul":74}],468:[function(_dereq_,module,exports){
'use strict'
var bnsub = _dereq_('big-rat/sub')
module.exports = sub
function sub(a, b) {
var n = a.length
var r = new Array(n)
for(var i=0; i<n; ++i) {
r[i] = bnsub(a[i], b[i])
}
return r
}
},{"big-rat/sub":76}],469:[function(_dereq_,module,exports){
'use strict'
var compareCell = _dereq_('compare-cell')
var compareOrientedCell = _dereq_('compare-oriented-cell')
var orientation = _dereq_('cell-orientation')
module.exports = reduceCellComplex
function reduceCellComplex(cells) {
cells.sort(compareOrientedCell)
var n = cells.length
var ptr = 0
for(var i=0; i<n; ++i) {
var c = cells[i]
var o = orientation(c)
if(o === 0) {
continue
}
if(ptr > 0) {
var f = cells[ptr-1]
if(compareCell(c, f) === 0 &&
orientation(f) !== o) {
ptr -= 1
continue
}
}
cells[ptr++] = c
}
cells.length = ptr
return cells
}
},{"cell-orientation":99,"compare-cell":115,"compare-oriented-cell":116}],470:[function(_dereq_,module,exports){
'use strict'
var getBounds = _dereq_('array-bounds')
var rgba = _dereq_('color-normalize')
var updateDiff = _dereq_('update-diff')
var pick = _dereq_('pick-by-alias')
var extend = _dereq_('object-assign')
var flatten = _dereq_('flatten-vertex-data')
var ref = _dereq_('to-float32');
var float32 = ref.float32;
var fract32 = ref.fract32;
module.exports = Error2D
var WEIGHTS = [
//direction, lineWidth shift, capSize shift
// x-error bar
[1, 0, 0, 1, 0, 0],
[1, 0, 0, -1, 0, 0],
[-1, 0, 0, -1, 0, 0],
[-1, 0, 0, -1, 0, 0],
[-1, 0, 0, 1, 0, 0],
[1, 0, 0, 1, 0, 0],
// x-error right cap
[1, 0, -1, 0, 0, 1],
[1, 0, -1, 0, 0, -1],
[1, 0, 1, 0, 0, -1],
[1, 0, 1, 0, 0, -1],
[1, 0, 1, 0, 0, 1],
[1, 0, -1, 0, 0, 1],
// x-error left cap
[-1, 0, -1, 0, 0, 1],
[-1, 0, -1, 0, 0, -1],
[-1, 0, 1, 0, 0, -1],
[-1, 0, 1, 0, 0, -1],
[-1, 0, 1, 0, 0, 1],
[-1, 0, -1, 0, 0, 1],
// y-error bar
[0, 1, 1, 0, 0, 0],
[0, 1, -1, 0, 0, 0],
[0, -1, -1, 0, 0, 0],
[0, -1, -1, 0, 0, 0],
[0, 1, 1, 0, 0, 0],
[0, -1, 1, 0, 0, 0],
// y-error top cap
[0, 1, 0, -1, 1, 0],
[0, 1, 0, -1, -1, 0],
[0, 1, 0, 1, -1, 0],
[0, 1, 0, 1, 1, 0],
[0, 1, 0, -1, 1, 0],
[0, 1, 0, 1, -1, 0],
// y-error bottom cap
[0, -1, 0, -1, 1, 0],
[0, -1, 0, -1, -1, 0],
[0, -1, 0, 1, -1, 0],
[0, -1, 0, 1, 1, 0],
[0, -1, 0, -1, 1, 0],
[0, -1, 0, 1, -1, 0]
]
function Error2D (regl, options) {
if (typeof regl === 'function') {
if (!options) { options = {} }
options.regl = regl
}
else {
options = regl
}
if (options.length) { options.positions = options }
regl = options.regl
if (!regl.hasExtension('ANGLE_instanced_arrays')) {
throw Error('regl-error2d: `ANGLE_instanced_arrays` extension should be enabled');
}
// persistent variables
var gl = regl._gl, drawErrors, positionBuffer, positionFractBuffer, colorBuffer, errorBuffer, meshBuffer,
defaults = {
color: 'black',
capSize: 5,
lineWidth: 1,
opacity: 1,
viewport: null,
range: null,
offset: 0,
count: 0,
bounds: null,
positions: [],
errors: []
}, groups = []
//color per-point
colorBuffer = regl.buffer({
usage: 'dynamic',
type: 'uint8',
data: new Uint8Array(0)
})
//xy-position per-point
positionBuffer = regl.buffer({
usage: 'dynamic',
type: 'float',
data: new Uint8Array(0)
})
//xy-position float32-fraction
positionFractBuffer = regl.buffer({
usage: 'dynamic',
type: 'float',
data: new Uint8Array(0)
})
//4 errors per-point
errorBuffer = regl.buffer({
usage: 'dynamic',
type: 'float',
data: new Uint8Array(0)
})
//error bar mesh
meshBuffer = regl.buffer({
usage: 'static',
type: 'float',
data: WEIGHTS
})
update(options)
//drawing method
drawErrors = regl({
vert: "\n\t\tprecision highp float;\n\n\t\tattribute vec2 position, positionFract;\n\t\tattribute vec4 error;\n\t\tattribute vec4 color;\n\n\t\tattribute vec2 direction, lineOffset, capOffset;\n\n\t\tuniform vec4 viewport;\n\t\tuniform float lineWidth, capSize;\n\t\tuniform vec2 scale, scaleFract, translate, translateFract;\n\n\t\tvarying vec4 fragColor;\n\n\t\tvoid main() {\n\t\t\tfragColor = color / 255.;\n\n\t\t\tvec2 pixelOffset = lineWidth * lineOffset + (capSize + lineWidth) * capOffset;\n\n\t\t\tvec2 dxy = -step(.5, direction.xy) * error.xz + step(direction.xy, vec2(-.5)) * error.yw;\n\n\t\t\tvec2 position = position + dxy;\n\n\t\t\tvec2 pos = (position + translate) * scale\n\t\t\t\t+ (positionFract + translateFract) * scale\n\t\t\t\t+ (position + translate) * scaleFract\n\t\t\t\t+ (positionFract + translateFract) * scaleFract;\n\n\t\t\tpos += pixelOffset / viewport.zw;\n\n\t\t\tgl_Position = vec4(pos * 2. - 1., 0, 1);\n\t\t}\n\t\t",
frag: "\n\t\tprecision mediump float;\n\n\t\tvarying vec4 fragColor;\n\n\t\tuniform float opacity;\n\n\t\tvoid main() {\n\t\t\tgl_FragColor = fragColor;\n\t\t\tgl_FragColor.a *= opacity;\n\t\t}\n\t\t",
uniforms: {
range: regl.prop('range'),
lineWidth: regl.prop('lineWidth'),
capSize: regl.prop('capSize'),
opacity: regl.prop('opacity'),
scale: regl.prop('scale'),
translate: regl.prop('translate'),
scaleFract: regl.prop('scaleFract'),
translateFract: regl.prop('translateFract'),
viewport: function (ctx, prop) { return [prop.viewport.x, prop.viewport.y, ctx.viewportWidth, ctx.viewportHeight]; }
},
attributes: {
//dynamic attributes
color: {
buffer: colorBuffer,
offset: function (ctx, prop) { return prop.offset * 4; },
divisor: 1,
},
position: {
buffer: positionBuffer,
offset: function (ctx, prop) { return prop.offset * 8; },
divisor: 1
},
positionFract: {
buffer: positionFractBuffer,
offset: function (ctx, prop) { return prop.offset * 8; },
divisor: 1
},
error: {
buffer: errorBuffer,
offset: function (ctx, prop) { return prop.offset * 16; },
divisor: 1
},
//static attributes
direction: {
buffer: meshBuffer,
stride: 24,
offset: 0
},
lineOffset: {
buffer: meshBuffer,
stride: 24,
offset: 8
},
capOffset: {
buffer: meshBuffer,
stride: 24,
offset: 16
}
},
primitive: 'triangles',
blend: {
enable: true,
color: [0,0,0,0],
equation: {
rgb: 'add',
alpha: 'add'
},
func: {
srcRGB: 'src alpha',
dstRGB: 'one minus src alpha',
srcAlpha: 'one minus dst alpha',
dstAlpha: 'one'
}
},
depth: {
enable: false
},
scissor: {
enable: true,
box: regl.prop('viewport')
},
viewport: regl.prop('viewport'),
stencil: false,
instances: regl.prop('count'),
count: WEIGHTS.length
})
//expose API
extend(error2d, {
update: update,
draw: draw,
destroy: destroy,
regl: regl,
gl: gl,
canvas: gl.canvas,
groups: groups
})
return error2d
function error2d (opts) {
//update
if (opts) {
update(opts)
}
//destroy
else if (opts === null) {
destroy()
}
draw()
}
//main draw method
function draw (options) {
if (typeof options === 'number') { return drawGroup(options) }
//make options a batch
if (options && !Array.isArray(options)) { options = [options] }
regl._refresh()
//render multiple polylines via regl batch
groups.forEach(function (s, i) {
if (!s) { return }
if (options) {
if (!options[i]) { s.draw = false }
else { s.draw = true }
}
//ignore draw flag for one pass
if (!s.draw) {
s.draw = true;
return
}
drawGroup(i)
})
}
//draw single error group by id
function drawGroup (s) {
if (typeof s === 'number') { s = groups[s] }
if (s == null) { return }
if (!(s && s.count && s.color && s.opacity && s.positions && s.positions.length > 1)) { return }
s.scaleRatio = [
s.scale[0] * s.viewport.width,
s.scale[1] * s.viewport.height
]
drawErrors(s)
if (s.after) { s.after(s) }
}
function update (options) {
if (!options) { return }
//direct points argument
if (options.length != null) {
if (typeof options[0] === 'number') { options = [{positions: options}] }
}
//make options a batch
else if (!Array.isArray(options)) { options = [options] }
//global count of points
var pointCount = 0, errorCount = 0
error2d.groups = groups = options.map(function (options, i) {
var group = groups[i]
if (!options) { return group }
else if (typeof options === 'function') { options = {after: options} }
else if (typeof options[0] === 'number') { options = {positions: options} }
//copy options to avoid mutation & handle aliases
options = pick(options, {
color: 'color colors fill',
capSize: 'capSize cap capsize cap-size',
lineWidth: 'lineWidth line-width width line thickness',
opacity: 'opacity alpha',
range: 'range dataBox',
viewport: 'viewport viewBox',
errors: 'errors error',
positions: 'positions position data points'
})
if (!group) {
groups[i] = group = {
id: i,
scale: null,
translate: null,
scaleFract: null,
translateFract: null,
draw: true
}
options = extend({}, defaults, options)
}
updateDiff(group, options, [{
lineWidth: function (v) { return +v * .5; },
capSize: function (v) { return +v * .5; },
opacity: parseFloat,
errors: function (errors) {
errors = flatten(errors)
errorCount += errors.length
return errors
},
positions: function (positions, state) {
positions = flatten(positions, 'float64')
state.count = Math.floor(positions.length / 2)
state.bounds = getBounds(positions, 2)
state.offset = pointCount
pointCount += state.count
return positions
}
}, {
color: function (colors, state) {
var count = state.count
if (!colors) { colors = 'transparent' }
// 'black' or [0,0,0,0] case
if (!Array.isArray(colors) || typeof colors[0] === 'number') {
var color = colors
colors = Array(count)
for (var i = 0; i < count; i++) {
colors[i] = color
}
}
if (colors.length < count) { throw Error('Not enough colors') }
var colorData = new Uint8Array(count * 4)
//convert colors to float arrays
for (var i$1 = 0; i$1 < count; i$1++) {
var c = rgba(colors[i$1], 'uint8')
colorData.set(c, i$1 * 4)
}
return colorData
},
range: function (range, state, options) {
var bounds = state.bounds
if (!range) { range = bounds }
state.scale = [1 / (range[2] - range[0]), 1 / (range[3] - range[1])]
state.translate = [-range[0], -range[1]]
state.scaleFract = fract32(state.scale)
state.translateFract = fract32(state.translate)
return range
},
viewport: function (vp) {
var viewport
if (Array.isArray(vp)) {
viewport = {
x: vp[0],
y: vp[1],
width: vp[2] - vp[0],
height: vp[3] - vp[1]
}
}
else if (vp) {
viewport = {
x: vp.x || vp.left || 0,
y: vp.y || vp.top || 0
}
if (vp.right) { viewport.width = vp.right - viewport.x }
else { viewport.width = vp.w || vp.width || 0 }
if (vp.bottom) { viewport.height = vp.bottom - viewport.y }
else { viewport.height = vp.h || vp.height || 0 }
}
else {
viewport = {
x: 0, y: 0,
width: gl.drawingBufferWidth,
height: gl.drawingBufferHeight
}
}
return viewport
}
}])
return group
})
if (pointCount || errorCount) {
var len = groups.reduce(function (acc, group, i) {
return acc + (group ? group.count : 0)
}, 0)
var positionData = new Float64Array(len * 2)
var colorData = new Uint8Array(len * 4)
var errorData = new Float32Array(len * 4)
groups.forEach(function (group, i) {
if (!group) { return }
var positions = group.positions;
var count = group.count;
var offset = group.offset;
var color = group.color;
var errors = group.errors;
if (!count) { return }
colorData.set(color, offset * 4)
errorData.set(errors, offset * 4)
positionData.set(positions, offset * 2)
})
positionBuffer(float32(positionData))
positionFractBuffer(fract32(positionData))
colorBuffer(colorData)
errorBuffer(errorData)
}
}
function destroy () {
positionBuffer.destroy()
positionFractBuffer.destroy()
colorBuffer.destroy()
errorBuffer.destroy()
meshBuffer.destroy()
}
}
},{"array-bounds":52,"color-normalize":107,"flatten-vertex-data":215,"object-assign":434,"pick-by-alias":445,"to-float32":512,"update-diff":523}],471:[function(_dereq_,module,exports){
'use strict'
var rgba = _dereq_('color-normalize')
var getBounds = _dereq_('array-bounds')
var extend = _dereq_('object-assign')
var glslify = _dereq_('glslify')
var pick = _dereq_('pick-by-alias')
var flatten = _dereq_('flatten-vertex-data')
var triangulate = _dereq_('earcut')
var normalize = _dereq_('array-normalize')
var ref = _dereq_('to-float32');
var float32 = ref.float32;
var fract32 = ref.fract32;
var WeakMap = _dereq_('es6-weak-map')
var parseRect = _dereq_('parse-rect')
module.exports = Line2D
/** @constructor */
function Line2D (regl, options) {
if (!(this instanceof Line2D)) { return new Line2D(regl, options) }
if (typeof regl === 'function') {
if (!options) { options = {} }
options.regl = regl
}
else {
options = regl
}
if (options.length) { options.positions = options }
regl = options.regl
if (!regl.hasExtension('ANGLE_instanced_arrays')) {
throw Error('regl-error2d: `ANGLE_instanced_arrays` extension should be enabled');
}
// persistent variables
this.gl = regl._gl
this.regl = regl
// list of options for lines
this.passes = []
// cached shaders instance
this.shaders = Line2D.shaders.has(regl) ? Line2D.shaders.get(regl) : Line2D.shaders.set(regl, Line2D.createShaders(regl)).get(regl)
// init defaults
this.update(options)
}
Line2D.dashMult = 2
Line2D.maxPatternLength = 256
Line2D.precisionThreshold = 3e6
Line2D.maxPoints = 1e4
Line2D.maxLines = 2048
// cache of created draw calls per-regl instance
Line2D.shaders = new WeakMap()
// create static shaders once
Line2D.createShaders = function (regl) {
var offsetBuffer = regl.buffer({
usage: 'static',
type: 'float',
data: [0,1, 0,0, 1,1, 1,0]
})
var shaderOptions = {
primitive: 'triangle strip',
instances: regl.prop('count'),
count: 4,
offset: 0,
uniforms: {
miterMode: function (ctx, prop) { return prop.join === 'round' ? 2 : 1; },
miterLimit: regl.prop('miterLimit'),
scale: regl.prop('scale'),
scaleFract: regl.prop('scaleFract'),
translateFract: regl.prop('translateFract'),
translate: regl.prop('translate'),
thickness: regl.prop('thickness'),
dashPattern: regl.prop('dashTexture'),
opacity: regl.prop('opacity'),
pixelRatio: regl.context('pixelRatio'),
id: regl.prop('id'),
dashSize: regl.prop('dashLength'),
viewport: function (c, p) { return [p.viewport.x, p.viewport.y, c.viewportWidth, c.viewportHeight]; },
depth: regl.prop('depth')
},
blend: {
enable: true,
color: [0,0,0,0],
equation: {
rgb: 'add',
alpha: 'add'
},
func: {
srcRGB: 'src alpha',
dstRGB: 'one minus src alpha',
srcAlpha: 'one minus dst alpha',
dstAlpha: 'one'
}
},
depth: {
enable: function (c, p) {
return !p.overlay
}
},
stencil: {enable: false},
scissor: {
enable: true,
box: regl.prop('viewport')
},
viewport: regl.prop('viewport')
}
// simplified rectangular line shader
var drawRectLine = regl(extend({
vert: glslify(["precision highp float;\n#define GLSLIFY 1\n\nattribute vec2 aCoord, bCoord, aCoordFract, bCoordFract;\nattribute vec4 color;\nattribute float lineEnd, lineTop;\n\nuniform vec2 scale, scaleFract, translate, translateFract;\nuniform float thickness, pixelRatio, id, depth;\nuniform vec4 viewport;\n\nvarying vec4 fragColor;\nvarying vec2 tangent;\n\nvec2 project(vec2 position, vec2 positionFract, vec2 scale, vec2 scaleFract, vec2 translate, vec2 translateFract) {\n\t// the order is important\n\treturn position * scale + translate\n + positionFract * scale + translateFract\n + position * scaleFract\n + positionFract * scaleFract;\n}\n\nvoid main() {\n\tfloat lineStart = 1. - lineEnd;\n\tfloat lineOffset = lineTop * 2. - 1.;\n\n\tvec2 diff = (bCoord + bCoordFract - aCoord - aCoordFract);\n\ttangent = normalize(diff * scale * viewport.zw);\n\tvec2 normal = vec2(-tangent.y, tangent.x);\n\n\tvec2 position = project(aCoord, aCoordFract, scale, scaleFract, translate, translateFract) * lineStart\n\t\t+ project(bCoord, bCoordFract, scale, scaleFract, translate, translateFract) * lineEnd\n\n\t\t+ thickness * normal * .5 * lineOffset / viewport.zw;\n\n\tgl_Position = vec4(position * 2.0 - 1.0, depth, 1);\n\n\tfragColor = color / 255.;\n}\n"]),
frag: glslify(["precision highp float;\n#define GLSLIFY 1\n\nuniform sampler2D dashPattern;\n\nuniform float dashSize, pixelRatio, thickness, opacity, id;\n\nvarying vec4 fragColor;\nvarying vec2 tangent;\n\nvoid main() {\n\tfloat alpha = 1.;\n\n\tfloat t = fract(dot(tangent, gl_FragCoord.xy) / dashSize) * .5 + .25;\n\tfloat dash = texture2D(dashPattern, vec2(t, .5)).r;\n\n\tgl_FragColor = fragColor;\n\tgl_FragColor.a *= alpha * opacity * dash;\n}\n"]),
attributes: {
// if point is at the end of segment
lineEnd: {
buffer: offsetBuffer,
divisor: 0,
stride: 8,
offset: 0
},
// if point is at the top of segment
lineTop: {
buffer: offsetBuffer,
divisor: 0,
stride: 8,
offset: 4
},
// beginning of line coordinate
aCoord: {
buffer: regl.prop('positionBuffer'),
stride: 8,
offset: 8,
divisor: 1
},
// end of line coordinate
bCoord: {
buffer: regl.prop('positionBuffer'),
stride: 8,
offset: 16,
divisor: 1
},
aCoordFract: {
buffer: regl.prop('positionFractBuffer'),
stride: 8,
offset: 8,
divisor: 1
},
bCoordFract: {
buffer: regl.prop('positionFractBuffer'),
stride: 8,
offset: 16,
divisor: 1
},
color: {
buffer: regl.prop('colorBuffer'),
stride: 4,
offset: 0,
divisor: 1
}
}
}, shaderOptions))
// create regl draw
var drawMiterLine
try {
drawMiterLine = regl(extend({
// culling removes polygon creasing
cull: {
enable: true,
face: 'back'
},
vert: glslify(["precision highp float;\n#define GLSLIFY 1\n\nattribute vec2 aCoord, bCoord, nextCoord, prevCoord;\nattribute vec4 aColor, bColor;\nattribute float lineEnd, lineTop;\n\nuniform vec2 scale, translate;\nuniform float thickness, pixelRatio, id, depth;\nuniform vec4 viewport;\nuniform float miterLimit, miterMode;\n\nvarying vec4 fragColor;\nvarying vec4 startCutoff, endCutoff;\nvarying vec2 tangent;\nvarying vec2 startCoord, endCoord;\nvarying float enableStartMiter, enableEndMiter;\n\nconst float REVERSE_THRESHOLD = -.875;\nconst float MIN_DIFF = 1e-6;\n\n// TODO: possible optimizations: avoid overcalculating all for vertices and calc just one instead\n// TODO: precalculate dot products, normalize things beforehead etc.\n// TODO: refactor to rectangular algorithm\n\nfloat distToLine(vec2 p, vec2 a, vec2 b) {\n\tvec2 diff = b - a;\n\tvec2 perp = normalize(vec2(-diff.y, diff.x));\n\treturn dot(p - a, perp);\n}\n\nbool isNaN( float val ){\n return ( val < 0.0 || 0.0 < val || val == 0.0 ) ? false : true;\n}\n\nvoid main() {\n\tvec2 aCoord = aCoord, bCoord = bCoord, prevCoord = prevCoord, nextCoord = nextCoord;\n\n\t// adjust scale for horizontal bars\n\tvec2 scale = max(scale, MIN_DIFF);\n\tvec2 scaleRatio = scale * viewport.zw;\n\n\tvec2 normalWidth = thickness / scaleRatio;\n\n\tfloat lineStart = 1. - lineEnd;\n\tfloat lineBot = 1. - lineTop;\n\n\tfragColor = (lineStart * aColor + lineEnd * bColor) / 255.;\n\n\tif (isNaN(aCoord.x) || isNaN(aCoord.y) || isNaN(bCoord.x) || isNaN(bCoord.y)) return;\n\n\tif (aCoord == prevCoord) prevCoord = aCoord + normalize(bCoord - aCoord);\n\tif (bCoord == nextCoord) nextCoord = bCoord - normalize(bCoord - aCoord);\n\n\tvec2 prevDiff = aCoord - prevCoord;\n\tvec2 currDiff = bCoord - aCoord;\n\tvec2 nextDiff = nextCoord - bCoord;\n\n\tvec2 prevTangent = normalize(prevDiff * scaleRatio);\n\tvec2 currTangent = normalize(currDiff * scaleRatio);\n\tvec2 nextTangent = normalize(nextDiff * scaleRatio);\n\n\tvec2 prevNormal = vec2(-prevTangent.y, prevTangent.x);\n\tvec2 currNormal = vec2(-currTangent.y, currTangent.x);\n\tvec2 nextNormal = vec2(-nextTangent.y, nextTangent.x);\n\n\tvec2 startJoinDirection = normalize(prevTangent - currTangent);\n\tvec2 endJoinDirection = normalize(currTangent - nextTangent);\n\n\t// collapsed/unidirectional segment cases\n\t// FIXME: there should be more elegant solution\n\tvec2 prevTanDiff = abs(prevTangent - currTangent);\n\tvec2 nextTanDiff = abs(nextTangent - currTangent);\n\tif (max(prevTanDiff.x, prevTanDiff.y) < MIN_DIFF) {\n\t\tstartJoinDirection = currNormal;\n\t}\n\tif (max(nextTanDiff.x, nextTanDiff.y) < MIN_DIFF) {\n\t\tendJoinDirection = currNormal;\n\t}\n\tif (aCoord == bCoord) {\n\t\tendJoinDirection = startJoinDirection;\n\t\tcurrNormal = prevNormal;\n\t\tcurrTangent = prevTangent;\n\t}\n\n\ttangent = currTangent;\n\n\t//calculate join shifts relative to normals\n\tfloat startJoinShift = dot(currNormal, startJoinDirection);\n\tfloat endJoinShift = dot(currNormal, endJoinDirection);\n\n\tfloat startMiterRatio = abs(1. / startJoinShift);\n\tfloat endMiterRatio = abs(1. / endJoinShift);\n\n\tvec2 startJoin = startJoinDirection * startMiterRatio;\n\tvec2 endJoin = endJoinDirection * endMiterRatio;\n\n\tvec2 startTopJoin, startBotJoin, endTopJoin, endBotJoin;\n\tstartTopJoin = sign(startJoinShift) * startJoin * .5;\n\tstartBotJoin = -startTopJoin;\n\n\tendTopJoin = sign(endJoinShift) * endJoin * .5;\n\tendBotJoin = -endTopJoin;\n\n\tvec2 aTopCoord = aCoord + normalWidth * startTopJoin;\n\tvec2 bTopCoord = bCoord + normalWidth * endTopJoin;\n\tvec2 aBotCoord = aCoord + normalWidth * startBotJoin;\n\tvec2 bBotCoord = bCoord + normalWidth * endBotJoin;\n\n\t//miter anti-clipping\n\tfloat baClipping = distToLine(bCoord, aCoord, aBotCoord) / dot(normalize(normalWidth * endBotJoin), normalize(normalWidth.yx * vec2(-startBotJoin.y, startBotJoin.x)));\n\tfloat abClipping = distToLine(aCoord, bCoord, bTopCoord) / dot(normalize(normalWidth * startBotJoin), normalize(normalWidth.yx * vec2(-endBotJoin.y, endBotJoin.x)));\n\n\t//prevent close to reverse direction switch\n\tbool prevReverse = dot(currTangent, prevTangent) <= REVERSE_THRESHOLD && abs(dot(currTangent, prevNormal)) * min(length(prevDiff), length(currDiff)) < length(normalWidth * currNormal);\n\tbool nextReverse = dot(currTangent, nextTangent) <= REVERSE_THRESHOLD && abs(dot(currTangent, nextNormal)) * min(length(nextDiff), length(currDiff)) < length(normalWidth * currNormal);\n\n\tif (prevReverse) {\n\t\t//make join rectangular\n\t\tvec2 miterShift = normalWidth * startJoinDirection * miterLimit * .5;\n\t\tfloat normalAdjust = 1. - min(miterLimit / startMiterRatio, 1.);\n\t\taBotCoord = aCoord + miterShift - normalAdjust * normalWidth * currNormal * .5;\n\t\taTopCoord = aCoord + miterShift + normalAdjust * normalWidth * currNormal * .5;\n\t}\n\telse if (!nextReverse && baClipping > 0. && baClipping < length(normalWidth * endBotJoin)) {\n\t\t//handle miter clipping\n\t\tbTopCoord -= normalWidth * endTopJoin;\n\t\tbTopCoord += normalize(endTopJoin * normalWidth) * baClipping;\n\t}\n\n\tif (nextReverse) {\n\t\t//make join rectangular\n\t\tvec2 miterShift = normalWidth * endJoinDirection * miterLimit * .5;\n\t\tfloat normalAdjust = 1. - min(miterLimit / endMiterRatio, 1.);\n\t\tbBotCoord = bCoord + miterShift - normalAdjust * normalWidth * currNormal * .5;\n\t\tbTopCoord = bCoord + miterShift + normalAdjust * normalWidth * currNormal * .5;\n\t}\n\telse if (!prevReverse && abClipping > 0. && abClipping < length(normalWidth * startBotJoin)) {\n\t\t//handle miter clipping\n\t\taBotCoord -= normalWidth * startBotJoin;\n\t\taBotCoord += normalize(startBotJoin * normalWidth) * abClipping;\n\t}\n\n\tvec2 aTopPosition = (aTopCoord) * scale + translate;\n\tvec2 aBotPosition = (aBotCoord) * scale + translate;\n\n\tvec2 bTopPosition = (bTopCoord) * scale + translate;\n\tvec2 bBotPosition = (bBotCoord) * scale + translate;\n\n\t//position is normalized 0..1 coord on the screen\n\tvec2 position = (aTopPosition * lineTop + aBotPosition * lineBot) * lineStart + (bTopPosition * lineTop + bBotPosition * lineBot) * lineEnd;\n\n\tstartCoord = aCoord * scaleRatio + translate * viewport.zw + viewport.xy;\n\tendCoord = bCoord * scaleRatio + translate * viewport.zw + viewport.xy;\n\n\tgl_Position = vec4(position * 2.0 - 1.0, depth, 1);\n\n\tenableStartMiter = step(dot(currTangent, prevTangent), .5);\n\tenableEndMiter = step(dot(currTangent, nextTangent), .5);\n\n\t//bevel miter cutoffs\n\tif (miterMode == 1.) {\n\t\tif (enableStartMiter == 1.) {\n\t\t\tvec2 startMiterWidth = vec2(startJoinDirection) * thickness * miterLimit * .5;\n\t\t\tstartCutoff = vec4(aCoord, aCoord);\n\t\t\tstartCutoff.zw += vec2(-startJoinDirection.y, startJoinDirection.x) / scaleRatio;\n\t\t\tstartCutoff = startCutoff * scaleRatio.xyxy + translate.xyxy * viewport.zwzw;\n\t\t\tstartCutoff += viewport.xyxy;\n\t\t\tstartCutoff += startMiterWidth.xyxy;\n\t\t}\n\n\t\tif (enableEndMiter == 1.) {\n\t\t\tvec2 endMiterWidth = vec2(endJoinDirection) * thickness * miterLimit * .5;\n\t\t\tendCutoff = vec4(bCoord, bCoord);\n\t\t\tendCutoff.zw += vec2(-endJoinDirection.y, endJoinDirection.x) / scaleRatio;\n\t\t\tendCutoff = endCutoff * scaleRatio.xyxy + translate.xyxy * viewport.zwzw;\n\t\t\tendCutoff += viewport.xyxy;\n\t\t\tendCutoff += endMiterWidth.xyxy;\n\t\t}\n\t}\n\n\t//round miter cutoffs\n\telse if (miterMode == 2.) {\n\t\tif (enableStartMiter == 1.) {\n\t\t\tvec2 startMiterWidth = vec2(startJoinDirection) * thickness * abs(dot(startJoinDirection, currNormal)) * .5;\n\t\t\tstartCutoff = vec4(aCoord, aCoord);\n\t\t\tstartCutoff.zw += vec2(-startJoinDirection.y, startJoinDirection.x) / scaleRatio;\n\t\t\tstartCutoff = startCutoff * scaleRatio.xyxy + translate.xyxy * viewport.zwzw;\n\t\t\tstartCutoff += viewport.xyxy;\n\t\t\tstartCutoff += startMiterWidth.xyxy;\n\t\t}\n\n\t\tif (enableEndMiter == 1.) {\n\t\t\tvec2 endMiterWidth = vec2(endJoinDirection) * thickness * abs(dot(endJoinDirection, currNormal)) * .5;\n\t\t\tendCutoff = vec4(bCoord, bCoord);\n\t\t\tendCutoff.zw += vec2(-endJoinDirection.y, endJoinDirection.x) / scaleRatio;\n\t\t\tendCutoff = endCutoff * scaleRatio.xyxy + translate.xyxy * viewport.zwzw;\n\t\t\tendCutoff += viewport.xyxy;\n\t\t\tendCutoff += endMiterWidth.xyxy;\n\t\t}\n\t}\n}\n"]),
frag: glslify(["precision highp float;\n#define GLSLIFY 1\n\nuniform sampler2D dashPattern;\nuniform float dashSize, pixelRatio, thickness, opacity, id, miterMode;\n\nvarying vec4 fragColor;\nvarying vec2 tangent;\nvarying vec4 startCutoff, endCutoff;\nvarying vec2 startCoord, endCoord;\nvarying float enableStartMiter, enableEndMiter;\n\nfloat distToLine(vec2 p, vec2 a, vec2 b) {\n\tvec2 diff = b - a;\n\tvec2 perp = normalize(vec2(-diff.y, diff.x));\n\treturn dot(p - a, perp);\n}\n\nvoid main() {\n\tfloat alpha = 1., distToStart, distToEnd;\n\tfloat cutoff = thickness * .5;\n\n\t//bevel miter\n\tif (miterMode == 1.) {\n\t\tif (enableStartMiter == 1.) {\n\t\t\tdistToStart = distToLine(gl_FragCoord.xy, startCutoff.xy, startCutoff.zw);\n\t\t\tif (distToStart < -1.) {\n\t\t\t\tdiscard;\n\t\t\t\treturn;\n\t\t\t}\n\t\t\talpha *= min(max(distToStart + 1., 0.), 1.);\n\t\t}\n\n\t\tif (enableEndMiter == 1.) {\n\t\t\tdistToEnd = distToLine(gl_FragCoord.xy, endCutoff.xy, endCutoff.zw);\n\t\t\tif (distToEnd < -1.) {\n\t\t\t\tdiscard;\n\t\t\t\treturn;\n\t\t\t}\n\t\t\talpha *= min(max(distToEnd + 1., 0.), 1.);\n\t\t}\n\t}\n\n\t// round miter\n\telse if (miterMode == 2.) {\n\t\tif (enableStartMiter == 1.) {\n\t\t\tdistToStart = distToLine(gl_FragCoord.xy, startCutoff.xy, startCutoff.zw);\n\t\t\tif (distToStart < 0.) {\n\t\t\t\tfloat radius = length(gl_FragCoord.xy - startCoord);\n\n\t\t\t\tif(radius > cutoff + .5) {\n\t\t\t\t\tdiscard;\n\t\t\t\t\treturn;\n\t\t\t\t}\n\n\t\t\t\talpha -= smoothstep(cutoff - .5, cutoff + .5, radius);\n\t\t\t}\n\t\t}\n\n\t\tif (enableEndMiter == 1.) {\n\t\t\tdistToEnd = distToLine(gl_FragCoord.xy, endCutoff.xy, endCutoff.zw);\n\t\t\tif (distToEnd < 0.) {\n\t\t\t\tfloat radius = length(gl_FragCoord.xy - endCoord);\n\n\t\t\t\tif(radius > cutoff + .5) {\n\t\t\t\t\tdiscard;\n\t\t\t\t\treturn;\n\t\t\t\t}\n\n\t\t\t\talpha -= smoothstep(cutoff - .5, cutoff + .5, radius);\n\t\t\t}\n\t\t}\n\t}\n\n\tfloat t = fract(dot(tangent, gl_FragCoord.xy) / dashSize) * .5 + .25;\n\tfloat dash = texture2D(dashPattern, vec2(t, .5)).r;\n\n\tgl_FragColor = fragColor;\n\tgl_FragColor.a *= alpha * opacity * dash;\n}\n"]),
attributes: {
// is line end
lineEnd: {
buffer: offsetBuffer,
divisor: 0,
stride: 8,
offset: 0
},
// is line top
lineTop: {
buffer: offsetBuffer,
divisor: 0,
stride: 8,
offset: 4
},
// left color
aColor: {
buffer: regl.prop('colorBuffer'),
stride: 4,
offset: 0,
divisor: 1
},
// right color
bColor: {
buffer: regl.prop('colorBuffer'),
stride: 4,
offset: 4,
divisor: 1
},
prevCoord: {
buffer: regl.prop('positionBuffer'),
stride: 8,
offset: 0,
divisor: 1
},
aCoord: {
buffer: regl.prop('positionBuffer'),
stride: 8,
offset: 8,
divisor: 1
},
bCoord: {
buffer: regl.prop('positionBuffer'),
stride: 8,
offset: 16,
divisor: 1
},
nextCoord: {
buffer: regl.prop('positionBuffer'),
stride: 8,
offset: 24,
divisor: 1
}
}
}, shaderOptions))
} catch (e) {
// IE/bad Webkit fallback
drawMiterLine = drawRectLine
}
// fill shader
var drawFill = regl({
primitive: 'triangle',
elements: function (ctx, prop) { return prop.triangles; },
offset: 0,
vert: glslify(["precision highp float;\n#define GLSLIFY 1\n\nattribute vec2 position, positionFract;\n\nuniform vec4 color;\nuniform vec2 scale, scaleFract, translate, translateFract;\nuniform float pixelRatio, id;\nuniform vec4 viewport;\nuniform float opacity;\n\nvarying vec4 fragColor;\n\nconst float MAX_LINES = 256.;\n\nvoid main() {\n\tfloat depth = (MAX_LINES - 4. - id) / (MAX_LINES);\n\n\tvec2 position = position * scale + translate\n + positionFract * scale + translateFract\n + position * scaleFract\n + positionFract * scaleFract;\n\n\tgl_Position = vec4(position * 2.0 - 1.0, depth, 1);\n\n\tfragColor = color / 255.;\n\tfragColor.a *= opacity;\n}\n"]),
frag: glslify(["precision highp float;\n#define GLSLIFY 1\n\nvarying vec4 fragColor;\n\nvoid main() {\n\tgl_FragColor = fragColor;\n}\n"]),
uniforms: {
scale: regl.prop('scale'),
color: regl.prop('fill'),
scaleFract: regl.prop('scaleFract'),
translateFract: regl.prop('translateFract'),
translate: regl.prop('translate'),
opacity: regl.prop('opacity'),
pixelRatio: regl.context('pixelRatio'),
id: regl.prop('id'),
viewport: function (ctx, prop) { return [prop.viewport.x, prop.viewport.y, ctx.viewportWidth, ctx.viewportHeight]; }
},
attributes: {
position: {
buffer: regl.prop('positionBuffer'),
stride: 8,
offset: 8
},
positionFract: {
buffer: regl.prop('positionFractBuffer'),
stride: 8,
offset: 8
}
},
blend: shaderOptions.blend,
depth: { enable: false },
scissor: shaderOptions.scissor,
stencil: shaderOptions.stencil,
viewport: shaderOptions.viewport
})
return {
fill: drawFill, rect: drawRectLine, miter: drawMiterLine
}
}
// used to for new lines instances
Line2D.defaults = {
dashes: null,
join: 'miter',
miterLimit: 1,
thickness: 10,
cap: 'square',
color: 'black',
opacity: 1,
overlay: false,
viewport: null,
range: null,
close: false,
fill: null
}
Line2D.prototype.render = function () {
var ref;
var args = [], len = arguments.length;
while ( len-- ) args[ len ] = arguments[ len ];
if (args.length) {
(ref = this).update.apply(ref, args)
}
this.draw()
}
Line2D.prototype.draw = function () {
var this$1 = this;
var args = [], len = arguments.length;
while ( len-- ) args[ len ] = arguments[ len ];
// render multiple polylines via regl batch
(args.length ? args : this.passes).forEach(function (s, i) {
var ref;
// render array pass as a list of passes
if (s && Array.isArray(s)) { return (ref = this$1).draw.apply(ref, s) }
if (typeof s === 'number') { s = this$1.passes[s] }
if (!(s && s.count > 1 && s.opacity)) { return }
this$1.regl._refresh()
if (s.fill && s.triangles && s.triangles.length > 2) {
this$1.shaders.fill(s)
}
if (!s.thickness) { return }
// high scale is only available for rect mode with precision
if (s.scale[0] * s.viewport.width > Line2D.precisionThreshold || s.scale[1] * s.viewport.height > Line2D.precisionThreshold) {
this$1.shaders.rect(s)
}
// thin this.passes or too many points are rendered as simplified rect shader
else if (s.join === 'rect' || (!s.join && (s.thickness <= 2 || s.count >= Line2D.maxPoints))) {
this$1.shaders.rect(s)
}
else {
this$1.shaders.miter(s)
}
})
return this
}
Line2D.prototype.update = function (options) {
var this$1 = this;
if (!options) { return }
if (options.length != null) {
if (typeof options[0] === 'number') { options = [{positions: options}] }
}
// make options a batch
else if (!Array.isArray(options)) { options = [options] }
var ref = this;
var regl = ref.regl;
var gl = ref.gl;
// process per-line settings
options.forEach(function (o, i) {
var state = this$1.passes[i]
if (o === undefined) { return }
// null-argument removes pass
if (o === null) {
this$1.passes[i] = null
return
}
if (typeof o[0] === 'number') { o = {positions: o} }
// handle aliases
o = pick(o, {
positions: 'positions points data coords',
thickness: 'thickness lineWidth lineWidths line-width linewidth width stroke-width strokewidth strokeWidth',
join: 'lineJoin linejoin join type mode',
miterLimit: 'miterlimit miterLimit',
dashes: 'dash dashes dasharray dash-array dashArray',
color: 'color colour stroke colors colours stroke-color strokeColor',
fill: 'fill fill-color fillColor',
opacity: 'alpha opacity',
overlay: 'overlay crease overlap intersect',
close: 'closed close closed-path closePath',
range: 'range dataBox',
viewport: 'viewport viewBox',
hole: 'holes hole hollow'
})
// init state
if (!state) {
this$1.passes[i] = state = {
id: i,
scale: null,
scaleFract: null,
translate: null,
translateFract: null,
count: 0,
hole: [],
depth: 0,
dashLength: 1,
dashTexture: regl.texture({
channels: 1,
data: new Uint8Array([255]),
width: 1,
height: 1,
mag: 'linear',
min: 'linear'
}),
colorBuffer: regl.buffer({
usage: 'dynamic',
type: 'uint8',
data: new Uint8Array()
}),
positionBuffer: regl.buffer({
usage: 'dynamic',
type: 'float',
data: new Uint8Array()
}),
positionFractBuffer: regl.buffer({
usage: 'dynamic',
type: 'float',
data: new Uint8Array()
})
}
o = extend({}, Line2D.defaults, o)
}
if (o.thickness != null) { state.thickness = parseFloat(o.thickness) }
if (o.opacity != null) { state.opacity = parseFloat(o.opacity) }
if (o.miterLimit != null) { state.miterLimit = parseFloat(o.miterLimit) }
if (o.overlay != null) {
state.overlay = !!o.overlay
if (i < Line2D.maxLines) {
state.depth = 2 * (Line2D.maxLines - 1 - i % Line2D.maxLines) / Line2D.maxLines - 1.;
}
}
if (o.join != null) { state.join = o.join }
if (o.hole != null) { state.hole = o.hole }
if (o.fill != null) { state.fill = !o.fill ? null : rgba(o.fill, 'uint8') }
if (o.viewport != null) { state.viewport = parseRect(o.viewport) }
if (!state.viewport) {
state.viewport = parseRect([
gl.drawingBufferWidth,
gl.drawingBufferHeight
])
}
if (o.close != null) { state.close = o.close }
// reset positions
if (o.positions === null) { o.positions = [] }
if (o.positions) {
var positions, count
// if positions are an object with x/y
if (o.positions.x && o.positions.y) {
var xPos = o.positions.x
var yPos = o.positions.y
count = state.count = Math.max(
xPos.length,
yPos.length
)
positions = new Float64Array(count * 2)
for (var i$1 = 0; i$1 < count; i$1++) {
positions[i$1 * 2] = xPos[i$1]
positions[i$1 * 2 + 1] = yPos[i$1]
}
}
else {
positions = flatten(o.positions, 'float64')
count = state.count = Math.floor(positions.length / 2)
}
var bounds = state.bounds = getBounds(positions, 2)
// create fill positions
// FIXME: fill positions can be set only along with positions
if (state.fill) {
var pos = []
// filter bad vertices and remap triangles to ensure shape
var ids = {}
var lastId = 0
for (var i$2 = 0, ptr = 0, l = state.count; i$2 < l; i$2++) {
var x = positions[i$2*2]
var y = positions[i$2*2 + 1]
if (isNaN(x) || isNaN(y) || x == null || y == null) {
x = positions[lastId*2]
y = positions[lastId*2 + 1]
ids[i$2] = lastId
}
else {
lastId = i$2
}
pos[ptr++] = x
pos[ptr++] = y
}
var triangles = triangulate(pos, state.hole || [])
for (var i$3 = 0, l$1 = triangles.length; i$3 < l$1; i$3++) {
if (ids[triangles[i$3]] != null) { triangles[i$3] = ids[triangles[i$3]] }
}
state.triangles = triangles
}
// update position buffers
var npos = new Float64Array(positions)
normalize(npos, 2, bounds)
var positionData = new Float64Array(count * 2 + 6)
// rotate first segment join
if (state.close) {
if (positions[0] === positions[count*2 - 2] &&
positions[1] === positions[count*2 - 1]) {
positionData[0] = npos[count*2 - 4]
positionData[1] = npos[count*2 - 3]
}
else {
positionData[0] = npos[count*2 - 2]
positionData[1] = npos[count*2 - 1]
}
}
else {
positionData[0] = npos[0]
positionData[1] = npos[1]
}
positionData.set(npos, 2)
// add last segment
if (state.close) {
// ignore coinciding start/end
if (positions[0] === positions[count*2 - 2] &&
positions[1] === positions[count*2 - 1]) {
positionData[count*2 + 2] = npos[2]
positionData[count*2 + 3] = npos[3]
state.count -= 1
}
else {
positionData[count*2 + 2] = npos[0]
positionData[count*2 + 3] = npos[1]
positionData[count*2 + 4] = npos[2]
positionData[count*2 + 5] = npos[3]
}
}
// add stub
else {
positionData[count*2 + 2] = npos[count*2 - 2]
positionData[count*2 + 3] = npos[count*2 - 1]
positionData[count*2 + 4] = npos[count*2 - 2]
positionData[count*2 + 5] = npos[count*2 - 1]
}
state.positionBuffer(float32(positionData))
state.positionFractBuffer(fract32(positionData))
}
if (o.range) {
state.range = o.range
} else if (!state.range) {
state.range = state.bounds
}
if ((o.range || o.positions) && state.count) {
var bounds$1 = state.bounds
var boundsW = bounds$1[2] - bounds$1[0],
boundsH = bounds$1[3] - bounds$1[1]
var rangeW = state.range[2] - state.range[0],
rangeH = state.range[3] - state.range[1]
state.scale = [
boundsW / rangeW,
boundsH / rangeH
]
state.translate = [
-state.range[0] / rangeW + bounds$1[0] / rangeW || 0,
-state.range[1] / rangeH + bounds$1[1] / rangeH || 0
]
state.scaleFract = fract32(state.scale)
state.translateFract = fract32(state.translate)
}
if (o.dashes) {
var dashLength = 0., dashData
if (!o.dashes || o.dashes.length < 2) {
dashLength = 1.
dashData = new Uint8Array([255, 255, 255, 255, 255, 255, 255, 255])
}
else {
dashLength = 0.;
for(var i$4 = 0; i$4 < o.dashes.length; ++i$4) {
dashLength += o.dashes[i$4]
}
dashData = new Uint8Array(dashLength * Line2D.dashMult)
var ptr$1 = 0
var fillColor = 255
// repeat texture two times to provide smooth 0-step
for (var k = 0; k < 2; k++) {
for(var i$5 = 0; i$5 < o.dashes.length; ++i$5) {
for(var j = 0, l$2 = o.dashes[i$5] * Line2D.dashMult * .5; j < l$2; ++j) {
dashData[ptr$1++] = fillColor
}
fillColor ^= 255
}
}
}
state.dashLength = dashLength
state.dashTexture({
channels: 1,
data: dashData,
width: dashData.length,
height: 1,
mag: 'linear',
min: 'linear'
}, 0, 0)
}
if (o.color) {
var count$1 = state.count
var colors = o.color
if (!colors) { colors = 'transparent' }
var colorData = new Uint8Array(count$1 * 4 + 4)
// convert colors to typed arrays
if (!Array.isArray(colors) || typeof colors[0] === 'number') {
var c = rgba(colors, 'uint8')
for (var i$6 = 0; i$6 < count$1 + 1; i$6++) {
colorData.set(c, i$6 * 4)
}
} else {
for (var i$7 = 0; i$7 < count$1; i$7++) {
var c$1 = rgba(colors[i$7], 'uint8')
colorData.set(c$1, i$7 * 4)
}
colorData.set(rgba(colors[0], 'uint8'), count$1 * 4)
}
state.colorBuffer({
usage: 'dynamic',
type: 'uint8',
data: colorData
})
}
})
// remove unmentioned passes
if (options.length < this.passes.length) {
for (var i = options.length; i < this.passes.length; i++) {
var pass = this$1.passes[i]
if (!pass) { continue }
pass.colorBuffer.destroy()
pass.positionBuffer.destroy()
pass.dashTexture.destroy()
}
this.passes.length = options.length
}
// remove null items
var passes = []
for (var i$1 = 0; i$1 < this.passes.length; i$1++) {
if (this$1.passes[i$1] !== null) { passes.push(this$1.passes[i$1]) }
}
this.passes = passes
return this
}
Line2D.prototype.destroy = function () {
this.passes.forEach(function (pass) {
pass.colorBuffer.destroy()
pass.positionBuffer.destroy()
pass.dashTexture.destroy()
})
this.passes.length = 0
return this
}
},{"array-bounds":52,"array-normalize":53,"color-normalize":107,"earcut":155,"es6-weak-map":208,"flatten-vertex-data":215,"glslify":390,"object-assign":434,"parse-rect":439,"pick-by-alias":445,"to-float32":512}],472:[function(_dereq_,module,exports){
'use strict'
var Scatter = _dereq_('./scatter')
var extend = _dereq_('object-assign')
module.exports = function (regl, options) {
var scatter = new Scatter(regl, options)
var render = scatter.render.bind(scatter)
// expose API
extend(render, {
render: render,
update: scatter.update.bind(scatter),
draw: scatter.draw.bind(scatter),
destroy: scatter.destroy.bind(scatter),
regl: scatter.regl,
gl: scatter.gl,
canvas: scatter.gl.canvas,
groups: scatter.groups,
markers: scatter.markerCache,
palette: scatter.palette
})
return render
}
},{"./scatter":473,"object-assign":434}],473:[function(_dereq_,module,exports){
'use strict'
var rgba = _dereq_('color-normalize')
var getBounds = _dereq_('array-bounds')
var colorId = _dereq_('color-id')
var cluster = _dereq_('point-cluster')
var extend = _dereq_('object-assign')
var glslify = _dereq_('glslify')
var pick = _dereq_('pick-by-alias')
var updateDiff = _dereq_('update-diff')
var flatten = _dereq_('flatten-vertex-data')
var ie = _dereq_('is-iexplorer')
var f32 = _dereq_('to-float32')
var parseRect = _dereq_('parse-rect')
module.exports = Scatter
function Scatter (regl, options) {
var this$1 = this;
if (!(this instanceof Scatter)) { return new Scatter(regl, options) }
if (typeof regl === 'function') {
if (!options) { options = {} }
options.regl = regl
}
else {
options = regl
regl = null
}
if (options && options.length) { options.positions = options }
regl = options.regl
// persistent variables
var gl = regl._gl, paletteTexture, palette = [], paletteIds = {},
// state
groups = [],
// textures for marker keys
markerTextures = [null],
markerCache = [null]
var maxColors = 255, maxSize = 100
// direct color buffer mode
// IE does not support palette anyways
this.tooManyColors = ie
// texture with color palette
paletteTexture = regl.texture({
data: new Uint8Array(maxColors * 4),
width: maxColors,
height: 1,
type: 'uint8',
format: 'rgba',
wrapS: 'clamp',
wrapT: 'clamp',
mag: 'nearest',
min: 'nearest'
})
extend(this, {
regl: regl,
gl: gl,
groups: groups,
markerCache: markerCache,
markerTextures: markerTextures,
palette: palette,
paletteIds: paletteIds,
paletteTexture: paletteTexture,
maxColors: maxColors,
maxSize: maxSize,
canvas: gl.canvas
})
this.update(options)
// common shader options
var shaderOptions = {
uniforms: {
pixelRatio: regl.context('pixelRatio'),
palette: paletteTexture,
paletteSize: function (ctx, prop) { return [this$1.tooManyColors ? 0 : maxColors, paletteTexture.height]; },
scale: regl.prop('scale'),
scaleFract: regl.prop('scaleFract'),
translate: regl.prop('translate'),
translateFract: regl.prop('translateFract'),
opacity: regl.prop('opacity'),
marker: regl.prop('markerTexture'),
},
attributes: {
// FIXME: optimize these parts
x: function (ctx, prop) { return prop.xAttr || {
buffer: prop.positionBuffer,
stride: 8,
offset: 0
}; },
y: function (ctx, prop) { return prop.yAttr || {
buffer: prop.positionBuffer,
stride: 8,
offset: 4
}; },
xFract: function (ctx, prop) { return prop.xAttr ? { constant: [0, 0] } : {
buffer: prop.positionFractBuffer,
stride: 8,
offset: 0
}; },
yFract: function (ctx, prop) { return prop.yAttr ? { constant: [0, 0] } : {
buffer: prop.positionFractBuffer,
stride: 8,
offset: 4
}; },
size: function (ctx, prop) { return prop.size.length ? {
buffer: prop.sizeBuffer,
stride: 2,
offset: 0
} : {
constant: [ Math.round(prop.size * 255 / this$1.maxSize) ]
}; },
borderSize: function (ctx, prop) { return prop.borderSize.length ? {
buffer: prop.sizeBuffer,
stride: 2,
offset: 1
} : {
constant: [ Math.round(prop.borderSize * 255 / this$1.maxSize) ]
}; },
colorId: function (ctx, prop) { return prop.color.length ? {
buffer: prop.colorBuffer,
stride: this$1.tooManyColors ? 8 : 4,
offset: 0
} : {
constant: this$1.tooManyColors ? palette.slice(prop.color * 4, prop.color * 4 + 4) : [ prop.color ]
}; },
borderColorId: function (ctx, prop) { return prop.borderColor.length ? {
buffer: prop.colorBuffer,
stride: this$1.tooManyColors ? 8 : 4,
offset: this$1.tooManyColors ? 4 : 2
} : {
constant: this$1.tooManyColors ? palette.slice(prop.borderColor * 4, prop.borderColor * 4 + 4) : [ prop.borderColor ]
}; },
isActive: function (ctx, prop) { return prop.activation === true ? { constant: [1] } : prop.activation ? prop.activation : { constant: [0] }; }
},
blend: {
enable: true,
color: [0,0,0,1],
// photoshop blending
func: {
srcRGB: 'src alpha',
dstRGB: 'one minus src alpha',
srcAlpha: 'one minus dst alpha',
dstAlpha: 'one'
}
},
scissor: {
enable: true,
box: regl.prop('viewport')
},
viewport: regl.prop('viewport'),
stencil: {enable: false},
depth: {enable: false},
elements: regl.prop('elements'),
count: regl.prop('count'),
offset: regl.prop('offset'),
primitive: 'points'
}
// draw sdf-marker
var markerOptions = extend({}, shaderOptions)
markerOptions.frag = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nvarying vec4 fragColor, fragBorderColor;\nvarying float fragWidth, fragBorderColorLevel, fragColorLevel;\n\nuniform sampler2D marker;\nuniform float pixelRatio, opacity;\n\nfloat smoothStep(float x, float y) {\n return 1.0 / (1.0 + exp(50.0*(x - y)));\n}\n\nvoid main() {\n float dist = texture2D(marker, gl_PointCoord).r, delta = fragWidth;\n\n // max-distance alpha\n if (dist < 0.003) discard;\n\n // null-border case\n if (fragBorderColorLevel == fragColorLevel || fragBorderColor.a == 0.) {\n float colorAmt = smoothstep(.5 - delta, .5 + delta, dist);\n gl_FragColor = vec4(fragColor.rgb, colorAmt * fragColor.a * opacity);\n }\n else {\n float borderColorAmt = smoothstep(fragBorderColorLevel - delta, fragBorderColorLevel + delta, dist);\n float colorAmt = smoothstep(fragColorLevel - delta, fragColorLevel + delta, dist);\n\n vec4 color = fragBorderColor;\n color.a *= borderColorAmt;\n color = mix(color, fragColor, colorAmt);\n color.a *= opacity;\n\n gl_FragColor = color;\n }\n\n}\n"])
markerOptions.vert = glslify(["precision mediump float;\n#define GLSLIFY 1\n\nattribute float x, y, xFract, yFract;\nattribute float size, borderSize;\nattribute vec4 colorId, borderColorId;\nattribute float isActive;\n\nuniform vec2 scale, scaleFract, translate, translateFract, paletteSize;\nuniform float pixelRatio;\nuniform sampler2D palette;\n\nconst float maxSize = 100.;\nconst float borderLevel = .5;\n\nvarying vec4 fragColor, fragBorderColor;\nvarying float fragPointSize, fragBorderRadius,\n fragWidth, fragBorderColorLevel, fragColorLevel;\n\nvec2 paletteCoord(float id) {\n return vec2(\n (mod(id, paletteSize.x) + .5) / paletteSize.x,\n (floor(id / paletteSize.x) + .5) / paletteSize.y\n );\n}\nvec2 paletteCoord(vec2 id) {\n return vec2(\n (id.x + .5) / paletteSize.x,\n (id.y + .5) / paletteSize.y\n );\n}\nvec4 getColor(vec4 id) {\n // zero-palette means we deal with direct buffer\n if (paletteSize.x == 0.) return id / 255.;\n return texture2D(palette, paletteCoord(id.xy));\n}\n\nvoid main() {\n if (isActive == 0.) return;\n\n vec2 position = vec2(x, y);\n vec2 positionFract = vec2(xFract, yFract);\n\n vec4 color = getColor(colorId);\n vec4 borderColor = getColor(borderColorId);\n\n float size = size * maxSize / 255.;\n float borderSize = borderSize * maxSize / 255.;\n\n gl_PointSize = 2. * size * pixelRatio;\n fragPointSize = size * pixelRatio;\n\n vec2 pos = (position + translate) * scale\n + (positionFract + translateFract) * scale\n + (position + translate) * scaleFract\n + (positionFract + translateFract) * scaleFract;\n\n gl_Position = vec4(pos * 2. - 1., 0, 1);\n\n fragColor = color;\n fragBorderColor = borderColor;\n fragWidth = 1. / gl_PointSize;\n\n fragBorderColorLevel = clamp(borderLevel - borderLevel * borderSize / size, 0., 1.);\n fragColorLevel = clamp(borderLevel + (1. - borderLevel) * borderSize / size, 0., 1.);\n}\n"])
this.drawMarker = regl(markerOptions)
// draw circle
var circleOptions = extend({}, shaderOptions)
circleOptions.frag = glslify(["precision highp float;\n#define GLSLIFY 1\n\nvarying vec4 fragColor, fragBorderColor;\n\nuniform float opacity;\nvarying float fragBorderRadius, fragWidth;\n\nfloat smoothStep(float edge0, float edge1, float x) {\n\tfloat t;\n\tt = clamp((x - edge0) / (edge1 - edge0), 0.0, 1.0);\n\treturn t * t * (3.0 - 2.0 * t);\n}\n\nvoid main() {\n\tfloat radius, alpha = 1.0, delta = fragWidth;\n\n\tradius = length(2.0 * gl_PointCoord.xy - 1.0);\n\n\tif (radius > 1.0 + delta) {\n\t\tdiscard;\n\t}\n\n\talpha -= smoothstep(1.0 - delta, 1.0 + delta, radius);\n\n\tfloat borderRadius = fragBorderRadius;\n\tfloat ratio = smoothstep(borderRadius - delta, borderRadius + delta, radius);\n\tvec4 color = mix(fragColor, fragBorderColor, ratio);\n\tcolor.a *= alpha * opacity;\n\tgl_FragColor = color;\n}\n"])
circleOptions.vert = glslify(["precision highp float;\n#define GLSLIFY 1\n\nattribute float x, y, xFract, yFract;\nattribute float size, borderSize;\nattribute vec4 colorId, borderColorId;\nattribute float isActive;\n\nuniform vec2 scale, scaleFract, translate, translateFract;\nuniform float pixelRatio;\nuniform sampler2D palette;\nuniform vec2 paletteSize;\n\nconst float maxSize = 100.;\n\nvarying vec4 fragColor, fragBorderColor;\nvarying float fragBorderRadius, fragWidth;\n\nvec2 paletteCoord(float id) {\n return vec2(\n (mod(id, paletteSize.x) + .5) / paletteSize.x,\n (floor(id / paletteSize.x) + .5) / paletteSize.y\n );\n}\nvec2 paletteCoord(vec2 id) {\n return vec2(\n (id.x + .5) / paletteSize.x,\n (id.y + .5) / paletteSize.y\n );\n}\n\nvec4 getColor(vec4 id) {\n // zero-palette means we deal with direct buffer\n if (paletteSize.x == 0.) return id / 255.;\n return texture2D(palette, paletteCoord(id.xy));\n}\n\nvoid main() {\n // ignore inactive points\n if (isActive == 0.) return;\n\n vec2 position = vec2(x, y);\n vec2 positionFract = vec2(xFract, yFract);\n\n vec4 color = getColor(colorId);\n vec4 borderColor = getColor(borderColorId);\n\n float size = size * maxSize / 255.;\n float borderSize = borderSize * maxSize / 255.;\n\n gl_PointSize = (size + borderSize) * pixelRatio;\n\n vec2 pos = (position + translate) * scale\n + (positionFract + translateFract) * scale\n + (position + translate) * scaleFract\n + (positionFract + translateFract) * scaleFract;\n\n gl_Position = vec4(pos * 2. - 1., 0, 1);\n\n fragBorderRadius = 1. - 2. * borderSize / (size + borderSize);\n fragColor = color;\n fragBorderColor = borderColor.a == 0. || borderSize == 0. ? vec4(color.rgb, 0.) : borderColor;\n fragWidth = 1. / gl_PointSize;\n}\n"])
// polyfill IE
if (ie) {
circleOptions.frag = circleOptions.frag.replace('smoothstep', 'smoothStep')
markerOptions.frag = markerOptions.frag.replace('smoothstep', 'smoothStep')
}
this.drawCircle = regl(circleOptions)
}
// single pass defaults
Scatter.defaults = {
color: 'black',
borderColor: 'transparent',
borderSize: 0,
size: 12,
opacity: 1,
marker: undefined,
viewport: null,
range: null,
pixelSize: null,
count: 0,
offset: 0,
bounds: null,
positions: [],
snap: 1e4
}
// update & redraw
Scatter.prototype.render = function () {
var ref;
var args = [], len = arguments.length;
while ( len-- ) args[ len ] = arguments[ len ];
if (args.length) {
(ref = this).update.apply(ref, args)
}
this.draw()
return this
}
// draw all groups or only indicated ones
Scatter.prototype.draw = function () {
var this$1 = this;
var args = [], len = arguments.length;
while ( len-- ) args[ len ] = arguments[ len ];
var ref = this;
var groups = ref.groups;
// if directly array passed - treat as passes
if (args.length === 1 && Array.isArray(args[0]) && (args[0][0] === null || Array.isArray(args[0][0]))) {
args = args[0]
}
// FIXME: remove once https://github.com/regl-project/regl/issues/474 resolved
this.regl._refresh()
if (args.length) {
for (var i = 0; i < args.length; i++) {
this$1.drawItem(i, args[i])
}
}
// draw all passes
else {
groups.forEach(function (group, i) {
this$1.drawItem(i)
})
}
return this
}
// draw specific scatter group
Scatter.prototype.drawItem = function (id, els) {
var this$1 = this;
var ref = this;
var groups = ref.groups;
var group = groups[id]
// debug viewport
// let { viewport } = group
// gl.enable(gl.SCISSOR_TEST);
// gl.scissor(viewport.x, viewport.y, viewport.width, viewport.height);
// gl.clearColor(0, 0, 0, .5);
// gl.clear(gl.COLOR_BUFFER_BIT);
if (typeof els === 'number') {
id = els
group = groups[els]
els = null
}
if (!(group && group.count && group.opacity)) { return }
// draw circles
if (group.activation[0]) {
// TODO: optimize this performance by making groups and regl.this props
this.drawCircle(this.getMarkerDrawOptions(0, group, els))
}
// draw all other available markers
var batch = []
for (var i = 1; i < group.activation.length; i++) {
if (!group.activation[i] || (group.activation[i] !== true && !group.activation[i].data.length)) { continue }
batch.push.apply(batch, this$1.getMarkerDrawOptions(i, group, els))
}
if (batch.length) {
this.drawMarker(batch)
}
}
// get options for the marker ids
Scatter.prototype.getMarkerDrawOptions = function(markerId, group, elements) {
var this$1 = this;
var range = group.range;
var tree = group.tree;
var viewport = group.viewport;
var activation = group.activation;
var selectionBuffer = group.selectionBuffer;
var count = group.count;
var ref = this;
var regl = ref.regl;
// direct points
if (!tree) {
// if elements array - draw unclustered points
if (elements) {
return [extend({}, group, {
markerTexture: this.markerTextures[markerId],
activation: activation[markerId],
count: elements.length,
elements: elements,
offset: 0
})]
}
return [ extend({}, group, {
markerTexture: this.markerTextures[markerId],
activation: activation[markerId],
offset: 0
}) ]
}
// clustered points
var batch = []
var lod = tree.range(range, { lod: true, px: [
(range[2] - range[0]) / viewport.width,
(range[3] - range[1]) / viewport.height
]})
// enable elements by using selection buffer
if (elements) {
var markerActivation = activation[markerId]
var mask = markerActivation.data
var data = new Uint8Array(count)
for (var i = 0; i < elements.length; i++) {
var id = elements[i]
data[id] = mask ? mask[id] : 1
}
selectionBuffer.subdata(data)
}
for (var l = lod.length; l--;) {
var ref$1 = lod[l];
var from = ref$1[0];
var to = ref$1[1];
batch.push(extend({}, group, {
markerTexture: this$1.markerTextures[markerId],
activation: elements ? selectionBuffer : activation[markerId],
offset: from,
count: to - from
}))
}
return batch
}
// update groups options
Scatter.prototype.update = function () {
var this$1 = this;
var args = [], len = arguments.length;
while ( len-- ) args[ len ] = arguments[ len ];
if (!args.length) { return }
// passes are as single array
if (args.length === 1 && Array.isArray(args[0])) { args = args[0] }
var ref = this;
var groups = ref.groups;
var gl = ref.gl;
var regl = ref.regl;
var maxSize = ref.maxSize;
var maxColors = ref.maxColors;
var palette = ref.palette;
this.groups = groups = args.map(function (options, i) {
var group = groups[i]
if (options === undefined) { return group }
if (options === null) { options = { positions: null } }
else if (typeof options === 'function') { options = { ondraw: options } }
else if (typeof options[0] === 'number') { options = { positions: options } }
// copy options to avoid mutation & handle aliases
options = pick(options, {
positions: 'positions data points',
snap: 'snap cluster lod tree',
size: 'sizes size radius',
borderSize: 'borderSizes borderSize border-size bordersize borderWidth borderWidths border-width borderwidth stroke-width strokeWidth strokewidth outline',
color: 'colors color fill fill-color fillColor',
borderColor: 'borderColors borderColor stroke stroke-color strokeColor',
marker: 'markers marker shape',
range: 'range dataBox databox',
viewport: 'viewport viewPort viewBox viewbox',
opacity: 'opacity alpha transparency',
bounds: 'bound bounds boundaries limits'
})
if (options.positions === null) { options.positions = [] }
if (!group) {
groups[i] = group = {
id: i,
scale: null,
translate: null,
scaleFract: null,
translateFract: null,
// buffers for active markers
activation: [],
// buffer for filtered markers
selectionBuffer: regl.buffer({
data: new Uint8Array(0),
usage: 'stream',
type: 'uint8'
}),
// buffers with data: it is faster to switch them per-pass
// than provide one congregate buffer
sizeBuffer: regl.buffer({
data: new Uint8Array(0),
usage: 'dynamic',
type: 'uint8'
}),
colorBuffer: regl.buffer({
data: new Uint8Array(0),
usage: 'dynamic',
type: 'uint8'
}),
positionBuffer: regl.buffer({
data: new Uint8Array(0),
usage: 'dynamic',
type: 'float'
}),
positionFractBuffer: regl.buffer({
data: new Uint8Array(0),
usage: 'dynamic',
type: 'float'
})
}
options = extend({}, Scatter.defaults, options)
}
// force update triggers
if (options.positions && !('marker' in options)) {
options.marker = group.marker
delete group.marker
}
// updating markers cause recalculating snapping
if (options.marker && !('positions' in options)) {
options.positions = group.positions
delete group.positions
}
// global count of points
var hasSize = 0, hasColor = 0
updateDiff(group, options, [{
snap: true,
size: function (s, group) {
if (s == null) { s = Scatter.defaults.size }
hasSize += s && s.length ? 1 : 0
return s
},
borderSize: function (s, group) {
if (s == null) { s = Scatter.defaults.borderSize }
hasSize += s && s.length ? 1 : 0
return s
},
opacity: parseFloat,
// add colors to palette, save references
color: function (c, group) {
if (c == null) { c = Scatter.defaults.color }
c = this$1.updateColor(c)
hasColor++
return c
},
borderColor: function (c, group) {
if (c == null) { c = Scatter.defaults.borderColor }
c = this$1.updateColor(c)
hasColor++
return c
},
bounds: function (bounds, group, options) {
if (!('range' in options)) { options.range = null }
return bounds
},
positions: function (positions, group, options) {
var snap = group.snap;
var positionBuffer = group.positionBuffer;
var positionFractBuffer = group.positionFractBuffer;
var selectionBuffer = group.selectionBuffer;
// separate buffers for x/y coordinates
if (positions.x || positions.y) {
if (positions.x.length) {
group.xAttr = {
buffer: regl.buffer(positions.x),
offset: 0,
stride: 4,
count: positions.x.length
}
}
else {
group.xAttr = {
buffer: positions.x.buffer,
offset: positions.x.offset * 4 || 0,
stride: (positions.x.stride || 1) * 4,
count: positions.x.count
}
}
if (positions.y.length) {
group.yAttr = {
buffer: regl.buffer(positions.y),
offset: 0,
stride: 4,
count: positions.y.length
}
}
else {
group.yAttr = {
buffer: positions.y.buffer,
offset: positions.y.offset * 4 || 0,
stride: (positions.y.stride || 1) * 4,
count: positions.y.count
}
}
group.count = Math.max(group.xAttr.count, group.yAttr.count)
return positions
}
positions = flatten(positions, 'float64')
var count = group.count = Math.floor(positions.length / 2)
var bounds = group.bounds = count ? getBounds(positions, 2) : null
// if range is not provided updated - recalc it
if (!options.range && !group.range) {
delete group.range
options.range = bounds
}
// reset marker
if (!options.marker && !group.marker) {
delete group.marker;
options.marker = null;
}
// build cluster tree if required
if (snap && (snap === true || count > snap)) {
group.tree = cluster(positions, { bounds: bounds })
}
// existing tree instance
else if (snap && snap.length) {
group.tree = snap
}
if (group.tree) {
var opts = {
primitive: 'points',
usage: 'static',
data: group.tree,
type: 'uint32'
}
if (group.elements) { group.elements(opts) }
else { group.elements = regl.elements(opts) }
}
// update position buffers
positionBuffer({
data: f32.float(positions),
usage: 'dynamic'
})
positionFractBuffer({
data: f32.fract(positions),
usage: 'dynamic'
})
// expand selectionBuffer
selectionBuffer({
data: new Uint8Array(count),
type: 'uint8',
usage: 'stream'
})
return positions
}
}, {
// create marker ids corresponding to known marker textures
marker: function (markers, group, options) {
var activation = group.activation;
// reset marker elements
activation.forEach(function (buffer) { return buffer && buffer.destroy && buffer.destroy(); })
activation.length = 0
// single sdf marker
if (!markers || typeof markers[0] === 'number') {
var id = this$1.addMarker(markers)
activation[id] = true
}
// per-point markers use mask buffers to enable markers in vert shader
else {
var markerMasks = []
for (var i = 0, l = Math.min(markers.length, group.count); i < l; i++) {
var id$1 = this$1.addMarker(markers[i])
if (!markerMasks[id$1]) { markerMasks[id$1] = new Uint8Array(group.count) }
// enable marker by default
markerMasks[id$1][i] = 1
}
for (var id$2 = 0; id$2 < markerMasks.length; id$2++) {
if (!markerMasks[id$2]) { continue }
var opts = {
data: markerMasks[id$2],
type: 'uint8',
usage: 'static'
}
if (!activation[id$2]) {
activation[id$2] = regl.buffer(opts)
}
else {
activation[id$2](opts)
}
activation[id$2].data = markerMasks[id$2]
}
}
return markers
},
range: function (range, group, options) {
var bounds = group.bounds
// FIXME: why do we need this?
if (!bounds) { return }
if (!range) { range = bounds }
group.scale = [1 / (range[2] - range[0]), 1 / (range[3] - range[1])]
group.translate = [-range[0], -range[1]]
group.scaleFract = f32.fract(group.scale)
group.translateFract = f32.fract(group.translate)
return range
},
viewport: function (vp) {
var rect = parseRect(vp || [
gl.drawingBufferWidth,
gl.drawingBufferHeight
])
// normalize viewport to the canvas coordinates
// rect.y = gl.drawingBufferHeight - rect.height - rect.y
return rect
}
}])
// update size buffer, if needed
if (hasSize) {
var count = group.count;
var size = group.size;
var borderSize = group.borderSize;
var sizeBuffer = group.sizeBuffer;
var sizes = new Uint8Array(count*2)
if (size.length || borderSize.length) {
for (var i$1 = 0; i$1 < count; i$1++) {
// we downscale size to allow for fractions
sizes[i$1*2] = Math.round((size[i$1] == null ? size : size[i$1]) * 255 / maxSize)
sizes[i$1*2 + 1] = Math.round((borderSize[i$1] == null ? borderSize : borderSize[i$1]) * 255 / maxSize)
}
}
sizeBuffer({
data: sizes,
usage: 'dynamic'
})
}
// update color buffer if needed
if (hasColor) {
var count$1 = group.count;
var color = group.color;
var borderColor = group.borderColor;
var colorBuffer = group.colorBuffer;
var colors
// if too many colors - put colors to buffer directly
if (this$1.tooManyColors) {
if (color.length || borderColor.length) {
colors = new Uint8Array(count$1 * 8)
for (var i$2 = 0; i$2 < count$1; i$2++) {
var colorId = color[i$2]
colors[i$2*8] = palette[colorId*4]
colors[i$2*8 + 1] = palette[colorId*4 + 1]
colors[i$2*8 + 2] = palette[colorId*4 + 2]
colors[i$2*8 + 3] = palette[colorId*4 + 3]
var borderColorId = borderColor[i$2]
colors[i$2*8 + 4] = palette[borderColorId*4]
colors[i$2*8 + 5] = palette[borderColorId*4 + 1]
colors[i$2*8 + 6] = palette[borderColorId*4 + 2]
colors[i$2*8 + 7] = palette[borderColorId*4 + 3]
}
}
}
// if limited amount of colors - keep palette color picking
// that saves significant memory
else {
if (color.length || borderColor.length) {
// we need slight data increase by 2 due to vec4 borderId in shader
colors = new Uint8Array(count$1 * 4 + 2)
for (var i$3 = 0; i$3 < count$1; i$3++) {
// put color coords in palette texture
if (color[i$3] != null) {
colors[i$3*4] = color[i$3] % maxColors
colors[i$3*4 + 1] = Math.floor(color[i$3] / maxColors)
}
if (borderColor[i$3] != null) {
colors[i$3*4 + 2] = borderColor[i$3] % maxColors
colors[i$3*4 + 3] = Math.floor(borderColor[i$3] / maxColors)
}
}
}
}
colorBuffer({
data: colors || new Uint8Array(0),
type: 'uint8',
usage: 'dynamic'
})
}
return group
})
}
// get (and create) marker texture id
Scatter.prototype.addMarker = function (sdf) {
var ref = this;
var markerTextures = ref.markerTextures;
var regl = ref.regl;
var markerCache = ref.markerCache;
var pos = sdf == null ? 0 : markerCache.indexOf(sdf)
if (pos >= 0) { return pos }
// convert sdf to 0..255 range
var distArr
if (sdf instanceof Uint8Array || sdf instanceof Uint8ClampedArray) {
distArr = sdf
}
else {
distArr = new Uint8Array(sdf.length)
for (var i = 0, l = sdf.length; i < l; i++) {
distArr[i] = sdf[i] * 255
}
}
var radius = Math.floor(Math.sqrt(distArr.length))
pos = markerTextures.length
markerCache.push(sdf)
markerTextures.push(regl.texture({
channels: 1,
data: distArr,
radius: radius,
mag: 'linear',
min: 'linear'
}))
return pos
}
// register color to palette, return it's index or list of indexes
Scatter.prototype.updateColor = function (colors) {
var ref = this;
var paletteIds = ref.paletteIds;
var palette = ref.palette;
var maxColors = ref.maxColors;
if (!Array.isArray(colors)) {
colors = [colors]
}
var idx = []
// if color groups - flatten them
if (typeof colors[0] === 'number') {
var grouped = []
if (Array.isArray(colors)) {
for (var i = 0; i < colors.length; i+=4) {
grouped.push(colors.slice(i, i+4))
}
}
else {
for (var i$1 = 0; i$1 < colors.length; i$1+=4) {
grouped.push(colors.subarray(i$1, i$1+4))
}
}
colors = grouped
}
for (var i$2 = 0; i$2 < colors.length; i$2++) {
var color = colors[i$2]
color = rgba(color, 'uint8')
var id = colorId(color, false)
// if new color - save it
if (paletteIds[id] == null) {
var pos = palette.length
paletteIds[id] = Math.floor(pos / 4)
palette[pos] = color[0]
palette[pos+1] = color[1]
palette[pos+2] = color[2]
palette[pos+3] = color[3]
}
idx[i$2] = paletteIds[id]
}
// detect if too many colors in palette
if (!this.tooManyColors && palette.length > maxColors * maxColors * 4) { this.tooManyColors = true }
// limit max color
this.updatePalette(palette)
// keep static index for single-color property
return idx.length === 1 ? idx[0] : idx
}
Scatter.prototype.updatePalette = function (palette) {
if (this.tooManyColors) { return }
var ref = this;
var maxColors = ref.maxColors;
var paletteTexture = ref.paletteTexture;
var requiredHeight = Math.ceil(palette.length * .25 / maxColors)
// pad data
if (requiredHeight > 1) {
palette = palette.slice()
for (var i = (palette.length * .25) % maxColors; i < requiredHeight * maxColors; i++) {
palette.push(0, 0, 0, 0)
}
}
// ensure height
if (paletteTexture.height < requiredHeight) {
paletteTexture.resize(maxColors, requiredHeight)
}
// update full data
paletteTexture.subimage({
width: Math.min(palette.length * .25, maxColors),
height: requiredHeight,
data: palette
}, 0, 0)
}
// remove unused stuff
Scatter.prototype.destroy = function () {
this.groups.forEach(function (group) {
group.sizeBuffer.destroy()
group.positionBuffer.destroy()
group.positionFractBuffer.destroy()
group.colorBuffer.destroy()
group.activation.forEach(function (b) { return b && b.destroy && b.destroy(); })
group.selectionBuffer.destroy()
if (group.elements) { group.elements.destroy() }
})
this.groups.length = 0
this.paletteTexture.destroy()
this.markerTextures.forEach(function (txt) { return txt && txt.destroy && txt.destroy(); })
return this
}
},{"array-bounds":52,"color-id":105,"color-normalize":107,"flatten-vertex-data":215,"glslify":390,"is-iexplorer":400,"object-assign":434,"parse-rect":439,"pick-by-alias":445,"point-cluster":449,"to-float32":512,"update-diff":523}],474:[function(_dereq_,module,exports){
'use strict'
var createScatter = _dereq_('regl-scatter2d/scatter')
var pick = _dereq_('pick-by-alias')
var getBounds = _dereq_('array-bounds')
var raf = _dereq_('raf')
var arrRange = _dereq_('array-range')
var rect = _dereq_('parse-rect')
var flatten = _dereq_('flatten-vertex-data')
module.exports = SPLOM
// @constructor
function SPLOM (regl, options) {
if (!(this instanceof SPLOM)) { return new SPLOM(regl, options) }
// render passes
this.traces = []
// passes for scatter, combined across traces
this.passes = {}
this.regl = regl
// main scatter drawing instance
this.scatter = createScatter(regl)
this.canvas = this.scatter.canvas
}
// update & draw passes once per frame
SPLOM.prototype.render = function () {
var this$1 = this;
var ref;
var args = [], len = arguments.length;
while ( len-- ) args[ len ] = arguments[ len ];
if (args.length) {
(ref = this).update.apply(ref, args)
}
if (this.regl.attributes.preserveDrawingBuffer) { return this.draw() }
// make sure draw is not called more often than once a frame
if (this.dirty) {
if (this.planned == null) {
this.planned = raf(function () {
this$1.draw()
this$1.dirty = true
this$1.planned = null
})
}
}
else {
this.draw()
this.dirty = true
raf(function () {
this$1.dirty = false
})
}
return this
}
// update passes
SPLOM.prototype.update = function () {
var this$1 = this;
var ref;
var args = [], len = arguments.length;
while ( len-- ) args[ len ] = arguments[ len ];
if (!args.length) { return }
for (var i = 0; i < args.length; i++) {
this$1.updateItem(i, args[i])
}
// remove nulled passes
this.traces = this.traces.filter(Boolean)
// FIXME: update passes independently
var passes = []
var offset = 0
for (var i$1 = 0; i$1 < this.traces.length; i$1++) {
var trace = this$1.traces[i$1]
var tracePasses = this$1.traces[i$1].passes
for (var j = 0; j < tracePasses.length; j++) {
passes.push(this$1.passes[tracePasses[j]])
}
// save offset of passes
trace.passOffset = offset
offset += trace.passes.length
}
(ref = this.scatter).update.apply(ref, passes)
return this
}
// update trace by index, not supposed to be called directly
SPLOM.prototype.updateItem = function (i, options) {
var this$1 = this;
var ref = this;
var regl = ref.regl;
// remove pass if null
if (options === null) {
this.traces[i] = null
return this
}
if (!options) { return this }
var o = pick(options, {
data: 'data items columns rows values dimensions samples x',
snap: 'snap cluster',
size: 'sizes size radius',
color: 'colors color fill fill-color fillColor',
opacity: 'opacity alpha transparency opaque',
borderSize: 'borderSizes borderSize border-size bordersize borderWidth borderWidths border-width borderwidth stroke-width strokeWidth strokewidth outline',
borderColor: 'borderColors borderColor bordercolor stroke stroke-color strokeColor',
marker: 'markers marker shape',
range: 'range ranges databox dataBox',
viewport: 'viewport viewBox viewbox',
domain: 'domain domains area areas',
padding: 'pad padding paddings pads margin margins',
transpose: 'transpose transposed',
diagonal: 'diagonal diag showDiagonal',
upper: 'upper up top upperhalf upperHalf showupperhalf showUpper showUpperHalf',
lower: 'lower low bottom lowerhalf lowerHalf showlowerhalf showLowerHalf showLower'
})
// we provide regl buffer per-trace, since trace data can be changed
var trace = (this.traces[i] || (this.traces[i] = {
id: i,
buffer: regl.buffer({
usage: 'dynamic',
type: 'float',
data: new Uint8Array()
}),
color: 'black',
marker: null,
size: 12,
borderColor: 'transparent',
borderSize: 1,
viewport: rect([regl._gl.drawingBufferWidth, regl._gl.drawingBufferHeight]),
padding: [0, 0, 0, 0],
opacity: 1,
diagonal: true,
upper: true,
lower: true
}))
// save styles
if (o.color != null) {
trace.color = o.color
}
if (o.size != null) {
trace.size = o.size
}
if (o.marker != null) {
trace.marker = o.marker
}
if (o.borderColor != null) {
trace.borderColor = o.borderColor
}
if (o.borderSize != null) {
trace.borderSize = o.borderSize
}
if (o.opacity != null) {
trace.opacity = o.opacity
}
if (o.viewport) {
trace.viewport = rect(o.viewport)
}
if (o.diagonal != null) { trace.diagonal = o.diagonal }
if (o.upper != null) { trace.upper = o.upper }
if (o.lower != null) { trace.lower = o.lower }
// put flattened data into buffer
if (o.data) {
trace.buffer(flatten(o.data))
trace.columns = o.data.length
trace.count = o.data[0].length
// detect bounds per-column
trace.bounds = []
for (var i$1 = 0; i$1 < trace.columns; i$1++) {
trace.bounds[i$1] = getBounds(o.data[i$1], 1)
}
}
// add proper range updating markers
var multirange
if (o.range) {
trace.range = o.range
multirange = trace.range && typeof trace.range[0] !== 'number'
}
if (o.domain) {
trace.domain = o.domain
}
var multipadding = false
if (o.padding != null) {
// multiple paddings
if (Array.isArray(o.padding) && o.padding.length === trace.columns && typeof o.padding[o.padding.length - 1] === 'number') {
trace.padding = o.padding.map(getPad)
multipadding = true
}
// single padding
else {
trace.padding = getPad(o.padding)
}
}
// create passes
var m = trace.columns
var n = trace.count
var w = trace.viewport.width
var h = trace.viewport.height
var left = trace.viewport.x
var top = trace.viewport.y
var iw = w / m
var ih = h / m
trace.passes = []
for (var i$2 = 0; i$2 < m; i$2++) {
for (var j = 0; j < m; j++) {
if (!trace.diagonal && j === i$2) { continue }
if (!trace.upper && i$2 > j) { continue }
if (!trace.lower && i$2 < j) { continue }
var key = passId(trace.id, i$2, j)
var pass = this$1.passes[key] || (this$1.passes[key] = {})
if (o.data) {
if (o.transpose) {
pass.positions = {
x: {buffer: trace.buffer, offset: j, count: n, stride: m},
y: {buffer: trace.buffer, offset: i$2, count: n, stride: m}
}
}
else {
pass.positions = {
x: {buffer: trace.buffer, offset: j * n, count: n},
y: {buffer: trace.buffer, offset: i$2 * n, count: n}
}
}
pass.bounds = getBox(trace.bounds, i$2, j)
}
if (o.domain || o.viewport || o.data) {
var pad = multipadding ? getBox(trace.padding, i$2, j) : trace.padding
if (trace.domain) {
var ref$1 = getBox(trace.domain, i$2, j);
var lox = ref$1[0];
var loy = ref$1[1];
var hix = ref$1[2];
var hiy = ref$1[3];
pass.viewport = [
left + lox * w + pad[0],
top + loy * h + pad[1],
left + hix * w - pad[2],
top + hiy * h - pad[3]
]
}
// consider auto-domain equipartial
else {
pass.viewport = [
left + j * iw + iw * pad[0],
top + i$2 * ih + ih * pad[1],
left + (j + 1) * iw - iw * pad[2],
top + (i$2 + 1) * ih - ih * pad[3]
]
}
}
if (o.color) { pass.color = trace.color }
if (o.size) { pass.size = trace.size }
if (o.marker) { pass.marker = trace.marker }
if (o.borderSize) { pass.borderSize = trace.borderSize }
if (o.borderColor) { pass.borderColor = trace.borderColor }
if (o.opacity) { pass.opacity = trace.opacity }
if (o.range) {
pass.range = multirange ? getBox(trace.range, i$2, j) : trace.range || pass.bounds
}
trace.passes.push(key)
}
}
return this
}
// draw all or passed passes
SPLOM.prototype.draw = function () {
var this$1 = this;
var ref$2;
var args = [], len = arguments.length;
while ( len-- ) args[ len ] = arguments[ len ];
if (!args.length) {
this.scatter.draw()
}
else {
var idx = []
for (var i = 0; i < args.length; i++) {
// draw(0, 2, 5) - draw traces
if (typeof args[i] === 'number' ) {
var ref = this$1.traces[args[i]];
var passes = ref.passes;
var passOffset = ref.passOffset;
idx.push.apply(idx, arrRange(passOffset, passOffset + passes.length))
}
// draw([0, 1, 2 ...], [3, 4, 5]) - draw points
else if (args[i].length) {
var els = args[i]
var ref$1 = this$1.traces[i];
var passes$1 = ref$1.passes;
var passOffset$1 = ref$1.passOffset;
passes$1 = passes$1.map(function (passId, i) {
idx[passOffset$1 + i] = els
})
}
}
(ref$2 = this.scatter).draw.apply(ref$2, idx)
}
return this
}
// dispose resources
SPLOM.prototype.destroy = function () {
this.traces.forEach(function (trace) {
if (trace.buffer && trace.buffer.destroy) { trace.buffer.destroy() }
})
this.traces = null
this.passes = null
this.scatter.destroy()
return this
}
// return pass corresponding to trace i- j- square
function passId (trace, i, j) {
var id = (trace.id != null ? trace.id : trace)
var n = i
var m = j
var key = id << 16 | (n & 0xff) << 8 | m & 0xff
return key
}
// return bounding box corresponding to a pass
function getBox (items, i, j) {
var ilox, iloy, ihix, ihiy, jlox, jloy, jhix, jhiy
var iitem = items[i], jitem = items[j]
if (iitem.length > 2) {
ilox = iitem[0]
ihix = iitem[2]
iloy = iitem[1]
ihiy = iitem[3]
}
else if (iitem.length) {
ilox = iloy = iitem[0]
ihix = ihiy = iitem[1]
}
else {
ilox = iitem.x
iloy = iitem.y
ihix = iitem.x + iitem.width
ihiy = iitem.y + iitem.height
}
if (jitem.length > 2) {
jlox = jitem[0]
jhix = jitem[2]
jloy = jitem[1]
jhiy = jitem[3]
}
else if (jitem.length) {
jlox = jloy = jitem[0]
jhix = jhiy = jitem[1]
}
else {
jlox = jitem.x
jloy = jitem.y
jhix = jitem.x + jitem.width
jhiy = jitem.y + jitem.height
}
return [ jlox, iloy, jhix, ihiy ]
}
function getPad (arg) {
if (typeof arg === 'number') { return [arg, arg, arg, arg] }
else if (arg.length === 2) { return [arg[0], arg[1], arg[0], arg[1]] }
else {
var box = rect(arg)
return [box.x, box.y, box.x + box.width, box.y + box.height]
}
}
},{"array-bounds":52,"array-range":54,"flatten-vertex-data":215,"parse-rect":439,"pick-by-alias":445,"raf":464,"regl-scatter2d/scatter":473}],475:[function(_dereq_,module,exports){
(function(pa,W){"object"===typeof exports&&"undefined"!==typeof module?module.exports=W():"function"===typeof define&&define.amd?define(W):pa.createREGL=W()})(this,function(){function pa(a,b){this.id=Ab++;this.type=a;this.data=b}function W(a){if(0===a.length)return[];var b=a.charAt(0),c=a.charAt(a.length-1);if(1<a.length&&b===c&&('"'===b||"'"===b))return['"'+a.substr(1,a.length-2).replace(/\\/g,"\\\\").replace(/"/g,'\\"')+'"'];if(b=/\[(false|true|null|\d+|'[^']*'|"[^"]*")\]/.exec(a))return W(a.substr(0,
b.index)).concat(W(b[1])).concat(W(a.substr(b.index+b[0].length)));b=a.split(".");if(1===b.length)return['"'+a.replace(/\\/g,"\\\\").replace(/"/g,'\\"')+'"'];a=[];for(c=0;c<b.length;++c)a=a.concat(W(b[c]));return a}function Za(a){return"["+W(a).join("][")+"]"}function Bb(){var a={"":0},b=[""];return{id:function(c){var e=a[c];if(e)return e;e=a[c]=b.length;b.push(c);return e},str:function(a){return b[a]}}}function Cb(a,b,c){function e(){var b=window.innerWidth,e=window.innerHeight;a!==document.body&&
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case "lost":c=U;break;case "restore":c=Y;break;case "destroy":c=W}c.push(b);return{cancel:function(){for(var a=0;a<c.length;++a)if(c[a]===b){c[a]=c[c.length-1];c.pop();break}}}},limits:Q,hasExtension:function(a){return 0<=Q.extensions.indexOf(a.toLowerCase())},read:z,destroy:function(){F.length=0;e();M&&(M.removeEventListener("webglcontextlost",f),M.removeEventListener("webglcontextrestored",d));R.clear();L.clear();A.clear();w.clear();T.clear();E.clear();x&&x.clear();W.forEach(function(a){a()})},
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},{}],476:[function(_dereq_,module,exports){
/*!
* repeat-string <https://github.com/jonschlinkert/repeat-string>
*
* Copyright (c) 2014-2015, Jon Schlinkert.
* Licensed under the MIT License.
*/
'use strict';
/**
* Results cache
*/
var res = '';
var cache;
/**
* Expose `repeat`
*/
module.exports = repeat;
/**
* Repeat the given `string` the specified `number`
* of times.
*
* **Example:**
*
* ```js
* var repeat = require('repeat-string');
* repeat('A', 5);
* //=> AAAAA
* ```
*
* @param {String} `string` The string to repeat
* @param {Number} `number` The number of times to repeat the string
* @return {String} Repeated string
* @api public
*/
function repeat(str, num) {
if (typeof str !== 'string') {
throw new TypeError('expected a string');
}
// cover common, quick use cases
if (num === 1) return str;
if (num === 2) return str + str;
var max = str.length * num;
if (cache !== str || typeof cache === 'undefined') {
cache = str;
res = '';
} else if (res.length >= max) {
return res.substr(0, max);
}
while (max > res.length && num > 1) {
if (num & 1) {
res += str;
}
num >>= 1;
str += str;
}
res += str;
res = res.substr(0, max);
return res;
}
},{}],477:[function(_dereq_,module,exports){
(function (global){
module.exports =
global.performance &&
global.performance.now ? function now() {
return performance.now()
} : Date.now || function now() {
return +new Date
}
}).call(this,typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {})
},{}],478:[function(_dereq_,module,exports){
"use strict"
module.exports = compressExpansion
function compressExpansion(e) {
var m = e.length
var Q = e[e.length-1]
var bottom = m
for(var i=m-2; i>=0; --i) {
var a = Q
var b = e[i]
Q = a + b
var bv = Q - a
var q = b - bv
if(q) {
e[--bottom] = Q
Q = q
}
}
var top = 0
for(var i=bottom; i<m; ++i) {
var a = e[i]
var b = Q
Q = a + b
var bv = Q - a
var q = b - bv
if(q) {
e[top++] = q
}
}
e[top++] = Q
e.length = top
return e
}
},{}],479:[function(_dereq_,module,exports){
"use strict"
var twoProduct = _dereq_("two-product")
var robustSum = _dereq_("robust-sum")
var robustScale = _dereq_("robust-scale")
var compress = _dereq_("robust-compress")
var NUM_EXPANDED = 6
function cofactor(m, c) {
var result = new Array(m.length-1)
for(var i=1; i<m.length; ++i) {
var r = result[i-1] = new Array(m.length-1)
for(var j=0,k=0; j<m.length; ++j) {
if(j === c) {
continue
}
r[k++] = m[i][j]
}
}
return result
}
function matrix(n) {
var result = new Array(n)
for(var i=0; i<n; ++i) {
result[i] = new Array(n)
for(var j=0; j<n; ++j) {
result[i][j] = ["m[", i, "][", j, "]"].join("")
}
}
return result
}
function sign(n) {
if(n & 1) {
return "-"
}
return ""
}
function generateSum(expr) {
if(expr.length === 1) {
return expr[0]
} else if(expr.length === 2) {
return ["sum(", expr[0], ",", expr[1], ")"].join("")
} else {
var m = expr.length>>1
return ["sum(", generateSum(expr.slice(0, m)), ",", generateSum(expr.slice(m)), ")"].join("")
}
}
function determinant(m) {
if(m.length === 2) {
return ["sum(prod(", m[0][0], ",", m[1][1], "),prod(-", m[0][1], ",", m[1][0], "))"].join("")
} else {
var expr = []
for(var i=0; i<m.length; ++i) {
expr.push(["scale(", determinant(cofactor(m, i)), ",", sign(i), m[0][i], ")"].join(""))
}
return generateSum(expr)
}
}
function compileDeterminant(n) {
var proc = new Function("sum", "scale", "prod", "compress", [
"function robustDeterminant",n, "(m){return compress(",
determinant(matrix(n)),
")};return robustDeterminant", n].join(""))
return proc(robustSum, robustScale, twoProduct, compress)
}
var CACHE = [
function robustDeterminant0() { return [0] },
function robustDeterminant1(m) { return [m[0][0]] }
]
function generateDispatch() {
while(CACHE.length < NUM_EXPANDED) {
CACHE.push(compileDeterminant(CACHE.length))
}
var procArgs = []
var code = ["function robustDeterminant(m){switch(m.length){"]
for(var i=0; i<NUM_EXPANDED; ++i) {
procArgs.push("det" + i)
code.push("case ", i, ":return det", i, "(m);")
}
code.push("}\
var det=CACHE[m.length];\
if(!det)\
det=CACHE[m.length]=gen(m.length);\
return det(m);\
}\
return robustDeterminant")
procArgs.push("CACHE", "gen", code.join(""))
var proc = Function.apply(undefined, procArgs)
module.exports = proc.apply(undefined, CACHE.concat([CACHE, compileDeterminant]))
for(var i=0; i<CACHE.length; ++i) {
module.exports[i] = CACHE[i]
}
}
generateDispatch()
},{"robust-compress":478,"robust-scale":485,"robust-sum":488,"two-product":517}],480:[function(_dereq_,module,exports){
"use strict"
var twoProduct = _dereq_("two-product")
var robustSum = _dereq_("robust-sum")
module.exports = robustDotProduct
function robustDotProduct(a, b) {
var r = twoProduct(a[0], b[0])
for(var i=1; i<a.length; ++i) {
r = robustSum(r, twoProduct(a[i], b[i]))
}
return r
}
},{"robust-sum":488,"two-product":517}],481:[function(_dereq_,module,exports){
"use strict"
var twoProduct = _dereq_("two-product")
var robustSum = _dereq_("robust-sum")
var robustDiff = _dereq_("robust-subtract")
var robustScale = _dereq_("robust-scale")
var NUM_EXPAND = 6
function cofactor(m, c) {
var result = new Array(m.length-1)
for(var i=1; i<m.length; ++i) {
var r = result[i-1] = new Array(m.length-1)
for(var j=0,k=0; j<m.length; ++j) {
if(j === c) {
continue
}
r[k++] = m[i][j]
}
}
return result
}
function matrix(n) {
var result = new Array(n)
for(var i=0; i<n; ++i) {
result[i] = new Array(n)
for(var j=0; j<n; ++j) {
result[i][j] = ["m", j, "[", (n-i-2), "]"].join("")
}
}
return result
}
function generateSum(expr) {
if(expr.length === 1) {
return expr[0]
} else if(expr.length === 2) {
return ["sum(", expr[0], ",", expr[1], ")"].join("")
} else {
var m = expr.length>>1
return ["sum(", generateSum(expr.slice(0, m)), ",", generateSum(expr.slice(m)), ")"].join("")
}
}
function makeProduct(a, b) {
if(a.charAt(0) === "m") {
if(b.charAt(0) === "w") {
var toks = a.split("[")
return ["w", b.substr(1), "m", toks[0].substr(1)].join("")
} else {
return ["prod(", a, ",", b, ")"].join("")
}
} else {
return makeProduct(b, a)
}
}
function sign(s) {
if(s & 1 !== 0) {
return "-"
}
return ""
}
function determinant(m) {
if(m.length === 2) {
return [["diff(", makeProduct(m[0][0], m[1][1]), ",", makeProduct(m[1][0], m[0][1]), ")"].join("")]
} else {
var expr = []
for(var i=0; i<m.length; ++i) {
expr.push(["scale(", generateSum(determinant(cofactor(m, i))), ",", sign(i), m[0][i], ")"].join(""))
}
return expr
}
}
function makeSquare(d, n) {
var terms = []
for(var i=0; i<n-2; ++i) {
terms.push(["prod(m", d, "[", i, "],m", d, "[", i, "])"].join(""))
}
return generateSum(terms)
}
function orientation(n) {
var pos = []
var neg = []
var m = matrix(n)
for(var i=0; i<n; ++i) {
m[0][i] = "1"
m[n-1][i] = "w"+i
}
for(var i=0; i<n; ++i) {
if((i&1)===0) {
pos.push.apply(pos,determinant(cofactor(m, i)))
} else {
neg.push.apply(neg,determinant(cofactor(m, i)))
}
}
var posExpr = generateSum(pos)
var negExpr = generateSum(neg)
var funcName = "exactInSphere" + n
var funcArgs = []
for(var i=0; i<n; ++i) {
funcArgs.push("m" + i)
}
var code = ["function ", funcName, "(", funcArgs.join(), "){"]
for(var i=0; i<n; ++i) {
code.push("var w",i,"=",makeSquare(i,n),";")
for(var j=0; j<n; ++j) {
if(j !== i) {
code.push("var w",i,"m",j,"=scale(w",i,",m",j,"[0]);")
}
}
}
code.push("var p=", posExpr, ",n=", negExpr, ",d=diff(p,n);return d[d.length-1];}return ", funcName)
var proc = new Function("sum", "diff", "prod", "scale", code.join(""))
return proc(robustSum, robustDiff, twoProduct, robustScale)
}
function inSphere0() { return 0 }
function inSphere1() { return 0 }
function inSphere2() { return 0 }
var CACHED = [
inSphere0,
inSphere1,
inSphere2
]
function slowInSphere(args) {
var proc = CACHED[args.length]
if(!proc) {
proc = CACHED[args.length] = orientation(args.length)
}
return proc.apply(undefined, args)
}
function generateInSphereTest() {
while(CACHED.length <= NUM_EXPAND) {
CACHED.push(orientation(CACHED.length))
}
var args = []
var procArgs = ["slow"]
for(var i=0; i<=NUM_EXPAND; ++i) {
args.push("a" + i)
procArgs.push("o" + i)
}
var code = [
"function testInSphere(", args.join(), "){switch(arguments.length){case 0:case 1:return 0;"
]
for(var i=2; i<=NUM_EXPAND; ++i) {
code.push("case ", i, ":return o", i, "(", args.slice(0, i).join(), ");")
}
code.push("}var s=new Array(arguments.length);for(var i=0;i<arguments.length;++i){s[i]=arguments[i]};return slow(s);}return testInSphere")
procArgs.push(code.join(""))
var proc = Function.apply(undefined, procArgs)
module.exports = proc.apply(undefined, [slowInSphere].concat(CACHED))
for(var i=0; i<=NUM_EXPAND; ++i) {
module.exports[i] = CACHED[i]
}
}
generateInSphereTest()
},{"robust-scale":485,"robust-subtract":487,"robust-sum":488,"two-product":517}],482:[function(_dereq_,module,exports){
"use strict"
var determinant = _dereq_("robust-determinant")
var NUM_EXPAND = 6
function generateSolver(n) {
var funcName = "robustLinearSolve" + n + "d"
var code = ["function ", funcName, "(A,b){return ["]
for(var i=0; i<n; ++i) {
code.push("det([")
for(var j=0; j<n; ++j) {
if(j > 0) {
code.push(",")
}
code.push("[")
for(var k=0; k<n; ++k) {
if(k > 0) {
code.push(",")
}
if(k === i) {
code.push("+b[", j, "]")
} else {
code.push("+A[", j, "][", k, "]")
}
}
code.push("]")
}
code.push("]),")
}
code.push("det(A)]}return ", funcName)
var proc = new Function("det", code.join(""))
if(n < 6) {
return proc(determinant[n])
}
return proc(determinant)
}
function robustLinearSolve0d() {
return [ 0 ]
}
function robustLinearSolve1d(A, b) {
return [ [ b[0] ], [ A[0][0] ] ]
}
var CACHE = [
robustLinearSolve0d,
robustLinearSolve1d
]
function generateDispatch() {
while(CACHE.length < NUM_EXPAND) {
CACHE.push(generateSolver(CACHE.length))
}
var procArgs = []
var code = ["function dispatchLinearSolve(A,b){switch(A.length){"]
for(var i=0; i<NUM_EXPAND; ++i) {
procArgs.push("s" + i)
code.push("case ", i, ":return s", i, "(A,b);")
}
code.push("}var s=CACHE[A.length];if(!s)s=CACHE[A.length]=g(A.length);return s(A,b)}return dispatchLinearSolve")
procArgs.push("CACHE", "g", code.join(""))
var proc = Function.apply(undefined, procArgs)
module.exports = proc.apply(undefined, CACHE.concat([CACHE, generateSolver]))
for(var i=0; i<NUM_EXPAND; ++i) {
module.exports[i] = CACHE[i]
}
}
generateDispatch()
},{"robust-determinant":479}],483:[function(_dereq_,module,exports){
"use strict"
var twoProduct = _dereq_("two-product")
var robustSum = _dereq_("robust-sum")
var robustScale = _dereq_("robust-scale")
var robustSubtract = _dereq_("robust-subtract")
var NUM_EXPAND = 5
var EPSILON = 1.1102230246251565e-16
var ERRBOUND3 = (3.0 + 16.0 * EPSILON) * EPSILON
var ERRBOUND4 = (7.0 + 56.0 * EPSILON) * EPSILON
function cofactor(m, c) {
var result = new Array(m.length-1)
for(var i=1; i<m.length; ++i) {
var r = result[i-1] = new Array(m.length-1)
for(var j=0,k=0; j<m.length; ++j) {
if(j === c) {
continue
}
r[k++] = m[i][j]
}
}
return result
}
function matrix(n) {
var result = new Array(n)
for(var i=0; i<n; ++i) {
result[i] = new Array(n)
for(var j=0; j<n; ++j) {
result[i][j] = ["m", j, "[", (n-i-1), "]"].join("")
}
}
return result
}
function sign(n) {
if(n & 1) {
return "-"
}
return ""
}
function generateSum(expr) {
if(expr.length === 1) {
return expr[0]
} else if(expr.length === 2) {
return ["sum(", expr[0], ",", expr[1], ")"].join("")
} else {
var m = expr.length>>1
return ["sum(", generateSum(expr.slice(0, m)), ",", generateSum(expr.slice(m)), ")"].join("")
}
}
function determinant(m) {
if(m.length === 2) {
return [["sum(prod(", m[0][0], ",", m[1][1], "),prod(-", m[0][1], ",", m[1][0], "))"].join("")]
} else {
var expr = []
for(var i=0; i<m.length; ++i) {
expr.push(["scale(", generateSum(determinant(cofactor(m, i))), ",", sign(i), m[0][i], ")"].join(""))
}
return expr
}
}
function orientation(n) {
var pos = []
var neg = []
var m = matrix(n)
var args = []
for(var i=0; i<n; ++i) {
if((i&1)===0) {
pos.push.apply(pos, determinant(cofactor(m, i)))
} else {
neg.push.apply(neg, determinant(cofactor(m, i)))
}
args.push("m" + i)
}
var posExpr = generateSum(pos)
var negExpr = generateSum(neg)
var funcName = "orientation" + n + "Exact"
var code = ["function ", funcName, "(", args.join(), "){var p=", posExpr, ",n=", negExpr, ",d=sub(p,n);\
return d[d.length-1];};return ", funcName].join("")
var proc = new Function("sum", "prod", "scale", "sub", code)
return proc(robustSum, twoProduct, robustScale, robustSubtract)
}
var orientation3Exact = orientation(3)
var orientation4Exact = orientation(4)
var CACHED = [
function orientation0() { return 0 },
function orientation1() { return 0 },
function orientation2(a, b) {
return b[0] - a[0]
},
function orientation3(a, b, c) {
var l = (a[1] - c[1]) * (b[0] - c[0])
var r = (a[0] - c[0]) * (b[1] - c[1])
var det = l - r
var s
if(l > 0) {
if(r <= 0) {
return det
} else {
s = l + r
}
} else if(l < 0) {
if(r >= 0) {
return det
} else {
s = -(l + r)
}
} else {
return det
}
var tol = ERRBOUND3 * s
if(det >= tol || det <= -tol) {
return det
}
return orientation3Exact(a, b, c)
},
function orientation4(a,b,c,d) {
var adx = a[0] - d[0]
var bdx = b[0] - d[0]
var cdx = c[0] - d[0]
var ady = a[1] - d[1]
var bdy = b[1] - d[1]
var cdy = c[1] - d[1]
var adz = a[2] - d[2]
var bdz = b[2] - d[2]
var cdz = c[2] - d[2]
var bdxcdy = bdx * cdy
var cdxbdy = cdx * bdy
var cdxady = cdx * ady
var adxcdy = adx * cdy
var adxbdy = adx * bdy
var bdxady = bdx * ady
var det = adz * (bdxcdy - cdxbdy)
+ bdz * (cdxady - adxcdy)
+ cdz * (adxbdy - bdxady)
var permanent = (Math.abs(bdxcdy) + Math.abs(cdxbdy)) * Math.abs(adz)
+ (Math.abs(cdxady) + Math.abs(adxcdy)) * Math.abs(bdz)
+ (Math.abs(adxbdy) + Math.abs(bdxady)) * Math.abs(cdz)
var tol = ERRBOUND4 * permanent
if ((det > tol) || (-det > tol)) {
return det
}
return orientation4Exact(a,b,c,d)
}
]
function slowOrient(args) {
var proc = CACHED[args.length]
if(!proc) {
proc = CACHED[args.length] = orientation(args.length)
}
return proc.apply(undefined, args)
}
function generateOrientationProc() {
while(CACHED.length <= NUM_EXPAND) {
CACHED.push(orientation(CACHED.length))
}
var args = []
var procArgs = ["slow"]
for(var i=0; i<=NUM_EXPAND; ++i) {
args.push("a" + i)
procArgs.push("o" + i)
}
var code = [
"function getOrientation(", args.join(), "){switch(arguments.length){case 0:case 1:return 0;"
]
for(var i=2; i<=NUM_EXPAND; ++i) {
code.push("case ", i, ":return o", i, "(", args.slice(0, i).join(), ");")
}
code.push("}var s=new Array(arguments.length);for(var i=0;i<arguments.length;++i){s[i]=arguments[i]};return slow(s);}return getOrientation")
procArgs.push(code.join(""))
var proc = Function.apply(undefined, procArgs)
module.exports = proc.apply(undefined, [slowOrient].concat(CACHED))
for(var i=0; i<=NUM_EXPAND; ++i) {
module.exports[i] = CACHED[i]
}
}
generateOrientationProc()
},{"robust-scale":485,"robust-subtract":487,"robust-sum":488,"two-product":517}],484:[function(_dereq_,module,exports){
"use strict"
var robustSum = _dereq_("robust-sum")
var robustScale = _dereq_("robust-scale")
module.exports = robustProduct
function robustProduct(a, b) {
if(a.length === 1) {
return robustScale(b, a[0])
}
if(b.length === 1) {
return robustScale(a, b[0])
}
if(a.length === 0 || b.length === 0) {
return [0]
}
var r = [0]
if(a.length < b.length) {
for(var i=0; i<a.length; ++i) {
r = robustSum(r, robustScale(b, a[i]))
}
} else {
for(var i=0; i<b.length; ++i) {
r = robustSum(r, robustScale(a, b[i]))
}
}
return r
}
},{"robust-scale":485,"robust-sum":488}],485:[function(_dereq_,module,exports){
"use strict"
var twoProduct = _dereq_("two-product")
var twoSum = _dereq_("two-sum")
module.exports = scaleLinearExpansion
function scaleLinearExpansion(e, scale) {
var n = e.length
if(n === 1) {
var ts = twoProduct(e[0], scale)
if(ts[0]) {
return ts
}
return [ ts[1] ]
}
var g = new Array(2 * n)
var q = [0.1, 0.1]
var t = [0.1, 0.1]
var count = 0
twoProduct(e[0], scale, q)
if(q[0]) {
g[count++] = q[0]
}
for(var i=1; i<n; ++i) {
twoProduct(e[i], scale, t)
var pq = q[1]
twoSum(pq, t[0], q)
if(q[0]) {
g[count++] = q[0]
}
var a = t[1]
var b = q[1]
var x = a + b
var bv = x - a
var y = b - bv
q[1] = x
if(y) {
g[count++] = y
}
}
if(q[1]) {
g[count++] = q[1]
}
if(count === 0) {
g[count++] = 0.0
}
g.length = count
return g
}
},{"two-product":517,"two-sum":518}],486:[function(_dereq_,module,exports){
"use strict"
module.exports = segmentsIntersect
var orient = _dereq_("robust-orientation")[3]
function checkCollinear(a0, a1, b0, b1) {
for(var d=0; d<2; ++d) {
var x0 = a0[d]
var y0 = a1[d]
var l0 = Math.min(x0, y0)
var h0 = Math.max(x0, y0)
var x1 = b0[d]
var y1 = b1[d]
var l1 = Math.min(x1, y1)
var h1 = Math.max(x1, y1)
if(h1 < l0 || h0 < l1) {
return false
}
}
return true
}
function segmentsIntersect(a0, a1, b0, b1) {
var x0 = orient(a0, b0, b1)
var y0 = orient(a1, b0, b1)
if((x0 > 0 && y0 > 0) || (x0 < 0 && y0 < 0)) {
return false
}
var x1 = orient(b0, a0, a1)
var y1 = orient(b1, a0, a1)
if((x1 > 0 && y1 > 0) || (x1 < 0 && y1 < 0)) {
return false
}
//Check for degenerate collinear case
if(x0 === 0 && y0 === 0 && x1 === 0 && y1 === 0) {
return checkCollinear(a0, a1, b0, b1)
}
return true
}
},{"robust-orientation":483}],487:[function(_dereq_,module,exports){
"use strict"
module.exports = robustSubtract
//Easy case: Add two scalars
function scalarScalar(a, b) {
var x = a + b
var bv = x - a
var av = x - bv
var br = b - bv
var ar = a - av
var y = ar + br
if(y) {
return [y, x]
}
return [x]
}
function robustSubtract(e, f) {
var ne = e.length|0
var nf = f.length|0
if(ne === 1 && nf === 1) {
return scalarScalar(e[0], -f[0])
}
var n = ne + nf
var g = new Array(n)
var count = 0
var eptr = 0
var fptr = 0
var abs = Math.abs
var ei = e[eptr]
var ea = abs(ei)
var fi = -f[fptr]
var fa = abs(fi)
var a, b
if(ea < fa) {
b = ei
eptr += 1
if(eptr < ne) {
ei = e[eptr]
ea = abs(ei)
}
} else {
b = fi
fptr += 1
if(fptr < nf) {
fi = -f[fptr]
fa = abs(fi)
}
}
if((eptr < ne && ea < fa) || (fptr >= nf)) {
a = ei
eptr += 1
if(eptr < ne) {
ei = e[eptr]
ea = abs(ei)
}
} else {
a = fi
fptr += 1
if(fptr < nf) {
fi = -f[fptr]
fa = abs(fi)
}
}
var x = a + b
var bv = x - a
var y = b - bv
var q0 = y
var q1 = x
var _x, _bv, _av, _br, _ar
while(eptr < ne && fptr < nf) {
if(ea < fa) {
a = ei
eptr += 1
if(eptr < ne) {
ei = e[eptr]
ea = abs(ei)
}
} else {
a = fi
fptr += 1
if(fptr < nf) {
fi = -f[fptr]
fa = abs(fi)
}
}
b = q0
x = a + b
bv = x - a
y = b - bv
if(y) {
g[count++] = y
}
_x = q1 + x
_bv = _x - q1
_av = _x - _bv
_br = x - _bv
_ar = q1 - _av
q0 = _ar + _br
q1 = _x
}
while(eptr < ne) {
a = ei
b = q0
x = a + b
bv = x - a
y = b - bv
if(y) {
g[count++] = y
}
_x = q1 + x
_bv = _x - q1
_av = _x - _bv
_br = x - _bv
_ar = q1 - _av
q0 = _ar + _br
q1 = _x
eptr += 1
if(eptr < ne) {
ei = e[eptr]
}
}
while(fptr < nf) {
a = fi
b = q0
x = a + b
bv = x - a
y = b - bv
if(y) {
g[count++] = y
}
_x = q1 + x
_bv = _x - q1
_av = _x - _bv
_br = x - _bv
_ar = q1 - _av
q0 = _ar + _br
q1 = _x
fptr += 1
if(fptr < nf) {
fi = -f[fptr]
}
}
if(q0) {
g[count++] = q0
}
if(q1) {
g[count++] = q1
}
if(!count) {
g[count++] = 0.0
}
g.length = count
return g
}
},{}],488:[function(_dereq_,module,exports){
"use strict"
module.exports = linearExpansionSum
//Easy case: Add two scalars
function scalarScalar(a, b) {
var x = a + b
var bv = x - a
var av = x - bv
var br = b - bv
var ar = a - av
var y = ar + br
if(y) {
return [y, x]
}
return [x]
}
function linearExpansionSum(e, f) {
var ne = e.length|0
var nf = f.length|0
if(ne === 1 && nf === 1) {
return scalarScalar(e[0], f[0])
}
var n = ne + nf
var g = new Array(n)
var count = 0
var eptr = 0
var fptr = 0
var abs = Math.abs
var ei = e[eptr]
var ea = abs(ei)
var fi = f[fptr]
var fa = abs(fi)
var a, b
if(ea < fa) {
b = ei
eptr += 1
if(eptr < ne) {
ei = e[eptr]
ea = abs(ei)
}
} else {
b = fi
fptr += 1
if(fptr < nf) {
fi = f[fptr]
fa = abs(fi)
}
}
if((eptr < ne && ea < fa) || (fptr >= nf)) {
a = ei
eptr += 1
if(eptr < ne) {
ei = e[eptr]
ea = abs(ei)
}
} else {
a = fi
fptr += 1
if(fptr < nf) {
fi = f[fptr]
fa = abs(fi)
}
}
var x = a + b
var bv = x - a
var y = b - bv
var q0 = y
var q1 = x
var _x, _bv, _av, _br, _ar
while(eptr < ne && fptr < nf) {
if(ea < fa) {
a = ei
eptr += 1
if(eptr < ne) {
ei = e[eptr]
ea = abs(ei)
}
} else {
a = fi
fptr += 1
if(fptr < nf) {
fi = f[fptr]
fa = abs(fi)
}
}
b = q0
x = a + b
bv = x - a
y = b - bv
if(y) {
g[count++] = y
}
_x = q1 + x
_bv = _x - q1
_av = _x - _bv
_br = x - _bv
_ar = q1 - _av
q0 = _ar + _br
q1 = _x
}
while(eptr < ne) {
a = ei
b = q0
x = a + b
bv = x - a
y = b - bv
if(y) {
g[count++] = y
}
_x = q1 + x
_bv = _x - q1
_av = _x - _bv
_br = x - _bv
_ar = q1 - _av
q0 = _ar + _br
q1 = _x
eptr += 1
if(eptr < ne) {
ei = e[eptr]
}
}
while(fptr < nf) {
a = fi
b = q0
x = a + b
bv = x - a
y = b - bv
if(y) {
g[count++] = y
}
_x = q1 + x
_bv = _x - q1
_av = _x - _bv
_br = x - _bv
_ar = q1 - _av
q0 = _ar + _br
q1 = _x
fptr += 1
if(fptr < nf) {
fi = f[fptr]
}
}
if(q0) {
g[count++] = q0
}
if(q1) {
g[count++] = q1
}
if(!count) {
g[count++] = 0.0
}
g.length = count
return g
}
},{}],489:[function(_dereq_,module,exports){
"use strict"
module.exports = function signum(x) {
if(x < 0) { return -1 }
if(x > 0) { return 1 }
return 0.0
}
},{}],490:[function(_dereq_,module,exports){
'use strict'
module.exports = boundary
var bnd = _dereq_('boundary-cells')
var reduce = _dereq_('reduce-simplicial-complex')
function boundary(cells) {
return reduce(bnd(cells))
}
},{"boundary-cells":82,"reduce-simplicial-complex":469}],491:[function(_dereq_,module,exports){
'use strict'
module.exports = extractContour
var ndarray = _dereq_('ndarray')
var pool = _dereq_('typedarray-pool')
var ndsort = _dereq_('ndarray-sort')
var contourAlgorithm = _dereq_('./lib/codegen')
function getDimension(cells) {
var numCells = cells.length
var d = 0
for(var i=0; i<numCells; ++i) {
d = Math.max(d, cells[i].length)|0
}
return d-1
}
function getSigns(values, level) {
var numVerts = values.length
var vertexSigns = pool.mallocUint8(numVerts)
for(var i=0; i<numVerts; ++i) {
vertexSigns[i] = (values[i] < level)|0
}
return vertexSigns
}
function getEdges(cells, d) {
var numCells = cells.length
var maxEdges = ((d * (d+1)/2) * numCells)|0
var edges = pool.mallocUint32(maxEdges*2)
var ePtr = 0
for(var i=0; i<numCells; ++i) {
var c = cells[i]
var d = c.length
for(var j=0; j<d; ++j) {
for(var k=0; k<j; ++k) {
var a = c[k]
var b = c[j]
edges[ePtr++] = Math.min(a,b)|0
edges[ePtr++] = Math.max(a,b)|0
}
}
}
var nedges = (ePtr/2)|0
ndsort(ndarray(edges, [nedges,2]))
var ptr = 2
for(var i=2; i<ePtr; i+=2) {
if(edges[i-2] === edges[i] &&
edges[i-1] === edges[i+1]) {
continue
}
edges[ptr++] = edges[i]
edges[ptr++] = edges[i+1]
}
return ndarray(edges, [(ptr/2)|0, 2])
}
function getCrossingWeights(edges, values, signs, level) {
var edata = edges.data
var numEdges = edges.shape[0]
var weights = pool.mallocDouble(numEdges)
var ptr = 0
for(var i=0; i<numEdges; ++i) {
var a = edata[2*i]
var b = edata[2*i+1]
if(signs[a] === signs[b]) {
continue
}
var va = values[a]
var vb = values[b]
edata[2*ptr] = a
edata[2*ptr+1] = b
weights[ptr++] = (vb - level) / (vb - va)
}
edges.shape[0] = ptr
return ndarray(weights, [ptr])
}
function getCascade(edges, numVerts) {
var result = pool.mallocInt32(numVerts*2)
var numEdges = edges.shape[0]
var edata = edges.data
result[0] = 0
var lastV = 0
for(var i=0; i<numEdges; ++i) {
var a = edata[2*i]
if(a !== lastV) {
result[2*lastV+1] = i
while(++lastV < a) {
result[2*lastV] = i
result[2*lastV+1] = i
}
result[2*lastV] = i
}
}
result[2*lastV+1] = numEdges
while(++lastV < numVerts) {
result[2*lastV] = result[2*lastV+1] = numEdges
}
return result
}
function unpackEdges(edges) {
var ne = edges.shape[0]|0
var edata = edges.data
var result = new Array(ne)
for(var i=0; i<ne; ++i) {
result[i] = [edata[2*i], edata[2*i+1]]
}
return result
}
function extractContour(cells, values, level, d) {
level = level||0.0
//If user didn't specify `d`, use brute force scan
if(typeof d === 'undefined') {
d = getDimension(cells)
}
//Count number of cells
var numCells = cells.length
if(numCells === 0 || d < 1) {
return {
cells: [],
vertexIds: [],
vertexWeights: []
}
}
//Read in vertex signs
var vertexSigns = getSigns(values, +level)
//First get 1-skeleton, find all crossings
var edges = getEdges(cells, d)
var weights = getCrossingWeights(edges, values, vertexSigns, +level)
//Build vertex cascade to speed up binary search
var vcascade = getCascade(edges, values.length|0)
//Then construct cells
var faces = contourAlgorithm(d)(cells, edges.data, vcascade, vertexSigns)
//Unpack data into pretty format
var uedges = unpackEdges(edges)
var uweights = [].slice.call(weights.data, 0, weights.shape[0])
//Release data
pool.free(vertexSigns)
pool.free(edges.data)
pool.free(weights.data)
pool.free(vcascade)
return {
cells: faces,
vertexIds: uedges,
vertexWeights: uweights
}
}
},{"./lib/codegen":492,"ndarray":430,"ndarray-sort":428,"typedarray-pool":519}],492:[function(_dereq_,module,exports){
'use strict'
module.exports = getPolygonizer
var pool = _dereq_('typedarray-pool')
var createMSTable = _dereq_('marching-simplex-table')
var CACHE = {}
function createCellPolygonizer(d) {
var maxCellSize = 0
var tables = new Array(d+1)
tables[0] = [ [] ]
for(var i=1; i<=d; ++i) {
var tab = tables[i] = createMSTable(i)
for(var j=0; j<tab.length; ++j) {
maxCellSize = Math.max(maxCellSize, tab[i].length)
}
}
var code = [
'function B(C,E,i,j){',
'var a=Math.min(i,j)|0,b=Math.max(i,j)|0,l=C[2*a],h=C[2*a+1];',
'while(l<h){',
'var m=(l+h)>>1,v=E[2*m+1];',
'if(v===b){return m}',
'if(b<v){h=m}else{l=m+1}',
'}',
'return l;',
'};',
'function getContour', d, 'd(F,E,C,S){',
'var n=F.length,R=[];',
'for(var i=0;i<n;++i){var c=F[i],l=c.length;'
]
function generateCase(facets) {
if(facets.length <= 0) {
return
}
code.push('R.push(')
for(var i=0; i<facets.length; ++i) {
var facet = facets[i]
if(i > 0) {
code.push(',')
}
code.push('[')
for(var j=0; j<facet.length; ++j) {
var f = facet[j]
if(j > 0) {
code.push(',')
}
code.push('B(C,E,c[', f[0], '],c[', f[1], '])')
}
code.push(']')
}
code.push(');')
}
for(var i=d+1; i>1; --i) {
if(i < d+1) {
code.push('else ')
}
code.push('if(l===', i, '){')
//Generate mask
var maskStr = []
for(var j=0; j<i; ++j) {
maskStr.push('(S[c['+j+']]<<'+j+')')
}
//Perform table look up
code.push('var M=', maskStr.join('+'),
';if(M===0||M===', (1<<i)-1,
'){continue}switch(M){')
var tab = tables[i-1]
for(var j=0; j<tab.length; ++j) {
code.push('case ', j, ':')
generateCase(tab[j])
code.push('break;')
}
code.push('}}')
}
code.push('}return R;};return getContour', d, 'd')
var proc = new Function('pool', code.join(''))
return proc(pool)
}
function getPolygonizer(d) {
var alg = CACHE[d]
if(!alg) {
alg = CACHE[d] = createCellPolygonizer(d)
}
return alg
}
},{"marching-simplex-table":407,"typedarray-pool":519}],493:[function(_dereq_,module,exports){
"use strict"; "use restrict";
var bits = _dereq_("bit-twiddle")
, UnionFind = _dereq_("union-find")
//Returns the dimension of a cell complex
function dimension(cells) {
var d = 0
, max = Math.max
for(var i=0, il=cells.length; i<il; ++i) {
d = max(d, cells[i].length)
}
return d-1
}
exports.dimension = dimension
//Counts the number of vertices in faces
function countVertices(cells) {
var vc = -1
, max = Math.max
for(var i=0, il=cells.length; i<il; ++i) {
var c = cells[i]
for(var j=0, jl=c.length; j<jl; ++j) {
vc = max(vc, c[j])
}
}
return vc+1
}
exports.countVertices = countVertices
//Returns a deep copy of cells
function cloneCells(cells) {
var ncells = new Array(cells.length)
for(var i=0, il=cells.length; i<il; ++i) {
ncells[i] = cells[i].slice(0)
}
return ncells
}
exports.cloneCells = cloneCells
//Ranks a pair of cells up to permutation
function compareCells(a, b) {
var n = a.length
, t = a.length - b.length
, min = Math.min
if(t) {
return t
}
switch(n) {
case 0:
return 0;
case 1:
return a[0] - b[0];
case 2:
var d = a[0]+a[1]-b[0]-b[1]
if(d) {
return d
}
return min(a[0],a[1]) - min(b[0],b[1])
case 3:
var l1 = a[0]+a[1]
, m1 = b[0]+b[1]
d = l1+a[2] - (m1+b[2])
if(d) {
return d
}
var l0 = min(a[0], a[1])
, m0 = min(b[0], b[1])
, d = min(l0, a[2]) - min(m0, b[2])
if(d) {
return d
}
return min(l0+a[2], l1) - min(m0+b[2], m1)
//TODO: Maybe optimize n=4 as well?
default:
var as = a.slice(0)
as.sort()
var bs = b.slice(0)
bs.sort()
for(var i=0; i<n; ++i) {
t = as[i] - bs[i]
if(t) {
return t
}
}
return 0
}
}
exports.compareCells = compareCells
function compareZipped(a, b) {
return compareCells(a[0], b[0])
}
//Puts a cell complex into normal order for the purposes of findCell queries
function normalize(cells, attr) {
if(attr) {
var len = cells.length
var zipped = new Array(len)
for(var i=0; i<len; ++i) {
zipped[i] = [cells[i], attr[i]]
}
zipped.sort(compareZipped)
for(var i=0; i<len; ++i) {
cells[i] = zipped[i][0]
attr[i] = zipped[i][1]
}
return cells
} else {
cells.sort(compareCells)
return cells
}
}
exports.normalize = normalize
//Removes all duplicate cells in the complex
function unique(cells) {
if(cells.length === 0) {
return []
}
var ptr = 1
, len = cells.length
for(var i=1; i<len; ++i) {
var a = cells[i]
if(compareCells(a, cells[i-1])) {
if(i === ptr) {
ptr++
continue
}
cells[ptr++] = a
}
}
cells.length = ptr
return cells
}
exports.unique = unique;
//Finds a cell in a normalized cell complex
function findCell(cells, c) {
var lo = 0
, hi = cells.length-1
, r = -1
while (lo <= hi) {
var mid = (lo + hi) >> 1
, s = compareCells(cells[mid], c)
if(s <= 0) {
if(s === 0) {
r = mid
}
lo = mid + 1
} else if(s > 0) {
hi = mid - 1
}
}
return r
}
exports.findCell = findCell;
//Builds an index for an n-cell. This is more general than dual, but less efficient
function incidence(from_cells, to_cells) {
var index = new Array(from_cells.length)
for(var i=0, il=index.length; i<il; ++i) {
index[i] = []
}
var b = []
for(var i=0, n=to_cells.length; i<n; ++i) {
var c = to_cells[i]
var cl = c.length
for(var k=1, kn=(1<<cl); k<kn; ++k) {
b.length = bits.popCount(k)
var l = 0
for(var j=0; j<cl; ++j) {
if(k & (1<<j)) {
b[l++] = c[j]
}
}
var idx=findCell(from_cells, b)
if(idx < 0) {
continue
}
while(true) {
index[idx++].push(i)
if(idx >= from_cells.length || compareCells(from_cells[idx], b) !== 0) {
break
}
}
}
}
return index
}
exports.incidence = incidence
//Computes the dual of the mesh. This is basically an optimized version of buildIndex for the situation where from_cells is just the list of vertices
function dual(cells, vertex_count) {
if(!vertex_count) {
return incidence(unique(skeleton(cells, 0)), cells, 0)
}
var res = new Array(vertex_count)
for(var i=0; i<vertex_count; ++i) {
res[i] = []
}
for(var i=0, len=cells.length; i<len; ++i) {
var c = cells[i]
for(var j=0, cl=c.length; j<cl; ++j) {
res[c[j]].push(i)
}
}
return res
}
exports.dual = dual
//Enumerates all cells in the complex
function explode(cells) {
var result = []
for(var i=0, il=cells.length; i<il; ++i) {
var c = cells[i]
, cl = c.length|0
for(var j=1, jl=(1<<cl); j<jl; ++j) {
var b = []
for(var k=0; k<cl; ++k) {
if((j >>> k) & 1) {
b.push(c[k])
}
}
result.push(b)
}
}
return normalize(result)
}
exports.explode = explode
//Enumerates all of the n-cells of a cell complex
function skeleton(cells, n) {
if(n < 0) {
return []
}
var result = []
, k0 = (1<<(n+1))-1
for(var i=0; i<cells.length; ++i) {
var c = cells[i]
for(var k=k0; k<(1<<c.length); k=bits.nextCombination(k)) {
var b = new Array(n+1)
, l = 0
for(var j=0; j<c.length; ++j) {
if(k & (1<<j)) {
b[l++] = c[j]
}
}
result.push(b)
}
}
return normalize(result)
}
exports.skeleton = skeleton;
//Computes the boundary of all cells, does not remove duplicates
function boundary(cells) {
var res = []
for(var i=0,il=cells.length; i<il; ++i) {
var c = cells[i]
for(var j=0,cl=c.length; j<cl; ++j) {
var b = new Array(c.length-1)
for(var k=0, l=0; k<cl; ++k) {
if(k !== j) {
b[l++] = c[k]
}
}
res.push(b)
}
}
return normalize(res)
}
exports.boundary = boundary;
//Computes connected components for a dense cell complex
function connectedComponents_dense(cells, vertex_count) {
var labels = new UnionFind(vertex_count)
for(var i=0; i<cells.length; ++i) {
var c = cells[i]
for(var j=0; j<c.length; ++j) {
for(var k=j+1; k<c.length; ++k) {
labels.link(c[j], c[k])
}
}
}
var components = []
, component_labels = labels.ranks
for(var i=0; i<component_labels.length; ++i) {
component_labels[i] = -1
}
for(var i=0; i<cells.length; ++i) {
var l = labels.find(cells[i][0])
if(component_labels[l] < 0) {
component_labels[l] = components.length
components.push([cells[i].slice(0)])
} else {
components[component_labels[l]].push(cells[i].slice(0))
}
}
return components
}
//Computes connected components for a sparse graph
function connectedComponents_sparse(cells) {
var vertices = unique(normalize(skeleton(cells, 0)))
, labels = new UnionFind(vertices.length)
for(var i=0; i<cells.length; ++i) {
var c = cells[i]
for(var j=0; j<c.length; ++j) {
var vj = findCell(vertices, [c[j]])
for(var k=j+1; k<c.length; ++k) {
labels.link(vj, findCell(vertices, [c[k]]))
}
}
}
var components = []
, component_labels = labels.ranks
for(var i=0; i<component_labels.length; ++i) {
component_labels[i] = -1
}
for(var i=0; i<cells.length; ++i) {
var l = labels.find(findCell(vertices, [cells[i][0]]));
if(component_labels[l] < 0) {
component_labels[l] = components.length
components.push([cells[i].slice(0)])
} else {
components[component_labels[l]].push(cells[i].slice(0))
}
}
return components
}
//Computes connected components for a cell complex
function connectedComponents(cells, vertex_count) {
if(vertex_count) {
return connectedComponents_dense(cells, vertex_count)
}
return connectedComponents_sparse(cells)
}
exports.connectedComponents = connectedComponents
},{"bit-twiddle":79,"union-find":520}],494:[function(_dereq_,module,exports){
arguments[4][79][0].apply(exports,arguments)
},{"dup":79}],495:[function(_dereq_,module,exports){
arguments[4][493][0].apply(exports,arguments)
},{"bit-twiddle":494,"dup":493,"union-find":496}],496:[function(_dereq_,module,exports){
"use strict"; "use restrict";
module.exports = UnionFind;
function UnionFind(count) {
this.roots = new Array(count);
this.ranks = new Array(count);
for(var i=0; i<count; ++i) {
this.roots[i] = i;
this.ranks[i] = 0;
}
}
UnionFind.prototype.length = function() {
return this.roots.length;
}
UnionFind.prototype.makeSet = function() {
var n = this.roots.length;
this.roots.push(n);
this.ranks.push(0);
return n;
}
UnionFind.prototype.find = function(x) {
var roots = this.roots;
while(roots[x] !== x) {
var y = roots[x];
roots[x] = roots[y];
x = y;
}
return x;
}
UnionFind.prototype.link = function(x, y) {
var xr = this.find(x)
, yr = this.find(y);
if(xr === yr) {
return;
}
var ranks = this.ranks
, roots = this.roots
, xd = ranks[xr]
, yd = ranks[yr];
if(xd < yd) {
roots[xr] = yr;
} else if(yd < xd) {
roots[yr] = xr;
} else {
roots[yr] = xr;
++ranks[xr];
}
}
},{}],497:[function(_dereq_,module,exports){
"use strict"
module.exports = simplifyPolygon
var orient = _dereq_("robust-orientation")
var sc = _dereq_("simplicial-complex")
function errorWeight(base, a, b) {
var area = Math.abs(orient(base, a, b))
var perim = Math.sqrt(Math.pow(a[0] - b[0], 2) + Math.pow(a[1]-b[1], 2))
return area / perim
}
function simplifyPolygon(cells, positions, minArea) {
var n = positions.length
var nc = cells.length
var inv = new Array(n)
var outv = new Array(n)
var weights = new Array(n)
var dead = new Array(n)
//Initialize tables
for(var i=0; i<n; ++i) {
inv[i] = outv[i] = -1
weights[i] = Infinity
dead[i] = false
}
//Compute neighbors
for(var i=0; i<nc; ++i) {
var c = cells[i]
if(c.length !== 2) {
throw new Error("Input must be a graph")
}
var s = c[1]
var t = c[0]
if(outv[t] !== -1) {
outv[t] = -2
} else {
outv[t] = s
}
if(inv[s] !== -1) {
inv[s] = -2
} else {
inv[s] = t
}
}
//Updates the weight for vertex i
function computeWeight(i) {
if(dead[i]) {
return Infinity
}
//TODO: Check that the line segment doesn't cross once simplified
var s = inv[i]
var t = outv[i]
if((s<0) || (t<0)) {
return Infinity
} else {
return errorWeight(positions[i], positions[s], positions[t])
}
}
//Swaps two nodes on the heap (i,j) are the index of the nodes
function heapSwap(i,j) {
var a = heap[i]
var b = heap[j]
heap[i] = b
heap[j] = a
index[a] = j
index[b] = i
}
//Returns the weight of node i on the heap
function heapWeight(i) {
return weights[heap[i]]
}
function heapParent(i) {
if(i & 1) {
return (i - 1) >> 1
}
return (i >> 1) - 1
}
//Bubble element i down the heap
function heapDown(i) {
var w = heapWeight(i)
while(true) {
var tw = w
var left = 2*i + 1
var right = 2*(i + 1)
var next = i
if(left < heapCount) {
var lw = heapWeight(left)
if(lw < tw) {
next = left
tw = lw
}
}
if(right < heapCount) {
var rw = heapWeight(right)
if(rw < tw) {
next = right
}
}
if(next === i) {
return i
}
heapSwap(i, next)
i = next
}
}
//Bubbles element i up the heap
function heapUp(i) {
var w = heapWeight(i)
while(i > 0) {
var parent = heapParent(i)
if(parent >= 0) {
var pw = heapWeight(parent)
if(w < pw) {
heapSwap(i, parent)
i = parent
continue
}
}
return i
}
}
//Pop minimum element
function heapPop() {
if(heapCount > 0) {
var head = heap[0]
heapSwap(0, heapCount-1)
heapCount -= 1
heapDown(0)
return head
}
return -1
}
//Update heap item i
function heapUpdate(i, w) {
var a = heap[i]
if(weights[a] === w) {
return i
}
weights[a] = -Infinity
heapUp(i)
heapPop()
weights[a] = w
heapCount += 1
return heapUp(heapCount-1)
}
//Kills a vertex (assume vertex already removed from heap)
function kill(i) {
if(dead[i]) {
return
}
//Kill vertex
dead[i] = true
//Fixup topology
var s = inv[i]
var t = outv[i]
if(inv[t] >= 0) {
inv[t] = s
}
if(outv[s] >= 0) {
outv[s] = t
}
//Update weights on s and t
if(index[s] >= 0) {
heapUpdate(index[s], computeWeight(s))
}
if(index[t] >= 0) {
heapUpdate(index[t], computeWeight(t))
}
}
//Initialize weights and heap
var heap = []
var index = new Array(n)
for(var i=0; i<n; ++i) {
var w = weights[i] = computeWeight(i)
if(w < Infinity) {
index[i] = heap.length
heap.push(i)
} else {
index[i] = -1
}
}
var heapCount = heap.length
for(var i=heapCount>>1; i>=0; --i) {
heapDown(i)
}
//Kill vertices
while(true) {
var hmin = heapPop()
if((hmin < 0) || (weights[hmin] > minArea)) {
break
}
kill(hmin)
}
//Build collapsed vertex table
var npositions = []
for(var i=0; i<n; ++i) {
if(!dead[i]) {
index[i] = npositions.length
npositions.push(positions[i].slice())
}
}
var nv = npositions.length
function tortoiseHare(seq, start) {
if(seq[start] < 0) {
return start
}
var t = start
var h = start
do {
//Walk two steps with h
var nh = seq[h]
if(!dead[h] || nh < 0 || nh === h) {
break
}
h = nh
nh = seq[h]
if(!dead[h] || nh < 0 || nh === h) {
break
}
h = nh
//Walk one step with t
t = seq[t]
} while(t !== h)
//Compress cycles
for(var v=start; v!==h; v = seq[v]) {
seq[v] = h
}
return h
}
var ncells = []
cells.forEach(function(c) {
var tin = tortoiseHare(inv, c[0])
var tout = tortoiseHare(outv, c[1])
if(tin >= 0 && tout >= 0 && tin !== tout) {
var cin = index[tin]
var cout = index[tout]
if(cin !== cout) {
ncells.push([ cin, cout ])
}
}
})
//Normalize result
sc.unique(sc.normalize(ncells))
//Return final list of cells
return {
positions: npositions,
edges: ncells
}
}
},{"robust-orientation":483,"simplicial-complex":495}],498:[function(_dereq_,module,exports){
"use strict"
module.exports = orderSegments
var orient = _dereq_("robust-orientation")
function horizontalOrder(a, b) {
var bl, br
if(b[0][0] < b[1][0]) {
bl = b[0]
br = b[1]
} else if(b[0][0] > b[1][0]) {
bl = b[1]
br = b[0]
} else {
var alo = Math.min(a[0][1], a[1][1])
var ahi = Math.max(a[0][1], a[1][1])
var blo = Math.min(b[0][1], b[1][1])
var bhi = Math.max(b[0][1], b[1][1])
if(ahi < blo) {
return ahi - blo
}
if(alo > bhi) {
return alo - bhi
}
return ahi - bhi
}
var al, ar
if(a[0][1] < a[1][1]) {
al = a[0]
ar = a[1]
} else {
al = a[1]
ar = a[0]
}
var d = orient(br, bl, al)
if(d) {
return d
}
d = orient(br, bl, ar)
if(d) {
return d
}
return ar - br
}
function orderSegments(b, a) {
var al, ar
if(a[0][0] < a[1][0]) {
al = a[0]
ar = a[1]
} else if(a[0][0] > a[1][0]) {
al = a[1]
ar = a[0]
} else {
return horizontalOrder(a, b)
}
var bl, br
if(b[0][0] < b[1][0]) {
bl = b[0]
br = b[1]
} else if(b[0][0] > b[1][0]) {
bl = b[1]
br = b[0]
} else {
return -horizontalOrder(b, a)
}
var d1 = orient(al, ar, br)
var d2 = orient(al, ar, bl)
if(d1 < 0) {
if(d2 <= 0) {
return d1
}
} else if(d1 > 0) {
if(d2 >= 0) {
return d1
}
} else if(d2) {
return d2
}
d1 = orient(br, bl, ar)
d2 = orient(br, bl, al)
if(d1 < 0) {
if(d2 <= 0) {
return d1
}
} else if(d1 > 0) {
if(d2 >= 0) {
return d1
}
} else if(d2) {
return d2
}
return ar[0] - br[0]
}
},{"robust-orientation":483}],499:[function(_dereq_,module,exports){
"use strict"
module.exports = createSlabDecomposition
var bounds = _dereq_("binary-search-bounds")
var createRBTree = _dereq_("functional-red-black-tree")
var orient = _dereq_("robust-orientation")
var orderSegments = _dereq_("./lib/order-segments")
function SlabDecomposition(slabs, coordinates, horizontal) {
this.slabs = slabs
this.coordinates = coordinates
this.horizontal = horizontal
}
var proto = SlabDecomposition.prototype
function compareHorizontal(e, y) {
return e.y - y
}
function searchBucket(root, p) {
var lastNode = null
while(root) {
var seg = root.key
var l, r
if(seg[0][0] < seg[1][0]) {
l = seg[0]
r = seg[1]
} else {
l = seg[1]
r = seg[0]
}
var o = orient(l, r, p)
if(o < 0) {
root = root.left
} else if(o > 0) {
if(p[0] !== seg[1][0]) {
lastNode = root
root = root.right
} else {
var val = searchBucket(root.right, p)
if(val) {
return val
}
root = root.left
}
} else {
if(p[0] !== seg[1][0]) {
return root
} else {
var val = searchBucket(root.right, p)
if(val) {
return val
}
root = root.left
}
}
}
return lastNode
}
proto.castUp = function(p) {
var bucket = bounds.le(this.coordinates, p[0])
if(bucket < 0) {
return -1
}
var root = this.slabs[bucket]
var hitNode = searchBucket(this.slabs[bucket], p)
var lastHit = -1
if(hitNode) {
lastHit = hitNode.value
}
//Edge case: need to handle horizontal segments (sucks)
if(this.coordinates[bucket] === p[0]) {
var lastSegment = null
if(hitNode) {
lastSegment = hitNode.key
}
if(bucket > 0) {
var otherHitNode = searchBucket(this.slabs[bucket-1], p)
if(otherHitNode) {
if(lastSegment) {
if(orderSegments(otherHitNode.key, lastSegment) > 0) {
lastSegment = otherHitNode.key
lastHit = otherHitNode.value
}
} else {
lastHit = otherHitNode.value
lastSegment = otherHitNode.key
}
}
}
var horiz = this.horizontal[bucket]
if(horiz.length > 0) {
var hbucket = bounds.ge(horiz, p[1], compareHorizontal)
if(hbucket < horiz.length) {
var e = horiz[hbucket]
if(p[1] === e.y) {
if(e.closed) {
return e.index
} else {
while(hbucket < horiz.length-1 && horiz[hbucket+1].y === p[1]) {
hbucket = hbucket+1
e = horiz[hbucket]
if(e.closed) {
return e.index
}
}
if(e.y === p[1] && !e.start) {
hbucket = hbucket+1
if(hbucket >= horiz.length) {
return lastHit
}
e = horiz[hbucket]
}
}
}
//Check if e is above/below last segment
if(e.start) {
if(lastSegment) {
var o = orient(lastSegment[0], lastSegment[1], [p[0], e.y])
if(lastSegment[0][0] > lastSegment[1][0]) {
o = -o
}
if(o > 0) {
lastHit = e.index
}
} else {
lastHit = e.index
}
} else if(e.y !== p[1]) {
lastHit = e.index
}
}
}
}
return lastHit
}
function IntervalSegment(y, index, start, closed) {
this.y = y
this.index = index
this.start = start
this.closed = closed
}
function Event(x, segment, create, index) {
this.x = x
this.segment = segment
this.create = create
this.index = index
}
function createSlabDecomposition(segments) {
var numSegments = segments.length
var numEvents = 2 * numSegments
var events = new Array(numEvents)
for(var i=0; i<numSegments; ++i) {
var s = segments[i]
var f = s[0][0] < s[1][0]
events[2*i] = new Event(s[0][0], s, f, i)
events[2*i+1] = new Event(s[1][0], s, !f, i)
}
events.sort(function(a,b) {
var d = a.x - b.x
if(d) {
return d
}
d = a.create - b.create
if(d) {
return d
}
return Math.min(a.segment[0][1], a.segment[1][1]) - Math.min(b.segment[0][1], b.segment[1][1])
})
var tree = createRBTree(orderSegments)
var slabs = []
var lines = []
var horizontal = []
var lastX = -Infinity
for(var i=0; i<numEvents; ) {
var x = events[i].x
var horiz = []
while(i < numEvents) {
var e = events[i]
if(e.x !== x) {
break
}
i += 1
if(e.segment[0][0] === e.x && e.segment[1][0] === e.x) {
if(e.create) {
if(e.segment[0][1] < e.segment[1][1]) {
horiz.push(new IntervalSegment(
e.segment[0][1],
e.index,
true,
true))
horiz.push(new IntervalSegment(
e.segment[1][1],
e.index,
false,
false))
} else {
horiz.push(new IntervalSegment(
e.segment[1][1],
e.index,
true,
false))
horiz.push(new IntervalSegment(
e.segment[0][1],
e.index,
false,
true))
}
}
} else {
if(e.create) {
tree = tree.insert(e.segment, e.index)
} else {
tree = tree.remove(e.segment)
}
}
}
slabs.push(tree.root)
lines.push(x)
horizontal.push(horiz)
}
return new SlabDecomposition(slabs, lines, horizontal)
}
},{"./lib/order-segments":498,"binary-search-bounds":78,"functional-red-black-tree":218,"robust-orientation":483}],500:[function(_dereq_,module,exports){
"use strict"
var robustDot = _dereq_("robust-dot-product")
var robustSum = _dereq_("robust-sum")
module.exports = splitPolygon
module.exports.positive = positive
module.exports.negative = negative
function planeT(p, plane) {
var r = robustSum(robustDot(p, plane), [plane[plane.length-1]])
return r[r.length-1]
}
//Can't do this exactly and emit a floating point result
function lerpW(a, wa, b, wb) {
var d = wb - wa
var t = -wa / d
if(t < 0.0) {
t = 0.0
} else if(t > 1.0) {
t = 1.0
}
var ti = 1.0 - t
var n = a.length
var r = new Array(n)
for(var i=0; i<n; ++i) {
r[i] = t * a[i] + ti * b[i]
}
return r
}
function splitPolygon(points, plane) {
var pos = []
var neg = []
var a = planeT(points[points.length-1], plane)
for(var s=points[points.length-1], t=points[0], i=0; i<points.length; ++i, s=t) {
t = points[i]
var b = planeT(t, plane)
if((a < 0 && b > 0) || (a > 0 && b < 0)) {
var p = lerpW(s, b, t, a)
pos.push(p)
neg.push(p.slice())
}
if(b < 0) {
neg.push(t.slice())
} else if(b > 0) {
pos.push(t.slice())
} else {
pos.push(t.slice())
neg.push(t.slice())
}
a = b
}
return { positive: pos, negative: neg }
}
function positive(points, plane) {
var pos = []
var a = planeT(points[points.length-1], plane)
for(var s=points[points.length-1], t=points[0], i=0; i<points.length; ++i, s=t) {
t = points[i]
var b = planeT(t, plane)
if((a < 0 && b > 0) || (a > 0 && b < 0)) {
pos.push(lerpW(s, b, t, a))
}
if(b >= 0) {
pos.push(t.slice())
}
a = b
}
return pos
}
function negative(points, plane) {
var neg = []
var a = planeT(points[points.length-1], plane)
for(var s=points[points.length-1], t=points[0], i=0; i<points.length; ++i, s=t) {
t = points[i]
var b = planeT(t, plane)
if((a < 0 && b > 0) || (a > 0 && b < 0)) {
neg.push(lerpW(s, b, t, a))
}
if(b <= 0) {
neg.push(t.slice())
}
a = b
}
return neg
}
},{"robust-dot-product":480,"robust-sum":488}],501:[function(_dereq_,module,exports){
/* global window, exports, define */
!function() {
'use strict'
var re = {
not_string: /[^s]/,
not_bool: /[^t]/,
not_type: /[^T]/,
not_primitive: /[^v]/,
number: /[diefg]/,
numeric_arg: /[bcdiefguxX]/,
json: /[j]/,
not_json: /[^j]/,
text: /^[^\x25]+/,
modulo: /^\x25{2}/,
placeholder: /^\x25(?:([1-9]\d*)\$|\(([^\)]+)\))?(\+)?(0|'[^$])?(-)?(\d+)?(?:\.(\d+))?([b-gijostTuvxX])/,
key: /^([a-z_][a-z_\d]*)/i,
key_access: /^\.([a-z_][a-z_\d]*)/i,
index_access: /^\[(\d+)\]/,
sign: /^[\+\-]/
}
function sprintf(key) {
// `arguments` is not an array, but should be fine for this call
return sprintf_format(sprintf_parse(key), arguments)
}
function vsprintf(fmt, argv) {
return sprintf.apply(null, [fmt].concat(argv || []))
}
function sprintf_format(parse_tree, argv) {
var cursor = 1, tree_length = parse_tree.length, arg, output = '', i, k, match, pad, pad_character, pad_length, is_positive, sign
for (i = 0; i < tree_length; i++) {
if (typeof parse_tree[i] === 'string') {
output += parse_tree[i]
}
else if (Array.isArray(parse_tree[i])) {
match = parse_tree[i] // convenience purposes only
if (match[2]) { // keyword argument
arg = argv[cursor]
for (k = 0; k < match[2].length; k++) {
if (!arg.hasOwnProperty(match[2][k])) {
throw new Error(sprintf('[sprintf] property "%s" does not exist', match[2][k]))
}
arg = arg[match[2][k]]
}
}
else if (match[1]) { // positional argument (explicit)
arg = argv[match[1]]
}
else { // positional argument (implicit)
arg = argv[cursor++]
}
if (re.not_type.test(match[8]) && re.not_primitive.test(match[8]) && arg instanceof Function) {
arg = arg()
}
if (re.numeric_arg.test(match[8]) && (typeof arg !== 'number' && isNaN(arg))) {
throw new TypeError(sprintf('[sprintf] expecting number but found %T', arg))
}
if (re.number.test(match[8])) {
is_positive = arg >= 0
}
switch (match[8]) {
case 'b':
arg = parseInt(arg, 10).toString(2)
break
case 'c':
arg = String.fromCharCode(parseInt(arg, 10))
break
case 'd':
case 'i':
arg = parseInt(arg, 10)
break
case 'j':
arg = JSON.stringify(arg, null, match[6] ? parseInt(match[6]) : 0)
break
case 'e':
arg = match[7] ? parseFloat(arg).toExponential(match[7]) : parseFloat(arg).toExponential()
break
case 'f':
arg = match[7] ? parseFloat(arg).toFixed(match[7]) : parseFloat(arg)
break
case 'g':
arg = match[7] ? String(Number(arg.toPrecision(match[7]))) : parseFloat(arg)
break
case 'o':
arg = (parseInt(arg, 10) >>> 0).toString(8)
break
case 's':
arg = String(arg)
arg = (match[7] ? arg.substring(0, match[7]) : arg)
break
case 't':
arg = String(!!arg)
arg = (match[7] ? arg.substring(0, match[7]) : arg)
break
case 'T':
arg = Object.prototype.toString.call(arg).slice(8, -1).toLowerCase()
arg = (match[7] ? arg.substring(0, match[7]) : arg)
break
case 'u':
arg = parseInt(arg, 10) >>> 0
break
case 'v':
arg = arg.valueOf()
arg = (match[7] ? arg.substring(0, match[7]) : arg)
break
case 'x':
arg = (parseInt(arg, 10) >>> 0).toString(16)
break
case 'X':
arg = (parseInt(arg, 10) >>> 0).toString(16).toUpperCase()
break
}
if (re.json.test(match[8])) {
output += arg
}
else {
if (re.number.test(match[8]) && (!is_positive || match[3])) {
sign = is_positive ? '+' : '-'
arg = arg.toString().replace(re.sign, '')
}
else {
sign = ''
}
pad_character = match[4] ? match[4] === '0' ? '0' : match[4].charAt(1) : ' '
pad_length = match[6] - (sign + arg).length
pad = match[6] ? (pad_length > 0 ? pad_character.repeat(pad_length) : '') : ''
output += match[5] ? sign + arg + pad : (pad_character === '0' ? sign + pad + arg : pad + sign + arg)
}
}
}
return output
}
var sprintf_cache = Object.create(null)
function sprintf_parse(fmt) {
if (sprintf_cache[fmt]) {
return sprintf_cache[fmt]
}
var _fmt = fmt, match, parse_tree = [], arg_names = 0
while (_fmt) {
if ((match = re.text.exec(_fmt)) !== null) {
parse_tree.push(match[0])
}
else if ((match = re.modulo.exec(_fmt)) !== null) {
parse_tree.push('%')
}
else if ((match = re.placeholder.exec(_fmt)) !== null) {
if (match[2]) {
arg_names |= 1
var field_list = [], replacement_field = match[2], field_match = []
if ((field_match = re.key.exec(replacement_field)) !== null) {
field_list.push(field_match[1])
while ((replacement_field = replacement_field.substring(field_match[0].length)) !== '') {
if ((field_match = re.key_access.exec(replacement_field)) !== null) {
field_list.push(field_match[1])
}
else if ((field_match = re.index_access.exec(replacement_field)) !== null) {
field_list.push(field_match[1])
}
else {
throw new SyntaxError('[sprintf] failed to parse named argument key')
}
}
}
else {
throw new SyntaxError('[sprintf] failed to parse named argument key')
}
match[2] = field_list
}
else {
arg_names |= 2
}
if (arg_names === 3) {
throw new Error('[sprintf] mixing positional and named placeholders is not (yet) supported')
}
parse_tree.push(match)
}
else {
throw new SyntaxError('[sprintf] unexpected placeholder')
}
_fmt = _fmt.substring(match[0].length)
}
return sprintf_cache[fmt] = parse_tree
}
/**
* export to either browser or node.js
*/
/* eslint-disable quote-props */
if (typeof exports !== 'undefined') {
exports['sprintf'] = sprintf
exports['vsprintf'] = vsprintf
}
if (typeof window !== 'undefined') {
window['sprintf'] = sprintf
window['vsprintf'] = vsprintf
if (typeof define === 'function' && define['amd']) {
define(function() {
return {
'sprintf': sprintf,
'vsprintf': vsprintf
}
})
}
}
/* eslint-enable quote-props */
}()
},{}],502:[function(_dereq_,module,exports){
'use strict'
var paren = _dereq_('parenthesis')
module.exports = function splitBy (string, separator, o) {
if (string == null) throw Error('First argument should be a string')
if (separator == null) throw Error('Separator should be a string or a RegExp')
if (!o) o = {}
else if (typeof o === 'string' || Array.isArray(o)) {
o = {ignore: o}
}
if (o.escape == null) o.escape = true
if (o.ignore == null) o.ignore = ['[]', '()', '{}', '<>', '""', "''", '``', '“”', '«»']
else {
if (typeof o.ignore === 'string') {o.ignore = [o.ignore]}
o.ignore = o.ignore.map(function (pair) {
// '"' → '""'
if (pair.length === 1) pair = pair + pair
return pair
})
}
var tokens = paren.parse(string, {flat: true, brackets: o.ignore})
var str = tokens[0]
var parts = str.split(separator)
// join parts separated by escape
if (o.escape) {
var cleanParts = []
for (var i = 0; i < parts.length; i++) {
var prev = parts[i]
var part = parts[i + 1]
if (prev[prev.length - 1] === '\\' && prev[prev.length - 2] !== '\\') {
cleanParts.push(prev + separator + part)
i++
}
else {
cleanParts.push(prev)
}
}
parts = cleanParts
}
// open parens pack & apply unquotes, if any
for (var i = 0; i < parts.length; i++) {
tokens[0] = parts[i]
parts[i] = paren.stringify(tokens, {flat: true})
}
return parts
}
},{"parenthesis":438}],503:[function(_dereq_,module,exports){
"use strict"
module.exports = stronglyConnectedComponents
function stronglyConnectedComponents(adjList) {
var numVertices = adjList.length;
var index = new Array(numVertices)
var lowValue = new Array(numVertices)
var active = new Array(numVertices)
var child = new Array(numVertices)
var scc = new Array(numVertices)
var sccLinks = new Array(numVertices)
//Initialize tables
for(var i=0; i<numVertices; ++i) {
index[i] = -1
lowValue[i] = 0
active[i] = false
child[i] = 0
scc[i] = -1
sccLinks[i] = []
}
// The strongConnect function
var count = 0
var components = []
var sccAdjList = []
function strongConnect(v) {
// To avoid running out of stack space, this emulates the recursive behaviour of the normal algorithm, effectively using T as the call stack.
var S = [v], T = [v]
index[v] = lowValue[v] = count
active[v] = true
count += 1
while(T.length > 0) {
v = T[T.length-1]
var e = adjList[v]
if (child[v] < e.length) { // If we're not done iterating over the children, first try finishing that.
for(var i=child[v]; i<e.length; ++i) { // Start where we left off.
var u = e[i]
if(index[u] < 0) {
index[u] = lowValue[u] = count
active[u] = true
count += 1
S.push(u)
T.push(u)
break // First recurse, then continue here (with the same child!).
// There is a slight change to Tarjan's algorithm here.
// Normally, after having recursed, we set lowValue like we do for an active child (although some variants of the algorithm do it slightly differently).
// Here, we only do so if the child we recursed on is still active.
// The reasoning is that if it is no longer active, it must have had a lowValue equal to its own index, which means that it is necessarily higher than our lowValue.
} else if (active[u]) {
lowValue[v] = Math.min(lowValue[v], lowValue[u])|0
}
if (scc[u] >= 0) {
// Node v is not yet assigned an scc, but once it is that scc can apparently reach scc[u].
sccLinks[v].push(scc[u])
}
}
child[v] = i // Remember where we left off.
} else { // If we're done iterating over the children, check whether we have an scc.
if(lowValue[v] === index[v]) { // TODO: It /might/ be true that T is always a prefix of S (at this point!!!), and if so, this could be used here.
var component = []
var links = [], linkCount = 0
for(var i=S.length-1; i>=0; --i) {
var w = S[i]
active[w] = false
component.push(w)
links.push(sccLinks[w])
linkCount += sccLinks[w].length
scc[w] = components.length
if(w === v) {
S.length = i
break
}
}
components.push(component)
var allLinks = new Array(linkCount)
for(var i=0; i<links.length; i++) {
for(var j=0; j<links[i].length; j++) {
allLinks[--linkCount] = links[i][j]
}
}
sccAdjList.push(allLinks)
}
T.pop() // Now we're finished exploring this particular node (normally corresponds to the return statement)
}
}
}
//Run strong connect starting from each vertex
for(var i=0; i<numVertices; ++i) {
if(index[i] < 0) {
strongConnect(i)
}
}
// Compact sccAdjList
var newE
for(var i=0; i<sccAdjList.length; i++) {
var e = sccAdjList[i]
if (e.length === 0) continue
e.sort(function (a,b) { return a-b; })
newE = [e[0]]
for(var j=1; j<e.length; j++) {
if (e[j] !== e[j-1]) {
newE.push(e[j])
}
}
sccAdjList[i] = newE
}
return {components: components, adjacencyList: sccAdjList}
}
},{}],504:[function(_dereq_,module,exports){
'use strict'
module.exports = toSuperScript
var SUPERSCRIPTS = {
' ': ' ',
'0': '⁰',
'1': '¹',
'2': '²',
'3': '³',
'4': '⁴',
'5': '⁵',
'6': '⁶',
'7': '⁷',
'8': '⁸',
'9': '⁹',
'+': '⁺',
'-': '⁻',
'a': 'ᵃ',
'b': 'ᵇ',
'c': 'ᶜ',
'd': 'ᵈ',
'e': 'ᵉ',
'f': 'ᶠ',
'g': 'ᵍ',
'h': 'ʰ',
'i': 'ⁱ',
'j': 'ʲ',
'k': 'ᵏ',
'l': 'ˡ',
'm': 'ᵐ',
'n': 'ⁿ',
'o': 'ᵒ',
'p': 'ᵖ',
'r': 'ʳ',
's': 'ˢ',
't': 'ᵗ',
'u': 'ᵘ',
'v': 'ᵛ',
'w': 'ʷ',
'x': 'ˣ',
'y': 'ʸ',
'z': 'ᶻ'
}
function toSuperScript(x) {
return x.split('').map(function(c) {
if(c in SUPERSCRIPTS) {
return SUPERSCRIPTS[c]
}
return ''
}).join('')
}
},{}],505:[function(_dereq_,module,exports){
"use strict"
module.exports = surfaceNets
var generateContourExtractor = _dereq_("ndarray-extract-contour")
var triangulateCube = _dereq_("triangulate-hypercube")
var zeroCrossings = _dereq_("zero-crossings")
function buildSurfaceNets(order, dtype) {
var dimension = order.length
var code = ["'use strict';"]
var funcName = "surfaceNets" + order.join("_") + "d" + dtype
//Contour extraction function
code.push(
"var contour=genContour({",
"order:[", order.join(), "],",
"scalarArguments: 3,",
"phase:function phaseFunc(p,a,b,c) { return (p > c)|0 },")
if(dtype === "generic") {
code.push("getters:[0],")
}
//Generate vertex function
var cubeArgs = []
var extraArgs = []
for(var i=0; i<dimension; ++i) {
cubeArgs.push("d" + i)
extraArgs.push("d" + i)
}
for(var i=0; i<(1<<dimension); ++i) {
cubeArgs.push("v" + i)
extraArgs.push("v" + i)
}
for(var i=0; i<(1<<dimension); ++i) {
cubeArgs.push("p" + i)
extraArgs.push("p" + i)
}
cubeArgs.push("a", "b", "c")
extraArgs.push("a", "c")
code.push("vertex:function vertexFunc(", cubeArgs.join(), "){")
//Mask args together
var maskStr = []
for(var i=0; i<(1<<dimension); ++i) {
maskStr.push("(p" + i + "<<" + i + ")")
}
//Generate variables and giganto switch statement
code.push("var m=(", maskStr.join("+"), ")|0;if(m===0||m===", (1<<(1<<dimension))-1, "){return}")
var extraFuncs = []
var currentFunc = []
if(1<<(1<<dimension) <= 128) {
code.push("switch(m){")
currentFunc = code
} else {
code.push("switch(m>>>7){")
}
for(var i=0; i<1<<(1<<dimension); ++i) {
if(1<<(1<<dimension) > 128) {
if((i%128)===0) {
if(extraFuncs.length > 0) {
currentFunc.push("}}")
}
var efName = "vExtra" + extraFuncs.length
code.push("case ", (i>>>7), ":", efName, "(m&0x7f,", extraArgs.join(), ");break;")
currentFunc = [
"function ", efName, "(m,", extraArgs.join(), "){switch(m){"
]
extraFuncs.push(currentFunc)
}
}
currentFunc.push("case ", (i&0x7f), ":")
var crossings = new Array(dimension)
var denoms = new Array(dimension)
var crossingCount = new Array(dimension)
var bias = new Array(dimension)
var totalCrossings = 0
for(var j=0; j<dimension; ++j) {
crossings[j] = []
denoms[j] = []
crossingCount[j] = 0
bias[j] = 0
}
for(var j=0; j<(1<<dimension); ++j) {
for(var k=0; k<dimension; ++k) {
var u = j ^ (1<<k)
if(u > j) {
continue
}
if(!(i&(1<<u)) !== !(i&(1<<j))) {
var sign = 1
if(i&(1<<u)) {
denoms[k].push("v" + u + "-v" + j)
} else {
denoms[k].push("v" + j + "-v" + u)
sign = -sign
}
if(sign < 0) {
crossings[k].push("-v" + j + "-v" + u)
crossingCount[k] += 2
} else {
crossings[k].push("v" + j + "+v" + u)
crossingCount[k] -= 2
}
totalCrossings += 1
for(var l=0; l<dimension; ++l) {
if(l === k) {
continue
}
if(u&(1<<l)) {
bias[l] += 1
} else {
bias[l] -= 1
}
}
}
}
}
var vertexStr = []
for(var k=0; k<dimension; ++k) {
if(crossings[k].length === 0) {
vertexStr.push("d" + k + "-0.5")
} else {
var cStr = ""
if(crossingCount[k] < 0) {
cStr = crossingCount[k] + "*c"
} else if(crossingCount[k] > 0) {
cStr = "+" + crossingCount[k] + "*c"
}
var weight = 0.5 * (crossings[k].length / totalCrossings)
var shift = 0.5 + 0.5 * (bias[k] / totalCrossings)
vertexStr.push("d" + k + "-" + shift + "-" + weight + "*(" + crossings[k].join("+") + cStr + ")/(" + denoms[k].join("+") + ")")
}
}
currentFunc.push("a.push([", vertexStr.join(), "]);",
"break;")
}
code.push("}},")
if(extraFuncs.length > 0) {
currentFunc.push("}}")
}
//Create face function
var faceArgs = []
for(var i=0; i<(1<<(dimension-1)); ++i) {
faceArgs.push("v" + i)
}
faceArgs.push("c0", "c1", "p0", "p1", "a", "b", "c")
code.push("cell:function cellFunc(", faceArgs.join(), "){")
var facets = triangulateCube(dimension-1)
code.push("if(p0){b.push(",
facets.map(function(f) {
return "[" + f.map(function(v) {
return "v" + v
}) + "]"
}).join(), ")}else{b.push(",
facets.map(function(f) {
var e = f.slice()
e.reverse()
return "[" + e.map(function(v) {
return "v" + v
}) + "]"
}).join(),
")}}});function ", funcName, "(array,level){var verts=[],cells=[];contour(array,verts,cells,level);return {positions:verts,cells:cells};} return ", funcName, ";")
for(var i=0; i<extraFuncs.length; ++i) {
code.push(extraFuncs[i].join(""))
}
//Compile and link
var proc = new Function("genContour", code.join(""))
return proc(generateContourExtractor)
}
//1D case: Need to handle specially
function mesh1D(array, level) {
var zc = zeroCrossings(array, level)
var n = zc.length
var npos = new Array(n)
var ncel = new Array(n)
for(var i=0; i<n; ++i) {
npos[i] = [ zc[i] ]
ncel[i] = [ i ]
}
return {
positions: npos,
cells: ncel
}
}
var CACHE = {}
function surfaceNets(array,level) {
if(array.dimension <= 0) {
return { positions: [], cells: [] }
} else if(array.dimension === 1) {
return mesh1D(array, level)
}
var typesig = array.order.join() + "-" + array.dtype
var proc = CACHE[typesig]
var level = (+level) || 0.0
if(!proc) {
proc = CACHE[typesig] = buildSurfaceNets(array.order, array.dtype)
}
return proc(array,level)
}
},{"ndarray-extract-contour":419,"triangulate-hypercube":515,"zero-crossings":548}],506:[function(_dereq_,module,exports){
"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
var _slicedToArray = function () { function sliceIterator(arr, i) { var _arr = []; var _n = true; var _d = false; var _e = undefined; try { for (var _i = arr[Symbol.iterator](), _s; !(_n = (_s = _i.next()).done); _n = true) { _arr.push(_s.value); if (i && _arr.length === i) break; } } catch (err) { _d = true; _e = err; } finally { try { if (!_n && _i["return"]) _i["return"](); } finally { if (_d) throw _e; } } return _arr; } return function (arr, i) { if (Array.isArray(arr)) { return arr; } else if (Symbol.iterator in Object(arr)) { return sliceIterator(arr, i); } else { throw new TypeError("Invalid attempt to destructure non-iterable instance"); } }; }();
var TAU = Math.PI * 2;
var mapToEllipse = function mapToEllipse(_ref, rx, ry, cosphi, sinphi, centerx, centery) {
var x = _ref.x,
y = _ref.y;
x *= rx;
y *= ry;
var xp = cosphi * x - sinphi * y;
var yp = sinphi * x + cosphi * y;
return {
x: xp + centerx,
y: yp + centery
};
};
var approxUnitArc = function approxUnitArc(ang1, ang2) {
// See http://spencermortensen.com/articles/bezier-circle/ for the derivation
// of this constant.
var c = 0.551915024494;
var x1 = Math.cos(ang1);
var y1 = Math.sin(ang1);
var x2 = Math.cos(ang1 + ang2);
var y2 = Math.sin(ang1 + ang2);
return [{
x: x1 - y1 * c,
y: y1 + x1 * c
}, {
x: x2 + y2 * c,
y: y2 - x2 * c
}, {
x: x2,
y: y2
}];
};
var vectorAngle = function vectorAngle(ux, uy, vx, vy) {
var sign = ux * vy - uy * vx < 0 ? -1 : 1;
var umag = Math.sqrt(ux * ux + uy * uy);
var vmag = Math.sqrt(ux * ux + uy * uy);
var dot = ux * vx + uy * vy;
var div = dot / (umag * vmag);
if (div > 1) {
div = 1;
}
if (div < -1) {
div = -1;
}
return sign * Math.acos(div);
};
var getArcCenter = function getArcCenter(px, py, cx, cy, rx, ry, largeArcFlag, sweepFlag, sinphi, cosphi, pxp, pyp) {
var rxsq = Math.pow(rx, 2);
var rysq = Math.pow(ry, 2);
var pxpsq = Math.pow(pxp, 2);
var pypsq = Math.pow(pyp, 2);
var radicant = rxsq * rysq - rxsq * pypsq - rysq * pxpsq;
if (radicant < 0) {
radicant = 0;
}
radicant /= rxsq * pypsq + rysq * pxpsq;
radicant = Math.sqrt(radicant) * (largeArcFlag === sweepFlag ? -1 : 1);
var centerxp = radicant * rx / ry * pyp;
var centeryp = radicant * -ry / rx * pxp;
var centerx = cosphi * centerxp - sinphi * centeryp + (px + cx) / 2;
var centery = sinphi * centerxp + cosphi * centeryp + (py + cy) / 2;
var vx1 = (pxp - centerxp) / rx;
var vy1 = (pyp - centeryp) / ry;
var vx2 = (-pxp - centerxp) / rx;
var vy2 = (-pyp - centeryp) / ry;
var ang1 = vectorAngle(1, 0, vx1, vy1);
var ang2 = vectorAngle(vx1, vy1, vx2, vy2);
if (sweepFlag === 0 && ang2 > 0) {
ang2 -= TAU;
}
if (sweepFlag === 1 && ang2 < 0) {
ang2 += TAU;
}
return [centerx, centery, ang1, ang2];
};
var arcToBezier = function arcToBezier(_ref2) {
var px = _ref2.px,
py = _ref2.py,
cx = _ref2.cx,
cy = _ref2.cy,
rx = _ref2.rx,
ry = _ref2.ry,
_ref2$xAxisRotation = _ref2.xAxisRotation,
xAxisRotation = _ref2$xAxisRotation === undefined ? 0 : _ref2$xAxisRotation,
_ref2$largeArcFlag = _ref2.largeArcFlag,
largeArcFlag = _ref2$largeArcFlag === undefined ? 0 : _ref2$largeArcFlag,
_ref2$sweepFlag = _ref2.sweepFlag,
sweepFlag = _ref2$sweepFlag === undefined ? 0 : _ref2$sweepFlag;
var curves = [];
if (rx === 0 || ry === 0) {
return [];
}
var sinphi = Math.sin(xAxisRotation * TAU / 360);
var cosphi = Math.cos(xAxisRotation * TAU / 360);
var pxp = cosphi * (px - cx) / 2 + sinphi * (py - cy) / 2;
var pyp = -sinphi * (px - cx) / 2 + cosphi * (py - cy) / 2;
if (pxp === 0 && pyp === 0) {
return [];
}
rx = Math.abs(rx);
ry = Math.abs(ry);
var lambda = Math.pow(pxp, 2) / Math.pow(rx, 2) + Math.pow(pyp, 2) / Math.pow(ry, 2);
if (lambda > 1) {
rx *= Math.sqrt(lambda);
ry *= Math.sqrt(lambda);
}
var _getArcCenter = getArcCenter(px, py, cx, cy, rx, ry, largeArcFlag, sweepFlag, sinphi, cosphi, pxp, pyp),
_getArcCenter2 = _slicedToArray(_getArcCenter, 4),
centerx = _getArcCenter2[0],
centery = _getArcCenter2[1],
ang1 = _getArcCenter2[2],
ang2 = _getArcCenter2[3];
var segments = Math.max(Math.ceil(Math.abs(ang2) / (TAU / 4)), 1);
ang2 /= segments;
for (var i = 0; i < segments; i++) {
curves.push(approxUnitArc(ang1, ang2));
ang1 += ang2;
}
return curves.map(function (curve) {
var _mapToEllipse = mapToEllipse(curve[0], rx, ry, cosphi, sinphi, centerx, centery),
x1 = _mapToEllipse.x,
y1 = _mapToEllipse.y;
var _mapToEllipse2 = mapToEllipse(curve[1], rx, ry, cosphi, sinphi, centerx, centery),
x2 = _mapToEllipse2.x,
y2 = _mapToEllipse2.y;
var _mapToEllipse3 = mapToEllipse(curve[2], rx, ry, cosphi, sinphi, centerx, centery),
x = _mapToEllipse3.x,
y = _mapToEllipse3.y;
return { x1: x1, y1: y1, x2: x2, y2: y2, x: x, y: y };
});
};
exports.default = arcToBezier;
module.exports = exports["default"];
},{}],507:[function(_dereq_,module,exports){
'use strict'
var parse = _dereq_('parse-svg-path')
var abs = _dereq_('abs-svg-path')
var normalize = _dereq_('normalize-svg-path')
var isSvgPath = _dereq_('is-svg-path')
var assert = _dereq_('assert')
module.exports = pathBounds
function pathBounds(path) {
// ES6 string tpl call
if (Array.isArray(path) && path.length === 1 && typeof path[0] === 'string') path = path[0]
// svg path string
if (typeof path === 'string') {
assert(isSvgPath(path), 'String is not an SVG path.')
path = parse(path)
}
assert(Array.isArray(path), 'Argument should be a string or an array of path segments.')
path = abs(path)
path = normalize(path)
if (!path.length) return [0, 0, 0, 0]
var bounds = [Infinity, Infinity, -Infinity, -Infinity]
for (var i = 0, l = path.length; i < l; i++) {
var points = path[i].slice(1)
for (var j = 0; j < points.length; j += 2) {
if (points[j + 0] < bounds[0]) bounds[0] = points[j + 0]
if (points[j + 1] < bounds[1]) bounds[1] = points[j + 1]
if (points[j + 0] > bounds[2]) bounds[2] = points[j + 0]
if (points[j + 1] > bounds[3]) bounds[3] = points[j + 1]
}
}
return bounds
}
},{"abs-svg-path":47,"assert":55,"is-svg-path":404,"normalize-svg-path":508,"parse-svg-path":440}],508:[function(_dereq_,module,exports){
'use strict'
module.exports = normalize
var arcToCurve = _dereq_('svg-arc-to-cubic-bezier')
function normalize(path){
// init state
var prev
var result = []
var bezierX = 0
var bezierY = 0
var startX = 0
var startY = 0
var quadX = null
var quadY = null
var x = 0
var y = 0
for (var i = 0, len = path.length; i < len; i++) {
var seg = path[i]
var command = seg[0]
switch (command) {
case 'M':
startX = seg[1]
startY = seg[2]
break
case 'A':
var curves = arcToCurve({
px: x,
py: y,
cx: seg[6],
cy: seg[7],
rx: seg[1],
ry: seg[2],
xAxisRotation: seg[3],
largeArcFlag: seg[4],
sweepFlag: seg[5]
})
// null-curves
if (!curves.length) continue
for (var j = 0, c; j < curves.length; j++) {
c = curves[j]
seg = ['C', c.x1, c.y1, c.x2, c.y2, c.x, c.y]
if (j < curves.length - 1) result.push(seg)
}
break
case 'S':
// default control point
var cx = x
var cy = y
if (prev == 'C' || prev == 'S') {
cx += cx - bezierX // reflect the previous command's control
cy += cy - bezierY // point relative to the current point
}
seg = ['C', cx, cy, seg[1], seg[2], seg[3], seg[4]]
break
case 'T':
if (prev == 'Q' || prev == 'T') {
quadX = x * 2 - quadX // as with 'S' reflect previous control point
quadY = y * 2 - quadY
} else {
quadX = x
quadY = y
}
seg = quadratic(x, y, quadX, quadY, seg[1], seg[2])
break
case 'Q':
quadX = seg[1]
quadY = seg[2]
seg = quadratic(x, y, seg[1], seg[2], seg[3], seg[4])
break
case 'L':
seg = line(x, y, seg[1], seg[2])
break
case 'H':
seg = line(x, y, seg[1], y)
break
case 'V':
seg = line(x, y, x, seg[1])
break
case 'Z':
seg = line(x, y, startX, startY)
break
}
// update state
prev = command
x = seg[seg.length - 2]
y = seg[seg.length - 1]
if (seg.length > 4) {
bezierX = seg[seg.length - 4]
bezierY = seg[seg.length - 3]
} else {
bezierX = x
bezierY = y
}
result.push(seg)
}
return result
}
function line(x1, y1, x2, y2){
return ['C', x1, y1, x2, y2, x2, y2]
}
function quadratic(x1, y1, cx, cy, x2, y2){
return [
'C',
x1/3 + (2/3) * cx,
y1/3 + (2/3) * cy,
x2/3 + (2/3) * cx,
y2/3 + (2/3) * cy,
x2,
y2
]
}
},{"svg-arc-to-cubic-bezier":506}],509:[function(_dereq_,module,exports){
(function (global){
'use strict'
var pathBounds = _dereq_('svg-path-bounds')
var parsePath = _dereq_('parse-svg-path')
var drawPath = _dereq_('draw-svg-path')
var isSvgPath = _dereq_('is-svg-path')
var bitmapSdf = _dereq_('bitmap-sdf')
var canvas = document.createElement('canvas')
var ctx = canvas.getContext('2d')
module.exports = pathSdf
function pathSdf (path, options) {
if (!isSvgPath(path)) throw Error('Argument should be valid svg path string')
if (!options) options = {}
var w, h
if (options.shape) {
w = options.shape[0]
h = options.shape[1]
}
else {
w = canvas.width = options.w || options.width || 200
h = canvas.height = options.h || options.height || 200
}
var size = Math.min(w, h)
var stroke = options.stroke || 0
var viewbox = options.viewbox || options.viewBox || pathBounds(path)
var scale = [w / (viewbox[2] - viewbox[0]), h / (viewbox[3] - viewbox[1])]
var maxScale = Math.min(scale[0] || 0, scale[1] || 0) / 2
//clear ctx
ctx.fillStyle = 'black'
ctx.fillRect(0, 0, w, h)
ctx.fillStyle = 'white'
if (stroke) {
if (typeof stroke != 'number') stroke = 1
if (stroke > 0) {
ctx.strokeStyle = 'white'
}
else {
ctx.strokeStyle = 'black'
}
ctx.lineWidth = Math.abs(stroke)
}
ctx.translate(w * .5, h * .5)
ctx.scale(maxScale, maxScale)
//if canvas svg paths api is available
if (global.Path2D) {
var path2d = new Path2D(path)
ctx.fill(path2d)
stroke && ctx.stroke(path2d)
}
//fallback to bezier-curves
else {
var segments = parsePath(path)
drawPath(ctx, segments)
ctx.fill()
stroke && ctx.stroke()
}
ctx.setTransform(1, 0, 0, 1, 0, 0);
var data = bitmapSdf(ctx, {
cutoff: options.cutoff != null ? options.cutoff : .5,
radius: options.radius != null ? options.radius : size * .5
})
return data
}
}).call(this,typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {})
},{"bitmap-sdf":80,"draw-svg-path":152,"is-svg-path":404,"parse-svg-path":440,"svg-path-bounds":507}],510:[function(_dereq_,module,exports){
(function (process){
'use strict'
module.exports = textGet
var vectorizeText = _dereq_('vectorize-text')
var globals = window || process.global || {}
var __TEXT_CACHE = globals.__TEXT_CACHE || {}
globals.__TEXT_CACHE = {}
function unwrap(mesh) {
var cells = mesh.cells
var positions = mesh.positions
var data = new Float32Array(cells.length * 6)
var ptr = 0
var shapeX = 0
for(var i=0; i<cells.length; ++i) {
var tri = cells[i]
for(var j=0; j<3; ++j) {
var point = positions[tri[j]]
data[ptr++] = point[0]
data[ptr++] = point[1] + 1.4
shapeX = Math.max(point[0], shapeX)
}
}
return {
data: data,
shape: shapeX
}
}
function textGet(font, text, opts) {
var opts = opts || {}
var fontcache = __TEXT_CACHE[font]
if(!fontcache) {
fontcache = __TEXT_CACHE[font] = {
' ': {
data: new Float32Array(0),
shape: 0.2
}
}
}
var mesh = fontcache[text]
if(!mesh) {
if(text.length <= 1 || !/\d/.test(text)) {
mesh = fontcache[text] = unwrap(vectorizeText(text, {
triangles: true,
font: font,
textAlign: opts.textAlign || 'left',
textBaseline: 'alphabetic'
}))
} else {
var parts = text.split(/(\d|\s)/)
var buffer = new Array(parts.length)
var bufferSize = 0
var shapeX = 0
for(var i=0; i<parts.length; ++i) {
buffer[i] = textGet(font, parts[i])
bufferSize += buffer[i].data.length
shapeX += buffer[i].shape
if(i>0) {
shapeX += 0.02
}
}
var data = new Float32Array(bufferSize)
var ptr = 0
var xOffset = -0.5 * shapeX
for(var i=0; i<buffer.length; ++i) {
var bdata = buffer[i].data
for(var j=0; j<bdata.length; j+=2) {
data[ptr++] = bdata[j] + xOffset
data[ptr++] = bdata[j+1]
}
xOffset += buffer[i].shape + 0.02
}
mesh = fontcache[text] = {
data: data,
shape: shapeX
}
}
}
return mesh
}
}).call(this,_dereq_('_process'))
},{"_process":462,"vectorize-text":524}],511:[function(_dereq_,module,exports){
// TinyColor v1.4.1
// https://github.com/bgrins/TinyColor
// Brian Grinstead, MIT License
(function(Math) {
var trimLeft = /^\s+/,
trimRight = /\s+$/,
tinyCounter = 0,
mathRound = Math.round,
mathMin = Math.min,
mathMax = Math.max,
mathRandom = Math.random;
function tinycolor (color, opts) {
color = (color) ? color : '';
opts = opts || { };
// If input is already a tinycolor, return itself
if (color instanceof tinycolor) {
return color;
}
// If we are called as a function, call using new instead
if (!(this instanceof tinycolor)) {
return new tinycolor(color, opts);
}
var rgb = inputToRGB(color);
this._originalInput = color,
this._r = rgb.r,
this._g = rgb.g,
this._b = rgb.b,
this._a = rgb.a,
this._roundA = mathRound(100*this._a) / 100,
this._format = opts.format || rgb.format;
this._gradientType = opts.gradientType;
// Don't let the range of [0,255] come back in [0,1].
// Potentially lose a little bit of precision here, but will fix issues where
// .5 gets interpreted as half of the total, instead of half of 1
// If it was supposed to be 128, this was already taken care of by `inputToRgb`
if (this._r < 1) { this._r = mathRound(this._r); }
if (this._g < 1) { this._g = mathRound(this._g); }
if (this._b < 1) { this._b = mathRound(this._b); }
this._ok = rgb.ok;
this._tc_id = tinyCounter++;
}
tinycolor.prototype = {
isDark: function() {
return this.getBrightness() < 128;
},
isLight: function() {
return !this.isDark();
},
isValid: function() {
return this._ok;
},
getOriginalInput: function() {
return this._originalInput;
},
getFormat: function() {
return this._format;
},
getAlpha: function() {
return this._a;
},
getBrightness: function() {
//http://www.w3.org/TR/AERT#color-contrast
var rgb = this.toRgb();
return (rgb.r * 299 + rgb.g * 587 + rgb.b * 114) / 1000;
},
getLuminance: function() {
//http://www.w3.org/TR/2008/REC-WCAG20-20081211/#relativeluminancedef
var rgb = this.toRgb();
var RsRGB, GsRGB, BsRGB, R, G, B;
RsRGB = rgb.r/255;
GsRGB = rgb.g/255;
BsRGB = rgb.b/255;
if (RsRGB <= 0.03928) {R = RsRGB / 12.92;} else {R = Math.pow(((RsRGB + 0.055) / 1.055), 2.4);}
if (GsRGB <= 0.03928) {G = GsRGB / 12.92;} else {G = Math.pow(((GsRGB + 0.055) / 1.055), 2.4);}
if (BsRGB <= 0.03928) {B = BsRGB / 12.92;} else {B = Math.pow(((BsRGB + 0.055) / 1.055), 2.4);}
return (0.2126 * R) + (0.7152 * G) + (0.0722 * B);
},
setAlpha: function(value) {
this._a = boundAlpha(value);
this._roundA = mathRound(100*this._a) / 100;
return this;
},
toHsv: function() {
var hsv = rgbToHsv(this._r, this._g, this._b);
return { h: hsv.h * 360, s: hsv.s, v: hsv.v, a: this._a };
},
toHsvString: function() {
var hsv = rgbToHsv(this._r, this._g, this._b);
var h = mathRound(hsv.h * 360), s = mathRound(hsv.s * 100), v = mathRound(hsv.v * 100);
return (this._a == 1) ?
"hsv(" + h + ", " + s + "%, " + v + "%)" :
"hsva(" + h + ", " + s + "%, " + v + "%, "+ this._roundA + ")";
},
toHsl: function() {
var hsl = rgbToHsl(this._r, this._g, this._b);
return { h: hsl.h * 360, s: hsl.s, l: hsl.l, a: this._a };
},
toHslString: function() {
var hsl = rgbToHsl(this._r, this._g, this._b);
var h = mathRound(hsl.h * 360), s = mathRound(hsl.s * 100), l = mathRound(hsl.l * 100);
return (this._a == 1) ?
"hsl(" + h + ", " + s + "%, " + l + "%)" :
"hsla(" + h + ", " + s + "%, " + l + "%, "+ this._roundA + ")";
},
toHex: function(allow3Char) {
return rgbToHex(this._r, this._g, this._b, allow3Char);
},
toHexString: function(allow3Char) {
return '#' + this.toHex(allow3Char);
},
toHex8: function(allow4Char) {
return rgbaToHex(this._r, this._g, this._b, this._a, allow4Char);
},
toHex8String: function(allow4Char) {
return '#' + this.toHex8(allow4Char);
},
toRgb: function() {
return { r: mathRound(this._r), g: mathRound(this._g), b: mathRound(this._b), a: this._a };
},
toRgbString: function() {
return (this._a == 1) ?
"rgb(" + mathRound(this._r) + ", " + mathRound(this._g) + ", " + mathRound(this._b) + ")" :
"rgba(" + mathRound(this._r) + ", " + mathRound(this._g) + ", " + mathRound(this._b) + ", " + this._roundA + ")";
},
toPercentageRgb: function() {
return { r: mathRound(bound01(this._r, 255) * 100) + "%", g: mathRound(bound01(this._g, 255) * 100) + "%", b: mathRound(bound01(this._b, 255) * 100) + "%", a: this._a };
},
toPercentageRgbString: function() {
return (this._a == 1) ?
"rgb(" + mathRound(bound01(this._r, 255) * 100) + "%, " + mathRound(bound01(this._g, 255) * 100) + "%, " + mathRound(bound01(this._b, 255) * 100) + "%)" :
"rgba(" + mathRound(bound01(this._r, 255) * 100) + "%, " + mathRound(bound01(this._g, 255) * 100) + "%, " + mathRound(bound01(this._b, 255) * 100) + "%, " + this._roundA + ")";
},
toName: function() {
if (this._a === 0) {
return "transparent";
}
if (this._a < 1) {
return false;
}
return hexNames[rgbToHex(this._r, this._g, this._b, true)] || false;
},
toFilter: function(secondColor) {
var hex8String = '#' + rgbaToArgbHex(this._r, this._g, this._b, this._a);
var secondHex8String = hex8String;
var gradientType = this._gradientType ? "GradientType = 1, " : "";
if (secondColor) {
var s = tinycolor(secondColor);
secondHex8String = '#' + rgbaToArgbHex(s._r, s._g, s._b, s._a);
}
return "progid:DXImageTransform.Microsoft.gradient("+gradientType+"startColorstr="+hex8String+",endColorstr="+secondHex8String+")";
},
toString: function(format) {
var formatSet = !!format;
format = format || this._format;
var formattedString = false;
var hasAlpha = this._a < 1 && this._a >= 0;
var needsAlphaFormat = !formatSet && hasAlpha && (format === "hex" || format === "hex6" || format === "hex3" || format === "hex4" || format === "hex8" || format === "name");
if (needsAlphaFormat) {
// Special case for "transparent", all other non-alpha formats
// will return rgba when there is transparency.
if (format === "name" && this._a === 0) {
return this.toName();
}
return this.toRgbString();
}
if (format === "rgb") {
formattedString = this.toRgbString();
}
if (format === "prgb") {
formattedString = this.toPercentageRgbString();
}
if (format === "hex" || format === "hex6") {
formattedString = this.toHexString();
}
if (format === "hex3") {
formattedString = this.toHexString(true);
}
if (format === "hex4") {
formattedString = this.toHex8String(true);
}
if (format === "hex8") {
formattedString = this.toHex8String();
}
if (format === "name") {
formattedString = this.toName();
}
if (format === "hsl") {
formattedString = this.toHslString();
}
if (format === "hsv") {
formattedString = this.toHsvString();
}
return formattedString || this.toHexString();
},
clone: function() {
return tinycolor(this.toString());
},
_applyModification: function(fn, args) {
var color = fn.apply(null, [this].concat([].slice.call(args)));
this._r = color._r;
this._g = color._g;
this._b = color._b;
this.setAlpha(color._a);
return this;
},
lighten: function() {
return this._applyModification(lighten, arguments);
},
brighten: function() {
return this._applyModification(brighten, arguments);
},
darken: function() {
return this._applyModification(darken, arguments);
},
desaturate: function() {
return this._applyModification(desaturate, arguments);
},
saturate: function() {
return this._applyModification(saturate, arguments);
},
greyscale: function() {
return this._applyModification(greyscale, arguments);
},
spin: function() {
return this._applyModification(spin, arguments);
},
_applyCombination: function(fn, args) {
return fn.apply(null, [this].concat([].slice.call(args)));
},
analogous: function() {
return this._applyCombination(analogous, arguments);
},
complement: function() {
return this._applyCombination(complement, arguments);
},
monochromatic: function() {
return this._applyCombination(monochromatic, arguments);
},
splitcomplement: function() {
return this._applyCombination(splitcomplement, arguments);
},
triad: function() {
return this._applyCombination(triad, arguments);
},
tetrad: function() {
return this._applyCombination(tetrad, arguments);
}
};
// If input is an object, force 1 into "1.0" to handle ratios properly
// String input requires "1.0" as input, so 1 will be treated as 1
tinycolor.fromRatio = function(color, opts) {
if (typeof color == "object") {
var newColor = {};
for (var i in color) {
if (color.hasOwnProperty(i)) {
if (i === "a") {
newColor[i] = color[i];
}
else {
newColor[i] = convertToPercentage(color[i]);
}
}
}
color = newColor;
}
return tinycolor(color, opts);
};
// Given a string or object, convert that input to RGB
// Possible string inputs:
//
// "red"
// "#f00" or "f00"
// "#ff0000" or "ff0000"
// "#ff000000" or "ff000000"
// "rgb 255 0 0" or "rgb (255, 0, 0)"
// "rgb 1.0 0 0" or "rgb (1, 0, 0)"
// "rgba (255, 0, 0, 1)" or "rgba 255, 0, 0, 1"
// "rgba (1.0, 0, 0, 1)" or "rgba 1.0, 0, 0, 1"
// "hsl(0, 100%, 50%)" or "hsl 0 100% 50%"
// "hsla(0, 100%, 50%, 1)" or "hsla 0 100% 50%, 1"
// "hsv(0, 100%, 100%)" or "hsv 0 100% 100%"
//
function inputToRGB(color) {
var rgb = { r: 0, g: 0, b: 0 };
var a = 1;
var s = null;
var v = null;
var l = null;
var ok = false;
var format = false;
if (typeof color == "string") {
color = stringInputToObject(color);
}
if (typeof color == "object") {
if (isValidCSSUnit(color.r) && isValidCSSUnit(color.g) && isValidCSSUnit(color.b)) {
rgb = rgbToRgb(color.r, color.g, color.b);
ok = true;
format = String(color.r).substr(-1) === "%" ? "prgb" : "rgb";
}
else if (isValidCSSUnit(color.h) && isValidCSSUnit(color.s) && isValidCSSUnit(color.v)) {
s = convertToPercentage(color.s);
v = convertToPercentage(color.v);
rgb = hsvToRgb(color.h, s, v);
ok = true;
format = "hsv";
}
else if (isValidCSSUnit(color.h) && isValidCSSUnit(color.s) && isValidCSSUnit(color.l)) {
s = convertToPercentage(color.s);
l = convertToPercentage(color.l);
rgb = hslToRgb(color.h, s, l);
ok = true;
format = "hsl";
}
if (color.hasOwnProperty("a")) {
a = color.a;
}
}
a = boundAlpha(a);
return {
ok: ok,
format: color.format || format,
r: mathMin(255, mathMax(rgb.r, 0)),
g: mathMin(255, mathMax(rgb.g, 0)),
b: mathMin(255, mathMax(rgb.b, 0)),
a: a
};
}
// Conversion Functions
// --------------------
// `rgbToHsl`, `rgbToHsv`, `hslToRgb`, `hsvToRgb` modified from:
// <http://mjijackson.com/2008/02/rgb-to-hsl-and-rgb-to-hsv-color-model-conversion-algorithms-in-javascript>
// `rgbToRgb`
// Handle bounds / percentage checking to conform to CSS color spec
// <http://www.w3.org/TR/css3-color/>
// *Assumes:* r, g, b in [0, 255] or [0, 1]
// *Returns:* { r, g, b } in [0, 255]
function rgbToRgb(r, g, b){
return {
r: bound01(r, 255) * 255,
g: bound01(g, 255) * 255,
b: bound01(b, 255) * 255
};
}
// `rgbToHsl`
// Converts an RGB color value to HSL.
// *Assumes:* r, g, and b are contained in [0, 255] or [0, 1]
// *Returns:* { h, s, l } in [0,1]
function rgbToHsl(r, g, b) {
r = bound01(r, 255);
g = bound01(g, 255);
b = bound01(b, 255);
var max = mathMax(r, g, b), min = mathMin(r, g, b);
var h, s, l = (max + min) / 2;
if(max == min) {
h = s = 0; // achromatic
}
else {
var d = max - min;
s = l > 0.5 ? d / (2 - max - min) : d / (max + min);
switch(max) {
case r: h = (g - b) / d + (g < b ? 6 : 0); break;
case g: h = (b - r) / d + 2; break;
case b: h = (r - g) / d + 4; break;
}
h /= 6;
}
return { h: h, s: s, l: l };
}
// `hslToRgb`
// Converts an HSL color value to RGB.
// *Assumes:* h is contained in [0, 1] or [0, 360] and s and l are contained [0, 1] or [0, 100]
// *Returns:* { r, g, b } in the set [0, 255]
function hslToRgb(h, s, l) {
var r, g, b;
h = bound01(h, 360);
s = bound01(s, 100);
l = bound01(l, 100);
function hue2rgb(p, q, t) {
if(t < 0) t += 1;
if(t > 1) t -= 1;
if(t < 1/6) return p + (q - p) * 6 * t;
if(t < 1/2) return q;
if(t < 2/3) return p + (q - p) * (2/3 - t) * 6;
return p;
}
if(s === 0) {
r = g = b = l; // achromatic
}
else {
var q = l < 0.5 ? l * (1 + s) : l + s - l * s;
var p = 2 * l - q;
r = hue2rgb(p, q, h + 1/3);
g = hue2rgb(p, q, h);
b = hue2rgb(p, q, h - 1/3);
}
return { r: r * 255, g: g * 255, b: b * 255 };
}
// `rgbToHsv`
// Converts an RGB color value to HSV
// *Assumes:* r, g, and b are contained in the set [0, 255] or [0, 1]
// *Returns:* { h, s, v } in [0,1]
function rgbToHsv(r, g, b) {
r = bound01(r, 255);
g = bound01(g, 255);
b = bound01(b, 255);
var max = mathMax(r, g, b), min = mathMin(r, g, b);
var h, s, v = max;
var d = max - min;
s = max === 0 ? 0 : d / max;
if(max == min) {
h = 0; // achromatic
}
else {
switch(max) {
case r: h = (g - b) / d + (g < b ? 6 : 0); break;
case g: h = (b - r) / d + 2; break;
case b: h = (r - g) / d + 4; break;
}
h /= 6;
}
return { h: h, s: s, v: v };
}
// `hsvToRgb`
// Converts an HSV color value to RGB.
// *Assumes:* h is contained in [0, 1] or [0, 360] and s and v are contained in [0, 1] or [0, 100]
// *Returns:* { r, g, b } in the set [0, 255]
function hsvToRgb(h, s, v) {
h = bound01(h, 360) * 6;
s = bound01(s, 100);
v = bound01(v, 100);
var i = Math.floor(h),
f = h - i,
p = v * (1 - s),
q = v * (1 - f * s),
t = v * (1 - (1 - f) * s),
mod = i % 6,
r = [v, q, p, p, t, v][mod],
g = [t, v, v, q, p, p][mod],
b = [p, p, t, v, v, q][mod];
return { r: r * 255, g: g * 255, b: b * 255 };
}
// `rgbToHex`
// Converts an RGB color to hex
// Assumes r, g, and b are contained in the set [0, 255]
// Returns a 3 or 6 character hex
function rgbToHex(r, g, b, allow3Char) {
var hex = [
pad2(mathRound(r).toString(16)),
pad2(mathRound(g).toString(16)),
pad2(mathRound(b).toString(16))
];
// Return a 3 character hex if possible
if (allow3Char && hex[0].charAt(0) == hex[0].charAt(1) && hex[1].charAt(0) == hex[1].charAt(1) && hex[2].charAt(0) == hex[2].charAt(1)) {
return hex[0].charAt(0) + hex[1].charAt(0) + hex[2].charAt(0);
}
return hex.join("");
}
// `rgbaToHex`
// Converts an RGBA color plus alpha transparency to hex
// Assumes r, g, b are contained in the set [0, 255] and
// a in [0, 1]. Returns a 4 or 8 character rgba hex
function rgbaToHex(r, g, b, a, allow4Char) {
var hex = [
pad2(mathRound(r).toString(16)),
pad2(mathRound(g).toString(16)),
pad2(mathRound(b).toString(16)),
pad2(convertDecimalToHex(a))
];
// Return a 4 character hex if possible
if (allow4Char && hex[0].charAt(0) == hex[0].charAt(1) && hex[1].charAt(0) == hex[1].charAt(1) && hex[2].charAt(0) == hex[2].charAt(1) && hex[3].charAt(0) == hex[3].charAt(1)) {
return hex[0].charAt(0) + hex[1].charAt(0) + hex[2].charAt(0) + hex[3].charAt(0);
}
return hex.join("");
}
// `rgbaToArgbHex`
// Converts an RGBA color to an ARGB Hex8 string
// Rarely used, but required for "toFilter()"
function rgbaToArgbHex(r, g, b, a) {
var hex = [
pad2(convertDecimalToHex(a)),
pad2(mathRound(r).toString(16)),
pad2(mathRound(g).toString(16)),
pad2(mathRound(b).toString(16))
];
return hex.join("");
}
// `equals`
// Can be called with any tinycolor input
tinycolor.equals = function (color1, color2) {
if (!color1 || !color2) { return false; }
return tinycolor(color1).toRgbString() == tinycolor(color2).toRgbString();
};
tinycolor.random = function() {
return tinycolor.fromRatio({
r: mathRandom(),
g: mathRandom(),
b: mathRandom()
});
};
// Modification Functions
// ----------------------
// Thanks to less.js for some of the basics here
// <https://github.com/cloudhead/less.js/blob/master/lib/less/functions.js>
function desaturate(color, amount) {
amount = (amount === 0) ? 0 : (amount || 10);
var hsl = tinycolor(color).toHsl();
hsl.s -= amount / 100;
hsl.s = clamp01(hsl.s);
return tinycolor(hsl);
}
function saturate(color, amount) {
amount = (amount === 0) ? 0 : (amount || 10);
var hsl = tinycolor(color).toHsl();
hsl.s += amount / 100;
hsl.s = clamp01(hsl.s);
return tinycolor(hsl);
}
function greyscale(color) {
return tinycolor(color).desaturate(100);
}
function lighten (color, amount) {
amount = (amount === 0) ? 0 : (amount || 10);
var hsl = tinycolor(color).toHsl();
hsl.l += amount / 100;
hsl.l = clamp01(hsl.l);
return tinycolor(hsl);
}
function brighten(color, amount) {
amount = (amount === 0) ? 0 : (amount || 10);
var rgb = tinycolor(color).toRgb();
rgb.r = mathMax(0, mathMin(255, rgb.r - mathRound(255 * - (amount / 100))));
rgb.g = mathMax(0, mathMin(255, rgb.g - mathRound(255 * - (amount / 100))));
rgb.b = mathMax(0, mathMin(255, rgb.b - mathRound(255 * - (amount / 100))));
return tinycolor(rgb);
}
function darken (color, amount) {
amount = (amount === 0) ? 0 : (amount || 10);
var hsl = tinycolor(color).toHsl();
hsl.l -= amount / 100;
hsl.l = clamp01(hsl.l);
return tinycolor(hsl);
}
// Spin takes a positive or negative amount within [-360, 360] indicating the change of hue.
// Values outside of this range will be wrapped into this range.
function spin(color, amount) {
var hsl = tinycolor(color).toHsl();
var hue = (hsl.h + amount) % 360;
hsl.h = hue < 0 ? 360 + hue : hue;
return tinycolor(hsl);
}
// Combination Functions
// ---------------------
// Thanks to jQuery xColor for some of the ideas behind these
// <https://github.com/infusion/jQuery-xcolor/blob/master/jquery.xcolor.js>
function complement(color) {
var hsl = tinycolor(color).toHsl();
hsl.h = (hsl.h + 180) % 360;
return tinycolor(hsl);
}
function triad(color) {
var hsl = tinycolor(color).toHsl();
var h = hsl.h;
return [
tinycolor(color),
tinycolor({ h: (h + 120) % 360, s: hsl.s, l: hsl.l }),
tinycolor({ h: (h + 240) % 360, s: hsl.s, l: hsl.l })
];
}
function tetrad(color) {
var hsl = tinycolor(color).toHsl();
var h = hsl.h;
return [
tinycolor(color),
tinycolor({ h: (h + 90) % 360, s: hsl.s, l: hsl.l }),
tinycolor({ h: (h + 180) % 360, s: hsl.s, l: hsl.l }),
tinycolor({ h: (h + 270) % 360, s: hsl.s, l: hsl.l })
];
}
function splitcomplement(color) {
var hsl = tinycolor(color).toHsl();
var h = hsl.h;
return [
tinycolor(color),
tinycolor({ h: (h + 72) % 360, s: hsl.s, l: hsl.l}),
tinycolor({ h: (h + 216) % 360, s: hsl.s, l: hsl.l})
];
}
function analogous(color, results, slices) {
results = results || 6;
slices = slices || 30;
var hsl = tinycolor(color).toHsl();
var part = 360 / slices;
var ret = [tinycolor(color)];
for (hsl.h = ((hsl.h - (part * results >> 1)) + 720) % 360; --results; ) {
hsl.h = (hsl.h + part) % 360;
ret.push(tinycolor(hsl));
}
return ret;
}
function monochromatic(color, results) {
results = results || 6;
var hsv = tinycolor(color).toHsv();
var h = hsv.h, s = hsv.s, v = hsv.v;
var ret = [];
var modification = 1 / results;
while (results--) {
ret.push(tinycolor({ h: h, s: s, v: v}));
v = (v + modification) % 1;
}
return ret;
}
// Utility Functions
// ---------------------
tinycolor.mix = function(color1, color2, amount) {
amount = (amount === 0) ? 0 : (amount || 50);
var rgb1 = tinycolor(color1).toRgb();
var rgb2 = tinycolor(color2).toRgb();
var p = amount / 100;
var rgba = {
r: ((rgb2.r - rgb1.r) * p) + rgb1.r,
g: ((rgb2.g - rgb1.g) * p) + rgb1.g,
b: ((rgb2.b - rgb1.b) * p) + rgb1.b,
a: ((rgb2.a - rgb1.a) * p) + rgb1.a
};
return tinycolor(rgba);
};
// Readability Functions
// ---------------------
// <http://www.w3.org/TR/2008/REC-WCAG20-20081211/#contrast-ratiodef (WCAG Version 2)
// `contrast`
// Analyze the 2 colors and returns the color contrast defined by (WCAG Version 2)
tinycolor.readability = function(color1, color2) {
var c1 = tinycolor(color1);
var c2 = tinycolor(color2);
return (Math.max(c1.getLuminance(),c2.getLuminance())+0.05) / (Math.min(c1.getLuminance(),c2.getLuminance())+0.05);
};
// `isReadable`
// Ensure that foreground and background color combinations meet WCAG2 guidelines.
// The third argument is an optional Object.
// the 'level' property states 'AA' or 'AAA' - if missing or invalid, it defaults to 'AA';
// the 'size' property states 'large' or 'small' - if missing or invalid, it defaults to 'small'.
// If the entire object is absent, isReadable defaults to {level:"AA",size:"small"}.
// *Example*
// tinycolor.isReadable("#000", "#111") => false
// tinycolor.isReadable("#000", "#111",{level:"AA",size:"large"}) => false
tinycolor.isReadable = function(color1, color2, wcag2) {
var readability = tinycolor.readability(color1, color2);
var wcag2Parms, out;
out = false;
wcag2Parms = validateWCAG2Parms(wcag2);
switch (wcag2Parms.level + wcag2Parms.size) {
case "AAsmall":
case "AAAlarge":
out = readability >= 4.5;
break;
case "AAlarge":
out = readability >= 3;
break;
case "AAAsmall":
out = readability >= 7;
break;
}
return out;
};
// `mostReadable`
// Given a base color and a list of possible foreground or background
// colors for that base, returns the most readable color.
// Optionally returns Black or White if the most readable color is unreadable.
// *Example*
// tinycolor.mostReadable(tinycolor.mostReadable("#123", ["#124", "#125"],{includeFallbackColors:false}).toHexString(); // "#112255"
// tinycolor.mostReadable(tinycolor.mostReadable("#123", ["#124", "#125"],{includeFallbackColors:true}).toHexString(); // "#ffffff"
// tinycolor.mostReadable("#a8015a", ["#faf3f3"],{includeFallbackColors:true,level:"AAA",size:"large"}).toHexString(); // "#faf3f3"
// tinycolor.mostReadable("#a8015a", ["#faf3f3"],{includeFallbackColors:true,level:"AAA",size:"small"}).toHexString(); // "#ffffff"
tinycolor.mostReadable = function(baseColor, colorList, args) {
var bestColor = null;
var bestScore = 0;
var readability;
var includeFallbackColors, level, size ;
args = args || {};
includeFallbackColors = args.includeFallbackColors ;
level = args.level;
size = args.size;
for (var i= 0; i < colorList.length ; i++) {
readability = tinycolor.readability(baseColor, colorList[i]);
if (readability > bestScore) {
bestScore = readability;
bestColor = tinycolor(colorList[i]);
}
}
if (tinycolor.isReadable(baseColor, bestColor, {"level":level,"size":size}) || !includeFallbackColors) {
return bestColor;
}
else {
args.includeFallbackColors=false;
return tinycolor.mostReadable(baseColor,["#fff", "#000"],args);
}
};
// Big List of Colors
// ------------------
// <http://www.w3.org/TR/css3-color/#svg-color>
var names = tinycolor.names = {
aliceblue: "f0f8ff",
antiquewhite: "faebd7",
aqua: "0ff",
aquamarine: "7fffd4",
azure: "f0ffff",
beige: "f5f5dc",
bisque: "ffe4c4",
black: "000",
blanchedalmond: "ffebcd",
blue: "00f",
blueviolet: "8a2be2",
brown: "a52a2a",
burlywood: "deb887",
burntsienna: "ea7e5d",
cadetblue: "5f9ea0",
chartreuse: "7fff00",
chocolate: "d2691e",
coral: "ff7f50",
cornflowerblue: "6495ed",
cornsilk: "fff8dc",
crimson: "dc143c",
cyan: "0ff",
darkblue: "00008b",
darkcyan: "008b8b",
darkgoldenrod: "b8860b",
darkgray: "a9a9a9",
darkgreen: "006400",
darkgrey: "a9a9a9",
darkkhaki: "bdb76b",
darkmagenta: "8b008b",
darkolivegreen: "556b2f",
darkorange: "ff8c00",
darkorchid: "9932cc",
darkred: "8b0000",
darksalmon: "e9967a",
darkseagreen: "8fbc8f",
darkslateblue: "483d8b",
darkslategray: "2f4f4f",
darkslategrey: "2f4f4f",
darkturquoise: "00ced1",
darkviolet: "9400d3",
deeppink: "ff1493",
deepskyblue: "00bfff",
dimgray: "696969",
dimgrey: "696969",
dodgerblue: "1e90ff",
firebrick: "b22222",
floralwhite: "fffaf0",
forestgreen: "228b22",
fuchsia: "f0f",
gainsboro: "dcdcdc",
ghostwhite: "f8f8ff",
gold: "ffd700",
goldenrod: "daa520",
gray: "808080",
green: "008000",
greenyellow: "adff2f",
grey: "808080",
honeydew: "f0fff0",
hotpink: "ff69b4",
indianred: "cd5c5c",
indigo: "4b0082",
ivory: "fffff0",
khaki: "f0e68c",
lavender: "e6e6fa",
lavenderblush: "fff0f5",
lawngreen: "7cfc00",
lemonchiffon: "fffacd",
lightblue: "add8e6",
lightcoral: "f08080",
lightcyan: "e0ffff",
lightgoldenrodyellow: "fafad2",
lightgray: "d3d3d3",
lightgreen: "90ee90",
lightgrey: "d3d3d3",
lightpink: "ffb6c1",
lightsalmon: "ffa07a",
lightseagreen: "20b2aa",
lightskyblue: "87cefa",
lightslategray: "789",
lightslategrey: "789",
lightsteelblue: "b0c4de",
lightyellow: "ffffe0",
lime: "0f0",
limegreen: "32cd32",
linen: "faf0e6",
magenta: "f0f",
maroon: "800000",
mediumaquamarine: "66cdaa",
mediumblue: "0000cd",
mediumorchid: "ba55d3",
mediumpurple: "9370db",
mediumseagreen: "3cb371",
mediumslateblue: "7b68ee",
mediumspringgreen: "00fa9a",
mediumturquoise: "48d1cc",
mediumvioletred: "c71585",
midnightblue: "191970",
mintcream: "f5fffa",
mistyrose: "ffe4e1",
moccasin: "ffe4b5",
navajowhite: "ffdead",
navy: "000080",
oldlace: "fdf5e6",
olive: "808000",
olivedrab: "6b8e23",
orange: "ffa500",
orangered: "ff4500",
orchid: "da70d6",
palegoldenrod: "eee8aa",
palegreen: "98fb98",
paleturquoise: "afeeee",
palevioletred: "db7093",
papayawhip: "ffefd5",
peachpuff: "ffdab9",
peru: "cd853f",
pink: "ffc0cb",
plum: "dda0dd",
powderblue: "b0e0e6",
purple: "800080",
rebeccapurple: "663399",
red: "f00",
rosybrown: "bc8f8f",
royalblue: "4169e1",
saddlebrown: "8b4513",
salmon: "fa8072",
sandybrown: "f4a460",
seagreen: "2e8b57",
seashell: "fff5ee",
sienna: "a0522d",
silver: "c0c0c0",
skyblue: "87ceeb",
slateblue: "6a5acd",
slategray: "708090",
slategrey: "708090",
snow: "fffafa",
springgreen: "00ff7f",
steelblue: "4682b4",
tan: "d2b48c",
teal: "008080",
thistle: "d8bfd8",
tomato: "ff6347",
turquoise: "40e0d0",
violet: "ee82ee",
wheat: "f5deb3",
white: "fff",
whitesmoke: "f5f5f5",
yellow: "ff0",
yellowgreen: "9acd32"
};
// Make it easy to access colors via `hexNames[hex]`
var hexNames = tinycolor.hexNames = flip(names);
// Utilities
// ---------
// `{ 'name1': 'val1' }` becomes `{ 'val1': 'name1' }`
function flip(o) {
var flipped = { };
for (var i in o) {
if (o.hasOwnProperty(i)) {
flipped[o[i]] = i;
}
}
return flipped;
}
// Return a valid alpha value [0,1] with all invalid values being set to 1
function boundAlpha(a) {
a = parseFloat(a);
if (isNaN(a) || a < 0 || a > 1) {
a = 1;
}
return a;
}
// Take input from [0, n] and return it as [0, 1]
function bound01(n, max) {
if (isOnePointZero(n)) { n = "100%"; }
var processPercent = isPercentage(n);
n = mathMin(max, mathMax(0, parseFloat(n)));
// Automatically convert percentage into number
if (processPercent) {
n = parseInt(n * max, 10) / 100;
}
// Handle floating point rounding errors
if ((Math.abs(n - max) < 0.000001)) {
return 1;
}
// Convert into [0, 1] range if it isn't already
return (n % max) / parseFloat(max);
}
// Force a number between 0 and 1
function clamp01(val) {
return mathMin(1, mathMax(0, val));
}
// Parse a base-16 hex value into a base-10 integer
function parseIntFromHex(val) {
return parseInt(val, 16);
}
// Need to handle 1.0 as 100%, since once it is a number, there is no difference between it and 1
// <http://stackoverflow.com/questions/7422072/javascript-how-to-detect-number-as-a-decimal-including-1-0>
function isOnePointZero(n) {
return typeof n == "string" && n.indexOf('.') != -1 && parseFloat(n) === 1;
}
// Check to see if string passed in is a percentage
function isPercentage(n) {
return typeof n === "string" && n.indexOf('%') != -1;
}
// Force a hex value to have 2 characters
function pad2(c) {
return c.length == 1 ? '0' + c : '' + c;
}
// Replace a decimal with it's percentage value
function convertToPercentage(n) {
if (n <= 1) {
n = (n * 100) + "%";
}
return n;
}
// Converts a decimal to a hex value
function convertDecimalToHex(d) {
return Math.round(parseFloat(d) * 255).toString(16);
}
// Converts a hex value to a decimal
function convertHexToDecimal(h) {
return (parseIntFromHex(h) / 255);
}
var matchers = (function() {
// <http://www.w3.org/TR/css3-values/#integers>
var CSS_INTEGER = "[-\\+]?\\d+%?";
// <http://www.w3.org/TR/css3-values/#number-value>
var CSS_NUMBER = "[-\\+]?\\d*\\.\\d+%?";
// Allow positive/negative integer/number. Don't capture the either/or, just the entire outcome.
var CSS_UNIT = "(?:" + CSS_NUMBER + ")|(?:" + CSS_INTEGER + ")";
// Actual matching.
// Parentheses and commas are optional, but not required.
// Whitespace can take the place of commas or opening paren
var PERMISSIVE_MATCH3 = "[\\s|\\(]+(" + CSS_UNIT + ")[,|\\s]+(" + CSS_UNIT + ")[,|\\s]+(" + CSS_UNIT + ")\\s*\\)?";
var PERMISSIVE_MATCH4 = "[\\s|\\(]+(" + CSS_UNIT + ")[,|\\s]+(" + CSS_UNIT + ")[,|\\s]+(" + CSS_UNIT + ")[,|\\s]+(" + CSS_UNIT + ")\\s*\\)?";
return {
CSS_UNIT: new RegExp(CSS_UNIT),
rgb: new RegExp("rgb" + PERMISSIVE_MATCH3),
rgba: new RegExp("rgba" + PERMISSIVE_MATCH4),
hsl: new RegExp("hsl" + PERMISSIVE_MATCH3),
hsla: new RegExp("hsla" + PERMISSIVE_MATCH4),
hsv: new RegExp("hsv" + PERMISSIVE_MATCH3),
hsva: new RegExp("hsva" + PERMISSIVE_MATCH4),
hex3: /^#?([0-9a-fA-F]{1})([0-9a-fA-F]{1})([0-9a-fA-F]{1})$/,
hex6: /^#?([0-9a-fA-F]{2})([0-9a-fA-F]{2})([0-9a-fA-F]{2})$/,
hex4: /^#?([0-9a-fA-F]{1})([0-9a-fA-F]{1})([0-9a-fA-F]{1})([0-9a-fA-F]{1})$/,
hex8: /^#?([0-9a-fA-F]{2})([0-9a-fA-F]{2})([0-9a-fA-F]{2})([0-9a-fA-F]{2})$/
};
})();
// `isValidCSSUnit`
// Take in a single string / number and check to see if it looks like a CSS unit
// (see `matchers` above for definition).
function isValidCSSUnit(color) {
return !!matchers.CSS_UNIT.exec(color);
}
// `stringInputToObject`
// Permissive string parsing. Take in a number of formats, and output an object
// based on detected format. Returns `{ r, g, b }` or `{ h, s, l }` or `{ h, s, v}`
function stringInputToObject(color) {
color = color.replace(trimLeft,'').replace(trimRight, '').toLowerCase();
var named = false;
if (names[color]) {
color = names[color];
named = true;
}
else if (color == 'transparent') {
return { r: 0, g: 0, b: 0, a: 0, format: "name" };
}
// Try to match string input using regular expressions.
// Keep most of the number bounding out of this function - don't worry about [0,1] or [0,100] or [0,360]
// Just return an object and let the conversion functions handle that.
// This way the result will be the same whether the tinycolor is initialized with string or object.
var match;
if ((match = matchers.rgb.exec(color))) {
return { r: match[1], g: match[2], b: match[3] };
}
if ((match = matchers.rgba.exec(color))) {
return { r: match[1], g: match[2], b: match[3], a: match[4] };
}
if ((match = matchers.hsl.exec(color))) {
return { h: match[1], s: match[2], l: match[3] };
}
if ((match = matchers.hsla.exec(color))) {
return { h: match[1], s: match[2], l: match[3], a: match[4] };
}
if ((match = matchers.hsv.exec(color))) {
return { h: match[1], s: match[2], v: match[3] };
}
if ((match = matchers.hsva.exec(color))) {
return { h: match[1], s: match[2], v: match[3], a: match[4] };
}
if ((match = matchers.hex8.exec(color))) {
return {
r: parseIntFromHex(match[1]),
g: parseIntFromHex(match[2]),
b: parseIntFromHex(match[3]),
a: convertHexToDecimal(match[4]),
format: named ? "name" : "hex8"
};
}
if ((match = matchers.hex6.exec(color))) {
return {
r: parseIntFromHex(match[1]),
g: parseIntFromHex(match[2]),
b: parseIntFromHex(match[3]),
format: named ? "name" : "hex"
};
}
if ((match = matchers.hex4.exec(color))) {
return {
r: parseIntFromHex(match[1] + '' + match[1]),
g: parseIntFromHex(match[2] + '' + match[2]),
b: parseIntFromHex(match[3] + '' + match[3]),
a: convertHexToDecimal(match[4] + '' + match[4]),
format: named ? "name" : "hex8"
};
}
if ((match = matchers.hex3.exec(color))) {
return {
r: parseIntFromHex(match[1] + '' + match[1]),
g: parseIntFromHex(match[2] + '' + match[2]),
b: parseIntFromHex(match[3] + '' + match[3]),
format: named ? "name" : "hex"
};
}
return false;
}
function validateWCAG2Parms(parms) {
// return valid WCAG2 parms for isReadable.
// If input parms are invalid, return {"level":"AA", "size":"small"}
var level, size;
parms = parms || {"level":"AA", "size":"small"};
level = (parms.level || "AA").toUpperCase();
size = (parms.size || "small").toLowerCase();
if (level !== "AA" && level !== "AAA") {
level = "AA";
}
if (size !== "small" && size !== "large") {
size = "small";
}
return {"level":level, "size":size};
}
// Node: Export function
if (typeof module !== "undefined" && module.exports) {
module.exports = tinycolor;
}
// AMD/requirejs: Define the module
else if (typeof define === 'function' && define.amd) {
define(function () {return tinycolor;});
}
// Browser: Expose to window
else {
window.tinycolor = tinycolor;
}
})(Math);
},{}],512:[function(_dereq_,module,exports){
/* @module to-float32 */
'use strict'
module.exports = float32
module.exports.float32 =
module.exports.float = float32
module.exports.fract32 =
module.exports.fract = fract32
// return fractional part of float32 array
function fract32 (arr) {
if (typeof arr === 'number') {
return float32(arr - float32(arr))
}
var fract = float32(arr)
for (var i = 0, l = fract.length; i < l; i++) {
fract[i] = arr[i] - fract[i]
}
return fract
}
// make sure data is float32 array
function float32 (arr) {
if (arr instanceof Float32Array) return arr
if (typeof arr === 'number') {
return (new Float32Array([arr]))[0]
}
var float = new Float32Array(arr)
float.set(arr)
return float
}
},{}],513:[function(_dereq_,module,exports){
'use strict'
var parseUnit = _dereq_('parse-unit')
module.exports = toPX
var PIXELS_PER_INCH = 96
function getPropertyInPX(element, prop) {
var parts = parseUnit(getComputedStyle(element).getPropertyValue(prop))
return parts[0] * toPX(parts[1], element)
}
//This brutal hack is needed
function getSizeBrutal(unit, element) {
var testDIV = document.createElement('div')
testDIV.style['font-size'] = '128' + unit
element.appendChild(testDIV)
var size = getPropertyInPX(testDIV, 'font-size') / 128
element.removeChild(testDIV)
return size
}
function toPX(str, element) {
element = element || document.body
str = (str || 'px').trim().toLowerCase()
if(element === window || element === document) {
element = document.body
}
switch(str) {
case '%': //Ambiguous, not sure if we should use width or height
return element.clientHeight / 100.0
case 'ch':
case 'ex':
return getSizeBrutal(str, element)
case 'em':
return getPropertyInPX(element, 'font-size')
case 'rem':
return getPropertyInPX(document.body, 'font-size')
case 'vw':
return window.innerWidth/100
case 'vh':
return window.innerHeight/100
case 'vmin':
return Math.min(window.innerWidth, window.innerHeight) / 100
case 'vmax':
return Math.max(window.innerWidth, window.innerHeight) / 100
case 'in':
return PIXELS_PER_INCH
case 'cm':
return PIXELS_PER_INCH / 2.54
case 'mm':
return PIXELS_PER_INCH / 25.4
case 'pt':
return PIXELS_PER_INCH / 72
case 'pc':
return PIXELS_PER_INCH / 6
}
return 1
}
},{"parse-unit":441}],514:[function(_dereq_,module,exports){
// https://github.com/topojson/topojson-client Version 2.1.0. Copyright 2016 Mike Bostock.
(function (global, factory) {
typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports) :
typeof define === 'function' && define.amd ? define(['exports'], factory) :
(factory((global.topojson = global.topojson || {})));
}(this, (function (exports) { 'use strict';
var identity = function(x) {
return x;
};
var transform = function(topology) {
if ((transform = topology.transform) == null) return identity;
var transform,
x0,
y0,
kx = transform.scale[0],
ky = transform.scale[1],
dx = transform.translate[0],
dy = transform.translate[1];
return function(point, i) {
if (!i) x0 = y0 = 0;
point[0] = (x0 += point[0]) * kx + dx;
point[1] = (y0 += point[1]) * ky + dy;
return point;
};
};
var bbox = function(topology) {
var bbox = topology.bbox;
function bboxPoint(p0) {
p1[0] = p0[0], p1[1] = p0[1], t(p1);
if (p1[0] < x0) x0 = p1[0];
if (p1[0] > x1) x1 = p1[0];
if (p1[1] < y0) y0 = p1[1];
if (p1[1] > y1) y1 = p1[1];
}
function bboxGeometry(o) {
switch (o.type) {
case "GeometryCollection": o.geometries.forEach(bboxGeometry); break;
case "Point": bboxPoint(o.coordinates); break;
case "MultiPoint": o.coordinates.forEach(bboxPoint); break;
}
}
if (!bbox) {
var t = transform(topology), p0, p1 = new Array(2), name,
x0 = Infinity, y0 = x0, x1 = -x0, y1 = -x0;
topology.arcs.forEach(function(arc) {
var i = -1, n = arc.length;
while (++i < n) {
p0 = arc[i], p1[0] = p0[0], p1[1] = p0[1], t(p1, i);
if (p1[0] < x0) x0 = p1[0];
if (p1[0] > x1) x1 = p1[0];
if (p1[1] < y0) y0 = p1[1];
if (p1[1] > y1) y1 = p1[1];
}
});
for (name in topology.objects) {
bboxGeometry(topology.objects[name]);
}
bbox = topology.bbox = [x0, y0, x1, y1];
}
return bbox;
};
var reverse = function(array, n) {
var t, j = array.length, i = j - n;
while (i < --j) t = array[i], array[i++] = array[j], array[j] = t;
};
var feature = function(topology, o) {
return o.type === "GeometryCollection"
? {type: "FeatureCollection", features: o.geometries.map(function(o) { return feature$1(topology, o); })}
: feature$1(topology, o);
};
function feature$1(topology, o) {
var id = o.id,
bbox = o.bbox,
properties = o.properties == null ? {} : o.properties,
geometry = object(topology, o);
return id == null && bbox == null ? {type: "Feature", properties: properties, geometry: geometry}
: bbox == null ? {type: "Feature", id: id, properties: properties, geometry: geometry}
: {type: "Feature", id: id, bbox: bbox, properties: properties, geometry: geometry};
}
function object(topology, o) {
var transformPoint = transform(topology),
arcs = topology.arcs;
function arc(i, points) {
if (points.length) points.pop();
for (var a = arcs[i < 0 ? ~i : i], k = 0, n = a.length; k < n; ++k) {
points.push(transformPoint(a[k].slice(), k));
}
if (i < 0) reverse(points, n);
}
function point(p) {
return transformPoint(p.slice());
}
function line(arcs) {
var points = [];
for (var i = 0, n = arcs.length; i < n; ++i) arc(arcs[i], points);
if (points.length < 2) points.push(points[0].slice());
return points;
}
function ring(arcs) {
var points = line(arcs);
while (points.length < 4) points.push(points[0].slice());
return points;
}
function polygon(arcs) {
return arcs.map(ring);
}
function geometry(o) {
var type = o.type, coordinates;
switch (type) {
case "GeometryCollection": return {type: type, geometries: o.geometries.map(geometry)};
case "Point": coordinates = point(o.coordinates); break;
case "MultiPoint": coordinates = o.coordinates.map(point); break;
case "LineString": coordinates = line(o.arcs); break;
case "MultiLineString": coordinates = o.arcs.map(line); break;
case "Polygon": coordinates = polygon(o.arcs); break;
case "MultiPolygon": coordinates = o.arcs.map(polygon); break;
default: return null;
}
return {type: type, coordinates: coordinates};
}
return geometry(o);
}
var stitch = function(topology, arcs) {
var stitchedArcs = {},
fragmentByStart = {},
fragmentByEnd = {},
fragments = [],
emptyIndex = -1;
// Stitch empty arcs first, since they may be subsumed by other arcs.
arcs.forEach(function(i, j) {
var arc = topology.arcs[i < 0 ? ~i : i], t;
if (arc.length < 3 && !arc[1][0] && !arc[1][1]) {
t = arcs[++emptyIndex], arcs[emptyIndex] = i, arcs[j] = t;
}
});
arcs.forEach(function(i) {
var e = ends(i),
start = e[0],
end = e[1],
f, g;
if (f = fragmentByEnd[start]) {
delete fragmentByEnd[f.end];
f.push(i);
f.end = end;
if (g = fragmentByStart[end]) {
delete fragmentByStart[g.start];
var fg = g === f ? f : f.concat(g);
fragmentByStart[fg.start = f.start] = fragmentByEnd[fg.end = g.end] = fg;
} else {
fragmentByStart[f.start] = fragmentByEnd[f.end] = f;
}
} else if (f = fragmentByStart[end]) {
delete fragmentByStart[f.start];
f.unshift(i);
f.start = start;
if (g = fragmentByEnd[start]) {
delete fragmentByEnd[g.end];
var gf = g === f ? f : g.concat(f);
fragmentByStart[gf.start = g.start] = fragmentByEnd[gf.end = f.end] = gf;
} else {
fragmentByStart[f.start] = fragmentByEnd[f.end] = f;
}
} else {
f = [i];
fragmentByStart[f.start = start] = fragmentByEnd[f.end = end] = f;
}
});
function ends(i) {
var arc = topology.arcs[i < 0 ? ~i : i], p0 = arc[0], p1;
if (topology.transform) p1 = [0, 0], arc.forEach(function(dp) { p1[0] += dp[0], p1[1] += dp[1]; });
else p1 = arc[arc.length - 1];
return i < 0 ? [p1, p0] : [p0, p1];
}
function flush(fragmentByEnd, fragmentByStart) {
for (var k in fragmentByEnd) {
var f = fragmentByEnd[k];
delete fragmentByStart[f.start];
delete f.start;
delete f.end;
f.forEach(function(i) { stitchedArcs[i < 0 ? ~i : i] = 1; });
fragments.push(f);
}
}
flush(fragmentByEnd, fragmentByStart);
flush(fragmentByStart, fragmentByEnd);
arcs.forEach(function(i) { if (!stitchedArcs[i < 0 ? ~i : i]) fragments.push([i]); });
return fragments;
};
var mesh = function(topology) {
return object(topology, meshArcs.apply(this, arguments));
};
function meshArcs(topology, object$$1, filter) {
var arcs, i, n;
if (arguments.length > 1) arcs = extractArcs(topology, object$$1, filter);
else for (i = 0, arcs = new Array(n = topology.arcs.length); i < n; ++i) arcs[i] = i;
return {type: "MultiLineString", arcs: stitch(topology, arcs)};
}
function extractArcs(topology, object$$1, filter) {
var arcs = [],
geomsByArc = [],
geom;
function extract0(i) {
var j = i < 0 ? ~i : i;
(geomsByArc[j] || (geomsByArc[j] = [])).push({i: i, g: geom});
}
function extract1(arcs) {
arcs.forEach(extract0);
}
function extract2(arcs) {
arcs.forEach(extract1);
}
function extract3(arcs) {
arcs.forEach(extract2);
}
function geometry(o) {
switch (geom = o, o.type) {
case "GeometryCollection": o.geometries.forEach(geometry); break;
case "LineString": extract1(o.arcs); break;
case "MultiLineString": case "Polygon": extract2(o.arcs); break;
case "MultiPolygon": extract3(o.arcs); break;
}
}
geometry(object$$1);
geomsByArc.forEach(filter == null
? function(geoms) { arcs.push(geoms[0].i); }
: function(geoms) { if (filter(geoms[0].g, geoms[geoms.length - 1].g)) arcs.push(geoms[0].i); });
return arcs;
}
function planarRingArea(ring) {
var i = -1, n = ring.length, a, b = ring[n - 1], area = 0;
while (++i < n) a = b, b = ring[i], area += a[0] * b[1] - a[1] * b[0];
return Math.abs(area); // Note: doubled area!
}
var merge = function(topology) {
return object(topology, mergeArcs.apply(this, arguments));
};
function mergeArcs(topology, objects) {
var polygonsByArc = {},
polygons = [],
groups = [];
objects.forEach(geometry);
function geometry(o) {
switch (o.type) {
case "GeometryCollection": o.geometries.forEach(geometry); break;
case "Polygon": extract(o.arcs); break;
case "MultiPolygon": o.arcs.forEach(extract); break;
}
}
function extract(polygon) {
polygon.forEach(function(ring) {
ring.forEach(function(arc) {
(polygonsByArc[arc = arc < 0 ? ~arc : arc] || (polygonsByArc[arc] = [])).push(polygon);
});
});
polygons.push(polygon);
}
function area(ring) {
return planarRingArea(object(topology, {type: "Polygon", arcs: [ring]}).coordinates[0]);
}
polygons.forEach(function(polygon) {
if (!polygon._) {
var group = [],
neighbors = [polygon];
polygon._ = 1;
groups.push(group);
while (polygon = neighbors.pop()) {
group.push(polygon);
polygon.forEach(function(ring) {
ring.forEach(function(arc) {
polygonsByArc[arc < 0 ? ~arc : arc].forEach(function(polygon) {
if (!polygon._) {
polygon._ = 1;
neighbors.push(polygon);
}
});
});
});
}
}
});
polygons.forEach(function(polygon) {
delete polygon._;
});
return {
type: "MultiPolygon",
arcs: groups.map(function(polygons) {
var arcs = [], n;
// Extract the exterior (unique) arcs.
polygons.forEach(function(polygon) {
polygon.forEach(function(ring) {
ring.forEach(function(arc) {
if (polygonsByArc[arc < 0 ? ~arc : arc].length < 2) {
arcs.push(arc);
}
});
});
});
// Stitch the arcs into one or more rings.
arcs = stitch(topology, arcs);
// If more than one ring is returned,
// at most one of these rings can be the exterior;
// choose the one with the greatest absolute area.
if ((n = arcs.length) > 1) {
for (var i = 1, k = area(arcs[0]), ki, t; i < n; ++i) {
if ((ki = area(arcs[i])) > k) {
t = arcs[0], arcs[0] = arcs[i], arcs[i] = t, k = ki;
}
}
}
return arcs;
})
};
}
var bisect = function(a, x) {
var lo = 0, hi = a.length;
while (lo < hi) {
var mid = lo + hi >>> 1;
if (a[mid] < x) lo = mid + 1;
else hi = mid;
}
return lo;
};
var neighbors = function(objects) {
var indexesByArc = {}, // arc index -> array of object indexes
neighbors = objects.map(function() { return []; });
function line(arcs, i) {
arcs.forEach(function(a) {
if (a < 0) a = ~a;
var o = indexesByArc[a];
if (o) o.push(i);
else indexesByArc[a] = [i];
});
}
function polygon(arcs, i) {
arcs.forEach(function(arc) { line(arc, i); });
}
function geometry(o, i) {
if (o.type === "GeometryCollection") o.geometries.forEach(function(o) { geometry(o, i); });
else if (o.type in geometryType) geometryType[o.type](o.arcs, i);
}
var geometryType = {
LineString: line,
MultiLineString: polygon,
Polygon: polygon,
MultiPolygon: function(arcs, i) { arcs.forEach(function(arc) { polygon(arc, i); }); }
};
objects.forEach(geometry);
for (var i in indexesByArc) {
for (var indexes = indexesByArc[i], m = indexes.length, j = 0; j < m; ++j) {
for (var k = j + 1; k < m; ++k) {
var ij = indexes[j], ik = indexes[k], n;
if ((n = neighbors[ij])[i = bisect(n, ik)] !== ik) n.splice(i, 0, ik);
if ((n = neighbors[ik])[i = bisect(n, ij)] !== ij) n.splice(i, 0, ij);
}
}
}
return neighbors;
};
var quantize = function(topology, n) {
if (!((n = Math.floor(n)) >= 2)) throw new Error("n must be ≥2");
if (topology.transform) throw new Error("already quantized");
var bb = bbox(topology), name,
dx = bb[0], kx = (bb[2] - dx) / (n - 1) || 1,
dy = bb[1], ky = (bb[3] - dy) / (n - 1) || 1;
function quantizePoint(p) {
p[0] = Math.round((p[0] - dx) / kx);
p[1] = Math.round((p[1] - dy) / ky);
}
function quantizeGeometry(o) {
switch (o.type) {
case "GeometryCollection": o.geometries.forEach(quantizeGeometry); break;
case "Point": quantizePoint(o.coordinates); break;
case "MultiPoint": o.coordinates.forEach(quantizePoint); break;
}
}
topology.arcs.forEach(function(arc) {
var i = 1,
j = 1,
n = arc.length,
pi = arc[0],
x0 = pi[0] = Math.round((pi[0] - dx) / kx),
y0 = pi[1] = Math.round((pi[1] - dy) / ky),
pj,
x1,
y1;
for (; i < n; ++i) {
pi = arc[i];
x1 = Math.round((pi[0] - dx) / kx);
y1 = Math.round((pi[1] - dy) / ky);
if (x1 !== x0 || y1 !== y0) {
pj = arc[j++];
pj[0] = x1 - x0, x0 = x1;
pj[1] = y1 - y0, y0 = y1;
}
}
if (j < 2) {
pj = arc[j++];
pj[0] = 0;
pj[1] = 0;
}
arc.length = j;
});
for (name in topology.objects) {
quantizeGeometry(topology.objects[name]);
}
topology.transform = {
scale: [kx, ky],
translate: [dx, dy]
};
return topology;
};
var untransform = function(topology) {
if ((transform = topology.transform) == null) return identity;
var transform,
x0,
y0,
kx = transform.scale[0],
ky = transform.scale[1],
dx = transform.translate[0],
dy = transform.translate[1];
return function(point, i) {
if (!i) x0 = y0 = 0;
var x1 = Math.round((point[0] - dx) / kx),
y1 = Math.round((point[1] - dy) / ky);
point[0] = x1 - x0, x0 = x1;
point[1] = y1 - y0, y0 = y1;
return point;
};
};
exports.bbox = bbox;
exports.feature = feature;
exports.mesh = mesh;
exports.meshArcs = meshArcs;
exports.merge = merge;
exports.mergeArcs = mergeArcs;
exports.neighbors = neighbors;
exports.quantize = quantize;
exports.transform = transform;
exports.untransform = untransform;
Object.defineProperty(exports, '__esModule', { value: true });
})));
},{}],515:[function(_dereq_,module,exports){
"use strict"
module.exports = triangulateCube
var perm = _dereq_("permutation-rank")
var sgn = _dereq_("permutation-parity")
var gamma = _dereq_("gamma")
function triangulateCube(dimension) {
if(dimension < 0) {
return [ ]
}
if(dimension === 0) {
return [ [0] ]
}
var dfactorial = Math.round(gamma(dimension+1))|0
var result = []
for(var i=0; i<dfactorial; ++i) {
var p = perm.unrank(dimension, i)
var cell = [ 0 ]
var v = 0
for(var j=0; j<p.length; ++j) {
v += (1<<p[j])
cell.push(v)
}
if(sgn(p) < 1) {
cell[0] = v
cell[dimension] = 0
}
result.push(cell)
}
return result
}
},{"gamma":219,"permutation-parity":443,"permutation-rank":444}],516:[function(_dereq_,module,exports){
'use strict'
module.exports = createTurntableController
var filterVector = _dereq_('filtered-vector')
var invert44 = _dereq_('gl-mat4/invert')
var rotateM = _dereq_('gl-mat4/rotate')
var cross = _dereq_('gl-vec3/cross')
var normalize3 = _dereq_('gl-vec3/normalize')
var dot3 = _dereq_('gl-vec3/dot')
function len3(x, y, z) {
return Math.sqrt(Math.pow(x, 2) + Math.pow(y, 2) + Math.pow(z, 2))
}
function clamp1(x) {
return Math.min(1.0, Math.max(-1.0, x))
}
function findOrthoPair(v) {
var vx = Math.abs(v[0])
var vy = Math.abs(v[1])
var vz = Math.abs(v[2])
var u = [0,0,0]
if(vx > Math.max(vy, vz)) {
u[2] = 1
} else if(vy > Math.max(vx, vz)) {
u[0] = 1
} else {
u[1] = 1
}
var vv = 0
var uv = 0
for(var i=0; i<3; ++i ) {
vv += v[i] * v[i]
uv += u[i] * v[i]
}
for(var i=0; i<3; ++i) {
u[i] -= (uv / vv) * v[i]
}
normalize3(u, u)
return u
}
function TurntableController(zoomMin, zoomMax, center, up, right, radius, theta, phi) {
this.center = filterVector(center)
this.up = filterVector(up)
this.right = filterVector(right)
this.radius = filterVector([radius])
this.angle = filterVector([theta, phi])
this.angle.bounds = [[-Infinity,-Math.PI/2], [Infinity,Math.PI/2]]
this.setDistanceLimits(zoomMin, zoomMax)
this.computedCenter = this.center.curve(0)
this.computedUp = this.up.curve(0)
this.computedRight = this.right.curve(0)
this.computedRadius = this.radius.curve(0)
this.computedAngle = this.angle.curve(0)
this.computedToward = [0,0,0]
this.computedEye = [0,0,0]
this.computedMatrix = new Array(16)
for(var i=0; i<16; ++i) {
this.computedMatrix[i] = 0.5
}
this.recalcMatrix(0)
}
var proto = TurntableController.prototype
proto.setDistanceLimits = function(minDist, maxDist) {
if(minDist > 0) {
minDist = Math.log(minDist)
} else {
minDist = -Infinity
}
if(maxDist > 0) {
maxDist = Math.log(maxDist)
} else {
maxDist = Infinity
}
maxDist = Math.max(maxDist, minDist)
this.radius.bounds[0][0] = minDist
this.radius.bounds[1][0] = maxDist
}
proto.getDistanceLimits = function(out) {
var bounds = this.radius.bounds[0]
if(out) {
out[0] = Math.exp(bounds[0][0])
out[1] = Math.exp(bounds[1][0])
return out
}
return [ Math.exp(bounds[0][0]), Math.exp(bounds[1][0]) ]
}
proto.recalcMatrix = function(t) {
//Recompute curves
this.center.curve(t)
this.up.curve(t)
this.right.curve(t)
this.radius.curve(t)
this.angle.curve(t)
//Compute frame for camera matrix
var up = this.computedUp
var right = this.computedRight
var uu = 0.0
var ur = 0.0
for(var i=0; i<3; ++i) {
ur += up[i] * right[i]
uu += up[i] * up[i]
}
var ul = Math.sqrt(uu)
var rr = 0.0
for(var i=0; i<3; ++i) {
right[i] -= up[i] * ur / uu
rr += right[i] * right[i]
up[i] /= ul
}
var rl = Math.sqrt(rr)
for(var i=0; i<3; ++i) {
right[i] /= rl
}
//Compute toward vector
var toward = this.computedToward
cross(toward, up, right)
normalize3(toward, toward)
//Compute angular parameters
var radius = Math.exp(this.computedRadius[0])
var theta = this.computedAngle[0]
var phi = this.computedAngle[1]
var ctheta = Math.cos(theta)
var stheta = Math.sin(theta)
var cphi = Math.cos(phi)
var sphi = Math.sin(phi)
var center = this.computedCenter
var wx = ctheta * cphi
var wy = stheta * cphi
var wz = sphi
var sx = -ctheta * sphi
var sy = -stheta * sphi
var sz = cphi
var eye = this.computedEye
var mat = this.computedMatrix
for(var i=0; i<3; ++i) {
var x = wx * right[i] + wy * toward[i] + wz * up[i]
mat[4*i+1] = sx * right[i] + sy * toward[i] + sz * up[i]
mat[4*i+2] = x
mat[4*i+3] = 0.0
}
var ax = mat[1]
var ay = mat[5]
var az = mat[9]
var bx = mat[2]
var by = mat[6]
var bz = mat[10]
var cx = ay * bz - az * by
var cy = az * bx - ax * bz
var cz = ax * by - ay * bx
var cl = len3(cx, cy, cz)
cx /= cl
cy /= cl
cz /= cl
mat[0] = cx
mat[4] = cy
mat[8] = cz
for(var i=0; i<3; ++i) {
eye[i] = center[i] + mat[2+4*i]*radius
}
for(var i=0; i<3; ++i) {
var rr = 0.0
for(var j=0; j<3; ++j) {
rr += mat[i+4*j] * eye[j]
}
mat[12+i] = -rr
}
mat[15] = 1.0
}
proto.getMatrix = function(t, result) {
this.recalcMatrix(t)
var mat = this.computedMatrix
if(result) {
for(var i=0; i<16; ++i) {
result[i] = mat[i]
}
return result
}
return mat
}
var zAxis = [0,0,0]
proto.rotate = function(t, dtheta, dphi, droll) {
this.angle.move(t, dtheta, dphi)
if(droll) {
this.recalcMatrix(t)
var mat = this.computedMatrix
zAxis[0] = mat[2]
zAxis[1] = mat[6]
zAxis[2] = mat[10]
var up = this.computedUp
var right = this.computedRight
var toward = this.computedToward
for(var i=0; i<3; ++i) {
mat[4*i] = up[i]
mat[4*i+1] = right[i]
mat[4*i+2] = toward[i]
}
rotateM(mat, mat, droll, zAxis)
for(var i=0; i<3; ++i) {
up[i] = mat[4*i]
right[i] = mat[4*i+1]
}
this.up.set(t, up[0], up[1], up[2])
this.right.set(t, right[0], right[1], right[2])
}
}
proto.pan = function(t, dx, dy, dz) {
dx = dx || 0.0
dy = dy || 0.0
dz = dz || 0.0
this.recalcMatrix(t)
var mat = this.computedMatrix
var dist = Math.exp(this.computedRadius[0])
var ux = mat[1]
var uy = mat[5]
var uz = mat[9]
var ul = len3(ux, uy, uz)
ux /= ul
uy /= ul
uz /= ul
var rx = mat[0]
var ry = mat[4]
var rz = mat[8]
var ru = rx * ux + ry * uy + rz * uz
rx -= ux * ru
ry -= uy * ru
rz -= uz * ru
var rl = len3(rx, ry, rz)
rx /= rl
ry /= rl
rz /= rl
var vx = rx * dx + ux * dy
var vy = ry * dx + uy * dy
var vz = rz * dx + uz * dy
this.center.move(t, vx, vy, vz)
//Update z-component of radius
var radius = Math.exp(this.computedRadius[0])
radius = Math.max(1e-4, radius + dz)
this.radius.set(t, Math.log(radius))
}
proto.translate = function(t, dx, dy, dz) {
this.center.move(t,
dx||0.0,
dy||0.0,
dz||0.0)
}
//Recenters the coordinate axes
proto.setMatrix = function(t, mat, axes, noSnap) {
//Get the axes for tare
var ushift = 1
if(typeof axes === 'number') {
ushift = (axes)|0
}
if(ushift < 0 || ushift > 3) {
ushift = 1
}
var vshift = (ushift + 2) % 3
var fshift = (ushift + 1) % 3
//Recompute state for new t value
if(!mat) {
this.recalcMatrix(t)
mat = this.computedMatrix
}
//Get right and up vectors
var ux = mat[ushift]
var uy = mat[ushift+4]
var uz = mat[ushift+8]
if(!noSnap) {
var ul = len3(ux, uy, uz)
ux /= ul
uy /= ul
uz /= ul
} else {
var ax = Math.abs(ux)
var ay = Math.abs(uy)
var az = Math.abs(uz)
var am = Math.max(ax,ay,az)
if(ax === am) {
ux = (ux < 0) ? -1 : 1
uy = uz = 0
} else if(az === am) {
uz = (uz < 0) ? -1 : 1
ux = uy = 0
} else {
uy = (uy < 0) ? -1 : 1
ux = uz = 0
}
}
var rx = mat[vshift]
var ry = mat[vshift+4]
var rz = mat[vshift+8]
var ru = rx * ux + ry * uy + rz * uz
rx -= ux * ru
ry -= uy * ru
rz -= uz * ru
var rl = len3(rx, ry, rz)
rx /= rl
ry /= rl
rz /= rl
var fx = uy * rz - uz * ry
var fy = uz * rx - ux * rz
var fz = ux * ry - uy * rx
var fl = len3(fx, fy, fz)
fx /= fl
fy /= fl
fz /= fl
this.center.jump(t, ex, ey, ez)
this.radius.idle(t)
this.up.jump(t, ux, uy, uz)
this.right.jump(t, rx, ry, rz)
var phi, theta
if(ushift === 2) {
var cx = mat[1]
var cy = mat[5]
var cz = mat[9]
var cr = cx * rx + cy * ry + cz * rz
var cf = cx * fx + cy * fy + cz * fz
if(tu < 0) {
phi = -Math.PI/2
} else {
phi = Math.PI/2
}
theta = Math.atan2(cf, cr)
} else {
var tx = mat[2]
var ty = mat[6]
var tz = mat[10]
var tu = tx * ux + ty * uy + tz * uz
var tr = tx * rx + ty * ry + tz * rz
var tf = tx * fx + ty * fy + tz * fz
phi = Math.asin(clamp1(tu))
theta = Math.atan2(tf, tr)
}
this.angle.jump(t, theta, phi)
this.recalcMatrix(t)
var dx = mat[2]
var dy = mat[6]
var dz = mat[10]
var imat = this.computedMatrix
invert44(imat, mat)
var w = imat[15]
var ex = imat[12] / w
var ey = imat[13] / w
var ez = imat[14] / w
var gs = Math.exp(this.computedRadius[0])
this.center.jump(t, ex-dx*gs, ey-dy*gs, ez-dz*gs)
}
proto.lastT = function() {
return Math.max(
this.center.lastT(),
this.up.lastT(),
this.right.lastT(),
this.radius.lastT(),
this.angle.lastT())
}
proto.idle = function(t) {
this.center.idle(t)
this.up.idle(t)
this.right.idle(t)
this.radius.idle(t)
this.angle.idle(t)
}
proto.flush = function(t) {
this.center.flush(t)
this.up.flush(t)
this.right.flush(t)
this.radius.flush(t)
this.angle.flush(t)
}
proto.setDistance = function(t, d) {
if(d > 0) {
this.radius.set(t, Math.log(d))
}
}
proto.lookAt = function(t, eye, center, up) {
this.recalcMatrix(t)
eye = eye || this.computedEye
center = center || this.computedCenter
up = up || this.computedUp
var ux = up[0]
var uy = up[1]
var uz = up[2]
var ul = len3(ux, uy, uz)
if(ul < 1e-6) {
return
}
ux /= ul
uy /= ul
uz /= ul
var tx = eye[0] - center[0]
var ty = eye[1] - center[1]
var tz = eye[2] - center[2]
var tl = len3(tx, ty, tz)
if(tl < 1e-6) {
return
}
tx /= tl
ty /= tl
tz /= tl
var right = this.computedRight
var rx = right[0]
var ry = right[1]
var rz = right[2]
var ru = ux*rx + uy*ry + uz*rz
rx -= ru * ux
ry -= ru * uy
rz -= ru * uz
var rl = len3(rx, ry, rz)
if(rl < 0.01) {
rx = uy * tz - uz * ty
ry = uz * tx - ux * tz
rz = ux * ty - uy * tx
rl = len3(rx, ry, rz)
if(rl < 1e-6) {
return
}
}
rx /= rl
ry /= rl
rz /= rl
this.up.set(t, ux, uy, uz)
this.right.set(t, rx, ry, rz)
this.center.set(t, center[0], center[1], center[2])
this.radius.set(t, Math.log(tl))
var fx = uy * rz - uz * ry
var fy = uz * rx - ux * rz
var fz = ux * ry - uy * rx
var fl = len3(fx, fy, fz)
fx /= fl
fy /= fl
fz /= fl
var tu = ux*tx + uy*ty + uz*tz
var tr = rx*tx + ry*ty + rz*tz
var tf = fx*tx + fy*ty + fz*tz
var phi = Math.asin(clamp1(tu))
var theta = Math.atan2(tf, tr)
var angleState = this.angle._state
var lastTheta = angleState[angleState.length-1]
var lastPhi = angleState[angleState.length-2]
lastTheta = lastTheta % (2.0 * Math.PI)
var dp = Math.abs(lastTheta + 2.0 * Math.PI - theta)
var d0 = Math.abs(lastTheta - theta)
var dn = Math.abs(lastTheta - 2.0 * Math.PI - theta)
if(dp < d0) {
lastTheta += 2.0 * Math.PI
}
if(dn < d0) {
lastTheta -= 2.0 * Math.PI
}
this.angle.jump(this.angle.lastT(), lastTheta, lastPhi)
this.angle.set(t, theta, phi)
}
function createTurntableController(options) {
options = options || {}
var center = options.center || [0,0,0]
var up = options.up || [0,1,0]
var right = options.right || findOrthoPair(up)
var radius = options.radius || 1.0
var theta = options.theta || 0.0
var phi = options.phi || 0.0
center = [].slice.call(center, 0, 3)
up = [].slice.call(up, 0, 3)
normalize3(up, up)
right = [].slice.call(right, 0, 3)
normalize3(right, right)
if('eye' in options) {
var eye = options.eye
var toward = [
eye[0]-center[0],
eye[1]-center[1],
eye[2]-center[2]
]
cross(right, toward, up)
if(len3(right[0], right[1], right[2]) < 1e-6) {
right = findOrthoPair(up)
} else {
normalize3(right, right)
}
radius = len3(toward[0], toward[1], toward[2])
var ut = dot3(up, toward) / radius
var rt = dot3(right, toward) / radius
phi = Math.acos(ut)
theta = Math.acos(rt)
}
//Use logarithmic coordinates for radius
radius = Math.log(radius)
//Return the controller
return new TurntableController(
options.zoomMin,
options.zoomMax,
center,
up,
right,
radius,
theta,
phi)
}
},{"filtered-vector":214,"gl-mat4/invert":253,"gl-mat4/rotate":257,"gl-vec3/cross":315,"gl-vec3/dot":320,"gl-vec3/normalize":337}],517:[function(_dereq_,module,exports){
"use strict"
module.exports = twoProduct
var SPLITTER = +(Math.pow(2, 27) + 1.0)
function twoProduct(a, b, result) {
var x = a * b
var c = SPLITTER * a
var abig = c - a
var ahi = c - abig
var alo = a - ahi
var d = SPLITTER * b
var bbig = d - b
var bhi = d - bbig
var blo = b - bhi
var err1 = x - (ahi * bhi)
var err2 = err1 - (alo * bhi)
var err3 = err2 - (ahi * blo)
var y = alo * blo - err3
if(result) {
result[0] = y
result[1] = x
return result
}
return [ y, x ]
}
},{}],518:[function(_dereq_,module,exports){
"use strict"
module.exports = fastTwoSum
function fastTwoSum(a, b, result) {
var x = a + b
var bv = x - a
var av = x - bv
var br = b - bv
var ar = a - av
if(result) {
result[0] = ar + br
result[1] = x
return result
}
return [ar+br, x]
}
},{}],519:[function(_dereq_,module,exports){
(function (global,Buffer){
'use strict'
var bits = _dereq_('bit-twiddle')
var dup = _dereq_('dup')
//Legacy pool support
if(!global.__TYPEDARRAY_POOL) {
global.__TYPEDARRAY_POOL = {
UINT8 : dup([32, 0])
, UINT16 : dup([32, 0])
, UINT32 : dup([32, 0])
, INT8 : dup([32, 0])
, INT16 : dup([32, 0])
, INT32 : dup([32, 0])
, FLOAT : dup([32, 0])
, DOUBLE : dup([32, 0])
, DATA : dup([32, 0])
, UINT8C : dup([32, 0])
, BUFFER : dup([32, 0])
}
}
var hasUint8C = (typeof Uint8ClampedArray) !== 'undefined'
var POOL = global.__TYPEDARRAY_POOL
//Upgrade pool
if(!POOL.UINT8C) {
POOL.UINT8C = dup([32, 0])
}
if(!POOL.BUFFER) {
POOL.BUFFER = dup([32, 0])
}
//New technique: Only allocate from ArrayBufferView and Buffer
var DATA = POOL.DATA
, BUFFER = POOL.BUFFER
exports.free = function free(array) {
if(Buffer.isBuffer(array)) {
BUFFER[bits.log2(array.length)].push(array)
} else {
if(Object.prototype.toString.call(array) !== '[object ArrayBuffer]') {
array = array.buffer
}
if(!array) {
return
}
var n = array.length || array.byteLength
var log_n = bits.log2(n)|0
DATA[log_n].push(array)
}
}
function freeArrayBuffer(buffer) {
if(!buffer) {
return
}
var n = buffer.length || buffer.byteLength
var log_n = bits.log2(n)
DATA[log_n].push(buffer)
}
function freeTypedArray(array) {
freeArrayBuffer(array.buffer)
}
exports.freeUint8 =
exports.freeUint16 =
exports.freeUint32 =
exports.freeInt8 =
exports.freeInt16 =
exports.freeInt32 =
exports.freeFloat32 =
exports.freeFloat =
exports.freeFloat64 =
exports.freeDouble =
exports.freeUint8Clamped =
exports.freeDataView = freeTypedArray
exports.freeArrayBuffer = freeArrayBuffer
exports.freeBuffer = function freeBuffer(array) {
BUFFER[bits.log2(array.length)].push(array)
}
exports.malloc = function malloc(n, dtype) {
if(dtype === undefined || dtype === 'arraybuffer') {
return mallocArrayBuffer(n)
} else {
switch(dtype) {
case 'uint8':
return mallocUint8(n)
case 'uint16':
return mallocUint16(n)
case 'uint32':
return mallocUint32(n)
case 'int8':
return mallocInt8(n)
case 'int16':
return mallocInt16(n)
case 'int32':
return mallocInt32(n)
case 'float':
case 'float32':
return mallocFloat(n)
case 'double':
case 'float64':
return mallocDouble(n)
case 'uint8_clamped':
return mallocUint8Clamped(n)
case 'buffer':
return mallocBuffer(n)
case 'data':
case 'dataview':
return mallocDataView(n)
default:
return null
}
}
return null
}
function mallocArrayBuffer(n) {
var n = bits.nextPow2(n)
var log_n = bits.log2(n)
var d = DATA[log_n]
if(d.length > 0) {
return d.pop()
}
return new ArrayBuffer(n)
}
exports.mallocArrayBuffer = mallocArrayBuffer
function mallocUint8(n) {
return new Uint8Array(mallocArrayBuffer(n), 0, n)
}
exports.mallocUint8 = mallocUint8
function mallocUint16(n) {
return new Uint16Array(mallocArrayBuffer(2*n), 0, n)
}
exports.mallocUint16 = mallocUint16
function mallocUint32(n) {
return new Uint32Array(mallocArrayBuffer(4*n), 0, n)
}
exports.mallocUint32 = mallocUint32
function mallocInt8(n) {
return new Int8Array(mallocArrayBuffer(n), 0, n)
}
exports.mallocInt8 = mallocInt8
function mallocInt16(n) {
return new Int16Array(mallocArrayBuffer(2*n), 0, n)
}
exports.mallocInt16 = mallocInt16
function mallocInt32(n) {
return new Int32Array(mallocArrayBuffer(4*n), 0, n)
}
exports.mallocInt32 = mallocInt32
function mallocFloat(n) {
return new Float32Array(mallocArrayBuffer(4*n), 0, n)
}
exports.mallocFloat32 = exports.mallocFloat = mallocFloat
function mallocDouble(n) {
return new Float64Array(mallocArrayBuffer(8*n), 0, n)
}
exports.mallocFloat64 = exports.mallocDouble = mallocDouble
function mallocUint8Clamped(n) {
if(hasUint8C) {
return new Uint8ClampedArray(mallocArrayBuffer(n), 0, n)
} else {
return mallocUint8(n)
}
}
exports.mallocUint8Clamped = mallocUint8Clamped
function mallocDataView(n) {
return new DataView(mallocArrayBuffer(n), 0, n)
}
exports.mallocDataView = mallocDataView
function mallocBuffer(n) {
n = bits.nextPow2(n)
var log_n = bits.log2(n)
var cache = BUFFER[log_n]
if(cache.length > 0) {
return cache.pop()
}
return new Buffer(n)
}
exports.mallocBuffer = mallocBuffer
exports.clearCache = function clearCache() {
for(var i=0; i<32; ++i) {
POOL.UINT8[i].length = 0
POOL.UINT16[i].length = 0
POOL.UINT32[i].length = 0
POOL.INT8[i].length = 0
POOL.INT16[i].length = 0
POOL.INT32[i].length = 0
POOL.FLOAT[i].length = 0
POOL.DOUBLE[i].length = 0
POOL.UINT8C[i].length = 0
DATA[i].length = 0
BUFFER[i].length = 0
}
}
}).call(this,typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {},_dereq_("buffer").Buffer)
},{"bit-twiddle":79,"buffer":92,"dup":154}],520:[function(_dereq_,module,exports){
"use strict"; "use restrict";
module.exports = UnionFind;
function UnionFind(count) {
this.roots = new Array(count);
this.ranks = new Array(count);
for(var i=0; i<count; ++i) {
this.roots[i] = i;
this.ranks[i] = 0;
}
}
var proto = UnionFind.prototype
Object.defineProperty(proto, "length", {
"get": function() {
return this.roots.length
}
})
proto.makeSet = function() {
var n = this.roots.length;
this.roots.push(n);
this.ranks.push(0);
return n;
}
proto.find = function(x) {
var x0 = x
var roots = this.roots;
while(roots[x] !== x) {
x = roots[x]
}
while(roots[x0] !== x) {
var y = roots[x0]
roots[x0] = x
x0 = y
}
return x;
}
proto.link = function(x, y) {
var xr = this.find(x)
, yr = this.find(y);
if(xr === yr) {
return;
}
var ranks = this.ranks
, roots = this.roots
, xd = ranks[xr]
, yd = ranks[yr];
if(xd < yd) {
roots[xr] = yr;
} else if(yd < xd) {
roots[yr] = xr;
} else {
roots[yr] = xr;
++ranks[xr];
}
}
},{}],521:[function(_dereq_,module,exports){
"use strict"
function unique_pred(list, compare) {
var ptr = 1
, len = list.length
, a=list[0], b=list[0]
for(var i=1; i<len; ++i) {
b = a
a = list[i]
if(compare(a, b)) {
if(i === ptr) {
ptr++
continue
}
list[ptr++] = a
}
}
list.length = ptr
return list
}
function unique_eq(list) {
var ptr = 1
, len = list.length
, a=list[0], b = list[0]
for(var i=1; i<len; ++i, b=a) {
b = a
a = list[i]
if(a !== b) {
if(i === ptr) {
ptr++
continue
}
list[ptr++] = a
}
}
list.length = ptr
return list
}
function unique(list, compare, sorted) {
if(list.length === 0) {
return list
}
if(compare) {
if(!sorted) {
list.sort(compare)
}
return unique_pred(list, compare)
}
if(!sorted) {
list.sort()
}
return unique_eq(list)
}
module.exports = unique
},{}],522:[function(_dereq_,module,exports){
var reg = /[\'\"]/
module.exports = function unquote(str) {
if (!str) {
return ''
}
if (reg.test(str.charAt(0))) {
str = str.substr(1)
}
if (reg.test(str.charAt(str.length - 1))) {
str = str.substr(0, str.length - 1)
}
return str
}
},{}],523:[function(_dereq_,module,exports){
/**
* @module update-diff
*/
'use strict'
module.exports = function updateDiff (obj, diff, mappers) {
if (!Array.isArray(mappers)) mappers = [].slice.call(arguments, 2)
for (var i = 0, l = mappers.length; i < l; i++) {
var dict = mappers[i]
for (var prop in dict) {
if (diff[prop] !== undefined && !Array.isArray(diff[prop]) && obj[prop] === diff[prop]) continue
if (prop in diff) {
var result
if (dict[prop] === true) result = diff[prop]
else if (dict[prop] === false) continue
else if (typeof dict[prop] === 'function') {
result = dict[prop](diff[prop], obj, diff)
if (result === undefined) continue
}
obj[prop] = result
}
}
}
return obj
}
},{}],524:[function(_dereq_,module,exports){
"use strict"
module.exports = createText
var vectorizeText = _dereq_("./lib/vtext")
var defaultCanvas = null
var defaultContext = null
if(typeof document !== 'undefined') {
defaultCanvas = document.createElement('canvas')
defaultCanvas.width = 8192
defaultCanvas.height = 1024
defaultContext = defaultCanvas.getContext("2d")
}
function createText(str, options) {
if((typeof options !== "object") || (options === null)) {
options = {}
}
return vectorizeText(
str,
options.canvas || defaultCanvas,
options.context || defaultContext,
options)
}
},{"./lib/vtext":525}],525:[function(_dereq_,module,exports){
"use strict"
module.exports = vectorizeText
module.exports.processPixels = processPixels
var surfaceNets = _dereq_('surface-nets')
var ndarray = _dereq_('ndarray')
var simplify = _dereq_('simplify-planar-graph')
var cleanPSLG = _dereq_('clean-pslg')
var cdt2d = _dereq_('cdt2d')
var toPolygonCrappy = _dereq_('planar-graph-to-polyline')
function transformPositions(positions, options, size) {
var align = options.textAlign || "start"
var baseline = options.textBaseline || "alphabetic"
var lo = [1<<30, 1<<30]
var hi = [0,0]
var n = positions.length
for(var i=0; i<n; ++i) {
var p = positions[i]
for(var j=0; j<2; ++j) {
lo[j] = Math.min(lo[j], p[j])|0
hi[j] = Math.max(hi[j], p[j])|0
}
}
var xShift = 0
switch(align) {
case "center":
xShift = -0.5 * (lo[0] + hi[0])
break
case "right":
case "end":
xShift = -hi[0]
break
case "left":
case "start":
xShift = -lo[0]
break
default:
throw new Error("vectorize-text: Unrecognized textAlign: '" + align + "'")
}
var yShift = 0
switch(baseline) {
case "hanging":
case "top":
yShift = -lo[1]
break
case "middle":
yShift = -0.5 * (lo[1] + hi[1])
break
case "alphabetic":
case "ideographic":
yShift = -3 * size
break
case "bottom":
yShift = -hi[1]
break
default:
throw new Error("vectorize-text: Unrecoginized textBaseline: '" + baseline + "'")
}
var scale = 1.0 / size
if("lineHeight" in options) {
scale *= +options.lineHeight
} else if("width" in options) {
scale = options.width / (hi[0] - lo[0])
} else if("height" in options) {
scale = options.height / (hi[1] - lo[1])
}
return positions.map(function(p) {
return [ scale * (p[0] + xShift), scale * (p[1] + yShift) ]
})
}
function getPixels(canvas, context, str, size) {
var width = Math.ceil(context.measureText(str).width + 2*size)|0
if(width > 8192) {
throw new Error("vectorize-text: String too long (sorry, this will get fixed later)")
}
var height = 3 * size
if(canvas.height < height) {
canvas.height = height
}
context.fillStyle = "#000"
context.fillRect(0, 0, canvas.width, canvas.height)
context.fillStyle = "#fff"
context.fillText(str, size, 2*size)
//Cut pixels from image
var pixelData = context.getImageData(0, 0, width, height)
var pixels = ndarray(pixelData.data, [height, width, 4])
return pixels.pick(-1,-1,0).transpose(1,0)
}
function getContour(pixels, doSimplify) {
var contour = surfaceNets(pixels, 128)
if(doSimplify) {
return simplify(contour.cells, contour.positions, 0.25)
}
return {
edges: contour.cells,
positions: contour.positions
}
}
function processPixelsImpl(pixels, options, size, simplify) {
//Extract contour
var contour = getContour(pixels, simplify)
//Apply warp to positions
var positions = transformPositions(contour.positions, options, size)
var edges = contour.edges
var flip = "ccw" === options.orientation
//Clean up the PSLG, resolve self intersections, etc.
cleanPSLG(positions, edges)
//If triangulate flag passed, triangulate the result
if(options.polygons || options.polygon || options.polyline) {
var result = toPolygonCrappy(edges, positions)
var nresult = new Array(result.length)
for(var i=0; i<result.length; ++i) {
var loops = result[i]
var nloops = new Array(loops.length)
for(var j=0; j<loops.length; ++j) {
var loop = loops[j]
var nloop = new Array(loop.length)
for(var k=0; k<loop.length; ++k) {
nloop[k] = positions[loop[k]].slice()
}
if(flip) {
nloop.reverse()
}
nloops[j] = nloop
}
nresult[i] = nloops
}
return nresult
} else if(options.triangles || options.triangulate || options.triangle) {
return {
cells: cdt2d(positions, edges, {
delaunay: false,
exterior: false,
interior: true
}),
positions: positions
}
} else {
return {
edges: edges,
positions: positions
}
}
}
function processPixels(pixels, options, size) {
try {
return processPixelsImpl(pixels, options, size, true)
} catch(e) {}
try {
return processPixelsImpl(pixels, options, size, false)
} catch(e) {}
if(options.polygons || options.polyline || options.polygon) {
return []
}
if(options.triangles || options.triangulate || options.triangle) {
return {
cells: [],
positions: []
}
}
return {
edges: [],
positions: []
}
}
function vectorizeText(str, canvas, context, options) {
var size = options.size || 64
var family = options.font || "normal"
context.font = size + "px " + family
context.textAlign = "start"
context.textBaseline = "alphabetic"
context.direction = "ltr"
var pixels = getPixels(canvas, context, str, size)
return processPixels(pixels, options, size)
}
},{"cdt2d":93,"clean-pslg":103,"ndarray":430,"planar-graph-to-polyline":448,"simplify-planar-graph":497,"surface-nets":505}],526:[function(_dereq_,module,exports){
// Copyright (C) 2011 Google Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
/**
* @fileoverview Install a leaky WeakMap emulation on platforms that
* don't provide a built-in one.
*
* <p>Assumes that an ES5 platform where, if {@code WeakMap} is
* already present, then it conforms to the anticipated ES6
* specification. To run this file on an ES5 or almost ES5
* implementation where the {@code WeakMap} specification does not
* quite conform, run <code>repairES5.js</code> first.
*
* <p>Even though WeakMapModule is not global, the linter thinks it
* is, which is why it is in the overrides list below.
*
* <p>NOTE: Before using this WeakMap emulation in a non-SES
* environment, see the note below about hiddenRecord.
*
* @author Mark S. Miller
* @requires crypto, ArrayBuffer, Uint8Array, navigator, console
* @overrides WeakMap, ses, Proxy
* @overrides WeakMapModule
*/
/**
* This {@code WeakMap} emulation is observably equivalent to the
* ES-Harmony WeakMap, but with leakier garbage collection properties.
*
* <p>As with true WeakMaps, in this emulation, a key does not
* retain maps indexed by that key and (crucially) a map does not
* retain the keys it indexes. A map by itself also does not retain
* the values associated with that map.
*
* <p>However, the values associated with a key in some map are
* retained so long as that key is retained and those associations are
* not overridden. For example, when used to support membranes, all
* values exported from a given membrane will live for the lifetime
* they would have had in the absence of an interposed membrane. Even
* when the membrane is revoked, all objects that would have been
* reachable in the absence of revocation will still be reachable, as
* far as the GC can tell, even though they will no longer be relevant
* to ongoing computation.
*
* <p>The API implemented here is approximately the API as implemented
* in FF6.0a1 and agreed to by MarkM, Andreas Gal, and Dave Herman,
* rather than the offially approved proposal page. TODO(erights):
* upgrade the ecmascript WeakMap proposal page to explain this API
* change and present to EcmaScript committee for their approval.
*
* <p>The first difference between the emulation here and that in
* FF6.0a1 is the presence of non enumerable {@code get___, has___,
* set___, and delete___} methods on WeakMap instances to represent
* what would be the hidden internal properties of a primitive
* implementation. Whereas the FF6.0a1 WeakMap.prototype methods
* require their {@code this} to be a genuine WeakMap instance (i.e.,
* an object of {@code [[Class]]} "WeakMap}), since there is nothing
* unforgeable about the pseudo-internal method names used here,
* nothing prevents these emulated prototype methods from being
* applied to non-WeakMaps with pseudo-internal methods of the same
* names.
*
* <p>Another difference is that our emulated {@code
* WeakMap.prototype} is not itself a WeakMap. A problem with the
* current FF6.0a1 API is that WeakMap.prototype is itself a WeakMap
* providing ambient mutability and an ambient communications
* channel. Thus, if a WeakMap is already present and has this
* problem, repairES5.js wraps it in a safe wrappper in order to
* prevent access to this channel. (See
* PATCH_MUTABLE_FROZEN_WEAKMAP_PROTO in repairES5.js).
*/
/**
* If this is a full <a href=
* "http://code.google.com/p/es-lab/wiki/SecureableES5"
* >secureable ES5</a> platform and the ES-Harmony {@code WeakMap} is
* absent, install an approximate emulation.
*
* <p>If WeakMap is present but cannot store some objects, use our approximate
* emulation as a wrapper.
*
* <p>If this is almost a secureable ES5 platform, then WeakMap.js
* should be run after repairES5.js.
*
* <p>See {@code WeakMap} for documentation of the garbage collection
* properties of this WeakMap emulation.
*/
(function WeakMapModule() {
"use strict";
if (typeof ses !== 'undefined' && ses.ok && !ses.ok()) {
// already too broken, so give up
return;
}
/**
* In some cases (current Firefox), we must make a choice betweeen a
* WeakMap which is capable of using all varieties of host objects as
* keys and one which is capable of safely using proxies as keys. See
* comments below about HostWeakMap and DoubleWeakMap for details.
*
* This function (which is a global, not exposed to guests) marks a
* WeakMap as permitted to do what is necessary to index all host
* objects, at the cost of making it unsafe for proxies.
*
* Do not apply this function to anything which is not a genuine
* fresh WeakMap.
*/
function weakMapPermitHostObjects(map) {
// identity of function used as a secret -- good enough and cheap
if (map.permitHostObjects___) {
map.permitHostObjects___(weakMapPermitHostObjects);
}
}
if (typeof ses !== 'undefined') {
ses.weakMapPermitHostObjects = weakMapPermitHostObjects;
}
// IE 11 has no Proxy but has a broken WeakMap such that we need to patch
// it using DoubleWeakMap; this flag tells DoubleWeakMap so.
var doubleWeakMapCheckSilentFailure = false;
// Check if there is already a good-enough WeakMap implementation, and if so
// exit without replacing it.
if (typeof WeakMap === 'function') {
var HostWeakMap = WeakMap;
// There is a WeakMap -- is it good enough?
if (typeof navigator !== 'undefined' &&
/Firefox/.test(navigator.userAgent)) {
// We're now *assuming not*, because as of this writing (2013-05-06)
// Firefox's WeakMaps have a miscellany of objects they won't accept, and
// we don't want to make an exhaustive list, and testing for just one
// will be a problem if that one is fixed alone (as they did for Event).
// If there is a platform that we *can* reliably test on, here's how to
// do it:
// var problematic = ... ;
// var testHostMap = new HostWeakMap();
// try {
// testHostMap.set(problematic, 1); // Firefox 20 will throw here
// if (testHostMap.get(problematic) === 1) {
// return;
// }
// } catch (e) {}
} else {
// IE 11 bug: WeakMaps silently fail to store frozen objects.
var testMap = new HostWeakMap();
var testObject = Object.freeze({});
testMap.set(testObject, 1);
if (testMap.get(testObject) !== 1) {
doubleWeakMapCheckSilentFailure = true;
// Fall through to installing our WeakMap.
} else {
module.exports = WeakMap;
return;
}
}
}
var hop = Object.prototype.hasOwnProperty;
var gopn = Object.getOwnPropertyNames;
var defProp = Object.defineProperty;
var isExtensible = Object.isExtensible;
/**
* Security depends on HIDDEN_NAME being both <i>unguessable</i> and
* <i>undiscoverable</i> by untrusted code.
*
* <p>Given the known weaknesses of Math.random() on existing
* browsers, it does not generate unguessability we can be confident
* of.
*
* <p>It is the monkey patching logic in this file that is intended
* to ensure undiscoverability. The basic idea is that there are
* three fundamental means of discovering properties of an object:
* The for/in loop, Object.keys(), and Object.getOwnPropertyNames(),
* as well as some proposed ES6 extensions that appear on our
* whitelist. The first two only discover enumerable properties, and
* we only use HIDDEN_NAME to name a non-enumerable property, so the
* only remaining threat should be getOwnPropertyNames and some
* proposed ES6 extensions that appear on our whitelist. We monkey
* patch them to remove HIDDEN_NAME from the list of properties they
* returns.
*
* <p>TODO(erights): On a platform with built-in Proxies, proxies
* could be used to trap and thereby discover the HIDDEN_NAME, so we
* need to monkey patch Proxy.create, Proxy.createFunction, etc, in
* order to wrap the provided handler with the real handler which
* filters out all traps using HIDDEN_NAME.
*
* <p>TODO(erights): Revisit Mike Stay's suggestion that we use an
* encapsulated function at a not-necessarily-secret name, which
* uses the Stiegler shared-state rights amplification pattern to
* reveal the associated value only to the WeakMap in which this key
* is associated with that value. Since only the key retains the
* function, the function can also remember the key without causing
* leakage of the key, so this doesn't violate our general gc
* goals. In addition, because the name need not be a guarded
* secret, we could efficiently handle cross-frame frozen keys.
*/
var HIDDEN_NAME_PREFIX = 'weakmap:';
var HIDDEN_NAME = HIDDEN_NAME_PREFIX + 'ident:' + Math.random() + '___';
if (typeof crypto !== 'undefined' &&
typeof crypto.getRandomValues === 'function' &&
typeof ArrayBuffer === 'function' &&
typeof Uint8Array === 'function') {
var ab = new ArrayBuffer(25);
var u8s = new Uint8Array(ab);
crypto.getRandomValues(u8s);
HIDDEN_NAME = HIDDEN_NAME_PREFIX + 'rand:' +
Array.prototype.map.call(u8s, function(u8) {
return (u8 % 36).toString(36);
}).join('') + '___';
}
function isNotHiddenName(name) {
return !(
name.substr(0, HIDDEN_NAME_PREFIX.length) == HIDDEN_NAME_PREFIX &&
name.substr(name.length - 3) === '___');
}
/**
* Monkey patch getOwnPropertyNames to avoid revealing the
* HIDDEN_NAME.
*
* <p>The ES5.1 spec requires each name to appear only once, but as
* of this writing, this requirement is controversial for ES6, so we
* made this code robust against this case. If the resulting extra
* search turns out to be expensive, we can probably relax this once
* ES6 is adequately supported on all major browsers, iff no browser
* versions we support at that time have relaxed this constraint
* without providing built-in ES6 WeakMaps.
*/
defProp(Object, 'getOwnPropertyNames', {
value: function fakeGetOwnPropertyNames(obj) {
return gopn(obj).filter(isNotHiddenName);
}
});
/**
* getPropertyNames is not in ES5 but it is proposed for ES6 and
* does appear in our whitelist, so we need to clean it too.
*/
if ('getPropertyNames' in Object) {
var originalGetPropertyNames = Object.getPropertyNames;
defProp(Object, 'getPropertyNames', {
value: function fakeGetPropertyNames(obj) {
return originalGetPropertyNames(obj).filter(isNotHiddenName);
}
});
}
/**
* <p>To treat objects as identity-keys with reasonable efficiency
* on ES5 by itself (i.e., without any object-keyed collections), we
* need to add a hidden property to such key objects when we
* can. This raises several issues:
* <ul>
* <li>Arranging to add this property to objects before we lose the
* chance, and
* <li>Hiding the existence of this new property from most
* JavaScript code.
* <li>Preventing <i>certification theft</i>, where one object is
* created falsely claiming to be the key of an association
* actually keyed by another object.
* <li>Preventing <i>value theft</i>, where untrusted code with
* access to a key object but not a weak map nevertheless
* obtains access to the value associated with that key in that
* weak map.
* </ul>
* We do so by
* <ul>
* <li>Making the name of the hidden property unguessable, so "[]"
* indexing, which we cannot intercept, cannot be used to access
* a property without knowing the name.
* <li>Making the hidden property non-enumerable, so we need not
* worry about for-in loops or {@code Object.keys},
* <li>monkey patching those reflective methods that would
* prevent extensions, to add this hidden property first,
* <li>monkey patching those methods that would reveal this
* hidden property.
* </ul>
* Unfortunately, because of same-origin iframes, we cannot reliably
* add this hidden property before an object becomes
* non-extensible. Instead, if we encounter a non-extensible object
* without a hidden record that we can detect (whether or not it has
* a hidden record stored under a name secret to us), then we just
* use the key object itself to represent its identity in a brute
* force leaky map stored in the weak map, losing all the advantages
* of weakness for these.
*/
function getHiddenRecord(key) {
if (key !== Object(key)) {
throw new TypeError('Not an object: ' + key);
}
var hiddenRecord = key[HIDDEN_NAME];
if (hiddenRecord && hiddenRecord.key === key) { return hiddenRecord; }
if (!isExtensible(key)) {
// Weak map must brute force, as explained in doc-comment above.
return void 0;
}
// The hiddenRecord and the key point directly at each other, via
// the "key" and HIDDEN_NAME properties respectively. The key
// field is for quickly verifying that this hidden record is an
// own property, not a hidden record from up the prototype chain.
//
// NOTE: Because this WeakMap emulation is meant only for systems like
// SES where Object.prototype is frozen without any numeric
// properties, it is ok to use an object literal for the hiddenRecord.
// This has two advantages:
// * It is much faster in a performance critical place
// * It avoids relying on Object.create(null), which had been
// problematic on Chrome 28.0.1480.0. See
// https://code.google.com/p/google-caja/issues/detail?id=1687
hiddenRecord = { key: key };
// When using this WeakMap emulation on platforms where
// Object.prototype might not be frozen and Object.create(null) is
// reliable, use the following two commented out lines instead.
// hiddenRecord = Object.create(null);
// hiddenRecord.key = key;
// Please contact us if you need this to work on platforms where
// Object.prototype might not be frozen and
// Object.create(null) might not be reliable.
try {
defProp(key, HIDDEN_NAME, {
value: hiddenRecord,
writable: false,
enumerable: false,
configurable: false
});
return hiddenRecord;
} catch (error) {
// Under some circumstances, isExtensible seems to misreport whether
// the HIDDEN_NAME can be defined.
// The circumstances have not been isolated, but at least affect
// Node.js v0.10.26 on TravisCI / Linux, but not the same version of
// Node.js on OS X.
return void 0;
}
}
/**
* Monkey patch operations that would make their argument
* non-extensible.
*
* <p>The monkey patched versions throw a TypeError if their
* argument is not an object, so it should only be done to functions
* that should throw a TypeError anyway if their argument is not an
* object.
*/
(function(){
var oldFreeze = Object.freeze;
defProp(Object, 'freeze', {
value: function identifyingFreeze(obj) {
getHiddenRecord(obj);
return oldFreeze(obj);
}
});
var oldSeal = Object.seal;
defProp(Object, 'seal', {
value: function identifyingSeal(obj) {
getHiddenRecord(obj);
return oldSeal(obj);
}
});
var oldPreventExtensions = Object.preventExtensions;
defProp(Object, 'preventExtensions', {
value: function identifyingPreventExtensions(obj) {
getHiddenRecord(obj);
return oldPreventExtensions(obj);
}
});
})();
function constFunc(func) {
func.prototype = null;
return Object.freeze(func);
}
var calledAsFunctionWarningDone = false;
function calledAsFunctionWarning() {
// Future ES6 WeakMap is currently (2013-09-10) expected to reject WeakMap()
// but we used to permit it and do it ourselves, so warn only.
if (!calledAsFunctionWarningDone && typeof console !== 'undefined') {
calledAsFunctionWarningDone = true;
console.warn('WeakMap should be invoked as new WeakMap(), not ' +
'WeakMap(). This will be an error in the future.');
}
}
var nextId = 0;
var OurWeakMap = function() {
if (!(this instanceof OurWeakMap)) { // approximate test for new ...()
calledAsFunctionWarning();
}
// We are currently (12/25/2012) never encountering any prematurely
// non-extensible keys.
var keys = []; // brute force for prematurely non-extensible keys.
var values = []; // brute force for corresponding values.
var id = nextId++;
function get___(key, opt_default) {
var index;
var hiddenRecord = getHiddenRecord(key);
if (hiddenRecord) {
return id in hiddenRecord ? hiddenRecord[id] : opt_default;
} else {
index = keys.indexOf(key);
return index >= 0 ? values[index] : opt_default;
}
}
function has___(key) {
var hiddenRecord = getHiddenRecord(key);
if (hiddenRecord) {
return id in hiddenRecord;
} else {
return keys.indexOf(key) >= 0;
}
}
function set___(key, value) {
var index;
var hiddenRecord = getHiddenRecord(key);
if (hiddenRecord) {
hiddenRecord[id] = value;
} else {
index = keys.indexOf(key);
if (index >= 0) {
values[index] = value;
} else {
// Since some browsers preemptively terminate slow turns but
// then continue computing with presumably corrupted heap
// state, we here defensively get keys.length first and then
// use it to update both the values and keys arrays, keeping
// them in sync.
index = keys.length;
values[index] = value;
// If we crash here, values will be one longer than keys.
keys[index] = key;
}
}
return this;
}
function delete___(key) {
var hiddenRecord = getHiddenRecord(key);
var index, lastIndex;
if (hiddenRecord) {
return id in hiddenRecord && delete hiddenRecord[id];
} else {
index = keys.indexOf(key);
if (index < 0) {
return false;
}
// Since some browsers preemptively terminate slow turns but
// then continue computing with potentially corrupted heap
// state, we here defensively get keys.length first and then use
// it to update both the keys and the values array, keeping
// them in sync. We update the two with an order of assignments,
// such that any prefix of these assignments will preserve the
// key/value correspondence, either before or after the delete.
// Note that this needs to work correctly when index === lastIndex.
lastIndex = keys.length - 1;
keys[index] = void 0;
// If we crash here, there's a void 0 in the keys array, but
// no operation will cause a "keys.indexOf(void 0)", since
// getHiddenRecord(void 0) will always throw an error first.
values[index] = values[lastIndex];
// If we crash here, values[index] cannot be found here,
// because keys[index] is void 0.
keys[index] = keys[lastIndex];
// If index === lastIndex and we crash here, then keys[index]
// is still void 0, since the aliasing killed the previous key.
keys.length = lastIndex;
// If we crash here, keys will be one shorter than values.
values.length = lastIndex;
return true;
}
}
return Object.create(OurWeakMap.prototype, {
get___: { value: constFunc(get___) },
has___: { value: constFunc(has___) },
set___: { value: constFunc(set___) },
delete___: { value: constFunc(delete___) }
});
};
OurWeakMap.prototype = Object.create(Object.prototype, {
get: {
/**
* Return the value most recently associated with key, or
* opt_default if none.
*/
value: function get(key, opt_default) {
return this.get___(key, opt_default);
},
writable: true,
configurable: true
},
has: {
/**
* Is there a value associated with key in this WeakMap?
*/
value: function has(key) {
return this.has___(key);
},
writable: true,
configurable: true
},
set: {
/**
* Associate value with key in this WeakMap, overwriting any
* previous association if present.
*/
value: function set(key, value) {
return this.set___(key, value);
},
writable: true,
configurable: true
},
'delete': {
/**
* Remove any association for key in this WeakMap, returning
* whether there was one.
*
* <p>Note that the boolean return here does not work like the
* {@code delete} operator. The {@code delete} operator returns
* whether the deletion succeeds at bringing about a state in
* which the deleted property is absent. The {@code delete}
* operator therefore returns true if the property was already
* absent, whereas this {@code delete} method returns false if
* the association was already absent.
*/
value: function remove(key) {
return this.delete___(key);
},
writable: true,
configurable: true
}
});
if (typeof HostWeakMap === 'function') {
(function() {
// If we got here, then the platform has a WeakMap but we are concerned
// that it may refuse to store some key types. Therefore, make a map
// implementation which makes use of both as possible.
// In this mode we are always using double maps, so we are not proxy-safe.
// This combination does not occur in any known browser, but we had best
// be safe.
if (doubleWeakMapCheckSilentFailure && typeof Proxy !== 'undefined') {
Proxy = undefined;
}
function DoubleWeakMap() {
if (!(this instanceof OurWeakMap)) { // approximate test for new ...()
calledAsFunctionWarning();
}
// Preferable, truly weak map.
var hmap = new HostWeakMap();
// Our hidden-property-based pseudo-weak-map. Lazily initialized in the
// 'set' implementation; thus we can avoid performing extra lookups if
// we know all entries actually stored are entered in 'hmap'.
var omap = undefined;
// Hidden-property maps are not compatible with proxies because proxies
// can observe the hidden name and either accidentally expose it or fail
// to allow the hidden property to be set. Therefore, we do not allow
// arbitrary WeakMaps to switch to using hidden properties, but only
// those which need the ability, and unprivileged code is not allowed
// to set the flag.
//
// (Except in doubleWeakMapCheckSilentFailure mode in which case we
// disable proxies.)
var enableSwitching = false;
function dget(key, opt_default) {
if (omap) {
return hmap.has(key) ? hmap.get(key)
: omap.get___(key, opt_default);
} else {
return hmap.get(key, opt_default);
}
}
function dhas(key) {
return hmap.has(key) || (omap ? omap.has___(key) : false);
}
var dset;
if (doubleWeakMapCheckSilentFailure) {
dset = function(key, value) {
hmap.set(key, value);
if (!hmap.has(key)) {
if (!omap) { omap = new OurWeakMap(); }
omap.set(key, value);
}
return this;
};
} else {
dset = function(key, value) {
if (enableSwitching) {
try {
hmap.set(key, value);
} catch (e) {
if (!omap) { omap = new OurWeakMap(); }
omap.set___(key, value);
}
} else {
hmap.set(key, value);
}
return this;
};
}
function ddelete(key) {
var result = !!hmap['delete'](key);
if (omap) { return omap.delete___(key) || result; }
return result;
}
return Object.create(OurWeakMap.prototype, {
get___: { value: constFunc(dget) },
has___: { value: constFunc(dhas) },
set___: { value: constFunc(dset) },
delete___: { value: constFunc(ddelete) },
permitHostObjects___: { value: constFunc(function(token) {
if (token === weakMapPermitHostObjects) {
enableSwitching = true;
} else {
throw new Error('bogus call to permitHostObjects___');
}
})}
});
}
DoubleWeakMap.prototype = OurWeakMap.prototype;
module.exports = DoubleWeakMap;
// define .constructor to hide OurWeakMap ctor
Object.defineProperty(WeakMap.prototype, 'constructor', {
value: WeakMap,
enumerable: false, // as default .constructor is
configurable: true,
writable: true
});
})();
} else {
// There is no host WeakMap, so we must use the emulation.
// Emulated WeakMaps are incompatible with native proxies (because proxies
// can observe the hidden name), so we must disable Proxy usage (in
// ArrayLike and Domado, currently).
if (typeof Proxy !== 'undefined') {
Proxy = undefined;
}
module.exports = OurWeakMap;
}
})();
},{}],527:[function(_dereq_,module,exports){
var hiddenStore = _dereq_('./hidden-store.js');
module.exports = createStore;
function createStore() {
var key = {};
return function (obj) {
if ((typeof obj !== 'object' || obj === null) &&
typeof obj !== 'function'
) {
throw new Error('Weakmap-shim: Key must be object')
}
var store = obj.valueOf(key);
return store && store.identity === key ?
store : hiddenStore(obj, key);
};
}
},{"./hidden-store.js":528}],528:[function(_dereq_,module,exports){
module.exports = hiddenStore;
function hiddenStore(obj, key) {
var store = { identity: key };
var valueOf = obj.valueOf;
Object.defineProperty(obj, "valueOf", {
value: function (value) {
return value !== key ?
valueOf.apply(this, arguments) : store;
},
writable: true
});
return store;
}
},{}],529:[function(_dereq_,module,exports){
// Original - @Gozola.
// https://gist.github.com/Gozala/1269991
// This is a reimplemented version (with a few bug fixes).
var createStore = _dereq_('./create-store.js');
module.exports = weakMap;
function weakMap() {
var privates = createStore();
return {
'get': function (key, fallback) {
var store = privates(key)
return store.hasOwnProperty('value') ?
store.value : fallback
},
'set': function (key, value) {
privates(key).value = value;
return this;
},
'has': function(key) {
return 'value' in privates(key);
},
'delete': function (key) {
return delete privates(key).value;
}
}
}
},{"./create-store.js":527}],530:[function(_dereq_,module,exports){
var getContext = _dereq_('get-canvas-context')
module.exports = function getWebGLContext (opt) {
return getContext('webgl', opt)
}
},{"get-canvas-context":220}],531:[function(_dereq_,module,exports){
/*
* World Calendars
* https://github.com/alexcjohnson/world-calendars
*
* Batch-converted from kbwood/calendars
* Many thanks to Keith Wood and all of the contributors to the original project!
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
/* http://keith-wood.name/calendars.html
Traditional Chinese calendar for jQuery v2.0.2.
Written by Nicolas Riesco (enquiries@nicolasriesco.net) December 2016.
Available under the MIT (http://keith-wood.name/licence.html) license.
Please attribute the author if you use it. */
var main = _dereq_('../main');
var assign = _dereq_('object-assign');
var gregorianCalendar = main.instance();
/** Implementation of the traditional Chinese calendar.
Source of calendar tables https://github.com/isee15/Lunar-Solar-Calendar-Converter .
@class ChineseCalendar
@param [language=''] {string} The language code (default English) for localisation. */
function ChineseCalendar(language) {
this.local = this.regionalOptions[language || ''] || this.regionalOptions[''];
}
ChineseCalendar.prototype = new main.baseCalendar;
assign(ChineseCalendar.prototype, {
/** The calendar name.
@memberof ChineseCalendar */
name: 'Chinese',
/** Julian date of start of Gregorian epoch: 1 January 0001 CE.
@memberof GregorianCalendar */
jdEpoch: 1721425.5,
/** <code>true</code> if has a year zero, <code>false</code> if not.
@memberof ChineseCalendar */
hasYearZero: false,
/** The minimum month number.
This calendar uses month indices to account for intercalary months.
@memberof ChineseCalendar */
minMonth: 0,
/** The first month in the year.
This calendar uses month indices to account for intercalary months.
@memberof ChineseCalendar */
firstMonth: 0,
/** The minimum day number.
@memberof ChineseCalendar */
minDay: 1,
/** Localisations for the plugin.
Entries are objects indexed by the language code ('' being the default US/English).
Each object has the following attributes.
@memberof ChineseCalendar
@property name {string} The calendar name.
@property epochs {string[]} The epoch names.
@property monthNames {string[]} The long names of the months of the year.
@property monthNamesShort {string[]} The short names of the months of the year.
@property dayNames {string[]} The long names of the days of the week.
@property dayNamesShort {string[]} The short names of the days of the week.
@property dayNamesMin {string[]} The minimal names of the days of the week.
@property dateFormat {string} The date format for this calendar.
See the options on <a href="BaseCalendar.html#formatDate"><code>formatDate</code></a> for details.
@property firstDay {number} The number of the first day of the week, starting at 0.
@property isRTL {number} <code>true</code> if this localisation reads right-to-left. */
regionalOptions: { // Localisations
'': {
name: 'Chinese',
epochs: ['BEC', 'EC'],
monthNumbers: function(date, padded) {
if (typeof date === 'string') {
var match = date.match(MONTH_NUMBER_REGEXP);
return (match) ? match[0] : '';
}
var year = this._validateYear(date);
var monthIndex = date.month();
var month = '' + this.toChineseMonth(year, monthIndex);
if (padded && month.length < 2) {
month = "0" + month;
}
if (this.isIntercalaryMonth(year, monthIndex)) {
month += 'i';
}
return month;
},
monthNames: function(date) {
if (typeof date === 'string') {
var match = date.match(MONTH_NAME_REGEXP);
return (match) ? match[0] : '';
}
var year = this._validateYear(date);
var monthIndex = date.month();
var month = this.toChineseMonth(year, monthIndex);
var monthName = ['一月','二月','三月','四月','五月','六月',
'七月','八月','九月','十月','十一月','十二月'][month - 1];
if (this.isIntercalaryMonth(year, monthIndex)) {
monthName = '闰' + monthName;
}
return monthName;
},
monthNamesShort: function(date) {
if (typeof date === 'string') {
var match = date.match(MONTH_SHORT_NAME_REGEXP);
return (match) ? match[0] : '';
}
var year = this._validateYear(date);
var monthIndex = date.month();
var month = this.toChineseMonth(year, monthIndex);
var monthName = ['一','二','三','四','五','六',
'七','八','九','十','十一','十二'][month - 1];
if (this.isIntercalaryMonth(year, monthIndex)) {
monthName = '闰' + monthName;
}
return monthName;
},
parseMonth: function(year, monthString) {
year = this._validateYear(year);
var month = parseInt(monthString);
var isIntercalary;
if (!isNaN(month)) {
var i = monthString[monthString.length - 1];
isIntercalary = (i === 'i' || i === 'I');
} else {
if (monthString[0] === '闰') {
isIntercalary = true;
monthString = monthString.substring(1);
}
if (monthString[monthString.length - 1] === '月') {
monthString = monthString.substring(0, monthString.length - 1);
}
month = 1 +
['一','二','三','四','五','六',
'七','八','九','十','十一','十二'].indexOf(monthString);
}
var monthIndex = this.toMonthIndex(year, month, isIntercalary);
return monthIndex;
},
dayNames: ['Sunday', 'Monday', 'Tuesday', 'Wednesday', 'Thursday', 'Friday', 'Saturday'],
dayNamesShort: ['Sun', 'Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat'],
dayNamesMin: ['Su', 'Mo', 'Tu', 'We', 'Th', 'Fr', 'Sa'],
digits: null,
dateFormat: 'yyyy/mm/dd',
firstDay: 1,
isRTL: false
}
},
/** Check that a candidate date is from the same calendar and is valid.
@memberof BaseCalendar
@private
@param year {CDate|number} The date or the year to validate.
@param error {string} Error message if invalid.
@return {number} The year.
@throws Error if year out of range. */
_validateYear: function(year, error) {
if (year.year) {
year = year.year();
}
if (typeof year !== 'number' || year < 1888 || year > 2111) {
throw error.replace(/\{0\}/, this.local.name);
}
return year;
},
/** Retrieve the month index (i.e. accounting for intercalary months).
@memberof ChineseCalendar
@param year {number} The year.
@param month {number} The month (1 for first month).
@param [isIntercalary=false] {boolean} If month is intercalary.
@return {number} The month index (0 for first month).
@throws Error if an invalid month/year or a different calendar used. */
toMonthIndex: function(year, month, isIntercalary) {
// compute intercalary month in the year (0 if none)
var intercalaryMonth = this.intercalaryMonth(year);
// validate month
var invalidIntercalaryMonth =
(isIntercalary && month !== intercalaryMonth);
if (invalidIntercalaryMonth || month < 1 || month > 12) {
throw main.local.invalidMonth
.replace(/\{0\}/, this.local.name);
}
// compute month index
var monthIndex;
if (!intercalaryMonth) {
monthIndex = month - 1;
} else if(!isIntercalary && month <= intercalaryMonth) {
monthIndex = month - 1;
} else {
monthIndex = month;
}
return monthIndex;
},
/** Retrieve the month (i.e. accounting for intercalary months).
@memberof ChineseCalendar
@param year {CDate|number} The date or the year to examine.
@param monthIndex {number} The month index (0 for first month).
@return {number} The month (1 for first month).
@throws Error if an invalid month/year or a different calendar used. */
toChineseMonth: function(year, monthIndex) {
if (year.year) {
year = year.year();
monthIndex = year.month();
}
// compute intercalary month in the year (0 if none)
var intercalaryMonth = this.intercalaryMonth(year);
// validate month
var maxMonthIndex = (intercalaryMonth) ? 12 : 11;
if (monthIndex < 0 || monthIndex > maxMonthIndex) {
throw main.local.invalidMonth
.replace(/\{0\}/, this.local.name);
}
// compute Chinese month
var month;
if (!intercalaryMonth) {
month = monthIndex + 1;
} else if(monthIndex < intercalaryMonth) {
month = monthIndex + 1;
} else {
month = monthIndex;
}
return month;
},
/** Determine the intercalary month of a year (if any).
@memberof ChineseCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {number} The intercalary month number, or 0 if none.
@throws Error if an invalid year or a different calendar used. */
intercalaryMonth: function(year) {
year = this._validateYear(year);
var monthDaysTable = LUNAR_MONTH_DAYS[year - LUNAR_MONTH_DAYS[0]];
var intercalaryMonth = monthDaysTable >> 13;
return intercalaryMonth;
},
/** Determine whether this date is an intercalary month.
@memberof ChineseCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [monthIndex] {number} The month index to examine.
@return {boolean} <code>true</code> if this is an intercalary month, <code>false</code> if not.
@throws Error if an invalid year or a different calendar used. */
isIntercalaryMonth: function(year, monthIndex) {
if (year.year) {
year = year.year();
monthIndex = year.month();
}
var intercalaryMonth = this.intercalaryMonth(year);
return !!intercalaryMonth && intercalaryMonth === monthIndex;
},
/** Determine whether this date is in a leap year.
@memberof ChineseCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {boolean} <code>true</code> if this is a leap year, <code>false</code> if not.
@throws Error if an invalid year or a different calendar used. */
leapYear: function(year) {
return (this.intercalaryMonth(year) !== 0);
},
/** Determine the week of the year for a date - ISO 8601.
@memberof ChineseCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [monthIndex] {number} The month index to examine.
@param [day] {number} The day to examine.
@return {number} The week of the year.
@throws Error if an invalid date or a different calendar used. */
weekOfYear: function(year, monthIndex, day) {
// compute Chinese new year
var validatedYear =
this._validateYear(year, main.local.invalidyear);
var packedDate =
CHINESE_NEW_YEAR[validatedYear - CHINESE_NEW_YEAR[0]];
var y = (packedDate >> 9) & 0xFFF;
var m = (packedDate >> 5) & 0x0F;
var d = packedDate & 0x1F;
// find first Thrusday of the year
var firstThursday;
firstThursday = gregorianCalendar.newDate(y, m, d);
firstThursday.add(4 - (firstThursday.dayOfWeek() || 7), 'd');
// compute days from first Thursday
var offset =
this.toJD(year, monthIndex, day) - firstThursday.toJD();
return 1 + Math.floor(offset / 7);
},
/** Retrieve the number of months in a year.
@memberof ChineseCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {number} The number of months.
@throws Error if an invalid year or a different calendar used. */
monthsInYear: function(year) {
return (this.leapYear(year)) ? 13 : 12;
},
/** Retrieve the number of days in a month.
@memberof ChineseCalendar
@param year {CDate|number} The date to examine or the year of the month.
@param [monthIndex] {number} The month index.
@return {number} The number of days in this month.
@throws Error if an invalid month/year or a different calendar used. */
daysInMonth: function(year, monthIndex) {
if (year.year) {
monthIndex = year.month();
year = year.year();
}
year = this._validateYear(year);
var monthDaysTable = LUNAR_MONTH_DAYS[year - LUNAR_MONTH_DAYS[0]];
var intercalaryMonth = monthDaysTable >> 13;
var maxMonthIndex = (intercalaryMonth) ? 12 : 11;
if (monthIndex > maxMonthIndex) {
throw main.local.invalidMonth
.replace(/\{0\}/, this.local.name);
}
var daysInMonth = (monthDaysTable & (1 << (12 - monthIndex))) ?
30 : 29;
return daysInMonth;
},
/** Determine whether this date is a week day.
@memberof ChineseCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [monthIndex] {number} The month index to examine.
@param [day] {number} The day to examine.
@return {boolean} <code>true</code> if a week day, <code>false</code> if not.
@throws Error if an invalid date or a different calendar used. */
weekDay: function(year, monthIndex, day) {
return (this.dayOfWeek(year, monthIndex, day) || 7) < 6;
},
/** Retrieve the Julian date equivalent for this date,
i.e. days since January 1, 4713 BCE Greenwich noon.
@memberof ChineseCalendar
@param year {CDate|number} The date to convert or the year to convert.
@param [monthIndex] {number} The month index to convert.
@param [day] {number} The day to convert.
@return {number} The equivalent Julian date.
@throws Error if an invalid date or a different calendar used. */
toJD: function(year, monthIndex, day) {
var date = this._validate(year, month, day, main.local.invalidDate);
year = this._validateYear(date.year());
monthIndex = date.month();
day = date.day();
var isIntercalary = this.isIntercalaryMonth(year, monthIndex);
var month = this.toChineseMonth(year, monthIndex);
var solar = toSolar(year, month, day, isIntercalary);
return gregorianCalendar.toJD(solar.year, solar.month, solar.day);
},
/** Create a new date from a Julian date.
@memberof ChineseCalendar
@param jd {number} The Julian date to convert.
@return {CDate} The equivalent date. */
fromJD: function(jd) {
var date = gregorianCalendar.fromJD(jd);
var lunar = toLunar(date.year(), date.month(), date.day());
var monthIndex = this.toMonthIndex(
lunar.year, lunar.month, lunar.isIntercalary);
return this.newDate(lunar.year, monthIndex, lunar.day);
},
/** Create a new date from a string.
@memberof ChineseCalendar
@param dateString {string} String representing a Chinese date
@return {CDate} The new date.
@throws Error if an invalid date. */
fromString: function(dateString) {
var match = dateString.match(DATE_REGEXP);
var year = this._validateYear(+match[1]);
var month = +match[2];
var isIntercalary = !!match[3];
var monthIndex = this.toMonthIndex(year, month, isIntercalary);
var day = +match[4];
return this.newDate(year, monthIndex, day);
},
/** Add period(s) to a date.
Cater for no year zero.
@memberof ChineseCalendar
@param date {CDate} The starting date.
@param offset {number} The number of periods to adjust by.
@param period {string} One of 'y' for year, 'm' for month, 'w' for week, 'd' for day.
@return {CDate} The updated date.
@throws Error if a different calendar used. */
add: function(date, offset, period) {
var year = date.year();
var monthIndex = date.month();
var isIntercalary = this.isIntercalaryMonth(year, monthIndex);
var month = this.toChineseMonth(year, monthIndex);
var cdate = Object.getPrototypeOf(ChineseCalendar.prototype)
.add.call(this, date, offset, period);
if (period === 'y') {
// Resync month
var resultYear = cdate.year();
var resultMonthIndex = cdate.month();
// Using the fact the month index of an intercalary month
// equals its month number:
var resultCanBeIntercalaryMonth =
this.isIntercalaryMonth(resultYear, month);
var correctedMonthIndex =
(isIntercalary && resultCanBeIntercalaryMonth) ?
this.toMonthIndex(resultYear, month, true) :
this.toMonthIndex(resultYear, month, false);
if (correctedMonthIndex !== resultMonthIndex) {
cdate.month(correctedMonthIndex);
}
}
return cdate;
},
});
// Used by ChineseCalendar.prototype.fromString
var DATE_REGEXP = /^\s*(-?\d\d\d\d|\d\d)[-/](\d?\d)([iI]?)[-/](\d?\d)/m;
var MONTH_NUMBER_REGEXP = /^\d?\d[iI]?/m;
var MONTH_NAME_REGEXP = /^闰?十?[一二三四五六七八九]?月/m;
var MONTH_SHORT_NAME_REGEXP = /^闰?十?[一二三四五六七八九]?/m;
// Chinese calendar implementation
main.calendars.chinese = ChineseCalendar;
// Chinese calendar tables from year 1888 to 2111
//
// Source:
// https://github.com/isee15/Lunar-Solar-Calendar-Converter.git
// Table of intercalary months and days per month from year 1888 to 2111
//
// bit (12 - i): days in the i^th month
// (= 0 if i^th lunar month has 29 days)
// (= 1 if i^th lunar month has 30 days)
// (first month in lunar year is i = 0)
// bits (13,14,15,16): intercalary month
// (= 0 if lunar year has no intercalary month)
var LUNAR_MONTH_DAYS = [1887, 0x1694, 0x16aa, 0x4ad5,
0xab6, 0xc4b7, 0x4ae, 0xa56, 0xb52a, 0x1d2a, 0xd54, 0x75aa, 0x156a,
0x1096d, 0x95c, 0x14ae, 0xaa4d, 0x1a4c, 0x1b2a, 0x8d55, 0xad4,
0x135a, 0x495d, 0x95c, 0xd49b, 0x149a, 0x1a4a, 0xbaa5, 0x16a8,
0x1ad4, 0x52da, 0x12b6, 0xe937, 0x92e, 0x1496, 0xb64b, 0xd4a,
0xda8, 0x95b5, 0x56c, 0x12ae, 0x492f, 0x92e, 0xcc96, 0x1a94,
0x1d4a, 0xada9, 0xb5a, 0x56c, 0x726e, 0x125c, 0xf92d, 0x192a,
0x1a94, 0xdb4a, 0x16aa, 0xad4, 0x955b, 0x4ba, 0x125a, 0x592b,
0x152a, 0xf695, 0xd94, 0x16aa, 0xaab5, 0x9b4, 0x14b6, 0x6a57,
0xa56, 0x1152a, 0x1d2a, 0xd54, 0xd5aa, 0x156a, 0x96c, 0x94ae,
0x14ae, 0xa4c, 0x7d26, 0x1b2a, 0xeb55, 0xad4, 0x12da, 0xa95d,
0x95a, 0x149a, 0x9a4d, 0x1a4a, 0x11aa5, 0x16a8, 0x16d4, 0xd2da,
0x12b6, 0x936, 0x9497, 0x1496, 0x1564b, 0xd4a, 0xda8, 0xd5b4,
0x156c, 0x12ae, 0xa92f, 0x92e, 0xc96, 0x6d4a, 0x1d4a, 0x10d65,
0xb58, 0x156c, 0xb26d, 0x125c, 0x192c, 0x9a95, 0x1a94, 0x1b4a,
0x4b55, 0xad4, 0xf55b, 0x4ba, 0x125a, 0xb92b, 0x152a, 0x1694,
0x96aa, 0x15aa, 0x12ab5, 0x974, 0x14b6, 0xca57, 0xa56, 0x1526,
0x8e95, 0xd54, 0x15aa, 0x49b5, 0x96c, 0xd4ae, 0x149c, 0x1a4c,
0xbd26, 0x1aa6, 0xb54, 0x6d6a, 0x12da, 0x1695d, 0x95a, 0x149a,
0xda4b, 0x1a4a, 0x1aa4, 0xbb54, 0x16b4, 0xada, 0x495b, 0x936,
0xf497, 0x1496, 0x154a, 0xb6a5, 0xda4, 0x15b4, 0x6ab6, 0x126e,
0x1092f, 0x92e, 0xc96, 0xcd4a, 0x1d4a, 0xd64, 0x956c, 0x155c,
0x125c, 0x792e, 0x192c, 0xfa95, 0x1a94, 0x1b4a, 0xab55, 0xad4,
0x14da, 0x8a5d, 0xa5a, 0x1152b, 0x152a, 0x1694, 0xd6aa, 0x15aa,
0xab4, 0x94ba, 0x14b6, 0xa56, 0x7527, 0xd26, 0xee53, 0xd54, 0x15aa,
0xa9b5, 0x96c, 0x14ae, 0x8a4e, 0x1a4c, 0x11d26, 0x1aa4, 0x1b54,
0xcd6a, 0xada, 0x95c, 0x949d, 0x149a, 0x1a2a, 0x5b25, 0x1aa4,
0xfb52, 0x16b4, 0xaba, 0xa95b, 0x936, 0x1496, 0x9a4b, 0x154a,
0x136a5, 0xda4, 0x15ac];
// Table of Chinese New Years from year 1888 to 2111
//
// bits (0 to 4): solar day
// bits (5 to 8): solar month
// bits (9 to 20): solar year
var CHINESE_NEW_YEAR = [1887, 0xec04c, 0xec23f, 0xec435, 0xec649,
0xec83e, 0xeca51, 0xecc46, 0xece3a, 0xed04d, 0xed242, 0xed436,
0xed64a, 0xed83f, 0xeda53, 0xedc48, 0xede3d, 0xee050, 0xee244,
0xee439, 0xee64d, 0xee842, 0xeea36, 0xeec4a, 0xeee3e, 0xef052,
0xef246, 0xef43a, 0xef64e, 0xef843, 0xefa37, 0xefc4b, 0xefe41,
0xf0054, 0xf0248, 0xf043c, 0xf0650, 0xf0845, 0xf0a38, 0xf0c4d,
0xf0e42, 0xf1037, 0xf124a, 0xf143e, 0xf1651, 0xf1846, 0xf1a3a,
0xf1c4e, 0xf1e44, 0xf2038, 0xf224b, 0xf243f, 0xf2653, 0xf2848,
0xf2a3b, 0xf2c4f, 0xf2e45, 0xf3039, 0xf324d, 0xf3442, 0xf3636,
0xf384a, 0xf3a3d, 0xf3c51, 0xf3e46, 0xf403b, 0xf424e, 0xf4443,
0xf4638, 0xf484c, 0xf4a3f, 0xf4c52, 0xf4e48, 0xf503c, 0xf524f,
0xf5445, 0xf5639, 0xf584d, 0xf5a42, 0xf5c35, 0xf5e49, 0xf603e,
0xf6251, 0xf6446, 0xf663b, 0xf684f, 0xf6a43, 0xf6c37, 0xf6e4b,
0xf703f, 0xf7252, 0xf7447, 0xf763c, 0xf7850, 0xf7a45, 0xf7c39,
0xf7e4d, 0xf8042, 0xf8254, 0xf8449, 0xf863d, 0xf8851, 0xf8a46,
0xf8c3b, 0xf8e4f, 0xf9044, 0xf9237, 0xf944a, 0xf963f, 0xf9853,
0xf9a47, 0xf9c3c, 0xf9e50, 0xfa045, 0xfa238, 0xfa44c, 0xfa641,
0xfa836, 0xfaa49, 0xfac3d, 0xfae52, 0xfb047, 0xfb23a, 0xfb44e,
0xfb643, 0xfb837, 0xfba4a, 0xfbc3f, 0xfbe53, 0xfc048, 0xfc23c,
0xfc450, 0xfc645, 0xfc839, 0xfca4c, 0xfcc41, 0xfce36, 0xfd04a,
0xfd23d, 0xfd451, 0xfd646, 0xfd83a, 0xfda4d, 0xfdc43, 0xfde37,
0xfe04b, 0xfe23f, 0xfe453, 0xfe648, 0xfe83c, 0xfea4f, 0xfec44,
0xfee38, 0xff04c, 0xff241, 0xff436, 0xff64a, 0xff83e, 0xffa51,
0xffc46, 0xffe3a, 0x10004e, 0x100242, 0x100437, 0x10064b, 0x100841,
0x100a53, 0x100c48, 0x100e3c, 0x10104f, 0x101244, 0x101438,
0x10164c, 0x101842, 0x101a35, 0x101c49, 0x101e3d, 0x102051,
0x102245, 0x10243a, 0x10264e, 0x102843, 0x102a37, 0x102c4b,
0x102e3f, 0x103053, 0x103247, 0x10343b, 0x10364f, 0x103845,
0x103a38, 0x103c4c, 0x103e42, 0x104036, 0x104249, 0x10443d,
0x104651, 0x104846, 0x104a3a, 0x104c4e, 0x104e43, 0x105038,
0x10524a, 0x10543e, 0x105652, 0x105847, 0x105a3b, 0x105c4f,
0x105e45, 0x106039, 0x10624c, 0x106441, 0x106635, 0x106849,
0x106a3d, 0x106c51, 0x106e47, 0x10703c, 0x10724f, 0x107444,
0x107638, 0x10784c, 0x107a3f, 0x107c53, 0x107e48];
function toLunar(yearOrDate, monthOrResult, day, result) {
var solarDate;
var lunarDate;
if(typeof yearOrDate === 'object') {
solarDate = yearOrDate;
lunarDate = monthOrResult || {};
} else {
var isValidYear = (typeof yearOrDate === 'number') &&
(yearOrDate >= 1888) && (yearOrDate <= 2111);
if(!isValidYear)
throw new Error("Solar year outside range 1888-2111");
var isValidMonth = (typeof monthOrResult === 'number') &&
(monthOrResult >= 1) && (monthOrResult <= 12);
if(!isValidMonth)
throw new Error("Solar month outside range 1 - 12");
var isValidDay = (typeof day === 'number') && (day >= 1) && (day <= 31);
if(!isValidDay)
throw new Error("Solar day outside range 1 - 31");
solarDate = {
year: yearOrDate,
month: monthOrResult,
day: day,
};
lunarDate = result || {};
}
// Compute Chinese new year and lunar year
var chineseNewYearPackedDate =
CHINESE_NEW_YEAR[solarDate.year - CHINESE_NEW_YEAR[0]];
var packedDate = (solarDate.year << 9) | (solarDate.month << 5)
| solarDate.day;
lunarDate.year = (packedDate >= chineseNewYearPackedDate) ?
solarDate.year :
solarDate.year - 1;
chineseNewYearPackedDate =
CHINESE_NEW_YEAR[lunarDate.year - CHINESE_NEW_YEAR[0]];
var y = (chineseNewYearPackedDate >> 9) & 0xFFF;
var m = (chineseNewYearPackedDate >> 5) & 0x0F;
var d = chineseNewYearPackedDate & 0x1F;
// Compute days from new year
var daysFromNewYear;
var chineseNewYearJSDate = new Date(y, m -1, d);
var jsDate = new Date(solarDate.year, solarDate.month - 1, solarDate.day);
daysFromNewYear = Math.round(
(jsDate - chineseNewYearJSDate) / (24 * 3600 * 1000));
// Compute lunar month and day
var monthDaysTable = LUNAR_MONTH_DAYS[lunarDate.year - LUNAR_MONTH_DAYS[0]];
var i;
for(i = 0; i < 13; i++) {
var daysInMonth = (monthDaysTable & (1 << (12 - i))) ? 30 : 29;
if (daysFromNewYear < daysInMonth) {
break;
}
daysFromNewYear -= daysInMonth;
}
var intercalaryMonth = monthDaysTable >> 13;
if (!intercalaryMonth || i < intercalaryMonth) {
lunarDate.isIntercalary = false;
lunarDate.month = 1 + i;
} else if (i === intercalaryMonth) {
lunarDate.isIntercalary = true;
lunarDate.month = i;
} else {
lunarDate.isIntercalary = false;
lunarDate.month = i;
}
lunarDate.day = 1 + daysFromNewYear;
return lunarDate;
}
function toSolar(yearOrDate, monthOrResult, day, isIntercalaryOrResult, result) {
var solarDate;
var lunarDate;
if(typeof yearOrDate === 'object') {
lunarDate = yearOrDate;
solarDate = monthOrResult || {};
} else {
var isValidYear = (typeof yearOrDate === 'number') &&
(yearOrDate >= 1888) && (yearOrDate <= 2111);
if(!isValidYear)
throw new Error("Lunar year outside range 1888-2111");
var isValidMonth = (typeof monthOrResult === 'number') &&
(monthOrResult >= 1) && (monthOrResult <= 12);
if(!isValidMonth)
throw new Error("Lunar month outside range 1 - 12");
var isValidDay = (typeof day === 'number') && (day >= 1) && (day <= 30);
if(!isValidDay)
throw new Error("Lunar day outside range 1 - 30");
var isIntercalary;
if(typeof isIntercalaryOrResult === 'object') {
isIntercalary = false;
solarDate = isIntercalaryOrResult;
} else {
isIntercalary = !!isIntercalaryOrResult;
solarDate = result || {};
}
lunarDate = {
year: yearOrDate,
month: monthOrResult,
day: day,
isIntercalary: isIntercalary,
};
}
// Compute days from new year
var daysFromNewYear;
daysFromNewYear = lunarDate.day - 1;
var monthDaysTable = LUNAR_MONTH_DAYS[lunarDate.year - LUNAR_MONTH_DAYS[0]];
var intercalaryMonth = monthDaysTable >> 13;
var monthsFromNewYear;
if (!intercalaryMonth) {
monthsFromNewYear = lunarDate.month - 1;
} else if (lunarDate.month > intercalaryMonth) {
monthsFromNewYear = lunarDate.month;
} else if (lunarDate.isIntercalary) {
monthsFromNewYear = lunarDate.month;
} else {
monthsFromNewYear = lunarDate.month - 1;
}
for(var i = 0; i < monthsFromNewYear; i++) {
var daysInMonth = (monthDaysTable & (1 << (12 - i))) ? 30 : 29;
daysFromNewYear += daysInMonth;
}
// Compute Chinese new year
var packedDate = CHINESE_NEW_YEAR[lunarDate.year - CHINESE_NEW_YEAR[0]];
var y = (packedDate >> 9) & 0xFFF;
var m = (packedDate >> 5) & 0x0F;
var d = packedDate & 0x1F;
// Compute solar date
var jsDate = new Date(y, m - 1, d + daysFromNewYear);
solarDate.year = jsDate.getFullYear();
solarDate.month = 1 + jsDate.getMonth();
solarDate.day = jsDate.getDate();
return solarDate;
}
},{"../main":545,"object-assign":434}],532:[function(_dereq_,module,exports){
/*
* World Calendars
* https://github.com/alexcjohnson/world-calendars
*
* Batch-converted from kbwood/calendars
* Many thanks to Keith Wood and all of the contributors to the original project!
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
/* http://keith-wood.name/calendars.html
Coptic calendar for jQuery v2.0.2.
Written by Keith Wood (wood.keith{at}optusnet.com.au) February 2010.
Available under the MIT (http://keith-wood.name/licence.html) license.
Please attribute the author if you use it. */
var main = _dereq_('../main');
var assign = _dereq_('object-assign');
/** Implementation of the Coptic calendar.
See <a href="http://en.wikipedia.org/wiki/Coptic_calendar">http://en.wikipedia.org/wiki/Coptic_calendar</a>.
See also Calendrical Calculations: The Millennium Edition
(<a href="http://emr.cs.iit.edu/home/reingold/calendar-book/index.shtml">http://emr.cs.iit.edu/home/reingold/calendar-book/index.shtml</a>).
@class CopticCalendar
@param [language=''] {string} The language code (default English) for localisation. */
function CopticCalendar(language) {
this.local = this.regionalOptions[language || ''] || this.regionalOptions[''];
}
CopticCalendar.prototype = new main.baseCalendar;
assign(CopticCalendar.prototype, {
/** The calendar name.
@memberof CopticCalendar */
name: 'Coptic',
/** Julian date of start of Coptic epoch: 29 August 284 CE (Gregorian).
@memberof CopticCalendar */
jdEpoch: 1825029.5,
/** Days per month in a common year.
@memberof CopticCalendar */
daysPerMonth: [30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 5],
/** <code>true</code> if has a year zero, <code>false</code> if not.
@memberof CopticCalendar */
hasYearZero: false,
/** The minimum month number.
@memberof CopticCalendar */
minMonth: 1,
/** The first month in the year.
@memberof CopticCalendar */
firstMonth: 1,
/** The minimum day number.
@memberof CopticCalendar */
minDay: 1,
/** Localisations for the plugin.
Entries are objects indexed by the language code ('' being the default US/English).
Each object has the following attributes.
@memberof CopticCalendar
@property name {string} The calendar name.
@property epochs {string[]} The epoch names.
@property monthNames {string[]} The long names of the months of the year.
@property monthNamesShort {string[]} The short names of the months of the year.
@property dayNames {string[]} The long names of the days of the week.
@property dayNamesShort {string[]} The short names of the days of the week.
@property dayNamesMin {string[]} The minimal names of the days of the week.
@property dateFormat {string} The date format for this calendar.
See the options on <a href="BaseCalendar.html#formatDate"><code>formatDate</code></a> for details.
@property firstDay {number} The number of the first day of the week, starting at 0.
@property isRTL {number} <code>true</code> if this localisation reads right-to-left. */
regionalOptions: { // Localisations
'': {
name: 'Coptic',
epochs: ['BAM', 'AM'],
monthNames: ['Thout', 'Paopi', 'Hathor', 'Koiak', 'Tobi', 'Meshir',
'Paremhat', 'Paremoude', 'Pashons', 'Paoni', 'Epip', 'Mesori', 'Pi Kogi Enavot'],
monthNamesShort: ['Tho', 'Pao', 'Hath', 'Koi', 'Tob', 'Mesh',
'Pat', 'Pad', 'Pash', 'Pao', 'Epi', 'Meso', 'PiK'],
dayNames: ['Tkyriaka', 'Pesnau', 'Pshoment', 'Peftoou', 'Ptiou', 'Psoou', 'Psabbaton'],
dayNamesShort: ['Tky', 'Pes', 'Psh', 'Pef', 'Pti', 'Pso', 'Psa'],
dayNamesMin: ['Tk', 'Pes', 'Psh', 'Pef', 'Pt', 'Pso', 'Psa'],
digits: null,
dateFormat: 'dd/mm/yyyy',
firstDay: 0,
isRTL: false
}
},
/** Determine whether this date is in a leap year.
@memberof CopticCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {boolean} <code>true</code> if this is a leap year, <code>false</code> if not.
@throws Error if an invalid year or a different calendar used. */
leapYear: function(year) {
var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear);
var year = date.year() + (date.year() < 0 ? 1 : 0); // No year zero
return year % 4 === 3 || year % 4 === -1;
},
/** Retrieve the number of months in a year.
@memberof CopticCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {number} The number of months.
@throws Error if an invalid year or a different calendar used. */
monthsInYear: function(year) {
this._validate(year, this.minMonth, this.minDay,
main.local.invalidYear || main.regionalOptions[''].invalidYear);
return 13;
},
/** Determine the week of the year for a date.
@memberof CopticCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number) the month to examine.
@param [day] {number} The day to examine.
@return {number} The week of the year.
@throws Error if an invalid date or a different calendar used. */
weekOfYear: function(year, month, day) {
// Find Sunday of this week starting on Sunday
var checkDate = this.newDate(year, month, day);
checkDate.add(-checkDate.dayOfWeek(), 'd');
return Math.floor((checkDate.dayOfYear() - 1) / 7) + 1;
},
/** Retrieve the number of days in a month.
@memberof CopticCalendar
@param year {CDate|number} The date to examine or the year of the month.
@param [month] {number} The month.
@return {number} The number of days in this month.
@throws Error if an invalid month/year or a different calendar used. */
daysInMonth: function(year, month) {
var date = this._validate(year, month, this.minDay, main.local.invalidMonth);
return this.daysPerMonth[date.month() - 1] +
(date.month() === 13 && this.leapYear(date.year()) ? 1 : 0);
},
/** Determine whether this date is a week day.
@memberof CopticCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param month {number} The month to examine.
@param day {number} The day to examine.
@return {boolean} <code>true</code> if a week day, <code>false</code> if not.
@throws Error if an invalid date or a different calendar used. */
weekDay: function(year, month, day) {
return (this.dayOfWeek(year, month, day) || 7) < 6;
},
/** Retrieve the Julian date equivalent for this date,
i.e. days since January 1, 4713 BCE Greenwich noon.
@memberof CopticCalendar
@param year {CDate|number} The date to convert or the year to convert.
@param [month] {number) the month to convert.
@param [day] {number} The day to convert.
@return {number} The equivalent Julian date.
@throws Error if an invalid date or a different calendar used. */
toJD: function(year, month, day) {
var date = this._validate(year, month, day, main.local.invalidDate);
year = date.year();
if (year < 0) { year++; } // No year zero
return date.day() + (date.month() - 1) * 30 +
(year - 1) * 365 + Math.floor(year / 4) + this.jdEpoch - 1;
},
/** Create a new date from a Julian date.
@memberof CopticCalendar
@param jd {number} The Julian date to convert.
@return {CDate} The equivalent date. */
fromJD: function(jd) {
var c = Math.floor(jd) + 0.5 - this.jdEpoch;
var year = Math.floor((c - Math.floor((c + 366) / 1461)) / 365) + 1;
if (year <= 0) { year--; } // No year zero
c = Math.floor(jd) + 0.5 - this.newDate(year, 1, 1).toJD();
var month = Math.floor(c / 30) + 1;
var day = c - (month - 1) * 30 + 1;
return this.newDate(year, month, day);
}
});
// Coptic calendar implementation
main.calendars.coptic = CopticCalendar;
},{"../main":545,"object-assign":434}],533:[function(_dereq_,module,exports){
/*
* World Calendars
* https://github.com/alexcjohnson/world-calendars
*
* Batch-converted from kbwood/calendars
* Many thanks to Keith Wood and all of the contributors to the original project!
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
/* http://keith-wood.name/calendars.html
Discworld calendar for jQuery v2.0.2.
Written by Keith Wood (wood.keith{at}optusnet.com.au) January 2016.
Available under the MIT (http://keith-wood.name/licence.html) license.
Please attribute the author if you use it. */
var main = _dereq_('../main');
var assign = _dereq_('object-assign');
/** Implementation of the Discworld calendar - Unseen University version.
See also <a href="http://wiki.lspace.org/mediawiki/Discworld_calendar">http://wiki.lspace.org/mediawiki/Discworld_calendar</a>
and <a href="http://discworld.wikia.com/wiki/Discworld_calendar">http://discworld.wikia.com/wiki/Discworld_calendar</a>.
@class DiscworldCalendar
@param [language=''] {string} The language code (default English) for localisation. */
function DiscworldCalendar(language) {
this.local = this.regionalOptions[language || ''] || this.regionalOptions[''];
}
DiscworldCalendar.prototype = new main.baseCalendar;
assign(DiscworldCalendar.prototype, {
/** The calendar name.
@memberof DiscworldCalendar */
name: 'Discworld',
/** Julian date of start of Discworld epoch: 1 January 0001 CE.
@memberof DiscworldCalendar */
jdEpoch: 1721425.5,
/** Days per month in a common year.
@memberof DiscworldCalendar */
daysPerMonth: [16, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32],
/** <code>true</code> if has a year zero, <code>false</code> if not.
@memberof DiscworldCalendar */
hasYearZero: false,
/** The minimum month number.
@memberof DiscworldCalendar */
minMonth: 1,
/** The first month in the year.
@memberof DiscworldCalendar */
firstMonth: 1,
/** The minimum day number.
@memberof DiscworldCalendar */
minDay: 1,
/** Localisations for the plugin.
Entries are objects indexed by the language code ('' being the default US/English).
Each object has the following attributes.
@memberof DiscworldCalendar
@property name {string} The calendar name.
@property epochs {string[]} The epoch names.
@property monthNames {string[]} The long names of the months of the year.
@property monthNamesShort {string[]} The short names of the months of the year.
@property dayNames {string[]} The long names of the days of the week.
@property dayNamesShort {string[]} The short names of the days of the week.
@property dayNamesMin {string[]} The minimal names of the days of the week.
@property dateFormat {string} The date format for this calendar.
See the options on <a href="BaseCalendar.html#formatDate"><code>formatDate</code></a> for details.
@property firstDay {number} The number of the first day of the week, starting at 0.
@property isRTL {number} <code>true</code> if this localisation reads right-to-left. */
regionalOptions: { // Localisations
'': {
name: 'Discworld',
epochs: ['BUC', 'UC'],
monthNames: ['Ick', 'Offle', 'February', 'March', 'April', 'May', 'June',
'Grune', 'August', 'Spune', 'Sektober', 'Ember', 'December'],
monthNamesShort: ['Ick', 'Off', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Gru', 'Aug', 'Spu', 'Sek', 'Emb', 'Dec'],
dayNames: ['Sunday', 'Octeday', 'Monday', 'Tuesday', 'Wednesday', 'Thursday', 'Friday', 'Saturday'],
dayNamesShort: ['Sun', 'Oct', 'Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat'],
dayNamesMin: ['Su', 'Oc', 'Mo', 'Tu', 'We', 'Th', 'Fr', 'Sa'],
digits: null,
dateFormat: 'yyyy/mm/dd',
firstDay: 2,
isRTL: false
}
},
/** Determine whether this date is in a leap year.
@memberof DiscworldCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {boolean} <code>true</code> if this is a leap year, <code>false</code> if not.
@throws Error if an invalid year or a different calendar used. */
leapYear: function(year) {
this._validate(year, this.minMonth, this.minDay, main.local.invalidYear);
return false;
},
/** Retrieve the number of months in a year.
@memberof DiscworldCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {number} The number of months.
@throws Error if an invalid year or a different calendar used. */
monthsInYear: function(year) {
this._validate(year, this.minMonth, this.minDay, main.local.invalidYear);
return 13;
},
/** Retrieve the number of days in a year.
@memberof DiscworldCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {number} The number of days.
@throws Error if an invalid year or a different calendar used. */
daysInYear: function(year) {
this._validate(year, this.minMonth, this.minDay, main.local.invalidYear);
return 400;
},
/** Determine the week of the year for a date.
@memberof DiscworldCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {number} The week of the year.
@throws Error if an invalid date or a different calendar used. */
weekOfYear: function(year, month, day) {
// Find Sunday of this week starting on Sunday
var checkDate = this.newDate(year, month, day);
checkDate.add(-checkDate.dayOfWeek(), 'd');
return Math.floor((checkDate.dayOfYear() - 1) / 8) + 1;
},
/** Retrieve the number of days in a month.
@memberof DiscworldCalendar
@param year {CDate|number} The date to examine or the year of the month.
@param [month] {number} The month.
@return {number} The number of days in this month.
@throws Error if an invalid month/year or a different calendar used. */
daysInMonth: function(year, month) {
var date = this._validate(year, month, this.minDay, main.local.invalidMonth);
return this.daysPerMonth[date.month() - 1];
},
/** Retrieve the number of days in a week.
@memberof DiscworldCalendar
@return {number} The number of days. */
daysInWeek: function() {
return 8;
},
/** Retrieve the day of the week for a date.
@memberof DiscworldCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {number} The day of the week: 0 to number of days - 1.
@throws Error if an invalid date or a different calendar used. */
dayOfWeek: function(year, month, day) {
var date = this._validate(year, month, day, main.local.invalidDate);
return (date.day() + 1) % 8;
},
/** Determine whether this date is a week day.
@memberof DiscworldCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {boolean} <code>true</code> if a week day, <code>false</code> if not.
@throws Error if an invalid date or a different calendar used. */
weekDay: function(year, month, day) {
var dow = this.dayOfWeek(year, month, day);
return (dow >= 2 && dow <= 6);
},
/** Retrieve additional information about a date.
@memberof DiscworldCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {object} Additional information - contents depends on calendar.
@throws Error if an invalid date or a different calendar used. */
extraInfo: function(year, month, day) {
var date = this._validate(year, month, day, main.local.invalidDate);
return {century: centuries[Math.floor((date.year() - 1) / 100) + 1] || ''};
},
/** Retrieve the Julian date equivalent for this date,
i.e. days since January 1, 4713 BCE Greenwich noon.
@memberof DiscworldCalendar
@param year {CDate|number} The date to convert or the year to convert.
@param [month] {number} The month to convert.
@param [day] {number} The day to convert.
@return {number} The equivalent Julian date.
@throws Error if an invalid date or a different calendar used. */
toJD: function(year, month, day) {
var date = this._validate(year, month, day, main.local.invalidDate);
year = date.year() + (date.year() < 0 ? 1 : 0);
month = date.month();
day = date.day();
return day + (month > 1 ? 16 : 0) + (month > 2 ? (month - 2) * 32 : 0) +
(year - 1) * 400 + this.jdEpoch - 1;
},
/** Create a new date from a Julian date.
@memberof DiscworldCalendar
@param jd {number} The Julian date to convert.
@return {CDate} The equivalent date. */
fromJD: function(jd) {
jd = Math.floor(jd + 0.5) - Math.floor(this.jdEpoch) - 1;
var year = Math.floor(jd / 400) + 1;
jd -= (year - 1) * 400;
jd += (jd > 15 ? 16 : 0);
var month = Math.floor(jd / 32) + 1;
var day = jd - (month - 1) * 32 + 1;
return this.newDate(year <= 0 ? year - 1 : year, month, day);
}
});
// Names of the centuries
var centuries = {
20: 'Fruitbat',
21: 'Anchovy'
};
// Discworld calendar implementation
main.calendars.discworld = DiscworldCalendar;
},{"../main":545,"object-assign":434}],534:[function(_dereq_,module,exports){
/*
* World Calendars
* https://github.com/alexcjohnson/world-calendars
*
* Batch-converted from kbwood/calendars
* Many thanks to Keith Wood and all of the contributors to the original project!
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
/* http://keith-wood.name/calendars.html
Ethiopian calendar for jQuery v2.0.2.
Written by Keith Wood (wood.keith{at}optusnet.com.au) February 2010.
Available under the MIT (http://keith-wood.name/licence.html) license.
Please attribute the author if you use it. */
var main = _dereq_('../main');
var assign = _dereq_('object-assign');
/** Implementation of the Ethiopian calendar.
See <a href="http://en.wikipedia.org/wiki/Ethiopian_calendar">http://en.wikipedia.org/wiki/Ethiopian_calendar</a>.
See also Calendrical Calculations: The Millennium Edition
(<a href="http://emr.cs.iit.edu/home/reingold/calendar-book/index.shtml">http://emr.cs.iit.edu/home/reingold/calendar-book/index.shtml</a>).
@class EthiopianCalendar
@param [language=''] {string} The language code (default English) for localisation. */
function EthiopianCalendar(language) {
this.local = this.regionalOptions[language || ''] || this.regionalOptions[''];
}
EthiopianCalendar.prototype = new main.baseCalendar;
assign(EthiopianCalendar.prototype, {
/** The calendar name.
@memberof EthiopianCalendar */
name: 'Ethiopian',
/** Julian date of start of Ethiopian epoch: 27 August 8 CE (Gregorian).
@memberof EthiopianCalendar */
jdEpoch: 1724220.5,
/** Days per month in a common year.
@memberof EthiopianCalendar */
daysPerMonth: [30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 5],
/** <code>true</code> if has a year zero, <code>false</code> if not.
@memberof EthiopianCalendar */
hasYearZero: false,
/** The minimum month number.
@memberof EthiopianCalendar */
minMonth: 1,
/** The first month in the year.
@memberof EthiopianCalendar */
firstMonth: 1,
/** The minimum day number.
@memberof EthiopianCalendar */
minDay: 1,
/** Localisations for the plugin.
Entries are objects indexed by the language code ('' being the default US/English).
Each object has the following attributes.
@memberof EthiopianCalendar
@property name {string} The calendar name.
@property epochs {string[]} The epoch names.
@property monthNames {string[]} The long names of the months of the year.
@property monthNamesShort {string[]} The short names of the months of the year.
@property dayNames {string[]} The long names of the days of the week.
@property dayNamesShort {string[]} The short names of the days of the week.
@property dayNamesMin {string[]} The minimal names of the days of the week.
@property dateFormat {string} The date format for this calendar.
See the options on <a href="BaseCalendar.html#formatDate"><code>formatDate</code></a> for details.
@property firstDay {number} The number of the first day of the week, starting at 0.
@property isRTL {number} <code>true</code> if this localisation reads right-to-left. */
regionalOptions: { // Localisations
'': {
name: 'Ethiopian',
epochs: ['BEE', 'EE'],
monthNames: ['Meskerem', 'Tikemet', 'Hidar', 'Tahesas', 'Tir', 'Yekatit',
'Megabit', 'Miazia', 'Genbot', 'Sene', 'Hamle', 'Nehase', 'Pagume'],
monthNamesShort: ['Mes', 'Tik', 'Hid', 'Tah', 'Tir', 'Yek',
'Meg', 'Mia', 'Gen', 'Sen', 'Ham', 'Neh', 'Pag'],
dayNames: ['Ehud', 'Segno', 'Maksegno', 'Irob', 'Hamus', 'Arb', 'Kidame'],
dayNamesShort: ['Ehu', 'Seg', 'Mak', 'Iro', 'Ham', 'Arb', 'Kid'],
dayNamesMin: ['Eh', 'Se', 'Ma', 'Ir', 'Ha', 'Ar', 'Ki'],
digits: null,
dateFormat: 'dd/mm/yyyy',
firstDay: 0,
isRTL: false
}
},
/** Determine whether this date is in a leap year.
@memberof EthiopianCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {boolean} <code>true</code> if this is a leap year, <code>false</code> if not.
@throws Error if an invalid year or a different calendar used. */
leapYear: function(year) {
var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear);
var year = date.year() + (date.year() < 0 ? 1 : 0); // No year zero
return year % 4 === 3 || year % 4 === -1;
},
/** Retrieve the number of months in a year.
@memberof EthiopianCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {number} The number of months.
@throws Error if an invalid year or a different calendar used. */
monthsInYear: function(year) {
this._validate(year, this.minMonth, this.minDay,
main.local.invalidYear || main.regionalOptions[''].invalidYear);
return 13;
},
/** Determine the week of the year for a date.
@memberof EthiopianCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {number} The week of the year.
@throws Error if an invalid date or a different calendar used. */
weekOfYear: function(year, month, day) {
// Find Sunday of this week starting on Sunday
var checkDate = this.newDate(year, month, day);
checkDate.add(-checkDate.dayOfWeek(), 'd');
return Math.floor((checkDate.dayOfYear() - 1) / 7) + 1;
},
/** Retrieve the number of days in a month.
@memberof EthiopianCalendar
@param year {CDate|number} The date to examine or the year of the month.
@param [month] {number} The month.
@return {number} The number of days in this month.
@throws Error if an invalid month/year or a different calendar used. */
daysInMonth: function(year, month) {
var date = this._validate(year, month, this.minDay, main.local.invalidMonth);
return this.daysPerMonth[date.month() - 1] +
(date.month() === 13 && this.leapYear(date.year()) ? 1 : 0);
},
/** Determine whether this date is a week day.
@memberof EthiopianCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {boolean} <code>true</code> if a week day, <code>false</code> if not.
@throws Error if an invalid date or a different calendar used. */
weekDay: function(year, month, day) {
return (this.dayOfWeek(year, month, day) || 7) < 6;
},
/** Retrieve the Julian date equivalent for this date,
i.e. days since January 1, 4713 BCE Greenwich noon.
@memberof EthiopianCalendar
@param year {CDate|number} The date to convert or the year to convert.
@param [month] {number} The month to convert.
@param [day] {number} The day to convert.
@return {number} The equivalent Julian date.
@throws Error if an invalid date or a different calendar used. */
toJD: function(year, month, day) {
var date = this._validate(year, month, day, main.local.invalidDate);
year = date.year();
if (year < 0) { year++; } // No year zero
return date.day() + (date.month() - 1) * 30 +
(year - 1) * 365 + Math.floor(year / 4) + this.jdEpoch - 1;
},
/** Create a new date from a Julian date.
@memberof EthiopianCalendar
@param jd {number} the Julian date to convert.
@return {CDate} the equivalent date. */
fromJD: function(jd) {
var c = Math.floor(jd) + 0.5 - this.jdEpoch;
var year = Math.floor((c - Math.floor((c + 366) / 1461)) / 365) + 1;
if (year <= 0) { year--; } // No year zero
c = Math.floor(jd) + 0.5 - this.newDate(year, 1, 1).toJD();
var month = Math.floor(c / 30) + 1;
var day = c - (month - 1) * 30 + 1;
return this.newDate(year, month, day);
}
});
// Ethiopian calendar implementation
main.calendars.ethiopian = EthiopianCalendar;
},{"../main":545,"object-assign":434}],535:[function(_dereq_,module,exports){
/*
* World Calendars
* https://github.com/alexcjohnson/world-calendars
*
* Batch-converted from kbwood/calendars
* Many thanks to Keith Wood and all of the contributors to the original project!
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
/* http://keith-wood.name/calendars.html
Hebrew calendar for jQuery v2.0.2.
Written by Keith Wood (wood.keith{at}optusnet.com.au) August 2009.
Available under the MIT (http://keith-wood.name/licence.html) license.
Please attribute the author if you use it. */
var main = _dereq_('../main');
var assign = _dereq_('object-assign');
/** Implementation of the Hebrew civil calendar.
Based on code from <a href="http://www.fourmilab.ch/documents/calendar/">http://www.fourmilab.ch/documents/calendar/</a>.
See also <a href="http://en.wikipedia.org/wiki/Hebrew_calendar">http://en.wikipedia.org/wiki/Hebrew_calendar</a>.
@class HebrewCalendar
@param [language=''] {string} The language code (default English) for localisation. */
function HebrewCalendar(language) {
this.local = this.regionalOptions[language || ''] || this.regionalOptions[''];
}
HebrewCalendar.prototype = new main.baseCalendar;
assign(HebrewCalendar.prototype, {
/** The calendar name.
@memberof HebrewCalendar */
name: 'Hebrew',
/** Julian date of start of Hebrew epoch: 7 October 3761 BCE.
@memberof HebrewCalendar */
jdEpoch: 347995.5,
/** Days per month in a common year.
@memberof HebrewCalendar */
daysPerMonth: [30, 29, 30, 29, 30, 29, 30, 29, 30, 29, 30, 29, 29],
/** <code>true</code> if has a year zero, <code>false</code> if not.
@memberof HebrewCalendar */
hasYearZero: false,
/** The minimum month number.
@memberof HebrewCalendar */
minMonth: 1,
/** The first month in the year.
@memberof HebrewCalendar */
firstMonth: 7,
/** The minimum day number.
@memberof HebrewCalendar */
minDay: 1,
/** Localisations for the plugin.
Entries are objects indexed by the language code ('' being the default US/English).
Each object has the following attributes.
@memberof HebrewCalendar
@property name {string} The calendar name.
@property epochs {string[]} The epoch names.
@property monthNames {string[]} The long names of the months of the year.
@property monthNamesShort {string[]} The short names of the months of the year.
@property dayNames {string[]} The long names of the days of the week.
@property dayNamesShort {string[]} The short names of the days of the week.
@property dayNamesMin {string[]} The minimal names of the days of the week.
@property dateFormat {string} The date format for this calendar.
See the options on <a href="BaseCalendar.html#formatDate"><code>formatDate</code></a> for details.
@property firstDay {number} The number of the first day of the week, starting at 0.
@property isRTL {number} <code>true</code> if this localisation reads right-to-left. */
regionalOptions: { // Localisations
'': {
name: 'Hebrew',
epochs: ['BAM', 'AM'],
monthNames: ['Nisan', 'Iyar', 'Sivan', 'Tammuz', 'Av', 'Elul',
'Tishrei', 'Cheshvan', 'Kislev', 'Tevet', 'Shevat', 'Adar', 'Adar II'],
monthNamesShort: ['Nis', 'Iya', 'Siv', 'Tam', 'Av', 'Elu', 'Tis', 'Che', 'Kis', 'Tev', 'She', 'Ada', 'Ad2'],
dayNames: ['Yom Rishon', 'Yom Sheni', 'Yom Shlishi', 'Yom Revi\'i', 'Yom Chamishi', 'Yom Shishi', 'Yom Shabbat'],
dayNamesShort: ['Ris', 'She', 'Shl', 'Rev', 'Cha', 'Shi', 'Sha'],
dayNamesMin: ['Ri','She','Shl','Re','Ch','Shi','Sha'],
digits: null,
dateFormat: 'dd/mm/yyyy',
firstDay: 0,
isRTL: false
}
},
/** Determine whether this date is in a leap year.
@memberof HebrewCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {boolean} <code>true</code> if this is a leap year, <code>false</code> if not.
@throws Error if an invalid year or a different calendar used. */
leapYear: function(year) {
var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear);
return this._leapYear(date.year());
},
/** Determine whether this date is in a leap year.
@memberof HebrewCalendar
@private
@param year {number} The year to examine.
@return {boolean} <code>true</code> if this is a leap year, <code>false</code> if not.
@throws Error if an invalid year or a different calendar used. */
_leapYear: function(year) {
year = (year < 0 ? year + 1 : year);
return mod(year * 7 + 1, 19) < 7;
},
/** Retrieve the number of months in a year.
@memberof HebrewCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {number} The number of months.
@throws Error if an invalid year or a different calendar used. */
monthsInYear: function(year) {
this._validate(year, this.minMonth, this.minDay, main.local.invalidYear);
return this._leapYear(year.year ? year.year() : year) ? 13 : 12;
},
/** Determine the week of the year for a date.
@memberof HebrewCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {number} The week of the year.
@throws Error if an invalid date or a different calendar used. */
weekOfYear: function(year, month, day) {
// Find Sunday of this week starting on Sunday
var checkDate = this.newDate(year, month, day);
checkDate.add(-checkDate.dayOfWeek(), 'd');
return Math.floor((checkDate.dayOfYear() - 1) / 7) + 1;
},
/** Retrieve the number of days in a year.
@memberof HebrewCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {number} The number of days.
@throws Error if an invalid year or a different calendar used. */
daysInYear: function(year) {
var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear);
year = date.year();
return this.toJD((year === -1 ? +1 : year + 1), 7, 1) - this.toJD(year, 7, 1);
},
/** Retrieve the number of days in a month.
@memberof HebrewCalendar
@param year {CDate|number} The date to examine or the year of the month.
@param [month] {number} The month.
@return {number} The number of days in this month.
@throws Error if an invalid month/year or a different calendar used. */
daysInMonth: function(year, month) {
if (year.year) {
month = year.month();
year = year.year();
}
this._validate(year, month, this.minDay, main.local.invalidMonth);
return (month === 12 && this.leapYear(year) ? 30 : // Adar I
(month === 8 && mod(this.daysInYear(year), 10) === 5 ? 30 : // Cheshvan in shlemah year
(month === 9 && mod(this.daysInYear(year), 10) === 3 ? 29 : // Kislev in chaserah year
this.daysPerMonth[month - 1])));
},
/** Determine whether this date is a week day.
@memberof HebrewCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {boolean} <code>true</code> if a week day, <code>false</code> if not.
@throws Error if an invalid date or a different calendar used. */
weekDay: function(year, month, day) {
return this.dayOfWeek(year, month, day) !== 6;
},
/** Retrieve additional information about a date - year type.
@memberof HebrewCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {object} Additional information - contents depends on calendar.
@throws Error if an invalid date or a different calendar used. */
extraInfo: function(year, month, day) {
var date = this._validate(year, month, day, main.local.invalidDate);
return {yearType: (this.leapYear(date) ? 'embolismic' : 'common') + ' ' +
['deficient', 'regular', 'complete'][this.daysInYear(date) % 10 - 3]};
},
/** Retrieve the Julian date equivalent for this date,
i.e. days since January 1, 4713 BCE Greenwich noon.
@memberof HebrewCalendar
@param year {CDate)|number} The date to convert or the year to convert.
@param [month] {number} The month to convert.
@param [day] {number} The day to convert.
@return {number} The equivalent Julian date.
@throws Error if an invalid date or a different calendar used. */
toJD: function(year, month, day) {
var date = this._validate(year, month, day, main.local.invalidDate);
year = date.year();
month = date.month();
day = date.day();
var adjYear = (year <= 0 ? year + 1 : year);
var jd = this.jdEpoch + this._delay1(adjYear) +
this._delay2(adjYear) + day + 1;
if (month < 7) {
for (var m = 7; m <= this.monthsInYear(year); m++) {
jd += this.daysInMonth(year, m);
}
for (var m = 1; m < month; m++) {
jd += this.daysInMonth(year, m);
}
}
else {
for (var m = 7; m < month; m++) {
jd += this.daysInMonth(year, m);
}
}
return jd;
},
/** Test for delay of start of new year and to avoid
Sunday, Wednesday, or Friday as start of the new year.
@memberof HebrewCalendar
@private
@param year {number} The year to examine.
@return {number} The days to offset by. */
_delay1: function(year) {
var months = Math.floor((235 * year - 234) / 19);
var parts = 12084 + 13753 * months;
var day = months * 29 + Math.floor(parts / 25920);
if (mod(3 * (day + 1), 7) < 3) {
day++;
}
return day;
},
/** Check for delay in start of new year due to length of adjacent years.
@memberof HebrewCalendar
@private
@param year {number} The year to examine.
@return {number} The days to offset by. */
_delay2: function(year) {
var last = this._delay1(year - 1);
var present = this._delay1(year);
var next = this._delay1(year + 1);
return ((next - present) === 356 ? 2 : ((present - last) === 382 ? 1 : 0));
},
/** Create a new date from a Julian date.
@memberof HebrewCalendar
@param jd {number} The Julian date to convert.
@return {CDate} The equivalent date. */
fromJD: function(jd) {
jd = Math.floor(jd) + 0.5;
var year = Math.floor(((jd - this.jdEpoch) * 98496.0) / 35975351.0) - 1;
while (jd >= this.toJD((year === -1 ? +1 : year + 1), 7, 1)) {
year++;
}
var month = (jd < this.toJD(year, 1, 1)) ? 7 : 1;
while (jd > this.toJD(year, month, this.daysInMonth(year, month))) {
month++;
}
var day = jd - this.toJD(year, month, 1) + 1;
return this.newDate(year, month, day);
}
});
// Modulus function which works for non-integers.
function mod(a, b) {
return a - (b * Math.floor(a / b));
}
// Hebrew calendar implementation
main.calendars.hebrew = HebrewCalendar;
},{"../main":545,"object-assign":434}],536:[function(_dereq_,module,exports){
/*
* World Calendars
* https://github.com/alexcjohnson/world-calendars
*
* Batch-converted from kbwood/calendars
* Many thanks to Keith Wood and all of the contributors to the original project!
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
/* http://keith-wood.name/calendars.html
Islamic calendar for jQuery v2.0.2.
Written by Keith Wood (wood.keith{at}optusnet.com.au) August 2009.
Available under the MIT (http://keith-wood.name/licence.html) license.
Please attribute the author if you use it. */
var main = _dereq_('../main');
var assign = _dereq_('object-assign');
/** Implementation of the Islamic or '16 civil' calendar.
Based on code from <a href="http://www.iranchamber.com/calendar/converter/iranian_calendar_converter.php">http://www.iranchamber.com/calendar/converter/iranian_calendar_converter.php</a>.
See also <a href="http://en.wikipedia.org/wiki/Islamic_calendar">http://en.wikipedia.org/wiki/Islamic_calendar</a>.
@class IslamicCalendar
@param [language=''] {string} The language code (default English) for localisation. */
function IslamicCalendar(language) {
this.local = this.regionalOptions[language || ''] || this.regionalOptions[''];
}
IslamicCalendar.prototype = new main.baseCalendar;
assign(IslamicCalendar.prototype, {
/** The calendar name.
@memberof IslamicCalendar */
name: 'Islamic',
/** Julian date of start of Islamic epoch: 16 July 622 CE.
@memberof IslamicCalendar */
jdEpoch: 1948439.5,
/** Days per month in a common year.
@memberof IslamicCalendar */
daysPerMonth: [30, 29, 30, 29, 30, 29, 30, 29, 30, 29, 30, 29],
/** <code>true</code> if has a year zero, <code>false</code> if not.
@memberof IslamicCalendar */
hasYearZero: false,
/** The minimum month number.
@memberof IslamicCalendar */
minMonth: 1,
/** The first month in the year.
@memberof IslamicCalendar */
firstMonth: 1,
/** The minimum day number.
@memberof IslamicCalendar */
minDay: 1,
/** Localisations for the plugin.
Entries are objects indexed by the language code ('' being the default US/English).
Each object has the following attributes.
@memberof IslamicCalendar
@property name {string} The calendar name.
@property epochs {string[]} The epoch names.
@property monthNames {string[]} The long names of the months of the year.
@property monthNamesShort {string[]} The short names of the months of the year.
@property dayNames {string[]} The long names of the days of the week.
@property dayNamesShort {string[]} The short names of the days of the week.
@property dayNamesMin {string[]} The minimal names of the days of the week.
@property dateFormat {string} The date format for this calendar.
See the options on <a href="BaseCalendar.html#formatDate"><code>formatDate</code></a> for details.
@property firstDay {number} The number of the first day of the week, starting at 0.
@property isRTL {number} <code>true</code> if this localisation reads right-to-left. */
regionalOptions: { // Localisations
'': {
name: 'Islamic',
epochs: ['BH', 'AH'],
monthNames: ['Muharram', 'Safar', 'Rabi\' al-awwal', 'Rabi\' al-thani', 'Jumada al-awwal', 'Jumada al-thani',
'Rajab', 'Sha\'aban', 'Ramadan', 'Shawwal', 'Dhu al-Qi\'dah', 'Dhu al-Hijjah'],
monthNamesShort: ['Muh', 'Saf', 'Rab1', 'Rab2', 'Jum1', 'Jum2', 'Raj', 'Sha\'', 'Ram', 'Shaw', 'DhuQ', 'DhuH'],
dayNames: ['Yawm al-ahad', 'Yawm al-ithnayn', 'Yawm ath-thulaathaa\'',
'Yawm al-arbi\'aa\'', 'Yawm al-khamīs', 'Yawm al-jum\'a', 'Yawm as-sabt'],
dayNamesShort: ['Aha', 'Ith', 'Thu', 'Arb', 'Kha', 'Jum', 'Sab'],
dayNamesMin: ['Ah','It','Th','Ar','Kh','Ju','Sa'],
digits: null,
dateFormat: 'yyyy/mm/dd',
firstDay: 6,
isRTL: false
}
},
/** Determine whether this date is in a leap year.
@memberof IslamicCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {boolean} <code>true</code> if this is a leap year, <code>false</code> if not.
@throws Error if an invalid year or a different calendar used. */
leapYear: function(year) {
var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear);
return (date.year() * 11 + 14) % 30 < 11;
},
/** Determine the week of the year for a date.
@memberof IslamicCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {number} The week of the year.
@throws Error if an invalid date or a different calendar used. */
weekOfYear: function(year, month, day) {
// Find Sunday of this week starting on Sunday
var checkDate = this.newDate(year, month, day);
checkDate.add(-checkDate.dayOfWeek(), 'd');
return Math.floor((checkDate.dayOfYear() - 1) / 7) + 1;
},
/** Retrieve the number of days in a year.
@memberof IslamicCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {number} The number of days.
@throws Error if an invalid year or a different calendar used. */
daysInYear: function(year) {
return (this.leapYear(year) ? 355 : 354);
},
/** Retrieve the number of days in a month.
@memberof IslamicCalendar
@param year {CDate|number} The date to examine or the year of the month.
@param [month] {number} The month.
@return {number} The number of days in this month.
@throws Error if an invalid month/year or a different calendar used. */
daysInMonth: function(year, month) {
var date = this._validate(year, month, this.minDay, main.local.invalidMonth);
return this.daysPerMonth[date.month() - 1] +
(date.month() === 12 && this.leapYear(date.year()) ? 1 : 0);
},
/** Determine whether this date is a week day.
@memberof IslamicCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {boolean} <code>true</code> if a week day, <code>false</code> if not.
@throws Error if an invalid date or a different calendar used. */
weekDay: function(year, month, day) {
return this.dayOfWeek(year, month, day) !== 5;
},
/** Retrieve the Julian date equivalent for this date,
i.e. days since January 1, 4713 BCE Greenwich noon.
@memberof IslamicCalendar
@param year {CDate|number} The date to convert or the year to convert.
@param [month] {number} The month to convert.
@param [day] {number} The day to convert.
@return {number} The equivalent Julian date.
@throws Error if an invalid date or a different calendar used. */
toJD: function(year, month, day) {
var date = this._validate(year, month, day, main.local.invalidDate);
year = date.year();
month = date.month();
day = date.day();
year = (year <= 0 ? year + 1 : year);
return day + Math.ceil(29.5 * (month - 1)) + (year - 1) * 354 +
Math.floor((3 + (11 * year)) / 30) + this.jdEpoch - 1;
},
/** Create a new date from a Julian date.
@memberof IslamicCalendar
@param jd {number} The Julian date to convert.
@return {CDate} The equivalent date. */
fromJD: function(jd) {
jd = Math.floor(jd) + 0.5;
var year = Math.floor((30 * (jd - this.jdEpoch) + 10646) / 10631);
year = (year <= 0 ? year - 1 : year);
var month = Math.min(12, Math.ceil((jd - 29 - this.toJD(year, 1, 1)) / 29.5) + 1);
var day = jd - this.toJD(year, month, 1) + 1;
return this.newDate(year, month, day);
}
});
// Islamic (16 civil) calendar implementation
main.calendars.islamic = IslamicCalendar;
},{"../main":545,"object-assign":434}],537:[function(_dereq_,module,exports){
/*
* World Calendars
* https://github.com/alexcjohnson/world-calendars
*
* Batch-converted from kbwood/calendars
* Many thanks to Keith Wood and all of the contributors to the original project!
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
/* http://keith-wood.name/calendars.html
Julian calendar for jQuery v2.0.2.
Written by Keith Wood (wood.keith{at}optusnet.com.au) August 2009.
Available under the MIT (http://keith-wood.name/licence.html) license.
Please attribute the author if you use it. */
var main = _dereq_('../main');
var assign = _dereq_('object-assign');
/** Implementation of the Julian calendar.
Based on code from <a href="http://www.fourmilab.ch/documents/calendar/">http://www.fourmilab.ch/documents/calendar/</a>.
See also <a href="http://en.wikipedia.org/wiki/Julian_calendar">http://en.wikipedia.org/wiki/Julian_calendar</a>.
@class JulianCalendar
@augments BaseCalendar
@param [language=''] {string} The language code (default English) for localisation. */
function JulianCalendar(language) {
this.local = this.regionalOptions[language || ''] || this.regionalOptions[''];
}
JulianCalendar.prototype = new main.baseCalendar;
assign(JulianCalendar.prototype, {
/** The calendar name.
@memberof JulianCalendar */
name: 'Julian',
/** Julian date of start of Julian epoch: 1 January 0001 AD = 30 December 0001 BCE.
@memberof JulianCalendar */
jdEpoch: 1721423.5,
/** Days per month in a common year.
@memberof JulianCalendar */
daysPerMonth: [31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31],
/** <code>true</code> if has a year zero, <code>false</code> if not.
@memberof JulianCalendar */
hasYearZero: false,
/** The minimum month number.
@memberof JulianCalendar */
minMonth: 1,
/** The first month in the year.
@memberof JulianCalendar */
firstMonth: 1,
/** The minimum day number.
@memberof JulianCalendar */
minDay: 1,
/** Localisations for the plugin.
Entries are objects indexed by the language code ('' being the default US/English).
Each object has the following attributes.
@memberof JulianCalendar
@property name {string} The calendar name.
@property epochs {string[]} The epoch names.
@property monthNames {string[]} The long names of the months of the year.
@property monthNamesShort {string[]} The short names of the months of the year.
@property dayNames {string[]} The long names of the days of the week.
@property dayNamesShort {string[]} The short names of the days of the week.
@property dayNamesMin {string[]} The minimal names of the days of the week.
@property dateFormat {string} The date format for this calendar.
See the options on <a href="BaseCalendar.html#formatDate"><code>formatDate</code></a> for details.
@property firstDay {number} The number of the first day of the week, starting at 0.
@property isRTL {number} <code>true</code> if this localisation reads right-to-left. */
regionalOptions: { // Localisations
'': {
name: 'Julian',
epochs: ['BC', 'AD'],
monthNames: ['January', 'February', 'March', 'April', 'May', 'June',
'July', 'August', 'September', 'October', 'November', 'December'],
monthNamesShort: ['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'],
dayNames: ['Sunday', 'Monday', 'Tuesday', 'Wednesday', 'Thursday', 'Friday', 'Saturday'],
dayNamesShort: ['Sun', 'Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat'],
dayNamesMin: ['Su', 'Mo', 'Tu', 'We', 'Th', 'Fr', 'Sa'],
digits: null,
dateFormat: 'mm/dd/yyyy',
firstDay: 0,
isRTL: false
}
},
/** Determine whether this date is in a leap year.
@memberof JulianCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {boolean} <code>true</code> if this is a leap year, <code>false</code> if not.
@throws Error if an invalid year or a different calendar used. */
leapYear: function(year) {
var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear);
var year = (date.year() < 0 ? date.year() + 1 : date.year()); // No year zero
return (year % 4) === 0;
},
/** Determine the week of the year for a date - ISO 8601.
@memberof JulianCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {number} The week of the year.
@throws Error if an invalid date or a different calendar used. */
weekOfYear: function(year, month, day) {
// Find Thursday of this week starting on Monday
var checkDate = this.newDate(year, month, day);
checkDate.add(4 - (checkDate.dayOfWeek() || 7), 'd');
return Math.floor((checkDate.dayOfYear() - 1) / 7) + 1;
},
/** Retrieve the number of days in a month.
@memberof JulianCalendar
@param year {CDate|number} The date to examine or the year of the month.
@param [month] {number} The month.
@return {number} The number of days in this month.
@throws Error if an invalid month/year or a different calendar used. */
daysInMonth: function(year, month) {
var date = this._validate(year, month, this.minDay, main.local.invalidMonth);
return this.daysPerMonth[date.month() - 1] +
(date.month() === 2 && this.leapYear(date.year()) ? 1 : 0);
},
/** Determine whether this date is a week day.
@memberof JulianCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {boolean} True if a week day, false if not.
@throws Error if an invalid date or a different calendar used. */
weekDay: function(year, month, day) {
return (this.dayOfWeek(year, month, day) || 7) < 6;
},
/** Retrieve the Julian date equivalent for this date,
i.e. days since January 1, 4713 BCE Greenwich noon.
@memberof JulianCalendar
@param year {CDate|number} The date to convert or the year to convert.
@param [month] {number} The month to convert.
@param [day] {number} The day to convert.
@return {number} The equivalent Julian date.
@throws Error if an invalid date or a different calendar used. */
toJD: function(year, month, day) {
var date = this._validate(year, month, day, main.local.invalidDate);
year = date.year();
month = date.month();
day = date.day();
if (year < 0) { year++; } // No year zero
// Jean Meeus algorithm, "Astronomical Algorithms", 1991
if (month <= 2) {
year--;
month += 12;
}
return Math.floor(365.25 * (year + 4716)) +
Math.floor(30.6001 * (month + 1)) + day - 1524.5;
},
/** Create a new date from a Julian date.
@memberof JulianCalendar
@param jd {number} The Julian date to convert.
@return {CDate} The equivalent date. */
fromJD: function(jd) {
// Jean Meeus algorithm, "Astronomical Algorithms", 1991
var a = Math.floor(jd + 0.5);
var b = a + 1524;
var c = Math.floor((b - 122.1) / 365.25);
var d = Math.floor(365.25 * c);
var e = Math.floor((b - d) / 30.6001);
var month = e - Math.floor(e < 14 ? 1 : 13);
var year = c - Math.floor(month > 2 ? 4716 : 4715);
var day = b - d - Math.floor(30.6001 * e);
if (year <= 0) { year--; } // No year zero
return this.newDate(year, month, day);
}
});
// Julian calendar implementation
main.calendars.julian = JulianCalendar;
},{"../main":545,"object-assign":434}],538:[function(_dereq_,module,exports){
/*
* World Calendars
* https://github.com/alexcjohnson/world-calendars
*
* Batch-converted from kbwood/calendars
* Many thanks to Keith Wood and all of the contributors to the original project!
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
/* http://keith-wood.name/calendars.html
Mayan calendar for jQuery v2.0.2.
Written by Keith Wood (wood.keith{at}optusnet.com.au) August 2009.
Available under the MIT (http://keith-wood.name/licence.html) license.
Please attribute the author if you use it. */
var main = _dereq_('../main');
var assign = _dereq_('object-assign');
/** Implementation of the Mayan Long Count calendar.
See also <a href="http://en.wikipedia.org/wiki/Mayan_calendar">http://en.wikipedia.org/wiki/Mayan_calendar</a>.
@class MayanCalendar
@param [language=''] {string} The language code (default English) for localisation. */
function MayanCalendar(language) {
this.local = this.regionalOptions[language || ''] || this.regionalOptions[''];
}
MayanCalendar.prototype = new main.baseCalendar;
assign(MayanCalendar.prototype, {
/** The calendar name.
@memberof MayanCalendar */
name: 'Mayan',
/** Julian date of start of Mayan epoch: 11 August 3114 BCE.
@memberof MayanCalendar */
jdEpoch: 584282.5,
/** <code>true</code> if has a year zero, <code>false</code> if not.
@memberof MayanCalendar */
hasYearZero: true,
/** The minimum month number.
@memberof MayanCalendar */
minMonth: 0,
/** The first month in the year.
@memberof MayanCalendar */
firstMonth: 0,
/** The minimum day number.
@memberof MayanCalendar */
minDay: 0,
/** Localisations for the plugin.
Entries are objects indexed by the language code ('' being the default US/English).
Each object has the following attributes.
@memberof MayanCalendar
@property name {string} The calendar name.
@property epochs {string[]} The epoch names.
@property monthNames {string[]} The long names of the months of the year.
@property monthNamesShort {string[]} The short names of the months of the year.
@property dayNames {string[]} The long names of the days of the week.
@property dayNamesShort {string[]} The short names of the days of the week.
@property dayNamesMin {string[]} The minimal names of the days of the week.
@property dateFormat {string} The date format for this calendar.
See the options on <a href="BaseCalendar.html#formatDate"><code>formatDate</code></a> for details.
@property firstDay {number} The number of the first day of the week, starting at 0.
@property isRTL {number} <code>true</code> if this localisation reads right-to-left.
@property haabMonths {string[]} The names of the Haab months.
@property tzolkinMonths {string[]} The names of the Tzolkin months. */
regionalOptions: { // Localisations
'': {
name: 'Mayan',
epochs: ['', ''],
monthNames: ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9',
'10', '11', '12', '13', '14', '15', '16', '17'],
monthNamesShort: ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9',
'10', '11', '12', '13', '14', '15', '16', '17'],
dayNames: ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9',
'10', '11', '12', '13', '14', '15', '16', '17', '18', '19'],
dayNamesShort: ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9',
'10', '11', '12', '13', '14', '15', '16', '17', '18', '19'],
dayNamesMin: ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9',
'10', '11', '12', '13', '14', '15', '16', '17', '18', '19'],
digits: null,
dateFormat: 'YYYY.m.d',
firstDay: 0,
isRTL: false,
haabMonths: ['Pop', 'Uo', 'Zip', 'Zotz', 'Tzec', 'Xul', 'Yaxkin', 'Mol', 'Chen', 'Yax',
'Zac', 'Ceh', 'Mac', 'Kankin', 'Muan', 'Pax', 'Kayab', 'Cumku', 'Uayeb'],
tzolkinMonths: ['Imix', 'Ik', 'Akbal', 'Kan', 'Chicchan', 'Cimi', 'Manik', 'Lamat', 'Muluc', 'Oc',
'Chuen', 'Eb', 'Ben', 'Ix', 'Men', 'Cib', 'Caban', 'Etznab', 'Cauac', 'Ahau']
}
},
/** Determine whether this date is in a leap year.
@memberof MayanCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {boolean} <code>true</code> if this is a leap year, <code>false</code> if not.
@throws Error if an invalid year or a different calendar used. */
leapYear: function(year) {
this._validate(year, this.minMonth, this.minDay, main.local.invalidYear);
return false;
},
/** Format the year, if not a simple sequential number.
@memberof MayanCalendar
@param year {CDate|number} The date to format or the year to format.
@return {string} The formatted year.
@throws Error if an invalid year or a different calendar used. */
formatYear: function(year) {
var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear);
year = date.year();
var baktun = Math.floor(year / 400);
year = year % 400;
year += (year < 0 ? 400 : 0);
var katun = Math.floor(year / 20);
return baktun + '.' + katun + '.' + (year % 20);
},
/** Convert from the formatted year back to a single number.
@memberof MayanCalendar
@param years {string} The year as n.n.n.
@return {number} The sequential year.
@throws Error if an invalid value is supplied. */
forYear: function(years) {
years = years.split('.');
if (years.length < 3) {
throw 'Invalid Mayan year';
}
var year = 0;
for (var i = 0; i < years.length; i++) {
var y = parseInt(years[i], 10);
if (Math.abs(y) > 19 || (i > 0 && y < 0)) {
throw 'Invalid Mayan year';
}
year = year * 20 + y;
}
return year;
},
/** Retrieve the number of months in a year.
@memberof MayanCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {number} The number of months.
@throws Error if an invalid year or a different calendar used. */
monthsInYear: function(year) {
this._validate(year, this.minMonth, this.minDay, main.local.invalidYear);
return 18;
},
/** Determine the week of the year for a date.
@memberof MayanCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {number} The week of the year.
@throws Error if an invalid date or a different calendar used. */
weekOfYear: function(year, month, day) {
this._validate(year, month, day, main.local.invalidDate);
return 0;
},
/** Retrieve the number of days in a year.
@memberof MayanCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {number} The number of days.
@throws Error if an invalid year or a different calendar used. */
daysInYear: function(year) {
this._validate(year, this.minMonth, this.minDay, main.local.invalidYear);
return 360;
},
/** Retrieve the number of days in a month.
@memberof MayanCalendar
@param year {CDate|number} The date to examine or the year of the month.
@param [month] {number} The month.
@return {number} The number of days in this month.
@throws Error if an invalid month/year or a different calendar used. */
daysInMonth: function(year, month) {
this._validate(year, month, this.minDay, main.local.invalidMonth);
return 20;
},
/** Retrieve the number of days in a week.
@memberof MayanCalendar
@return {number} The number of days. */
daysInWeek: function() {
return 5; // Just for formatting
},
/** Retrieve the day of the week for a date.
@memberof MayanCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {number} The day of the week: 0 to number of days - 1.
@throws Error if an invalid date or a different calendar used. */
dayOfWeek: function(year, month, day) {
var date = this._validate(year, month, day, main.local.invalidDate);
return date.day();
},
/** Determine whether this date is a week day.
@memberof MayanCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {boolean} <code>true</code> if a week day, <code>false</code> if not.
@throws Error if an invalid date or a different calendar used. */
weekDay: function(year, month, day) {
this._validate(year, month, day, main.local.invalidDate);
return true;
},
/** Retrieve additional information about a date - Haab and Tzolkin equivalents.
@memberof MayanCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {object} Additional information - contents depends on calendar.
@throws Error if an invalid date or a different calendar used. */
extraInfo: function(year, month, day) {
var date = this._validate(year, month, day, main.local.invalidDate);
var jd = date.toJD();
var haab = this._toHaab(jd);
var tzolkin = this._toTzolkin(jd);
return {haabMonthName: this.local.haabMonths[haab[0] - 1],
haabMonth: haab[0], haabDay: haab[1],
tzolkinDayName: this.local.tzolkinMonths[tzolkin[0] - 1],
tzolkinDay: tzolkin[0], tzolkinTrecena: tzolkin[1]};
},
/** Retrieve Haab date from a Julian date.
@memberof MayanCalendar
@private
@param jd {number} The Julian date.
@return {number[]} Corresponding Haab month and day. */
_toHaab: function(jd) {
jd -= this.jdEpoch;
var day = mod(jd + 8 + ((18 - 1) * 20), 365);
return [Math.floor(day / 20) + 1, mod(day, 20)];
},
/** Retrieve Tzolkin date from a Julian date.
@memberof MayanCalendar
@private
@param jd {number} The Julian date.
@return {number[]} Corresponding Tzolkin day and trecena. */
_toTzolkin: function(jd) {
jd -= this.jdEpoch;
return [amod(jd + 20, 20), amod(jd + 4, 13)];
},
/** Retrieve the Julian date equivalent for this date,
i.e. days since January 1, 4713 BCE Greenwich noon.
@memberof MayanCalendar
@param year {CDate|number} The date to convert or the year to convert.
@param [month] {number} The month to convert.
@param [day] {number} The day to convert.
@return {number} The equivalent Julian date.
@throws Error if an invalid date or a different calendar used. */
toJD: function(year, month, day) {
var date = this._validate(year, month, day, main.local.invalidDate);
return date.day() + (date.month() * 20) + (date.year() * 360) + this.jdEpoch;
},
/** Create a new date from a Julian date.
@memberof MayanCalendar
@param jd {number} The Julian date to convert.
@return {CDate} The equivalent date. */
fromJD: function(jd) {
jd = Math.floor(jd) + 0.5 - this.jdEpoch;
var year = Math.floor(jd / 360);
jd = jd % 360;
jd += (jd < 0 ? 360 : 0);
var month = Math.floor(jd / 20);
var day = jd % 20;
return this.newDate(year, month, day);
}
});
// Modulus function which works for non-integers.
function mod(a, b) {
return a - (b * Math.floor(a / b));
}
// Modulus function which returns numerator if modulus is zero.
function amod(a, b) {
return mod(a - 1, b) + 1;
}
// Mayan calendar implementation
main.calendars.mayan = MayanCalendar;
},{"../main":545,"object-assign":434}],539:[function(_dereq_,module,exports){
/*
* World Calendars
* https://github.com/alexcjohnson/world-calendars
*
* Batch-converted from kbwood/calendars
* Many thanks to Keith Wood and all of the contributors to the original project!
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
/* http://keith-wood.name/calendars.html
Nanakshahi calendar for jQuery v2.0.2.
Written by Keith Wood (wood.keith{at}optusnet.com.au) January 2016.
Available under the MIT (http://keith-wood.name/licence.html) license.
Please attribute the author if you use it. */
var main = _dereq_('../main');
var assign = _dereq_('object-assign');
/** Implementation of the Nanakshahi calendar.
See also <a href="https://en.wikipedia.org/wiki/Nanakshahi_calendar">https://en.wikipedia.org/wiki/Nanakshahi_calendar</a>.
@class NanakshahiCalendar
@param [language=''] {string} The language code (default English) for localisation. */
function NanakshahiCalendar(language) {
this.local = this.regionalOptions[language || ''] || this.regionalOptions[''];
}
NanakshahiCalendar.prototype = new main.baseCalendar;
var gregorian = main.instance('gregorian');
assign(NanakshahiCalendar.prototype, {
/** The calendar name.
@memberof NanakshahiCalendar */
name: 'Nanakshahi',
/** Julian date of start of Nanakshahi epoch: 14 March 1469 CE.
@memberof NanakshahiCalendar */
jdEpoch: 2257673.5,
/** Days per month in a common year.
@memberof NanakshahiCalendar */
daysPerMonth: [31, 31, 31, 31, 31, 30, 30, 30, 30, 30, 30, 30],
/** <code>true</code> if has a year zero, <code>false</code> if not.
@memberof NanakshahiCalendar */
hasYearZero: false,
/** The minimum month number.
@memberof NanakshahiCalendar */
minMonth: 1,
/** The first month in the year.
@memberof NanakshahiCalendar */
firstMonth: 1,
/** The minimum day number.
@memberof NanakshahiCalendar */
minDay: 1,
/** Localisations for the plugin.
Entries are objects indexed by the language code ('' being the default US/English).
Each object has the following attributes.
@memberof NanakshahiCalendar
@property name {string} The calendar name.
@property epochs {string[]} The epoch names.
@property monthNames {string[]} The long names of the months of the year.
@property monthNamesShort {string[]} The short names of the months of the year.
@property dayNames {string[]} The long names of the days of the week.
@property dayNamesShort {string[]} The short names of the days of the week.
@property dayNamesMin {string[]} The minimal names of the days of the week.
@property dateFormat {string} The date format for this calendar.
See the options on <a href="BaseCalendar.html#formatDate"><code>formatDate</code></a> for details.
@property firstDay {number} The number of the first day of the week, starting at 0.
@property isRTL {number} <code>true</code> if this localisation reads right-to-left. */
regionalOptions: { // Localisations
'': {
name: 'Nanakshahi',
epochs: ['BN', 'AN'],
monthNames: ['Chet', 'Vaisakh', 'Jeth', 'Harh', 'Sawan', 'Bhadon',
'Assu', 'Katak', 'Maghar', 'Poh', 'Magh', 'Phagun'],
monthNamesShort: ['Che', 'Vai', 'Jet', 'Har', 'Saw', 'Bha', 'Ass', 'Kat', 'Mgr', 'Poh', 'Mgh', 'Pha'],
dayNames: ['Somvaar', 'Mangalvar', 'Budhvaar', 'Veervaar', 'Shukarvaar', 'Sanicharvaar', 'Etvaar'],
dayNamesShort: ['Som', 'Mangal', 'Budh', 'Veer', 'Shukar', 'Sanichar', 'Et'],
dayNamesMin: ['So', 'Ma', 'Bu', 'Ve', 'Sh', 'Sa', 'Et'],
digits: null,
dateFormat: 'dd-mm-yyyy',
firstDay: 0,
isRTL: false
}
},
/** Determine whether this date is in a leap year.
@memberof NanakshahiCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {boolean} <code>true</code> if this is a leap year, <code>false</code> if not.
@throws Error if an invalid year or a different calendar used. */
leapYear: function(year) {
var date = this._validate(year, this.minMonth, this.minDay,
main.local.invalidYear || main.regionalOptions[''].invalidYear);
return gregorian.leapYear(date.year() + (date.year() < 1 ? 1 : 0) + 1469);
},
/** Determine the week of the year for a date.
@memberof NanakshahiCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {number} The week of the year.
@throws Error if an invalid date or a different calendar used. */
weekOfYear: function(year, month, day) {
// Find Monday of this week starting on Monday
var checkDate = this.newDate(year, month, day);
checkDate.add(1 - (checkDate.dayOfWeek() || 7), 'd');
return Math.floor((checkDate.dayOfYear() - 1) / 7) + 1;
},
/** Retrieve the number of days in a month.
@memberof NanakshahiCalendar
@param year {CDate|number} The date to examine or the year of the month.
@param [month] {number} The month.
@return {number} The number of days in this month.
@throws Error if an invalid month/year or a different calendar used. */
daysInMonth: function(year, month) {
var date = this._validate(year, month, this.minDay, main.local.invalidMonth);
return this.daysPerMonth[date.month() - 1] +
(date.month() === 12 && this.leapYear(date.year()) ? 1 : 0);
},
/** Determine whether this date is a week day.
@memberof NanakshahiCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {boolean} <code>true</code> if a week day, <code>false</code> if not.
@throws Error if an invalid date or a different calendar used. */
weekDay: function(year, month, day) {
return (this.dayOfWeek(year, month, day) || 7) < 6;
},
/** Retrieve the Julian date equivalent for this date,
i.e. days since January 1, 4713 BCE Greenwich noon.
@memberof NanakshahiCalendar
@param year {CDate|number} The date to convert or the year to convert.
@param [month] {number} The month to convert.
@param [day] {number} The day to convert.
@return {number} The equivalent Julian date.
@throws Error if an invalid date or a different calendar used. */
toJD: function(year, month, day) {
var date = this._validate(year, month, day, main.local.invalidMonth);
var year = date.year();
if (year < 0) { year++; } // No year zero
var doy = date.day();
for (var m = 1; m < date.month(); m++) {
doy += this.daysPerMonth[m - 1];
}
return doy + gregorian.toJD(year + 1468, 3, 13);
},
/** Create a new date from a Julian date.
@memberof NanakshahiCalendar
@param jd {number} The Julian date to convert.
@return {CDate} The equivalent date. */
fromJD: function(jd) {
jd = Math.floor(jd + 0.5);
var year = Math.floor((jd - (this.jdEpoch - 1)) / 366);
while (jd >= this.toJD(year + 1, 1, 1)) {
year++;
}
var day = jd - Math.floor(this.toJD(year, 1, 1) + 0.5) + 1;
var month = 1;
while (day > this.daysInMonth(year, month)) {
day -= this.daysInMonth(year, month);
month++;
}
return this.newDate(year, month, day);
}
});
// Nanakshahi calendar implementation
main.calendars.nanakshahi = NanakshahiCalendar;
},{"../main":545,"object-assign":434}],540:[function(_dereq_,module,exports){
/*
* World Calendars
* https://github.com/alexcjohnson/world-calendars
*
* Batch-converted from kbwood/calendars
* Many thanks to Keith Wood and all of the contributors to the original project!
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
/* http://keith-wood.name/calendars.html
Nepali calendar for jQuery v2.0.2.
Written by Artur Neumann (ict.projects{at}nepal.inf.org) April 2013.
Available under the MIT (http://keith-wood.name/licence.html) license.
Please attribute the author if you use it. */
var main = _dereq_('../main');
var assign = _dereq_('object-assign');
/** Implementation of the Nepali civil calendar.
Based on the ideas from
<a href="http://codeissue.com/articles/a04e050dea7468f/algorithm-to-convert-english-date-to-nepali-date-using-c-net">http://codeissue.com/articles/a04e050dea7468f/algorithm-to-convert-english-date-to-nepali-date-using-c-net</a>
and <a href="http://birenj2ee.blogspot.com/2011/04/nepali-calendar-in-java.html">http://birenj2ee.blogspot.com/2011/04/nepali-calendar-in-java.html</a>
See also <a href="http://en.wikipedia.org/wiki/Nepali_calendar">http://en.wikipedia.org/wiki/Nepali_calendar</a>
and <a href="https://en.wikipedia.org/wiki/Bikram_Samwat">https://en.wikipedia.org/wiki/Bikram_Samwat</a>.
@class NepaliCalendar
@param [language=''] {string} The language code (default English) for localisation. */
function NepaliCalendar(language) {
this.local = this.regionalOptions[language || ''] || this.regionalOptions[''];
}
NepaliCalendar.prototype = new main.baseCalendar;
assign(NepaliCalendar.prototype, {
/** The calendar name.
@memberof NepaliCalendar */
name: 'Nepali',
/** Julian date of start of Nepali epoch: 14 April 57 BCE.
@memberof NepaliCalendar */
jdEpoch: 1700709.5,
/** Days per month in a common year.
@memberof NepaliCalendar */
daysPerMonth: [31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30],
/** <code>true</code> if has a year zero, <code>false</code> if not.
@memberof NepaliCalendar */
hasYearZero: false,
/** The minimum month number.
@memberof NepaliCalendar */
minMonth: 1,
/** The first month in the year.
@memberof NepaliCalendar */
firstMonth: 1,
/** The minimum day number.
@memberof NepaliCalendar */
minDay: 1,
/** The number of days in the year.
@memberof NepaliCalendar */
daysPerYear: 365,
/** Localisations for the plugin.
Entries are objects indexed by the language code ('' being the default US/English).
Each object has the following attributes.
@memberof NepaliCalendar
@property name {string} The calendar name.
@property epochs {string[]} The epoch names.
@property monthNames {string[]} The long names of the months of the year.
@property monthNamesShort {string[]} The short names of the months of the year.
@property dayNames {string[]} The long names of the days of the week.
@property dayNamesShort {string[]} The short names of the days of the week.
@property dayNamesMin {string[]} The minimal names of the days of the week.
@property dateFormat {string} The date format for this calendar.
See the options on <a href="BaseCalendar.html#formatDate"><code>formatDate</code></a> for details.
@property firstDay {number} The number of the first day of the week, starting at 0.
@property isRTL {number} <code>true</code> if this localisation reads right-to-left. */
regionalOptions: { // Localisations
'': {
name: 'Nepali',
epochs: ['BBS', 'ABS'],
monthNames: ['Baisakh', 'Jestha', 'Ashadh', 'Shrawan', 'Bhadra', 'Ashwin',
'Kartik', 'Mangsir', 'Paush', 'Mangh', 'Falgun', 'Chaitra'],
monthNamesShort: ['Bai', 'Je', 'As', 'Shra', 'Bha', 'Ash', 'Kar', 'Mang', 'Pau', 'Ma', 'Fal', 'Chai'],
dayNames: ['Aaitabaar', 'Sombaar', 'Manglbaar', 'Budhabaar', 'Bihibaar', 'Shukrabaar', 'Shanibaar'],
dayNamesShort: ['Aaita', 'Som', 'Mangl', 'Budha', 'Bihi', 'Shukra', 'Shani'],
dayNamesMin: ['Aai', 'So', 'Man', 'Bu', 'Bi', 'Shu', 'Sha'],
digits: null,
dateFormat: 'dd/mm/yyyy',
firstDay: 1,
isRTL: false
}
},
/** Determine whether this date is in a leap year.
@memberof NepaliCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {boolean} <code>true</code> if this is a leap year, <code>false</code> if not.
@throws Error if an invalid year or a different calendar used. */
leapYear: function(year) {
return this.daysInYear(year) !== this.daysPerYear;
},
/** Determine the week of the year for a date.
@memberof NepaliCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {number} The week of the year.
@throws Error if an invalid date or a different calendar used. */
weekOfYear: function(year, month, day) {
// Find Sunday of this week starting on Sunday
var checkDate = this.newDate(year, month, day);
checkDate.add(-checkDate.dayOfWeek(), 'd');
return Math.floor((checkDate.dayOfYear() - 1) / 7) + 1;
},
/** Retrieve the number of days in a year.
@memberof NepaliCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {number} The number of days.
@throws Error if an invalid year or a different calendar used. */
daysInYear: function(year) {
var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear);
year = date.year();
if (typeof this.NEPALI_CALENDAR_DATA[year] === 'undefined') {
return this.daysPerYear;
}
var daysPerYear = 0;
for (var month_number = this.minMonth; month_number <= 12; month_number++) {
daysPerYear += this.NEPALI_CALENDAR_DATA[year][month_number];
}
return daysPerYear;
},
/** Retrieve the number of days in a month.
@memberof NepaliCalendar
@param year {CDate|number| The date to examine or the year of the month.
@param [month] {number} The month.
@return {number} The number of days in this month.
@throws Error if an invalid month/year or a different calendar used. */
daysInMonth: function(year, month) {
if (year.year) {
month = year.month();
year = year.year();
}
this._validate(year, month, this.minDay, main.local.invalidMonth);
return (typeof this.NEPALI_CALENDAR_DATA[year] === 'undefined' ?
this.daysPerMonth[month - 1] : this.NEPALI_CALENDAR_DATA[year][month]);
},
/** Determine whether this date is a week day.
@memberof NepaliCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {boolean} <code>true</code> if a week day, <code>false</code> if not.
@throws Error if an invalid date or a different calendar used. */
weekDay: function(year, month, day) {
return this.dayOfWeek(year, month, day) !== 6;
},
/** Retrieve the Julian date equivalent for this date,
i.e. days since January 1, 4713 BCE Greenwich noon.
@memberof NepaliCalendar
@param year {CDate|number} The date to convert or the year to convert.
@param [month] {number} The month to convert.
@param [day] {number} The day to convert.
@return {number} The equivalent Julian date.
@throws Error if an invalid date or a different calendar used. */
toJD: function(nepaliYear, nepaliMonth, nepaliDay) {
var date = this._validate(nepaliYear, nepaliMonth, nepaliDay, main.local.invalidDate);
nepaliYear = date.year();
nepaliMonth = date.month();
nepaliDay = date.day();
var gregorianCalendar = main.instance();
var gregorianDayOfYear = 0; // We will add all the days that went by since
// the 1st. January and then we can get the Gregorian Date
var nepaliMonthToCheck = nepaliMonth;
var nepaliYearToCheck = nepaliYear;
this._createMissingCalendarData(nepaliYear);
// Get the correct year
var gregorianYear = nepaliYear - (nepaliMonthToCheck > 9 || (nepaliMonthToCheck === 9 &&
nepaliDay >= this.NEPALI_CALENDAR_DATA[nepaliYearToCheck][0]) ? 56 : 57);
// First we add the amount of days in the actual Nepali month as the day of year in the
// Gregorian one because at least this days are gone since the 1st. Jan.
if (nepaliMonth !== 9) {
gregorianDayOfYear = nepaliDay;
nepaliMonthToCheck--;
}
// Now we loop throw all Nepali month and add the amount of days to gregorianDayOfYear
// we do this till we reach Paush (9th month). 1st. January always falls in this month
while (nepaliMonthToCheck !== 9) {
if (nepaliMonthToCheck <= 0) {
nepaliMonthToCheck = 12;
nepaliYearToCheck--;
}
gregorianDayOfYear += this.NEPALI_CALENDAR_DATA[nepaliYearToCheck][nepaliMonthToCheck];
nepaliMonthToCheck--;
}
// If the date that has to be converted is in Paush (month no. 9) we have to do some other calculation
if (nepaliMonth === 9) {
// Add the days that are passed since the first day of Paush and substract the
// amount of days that lie between 1st. Jan and 1st Paush
gregorianDayOfYear += nepaliDay - this.NEPALI_CALENDAR_DATA[nepaliYearToCheck][0];
// For the first days of Paush we are now in negative values,
// because in the end of the gregorian year we substract
// 365 / 366 days (P.S. remember math in school + - gives -)
if (gregorianDayOfYear < 0) {
gregorianDayOfYear += gregorianCalendar.daysInYear(gregorianYear);
}
}
else {
gregorianDayOfYear += this.NEPALI_CALENDAR_DATA[nepaliYearToCheck][9] -
this.NEPALI_CALENDAR_DATA[nepaliYearToCheck][0];
}
return gregorianCalendar.newDate(gregorianYear, 1 ,1).add(gregorianDayOfYear, 'd').toJD();
},
/** Create a new date from a Julian date.
@memberof NepaliCalendar
@param jd {number} The Julian date to convert.
@return {CDate} The equivalent date. */
fromJD: function(jd) {
var gregorianCalendar = main.instance();
var gregorianDate = gregorianCalendar.fromJD(jd);
var gregorianYear = gregorianDate.year();
var gregorianDayOfYear = gregorianDate.dayOfYear();
var nepaliYear = gregorianYear + 56; //this is not final, it could be also +57 but +56 is always true for 1st Jan.
this._createMissingCalendarData(nepaliYear);
var nepaliMonth = 9; // Jan 1 always fall in Nepali month Paush which is the 9th month of Nepali calendar.
// Get the Nepali day in Paush (month 9) of 1st January
var dayOfFirstJanInPaush = this.NEPALI_CALENDAR_DATA[nepaliYear][0];
// Check how many days are left of Paush .
// Days calculated from 1st Jan till the end of the actual Nepali month,
// we use this value to check if the gregorian Date is in the actual Nepali month.
var daysSinceJanFirstToEndOfNepaliMonth =
this.NEPALI_CALENDAR_DATA[nepaliYear][nepaliMonth] - dayOfFirstJanInPaush + 1;
// If the gregorian day-of-year is smaller o equal than the sum of days between the 1st January and
// the end of the actual nepali month we found the correct nepali month.
// Example:
// The 4th February 2011 is the gregorianDayOfYear 35 (31 days of January + 4)
// 1st January 2011 is in the nepali year 2067, where 1st. January is in the 17th day of Paush (9th month)
// In 2067 Paush has 30days, This means (30-17+1=14) there are 14days between 1st January and end of Paush
// (including 17th January)
// The gregorianDayOfYear (35) is bigger than 14, so we check the next month
// The next nepali month (Mangh) has 29 days
// 29+14=43, this is bigger than gregorianDayOfYear(35) so, we found the correct nepali month
while (gregorianDayOfYear > daysSinceJanFirstToEndOfNepaliMonth) {
nepaliMonth++;
if (nepaliMonth > 12) {
nepaliMonth = 1;
nepaliYear++;
}
daysSinceJanFirstToEndOfNepaliMonth += this.NEPALI_CALENDAR_DATA[nepaliYear][nepaliMonth];
}
// The last step is to calculate the nepali day-of-month
// to continue our example from before:
// we calculated there are 43 days from 1st. January (17 Paush) till end of Mangh (29 days)
// when we subtract from this 43 days the day-of-year of the the Gregorian date (35),
// we know how far the searched day is away from the end of the Nepali month.
// So we simply subtract this number from the amount of days in this month (30)
var nepaliDayOfMonth = this.NEPALI_CALENDAR_DATA[nepaliYear][nepaliMonth] -
(daysSinceJanFirstToEndOfNepaliMonth - gregorianDayOfYear);
return this.newDate(nepaliYear, nepaliMonth, nepaliDayOfMonth);
},
/** Creates missing data in the NEPALI_CALENDAR_DATA table.
This data will not be correct but just give an estimated result. Mostly -/+ 1 day
@private
@param nepaliYear {number} The missing year number. */
_createMissingCalendarData: function(nepaliYear) {
var tmp_calendar_data = this.daysPerMonth.slice(0);
tmp_calendar_data.unshift(17);
for (var nepaliYearToCreate = (nepaliYear - 1); nepaliYearToCreate < (nepaliYear + 2); nepaliYearToCreate++) {
if (typeof this.NEPALI_CALENDAR_DATA[nepaliYearToCreate] === 'undefined') {
this.NEPALI_CALENDAR_DATA[nepaliYearToCreate] = tmp_calendar_data;
}
}
},
NEPALI_CALENDAR_DATA: {
// These data are from http://www.ashesh.com.np
1970: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
1971: [18, 31, 31, 32, 31, 32, 30, 30, 29, 30, 29, 30, 30],
1972: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 30],
1973: [19, 30, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31],
1974: [19, 31, 31, 32, 30, 31, 31, 30, 29, 30, 29, 30, 30],
1975: [18, 31, 31, 32, 32, 30, 31, 30, 29, 30, 29, 30, 30],
1976: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31],
1977: [18, 31, 32, 31, 32, 31, 31, 29, 30, 29, 30, 29, 31],
1978: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
1979: [18, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30],
1980: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31],
1981: [18, 31, 31, 31, 32, 31, 31, 29, 30, 30, 29, 30, 30],
1982: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
1983: [18, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30],
1984: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31],
1985: [18, 31, 31, 31, 32, 31, 31, 29, 30, 30, 29, 30, 30],
1986: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
1987: [18, 31, 32, 31, 32, 31, 30, 30, 29, 30, 29, 30, 30],
1988: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31],
1989: [18, 31, 31, 31, 32, 31, 31, 30, 29, 30, 29, 30, 30],
1990: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
1991: [18, 31, 32, 31, 32, 31, 30, 30, 29, 30, 29, 30, 30],
// These data are from http://nepalicalendar.rat32.com/index.php
1992: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31],
1993: [18, 31, 31, 31, 32, 31, 31, 30, 29, 30, 29, 30, 30],
1994: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
1995: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 30],
1996: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31],
1997: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
1998: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
1999: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31],
2000: [17, 30, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31],
2001: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
2002: [18, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30],
2003: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31],
2004: [17, 30, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31],
2005: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
2006: [18, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30],
2007: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31],
2008: [17, 31, 31, 31, 32, 31, 31, 29, 30, 30, 29, 29, 31],
2009: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
2010: [18, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30],
2011: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31],
2012: [17, 31, 31, 31, 32, 31, 31, 29, 30, 30, 29, 30, 30],
2013: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
2014: [18, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30],
2015: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31],
2016: [17, 31, 31, 31, 32, 31, 31, 29, 30, 30, 29, 30, 30],
2017: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
2018: [18, 31, 32, 31, 32, 31, 30, 30, 29, 30, 29, 30, 30],
2019: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31],
2020: [17, 31, 31, 31, 32, 31, 31, 30, 29, 30, 29, 30, 30],
2021: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
2022: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 30],
2023: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31],
2024: [17, 31, 31, 31, 32, 31, 31, 30, 29, 30, 29, 30, 30],
2025: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
2026: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31],
2027: [17, 30, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31],
2028: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
2029: [18, 31, 31, 32, 31, 32, 30, 30, 29, 30, 29, 30, 30],
2030: [17, 31, 32, 31, 32, 31, 30, 30, 30, 30, 30, 30, 31],
2031: [17, 31, 32, 31, 32, 31, 31, 31, 31, 31, 31, 31, 31],
2032: [17, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32],
2033: [18, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30],
2034: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31],
2035: [17, 30, 32, 31, 32, 31, 31, 29, 30, 30, 29, 29, 31],
2036: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
2037: [18, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30],
2038: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31],
2039: [17, 31, 31, 31, 32, 31, 31, 29, 30, 30, 29, 30, 30],
2040: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
2041: [18, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30],
2042: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31],
2043: [17, 31, 31, 31, 32, 31, 31, 29, 30, 30, 29, 30, 30],
2044: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
2045: [18, 31, 32, 31, 32, 31, 30, 30, 29, 30, 29, 30, 30],
2046: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31],
2047: [17, 31, 31, 31, 32, 31, 31, 30, 29, 30, 29, 30, 30],
2048: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
2049: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 30],
2050: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31],
2051: [17, 31, 31, 31, 32, 31, 31, 30, 29, 30, 29, 30, 30],
2052: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
2053: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 30],
2054: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31],
2055: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 30, 29, 30],
2056: [17, 31, 31, 32, 31, 32, 30, 30, 29, 30, 29, 30, 30],
2057: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31],
2058: [17, 30, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31],
2059: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
2060: [17, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30],
2061: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31],
2062: [17, 30, 32, 31, 32, 31, 31, 29, 30, 29, 30, 29, 31],
2063: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
2064: [17, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30],
2065: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31],
2066: [17, 31, 31, 31, 32, 31, 31, 29, 30, 30, 29, 29, 31],
2067: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
2068: [17, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30],
2069: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31],
2070: [17, 31, 31, 31, 32, 31, 31, 29, 30, 30, 29, 30, 30],
2071: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
2072: [17, 31, 32, 31, 32, 31, 30, 30, 29, 30, 29, 30, 30],
2073: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31],
2074: [17, 31, 31, 31, 32, 31, 31, 30, 29, 30, 29, 30, 30],
2075: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
2076: [16, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 30],
2077: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31],
2078: [17, 31, 31, 31, 32, 31, 31, 30, 29, 30, 29, 30, 30],
2079: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30],
2080: [16, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 30],
// These data are from http://www.ashesh.com.np/nepali-calendar/
2081: [17, 31, 31, 32, 32, 31, 30, 30, 30, 29, 30, 30, 30],
2082: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 30, 30],
2083: [17, 31, 31, 32, 31, 31, 30, 30, 30, 29, 30, 30, 30],
2084: [17, 31, 31, 32, 31, 31, 30, 30, 30, 29, 30, 30, 30],
2085: [17, 31, 32, 31, 32, 31, 31, 30, 30, 29, 30, 30, 30],
2086: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 30, 30],
2087: [16, 31, 31, 32, 31, 31, 31, 30, 30, 29, 30, 30, 30],
2088: [16, 30, 31, 32, 32, 30, 31, 30, 30, 29, 30, 30, 30],
2089: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 30, 30],
2090: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 30, 30],
2091: [16, 31, 31, 32, 31, 31, 31, 30, 30, 29, 30, 30, 30],
2092: [16, 31, 31, 32, 32, 31, 30, 30, 30, 29, 30, 30, 30],
2093: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 30, 30],
2094: [17, 31, 31, 32, 31, 31, 30, 30, 30, 29, 30, 30, 30],
2095: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 30, 30, 30],
2096: [17, 30, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30],
2097: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 30, 30],
2098: [17, 31, 31, 32, 31, 31, 31, 29, 30, 29, 30, 30, 31],
2099: [17, 31, 31, 32, 31, 31, 31, 30, 29, 29, 30, 30, 30],
2100: [17, 31, 32, 31, 32, 30, 31, 30, 29, 30, 29, 30, 30]
}
});
// Nepali calendar implementation
main.calendars.nepali = NepaliCalendar;
},{"../main":545,"object-assign":434}],541:[function(_dereq_,module,exports){
/*
* World Calendars
* https://github.com/alexcjohnson/world-calendars
*
* Batch-converted from kbwood/calendars
* Many thanks to Keith Wood and all of the contributors to the original project!
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
/* http://keith-wood.name/calendars.html
Persian calendar for jQuery v2.0.2.
Written by Keith Wood (wood.keith{at}optusnet.com.au) August 2009.
Available under the MIT (http://keith-wood.name/licence.html) license.
Please attribute the author if you use it. */
var main = _dereq_('../main');
var assign = _dereq_('object-assign');
/** Implementation of the Persian or Jalali calendar.
Based on code from <a href="http://www.iranchamber.com/calendar/converter/iranian_calendar_converter.php">http://www.iranchamber.com/calendar/converter/iranian_calendar_converter.php</a>.
See also <a href="http://en.wikipedia.org/wiki/Iranian_calendar">http://en.wikipedia.org/wiki/Iranian_calendar</a>.
@class PersianCalendar
@param [language=''] {string} The language code (default English) for localisation. */
function PersianCalendar(language) {
this.local = this.regionalOptions[language || ''] || this.regionalOptions[''];
}
PersianCalendar.prototype = new main.baseCalendar;
assign(PersianCalendar.prototype, {
/** The calendar name.
@memberof PersianCalendar */
name: 'Persian',
/** Julian date of start of Persian epoch: 19 March 622 CE.
@memberof PersianCalendar */
jdEpoch: 1948320.5,
/** Days per month in a common year.
@memberof PersianCalendar */
daysPerMonth: [31, 31, 31, 31, 31, 31, 30, 30, 30, 30, 30, 29],
/** <code>true</code> if has a year zero, <code>false</code> if not.
@memberof PersianCalendar */
hasYearZero: false,
/** The minimum month number.
@memberof PersianCalendar */
minMonth: 1,
/** The first month in the year.
@memberof PersianCalendar */
firstMonth: 1,
/** The minimum day number.
@memberof PersianCalendar */
minDay: 1,
/** Localisations for the plugin.
Entries are objects indexed by the language code ('' being the default US/English).
Each object has the following attributes.
@memberof PersianCalendar
@property name {string} The calendar name.
@property epochs {string[]} The epoch names.
@property monthNames {string[]} The long names of the months of the year.
@property monthNamesShort {string[]} The short names of the months of the year.
@property dayNames {string[]} The long names of the days of the week.
@property dayNamesShort {string[]} The short names of the days of the week.
@property dayNamesMin {string[]} The minimal names of the days of the week.
@property dateFormat {string} The date format for this calendar.
See the options on <a href="BaseCalendar.html#formatDate"><code>formatDate</code></a> for details.
@property firstDay {number} The number of the first day of the week, starting at 0.
@property isRTL {number} <code>true</code> if this localisation reads right-to-left. */
regionalOptions: { // Localisations
'': {
name: 'Persian',
epochs: ['BP', 'AP'],
monthNames: ['Farvardin', 'Ordibehesht', 'Khordad', 'Tir', 'Mordad', 'Shahrivar',
'Mehr', 'Aban', 'Azar', 'Day', 'Bahman', 'Esfand'],
monthNamesShort: ['Far', 'Ord', 'Kho', 'Tir', 'Mor', 'Sha', 'Meh', 'Aba', 'Aza', 'Day', 'Bah', 'Esf'],
dayNames: ['Yekshambe', 'Doshambe', 'Seshambe', 'Chæharshambe', 'Panjshambe', 'Jom\'e', 'Shambe'],
dayNamesShort: ['Yek', 'Do', 'Se', 'Chæ', 'Panj', 'Jom', 'Sha'],
dayNamesMin: ['Ye','Do','Se','Ch','Pa','Jo','Sh'],
digits: null,
dateFormat: 'yyyy/mm/dd',
firstDay: 6,
isRTL: false
}
},
/** Determine whether this date is in a leap year.
@memberof PersianCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {boolean} <code>true</code> if this is a leap year, <code>false</code> if not.
@throws Error if an invalid year or a different calendar used. */
leapYear: function(year) {
var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear);
return (((((date.year() - (date.year() > 0 ? 474 : 473)) % 2820) +
474 + 38) * 682) % 2816) < 682;
},
/** Determine the week of the year for a date.
@memberof PersianCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {number} The week of the year.
@throws Error if an invalid date or a different calendar used. */
weekOfYear: function(year, month, day) {
// Find Saturday of this week starting on Saturday
var checkDate = this.newDate(year, month, day);
checkDate.add(-((checkDate.dayOfWeek() + 1) % 7), 'd');
return Math.floor((checkDate.dayOfYear() - 1) / 7) + 1;
},
/** Retrieve the number of days in a month.
@memberof PersianCalendar
@param year {CDate|number} The date to examine or the year of the month.
@param [month] {number} The month.
@return {number} The number of days in this month.
@throws Error if an invalid month/year or a different calendar used. */
daysInMonth: function(year, month) {
var date = this._validate(year, month, this.minDay, main.local.invalidMonth);
return this.daysPerMonth[date.month() - 1] +
(date.month() === 12 && this.leapYear(date.year()) ? 1 : 0);
},
/** Determine whether this date is a week day.
@memberof PersianCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {boolean} <code>true</code> if a week day, <code>false</code> if not.
@throws Error if an invalid date or a different calendar used. */
weekDay: function(year, month, day) {
return this.dayOfWeek(year, month, day) !== 5;
},
/** Retrieve the Julian date equivalent for this date,
i.e. days since January 1, 4713 BCE Greenwich noon.
@memberof PersianCalendar
@param year {CDate|number} The date to convert or the year to convert.
@param [month] {number} The month to convert.
@param [day] {number} The day to convert.
@return {number} The equivalent Julian date.
@throws Error if an invalid date or a different calendar used. */
toJD: function(year, month, day) {
var date = this._validate(year, month, day, main.local.invalidDate);
year = date.year();
month = date.month();
day = date.day();
var epBase = year - (year >= 0 ? 474 : 473);
var epYear = 474 + mod(epBase, 2820);
return day + (month <= 7 ? (month - 1) * 31 : (month - 1) * 30 + 6) +
Math.floor((epYear * 682 - 110) / 2816) + (epYear - 1) * 365 +
Math.floor(epBase / 2820) * 1029983 + this.jdEpoch - 1;
},
/** Create a new date from a Julian date.
@memberof PersianCalendar
@param jd {number} The Julian date to convert.
@return {CDate} The equivalent date. */
fromJD: function(jd) {
jd = Math.floor(jd) + 0.5;
var depoch = jd - this.toJD(475, 1, 1);
var cycle = Math.floor(depoch / 1029983);
var cyear = mod(depoch, 1029983);
var ycycle = 2820;
if (cyear !== 1029982) {
var aux1 = Math.floor(cyear / 366);
var aux2 = mod(cyear, 366);
ycycle = Math.floor(((2134 * aux1) + (2816 * aux2) + 2815) / 1028522) + aux1 + 1;
}
var year = ycycle + (2820 * cycle) + 474;
year = (year <= 0 ? year - 1 : year);
var yday = jd - this.toJD(year, 1, 1) + 1;
var month = (yday <= 186 ? Math.ceil(yday / 31) : Math.ceil((yday - 6) / 30));
var day = jd - this.toJD(year, month, 1) + 1;
return this.newDate(year, month, day);
}
});
// Modulus function which works for non-integers.
function mod(a, b) {
return a - (b * Math.floor(a / b));
}
// Persian (Jalali) calendar implementation
main.calendars.persian = PersianCalendar;
main.calendars.jalali = PersianCalendar;
},{"../main":545,"object-assign":434}],542:[function(_dereq_,module,exports){
/*
* World Calendars
* https://github.com/alexcjohnson/world-calendars
*
* Batch-converted from kbwood/calendars
* Many thanks to Keith Wood and all of the contributors to the original project!
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
/* http://keith-wood.name/calendars.html
Taiwanese (Minguo) calendar for jQuery v2.0.2.
Written by Keith Wood (wood.keith{at}optusnet.com.au) February 2010.
Available under the MIT (http://keith-wood.name/licence.html) license.
Please attribute the author if you use it. */
var main = _dereq_('../main');
var assign = _dereq_('object-assign');
var gregorianCalendar = main.instance();
/** Implementation of the Taiwanese calendar.
See http://en.wikipedia.org/wiki/Minguo_calendar.
@class TaiwanCalendar
@param [language=''] {string} The language code (default English) for localisation. */
function TaiwanCalendar(language) {
this.local = this.regionalOptions[language || ''] || this.regionalOptions[''];
}
TaiwanCalendar.prototype = new main.baseCalendar;
assign(TaiwanCalendar.prototype, {
/** The calendar name.
@memberof TaiwanCalendar */
name: 'Taiwan',
/** Julian date of start of Taiwan epoch: 1 January 1912 CE (Gregorian).
@memberof TaiwanCalendar */
jdEpoch: 2419402.5,
/** Difference in years between Taiwan and Gregorian calendars.
@memberof TaiwanCalendar */
yearsOffset: 1911,
/** Days per month in a common year.
@memberof TaiwanCalendar */
daysPerMonth: [31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31],
/** <code>true</code> if has a year zero, <code>false</code> if not.
@memberof TaiwanCalendar */
hasYearZero: false,
/** The minimum month number.
@memberof TaiwanCalendar */
minMonth: 1,
/** The first month in the year.
@memberof TaiwanCalendar */
firstMonth: 1,
/** The minimum day number.
@memberof TaiwanCalendar */
minDay: 1,
/** Localisations for the plugin.
Entries are objects indexed by the language code ('' being the default US/English).
Each object has the following attributes.
@memberof TaiwanCalendar
@property name {string} The calendar name.
@property epochs {string[]} The epoch names.
@property monthNames {string[]} The long names of the months of the year.
@property monthNamesShort {string[]} The short names of the months of the year.
@property dayNames {string[]} The long names of the days of the week.
@property dayNamesShort {string[]} The short names of the days of the week.
@property dayNamesMin {string[]} The minimal names of the days of the week.
@property dateFormat {string} The date format for this calendar.
See the options on <a href="BaseCalendar.html#formatDate"><code>formatDate</code></a> for details.
@property firstDay {number} The number of the first day of the week, starting at 0.
@property isRTL {number} <code>true</code> if this localisation reads right-to-left. */
regionalOptions: { // Localisations
'': {
name: 'Taiwan',
epochs: ['BROC', 'ROC'],
monthNames: ['January', 'February', 'March', 'April', 'May', 'June',
'July', 'August', 'September', 'October', 'November', 'December'],
monthNamesShort: ['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'],
dayNames: ['Sunday', 'Monday', 'Tuesday', 'Wednesday', 'Thursday', 'Friday', 'Saturday'],
dayNamesShort: ['Sun', 'Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat'],
dayNamesMin: ['Su', 'Mo', 'Tu', 'We', 'Th', 'Fr', 'Sa'],
digits: null,
dateFormat: 'yyyy/mm/dd',
firstDay: 1,
isRTL: false
}
},
/** Determine whether this date is in a leap year.
@memberof TaiwanCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {boolean} <code>true</code> if this is a leap year, <code>false</code> if not.
@throws Error if an invalid year or a different calendar used. */
leapYear: function(year) {
var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear);
var year = this._t2gYear(date.year());
return gregorianCalendar.leapYear(year);
},
/** Determine the week of the year for a date - ISO 8601.
@memberof TaiwanCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {number} The week of the year.
@throws Error if an invalid date or a different calendar used. */
weekOfYear: function(year, month, day) {
var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear);
var year = this._t2gYear(date.year());
return gregorianCalendar.weekOfYear(year, date.month(), date.day());
},
/** Retrieve the number of days in a month.
@memberof TaiwanCalendar
@param year {CDate|number} The date to examine or the year of the month.
@param [month] {number} The month.
@return {number} The number of days in this month.
@throws Error if an invalid month/year or a different calendar used. */
daysInMonth: function(year, month) {
var date = this._validate(year, month, this.minDay, main.local.invalidMonth);
return this.daysPerMonth[date.month() - 1] +
(date.month() === 2 && this.leapYear(date.year()) ? 1 : 0);
},
/** Determine whether this date is a week day.
@memberof TaiwanCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {boolean} <code>true</code> if a week day, <code>false</code> if not.
@throws Error if an invalid date or a different calendar used. */
weekDay: function(year, month, day) {
return (this.dayOfWeek(year, month, day) || 7) < 6;
},
/** Retrieve the Julian date equivalent for this date,
i.e. days since January 1, 4713 BCE Greenwich noon.
@memberof TaiwanCalendar
@param year {CDate|number} The date to convert or the year to convert.
@param [month] {number} The month to convert.
@param [day] {number} The day to convert.
@return {number} The equivalent Julian date.
@throws Error if an invalid date or a different calendar used. */
toJD: function(year, month, day) {
var date = this._validate(year, month, day, main.local.invalidDate);
var year = this._t2gYear(date.year());
return gregorianCalendar.toJD(year, date.month(), date.day());
},
/** Create a new date from a Julian date.
@memberof TaiwanCalendar
@param jd {number} The Julian date to convert.
@return {CDate} The equivalent date. */
fromJD: function(jd) {
var date = gregorianCalendar.fromJD(jd);
var year = this._g2tYear(date.year());
return this.newDate(year, date.month(), date.day());
},
/** Convert Taiwanese to Gregorian year.
@memberof TaiwanCalendar
@private
@param year {number} The Taiwanese year.
@return {number} The corresponding Gregorian year. */
_t2gYear: function(year) {
return year + this.yearsOffset + (year >= -this.yearsOffset && year <= -1 ? 1 : 0);
},
/** Convert Gregorian to Taiwanese year.
@memberof TaiwanCalendar
@private
@param year {number} The Gregorian year.
@return {number} The corresponding Taiwanese year. */
_g2tYear: function(year) {
return year - this.yearsOffset - (year >= 1 && year <= this.yearsOffset ? 1 : 0);
}
});
// Taiwan calendar implementation
main.calendars.taiwan = TaiwanCalendar;
},{"../main":545,"object-assign":434}],543:[function(_dereq_,module,exports){
/*
* World Calendars
* https://github.com/alexcjohnson/world-calendars
*
* Batch-converted from kbwood/calendars
* Many thanks to Keith Wood and all of the contributors to the original project!
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
/* http://keith-wood.name/calendars.html
Thai calendar for jQuery v2.0.2.
Written by Keith Wood (wood.keith{at}optusnet.com.au) February 2010.
Available under the MIT (http://keith-wood.name/licence.html) license.
Please attribute the author if you use it. */
var main = _dereq_('../main');
var assign = _dereq_('object-assign');
var gregorianCalendar = main.instance();
/** Implementation of the Thai calendar.
See http://en.wikipedia.org/wiki/Thai_calendar.
@class ThaiCalendar
@param [language=''] {string} The language code (default English) for localisation. */
function ThaiCalendar(language) {
this.local = this.regionalOptions[language || ''] || this.regionalOptions[''];
}
ThaiCalendar.prototype = new main.baseCalendar;
assign(ThaiCalendar.prototype, {
/** The calendar name.
@memberof ThaiCalendar */
name: 'Thai',
/** Julian date of start of Thai epoch: 1 January 543 BCE (Gregorian).
@memberof ThaiCalendar */
jdEpoch: 1523098.5,
/** Difference in years between Thai and Gregorian calendars.
@memberof ThaiCalendar */
yearsOffset: 543,
/** Days per month in a common year.
@memberof ThaiCalendar */
daysPerMonth: [31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31],
/** <code>true</code> if has a year zero, <code>false</code> if not.
@memberof ThaiCalendar */
hasYearZero: false,
/** The minimum month number.
@memberof ThaiCalendar */
minMonth: 1,
/** The first month in the year.
@memberof ThaiCalendar */
firstMonth: 1,
/** The minimum day number.
@memberof ThaiCalendar */
minDay: 1,
/** Localisations for the plugin.
Entries are objects indexed by the language code ('' being the default US/English).
Each object has the following attributes.
@memberof ThaiCalendar
@property name {string} The calendar name.
@property epochs {string[]} The epoch names.
@property monthNames {string[]} The long names of the months of the year.
@property monthNamesShort {string[]} The short names of the months of the year.
@property dayNames {string[]} The long names of the days of the week.
@property dayNamesShort {string[]} The short names of the days of the week.
@property dayNamesMin {string[]} The minimal names of the days of the week.
@property dateFormat {string} The date format for this calendar.
See the options on <a href="BaseCalendar.html#formatDate"><code>formatDate</code></a> for details.
@property firstDay {number} The number of the first day of the week, starting at 0.
@property isRTL {number} <code>true</code> if this localisation reads right-to-left. */
regionalOptions: { // Localisations
'': {
name: 'Thai',
epochs: ['BBE', 'BE'],
monthNames: ['January', 'February', 'March', 'April', 'May', 'June',
'July', 'August', 'September', 'October', 'November', 'December'],
monthNamesShort: ['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'],
dayNames: ['Sunday', 'Monday', 'Tuesday', 'Wednesday', 'Thursday', 'Friday', 'Saturday'],
dayNamesShort: ['Sun', 'Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat'],
dayNamesMin: ['Su', 'Mo', 'Tu', 'We', 'Th', 'Fr', 'Sa'],
digits: null,
dateFormat: 'dd/mm/yyyy',
firstDay: 0,
isRTL: false
}
},
/** Determine whether this date is in a leap year.
@memberof ThaiCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {boolean} <code>true</code> if this is a leap year, <code>false</code> if not.
@throws Error if an invalid year or a different calendar used. */
leapYear: function(year) {
var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear);
var year = this._t2gYear(date.year());
return gregorianCalendar.leapYear(year);
},
/** Determine the week of the year for a date - ISO 8601.
@memberof ThaiCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {number} The week of the year.
@throws Error if an invalid date or a different calendar used. */
weekOfYear: function(year, month, day) {
var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear);
var year = this._t2gYear(date.year());
return gregorianCalendar.weekOfYear(year, date.month(), date.day());
},
/** Retrieve the number of days in a month.
@memberof ThaiCalendar
@param year {CDate|number} The date to examine or the year of the month.
@param [month] {number} The month.
@return {number} The number of days in this month.
@throws Error if an invalid month/year or a different calendar used. */
daysInMonth: function(year, month) {
var date = this._validate(year, month, this.minDay, main.local.invalidMonth);
return this.daysPerMonth[date.month() - 1] +
(date.month() === 2 && this.leapYear(date.year()) ? 1 : 0);
},
/** Determine whether this date is a week day.
@memberof ThaiCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {boolean} <code>true</code> if a week day, <code>false</code> if not.
@throws Error if an invalid date or a different calendar used. */
weekDay: function(year, month, day) {
return (this.dayOfWeek(year, month, day) || 7) < 6;
},
/** Retrieve the Julian date equivalent for this date,
i.e. days since January 1, 4713 BCE Greenwich noon.
@memberof ThaiCalendar
@param year {CDate|number} The date to convert or the year to convert.
@param [month] {number} The month to convert.
@param [day] {number} The day to convert.
@return {number} The equivalent Julian date.
@throws Error if an invalid date or a different calendar used. */
toJD: function(year, month, day) {
var date = this._validate(year, month, day, main.local.invalidDate);
var year = this._t2gYear(date.year());
return gregorianCalendar.toJD(year, date.month(), date.day());
},
/** Create a new date from a Julian date.
@memberof ThaiCalendar
@param jd {number} The Julian date to convert.
@return {CDate} The equivalent date. */
fromJD: function(jd) {
var date = gregorianCalendar.fromJD(jd);
var year = this._g2tYear(date.year());
return this.newDate(year, date.month(), date.day());
},
/** Convert Thai to Gregorian year.
@memberof ThaiCalendar
@private
@param year {number} The Thai year.
@return {number} The corresponding Gregorian year. */
_t2gYear: function(year) {
return year - this.yearsOffset - (year >= 1 && year <= this.yearsOffset ? 1 : 0);
},
/** Convert Gregorian to Thai year.
@memberof ThaiCalendar
@private
@param year {number} The Gregorian year.
@return {number} The corresponding Thai year. */
_g2tYear: function(year) {
return year + this.yearsOffset + (year >= -this.yearsOffset && year <= -1 ? 1 : 0);
}
});
// Thai calendar implementation
main.calendars.thai = ThaiCalendar;
},{"../main":545,"object-assign":434}],544:[function(_dereq_,module,exports){
/*
* World Calendars
* https://github.com/alexcjohnson/world-calendars
*
* Batch-converted from kbwood/calendars
* Many thanks to Keith Wood and all of the contributors to the original project!
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
/* http://keith-wood.name/calendars.html
UmmAlQura calendar for jQuery v2.0.2.
Written by Amro Osama March 2013.
Modified by Binnooh.com & www.elm.sa - 2014 - Added dates back to 1276 Hijri year.
Available under the MIT (http://keith-wood.name/licence.html) license.
Please attribute the author if you use it. */
var main = _dereq_('../main');
var assign = _dereq_('object-assign');
/** Implementation of the UmmAlQura or 'saudi' calendar.
See also <a href="http://en.wikipedia.org/wiki/Islamic_calendar#Saudi_Arabia.27s_Umm_al-Qura_calendar">http://en.wikipedia.org/wiki/Islamic_calendar#Saudi_Arabia.27s_Umm_al-Qura_calendar</a>.
<a href="http://www.ummulqura.org.sa/About.aspx">http://www.ummulqura.org.sa/About.aspx</a>
<a href="http://www.staff.science.uu.nl/~gent0113/islam/ummalqura.htm">http://www.staff.science.uu.nl/~gent0113/islam/ummalqura.htm</a>
@class UmmAlQuraCalendar
@param [language=''] {string} The language code (default English) for localisation. */
function UmmAlQuraCalendar(language) {
this.local = this.regionalOptions[language || ''] || this.regionalOptions[''];
}
UmmAlQuraCalendar.prototype = new main.baseCalendar;
assign(UmmAlQuraCalendar.prototype, {
/** The calendar name.
@memberof UmmAlQuraCalendar */
name: 'UmmAlQura',
//jdEpoch: 1948440, // Julian date of start of UmmAlQura epoch: 14 March 1937 CE
//daysPerMonth: // Days per month in a common year, replaced by a method.
/** <code>true</code> if has a year zero, <code>false</code> if not.
@memberof UmmAlQuraCalendar */
hasYearZero: false,
/** The minimum month number.
@memberof UmmAlQuraCalendar */
minMonth: 1,
/** The first month in the year.
@memberof UmmAlQuraCalendar */
firstMonth: 1,
/** The minimum day number.
@memberof UmmAlQuraCalendar */
minDay: 1,
/** Localisations for the plugin.
Entries are objects indexed by the language code ('' being the default US/English).
Each object has the following attributes.
@memberof UmmAlQuraCalendar
@property name {string} The calendar name.
@property epochs {string[]} The epoch names.
@property monthNames {string[]} The long names of the months of the year.
@property monthNamesShort {string[]} The short names of the months of the year.
@property dayNames {string[]} The long names of the days of the week.
@property dayNamesShort {string[]} The short names of the days of the week.
@property dayNamesMin {string[]} The minimal names of the days of the week.
@property dateFormat {string} The date format for this calendar.
See the options on <a href="BaseCalendar.html#formatDate"><code>formatDate</code></a> for details.
@property firstDay {number} The number of the first day of the week, starting at 0.
@property isRTL {number} <code>true</code> if this localisation reads right-to-left. */
regionalOptions: { // Localisations
'': {
name: 'Umm al-Qura',
epochs: ['BH', 'AH'],
monthNames: ['Al-Muharram', 'Safar', 'Rabi\' al-awwal', 'Rabi\' Al-Thani', 'Jumada Al-Awwal', 'Jumada Al-Thani',
'Rajab', 'Sha\'aban', 'Ramadan', 'Shawwal', 'Dhu al-Qi\'dah', 'Dhu al-Hijjah'],
monthNamesShort: ['Muh', 'Saf', 'Rab1', 'Rab2', 'Jum1', 'Jum2', 'Raj', 'Sha\'', 'Ram', 'Shaw', 'DhuQ', 'DhuH'],
dayNames: ['Yawm al-Ahad', 'Yawm al-Ithnain', 'Yawm al-Thalāthā’', 'Yawm al-Arba‘ā’', 'Yawm al-Khamīs', 'Yawm al-Jum‘a', 'Yawm al-Sabt'],
dayNamesMin: ['Ah', 'Ith', 'Th', 'Ar', 'Kh', 'Ju', 'Sa'],
digits: null,
dateFormat: 'yyyy/mm/dd',
firstDay: 6,
isRTL: true
}
},
/** Determine whether this date is in a leap year.
@memberof UmmAlQuraCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {boolean} <code>true</code> if this is a leap year, <code>false</code> if not.
@throws Error if an invalid year or a different calendar used. */
leapYear: function (year) {
var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear);
return (this.daysInYear(date.year()) === 355);
},
/** Determine the week of the year for a date.
@memberof UmmAlQuraCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {number} The week of the year.
@throws Error if an invalid date or a different calendar used. */
weekOfYear: function (year, month, day) {
// Find Sunday of this week starting on Sunday
var checkDate = this.newDate(year, month, day);
checkDate.add(-checkDate.dayOfWeek(), 'd');
return Math.floor((checkDate.dayOfYear() - 1) / 7) + 1;
},
/** Retrieve the number of days in a year.
@memberof UmmAlQuraCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {number} The number of days.
@throws Error if an invalid year or a different calendar used. */
daysInYear: function (year) {
var daysCount = 0;
for (var i = 1; i <= 12; i++) {
daysCount += this.daysInMonth(year, i);
}
return daysCount;
},
/** Retrieve the number of days in a month.
@memberof UmmAlQuraCalendar
@param year {CDate|number} The date to examine or the year of the month.
@param [month] {number} The month.
@return {number} The number of days in this month.
@throws Error if an invalid month/year or a different calendar used. */
daysInMonth: function (year, month) {
var date = this._validate(year, month, this.minDay, main.local.invalidMonth);
var mcjdn = date.toJD() - 2400000 + 0.5; // Modified Chronological Julian Day Number (MCJDN)
// the MCJDN's of the start of the lunations in the Umm al-Qura calendar are stored in the 'ummalqura_dat' array
var index = 0;
for (var i = 0; i < ummalqura_dat.length; i++) {
if (ummalqura_dat[i] > mcjdn) {
return (ummalqura_dat[index] - ummalqura_dat[index - 1]);
}
index++;
}
return 30; // Unknown outside
},
/** Determine whether this date is a week day.
@memberof UmmAlQuraCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {boolean} <code>true</code> if a week day, <code>false</code> if not.
@throws Error if an invalid date or a different calendar used. */
weekDay: function (year, month, day) {
return this.dayOfWeek(year, month, day) !== 5;
},
/** Retrieve the Julian date equivalent for this date,
i.e. days since January 1, 4713 BCE Greenwich noon.
@memberof UmmAlQuraCalendar
@param year {CDate|number} The date to convert or the year to convert.
@param [month] {number} The month to convert.
@param [day] {number} The day to convert.
@return {number} The equivalent Julian date.
@throws Error if an invalid date or a different calendar used. */
toJD: function (year, month, day) {
var date = this._validate(year, month, day, main.local.invalidDate);
var index = (12 * (date.year() - 1)) + date.month() - 15292;
var mcjdn = date.day() + ummalqura_dat[index - 1] - 1;
return mcjdn + 2400000 - 0.5; // Modified Chronological Julian Day Number (MCJDN)
},
/** Create a new date from a Julian date.
@memberof UmmAlQuraCalendar
@param jd {number} The Julian date to convert.
@return {CDate} The equivalent date. */
fromJD: function (jd) {
var mcjdn = jd - 2400000 + 0.5; // Modified Chronological Julian Day Number (MCJDN)
// the MCJDN's of the start of the lunations in the Umm al-Qura calendar
// are stored in the 'ummalqura_dat' array
var index = 0;
for (var i = 0; i < ummalqura_dat.length; i++) {
if (ummalqura_dat[i] > mcjdn) break;
index++;
}
var lunation = index + 15292; //UmmAlQura Lunation Number
var ii = Math.floor((lunation - 1) / 12);
var year = ii + 1;
var month = lunation - 12 * ii;
var day = mcjdn - ummalqura_dat[index - 1] + 1;
return this.newDate(year, month, day);
},
/** Determine whether a date is valid for this calendar.
@memberof UmmAlQuraCalendar
@param year {number} The year to examine.
@param month {number} The month to examine.
@param day {number} The day to examine.
@return {boolean} <code>true</code> if a valid date, <code>false</code> if not. */
isValid: function(year, month, day) {
var valid = main.baseCalendar.prototype.isValid.apply(this, arguments);
if (valid) {
year = (year.year != null ? year.year : year);
valid = (year >= 1276 && year <= 1500);
}
return valid;
},
/** Check that a candidate date is from the same calendar and is valid.
@memberof UmmAlQuraCalendar
@private
@param year {CDate|number} The date to validate or the year to validate.
@param month {number} The month to validate.
@param day {number} The day to validate.
@param error {string} Error message if invalid.
@throws Error if different calendars used or invalid date. */
_validate: function(year, month, day, error) {
var date = main.baseCalendar.prototype._validate.apply(this, arguments);
if (date.year < 1276 || date.year > 1500) {
throw error.replace(/\{0\}/, this.local.name);
}
return date;
}
});
// UmmAlQura calendar implementation
main.calendars.ummalqura = UmmAlQuraCalendar;
var ummalqura_dat = [
20, 50, 79, 109, 138, 168, 197, 227, 256, 286, 315, 345, 374, 404, 433, 463, 492, 522, 551, 581,
611, 641, 670, 700, 729, 759, 788, 818, 847, 877, 906, 936, 965, 995, 1024, 1054, 1083, 1113, 1142, 1172,
1201, 1231, 1260, 1290, 1320, 1350, 1379, 1409, 1438, 1468, 1497, 1527, 1556, 1586, 1615, 1645, 1674, 1704, 1733, 1763,
1792, 1822, 1851, 1881, 1910, 1940, 1969, 1999, 2028, 2058, 2087, 2117, 2146, 2176, 2205, 2235, 2264, 2294, 2323, 2353,
2383, 2413, 2442, 2472, 2501, 2531, 2560, 2590, 2619, 2649, 2678, 2708, 2737, 2767, 2796, 2826, 2855, 2885, 2914, 2944,
2973, 3003, 3032, 3062, 3091, 3121, 3150, 3180, 3209, 3239, 3268, 3298, 3327, 3357, 3386, 3416, 3446, 3476, 3505, 3535,
3564, 3594, 3623, 3653, 3682, 3712, 3741, 3771, 3800, 3830, 3859, 3889, 3918, 3948, 3977, 4007, 4036, 4066, 4095, 4125,
4155, 4185, 4214, 4244, 4273, 4303, 4332, 4362, 4391, 4421, 4450, 4480, 4509, 4539, 4568, 4598, 4627, 4657, 4686, 4716,
4745, 4775, 4804, 4834, 4863, 4893, 4922, 4952, 4981, 5011, 5040, 5070, 5099, 5129, 5158, 5188, 5218, 5248, 5277, 5307,
5336, 5366, 5395, 5425, 5454, 5484, 5513, 5543, 5572, 5602, 5631, 5661, 5690, 5720, 5749, 5779, 5808, 5838, 5867, 5897,
5926, 5956, 5985, 6015, 6044, 6074, 6103, 6133, 6162, 6192, 6221, 6251, 6281, 6311, 6340, 6370, 6399, 6429, 6458, 6488,
6517, 6547, 6576, 6606, 6635, 6665, 6694, 6724, 6753, 6783, 6812, 6842, 6871, 6901, 6930, 6960, 6989, 7019, 7048, 7078,
7107, 7137, 7166, 7196, 7225, 7255, 7284, 7314, 7344, 7374, 7403, 7433, 7462, 7492, 7521, 7551, 7580, 7610, 7639, 7669,
7698, 7728, 7757, 7787, 7816, 7846, 7875, 7905, 7934, 7964, 7993, 8023, 8053, 8083, 8112, 8142, 8171, 8201, 8230, 8260,
8289, 8319, 8348, 8378, 8407, 8437, 8466, 8496, 8525, 8555, 8584, 8614, 8643, 8673, 8702, 8732, 8761, 8791, 8821, 8850,
8880, 8909, 8938, 8968, 8997, 9027, 9056, 9086, 9115, 9145, 9175, 9205, 9234, 9264, 9293, 9322, 9352, 9381, 9410, 9440,
9470, 9499, 9529, 9559, 9589, 9618, 9648, 9677, 9706, 9736, 9765, 9794, 9824, 9853, 9883, 9913, 9943, 9972, 10002, 10032,
10061, 10090, 10120, 10149, 10178, 10208, 10237, 10267, 10297, 10326, 10356, 10386, 10415, 10445, 10474, 10504, 10533, 10562, 10592, 10621,
10651, 10680, 10710, 10740, 10770, 10799, 10829, 10858, 10888, 10917, 10947, 10976, 11005, 11035, 11064, 11094, 11124, 11153, 11183, 11213,
11242, 11272, 11301, 11331, 11360, 11389, 11419, 11448, 11478, 11507, 11537, 11567, 11596, 11626, 11655, 11685, 11715, 11744, 11774, 11803,
11832, 11862, 11891, 11921, 11950, 11980, 12010, 12039, 12069, 12099, 12128, 12158, 12187, 12216, 12246, 12275, 12304, 12334, 12364, 12393,
12423, 12453, 12483, 12512, 12542, 12571, 12600, 12630, 12659, 12688, 12718, 12747, 12777, 12807, 12837, 12866, 12896, 12926, 12955, 12984,
13014, 13043, 13072, 13102, 13131, 13161, 13191, 13220, 13250, 13280, 13310, 13339, 13368, 13398, 13427, 13456, 13486, 13515, 13545, 13574,
13604, 13634, 13664, 13693, 13723, 13752, 13782, 13811, 13840, 13870, 13899, 13929, 13958, 13988, 14018, 14047, 14077, 14107, 14136, 14166,
14195, 14224, 14254, 14283, 14313, 14342, 14372, 14401, 14431, 14461, 14490, 14520, 14550, 14579, 14609, 14638, 14667, 14697, 14726, 14756,
14785, 14815, 14844, 14874, 14904, 14933, 14963, 14993, 15021, 15051, 15081, 15110, 15140, 15169, 15199, 15228, 15258, 15287, 15317, 15347,
15377, 15406, 15436, 15465, 15494, 15524, 15553, 15582, 15612, 15641, 15671, 15701, 15731, 15760, 15790, 15820, 15849, 15878, 15908, 15937,
15966, 15996, 16025, 16055, 16085, 16114, 16144, 16174, 16204, 16233, 16262, 16292, 16321, 16350, 16380, 16409, 16439, 16468, 16498, 16528,
16558, 16587, 16617, 16646, 16676, 16705, 16734, 16764, 16793, 16823, 16852, 16882, 16912, 16941, 16971, 17001, 17030, 17060, 17089, 17118,
17148, 17177, 17207, 17236, 17266, 17295, 17325, 17355, 17384, 17414, 17444, 17473, 17502, 17532, 17561, 17591, 17620, 17650, 17679, 17709,
17738, 17768, 17798, 17827, 17857, 17886, 17916, 17945, 17975, 18004, 18034, 18063, 18093, 18122, 18152, 18181, 18211, 18241, 18270, 18300,
18330, 18359, 18388, 18418, 18447, 18476, 18506, 18535, 18565, 18595, 18625, 18654, 18684, 18714, 18743, 18772, 18802, 18831, 18860, 18890,
18919, 18949, 18979, 19008, 19038, 19068, 19098, 19127, 19156, 19186, 19215, 19244, 19274, 19303, 19333, 19362, 19392, 19422, 19452, 19481,
19511, 19540, 19570, 19599, 19628, 19658, 19687, 19717, 19746, 19776, 19806, 19836, 19865, 19895, 19924, 19954, 19983, 20012, 20042, 20071,
20101, 20130, 20160, 20190, 20219, 20249, 20279, 20308, 20338, 20367, 20396, 20426, 20455, 20485, 20514, 20544, 20573, 20603, 20633, 20662,
20692, 20721, 20751, 20780, 20810, 20839, 20869, 20898, 20928, 20957, 20987, 21016, 21046, 21076, 21105, 21135, 21164, 21194, 21223, 21253,
21282, 21312, 21341, 21371, 21400, 21430, 21459, 21489, 21519, 21548, 21578, 21607, 21637, 21666, 21696, 21725, 21754, 21784, 21813, 21843,
21873, 21902, 21932, 21962, 21991, 22021, 22050, 22080, 22109, 22138, 22168, 22197, 22227, 22256, 22286, 22316, 22346, 22375, 22405, 22434,
22464, 22493, 22522, 22552, 22581, 22611, 22640, 22670, 22700, 22730, 22759, 22789, 22818, 22848, 22877, 22906, 22936, 22965, 22994, 23024,
23054, 23083, 23113, 23143, 23173, 23202, 23232, 23261, 23290, 23320, 23349, 23379, 23408, 23438, 23467, 23497, 23527, 23556, 23586, 23616,
23645, 23674, 23704, 23733, 23763, 23792, 23822, 23851, 23881, 23910, 23940, 23970, 23999, 24029, 24058, 24088, 24117, 24147, 24176, 24206,
24235, 24265, 24294, 24324, 24353, 24383, 24413, 24442, 24472, 24501, 24531, 24560, 24590, 24619, 24648, 24678, 24707, 24737, 24767, 24796,
24826, 24856, 24885, 24915, 24944, 24974, 25003, 25032, 25062, 25091, 25121, 25150, 25180, 25210, 25240, 25269, 25299, 25328, 25358, 25387,
25416, 25446, 25475, 25505, 25534, 25564, 25594, 25624, 25653, 25683, 25712, 25742, 25771, 25800, 25830, 25859, 25888, 25918, 25948, 25977,
26007, 26037, 26067, 26096, 26126, 26155, 26184, 26214, 26243, 26272, 26302, 26332, 26361, 26391, 26421, 26451, 26480, 26510, 26539, 26568,
26598, 26627, 26656, 26686, 26715, 26745, 26775, 26805, 26834, 26864, 26893, 26923, 26952, 26982, 27011, 27041, 27070, 27099, 27129, 27159,
27188, 27218, 27248, 27277, 27307, 27336, 27366, 27395, 27425, 27454, 27484, 27513, 27542, 27572, 27602, 27631, 27661, 27691, 27720, 27750,
27779, 27809, 27838, 27868, 27897, 27926, 27956, 27985, 28015, 28045, 28074, 28104, 28134, 28163, 28193, 28222, 28252, 28281, 28310, 28340,
28369, 28399, 28428, 28458, 28488, 28517, 28547, 28577,
// From 1356
28607, 28636, 28665, 28695, 28724, 28754, 28783, 28813, 28843, 28872, 28901, 28931, 28960, 28990, 29019, 29049, 29078, 29108, 29137, 29167,
29196, 29226, 29255, 29285, 29315, 29345, 29375, 29404, 29434, 29463, 29492, 29522, 29551, 29580, 29610, 29640, 29669, 29699, 29729, 29759,
29788, 29818, 29847, 29876, 29906, 29935, 29964, 29994, 30023, 30053, 30082, 30112, 30141, 30171, 30200, 30230, 30259, 30289, 30318, 30348,
30378, 30408, 30437, 30467, 30496, 30526, 30555, 30585, 30614, 30644, 30673, 30703, 30732, 30762, 30791, 30821, 30850, 30880, 30909, 30939,
30968, 30998, 31027, 31057, 31086, 31116, 31145, 31175, 31204, 31234, 31263, 31293, 31322, 31352, 31381, 31411, 31441, 31471, 31500, 31530,
31559, 31589, 31618, 31648, 31676, 31706, 31736, 31766, 31795, 31825, 31854, 31884, 31913, 31943, 31972, 32002, 32031, 32061, 32090, 32120,
32150, 32180, 32209, 32239, 32268, 32298, 32327, 32357, 32386, 32416, 32445, 32475, 32504, 32534, 32563, 32593, 32622, 32652, 32681, 32711,
32740, 32770, 32799, 32829, 32858, 32888, 32917, 32947, 32976, 33006, 33035, 33065, 33094, 33124, 33153, 33183, 33213, 33243, 33272, 33302,
33331, 33361, 33390, 33420, 33450, 33479, 33509, 33539, 33568, 33598, 33627, 33657, 33686, 33716, 33745, 33775, 33804, 33834, 33863, 33893,
33922, 33952, 33981, 34011, 34040, 34069, 34099, 34128, 34158, 34187, 34217, 34247, 34277, 34306, 34336, 34365, 34395, 34424, 34454, 34483,
34512, 34542, 34571, 34601, 34631, 34660, 34690, 34719, 34749, 34778, 34808, 34837, 34867, 34896, 34926, 34955, 34985, 35015, 35044, 35074,
35103, 35133, 35162, 35192, 35222, 35251, 35280, 35310, 35340, 35370, 35399, 35429, 35458, 35488, 35517, 35547, 35576, 35605, 35635, 35665,
35694, 35723, 35753, 35782, 35811, 35841, 35871, 35901, 35930, 35960, 35989, 36019, 36048, 36078, 36107, 36136, 36166, 36195, 36225, 36254,
36284, 36314, 36343, 36373, 36403, 36433, 36462, 36492, 36521, 36551, 36580, 36610, 36639, 36669, 36698, 36728, 36757, 36786, 36816, 36845,
36875, 36904, 36934, 36963, 36993, 37022, 37052, 37081, 37111, 37141, 37170, 37200, 37229, 37259, 37288, 37318, 37347, 37377, 37406, 37436,
37465, 37495, 37524, 37554, 37584, 37613, 37643, 37672, 37701, 37731, 37760, 37790, 37819, 37849, 37878, 37908, 37938, 37967, 37997, 38027,
38056, 38085, 38115, 38144, 38174, 38203, 38233, 38262, 38292, 38322, 38351, 38381, 38410, 38440, 38469, 38499, 38528, 38558, 38587, 38617,
38646, 38676, 38705, 38735, 38764, 38794, 38823, 38853, 38882, 38912, 38941, 38971, 39001, 39030, 39059, 39089, 39118, 39148, 39178, 39208,
39237, 39267, 39297, 39326, 39355, 39385, 39414, 39444, 39473, 39503, 39532, 39562, 39592, 39621, 39650, 39680, 39709, 39739, 39768, 39798,
39827, 39857, 39886, 39916, 39946, 39975, 40005, 40035, 40064, 40094, 40123, 40153, 40182, 40212, 40241, 40271, 40300, 40330, 40359, 40389,
40418, 40448, 40477, 40507, 40536, 40566, 40595, 40625, 40655, 40685, 40714, 40744, 40773, 40803, 40832, 40862, 40892, 40921, 40951, 40980,
41009, 41039, 41068, 41098, 41127, 41157, 41186, 41216, 41245, 41275, 41304, 41334, 41364, 41393, 41422, 41452, 41481, 41511, 41540, 41570,
41599, 41629, 41658, 41688, 41718, 41748, 41777, 41807, 41836, 41865, 41894, 41924, 41953, 41983, 42012, 42042, 42072, 42102, 42131, 42161,
42190, 42220, 42249, 42279, 42308, 42337, 42367, 42397, 42426, 42456, 42485, 42515, 42545, 42574, 42604, 42633, 42662, 42692, 42721, 42751,
42780, 42810, 42839, 42869, 42899, 42929, 42958, 42988, 43017, 43046, 43076, 43105, 43135, 43164, 43194, 43223, 43253, 43283, 43312, 43342,
43371, 43401, 43430, 43460, 43489, 43519, 43548, 43578, 43607, 43637, 43666, 43696, 43726, 43755, 43785, 43814, 43844, 43873, 43903, 43932,
43962, 43991, 44021, 44050, 44080, 44109, 44139, 44169, 44198, 44228, 44258, 44287, 44317, 44346, 44375, 44405, 44434, 44464, 44493, 44523,
44553, 44582, 44612, 44641, 44671, 44700, 44730, 44759, 44788, 44818, 44847, 44877, 44906, 44936, 44966, 44996, 45025, 45055, 45084, 45114,
45143, 45172, 45202, 45231, 45261, 45290, 45320, 45350, 45380, 45409, 45439, 45468, 45498, 45527, 45556, 45586, 45615, 45644, 45674, 45704,
45733, 45763, 45793, 45823, 45852, 45882, 45911, 45940, 45970, 45999, 46028, 46058, 46088, 46117, 46147, 46177, 46206, 46236, 46265, 46295,
46324, 46354, 46383, 46413, 46442, 46472, 46501, 46531, 46560, 46590, 46620, 46649, 46679, 46708, 46738, 46767, 46797, 46826, 46856, 46885,
46915, 46944, 46974, 47003, 47033, 47063, 47092, 47122, 47151, 47181, 47210, 47240, 47269, 47298, 47328, 47357, 47387, 47417, 47446, 47476,
47506, 47535, 47565, 47594, 47624, 47653, 47682, 47712, 47741, 47771, 47800, 47830, 47860, 47890, 47919, 47949, 47978, 48008, 48037, 48066,
48096, 48125, 48155, 48184, 48214, 48244, 48273, 48303, 48333, 48362, 48392, 48421, 48450, 48480, 48509, 48538, 48568, 48598, 48627, 48657,
48687, 48717, 48746, 48776, 48805, 48834, 48864, 48893, 48922, 48952, 48982, 49011, 49041, 49071, 49100, 49130, 49160, 49189, 49218, 49248,
49277, 49306, 49336, 49365, 49395, 49425, 49455, 49484, 49514, 49543, 49573, 49602, 49632, 49661, 49690, 49720, 49749, 49779, 49809, 49838,
49868, 49898, 49927, 49957, 49986, 50016, 50045, 50075, 50104, 50133, 50163, 50192, 50222, 50252, 50281, 50311, 50340, 50370, 50400, 50429,
50459, 50488, 50518, 50547, 50576, 50606, 50635, 50665, 50694, 50724, 50754, 50784, 50813, 50843, 50872, 50902, 50931, 50960, 50990, 51019,
51049, 51078, 51108, 51138, 51167, 51197, 51227, 51256, 51286, 51315, 51345, 51374, 51403, 51433, 51462, 51492, 51522, 51552, 51582, 51611,
51641, 51670, 51699, 51729, 51758, 51787, 51816, 51846, 51876, 51906, 51936, 51965, 51995, 52025, 52054, 52083, 52113, 52142, 52171, 52200,
52230, 52260, 52290, 52319, 52349, 52379, 52408, 52438, 52467, 52497, 52526, 52555, 52585, 52614, 52644, 52673, 52703, 52733, 52762, 52792,
52822, 52851, 52881, 52910, 52939, 52969, 52998, 53028, 53057, 53087, 53116, 53146, 53176, 53205, 53235, 53264, 53294, 53324, 53353, 53383,
53412, 53441, 53471, 53500, 53530, 53559, 53589, 53619, 53648, 53678, 53708, 53737, 53767, 53796, 53825, 53855, 53884, 53913, 53943, 53973,
54003, 54032, 54062, 54092, 54121, 54151, 54180, 54209, 54239, 54268, 54297, 54327, 54357, 54387, 54416, 54446, 54476, 54505, 54535, 54564,
54593, 54623, 54652, 54681, 54711, 54741, 54770, 54800, 54830, 54859, 54889, 54919, 54948, 54977, 55007, 55036, 55066, 55095, 55125, 55154,
55184, 55213, 55243, 55273, 55302, 55332, 55361, 55391, 55420, 55450, 55479, 55508, 55538, 55567, 55597, 55627, 55657, 55686, 55716, 55745,
55775, 55804, 55834, 55863, 55892, 55922, 55951, 55981, 56011, 56040, 56070, 56100, 56129, 56159, 56188, 56218, 56247, 56276, 56306, 56335,
56365, 56394, 56424, 56454, 56483, 56513, 56543, 56572, 56601, 56631, 56660, 56690, 56719, 56749, 56778, 56808, 56837, 56867, 56897, 56926,
56956, 56985, 57015, 57044, 57074, 57103, 57133, 57162, 57192, 57221, 57251, 57280, 57310, 57340, 57369, 57399, 57429, 57458, 57487, 57517,
57546, 57576, 57605, 57634, 57664, 57694, 57723, 57753, 57783, 57813, 57842, 57871, 57901, 57930, 57959, 57989, 58018, 58048, 58077, 58107,
58137, 58167, 58196, 58226, 58255, 58285, 58314, 58343, 58373, 58402, 58432, 58461, 58491, 58521, 58551, 58580, 58610, 58639, 58669, 58698,
58727, 58757, 58786, 58816, 58845, 58875, 58905, 58934, 58964, 58994, 59023, 59053, 59082, 59111, 59141, 59170, 59200, 59229, 59259, 59288,
59318, 59348, 59377, 59407, 59436, 59466, 59495, 59525, 59554, 59584, 59613, 59643, 59672, 59702, 59731, 59761, 59791, 59820, 59850, 59879,
59909, 59939, 59968, 59997, 60027, 60056, 60086, 60115, 60145, 60174, 60204, 60234, 60264, 60293, 60323, 60352, 60381, 60411, 60440, 60469,
60499, 60528, 60558, 60588, 60618, 60648, 60677, 60707, 60736, 60765, 60795, 60824, 60853, 60883, 60912, 60942, 60972, 61002, 61031, 61061,
61090, 61120, 61149, 61179, 61208, 61237, 61267, 61296, 61326, 61356, 61385, 61415, 61445, 61474, 61504, 61533, 61563, 61592, 61621, 61651,
61680, 61710, 61739, 61769, 61799, 61828, 61858, 61888, 61917, 61947, 61976, 62006, 62035, 62064, 62094, 62123, 62153, 62182, 62212, 62242,
62271, 62301, 62331, 62360, 62390, 62419, 62448, 62478, 62507, 62537, 62566, 62596, 62625, 62655, 62685, 62715, 62744, 62774, 62803, 62832,
62862, 62891, 62921, 62950, 62980, 63009, 63039, 63069, 63099, 63128, 63157, 63187, 63216, 63246, 63275, 63305, 63334, 63363, 63393, 63423,
63453, 63482, 63512, 63541, 63571, 63600, 63630, 63659, 63689, 63718, 63747, 63777, 63807, 63836, 63866, 63895, 63925, 63955, 63984, 64014,
64043, 64073, 64102, 64131, 64161, 64190, 64220, 64249, 64279, 64309, 64339, 64368, 64398, 64427, 64457, 64486, 64515, 64545, 64574, 64603,
64633, 64663, 64692, 64722, 64752, 64782, 64811, 64841, 64870, 64899, 64929, 64958, 64987, 65017, 65047, 65076, 65106, 65136, 65166, 65195,
65225, 65254, 65283, 65313, 65342, 65371, 65401, 65431, 65460, 65490, 65520, 65549, 65579, 65608, 65638, 65667, 65697, 65726, 65755, 65785,
65815, 65844, 65874, 65903, 65933, 65963, 65992, 66022, 66051, 66081, 66110, 66140, 66169, 66199, 66228, 66258, 66287, 66317, 66346, 66376,
66405, 66435, 66465, 66494, 66524, 66553, 66583, 66612, 66641, 66671, 66700, 66730, 66760, 66789, 66819, 66849, 66878, 66908, 66937, 66967,
66996, 67025, 67055, 67084, 67114, 67143, 67173, 67203, 67233, 67262, 67292, 67321, 67351, 67380, 67409, 67439, 67468, 67497, 67527, 67557,
67587, 67617, 67646, 67676, 67705, 67735, 67764, 67793, 67823, 67852, 67882, 67911, 67941, 67971, 68000, 68030, 68060, 68089, 68119, 68148,
68177, 68207, 68236, 68266, 68295, 68325, 68354, 68384, 68414, 68443, 68473, 68502, 68532, 68561, 68591, 68620, 68650, 68679, 68708, 68738,
68768, 68797, 68827, 68857, 68886, 68916, 68946, 68975, 69004, 69034, 69063, 69092, 69122, 69152, 69181, 69211, 69240, 69270, 69300, 69330,
69359, 69388, 69418, 69447, 69476, 69506, 69535, 69565, 69595, 69624, 69654, 69684, 69713, 69743, 69772, 69802, 69831, 69861, 69890, 69919,
69949, 69978, 70008, 70038, 70067, 70097, 70126, 70156, 70186, 70215, 70245, 70274, 70303, 70333, 70362, 70392, 70421, 70451, 70481, 70510,
70540, 70570, 70599, 70629, 70658, 70687, 70717, 70746, 70776, 70805, 70835, 70864, 70894, 70924, 70954, 70983, 71013, 71042, 71071, 71101,
71130, 71159, 71189, 71218, 71248, 71278, 71308, 71337, 71367, 71397, 71426, 71455, 71485, 71514, 71543, 71573, 71602, 71632, 71662, 71691,
71721, 71751, 71781, 71810, 71839, 71869, 71898, 71927, 71957, 71986, 72016, 72046, 72075, 72105, 72135, 72164, 72194, 72223, 72253, 72282,
72311, 72341, 72370, 72400, 72429, 72459, 72489, 72518, 72548, 72577, 72607, 72637, 72666, 72695, 72725, 72754, 72784, 72813, 72843, 72872,
72902, 72931, 72961, 72991, 73020, 73050, 73080, 73109, 73139, 73168, 73197, 73227, 73256, 73286, 73315, 73345, 73375, 73404, 73434, 73464,
73493, 73523, 73552, 73581, 73611, 73640, 73669, 73699, 73729, 73758, 73788, 73818, 73848, 73877, 73907, 73936, 73965, 73995, 74024, 74053,
74083, 74113, 74142, 74172, 74202, 74231, 74261, 74291, 74320, 74349, 74379, 74408, 74437, 74467, 74497, 74526, 74556, 74586, 74615, 74645,
74675, 74704, 74733, 74763, 74792, 74822, 74851, 74881, 74910, 74940, 74969, 74999, 75029, 75058, 75088, 75117, 75147, 75176, 75206, 75235,
75264, 75294, 75323, 75353, 75383, 75412, 75442, 75472, 75501, 75531, 75560, 75590, 75619, 75648, 75678, 75707, 75737, 75766, 75796, 75826,
75856, 75885, 75915, 75944, 75974, 76003, 76032, 76062, 76091, 76121, 76150, 76180, 76210, 76239, 76269, 76299, 76328, 76358, 76387, 76416,
76446, 76475, 76505, 76534, 76564, 76593, 76623, 76653, 76682, 76712, 76741, 76771, 76801, 76830, 76859, 76889, 76918, 76948, 76977, 77007,
77036, 77066, 77096, 77125, 77155, 77185, 77214, 77243, 77273, 77302, 77332, 77361, 77390, 77420, 77450, 77479, 77509, 77539, 77569, 77598,
77627, 77657, 77686, 77715, 77745, 77774, 77804, 77833, 77863, 77893, 77923, 77952, 77982, 78011, 78041, 78070, 78099, 78129, 78158, 78188,
78217, 78247, 78277, 78307, 78336, 78366, 78395, 78425, 78454, 78483, 78513, 78542, 78572, 78601, 78631, 78661, 78690, 78720, 78750, 78779,
78808, 78838, 78867, 78897, 78926, 78956, 78985, 79015, 79044, 79074, 79104, 79133, 79163, 79192, 79222, 79251, 79281, 79310, 79340, 79369,
79399, 79428, 79458, 79487, 79517, 79546, 79576, 79606, 79635, 79665, 79695, 79724, 79753, 79783, 79812, 79841, 79871, 79900, 79930, 79960,
79990];
},{"../main":545,"object-assign":434}],545:[function(_dereq_,module,exports){
/*
* World Calendars
* https://github.com/alexcjohnson/world-calendars
*
* Batch-converted from kbwood/calendars
* Many thanks to Keith Wood and all of the contributors to the original project!
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
/* http://keith-wood.name/calendars.html
Calendars for jQuery v2.0.2.
Written by Keith Wood (wood.keith{at}optusnet.com.au) August 2009.
Available under the MIT (http://keith-wood.name/licence.html) license.
Please attribute the author if you use it. */
var assign = _dereq_('object-assign');
function Calendars() {
this.regionalOptions = [];
this.regionalOptions[''] = {
invalidCalendar: 'Calendar {0} not found',
invalidDate: 'Invalid {0} date',
invalidMonth: 'Invalid {0} month',
invalidYear: 'Invalid {0} year',
differentCalendars: 'Cannot mix {0} and {1} dates'
};
this.local = this.regionalOptions[''];
this.calendars = {};
this._localCals = {};
}
/** Create the calendars plugin.
<p>Provides support for various world calendars in a consistent manner.</p>
@class Calendars
@example _exports.instance('julian').newDate(2014, 12, 25) */
assign(Calendars.prototype, {
/** Obtain a calendar implementation and localisation.
@memberof Calendars
@param [name='gregorian'] {string} The name of the calendar, e.g. 'gregorian', 'persian', 'islamic'.
@param [language=''] {string} The language code to use for localisation (default is English).
@return {Calendar} The calendar and localisation.
@throws Error if calendar not found. */
instance: function(name, language) {
name = (name || 'gregorian').toLowerCase();
language = language || '';
var cal = this._localCals[name + '-' + language];
if (!cal && this.calendars[name]) {
cal = new this.calendars[name](language);
this._localCals[name + '-' + language] = cal;
}
if (!cal) {
throw (this.local.invalidCalendar || this.regionalOptions[''].invalidCalendar).
replace(/\{0\}/, name);
}
return cal;
},
/** Create a new date - for today if no other parameters given.
@memberof Calendars
@param year {CDate|number} The date to copy or the year for the date.
@param [month] {number} The month for the date.
@param [day] {number} The day for the date.
@param [calendar='gregorian'] {BaseCalendar|string} The underlying calendar or the name of the calendar.
@param [language=''] {string} The language to use for localisation (default English).
@return {CDate} The new date.
@throws Error if an invalid date. */
newDate: function(year, month, day, calendar, language) {
calendar = (year != null && year.year ? year.calendar() : (typeof calendar === 'string' ?
this.instance(calendar, language) : calendar)) || this.instance();
return calendar.newDate(year, month, day);
},
/** A simple digit substitution function for localising numbers via the Calendar digits option.
@member Calendars
@param digits {string[]} The substitute digits, for 0 through 9.
@return {function} The substitution function. */
substituteDigits: function(digits) {
return function(value) {
return (value + '').replace(/[0-9]/g, function(digit) {
return digits[digit];
});
}
},
/** Digit substitution function for localising Chinese style numbers via the Calendar digits option.
@member Calendars
@param digits {string[]} The substitute digits, for 0 through 9.
@param powers {string[]} The characters denoting powers of 10, i.e. 1, 10, 100, 1000.
@return {function} The substitution function. */
substituteChineseDigits: function(digits, powers) {
return function(value) {
var localNumber = '';
var power = 0;
while (value > 0) {
var units = value % 10;
localNumber = (units === 0 ? '' : digits[units] + powers[power]) + localNumber;
power++;
value = Math.floor(value / 10);
}
if (localNumber.indexOf(digits[1] + powers[1]) === 0) {
localNumber = localNumber.substr(1);
}
return localNumber || digits[0];
}
}
});
/** Generic date, based on a particular calendar.
@class CDate
@param calendar {BaseCalendar} The underlying calendar implementation.
@param year {number} The year for this date.
@param month {number} The month for this date.
@param day {number} The day for this date.
@return {CDate} The date object.
@throws Error if an invalid date. */
function CDate(calendar, year, month, day) {
this._calendar = calendar;
this._year = year;
this._month = month;
this._day = day;
if (this._calendar._validateLevel === 0 &&
!this._calendar.isValid(this._year, this._month, this._day)) {
throw (_exports.local.invalidDate || _exports.regionalOptions[''].invalidDate).
replace(/\{0\}/, this._calendar.local.name);
}
}
/** Pad a numeric value with leading zeroes.
@private
@param value {number} The number to format.
@param length {number} The minimum length.
@return {string} The formatted number. */
function pad(value, length) {
value = '' + value;
return '000000'.substring(0, length - value.length) + value;
}
assign(CDate.prototype, {
/** Create a new date.
@memberof CDate
@param [year] {CDate|number} The date to copy or the year for the date (default this date).
@param [month] {number} The month for the date.
@param [day] {number} The day for the date.
@return {CDate} The new date.
@throws Error if an invalid date. */
newDate: function(year, month, day) {
return this._calendar.newDate((year == null ? this : year), month, day);
},
/** Set or retrieve the year for this date.
@memberof CDate
@param [year] {number} The year for the date.
@return {number|CDate} The date's year (if no parameter) or the updated date.
@throws Error if an invalid date. */
year: function(year) {
return (arguments.length === 0 ? this._year : this.set(year, 'y'));
},
/** Set or retrieve the month for this date.
@memberof CDate
@param [month] {number} The month for the date.
@return {number|CDate} The date's month (if no parameter) or the updated date.
@throws Error if an invalid date. */
month: function(month) {
return (arguments.length === 0 ? this._month : this.set(month, 'm'));
},
/** Set or retrieve the day for this date.
@memberof CDate
@param [day] {number} The day for the date.
@return {number|CData} The date's day (if no parameter) or the updated date.
@throws Error if an invalid date. */
day: function(day) {
return (arguments.length === 0 ? this._day : this.set(day, 'd'));
},
/** Set new values for this date.
@memberof CDate
@param year {number} The year for the date.
@param month {number} The month for the date.
@param day {number} The day for the date.
@return {CDate} The updated date.
@throws Error if an invalid date. */
date: function(year, month, day) {
if (!this._calendar.isValid(year, month, day)) {
throw (_exports.local.invalidDate || _exports.regionalOptions[''].invalidDate).
replace(/\{0\}/, this._calendar.local.name);
}
this._year = year;
this._month = month;
this._day = day;
return this;
},
/** Determine whether this date is in a leap year.
@memberof CDate
@return {boolean} <code>true</code> if this is a leap year, <code>false</code> if not. */
leapYear: function() {
return this._calendar.leapYear(this);
},
/** Retrieve the epoch designator for this date, e.g. BCE or CE.
@memberof CDate
@return {string} The current epoch. */
epoch: function() {
return this._calendar.epoch(this);
},
/** Format the year, if not a simple sequential number.
@memberof CDate
@return {string} The formatted year. */
formatYear: function() {
return this._calendar.formatYear(this);
},
/** Retrieve the month of the year for this date,
i.e. the month's position within a numbered year.
@memberof CDate
@return {number} The month of the year: <code>minMonth</code> to months per year. */
monthOfYear: function() {
return this._calendar.monthOfYear(this);
},
/** Retrieve the week of the year for this date.
@memberof CDate
@return {number} The week of the year: 1 to weeks per year. */
weekOfYear: function() {
return this._calendar.weekOfYear(this);
},
/** Retrieve the number of days in the year for this date.
@memberof CDate
@return {number} The number of days in this year. */
daysInYear: function() {
return this._calendar.daysInYear(this);
},
/** Retrieve the day of the year for this date.
@memberof CDate
@return {number} The day of the year: 1 to days per year. */
dayOfYear: function() {
return this._calendar.dayOfYear(this);
},
/** Retrieve the number of days in the month for this date.
@memberof CDate
@return {number} The number of days. */
daysInMonth: function() {
return this._calendar.daysInMonth(this);
},
/** Retrieve the day of the week for this date.
@memberof CDate
@return {number} The day of the week: 0 to number of days - 1. */
dayOfWeek: function() {
return this._calendar.dayOfWeek(this);
},
/** Determine whether this date is a week day.
@memberof CDate
@return {boolean} <code>true</code> if a week day, <code>false</code> if not. */
weekDay: function() {
return this._calendar.weekDay(this);
},
/** Retrieve additional information about this date.
@memberof CDate
@return {object} Additional information - contents depends on calendar. */
extraInfo: function() {
return this._calendar.extraInfo(this);
},
/** Add period(s) to a date.
@memberof CDate
@param offset {number} The number of periods to adjust by.
@param period {string} One of 'y' for year, 'm' for month, 'w' for week, 'd' for day.
@return {CDate} The updated date. */
add: function(offset, period) {
return this._calendar.add(this, offset, period);
},
/** Set a portion of the date.
@memberof CDate
@param value {number} The new value for the period.
@param period {string} One of 'y' for year, 'm' for month, 'd' for day.
@return {CDate} The updated date.
@throws Error if not a valid date. */
set: function(value, period) {
return this._calendar.set(this, value, period);
},
/** Compare this date to another date.
@memberof CDate
@param date {CDate} The other date.
@return {number} -1 if this date is before the other date,
0 if they are equal, or +1 if this date is after the other date. */
compareTo: function(date) {
if (this._calendar.name !== date._calendar.name) {
throw (_exports.local.differentCalendars || _exports.regionalOptions[''].differentCalendars).
replace(/\{0\}/, this._calendar.local.name).replace(/\{1\}/, date._calendar.local.name);
}
var c = (this._year !== date._year ? this._year - date._year :
this._month !== date._month ? this.monthOfYear() - date.monthOfYear() :
this._day - date._day);
return (c === 0 ? 0 : (c < 0 ? -1 : +1));
},
/** Retrieve the calendar backing this date.
@memberof CDate
@return {BaseCalendar} The calendar implementation. */
calendar: function() {
return this._calendar;
},
/** Retrieve the Julian date equivalent for this date,
i.e. days since January 1, 4713 BCE Greenwich noon.
@memberof CDate
@return {number} The equivalent Julian date. */
toJD: function() {
return this._calendar.toJD(this);
},
/** Create a new date from a Julian date.
@memberof CDate
@param jd {number} The Julian date to convert.
@return {CDate} The equivalent date. */
fromJD: function(jd) {
return this._calendar.fromJD(jd);
},
/** Convert this date to a standard (Gregorian) JavaScript Date.
@memberof CDate
@return {Date} The equivalent JavaScript date. */
toJSDate: function() {
return this._calendar.toJSDate(this);
},
/** Create a new date from a standard (Gregorian) JavaScript Date.
@memberof CDate
@param jsd {Date} The JavaScript date to convert.
@return {CDate} The equivalent date. */
fromJSDate: function(jsd) {
return this._calendar.fromJSDate(jsd);
},
/** Convert to a string for display.
@memberof CDate
@return {string} This date as a string. */
toString: function() {
return (this.year() < 0 ? '-' : '') + pad(Math.abs(this.year()), 4) +
'-' + pad(this.month(), 2) + '-' + pad(this.day(), 2);
}
});
/** Basic functionality for all calendars.
Other calendars should extend this:
<pre>OtherCalendar.prototype = new BaseCalendar;</pre>
@class BaseCalendar */
function BaseCalendar() {
this.shortYearCutoff = '+10';
}
assign(BaseCalendar.prototype, {
_validateLevel: 0, // "Stack" to turn validation on/off
/** Create a new date within this calendar - today if no parameters given.
@memberof BaseCalendar
@param year {CDate|number} The date to duplicate or the year for the date.
@param [month] {number} The month for the date.
@param [day] {number} The day for the date.
@return {CDate} The new date.
@throws Error if not a valid date or a different calendar used. */
newDate: function(year, month, day) {
if (year == null) {
return this.today();
}
if (year.year) {
this._validate(year, month, day,
_exports.local.invalidDate || _exports.regionalOptions[''].invalidDate);
day = year.day();
month = year.month();
year = year.year();
}
return new CDate(this, year, month, day);
},
/** Create a new date for today.
@memberof BaseCalendar
@return {CDate} Today's date. */
today: function() {
return this.fromJSDate(new Date());
},
/** Retrieve the epoch designator for this date.
@memberof BaseCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {string} The current epoch.
@throws Error if an invalid year or a different calendar used. */
epoch: function(year) {
var date = this._validate(year, this.minMonth, this.minDay,
_exports.local.invalidYear || _exports.regionalOptions[''].invalidYear);
return (date.year() < 0 ? this.local.epochs[0] : this.local.epochs[1]);
},
/** Format the year, if not a simple sequential number
@memberof BaseCalendar
@param year {CDate|number} The date to format or the year to format.
@return {string} The formatted year.
@throws Error if an invalid year or a different calendar used. */
formatYear: function(year) {
var date = this._validate(year, this.minMonth, this.minDay,
_exports.local.invalidYear || _exports.regionalOptions[''].invalidYear);
return (date.year() < 0 ? '-' : '') + pad(Math.abs(date.year()), 4)
},
/** Retrieve the number of months in a year.
@memberof BaseCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {number} The number of months.
@throws Error if an invalid year or a different calendar used. */
monthsInYear: function(year) {
this._validate(year, this.minMonth, this.minDay,
_exports.local.invalidYear || _exports.regionalOptions[''].invalidYear);
return 12;
},
/** Calculate the month's ordinal position within the year -
for those calendars that don't start at month 1!
@memberof BaseCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param month {number} The month to examine.
@return {number} The ordinal position, starting from <code>minMonth</code>.
@throws Error if an invalid year/month or a different calendar used. */
monthOfYear: function(year, month) {
var date = this._validate(year, month, this.minDay,
_exports.local.invalidMonth || _exports.regionalOptions[''].invalidMonth);
return (date.month() + this.monthsInYear(date) - this.firstMonth) %
this.monthsInYear(date) + this.minMonth;
},
/** Calculate actual month from ordinal position, starting from minMonth.
@memberof BaseCalendar
@param year {number} The year to examine.
@param ord {number} The month's ordinal position.
@return {number} The month's number.
@throws Error if an invalid year/month. */
fromMonthOfYear: function(year, ord) {
var m = (ord + this.firstMonth - 2 * this.minMonth) %
this.monthsInYear(year) + this.minMonth;
this._validate(year, m, this.minDay,
_exports.local.invalidMonth || _exports.regionalOptions[''].invalidMonth);
return m;
},
/** Retrieve the number of days in a year.
@memberof BaseCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {number} The number of days.
@throws Error if an invalid year or a different calendar used. */
daysInYear: function(year) {
var date = this._validate(year, this.minMonth, this.minDay,
_exports.local.invalidYear || _exports.regionalOptions[''].invalidYear);
return (this.leapYear(date) ? 366 : 365);
},
/** Retrieve the day of the year for a date.
@memberof BaseCalendar
@param year {CDate|number} The date to convert or the year to convert.
@param [month] {number} The month to convert.
@param [day] {number} The day to convert.
@return {number} The day of the year.
@throws Error if an invalid date or a different calendar used. */
dayOfYear: function(year, month, day) {
var date = this._validate(year, month, day,
_exports.local.invalidDate || _exports.regionalOptions[''].invalidDate);
return date.toJD() - this.newDate(date.year(),
this.fromMonthOfYear(date.year(), this.minMonth), this.minDay).toJD() + 1;
},
/** Retrieve the number of days in a week.
@memberof BaseCalendar
@return {number} The number of days. */
daysInWeek: function() {
return 7;
},
/** Retrieve the day of the week for a date.
@memberof BaseCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {number} The day of the week: 0 to number of days - 1.
@throws Error if an invalid date or a different calendar used. */
dayOfWeek: function(year, month, day) {
var date = this._validate(year, month, day,
_exports.local.invalidDate || _exports.regionalOptions[''].invalidDate);
return (Math.floor(this.toJD(date)) + 2) % this.daysInWeek();
},
/** Retrieve additional information about a date.
@memberof BaseCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {object} Additional information - contents depends on calendar.
@throws Error if an invalid date or a different calendar used. */
extraInfo: function(year, month, day) {
this._validate(year, month, day,
_exports.local.invalidDate || _exports.regionalOptions[''].invalidDate);
return {};
},
/** Add period(s) to a date.
Cater for no year zero.
@memberof BaseCalendar
@param date {CDate} The starting date.
@param offset {number} The number of periods to adjust by.
@param period {string} One of 'y' for year, 'm' for month, 'w' for week, 'd' for day.
@return {CDate} The updated date.
@throws Error if a different calendar used. */
add: function(date, offset, period) {
this._validate(date, this.minMonth, this.minDay,
_exports.local.invalidDate || _exports.regionalOptions[''].invalidDate);
return this._correctAdd(date, this._add(date, offset, period), offset, period);
},
/** Add period(s) to a date.
@memberof BaseCalendar
@private
@param date {CDate} The starting date.
@param offset {number} The number of periods to adjust by.
@param period {string} One of 'y' for year, 'm' for month, 'w' for week, 'd' for day.
@return {CDate} The updated date. */
_add: function(date, offset, period) {
this._validateLevel++;
if (period === 'd' || period === 'w') {
var jd = date.toJD() + offset * (period === 'w' ? this.daysInWeek() : 1);
var d = date.calendar().fromJD(jd);
this._validateLevel--;
return [d.year(), d.month(), d.day()];
}
try {
var y = date.year() + (period === 'y' ? offset : 0);
var m = date.monthOfYear() + (period === 'm' ? offset : 0);
var d = date.day();// + (period === 'd' ? offset : 0) +
//(period === 'w' ? offset * this.daysInWeek() : 0);
var resyncYearMonth = function(calendar) {
while (m < calendar.minMonth) {
y--;
m += calendar.monthsInYear(y);
}
var yearMonths = calendar.monthsInYear(y);
while (m > yearMonths - 1 + calendar.minMonth) {
y++;
m -= yearMonths;
yearMonths = calendar.monthsInYear(y);
}
};
if (period === 'y') {
if (date.month() !== this.fromMonthOfYear(y, m)) { // Hebrew
m = this.newDate(y, date.month(), this.minDay).monthOfYear();
}
m = Math.min(m, this.monthsInYear(y));
d = Math.min(d, this.daysInMonth(y, this.fromMonthOfYear(y, m)));
}
else if (period === 'm') {
resyncYearMonth(this);
d = Math.min(d, this.daysInMonth(y, this.fromMonthOfYear(y, m)));
}
var ymd = [y, this.fromMonthOfYear(y, m), d];
this._validateLevel--;
return ymd;
}
catch (e) {
this._validateLevel--;
throw e;
}
},
/** Correct a candidate date after adding period(s) to a date.
Handle no year zero if necessary.
@memberof BaseCalendar
@private
@param date {CDate} The starting date.
@param ymd {number[]} The added date.
@param offset {number} The number of periods to adjust by.
@param period {string} One of 'y' for year, 'm' for month, 'w' for week, 'd' for day.
@return {CDate} The updated date. */
_correctAdd: function(date, ymd, offset, period) {
if (!this.hasYearZero && (period === 'y' || period === 'm')) {
if (ymd[0] === 0 || // In year zero
(date.year() > 0) !== (ymd[0] > 0)) { // Crossed year zero
var adj = {y: [1, 1, 'y'], m: [1, this.monthsInYear(-1), 'm'],
w: [this.daysInWeek(), this.daysInYear(-1), 'd'],
d: [1, this.daysInYear(-1), 'd']}[period];
var dir = (offset < 0 ? -1 : +1);
ymd = this._add(date, offset * adj[0] + dir * adj[1], adj[2]);
}
}
return date.date(ymd[0], ymd[1], ymd[2]);
},
/** Set a portion of the date.
@memberof BaseCalendar
@param date {CDate} The starting date.
@param value {number} The new value for the period.
@param period {string} One of 'y' for year, 'm' for month, 'd' for day.
@return {CDate} The updated date.
@throws Error if an invalid date or a different calendar used. */
set: function(date, value, period) {
this._validate(date, this.minMonth, this.minDay,
_exports.local.invalidDate || _exports.regionalOptions[''].invalidDate);
var y = (period === 'y' ? value : date.year());
var m = (period === 'm' ? value : date.month());
var d = (period === 'd' ? value : date.day());
if (period === 'y' || period === 'm') {
d = Math.min(d, this.daysInMonth(y, m));
}
return date.date(y, m, d);
},
/** Determine whether a date is valid for this calendar.
@memberof BaseCalendar
@param year {number} The year to examine.
@param month {number} The month to examine.
@param day {number} The day to examine.
@return {boolean} <code>true</code> if a valid date, <code>false</code> if not. */
isValid: function(year, month, day) {
this._validateLevel++;
var valid = (this.hasYearZero || year !== 0);
if (valid) {
var date = this.newDate(year, month, this.minDay);
valid = (month >= this.minMonth && month - this.minMonth < this.monthsInYear(date)) &&
(day >= this.minDay && day - this.minDay < this.daysInMonth(date));
}
this._validateLevel--;
return valid;
},
/** Convert the date to a standard (Gregorian) JavaScript Date.
@memberof BaseCalendar
@param year {CDate|number} The date to convert or the year to convert.
@param [month] {number} The month to convert.
@param [day] {number} The day to convert.
@return {Date} The equivalent JavaScript date.
@throws Error if an invalid date or a different calendar used. */
toJSDate: function(year, month, day) {
var date = this._validate(year, month, day,
_exports.local.invalidDate || _exports.regionalOptions[''].invalidDate);
return _exports.instance().fromJD(this.toJD(date)).toJSDate();
},
/** Convert the date from a standard (Gregorian) JavaScript Date.
@memberof BaseCalendar
@param jsd {Date} The JavaScript date.
@return {CDate} The equivalent calendar date. */
fromJSDate: function(jsd) {
return this.fromJD(_exports.instance().fromJSDate(jsd).toJD());
},
/** Check that a candidate date is from the same calendar and is valid.
@memberof BaseCalendar
@private
@param year {CDate|number} The date to validate or the year to validate.
@param [month] {number} The month to validate.
@param [day] {number} The day to validate.
@param error {string} Rrror message if invalid.
@throws Error if different calendars used or invalid date. */
_validate: function(year, month, day, error) {
if (year.year) {
if (this._validateLevel === 0 && this.name !== year.calendar().name) {
throw (_exports.local.differentCalendars || _exports.regionalOptions[''].differentCalendars).
replace(/\{0\}/, this.local.name).replace(/\{1\}/, year.calendar().local.name);
}
return year;
}
try {
this._validateLevel++;
if (this._validateLevel === 1 && !this.isValid(year, month, day)) {
throw error.replace(/\{0\}/, this.local.name);
}
var date = this.newDate(year, month, day);
this._validateLevel--;
return date;
}
catch (e) {
this._validateLevel--;
throw e;
}
}
});
/** Implementation of the Proleptic Gregorian Calendar.
See <a href=":http://en.wikipedia.org/wiki/Gregorian_calendar">http://en.wikipedia.org/wiki/Gregorian_calendar</a>
and <a href="http://en.wikipedia.org/wiki/Proleptic_Gregorian_calendar">http://en.wikipedia.org/wiki/Proleptic_Gregorian_calendar</a>.
@class GregorianCalendar
@augments BaseCalendar
@param [language=''] {string} The language code (default English) for localisation. */
function GregorianCalendar(language) {
this.local = this.regionalOptions[language] || this.regionalOptions[''];
}
GregorianCalendar.prototype = new BaseCalendar;
assign(GregorianCalendar.prototype, {
/** The calendar name.
@memberof GregorianCalendar */
name: 'Gregorian',
/** Julian date of start of Gregorian epoch: 1 January 0001 CE.
@memberof GregorianCalendar */
jdEpoch: 1721425.5,
/** Days per month in a common year.
@memberof GregorianCalendar */
daysPerMonth: [31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31],
/** <code>true</code> if has a year zero, <code>false</code> if not.
@memberof GregorianCalendar */
hasYearZero: false,
/** The minimum month number.
@memberof GregorianCalendar */
minMonth: 1,
/** The first month in the year.
@memberof GregorianCalendar */
firstMonth: 1,
/** The minimum day number.
@memberof GregorianCalendar */
minDay: 1,
/** Localisations for the plugin.
Entries are objects indexed by the language code ('' being the default US/English).
Each object has the following attributes.
@memberof GregorianCalendar
@property name {string} The calendar name.
@property epochs {string[]} The epoch names.
@property monthNames {string[]} The long names of the months of the year.
@property monthNamesShort {string[]} The short names of the months of the year.
@property dayNames {string[]} The long names of the days of the week.
@property dayNamesShort {string[]} The short names of the days of the week.
@property dayNamesMin {string[]} The minimal names of the days of the week.
@property dateFormat {string} The date format for this calendar.
See the options on <a href="BaseCalendar.html#formatDate"><code>formatDate</code></a> for details.
@property firstDay {number} The number of the first day of the week, starting at 0.
@property isRTL {number} <code>true</code> if this localisation reads right-to-left. */
regionalOptions: { // Localisations
'': {
name: 'Gregorian',
epochs: ['BCE', 'CE'],
monthNames: ['January', 'February', 'March', 'April', 'May', 'June',
'July', 'August', 'September', 'October', 'November', 'December'],
monthNamesShort: ['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'],
dayNames: ['Sunday', 'Monday', 'Tuesday', 'Wednesday', 'Thursday', 'Friday', 'Saturday'],
dayNamesShort: ['Sun', 'Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat'],
dayNamesMin: ['Su', 'Mo', 'Tu', 'We', 'Th', 'Fr', 'Sa'],
digits: null,
dateFormat: 'mm/dd/yyyy',
firstDay: 0,
isRTL: false
}
},
/** Determine whether this date is in a leap year.
@memberof GregorianCalendar
@param year {CDate|number} The date to examine or the year to examine.
@return {boolean} <code>true</code> if this is a leap year, <code>false</code> if not.
@throws Error if an invalid year or a different calendar used. */
leapYear: function(year) {
var date = this._validate(year, this.minMonth, this.minDay,
_exports.local.invalidYear || _exports.regionalOptions[''].invalidYear);
var year = date.year() + (date.year() < 0 ? 1 : 0); // No year zero
return year % 4 === 0 && (year % 100 !== 0 || year % 400 === 0);
},
/** Determine the week of the year for a date - ISO 8601.
@memberof GregorianCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {number} The week of the year, starting from 1.
@throws Error if an invalid date or a different calendar used. */
weekOfYear: function(year, month, day) {
// Find Thursday of this week starting on Monday
var checkDate = this.newDate(year, month, day);
checkDate.add(4 - (checkDate.dayOfWeek() || 7), 'd');
return Math.floor((checkDate.dayOfYear() - 1) / 7) + 1;
},
/** Retrieve the number of days in a month.
@memberof GregorianCalendar
@param year {CDate|number} The date to examine or the year of the month.
@param [month] {number} The month.
@return {number} The number of days in this month.
@throws Error if an invalid month/year or a different calendar used. */
daysInMonth: function(year, month) {
var date = this._validate(year, month, this.minDay,
_exports.local.invalidMonth || _exports.regionalOptions[''].invalidMonth);
return this.daysPerMonth[date.month() - 1] +
(date.month() === 2 && this.leapYear(date.year()) ? 1 : 0);
},
/** Determine whether this date is a week day.
@memberof GregorianCalendar
@param year {CDate|number} The date to examine or the year to examine.
@param [month] {number} The month to examine.
@param [day] {number} The day to examine.
@return {boolean} <code>true</code> if a week day, <code>false</code> if not.
@throws Error if an invalid date or a different calendar used. */
weekDay: function(year, month, day) {
return (this.dayOfWeek(year, month, day) || 7) < 6;
},
/** Retrieve the Julian date equivalent for this date,
i.e. days since January 1, 4713 BCE Greenwich noon.
@memberof GregorianCalendar
@param year {CDate|number} The date to convert or the year to convert.
@param [month] {number} The month to convert.
@param [day] {number} The day to convert.
@return {number} The equivalent Julian date.
@throws Error if an invalid date or a different calendar used. */
toJD: function(year, month, day) {
var date = this._validate(year, month, day,
_exports.local.invalidDate || _exports.regionalOptions[''].invalidDate);
year = date.year();
month = date.month();
day = date.day();
if (year < 0) { year++; } // No year zero
// Jean Meeus algorithm, "Astronomical Algorithms", 1991
if (month < 3) {
month += 12;
year--;
}
var a = Math.floor(year / 100);
var b = 2 - a + Math.floor(a / 4);
return Math.floor(365.25 * (year + 4716)) +
Math.floor(30.6001 * (month + 1)) + day + b - 1524.5;
},
/** Create a new date from a Julian date.
@memberof GregorianCalendar
@param jd {number} The Julian date to convert.
@return {CDate} The equivalent date. */
fromJD: function(jd) {
// Jean Meeus algorithm, "Astronomical Algorithms", 1991
var z = Math.floor(jd + 0.5);
var a = Math.floor((z - 1867216.25) / 36524.25);
a = z + 1 + a - Math.floor(a / 4);
var b = a + 1524;
var c = Math.floor((b - 122.1) / 365.25);
var d = Math.floor(365.25 * c);
var e = Math.floor((b - d) / 30.6001);
var day = b - d - Math.floor(e * 30.6001);
var month = e - (e > 13.5 ? 13 : 1);
var year = c - (month > 2.5 ? 4716 : 4715);
if (year <= 0) { year--; } // No year zero
return this.newDate(year, month, day);
},
/** Convert this date to a standard (Gregorian) JavaScript Date.
@memberof GregorianCalendar
@param year {CDate|number} The date to convert or the year to convert.
@param [month] {number} The month to convert.
@param [day] {number} The day to convert.
@return {Date} The equivalent JavaScript date.
@throws Error if an invalid date or a different calendar used. */
toJSDate: function(year, month, day) {
var date = this._validate(year, month, day,
_exports.local.invalidDate || _exports.regionalOptions[''].invalidDate);
var jsd = new Date(date.year(), date.month() - 1, date.day());
jsd.setHours(0);
jsd.setMinutes(0);
jsd.setSeconds(0);
jsd.setMilliseconds(0);
// Hours may be non-zero on daylight saving cut-over:
// > 12 when midnight changeover, but then cannot generate
// midnight datetime, so jump to 1AM, otherwise reset.
jsd.setHours(jsd.getHours() > 12 ? jsd.getHours() + 2 : 0);
return jsd;
},
/** Create a new date from a standard (Gregorian) JavaScript Date.
@memberof GregorianCalendar
@param jsd {Date} The JavaScript date to convert.
@return {CDate} The equivalent date. */
fromJSDate: function(jsd) {
return this.newDate(jsd.getFullYear(), jsd.getMonth() + 1, jsd.getDate());
}
});
// Singleton manager
var _exports = module.exports = new Calendars();
// Date template
_exports.cdate = CDate;
// Base calendar template
_exports.baseCalendar = BaseCalendar;
// Gregorian calendar implementation
_exports.calendars.gregorian = GregorianCalendar;
},{"object-assign":434}],546:[function(_dereq_,module,exports){
/*
* World Calendars
* https://github.com/alexcjohnson/world-calendars
*
* Batch-converted from kbwood/calendars
* Many thanks to Keith Wood and all of the contributors to the original project!
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
/* http://keith-wood.name/calendars.html
Calendars extras for jQuery v2.0.2.
Written by Keith Wood (wood.keith{at}optusnet.com.au) August 2009.
Available under the MIT (http://keith-wood.name/licence.html) license.
Please attribute the author if you use it. */
var assign = _dereq_('object-assign');
var main = _dereq_('./main');
assign(main.regionalOptions[''], {
invalidArguments: 'Invalid arguments',
invalidFormat: 'Cannot format a date from another calendar',
missingNumberAt: 'Missing number at position {0}',
unknownNameAt: 'Unknown name at position {0}',
unexpectedLiteralAt: 'Unexpected literal at position {0}',
unexpectedText: 'Additional text found at end'
});
main.local = main.regionalOptions[''];
assign(main.cdate.prototype, {
/** Format this date.
Found in the <code>jquery.calendars.plus.js</code> module.
@memberof CDate
@param [format] {string} The date format to use (see <a href="BaseCalendar.html#formatDate"><code>formatDate</code></a>).
@param [settings] {object} Options for the <code>formatDate</code> function.
@return {string} The formatted date. */
formatDate: function(format, settings) {
if (typeof format !== 'string') {
settings = format;
format = '';
}
return this._calendar.formatDate(format || '', this, settings);
}
});
assign(main.baseCalendar.prototype, {
UNIX_EPOCH: main.instance().newDate(1970, 1, 1).toJD(),
SECS_PER_DAY: 24 * 60 * 60,
TICKS_EPOCH: main.instance().jdEpoch, // 1 January 0001 CE
TICKS_PER_DAY: 24 * 60 * 60 * 10000000,
/** Date form for ATOM (RFC 3339/ISO 8601).
Found in the <code>jquery.calendars.plus.js</code> module.
@memberof BaseCalendar */
ATOM: 'yyyy-mm-dd',
/** Date form for cookies.
Found in the <code>jquery.calendars.plus.js</code> module.
@memberof BaseCalendar */
COOKIE: 'D, dd M yyyy',
/** Date form for full date.
Found in the <code>jquery.calendars.plus.js</code> module.
@memberof BaseCalendar */
FULL: 'DD, MM d, yyyy',
/** Date form for ISO 8601.
Found in the <code>jquery.calendars.plus.js</code> module.
@memberof BaseCalendar */
ISO_8601: 'yyyy-mm-dd',
/** Date form for Julian date.
Found in the <code>jquery.calendars.plus.js</code> module.
@memberof BaseCalendar */
JULIAN: 'J',
/** Date form for RFC 822.
Found in the <code>jquery.calendars.plus.js</code> module.
@memberof BaseCalendar */
RFC_822: 'D, d M yy',
/** Date form for RFC 850.
Found in the <code>jquery.calendars.plus.js</code> module.
@memberof BaseCalendar */
RFC_850: 'DD, dd-M-yy',
/** Date form for RFC 1036.
Found in the <code>jquery.calendars.plus.js</code> module.
@memberof BaseCalendar */
RFC_1036: 'D, d M yy',
/** Date form for RFC 1123.
Found in the <code>jquery.calendars.plus.js</code> module.
@memberof BaseCalendar */
RFC_1123: 'D, d M yyyy',
/** Date form for RFC 2822.
Found in the <code>jquery.calendars.plus.js</code> module.
@memberof BaseCalendar */
RFC_2822: 'D, d M yyyy',
/** Date form for RSS (RFC 822).
Found in the <code>jquery.calendars.plus.js</code> module.
@memberof BaseCalendar */
RSS: 'D, d M yy',
/** Date form for Windows ticks.
Found in the <code>jquery.calendars.plus.js</code> module.
@memberof BaseCalendar */
TICKS: '!',
/** Date form for Unix timestamp.
Found in the <code>jquery.calendars.plus.js</code> module.
@memberof BaseCalendar */
TIMESTAMP: '@',
/** Date form for W3c (ISO 8601).
Found in the <code>jquery.calendars.plus.js</code> module.
@memberof BaseCalendar */
W3C: 'yyyy-mm-dd',
/** Format a date object into a string value.
The format can be combinations of the following:
<ul>
<li>d - day of month (no leading zero)</li>
<li>dd - day of month (two digit)</li>
<li>o - day of year (no leading zeros)</li>
<li>oo - day of year (three digit)</li>
<li>D - day name short</li>
<li>DD - day name long</li>
<li>w - week of year (no leading zero)</li>
<li>ww - week of year (two digit)</li>
<li>m - month of year (no leading zero)</li>
<li>mm - month of year (two digit)</li>
<li>M - month name short</li>
<li>MM - month name long</li>
<li>yy - year (two digit)</li>
<li>yyyy - year (four digit)</li>
<li>YYYY - formatted year</li>
<li>J - Julian date (days since January 1, 4713 BCE Greenwich noon)</li>
<li>@ - Unix timestamp (s since 01/01/1970)</li>
<li>! - Windows ticks (100ns since 01/01/0001)</li>
<li>'...' - literal text</li>
<li>'' - single quote</li>
</ul>
Found in the <code>jquery.calendars.plus.js</code> module.
@memberof BaseCalendar
@param [format] {string} The desired format of the date (defaults to calendar format).
@param date {CDate} The date value to format.
@param [settings] {object} Addition options, whose attributes include:
@property [dayNamesShort] {string[]} Abbreviated names of the days from Sunday.
@property [dayNames] {string[]} Names of the days from Sunday.
@property [monthNamesShort] {string[]} Abbreviated names of the months.
@property [monthNames] {string[]} Names of the months.
@property [calculateWeek] {CalendarsPickerCalculateWeek} Function that determines week of the year.
@property [localNumbers=false] {boolean} <code>true</code> to localise numbers (if available),
<code>false</code> to use normal Arabic numerals.
@return {string} The date in the above format.
@throws Errors if the date is from a different calendar. */
formatDate: function(format, date, settings) {
if (typeof format !== 'string') {
settings = date;
date = format;
format = '';
}
if (!date) {
return '';
}
if (date.calendar() !== this) {
throw main.local.invalidFormat || main.regionalOptions[''].invalidFormat;
}
format = format || this.local.dateFormat;
settings = settings || {};
var dayNamesShort = settings.dayNamesShort || this.local.dayNamesShort;
var dayNames = settings.dayNames || this.local.dayNames;
var monthNumbers = settings.monthNumbers || this.local.monthNumbers;
var monthNamesShort = settings.monthNamesShort || this.local.monthNamesShort;
var monthNames = settings.monthNames || this.local.monthNames;
var calculateWeek = settings.calculateWeek || this.local.calculateWeek;
// Check whether a format character is doubled
var doubled = function(match, step) {
var matches = 1;
while (iFormat + matches < format.length && format.charAt(iFormat + matches) === match) {
matches++;
}
iFormat += matches - 1;
return Math.floor(matches / (step || 1)) > 1;
};
// Format a number, with leading zeroes if necessary
var formatNumber = function(match, value, len, step) {
var num = '' + value;
if (doubled(match, step)) {
while (num.length < len) {
num = '0' + num;
}
}
return num;
};
// Format a name, short or long as requested
var formatName = function(match, value, shortNames, longNames) {
return (doubled(match) ? longNames[value] : shortNames[value]);
};
// Format month number
// (e.g. Chinese calendar needs to account for intercalary months)
var calendar = this;
var formatMonth = function(date) {
return (typeof monthNumbers === 'function') ?
monthNumbers.call(calendar, date, doubled('m')) :
localiseNumbers(formatNumber('m', date.month(), 2));
};
// Format a month name, short or long as requested
var formatMonthName = function(date, useLongName) {
if (useLongName) {
return (typeof monthNames === 'function') ?
monthNames.call(calendar, date) :
monthNames[date.month() - calendar.minMonth];
} else {
return (typeof monthNamesShort === 'function') ?
monthNamesShort.call(calendar, date) :
monthNamesShort[date.month() - calendar.minMonth];
}
};
// Localise numbers if requested and available
var digits = this.local.digits;
var localiseNumbers = function(value) {
return (settings.localNumbers && digits ? digits(value) : value);
};
var output = '';
var literal = false;
for (var iFormat = 0; iFormat < format.length; iFormat++) {
if (literal) {
if (format.charAt(iFormat) === "'" && !doubled("'")) {
literal = false;
}
else {
output += format.charAt(iFormat);
}
}
else {
switch (format.charAt(iFormat)) {
case 'd': output += localiseNumbers(formatNumber('d', date.day(), 2)); break;
case 'D': output += formatName('D', date.dayOfWeek(),
dayNamesShort, dayNames); break;
case 'o': output += formatNumber('o', date.dayOfYear(), 3); break;
case 'w': output += formatNumber('w', date.weekOfYear(), 2); break;
case 'm': output += formatMonth(date); break;
case 'M': output += formatMonthName(date, doubled('M')); break;
case 'y':
output += (doubled('y', 2) ? date.year() :
(date.year() % 100 < 10 ? '0' : '') + date.year() % 100);
break;
case 'Y':
doubled('Y', 2);
output += date.formatYear();
break;
case 'J': output += date.toJD(); break;
case '@': output += (date.toJD() - this.UNIX_EPOCH) * this.SECS_PER_DAY; break;
case '!': output += (date.toJD() - this.TICKS_EPOCH) * this.TICKS_PER_DAY; break;
case "'":
if (doubled("'")) {
output += "'";
}
else {
literal = true;
}
break;
default:
output += format.charAt(iFormat);
}
}
}
return output;
},
/** Parse a string value into a date object.
See <a href="#formatDate"><code>formatDate</code></a> for the possible formats, plus:
<ul>
<li>* - ignore rest of string</li>
</ul>
Found in the <code>jquery.calendars.plus.js</code> module.
@memberof BaseCalendar
@param format {string} The expected format of the date ('' for default calendar format).
@param value {string} The date in the above format.
@param [settings] {object} Additional options whose attributes include:
@property [shortYearCutoff] {number} The cutoff year for determining the century.
@property [dayNamesShort] {string[]} Abbreviated names of the days from Sunday.
@property [dayNames] {string[]} Names of the days from Sunday.
@property [monthNamesShort] {string[]} Abbreviated names of the months.
@property [monthNames] {string[]} Names of the months.
@return {CDate} The extracted date value or <code>null</code> if value is blank.
@throws Errors if the format and/or value are missing,
if the value doesn't match the format, or if the date is invalid. */
parseDate: function(format, value, settings) {
if (value == null) {
throw main.local.invalidArguments || main.regionalOptions[''].invalidArguments;
}
value = (typeof value === 'object' ? value.toString() : value + '');
if (value === '') {
return null;
}
format = format || this.local.dateFormat;
settings = settings || {};
var shortYearCutoff = settings.shortYearCutoff || this.shortYearCutoff;
shortYearCutoff = (typeof shortYearCutoff !== 'string' ? shortYearCutoff :
this.today().year() % 100 + parseInt(shortYearCutoff, 10));
var dayNamesShort = settings.dayNamesShort || this.local.dayNamesShort;
var dayNames = settings.dayNames || this.local.dayNames;
var parseMonth = settings.parseMonth || this.local.parseMonth;
var monthNumbers = settings.monthNumbers || this.local.monthNumbers;
var monthNamesShort = settings.monthNamesShort || this.local.monthNamesShort;
var monthNames = settings.monthNames || this.local.monthNames;
var jd = -1;
var year = -1;
var month = -1;
var day = -1;
var doy = -1;
var shortYear = false;
var literal = false;
// Check whether a format character is doubled
var doubled = function(match, step) {
var matches = 1;
while (iFormat + matches < format.length && format.charAt(iFormat + matches) === match) {
matches++;
}
iFormat += matches - 1;
return Math.floor(matches / (step || 1)) > 1;
};
// Extract a number from the string value
var getNumber = function(match, step) {
var isDoubled = doubled(match, step);
var size = [2, 3, isDoubled ? 4 : 2, isDoubled ? 4 : 2, 10, 11, 20]['oyYJ@!'.indexOf(match) + 1];
var digits = new RegExp('^-?\\d{1,' + size + '}');
var num = value.substring(iValue).match(digits);
if (!num) {
throw (main.local.missingNumberAt || main.regionalOptions[''].missingNumberAt).
replace(/\{0\}/, iValue);
}
iValue += num[0].length;
return parseInt(num[0], 10);
};
// Extract a month number from the string value
var calendar = this;
var getMonthNumber = function() {
if (typeof monthNumbers === 'function') {
doubled('m'); // update iFormat
var month = monthNumbers.call(calendar, value.substring(iValue));
iValue += month.length;
return month;
}
return getNumber('m');
};
// Extract a name from the string value and convert to an index
var getName = function(match, shortNames, longNames, step) {
var names = (doubled(match, step) ? longNames : shortNames);
for (var i = 0; i < names.length; i++) {
if (value.substr(iValue, names[i].length).toLowerCase() === names[i].toLowerCase()) {
iValue += names[i].length;
return i + calendar.minMonth;
}
}
throw (main.local.unknownNameAt || main.regionalOptions[''].unknownNameAt).
replace(/\{0\}/, iValue);
};
// Extract a month number from the string value
var getMonthName = function() {
if (typeof monthNames === 'function') {
var month = doubled('M') ?
monthNames.call(calendar, value.substring(iValue)) :
monthNamesShort.call(calendar, value.substring(iValue));
iValue += month.length;
return month;
}
return getName('M', monthNamesShort, monthNames);
};
// Confirm that a literal character matches the string value
var checkLiteral = function() {
if (value.charAt(iValue) !== format.charAt(iFormat)) {
throw (main.local.unexpectedLiteralAt ||
main.regionalOptions[''].unexpectedLiteralAt).replace(/\{0\}/, iValue);
}
iValue++;
};
var iValue = 0;
for (var iFormat = 0; iFormat < format.length; iFormat++) {
if (literal) {
if (format.charAt(iFormat) === "'" && !doubled("'")) {
literal = false;
}
else {
checkLiteral();
}
}
else {
switch (format.charAt(iFormat)) {
case 'd': day = getNumber('d'); break;
case 'D': getName('D', dayNamesShort, dayNames); break;
case 'o': doy = getNumber('o'); break;
case 'w': getNumber('w'); break;
case 'm': month = getMonthNumber(); break;
case 'M': month = getMonthName(); break;
case 'y':
var iSave = iFormat;
shortYear = !doubled('y', 2);
iFormat = iSave;
year = getNumber('y', 2);
break;
case 'Y': year = getNumber('Y', 2); break;
case 'J':
jd = getNumber('J') + 0.5;
if (value.charAt(iValue) === '.') {
iValue++;
getNumber('J');
}
break;
case '@': jd = getNumber('@') / this.SECS_PER_DAY + this.UNIX_EPOCH; break;
case '!': jd = getNumber('!') / this.TICKS_PER_DAY + this.TICKS_EPOCH; break;
case '*': iValue = value.length; break;
case "'":
if (doubled("'")) {
checkLiteral();
}
else {
literal = true;
}
break;
default: checkLiteral();
}
}
}
if (iValue < value.length) {
throw main.local.unexpectedText || main.regionalOptions[''].unexpectedText;
}
if (year === -1) {
year = this.today().year();
}
else if (year < 100 && shortYear) {
year += (shortYearCutoff === -1 ? 1900 : this.today().year() -
this.today().year() % 100 - (year <= shortYearCutoff ? 0 : 100));
}
if (typeof month === 'string') {
month = parseMonth.call(this, year, month);
}
if (doy > -1) {
month = 1;
day = doy;
for (var dim = this.daysInMonth(year, month); day > dim; dim = this.daysInMonth(year, month)) {
month++;
day -= dim;
}
}
return (jd > -1 ? this.fromJD(jd) : this.newDate(year, month, day));
},
/** A date may be specified as an exact value or a relative one.
Found in the <code>jquery.calendars.plus.js</code> module.
@memberof BaseCalendar
@param dateSpec {CDate|number|string} The date as an object or string in the given format or
an offset - numeric days from today, or string amounts and periods, e.g. '+1m +2w'.
@param defaultDate {CDate} The date to use if no other supplied, may be <code>null</code>.
@param currentDate {CDate} The current date as a possible basis for relative dates,
if <code>null</code> today is used (optional)
@param [dateFormat] {string} The expected date format - see <a href="#formatDate"><code>formatDate</code></a>.
@param [settings] {object} Additional options whose attributes include:
@property [shortYearCutoff] {number} The cutoff year for determining the century.
@property [dayNamesShort] {string[]} Abbreviated names of the days from Sunday.
@property [dayNames] {string[]} Names of the days from Sunday.
@property [monthNamesShort] {string[]} Abbreviated names of the months.
@property [monthNames] {string[]} Names of the months.
@return {CDate} The decoded date. */
determineDate: function(dateSpec, defaultDate, currentDate, dateFormat, settings) {
if (currentDate && typeof currentDate !== 'object') {
settings = dateFormat;
dateFormat = currentDate;
currentDate = null;
}
if (typeof dateFormat !== 'string') {
settings = dateFormat;
dateFormat = '';
}
var calendar = this;
var offsetString = function(offset) {
try {
return calendar.parseDate(dateFormat, offset, settings);
}
catch (e) {
// Ignore
}
offset = offset.toLowerCase();
var date = (offset.match(/^c/) && currentDate ?
currentDate.newDate() : null) || calendar.today();
var pattern = /([+-]?[0-9]+)\s*(d|w|m|y)?/g;
var matches = pattern.exec(offset);
while (matches) {
date.add(parseInt(matches[1], 10), matches[2] || 'd');
matches = pattern.exec(offset);
}
return date;
};
defaultDate = (defaultDate ? defaultDate.newDate() : null);
dateSpec = (dateSpec == null ? defaultDate :
(typeof dateSpec === 'string' ? offsetString(dateSpec) : (typeof dateSpec === 'number' ?
(isNaN(dateSpec) || dateSpec === Infinity || dateSpec === -Infinity ? defaultDate :
calendar.today().add(dateSpec, 'd')) : calendar.newDate(dateSpec))));
return dateSpec;
}
});
},{"./main":545,"object-assign":434}],547:[function(_dereq_,module,exports){
module.exports = _dereq_('cwise-compiler')({
args: ['array', {
offset: [1],
array: 0
}, 'scalar', 'scalar', 'index'],
pre: {
"body": "{}",
"args": [],
"thisVars": [],
"localVars": []
},
post: {
"body": "{}",
"args": [],
"thisVars": [],
"localVars": []
},
body: {
"body": "{\n var _inline_1_da = _inline_1_arg0_ - _inline_1_arg3_\n var _inline_1_db = _inline_1_arg1_ - _inline_1_arg3_\n if((_inline_1_da >= 0) !== (_inline_1_db >= 0)) {\n _inline_1_arg2_.push(_inline_1_arg4_[0] + 0.5 + 0.5 * (_inline_1_da + _inline_1_db) / (_inline_1_da - _inline_1_db))\n }\n }",
"args": [{
"name": "_inline_1_arg0_",
"lvalue": false,
"rvalue": true,
"count": 1
}, {
"name": "_inline_1_arg1_",
"lvalue": false,
"rvalue": true,
"count": 1
}, {
"name": "_inline_1_arg2_",
"lvalue": false,
"rvalue": true,
"count": 1
}, {
"name": "_inline_1_arg3_",
"lvalue": false,
"rvalue": true,
"count": 2
}, {
"name": "_inline_1_arg4_",
"lvalue": false,
"rvalue": true,
"count": 1
}],
"thisVars": [],
"localVars": ["_inline_1_da", "_inline_1_db"]
},
funcName: 'zeroCrossings'
})
},{"cwise-compiler":133}],548:[function(_dereq_,module,exports){
"use strict"
module.exports = findZeroCrossings
var core = _dereq_("./lib/zc-core")
function findZeroCrossings(array, level) {
var cross = []
level = +level || 0.0
core(array.hi(array.shape[0]-1), cross, level)
return cross
}
},{"./lib/zc-core":547}],549:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/**
* All paths are tuned for maximum scalability of the arrowhead,
* ie throughout arrowwidth=0.3..3 the head is joined smoothly
* to the line, with the line coming from the left and ending at (0, 0).
*
* `backoff` is the distance to move the arrowhead and the end of the line,
* in order that the arrowhead points to the desired place, either at
* the tip of the arrow or (in the case of circle or square)
* the center of the symbol.
*
* `noRotate`, if truthy, says that this arrowhead should not rotate with the
* arrow. That's the case for squares, which should always be straight, and
* circles, for which it's irrelevant.
*/
module.exports = [
// no arrow
{
path: '',
backoff: 0
},
// wide with flat back
{
path: 'M-2.4,-3V3L0.6,0Z',
backoff: 0.6
},
// narrower with flat back
{
path: 'M-3.7,-2.5V2.5L1.3,0Z',
backoff: 1.3
},
// barbed
{
path: 'M-4.45,-3L-1.65,-0.2V0.2L-4.45,3L1.55,0Z',
backoff: 1.55
},
// wide line-drawn
{
path: 'M-2.2,-2.2L-0.2,-0.2V0.2L-2.2,2.2L-1.4,3L1.6,0L-1.4,-3Z',
backoff: 1.6
},
// narrower line-drawn
{
path: 'M-4.4,-2.1L-0.6,-0.2V0.2L-4.4,2.1L-4,3L2,0L-4,-3Z',
backoff: 2
},
// circle
{
path: 'M2,0A2,2 0 1,1 0,-2A2,2 0 0,1 2,0Z',
backoff: 0,
noRotate: true
},
// square
{
path: 'M2,2V-2H-2V2Z',
backoff: 0,
noRotate: true
}
];
},{}],550:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var ARROWPATHS = _dereq_('./arrow_paths');
var fontAttrs = _dereq_('../../plots/font_attributes');
var cartesianConstants = _dereq_('../../plots/cartesian/constants');
var templatedArray = _dereq_('../../plot_api/plot_template').templatedArray;
module.exports = templatedArray('annotation', {
visible: {
valType: 'boolean',
dflt: true,
editType: 'calc+arraydraw',
},
text: {
valType: 'string',
editType: 'calc+arraydraw',
},
textangle: {
valType: 'angle',
dflt: 0,
editType: 'calc+arraydraw',
},
font: fontAttrs({
editType: 'calc+arraydraw',
colorEditType: 'arraydraw',
}),
width: {
valType: 'number',
min: 1,
dflt: null,
editType: 'calc+arraydraw',
},
height: {
valType: 'number',
min: 1,
dflt: null,
editType: 'calc+arraydraw',
},
opacity: {
valType: 'number',
min: 0,
max: 1,
dflt: 1,
editType: 'arraydraw',
},
align: {
valType: 'enumerated',
values: ['left', 'center', 'right'],
dflt: 'center',
editType: 'arraydraw',
},
valign: {
valType: 'enumerated',
values: ['top', 'middle', 'bottom'],
dflt: 'middle',
editType: 'arraydraw',
},
bgcolor: {
valType: 'color',
dflt: 'rgba(0,0,0,0)',
editType: 'arraydraw',
},
bordercolor: {
valType: 'color',
dflt: 'rgba(0,0,0,0)',
editType: 'arraydraw',
},
borderpad: {
valType: 'number',
min: 0,
dflt: 1,
editType: 'calc+arraydraw',
},
borderwidth: {
valType: 'number',
min: 0,
dflt: 1,
editType: 'calc+arraydraw',
},
// arrow
showarrow: {
valType: 'boolean',
dflt: true,
editType: 'calc+arraydraw',
},
arrowcolor: {
valType: 'color',
editType: 'arraydraw',
},
arrowhead: {
valType: 'integer',
min: 0,
max: ARROWPATHS.length,
dflt: 1,
editType: 'arraydraw',
},
startarrowhead: {
valType: 'integer',
min: 0,
max: ARROWPATHS.length,
dflt: 1,
editType: 'arraydraw',
},
arrowside: {
valType: 'flaglist',
flags: ['end', 'start'],
extras: ['none'],
dflt: 'end',
editType: 'arraydraw',
},
arrowsize: {
valType: 'number',
min: 0.3,
dflt: 1,
editType: 'calc+arraydraw',
},
startarrowsize: {
valType: 'number',
min: 0.3,
dflt: 1,
editType: 'calc+arraydraw',
},
arrowwidth: {
valType: 'number',
min: 0.1,
editType: 'calc+arraydraw',
},
standoff: {
valType: 'number',
min: 0,
dflt: 0,
editType: 'calc+arraydraw',
},
startstandoff: {
valType: 'number',
min: 0,
dflt: 0,
editType: 'calc+arraydraw',
},
ax: {
valType: 'any',
editType: 'calc+arraydraw',
},
ay: {
valType: 'any',
editType: 'calc+arraydraw',
},
axref: {
valType: 'enumerated',
dflt: 'pixel',
values: [
'pixel',
cartesianConstants.idRegex.x.toString()
],
editType: 'calc',
},
ayref: {
valType: 'enumerated',
dflt: 'pixel',
values: [
'pixel',
cartesianConstants.idRegex.y.toString()
],
editType: 'calc',
},
// positioning
xref: {
valType: 'enumerated',
values: [
'paper',
cartesianConstants.idRegex.x.toString()
],
editType: 'calc',
},
x: {
valType: 'any',
editType: 'calc+arraydraw',
},
xanchor: {
valType: 'enumerated',
values: ['auto', 'left', 'center', 'right'],
dflt: 'auto',
editType: 'calc+arraydraw',
},
xshift: {
valType: 'number',
dflt: 0,
editType: 'calc+arraydraw',
},
yref: {
valType: 'enumerated',
values: [
'paper',
cartesianConstants.idRegex.y.toString()
],
editType: 'calc',
},
y: {
valType: 'any',
editType: 'calc+arraydraw',
},
yanchor: {
valType: 'enumerated',
values: ['auto', 'top', 'middle', 'bottom'],
dflt: 'auto',
editType: 'calc+arraydraw',
},
yshift: {
valType: 'number',
dflt: 0,
editType: 'calc+arraydraw',
},
clicktoshow: {
valType: 'enumerated',
values: [false, 'onoff', 'onout'],
dflt: false,
editType: 'arraydraw',
},
xclick: {
valType: 'any',
editType: 'arraydraw',
},
yclick: {
valType: 'any',
editType: 'arraydraw',
},
hovertext: {
valType: 'string',
editType: 'arraydraw',
},
hoverlabel: {
bgcolor: {
valType: 'color',
editType: 'arraydraw',
},
bordercolor: {
valType: 'color',
editType: 'arraydraw',
},
font: fontAttrs({
editType: 'arraydraw',
}),
editType: 'arraydraw'
},
captureevents: {
valType: 'boolean',
editType: 'arraydraw',
},
editType: 'calc',
_deprecated: {
ref: {
valType: 'string',
editType: 'calc',
}
}
});
},{"../../plot_api/plot_template":732,"../../plots/cartesian/constants":747,"../../plots/font_attributes":768,"./arrow_paths":549}],551:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Axes = _dereq_('../../plots/cartesian/axes');
var draw = _dereq_('./draw').draw;
module.exports = function calcAutorange(gd) {
var fullLayout = gd._fullLayout;
var annotationList = Lib.filterVisible(fullLayout.annotations);
if(annotationList.length && gd._fullData.length) {
return Lib.syncOrAsync([draw, annAutorange], gd);
}
};
function annAutorange(gd) {
var fullLayout = gd._fullLayout;
// find the bounding boxes for each of these annotations'
// relative to their anchor points
// use the arrow and the text bg rectangle,
// as the whole anno may include hidden text in its bbox
Lib.filterVisible(fullLayout.annotations).forEach(function(ann) {
var xa = Axes.getFromId(gd, ann.xref);
var ya = Axes.getFromId(gd, ann.yref);
ann._extremes = {};
if(xa) calcAxisExpansion(ann, xa);
if(ya) calcAxisExpansion(ann, ya);
});
}
function calcAxisExpansion(ann, ax) {
var axId = ax._id;
var letter = axId.charAt(0);
var pos = ann[letter];
var apos = ann['a' + letter];
var ref = ann[letter + 'ref'];
var aref = ann['a' + letter + 'ref'];
var padplus = ann['_' + letter + 'padplus'];
var padminus = ann['_' + letter + 'padminus'];
var shift = {x: 1, y: -1}[letter] * ann[letter + 'shift'];
var headSize = 3 * ann.arrowsize * ann.arrowwidth || 0;
var headPlus = headSize + shift;
var headMinus = headSize - shift;
var startHeadSize = 3 * ann.startarrowsize * ann.arrowwidth || 0;
var startHeadPlus = startHeadSize + shift;
var startHeadMinus = startHeadSize - shift;
var extremes;
if(aref === ref) {
// expand for the arrowhead (padded by arrowhead)
var extremeArrowHead = Axes.findExtremes(ax, [ax.r2c(pos)], {
ppadplus: headPlus,
ppadminus: headMinus
});
// again for the textbox (padded by textbox)
var extremeText = Axes.findExtremes(ax, [ax.r2c(apos)], {
ppadplus: Math.max(padplus, startHeadPlus),
ppadminus: Math.max(padminus, startHeadMinus)
});
extremes = {
min: [extremeArrowHead.min[0], extremeText.min[0]],
max: [extremeArrowHead.max[0], extremeText.max[0]]
};
} else {
startHeadPlus = apos ? startHeadPlus + apos : startHeadPlus;
startHeadMinus = apos ? startHeadMinus - apos : startHeadMinus;
extremes = Axes.findExtremes(ax, [ax.r2c(pos)], {
ppadplus: Math.max(padplus, headPlus, startHeadPlus),
ppadminus: Math.max(padminus, headMinus, startHeadMinus)
});
}
ann._extremes[axId] = extremes;
}
},{"../../lib":693,"../../plots/cartesian/axes":742,"./draw":556}],552:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Registry = _dereq_('../../registry');
var arrayEditor = _dereq_('../../plot_api/plot_template').arrayEditor;
module.exports = {
hasClickToShow: hasClickToShow,
onClick: onClick
};
/*
* hasClickToShow: does the given hoverData have ANY annotations which will
* turn ON if we click here? (used by hover events to set cursor)
*
* gd: graphDiv
* hoverData: a hoverData array, as included with the *plotly_hover* or
* *plotly_click* events in the `points` attribute
*
* returns: boolean
*/
function hasClickToShow(gd, hoverData) {
var sets = getToggleSets(gd, hoverData);
return sets.on.length > 0 || sets.explicitOff.length > 0;
}
/*
* onClick: perform the toggling (via Plotly.update) implied by clicking
* at this hoverData
*
* gd: graphDiv
* hoverData: a hoverData array, as included with the *plotly_hover* or
* *plotly_click* events in the `points` attribute
*
* returns: Promise that the update is complete
*/
function onClick(gd, hoverData) {
var toggleSets = getToggleSets(gd, hoverData);
var onSet = toggleSets.on;
var offSet = toggleSets.off.concat(toggleSets.explicitOff);
var update = {};
var annotationsOut = gd._fullLayout.annotations;
var i, editHelpers;
if(!(onSet.length || offSet.length)) return;
for(i = 0; i < onSet.length; i++) {
editHelpers = arrayEditor(gd.layout, 'annotations', annotationsOut[onSet[i]]);
editHelpers.modifyItem('visible', true);
Lib.extendFlat(update, editHelpers.getUpdateObj());
}
for(i = 0; i < offSet.length; i++) {
editHelpers = arrayEditor(gd.layout, 'annotations', annotationsOut[offSet[i]]);
editHelpers.modifyItem('visible', false);
Lib.extendFlat(update, editHelpers.getUpdateObj());
}
return Registry.call('update', gd, {}, update);
}
/*
* getToggleSets: find the annotations which will turn on or off at this
* hoverData
*
* gd: graphDiv
* hoverData: a hoverData array, as included with the *plotly_hover* or
* *plotly_click* events in the `points` attribute
*
* returns: {
* on: Array (indices of annotations to turn on),
* off: Array (indices to turn off because you're not hovering on them),
* explicitOff: Array (indices to turn off because you *are* hovering on them)
* }
*/
function getToggleSets(gd, hoverData) {
var annotations = gd._fullLayout.annotations,
onSet = [],
offSet = [],
explicitOffSet = [],
hoverLen = (hoverData || []).length;
var i, j, anni, showMode, pointj, xa, ya, toggleType;
for(i = 0; i < annotations.length; i++) {
anni = annotations[i];
showMode = anni.clicktoshow;
if(showMode) {
for(j = 0; j < hoverLen; j++) {
pointj = hoverData[j];
xa = pointj.xaxis;
ya = pointj.yaxis;
if(xa._id === anni.xref &&
ya._id === anni.yref &&
xa.d2r(pointj.x) === clickData2r(anni._xclick, xa) &&
ya.d2r(pointj.y) === clickData2r(anni._yclick, ya)
) {
// match! toggle this annotation
// regardless of its clicktoshow mode
// but if it's onout mode, off is implicit
if(anni.visible) {
if(showMode === 'onout') toggleType = offSet;
else toggleType = explicitOffSet;
}
else {
toggleType = onSet;
}
toggleType.push(i);
break;
}
}
if(j === hoverLen) {
// no match - only turn this annotation OFF, and only if
// showmode is 'onout'
if(anni.visible && showMode === 'onout') offSet.push(i);
}
}
}
return {on: onSet, off: offSet, explicitOff: explicitOffSet};
}
// to handle log axes until v2
function clickData2r(d, ax) {
return ax.type === 'log' ? ax.l2r(d) : ax.d2r(d);
}
},{"../../lib":693,"../../plot_api/plot_template":732,"../../registry":825}],553:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Color = _dereq_('../color');
// defaults common to 'annotations' and 'annotations3d'
module.exports = function handleAnnotationCommonDefaults(annIn, annOut, fullLayout, coerce) {
coerce('opacity');
var bgColor = coerce('bgcolor');
var borderColor = coerce('bordercolor');
var borderOpacity = Color.opacity(borderColor);
coerce('borderpad');
var borderWidth = coerce('borderwidth');
var showArrow = coerce('showarrow');
coerce('text', showArrow ? ' ' : fullLayout._dfltTitle.annotation);
coerce('textangle');
Lib.coerceFont(coerce, 'font', fullLayout.font);
coerce('width');
coerce('align');
var h = coerce('height');
if(h) coerce('valign');
if(showArrow) {
var arrowside = coerce('arrowside');
var arrowhead;
var arrowsize;
if(arrowside.indexOf('end') !== -1) {
arrowhead = coerce('arrowhead');
arrowsize = coerce('arrowsize');
}
if(arrowside.indexOf('start') !== -1) {
coerce('startarrowhead', arrowhead);
coerce('startarrowsize', arrowsize);
}
coerce('arrowcolor', borderOpacity ? annOut.bordercolor : Color.defaultLine);
coerce('arrowwidth', ((borderOpacity && borderWidth) || 1) * 2);
coerce('standoff');
coerce('startstandoff');
}
var hoverText = coerce('hovertext');
var globalHoverLabel = fullLayout.hoverlabel || {};
if(hoverText) {
var hoverBG = coerce('hoverlabel.bgcolor', globalHoverLabel.bgcolor ||
(Color.opacity(bgColor) ? Color.rgb(bgColor) : Color.defaultLine)
);
var hoverBorder = coerce('hoverlabel.bordercolor', globalHoverLabel.bordercolor ||
Color.contrast(hoverBG)
);
Lib.coerceFont(coerce, 'hoverlabel.font', {
family: globalHoverLabel.font.family,
size: globalHoverLabel.font.size,
color: globalHoverLabel.font.color || hoverBorder
});
}
coerce('captureevents', !!hoverText);
};
},{"../../lib":693,"../color":567}],554:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var toLogRange = _dereq_('../../lib/to_log_range');
/*
* convertCoords: when converting an axis between log and linear
* you need to alter any annotations on that axis to keep them
* pointing at the same data point.
* In v2.0 this will become obsolete
*
* gd: the plot div
* ax: the axis being changed
* newType: the type it's getting
* doExtra: function(attr, val) from inside relayout that sets the attribute.
* Use this to make the changes as it's aware if any other changes in the
* same relayout call should override this conversion.
*/
module.exports = function convertCoords(gd, ax, newType, doExtra) {
ax = ax || {};
var toLog = (newType === 'log') && (ax.type === 'linear'),
fromLog = (newType === 'linear') && (ax.type === 'log');
if(!(toLog || fromLog)) return;
var annotations = gd._fullLayout.annotations,
axLetter = ax._id.charAt(0),
ann,
attrPrefix;
function convert(attr) {
var currentVal = ann[attr],
newVal = null;
if(toLog) newVal = toLogRange(currentVal, ax.range);
else newVal = Math.pow(10, currentVal);
// if conversion failed, delete the value so it gets a default value
if(!isNumeric(newVal)) newVal = null;
doExtra(attrPrefix + attr, newVal);
}
for(var i = 0; i < annotations.length; i++) {
ann = annotations[i];
attrPrefix = 'annotations[' + i + '].';
if(ann[axLetter + 'ref'] === ax._id) convert(axLetter);
if(ann['a' + axLetter + 'ref'] === ax._id) convert('a' + axLetter);
}
};
},{"../../lib/to_log_range":720,"fast-isnumeric":213}],555:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Axes = _dereq_('../../plots/cartesian/axes');
var handleArrayContainerDefaults = _dereq_('../../plots/array_container_defaults');
var handleAnnotationCommonDefaults = _dereq_('./common_defaults');
var attributes = _dereq_('./attributes');
module.exports = function supplyLayoutDefaults(layoutIn, layoutOut) {
handleArrayContainerDefaults(layoutIn, layoutOut, {
name: 'annotations',
handleItemDefaults: handleAnnotationDefaults
});
};
function handleAnnotationDefaults(annIn, annOut, fullLayout) {
function coerce(attr, dflt) {
return Lib.coerce(annIn, annOut, attributes, attr, dflt);
}
var visible = coerce('visible');
var clickToShow = coerce('clicktoshow');
if(!(visible || clickToShow)) return;
handleAnnotationCommonDefaults(annIn, annOut, fullLayout, coerce);
var showArrow = annOut.showarrow;
// positioning
var axLetters = ['x', 'y'],
arrowPosDflt = [-10, -30],
gdMock = {_fullLayout: fullLayout};
for(var i = 0; i < 2; i++) {
var axLetter = axLetters[i];
// xref, yref
var axRef = Axes.coerceRef(annIn, annOut, gdMock, axLetter, '', 'paper');
if(axRef !== 'paper') {
var ax = Axes.getFromId(gdMock, axRef);
ax._annIndices.push(annOut._index);
}
// x, y
Axes.coercePosition(annOut, gdMock, coerce, axRef, axLetter, 0.5);
if(showArrow) {
var arrowPosAttr = 'a' + axLetter,
// axref, ayref
aaxRef = Axes.coerceRef(annIn, annOut, gdMock, arrowPosAttr, 'pixel');
// for now the arrow can only be on the same axis or specified as pixels
// TODO: sometime it might be interesting to allow it to be on *any* axis
// but that would require updates to drawing & autorange code and maybe more
if(aaxRef !== 'pixel' && aaxRef !== axRef) {
aaxRef = annOut[arrowPosAttr] = 'pixel';
}
// ax, ay
var aDflt = (aaxRef === 'pixel') ? arrowPosDflt[i] : 0.4;
Axes.coercePosition(annOut, gdMock, coerce, aaxRef, arrowPosAttr, aDflt);
}
// xanchor, yanchor
coerce(axLetter + 'anchor');
// xshift, yshift
coerce(axLetter + 'shift');
}
// if you have one coordinate you should have both
Lib.noneOrAll(annIn, annOut, ['x', 'y']);
// if you have one part of arrow length you should have both
if(showArrow) {
Lib.noneOrAll(annIn, annOut, ['ax', 'ay']);
}
if(clickToShow) {
var xClick = coerce('xclick');
var yClick = coerce('yclick');
// put the actual click data to bind to into private attributes
// so we don't have to do this little bit of logic on every hover event
annOut._xclick = (xClick === undefined) ?
annOut.x :
Axes.cleanPosition(xClick, gdMock, annOut.xref);
annOut._yclick = (yClick === undefined) ?
annOut.y :
Axes.cleanPosition(yClick, gdMock, annOut.yref);
}
}
},{"../../lib":693,"../../plots/array_container_defaults":738,"../../plots/cartesian/axes":742,"./attributes":550,"./common_defaults":553}],556:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Registry = _dereq_('../../registry');
var Plots = _dereq_('../../plots/plots');
var Lib = _dereq_('../../lib');
var Axes = _dereq_('../../plots/cartesian/axes');
var Color = _dereq_('../color');
var Drawing = _dereq_('../drawing');
var Fx = _dereq_('../fx');
var svgTextUtils = _dereq_('../../lib/svg_text_utils');
var setCursor = _dereq_('../../lib/setcursor');
var dragElement = _dereq_('../dragelement');
var arrayEditor = _dereq_('../../plot_api/plot_template').arrayEditor;
var drawArrowHead = _dereq_('./draw_arrow_head');
// Annotations are stored in gd.layout.annotations, an array of objects
// index can point to one item in this array,
// or non-numeric to simply add a new one
// or -1 to modify all existing
// opt can be the full options object, or one key (to be set to value)
// or undefined to simply redraw
// if opt is blank, val can be 'add' or a full options object to add a new
// annotation at that point in the array, or 'remove' to delete this one
module.exports = {
draw: draw,
drawOne: drawOne,
drawRaw: drawRaw
};
/*
* draw: draw all annotations without any new modifications
*/
function draw(gd) {
var fullLayout = gd._fullLayout;
fullLayout._infolayer.selectAll('.annotation').remove();
for(var i = 0; i < fullLayout.annotations.length; i++) {
if(fullLayout.annotations[i].visible) {
drawOne(gd, i);
}
}
return Plots.previousPromises(gd);
}
/*
* drawOne: draw a single cartesian or paper-ref annotation, potentially with modifications
*
* index (int): the annotation to draw
*/
function drawOne(gd, index) {
var fullLayout = gd._fullLayout;
var options = fullLayout.annotations[index] || {};
var xa = Axes.getFromId(gd, options.xref);
var ya = Axes.getFromId(gd, options.yref);
drawRaw(gd, options, index, false, xa, ya);
}
/**
* drawRaw: draw a single annotation, potentially with modifications
*
* @param {DOM element} gd
* @param {object} options : this annotation's fullLayout options
* @param {integer} index : index in 'annotations' container of the annotation to draw
* @param {string} subplotId : id of the annotation's subplot
* - use false for 2d (i.e. cartesian or paper-ref) annotations
* @param {object | undefined} xa : full x-axis object to compute subplot pos-to-px
* @param {object | undefined} ya : ... y-axis
*/
function drawRaw(gd, options, index, subplotId, xa, ya) {
var fullLayout = gd._fullLayout;
var gs = gd._fullLayout._size;
var edits = gd._context.edits;
var className, containerStr;
if(subplotId) {
className = 'annotation-' + subplotId;
containerStr = subplotId + '.annotations';
} else {
className = 'annotation';
containerStr = 'annotations';
}
var editHelpers = arrayEditor(gd.layout, containerStr, options);
var modifyBase = editHelpers.modifyBase;
var modifyItem = editHelpers.modifyItem;
var getUpdateObj = editHelpers.getUpdateObj;
// remove the existing annotation if there is one
fullLayout._infolayer
.selectAll('.' + className + '[data-index="' + index + '"]')
.remove();
var annClipID = 'clip' + fullLayout._uid + '_ann' + index;
// this annotation is gone - quit now after deleting it
// TODO: use d3 idioms instead of deleting and redrawing every time
if(!options._input || options.visible === false) {
d3.selectAll('#' + annClipID).remove();
return;
}
// calculated pixel positions
// x & y each will get text, head, and tail as appropriate
var annPosPx = {x: {}, y: {}},
textangle = +options.textangle || 0;
// create the components
// made a single group to contain all, so opacity can work right
// with border/arrow together this could handle a whole bunch of
// cleanup at this point, but works for now
var annGroup = fullLayout._infolayer.append('g')
.classed(className, true)
.attr('data-index', String(index))
.style('opacity', options.opacity);
// another group for text+background so that they can rotate together
var annTextGroup = annGroup.append('g')
.classed('annotation-text-g', true);
var editTextPosition = edits[options.showarrow ? 'annotationTail' : 'annotationPosition'];
var textEvents = options.captureevents || edits.annotationText || editTextPosition;
var annTextGroupInner = annTextGroup.append('g')
.style('pointer-events', textEvents ? 'all' : null)
.call(setCursor, 'pointer')
.on('click', function() {
gd._dragging = false;
var eventData = {
index: index,
annotation: options._input,
fullAnnotation: options,
event: d3.event
};
if(subplotId) {
eventData.subplotId = subplotId;
}
gd.emit('plotly_clickannotation', eventData);
});
if(options.hovertext) {
annTextGroupInner
.on('mouseover', function() {
var hoverOptions = options.hoverlabel;
var hoverFont = hoverOptions.font;
var bBox = this.getBoundingClientRect();
var bBoxRef = gd.getBoundingClientRect();
Fx.loneHover({
x0: bBox.left - bBoxRef.left,
x1: bBox.right - bBoxRef.left,
y: (bBox.top + bBox.bottom) / 2 - bBoxRef.top,
text: options.hovertext,
color: hoverOptions.bgcolor,
borderColor: hoverOptions.bordercolor,
fontFamily: hoverFont.family,
fontSize: hoverFont.size,
fontColor: hoverFont.color
}, {
container: fullLayout._hoverlayer.node(),
outerContainer: fullLayout._paper.node(),
gd: gd
});
})
.on('mouseout', function() {
Fx.loneUnhover(fullLayout._hoverlayer.node());
});
}
var borderwidth = options.borderwidth,
borderpad = options.borderpad,
borderfull = borderwidth + borderpad;
var annTextBG = annTextGroupInner.append('rect')
.attr('class', 'bg')
.style('stroke-width', borderwidth + 'px')
.call(Color.stroke, options.bordercolor)
.call(Color.fill, options.bgcolor);
var isSizeConstrained = options.width || options.height;
var annTextClip = fullLayout._topclips
.selectAll('#' + annClipID)
.data(isSizeConstrained ? [0] : []);
annTextClip.enter().append('clipPath')
.classed('annclip', true)
.attr('id', annClipID)
.append('rect');
annTextClip.exit().remove();
var font = options.font;
var annText = annTextGroupInner.append('text')
.classed('annotation-text', true)
.text(options.text);
function textLayout(s) {
s.call(Drawing.font, font)
.attr({
'text-anchor': {
left: 'start',
right: 'end'
}[options.align] || 'middle'
});
svgTextUtils.convertToTspans(s, gd, drawGraphicalElements);
return s;
}
function drawGraphicalElements() {
// if the text has *only* a link, make the whole box into a link
var anchor3 = annText.selectAll('a');
if(anchor3.size() === 1 && anchor3.text() === annText.text()) {
var wholeLink = annTextGroupInner.insert('a', ':first-child').attr({
'xlink:xlink:href': anchor3.attr('xlink:href'),
'xlink:xlink:show': anchor3.attr('xlink:show')
})
.style({cursor: 'pointer'});
wholeLink.node().appendChild(annTextBG.node());
}
var mathjaxGroup = annTextGroupInner.select('.annotation-text-math-group');
var hasMathjax = !mathjaxGroup.empty();
var anntextBB = Drawing.bBox(
(hasMathjax ? mathjaxGroup : annText).node());
var textWidth = anntextBB.width;
var textHeight = anntextBB.height;
var annWidth = options.width || textWidth;
var annHeight = options.height || textHeight;
var outerWidth = Math.round(annWidth + 2 * borderfull);
var outerHeight = Math.round(annHeight + 2 * borderfull);
function shiftFraction(v, anchor) {
if(anchor === 'auto') {
if(v < 1 / 3) anchor = 'left';
else if(v > 2 / 3) anchor = 'right';
else anchor = 'center';
}
return {
center: 0,
middle: 0,
left: 0.5,
bottom: -0.5,
right: -0.5,
top: 0.5
}[anchor];
}
var annotationIsOffscreen = false;
var letters = ['x', 'y'];
for(var i = 0; i < letters.length; i++) {
var axLetter = letters[i],
axRef = options[axLetter + 'ref'] || axLetter,
tailRef = options['a' + axLetter + 'ref'],
ax = {x: xa, y: ya}[axLetter],
dimAngle = (textangle + (axLetter === 'x' ? 0 : -90)) * Math.PI / 180,
// note that these two can be either positive or negative
annSizeFromWidth = outerWidth * Math.cos(dimAngle),
annSizeFromHeight = outerHeight * Math.sin(dimAngle),
// but this one is the positive total size
annSize = Math.abs(annSizeFromWidth) + Math.abs(annSizeFromHeight),
anchor = options[axLetter + 'anchor'],
overallShift = options[axLetter + 'shift'] * (axLetter === 'x' ? 1 : -1),
posPx = annPosPx[axLetter],
basePx,
textPadShift,
alignPosition,
autoAlignFraction,
textShift;
/*
* calculate the *primary* pixel position
* which is the arrowhead if there is one,
* otherwise the text anchor point
*/
if(ax) {
// check if annotation is off screen, to bypass DOM manipulations
var posFraction = ax.r2fraction(options[axLetter]);
if(posFraction < 0 || posFraction > 1) {
if(tailRef === axRef) {
posFraction = ax.r2fraction(options['a' + axLetter]);
if(posFraction < 0 || posFraction > 1) {
annotationIsOffscreen = true;
}
} else {
annotationIsOffscreen = true;
}
}
basePx = ax._offset + ax.r2p(options[axLetter]);
autoAlignFraction = 0.5;
}
else {
if(axLetter === 'x') {
alignPosition = options[axLetter];
basePx = gs.l + gs.w * alignPosition;
}
else {
alignPosition = 1 - options[axLetter];
basePx = gs.t + gs.h * alignPosition;
}
autoAlignFraction = options.showarrow ? 0.5 : alignPosition;
}
// now translate this into pixel positions of head, tail, and text
// as well as paddings for autorange
if(options.showarrow) {
posPx.head = basePx;
var arrowLength = options['a' + axLetter];
// with an arrow, the text rotates around the anchor point
textShift = annSizeFromWidth * shiftFraction(0.5, options.xanchor) -
annSizeFromHeight * shiftFraction(0.5, options.yanchor);
if(tailRef === axRef) {
posPx.tail = ax._offset + ax.r2p(arrowLength);
// tail is data-referenced: autorange pads the text in px from the tail
textPadShift = textShift;
}
else {
posPx.tail = basePx + arrowLength;
// tail is specified in px from head, so autorange also pads vs head
textPadShift = textShift + arrowLength;
}
posPx.text = posPx.tail + textShift;
// constrain pixel/paper referenced so the draggers are at least
// partially visible
var maxPx = fullLayout[(axLetter === 'x') ? 'width' : 'height'];
if(axRef === 'paper') {
posPx.head = Lib.constrain(posPx.head, 1, maxPx - 1);
}
if(tailRef === 'pixel') {
var shiftPlus = -Math.max(posPx.tail - 3, posPx.text),
shiftMinus = Math.min(posPx.tail + 3, posPx.text) - maxPx;
if(shiftPlus > 0) {
posPx.tail += shiftPlus;
posPx.text += shiftPlus;
}
else if(shiftMinus > 0) {
posPx.tail -= shiftMinus;
posPx.text -= shiftMinus;
}
}
posPx.tail += overallShift;
posPx.head += overallShift;
}
else {
// with no arrow, the text rotates and *then* we put the anchor
// relative to the new bounding box
textShift = annSize * shiftFraction(autoAlignFraction, anchor);
textPadShift = textShift;
posPx.text = basePx + textShift;
}
posPx.text += overallShift;
textShift += overallShift;
textPadShift += overallShift;
// padplus/minus are used by autorange
options['_' + axLetter + 'padplus'] = (annSize / 2) + textPadShift;
options['_' + axLetter + 'padminus'] = (annSize / 2) - textPadShift;
// size/shift are used during dragging
options['_' + axLetter + 'size'] = annSize;
options['_' + axLetter + 'shift'] = textShift;
}
// We have everything we need for calcAutorange at this point,
// we can safely exit - unless we're currently dragging the plot
if(!gd._dragging && annotationIsOffscreen) {
annTextGroupInner.remove();
return;
}
var xShift = 0;
var yShift = 0;
if(options.align !== 'left') {
xShift = (annWidth - textWidth) * (options.align === 'center' ? 0.5 : 1);
}
if(options.valign !== 'top') {
yShift = (annHeight - textHeight) * (options.valign === 'middle' ? 0.5 : 1);
}
if(hasMathjax) {
mathjaxGroup.select('svg').attr({
x: borderfull + xShift - 1,
y: borderfull + yShift
})
.call(Drawing.setClipUrl, isSizeConstrained ? annClipID : null);
}
else {
var texty = borderfull + yShift - anntextBB.top;
var textx = borderfull + xShift - anntextBB.left;
annText.call(svgTextUtils.positionText, textx, texty)
.call(Drawing.setClipUrl, isSizeConstrained ? annClipID : null);
}
annTextClip.select('rect').call(Drawing.setRect, borderfull, borderfull,
annWidth, annHeight);
annTextBG.call(Drawing.setRect, borderwidth / 2, borderwidth / 2,
outerWidth - borderwidth, outerHeight - borderwidth);
annTextGroupInner.call(Drawing.setTranslate,
Math.round(annPosPx.x.text - outerWidth / 2),
Math.round(annPosPx.y.text - outerHeight / 2));
/*
* rotate text and background
* we already calculated the text center position *as rotated*
* because we needed that for autoranging anyway, so now whether
* we have an arrow or not, we rotate about the text center.
*/
annTextGroup.attr({transform: 'rotate(' + textangle + ',' +
annPosPx.x.text + ',' + annPosPx.y.text + ')'});
/*
* add the arrow
* uses options[arrowwidth,arrowcolor,arrowhead] for styling
* dx and dy are normally zero, but when you are dragging the textbox
* while the head stays put, dx and dy are the pixel offsets
*/
var drawArrow = function(dx, dy) {
annGroup
.selectAll('.annotation-arrow-g')
.remove();
var headX = annPosPx.x.head,
headY = annPosPx.y.head,
tailX = annPosPx.x.tail + dx,
tailY = annPosPx.y.tail + dy,
textX = annPosPx.x.text + dx,
textY = annPosPx.y.text + dy,
// find the edge of the text box, where we'll start the arrow:
// create transform matrix to rotate the text box corners
transform = Lib.rotationXYMatrix(textangle, textX, textY),
applyTransform = Lib.apply2DTransform(transform),
applyTransform2 = Lib.apply2DTransform2(transform),
// calculate and transform bounding box
width = +annTextBG.attr('width'),
height = +annTextBG.attr('height'),
xLeft = textX - 0.5 * width,
xRight = xLeft + width,
yTop = textY - 0.5 * height,
yBottom = yTop + height,
edges = [
[xLeft, yTop, xLeft, yBottom],
[xLeft, yBottom, xRight, yBottom],
[xRight, yBottom, xRight, yTop],
[xRight, yTop, xLeft, yTop]
].map(applyTransform2);
// Remove the line if it ends inside the box. Use ray
// casting for rotated boxes: see which edges intersect a
// line from the arrowhead to far away and reduce with xor
// to get the parity of the number of intersections.
if(edges.reduce(function(a, x) {
return a ^
!!Lib.segmentsIntersect(headX, headY, headX + 1e6, headY + 1e6,
x[0], x[1], x[2], x[3]);
}, false)) {
// no line or arrow - so quit drawArrow now
return;
}
edges.forEach(function(x) {
var p = Lib.segmentsIntersect(tailX, tailY, headX, headY,
x[0], x[1], x[2], x[3]);
if(p) {
tailX = p.x;
tailY = p.y;
}
});
var strokewidth = options.arrowwidth,
arrowColor = options.arrowcolor,
arrowSide = options.arrowside;
var arrowGroup = annGroup.append('g')
.style({opacity: Color.opacity(arrowColor)})
.classed('annotation-arrow-g', true);
var arrow = arrowGroup.append('path')
.attr('d', 'M' + tailX + ',' + tailY + 'L' + headX + ',' + headY)
.style('stroke-width', strokewidth + 'px')
.call(Color.stroke, Color.rgb(arrowColor));
drawArrowHead(arrow, arrowSide, options);
// the arrow dragger is a small square right at the head, then a line to the tail,
// all expanded by a stroke width of 6px plus the arrow line width
if(edits.annotationPosition && arrow.node().parentNode && !subplotId) {
var arrowDragHeadX = headX;
var arrowDragHeadY = headY;
if(options.standoff) {
var arrowLength = Math.sqrt(Math.pow(headX - tailX, 2) + Math.pow(headY - tailY, 2));
arrowDragHeadX += options.standoff * (tailX - headX) / arrowLength;
arrowDragHeadY += options.standoff * (tailY - headY) / arrowLength;
}
var arrowDrag = arrowGroup.append('path')
.classed('annotation-arrow', true)
.classed('anndrag', true)
.classed('cursor-move', true)
.attr({
d: 'M3,3H-3V-3H3ZM0,0L' + (tailX - arrowDragHeadX) + ',' + (tailY - arrowDragHeadY),
transform: 'translate(' + arrowDragHeadX + ',' + arrowDragHeadY + ')'
})
.style('stroke-width', (strokewidth + 6) + 'px')
.call(Color.stroke, 'rgba(0,0,0,0)')
.call(Color.fill, 'rgba(0,0,0,0)');
var annx0, anny0;
// dragger for the arrow & head: translates the whole thing
// (head/tail/text) all together
dragElement.init({
element: arrowDrag.node(),
gd: gd,
prepFn: function() {
var pos = Drawing.getTranslate(annTextGroupInner);
annx0 = pos.x;
anny0 = pos.y;
if(xa && xa.autorange) {
modifyBase(xa._name + '.autorange', true);
}
if(ya && ya.autorange) {
modifyBase(ya._name + '.autorange', true);
}
},
moveFn: function(dx, dy) {
var annxy0 = applyTransform(annx0, anny0),
xcenter = annxy0[0] + dx,
ycenter = annxy0[1] + dy;
annTextGroupInner.call(Drawing.setTranslate, xcenter, ycenter);
modifyItem('x', xa ?
xa.p2r(xa.r2p(options.x) + dx) :
(options.x + (dx / gs.w)));
modifyItem('y', ya ?
ya.p2r(ya.r2p(options.y) + dy) :
(options.y - (dy / gs.h)));
if(options.axref === options.xref) {
modifyItem('ax', xa.p2r(xa.r2p(options.ax) + dx));
}
if(options.ayref === options.yref) {
modifyItem('ay', ya.p2r(ya.r2p(options.ay) + dy));
}
arrowGroup.attr('transform', 'translate(' + dx + ',' + dy + ')');
annTextGroup.attr({
transform: 'rotate(' + textangle + ',' +
xcenter + ',' + ycenter + ')'
});
},
doneFn: function() {
Registry.call('relayout', gd, getUpdateObj());
var notesBox = document.querySelector('.js-notes-box-panel');
if(notesBox) notesBox.redraw(notesBox.selectedObj);
}
});
}
};
if(options.showarrow) drawArrow(0, 0);
// user dragging the annotation (text, not arrow)
if(editTextPosition) {
var baseTextTransform;
// dragger for the textbox: if there's an arrow, just drag the
// textbox and tail, leave the head untouched
dragElement.init({
element: annTextGroupInner.node(),
gd: gd,
prepFn: function() {
baseTextTransform = annTextGroup.attr('transform');
},
moveFn: function(dx, dy) {
var csr = 'pointer';
if(options.showarrow) {
if(options.axref === options.xref) {
modifyItem('ax', xa.p2r(xa.r2p(options.ax) + dx));
} else {
modifyItem('ax', options.ax + dx);
}
if(options.ayref === options.yref) {
modifyItem('ay', ya.p2r(ya.r2p(options.ay) + dy));
} else {
modifyItem('ay', options.ay + dy);
}
drawArrow(dx, dy);
}
else if(!subplotId) {
var xUpdate, yUpdate;
if(xa) {
xUpdate = xa.p2r(xa.r2p(options.x) + dx);
} else {
var widthFraction = options._xsize / gs.w,
xLeft = options.x + (options._xshift - options.xshift) / gs.w -
widthFraction / 2;
xUpdate = dragElement.align(xLeft + dx / gs.w,
widthFraction, 0, 1, options.xanchor);
}
if(ya) {
yUpdate = ya.p2r(ya.r2p(options.y) + dy);
} else {
var heightFraction = options._ysize / gs.h,
yBottom = options.y - (options._yshift + options.yshift) / gs.h -
heightFraction / 2;
yUpdate = dragElement.align(yBottom - dy / gs.h,
heightFraction, 0, 1, options.yanchor);
}
modifyItem('x', xUpdate);
modifyItem('y', yUpdate);
if(!xa || !ya) {
csr = dragElement.getCursor(
xa ? 0.5 : xUpdate,
ya ? 0.5 : yUpdate,
options.xanchor, options.yanchor
);
}
}
else return;
annTextGroup.attr({
transform: 'translate(' + dx + ',' + dy + ')' + baseTextTransform
});
setCursor(annTextGroupInner, csr);
},
doneFn: function() {
setCursor(annTextGroupInner);
Registry.call('relayout', gd, getUpdateObj());
var notesBox = document.querySelector('.js-notes-box-panel');
if(notesBox) notesBox.redraw(notesBox.selectedObj);
}
});
}
}
if(edits.annotationText) {
annText.call(svgTextUtils.makeEditable, {delegate: annTextGroupInner, gd: gd})
.call(textLayout)
.on('edit', function(_text) {
options.text = _text;
this.call(textLayout);
modifyItem('text', _text);
if(xa && xa.autorange) {
modifyBase(xa._name + '.autorange', true);
}
if(ya && ya.autorange) {
modifyBase(ya._name + '.autorange', true);
}
Registry.call('relayout', gd, getUpdateObj());
});
}
else annText.call(textLayout);
}
},{"../../lib":693,"../../lib/setcursor":714,"../../lib/svg_text_utils":718,"../../plot_api/plot_template":732,"../../plots/cartesian/axes":742,"../../plots/plots":805,"../../registry":825,"../color":567,"../dragelement":589,"../drawing":592,"../fx":609,"./draw_arrow_head":557,"d3":147}],557:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Color = _dereq_('../color');
var ARROWPATHS = _dereq_('./arrow_paths');
/**
* Add arrowhead(s) to a path or line element
*
* @param {d3.selection} el3: a d3-selected line or path element
*
* @param {string} ends: 'none', 'start', 'end', or 'start+end' for which ends get arrowheads
*
* @param {object} options: style information. Must have all the following:
* @param {number} options.arrowhead: end head style - see ./arrow_paths
* @param {number} options.startarrowhead: start head style - see ./arrow_paths
* @param {number} options.arrowsize: relative size of the end head vs line width
* @param {number} options.startarrowsize: relative size of the start head vs line width
* @param {number} options.standoff: distance in px to move the end arrow point from its target
* @param {number} options.startstandoff: distance in px to move the start arrow point from its target
* @param {number} options.arrowwidth: width of the arrow line
* @param {string} options.arrowcolor: color of the arrow line, for the head to match
* Note that the opacity of this color is ignored, as it's assumed the container
* of both the line and head has opacity applied to it so there isn't greater opacity
* where they overlap.
*/
module.exports = function drawArrowHead(el3, ends, options) {
var el = el3.node();
var headStyle = ARROWPATHS[options.arrowhead || 0];
var startHeadStyle = ARROWPATHS[options.startarrowhead || 0];
var scale = (options.arrowwidth || 1) * (options.arrowsize || 1);
var startScale = (options.arrowwidth || 1) * (options.startarrowsize || 1);
var doStart = ends.indexOf('start') >= 0;
var doEnd = ends.indexOf('end') >= 0;
var backOff = headStyle.backoff * scale + options.standoff;
var startBackOff = startHeadStyle.backoff * startScale + options.startstandoff;
var start, end, startRot, endRot;
if(el.nodeName === 'line') {
start = {x: +el3.attr('x1'), y: +el3.attr('y1')};
end = {x: +el3.attr('x2'), y: +el3.attr('y2')};
var dx = start.x - end.x;
var dy = start.y - end.y;
startRot = Math.atan2(dy, dx);
endRot = startRot + Math.PI;
if(backOff && startBackOff) {
if(backOff + startBackOff > Math.sqrt(dx * dx + dy * dy)) {
hideLine();
return;
}
}
if(backOff) {
if(backOff * backOff > dx * dx + dy * dy) {
hideLine();
return;
}
var backOffX = backOff * Math.cos(startRot),
backOffY = backOff * Math.sin(startRot);
end.x += backOffX;
end.y += backOffY;
el3.attr({x2: end.x, y2: end.y});
}
if(startBackOff) {
if(startBackOff * startBackOff > dx * dx + dy * dy) {
hideLine();
return;
}
var startBackOffX = startBackOff * Math.cos(startRot),
startbackOffY = startBackOff * Math.sin(startRot);
start.x -= startBackOffX;
start.y -= startbackOffY;
el3.attr({x1: start.x, y1: start.y});
}
}
else if(el.nodeName === 'path') {
var pathlen = el.getTotalLength(),
// using dash to hide the backOff region of the path.
// if we ever allow dash for the arrow we'll have to
// do better than this hack... maybe just manually
// combine the two
dashArray = '';
if(pathlen < backOff + startBackOff) {
hideLine();
return;
}
var start0 = el.getPointAtLength(0);
var dstart = el.getPointAtLength(0.1);
startRot = Math.atan2(start0.y - dstart.y, start0.x - dstart.x);
start = el.getPointAtLength(Math.min(startBackOff, pathlen));
dashArray = '0px,' + startBackOff + 'px,';
var end0 = el.getPointAtLength(pathlen);
var dend = el.getPointAtLength(pathlen - 0.1);
endRot = Math.atan2(end0.y - dend.y, end0.x - dend.x);
end = el.getPointAtLength(Math.max(0, pathlen - backOff));
var shortening = dashArray ? startBackOff + backOff : backOff;
dashArray += (pathlen - shortening) + 'px,' + pathlen + 'px';
el3.style('stroke-dasharray', dashArray);
}
function hideLine() { el3.style('stroke-dasharray', '0px,100px'); }
function drawhead(arrowHeadStyle, p, rot, arrowScale) {
if(!arrowHeadStyle.path) return;
if(arrowHeadStyle.noRotate) rot = 0;
d3.select(el.parentNode).append('path')
.attr({
'class': el3.attr('class'),
d: arrowHeadStyle.path,
transform:
'translate(' + p.x + ',' + p.y + ')' +
(rot ? 'rotate(' + (rot * 180 / Math.PI) + ')' : '') +
'scale(' + arrowScale + ')'
})
.style({
fill: Color.rgb(options.arrowcolor),
'stroke-width': 0
});
}
if(doStart) drawhead(startHeadStyle, start, startRot, startScale);
if(doEnd) drawhead(headStyle, end, endRot, scale);
};
},{"../color":567,"./arrow_paths":549,"d3":147}],558:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var drawModule = _dereq_('./draw');
var clickModule = _dereq_('./click');
module.exports = {
moduleType: 'component',
name: 'annotations',
layoutAttributes: _dereq_('./attributes'),
supplyLayoutDefaults: _dereq_('./defaults'),
includeBasePlot: _dereq_('../../plots/cartesian/include_components')('annotations'),
calcAutorange: _dereq_('./calc_autorange'),
draw: drawModule.draw,
drawOne: drawModule.drawOne,
drawRaw: drawModule.drawRaw,
hasClickToShow: clickModule.hasClickToShow,
onClick: clickModule.onClick,
convertCoords: _dereq_('./convert_coords')
};
},{"../../plots/cartesian/include_components":752,"./attributes":550,"./calc_autorange":551,"./click":552,"./convert_coords":554,"./defaults":555,"./draw":556}],559:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var annAtts = _dereq_('../annotations/attributes');
var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll;
var templatedArray = _dereq_('../../plot_api/plot_template').templatedArray;
module.exports = overrideAll(templatedArray('annotation', {
visible: annAtts.visible,
x: {
valType: 'any',
},
y: {
valType: 'any',
},
z: {
valType: 'any',
},
ax: {
valType: 'number',
},
ay: {
valType: 'number',
},
xanchor: annAtts.xanchor,
xshift: annAtts.xshift,
yanchor: annAtts.yanchor,
yshift: annAtts.yshift,
text: annAtts.text,
textangle: annAtts.textangle,
font: annAtts.font,
width: annAtts.width,
height: annAtts.height,
opacity: annAtts.opacity,
align: annAtts.align,
valign: annAtts.valign,
bgcolor: annAtts.bgcolor,
bordercolor: annAtts.bordercolor,
borderpad: annAtts.borderpad,
borderwidth: annAtts.borderwidth,
showarrow: annAtts.showarrow,
arrowcolor: annAtts.arrowcolor,
arrowhead: annAtts.arrowhead,
startarrowhead: annAtts.startarrowhead,
arrowside: annAtts.arrowside,
arrowsize: annAtts.arrowsize,
startarrowsize: annAtts.startarrowsize,
arrowwidth: annAtts.arrowwidth,
standoff: annAtts.standoff,
startstandoff: annAtts.startstandoff,
hovertext: annAtts.hovertext,
hoverlabel: annAtts.hoverlabel,
captureevents: annAtts.captureevents,
// maybes later?
// clicktoshow: annAtts.clicktoshow,
// xclick: annAtts.xclick,
// yclick: annAtts.yclick,
// not needed!
// axref: 'pixel'
// ayref: 'pixel'
// xref: 'x'
// yref: 'y
// zref: 'z'
}), 'calc', 'from-root');
},{"../../plot_api/edit_types":725,"../../plot_api/plot_template":732,"../annotations/attributes":550}],560:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Axes = _dereq_('../../plots/cartesian/axes');
module.exports = function convert(scene) {
var fullSceneLayout = scene.fullSceneLayout;
var anns = fullSceneLayout.annotations;
for(var i = 0; i < anns.length; i++) {
mockAnnAxes(anns[i], scene);
}
scene.fullLayout._infolayer
.selectAll('.annotation-' + scene.id)
.remove();
};
function mockAnnAxes(ann, scene) {
var fullSceneLayout = scene.fullSceneLayout;
var domain = fullSceneLayout.domain;
var size = scene.fullLayout._size;
var base = {
// this gets fill in on render
pdata: null,
// to get setConvert to not execute cleanly
type: 'linear',
// don't try to update them on `editable: true`
autorange: false,
// set infinite range so that annotation draw routine
// does not try to remove 'outside-range' annotations,
// this case is handled in the render loop
range: [-Infinity, Infinity]
};
ann._xa = {};
Lib.extendFlat(ann._xa, base);
Axes.setConvert(ann._xa);
ann._xa._offset = size.l + domain.x[0] * size.w;
ann._xa.l2p = function() {
return 0.5 * (1 + ann._pdata[0] / ann._pdata[3]) * size.w * (domain.x[1] - domain.x[0]);
};
ann._ya = {};
Lib.extendFlat(ann._ya, base);
Axes.setConvert(ann._ya);
ann._ya._offset = size.t + (1 - domain.y[1]) * size.h;
ann._ya.l2p = function() {
return 0.5 * (1 - ann._pdata[1] / ann._pdata[3]) * size.h * (domain.y[1] - domain.y[0]);
};
}
},{"../../lib":693,"../../plots/cartesian/axes":742}],561:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Axes = _dereq_('../../plots/cartesian/axes');
var handleArrayContainerDefaults = _dereq_('../../plots/array_container_defaults');
var handleAnnotationCommonDefaults = _dereq_('../annotations/common_defaults');
var attributes = _dereq_('./attributes');
module.exports = function handleDefaults(sceneLayoutIn, sceneLayoutOut, opts) {
handleArrayContainerDefaults(sceneLayoutIn, sceneLayoutOut, {
name: 'annotations',
handleItemDefaults: handleAnnotationDefaults,
fullLayout: opts.fullLayout
});
};
function handleAnnotationDefaults(annIn, annOut, sceneLayout, opts) {
function coerce(attr, dflt) {
return Lib.coerce(annIn, annOut, attributes, attr, dflt);
}
function coercePosition(axLetter) {
var axName = axLetter + 'axis';
// mock in such way that getFromId grabs correct 3D axis
var gdMock = { _fullLayout: {} };
gdMock._fullLayout[axName] = sceneLayout[axName];
return Axes.coercePosition(annOut, gdMock, coerce, axLetter, axLetter, 0.5);
}
var visible = coerce('visible');
if(!visible) return;
handleAnnotationCommonDefaults(annIn, annOut, opts.fullLayout, coerce);
coercePosition('x');
coercePosition('y');
coercePosition('z');
// if you have one coordinate you should all three
Lib.noneOrAll(annIn, annOut, ['x', 'y', 'z']);
// hard-set here for completeness
annOut.xref = 'x';
annOut.yref = 'y';
annOut.zref = 'z';
coerce('xanchor');
coerce('yanchor');
coerce('xshift');
coerce('yshift');
if(annOut.showarrow) {
annOut.axref = 'pixel';
annOut.ayref = 'pixel';
// TODO maybe default values should be bigger than the 2D case?
coerce('ax', -10);
coerce('ay', -30);
// if you have one part of arrow length you should have both
Lib.noneOrAll(annIn, annOut, ['ax', 'ay']);
}
}
},{"../../lib":693,"../../plots/array_container_defaults":738,"../../plots/cartesian/axes":742,"../annotations/common_defaults":553,"./attributes":559}],562:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var drawRaw = _dereq_('../annotations/draw').drawRaw;
var project = _dereq_('../../plots/gl3d/project');
var axLetters = ['x', 'y', 'z'];
module.exports = function draw(scene) {
var fullSceneLayout = scene.fullSceneLayout;
var dataScale = scene.dataScale;
var anns = fullSceneLayout.annotations;
for(var i = 0; i < anns.length; i++) {
var ann = anns[i];
var annotationIsOffscreen = false;
for(var j = 0; j < 3; j++) {
var axLetter = axLetters[j];
var pos = ann[axLetter];
var ax = fullSceneLayout[axLetter + 'axis'];
var posFraction = ax.r2fraction(pos);
if(posFraction < 0 || posFraction > 1) {
annotationIsOffscreen = true;
break;
}
}
if(annotationIsOffscreen) {
scene.fullLayout._infolayer
.select('.annotation-' + scene.id + '[data-index="' + i + '"]')
.remove();
} else {
ann._pdata = project(scene.glplot.cameraParams, [
fullSceneLayout.xaxis.r2l(ann.x) * dataScale[0],
fullSceneLayout.yaxis.r2l(ann.y) * dataScale[1],
fullSceneLayout.zaxis.r2l(ann.z) * dataScale[2]
]);
drawRaw(scene.graphDiv, ann, i, scene.id, ann._xa, ann._ya);
}
}
};
},{"../../plots/gl3d/project":793,"../annotations/draw":556}],563:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
module.exports = {
moduleType: 'component',
name: 'annotations3d',
schema: {
subplots: {
scene: {annotations: _dereq_('./attributes')}
}
},
layoutAttributes: _dereq_('./attributes'),
handleDefaults: _dereq_('./defaults'),
includeBasePlot: includeGL3D,
convert: _dereq_('./convert'),
draw: _dereq_('./draw')
};
function includeGL3D(layoutIn, layoutOut) {
var GL3D = Registry.subplotsRegistry.gl3d;
if(!GL3D) return;
var attrRegex = GL3D.attrRegex;
var keys = Object.keys(layoutIn);
for(var i = 0; i < keys.length; i++) {
var k = keys[i];
if(attrRegex.test(k) && (layoutIn[k].annotations || []).length) {
Lib.pushUnique(layoutOut._basePlotModules, GL3D);
Lib.pushUnique(layoutOut._subplots.gl3d, k);
}
}
}
},{"../../lib":693,"../../registry":825,"./attributes":559,"./convert":560,"./defaults":561,"./draw":562}],564:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
// a trimmed down version of:
// https://github.com/alexcjohnson/world-calendars/blob/master/dist/index.js
module.exports = _dereq_('world-calendars/dist/main');
_dereq_('world-calendars/dist/plus');
_dereq_('world-calendars/dist/calendars/chinese');
_dereq_('world-calendars/dist/calendars/coptic');
_dereq_('world-calendars/dist/calendars/discworld');
_dereq_('world-calendars/dist/calendars/ethiopian');
_dereq_('world-calendars/dist/calendars/hebrew');
_dereq_('world-calendars/dist/calendars/islamic');
_dereq_('world-calendars/dist/calendars/julian');
_dereq_('world-calendars/dist/calendars/mayan');
_dereq_('world-calendars/dist/calendars/nanakshahi');
_dereq_('world-calendars/dist/calendars/nepali');
_dereq_('world-calendars/dist/calendars/persian');
_dereq_('world-calendars/dist/calendars/taiwan');
_dereq_('world-calendars/dist/calendars/thai');
_dereq_('world-calendars/dist/calendars/ummalqura');
},{"world-calendars/dist/calendars/chinese":531,"world-calendars/dist/calendars/coptic":532,"world-calendars/dist/calendars/discworld":533,"world-calendars/dist/calendars/ethiopian":534,"world-calendars/dist/calendars/hebrew":535,"world-calendars/dist/calendars/islamic":536,"world-calendars/dist/calendars/julian":537,"world-calendars/dist/calendars/mayan":538,"world-calendars/dist/calendars/nanakshahi":539,"world-calendars/dist/calendars/nepali":540,"world-calendars/dist/calendars/persian":541,"world-calendars/dist/calendars/taiwan":542,"world-calendars/dist/calendars/thai":543,"world-calendars/dist/calendars/ummalqura":544,"world-calendars/dist/main":545,"world-calendars/dist/plus":546}],565:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var calendars = _dereq_('./calendars');
var Lib = _dereq_('../../lib');
var constants = _dereq_('../../constants/numerical');
var EPOCHJD = constants.EPOCHJD;
var ONEDAY = constants.ONEDAY;
var attributes = {
valType: 'enumerated',
values: Object.keys(calendars.calendars),
editType: 'calc',
dflt: 'gregorian'
};
var handleDefaults = function(contIn, contOut, attr, dflt) {
var attrs = {};
attrs[attr] = attributes;
return Lib.coerce(contIn, contOut, attrs, attr, dflt);
};
var handleTraceDefaults = function(traceIn, traceOut, coords, layout) {
for(var i = 0; i < coords.length; i++) {
handleDefaults(traceIn, traceOut, coords[i] + 'calendar', layout.calendar);
}
};
// each calendar needs its own default canonical tick. I would love to use
// 2000-01-01 (or even 0000-01-01) for them all but they don't necessarily
// all support either of those dates. Instead I'll use the most significant
// number they *do* support, biased toward the present day.
var CANONICAL_TICK = {
chinese: '2000-01-01',
coptic: '2000-01-01',
discworld: '2000-01-01',
ethiopian: '2000-01-01',
hebrew: '5000-01-01',
islamic: '1000-01-01',
julian: '2000-01-01',
mayan: '5000-01-01',
nanakshahi: '1000-01-01',
nepali: '2000-01-01',
persian: '1000-01-01',
jalali: '1000-01-01',
taiwan: '1000-01-01',
thai: '2000-01-01',
ummalqura: '1400-01-01'
};
// Start on a Sunday - for week ticks
// Discworld and Mayan calendars don't have 7-day weeks but we're going to give them
// 7-day week ticks so start on our Sundays.
// If anyone really cares we can customize the auto tick spacings for these calendars.
var CANONICAL_SUNDAY = {
chinese: '2000-01-02',
coptic: '2000-01-03',
discworld: '2000-01-03',
ethiopian: '2000-01-05',
hebrew: '5000-01-01',
islamic: '1000-01-02',
julian: '2000-01-03',
mayan: '5000-01-01',
nanakshahi: '1000-01-05',
nepali: '2000-01-05',
persian: '1000-01-01',
jalali: '1000-01-01',
taiwan: '1000-01-04',
thai: '2000-01-04',
ummalqura: '1400-01-06'
};
var DFLTRANGE = {
chinese: ['2000-01-01', '2001-01-01'],
coptic: ['1700-01-01', '1701-01-01'],
discworld: ['1800-01-01', '1801-01-01'],
ethiopian: ['2000-01-01', '2001-01-01'],
hebrew: ['5700-01-01', '5701-01-01'],
islamic: ['1400-01-01', '1401-01-01'],
julian: ['2000-01-01', '2001-01-01'],
mayan: ['5200-01-01', '5201-01-01'],
nanakshahi: ['0500-01-01', '0501-01-01'],
nepali: ['2000-01-01', '2001-01-01'],
persian: ['1400-01-01', '1401-01-01'],
jalali: ['1400-01-01', '1401-01-01'],
taiwan: ['0100-01-01', '0101-01-01'],
thai: ['2500-01-01', '2501-01-01'],
ummalqura: ['1400-01-01', '1401-01-01']
};
/*
* convert d3 templates to world-calendars templates, so our users only need
* to know d3's specifiers. Map space padding to no padding, and unknown fields
* to an ugly placeholder
*/
var UNKNOWN = '##';
var d3ToWorldCalendars = {
'd': {'0': 'dd', '-': 'd'}, // 2-digit or unpadded day of month
'e': {'0': 'd', '-': 'd'}, // alternate, always unpadded day of month
'a': {'0': 'D', '-': 'D'}, // short weekday name
'A': {'0': 'DD', '-': 'DD'}, // full weekday name
'j': {'0': 'oo', '-': 'o'}, // 3-digit or unpadded day of the year
'W': {'0': 'ww', '-': 'w'}, // 2-digit or unpadded week of the year (Monday first)
'm': {'0': 'mm', '-': 'm'}, // 2-digit or unpadded month number
'b': {'0': 'M', '-': 'M'}, // short month name
'B': {'0': 'MM', '-': 'MM'}, // full month name
'y': {'0': 'yy', '-': 'yy'}, // 2-digit year (map unpadded to zero-padded)
'Y': {'0': 'yyyy', '-': 'yyyy'}, // 4-digit year (map unpadded to zero-padded)
'U': UNKNOWN, // Sunday-first week of the year
'w': UNKNOWN, // day of the week [0(sunday),6]
// combined format, we replace the date part with the world-calendar version
// and the %X stays there for d3 to handle with time parts
'c': {'0': 'D M d %X yyyy', '-': 'D M d %X yyyy'},
'x': {'0': 'mm/dd/yyyy', '-': 'mm/dd/yyyy'}
};
function worldCalFmt(fmt, x, calendar) {
var dateJD = Math.floor((x + 0.05) / ONEDAY) + EPOCHJD,
cDate = getCal(calendar).fromJD(dateJD),
i = 0,
modifier, directive, directiveLen, directiveObj, replacementPart;
while((i = fmt.indexOf('%', i)) !== -1) {
modifier = fmt.charAt(i + 1);
if(modifier === '0' || modifier === '-' || modifier === '_') {
directiveLen = 3;
directive = fmt.charAt(i + 2);
if(modifier === '_') modifier = '-';
}
else {
directive = modifier;
modifier = '0';
directiveLen = 2;
}
directiveObj = d3ToWorldCalendars[directive];
if(!directiveObj) {
i += directiveLen;
}
else {
// code is recognized as a date part but world-calendars doesn't support it
if(directiveObj === UNKNOWN) replacementPart = UNKNOWN;
// format the cDate according to the translated directive
else replacementPart = cDate.formatDate(directiveObj[modifier]);
fmt = fmt.substr(0, i) + replacementPart + fmt.substr(i + directiveLen);
i += replacementPart.length;
}
}
return fmt;
}
// cache world calendars, so we don't have to reinstantiate
// during each date-time conversion
var allCals = {};
function getCal(calendar) {
var calendarObj = allCals[calendar];
if(calendarObj) return calendarObj;
calendarObj = allCals[calendar] = calendars.instance(calendar);
return calendarObj;
}
function makeAttrs(description) {
return Lib.extendFlat({}, attributes, { description: description });
}
function makeTraceAttrsDescription(coord) {
return 'Sets the calendar system to use with `' + coord + '` date data.';
}
var xAttrs = {
xcalendar: makeAttrs(makeTraceAttrsDescription('x'))
};
var xyAttrs = Lib.extendFlat({}, xAttrs, {
ycalendar: makeAttrs(makeTraceAttrsDescription('y'))
});
var xyzAttrs = Lib.extendFlat({}, xyAttrs, {
zcalendar: makeAttrs(makeTraceAttrsDescription('z'))
});
var axisAttrs = makeAttrs([
'Sets the calendar system to use for `range` and `tick0`',
'if this is a date axis. This does not set the calendar for',
'interpreting data on this axis, that\'s specified in the trace',
'or via the global `layout.calendar`'
].join(' '));
module.exports = {
moduleType: 'component',
name: 'calendars',
schema: {
traces: {
scatter: xyAttrs,
bar: xyAttrs,
box: xyAttrs,
heatmap: xyAttrs,
contour: xyAttrs,
histogram: xyAttrs,
histogram2d: xyAttrs,
histogram2dcontour: xyAttrs,
scatter3d: xyzAttrs,
surface: xyzAttrs,
mesh3d: xyzAttrs,
scattergl: xyAttrs,
ohlc: xAttrs,
candlestick: xAttrs
},
layout: {
calendar: makeAttrs([
'Sets the default calendar system to use for interpreting and',
'displaying dates throughout the plot.'
].join(' '))
},
subplots: {
xaxis: {calendar: axisAttrs},
yaxis: {calendar: axisAttrs},
scene: {
xaxis: {calendar: axisAttrs},
// TODO: it's actually redundant to include yaxis and zaxis here
// because in the scene attributes these are the same object so merging
// into one merges into them all. However, I left them in for parity with
// cartesian, where yaxis is unused until we Plotschema.get() when we
// use its presence or absence to determine whether to delete attributes
// from yaxis if they only apply to x (rangeselector/rangeslider)
yaxis: {calendar: axisAttrs},
zaxis: {calendar: axisAttrs}
},
polar: {
radialaxis: {calendar: axisAttrs}
}
},
transforms: {
filter: {
valuecalendar: makeAttrs([
'Sets the calendar system to use for `value`, if it is a date.'
].join(' ')),
targetcalendar: makeAttrs([
'Sets the calendar system to use for `target`, if it is an',
'array of dates. If `target` is a string (eg *x*) we use the',
'corresponding trace attribute (eg `xcalendar`) if it exists,',
'even if `targetcalendar` is provided.'
].join(' '))
}
}
},
layoutAttributes: attributes,
handleDefaults: handleDefaults,
handleTraceDefaults: handleTraceDefaults,
CANONICAL_SUNDAY: CANONICAL_SUNDAY,
CANONICAL_TICK: CANONICAL_TICK,
DFLTRANGE: DFLTRANGE,
getCal: getCal,
worldCalFmt: worldCalFmt
};
},{"../../constants/numerical":670,"../../lib":693,"./calendars":564}],566:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
// IMPORTANT - default colors should be in hex for compatibility
exports.defaults = [
'#1f77b4', // muted blue
'#ff7f0e', // safety orange
'#2ca02c', // cooked asparagus green
'#d62728', // brick red
'#9467bd', // muted purple
'#8c564b', // chestnut brown
'#e377c2', // raspberry yogurt pink
'#7f7f7f', // middle gray
'#bcbd22', // curry yellow-green
'#17becf' // blue-teal
];
exports.defaultLine = '#444';
exports.lightLine = '#eee';
exports.background = '#fff';
exports.borderLine = '#BEC8D9';
// with axis.color and Color.interp we aren't using lightLine
// itself anymore, instead interpolating between axis.color
// and the background color using tinycolor.mix. lightFraction
// gives back exactly lightLine if the other colors are defaults.
exports.lightFraction = 100 * (0xe - 0x4) / (0xf - 0x4);
},{}],567:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var tinycolor = _dereq_('tinycolor2');
var isNumeric = _dereq_('fast-isnumeric');
var color = module.exports = {};
var colorAttrs = _dereq_('./attributes');
color.defaults = colorAttrs.defaults;
var defaultLine = color.defaultLine = colorAttrs.defaultLine;
color.lightLine = colorAttrs.lightLine;
var background = color.background = colorAttrs.background;
/*
* tinyRGB: turn a tinycolor into an rgb string, but
* unlike the built-in tinycolor.toRgbString this never includes alpha
*/
color.tinyRGB = function(tc) {
var c = tc.toRgb();
return 'rgb(' + Math.round(c.r) + ', ' +
Math.round(c.g) + ', ' + Math.round(c.b) + ')';
};
color.rgb = function(cstr) { return color.tinyRGB(tinycolor(cstr)); };
color.opacity = function(cstr) { return cstr ? tinycolor(cstr).getAlpha() : 0; };
color.addOpacity = function(cstr, op) {
var c = tinycolor(cstr).toRgb();
return 'rgba(' + Math.round(c.r) + ', ' +
Math.round(c.g) + ', ' + Math.round(c.b) + ', ' + op + ')';
};
// combine two colors into one apparent color
// if back has transparency or is missing,
// color.background is assumed behind it
color.combine = function(front, back) {
var fc = tinycolor(front).toRgb();
if(fc.a === 1) return tinycolor(front).toRgbString();
var bc = tinycolor(back || background).toRgb(),
bcflat = bc.a === 1 ? bc : {
r: 255 * (1 - bc.a) + bc.r * bc.a,
g: 255 * (1 - bc.a) + bc.g * bc.a,
b: 255 * (1 - bc.a) + bc.b * bc.a
},
fcflat = {
r: bcflat.r * (1 - fc.a) + fc.r * fc.a,
g: bcflat.g * (1 - fc.a) + fc.g * fc.a,
b: bcflat.b * (1 - fc.a) + fc.b * fc.a
};
return tinycolor(fcflat).toRgbString();
};
/*
* Create a color that contrasts with cstr.
*
* If cstr is a dark color, we lighten it; if it's light, we darken.
*
* If lightAmount / darkAmount are used, we adjust by these percentages,
* otherwise we go all the way to white or black.
*/
color.contrast = function(cstr, lightAmount, darkAmount) {
var tc = tinycolor(cstr);
if(tc.getAlpha() !== 1) tc = tinycolor(color.combine(cstr, background));
var newColor = tc.isDark() ?
(lightAmount ? tc.lighten(lightAmount) : background) :
(darkAmount ? tc.darken(darkAmount) : defaultLine);
return newColor.toString();
};
color.stroke = function(s, c) {
var tc = tinycolor(c);
s.style({'stroke': color.tinyRGB(tc), 'stroke-opacity': tc.getAlpha()});
};
color.fill = function(s, c) {
var tc = tinycolor(c);
s.style({
'fill': color.tinyRGB(tc),
'fill-opacity': tc.getAlpha()
});
};
// search container for colors with the deprecated rgb(fractions) format
// and convert them to rgb(0-255 values)
color.clean = function(container) {
if(!container || typeof container !== 'object') return;
var keys = Object.keys(container),
i,
j,
key,
val;
for(i = 0; i < keys.length; i++) {
key = keys[i];
val = container[key];
// only sanitize keys that end in "color" or "colorscale"
if(key.substr(key.length - 5) === 'color') {
if(Array.isArray(val)) {
for(j = 0; j < val.length; j++) val[j] = cleanOne(val[j]);
}
else container[key] = cleanOne(val);
}
else if(key.substr(key.length - 10) === 'colorscale' && Array.isArray(val)) {
// colorscales have the format [[0, color1], [frac, color2], ... [1, colorN]]
for(j = 0; j < val.length; j++) {
if(Array.isArray(val[j])) val[j][1] = cleanOne(val[j][1]);
}
}
// recurse into arrays of objects, and plain objects
else if(Array.isArray(val)) {
var el0 = val[0];
if(!Array.isArray(el0) && el0 && typeof el0 === 'object') {
for(j = 0; j < val.length; j++) color.clean(val[j]);
}
}
else if(val && typeof val === 'object') color.clean(val);
}
};
function cleanOne(val) {
if(isNumeric(val) || typeof val !== 'string') return val;
var valTrim = val.trim();
if(valTrim.substr(0, 3) !== 'rgb') return val;
var match = valTrim.match(/^rgba?\s*\(([^()]*)\)$/);
if(!match) return val;
var parts = match[1].trim().split(/\s*[\s,]\s*/),
rgba = valTrim.charAt(3) === 'a' && parts.length === 4;
if(!rgba && parts.length !== 3) return val;
for(var i = 0; i < parts.length; i++) {
if(!parts[i].length) return val;
parts[i] = Number(parts[i]);
// all parts must be non-negative numbers
if(!(parts[i] >= 0)) return val;
// alpha>1 gets clipped to 1
if(i === 3) {
if(parts[i] > 1) parts[i] = 1;
}
// r, g, b must be < 1 (ie 1 itself is not allowed)
else if(parts[i] >= 1) return val;
}
var rgbStr = Math.round(parts[0] * 255) + ', ' +
Math.round(parts[1] * 255) + ', ' +
Math.round(parts[2] * 255);
if(rgba) return 'rgba(' + rgbStr + ', ' + parts[3] + ')';
return 'rgb(' + rgbStr + ')';
}
},{"./attributes":566,"fast-isnumeric":213,"tinycolor2":511}],568:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var axesAttrs = _dereq_('../../plots/cartesian/layout_attributes');
var fontAttrs = _dereq_('../../plots/font_attributes');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll;
module.exports = overrideAll({
// TODO: only right is supported currently
// orient: {
// valType: 'enumerated',
//
// values: ['left', 'right', 'top', 'bottom'],
// dflt: 'right',
//
// },
thicknessmode: {
valType: 'enumerated',
values: ['fraction', 'pixels'],
dflt: 'pixels',
},
thickness: {
valType: 'number',
min: 0,
dflt: 30,
},
lenmode: {
valType: 'enumerated',
values: ['fraction', 'pixels'],
dflt: 'fraction',
},
len: {
valType: 'number',
min: 0,
dflt: 1,
},
x: {
valType: 'number',
dflt: 1.02,
min: -2,
max: 3,
},
xanchor: {
valType: 'enumerated',
values: ['left', 'center', 'right'],
dflt: 'left',
},
xpad: {
valType: 'number',
min: 0,
dflt: 10,
},
y: {
valType: 'number',
dflt: 0.5,
min: -2,
max: 3,
},
yanchor: {
valType: 'enumerated',
values: ['top', 'middle', 'bottom'],
dflt: 'middle',
},
ypad: {
valType: 'number',
min: 0,
dflt: 10,
},
// a possible line around the bar itself
outlinecolor: axesAttrs.linecolor,
outlinewidth: axesAttrs.linewidth,
// Should outlinewidth have {dflt: 0} ?
// another possible line outside the padding and tick labels
bordercolor: axesAttrs.linecolor,
borderwidth: {
valType: 'number',
min: 0,
dflt: 0,
},
bgcolor: {
valType: 'color',
dflt: 'rgba(0,0,0,0)',
},
// tick and title properties named and function exactly as in axes
tickmode: axesAttrs.tickmode,
nticks: axesAttrs.nticks,
tick0: axesAttrs.tick0,
dtick: axesAttrs.dtick,
tickvals: axesAttrs.tickvals,
ticktext: axesAttrs.ticktext,
ticks: extendFlat({}, axesAttrs.ticks, {dflt: ''}),
ticklen: axesAttrs.ticklen,
tickwidth: axesAttrs.tickwidth,
tickcolor: axesAttrs.tickcolor,
showticklabels: axesAttrs.showticklabels,
tickfont: fontAttrs({
}),
tickangle: axesAttrs.tickangle,
tickformat: axesAttrs.tickformat,
tickformatstops: axesAttrs.tickformatstops,
tickprefix: axesAttrs.tickprefix,
showtickprefix: axesAttrs.showtickprefix,
ticksuffix: axesAttrs.ticksuffix,
showticksuffix: axesAttrs.showticksuffix,
separatethousands: axesAttrs.separatethousands,
exponentformat: axesAttrs.exponentformat,
showexponent: axesAttrs.showexponent,
title: {
valType: 'string',
},
titlefont: fontAttrs({
}),
titleside: {
valType: 'enumerated',
values: ['right', 'top', 'bottom'],
dflt: 'top',
}
}, 'colorbars', 'from-root');
},{"../../lib/extend":682,"../../plot_api/edit_types":725,"../../plots/cartesian/layout_attributes":754,"../../plots/font_attributes":768}],569:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var drawColorbar = _dereq_('./draw');
/**
* connectColorbar: create a colorbar from a trace, using its module to
* describe the connection.
*
* @param {DOM element} gd
*
* @param {Array} cd
* calcdata entry for this trace. cd[0].trace is the trace itself, and the
* colorbar object will be stashed in cd[0].t.cb
*
* @param {object|function} moduleOpts
* may be a function(gd, cd) to override the standard handling below. If
* an object, should have these keys:
* @param {Optional(string)} moduleOpts.container
* name of the container inside the trace where the colorbar and colorscale
* attributes live (ie 'marker', 'line') - omit if they're at the trace root.
* @param {string} moduleOpts.min
* name of the attribute holding the value of the minimum color
* @param {string} moduleOpts.max
* name of the attribute holding the value of the maximum color
* @param {Optional(string)} moduleOpts.vals
* name of the attribute holding the (numeric) color data
* used only if min/max fail. May be omitted if these are always
* pre-calculated.
*/
module.exports = function connectColorbar(gd, cd, moduleOpts) {
if(typeof moduleOpts === 'function') return moduleOpts(gd, cd);
var trace = cd[0].trace;
var cbId = 'cb' + trace.uid;
var containerName = moduleOpts.container;
var container = containerName ? trace[containerName] : trace;
gd._fullLayout._infolayer.selectAll('.' + cbId).remove();
if(!container || !container.showscale) return;
var cb = cd[0].t.cb = drawColorbar(gd, cbId);
cb.fillgradient(container.colorscale)
.zrange([container[moduleOpts.min], container[moduleOpts.max]])
.options(container.colorbar)();
};
},{"./draw":572}],570:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
cn: {
colorbar: 'colorbar',
cbbg: 'cbbg',
cbfill: 'cbfill',
cbfills: 'cbfills',
cbline: 'cbline',
cblines: 'cblines',
cbaxis: 'cbaxis',
cbtitleunshift: 'cbtitleunshift',
cbtitle: 'cbtitle',
cboutline: 'cboutline',
crisp: 'crisp',
jsPlaceholder: 'js-placeholder'
}
};
},{}],571:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Template = _dereq_('../../plot_api/plot_template');
var handleTickValueDefaults = _dereq_('../../plots/cartesian/tick_value_defaults');
var handleTickMarkDefaults = _dereq_('../../plots/cartesian/tick_mark_defaults');
var handleTickLabelDefaults = _dereq_('../../plots/cartesian/tick_label_defaults');
var attributes = _dereq_('./attributes');
module.exports = function colorbarDefaults(containerIn, containerOut, layout) {
var colorbarOut = Template.newContainer(containerOut, 'colorbar'),
colorbarIn = containerIn.colorbar || {};
function coerce(attr, dflt) {
return Lib.coerce(colorbarIn, colorbarOut, attributes, attr, dflt);
}
var thicknessmode = coerce('thicknessmode');
coerce('thickness', (thicknessmode === 'fraction') ?
30 / (layout.width - layout.margin.l - layout.margin.r) :
30
);
var lenmode = coerce('lenmode');
coerce('len', (lenmode === 'fraction') ?
1 :
layout.height - layout.margin.t - layout.margin.b
);
coerce('x');
coerce('xanchor');
coerce('xpad');
coerce('y');
coerce('yanchor');
coerce('ypad');
Lib.noneOrAll(colorbarIn, colorbarOut, ['x', 'y']);
coerce('outlinecolor');
coerce('outlinewidth');
coerce('bordercolor');
coerce('borderwidth');
coerce('bgcolor');
handleTickValueDefaults(colorbarIn, colorbarOut, coerce, 'linear');
var opts = {outerTicks: false, font: layout.font};
handleTickLabelDefaults(colorbarIn, colorbarOut, coerce, 'linear', opts);
handleTickMarkDefaults(colorbarIn, colorbarOut, coerce, 'linear', opts);
coerce('title', layout._dfltTitle.colorbar);
Lib.coerceFont(coerce, 'titlefont', layout.font);
coerce('titleside');
};
},{"../../lib":693,"../../plot_api/plot_template":732,"../../plots/cartesian/tick_label_defaults":761,"../../plots/cartesian/tick_mark_defaults":762,"../../plots/cartesian/tick_value_defaults":763,"./attributes":568}],572:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var tinycolor = _dereq_('tinycolor2');
var Plots = _dereq_('../../plots/plots');
var Registry = _dereq_('../../registry');
var Axes = _dereq_('../../plots/cartesian/axes');
var dragElement = _dereq_('../dragelement');
var Lib = _dereq_('../../lib');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var setCursor = _dereq_('../../lib/setcursor');
var Drawing = _dereq_('../drawing');
var Color = _dereq_('../color');
var Titles = _dereq_('../titles');
var svgTextUtils = _dereq_('../../lib/svg_text_utils');
var alignmentConstants = _dereq_('../../constants/alignment');
var LINE_SPACING = alignmentConstants.LINE_SPACING;
var FROM_TL = alignmentConstants.FROM_TL;
var FROM_BR = alignmentConstants.FROM_BR;
var handleAxisDefaults = _dereq_('../../plots/cartesian/axis_defaults');
var handleAxisPositionDefaults = _dereq_('../../plots/cartesian/position_defaults');
var axisLayoutAttrs = _dereq_('../../plots/cartesian/layout_attributes');
var attributes = _dereq_('./attributes');
var cn = _dereq_('./constants').cn;
module.exports = function draw(gd, id) {
// opts: options object, containing everything from attributes
// plus a few others that are the equivalent of the colorbar "data"
var opts = {};
for(var k in attributes) {
opts[k] = null;
}
// fillcolor can be a d3 scale, domain is z values, range is colors
// or leave it out for no fill,
// or set to a string constant for single-color fill
opts.fillcolor = null;
// line.color has the same options as fillcolor
opts.line = {color: null, width: null, dash: null};
// levels of lines to draw.
// note that this DOES NOT determine the extent of the bar
// that's given by the domain of fillcolor
// (or line.color if no fillcolor domain)
opts.levels = {start: null, end: null, size: null};
// separate fill levels (for example, heatmap coloring of a
// contour map) if this is omitted, fillcolors will be
// evaluated halfway between levels
opts.filllevels = null;
// for continuous colorscales: fill with a gradient instead of explicit levels
// value should be the colorscale [[0, c0], [v1, c1], ..., [1, cEnd]]
opts.fillgradient = null;
// when using a gradient, we need the data range specified separately
opts.zrange = null;
function component() {
var fullLayout = gd._fullLayout,
gs = fullLayout._size;
if((typeof opts.fillcolor !== 'function') &&
(typeof opts.line.color !== 'function') &&
!opts.fillgradient) {
fullLayout._infolayer.selectAll('g.' + id).remove();
return;
}
var zrange = opts.zrange || (d3.extent(((typeof opts.fillcolor === 'function') ?
opts.fillcolor : opts.line.color).domain()));
var linelevels = [];
var filllevels = [];
var linecolormap = typeof opts.line.color === 'function' ?
opts.line.color : function() { return opts.line.color; };
var fillcolormap = typeof opts.fillcolor === 'function' ?
opts.fillcolor : function() { return opts.fillcolor; };
var l;
var i;
var l0 = opts.levels.end + opts.levels.size / 100,
ls = opts.levels.size,
zr0 = (1.001 * zrange[0] - 0.001 * zrange[1]),
zr1 = (1.001 * zrange[1] - 0.001 * zrange[0]);
for(i = 0; i < 1e5; i++) {
l = opts.levels.start + i * ls;
if(ls > 0 ? (l >= l0) : (l <= l0)) break;
if(l > zr0 && l < zr1) linelevels.push(l);
}
if(opts.fillgradient) {
filllevels = [0];
}
else if(typeof opts.fillcolor === 'function') {
if(opts.filllevels) {
l0 = opts.filllevels.end + opts.filllevels.size / 100;
ls = opts.filllevels.size;
for(i = 0; i < 1e5; i++) {
l = opts.filllevels.start + i * ls;
if(ls > 0 ? (l >= l0) : (l <= l0)) break;
if(l > zrange[0] && l < zrange[1]) filllevels.push(l);
}
}
else {
filllevels = linelevels.map(function(v) {
return v - opts.levels.size / 2;
});
filllevels.push(filllevels[filllevels.length - 1] +
opts.levels.size);
}
}
else if(opts.fillcolor && typeof opts.fillcolor === 'string') {
// doesn't matter what this value is, with a single value
// we'll make a single fill rect covering the whole bar
filllevels = [0];
}
if(opts.levels.size < 0) {
linelevels.reverse();
filllevels.reverse();
}
// now make a Plotly Axes object to scale with and draw ticks
// TODO: does not support orientation other than right
// we calculate pixel sizes based on the specified graph size,
// not the actual (in case something pushed the margins around)
// which is a little odd but avoids an odd iterative effect
// when the colorbar itself is pushing the margins.
// but then the fractional size is calculated based on the
// actual graph size, so that the axes will size correctly.
var plotHeight = gs.h,
plotWidth = gs.w,
thickPx = Math.round(opts.thickness *
(opts.thicknessmode === 'fraction' ? plotWidth : 1)),
thickFrac = thickPx / gs.w,
lenPx = Math.round(opts.len *
(opts.lenmode === 'fraction' ? plotHeight : 1)),
lenFrac = lenPx / gs.h,
xpadFrac = opts.xpad / gs.w,
yExtraPx = (opts.borderwidth + opts.outlinewidth) / 2,
ypadFrac = opts.ypad / gs.h,
// x positioning: do it initially just for left anchor,
// then fix at the end (since we don't know the width yet)
xLeft = Math.round(opts.x * gs.w + opts.xpad),
// for dragging... this is getting a little muddled...
xLeftFrac = opts.x - thickFrac *
({middle: 0.5, right: 1}[opts.xanchor]||0),
// y positioning we can do correctly from the start
yBottomFrac = opts.y + lenFrac *
(({top: -0.5, bottom: 0.5}[opts.yanchor] || 0) - 0.5),
yBottomPx = Math.round(gs.h * (1 - yBottomFrac)),
yTopPx = yBottomPx - lenPx,
titleEl,
cbAxisIn = {
type: 'linear',
range: zrange,
tickmode: opts.tickmode,
nticks: opts.nticks,
tick0: opts.tick0,
dtick: opts.dtick,
tickvals: opts.tickvals,
ticktext: opts.ticktext,
ticks: opts.ticks,
ticklen: opts.ticklen,
tickwidth: opts.tickwidth,
tickcolor: opts.tickcolor,
showticklabels: opts.showticklabels,
tickfont: opts.tickfont,
tickangle: opts.tickangle,
tickformat: opts.tickformat,
exponentformat: opts.exponentformat,
separatethousands: opts.separatethousands,
showexponent: opts.showexponent,
showtickprefix: opts.showtickprefix,
tickprefix: opts.tickprefix,
showticksuffix: opts.showticksuffix,
ticksuffix: opts.ticksuffix,
title: opts.title,
titlefont: opts.titlefont,
showline: true,
anchor: 'free',
position: 1
},
cbAxisOut = {
type: 'linear',
_id: 'y' + id
},
axisOptions = {
letter: 'y',
font: fullLayout.font,
noHover: true,
calendar: fullLayout.calendar // not really necessary (yet?)
};
// Coerce w.r.t. Axes layoutAttributes:
// re-use axes.js logic without updating _fullData
function coerce(attr, dflt) {
return Lib.coerce(cbAxisIn, cbAxisOut, axisLayoutAttrs, attr, dflt);
}
// Prepare the Plotly axis object
handleAxisDefaults(cbAxisIn, cbAxisOut, coerce, axisOptions, fullLayout);
handleAxisPositionDefaults(cbAxisIn, cbAxisOut, coerce, axisOptions);
// position can't go in through supplyDefaults
// because that restricts it to [0,1]
cbAxisOut.position = opts.x + xpadFrac + thickFrac;
// save for other callers to access this axis
component.axis = cbAxisOut;
if(['top', 'bottom'].indexOf(opts.titleside) !== -1) {
cbAxisOut.titleside = opts.titleside;
cbAxisOut.titlex = opts.x + xpadFrac;
cbAxisOut.titley = yBottomFrac +
(opts.titleside === 'top' ? lenFrac - ypadFrac : ypadFrac);
}
if(opts.line.color && opts.tickmode === 'auto') {
cbAxisOut.tickmode = 'linear';
cbAxisOut.tick0 = opts.levels.start;
var dtick = opts.levels.size;
// expand if too many contours, so we don't get too many ticks
var autoNtick = Lib.constrain(
(yBottomPx - yTopPx) / 50, 4, 15) + 1,
dtFactor = (zrange[1] - zrange[0]) /
((opts.nticks || autoNtick) * dtick);
if(dtFactor > 1) {
var dtexp = Math.pow(10, Math.floor(
Math.log(dtFactor) / Math.LN10));
dtick *= dtexp * Lib.roundUp(dtFactor / dtexp, [2, 5, 10]);
// if the contours are at round multiples, reset tick0
// so they're still at round multiples. Otherwise,
// keep the first label on the first contour level
if((Math.abs(opts.levels.start) /
opts.levels.size + 1e-6) % 1 < 2e-6) {
cbAxisOut.tick0 = 0;
}
}
cbAxisOut.dtick = dtick;
}
// set domain after init, because we may want to
// allow it outside [0,1]
cbAxisOut.domain = [
yBottomFrac + ypadFrac,
yBottomFrac + lenFrac - ypadFrac
];
cbAxisOut.setScale();
// now draw the elements
var container = Lib.ensureSingle(fullLayout._infolayer, 'g', id, function(s) {
s.classed(cn.colorbar, true)
.each(function() {
var s = d3.select(this);
s.append('rect').classed(cn.cbbg, true);
s.append('g').classed(cn.cbfills, true);
s.append('g').classed(cn.cblines, true);
s.append('g').classed(cn.cbaxis, true).classed(cn.crisp, true);
s.append('g').classed(cn.cbtitleunshift, true)
.append('g').classed(cn.cbtitle, true);
s.append('rect').classed(cn.cboutline, true);
s.select('.cbtitle').datum(0);
});
});
container.attr('transform', 'translate(' + Math.round(gs.l) +
',' + Math.round(gs.t) + ')');
// TODO: this opposite transform is a hack until we make it
// more rational which items get this offset
var titleCont = container.select('.cbtitleunshift')
.attr('transform', 'translate(-' +
Math.round(gs.l) + ',-' +
Math.round(gs.t) + ')');
cbAxisOut._axislayer = container.select('.cbaxis');
var titleHeight = 0;
if(['top', 'bottom'].indexOf(opts.titleside) !== -1) {
// draw the title so we know how much room it needs
// when we squish the axis. This one only applies to
// top or bottom titles, not right side.
var x = gs.l + (opts.x + xpadFrac) * gs.w,
fontSize = cbAxisOut.titlefont.size,
y;
if(opts.titleside === 'top') {
y = (1 - (yBottomFrac + lenFrac - ypadFrac)) * gs.h +
gs.t + 3 + fontSize * 0.75;
}
else {
y = (1 - (yBottomFrac + ypadFrac)) * gs.h +
gs.t - 3 - fontSize * 0.25;
}
drawTitle(cbAxisOut._id + 'title', {
attributes: {x: x, y: y, 'text-anchor': 'start'}
});
}
function drawAxis() {
if(['top', 'bottom'].indexOf(opts.titleside) !== -1) {
// squish the axis top to make room for the title
var titleGroup = container.select('.cbtitle'),
titleText = titleGroup.select('text'),
titleTrans =
[-opts.outlinewidth / 2, opts.outlinewidth / 2],
mathJaxNode = titleGroup
.select('.h' + cbAxisOut._id + 'title-math-group')
.node(),
lineSize = 15.6;
if(titleText.node()) {
lineSize =
parseInt(titleText.node().style.fontSize, 10) * LINE_SPACING;
}
if(mathJaxNode) {
titleHeight = Drawing.bBox(mathJaxNode).height;
if(titleHeight > lineSize) {
// not entirely sure how mathjax is doing
// vertical alignment, but this seems to work.
titleTrans[1] -= (titleHeight - lineSize) / 2;
}
}
else if(titleText.node() &&
!titleText.classed(cn.jsPlaceholder)) {
titleHeight = Drawing.bBox(titleText.node()).height;
}
if(titleHeight) {
// buffer btwn colorbar and title
// TODO: configurable
titleHeight += 5;
if(opts.titleside === 'top') {
cbAxisOut.domain[1] -= titleHeight / gs.h;
titleTrans[1] *= -1;
}
else {
cbAxisOut.domain[0] += titleHeight / gs.h;
var nlines = svgTextUtils.lineCount(titleText);
titleTrans[1] += (1 - nlines) * lineSize;
}
titleGroup.attr('transform',
'translate(' + titleTrans + ')');
cbAxisOut.setScale();
}
}
container.selectAll('.cbfills,.cblines')
.attr('transform', 'translate(0,' +
Math.round(gs.h * (1 - cbAxisOut.domain[1])) + ')');
cbAxisOut._axislayer.attr('transform', 'translate(0,' +
Math.round(-gs.t) + ')');
var fills = container.select('.cbfills')
.selectAll('rect.cbfill')
.data(filllevels);
fills.enter().append('rect')
.classed(cn.cbfill, true)
.style('stroke', 'none');
fills.exit().remove();
var zBounds = zrange
.map(cbAxisOut.c2p)
.map(Math.round)
.sort(function(a, b) { return a - b; });
fills.each(function(d, i) {
var z = [
(i === 0) ? zrange[0] :
(filllevels[i] + filllevels[i - 1]) / 2,
(i === filllevels.length - 1) ? zrange[1] :
(filllevels[i] + filllevels[i + 1]) / 2
]
.map(cbAxisOut.c2p)
.map(Math.round);
// offset the side adjoining the next rectangle so they
// overlap, to prevent antialiasing gaps
z[1] = Lib.constrain(z[1] + (z[1] > z[0]) ? 1 : -1, zBounds[0], zBounds[1]);
// Colorbar cannot currently support opacities so we
// use an opaque fill even when alpha channels present
var fillEl = d3.select(this).attr({
x: xLeft,
width: Math.max(thickPx, 2),
y: d3.min(z),
height: Math.max(d3.max(z) - d3.min(z), 2),
});
if(opts.fillgradient) {
Drawing.gradient(fillEl, gd, id, 'vertical',
opts.fillgradient, 'fill');
}
else {
// Tinycolor can't handle exponents and
// at this scale, removing it makes no difference.
var colorString = fillcolormap(d).replace('e-', '');
fillEl.attr('fill', tinycolor(colorString).toHexString());
}
});
var lines = container.select('.cblines')
.selectAll('path.cbline')
.data(opts.line.color && opts.line.width ?
linelevels : []);
lines.enter().append('path')
.classed(cn.cbline, true);
lines.exit().remove();
lines.each(function(d) {
d3.select(this)
.attr('d', 'M' + xLeft + ',' +
(Math.round(cbAxisOut.c2p(d)) + (opts.line.width / 2) % 1) +
'h' + thickPx)
.call(Drawing.lineGroupStyle,
opts.line.width, linecolormap(d), opts.line.dash);
});
// force full redraw of labels and ticks
cbAxisOut._axislayer.selectAll('g.' + cbAxisOut._id + 'tick,path')
.remove();
cbAxisOut._pos = xLeft + thickPx +
(opts.outlinewidth||0) / 2 - (opts.ticks === 'outside' ? 1 : 0);
cbAxisOut.side = 'right';
// separate out axis and title drawing,
// so we don't need such complicated logic in Titles.draw
// if title is on the top or bottom, we've already drawn it
// this title call only handles side=right
return Lib.syncOrAsync([
function() {
return Axes.doTicksSingle(gd, cbAxisOut, true);
},
function() {
if(['top', 'bottom'].indexOf(opts.titleside) === -1) {
var fontSize = cbAxisOut.titlefont.size,
y = cbAxisOut._offset + cbAxisOut._length / 2,
x = gs.l + (cbAxisOut.position || 0) * gs.w + ((cbAxisOut.side === 'right') ?
10 + fontSize * ((cbAxisOut.showticklabels ? 1 : 0.5)) :
-10 - fontSize * ((cbAxisOut.showticklabels ? 0.5 : 0)));
// the 'h' + is a hack to get around the fact that
// convertToTspans rotates any 'y...' class by 90 degrees.
// TODO: find a better way to control this.
drawTitle('h' + cbAxisOut._id + 'title', {
avoid: {
selection: d3.select(gd).selectAll('g.' + cbAxisOut._id + 'tick'),
side: opts.titleside,
offsetLeft: gs.l,
offsetTop: 0,
maxShift: fullLayout.width
},
attributes: {x: x, y: y, 'text-anchor': 'middle'},
transform: {rotate: '-90', offset: 0}
});
}
}]);
}
function drawTitle(titleClass, titleOpts) {
var trace = getTrace();
var propName = 'colorbar.title';
var containerName = trace._module.colorbar.container;
if(containerName) propName = containerName + '.' + propName;
var dfltTitleOpts = {
propContainer: cbAxisOut,
propName: propName,
traceIndex: trace.index,
placeholder: fullLayout._dfltTitle.colorbar,
containerGroup: container.select('.cbtitle')
};
// this class-to-rotate thing with convertToTspans is
// getting hackier and hackier... delete groups with the
// wrong class (in case earlier the colorbar was drawn on
// a different side, I think?)
var otherClass = titleClass.charAt(0) === 'h' ?
titleClass.substr(1) : ('h' + titleClass);
container.selectAll('.' + otherClass + ',.' + otherClass + '-math-group')
.remove();
Titles.draw(gd, titleClass,
extendFlat(dfltTitleOpts, titleOpts || {}));
}
function positionCB() {
// wait for the axis & title to finish rendering before
// continuing positioning
// TODO: why are we redrawing multiple times now with this?
// I guess autoMargin doesn't like being post-promise?
var innerWidth = thickPx + opts.outlinewidth / 2 +
Drawing.bBox(cbAxisOut._axislayer.node()).width;
titleEl = titleCont.select('text');
if(titleEl.node() && !titleEl.classed(cn.jsPlaceholder)) {
var mathJaxNode = titleCont
.select('.h' + cbAxisOut._id + 'title-math-group')
.node(),
titleWidth;
if(mathJaxNode &&
['top', 'bottom'].indexOf(opts.titleside) !== -1) {
titleWidth = Drawing.bBox(mathJaxNode).width;
}
else {
// note: the formula below works for all titlesides,
// (except for top/bottom mathjax, above)
// but the weird gs.l is because the titleunshift
// transform gets removed by Drawing.bBox
titleWidth =
Drawing.bBox(titleCont.node()).right -
xLeft - gs.l;
}
innerWidth = Math.max(innerWidth, titleWidth);
}
var outerwidth = 2 * opts.xpad + innerWidth +
opts.borderwidth + opts.outlinewidth / 2,
outerheight = yBottomPx - yTopPx;
container.select('.cbbg').attr({
x: xLeft - opts.xpad -
(opts.borderwidth + opts.outlinewidth) / 2,
y: yTopPx - yExtraPx,
width: Math.max(outerwidth, 2),
height: Math.max(outerheight + 2 * yExtraPx, 2)
})
.call(Color.fill, opts.bgcolor)
.call(Color.stroke, opts.bordercolor)
.style({'stroke-width': opts.borderwidth});
container.selectAll('.cboutline').attr({
x: xLeft,
y: yTopPx + opts.ypad +
(opts.titleside === 'top' ? titleHeight : 0),
width: Math.max(thickPx, 2),
height: Math.max(outerheight - 2 * opts.ypad - titleHeight, 2)
})
.call(Color.stroke, opts.outlinecolor)
.style({
fill: 'None',
'stroke-width': opts.outlinewidth
});
// fix positioning for xanchor!='left'
var xoffset = ({center: 0.5, right: 1}[opts.xanchor] || 0) *
outerwidth;
container.attr('transform',
'translate(' + (gs.l - xoffset) + ',' + gs.t + ')');
// auto margin adjustment
var marginOpts = {};
var tFrac = FROM_TL[opts.yanchor];
var bFrac = FROM_BR[opts.yanchor];
if(opts.lenmode === 'pixels') {
marginOpts.y = opts.y;
marginOpts.t = outerheight * tFrac;
marginOpts.b = outerheight * bFrac;
}
else {
marginOpts.t = marginOpts.b = 0;
marginOpts.yt = opts.y + opts.len * tFrac;
marginOpts.yb = opts.y - opts.len * bFrac;
}
var lFrac = FROM_TL[opts.xanchor];
var rFrac = FROM_BR[opts.xanchor];
if(opts.thicknessmode === 'pixels') {
marginOpts.x = opts.x;
marginOpts.l = outerwidth * lFrac;
marginOpts.r = outerwidth * rFrac;
}
else {
var extraThickness = outerwidth - thickPx;
marginOpts.l = extraThickness * lFrac;
marginOpts.r = extraThickness * rFrac;
marginOpts.xl = opts.x - opts.thickness * lFrac;
marginOpts.xr = opts.x + opts.thickness * rFrac;
}
Plots.autoMargin(gd, id, marginOpts);
}
var cbDone = Lib.syncOrAsync([
Plots.previousPromises,
drawAxis,
Plots.previousPromises,
positionCB
], gd);
if(cbDone && cbDone.then) (gd._promises || []).push(cbDone);
// dragging...
if(gd._context.edits.colorbarPosition) {
var t0,
xf,
yf;
dragElement.init({
element: container.node(),
gd: gd,
prepFn: function() {
t0 = container.attr('transform');
setCursor(container);
},
moveFn: function(dx, dy) {
container.attr('transform',
t0 + ' ' + 'translate(' + dx + ',' + dy + ')');
xf = dragElement.align(xLeftFrac + (dx / gs.w), thickFrac,
0, 1, opts.xanchor);
yf = dragElement.align(yBottomFrac - (dy / gs.h), lenFrac,
0, 1, opts.yanchor);
var csr = dragElement.getCursor(xf, yf,
opts.xanchor, opts.yanchor);
setCursor(container, csr);
},
doneFn: function() {
setCursor(container);
if(xf !== undefined && yf !== undefined) {
Registry.call('restyle',
gd,
{'colorbar.x': xf, 'colorbar.y': yf},
getTrace().index
);
}
}
});
}
return cbDone;
}
function getTrace() {
var idNum = id.substr(2),
i,
trace;
for(i = 0; i < gd._fullData.length; i++) {
trace = gd._fullData[i];
if(trace.uid === idNum) return trace;
}
}
// setter/getters for every item defined in opts
Object.keys(opts).forEach(function(name) {
component[name] = function(v) {
// getter
if(!arguments.length) return opts[name];
// setter - for multi-part properties,
// set only the parts that are provided
opts[name] = Lib.isPlainObject(opts[name]) ?
Lib.extendFlat(opts[name], v) :
v;
return component;
};
});
// or use .options to set multiple options at once via a dictionary
component.options = function(o) {
for(var name in o) {
// in case something random comes through
// that's not an option, ignore it
if(typeof component[name] === 'function') {
component[name](o[name]);
}
}
return component;
};
component._opts = opts;
return component;
};
},{"../../constants/alignment":665,"../../lib":693,"../../lib/extend":682,"../../lib/setcursor":714,"../../lib/svg_text_utils":718,"../../plots/cartesian/axes":742,"../../plots/cartesian/axis_defaults":744,"../../plots/cartesian/layout_attributes":754,"../../plots/cartesian/position_defaults":757,"../../plots/plots":805,"../../registry":825,"../color":567,"../dragelement":589,"../drawing":592,"../titles":658,"./attributes":568,"./constants":570,"d3":147,"tinycolor2":511}],573:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
module.exports = function hasColorbar(container) {
return Lib.isPlainObject(container.colorbar);
};
},{"../../lib":693}],574:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var palettes = _dereq_('./scales.js');
var paletteStr = Object.keys(palettes);
function code(s) {
return '`' + s + '`';
}
/**
* Make colorscale attribute declarations for
*
* - colorscale,
* - (c|z)auto, (c|z)min, (c|z)max,
* - autocolorscale, reversescale,
* - showscale (optionally)
* - color (optionally)
*
* @param {string} context (dflt: '', i.e. from trace root):
* the container this is in ('', *marker*, *marker.line* etc)
*
* @param {object} opts:
* - cLetter {string} (dflt: 'c'):
* leading letter for 'min', 'max and 'auto' attribute (either 'z' or 'c')
*
* - colorAttr {string} (dflt: 'z' if `cLetter: 'z'`, 'color' if `cLetter: 'c'`):
* (for descriptions) sets the name of the color attribute that maps to the colorscale.
*
* N.B. if `colorAttr: 'color'`, we include the `color` declaration here.
*
* - onlyIfNumerical {string} (dflt: false' if `cLetter: 'z'`, true if `cLetter: 'c'`):
* (for descriptions) set to true if colorscale attribute only
*
* - colorscaleDflt {string}:
* overrides the colorscale dflt
*
* - autoColorDflt {boolean} (dflt true):
* normally autocolorscale.dflt is `true`, but pass `false` to override
*
* - noScale {boolean} (dflt: true if `context: 'marker.line'`, false otherwise):
* set to `false` to not include showscale attribute (e.g. for 'marker.line')
*
* - showScaleDflt {boolean} (dflt: true if `cLetter: 'z'`, false otherwise)
*
* - editTypeOverride {boolean} (dflt: ''):
* most of these attributes already require a recalc, but the ones that do not
* have editType *style* or *plot* unless you override (presumably with *calc*)
*
* @return {object}
*/
module.exports = function colorScaleAttrs(context, opts) {
context = context || '';
opts = opts || {};
var cLetter = opts.cLetter || 'c';
var onlyIfNumerical = ('onlyIfNumerical' in opts) ? opts.onlyIfNumerical : Boolean(context);
var noScale = ('noScale' in opts) ? opts.noScale : context === 'marker.line';
var showScaleDflt = ('showScaleDflt' in opts) ? opts.showScaleDflt : cLetter === 'z';
var colorscaleDflt = typeof opts.colorscaleDflt === 'string' ? palettes[opts.colorscaleDflt] : null;
var editTypeOverride = opts.editTypeOverride || '';
var contextHead = context ? (context + '.') : '';
var colorAttr, colorAttrFull;
if('colorAttr' in opts) {
colorAttr = opts.colorAttr;
colorAttrFull = opts.colorAttr;
} else {
colorAttr = {z: 'z', c: 'color'}[cLetter];
colorAttrFull = 'in ' + code(contextHead + colorAttr);
}
var effectDesc = onlyIfNumerical ?
' Has an effect only if ' + colorAttrFull + 'is set to a numerical array.' :
'';
var auto = cLetter + 'auto';
var min = cLetter + 'min';
var max = cLetter + 'max';
var minFull = code(contextHead + min);
var maxFull = code(contextHead + max);
var minmaxFull = minFull + ' and ' + maxFull;
var autoImpliedEdits = {};
autoImpliedEdits[min] = autoImpliedEdits[max] = undefined;
var minmaxImpliedEdits = {};
minmaxImpliedEdits[auto] = false;
var attrs = {};
if(colorAttr === 'color') {
attrs.color = {
valType: 'color',
arrayOk: true,
editType: editTypeOverride || 'style',
};
}
attrs[auto] = {
valType: 'boolean',
dflt: true,
editType: 'calc',
impliedEdits: autoImpliedEdits,
};
attrs[min] = {
valType: 'number',
dflt: null,
editType: editTypeOverride || 'plot',
impliedEdits: minmaxImpliedEdits,
};
attrs[max] = {
valType: 'number',
dflt: null,
editType: editTypeOverride || 'plot',
impliedEdits: minmaxImpliedEdits,
};
attrs.colorscale = {
valType: 'colorscale',
editType: 'calc',
dflt: colorscaleDflt,
impliedEdits: {autocolorscale: false},
};
attrs.autocolorscale = {
valType: 'boolean',
// gets overrode in 'heatmap' & 'surface' for backwards comp.
dflt: opts.autoColorDflt === false ? false : true,
editType: 'calc',
impliedEdits: {colorscale: undefined},
};
attrs.reversescale = {
valType: 'boolean',
dflt: false,
editType: 'calc',
};
if(!noScale) {
attrs.showscale = {
valType: 'boolean',
dflt: showScaleDflt,
editType: 'calc',
};
}
return attrs;
};
},{"./scales.js":586}],575:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var scales = _dereq_('./scales');
var flipScale = _dereq_('./flip_scale');
module.exports = function calc(trace, vals, containerStr, cLetter) {
var container = trace;
var inputContainer = trace._input;
var fullInputContainer = trace._fullInput;
// set by traces with groupby transforms
var updateStyle = trace.updateStyle;
function doUpdate(attr, inputVal, fullVal) {
if(fullVal === undefined) fullVal = inputVal;
if(updateStyle) {
updateStyle(trace._input, containerStr ? (containerStr + '.' + attr) : attr, inputVal);
}
else {
inputContainer[attr] = inputVal;
}
container[attr] = fullVal;
if(fullInputContainer && (trace !== trace._fullInput)) {
if(updateStyle) {
updateStyle(trace._fullInput, containerStr ? (containerStr + '.' + attr) : attr, fullVal);
}
else {
fullInputContainer[attr] = fullVal;
}
}
}
if(containerStr) {
container = Lib.nestedProperty(container, containerStr).get();
inputContainer = Lib.nestedProperty(inputContainer, containerStr).get();
fullInputContainer = Lib.nestedProperty(fullInputContainer, containerStr).get() || {};
}
var autoAttr = cLetter + 'auto';
var minAttr = cLetter + 'min';
var maxAttr = cLetter + 'max';
var auto = container[autoAttr];
var min = container[minAttr];
var max = container[maxAttr];
var scl = container.colorscale;
if(auto !== false || min === undefined) {
min = Lib.aggNums(Math.min, null, vals);
}
if(auto !== false || max === undefined) {
max = Lib.aggNums(Math.max, null, vals);
}
if(min === max) {
min -= 0.5;
max += 0.5;
}
doUpdate(minAttr, min);
doUpdate(maxAttr, max);
/*
* If auto was explicitly false but min or max was missing,
* we filled in the missing piece here but later the trace does
* not look auto.
* Otherwise make sure the trace still looks auto as far as later
* changes are concerned.
*/
doUpdate(autoAttr, (auto !== false || (min === undefined && max === undefined)));
if(container.autocolorscale) {
if(min * max < 0) scl = scales.RdBu;
else if(min >= 0) scl = scales.Reds;
else scl = scales.Blues;
// reversescale is handled at the containerOut level
doUpdate('colorscale', scl, container.reversescale ? flipScale(scl) : scl);
// We pushed a colorscale back to input, which will change the default autocolorscale next time
// to avoid spurious redraws from Plotly.react, update resulting autocolorscale now
// This is a conscious decision so that changing the data later does not unexpectedly
// give you a new colorscale
if(!inputContainer.autocolorscale) {
doUpdate('autocolorscale', false);
}
}
};
},{"../../lib":693,"./flip_scale":579,"./scales":586}],576:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var scales = _dereq_('./scales');
module.exports = scales.RdBu;
},{"./scales":586}],577:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var Lib = _dereq_('../../lib');
var hasColorbar = _dereq_('../colorbar/has_colorbar');
var colorbarDefaults = _dereq_('../colorbar/defaults');
var isValidScale = _dereq_('./is_valid_scale');
var flipScale = _dereq_('./flip_scale');
module.exports = function colorScaleDefaults(traceIn, traceOut, layout, coerce, opts) {
var prefix = opts.prefix,
cLetter = opts.cLetter,
containerStr = prefix.slice(0, prefix.length - 1),
containerIn = prefix ?
Lib.nestedProperty(traceIn, containerStr).get() || {} :
traceIn,
containerOut = prefix ?
Lib.nestedProperty(traceOut, containerStr).get() || {} :
traceOut,
minIn = containerIn[cLetter + 'min'],
maxIn = containerIn[cLetter + 'max'],
sclIn = containerIn.colorscale;
var validMinMax = isNumeric(minIn) && isNumeric(maxIn) && (minIn < maxIn);
coerce(prefix + cLetter + 'auto', !validMinMax);
coerce(prefix + cLetter + 'min');
coerce(prefix + cLetter + 'max');
// handles both the trace case (autocolorscale is false by default) and
// the marker and marker.line case (autocolorscale is true by default)
var autoColorscaleDflt;
if(sclIn !== undefined) autoColorscaleDflt = !isValidScale(sclIn);
coerce(prefix + 'autocolorscale', autoColorscaleDflt);
var sclOut = coerce(prefix + 'colorscale');
// reversescale is handled at the containerOut level
var reverseScale = coerce(prefix + 'reversescale');
if(reverseScale) containerOut.colorscale = flipScale(sclOut);
// ... until Scatter.colorbar can handle marker line colorbars
if(prefix === 'marker.line.') return;
if(!opts.noScale) {
// handles both the trace case where the dflt is listed in attributes and
// the marker case where the dflt is determined by hasColorbar
var showScaleDflt;
if(prefix) showScaleDflt = hasColorbar(containerIn);
var showScale = coerce(prefix + 'showscale', showScaleDflt);
if(showScale) colorbarDefaults(containerIn, containerOut, layout);
}
};
},{"../../lib":693,"../colorbar/defaults":571,"../colorbar/has_colorbar":573,"./flip_scale":579,"./is_valid_scale":583,"fast-isnumeric":213}],578:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/**
* Extract colorscale into numeric domain and color range.
*
* @param {array} scl colorscale array of arrays
* @param {number} cmin minimum color value (used to clamp scale)
* @param {number} cmax maximum color value (used to clamp scale)
*/
module.exports = function extractScale(scl, cmin, cmax) {
var N = scl.length,
domain = new Array(N),
range = new Array(N);
for(var i = 0; i < N; i++) {
var si = scl[i];
domain[i] = cmin + si[0] * (cmax - cmin);
range[i] = si[1];
}
return {
domain: domain,
range: range
};
};
},{}],579:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function flipScale(scl) {
var N = scl.length,
sclNew = new Array(N),
si;
for(var i = N - 1, j = 0; i >= 0; i--, j++) {
si = scl[i];
sclNew[j] = [1 - si[0], si[1]];
}
return sclNew;
};
},{}],580:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var scales = _dereq_('./scales');
var defaultScale = _dereq_('./default_scale');
var isValidScaleArray = _dereq_('./is_valid_scale_array');
module.exports = function getScale(scl, dflt) {
if(!dflt) dflt = defaultScale;
if(!scl) return dflt;
function parseScale() {
try {
scl = scales[scl] || JSON.parse(scl);
}
catch(e) {
scl = dflt;
}
}
if(typeof scl === 'string') {
parseScale();
// occasionally scl is double-JSON encoded...
if(typeof scl === 'string') parseScale();
}
if(!isValidScaleArray(scl)) return dflt;
return scl;
};
},{"./default_scale":576,"./is_valid_scale_array":584,"./scales":586}],581:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var Lib = _dereq_('../../lib');
var isValidScale = _dereq_('./is_valid_scale');
module.exports = function hasColorscale(trace, containerStr) {
var container = containerStr ?
Lib.nestedProperty(trace, containerStr).get() || {} :
trace;
var color = container.color;
var isArrayWithOneNumber = false;
if(Lib.isArrayOrTypedArray(color)) {
for(var i = 0; i < color.length; i++) {
if(isNumeric(color[i])) {
isArrayWithOneNumber = true;
break;
}
}
}
return (
Lib.isPlainObject(container) && (
isArrayWithOneNumber ||
container.showscale === true ||
(isNumeric(container.cmin) && isNumeric(container.cmax)) ||
isValidScale(container.colorscale) ||
Lib.isPlainObject(container.colorbar)
)
);
};
},{"../../lib":693,"./is_valid_scale":583,"fast-isnumeric":213}],582:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
exports.scales = _dereq_('./scales');
exports.defaultScale = _dereq_('./default_scale');
exports.attributes = _dereq_('./attributes');
exports.handleDefaults = _dereq_('./defaults');
exports.calc = _dereq_('./calc');
exports.hasColorscale = _dereq_('./has_colorscale');
exports.isValidScale = _dereq_('./is_valid_scale');
exports.getScale = _dereq_('./get_scale');
exports.flipScale = _dereq_('./flip_scale');
exports.extractScale = _dereq_('./extract_scale');
exports.makeColorScaleFunc = _dereq_('./make_color_scale_func');
},{"./attributes":574,"./calc":575,"./default_scale":576,"./defaults":577,"./extract_scale":578,"./flip_scale":579,"./get_scale":580,"./has_colorscale":581,"./is_valid_scale":583,"./make_color_scale_func":585,"./scales":586}],583:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var scales = _dereq_('./scales');
var isValidScaleArray = _dereq_('./is_valid_scale_array');
module.exports = function isValidScale(scl) {
if(scales[scl] !== undefined) return true;
else return isValidScaleArray(scl);
};
},{"./is_valid_scale_array":584,"./scales":586}],584:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var tinycolor = _dereq_('tinycolor2');
module.exports = function isValidScaleArray(scl) {
var highestVal = 0;
if(!Array.isArray(scl) || scl.length < 2) return false;
if(!scl[0] || !scl[scl.length - 1]) return false;
if(+scl[0][0] !== 0 || +scl[scl.length - 1][0] !== 1) return false;
for(var i = 0; i < scl.length; i++) {
var si = scl[i];
if(si.length !== 2 || +si[0] < highestVal || !tinycolor(si[1]).isValid()) {
return false;
}
highestVal = +si[0];
}
return true;
};
},{"tinycolor2":511}],585:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var tinycolor = _dereq_('tinycolor2');
var isNumeric = _dereq_('fast-isnumeric');
var Color = _dereq_('../color');
/**
* General colorscale function generator.
*
* @param {object} specs output of Colorscale.extractScale or precomputed domain, range.
* - domain {array}
* - range {array}
*
* @param {object} opts
* - noNumericCheck {boolean} if true, scale func bypasses numeric checks
* - returnArray {boolean} if true, scale func return 4-item array instead of color strings
*
* @return {function}
*/
module.exports = function makeColorScaleFunc(specs, opts) {
opts = opts || {};
var domain = specs.domain,
range = specs.range,
N = range.length,
_range = new Array(N);
for(var i = 0; i < N; i++) {
var rgba = tinycolor(range[i]).toRgb();
_range[i] = [rgba.r, rgba.g, rgba.b, rgba.a];
}
var _sclFunc = d3.scale.linear()
.domain(domain)
.range(_range)
.clamp(true);
var noNumericCheck = opts.noNumericCheck,
returnArray = opts.returnArray,
sclFunc;
if(noNumericCheck && returnArray) {
sclFunc = _sclFunc;
}
else if(noNumericCheck) {
sclFunc = function(v) {
return colorArray2rbga(_sclFunc(v));
};
}
else if(returnArray) {
sclFunc = function(v) {
if(isNumeric(v)) return _sclFunc(v);
else if(tinycolor(v).isValid()) return v;
else return Color.defaultLine;
};
}
else {
sclFunc = function(v) {
if(isNumeric(v)) return colorArray2rbga(_sclFunc(v));
else if(tinycolor(v).isValid()) return v;
else return Color.defaultLine;
};
}
// colorbar draw looks into the d3 scale closure for domain and range
sclFunc.domain = _sclFunc.domain;
sclFunc.range = function() { return range; };
return sclFunc;
};
function colorArray2rbga(colorArray) {
var colorObj = {
r: colorArray[0],
g: colorArray[1],
b: colorArray[2],
a: colorArray[3]
};
return tinycolor(colorObj).toRgbString();
}
},{"../color":567,"d3":147,"fast-isnumeric":213,"tinycolor2":511}],586:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
'Greys': [
[0, 'rgb(0,0,0)'], [1, 'rgb(255,255,255)']
],
'YlGnBu': [
[0, 'rgb(8,29,88)'], [0.125, 'rgb(37,52,148)'],
[0.25, 'rgb(34,94,168)'], [0.375, 'rgb(29,145,192)'],
[0.5, 'rgb(65,182,196)'], [0.625, 'rgb(127,205,187)'],
[0.75, 'rgb(199,233,180)'], [0.875, 'rgb(237,248,217)'],
[1, 'rgb(255,255,217)']
],
'Greens': [
[0, 'rgb(0,68,27)'], [0.125, 'rgb(0,109,44)'],
[0.25, 'rgb(35,139,69)'], [0.375, 'rgb(65,171,93)'],
[0.5, 'rgb(116,196,118)'], [0.625, 'rgb(161,217,155)'],
[0.75, 'rgb(199,233,192)'], [0.875, 'rgb(229,245,224)'],
[1, 'rgb(247,252,245)']
],
'YlOrRd': [
[0, 'rgb(128,0,38)'], [0.125, 'rgb(189,0,38)'],
[0.25, 'rgb(227,26,28)'], [0.375, 'rgb(252,78,42)'],
[0.5, 'rgb(253,141,60)'], [0.625, 'rgb(254,178,76)'],
[0.75, 'rgb(254,217,118)'], [0.875, 'rgb(255,237,160)'],
[1, 'rgb(255,255,204)']
],
'Bluered': [
[0, 'rgb(0,0,255)'], [1, 'rgb(255,0,0)']
],
// modified RdBu based on
// www.sandia.gov/~kmorel/documents/ColorMaps/ColorMapsExpanded.pdf
'RdBu': [
[0, 'rgb(5,10,172)'], [0.35, 'rgb(106,137,247)'],
[0.5, 'rgb(190,190,190)'], [0.6, 'rgb(220,170,132)'],
[0.7, 'rgb(230,145,90)'], [1, 'rgb(178,10,28)']
],
// Scale for non-negative numeric values
'Reds': [
[0, 'rgb(220,220,220)'], [0.2, 'rgb(245,195,157)'],
[0.4, 'rgb(245,160,105)'], [1, 'rgb(178,10,28)']
],
// Scale for non-positive numeric values
'Blues': [
[0, 'rgb(5,10,172)'], [0.35, 'rgb(40,60,190)'],
[0.5, 'rgb(70,100,245)'], [0.6, 'rgb(90,120,245)'],
[0.7, 'rgb(106,137,247)'], [1, 'rgb(220,220,220)']
],
'Picnic': [
[0, 'rgb(0,0,255)'], [0.1, 'rgb(51,153,255)'],
[0.2, 'rgb(102,204,255)'], [0.3, 'rgb(153,204,255)'],
[0.4, 'rgb(204,204,255)'], [0.5, 'rgb(255,255,255)'],
[0.6, 'rgb(255,204,255)'], [0.7, 'rgb(255,153,255)'],
[0.8, 'rgb(255,102,204)'], [0.9, 'rgb(255,102,102)'],
[1, 'rgb(255,0,0)']
],
'Rainbow': [
[0, 'rgb(150,0,90)'], [0.125, 'rgb(0,0,200)'],
[0.25, 'rgb(0,25,255)'], [0.375, 'rgb(0,152,255)'],
[0.5, 'rgb(44,255,150)'], [0.625, 'rgb(151,255,0)'],
[0.75, 'rgb(255,234,0)'], [0.875, 'rgb(255,111,0)'],
[1, 'rgb(255,0,0)']
],
'Portland': [
[0, 'rgb(12,51,131)'], [0.25, 'rgb(10,136,186)'],
[0.5, 'rgb(242,211,56)'], [0.75, 'rgb(242,143,56)'],
[1, 'rgb(217,30,30)']
],
'Jet': [
[0, 'rgb(0,0,131)'], [0.125, 'rgb(0,60,170)'],
[0.375, 'rgb(5,255,255)'], [0.625, 'rgb(255,255,0)'],
[0.875, 'rgb(250,0,0)'], [1, 'rgb(128,0,0)']
],
'Hot': [
[0, 'rgb(0,0,0)'], [0.3, 'rgb(230,0,0)'],
[0.6, 'rgb(255,210,0)'], [1, 'rgb(255,255,255)']
],
'Blackbody': [
[0, 'rgb(0,0,0)'], [0.2, 'rgb(230,0,0)'],
[0.4, 'rgb(230,210,0)'], [0.7, 'rgb(255,255,255)'],
[1, 'rgb(160,200,255)']
],
'Earth': [
[0, 'rgb(0,0,130)'], [0.1, 'rgb(0,180,180)'],
[0.2, 'rgb(40,210,40)'], [0.4, 'rgb(230,230,50)'],
[0.6, 'rgb(120,70,20)'], [1, 'rgb(255,255,255)']
],
'Electric': [
[0, 'rgb(0,0,0)'], [0.15, 'rgb(30,0,100)'],
[0.4, 'rgb(120,0,100)'], [0.6, 'rgb(160,90,0)'],
[0.8, 'rgb(230,200,0)'], [1, 'rgb(255,250,220)']
],
'Viridis': [
[0, '#440154'], [0.06274509803921569, '#48186a'],
[0.12549019607843137, '#472d7b'], [0.18823529411764706, '#424086'],
[0.25098039215686274, '#3b528b'], [0.3137254901960784, '#33638d'],
[0.3764705882352941, '#2c728e'], [0.4392156862745098, '#26828e'],
[0.5019607843137255, '#21918c'], [0.5647058823529412, '#1fa088'],
[0.6274509803921569, '#28ae80'], [0.6901960784313725, '#3fbc73'],
[0.7529411764705882, '#5ec962'], [0.8156862745098039, '#84d44b'],
[0.8784313725490196, '#addc30'], [0.9411764705882353, '#d8e219'],
[1, '#fde725']
],
'Cividis': [
[0.000000, 'rgb(0,32,76)'], [0.058824, 'rgb(0,42,102)'],
[0.117647, 'rgb(0,52,110)'], [0.176471, 'rgb(39,63,108)'],
[0.235294, 'rgb(60,74,107)'], [0.294118, 'rgb(76,85,107)'],
[0.352941, 'rgb(91,95,109)'], [0.411765, 'rgb(104,106,112)'],
[0.470588, 'rgb(117,117,117)'], [0.529412, 'rgb(131,129,120)'],
[0.588235, 'rgb(146,140,120)'], [0.647059, 'rgb(161,152,118)'],
[0.705882, 'rgb(176,165,114)'], [0.764706, 'rgb(192,177,109)'],
[0.823529, 'rgb(209,191,102)'], [0.882353, 'rgb(225,204,92)'],
[0.941176, 'rgb(243,219,79)'], [1.000000, 'rgb(255,233,69)']
]
};
},{}],587:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
// for automatic alignment on dragging, <1/3 means left align,
// >2/3 means right, and between is center. Pick the right fraction
// based on where you are, and return the fraction corresponding to
// that position on the object
module.exports = function align(v, dv, v0, v1, anchor) {
var vmin = (v - v0) / (v1 - v0),
vmax = vmin + dv / (v1 - v0),
vc = (vmin + vmax) / 2;
// explicitly specified anchor
if(anchor === 'left' || anchor === 'bottom') return vmin;
if(anchor === 'center' || anchor === 'middle') return vc;
if(anchor === 'right' || anchor === 'top') return vmax;
// automatic based on position
if(vmin < (2 / 3) - vc) return vmin;
if(vmax > (4 / 3) - vc) return vmax;
return vc;
};
},{}],588:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
// set cursors pointing toward the closest corner/side,
// to indicate alignment
// x and y are 0-1, fractions of the plot area
var cursorset = [
['sw-resize', 's-resize', 'se-resize'],
['w-resize', 'move', 'e-resize'],
['nw-resize', 'n-resize', 'ne-resize']
];
module.exports = function getCursor(x, y, xanchor, yanchor) {
if(xanchor === 'left') x = 0;
else if(xanchor === 'center') x = 1;
else if(xanchor === 'right') x = 2;
else x = Lib.constrain(Math.floor(x * 3), 0, 2);
if(yanchor === 'bottom') y = 0;
else if(yanchor === 'middle') y = 1;
else if(yanchor === 'top') y = 2;
else y = Lib.constrain(Math.floor(y * 3), 0, 2);
return cursorset[y][x];
};
},{"../../lib":693}],589:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var mouseOffset = _dereq_('mouse-event-offset');
var hasHover = _dereq_('has-hover');
var supportsPassive = _dereq_('has-passive-events');
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var constants = _dereq_('../../plots/cartesian/constants');
var interactConstants = _dereq_('../../constants/interactions');
var dragElement = module.exports = {};
dragElement.align = _dereq_('./align');
dragElement.getCursor = _dereq_('./cursor');
var unhover = _dereq_('./unhover');
dragElement.unhover = unhover.wrapped;
dragElement.unhoverRaw = unhover.raw;
/**
* Abstracts click & drag interactions
*
* During the interaction, a "coverSlip" element - a transparent
* div covering the whole page - is created, which has two key effects:
* - Lets you drag beyond the boundaries of the plot itself without
* dropping (but if you drag all the way out of the browser window the
* interaction will end)
* - Freezes the cursor: whatever mouse cursor the drag element had when the
* interaction started gets copied to the coverSlip for use until mouseup
*
* If the user executes a drag bigger than MINDRAG, callbacks will fire as:
* prepFn, moveFn (1 or more times), doneFn
* If the user does not drag enough, prepFn and clickFn will fire.
*
* Note: If you cancel contextmenu, clickFn will fire even with a right click
* (unlike native events) so you'll get a `plotly_click` event. Cancel context eg:
* gd.addEventListener('contextmenu', function(e) { e.preventDefault(); });
* TODO: we should probably turn this into a `config` parameter, so we can fix it
* such that if you *don't* cancel contextmenu, we can prevent partial drags, which
* put you in a weird state.
*
* If the user clicks multiple times quickly, clickFn will fire each time
* but numClicks will increase to help you recognize doubleclicks.
*
* @param {object} options with keys:
* element (required) the DOM element to drag
* prepFn (optional) function(event, startX, startY)
* executed on mousedown
* startX and startY are the clientX and clientY pixel position
* of the mousedown event
* moveFn (optional) function(dx, dy)
* executed on move, ONLY after we've exceeded MINDRAG
* (we keep executing moveFn if you move back to where you started)
* dx and dy are the net pixel offset of the drag,
* dragged is true/false, has the mouse moved enough to
* constitute a drag
* doneFn (optional) function(e)
* executed on mouseup, ONLY if we exceeded MINDRAG (so you can be
* sure that moveFn has been called at least once)
* numClicks is how many clicks we've registered within
* a doubleclick time
* e is the original mouseup event
* clickFn (optional) function(numClicks, e)
* executed on mouseup if we have NOT exceeded MINDRAG (ie moveFn
* has not been called at all)
* numClicks is how many clicks we've registered within
* a doubleclick time
* e is the original mousedown event
* clampFn (optional, function(dx, dy) return [dx2, dy2])
* Provide custom clamping function for small displacements.
* By default, clamping is done using `minDrag` to x and y displacements
* independently.
*/
dragElement.init = function init(options) {
var gd = options.gd;
var numClicks = 1;
var DBLCLICKDELAY = interactConstants.DBLCLICKDELAY;
var element = options.element;
var startX,
startY,
newMouseDownTime,
cursor,
dragCover,
initialEvent,
initialTarget,
rightClick;
if(!gd._mouseDownTime) gd._mouseDownTime = 0;
element.style.pointerEvents = 'all';
element.onmousedown = onStart;
if(!supportsPassive) {
element.ontouchstart = onStart;
}
else {
if(element._ontouchstart) {
element.removeEventListener('touchstart', element._ontouchstart);
}
element._ontouchstart = onStart;
element.addEventListener('touchstart', onStart, {passive: false});
}
function _clampFn(dx, dy, minDrag) {
if(Math.abs(dx) < minDrag) dx = 0;
if(Math.abs(dy) < minDrag) dy = 0;
return [dx, dy];
}
var clampFn = options.clampFn || _clampFn;
function onStart(e) {
e.preventDefault();
// make dragging and dragged into properties of gd
// so that others can look at and modify them
gd._dragged = false;
gd._dragging = true;
var offset = pointerOffset(e);
startX = offset[0];
startY = offset[1];
initialTarget = e.target;
initialEvent = e;
rightClick = e.buttons === 2 || e.ctrlKey;
// fix Fx.hover for touch events
if(typeof e.clientX === 'undefined' && typeof e.clientY === 'undefined') {
e.clientX = startX;
e.clientY = startY;
}
newMouseDownTime = (new Date()).getTime();
if(newMouseDownTime - gd._mouseDownTime < DBLCLICKDELAY) {
// in a click train
numClicks += 1;
}
else {
// new click train
numClicks = 1;
gd._mouseDownTime = newMouseDownTime;
}
if(options.prepFn) options.prepFn(e, startX, startY);
if(hasHover && !rightClick) {
dragCover = coverSlip();
dragCover.style.cursor = window.getComputedStyle(element).cursor;
}
else if(!hasHover) {
// document acts as a dragcover for mobile, bc we can't create dragcover dynamically
dragCover = document;
cursor = window.getComputedStyle(document.documentElement).cursor;
document.documentElement.style.cursor = window.getComputedStyle(element).cursor;
}
document.addEventListener('mousemove', onMove);
document.addEventListener('mouseup', onDone);
document.addEventListener('touchmove', onMove);
document.addEventListener('touchend', onDone);
return;
}
function onMove(e) {
e.preventDefault();
var offset = pointerOffset(e);
var minDrag = options.minDrag || constants.MINDRAG;
var dxdy = clampFn(offset[0] - startX, offset[1] - startY, minDrag);
var dx = dxdy[0];
var dy = dxdy[1];
if(dx || dy) {
gd._dragged = true;
dragElement.unhover(gd);
}
if(gd._dragged && options.moveFn && !rightClick) options.moveFn(dx, dy);
return;
}
function onDone(e) {
document.removeEventListener('mousemove', onMove);
document.removeEventListener('mouseup', onDone);
document.removeEventListener('touchmove', onMove);
document.removeEventListener('touchend', onDone);
e.preventDefault();
if(hasHover) {
Lib.removeElement(dragCover);
}
else if(cursor) {
dragCover.documentElement.style.cursor = cursor;
cursor = null;
}
if(!gd._dragging) {
gd._dragged = false;
return;
}
gd._dragging = false;
// don't count as a dblClick unless the mouseUp is also within
// the dblclick delay
if((new Date()).getTime() - gd._mouseDownTime > DBLCLICKDELAY) {
numClicks = Math.max(numClicks - 1, 1);
}
if(gd._dragged) {
if(options.doneFn) options.doneFn();
}
else {
if(options.clickFn) options.clickFn(numClicks, initialEvent);
// If we haven't dragged, this should be a click. But because of the
// coverSlip changing the element, the natural system might not generate one,
// so we need to make our own. But right clicks don't normally generate
// click events, only contextmenu events, which happen on mousedown.
if(!rightClick) {
var e2;
try {
e2 = new MouseEvent('click', e);
}
catch(err) {
var offset = pointerOffset(e);
e2 = document.createEvent('MouseEvents');
e2.initMouseEvent('click',
e.bubbles, e.cancelable,
e.view, e.detail,
e.screenX, e.screenY,
offset[0], offset[1],
e.ctrlKey, e.altKey, e.shiftKey, e.metaKey,
e.button, e.relatedTarget);
}
initialTarget.dispatchEvent(e2);
}
}
finishDrag(gd);
gd._dragged = false;
return;
}
};
function coverSlip() {
var cover = document.createElement('div');
cover.className = 'dragcover';
var cStyle = cover.style;
cStyle.position = 'fixed';
cStyle.left = 0;
cStyle.right = 0;
cStyle.top = 0;
cStyle.bottom = 0;
cStyle.zIndex = 999999999;
cStyle.background = 'none';
document.body.appendChild(cover);
return cover;
}
dragElement.coverSlip = coverSlip;
function finishDrag(gd) {
gd._dragging = false;
if(gd._replotPending) Registry.call('plot', gd);
}
function pointerOffset(e) {
return mouseOffset(
e.changedTouches ? e.changedTouches[0] : e,
document.body
);
}
},{"../../constants/interactions":669,"../../lib":693,"../../plots/cartesian/constants":747,"../../registry":825,"./align":587,"./cursor":588,"./unhover":590,"has-hover":391,"has-passive-events":392,"mouse-event-offset":416}],590:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Events = _dereq_('../../lib/events');
var throttle = _dereq_('../../lib/throttle');
var getGraphDiv = _dereq_('../../lib/get_graph_div');
var hoverConstants = _dereq_('../fx/constants');
var unhover = module.exports = {};
unhover.wrapped = function(gd, evt, subplot) {
gd = getGraphDiv(gd);
// Important, clear any queued hovers
if(gd._fullLayout) {
throttle.clear(gd._fullLayout._uid + hoverConstants.HOVERID);
}
unhover.raw(gd, evt, subplot);
};
// remove hover effects on mouse out, and emit unhover event
unhover.raw = function unhoverRaw(gd, evt) {
var fullLayout = gd._fullLayout;
var oldhoverdata = gd._hoverdata;
if(!evt) evt = {};
if(evt.target &&
Events.triggerHandler(gd, 'plotly_beforehover', evt) === false) {
return;
}
fullLayout._hoverlayer.selectAll('g').remove();
fullLayout._hoverlayer.selectAll('line').remove();
fullLayout._hoverlayer.selectAll('circle').remove();
gd._hoverdata = undefined;
if(evt.target && oldhoverdata) {
gd.emit('plotly_unhover', {
event: evt,
points: oldhoverdata
});
}
};
},{"../../lib/events":681,"../../lib/get_graph_div":688,"../../lib/throttle":719,"../fx/constants":604}],591:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
exports.dash = {
valType: 'string',
// string type usually doesn't take values... this one should really be
// a special type or at least a special coercion function, from the GUI
// you only get these values but elsewhere the user can supply a list of
// dash lengths in px, and it will be honored
values: ['solid', 'dot', 'dash', 'longdash', 'dashdot', 'longdashdot'],
dflt: 'solid',
editType: 'style',
};
},{}],592:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var isNumeric = _dereq_('fast-isnumeric');
var tinycolor = _dereq_('tinycolor2');
var Registry = _dereq_('../../registry');
var Color = _dereq_('../color');
var Colorscale = _dereq_('../colorscale');
var Lib = _dereq_('../../lib');
var svgTextUtils = _dereq_('../../lib/svg_text_utils');
var xmlnsNamespaces = _dereq_('../../constants/xmlns_namespaces');
var alignment = _dereq_('../../constants/alignment');
var LINE_SPACING = alignment.LINE_SPACING;
var DESELECTDIM = _dereq_('../../constants/interactions').DESELECTDIM;
var subTypes = _dereq_('../../traces/scatter/subtypes');
var makeBubbleSizeFn = _dereq_('../../traces/scatter/make_bubble_size_func');
var drawing = module.exports = {};
// -----------------------------------------------------
// styling functions for plot elements
// -----------------------------------------------------
drawing.font = function(s, family, size, color) {
// also allow the form font(s, {family, size, color})
if(Lib.isPlainObject(family)) {
color = family.color;
size = family.size;
family = family.family;
}
if(family) s.style('font-family', family);
if(size + 1) s.style('font-size', size + 'px');
if(color) s.call(Color.fill, color);
};
/*
* Positioning helpers
* Note: do not use `setPosition` with <text> nodes modified by
* `svgTextUtils.convertToTspans`. Use `svgTextUtils.positionText`
* instead, so that <tspan.line> elements get updated to match.
*/
drawing.setPosition = function(s, x, y) { s.attr('x', x).attr('y', y); };
drawing.setSize = function(s, w, h) { s.attr('width', w).attr('height', h); };
drawing.setRect = function(s, x, y, w, h) {
s.call(drawing.setPosition, x, y).call(drawing.setSize, w, h);
};
/** Translate node
*
* @param {object} d : calcdata point item
* @param {sel} sel : d3 selction of node to translate
* @param {object} xa : corresponding full xaxis object
* @param {object} ya : corresponding full yaxis object
*
* @return {boolean} :
* true if selection got translated
* false if selection could not get translated
*/
drawing.translatePoint = function(d, sel, xa, ya) {
var x = xa.c2p(d.x);
var y = ya.c2p(d.y);
if(isNumeric(x) && isNumeric(y) && sel.node()) {
// for multiline text this works better
if(sel.node().nodeName === 'text') {
sel.attr('x', x).attr('y', y);
} else {
sel.attr('transform', 'translate(' + x + ',' + y + ')');
}
} else {
return false;
}
return true;
};
drawing.translatePoints = function(s, xa, ya) {
s.each(function(d) {
var sel = d3.select(this);
drawing.translatePoint(d, sel, xa, ya);
});
};
drawing.hideOutsideRangePoint = function(d, sel, xa, ya, xcalendar, ycalendar) {
sel.attr(
'display',
(xa.isPtWithinRange(d, xcalendar) && ya.isPtWithinRange(d, ycalendar)) ? null : 'none'
);
};
drawing.hideOutsideRangePoints = function(traceGroups, subplot) {
if(!subplot._hasClipOnAxisFalse) return;
var xa = subplot.xaxis;
var ya = subplot.yaxis;
traceGroups.each(function(d) {
var trace = d[0].trace;
var xcalendar = trace.xcalendar;
var ycalendar = trace.ycalendar;
var selector = trace.type === 'bar' ? '.bartext' : '.point,.textpoint';
traceGroups.selectAll(selector).each(function(d) {
drawing.hideOutsideRangePoint(d, d3.select(this), xa, ya, xcalendar, ycalendar);
});
});
};
drawing.crispRound = function(gd, lineWidth, dflt) {
// for lines that disable antialiasing we want to
// make sure the width is an integer, and at least 1 if it's nonzero
if(!lineWidth || !isNumeric(lineWidth)) return dflt || 0;
// but not for static plots - these don't get antialiased anyway.
if(gd._context.staticPlot) return lineWidth;
if(lineWidth < 1) return 1;
return Math.round(lineWidth);
};
drawing.singleLineStyle = function(d, s, lw, lc, ld) {
s.style('fill', 'none');
var line = (((d || [])[0] || {}).trace || {}).line || {},
lw1 = lw || line.width||0,
dash = ld || line.dash || '';
Color.stroke(s, lc || line.color);
drawing.dashLine(s, dash, lw1);
};
drawing.lineGroupStyle = function(s, lw, lc, ld) {
s.style('fill', 'none')
.each(function(d) {
var line = (((d || [])[0] || {}).trace || {}).line || {},
lw1 = lw || line.width||0,
dash = ld || line.dash || '';
d3.select(this)
.call(Color.stroke, lc || line.color)
.call(drawing.dashLine, dash, lw1);
});
};
drawing.dashLine = function(s, dash, lineWidth) {
lineWidth = +lineWidth || 0;
dash = drawing.dashStyle(dash, lineWidth);
s.style({
'stroke-dasharray': dash,
'stroke-width': lineWidth + 'px'
});
};
drawing.dashStyle = function(dash, lineWidth) {
lineWidth = +lineWidth || 1;
var dlw = Math.max(lineWidth, 3);
if(dash === 'solid') dash = '';
else if(dash === 'dot') dash = dlw + 'px,' + dlw + 'px';
else if(dash === 'dash') dash = (3 * dlw) + 'px,' + (3 * dlw) + 'px';
else if(dash === 'longdash') dash = (5 * dlw) + 'px,' + (5 * dlw) + 'px';
else if(dash === 'dashdot') {
dash = (3 * dlw) + 'px,' + dlw + 'px,' + dlw + 'px,' + dlw + 'px';
}
else if(dash === 'longdashdot') {
dash = (5 * dlw) + 'px,' + (2 * dlw) + 'px,' + dlw + 'px,' + (2 * dlw) + 'px';
}
// otherwise user wrote the dasharray themselves - leave it be
return dash;
};
// Same as fillGroupStyle, except in this case the selection may be a transition
drawing.singleFillStyle = function(sel) {
var node = d3.select(sel.node());
var data = node.data();
var fillcolor = (((data[0] || [])[0] || {}).trace || {}).fillcolor;
if(fillcolor) {
sel.call(Color.fill, fillcolor);
}
};
drawing.fillGroupStyle = function(s) {
s.style('stroke-width', 0)
.each(function(d) {
var shape = d3.select(this);
try {
shape.call(Color.fill, d[0].trace.fillcolor);
}
catch(e) {
Lib.error(e, s);
shape.remove();
}
});
};
var SYMBOLDEFS = _dereq_('./symbol_defs');
drawing.symbolNames = [];
drawing.symbolFuncs = [];
drawing.symbolNeedLines = {};
drawing.symbolNoDot = {};
drawing.symbolNoFill = {};
drawing.symbolList = [];
Object.keys(SYMBOLDEFS).forEach(function(k) {
var symDef = SYMBOLDEFS[k];
drawing.symbolList = drawing.symbolList.concat(
[symDef.n, k, symDef.n + 100, k + '-open']);
drawing.symbolNames[symDef.n] = k;
drawing.symbolFuncs[symDef.n] = symDef.f;
if(symDef.needLine) {
drawing.symbolNeedLines[symDef.n] = true;
}
if(symDef.noDot) {
drawing.symbolNoDot[symDef.n] = true;
}
else {
drawing.symbolList = drawing.symbolList.concat(
[symDef.n + 200, k + '-dot', symDef.n + 300, k + '-open-dot']);
}
if(symDef.noFill) {
drawing.symbolNoFill[symDef.n] = true;
}
});
var MAXSYMBOL = drawing.symbolNames.length,
// add a dot in the middle of the symbol
DOTPATH = 'M0,0.5L0.5,0L0,-0.5L-0.5,0Z';
drawing.symbolNumber = function(v) {
if(typeof v === 'string') {
var vbase = 0;
if(v.indexOf('-open') > 0) {
vbase = 100;
v = v.replace('-open', '');
}
if(v.indexOf('-dot') > 0) {
vbase += 200;
v = v.replace('-dot', '');
}
v = drawing.symbolNames.indexOf(v);
if(v >= 0) { v += vbase; }
}
if((v % 100 >= MAXSYMBOL) || v >= 400) { return 0; }
return Math.floor(Math.max(v, 0));
};
function makePointPath(symbolNumber, r) {
var base = symbolNumber % 100;
return drawing.symbolFuncs[base](r) + (symbolNumber >= 200 ? DOTPATH : '');
}
var HORZGRADIENT = {x1: 1, x2: 0, y1: 0, y2: 0};
var VERTGRADIENT = {x1: 0, x2: 0, y1: 1, y2: 0};
var stopFormatter = d3.format('~.1f');
var gradientInfo = {
radial: {node: 'radialGradient'},
radialreversed: {node: 'radialGradient', reversed: true},
horizontal: {node: 'linearGradient', attrs: HORZGRADIENT},
horizontalreversed: {node: 'linearGradient', attrs: HORZGRADIENT, reversed: true},
vertical: {node: 'linearGradient', attrs: VERTGRADIENT},
verticalreversed: {node: 'linearGradient', attrs: VERTGRADIENT, reversed: true}
};
/**
* gradient: create and apply a gradient fill
*
* @param {object} sel: d3 selection to apply this gradient to
* You can use `selection.call(Drawing.gradient, ...)`
* @param {DOM element} gd: the graph div `sel` is part of
* @param {string} gradientID: a unique (within this plot) identifier
* for this gradient, so that we don't create unnecessary definitions
* @param {string} type: 'radial', 'horizontal', or 'vertical', optionally with
* 'reversed' at the end. Normally radial goes center to edge,
* horizontal goes right to left, and vertical goes bottom to top
* @param {array} colorscale: as in attribute values, [[fraction, color], ...]
* @param {string} prop: the property to apply to, 'fill' or 'stroke'
*/
drawing.gradient = function(sel, gd, gradientID, type, colorscale, prop) {
var len = colorscale.length;
var info = gradientInfo[type];
var colorStops = new Array(len);
for(var i = 0; i < len; i++) {
if(info.reversed) {
colorStops[len - 1 - i] = [stopFormatter((1 - colorscale[i][0]) * 100), colorscale[i][1]];
}
else {
colorStops[i] = [stopFormatter(colorscale[i][0] * 100), colorscale[i][1]];
}
}
var fullID = 'g' + gd._fullLayout._uid + '-' + gradientID;
var gradient = gd._fullLayout._defs.select('.gradients')
.selectAll('#' + fullID)
.data([type + colorStops.join(';')], Lib.identity);
gradient.exit().remove();
gradient.enter()
.append(info.node)
.each(function() {
var el = d3.select(this);
if(info.attrs) el.attr(info.attrs);
el.attr('id', fullID);
var stops = el.selectAll('stop')
.data(colorStops);
stops.exit().remove();
stops.enter().append('stop');
stops.each(function(d) {
var tc = tinycolor(d[1]);
d3.select(this).attr({
offset: d[0] + '%',
'stop-color': Color.tinyRGB(tc),
'stop-opacity': tc.getAlpha()
});
});
});
sel.style(prop, 'url(#' + fullID + ')')
.style(prop + '-opacity', null);
};
/*
* Make the gradients container and clear out any previous gradients.
* We never collect all the gradients we need in one place,
* so we can't ever remove gradients that have stopped being useful,
* except all at once before a full redraw.
* The upside of this is arbitrary points can share gradient defs
*/
drawing.initGradients = function(gd) {
var gradientsGroup = Lib.ensureSingle(gd._fullLayout._defs, 'g', 'gradients');
gradientsGroup.selectAll('linearGradient,radialGradient').remove();
};
drawing.pointStyle = function(s, trace, gd) {
if(!s.size()) return;
var fns = drawing.makePointStyleFns(trace);
s.each(function(d) {
drawing.singlePointStyle(d, d3.select(this), trace, fns, gd);
});
};
drawing.singlePointStyle = function(d, sel, trace, fns, gd) {
var marker = trace.marker;
var markerLine = marker.line;
sel.style('opacity',
fns.selectedOpacityFn ? fns.selectedOpacityFn(d) :
(d.mo === undefined ? marker.opacity : d.mo)
);
if(fns.ms2mrc) {
var r;
// handle multi-trace graph edit case
if(d.ms === 'various' || marker.size === 'various') {
r = 3;
} else {
r = fns.ms2mrc(d.ms);
}
// store the calculated size so hover can use it
d.mrc = r;
if(fns.selectedSizeFn) {
r = d.mrc = fns.selectedSizeFn(d);
}
// turn the symbol into a sanitized number
var x = drawing.symbolNumber(d.mx || marker.symbol) || 0;
// save if this marker is open
// because that impacts how to handle colors
d.om = x % 200 >= 100;
sel.attr('d', makePointPath(x, r));
}
var perPointGradient = false;
var fillColor, lineColor, lineWidth;
// 'so' is suspected outliers, for box plots
if(d.so) {
lineWidth = markerLine.outlierwidth;
lineColor = markerLine.outliercolor;
fillColor = marker.outliercolor;
} else {
var markerLineWidth = (markerLine || {}).width;
lineWidth = (
d.mlw + 1 ||
markerLineWidth + 1 ||
// TODO: we need the latter for legends... can we get rid of it?
(d.trace ? (d.trace.marker.line || {}).width : 0) + 1
) - 1 || 0;
if('mlc' in d) lineColor = d.mlcc = fns.lineScale(d.mlc);
// weird case: array wasn't long enough to apply to every point
else if(Lib.isArrayOrTypedArray(markerLine.color)) lineColor = Color.defaultLine;
else lineColor = markerLine.color;
if(Lib.isArrayOrTypedArray(marker.color)) {
fillColor = Color.defaultLine;
perPointGradient = true;
}
if('mc' in d) {
fillColor = d.mcc = fns.markerScale(d.mc);
} else {
fillColor = marker.color || 'rgba(0,0,0,0)';
}
if(fns.selectedColorFn) {
fillColor = fns.selectedColorFn(d);
}
}
if(d.om) {
// open markers can't have zero linewidth, default to 1px,
// and use fill color as stroke color
sel.call(Color.stroke, fillColor)
.style({
'stroke-width': (lineWidth || 1) + 'px',
fill: 'none'
});
} else {
sel.style('stroke-width', lineWidth + 'px');
var markerGradient = marker.gradient;
var gradientType = d.mgt;
if(gradientType) perPointGradient = true;
else gradientType = markerGradient && markerGradient.type;
// for legend - arrays will propagate through here, but we don't need
// to treat it as per-point.
if(Array.isArray(gradientType)) {
gradientType = gradientType[0];
if(!gradientInfo[gradientType]) gradientType = 0;
}
if(gradientType && gradientType !== 'none') {
var gradientColor = d.mgc;
if(gradientColor) perPointGradient = true;
else gradientColor = markerGradient.color;
var gradientID = trace.uid;
if(perPointGradient) gradientID += '-' + d.i;
drawing.gradient(sel, gd, gradientID, gradientType,
[[0, gradientColor], [1, fillColor]], 'fill');
} else {
Color.fill(sel, fillColor);
}
if(lineWidth) {
Color.stroke(sel, lineColor);
}
}
};
drawing.makePointStyleFns = function(trace) {
var out = {};
var marker = trace.marker;
// allow array marker and marker line colors to be
// scaled by given max and min to colorscales
out.markerScale = drawing.tryColorscale(marker, '');
out.lineScale = drawing.tryColorscale(marker, 'line');
if(Registry.traceIs(trace, 'symbols')) {
out.ms2mrc = subTypes.isBubble(trace) ?
makeBubbleSizeFn(trace) :
function() { return (marker.size || 6) / 2; };
}
if(trace.selectedpoints) {
Lib.extendFlat(out, drawing.makeSelectedPointStyleFns(trace));
}
return out;
};
drawing.makeSelectedPointStyleFns = function(trace) {
var out = {};
var selectedAttrs = trace.selected || {};
var unselectedAttrs = trace.unselected || {};
var marker = trace.marker || {};
var selectedMarker = selectedAttrs.marker || {};
var unselectedMarker = unselectedAttrs.marker || {};
var mo = marker.opacity;
var smo = selectedMarker.opacity;
var usmo = unselectedMarker.opacity;
var smoIsDefined = smo !== undefined;
var usmoIsDefined = usmo !== undefined;
if(Lib.isArrayOrTypedArray(mo) || smoIsDefined || usmoIsDefined) {
out.selectedOpacityFn = function(d) {
var base = d.mo === undefined ? marker.opacity : d.mo;
if(d.selected) {
return smoIsDefined ? smo : base;
} else {
return usmoIsDefined ? usmo : DESELECTDIM * base;
}
};
}
var mc = marker.color;
var smc = selectedMarker.color;
var usmc = unselectedMarker.color;
if(smc || usmc) {
out.selectedColorFn = function(d) {
var base = d.mcc || mc;
if(d.selected) {
return smc || base;
} else {
return usmc || base;
}
};
}
var ms = marker.size;
var sms = selectedMarker.size;
var usms = unselectedMarker.size;
var smsIsDefined = sms !== undefined;
var usmsIsDefined = usms !== undefined;
if(Registry.traceIs(trace, 'symbols') && (smsIsDefined || usmsIsDefined)) {
out.selectedSizeFn = function(d) {
var base = d.mrc || ms / 2;
if(d.selected) {
return smsIsDefined ? sms / 2 : base;
} else {
return usmsIsDefined ? usms / 2 : base;
}
};
}
return out;
};
drawing.makeSelectedTextStyleFns = function(trace) {
var out = {};
var selectedAttrs = trace.selected || {};
var unselectedAttrs = trace.unselected || {};
var textFont = trace.textfont || {};
var selectedTextFont = selectedAttrs.textfont || {};
var unselectedTextFont = unselectedAttrs.textfont || {};
var tc = textFont.color;
var stc = selectedTextFont.color;
var utc = unselectedTextFont.color;
out.selectedTextColorFn = function(d) {
var base = d.tc || tc;
if(d.selected) {
return stc || base;
} else {
if(utc) return utc;
else return stc ? base : Color.addOpacity(base, DESELECTDIM);
}
};
return out;
};
drawing.selectedPointStyle = function(s, trace) {
if(!s.size() || !trace.selectedpoints) return;
var fns = drawing.makeSelectedPointStyleFns(trace);
var marker = trace.marker || {};
var seq = [];
if(fns.selectedOpacityFn) {
seq.push(function(pt, d) {
pt.style('opacity', fns.selectedOpacityFn(d));
});
}
if(fns.selectedColorFn) {
seq.push(function(pt, d) {
Color.fill(pt, fns.selectedColorFn(d));
});
}
if(fns.selectedSizeFn) {
seq.push(function(pt, d) {
var mx = d.mx || marker.symbol || 0;
var mrc2 = fns.selectedSizeFn(d);
pt.attr('d', makePointPath(drawing.symbolNumber(mx), mrc2));
// save for Drawing.selectedTextStyle
d.mrc2 = mrc2;
});
}
if(seq.length) {
s.each(function(d) {
var pt = d3.select(this);
for(var i = 0; i < seq.length; i++) {
seq[i](pt, d);
}
});
}
};
drawing.tryColorscale = function(marker, prefix) {
var cont = prefix ? Lib.nestedProperty(marker, prefix).get() : marker;
if(cont) {
var scl = cont.colorscale;
var colorArray = cont.color;
if(scl && Lib.isArrayOrTypedArray(colorArray)) {
return Colorscale.makeColorScaleFunc(
Colorscale.extractScale(scl, cont.cmin, cont.cmax)
);
}
}
return Lib.identity;
};
var TEXTOFFSETSIGN = {
start: 1, end: -1, middle: 0, bottom: 1, top: -1
};
function textPointPosition(s, textPosition, fontSize, markerRadius) {
var group = d3.select(s.node().parentNode);
var v = textPosition.indexOf('top') !== -1 ?
'top' :
textPosition.indexOf('bottom') !== -1 ? 'bottom' : 'middle';
var h = textPosition.indexOf('left') !== -1 ?
'end' :
textPosition.indexOf('right') !== -1 ? 'start' : 'middle';
// if markers are shown, offset a little more than
// the nominal marker size
// ie 2/1.6 * nominal, bcs some markers are a bit bigger
var r = markerRadius ? markerRadius / 0.8 + 1 : 0;
var numLines = (svgTextUtils.lineCount(s) - 1) * LINE_SPACING + 1;
var dx = TEXTOFFSETSIGN[h] * r;
var dy = fontSize * 0.75 + TEXTOFFSETSIGN[v] * r +
(TEXTOFFSETSIGN[v] - 1) * numLines * fontSize / 2;
// fix the overall text group position
s.attr('text-anchor', h);
group.attr('transform', 'translate(' + dx + ',' + dy + ')');
}
function extracTextFontSize(d, trace) {
var fontSize = d.ts || trace.textfont.size;
return (isNumeric(fontSize) && fontSize > 0) ? fontSize : 0;
}
// draw text at points
drawing.textPointStyle = function(s, trace, gd) {
if(!s.size()) return;
var selectedTextColorFn;
if(trace.selectedpoints) {
var fns = drawing.makeSelectedTextStyleFns(trace);
selectedTextColorFn = fns.selectedTextColorFn;
}
s.each(function(d) {
var p = d3.select(this);
var text = Lib.extractOption(d, trace, 'tx', 'text');
if(!text && text !== 0) {
p.remove();
return;
}
var pos = d.tp || trace.textposition;
var fontSize = extracTextFontSize(d, trace);
var fontColor = selectedTextColorFn ?
selectedTextColorFn(d) :
(d.tc || trace.textfont.color);
p.call(drawing.font,
d.tf || trace.textfont.family,
fontSize,
fontColor)
.text(text)
.call(svgTextUtils.convertToTspans, gd)
.call(textPointPosition, pos, fontSize, d.mrc);
});
};
drawing.selectedTextStyle = function(s, trace) {
if(!s.size() || !trace.selectedpoints) return;
var fns = drawing.makeSelectedTextStyleFns(trace);
s.each(function(d) {
var tx = d3.select(this);
var tc = fns.selectedTextColorFn(d);
var tp = d.tp || trace.textposition;
var fontSize = extracTextFontSize(d, trace);
Color.fill(tx, tc);
textPointPosition(tx, tp, fontSize, d.mrc2 || d.mrc);
});
};
// generalized Catmull-Rom splines, per
// http://www.cemyuksel.com/research/catmullrom_param/catmullrom.pdf
var CatmullRomExp = 0.5;
drawing.smoothopen = function(pts, smoothness) {
if(pts.length < 3) { return 'M' + pts.join('L');}
var path = 'M' + pts[0],
tangents = [], i;
for(i = 1; i < pts.length - 1; i++) {
tangents.push(makeTangent(pts[i - 1], pts[i], pts[i + 1], smoothness));
}
path += 'Q' + tangents[0][0] + ' ' + pts[1];
for(i = 2; i < pts.length - 1; i++) {
path += 'C' + tangents[i - 2][1] + ' ' + tangents[i - 1][0] + ' ' + pts[i];
}
path += 'Q' + tangents[pts.length - 3][1] + ' ' + pts[pts.length - 1];
return path;
};
drawing.smoothclosed = function(pts, smoothness) {
if(pts.length < 3) { return 'M' + pts.join('L') + 'Z'; }
var path = 'M' + pts[0],
pLast = pts.length - 1,
tangents = [makeTangent(pts[pLast],
pts[0], pts[1], smoothness)],
i;
for(i = 1; i < pLast; i++) {
tangents.push(makeTangent(pts[i - 1], pts[i], pts[i + 1], smoothness));
}
tangents.push(
makeTangent(pts[pLast - 1], pts[pLast], pts[0], smoothness)
);
for(i = 1; i <= pLast; i++) {
path += 'C' + tangents[i - 1][1] + ' ' + tangents[i][0] + ' ' + pts[i];
}
path += 'C' + tangents[pLast][1] + ' ' + tangents[0][0] + ' ' + pts[0] + 'Z';
return path;
};
function makeTangent(prevpt, thispt, nextpt, smoothness) {
var d1x = prevpt[0] - thispt[0],
d1y = prevpt[1] - thispt[1],
d2x = nextpt[0] - thispt[0],
d2y = nextpt[1] - thispt[1],
d1a = Math.pow(d1x * d1x + d1y * d1y, CatmullRomExp / 2),
d2a = Math.pow(d2x * d2x + d2y * d2y, CatmullRomExp / 2),
numx = (d2a * d2a * d1x - d1a * d1a * d2x) * smoothness,
numy = (d2a * d2a * d1y - d1a * d1a * d2y) * smoothness,
denom1 = 3 * d2a * (d1a + d2a),
denom2 = 3 * d1a * (d1a + d2a);
return [
[
d3.round(thispt[0] + (denom1 && numx / denom1), 2),
d3.round(thispt[1] + (denom1 && numy / denom1), 2)
], [
d3.round(thispt[0] - (denom2 && numx / denom2), 2),
d3.round(thispt[1] - (denom2 && numy / denom2), 2)
]
];
}
// step paths - returns a generator function for paths
// with the given step shape
var STEPPATH = {
hv: function(p0, p1) {
return 'H' + d3.round(p1[0], 2) + 'V' + d3.round(p1[1], 2);
},
vh: function(p0, p1) {
return 'V' + d3.round(p1[1], 2) + 'H' + d3.round(p1[0], 2);
},
hvh: function(p0, p1) {
return 'H' + d3.round((p0[0] + p1[0]) / 2, 2) + 'V' +
d3.round(p1[1], 2) + 'H' + d3.round(p1[0], 2);
},
vhv: function(p0, p1) {
return 'V' + d3.round((p0[1] + p1[1]) / 2, 2) + 'H' +
d3.round(p1[0], 2) + 'V' + d3.round(p1[1], 2);
}
};
var STEPLINEAR = function(p0, p1) {
return 'L' + d3.round(p1[0], 2) + ',' + d3.round(p1[1], 2);
};
drawing.steps = function(shape) {
var onestep = STEPPATH[shape] || STEPLINEAR;
return function(pts) {
var path = 'M' + d3.round(pts[0][0], 2) + ',' + d3.round(pts[0][1], 2);
for(var i = 1; i < pts.length; i++) {
path += onestep(pts[i - 1], pts[i]);
}
return path;
};
};
// off-screen svg render testing element, shared by the whole page
// uses the id 'js-plotly-tester' and stores it in drawing.tester
drawing.makeTester = function() {
var tester = Lib.ensureSingleById(d3.select('body'), 'svg', 'js-plotly-tester', function(s) {
s.attr(xmlnsNamespaces.svgAttrs)
.style({
position: 'absolute',
left: '-10000px',
top: '-10000px',
width: '9000px',
height: '9000px',
'z-index': '1'
});
});
// browsers differ on how they describe the bounding rect of
// the svg if its contents spill over... so make a 1x1px
// reference point we can measure off of.
var testref = Lib.ensureSingle(tester, 'path', 'js-reference-point', function(s) {
s.attr('d', 'M0,0H1V1H0Z')
.style({
'stroke-width': 0,
fill: 'black'
});
});
drawing.tester = tester;
drawing.testref = testref;
};
/*
* use our offscreen tester to get a clientRect for an element,
* in a reference frame where it isn't translated (or transformed) and
* its anchor point is at (0,0)
* always returns a copy of the bbox, so the caller can modify it safely
*
* @param {SVGElement} node: the element to measure. If possible this should be
* a <text> or MathJax <g> element that's already passed through
* `convertToTspans` because in that case we can cache the results, but it's
* possible to pass in any svg element.
*
* @param {boolean} inTester: is this element already in `drawing.tester`?
* If you are measuring a dummy element, rather than one you really intend
* to use on the plot, making it in `drawing.tester` in the first place
* allows us to test faster because it cuts out cloning and appending it.
*
* @param {string} hash: for internal use only, if we already know the cache key
* for this element beforehand.
*
* @return {object}: a plain object containing the width, height, left, right,
* top, and bottom of `node`
*/
drawing.savedBBoxes = {};
var savedBBoxesCount = 0;
var maxSavedBBoxes = 10000;
drawing.bBox = function(node, inTester, hash) {
/*
* Cache elements we've already measured so we don't have to
* remeasure the same thing many times
* We have a few bBox callers though who pass a node larger than
* a <text> or a MathJax <g>, such as an axis group containing many labels.
* These will not generate a hash (unless we figure out an appropriate
* hash key for them) and thus we will not hash them.
*/
if(!hash) hash = nodeHash(node);
var out;
if(hash) {
out = drawing.savedBBoxes[hash];
if(out) return Lib.extendFlat({}, out);
}
else if(node.childNodes.length === 1) {
/*
* If we have only one child element, which is itself hashable, make
* a new hash from this element plus its x,y,transform
* These bounding boxes *include* x,y,transform - mostly for use by
* callers trying to avoid overlaps (ie titles)
*/
var innerNode = node.childNodes[0];
hash = nodeHash(innerNode);
if(hash) {
var x = +innerNode.getAttribute('x') || 0;
var y = +innerNode.getAttribute('y') || 0;
var transform = innerNode.getAttribute('transform');
if(!transform) {
// in this case, just varying x and y, don't bother caching
// the final bBox because the alteration is quick.
var innerBB = drawing.bBox(innerNode, false, hash);
if(x) {
innerBB.left += x;
innerBB.right += x;
}
if(y) {
innerBB.top += y;
innerBB.bottom += y;
}
return innerBB;
}
/*
* else we have a transform - rather than make a complicated
* (and error-prone and probably slow) transform parser/calculator,
* just continue on calculating the boundingClientRect of the group
* and use the new composite hash to cache it.
* That said, `innerNode.transform.baseVal` is an array of
* `SVGTransform` objects, that *do* seem to have a nice matrix
* multiplication interface that we could use to avoid making
* another getBoundingClientRect call...
*/
hash += '~' + x + '~' + y + '~' + transform;
out = drawing.savedBBoxes[hash];
if(out) return Lib.extendFlat({}, out);
}
}
var testNode, tester;
if(inTester) {
testNode = node;
}
else {
tester = drawing.tester.node();
// copy the node to test into the tester
testNode = node.cloneNode(true);
tester.appendChild(testNode);
}
// standardize its position (and newline tspans if any)
d3.select(testNode)
.attr('transform', null)
.call(svgTextUtils.positionText, 0, 0);
var testRect = testNode.getBoundingClientRect();
var refRect = drawing.testref
.node()
.getBoundingClientRect();
if(!inTester) tester.removeChild(testNode);
var bb = {
height: testRect.height,
width: testRect.width,
left: testRect.left - refRect.left,
top: testRect.top - refRect.top,
right: testRect.right - refRect.left,
bottom: testRect.bottom - refRect.top
};
// make sure we don't have too many saved boxes,
// or a long session could overload on memory
// by saving boxes for long-gone elements
if(savedBBoxesCount >= maxSavedBBoxes) {
drawing.savedBBoxes = {};
savedBBoxesCount = 0;
}
// cache this bbox
if(hash) drawing.savedBBoxes[hash] = bb;
savedBBoxesCount++;
return Lib.extendFlat({}, bb);
};
// capture everything about a node (at least in our usage) that
// impacts its bounding box, given that bBox clears x, y, and transform
function nodeHash(node) {
var inputText = node.getAttribute('data-unformatted');
if(inputText === null) return;
return inputText +
node.getAttribute('data-math') +
node.getAttribute('text-anchor') +
node.getAttribute('style');
}
/*
* make a robust clipPath url from a local id
* note! We'd better not be exporting from a page
* with a <base> or the svg will not be portable!
*/
drawing.setClipUrl = function(s, localId) {
if(!localId) {
s.attr('clip-path', null);
return;
}
if(drawing.baseUrl === undefined) {
var base = d3.select('base');
// Stash base url once and for all!
// We may have to stash this elsewhere when
// we'll try to support for child windows
// more info -> https://github.com/plotly/plotly.js/issues/702
if(base.size() && base.attr('href')) {
drawing.baseUrl = window.location.href.split('#')[0];
} else {
drawing.baseUrl = '';
}
}
s.attr('clip-path', 'url(' + drawing.baseUrl + '#' + localId + ')');
};
drawing.getTranslate = function(element) {
// Note the separator [^\d] between x and y in this regex
// We generally use ',' but IE will convert it to ' '
var re = /.*\btranslate\((-?\d*\.?\d*)[^-\d]*(-?\d*\.?\d*)[^\d].*/,
getter = element.attr ? 'attr' : 'getAttribute',
transform = element[getter]('transform') || '';
var translate = transform.replace(re, function(match, p1, p2) {
return [p1, p2].join(' ');
})
.split(' ');
return {
x: +translate[0] || 0,
y: +translate[1] || 0
};
};
drawing.setTranslate = function(element, x, y) {
var re = /(\btranslate\(.*?\);?)/,
getter = element.attr ? 'attr' : 'getAttribute',
setter = element.attr ? 'attr' : 'setAttribute',
transform = element[getter]('transform') || '';
x = x || 0;
y = y || 0;
transform = transform.replace(re, '').trim();
transform += ' translate(' + x + ', ' + y + ')';
transform = transform.trim();
element[setter]('transform', transform);
return transform;
};
drawing.getScale = function(element) {
var re = /.*\bscale\((\d*\.?\d*)[^\d]*(\d*\.?\d*)[^\d].*/,
getter = element.attr ? 'attr' : 'getAttribute',
transform = element[getter]('transform') || '';
var translate = transform.replace(re, function(match, p1, p2) {
return [p1, p2].join(' ');
})
.split(' ');
return {
x: +translate[0] || 1,
y: +translate[1] || 1
};
};
drawing.setScale = function(element, x, y) {
var re = /(\bscale\(.*?\);?)/,
getter = element.attr ? 'attr' : 'getAttribute',
setter = element.attr ? 'attr' : 'setAttribute',
transform = element[getter]('transform') || '';
x = x || 1;
y = y || 1;
transform = transform.replace(re, '').trim();
transform += ' scale(' + x + ', ' + y + ')';
transform = transform.trim();
element[setter]('transform', transform);
return transform;
};
var SCALE_RE = /\s*sc.*/;
drawing.setPointGroupScale = function(selection, xScale, yScale) {
xScale = xScale || 1;
yScale = yScale || 1;
if(!selection) return;
// The same scale transform for every point:
var scale = (xScale === 1 && yScale === 1) ?
'' :
' scale(' + xScale + ',' + yScale + ')';
selection.each(function() {
var t = (this.getAttribute('transform') || '').replace(SCALE_RE, '');
t += scale;
t = t.trim();
this.setAttribute('transform', t);
});
};
var TEXT_POINT_LAST_TRANSLATION_RE = /translate\([^)]*\)\s*$/;
drawing.setTextPointsScale = function(selection, xScale, yScale) {
if(!selection) return;
selection.each(function() {
var transforms;
var el = d3.select(this);
var text = el.select('text');
if(!text.node()) return;
var x = parseFloat(text.attr('x') || 0);
var y = parseFloat(text.attr('y') || 0);
var existingTransform = (el.attr('transform') || '').match(TEXT_POINT_LAST_TRANSLATION_RE);
if(xScale === 1 && yScale === 1) {
transforms = [];
} else {
transforms = [
'translate(' + x + ',' + y + ')',
'scale(' + xScale + ',' + yScale + ')',
'translate(' + (-x) + ',' + (-y) + ')',
];
}
if(existingTransform) {
transforms.push(existingTransform);
}
el.attr('transform', transforms.join(' '));
});
};
},{"../../constants/alignment":665,"../../constants/interactions":669,"../../constants/xmlns_namespaces":671,"../../lib":693,"../../lib/svg_text_utils":718,"../../registry":825,"../../traces/scatter/make_bubble_size_func":1049,"../../traces/scatter/subtypes":1056,"../color":567,"../colorscale":582,"./symbol_defs":593,"d3":147,"fast-isnumeric":213,"tinycolor2":511}],593:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
/** Marker symbol definitions
* users can specify markers either by number or name
* add 100 (or '-open') and you get an open marker
* open markers have no fill and use line color as the stroke color
* add 200 (or '-dot') and you get a dot in the middle
* add both and you get both
*/
module.exports = {
circle: {
n: 0,
f: function(r) {
var rs = d3.round(r, 2);
return 'M' + rs + ',0A' + rs + ',' + rs + ' 0 1,1 0,-' + rs +
'A' + rs + ',' + rs + ' 0 0,1 ' + rs + ',0Z';
}
},
square: {
n: 1,
f: function(r) {
var rs = d3.round(r, 2);
return 'M' + rs + ',' + rs + 'H-' + rs + 'V-' + rs + 'H' + rs + 'Z';
}
},
diamond: {
n: 2,
f: function(r) {
var rd = d3.round(r * 1.3, 2);
return 'M' + rd + ',0L0,' + rd + 'L-' + rd + ',0L0,-' + rd + 'Z';
}
},
cross: {
n: 3,
f: function(r) {
var rc = d3.round(r * 0.4, 2),
rc2 = d3.round(r * 1.2, 2);
return 'M' + rc2 + ',' + rc + 'H' + rc + 'V' + rc2 + 'H-' + rc +
'V' + rc + 'H-' + rc2 + 'V-' + rc + 'H-' + rc + 'V-' + rc2 +
'H' + rc + 'V-' + rc + 'H' + rc2 + 'Z';
}
},
x: {
n: 4,
f: function(r) {
var rx = d3.round(r * 0.8 / Math.sqrt(2), 2),
ne = 'l' + rx + ',' + rx,
se = 'l' + rx + ',-' + rx,
sw = 'l-' + rx + ',-' + rx,
nw = 'l-' + rx + ',' + rx;
return 'M0,' + rx + ne + se + sw + se + sw + nw + sw + nw + ne + nw + ne + 'Z';
}
},
'triangle-up': {
n: 5,
f: function(r) {
var rt = d3.round(r * 2 / Math.sqrt(3), 2),
r2 = d3.round(r / 2, 2),
rs = d3.round(r, 2);
return 'M-' + rt + ',' + r2 + 'H' + rt + 'L0,-' + rs + 'Z';
}
},
'triangle-down': {
n: 6,
f: function(r) {
var rt = d3.round(r * 2 / Math.sqrt(3), 2),
r2 = d3.round(r / 2, 2),
rs = d3.round(r, 2);
return 'M-' + rt + ',-' + r2 + 'H' + rt + 'L0,' + rs + 'Z';
}
},
'triangle-left': {
n: 7,
f: function(r) {
var rt = d3.round(r * 2 / Math.sqrt(3), 2),
r2 = d3.round(r / 2, 2),
rs = d3.round(r, 2);
return 'M' + r2 + ',-' + rt + 'V' + rt + 'L-' + rs + ',0Z';
}
},
'triangle-right': {
n: 8,
f: function(r) {
var rt = d3.round(r * 2 / Math.sqrt(3), 2),
r2 = d3.round(r / 2, 2),
rs = d3.round(r, 2);
return 'M-' + r2 + ',-' + rt + 'V' + rt + 'L' + rs + ',0Z';
}
},
'triangle-ne': {
n: 9,
f: function(r) {
var r1 = d3.round(r * 0.6, 2),
r2 = d3.round(r * 1.2, 2);
return 'M-' + r2 + ',-' + r1 + 'H' + r1 + 'V' + r2 + 'Z';
}
},
'triangle-se': {
n: 10,
f: function(r) {
var r1 = d3.round(r * 0.6, 2),
r2 = d3.round(r * 1.2, 2);
return 'M' + r1 + ',-' + r2 + 'V' + r1 + 'H-' + r2 + 'Z';
}
},
'triangle-sw': {
n: 11,
f: function(r) {
var r1 = d3.round(r * 0.6, 2),
r2 = d3.round(r * 1.2, 2);
return 'M' + r2 + ',' + r1 + 'H-' + r1 + 'V-' + r2 + 'Z';
}
},
'triangle-nw': {
n: 12,
f: function(r) {
var r1 = d3.round(r * 0.6, 2),
r2 = d3.round(r * 1.2, 2);
return 'M-' + r1 + ',' + r2 + 'V-' + r1 + 'H' + r2 + 'Z';
}
},
pentagon: {
n: 13,
f: function(r) {
var x1 = d3.round(r * 0.951, 2),
x2 = d3.round(r * 0.588, 2),
y0 = d3.round(-r, 2),
y1 = d3.round(r * -0.309, 2),
y2 = d3.round(r * 0.809, 2);
return 'M' + x1 + ',' + y1 + 'L' + x2 + ',' + y2 + 'H-' + x2 +
'L-' + x1 + ',' + y1 + 'L0,' + y0 + 'Z';
}
},
hexagon: {
n: 14,
f: function(r) {
var y0 = d3.round(r, 2),
y1 = d3.round(r / 2, 2),
x = d3.round(r * Math.sqrt(3) / 2, 2);
return 'M' + x + ',-' + y1 + 'V' + y1 + 'L0,' + y0 +
'L-' + x + ',' + y1 + 'V-' + y1 + 'L0,-' + y0 + 'Z';
}
},
hexagon2: {
n: 15,
f: function(r) {
var x0 = d3.round(r, 2),
x1 = d3.round(r / 2, 2),
y = d3.round(r * Math.sqrt(3) / 2, 2);
return 'M-' + x1 + ',' + y + 'H' + x1 + 'L' + x0 +
',0L' + x1 + ',-' + y + 'H-' + x1 + 'L-' + x0 + ',0Z';
}
},
octagon: {
n: 16,
f: function(r) {
var a = d3.round(r * 0.924, 2),
b = d3.round(r * 0.383, 2);
return 'M-' + b + ',-' + a + 'H' + b + 'L' + a + ',-' + b + 'V' + b +
'L' + b + ',' + a + 'H-' + b + 'L-' + a + ',' + b + 'V-' + b + 'Z';
}
},
star: {
n: 17,
f: function(r) {
var rs = r * 1.4,
x1 = d3.round(rs * 0.225, 2),
x2 = d3.round(rs * 0.951, 2),
x3 = d3.round(rs * 0.363, 2),
x4 = d3.round(rs * 0.588, 2),
y0 = d3.round(-rs, 2),
y1 = d3.round(rs * -0.309, 2),
y3 = d3.round(rs * 0.118, 2),
y4 = d3.round(rs * 0.809, 2),
y5 = d3.round(rs * 0.382, 2);
return 'M' + x1 + ',' + y1 + 'H' + x2 + 'L' + x3 + ',' + y3 +
'L' + x4 + ',' + y4 + 'L0,' + y5 + 'L-' + x4 + ',' + y4 +
'L-' + x3 + ',' + y3 + 'L-' + x2 + ',' + y1 + 'H-' + x1 +
'L0,' + y0 + 'Z';
}
},
hexagram: {
n: 18,
f: function(r) {
var y = d3.round(r * 0.66, 2),
x1 = d3.round(r * 0.38, 2),
x2 = d3.round(r * 0.76, 2);
return 'M-' + x2 + ',0l-' + x1 + ',-' + y + 'h' + x2 +
'l' + x1 + ',-' + y + 'l' + x1 + ',' + y + 'h' + x2 +
'l-' + x1 + ',' + y + 'l' + x1 + ',' + y + 'h-' + x2 +
'l-' + x1 + ',' + y + 'l-' + x1 + ',-' + y + 'h-' + x2 + 'Z';
}
},
'star-triangle-up': {
n: 19,
f: function(r) {
var x = d3.round(r * Math.sqrt(3) * 0.8, 2),
y1 = d3.round(r * 0.8, 2),
y2 = d3.round(r * 1.6, 2),
rc = d3.round(r * 4, 2),
aPart = 'A ' + rc + ',' + rc + ' 0 0 1 ';
return 'M-' + x + ',' + y1 + aPart + x + ',' + y1 +
aPart + '0,-' + y2 + aPart + '-' + x + ',' + y1 + 'Z';
}
},
'star-triangle-down': {
n: 20,
f: function(r) {
var x = d3.round(r * Math.sqrt(3) * 0.8, 2),
y1 = d3.round(r * 0.8, 2),
y2 = d3.round(r * 1.6, 2),
rc = d3.round(r * 4, 2),
aPart = 'A ' + rc + ',' + rc + ' 0 0 1 ';
return 'M' + x + ',-' + y1 + aPart + '-' + x + ',-' + y1 +
aPart + '0,' + y2 + aPart + x + ',-' + y1 + 'Z';
}
},
'star-square': {
n: 21,
f: function(r) {
var rp = d3.round(r * 1.1, 2),
rc = d3.round(r * 2, 2),
aPart = 'A ' + rc + ',' + rc + ' 0 0 1 ';
return 'M-' + rp + ',-' + rp + aPart + '-' + rp + ',' + rp +
aPart + rp + ',' + rp + aPart + rp + ',-' + rp +
aPart + '-' + rp + ',-' + rp + 'Z';
}
},
'star-diamond': {
n: 22,
f: function(r) {
var rp = d3.round(r * 1.4, 2),
rc = d3.round(r * 1.9, 2),
aPart = 'A ' + rc + ',' + rc + ' 0 0 1 ';
return 'M-' + rp + ',0' + aPart + '0,' + rp +
aPart + rp + ',0' + aPart + '0,-' + rp +
aPart + '-' + rp + ',0' + 'Z';
}
},
'diamond-tall': {
n: 23,
f: function(r) {
var x = d3.round(r * 0.7, 2),
y = d3.round(r * 1.4, 2);
return 'M0,' + y + 'L' + x + ',0L0,-' + y + 'L-' + x + ',0Z';
}
},
'diamond-wide': {
n: 24,
f: function(r) {
var x = d3.round(r * 1.4, 2),
y = d3.round(r * 0.7, 2);
return 'M0,' + y + 'L' + x + ',0L0,-' + y + 'L-' + x + ',0Z';
}
},
hourglass: {
n: 25,
f: function(r) {
var rs = d3.round(r, 2);
return 'M' + rs + ',' + rs + 'H-' + rs + 'L' + rs + ',-' + rs + 'H-' + rs + 'Z';
},
noDot: true
},
bowtie: {
n: 26,
f: function(r) {
var rs = d3.round(r, 2);
return 'M' + rs + ',' + rs + 'V-' + rs + 'L-' + rs + ',' + rs + 'V-' + rs + 'Z';
},
noDot: true
},
'circle-cross': {
n: 27,
f: function(r) {
var rs = d3.round(r, 2);
return 'M0,' + rs + 'V-' + rs + 'M' + rs + ',0H-' + rs +
'M' + rs + ',0A' + rs + ',' + rs + ' 0 1,1 0,-' + rs +
'A' + rs + ',' + rs + ' 0 0,1 ' + rs + ',0Z';
},
needLine: true,
noDot: true
},
'circle-x': {
n: 28,
f: function(r) {
var rs = d3.round(r, 2),
rc = d3.round(r / Math.sqrt(2), 2);
return 'M' + rc + ',' + rc + 'L-' + rc + ',-' + rc +
'M' + rc + ',-' + rc + 'L-' + rc + ',' + rc +
'M' + rs + ',0A' + rs + ',' + rs + ' 0 1,1 0,-' + rs +
'A' + rs + ',' + rs + ' 0 0,1 ' + rs + ',0Z';
},
needLine: true,
noDot: true
},
'square-cross': {
n: 29,
f: function(r) {
var rs = d3.round(r, 2);
return 'M0,' + rs + 'V-' + rs + 'M' + rs + ',0H-' + rs +
'M' + rs + ',' + rs + 'H-' + rs + 'V-' + rs + 'H' + rs + 'Z';
},
needLine: true,
noDot: true
},
'square-x': {
n: 30,
f: function(r) {
var rs = d3.round(r, 2);
return 'M' + rs + ',' + rs + 'L-' + rs + ',-' + rs +
'M' + rs + ',-' + rs + 'L-' + rs + ',' + rs +
'M' + rs + ',' + rs + 'H-' + rs + 'V-' + rs + 'H' + rs + 'Z';
},
needLine: true,
noDot: true
},
'diamond-cross': {
n: 31,
f: function(r) {
var rd = d3.round(r * 1.3, 2);
return 'M' + rd + ',0L0,' + rd + 'L-' + rd + ',0L0,-' + rd + 'Z' +
'M0,-' + rd + 'V' + rd + 'M-' + rd + ',0H' + rd;
},
needLine: true,
noDot: true
},
'diamond-x': {
n: 32,
f: function(r) {
var rd = d3.round(r * 1.3, 2),
r2 = d3.round(r * 0.65, 2);
return 'M' + rd + ',0L0,' + rd + 'L-' + rd + ',0L0,-' + rd + 'Z' +
'M-' + r2 + ',-' + r2 + 'L' + r2 + ',' + r2 +
'M-' + r2 + ',' + r2 + 'L' + r2 + ',-' + r2;
},
needLine: true,
noDot: true
},
'cross-thin': {
n: 33,
f: function(r) {
var rc = d3.round(r * 1.4, 2);
return 'M0,' + rc + 'V-' + rc + 'M' + rc + ',0H-' + rc;
},
needLine: true,
noDot: true,
noFill: true
},
'x-thin': {
n: 34,
f: function(r) {
var rx = d3.round(r, 2);
return 'M' + rx + ',' + rx + 'L-' + rx + ',-' + rx +
'M' + rx + ',-' + rx + 'L-' + rx + ',' + rx;
},
needLine: true,
noDot: true,
noFill: true
},
asterisk: {
n: 35,
f: function(r) {
var rc = d3.round(r * 1.2, 2);
var rs = d3.round(r * 0.85, 2);
return 'M0,' + rc + 'V-' + rc + 'M' + rc + ',0H-' + rc +
'M' + rs + ',' + rs + 'L-' + rs + ',-' + rs +
'M' + rs + ',-' + rs + 'L-' + rs + ',' + rs;
},
needLine: true,
noDot: true,
noFill: true
},
hash: {
n: 36,
f: function(r) {
var r1 = d3.round(r / 2, 2),
r2 = d3.round(r, 2);
return 'M' + r1 + ',' + r2 + 'V-' + r2 +
'm-' + r2 + ',0V' + r2 +
'M' + r2 + ',' + r1 + 'H-' + r2 +
'm0,-' + r2 + 'H' + r2;
},
needLine: true,
noFill: true
},
'y-up': {
n: 37,
f: function(r) {
var x = d3.round(r * 1.2, 2),
y0 = d3.round(r * 1.6, 2),
y1 = d3.round(r * 0.8, 2);
return 'M-' + x + ',' + y1 + 'L0,0M' + x + ',' + y1 + 'L0,0M0,-' + y0 + 'L0,0';
},
needLine: true,
noDot: true,
noFill: true
},
'y-down': {
n: 38,
f: function(r) {
var x = d3.round(r * 1.2, 2),
y0 = d3.round(r * 1.6, 2),
y1 = d3.round(r * 0.8, 2);
return 'M-' + x + ',-' + y1 + 'L0,0M' + x + ',-' + y1 + 'L0,0M0,' + y0 + 'L0,0';
},
needLine: true,
noDot: true,
noFill: true
},
'y-left': {
n: 39,
f: function(r) {
var y = d3.round(r * 1.2, 2),
x0 = d3.round(r * 1.6, 2),
x1 = d3.round(r * 0.8, 2);
return 'M' + x1 + ',' + y + 'L0,0M' + x1 + ',-' + y + 'L0,0M-' + x0 + ',0L0,0';
},
needLine: true,
noDot: true,
noFill: true
},
'y-right': {
n: 40,
f: function(r) {
var y = d3.round(r * 1.2, 2),
x0 = d3.round(r * 1.6, 2),
x1 = d3.round(r * 0.8, 2);
return 'M-' + x1 + ',' + y + 'L0,0M-' + x1 + ',-' + y + 'L0,0M' + x0 + ',0L0,0';
},
needLine: true,
noDot: true,
noFill: true
},
'line-ew': {
n: 41,
f: function(r) {
var rc = d3.round(r * 1.4, 2);
return 'M' + rc + ',0H-' + rc;
},
needLine: true,
noDot: true,
noFill: true
},
'line-ns': {
n: 42,
f: function(r) {
var rc = d3.round(r * 1.4, 2);
return 'M0,' + rc + 'V-' + rc;
},
needLine: true,
noDot: true,
noFill: true
},
'line-ne': {
n: 43,
f: function(r) {
var rx = d3.round(r, 2);
return 'M' + rx + ',-' + rx + 'L-' + rx + ',' + rx;
},
needLine: true,
noDot: true,
noFill: true
},
'line-nw': {
n: 44,
f: function(r) {
var rx = d3.round(r, 2);
return 'M' + rx + ',' + rx + 'L-' + rx + ',-' + rx;
},
needLine: true,
noDot: true,
noFill: true
}
};
},{"d3":147}],594:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
visible: {
valType: 'boolean',
editType: 'calc',
},
type: {
valType: 'enumerated',
values: ['percent', 'constant', 'sqrt', 'data'],
editType: 'calc',
},
symmetric: {
valType: 'boolean',
editType: 'calc',
},
array: {
valType: 'data_array',
editType: 'calc',
},
arrayminus: {
valType: 'data_array',
editType: 'calc',
},
value: {
valType: 'number',
min: 0,
dflt: 10,
editType: 'calc',
},
valueminus: {
valType: 'number',
min: 0,
dflt: 10,
editType: 'calc',
},
traceref: {
valType: 'integer',
min: 0,
dflt: 0,
editType: 'style'
},
tracerefminus: {
valType: 'integer',
min: 0,
dflt: 0,
editType: 'style'
},
copy_ystyle: {
valType: 'boolean',
editType: 'plot'
},
copy_zstyle: {
valType: 'boolean',
editType: 'style'
},
color: {
valType: 'color',
editType: 'style',
},
thickness: {
valType: 'number',
min: 0,
dflt: 2,
editType: 'style',
},
width: {
valType: 'number',
min: 0,
editType: 'plot',
},
editType: 'calc',
_deprecated: {
opacity: {
valType: 'number',
editType: 'style',
}
}
};
},{}],595:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var Registry = _dereq_('../../registry');
var Axes = _dereq_('../../plots/cartesian/axes');
var makeComputeError = _dereq_('./compute_error');
module.exports = function calc(gd) {
var calcdata = gd.calcdata;
for(var i = 0; i < calcdata.length; i++) {
var calcTrace = calcdata[i];
var trace = calcTrace[0].trace;
if(trace.visible === true && Registry.traceIs(trace, 'errorBarsOK')) {
var xa = Axes.getFromId(gd, trace.xaxis);
var ya = Axes.getFromId(gd, trace.yaxis);
calcOneAxis(calcTrace, trace, xa, 'x');
calcOneAxis(calcTrace, trace, ya, 'y');
}
}
};
function calcOneAxis(calcTrace, trace, axis, coord) {
var opts = trace['error_' + coord] || {},
isVisible = (opts.visible && ['linear', 'log'].indexOf(axis.type) !== -1),
vals = [];
if(!isVisible) return;
var computeError = makeComputeError(opts);
for(var i = 0; i < calcTrace.length; i++) {
var calcPt = calcTrace[i];
var iIn = calcPt.i;
// for types that don't include `i` in each calcdata point
if(iIn === undefined) iIn = i;
// for stacked area inserted points
// TODO: errorbars have been tested cursorily with stacked area,
// but not thoroughly. It's not even really clear what you want to do:
// Should it just be calculated based on that trace's size data?
// Should you add errors from below in quadrature?
// And what about normalization, where in principle the errors shrink
// again when you get up to the top end?
// One option would be to forbid errorbars with stacking until we
// decide how to handle these questions.
else if(iIn === null) continue;
var calcCoord = calcPt[coord];
if(!isNumeric(axis.c2l(calcCoord))) continue;
var errors = computeError(calcCoord, iIn);
if(isNumeric(errors[0]) && isNumeric(errors[1])) {
var shoe = calcPt[coord + 's'] = calcCoord - errors[0],
hat = calcPt[coord + 'h'] = calcCoord + errors[1];
vals.push(shoe, hat);
}
}
var extremes = Axes.findExtremes(axis, vals, {padded: true});
var axId = axis._id;
trace._extremes[axId].min = trace._extremes[axId].min.concat(extremes.min);
trace._extremes[axId].max = trace._extremes[axId].max.concat(extremes.max);
}
},{"../../plots/cartesian/axes":742,"../../registry":825,"./compute_error":596,"fast-isnumeric":213}],596:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/**
* Error bar computing function generator
*
* N.B. The generated function does not clean the dataPt entries. Non-numeric
* entries result in undefined error magnitudes.
*
* @param {object} opts error bar attributes
*
* @return {function} :
* @param {numeric} dataPt data point from where to compute the error magnitude
* @param {number} index index of dataPt in its corresponding data array
* @return {array}
* - error[0] : error magnitude in the negative direction
* - error[1] : " " " " positive "
*/
module.exports = function makeComputeError(opts) {
var type = opts.type,
symmetric = opts.symmetric;
if(type === 'data') {
var array = opts.array || [];
if(symmetric) {
return function computeError(dataPt, index) {
var val = +(array[index]);
return [val, val];
};
}
else {
var arrayminus = opts.arrayminus || [];
return function computeError(dataPt, index) {
var val = +array[index];
var valMinus = +arrayminus[index];
// in case one is present and the other is missing, fill in 0
// so we still see the present one. Mostly useful during manual
// data entry.
if(!isNaN(val) || !isNaN(valMinus)) {
return [valMinus || 0, val || 0];
}
return [NaN, NaN];
};
}
}
else {
var computeErrorValue = makeComputeErrorValue(type, opts.value),
computeErrorValueMinus = makeComputeErrorValue(type, opts.valueminus);
if(symmetric || opts.valueminus === undefined) {
return function computeError(dataPt) {
var val = computeErrorValue(dataPt);
return [val, val];
};
}
else {
return function computeError(dataPt) {
return [
computeErrorValueMinus(dataPt),
computeErrorValue(dataPt)
];
};
}
}
};
/**
* Compute error bar magnitude (for all types except data)
*
* @param {string} type error bar type
* @param {numeric} value error bar value
*
* @return {function} :
* @param {numeric} dataPt
*/
function makeComputeErrorValue(type, value) {
if(type === 'percent') {
return function(dataPt) {
return Math.abs(dataPt * value / 100);
};
}
if(type === 'constant') {
return function() {
return Math.abs(value);
};
}
if(type === 'sqrt') {
return function(dataPt) {
return Math.sqrt(Math.abs(dataPt));
};
}
}
},{}],597:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var Template = _dereq_('../../plot_api/plot_template');
var attributes = _dereq_('./attributes');
module.exports = function(traceIn, traceOut, defaultColor, opts) {
var objName = 'error_' + opts.axis;
var containerOut = Template.newContainer(traceOut, objName);
var containerIn = traceIn[objName] || {};
function coerce(attr, dflt) {
return Lib.coerce(containerIn, containerOut, attributes, attr, dflt);
}
var hasErrorBars = (
containerIn.array !== undefined ||
containerIn.value !== undefined ||
containerIn.type === 'sqrt'
);
var visible = coerce('visible', hasErrorBars);
if(visible === false) return;
var type = coerce('type', 'array' in containerIn ? 'data' : 'percent'),
symmetric = true;
if(type !== 'sqrt') {
symmetric = coerce('symmetric',
!((type === 'data' ? 'arrayminus' : 'valueminus') in containerIn));
}
if(type === 'data') {
coerce('array');
coerce('traceref');
if(!symmetric) {
coerce('arrayminus');
coerce('tracerefminus');
}
}
else if(type === 'percent' || type === 'constant') {
coerce('value');
if(!symmetric) coerce('valueminus');
}
var copyAttr = 'copy_' + opts.inherit + 'style';
if(opts.inherit) {
var inheritObj = traceOut['error_' + opts.inherit];
if((inheritObj || {}).visible) {
coerce(copyAttr, !(containerIn.color ||
isNumeric(containerIn.thickness) ||
isNumeric(containerIn.width)));
}
}
if(!opts.inherit || !containerOut[copyAttr]) {
coerce('color', defaultColor);
coerce('thickness');
coerce('width', Registry.traceIs(traceOut, 'gl3d') ? 0 : 4);
}
};
},{"../../lib":693,"../../plot_api/plot_template":732,"../../registry":825,"./attributes":594,"fast-isnumeric":213}],598:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll;
var attributes = _dereq_('./attributes');
var xyAttrs = {
error_x: Lib.extendFlat({}, attributes),
error_y: Lib.extendFlat({}, attributes)
};
delete xyAttrs.error_x.copy_zstyle;
delete xyAttrs.error_y.copy_zstyle;
delete xyAttrs.error_y.copy_ystyle;
var xyzAttrs = {
error_x: Lib.extendFlat({}, attributes),
error_y: Lib.extendFlat({}, attributes),
error_z: Lib.extendFlat({}, attributes)
};
delete xyzAttrs.error_x.copy_ystyle;
delete xyzAttrs.error_y.copy_ystyle;
delete xyzAttrs.error_z.copy_ystyle;
delete xyzAttrs.error_z.copy_zstyle;
module.exports = {
moduleType: 'component',
name: 'errorbars',
schema: {
traces: {
scatter: xyAttrs,
bar: xyAttrs,
histogram: xyAttrs,
scatter3d: overrideAll(xyzAttrs, 'calc', 'nested'),
scattergl: overrideAll(xyAttrs, 'calc', 'nested')
}
},
supplyDefaults: _dereq_('./defaults'),
calc: _dereq_('./calc'),
makeComputeError: _dereq_('./compute_error'),
plot: _dereq_('./plot'),
style: _dereq_('./style'),
hoverInfo: hoverInfo
};
function hoverInfo(calcPoint, trace, hoverPoint) {
if((trace.error_y || {}).visible) {
hoverPoint.yerr = calcPoint.yh - calcPoint.y;
if(!trace.error_y.symmetric) hoverPoint.yerrneg = calcPoint.y - calcPoint.ys;
}
if((trace.error_x || {}).visible) {
hoverPoint.xerr = calcPoint.xh - calcPoint.x;
if(!trace.error_x.symmetric) hoverPoint.xerrneg = calcPoint.x - calcPoint.xs;
}
}
},{"../../lib":693,"../../plot_api/edit_types":725,"./attributes":594,"./calc":595,"./compute_error":596,"./defaults":597,"./plot":599,"./style":600}],599:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var isNumeric = _dereq_('fast-isnumeric');
var Drawing = _dereq_('../drawing');
var subTypes = _dereq_('../../traces/scatter/subtypes');
module.exports = function plot(traces, plotinfo, transitionOpts) {
var isNew;
var xa = plotinfo.xaxis;
var ya = plotinfo.yaxis;
var hasAnimation = transitionOpts && transitionOpts.duration > 0;
traces.each(function(d) {
var trace = d[0].trace,
// || {} is in case the trace (specifically scatterternary)
// doesn't support error bars at all, but does go through
// the scatter.plot mechanics, which calls ErrorBars.plot
// internally
xObj = trace.error_x || {},
yObj = trace.error_y || {};
var keyFunc;
if(trace.ids) {
keyFunc = function(d) {return d.id;};
}
var sparse = (
subTypes.hasMarkers(trace) &&
trace.marker.maxdisplayed > 0
);
if(!yObj.visible && !xObj.visible) d = [];
var errorbars = d3.select(this).selectAll('g.errorbar')
.data(d, keyFunc);
errorbars.exit().remove();
if(!d.length) return;
if(!xObj.visible) errorbars.selectAll('path.xerror').remove();
if(!yObj.visible) errorbars.selectAll('path.yerror').remove();
errorbars.style('opacity', 1);
var enter = errorbars.enter().append('g')
.classed('errorbar', true);
if(hasAnimation) {
enter.style('opacity', 0).transition()
.duration(transitionOpts.duration)
.style('opacity', 1);
}
Drawing.setClipUrl(errorbars, plotinfo.layerClipId);
errorbars.each(function(d) {
var errorbar = d3.select(this);
var coords = errorCoords(d, xa, ya);
if(sparse && !d.vis) return;
var path;
var yerror = errorbar.select('path.yerror');
if(yObj.visible && isNumeric(coords.x) &&
isNumeric(coords.yh) &&
isNumeric(coords.ys)) {
var yw = yObj.width;
path = 'M' + (coords.x - yw) + ',' +
coords.yh + 'h' + (2 * yw) + // hat
'm-' + yw + ',0V' + coords.ys; // bar
if(!coords.noYS) path += 'm-' + yw + ',0h' + (2 * yw); // shoe
isNew = !yerror.size();
if(isNew) {
yerror = errorbar.append('path')
.style('vector-effect', 'non-scaling-stroke')
.classed('yerror', true);
} else if(hasAnimation) {
yerror = yerror
.transition()
.duration(transitionOpts.duration)
.ease(transitionOpts.easing);
}
yerror.attr('d', path);
}
else yerror.remove();
var xerror = errorbar.select('path.xerror');
if(xObj.visible && isNumeric(coords.y) &&
isNumeric(coords.xh) &&
isNumeric(coords.xs)) {
var xw = (xObj.copy_ystyle ? yObj : xObj).width;
path = 'M' + coords.xh + ',' +
(coords.y - xw) + 'v' + (2 * xw) + // hat
'm0,-' + xw + 'H' + coords.xs; // bar
if(!coords.noXS) path += 'm0,-' + xw + 'v' + (2 * xw); // shoe
isNew = !xerror.size();
if(isNew) {
xerror = errorbar.append('path')
.style('vector-effect', 'non-scaling-stroke')
.classed('xerror', true);
} else if(hasAnimation) {
xerror = xerror
.transition()
.duration(transitionOpts.duration)
.ease(transitionOpts.easing);
}
xerror.attr('d', path);
}
else xerror.remove();
});
});
};
// compute the coordinates of the error-bar objects
function errorCoords(d, xa, ya) {
var out = {
x: xa.c2p(d.x),
y: ya.c2p(d.y)
};
// calculate the error bar size and hat and shoe locations
if(d.yh !== undefined) {
out.yh = ya.c2p(d.yh);
out.ys = ya.c2p(d.ys);
// if the shoes go off-scale (ie log scale, error bars past zero)
// clip the bar and hide the shoes
if(!isNumeric(out.ys)) {
out.noYS = true;
out.ys = ya.c2p(d.ys, true);
}
}
if(d.xh !== undefined) {
out.xh = xa.c2p(d.xh);
out.xs = xa.c2p(d.xs);
if(!isNumeric(out.xs)) {
out.noXS = true;
out.xs = xa.c2p(d.xs, true);
}
}
return out;
}
},{"../../traces/scatter/subtypes":1056,"../drawing":592,"d3":147,"fast-isnumeric":213}],600:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Color = _dereq_('../color');
module.exports = function style(traces) {
traces.each(function(d) {
var trace = d[0].trace,
yObj = trace.error_y || {},
xObj = trace.error_x || {};
var s = d3.select(this);
s.selectAll('path.yerror')
.style('stroke-width', yObj.thickness + 'px')
.call(Color.stroke, yObj.color);
if(xObj.copy_ystyle) xObj = yObj;
s.selectAll('path.xerror')
.style('stroke-width', xObj.thickness + 'px')
.call(Color.stroke, xObj.color);
});
};
},{"../color":567,"d3":147}],601:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var fontAttrs = _dereq_('../../plots/font_attributes');
module.exports = {
hoverlabel: {
bgcolor: {
valType: 'color',
arrayOk: true,
editType: 'none',
},
bordercolor: {
valType: 'color',
arrayOk: true,
editType: 'none',
},
font: fontAttrs({
arrayOk: true,
editType: 'none',
}),
namelength: {
valType: 'integer',
min: -1,
arrayOk: true,
editType: 'none',
},
editType: 'calc'
}
};
},{"../../plots/font_attributes":768}],602:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Registry = _dereq_('../../registry');
module.exports = function calc(gd) {
var calcdata = gd.calcdata;
var fullLayout = gd._fullLayout;
function makeCoerceHoverInfo(trace) {
return function(val) {
return Lib.coerceHoverinfo({hoverinfo: val}, {_module: trace._module}, fullLayout);
};
}
for(var i = 0; i < calcdata.length; i++) {
var cd = calcdata[i];
var trace = cd[0].trace;
// don't include hover calc fields for pie traces
// as calcdata items might be sorted by value and
// won't match the data array order.
if(Registry.traceIs(trace, 'pie')) continue;
var fillFn = Registry.traceIs(trace, '2dMap') ? paste : Lib.fillArray;
fillFn(trace.hoverinfo, cd, 'hi', makeCoerceHoverInfo(trace));
if(!trace.hoverlabel) continue;
fillFn(trace.hoverlabel.bgcolor, cd, 'hbg');
fillFn(trace.hoverlabel.bordercolor, cd, 'hbc');
fillFn(trace.hoverlabel.font.size, cd, 'hts');
fillFn(trace.hoverlabel.font.color, cd, 'htc');
fillFn(trace.hoverlabel.font.family, cd, 'htf');
fillFn(trace.hoverlabel.namelength, cd, 'hnl');
}
};
function paste(traceAttr, cd, cdAttr, fn) {
fn = fn || Lib.identity;
if(Array.isArray(traceAttr)) {
cd[0][cdAttr] = fn(traceAttr);
}
}
},{"../../lib":693,"../../registry":825}],603:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
var hover = _dereq_('./hover').hover;
module.exports = function click(gd, evt, subplot) {
var annotationsDone = Registry.getComponentMethod('annotations', 'onClick')(gd, gd._hoverdata);
// fallback to fail-safe in case the plot type's hover method doesn't pass the subplot.
// Ternary, for example, didn't, but it was caught because tested.
if(subplot !== undefined) {
// The true flag at the end causes it to re-run the hover computation to figure out *which*
// point is being clicked. Without this, clicking is somewhat unreliable.
hover(gd, evt, subplot, true);
}
function emitClick() { gd.emit('plotly_click', {points: gd._hoverdata, event: evt}); }
if(gd._hoverdata && evt && evt.target) {
if(annotationsDone && annotationsDone.then) {
annotationsDone.then(emitClick);
}
else emitClick();
// why do we get a double event without this???
if(evt.stopImmediatePropagation) evt.stopImmediatePropagation();
}
};
},{"../../registry":825,"./hover":607}],604:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
// hover labels for multiple horizontal bars get tilted by this angle
YANGLE: 60,
// size and display constants for hover text
// pixel size of hover arrows
HOVERARROWSIZE: 6,
// pixels padding around text
HOVERTEXTPAD: 3,
// hover font
HOVERFONTSIZE: 13,
HOVERFONT: 'Arial, sans-serif',
// minimum time (msec) between hover calls
HOVERMINTIME: 50,
// ID suffix (with fullLayout._uid) for hover events in the throttle cache
HOVERID: '-hover'
};
},{}],605:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var attributes = _dereq_('./attributes');
var handleHoverLabelDefaults = _dereq_('./hoverlabel_defaults');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
handleHoverLabelDefaults(traceIn, traceOut, coerce, layout.hoverlabel);
};
},{"../../lib":693,"./attributes":601,"./hoverlabel_defaults":608}],606:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
// look for either subplot or xaxis and yaxis attributes
// does not handle splom case
exports.getSubplot = function getSubplot(trace) {
return trace.subplot || (trace.xaxis + trace.yaxis) || trace.geo;
};
// is trace in given list of subplots?
// does handle splom case
exports.isTraceInSubplots = function isTraceInSubplot(trace, subplots) {
if(trace.type === 'splom') {
var xaxes = trace.xaxes || [];
var yaxes = trace.yaxes || [];
for(var i = 0; i < xaxes.length; i++) {
for(var j = 0; j < yaxes.length; j++) {
if(subplots.indexOf(xaxes[i] + yaxes[j]) !== -1) {
return true;
}
}
}
return false;
}
return subplots.indexOf(exports.getSubplot(trace)) !== -1;
};
// convenience functions for mapping all relevant axes
exports.flat = function flat(subplots, v) {
var out = new Array(subplots.length);
for(var i = 0; i < subplots.length; i++) {
out[i] = v;
}
return out;
};
exports.p2c = function p2c(axArray, v) {
var out = new Array(axArray.length);
for(var i = 0; i < axArray.length; i++) {
out[i] = axArray[i].p2c(v);
}
return out;
};
exports.getDistanceFunction = function getDistanceFunction(mode, dx, dy, dxy) {
if(mode === 'closest') return dxy || exports.quadrature(dx, dy);
return mode === 'x' ? dx : dy;
};
exports.getClosest = function getClosest(cd, distfn, pointData) {
// do we already have a point number? (array mode only)
if(pointData.index !== false) {
if(pointData.index >= 0 && pointData.index < cd.length) {
pointData.distance = 0;
}
else pointData.index = false;
}
else {
// apply the distance function to each data point
// this is the longest loop... if this bogs down, we may need
// to create pre-sorted data (by x or y), not sure how to
// do this for 'closest'
for(var i = 0; i < cd.length; i++) {
var newDistance = distfn(cd[i]);
if(newDistance <= pointData.distance) {
pointData.index = i;
pointData.distance = newDistance;
}
}
}
return pointData;
};
/*
* pseudo-distance function for hover effects on areas: inside the region
* distance is finite (`passVal`), outside it's Infinity.
*
* @param {number} v0: signed difference between the current position and the left edge
* @param {number} v1: signed difference between the current position and the right edge
* @param {number} passVal: the value to return on success
*/
exports.inbox = function inbox(v0, v1, passVal) {
return (v0 * v1 < 0 || v0 === 0) ? passVal : Infinity;
};
exports.quadrature = function quadrature(dx, dy) {
return function(di) {
var x = dx(di),
y = dy(di);
return Math.sqrt(x * x + y * y);
};
};
/** Fill event data point object for hover and selection.
* Invokes _module.eventData if present.
*
* N.B. note that point 'index' corresponds to input data array index
* whereas 'number' is its post-transform version.
*
* If the hovered/selected pt corresponds to an multiple input points
* (e.g. for histogram and transformed traces), 'pointNumbers` and 'pointIndices'
* are include in the event data.
*
* @param {object} pt
* @param {object} trace
* @param {object} cd
* @return {object}
*/
exports.makeEventData = function makeEventData(pt, trace, cd) {
// hover uses 'index', select uses 'pointNumber'
var pointNumber = 'index' in pt ? pt.index : pt.pointNumber;
var out = {
data: trace._input,
fullData: trace,
curveNumber: trace.index,
pointNumber: pointNumber
};
if(trace._indexToPoints) {
var pointIndices = trace._indexToPoints[pointNumber];
if(pointIndices.length === 1) {
out.pointIndex = pointIndices[0];
} else {
out.pointIndices = pointIndices;
}
} else {
out.pointIndex = pointNumber;
}
if(trace._module.eventData) {
out = trace._module.eventData(out, pt, trace, cd, pointNumber);
} else {
if('xVal' in pt) out.x = pt.xVal;
else if('x' in pt) out.x = pt.x;
if('yVal' in pt) out.y = pt.yVal;
else if('y' in pt) out.y = pt.y;
if(pt.xa) out.xaxis = pt.xa;
if(pt.ya) out.yaxis = pt.ya;
if(pt.zLabelVal !== undefined) out.z = pt.zLabelVal;
}
exports.appendArrayPointValue(out, trace, pointNumber);
return out;
};
/** Appends values inside array attributes corresponding to given point number
*
* @param {object} pointData : point data object (gets mutated here)
* @param {object} trace : full trace object
* @param {number|Array(number)} pointNumber : point number. May be a length-2 array
* [row, col] to dig into 2D arrays
*/
exports.appendArrayPointValue = function(pointData, trace, pointNumber) {
var arrayAttrs = trace._arrayAttrs;
if(!arrayAttrs) {
return;
}
for(var i = 0; i < arrayAttrs.length; i++) {
var astr = arrayAttrs[i];
var key = getPointKey(astr);
if(pointData[key] === undefined) {
var val = Lib.nestedProperty(trace, astr).get();
var pointVal = getPointData(val, pointNumber);
if(pointVal !== undefined) pointData[key] = pointVal;
}
}
};
/**
* Appends values inside array attributes corresponding to given point number array
* For use when pointData references a plot entity that arose (or potentially arose)
* from multiple points in the input data
*
* @param {object} pointData : point data object (gets mutated here)
* @param {object} trace : full trace object
* @param {Array(number)|Array(Array(number))} pointNumbers : Array of point numbers.
* Each entry in the array may itself be a length-2 array [row, col] to dig into 2D arrays
*/
exports.appendArrayMultiPointValues = function(pointData, trace, pointNumbers) {
var arrayAttrs = trace._arrayAttrs;
if(!arrayAttrs) {
return;
}
for(var i = 0; i < arrayAttrs.length; i++) {
var astr = arrayAttrs[i];
var key = getPointKey(astr);
if(pointData[key] === undefined) {
var val = Lib.nestedProperty(trace, astr).get();
var keyVal = new Array(pointNumbers.length);
for(var j = 0; j < pointNumbers.length; j++) {
keyVal[j] = getPointData(val, pointNumbers[j]);
}
pointData[key] = keyVal;
}
}
};
var pointKeyMap = {
ids: 'id',
locations: 'location',
labels: 'label',
values: 'value',
'marker.colors': 'color'
};
function getPointKey(astr) {
return pointKeyMap[astr] || astr;
}
function getPointData(val, pointNumber) {
if(Array.isArray(pointNumber)) {
if(Array.isArray(val) && Array.isArray(val[pointNumber[0]])) {
return val[pointNumber[0]][pointNumber[1]];
}
} else {
return val[pointNumber];
}
}
},{"../../lib":693}],607:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var isNumeric = _dereq_('fast-isnumeric');
var tinycolor = _dereq_('tinycolor2');
var Lib = _dereq_('../../lib');
var Events = _dereq_('../../lib/events');
var svgTextUtils = _dereq_('../../lib/svg_text_utils');
var overrideCursor = _dereq_('../../lib/override_cursor');
var Drawing = _dereq_('../drawing');
var Color = _dereq_('../color');
var dragElement = _dereq_('../dragelement');
var Axes = _dereq_('../../plots/cartesian/axes');
var Registry = _dereq_('../../registry');
var helpers = _dereq_('./helpers');
var constants = _dereq_('./constants');
// hover labels for multiple horizontal bars get tilted by some angle,
// then need to be offset differently if they overlap
var YANGLE = constants.YANGLE;
var YA_RADIANS = Math.PI * YANGLE / 180;
// expansion of projected height
var YFACTOR = 1 / Math.sin(YA_RADIANS);
// to make the appropriate post-rotation x offset,
// you need both x and y offsets
var YSHIFTX = Math.cos(YA_RADIANS);
var YSHIFTY = Math.sin(YA_RADIANS);
// size and display constants for hover text
var HOVERARROWSIZE = constants.HOVERARROWSIZE;
var HOVERTEXTPAD = constants.HOVERTEXTPAD;
// fx.hover: highlight data on hover
// evt can be a mousemove event, or an object with data about what points
// to hover on
// {xpx,ypx[,hovermode]} - pixel locations from top left
// (with optional overriding hovermode)
// {xval,yval[,hovermode]} - data values
// [{curveNumber,(pointNumber|xval and/or yval)}] -
// array of specific points to highlight
// pointNumber is a single integer if gd.data[curveNumber] is 1D,
// or a two-element array if it's 2D
// xval and yval are data values,
// 1D data may specify either or both,
// 2D data must specify both
// subplot is an id string (default "xy")
// makes use of gl.hovermode, which can be:
// x (find the points with the closest x values, ie a column),
// closest (find the single closest point)
// internally there are two more that occasionally get used:
// y (pick out a row - only used for multiple horizontal bar charts)
// array (used when the user specifies an explicit
// array of points to hover on)
//
// We wrap the hovers in a timer, to limit their frequency.
// The actual rendering is done by private function _hover.
exports.hover = function hover(gd, evt, subplot, noHoverEvent) {
gd = Lib.getGraphDiv(gd);
Lib.throttle(
gd._fullLayout._uid + constants.HOVERID,
constants.HOVERMINTIME,
function() { _hover(gd, evt, subplot, noHoverEvent); }
);
};
/*
* Draw a single hover item in a pre-existing svg container somewhere
* hoverItem should have keys:
* - x and y (or x0, x1, y0, and y1):
* the pixel position to mark, relative to opts.container
* - xLabel, yLabel, zLabel, text, and name:
* info to go in the label
* - color:
* the background color for the label.
* - idealAlign (optional):
* 'left' or 'right' for which side of the x/y box to try to put this on first
* - borderColor (optional):
* color for the border, defaults to strongest contrast with color
* - fontFamily (optional):
* string, the font for this label, defaults to constants.HOVERFONT
* - fontSize (optional):
* the label font size, defaults to constants.HOVERFONTSIZE
* - fontColor (optional):
* defaults to borderColor
* opts should have keys:
* - bgColor:
* the background color this is against, used if the trace is
* non-opaque, and for the name, which goes outside the box
* - container:
* a <svg> or <g> element to add the hover label to
* - outerContainer:
* normally a parent of `container`, sets the bounding box to use to
* constrain the hover label and determine whether to show it on the left or right
*/
exports.loneHover = function loneHover(hoverItem, opts) {
var pointData = {
color: hoverItem.color || Color.defaultLine,
x0: hoverItem.x0 || hoverItem.x || 0,
x1: hoverItem.x1 || hoverItem.x || 0,
y0: hoverItem.y0 || hoverItem.y || 0,
y1: hoverItem.y1 || hoverItem.y || 0,
xLabel: hoverItem.xLabel,
yLabel: hoverItem.yLabel,
zLabel: hoverItem.zLabel,
text: hoverItem.text,
name: hoverItem.name,
idealAlign: hoverItem.idealAlign,
// optional extra bits of styling
borderColor: hoverItem.borderColor,
fontFamily: hoverItem.fontFamily,
fontSize: hoverItem.fontSize,
fontColor: hoverItem.fontColor,
// filler to make createHoverText happy
trace: {
index: 0,
hoverinfo: ''
},
xa: {_offset: 0},
ya: {_offset: 0},
index: 0
};
var container3 = d3.select(opts.container);
var outerContainer3 = opts.outerContainer ?
d3.select(opts.outerContainer) : container3;
var fullOpts = {
hovermode: 'closest',
rotateLabels: false,
bgColor: opts.bgColor || Color.background,
container: container3,
outerContainer: outerContainer3
};
var hoverLabel = createHoverText([pointData], fullOpts, opts.gd);
alignHoverText(hoverLabel, fullOpts.rotateLabels);
return hoverLabel.node();
};
// The actual implementation is here:
function _hover(gd, evt, subplot, noHoverEvent) {
if(!subplot) subplot = 'xy';
// if the user passed in an array of subplots,
// use those instead of finding overlayed plots
var subplots = Array.isArray(subplot) ? subplot : [subplot];
var fullLayout = gd._fullLayout;
var plots = fullLayout._plots || [];
var plotinfo = plots[subplot];
var hasCartesian = fullLayout._has('cartesian');
// list of all overlaid subplots to look at
if(plotinfo) {
var overlayedSubplots = plotinfo.overlays.map(function(pi) {
return pi.id;
});
subplots = subplots.concat(overlayedSubplots);
}
var len = subplots.length;
var xaArray = new Array(len);
var yaArray = new Array(len);
var supportsCompare = false;
for(var i = 0; i < len; i++) {
var spId = subplots[i];
// 'cartesian' case
var plotObj = plots[spId];
if(plotObj) {
supportsCompare = true;
// TODO make sure that fullLayout_plots axis refs
// get updated properly so that we don't have
// to use Axes.getFromId in general.
xaArray[i] = Axes.getFromId(gd, plotObj.xaxis._id);
yaArray[i] = Axes.getFromId(gd, plotObj.yaxis._id);
continue;
}
// other subplot types
var _subplot = fullLayout[spId]._subplot;
xaArray[i] = _subplot.xaxis;
yaArray[i] = _subplot.yaxis;
}
var hovermode = evt.hovermode || fullLayout.hovermode;
if(hovermode && !supportsCompare) hovermode = 'closest';
if(['x', 'y', 'closest'].indexOf(hovermode) === -1 || !gd.calcdata ||
gd.querySelector('.zoombox') || gd._dragging) {
return dragElement.unhoverRaw(gd, evt);
}
var hoverdistance = fullLayout.hoverdistance === -1 ? Infinity : fullLayout.hoverdistance;
var spikedistance = fullLayout.spikedistance === -1 ? Infinity : fullLayout.spikedistance;
// hoverData: the set of candidate points we've found to highlight
var hoverData = [];
// searchData: the data to search in. Mostly this is just a copy of
// gd.calcdata, filtered to the subplot and overlays we're on
// but if a point array is supplied it will be a mapping
// of indicated curves
var searchData = [];
// [x|y]valArray: the axis values of the hover event
// mapped onto each of the currently selected overlaid subplots
var xvalArray, yvalArray;
var itemnum, curvenum, cd, trace, subplotId, subploti, mode,
xval, yval, pointData, closedataPreviousLength;
// spikePoints: the set of candidate points we've found to draw spikes to
var spikePoints = {
hLinePoint: null,
vLinePoint: null
};
// does subplot have one (or more) horizontal traces?
// This is used to determine whether we rotate the labels or not
var hasOneHorizontalTrace = false;
// Figure out what we're hovering on:
// mouse location or user-supplied data
if(Array.isArray(evt)) {
// user specified an array of points to highlight
hovermode = 'array';
for(itemnum = 0; itemnum < evt.length; itemnum++) {
cd = gd.calcdata[evt[itemnum].curveNumber||0];
trace = cd[0].trace;
if(cd[0].trace.hoverinfo !== 'skip') {
searchData.push(cd);
if(trace.orientation === 'h') {
hasOneHorizontalTrace = true;
}
}
}
}
else {
for(curvenum = 0; curvenum < gd.calcdata.length; curvenum++) {
cd = gd.calcdata[curvenum];
trace = cd[0].trace;
if(trace.hoverinfo !== 'skip' && helpers.isTraceInSubplots(trace, subplots)) {
searchData.push(cd);
if(trace.orientation === 'h') {
hasOneHorizontalTrace = true;
}
}
}
// [x|y]px: the pixels (from top left) of the mouse location
// on the currently selected plot area
// add pointerX|Y property for drawing the spikes in spikesnap 'cursor' situation
var hasUserCalledHover = !evt.target;
var xpx, ypx;
if(hasUserCalledHover) {
if('xpx' in evt) xpx = evt.xpx;
else xpx = xaArray[0]._length / 2;
if('ypx' in evt) ypx = evt.ypx;
else ypx = yaArray[0]._length / 2;
}
else {
// fire the beforehover event and quit if it returns false
// note that we're only calling this on real mouse events, so
// manual calls to fx.hover will always run.
if(Events.triggerHandler(gd, 'plotly_beforehover', evt) === false) {
return;
}
var dbb = evt.target.getBoundingClientRect();
xpx = evt.clientX - dbb.left;
ypx = evt.clientY - dbb.top;
// in case hover was called from mouseout into hovertext,
// it's possible you're not actually over the plot anymore
if(xpx < 0 || xpx > xaArray[0]._length || ypx < 0 || ypx > yaArray[0]._length) {
return dragElement.unhoverRaw(gd, evt);
}
}
evt.pointerX = xpx + xaArray[0]._offset;
evt.pointerY = ypx + yaArray[0]._offset;
if('xval' in evt) xvalArray = helpers.flat(subplots, evt.xval);
else xvalArray = helpers.p2c(xaArray, xpx);
if('yval' in evt) yvalArray = helpers.flat(subplots, evt.yval);
else yvalArray = helpers.p2c(yaArray, ypx);
if(!isNumeric(xvalArray[0]) || !isNumeric(yvalArray[0])) {
Lib.warn('Fx.hover failed', evt, gd);
return dragElement.unhoverRaw(gd, evt);
}
}
// the pixel distance to beat as a matching point
// in 'x' or 'y' mode this resets for each trace
var distance = Infinity;
// find the closest point in each trace
// this is minimum dx and/or dy, depending on mode
// and the pixel position for the label (labelXpx, labelYpx)
for(curvenum = 0; curvenum < searchData.length; curvenum++) {
cd = searchData[curvenum];
// filter out invisible or broken data
if(!cd || !cd[0] || !cd[0].trace || cd[0].trace.visible !== true) continue;
trace = cd[0].trace;
// Explicitly bail out for these two. I don't know how to otherwise prevent
// the rest of this function from running and failing
if(['carpet', 'contourcarpet'].indexOf(trace._module.name) !== -1) continue;
if(trace.type === 'splom') {
// splom traces do not generate overlay subplots,
// it is safe to assume here splom traces correspond to the 0th subplot
subploti = 0;
subplotId = subplots[subploti];
} else {
subplotId = helpers.getSubplot(trace);
subploti = subplots.indexOf(subplotId);
}
// within one trace mode can sometimes be overridden
mode = hovermode;
// container for new point, also used to pass info into module.hoverPoints
pointData = {
// trace properties
cd: cd,
trace: trace,
xa: xaArray[subploti],
ya: yaArray[subploti],
// max distances for hover and spikes - for points that want to show but do not
// want to override other points, set distance/spikeDistance equal to max*Distance
// and it will not get filtered out but it will be guaranteed to have a greater
// distance than any point that calculated a real distance.
maxHoverDistance: hoverdistance,
maxSpikeDistance: spikedistance,
// point properties - override all of these
index: false, // point index in trace - only used by plotly.js hoverdata consumers
distance: Math.min(distance, hoverdistance), // pixel distance or pseudo-distance
// distance/pseudo-distance for spikes. This distance should always be calculated
// as if in "closest" mode, and should only be set if this point should
// generate a spike.
spikeDistance: Infinity,
// in some cases the spikes have different positioning from the hover label
// they don't need x0/x1, just one position
xSpike: undefined,
ySpike: undefined,
// where and how to display the hover label
color: Color.defaultLine, // trace color
name: trace.name,
x0: undefined,
x1: undefined,
y0: undefined,
y1: undefined,
xLabelVal: undefined,
yLabelVal: undefined,
zLabelVal: undefined,
text: undefined
};
// add ref to subplot object (non-cartesian case)
if(fullLayout[subplotId]) {
pointData.subplot = fullLayout[subplotId]._subplot;
}
closedataPreviousLength = hoverData.length;
// for a highlighting array, figure out what
// we're searching for with this element
if(mode === 'array') {
var selection = evt[curvenum];
if('pointNumber' in selection) {
pointData.index = selection.pointNumber;
mode = 'closest';
}
else {
mode = '';
if('xval' in selection) {
xval = selection.xval;
mode = 'x';
}
if('yval' in selection) {
yval = selection.yval;
mode = mode ? 'closest' : 'y';
}
}
}
else {
xval = xvalArray[subploti];
yval = yvalArray[subploti];
}
// Now if there is range to look in, find the points to hover.
if(hoverdistance !== 0) {
if(trace._module && trace._module.hoverPoints) {
var newPoints = trace._module.hoverPoints(pointData, xval, yval, mode, fullLayout._hoverlayer);
if(newPoints) {
var newPoint;
for(var newPointNum = 0; newPointNum < newPoints.length; newPointNum++) {
newPoint = newPoints[newPointNum];
if(isNumeric(newPoint.x0) && isNumeric(newPoint.y0)) {
hoverData.push(cleanPoint(newPoint, hovermode));
}
}
}
}
else {
Lib.log('Unrecognized trace type in hover:', trace);
}
}
// in closest mode, remove any existing (farther) points
// and don't look any farther than this latest point (or points, some
// traces like box & violin make multiple hover labels at once)
if(hovermode === 'closest' && hoverData.length > closedataPreviousLength) {
hoverData.splice(0, closedataPreviousLength);
distance = hoverData[0].distance;
}
// Now if there is range to look in, find the points to draw the spikelines
// Do it only if there is no hoverData
if(hasCartesian && (spikedistance !== 0)) {
if(hoverData.length === 0) {
pointData.distance = spikedistance;
pointData.index = false;
var closestPoints = trace._module.hoverPoints(pointData, xval, yval, 'closest', fullLayout._hoverlayer);
if(closestPoints) {
closestPoints = closestPoints.filter(function(point) {
// some hover points, like scatter fills, do not allow spikes,
// so will generate a hover point but without a valid spikeDistance
return point.spikeDistance <= spikedistance;
});
}
if(closestPoints && closestPoints.length) {
var tmpPoint;
var closestVPoints = closestPoints.filter(function(point) {
return point.xa.showspikes;
});
if(closestVPoints.length) {
var closestVPt = closestVPoints[0];
if(isNumeric(closestVPt.x0) && isNumeric(closestVPt.y0)) {
tmpPoint = fillSpikePoint(closestVPt);
if(!spikePoints.vLinePoint || (spikePoints.vLinePoint.spikeDistance > tmpPoint.spikeDistance)) {
spikePoints.vLinePoint = tmpPoint;
}
}
}
var closestHPoints = closestPoints.filter(function(point) {
return point.ya.showspikes;
});
if(closestHPoints.length) {
var closestHPt = closestHPoints[0];
if(isNumeric(closestHPt.x0) && isNumeric(closestHPt.y0)) {
tmpPoint = fillSpikePoint(closestHPt);
if(!spikePoints.hLinePoint || (spikePoints.hLinePoint.spikeDistance > tmpPoint.spikeDistance)) {
spikePoints.hLinePoint = tmpPoint;
}
}
}
}
}
}
}
function selectClosestPoint(pointsData, spikedistance) {
var resultPoint = null;
var minDistance = Infinity;
var thisSpikeDistance;
for(var i = 0; i < pointsData.length; i++) {
thisSpikeDistance = pointsData[i].spikeDistance;
if(thisSpikeDistance < minDistance && thisSpikeDistance <= spikedistance) {
resultPoint = pointsData[i];
minDistance = thisSpikeDistance;
}
}
return resultPoint;
}
function fillSpikePoint(point) {
if(!point) return null;
return {
xa: point.xa,
ya: point.ya,
x: point.xSpike !== undefined ? point.xSpike : (point.x0 + point.x1) / 2,
y: point.ySpike !== undefined ? point.ySpike : (point.y0 + point.y1) / 2,
distance: point.distance,
spikeDistance: point.spikeDistance,
curveNumber: point.trace.index,
color: point.color,
pointNumber: point.index
};
}
var spikelineOpts = {
fullLayout: fullLayout,
container: fullLayout._hoverlayer,
outerContainer: fullLayout._paperdiv,
event: evt
};
var oldspikepoints = gd._spikepoints,
newspikepoints = {
vLinePoint: spikePoints.vLinePoint,
hLinePoint: spikePoints.hLinePoint
};
gd._spikepoints = newspikepoints;
// Now if it is not restricted by spikedistance option, set the points to draw the spikelines
if(hasCartesian && (spikedistance !== 0)) {
if(hoverData.length !== 0) {
var tmpHPointData = hoverData.filter(function(point) {
return point.ya.showspikes;
});
var tmpHPoint = selectClosestPoint(tmpHPointData, spikedistance);
spikePoints.hLinePoint = fillSpikePoint(tmpHPoint);
var tmpVPointData = hoverData.filter(function(point) {
return point.xa.showspikes;
});
var tmpVPoint = selectClosestPoint(tmpVPointData, spikedistance);
spikePoints.vLinePoint = fillSpikePoint(tmpVPoint);
}
}
// if hoverData is empty check for the spikes to draw and quit if there are none
if(hoverData.length === 0) {
var result = dragElement.unhoverRaw(gd, evt);
if(hasCartesian && ((spikePoints.hLinePoint !== null) || (spikePoints.vLinePoint !== null))) {
if(spikesChanged(oldspikepoints)) {
createSpikelines(spikePoints, spikelineOpts);
}
}
return result;
}
if(hasCartesian) {
if(spikesChanged(oldspikepoints)) {
createSpikelines(spikePoints, spikelineOpts);
}
}
hoverData.sort(function(d1, d2) { return d1.distance - d2.distance; });
// lastly, emit custom hover/unhover events
var oldhoverdata = gd._hoverdata;
var newhoverdata = [];
// pull out just the data that's useful to
// other people and send it to the event
for(itemnum = 0; itemnum < hoverData.length; itemnum++) {
var pt = hoverData[itemnum];
newhoverdata.push(helpers.makeEventData(pt, pt.trace, pt.cd));
}
gd._hoverdata = newhoverdata;
var rotateLabels = (
(hovermode === 'y' && (searchData.length > 1 || hoverData.length > 1)) ||
(hovermode === 'closest' && hasOneHorizontalTrace && hoverData.length > 1)
);
var bgColor = Color.combine(
fullLayout.plot_bgcolor || Color.background,
fullLayout.paper_bgcolor
);
var labelOpts = {
hovermode: hovermode,
rotateLabels: rotateLabels,
bgColor: bgColor,
container: fullLayout._hoverlayer,
outerContainer: fullLayout._paperdiv,
commonLabelOpts: fullLayout.hoverlabel,
hoverdistance: fullLayout.hoverdistance
};
var hoverLabels = createHoverText(hoverData, labelOpts, gd);
hoverAvoidOverlaps(hoverData, rotateLabels ? 'xa' : 'ya', fullLayout);
alignHoverText(hoverLabels, rotateLabels);
// TODO: tagName hack is needed to appease geo.js's hack of using evt.target=true
// we should improve the "fx" API so other plots can use it without these hack.
if(evt.target && evt.target.tagName) {
var hasClickToShow = Registry.getComponentMethod('annotations', 'hasClickToShow')(gd, newhoverdata);
overrideCursor(d3.select(evt.target), hasClickToShow ? 'pointer' : '');
}
// don't emit events if called manually
if(!evt.target || noHoverEvent || !hoverChanged(gd, evt, oldhoverdata)) return;
if(oldhoverdata) {
gd.emit('plotly_unhover', {
event: evt,
points: oldhoverdata
});
}
gd.emit('plotly_hover', {
event: evt,
points: gd._hoverdata,
xaxes: xaArray,
yaxes: yaArray,
xvals: xvalArray,
yvals: yvalArray
});
}
function createHoverText(hoverData, opts, gd) {
var hovermode = opts.hovermode;
var rotateLabels = opts.rotateLabels;
var bgColor = opts.bgColor;
var container = opts.container;
var outerContainer = opts.outerContainer;
var commonLabelOpts = opts.commonLabelOpts || {};
// opts.fontFamily/Size are used for the common label
// and as defaults for each hover label, though the individual labels
// can override this.
var fontFamily = opts.fontFamily || constants.HOVERFONT;
var fontSize = opts.fontSize || constants.HOVERFONTSIZE;
var c0 = hoverData[0];
var xa = c0.xa;
var ya = c0.ya;
var commonAttr = hovermode === 'y' ? 'yLabel' : 'xLabel';
var t0 = c0[commonAttr];
var t00 = (String(t0) || '').split(' ')[0];
var outerContainerBB = outerContainer.node().getBoundingClientRect();
var outerTop = outerContainerBB.top;
var outerWidth = outerContainerBB.width;
var outerHeight = outerContainerBB.height;
// show the common label, if any, on the axis
// never show a common label in array mode,
// even if sometimes there could be one
var showCommonLabel = (
(t0 !== undefined) &&
(c0.distance <= opts.hoverdistance) &&
(hovermode === 'x' || hovermode === 'y')
);
// all hover traces hoverinfo must contain the hovermode
// to have common labels
if(showCommonLabel) {
var allHaveZ = true;
var i, traceHoverinfo;
for(i = 0; i < hoverData.length; i++) {
if(allHaveZ && hoverData[i].zLabel === undefined) allHaveZ = false;
traceHoverinfo = hoverData[i].hoverinfo || hoverData[i].trace.hoverinfo;
var parts = Array.isArray(traceHoverinfo) ? traceHoverinfo : traceHoverinfo.split('+');
if(parts.indexOf('all') === -1 &&
parts.indexOf(hovermode) === -1) {
showCommonLabel = false;
break;
}
}
// xyz labels put all info in their main label, so have no need of a common label
if(allHaveZ) showCommonLabel = false;
}
var commonLabel = container.selectAll('g.axistext')
.data(showCommonLabel ? [0] : []);
commonLabel.enter().append('g')
.classed('axistext', true);
commonLabel.exit().remove();
commonLabel.each(function() {
var label = d3.select(this);
var lpath = Lib.ensureSingle(label, 'path', '', function(s) {
s.style({'stroke-width': '1px'});
});
var ltext = Lib.ensureSingle(label, 'text', '', function(s) {
// prohibit tex interpretation until we can handle
// tex and regular text together
s.attr('data-notex', 1);
});
var commonBgColor = commonLabelOpts.bgcolor || Color.defaultLine;
var commonStroke = commonLabelOpts.bordercolor || Color.contrast(commonBgColor);
var contrastColor = Color.contrast(commonBgColor);
lpath.style({
fill: commonBgColor,
stroke: commonStroke
});
ltext.text(t0)
.call(Drawing.font,
commonLabelOpts.font.family || fontFamily,
commonLabelOpts.font.size || fontSize,
commonLabelOpts.font.color || contrastColor
)
.call(svgTextUtils.positionText, 0, 0)
.call(svgTextUtils.convertToTspans, gd);
label.attr('transform', '');
var tbb = ltext.node().getBoundingClientRect();
if(hovermode === 'x') {
ltext.attr('text-anchor', 'middle')
.call(svgTextUtils.positionText, 0, (xa.side === 'top' ?
(outerTop - tbb.bottom - HOVERARROWSIZE - HOVERTEXTPAD) :
(outerTop - tbb.top + HOVERARROWSIZE + HOVERTEXTPAD)));
var topsign = xa.side === 'top' ? '-' : '';
lpath.attr('d', 'M0,0' +
'L' + HOVERARROWSIZE + ',' + topsign + HOVERARROWSIZE +
'H' + (HOVERTEXTPAD + tbb.width / 2) +
'v' + topsign + (HOVERTEXTPAD * 2 + tbb.height) +
'H-' + (HOVERTEXTPAD + tbb.width / 2) +
'V' + topsign + HOVERARROWSIZE + 'H-' + HOVERARROWSIZE + 'Z');
label.attr('transform', 'translate(' +
(xa._offset + (c0.x0 + c0.x1) / 2) + ',' +
(ya._offset + (xa.side === 'top' ? 0 : ya._length)) + ')');
}
else {
ltext.attr('text-anchor', ya.side === 'right' ? 'start' : 'end')
.call(svgTextUtils.positionText,
(ya.side === 'right' ? 1 : -1) * (HOVERTEXTPAD + HOVERARROWSIZE),
outerTop - tbb.top - tbb.height / 2);
var leftsign = ya.side === 'right' ? '' : '-';
lpath.attr('d', 'M0,0' +
'L' + leftsign + HOVERARROWSIZE + ',' + HOVERARROWSIZE +
'V' + (HOVERTEXTPAD + tbb.height / 2) +
'h' + leftsign + (HOVERTEXTPAD * 2 + tbb.width) +
'V-' + (HOVERTEXTPAD + tbb.height / 2) +
'H' + leftsign + HOVERARROWSIZE + 'V-' + HOVERARROWSIZE + 'Z');
label.attr('transform', 'translate(' +
(xa._offset + (ya.side === 'right' ? xa._length : 0)) + ',' +
(ya._offset + (c0.y0 + c0.y1) / 2) + ')');
}
// remove the "close but not quite" points
// because of error bars, only take up to a space
hoverData = hoverData.filter(function(d) {
return (d.zLabelVal !== undefined) ||
(d[commonAttr] || '').split(' ')[0] === t00;
});
});
// show all the individual labels
// first create the objects
var hoverLabels = container.selectAll('g.hovertext')
.data(hoverData, function(d) {
return [d.trace.index, d.index, d.x0, d.y0, d.name, d.attr, d.xa, d.ya || ''].join(',');
});
hoverLabels.enter().append('g')
.classed('hovertext', true)
.each(function() {
var g = d3.select(this);
// trace name label (rect and text.name)
g.append('rect')
.call(Color.fill, Color.addOpacity(bgColor, 0.8));
g.append('text').classed('name', true);
// trace data label (path and text.nums)
g.append('path')
.style('stroke-width', '1px');
g.append('text').classed('nums', true)
.call(Drawing.font, fontFamily, fontSize);
});
hoverLabels.exit().remove();
// then put the text in, position the pointer to the data,
// and figure out sizes
hoverLabels.each(function(d) {
var g = d3.select(this).attr('transform', '');
var name = '';
var text = '';
// combine possible non-opaque trace color with bgColor
var color0 = d.bgcolor || d.color;
// color for 'nums' part of the label
var numsColor = Color.combine(
Color.opacity(color0) ? color0 : Color.defaultLine,
bgColor
);
// color for 'name' part of the label
var nameColor = Color.combine(
Color.opacity(d.color) ? d.color : Color.defaultLine,
bgColor
);
// find a contrasting color for border and text
var contrastColor = d.borderColor || Color.contrast(numsColor);
// to get custom 'name' labels pass cleanPoint
if(d.nameOverride !== undefined) d.name = d.nameOverride;
if(d.name) {
// strip out our pseudo-html elements from d.name (if it exists at all)
name = svgTextUtils.plainText(d.name || '');
var nameLength = Math.round(d.nameLength);
if(nameLength > -1 && name.length > nameLength) {
if(nameLength > 3) name = name.substr(0, nameLength - 3) + '...';
else name = name.substr(0, nameLength);
}
}
if(d.zLabel !== undefined) {
if(d.xLabel !== undefined) text += 'x: ' + d.xLabel + '<br>';
if(d.yLabel !== undefined) text += 'y: ' + d.yLabel + '<br>';
text += (text ? 'z: ' : '') + d.zLabel;
}
else if(showCommonLabel && d[hovermode + 'Label'] === t0) {
text = d[(hovermode === 'x' ? 'y' : 'x') + 'Label'] || '';
}
else if(d.xLabel === undefined) {
if(d.yLabel !== undefined) text = d.yLabel;
}
else if(d.yLabel === undefined) text = d.xLabel;
else text = '(' + d.xLabel + ', ' + d.yLabel + ')';
if((d.text || d.text === 0) && !Array.isArray(d.text)) {
text += (text ? '<br>' : '') + d.text;
}
// used by other modules (initially just ternary) that
// manage their own hoverinfo independent of cleanPoint
// the rest of this will still apply, so such modules
// can still put things in (x|y|z)Label, text, and name
// and hoverinfo will still determine their visibility
if(d.extraText !== undefined) text += (text ? '<br>' : '') + d.extraText;
// if 'text' is empty at this point,
// put 'name' in main label and don't show secondary label
if(text === '') {
// if 'name' is also empty, remove entire label
if(name === '') g.remove();
text = name;
}
// main label
var tx = g.select('text.nums')
.call(Drawing.font,
d.fontFamily || fontFamily,
d.fontSize || fontSize,
d.fontColor || contrastColor)
.text(text)
.attr('data-notex', 1)
.call(svgTextUtils.positionText, 0, 0)
.call(svgTextUtils.convertToTspans, gd);
var tx2 = g.select('text.name');
var tx2width = 0;
// secondary label for non-empty 'name'
if(name && name !== text) {
tx2.call(Drawing.font,
d.fontFamily || fontFamily,
d.fontSize || fontSize,
nameColor)
.text(name)
.attr('data-notex', 1)
.call(svgTextUtils.positionText, 0, 0)
.call(svgTextUtils.convertToTspans, gd);
tx2width = tx2.node().getBoundingClientRect().width + 2 * HOVERTEXTPAD;
}
else {
tx2.remove();
g.select('rect').remove();
}
g.select('path')
.style({
fill: numsColor,
stroke: contrastColor
});
var tbb = tx.node().getBoundingClientRect();
var htx = d.xa._offset + (d.x0 + d.x1) / 2;
var hty = d.ya._offset + (d.y0 + d.y1) / 2;
var dx = Math.abs(d.x1 - d.x0);
var dy = Math.abs(d.y1 - d.y0);
var txTotalWidth = tbb.width + HOVERARROWSIZE + HOVERTEXTPAD + tx2width;
var anchorStartOK, anchorEndOK;
d.ty0 = outerTop - tbb.top;
d.bx = tbb.width + 2 * HOVERTEXTPAD;
d.by = tbb.height + 2 * HOVERTEXTPAD;
d.anchor = 'start';
d.txwidth = tbb.width;
d.tx2width = tx2width;
d.offset = 0;
if(rotateLabels) {
d.pos = htx;
anchorStartOK = hty + dy / 2 + txTotalWidth <= outerHeight;
anchorEndOK = hty - dy / 2 - txTotalWidth >= 0;
if((d.idealAlign === 'top' || !anchorStartOK) && anchorEndOK) {
hty -= dy / 2;
d.anchor = 'end';
} else if(anchorStartOK) {
hty += dy / 2;
d.anchor = 'start';
} else d.anchor = 'middle';
}
else {
d.pos = hty;
anchorStartOK = htx + dx / 2 + txTotalWidth <= outerWidth;
anchorEndOK = htx - dx / 2 - txTotalWidth >= 0;
if((d.idealAlign === 'left' || !anchorStartOK) && anchorEndOK) {
htx -= dx / 2;
d.anchor = 'end';
} else if(anchorStartOK) {
htx += dx / 2;
d.anchor = 'start';
} else d.anchor = 'middle';
}
tx.attr('text-anchor', d.anchor);
if(tx2width) tx2.attr('text-anchor', d.anchor);
g.attr('transform', 'translate(' + htx + ',' + hty + ')' +
(rotateLabels ? 'rotate(' + YANGLE + ')' : ''));
});
return hoverLabels;
}
// Make groups of touching points, and within each group
// move each point so that no labels overlap, but the average
// label position is the same as it was before moving. Indicentally,
// this is equivalent to saying all the labels are on equal linear
// springs about their initial position. Initially, each point is
// its own group, but as we find overlaps we will clump the points.
//
// Also, there are hard constraints at the edges of the graphs,
// that push all groups to the middle so they are visible. I don't
// know what happens if the group spans all the way from one edge to
// the other, though it hardly matters - there's just too much
// information then.
function hoverAvoidOverlaps(hoverData, ax, fullLayout) {
var nummoves = 0;
var axSign = 1;
// make groups of touching points
var pointgroups = hoverData.map(function(d, i) {
var axis = d[ax];
var axIsX = axis._id.charAt(0) === 'x';
var rng = axis.range;
if(!i && rng && ((rng[0] > rng[1]) !== axIsX)) axSign = -1;
return [{
i: i,
traceIndex: d.trace.index,
dp: 0,
pos: d.pos,
posref: d.posref,
size: d.by * (axIsX ? YFACTOR : 1) / 2,
pmin: 0,
pmax: (axIsX ? fullLayout.width : fullLayout.height)
}];
})
.sort(function(a, b) {
return (a[0].posref - b[0].posref) ||
// for equal positions, sort trace indices increasing or decreasing
// depending on whether the axis is reversed or not... so stacked
// traces will generally keep their order even if one trace adds
// nothing to the stack.
(axSign * (b[0].traceIndex - a[0].traceIndex));
});
var donepositioning, topOverlap, bottomOverlap, i, j, pti, sumdp;
function constrainGroup(grp) {
var minPt = grp[0];
var maxPt = grp[grp.length - 1];
// overlap with the top - positive vals are overlaps
topOverlap = minPt.pmin - minPt.pos - minPt.dp + minPt.size;
// overlap with the bottom - positive vals are overlaps
bottomOverlap = maxPt.pos + maxPt.dp + maxPt.size - minPt.pmax;
// check for min overlap first, so that we always
// see the largest labels
// allow for .01px overlap, so we don't get an
// infinite loop from rounding errors
if(topOverlap > 0.01) {
for(j = grp.length - 1; j >= 0; j--) grp[j].dp += topOverlap;
donepositioning = false;
}
if(bottomOverlap < 0.01) return;
if(topOverlap < -0.01) {
// make sure we're not pushing back and forth
for(j = grp.length - 1; j >= 0; j--) grp[j].dp -= bottomOverlap;
donepositioning = false;
}
if(!donepositioning) return;
// no room to fix positioning, delete off-screen points
// first see how many points we need to delete
var deleteCount = 0;
for(i = 0; i < grp.length; i++) {
pti = grp[i];
if(pti.pos + pti.dp + pti.size > minPt.pmax) deleteCount++;
}
// start by deleting points whose data is off screen
for(i = grp.length - 1; i >= 0; i--) {
if(deleteCount <= 0) break;
pti = grp[i];
// pos has already been constrained to [pmin,pmax]
// so look for points close to that to delete
if(pti.pos > minPt.pmax - 1) {
pti.del = true;
deleteCount--;
}
}
for(i = 0; i < grp.length; i++) {
if(deleteCount <= 0) break;
pti = grp[i];
// pos has already been constrained to [pmin,pmax]
// so look for points close to that to delete
if(pti.pos < minPt.pmin + 1) {
pti.del = true;
deleteCount--;
// shift the whole group minus into this new space
bottomOverlap = pti.size * 2;
for(j = grp.length - 1; j >= 0; j--) grp[j].dp -= bottomOverlap;
}
}
// then delete points that go off the bottom
for(i = grp.length - 1; i >= 0; i--) {
if(deleteCount <= 0) break;
pti = grp[i];
if(pti.pos + pti.dp + pti.size > minPt.pmax) {
pti.del = true;
deleteCount--;
}
}
}
// loop through groups, combining them if they overlap,
// until nothing moves
while(!donepositioning && nummoves <= hoverData.length) {
// to avoid infinite loops, don't move more times
// than there are traces
nummoves++;
// assume nothing will move in this iteration,
// reverse this if it does
donepositioning = true;
i = 0;
while(i < pointgroups.length - 1) {
// the higher (g0) and lower (g1) point group
var g0 = pointgroups[i];
var g1 = pointgroups[i + 1];
// the lowest point in the higher group (p0)
// the highest point in the lower group (p1)
var p0 = g0[g0.length - 1];
var p1 = g1[0];
topOverlap = p0.pos + p0.dp + p0.size - p1.pos - p1.dp + p1.size;
// Only group points that lie on the same axes
if(topOverlap > 0.01 && (p0.pmin === p1.pmin) && (p0.pmax === p1.pmax)) {
// push the new point(s) added to this group out of the way
for(j = g1.length - 1; j >= 0; j--) g1[j].dp += topOverlap;
// add them to the group
g0.push.apply(g0, g1);
pointgroups.splice(i + 1, 1);
// adjust for minimum average movement
sumdp = 0;
for(j = g0.length - 1; j >= 0; j--) sumdp += g0[j].dp;
bottomOverlap = sumdp / g0.length;
for(j = g0.length - 1; j >= 0; j--) g0[j].dp -= bottomOverlap;
donepositioning = false;
}
else i++;
}
// check if we're going off the plot on either side and fix
pointgroups.forEach(constrainGroup);
}
// now put these offsets into hoverData
for(i = pointgroups.length - 1; i >= 0; i--) {
var grp = pointgroups[i];
for(j = grp.length - 1; j >= 0; j--) {
var pt = grp[j];
var hoverPt = hoverData[pt.i];
hoverPt.offset = pt.dp;
hoverPt.del = pt.del;
}
}
}
function alignHoverText(hoverLabels, rotateLabels) {
// finally set the text positioning relative to the data and draw the
// box around it
hoverLabels.each(function(d) {
var g = d3.select(this);
if(d.del) {
g.remove();
return;
}
var horzSign = d.anchor === 'end' ? -1 : 1;
var tx = g.select('text.nums');
var alignShift = {start: 1, end: -1, middle: 0}[d.anchor];
var txx = alignShift * (HOVERARROWSIZE + HOVERTEXTPAD);
var tx2x = txx + alignShift * (d.txwidth + HOVERTEXTPAD);
var offsetX = 0;
var offsetY = d.offset;
if(d.anchor === 'middle') {
txx -= d.tx2width / 2;
tx2x += d.txwidth / 2 + HOVERTEXTPAD;
}
if(rotateLabels) {
offsetY *= -YSHIFTY;
offsetX = d.offset * YSHIFTX;
}
g.select('path').attr('d', d.anchor === 'middle' ?
// middle aligned: rect centered on data
('M-' + (d.bx / 2 + d.tx2width / 2) + ',' + (offsetY - d.by / 2) +
'h' + d.bx + 'v' + d.by + 'h-' + d.bx + 'Z') :
// left or right aligned: side rect with arrow to data
('M0,0L' + (horzSign * HOVERARROWSIZE + offsetX) + ',' + (HOVERARROWSIZE + offsetY) +
'v' + (d.by / 2 - HOVERARROWSIZE) +
'h' + (horzSign * d.bx) +
'v-' + d.by +
'H' + (horzSign * HOVERARROWSIZE + offsetX) +
'V' + (offsetY - HOVERARROWSIZE) +
'Z'));
tx.call(svgTextUtils.positionText,
txx + offsetX, offsetY + d.ty0 - d.by / 2 + HOVERTEXTPAD);
if(d.tx2width) {
g.select('text.name')
.call(svgTextUtils.positionText,
tx2x + alignShift * HOVERTEXTPAD + offsetX,
offsetY + d.ty0 - d.by / 2 + HOVERTEXTPAD);
g.select('rect')
.call(Drawing.setRect,
tx2x + (alignShift - 1) * d.tx2width / 2 + offsetX,
offsetY - d.by / 2 - 1,
d.tx2width, d.by + 2);
}
});
}
function cleanPoint(d, hovermode) {
var index = d.index;
var trace = d.trace || {};
var cd0 = d.cd[0];
var cd = d.cd[index] || {};
var getVal = Array.isArray(index) ?
function(calcKey, traceKey) {
return Lib.castOption(cd0, index, calcKey) ||
Lib.extractOption({}, trace, '', traceKey);
} :
function(calcKey, traceKey) {
return Lib.extractOption(cd, trace, calcKey, traceKey);
};
function fill(key, calcKey, traceKey) {
var val = getVal(calcKey, traceKey);
if(val) d[key] = val;
}
fill('hoverinfo', 'hi', 'hoverinfo');
fill('bgcolor', 'hbg', 'hoverlabel.bgcolor');
fill('borderColor', 'hbc', 'hoverlabel.bordercolor');
fill('fontFamily', 'htf', 'hoverlabel.font.family');
fill('fontSize', 'hts', 'hoverlabel.font.size');
fill('fontColor', 'htc', 'hoverlabel.font.color');
fill('nameLength', 'hnl', 'hoverlabel.namelength');
d.posref = hovermode === 'y' ?
(d.xa._offset + (d.x0 + d.x1) / 2) :
(d.ya._offset + (d.y0 + d.y1) / 2);
// then constrain all the positions to be on the plot
d.x0 = Lib.constrain(d.x0, 0, d.xa._length);
d.x1 = Lib.constrain(d.x1, 0, d.xa._length);
d.y0 = Lib.constrain(d.y0, 0, d.ya._length);
d.y1 = Lib.constrain(d.y1, 0, d.ya._length);
// and convert the x and y label values into formatted text
if(d.xLabelVal !== undefined) {
d.xLabel = ('xLabel' in d) ? d.xLabel : Axes.hoverLabelText(d.xa, d.xLabelVal);
d.xVal = d.xa.c2d(d.xLabelVal);
}
if(d.yLabelVal !== undefined) {
d.yLabel = ('yLabel' in d) ? d.yLabel : Axes.hoverLabelText(d.ya, d.yLabelVal);
d.yVal = d.ya.c2d(d.yLabelVal);
}
// Traces like heatmaps generate the zLabel in their hoverPoints function
if(d.zLabelVal !== undefined && d.zLabel === undefined) {
d.zLabel = String(d.zLabelVal);
}
// for box means and error bars, add the range to the label
if(!isNaN(d.xerr) && !(d.xa.type === 'log' && d.xerr <= 0)) {
var xeText = Axes.tickText(d.xa, d.xa.c2l(d.xerr), 'hover').text;
if(d.xerrneg !== undefined) {
d.xLabel += ' +' + xeText + ' / -' +
Axes.tickText(d.xa, d.xa.c2l(d.xerrneg), 'hover').text;
}
else d.xLabel += ' ± ' + xeText;
// small distance penalty for error bars, so that if there are
// traces with errors and some without, the error bar label will
// hoist up to the point
if(hovermode === 'x') d.distance += 1;
}
if(!isNaN(d.yerr) && !(d.ya.type === 'log' && d.yerr <= 0)) {
var yeText = Axes.tickText(d.ya, d.ya.c2l(d.yerr), 'hover').text;
if(d.yerrneg !== undefined) {
d.yLabel += ' +' + yeText + ' / -' +
Axes.tickText(d.ya, d.ya.c2l(d.yerrneg), 'hover').text;
}
else d.yLabel += ' ± ' + yeText;
if(hovermode === 'y') d.distance += 1;
}
var infomode = d.hoverinfo || d.trace.hoverinfo;
if(infomode !== 'all') {
infomode = Array.isArray(infomode) ? infomode : infomode.split('+');
if(infomode.indexOf('x') === -1) d.xLabel = undefined;
if(infomode.indexOf('y') === -1) d.yLabel = undefined;
if(infomode.indexOf('z') === -1) d.zLabel = undefined;
if(infomode.indexOf('text') === -1) d.text = undefined;
if(infomode.indexOf('name') === -1) d.name = undefined;
}
return d;
}
function createSpikelines(closestPoints, opts) {
var container = opts.container;
var fullLayout = opts.fullLayout;
var evt = opts.event;
var showY = !!closestPoints.hLinePoint;
var showX = !!closestPoints.vLinePoint;
var xa, ya;
// Remove old spikeline items
container.selectAll('.spikeline').remove();
if(!(showX || showY)) return;
var contrastColor = Color.combine(fullLayout.plot_bgcolor, fullLayout.paper_bgcolor);
// Horizontal line (to y-axis)
if(showY) {
var hLinePoint = closestPoints.hLinePoint;
var hLinePointX, hLinePointY;
xa = hLinePoint && hLinePoint.xa;
ya = hLinePoint && hLinePoint.ya;
var ySnap = ya.spikesnap;
if(ySnap === 'cursor') {
hLinePointX = evt.pointerX;
hLinePointY = evt.pointerY;
} else {
hLinePointX = xa._offset + hLinePoint.x;
hLinePointY = ya._offset + hLinePoint.y;
}
var dfltHLineColor = tinycolor.readability(hLinePoint.color, contrastColor) < 1.5 ?
Color.contrast(contrastColor) : hLinePoint.color;
var yMode = ya.spikemode;
var yThickness = ya.spikethickness;
var yColor = ya.spikecolor || dfltHLineColor;
var yBB = ya._boundingBox;
var xEdge = ((yBB.left + yBB.right) / 2) < hLinePointX ? yBB.right : yBB.left;
var xBase, xEndSpike;
if(yMode.indexOf('toaxis') !== -1 || yMode.indexOf('across') !== -1) {
if(yMode.indexOf('toaxis') !== -1) {
xBase = xEdge;
xEndSpike = hLinePointX;
}
if(yMode.indexOf('across') !== -1) {
xBase = ya._counterSpan[0];
xEndSpike = ya._counterSpan[1];
}
// Foreground horizontal line (to y-axis)
container.insert('line', ':first-child')
.attr({
x1: xBase,
x2: xEndSpike,
y1: hLinePointY,
y2: hLinePointY,
'stroke-width': yThickness,
stroke: yColor,
'stroke-dasharray': Drawing.dashStyle(ya.spikedash, yThickness)
})
.classed('spikeline', true)
.classed('crisp', true);
// Background horizontal Line (to y-axis)
container.insert('line', ':first-child')
.attr({
x1: xBase,
x2: xEndSpike,
y1: hLinePointY,
y2: hLinePointY,
'stroke-width': yThickness + 2,
stroke: contrastColor
})
.classed('spikeline', true)
.classed('crisp', true);
}
// Y axis marker
if(yMode.indexOf('marker') !== -1) {
container.insert('circle', ':first-child')
.attr({
cx: xEdge + (ya.side !== 'right' ? yThickness : -yThickness),
cy: hLinePointY,
r: yThickness,
fill: yColor
})
.classed('spikeline', true);
}
}
if(showX) {
var vLinePoint = closestPoints.vLinePoint;
var vLinePointX, vLinePointY;
xa = vLinePoint && vLinePoint.xa;
ya = vLinePoint && vLinePoint.ya;
var xSnap = xa.spikesnap;
if(xSnap === 'cursor') {
vLinePointX = evt.pointerX;
vLinePointY = evt.pointerY;
} else {
vLinePointX = xa._offset + vLinePoint.x;
vLinePointY = ya._offset + vLinePoint.y;
}
var dfltVLineColor = tinycolor.readability(vLinePoint.color, contrastColor) < 1.5 ?
Color.contrast(contrastColor) : vLinePoint.color;
var xMode = xa.spikemode;
var xThickness = xa.spikethickness;
var xColor = xa.spikecolor || dfltVLineColor;
var xBB = xa._boundingBox;
var yEdge = ((xBB.top + xBB.bottom) / 2) < vLinePointY ? xBB.bottom : xBB.top;
var yBase, yEndSpike;
if(xMode.indexOf('toaxis') !== -1 || xMode.indexOf('across') !== -1) {
if(xMode.indexOf('toaxis') !== -1) {
yBase = yEdge;
yEndSpike = vLinePointY;
}
if(xMode.indexOf('across') !== -1) {
yBase = xa._counterSpan[0];
yEndSpike = xa._counterSpan[1];
}
// Foreground vertical line (to x-axis)
container.insert('line', ':first-child')
.attr({
x1: vLinePointX,
x2: vLinePointX,
y1: yBase,
y2: yEndSpike,
'stroke-width': xThickness,
stroke: xColor,
'stroke-dasharray': Drawing.dashStyle(xa.spikedash, xThickness)
})
.classed('spikeline', true)
.classed('crisp', true);
// Background vertical line (to x-axis)
container.insert('line', ':first-child')
.attr({
x1: vLinePointX,
x2: vLinePointX,
y1: yBase,
y2: yEndSpike,
'stroke-width': xThickness + 2,
stroke: contrastColor
})
.classed('spikeline', true)
.classed('crisp', true);
}
// X axis marker
if(xMode.indexOf('marker') !== -1) {
container.insert('circle', ':first-child')
.attr({
cx: vLinePointX,
cy: yEdge - (xa.side !== 'top' ? xThickness : -xThickness),
r: xThickness,
fill: xColor
})
.classed('spikeline', true);
}
}
}
function hoverChanged(gd, evt, oldhoverdata) {
// don't emit any events if nothing changed
if(!oldhoverdata || oldhoverdata.length !== gd._hoverdata.length) return true;
for(var i = oldhoverdata.length - 1; i >= 0; i--) {
var oldPt = oldhoverdata[i];
var newPt = gd._hoverdata[i];
if(oldPt.curveNumber !== newPt.curveNumber ||
String(oldPt.pointNumber) !== String(newPt.pointNumber)) {
return true;
}
}
return false;
}
function spikesChanged(gd, oldspikepoints) {
// don't relayout the plot because of new spikelines if spikelines points didn't change
if(!oldspikepoints) return true;
if(oldspikepoints.vLinePoint !== gd._spikepoints.vLinePoint ||
oldspikepoints.hLinePoint !== gd._spikepoints.hLinePoint
) return true;
return false;
}
},{"../../lib":693,"../../lib/events":681,"../../lib/override_cursor":705,"../../lib/svg_text_utils":718,"../../plots/cartesian/axes":742,"../../registry":825,"../color":567,"../dragelement":589,"../drawing":592,"./constants":604,"./helpers":606,"d3":147,"fast-isnumeric":213,"tinycolor2":511}],608:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
module.exports = function handleHoverLabelDefaults(contIn, contOut, coerce, opts) {
opts = opts || {};
coerce('hoverlabel.bgcolor', opts.bgcolor);
coerce('hoverlabel.bordercolor', opts.bordercolor);
coerce('hoverlabel.namelength', opts.namelength);
Lib.coerceFont(coerce, 'hoverlabel.font', opts.font);
};
},{"../../lib":693}],609:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Lib = _dereq_('../../lib');
var dragElement = _dereq_('../dragelement');
var helpers = _dereq_('./helpers');
var layoutAttributes = _dereq_('./layout_attributes');
module.exports = {
moduleType: 'component',
name: 'fx',
constants: _dereq_('./constants'),
schema: {
layout: layoutAttributes
},
attributes: _dereq_('./attributes'),
layoutAttributes: layoutAttributes,
supplyLayoutGlobalDefaults: _dereq_('./layout_global_defaults'),
supplyDefaults: _dereq_('./defaults'),
supplyLayoutDefaults: _dereq_('./layout_defaults'),
calc: _dereq_('./calc'),
getDistanceFunction: helpers.getDistanceFunction,
getClosest: helpers.getClosest,
inbox: helpers.inbox,
quadrature: helpers.quadrature,
appendArrayPointValue: helpers.appendArrayPointValue,
castHoverOption: castHoverOption,
castHoverinfo: castHoverinfo,
hover: _dereq_('./hover').hover,
unhover: dragElement.unhover,
loneHover: _dereq_('./hover').loneHover,
loneUnhover: loneUnhover,
click: _dereq_('./click')
};
function loneUnhover(containerOrSelection) {
// duck type whether the arg is a d3 selection because ie9 doesn't
// handle instanceof like modern browsers do.
var selection = Lib.isD3Selection(containerOrSelection) ?
containerOrSelection :
d3.select(containerOrSelection);
selection.selectAll('g.hovertext').remove();
selection.selectAll('.spikeline').remove();
}
// helpers for traces that use Fx.loneHover
function castHoverOption(trace, ptNumber, attr) {
return Lib.castOption(trace, ptNumber, 'hoverlabel.' + attr);
}
function castHoverinfo(trace, fullLayout, ptNumber) {
function _coerce(val) {
return Lib.coerceHoverinfo({hoverinfo: val}, {_module: trace._module}, fullLayout);
}
return Lib.castOption(trace, ptNumber, 'hoverinfo', _coerce);
}
},{"../../lib":693,"../dragelement":589,"./attributes":601,"./calc":602,"./click":603,"./constants":604,"./defaults":605,"./helpers":606,"./hover":607,"./layout_attributes":610,"./layout_defaults":611,"./layout_global_defaults":612,"d3":147}],610:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var constants = _dereq_('./constants');
var fontAttrs = _dereq_('../../plots/font_attributes')({
editType: 'none',
});
fontAttrs.family.dflt = constants.HOVERFONT;
fontAttrs.size.dflt = constants.HOVERFONTSIZE;
module.exports = {
clickmode: {
valType: 'flaglist',
flags: ['event', 'select'],
dflt: 'event',
editType: 'plot',
extras: ['none'],
},
dragmode: {
valType: 'enumerated',
values: ['zoom', 'pan', 'select', 'lasso', 'orbit', 'turntable'],
dflt: 'zoom',
editType: 'modebar',
},
hovermode: {
valType: 'enumerated',
values: ['x', 'y', 'closest', false],
editType: 'modebar',
},
hoverdistance: {
valType: 'integer',
min: -1,
dflt: 20,
editType: 'none',
},
spikedistance: {
valType: 'integer',
min: -1,
dflt: 20,
editType: 'none',
},
hoverlabel: {
bgcolor: {
valType: 'color',
editType: 'none',
},
bordercolor: {
valType: 'color',
editType: 'none',
},
font: fontAttrs,
namelength: {
valType: 'integer',
min: -1,
dflt: 15,
editType: 'none',
},
editType: 'none'
},
selectdirection: {
valType: 'enumerated',
values: ['h', 'v', 'd', 'any'],
dflt: 'any',
editType: 'none'
}
};
},{"../../plots/font_attributes":768,"./constants":604}],611:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var layoutAttributes = _dereq_('./layout_attributes');
module.exports = function supplyLayoutDefaults(layoutIn, layoutOut, fullData) {
function coerce(attr, dflt) {
return Lib.coerce(layoutIn, layoutOut, layoutAttributes, attr, dflt);
}
var clickmode = coerce('clickmode');
var dragMode = coerce('dragmode');
if(dragMode === 'select') coerce('selectdirection');
var hovermodeDflt;
if(layoutOut._has('cartesian')) {
if(clickmode.indexOf('select') > -1) {
hovermodeDflt = 'closest';
} else {
// flag for 'horizontal' plots:
// determines the state of the mode bar 'compare' hovermode button
layoutOut._isHoriz = isHoriz(fullData);
hovermodeDflt = layoutOut._isHoriz ? 'y' : 'x';
}
}
else hovermodeDflt = 'closest';
var hoverMode = coerce('hovermode', hovermodeDflt);
if(hoverMode) {
coerce('hoverdistance');
coerce('spikedistance');
}
// if only mapbox or geo subplots is present on graph,
// reset 'zoom' dragmode to 'pan' until 'zoom' is implemented,
// so that the correct modebar button is active
var hasMapbox = layoutOut._has('mapbox');
var hasGeo = layoutOut._has('geo');
var len = layoutOut._basePlotModules.length;
if(layoutOut.dragmode === 'zoom' && (
((hasMapbox || hasGeo) && len === 1) ||
(hasMapbox && hasGeo && len === 2)
)) {
layoutOut.dragmode = 'pan';
}
};
function isHoriz(fullData) {
var out = true;
for(var i = 0; i < fullData.length; i++) {
var trace = fullData[i];
if(trace.orientation !== 'h') {
out = false;
break;
}
}
return out;
}
},{"../../lib":693,"./layout_attributes":610}],612:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var handleHoverLabelDefaults = _dereq_('./hoverlabel_defaults');
var layoutAttributes = _dereq_('./layout_attributes');
module.exports = function supplyLayoutGlobalDefaults(layoutIn, layoutOut) {
function coerce(attr, dflt) {
return Lib.coerce(layoutIn, layoutOut, layoutAttributes, attr, dflt);
}
handleHoverLabelDefaults(layoutIn, layoutOut, coerce);
};
},{"../../lib":693,"./hoverlabel_defaults":608,"./layout_attributes":610}],613:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var counterRegex = _dereq_('../../lib/regex').counter;
var domainAttrs = _dereq_('../../plots/domain').attributes;
var cartesianIdRegex = _dereq_('../../plots/cartesian/constants').idRegex;
var Template = _dereq_('../../plot_api/plot_template');
var gridAttrs = {
rows: {
valType: 'integer',
min: 1,
editType: 'plot',
},
roworder: {
valType: 'enumerated',
values: ['top to bottom', 'bottom to top'],
dflt: 'top to bottom',
editType: 'plot',
},
columns: {
valType: 'integer',
min: 1,
editType: 'plot',
},
subplots: {
valType: 'info_array',
freeLength: true,
dimensions: 2,
items: {valType: 'enumerated', values: [counterRegex('xy').toString(), ''], editType: 'plot'},
editType: 'plot',
},
xaxes: {
valType: 'info_array',
freeLength: true,
items: {valType: 'enumerated', values: [cartesianIdRegex.x.toString(), ''], editType: 'plot'},
editType: 'plot',
},
yaxes: {
valType: 'info_array',
freeLength: true,
items: {valType: 'enumerated', values: [cartesianIdRegex.y.toString(), ''], editType: 'plot'},
editType: 'plot',
},
pattern: {
valType: 'enumerated',
values: ['independent', 'coupled'],
dflt: 'coupled',
editType: 'plot',
},
xgap: {
valType: 'number',
min: 0,
max: 1,
editType: 'plot',
},
ygap: {
valType: 'number',
min: 0,
max: 1,
editType: 'plot',
},
domain: domainAttrs({name: 'grid', editType: 'plot', noGridCell: true}, {
}),
xside: {
valType: 'enumerated',
values: ['bottom', 'bottom plot', 'top plot', 'top'],
dflt: 'bottom plot',
editType: 'plot',
},
yside: {
valType: 'enumerated',
values: ['left', 'left plot', 'right plot', 'right'],
dflt: 'left plot',
editType: 'plot',
},
editType: 'plot'
};
function getAxes(layout, grid, axLetter) {
var gridVal = grid[axLetter + 'axes'];
var splomVal = Object.keys((layout._splomAxes || {})[axLetter] || {});
if(Array.isArray(gridVal)) return gridVal;
if(splomVal.length) return splomVal;
}
// the shape of the grid - this needs to be done BEFORE supplyDataDefaults
// so that non-subplot traces can place themselves in the grid
function sizeDefaults(layoutIn, layoutOut) {
var gridIn = layoutIn.grid || {};
var xAxes = getAxes(layoutOut, gridIn, 'x');
var yAxes = getAxes(layoutOut, gridIn, 'y');
if(!layoutIn.grid && !xAxes && !yAxes) return;
var hasSubplotGrid = Array.isArray(gridIn.subplots) && Array.isArray(gridIn.subplots[0]);
var hasXaxes = Array.isArray(xAxes);
var hasYaxes = Array.isArray(yAxes);
var isSplomGenerated = (
hasXaxes && xAxes !== gridIn.xaxes &&
hasYaxes && yAxes !== gridIn.yaxes
);
var dfltRows, dfltColumns;
if(hasSubplotGrid) {
dfltRows = gridIn.subplots.length;
dfltColumns = gridIn.subplots[0].length;
}
else {
if(hasYaxes) dfltRows = yAxes.length;
if(hasXaxes) dfltColumns = xAxes.length;
}
var gridOut = Template.newContainer(layoutOut, 'grid');
function coerce(attr, dflt) {
return Lib.coerce(gridIn, gridOut, gridAttrs, attr, dflt);
}
var rows = coerce('rows', dfltRows);
var columns = coerce('columns', dfltColumns);
if(!(rows * columns > 1)) {
delete layoutOut.grid;
return;
}
if(!hasSubplotGrid && !hasXaxes && !hasYaxes) {
var useDefaultSubplots = coerce('pattern') === 'independent';
if(useDefaultSubplots) hasSubplotGrid = true;
}
gridOut._hasSubplotGrid = hasSubplotGrid;
var rowOrder = coerce('roworder');
var reversed = rowOrder === 'top to bottom';
var dfltGapX = hasSubplotGrid ? 0.2 : 0.1;
var dfltGapY = hasSubplotGrid ? 0.3 : 0.1;
var dfltSideX, dfltSideY;
if(isSplomGenerated && layoutOut._splomGridDflt) {
dfltSideX = layoutOut._splomGridDflt.xside;
dfltSideY = layoutOut._splomGridDflt.yside;
}
gridOut._domains = {
x: fillGridPositions('x', coerce, dfltGapX, dfltSideX, columns),
y: fillGridPositions('y', coerce, dfltGapY, dfltSideY, rows, reversed)
};
}
// coerce x or y sizing attributes and return an array of domains for this direction
function fillGridPositions(axLetter, coerce, dfltGap, dfltSide, len, reversed) {
var dirGap = coerce(axLetter + 'gap', dfltGap);
var domain = coerce('domain.' + axLetter);
coerce(axLetter + 'side', dfltSide);
var out = new Array(len);
var start = domain[0];
var step = (domain[1] - start) / (len - dirGap);
var cellDomain = step * (1 - dirGap);
for(var i = 0; i < len; i++) {
var cellStart = start + step * i;
out[reversed ? (len - 1 - i) : i] = [cellStart, cellStart + cellDomain];
}
return out;
}
// the (cartesian) contents of the grid - this needs to happen AFTER supplyDataDefaults
// so that we know what cartesian subplots are available
function contentDefaults(layoutIn, layoutOut) {
var gridOut = layoutOut.grid;
// make sure we got to the end of handleGridSizing
if(!gridOut || !gridOut._domains) return;
var gridIn = layoutIn.grid || {};
var subplots = layoutOut._subplots;
var hasSubplotGrid = gridOut._hasSubplotGrid;
var rows = gridOut.rows;
var columns = gridOut.columns;
var useDefaultSubplots = gridOut.pattern === 'independent';
var i, j, xId, yId, subplotId, subplotsOut, yPos;
var axisMap = gridOut._axisMap = {};
if(hasSubplotGrid) {
var subplotsIn = gridIn.subplots || [];
subplotsOut = gridOut.subplots = new Array(rows);
var index = 1;
for(i = 0; i < rows; i++) {
var rowOut = subplotsOut[i] = new Array(columns);
var rowIn = subplotsIn[i] || [];
for(j = 0; j < columns; j++) {
if(useDefaultSubplots) {
subplotId = (index === 1) ? 'xy' : ('x' + index + 'y' + index);
index++;
}
else subplotId = rowIn[j];
rowOut[j] = '';
if(subplots.cartesian.indexOf(subplotId) !== -1) {
yPos = subplotId.indexOf('y');
xId = subplotId.slice(0, yPos);
yId = subplotId.slice(yPos);
if((axisMap[xId] !== undefined && axisMap[xId] !== j) ||
(axisMap[yId] !== undefined && axisMap[yId] !== i)
) {
continue;
}
rowOut[j] = subplotId;
axisMap[xId] = j;
axisMap[yId] = i;
}
}
}
}
else {
var xAxes = getAxes(layoutOut, gridIn, 'x');
var yAxes = getAxes(layoutOut, gridIn, 'y');
gridOut.xaxes = fillGridAxes(xAxes, subplots.xaxis, columns, axisMap, 'x');
gridOut.yaxes = fillGridAxes(yAxes, subplots.yaxis, rows, axisMap, 'y');
}
var anchors = gridOut._anchors = {};
var reversed = gridOut.roworder === 'top to bottom';
for(var axisId in axisMap) {
var axLetter = axisId.charAt(0);
var side = gridOut[axLetter + 'side'];
var i0, inc, iFinal;
if(side.length < 8) {
// grid edge - ie not "* plot" - make these as free axes
// since we're not guaranteed to have a subplot there at all
anchors[axisId] = 'free';
}
else if(axLetter === 'x') {
if((side.charAt(0) === 't') === reversed) {
i0 = 0;
inc = 1;
iFinal = rows;
}
else {
i0 = rows - 1;
inc = -1;
iFinal = -1;
}
if(hasSubplotGrid) {
var column = axisMap[axisId];
for(i = i0; i !== iFinal; i += inc) {
subplotId = subplotsOut[i][column];
if(!subplotId) continue;
yPos = subplotId.indexOf('y');
if(subplotId.slice(0, yPos) === axisId) {
anchors[axisId] = subplotId.slice(yPos);
break;
}
}
}
else {
for(i = i0; i !== iFinal; i += inc) {
yId = gridOut.yaxes[i];
if(subplots.cartesian.indexOf(axisId + yId) !== -1) {
anchors[axisId] = yId;
break;
}
}
}
}
else {
if((side.charAt(0) === 'l')) {
i0 = 0;
inc = 1;
iFinal = columns;
}
else {
i0 = columns - 1;
inc = -1;
iFinal = -1;
}
if(hasSubplotGrid) {
var row = axisMap[axisId];
for(i = i0; i !== iFinal; i += inc) {
subplotId = subplotsOut[row][i];
if(!subplotId) continue;
yPos = subplotId.indexOf('y');
if(subplotId.slice(yPos) === axisId) {
anchors[axisId] = subplotId.slice(0, yPos);
break;
}
}
}
else {
for(i = i0; i !== iFinal; i += inc) {
xId = gridOut.xaxes[i];
if(subplots.cartesian.indexOf(xId + axisId) !== -1) {
anchors[axisId] = xId;
break;
}
}
}
}
}
}
function fillGridAxes(axesIn, axesAllowed, len, axisMap, axLetter) {
var out = new Array(len);
var i;
function fillOneAxis(i, axisId) {
if(axesAllowed.indexOf(axisId) !== -1 && axisMap[axisId] === undefined) {
out[i] = axisId;
axisMap[axisId] = i;
}
else out[i] = '';
}
if(Array.isArray(axesIn)) {
for(i = 0; i < len; i++) {
fillOneAxis(i, axesIn[i]);
}
}
else {
// default axis list is the first `len` axis ids
fillOneAxis(0, axLetter);
for(i = 1; i < len; i++) {
fillOneAxis(i, axLetter + (i + 1));
}
}
return out;
}
module.exports = {
moduleType: 'component',
name: 'grid',
schema: {
layout: {grid: gridAttrs}
},
layoutAttributes: gridAttrs,
sizeDefaults: sizeDefaults,
contentDefaults: contentDefaults
};
},{"../../lib":693,"../../lib/regex":710,"../../plot_api/plot_template":732,"../../plots/cartesian/constants":747,"../../plots/domain":767}],614:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var cartesianConstants = _dereq_('../../plots/cartesian/constants');
var templatedArray = _dereq_('../../plot_api/plot_template').templatedArray;
module.exports = templatedArray('image', {
visible: {
valType: 'boolean',
dflt: true,
editType: 'arraydraw',
},
source: {
valType: 'string',
editType: 'arraydraw',
},
layer: {
valType: 'enumerated',
values: ['below', 'above'],
dflt: 'above',
editType: 'arraydraw',
},
sizex: {
valType: 'number',
dflt: 0,
editType: 'arraydraw',
},
sizey: {
valType: 'number',
dflt: 0,
editType: 'arraydraw',
},
sizing: {
valType: 'enumerated',
values: ['fill', 'contain', 'stretch'],
dflt: 'contain',
editType: 'arraydraw',
},
opacity: {
valType: 'number',
min: 0,
max: 1,
dflt: 1,
editType: 'arraydraw',
},
x: {
valType: 'any',
dflt: 0,
editType: 'arraydraw',
},
y: {
valType: 'any',
dflt: 0,
editType: 'arraydraw',
},
xanchor: {
valType: 'enumerated',
values: ['left', 'center', 'right'],
dflt: 'left',
editType: 'arraydraw',
},
yanchor: {
valType: 'enumerated',
values: ['top', 'middle', 'bottom'],
dflt: 'top',
editType: 'arraydraw',
},
xref: {
valType: 'enumerated',
values: [
'paper',
cartesianConstants.idRegex.x.toString()
],
dflt: 'paper',
editType: 'arraydraw',
},
yref: {
valType: 'enumerated',
values: [
'paper',
cartesianConstants.idRegex.y.toString()
],
dflt: 'paper',
editType: 'arraydraw',
},
editType: 'arraydraw'
});
},{"../../plot_api/plot_template":732,"../../plots/cartesian/constants":747}],615:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var toLogRange = _dereq_('../../lib/to_log_range');
/*
* convertCoords: when converting an axis between log and linear
* you need to alter any images on that axis to keep them
* pointing at the same data point.
* In v2.0 this will become obsolete (or perhaps size will still need conversion?)
* we convert size by declaring that the maximum extent *in data units* should be
* the same, assuming the image is anchored by its center (could remove that restriction
* if we think it's important) even though the actual left and right values will not be
* quite the same since the scale becomes nonlinear (and central anchor means the pixel
* center of the image, not the data units center)
*
* gd: the plot div
* ax: the axis being changed
* newType: the type it's getting
* doExtra: function(attr, val) from inside relayout that sets the attribute.
* Use this to make the changes as it's aware if any other changes in the
* same relayout call should override this conversion.
*/
module.exports = function convertCoords(gd, ax, newType, doExtra) {
ax = ax || {};
var toLog = (newType === 'log') && (ax.type === 'linear'),
fromLog = (newType === 'linear') && (ax.type === 'log');
if(!(toLog || fromLog)) return;
var images = gd._fullLayout.images,
axLetter = ax._id.charAt(0),
image,
attrPrefix;
for(var i = 0; i < images.length; i++) {
image = images[i];
attrPrefix = 'images[' + i + '].';
if(image[axLetter + 'ref'] === ax._id) {
var currentPos = image[axLetter],
currentSize = image['size' + axLetter],
newPos = null,
newSize = null;
if(toLog) {
newPos = toLogRange(currentPos, ax.range);
// this is the inverse of the conversion we do in fromLog below
// so that the conversion is reversible (notice the fromLog conversion
// is like sinh, and this one looks like arcsinh)
var dx = currentSize / Math.pow(10, newPos) / 2;
newSize = 2 * Math.log(dx + Math.sqrt(1 + dx * dx)) / Math.LN10;
}
else {
newPos = Math.pow(10, currentPos);
newSize = newPos * (Math.pow(10, currentSize / 2) - Math.pow(10, -currentSize / 2));
}
// if conversion failed, delete the value so it can get a default later on
if(!isNumeric(newPos)) {
newPos = null;
newSize = null;
}
else if(!isNumeric(newSize)) newSize = null;
doExtra(attrPrefix + axLetter, newPos);
doExtra(attrPrefix + 'size' + axLetter, newSize);
}
}
};
},{"../../lib/to_log_range":720,"fast-isnumeric":213}],616:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Axes = _dereq_('../../plots/cartesian/axes');
var handleArrayContainerDefaults = _dereq_('../../plots/array_container_defaults');
var attributes = _dereq_('./attributes');
var name = 'images';
module.exports = function supplyLayoutDefaults(layoutIn, layoutOut) {
var opts = {
name: name,
handleItemDefaults: imageDefaults
};
handleArrayContainerDefaults(layoutIn, layoutOut, opts);
};
function imageDefaults(imageIn, imageOut, fullLayout) {
function coerce(attr, dflt) {
return Lib.coerce(imageIn, imageOut, attributes, attr, dflt);
}
var source = coerce('source');
var visible = coerce('visible', !!source);
if(!visible) return imageOut;
coerce('layer');
coerce('xanchor');
coerce('yanchor');
coerce('sizex');
coerce('sizey');
coerce('sizing');
coerce('opacity');
var gdMock = { _fullLayout: fullLayout },
axLetters = ['x', 'y'];
for(var i = 0; i < 2; i++) {
// 'paper' is the fallback axref
var axLetter = axLetters[i],
axRef = Axes.coerceRef(imageIn, imageOut, gdMock, axLetter, 'paper');
Axes.coercePosition(imageOut, gdMock, coerce, axRef, axLetter, 0);
}
return imageOut;
}
},{"../../lib":693,"../../plots/array_container_defaults":738,"../../plots/cartesian/axes":742,"./attributes":614}],617:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Drawing = _dereq_('../drawing');
var Axes = _dereq_('../../plots/cartesian/axes');
var xmlnsNamespaces = _dereq_('../../constants/xmlns_namespaces');
module.exports = function draw(gd) {
var fullLayout = gd._fullLayout,
imageDataAbove = [],
imageDataSubplot = {},
imageDataBelow = [],
subplot,
i;
// Sort into top, subplot, and bottom layers
for(i = 0; i < fullLayout.images.length; i++) {
var img = fullLayout.images[i];
if(img.visible) {
if(img.layer === 'below' && img.xref !== 'paper' && img.yref !== 'paper') {
subplot = img.xref + img.yref;
var plotinfo = fullLayout._plots[subplot];
if(!plotinfo) {
// Fall back to _imageLowerLayer in case the requested subplot doesn't exist.
// This can happen if you reference the image to an x / y axis combination
// that doesn't have any data on it (and layer is below)
imageDataBelow.push(img);
continue;
}
if(plotinfo.mainplot) {
subplot = plotinfo.mainplot.id;
}
if(!imageDataSubplot[subplot]) {
imageDataSubplot[subplot] = [];
}
imageDataSubplot[subplot].push(img);
} else if(img.layer === 'above') {
imageDataAbove.push(img);
} else {
imageDataBelow.push(img);
}
}
}
var anchors = {
x: {
left: { sizing: 'xMin', offset: 0 },
center: { sizing: 'xMid', offset: -1 / 2 },
right: { sizing: 'xMax', offset: -1 }
},
y: {
top: { sizing: 'YMin', offset: 0 },
middle: { sizing: 'YMid', offset: -1 / 2 },
bottom: { sizing: 'YMax', offset: -1 }
}
};
// Images must be converted to dataURL's for exporting.
function setImage(d) {
var thisImage = d3.select(this);
if(this.img && this.img.src === d.source) {
return;
}
thisImage.attr('xmlns', xmlnsNamespaces.svg);
var imagePromise = new Promise(function(resolve) {
var img = new Image();
this.img = img;
// If not set, a `tainted canvas` error is thrown
img.setAttribute('crossOrigin', 'anonymous');
img.onerror = errorHandler;
img.onload = function() {
var canvas = document.createElement('canvas');
canvas.width = this.width;
canvas.height = this.height;
var ctx = canvas.getContext('2d');
ctx.drawImage(this, 0, 0);
var dataURL = canvas.toDataURL('image/png');
thisImage.attr('xlink:href', dataURL);
// resolve promise in onload handler instead of on 'load' to support IE11
// see https://github.com/plotly/plotly.js/issues/1685
// for more details
resolve();
};
thisImage.on('error', errorHandler);
img.src = d.source;
function errorHandler() {
thisImage.remove();
resolve();
}
}.bind(this));
gd._promises.push(imagePromise);
}
function applyAttributes(d) {
var thisImage = d3.select(this);
// Axes if specified
var xa = Axes.getFromId(gd, d.xref),
ya = Axes.getFromId(gd, d.yref);
var size = fullLayout._size,
width = xa ? Math.abs(xa.l2p(d.sizex) - xa.l2p(0)) : d.sizex * size.w,
height = ya ? Math.abs(ya.l2p(d.sizey) - ya.l2p(0)) : d.sizey * size.h;
// Offsets for anchor positioning
var xOffset = width * anchors.x[d.xanchor].offset,
yOffset = height * anchors.y[d.yanchor].offset;
var sizing = anchors.x[d.xanchor].sizing + anchors.y[d.yanchor].sizing;
// Final positions
var xPos = (xa ? xa.r2p(d.x) + xa._offset : d.x * size.w + size.l) + xOffset,
yPos = (ya ? ya.r2p(d.y) + ya._offset : size.h - d.y * size.h + size.t) + yOffset;
// Construct the proper aspectRatio attribute
switch(d.sizing) {
case 'fill':
sizing += ' slice';
break;
case 'stretch':
sizing = 'none';
break;
}
thisImage.attr({
x: xPos,
y: yPos,
width: width,
height: height,
preserveAspectRatio: sizing,
opacity: d.opacity
});
// Set proper clipping on images
var xId = xa ? xa._id : '',
yId = ya ? ya._id : '',
clipAxes = xId + yId;
thisImage.call(Drawing.setClipUrl, clipAxes ?
('clip' + fullLayout._uid + clipAxes) :
null
);
}
var imagesBelow = fullLayout._imageLowerLayer.selectAll('image')
.data(imageDataBelow),
imagesAbove = fullLayout._imageUpperLayer.selectAll('image')
.data(imageDataAbove);
imagesBelow.enter().append('image');
imagesAbove.enter().append('image');
imagesBelow.exit().remove();
imagesAbove.exit().remove();
imagesBelow.each(function(d) {
setImage.bind(this)(d);
applyAttributes.bind(this)(d);
});
imagesAbove.each(function(d) {
setImage.bind(this)(d);
applyAttributes.bind(this)(d);
});
var allSubplots = Object.keys(fullLayout._plots);
for(i = 0; i < allSubplots.length; i++) {
subplot = allSubplots[i];
var subplotObj = fullLayout._plots[subplot];
// filter out overlaid plots (which havd their images on the main plot)
// and gl2d plots (which don't support below images, at least not yet)
if(!subplotObj.imagelayer) continue;
var imagesOnSubplot = subplotObj.imagelayer.selectAll('image')
// even if there are no images on this subplot, we need to run
// enter and exit in case there were previously
.data(imageDataSubplot[subplot] || []);
imagesOnSubplot.enter().append('image');
imagesOnSubplot.exit().remove();
imagesOnSubplot.each(function(d) {
setImage.bind(this)(d);
applyAttributes.bind(this)(d);
});
}
};
},{"../../constants/xmlns_namespaces":671,"../../plots/cartesian/axes":742,"../drawing":592,"d3":147}],618:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
moduleType: 'component',
name: 'images',
layoutAttributes: _dereq_('./attributes'),
supplyLayoutDefaults: _dereq_('./defaults'),
includeBasePlot: _dereq_('../../plots/cartesian/include_components')('images'),
draw: _dereq_('./draw'),
convertCoords: _dereq_('./convert_coords')
};
},{"../../plots/cartesian/include_components":752,"./attributes":614,"./convert_coords":615,"./defaults":616,"./draw":617}],619:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/**
* Determine the position anchor property of x/y xanchor/yanchor components.
*
* - values < 1/3 align the low side at that fraction,
* - values [1/3, 2/3] align the center at that fraction,
* - values > 2/3 align the right at that fraction.
*/
exports.isRightAnchor = function isRightAnchor(opts) {
return (
opts.xanchor === 'right' ||
(opts.xanchor === 'auto' && opts.x >= 2 / 3)
);
};
exports.isCenterAnchor = function isCenterAnchor(opts) {
return (
opts.xanchor === 'center' ||
(opts.xanchor === 'auto' && opts.x > 1 / 3 && opts.x < 2 / 3)
);
};
exports.isBottomAnchor = function isBottomAnchor(opts) {
return (
opts.yanchor === 'bottom' ||
(opts.yanchor === 'auto' && opts.y <= 1 / 3)
);
};
exports.isMiddleAnchor = function isMiddleAnchor(opts) {
return (
opts.yanchor === 'middle' ||
(opts.yanchor === 'auto' && opts.y > 1 / 3 && opts.y < 2 / 3)
);
};
},{}],620:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var fontAttrs = _dereq_('../../plots/font_attributes');
var colorAttrs = _dereq_('../color/attributes');
module.exports = {
bgcolor: {
valType: 'color',
editType: 'legend',
},
bordercolor: {
valType: 'color',
dflt: colorAttrs.defaultLine,
editType: 'legend',
},
borderwidth: {
valType: 'number',
min: 0,
dflt: 0,
editType: 'legend',
},
font: fontAttrs({
editType: 'legend',
}),
orientation: {
valType: 'enumerated',
values: ['v', 'h'],
dflt: 'v',
editType: 'legend',
},
traceorder: {
valType: 'flaglist',
flags: ['reversed', 'grouped'],
extras: ['normal'],
editType: 'legend',
},
tracegroupgap: {
valType: 'number',
min: 0,
dflt: 10,
editType: 'legend',
},
x: {
valType: 'number',
min: -2,
max: 3,
dflt: 1.02,
editType: 'legend',
},
xanchor: {
valType: 'enumerated',
values: ['auto', 'left', 'center', 'right'],
dflt: 'left',
editType: 'legend',
},
y: {
valType: 'number',
min: -2,
max: 3,
dflt: 1,
editType: 'legend',
},
yanchor: {
valType: 'enumerated',
values: ['auto', 'top', 'middle', 'bottom'],
dflt: 'auto',
editType: 'legend',
},
editType: 'legend'
};
},{"../../plots/font_attributes":768,"../color/attributes":566}],621:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
scrollBarWidth: 6,
scrollBarMinHeight: 20,
scrollBarColor: '#808BA4',
scrollBarMargin: 4,
textOffsetX: 40
};
},{}],622:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var Template = _dereq_('../../plot_api/plot_template');
var attributes = _dereq_('./attributes');
var basePlotLayoutAttributes = _dereq_('../../plots/layout_attributes');
var helpers = _dereq_('./helpers');
module.exports = function legendDefaults(layoutIn, layoutOut, fullData) {
var containerIn = layoutIn.legend || {};
var legendTraceCount = 0;
var legendReallyHasATrace = false;
var defaultOrder = 'normal';
var defaultX, defaultY, defaultXAnchor, defaultYAnchor;
for(var i = 0; i < fullData.length; i++) {
var trace = fullData[i];
if(!trace.visible) continue;
// Note that we explicitly count any trace that is either shown or
// *would* be shown by default, toward the two traces you need to
// ensure the legend is shown by default, because this can still help
// disambiguate.
if(trace.showlegend || trace._dfltShowLegend) {
legendTraceCount++;
if(trace.showlegend) {
legendReallyHasATrace = true;
// Always show the legend by default if there's a pie,
// or if there's only one trace but it's explicitly shown
if(Registry.traceIs(trace, 'pie') ||
trace._input.showlegend === true
) {
legendTraceCount++;
}
}
}
if((Registry.traceIs(trace, 'bar') && layoutOut.barmode === 'stack') ||
['tonextx', 'tonexty'].indexOf(trace.fill) !== -1) {
defaultOrder = helpers.isGrouped({traceorder: defaultOrder}) ?
'grouped+reversed' : 'reversed';
}
if(trace.legendgroup !== undefined && trace.legendgroup !== '') {
defaultOrder = helpers.isReversed({traceorder: defaultOrder}) ?
'reversed+grouped' : 'grouped';
}
}
var showLegend = Lib.coerce(layoutIn, layoutOut,
basePlotLayoutAttributes, 'showlegend',
legendReallyHasATrace && legendTraceCount > 1);
if(showLegend === false) return;
var containerOut = Template.newContainer(layoutOut, 'legend');
function coerce(attr, dflt) {
return Lib.coerce(containerIn, containerOut, attributes, attr, dflt);
}
coerce('bgcolor', layoutOut.paper_bgcolor);
coerce('bordercolor');
coerce('borderwidth');
Lib.coerceFont(coerce, 'font', layoutOut.font);
coerce('orientation');
if(containerOut.orientation === 'h') {
var xaxis = layoutIn.xaxis;
if(xaxis && xaxis.rangeslider && xaxis.rangeslider.visible) {
defaultX = 0;
defaultXAnchor = 'left';
defaultY = 1.1;
defaultYAnchor = 'bottom';
}
else {
defaultX = 0;
defaultXAnchor = 'left';
defaultY = -0.1;
defaultYAnchor = 'top';
}
}
coerce('traceorder', defaultOrder);
if(helpers.isGrouped(layoutOut.legend)) coerce('tracegroupgap');
coerce('x', defaultX);
coerce('xanchor', defaultXAnchor);
coerce('y', defaultY);
coerce('yanchor', defaultYAnchor);
Lib.noneOrAll(containerIn, containerOut, ['x', 'y']);
};
},{"../../lib":693,"../../plot_api/plot_template":732,"../../plots/layout_attributes":796,"../../registry":825,"./attributes":620,"./helpers":626}],623:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Lib = _dereq_('../../lib');
var Plots = _dereq_('../../plots/plots');
var Registry = _dereq_('../../registry');
var Events = _dereq_('../../lib/events');
var dragElement = _dereq_('../dragelement');
var Drawing = _dereq_('../drawing');
var Color = _dereq_('../color');
var svgTextUtils = _dereq_('../../lib/svg_text_utils');
var handleClick = _dereq_('./handle_click');
var constants = _dereq_('./constants');
var interactConstants = _dereq_('../../constants/interactions');
var alignmentConstants = _dereq_('../../constants/alignment');
var LINE_SPACING = alignmentConstants.LINE_SPACING;
var FROM_TL = alignmentConstants.FROM_TL;
var FROM_BR = alignmentConstants.FROM_BR;
var getLegendData = _dereq_('./get_legend_data');
var style = _dereq_('./style');
var helpers = _dereq_('./helpers');
var anchorUtils = _dereq_('./anchor_utils');
var DBLCLICKDELAY = interactConstants.DBLCLICKDELAY;
module.exports = function draw(gd) {
var fullLayout = gd._fullLayout;
var clipId = 'legend' + fullLayout._uid;
if(!fullLayout._infolayer || !gd.calcdata) return;
if(!gd._legendMouseDownTime) gd._legendMouseDownTime = 0;
var opts = fullLayout.legend;
var legendData = fullLayout.showlegend && getLegendData(gd.calcdata, opts);
var hiddenSlices = fullLayout.hiddenlabels || [];
if(!fullLayout.showlegend || !legendData.length) {
fullLayout._infolayer.selectAll('.legend').remove();
fullLayout._topdefs.select('#' + clipId).remove();
Plots.autoMargin(gd, 'legend');
return;
}
var maxLength = 0;
for(var i = 0; i < legendData.length; i++) {
for(var j = 0; j < legendData[i].length; j++) {
var item = legendData[i][j][0];
var trace = item.trace;
var isPie = Registry.traceIs(trace, 'pie');
var name = isPie ? item.label : trace.name;
maxLength = Math.max(maxLength, name && name.length || 0);
}
}
var firstRender = false;
var legend = Lib.ensureSingle(fullLayout._infolayer, 'g', 'legend', function(s) {
s.attr('pointer-events', 'all');
firstRender = true;
});
var clipPath = Lib.ensureSingleById(fullLayout._topdefs, 'clipPath', clipId, function(s) {
s.append('rect');
});
var bg = Lib.ensureSingle(legend, 'rect', 'bg', function(s) {
s.attr('shape-rendering', 'crispEdges');
});
bg.call(Color.stroke, opts.bordercolor)
.call(Color.fill, opts.bgcolor)
.style('stroke-width', opts.borderwidth + 'px');
var scrollBox = Lib.ensureSingle(legend, 'g', 'scrollbox');
var scrollBar = Lib.ensureSingle(legend, 'rect', 'scrollbar', function(s) {
s.attr({
rx: 20,
ry: 3,
width: 0,
height: 0
})
.call(Color.fill, '#808BA4');
});
var groups = scrollBox.selectAll('g.groups')
.data(legendData);
groups.enter().append('g')
.attr('class', 'groups');
groups.exit().remove();
var traces = groups.selectAll('g.traces')
.data(Lib.identity);
traces.enter().append('g').attr('class', 'traces');
traces.exit().remove();
traces.call(style, gd)
.style('opacity', function(d) {
var trace = d[0].trace;
if(Registry.traceIs(trace, 'pie')) {
return hiddenSlices.indexOf(d[0].label) !== -1 ? 0.5 : 1;
} else {
return trace.visible === 'legendonly' ? 0.5 : 1;
}
})
.each(function() {
d3.select(this)
.call(drawTexts, gd, maxLength)
.call(setupTraceToggle, gd);
});
Lib.syncOrAsync([Plots.previousPromises,
function() {
if(firstRender) {
computeLegendDimensions(gd, groups, traces);
expandMargin(gd);
}
// Position and size the legend
var lxMin = 0,
lxMax = fullLayout.width,
lyMin = 0,
lyMax = fullLayout.height;
computeLegendDimensions(gd, groups, traces);
if(opts._height > lyMax) {
// If the legend doesn't fit in the plot area,
// do not expand the vertical margins.
expandHorizontalMargin(gd);
} else {
expandMargin(gd);
}
// Scroll section must be executed after repositionLegend.
// It requires the legend width, height, x and y to position the scrollbox
// and these values are mutated in repositionLegend.
var gs = fullLayout._size,
lx = gs.l + gs.w * opts.x,
ly = gs.t + gs.h * (1 - opts.y);
if(anchorUtils.isRightAnchor(opts)) {
lx -= opts._width;
}
else if(anchorUtils.isCenterAnchor(opts)) {
lx -= opts._width / 2;
}
if(anchorUtils.isBottomAnchor(opts)) {
ly -= opts._height;
}
else if(anchorUtils.isMiddleAnchor(opts)) {
ly -= opts._height / 2;
}
// Make sure the legend left and right sides are visible
var legendWidth = opts._width,
legendWidthMax = gs.w;
if(legendWidth > legendWidthMax) {
lx = gs.l;
legendWidth = legendWidthMax;
}
else {
if(lx + legendWidth > lxMax) lx = lxMax - legendWidth;
if(lx < lxMin) lx = lxMin;
legendWidth = Math.min(lxMax - lx, opts._width);
}
// Make sure the legend top and bottom are visible
// (legends with a scroll bar are not allowed to stretch beyond the extended
// margins)
var legendHeight = opts._height,
legendHeightMax = gs.h;
if(legendHeight > legendHeightMax) {
ly = gs.t;
legendHeight = legendHeightMax;
}
else {
if(ly + legendHeight > lyMax) ly = lyMax - legendHeight;
if(ly < lyMin) ly = lyMin;
legendHeight = Math.min(lyMax - ly, opts._height);
}
// Set size and position of all the elements that make up a legend:
// legend, background and border, scroll box and scroll bar
Drawing.setTranslate(legend, lx, ly);
// to be safe, remove previous listeners
scrollBar.on('.drag', null);
legend.on('wheel', null);
if(opts._height <= legendHeight || gd._context.staticPlot) {
// if scrollbar should not be shown.
bg.attr({
width: legendWidth - opts.borderwidth,
height: legendHeight - opts.borderwidth,
x: opts.borderwidth / 2,
y: opts.borderwidth / 2
});
Drawing.setTranslate(scrollBox, 0, 0);
clipPath.select('rect').attr({
width: legendWidth - 2 * opts.borderwidth,
height: legendHeight - 2 * opts.borderwidth,
x: opts.borderwidth,
y: opts.borderwidth
});
Drawing.setClipUrl(scrollBox, clipId);
Drawing.setRect(scrollBar, 0, 0, 0, 0);
delete opts._scrollY;
}
else {
var scrollBarHeight = Math.max(constants.scrollBarMinHeight,
legendHeight * legendHeight / opts._height);
var scrollBarYMax = legendHeight -
scrollBarHeight -
2 * constants.scrollBarMargin;
var scrollBoxYMax = opts._height - legendHeight;
var scrollRatio = scrollBarYMax / scrollBoxYMax;
var scrollBoxY = Math.min(opts._scrollY || 0, scrollBoxYMax);
// increase the background and clip-path width
// by the scrollbar width and margin
bg.attr({
width: legendWidth -
2 * opts.borderwidth +
constants.scrollBarWidth +
constants.scrollBarMargin,
height: legendHeight - opts.borderwidth,
x: opts.borderwidth / 2,
y: opts.borderwidth / 2
});
clipPath.select('rect').attr({
width: legendWidth -
2 * opts.borderwidth +
constants.scrollBarWidth +
constants.scrollBarMargin,
height: legendHeight - 2 * opts.borderwidth,
x: opts.borderwidth,
y: opts.borderwidth + scrollBoxY
});
Drawing.setClipUrl(scrollBox, clipId);
scrollHandler(scrollBoxY, scrollBarHeight, scrollRatio);
legend.on('wheel', function() {
scrollBoxY = Lib.constrain(
opts._scrollY +
d3.event.deltaY / scrollBarYMax * scrollBoxYMax,
0, scrollBoxYMax);
scrollHandler(scrollBoxY, scrollBarHeight, scrollRatio);
if(scrollBoxY !== 0 && scrollBoxY !== scrollBoxYMax) {
d3.event.preventDefault();
}
});
var eventY0, scrollBoxY0;
var drag = d3.behavior.drag()
.on('dragstart', function() {
eventY0 = d3.event.sourceEvent.clientY;
scrollBoxY0 = scrollBoxY;
})
.on('drag', function() {
var e = d3.event.sourceEvent;
if(e.buttons === 2 || e.ctrlKey) return;
scrollBoxY = Lib.constrain(
(e.clientY - eventY0) / scrollRatio + scrollBoxY0,
0, scrollBoxYMax);
scrollHandler(scrollBoxY, scrollBarHeight, scrollRatio);
});
scrollBar.call(drag);
}
function scrollHandler(scrollBoxY, scrollBarHeight, scrollRatio) {
opts._scrollY = gd._fullLayout.legend._scrollY = scrollBoxY;
Drawing.setTranslate(scrollBox, 0, -scrollBoxY);
Drawing.setRect(
scrollBar,
legendWidth,
constants.scrollBarMargin + scrollBoxY * scrollRatio,
constants.scrollBarWidth,
scrollBarHeight
);
clipPath.select('rect').attr({
y: opts.borderwidth + scrollBoxY
});
}
if(gd._context.edits.legendPosition) {
var xf, yf, x0, y0;
legend.classed('cursor-move', true);
dragElement.init({
element: legend.node(),
gd: gd,
prepFn: function() {
var transform = Drawing.getTranslate(legend);
x0 = transform.x;
y0 = transform.y;
},
moveFn: function(dx, dy) {
var newX = x0 + dx,
newY = y0 + dy;
Drawing.setTranslate(legend, newX, newY);
xf = dragElement.align(newX, 0, gs.l, gs.l + gs.w, opts.xanchor);
yf = dragElement.align(newY, 0, gs.t + gs.h, gs.t, opts.yanchor);
},
doneFn: function() {
if(xf !== undefined && yf !== undefined) {
Registry.call('relayout', gd, {'legend.x': xf, 'legend.y': yf});
}
},
clickFn: function(numClicks, e) {
var clickedTrace = fullLayout._infolayer.selectAll('g.traces').filter(function() {
var bbox = this.getBoundingClientRect();
return (
e.clientX >= bbox.left && e.clientX <= bbox.right &&
e.clientY >= bbox.top && e.clientY <= bbox.bottom
);
});
if(clickedTrace.size() > 0) {
clickOrDoubleClick(gd, legend, clickedTrace, numClicks, e);
}
}
});
}
}], gd);
};
function clickOrDoubleClick(gd, legend, legendItem, numClicks, evt) {
var trace = legendItem.data()[0][0].trace;
var evtData = {
event: evt,
node: legendItem.node(),
curveNumber: trace.index,
expandedIndex: trace._expandedIndex,
data: gd.data,
layout: gd.layout,
frames: gd._transitionData._frames,
config: gd._context,
fullData: gd._fullData,
fullLayout: gd._fullLayout
};
if(trace._group) {
evtData.group = trace._group;
}
if(trace.type === 'pie') {
evtData.label = legendItem.datum()[0].label;
}
var clickVal = Events.triggerHandler(gd, 'plotly_legendclick', evtData);
if(clickVal === false) return;
if(numClicks === 1) {
legend._clickTimeout = setTimeout(function() {
handleClick(legendItem, gd, numClicks);
}, DBLCLICKDELAY);
}
else if(numClicks === 2) {
if(legend._clickTimeout) clearTimeout(legend._clickTimeout);
gd._legendMouseDownTime = 0;
var dblClickVal = Events.triggerHandler(gd, 'plotly_legenddoubleclick', evtData);
if(dblClickVal !== false) handleClick(legendItem, gd, numClicks);
}
}
function drawTexts(g, gd, maxLength) {
var legendItem = g.data()[0][0];
var fullLayout = gd._fullLayout;
var trace = legendItem.trace;
var isPie = Registry.traceIs(trace, 'pie');
var traceIndex = trace.index;
var name = isPie ? legendItem.label : trace.name;
var isEditable = gd._context.edits.legendText && !isPie;
var textEl = Lib.ensureSingle(g, 'text', 'legendtext');
textEl.attr('text-anchor', 'start')
.classed('user-select-none', true)
.call(Drawing.font, fullLayout.legend.font)
.text(isEditable ? ensureLength(name, maxLength) : name);
svgTextUtils.positionText(textEl, constants.textOffsetX, 0);
function textLayout(s) {
svgTextUtils.convertToTspans(s, gd, function() {
computeTextDimensions(g, gd);
});
}
if(isEditable) {
textEl.call(svgTextUtils.makeEditable, {gd: gd, text: name})
.call(textLayout)
.on('edit', function(newName) {
this.text(ensureLength(newName, maxLength))
.call(textLayout);
var fullInput = legendItem.trace._fullInput || {};
var update = {};
if(Registry.hasTransform(fullInput, 'groupby')) {
var groupbyIndices = Registry.getTransformIndices(fullInput, 'groupby');
var index = groupbyIndices[groupbyIndices.length - 1];
var kcont = Lib.keyedContainer(fullInput, 'transforms[' + index + '].styles', 'target', 'value.name');
kcont.set(legendItem.trace._group, newName);
update = kcont.constructUpdate();
} else {
update.name = newName;
}
return Registry.call('restyle', gd, update, traceIndex);
});
} else {
textLayout(textEl);
}
}
/*
* Make sure we have a reasonably clickable region.
* If this string is missing or very short, pad it with spaces out to at least
* 4 characters, up to the max length of other labels, on the assumption that
* most characters are wider than spaces so a string of spaces will usually be
* no wider than the real labels.
*/
function ensureLength(str, maxLength) {
var targetLength = Math.max(4, maxLength);
if(str && str.trim().length >= targetLength / 2) return str;
str = str || '';
for(var i = targetLength - str.length; i > 0; i--) str += ' ';
return str;
}
function setupTraceToggle(g, gd) {
var newMouseDownTime,
numClicks = 1;
var traceToggle = Lib.ensureSingle(g, 'rect', 'legendtoggle', function(s) {
s.style('cursor', 'pointer')
.attr('pointer-events', 'all')
.call(Color.fill, 'rgba(0,0,0,0)');
});
traceToggle.on('mousedown', function() {
newMouseDownTime = (new Date()).getTime();
if(newMouseDownTime - gd._legendMouseDownTime < DBLCLICKDELAY) {
// in a click train
numClicks += 1;
}
else {
// new click train
numClicks = 1;
gd._legendMouseDownTime = newMouseDownTime;
}
});
traceToggle.on('mouseup', function() {
if(gd._dragged || gd._editing) return;
var legend = gd._fullLayout.legend;
if((new Date()).getTime() - gd._legendMouseDownTime > DBLCLICKDELAY) {
numClicks = Math.max(numClicks - 1, 1);
}
clickOrDoubleClick(gd, legend, g, numClicks, d3.event);
});
}
function computeTextDimensions(g, gd) {
var legendItem = g.data()[0][0];
if(!legendItem.trace.showlegend) {
g.remove();
return;
}
var mathjaxGroup = g.select('g[class*=math-group]');
var mathjaxNode = mathjaxGroup.node();
var opts = gd._fullLayout.legend;
var lineHeight = opts.font.size * LINE_SPACING;
var height, width;
if(mathjaxNode) {
var mathjaxBB = Drawing.bBox(mathjaxNode);
height = mathjaxBB.height;
width = mathjaxBB.width;
Drawing.setTranslate(mathjaxGroup, 0, (height / 4));
}
else {
var text = g.select('.legendtext');
var textLines = svgTextUtils.lineCount(text);
var textNode = text.node();
height = lineHeight * textLines;
width = textNode ? Drawing.bBox(textNode).width : 0;
// approximation to height offset to center the font
// to avoid getBoundingClientRect
var textY = lineHeight * (0.3 + (1 - textLines) / 2);
svgTextUtils.positionText(text, constants.textOffsetX, textY);
}
height = Math.max(height, 16) + 3;
legendItem.height = height;
legendItem.width = width;
}
function computeLegendDimensions(gd, groups, traces) {
var fullLayout = gd._fullLayout;
var opts = fullLayout.legend;
var borderwidth = opts.borderwidth;
var isGrouped = helpers.isGrouped(opts);
var extraWidth = 0;
opts._width = 0;
opts._height = 0;
if(helpers.isVertical(opts)) {
if(isGrouped) {
groups.each(function(d, i) {
Drawing.setTranslate(this, 0, i * opts.tracegroupgap);
});
}
traces.each(function(d) {
var legendItem = d[0],
textHeight = legendItem.height,
textWidth = legendItem.width;
Drawing.setTranslate(this,
borderwidth,
(5 + borderwidth + opts._height + textHeight / 2));
opts._height += textHeight;
opts._width = Math.max(opts._width, textWidth);
});
opts._width += 45 + borderwidth * 2;
opts._height += 10 + borderwidth * 2;
if(isGrouped) {
opts._height += (opts._lgroupsLength - 1) * opts.tracegroupgap;
}
extraWidth = 40;
}
else if(isGrouped) {
var groupXOffsets = [opts._width],
groupData = groups.data();
for(var i = 0, n = groupData.length; i < n; i++) {
var textWidths = groupData[i].map(function(legendItemArray) {
return legendItemArray[0].width;
});
var groupWidth = 40 + Math.max.apply(null, textWidths);
opts._width += opts.tracegroupgap + groupWidth;
groupXOffsets.push(opts._width);
}
groups.each(function(d, i) {
Drawing.setTranslate(this, groupXOffsets[i], 0);
});
groups.each(function() {
var group = d3.select(this),
groupTraces = group.selectAll('g.traces'),
groupHeight = 0;
groupTraces.each(function(d) {
var legendItem = d[0],
textHeight = legendItem.height;
Drawing.setTranslate(this,
0,
(5 + borderwidth + groupHeight + textHeight / 2));
groupHeight += textHeight;
});
opts._height = Math.max(opts._height, groupHeight);
});
opts._height += 10 + borderwidth * 2;
opts._width += borderwidth * 2;
}
else {
var rowHeight = 0,
maxTraceHeight = 0,
maxTraceWidth = 0,
offsetX = 0,
fullTracesWidth = 0,
traceGap = opts.tracegroupgap || 5,
oneRowLegend;
// calculate largest width for traces and use for width of all legend items
traces.each(function(d) {
maxTraceWidth = Math.max(40 + d[0].width, maxTraceWidth);
fullTracesWidth += 40 + d[0].width + traceGap;
});
// check if legend fits in one row
oneRowLegend = fullLayout._size.w > borderwidth + fullTracesWidth - traceGap;
traces.each(function(d) {
var legendItem = d[0],
traceWidth = oneRowLegend ? 40 + d[0].width : maxTraceWidth;
if((borderwidth + offsetX + traceGap + traceWidth) > fullLayout._size.w) {
offsetX = 0;
rowHeight = rowHeight + maxTraceHeight;
opts._height = opts._height + maxTraceHeight;
// reset for next row
maxTraceHeight = 0;
}
Drawing.setTranslate(this,
(borderwidth + offsetX),
(5 + borderwidth + legendItem.height / 2) + rowHeight);
opts._width += traceGap + traceWidth;
opts._height = Math.max(opts._height, legendItem.height);
// keep track of tallest trace in group
offsetX += traceGap + traceWidth;
maxTraceHeight = Math.max(legendItem.height, maxTraceHeight);
});
opts._width += borderwidth * 2;
opts._height += 10 + borderwidth * 2;
}
// make sure we're only getting full pixels
opts._width = Math.ceil(opts._width);
opts._height = Math.ceil(opts._height);
var isEditable = (
gd._context.edits.legendText ||
gd._context.edits.legendPosition
);
traces.each(function(d) {
var legendItem = d[0];
var bg = d3.select(this).select('.legendtoggle');
Drawing.setRect(bg,
0,
-legendItem.height / 2,
(isEditable ? 0 : opts._width) + extraWidth,
legendItem.height
);
});
}
function expandMargin(gd) {
var fullLayout = gd._fullLayout,
opts = fullLayout.legend;
var xanchor = 'left';
if(anchorUtils.isRightAnchor(opts)) {
xanchor = 'right';
}
else if(anchorUtils.isCenterAnchor(opts)) {
xanchor = 'center';
}
var yanchor = 'top';
if(anchorUtils.isBottomAnchor(opts)) {
yanchor = 'bottom';
}
else if(anchorUtils.isMiddleAnchor(opts)) {
yanchor = 'middle';
}
// lastly check if the margin auto-expand has changed
Plots.autoMargin(gd, 'legend', {
x: opts.x,
y: opts.y,
l: opts._width * (FROM_TL[xanchor]),
r: opts._width * (FROM_BR[xanchor]),
b: opts._height * (FROM_BR[yanchor]),
t: opts._height * (FROM_TL[yanchor])
});
}
function expandHorizontalMargin(gd) {
var fullLayout = gd._fullLayout,
opts = fullLayout.legend;
var xanchor = 'left';
if(anchorUtils.isRightAnchor(opts)) {
xanchor = 'right';
}
else if(anchorUtils.isCenterAnchor(opts)) {
xanchor = 'center';
}
// lastly check if the margin auto-expand has changed
Plots.autoMargin(gd, 'legend', {
x: opts.x,
y: 0.5,
l: opts._width * (FROM_TL[xanchor]),
r: opts._width * (FROM_BR[xanchor]),
b: 0,
t: 0
});
}
},{"../../constants/alignment":665,"../../constants/interactions":669,"../../lib":693,"../../lib/events":681,"../../lib/svg_text_utils":718,"../../plots/plots":805,"../../registry":825,"../color":567,"../dragelement":589,"../drawing":592,"./anchor_utils":619,"./constants":621,"./get_legend_data":624,"./handle_click":625,"./helpers":626,"./style":628,"d3":147}],624:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
var helpers = _dereq_('./helpers');
module.exports = function getLegendData(calcdata, opts) {
var lgroupToTraces = {},
lgroups = [],
hasOneNonBlankGroup = false,
slicesShown = {},
lgroupi = 0;
var i, j;
function addOneItem(legendGroup, legendItem) {
// each '' legend group is treated as a separate group
if(legendGroup === '' || !helpers.isGrouped(opts)) {
var uniqueGroup = '~~i' + lgroupi; // TODO: check this against fullData legendgroups?
lgroups.push(uniqueGroup);
lgroupToTraces[uniqueGroup] = [[legendItem]];
lgroupi++;
}
else if(lgroups.indexOf(legendGroup) === -1) {
lgroups.push(legendGroup);
hasOneNonBlankGroup = true;
lgroupToTraces[legendGroup] = [[legendItem]];
}
else lgroupToTraces[legendGroup].push([legendItem]);
}
// build an { legendgroup: [cd0, cd0], ... } object
for(i = 0; i < calcdata.length; i++) {
var cd = calcdata[i];
var cd0 = cd[0];
var trace = cd0.trace;
var lgroup = trace.legendgroup;
if(!trace.visible || !trace.showlegend) continue;
if(Registry.traceIs(trace, 'pie')) {
if(!slicesShown[lgroup]) slicesShown[lgroup] = {};
for(j = 0; j < cd.length; j++) {
var labelj = cd[j].label;
if(!slicesShown[lgroup][labelj]) {
addOneItem(lgroup, {
label: labelj,
color: cd[j].color,
i: cd[j].i,
trace: trace,
pts: cd[j].pts
});
slicesShown[lgroup][labelj] = true;
}
}
}
else addOneItem(lgroup, cd0);
}
// won't draw a legend in this case
if(!lgroups.length) return [];
// rearrange lgroupToTraces into a d3-friendly array of arrays
var lgroupsLength = lgroups.length,
ltraces,
legendData;
if(hasOneNonBlankGroup && helpers.isGrouped(opts)) {
legendData = new Array(lgroupsLength);
for(i = 0; i < lgroupsLength; i++) {
ltraces = lgroupToTraces[lgroups[i]];
legendData[i] = helpers.isReversed(opts) ? ltraces.reverse() : ltraces;
}
}
else {
// collapse all groups into one if all groups are blank
legendData = [new Array(lgroupsLength)];
for(i = 0; i < lgroupsLength; i++) {
ltraces = lgroupToTraces[lgroups[i]][0];
legendData[0][helpers.isReversed(opts) ? lgroupsLength - i - 1 : i] = ltraces;
}
lgroupsLength = 1;
}
// needed in repositionLegend
opts._lgroupsLength = lgroupsLength;
return legendData;
};
},{"../../registry":825,"./helpers":626}],625:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Registry = _dereq_('../../registry');
var SHOWISOLATETIP = true;
module.exports = function handleClick(g, gd, numClicks) {
if(gd._dragged || gd._editing) return;
var hiddenSlices = gd._fullLayout.hiddenlabels ?
gd._fullLayout.hiddenlabels.slice() :
[];
var legendItem = g.data()[0][0];
var fullData = gd._fullData;
var fullTrace = legendItem.trace;
var legendgroup = fullTrace.legendgroup;
var i, j, kcont, key, keys, val;
var attrUpdate = {};
var attrIndices = [];
var carrs = [];
var carrIdx = [];
function insertUpdate(traceIndex, key, value) {
var attrIndex = attrIndices.indexOf(traceIndex);
var valueArray = attrUpdate[key];
if(!valueArray) {
valueArray = attrUpdate[key] = [];
}
if(attrIndices.indexOf(traceIndex) === -1) {
attrIndices.push(traceIndex);
attrIndex = attrIndices.length - 1;
}
valueArray[attrIndex] = value;
return attrIndex;
}
function setVisibility(fullTrace, visibility) {
var fullInput = fullTrace._fullInput;
if(Registry.hasTransform(fullInput, 'groupby')) {
var kcont = carrs[fullInput.index];
if(!kcont) {
var groupbyIndices = Registry.getTransformIndices(fullInput, 'groupby');
var lastGroupbyIndex = groupbyIndices[groupbyIndices.length - 1];
kcont = Lib.keyedContainer(fullInput, 'transforms[' + lastGroupbyIndex + '].styles', 'target', 'value.visible');
carrs[fullInput.index] = kcont;
}
var curState = kcont.get(fullTrace._group);
// If not specified, assume visible. This happens if there are other style
// properties set for a group but not the visibility. There are many similar
// ways to do this (e.g. why not just `curState = fullTrace.visible`??? The
// answer is: because it breaks other things like groupby trace names in
// subtle ways.)
if(curState === undefined) {
curState = true;
}
if(curState !== false) {
// true -> legendonly. All others toggle to true:
kcont.set(fullTrace._group, visibility);
}
carrIdx[fullInput.index] = insertUpdate(fullInput.index, 'visible', fullInput.visible === false ? false : true);
} else {
// false -> false (not possible since will not be visible in legend)
// true -> legendonly
// legendonly -> true
var nextVisibility = fullInput.visible === false ? false : visibility;
insertUpdate(fullInput.index, 'visible', nextVisibility);
}
}
if(numClicks === 1 && SHOWISOLATETIP && gd.data && gd._context.showTips) {
Lib.notifier(Lib._(gd, 'Double-click on legend to isolate one trace'), 'long');
SHOWISOLATETIP = false;
} else {
SHOWISOLATETIP = false;
}
if(Registry.traceIs(fullTrace, 'pie')) {
var thisLabel = legendItem.label,
thisLabelIndex = hiddenSlices.indexOf(thisLabel);
if(numClicks === 1) {
if(thisLabelIndex === -1) hiddenSlices.push(thisLabel);
else hiddenSlices.splice(thisLabelIndex, 1);
} else if(numClicks === 2) {
hiddenSlices = [];
gd.calcdata[0].forEach(function(d) {
if(thisLabel !== d.label) {
hiddenSlices.push(d.label);
}
});
if(gd._fullLayout.hiddenlabels && gd._fullLayout.hiddenlabels.length === hiddenSlices.length && thisLabelIndex === -1) {
hiddenSlices = [];
}
}
Registry.call('relayout', gd, 'hiddenlabels', hiddenSlices);
} else {
var hasLegendgroup = legendgroup && legendgroup.length;
var traceIndicesInGroup = [];
var tracei;
if(hasLegendgroup) {
for(i = 0; i < fullData.length; i++) {
tracei = fullData[i];
if(!tracei.visible) continue;
if(tracei.legendgroup === legendgroup) {
traceIndicesInGroup.push(i);
}
}
}
if(numClicks === 1) {
var nextVisibility;
switch(fullTrace.visible) {
case true:
nextVisibility = 'legendonly';
break;
case false:
nextVisibility = false;
break;
case 'legendonly':
nextVisibility = true;
break;
}
if(hasLegendgroup) {
for(i = 0; i < fullData.length; i++) {
if(fullData[i].visible !== false && fullData[i].legendgroup === legendgroup) {
setVisibility(fullData[i], nextVisibility);
}
}
} else {
setVisibility(fullTrace, nextVisibility);
}
} else if(numClicks === 2) {
// Compute the clicked index. expandedIndex does what we want for expanded traces
// but also culls hidden traces. That means we have some work to do.
var isClicked, isInGroup, otherState;
var isIsolated = true;
for(i = 0; i < fullData.length; i++) {
isClicked = fullData[i] === fullTrace;
if(isClicked) continue;
isInGroup = (hasLegendgroup && fullData[i].legendgroup === legendgroup);
if(!isInGroup && fullData[i].visible === true && !Registry.traceIs(fullData[i], 'notLegendIsolatable')) {
isIsolated = false;
break;
}
}
for(i = 0; i < fullData.length; i++) {
// False is sticky; we don't change it.
if(fullData[i].visible === false) continue;
if(Registry.traceIs(fullData[i], 'notLegendIsolatable')) {
continue;
}
switch(fullTrace.visible) {
case 'legendonly':
setVisibility(fullData[i], true);
break;
case true:
otherState = isIsolated ? true : 'legendonly';
isClicked = fullData[i] === fullTrace;
isInGroup = isClicked || (hasLegendgroup && fullData[i].legendgroup === legendgroup);
setVisibility(fullData[i], isInGroup ? true : otherState);
break;
}
}
}
for(i = 0; i < carrs.length; i++) {
kcont = carrs[i];
if(!kcont) continue;
var update = kcont.constructUpdate();
var updateKeys = Object.keys(update);
for(j = 0; j < updateKeys.length; j++) {
key = updateKeys[j];
val = attrUpdate[key] = attrUpdate[key] || [];
val[carrIdx[i]] = update[key];
}
}
// The length of the value arrays should be equal and any unspecified
// values should be explicitly undefined for them to get properly culled
// as updates and not accidentally reset to the default value. This fills
// out sparse arrays with the required number of undefined values:
keys = Object.keys(attrUpdate);
for(i = 0; i < keys.length; i++) {
key = keys[i];
for(j = 0; j < attrIndices.length; j++) {
// Use hasOwnPropety to protect against falsey values:
if(!attrUpdate[key].hasOwnProperty(j)) {
attrUpdate[key][j] = undefined;
}
}
}
Registry.call('restyle', gd, attrUpdate, attrIndices);
}
};
},{"../../lib":693,"../../registry":825}],626:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
exports.isGrouped = function isGrouped(legendLayout) {
return (legendLayout.traceorder || '').indexOf('grouped') !== -1;
};
exports.isVertical = function isVertical(legendLayout) {
return legendLayout.orientation !== 'h';
};
exports.isReversed = function isReversed(legendLayout) {
return (legendLayout.traceorder || '').indexOf('reversed') !== -1;
};
},{}],627:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
moduleType: 'component',
name: 'legend',
layoutAttributes: _dereq_('./attributes'),
supplyLayoutDefaults: _dereq_('./defaults'),
draw: _dereq_('./draw'),
style: _dereq_('./style')
};
},{"./attributes":620,"./defaults":622,"./draw":623,"./style":628}],628:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var Drawing = _dereq_('../drawing');
var Color = _dereq_('../color');
var subTypes = _dereq_('../../traces/scatter/subtypes');
var stylePie = _dereq_('../../traces/pie/style_one');
module.exports = function style(s, gd) {
s.each(function(d) {
var traceGroup = d3.select(this);
var layers = Lib.ensureSingle(traceGroup, 'g', 'layers');
layers.style('opacity', d[0].trace.opacity);
var fill = layers
.selectAll('g.legendfill')
.data([d]);
fill.enter().append('g')
.classed('legendfill', true);
var line = layers
.selectAll('g.legendlines')
.data([d]);
line.enter().append('g')
.classed('legendlines', true);
var symbol = layers
.selectAll('g.legendsymbols')
.data([d]);
symbol.enter().append('g')
.classed('legendsymbols', true);
symbol.selectAll('g.legendpoints')
.data([d])
.enter().append('g')
.classed('legendpoints', true);
})
.each(styleBars)
.each(styleBoxes)
.each(stylePies)
.each(styleLines)
.each(stylePoints)
.each(styleCandles)
.each(styleOHLC);
function styleLines(d) {
var trace = d[0].trace;
var showFill = trace.visible && trace.fill && trace.fill !== 'none';
var showLine = subTypes.hasLines(trace);
var contours = trace.contours;
var showGradientLine = false;
var showGradientFill = false;
if(contours) {
var coloring = contours.coloring;
if(coloring === 'lines') {
showGradientLine = true;
}
else {
showLine = coloring === 'none' || coloring === 'heatmap' ||
contours.showlines;
}
if(contours.type === 'constraint') {
showFill = contours._operation !== '=';
}
else if(coloring === 'fill' || coloring === 'heatmap') {
showGradientFill = true;
}
}
// with fill and no markers or text, move the line and fill up a bit
// so it's more centered
var markersOrText = subTypes.hasMarkers(trace) || subTypes.hasText(trace);
var anyFill = showFill || showGradientFill;
var anyLine = showLine || showGradientLine;
var pathStart = (markersOrText || !anyFill) ? 'M5,0' :
// with a line leave it slightly below center, to leave room for the
// line thickness and because the line is usually more prominent
anyLine ? 'M5,-2' : 'M5,-3';
var this3 = d3.select(this);
var fill = this3.select('.legendfill').selectAll('path')
.data(showFill || showGradientFill ? [d] : []);
fill.enter().append('path').classed('js-fill', true);
fill.exit().remove();
fill.attr('d', pathStart + 'h30v6h-30z')
.call(showFill ? Drawing.fillGroupStyle : fillGradient);
var line = this3.select('.legendlines').selectAll('path')
.data(showLine || showGradientLine ? [d] : []);
line.enter().append('path').classed('js-line', true);
line.exit().remove();
// this is ugly... but you can't apply a gradient to a perfectly
// horizontal or vertical line. Presumably because then
// the system doesn't know how to scale vertical variation, even
// though there *is* no vertical variation in this case.
// so add an invisibly small angle to the line
// This issue (and workaround) exist across (Mac) Chrome, FF, and Safari
line.attr('d', pathStart + (showGradientLine ? 'l30,0.0001' : 'h30'))
.call(showLine ? Drawing.lineGroupStyle : lineGradient);
function fillGradient(s) {
if(s.size()) {
var gradientID = 'legendfill-' + trace.uid;
Drawing.gradient(s, gd, gradientID, 'horizontalreversed',
trace.colorscale, 'fill');
}
}
function lineGradient(s) {
if(s.size()) {
var gradientID = 'legendline-' + trace.uid;
Drawing.lineGroupStyle(s);
Drawing.gradient(s, gd, gradientID, 'horizontalreversed',
trace.colorscale, 'stroke');
}
}
}
function stylePoints(d) {
var d0 = d[0];
var trace = d0.trace;
var showMarkers = subTypes.hasMarkers(trace);
var showText = subTypes.hasText(trace);
var showLines = subTypes.hasLines(trace);
var dMod, tMod;
// 'scatter3d' don't use gd.calcdata,
// use d0.trace to infer arrayOk attributes
function boundVal(attrIn, arrayToValFn, bounds) {
var valIn = Lib.nestedProperty(trace, attrIn).get();
var valToBound = (Array.isArray(valIn) && arrayToValFn) ?
arrayToValFn(valIn) :
valIn;
if(bounds) {
if(valToBound < bounds[0]) return bounds[0];
else if(valToBound > bounds[1]) return bounds[1];
}
return valToBound;
}
function pickFirst(array) { return array[0]; }
// constrain text, markers, etc so they'll fit on the legend
if(showMarkers || showText || showLines) {
var dEdit = {};
var tEdit = {};
if(showMarkers) {
dEdit.mc = boundVal('marker.color', pickFirst);
dEdit.mx = boundVal('marker.symbol', pickFirst);
dEdit.mo = boundVal('marker.opacity', Lib.mean, [0.2, 1]);
dEdit.mlc = boundVal('marker.line.color', pickFirst);
dEdit.mlw = boundVal('marker.line.width', Lib.mean, [0, 5]);
tEdit.marker = {
sizeref: 1,
sizemin: 1,
sizemode: 'diameter'
};
var ms = boundVal('marker.size', Lib.mean, [2, 16]);
dEdit.ms = ms;
tEdit.marker.size = ms;
}
if(showLines) {
tEdit.line = {
width: boundVal('line.width', pickFirst, [0, 10])
};
}
if(showText) {
dEdit.tx = 'Aa';
dEdit.tp = boundVal('textposition', pickFirst);
dEdit.ts = 10;
dEdit.tc = boundVal('textfont.color', pickFirst);
dEdit.tf = boundVal('textfont.family', pickFirst);
}
dMod = [Lib.minExtend(d0, dEdit)];
tMod = Lib.minExtend(trace, tEdit);
// always show legend items in base state
tMod.selectedpoints = null;
}
var ptgroup = d3.select(this).select('g.legendpoints');
var pts = ptgroup.selectAll('path.scatterpts')
.data(showMarkers ? dMod : []);
// make sure marker is on the bottom, in case it enters after text
pts.enter().insert('path', ':first-child')
.classed('scatterpts', true)
.attr('transform', 'translate(20,0)');
pts.exit().remove();
pts.call(Drawing.pointStyle, tMod, gd);
// 'mrc' is set in pointStyle and used in textPointStyle:
// constrain it here
if(showMarkers) dMod[0].mrc = 3;
var txt = ptgroup.selectAll('g.pointtext')
.data(showText ? dMod : []);
txt.enter()
.append('g').classed('pointtext', true)
.append('text').attr('transform', 'translate(20,0)');
txt.exit().remove();
txt.selectAll('text').call(Drawing.textPointStyle, tMod, gd);
}
function styleBars(d) {
var trace = d[0].trace,
marker = trace.marker || {},
markerLine = marker.line || {},
barpath = d3.select(this).select('g.legendpoints')
.selectAll('path.legendbar')
.data(Registry.traceIs(trace, 'bar') ? [d] : []);
barpath.enter().append('path').classed('legendbar', true)
.attr('d', 'M6,6H-6V-6H6Z')
.attr('transform', 'translate(20,0)');
barpath.exit().remove();
barpath.each(function(d) {
var p = d3.select(this),
d0 = d[0],
w = (d0.mlw + 1 || markerLine.width + 1) - 1;
p.style('stroke-width', w + 'px')
.call(Color.fill, d0.mc || marker.color);
if(w) {
p.call(Color.stroke, d0.mlc || markerLine.color);
}
});
}
function styleBoxes(d) {
var trace = d[0].trace,
pts = d3.select(this).select('g.legendpoints')
.selectAll('path.legendbox')
.data(Registry.traceIs(trace, 'box-violin') && trace.visible ? [d] : []);
pts.enter().append('path').classed('legendbox', true)
// if we want the median bar, prepend M6,0H-6
.attr('d', 'M6,6H-6V-6H6Z')
.attr('transform', 'translate(20,0)');
pts.exit().remove();
pts.each(function() {
var w = trace.line.width,
p = d3.select(this);
p.style('stroke-width', w + 'px')
.call(Color.fill, trace.fillcolor);
if(w) {
Color.stroke(p, trace.line.color);
}
});
}
function styleCandles(d) {
var trace = d[0].trace,
pts = d3.select(this).select('g.legendpoints')
.selectAll('path.legendcandle')
.data(trace.type === 'candlestick' && trace.visible ? [d, d] : []);
pts.enter().append('path').classed('legendcandle', true)
.attr('d', function(_, i) {
if(i) return 'M-15,0H-8M-8,6V-6H8Z'; // increasing
return 'M15,0H8M8,-6V6H-8Z'; // decreasing
})
.attr('transform', 'translate(20,0)')
.style('stroke-miterlimit', 1);
pts.exit().remove();
pts.each(function(_, i) {
var container = trace[i ? 'increasing' : 'decreasing'];
var w = container.line.width,
p = d3.select(this);
p.style('stroke-width', w + 'px')
.call(Color.fill, container.fillcolor);
if(w) {
Color.stroke(p, container.line.color);
}
});
}
function styleOHLC(d) {
var trace = d[0].trace,
pts = d3.select(this).select('g.legendpoints')
.selectAll('path.legendohlc')
.data(trace.type === 'ohlc' && trace.visible ? [d, d] : []);
pts.enter().append('path').classed('legendohlc', true)
.attr('d', function(_, i) {
if(i) return 'M-15,0H0M-8,-6V0'; // increasing
return 'M15,0H0M8,6V0'; // decreasing
})
.attr('transform', 'translate(20,0)')
.style('stroke-miterlimit', 1);
pts.exit().remove();
pts.each(function(_, i) {
var container = trace[i ? 'increasing' : 'decreasing'];
var w = container.line.width,
p = d3.select(this);
p.style('fill', 'none')
.call(Drawing.dashLine, container.line.dash, w);
if(w) {
Color.stroke(p, container.line.color);
}
});
}
function stylePies(d) {
var trace = d[0].trace,
pts = d3.select(this).select('g.legendpoints')
.selectAll('path.legendpie')
.data(Registry.traceIs(trace, 'pie') && trace.visible ? [d] : []);
pts.enter().append('path').classed('legendpie', true)
.attr('d', 'M6,6H-6V-6H6Z')
.attr('transform', 'translate(20,0)');
pts.exit().remove();
if(pts.size()) pts.call(stylePie, d[0], trace);
}
};
},{"../../lib":693,"../../registry":825,"../../traces/pie/style_one":1018,"../../traces/scatter/subtypes":1056,"../color":567,"../drawing":592,"d3":147}],629:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
var Plots = _dereq_('../../plots/plots');
var axisIds = _dereq_('../../plots/cartesian/axis_ids');
var Lib = _dereq_('../../lib');
var Icons = _dereq_('../../../build/ploticon');
var _ = Lib._;
var modeBarButtons = module.exports = {};
/**
* ModeBar buttons configuration
*
* @param {string} name
* name / id of the buttons (for tracking)
* @param {string} title
* text that appears while hovering over the button,
* enter null, false or '' for no hover text
* @param {string} icon
* svg icon object associated with the button
* can be linked to Plotly.Icons to use the default plotly icons
* @param {string} [gravity]
* icon positioning
* @param {function} click
* click handler associated with the button, a function of
* 'gd' (the main graph object) and
* 'ev' (the event object)
* @param {string} [attr]
* attribute associated with button,
* use this with 'val' to keep track of the state
* @param {*} [val]
* initial 'attr' value, can be a function of gd
* @param {boolean} [toggle]
* is the button a toggle button?
*/
modeBarButtons.toImage = {
name: 'toImage',
title: function(gd) {
var opts = gd._context.toImageButtonOptions || {};
var format = opts.format || 'png';
return format === 'png' ?
_(gd, 'Download plot as a png') : // legacy text
_(gd, 'Download plot'); // generic non-PNG text
},
icon: Icons.camera,
click: function(gd) {
var toImageButtonOptions = gd._context.toImageButtonOptions;
var opts = {format: toImageButtonOptions.format || 'png'};
Lib.notifier(_(gd, 'Taking snapshot - this may take a few seconds'), 'long');
if(opts.format !== 'svg' && Lib.isIE()) {
Lib.notifier(_(gd, 'IE only supports svg. Changing format to svg.'), 'long');
opts.format = 'svg';
}
['filename', 'width', 'height', 'scale'].forEach(function(key) {
if(toImageButtonOptions[key]) {
opts[key] = toImageButtonOptions[key];
}
});
Registry.call('downloadImage', gd, opts)
.then(function(filename) {
Lib.notifier(_(gd, 'Snapshot succeeded') + ' - ' + filename, 'long');
})
.catch(function() {
Lib.notifier(_(gd, 'Sorry, there was a problem downloading your snapshot!'), 'long');
});
}
};
modeBarButtons.sendDataToCloud = {
name: 'sendDataToCloud',
title: function(gd) { return _(gd, 'Edit in Chart Studio'); },
icon: Icons.disk,
click: function(gd) {
Plots.sendDataToCloud(gd);
}
};
modeBarButtons.zoom2d = {
name: 'zoom2d',
title: function(gd) { return _(gd, 'Zoom'); },
attr: 'dragmode',
val: 'zoom',
icon: Icons.zoombox,
click: handleCartesian
};
modeBarButtons.pan2d = {
name: 'pan2d',
title: function(gd) { return _(gd, 'Pan'); },
attr: 'dragmode',
val: 'pan',
icon: Icons.pan,
click: handleCartesian
};
modeBarButtons.select2d = {
name: 'select2d',
title: function(gd) { return _(gd, 'Box Select'); },
attr: 'dragmode',
val: 'select',
icon: Icons.selectbox,
click: handleCartesian
};
modeBarButtons.lasso2d = {
name: 'lasso2d',
title: function(gd) { return _(gd, 'Lasso Select'); },
attr: 'dragmode',
val: 'lasso',
icon: Icons.lasso,
click: handleCartesian
};
modeBarButtons.zoomIn2d = {
name: 'zoomIn2d',
title: function(gd) { return _(gd, 'Zoom in'); },
attr: 'zoom',
val: 'in',
icon: Icons.zoom_plus,
click: handleCartesian
};
modeBarButtons.zoomOut2d = {
name: 'zoomOut2d',
title: function(gd) { return _(gd, 'Zoom out'); },
attr: 'zoom',
val: 'out',
icon: Icons.zoom_minus,
click: handleCartesian
};
modeBarButtons.autoScale2d = {
name: 'autoScale2d',
title: function(gd) { return _(gd, 'Autoscale'); },
attr: 'zoom',
val: 'auto',
icon: Icons.autoscale,
click: handleCartesian
};
modeBarButtons.resetScale2d = {
name: 'resetScale2d',
title: function(gd) { return _(gd, 'Reset axes'); },
attr: 'zoom',
val: 'reset',
icon: Icons.home,
click: handleCartesian
};
modeBarButtons.hoverClosestCartesian = {
name: 'hoverClosestCartesian',
title: function(gd) { return _(gd, 'Show closest data on hover'); },
attr: 'hovermode',
val: 'closest',
icon: Icons.tooltip_basic,
gravity: 'ne',
click: handleCartesian
};
modeBarButtons.hoverCompareCartesian = {
name: 'hoverCompareCartesian',
title: function(gd) { return _(gd, 'Compare data on hover'); },
attr: 'hovermode',
val: function(gd) {
return gd._fullLayout._isHoriz ? 'y' : 'x';
},
icon: Icons.tooltip_compare,
gravity: 'ne',
click: handleCartesian
};
function handleCartesian(gd, ev) {
var button = ev.currentTarget;
var astr = button.getAttribute('data-attr');
var val = button.getAttribute('data-val') || true;
var fullLayout = gd._fullLayout;
var aobj = {};
var axList = axisIds.list(gd, null, true);
var allSpikesEnabled = 'on';
var ax, i;
if(astr === 'zoom') {
var mag = (val === 'in') ? 0.5 : 2,
r0 = (1 + mag) / 2,
r1 = (1 - mag) / 2;
var axName;
for(i = 0; i < axList.length; i++) {
ax = axList[i];
if(!ax.fixedrange) {
axName = ax._name;
if(val === 'auto') aobj[axName + '.autorange'] = true;
else if(val === 'reset') {
if(ax._rangeInitial === undefined) {
aobj[axName + '.autorange'] = true;
}
else {
var rangeInitial = ax._rangeInitial.slice();
aobj[axName + '.range[0]'] = rangeInitial[0];
aobj[axName + '.range[1]'] = rangeInitial[1];
}
if(ax._showSpikeInitial !== undefined) {
aobj[axName + '.showspikes'] = ax._showSpikeInitial;
if(allSpikesEnabled === 'on' && !ax._showSpikeInitial) {
allSpikesEnabled = 'off';
}
}
}
else {
var rangeNow = [
ax.r2l(ax.range[0]),
ax.r2l(ax.range[1]),
];
var rangeNew = [
r0 * rangeNow[0] + r1 * rangeNow[1],
r0 * rangeNow[1] + r1 * rangeNow[0]
];
aobj[axName + '.range[0]'] = ax.l2r(rangeNew[0]);
aobj[axName + '.range[1]'] = ax.l2r(rangeNew[1]);
}
}
}
fullLayout._cartesianSpikesEnabled = allSpikesEnabled;
}
else {
// if ALL traces have orientation 'h', 'hovermode': 'x' otherwise: 'y'
if(astr === 'hovermode' && (val === 'x' || val === 'y')) {
val = fullLayout._isHoriz ? 'y' : 'x';
button.setAttribute('data-val', val);
} else if(astr === 'hovermode' && val === 'closest') {
for(i = 0; i < axList.length; i++) {
ax = axList[i];
if(allSpikesEnabled === 'on' && !ax.showspikes) {
allSpikesEnabled = 'off';
}
}
fullLayout._cartesianSpikesEnabled = allSpikesEnabled;
}
aobj[astr] = val;
}
Registry.call('relayout', gd, aobj);
}
modeBarButtons.zoom3d = {
name: 'zoom3d',
title: function(gd) { return _(gd, 'Zoom'); },
attr: 'scene.dragmode',
val: 'zoom',
icon: Icons.zoombox,
click: handleDrag3d
};
modeBarButtons.pan3d = {
name: 'pan3d',
title: function(gd) { return _(gd, 'Pan'); },
attr: 'scene.dragmode',
val: 'pan',
icon: Icons.pan,
click: handleDrag3d
};
modeBarButtons.orbitRotation = {
name: 'orbitRotation',
title: function(gd) { return _(gd, 'Orbital rotation'); },
attr: 'scene.dragmode',
val: 'orbit',
icon: Icons['3d_rotate'],
click: handleDrag3d
};
modeBarButtons.tableRotation = {
name: 'tableRotation',
title: function(gd) { return _(gd, 'Turntable rotation'); },
attr: 'scene.dragmode',
val: 'turntable',
icon: Icons['z-axis'],
click: handleDrag3d
};
function handleDrag3d(gd, ev) {
var button = ev.currentTarget;
var attr = button.getAttribute('data-attr');
var val = button.getAttribute('data-val') || true;
var sceneIds = gd._fullLayout._subplots.gl3d;
var layoutUpdate = {};
var parts = attr.split('.');
for(var i = 0; i < sceneIds.length; i++) {
layoutUpdate[sceneIds[i] + '.' + parts[1]] = val;
}
// for multi-type subplots
var val2d = (val === 'pan') ? val : 'zoom';
layoutUpdate.dragmode = val2d;
Registry.call('relayout', gd, layoutUpdate);
}
modeBarButtons.resetCameraDefault3d = {
name: 'resetCameraDefault3d',
title: function(gd) { return _(gd, 'Reset camera to default'); },
attr: 'resetDefault',
icon: Icons.home,
click: handleCamera3d
};
modeBarButtons.resetCameraLastSave3d = {
name: 'resetCameraLastSave3d',
title: function(gd) { return _(gd, 'Reset camera to last save'); },
attr: 'resetLastSave',
icon: Icons.movie,
click: handleCamera3d
};
function handleCamera3d(gd, ev) {
var button = ev.currentTarget;
var attr = button.getAttribute('data-attr');
var fullLayout = gd._fullLayout;
var sceneIds = fullLayout._subplots.gl3d;
var aobj = {};
for(var i = 0; i < sceneIds.length; i++) {
var sceneId = sceneIds[i],
key = sceneId + '.camera',
scene = fullLayout[sceneId]._scene;
if(attr === 'resetDefault') {
aobj[key] = null;
}
else if(attr === 'resetLastSave') {
aobj[key] = Lib.extendDeep({}, scene.cameraInitial);
}
}
Registry.call('relayout', gd, aobj);
}
modeBarButtons.hoverClosest3d = {
name: 'hoverClosest3d',
title: function(gd) { return _(gd, 'Toggle show closest data on hover'); },
attr: 'hovermode',
val: null,
toggle: true,
icon: Icons.tooltip_basic,
gravity: 'ne',
click: handleHover3d
};
function handleHover3d(gd, ev) {
var button = ev.currentTarget;
var val = button._previousVal || false;
var layout = gd.layout;
var fullLayout = gd._fullLayout;
var sceneIds = fullLayout._subplots.gl3d;
var axes = ['xaxis', 'yaxis', 'zaxis'];
var spikeAttrs = ['showspikes', 'spikesides', 'spikethickness', 'spikecolor'];
// initialize 'current spike' object to be stored in the DOM
var currentSpikes = {};
var axisSpikes = {};
var layoutUpdate = {};
if(val) {
layoutUpdate = Lib.extendDeep(layout, val);
button._previousVal = null;
}
else {
layoutUpdate = {
'allaxes.showspikes': false
};
for(var i = 0; i < sceneIds.length; i++) {
var sceneId = sceneIds[i],
sceneLayout = fullLayout[sceneId],
sceneSpikes = currentSpikes[sceneId] = {};
sceneSpikes.hovermode = sceneLayout.hovermode;
layoutUpdate[sceneId + '.hovermode'] = false;
// copy all the current spike attrs
for(var j = 0; j < 3; j++) {
var axis = axes[j];
axisSpikes = sceneSpikes[axis] = {};
for(var k = 0; k < spikeAttrs.length; k++) {
var spikeAttr = spikeAttrs[k];
axisSpikes[spikeAttr] = sceneLayout[axis][spikeAttr];
}
}
}
button._previousVal = Lib.extendDeep({}, currentSpikes);
}
Registry.call('relayout', gd, layoutUpdate);
}
modeBarButtons.zoomInGeo = {
name: 'zoomInGeo',
title: function(gd) { return _(gd, 'Zoom in'); },
attr: 'zoom',
val: 'in',
icon: Icons.zoom_plus,
click: handleGeo
};
modeBarButtons.zoomOutGeo = {
name: 'zoomOutGeo',
title: function(gd) { return _(gd, 'Zoom out'); },
attr: 'zoom',
val: 'out',
icon: Icons.zoom_minus,
click: handleGeo
};
modeBarButtons.resetGeo = {
name: 'resetGeo',
title: function(gd) { return _(gd, 'Reset'); },
attr: 'reset',
val: null,
icon: Icons.autoscale,
click: handleGeo
};
modeBarButtons.hoverClosestGeo = {
name: 'hoverClosestGeo',
title: function(gd) { return _(gd, 'Toggle show closest data on hover'); },
attr: 'hovermode',
val: null,
toggle: true,
icon: Icons.tooltip_basic,
gravity: 'ne',
click: toggleHover
};
function handleGeo(gd, ev) {
var button = ev.currentTarget;
var attr = button.getAttribute('data-attr');
var val = button.getAttribute('data-val') || true;
var fullLayout = gd._fullLayout;
var geoIds = fullLayout._subplots.geo;
for(var i = 0; i < geoIds.length; i++) {
var id = geoIds[i];
var geoLayout = fullLayout[id];
if(attr === 'zoom') {
var scale = geoLayout.projection.scale;
var newScale = (val === 'in') ? 2 * scale : 0.5 * scale;
Registry.call('relayout', gd, id + '.projection.scale', newScale);
} else if(attr === 'reset') {
resetView(gd, 'geo');
}
}
}
modeBarButtons.hoverClosestGl2d = {
name: 'hoverClosestGl2d',
title: function(gd) { return _(gd, 'Toggle show closest data on hover'); },
attr: 'hovermode',
val: null,
toggle: true,
icon: Icons.tooltip_basic,
gravity: 'ne',
click: toggleHover
};
modeBarButtons.hoverClosestPie = {
name: 'hoverClosestPie',
title: function(gd) { return _(gd, 'Toggle show closest data on hover'); },
attr: 'hovermode',
val: 'closest',
icon: Icons.tooltip_basic,
gravity: 'ne',
click: toggleHover
};
function toggleHover(gd) {
var fullLayout = gd._fullLayout;
var onHoverVal;
if(fullLayout._has('cartesian')) {
onHoverVal = fullLayout._isHoriz ? 'y' : 'x';
}
else onHoverVal = 'closest';
var newHover = gd._fullLayout.hovermode ? false : onHoverVal;
Registry.call('relayout', gd, 'hovermode', newHover);
}
// buttons when more then one plot types are present
modeBarButtons.toggleHover = {
name: 'toggleHover',
title: function(gd) { return _(gd, 'Toggle show closest data on hover'); },
attr: 'hovermode',
val: null,
toggle: true,
icon: Icons.tooltip_basic,
gravity: 'ne',
click: function(gd, ev) {
toggleHover(gd);
// the 3d hovermode update must come
// last so that layout.hovermode update does not
// override scene?.hovermode?.layout.
handleHover3d(gd, ev);
}
};
modeBarButtons.resetViews = {
name: 'resetViews',
title: function(gd) { return _(gd, 'Reset views'); },
icon: Icons.home,
click: function(gd, ev) {
var button = ev.currentTarget;
button.setAttribute('data-attr', 'zoom');
button.setAttribute('data-val', 'reset');
handleCartesian(gd, ev);
button.setAttribute('data-attr', 'resetLastSave');
handleCamera3d(gd, ev);
resetView(gd, 'geo');
resetView(gd, 'mapbox');
}
};
modeBarButtons.toggleSpikelines = {
name: 'toggleSpikelines',
title: function(gd) { return _(gd, 'Toggle Spike Lines'); },
icon: Icons.spikeline,
attr: '_cartesianSpikesEnabled',
val: 'on',
click: function(gd) {
var fullLayout = gd._fullLayout;
fullLayout._cartesianSpikesEnabled = fullLayout._cartesianSpikesEnabled === 'on' ? 'off' : 'on';
var aobj = setSpikelineVisibility(gd);
Registry.call('relayout', gd, aobj);
}
};
function setSpikelineVisibility(gd) {
var fullLayout = gd._fullLayout;
var axList = axisIds.list(gd, null, true);
var aobj = {};
var ax, axName;
for(var i = 0; i < axList.length; i++) {
ax = axList[i];
axName = ax._name;
aobj[axName + '.showspikes'] = fullLayout._cartesianSpikesEnabled === 'on' ? true : ax._showSpikeInitial;
}
return aobj;
}
modeBarButtons.resetViewMapbox = {
name: 'resetViewMapbox',
title: function(gd) { return _(gd, 'Reset view'); },
attr: 'reset',
icon: Icons.home,
click: function(gd) {
resetView(gd, 'mapbox');
}
};
function resetView(gd, subplotType) {
var fullLayout = gd._fullLayout;
var subplotIds = fullLayout._subplots[subplotType];
var aObj = {};
for(var i = 0; i < subplotIds.length; i++) {
var id = subplotIds[i];
var subplotObj = fullLayout[id]._subplot;
var viewInitial = subplotObj.viewInitial;
var viewKeys = Object.keys(viewInitial);
for(var j = 0; j < viewKeys.length; j++) {
var key = viewKeys[j];
aObj[id + '.' + key] = viewInitial[key];
}
}
Registry.call('relayout', gd, aObj);
}
},{"../../../build/ploticon":2,"../../lib":693,"../../plots/cartesian/axis_ids":745,"../../plots/plots":805,"../../registry":825}],630:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
exports.manage = _dereq_('./manage');
},{"./manage":631}],631:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var axisIds = _dereq_('../../plots/cartesian/axis_ids');
var scatterSubTypes = _dereq_('../../traces/scatter/subtypes');
var Registry = _dereq_('../../registry');
var createModeBar = _dereq_('./modebar');
var modeBarButtons = _dereq_('./buttons');
/**
* ModeBar wrapper around 'create' and 'update',
* chooses buttons to pass to ModeBar constructor based on
* plot type and plot config.
*
* @param {object} gd main plot object
*
*/
module.exports = function manageModeBar(gd) {
var fullLayout = gd._fullLayout,
context = gd._context,
modeBar = fullLayout._modeBar;
if(!context.displayModeBar) {
if(modeBar) {
modeBar.destroy();
delete fullLayout._modeBar;
}
return;
}
if(!Array.isArray(context.modeBarButtonsToRemove)) {
throw new Error([
'*modeBarButtonsToRemove* configuration options',
'must be an array.'
].join(' '));
}
if(!Array.isArray(context.modeBarButtonsToAdd)) {
throw new Error([
'*modeBarButtonsToAdd* configuration options',
'must be an array.'
].join(' '));
}
var customButtons = context.modeBarButtons;
var buttonGroups;
if(Array.isArray(customButtons) && customButtons.length) {
buttonGroups = fillCustomButton(customButtons);
}
else {
buttonGroups = getButtonGroups(
gd,
context.modeBarButtonsToRemove,
context.modeBarButtonsToAdd
);
}
if(modeBar) modeBar.update(gd, buttonGroups);
else fullLayout._modeBar = createModeBar(gd, buttonGroups);
};
// logic behind which buttons are displayed by default
function getButtonGroups(gd, buttonsToRemove, buttonsToAdd) {
var fullLayout = gd._fullLayout;
var fullData = gd._fullData;
var hasCartesian = fullLayout._has('cartesian');
var hasGL3D = fullLayout._has('gl3d');
var hasGeo = fullLayout._has('geo');
var hasPie = fullLayout._has('pie');
var hasGL2D = fullLayout._has('gl2d');
var hasTernary = fullLayout._has('ternary');
var hasMapbox = fullLayout._has('mapbox');
var hasPolar = fullLayout._has('polar');
var allAxesFixed = areAllAxesFixed(fullLayout);
var groups = [];
function addGroup(newGroup) {
if(!newGroup.length) return;
var out = [];
for(var i = 0; i < newGroup.length; i++) {
var button = newGroup[i];
if(buttonsToRemove.indexOf(button) !== -1) continue;
out.push(modeBarButtons[button]);
}
groups.push(out);
}
// buttons common to all plot types
addGroup(['toImage', 'sendDataToCloud']);
var zoomGroup = [];
var hoverGroup = [];
var resetGroup = [];
var dragModeGroup = [];
if((hasCartesian || hasGL2D || hasPie || hasTernary) + hasGeo + hasGL3D + hasMapbox + hasPolar > 1) {
// graphs with more than one plot types get 'union buttons'
// which reset the view or toggle hover labels across all subplots.
hoverGroup = ['toggleHover'];
resetGroup = ['resetViews'];
}
else if(hasGeo) {
zoomGroup = ['zoomInGeo', 'zoomOutGeo'];
hoverGroup = ['hoverClosestGeo'];
resetGroup = ['resetGeo'];
}
else if(hasGL3D) {
hoverGroup = ['hoverClosest3d'];
resetGroup = ['resetCameraDefault3d', 'resetCameraLastSave3d'];
}
else if(hasMapbox) {
hoverGroup = ['toggleHover'];
resetGroup = ['resetViewMapbox'];
}
else if(hasGL2D) {
hoverGroup = ['hoverClosestGl2d'];
}
else if(hasPie) {
hoverGroup = ['hoverClosestPie'];
}
else { // hasPolar, hasTernary
// always show at least one hover icon.
hoverGroup = ['toggleHover'];
}
// if we have cartesian, allow switching between closest and compare
// regardless of what other types are on the plot, since they'll all
// just treat any truthy hovermode as 'closest'
if(hasCartesian) {
hoverGroup = ['toggleSpikelines', 'hoverClosestCartesian', 'hoverCompareCartesian'];
}
if((hasCartesian || hasGL2D) && !allAxesFixed) {
zoomGroup = ['zoomIn2d', 'zoomOut2d', 'autoScale2d'];
if(resetGroup[0] !== 'resetViews') resetGroup = ['resetScale2d'];
}
if(hasGL3D) {
dragModeGroup = ['zoom3d', 'pan3d', 'orbitRotation', 'tableRotation'];
}
else if(((hasCartesian || hasGL2D) && !allAxesFixed) || hasTernary) {
dragModeGroup = ['zoom2d', 'pan2d'];
}
else if(hasMapbox || hasGeo) {
dragModeGroup = ['pan2d'];
}
else if(hasPolar) {
dragModeGroup = ['zoom2d'];
}
if(isSelectable(fullData)) {
dragModeGroup.push('select2d', 'lasso2d');
}
addGroup(dragModeGroup);
addGroup(zoomGroup.concat(resetGroup));
addGroup(hoverGroup);
return appendButtonsToGroups(groups, buttonsToAdd);
}
function areAllAxesFixed(fullLayout) {
var axList = axisIds.list({_fullLayout: fullLayout}, null, true);
for(var i = 0; i < axList.length; i++) {
if(!axList[i].fixedrange) {
return false;
}
}
return true;
}
// look for traces that support selection
// to be updated as we add more selectPoints handlers
function isSelectable(fullData) {
var selectable = false;
for(var i = 0; i < fullData.length; i++) {
if(selectable) break;
var trace = fullData[i];
if(!trace._module || !trace._module.selectPoints) continue;
if(Registry.traceIs(trace, 'scatter-like')) {
if(scatterSubTypes.hasMarkers(trace) || scatterSubTypes.hasText(trace)) {
selectable = true;
}
} else if(Registry.traceIs(trace, 'box-violin')) {
if(trace.boxpoints === 'all' || trace.points === 'all') {
selectable = true;
}
}
// assume that in general if the trace module has selectPoints,
// then it's selectable. Scatter is an exception to this because it must
// have markers or text, not just be a scatter type.
else selectable = true;
}
return selectable;
}
function appendButtonsToGroups(groups, buttons) {
if(buttons.length) {
if(Array.isArray(buttons[0])) {
for(var i = 0; i < buttons.length; i++) {
groups.push(buttons[i]);
}
}
else groups.push(buttons);
}
return groups;
}
// fill in custom buttons referring to default mode bar buttons
function fillCustomButton(customButtons) {
for(var i = 0; i < customButtons.length; i++) {
var buttonGroup = customButtons[i];
for(var j = 0; j < buttonGroup.length; j++) {
var button = buttonGroup[j];
if(typeof button === 'string') {
if(modeBarButtons[button] !== undefined) {
customButtons[i][j] = modeBarButtons[button];
}
else {
throw new Error([
'*modeBarButtons* configuration options',
'invalid button name'
].join(' '));
}
}
}
}
return customButtons;
}
},{"../../plots/cartesian/axis_ids":745,"../../registry":825,"../../traces/scatter/subtypes":1056,"./buttons":629,"./modebar":632}],632:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var isNumeric = _dereq_('fast-isnumeric');
var Lib = _dereq_('../../lib');
var Icons = _dereq_('../../../build/ploticon');
/**
* UI controller for interactive plots
* @Class
* @Param {object} opts
* @Param {object} opts.buttons nested arrays of grouped buttons config objects
* @Param {object} opts.container container div to append modeBar
* @Param {object} opts.graphInfo primary plot object containing data and layout
*/
function ModeBar(opts) {
this.container = opts.container;
this.element = document.createElement('div');
this.update(opts.graphInfo, opts.buttons);
this.container.appendChild(this.element);
}
var proto = ModeBar.prototype;
/**
* Update modeBar (buttons and logo)
*
* @param {object} graphInfo primary plot object containing data and layout
* @param {array of arrays} buttons nested arrays of grouped buttons to initialize
*
*/
proto.update = function(graphInfo, buttons) {
this.graphInfo = graphInfo;
var context = this.graphInfo._context;
if(context.displayModeBar === 'hover') {
this.element.className = 'modebar modebar--hover';
}
else this.element.className = 'modebar';
// if buttons or logo have changed, redraw modebar interior
var needsNewButtons = !this.hasButtons(buttons);
var needsNewLogo = (this.hasLogo !== context.displaylogo);
var needsNewLocale = (this.locale !== context.locale);
this.locale = context.locale;
if(needsNewButtons || needsNewLogo || needsNewLocale) {
this.removeAllButtons();
this.updateButtons(buttons);
if(context.displaylogo) {
this.element.appendChild(this.getLogo());
this.hasLogo = true;
}
}
this.updateActiveButton();
};
proto.updateButtons = function(buttons) {
var _this = this;
this.buttons = buttons;
this.buttonElements = [];
this.buttonsNames = [];
this.buttons.forEach(function(buttonGroup) {
var group = _this.createGroup();
buttonGroup.forEach(function(buttonConfig) {
var buttonName = buttonConfig.name;
if(!buttonName) {
throw new Error('must provide button \'name\' in button config');
}
if(_this.buttonsNames.indexOf(buttonName) !== -1) {
throw new Error('button name \'' + buttonName + '\' is taken');
}
_this.buttonsNames.push(buttonName);
var button = _this.createButton(buttonConfig);
_this.buttonElements.push(button);
group.appendChild(button);
});
_this.element.appendChild(group);
});
};
/**
* Empty div for containing a group of buttons
* @Return {HTMLelement}
*/
proto.createGroup = function() {
var group = document.createElement('div');
group.className = 'modebar-group';
return group;
};
/**
* Create a new button div and set constant and configurable attributes
* @Param {object} config (see ./buttons.js for more info)
* @Return {HTMLelement}
*/
proto.createButton = function(config) {
var _this = this,
button = document.createElement('a');
button.setAttribute('rel', 'tooltip');
button.className = 'modebar-btn';
var title = config.title;
if(title === undefined) title = config.name;
// for localization: allow title to be a callable that takes gd as arg
else if(typeof title === 'function') title = title(this.graphInfo);
if(title || title === 0) button.setAttribute('data-title', title);
if(config.attr !== undefined) button.setAttribute('data-attr', config.attr);
var val = config.val;
if(val !== undefined) {
if(typeof val === 'function') val = val(this.graphInfo);
button.setAttribute('data-val', val);
}
var click = config.click;
if(typeof click !== 'function') {
throw new Error('must provide button \'click\' function in button config');
}
else {
button.addEventListener('click', function(ev) {
config.click(_this.graphInfo, ev);
// only needed for 'hoverClosestGeo' which does not call relayout
_this.updateActiveButton(ev.currentTarget);
});
}
button.setAttribute('data-toggle', config.toggle || false);
if(config.toggle) d3.select(button).classed('active', true);
var icon = config.icon;
if(typeof icon === 'function') {
button.appendChild(icon());
}
else {
button.appendChild(this.createIcon(icon || Icons.question));
}
button.setAttribute('data-gravity', config.gravity || 'n');
return button;
};
/**
* Add an icon to a button
* @Param {object} thisIcon
* @Param {number} thisIcon.width
* @Param {string} thisIcon.path
* @Return {HTMLelement}
*/
proto.createIcon = function(thisIcon) {
var iconHeight = isNumeric(thisIcon.height) ?
Number(thisIcon.height) :
thisIcon.ascent - thisIcon.descent,
svgNS = 'http://www.w3.org/2000/svg',
icon = document.createElementNS(svgNS, 'svg'),
path = document.createElementNS(svgNS, 'path');
icon.setAttribute('height', '1em');
icon.setAttribute('width', (thisIcon.width / iconHeight) + 'em');
icon.setAttribute('viewBox', [0, 0, thisIcon.width, iconHeight].join(' '));
path.setAttribute('d', thisIcon.path);
if(thisIcon.transform) {
path.setAttribute('transform', thisIcon.transform);
}
else if(thisIcon.ascent !== undefined) {
// Legacy icon transform calculation
path.setAttribute('transform', 'matrix(1 0 0 -1 0 ' + thisIcon.ascent + ')');
}
icon.appendChild(path);
return icon;
};
/**
* Updates active button with attribute specified in layout
* @Param {object} graphInfo plot object containing data and layout
* @Return {HTMLelement}
*/
proto.updateActiveButton = function(buttonClicked) {
var fullLayout = this.graphInfo._fullLayout,
dataAttrClicked = (buttonClicked !== undefined) ?
buttonClicked.getAttribute('data-attr') :
null;
this.buttonElements.forEach(function(button) {
var thisval = button.getAttribute('data-val') || true,
dataAttr = button.getAttribute('data-attr'),
isToggleButton = (button.getAttribute('data-toggle') === 'true'),
button3 = d3.select(button);
// Use 'data-toggle' and 'buttonClicked' to toggle buttons
// that have no one-to-one equivalent in fullLayout
if(isToggleButton) {
if(dataAttr === dataAttrClicked) {
button3.classed('active', !button3.classed('active'));
}
}
else {
var val = (dataAttr === null) ?
dataAttr :
Lib.nestedProperty(fullLayout, dataAttr).get();
button3.classed('active', val === thisval);
}
});
};
/**
* Check if modeBar is configured as button configuration argument
*
* @Param {object} buttons 2d array of grouped button config objects
* @Return {boolean}
*/
proto.hasButtons = function(buttons) {
var currentButtons = this.buttons;
if(!currentButtons) return false;
if(buttons.length !== currentButtons.length) return false;
for(var i = 0; i < buttons.length; ++i) {
if(buttons[i].length !== currentButtons[i].length) return false;
for(var j = 0; j < buttons[i].length; j++) {
if(buttons[i][j].name !== currentButtons[i][j].name) return false;
}
}
return true;
};
/**
* @return {HTMLDivElement} The logo image wrapped in a group
*/
proto.getLogo = function() {
var group = this.createGroup(),
a = document.createElement('a');
a.href = 'https://plot.ly/';
a.target = '_blank';
a.setAttribute('data-title', Lib._(this.graphInfo, 'Produced with Plotly'));
a.className = 'modebar-btn plotlyjsicon modebar-btn--logo';
a.appendChild(this.createIcon(Icons.plotlylogo));
group.appendChild(a);
return group;
};
proto.removeAllButtons = function() {
while(this.element.firstChild) {
this.element.removeChild(this.element.firstChild);
}
this.hasLogo = false;
};
proto.destroy = function() {
Lib.removeElement(this.container.querySelector('.modebar'));
};
function createModeBar(gd, buttons) {
var fullLayout = gd._fullLayout;
var modeBar = new ModeBar({
graphInfo: gd,
container: fullLayout._paperdiv.node(),
buttons: buttons
});
if(fullLayout._privateplot) {
d3.select(modeBar.element).append('span')
.classed('badge-private float--left', true)
.text('PRIVATE');
}
return modeBar;
}
module.exports = createModeBar;
},{"../../../build/ploticon":2,"../../lib":693,"d3":147,"fast-isnumeric":213}],633:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var fontAttrs = _dereq_('../../plots/font_attributes');
var colorAttrs = _dereq_('../color/attributes');
var templatedArray = _dereq_('../../plot_api/plot_template').templatedArray;
var buttonAttrs = templatedArray('button', {
visible: {
valType: 'boolean',
dflt: true,
editType: 'plot',
},
step: {
valType: 'enumerated',
values: ['month', 'year', 'day', 'hour', 'minute', 'second', 'all'],
dflt: 'month',
editType: 'plot',
},
stepmode: {
valType: 'enumerated',
values: ['backward', 'todate'],
dflt: 'backward',
editType: 'plot',
},
count: {
valType: 'number',
min: 0,
dflt: 1,
editType: 'plot',
},
label: {
valType: 'string',
editType: 'plot',
},
editType: 'plot',
});
module.exports = {
visible: {
valType: 'boolean',
editType: 'plot',
},
buttons: buttonAttrs,
x: {
valType: 'number',
min: -2,
max: 3,
editType: 'plot',
},
xanchor: {
valType: 'enumerated',
values: ['auto', 'left', 'center', 'right'],
dflt: 'left',
editType: 'plot',
},
y: {
valType: 'number',
min: -2,
max: 3,
editType: 'plot',
},
yanchor: {
valType: 'enumerated',
values: ['auto', 'top', 'middle', 'bottom'],
dflt: 'bottom',
editType: 'plot',
},
font: fontAttrs({
editType: 'plot',
}),
bgcolor: {
valType: 'color',
dflt: colorAttrs.lightLine,
editType: 'plot',
},
activecolor: {
valType: 'color',
editType: 'plot',
},
bordercolor: {
valType: 'color',
dflt: colorAttrs.defaultLine,
editType: 'plot',
},
borderwidth: {
valType: 'number',
min: 0,
dflt: 0,
editType: 'plot',
},
editType: 'plot'
};
},{"../../plot_api/plot_template":732,"../../plots/font_attributes":768,"../color/attributes":566}],634:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
// 'y' position pad above counter axis domain
yPad: 0.02,
// minimum button width (regardless of text size)
minButtonWidth: 30,
// buttons rect radii
rx: 3,
ry: 3,
// light fraction used to compute the 'activecolor' default
lightAmount: 25,
darkAmount: 10
};
},{}],635:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Color = _dereq_('../color');
var Template = _dereq_('../../plot_api/plot_template');
var handleArrayContainerDefaults = _dereq_('../../plots/array_container_defaults');
var attributes = _dereq_('./attributes');
var constants = _dereq_('./constants');
module.exports = function handleDefaults(containerIn, containerOut, layout, counterAxes, calendar) {
var selectorIn = containerIn.rangeselector || {};
var selectorOut = Template.newContainer(containerOut, 'rangeselector');
function coerce(attr, dflt) {
return Lib.coerce(selectorIn, selectorOut, attributes, attr, dflt);
}
var buttons = handleArrayContainerDefaults(selectorIn, selectorOut, {
name: 'buttons',
handleItemDefaults: buttonDefaults,
calendar: calendar
});
var visible = coerce('visible', buttons.length > 0);
if(visible) {
var posDflt = getPosDflt(containerOut, layout, counterAxes);
coerce('x', posDflt[0]);
coerce('y', posDflt[1]);
Lib.noneOrAll(containerIn, containerOut, ['x', 'y']);
coerce('xanchor');
coerce('yanchor');
Lib.coerceFont(coerce, 'font', layout.font);
var bgColor = coerce('bgcolor');
coerce('activecolor', Color.contrast(bgColor, constants.lightAmount, constants.darkAmount));
coerce('bordercolor');
coerce('borderwidth');
}
};
function buttonDefaults(buttonIn, buttonOut, selectorOut, opts) {
var calendar = opts.calendar;
function coerce(attr, dflt) {
return Lib.coerce(buttonIn, buttonOut, attributes.buttons, attr, dflt);
}
var visible = coerce('visible');
if(visible) {
var step = coerce('step');
if(step !== 'all') {
if(calendar && calendar !== 'gregorian' && (step === 'month' || step === 'year')) {
buttonOut.stepmode = 'backward';
}
else {
coerce('stepmode');
}
coerce('count');
}
coerce('label');
}
}
function getPosDflt(containerOut, layout, counterAxes) {
var anchoredList = counterAxes.filter(function(ax) {
return layout[ax].anchor === containerOut._id;
});
var posY = 0;
for(var i = 0; i < anchoredList.length; i++) {
var domain = layout[anchoredList[i]].domain;
if(domain) posY = Math.max(domain[1], posY);
}
return [containerOut.domain[0], posY + constants.yPad];
}
},{"../../lib":693,"../../plot_api/plot_template":732,"../../plots/array_container_defaults":738,"../color":567,"./attributes":633,"./constants":634}],636:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Registry = _dereq_('../../registry');
var Plots = _dereq_('../../plots/plots');
var Color = _dereq_('../color');
var Drawing = _dereq_('../drawing');
var Lib = _dereq_('../../lib');
var svgTextUtils = _dereq_('../../lib/svg_text_utils');
var axisIds = _dereq_('../../plots/cartesian/axis_ids');
var anchorUtils = _dereq_('../legend/anchor_utils');
var alignmentConstants = _dereq_('../../constants/alignment');
var LINE_SPACING = alignmentConstants.LINE_SPACING;
var FROM_TL = alignmentConstants.FROM_TL;
var FROM_BR = alignmentConstants.FROM_BR;
var constants = _dereq_('./constants');
var getUpdateObject = _dereq_('./get_update_object');
module.exports = function draw(gd) {
var fullLayout = gd._fullLayout;
var selectors = fullLayout._infolayer.selectAll('.rangeselector')
.data(makeSelectorData(gd), selectorKeyFunc);
selectors.enter().append('g')
.classed('rangeselector', true);
selectors.exit().remove();
selectors.style({
cursor: 'pointer',
'pointer-events': 'all'
});
selectors.each(function(d) {
var selector = d3.select(this),
axisLayout = d,
selectorLayout = axisLayout.rangeselector;
var buttons = selector.selectAll('g.button')
.data(Lib.filterVisible(selectorLayout.buttons));
buttons.enter().append('g')
.classed('button', true);
buttons.exit().remove();
buttons.each(function(d) {
var button = d3.select(this);
var update = getUpdateObject(axisLayout, d);
d._isActive = isActive(axisLayout, d, update);
button.call(drawButtonRect, selectorLayout, d);
button.call(drawButtonText, selectorLayout, d, gd);
button.on('click', function() {
if(gd._dragged) return;
Registry.call('relayout', gd, update);
});
button.on('mouseover', function() {
d._isHovered = true;
button.call(drawButtonRect, selectorLayout, d);
});
button.on('mouseout', function() {
d._isHovered = false;
button.call(drawButtonRect, selectorLayout, d);
});
});
reposition(gd, buttons, selectorLayout, axisLayout._name, selector);
});
};
function makeSelectorData(gd) {
var axes = axisIds.list(gd, 'x', true);
var data = [];
for(var i = 0; i < axes.length; i++) {
var axis = axes[i];
if(axis.rangeselector && axis.rangeselector.visible) {
data.push(axis);
}
}
return data;
}
function selectorKeyFunc(d) {
return d._id;
}
function isActive(axisLayout, opts, update) {
if(opts.step === 'all') {
return axisLayout.autorange === true;
}
else {
var keys = Object.keys(update);
return (
axisLayout.range[0] === update[keys[0]] &&
axisLayout.range[1] === update[keys[1]]
);
}
}
function drawButtonRect(button, selectorLayout, d) {
var rect = Lib.ensureSingle(button, 'rect', 'selector-rect', function(s) {
s.attr('shape-rendering', 'crispEdges');
});
rect.attr({
'rx': constants.rx,
'ry': constants.ry
});
rect.call(Color.stroke, selectorLayout.bordercolor)
.call(Color.fill, getFillColor(selectorLayout, d))
.style('stroke-width', selectorLayout.borderwidth + 'px');
}
function getFillColor(selectorLayout, d) {
return (d._isActive || d._isHovered) ?
selectorLayout.activecolor :
selectorLayout.bgcolor;
}
function drawButtonText(button, selectorLayout, d, gd) {
function textLayout(s) {
svgTextUtils.convertToTspans(s, gd);
}
var text = Lib.ensureSingle(button, 'text', 'selector-text', function(s) {
s.classed('user-select-none', true)
.attr('text-anchor', 'middle');
});
text.call(Drawing.font, selectorLayout.font)
.text(getLabel(d))
.call(textLayout);
}
function getLabel(opts) {
if(opts.label) return opts.label;
if(opts.step === 'all') return 'all';
return opts.count + opts.step.charAt(0);
}
function reposition(gd, buttons, opts, axName, selector) {
var width = 0;
var height = 0;
var borderWidth = opts.borderwidth;
buttons.each(function() {
var button = d3.select(this);
var text = button.select('.selector-text');
var tHeight = opts.font.size * LINE_SPACING;
var hEff = Math.max(tHeight * svgTextUtils.lineCount(text), 16) + 3;
height = Math.max(height, hEff);
});
buttons.each(function() {
var button = d3.select(this);
var rect = button.select('.selector-rect');
var text = button.select('.selector-text');
var tWidth = text.node() && Drawing.bBox(text.node()).width;
var tHeight = opts.font.size * LINE_SPACING;
var tLines = svgTextUtils.lineCount(text);
var wEff = Math.max(tWidth + 10, constants.minButtonWidth);
// TODO add MathJax support
// TODO add buttongap attribute
button.attr('transform', 'translate(' +
(borderWidth + width) + ',' + borderWidth +
')');
rect.attr({
x: 0,
y: 0,
width: wEff,
height: height
});
svgTextUtils.positionText(text, wEff / 2,
height / 2 - ((tLines - 1) * tHeight / 2) + 3);
width += wEff + 5;
});
var graphSize = gd._fullLayout._size;
var lx = graphSize.l + graphSize.w * opts.x;
var ly = graphSize.t + graphSize.h * (1 - opts.y);
var xanchor = 'left';
if(anchorUtils.isRightAnchor(opts)) {
lx -= width;
xanchor = 'right';
}
if(anchorUtils.isCenterAnchor(opts)) {
lx -= width / 2;
xanchor = 'center';
}
var yanchor = 'top';
if(anchorUtils.isBottomAnchor(opts)) {
ly -= height;
yanchor = 'bottom';
}
if(anchorUtils.isMiddleAnchor(opts)) {
ly -= height / 2;
yanchor = 'middle';
}
width = Math.ceil(width);
height = Math.ceil(height);
lx = Math.round(lx);
ly = Math.round(ly);
Plots.autoMargin(gd, axName + '-range-selector', {
x: opts.x,
y: opts.y,
l: width * FROM_TL[xanchor],
r: width * FROM_BR[xanchor],
b: height * FROM_BR[yanchor],
t: height * FROM_TL[yanchor]
});
selector.attr('transform', 'translate(' + lx + ',' + ly + ')');
}
},{"../../constants/alignment":665,"../../lib":693,"../../lib/svg_text_utils":718,"../../plots/cartesian/axis_ids":745,"../../plots/plots":805,"../../registry":825,"../color":567,"../drawing":592,"../legend/anchor_utils":619,"./constants":634,"./get_update_object":637,"d3":147}],637:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
module.exports = function getUpdateObject(axisLayout, buttonLayout) {
var axName = axisLayout._name;
var update = {};
if(buttonLayout.step === 'all') {
update[axName + '.autorange'] = true;
}
else {
var xrange = getXRange(axisLayout, buttonLayout);
update[axName + '.range[0]'] = xrange[0];
update[axName + '.range[1]'] = xrange[1];
}
return update;
};
function getXRange(axisLayout, buttonLayout) {
var currentRange = axisLayout.range;
var base = new Date(axisLayout.r2l(currentRange[1]));
var step = buttonLayout.step,
count = buttonLayout.count;
var range0;
switch(buttonLayout.stepmode) {
case 'backward':
range0 = axisLayout.l2r(+d3.time[step].utc.offset(base, -count));
break;
case 'todate':
var base2 = d3.time[step].utc.offset(base, -count);
range0 = axisLayout.l2r(+d3.time[step].utc.ceil(base2));
break;
}
var range1 = currentRange[1];
return [range0, range1];
}
},{"d3":147}],638:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
moduleType: 'component',
name: 'rangeselector',
schema: {
subplots: {
xaxis: {rangeselector: _dereq_('./attributes')}
}
},
layoutAttributes: _dereq_('./attributes'),
handleDefaults: _dereq_('./defaults'),
draw: _dereq_('./draw')
};
},{"./attributes":633,"./defaults":635,"./draw":636}],639:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var colorAttributes = _dereq_('../color/attributes');
module.exports = {
bgcolor: {
valType: 'color',
dflt: colorAttributes.background,
editType: 'plot',
},
bordercolor: {
valType: 'color',
dflt: colorAttributes.defaultLine,
editType: 'plot',
},
borderwidth: {
valType: 'integer',
dflt: 0,
min: 0,
editType: 'plot',
},
autorange: {
valType: 'boolean',
dflt: true,
editType: 'calc',
impliedEdits: {'range[0]': undefined, 'range[1]': undefined},
},
range: {
valType: 'info_array',
items: [
{valType: 'any', editType: 'calc', impliedEdits: {'^autorange': false}},
{valType: 'any', editType: 'calc', impliedEdits: {'^autorange': false}}
],
editType: 'calc',
impliedEdits: {'autorange': false},
},
thickness: {
valType: 'number',
dflt: 0.15,
min: 0,
max: 1,
editType: 'plot',
},
visible: {
valType: 'boolean',
dflt: true,
editType: 'calc',
},
editType: 'calc'
};
},{"../color/attributes":566}],640:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var listAxes = _dereq_('../../plots/cartesian/axis_ids').list;
var getAutoRange = _dereq_('../../plots/cartesian/autorange').getAutoRange;
var constants = _dereq_('./constants');
module.exports = function calcAutorange(gd) {
var axes = listAxes(gd, 'x', true);
// Compute new slider range using axis autorange if necessary.
//
// Copy back range to input range slider container to skip
// this step in subsequent draw calls.
for(var i = 0; i < axes.length; i++) {
var ax = axes[i];
var opts = ax[constants.name];
if(opts && opts.visible && opts.autorange) {
opts._input.autorange = true;
opts._input.range = opts.range = getAutoRange(gd, ax);
}
}
};
},{"../../plots/cartesian/autorange":741,"../../plots/cartesian/axis_ids":745,"./constants":641}],641:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
// attribute container name
name: 'rangeslider',
// class names
containerClassName: 'rangeslider-container',
bgClassName: 'rangeslider-bg',
rangePlotClassName: 'rangeslider-rangeplot',
maskMinClassName: 'rangeslider-mask-min',
maskMaxClassName: 'rangeslider-mask-max',
slideBoxClassName: 'rangeslider-slidebox',
grabberMinClassName: 'rangeslider-grabber-min',
grabAreaMinClassName: 'rangeslider-grabarea-min',
handleMinClassName: 'rangeslider-handle-min',
grabberMaxClassName: 'rangeslider-grabber-max',
grabAreaMaxClassName: 'rangeslider-grabarea-max',
handleMaxClassName: 'rangeslider-handle-max',
maskMinOppAxisClassName: 'rangeslider-mask-min-opp-axis',
maskMaxOppAxisClassName: 'rangeslider-mask-max-opp-axis',
// style constants
maskColor: 'rgba(0,0,0,0.4)',
maskOppAxisColor: 'rgba(0,0,0,0.2)',
slideBoxFill: 'transparent',
slideBoxCursor: 'ew-resize',
grabAreaFill: 'transparent',
grabAreaCursor: 'col-resize',
grabAreaWidth: 10,
handleWidth: 4,
handleRadius: 1,
handleStrokeWidth: 1,
extraPad: 15
};
},{}],642:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Template = _dereq_('../../plot_api/plot_template');
var axisIds = _dereq_('../../plots/cartesian/axis_ids');
var attributes = _dereq_('./attributes');
var oppAxisAttrs = _dereq_('./oppaxis_attributes');
module.exports = function handleDefaults(layoutIn, layoutOut, axName) {
var axIn = layoutIn[axName];
var axOut = layoutOut[axName];
if(!(axIn.rangeslider || layoutOut._requestRangeslider[axOut._id])) return;
// not super proud of this (maybe store _ in axis object instead
if(!Lib.isPlainObject(axIn.rangeslider)) {
axIn.rangeslider = {};
}
var containerIn = axIn.rangeslider;
var containerOut = Template.newContainer(axOut, 'rangeslider');
function coerce(attr, dflt) {
return Lib.coerce(containerIn, containerOut, attributes, attr, dflt);
}
var rangeContainerIn, rangeContainerOut;
function coerceRange(attr, dflt) {
return Lib.coerce(rangeContainerIn, rangeContainerOut, oppAxisAttrs, attr, dflt);
}
var visible = coerce('visible');
if(!visible) return;
coerce('bgcolor', layoutOut.plot_bgcolor);
coerce('bordercolor');
coerce('borderwidth');
coerce('thickness');
coerce('autorange', !axOut.isValidRange(containerIn.range));
coerce('range');
var subplots = layoutOut._subplots;
if(subplots) {
var yIds = subplots.cartesian
.filter(function(subplotId) {
return subplotId.substr(0, subplotId.indexOf('y')) === axisIds.name2id(axName);
})
.map(function(subplotId) {
return subplotId.substr(subplotId.indexOf('y'), subplotId.length);
});
var yNames = Lib.simpleMap(yIds, axisIds.id2name);
for(var i = 0; i < yNames.length; i++) {
var yName = yNames[i];
rangeContainerIn = containerIn[yName] || {};
rangeContainerOut = Template.newContainer(containerOut, yName, 'yaxis');
var yAxOut = layoutOut[yName];
var rangemodeDflt;
if(rangeContainerIn.range && yAxOut.isValidRange(rangeContainerIn.range)) {
rangemodeDflt = 'fixed';
}
var rangeMode = coerceRange('rangemode', rangemodeDflt);
if(rangeMode !== 'match') {
coerceRange('range', yAxOut.range.slice());
}
}
}
// to map back range slider (auto) range
containerOut._input = containerIn;
};
},{"../../lib":693,"../../plot_api/plot_template":732,"../../plots/cartesian/axis_ids":745,"./attributes":639,"./oppaxis_attributes":645}],643:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Registry = _dereq_('../../registry');
var Plots = _dereq_('../../plots/plots');
var Lib = _dereq_('../../lib');
var Drawing = _dereq_('../drawing');
var Color = _dereq_('../color');
var Titles = _dereq_('../titles');
var Cartesian = _dereq_('../../plots/cartesian');
var Axes = _dereq_('../../plots/cartesian/axes');
var dragElement = _dereq_('../dragelement');
var setCursor = _dereq_('../../lib/setcursor');
var constants = _dereq_('./constants');
module.exports = function(gd) {
var fullLayout = gd._fullLayout,
rangeSliderData = makeRangeSliderData(fullLayout);
/*
* <g container />
* <rect bg />
* < .... range plot />
* <rect mask-min />
* <rect mask-max />
* <rect slidebox />
* <g grabber-min />
* <rect handle-min />
* <rect grabare-min />
* <g grabber-max />
* <rect handle-max />
* <rect grabare-max />
*
* ...
*/
function keyFunction(axisOpts) {
return axisOpts._name;
}
var rangeSliders = fullLayout._infolayer
.selectAll('g.' + constants.containerClassName)
.data(rangeSliderData, keyFunction);
rangeSliders.enter().append('g')
.classed(constants.containerClassName, true)
.attr('pointer-events', 'all');
// remove exiting sliders and their corresponding clip paths
rangeSliders.exit().each(function(axisOpts) {
var opts = axisOpts[constants.name];
fullLayout._topdefs.select('#' + opts._clipId).remove();
}).remove();
// return early if no range slider is visible
if(rangeSliderData.length === 0) return;
// for all present range sliders
rangeSliders.each(function(axisOpts) {
var rangeSlider = d3.select(this),
opts = axisOpts[constants.name],
oppAxisOpts = fullLayout[Axes.id2name(axisOpts.anchor)],
oppAxisRangeOpts = opts[Axes.id2name(axisOpts.anchor)];
// update range
// Expand slider range to the axis range
// TODO: what if the ranges are reversed?
if(opts.range) {
var outRange = opts.range;
var axRange = axisOpts.range;
outRange[0] = axisOpts.l2r(Math.min(axisOpts.r2l(outRange[0]), axisOpts.r2l(axRange[0])));
outRange[1] = axisOpts.l2r(Math.max(axisOpts.r2l(outRange[1]), axisOpts.r2l(axRange[1])));
opts._input.range = outRange.slice();
}
axisOpts.cleanRange('rangeslider.range');
// update range slider dimensions
var margin = fullLayout.margin;
var graphSize = fullLayout._size;
var domain = axisOpts.domain;
var tickHeight = (axisOpts._boundingBox || {}).height || 0;
var oppBottom = Infinity;
var subplotData = Axes.getSubplots(gd, axisOpts);
for(var i = 0; i < subplotData.length; i++) {
var oppAxis = Axes.getFromId(gd, subplotData[i].substr(subplotData[i].indexOf('y')));
oppBottom = Math.min(oppBottom, oppAxis.domain[0]);
}
opts._id = constants.name + axisOpts._id;
opts._clipId = opts._id + '-' + fullLayout._uid;
opts._width = graphSize.w * (domain[1] - domain[0]);
opts._height = (fullLayout.height - margin.b - margin.t) * opts.thickness;
opts._offsetShift = Math.floor(opts.borderwidth / 2);
var x = Math.round(margin.l + (graphSize.w * domain[0]));
var y = Math.round(
graphSize.t + graphSize.h * (1 - oppBottom) +
tickHeight +
opts._offsetShift + constants.extraPad
);
rangeSlider.attr('transform', 'translate(' + x + ',' + y + ')');
// update data <--> pixel coordinate conversion methods
var range0 = axisOpts.r2l(opts.range[0]),
range1 = axisOpts.r2l(opts.range[1]),
dist = range1 - range0;
opts.p2d = function(v) {
return (v / opts._width) * dist + range0;
};
opts.d2p = function(v) {
return (v - range0) / dist * opts._width;
};
opts._rl = [range0, range1];
if(oppAxisRangeOpts.rangemode !== 'match') {
var range0OppAxis = oppAxisOpts.r2l(oppAxisRangeOpts.range[0]),
range1OppAxis = oppAxisOpts.r2l(oppAxisRangeOpts.range[1]),
distOppAxis = range1OppAxis - range0OppAxis;
opts.d2pOppAxis = function(v) {
return (v - range0OppAxis) / distOppAxis * opts._height;
};
}
// update inner nodes
rangeSlider
.call(drawBg, gd, axisOpts, opts)
.call(addClipPath, gd, axisOpts, opts)
.call(drawRangePlot, gd, axisOpts, opts)
.call(drawMasks, gd, axisOpts, opts, oppAxisRangeOpts)
.call(drawSlideBox, gd, axisOpts, opts)
.call(drawGrabbers, gd, axisOpts, opts);
// setup drag element
setupDragElement(rangeSlider, gd, axisOpts, opts);
// update current range
setPixelRange(rangeSlider, gd, axisOpts, opts, oppAxisOpts, oppAxisRangeOpts);
// title goes next to range slider instead of tick labels, so
// just take it over and draw it from here
if(axisOpts.side === 'bottom') {
Titles.draw(gd, axisOpts._id + 'title', {
propContainer: axisOpts,
propName: axisOpts._name + '.title',
placeholder: fullLayout._dfltTitle.x,
attributes: {
x: axisOpts._offset + axisOpts._length / 2,
y: y + opts._height + opts._offsetShift + 10 + 1.5 * axisOpts.titlefont.size,
'text-anchor': 'middle'
}
});
}
// update margins
Plots.autoMargin(gd, opts._id, {
x: domain[0],
y: oppBottom,
l: 0,
r: 0,
t: 0,
b: opts._height + margin.b + tickHeight,
pad: constants.extraPad + opts._offsetShift * 2
});
});
};
function makeRangeSliderData(fullLayout) {
var axes = Axes.list({ _fullLayout: fullLayout }, 'x', true),
name = constants.name,
out = [];
if(fullLayout._has('gl2d')) return out;
for(var i = 0; i < axes.length; i++) {
var ax = axes[i];
if(ax[name] && ax[name].visible) out.push(ax);
}
return out;
}
function setupDragElement(rangeSlider, gd, axisOpts, opts) {
var slideBox = rangeSlider.select('rect.' + constants.slideBoxClassName).node(),
grabAreaMin = rangeSlider.select('rect.' + constants.grabAreaMinClassName).node(),
grabAreaMax = rangeSlider.select('rect.' + constants.grabAreaMaxClassName).node();
rangeSlider.on('mousedown', function() {
var event = d3.event,
target = event.target,
startX = event.clientX,
offsetX = startX - rangeSlider.node().getBoundingClientRect().left,
minVal = opts.d2p(axisOpts._rl[0]),
maxVal = opts.d2p(axisOpts._rl[1]);
var dragCover = dragElement.coverSlip();
dragCover.addEventListener('mousemove', mouseMove);
dragCover.addEventListener('mouseup', mouseUp);
function mouseMove(e) {
var delta = +e.clientX - startX;
var pixelMin, pixelMax, cursor;
switch(target) {
case slideBox:
cursor = 'ew-resize';
pixelMin = minVal + delta;
pixelMax = maxVal + delta;
break;
case grabAreaMin:
cursor = 'col-resize';
pixelMin = minVal + delta;
pixelMax = maxVal;
break;
case grabAreaMax:
cursor = 'col-resize';
pixelMin = minVal;
pixelMax = maxVal + delta;
break;
default:
cursor = 'ew-resize';
pixelMin = offsetX;
pixelMax = offsetX + delta;
break;
}
if(pixelMax < pixelMin) {
var tmp = pixelMax;
pixelMax = pixelMin;
pixelMin = tmp;
}
opts._pixelMin = pixelMin;
opts._pixelMax = pixelMax;
setCursor(d3.select(dragCover), cursor);
setDataRange(rangeSlider, gd, axisOpts, opts);
}
function mouseUp() {
dragCover.removeEventListener('mousemove', mouseMove);
dragCover.removeEventListener('mouseup', mouseUp);
Lib.removeElement(dragCover);
}
});
}
function setDataRange(rangeSlider, gd, axisOpts, opts) {
function clamp(v) {
return axisOpts.l2r(Lib.constrain(v, opts._rl[0], opts._rl[1]));
}
var dataMin = clamp(opts.p2d(opts._pixelMin)),
dataMax = clamp(opts.p2d(opts._pixelMax));
window.requestAnimationFrame(function() {
Registry.call('relayout', gd, axisOpts._name + '.range', [dataMin, dataMax]);
});
}
function setPixelRange(rangeSlider, gd, axisOpts, opts, oppAxisOpts, oppAxisRangeOpts) {
var hw2 = constants.handleWidth / 2;
function clamp(v) {
return Lib.constrain(v, 0, opts._width);
}
function clampOppAxis(v) {
return Lib.constrain(v, 0, opts._height);
}
function clampHandle(v) {
return Lib.constrain(v, -hw2, opts._width + hw2);
}
var pixelMin = clamp(opts.d2p(axisOpts._rl[0])),
pixelMax = clamp(opts.d2p(axisOpts._rl[1]));
rangeSlider.select('rect.' + constants.slideBoxClassName)
.attr('x', pixelMin)
.attr('width', pixelMax - pixelMin);
rangeSlider.select('rect.' + constants.maskMinClassName)
.attr('width', pixelMin);
rangeSlider.select('rect.' + constants.maskMaxClassName)
.attr('x', pixelMax)
.attr('width', opts._width - pixelMax);
if(oppAxisRangeOpts.rangemode !== 'match') {
var pixelMinOppAxis = opts._height - clampOppAxis(opts.d2pOppAxis(oppAxisOpts._rl[1])),
pixelMaxOppAxis = opts._height - clampOppAxis(opts.d2pOppAxis(oppAxisOpts._rl[0]));
rangeSlider.select('rect.' + constants.maskMinOppAxisClassName)
.attr('x', pixelMin)
.attr('height', pixelMinOppAxis)
.attr('width', pixelMax - pixelMin);
rangeSlider.select('rect.' + constants.maskMaxOppAxisClassName)
.attr('x', pixelMin)
.attr('y', pixelMaxOppAxis)
.attr('height', opts._height - pixelMaxOppAxis)
.attr('width', pixelMax - pixelMin);
rangeSlider.select('rect.' + constants.slideBoxClassName)
.attr('y', pixelMinOppAxis)
.attr('height', pixelMaxOppAxis - pixelMinOppAxis);
}
// add offset for crispier corners
// https://github.com/plotly/plotly.js/pull/1409
var offset = 0.5;
var xMin = Math.round(clampHandle(pixelMin - hw2)) - offset,
xMax = Math.round(clampHandle(pixelMax - hw2)) + offset;
rangeSlider.select('g.' + constants.grabberMinClassName)
.attr('transform', 'translate(' + xMin + ',' + offset + ')');
rangeSlider.select('g.' + constants.grabberMaxClassName)
.attr('transform', 'translate(' + xMax + ',' + offset + ')');
}
function drawBg(rangeSlider, gd, axisOpts, opts) {
var bg = Lib.ensureSingle(rangeSlider, 'rect', constants.bgClassName, function(s) {
s.attr({
x: 0,
y: 0,
'shape-rendering': 'crispEdges'
});
});
var borderCorrect = (opts.borderwidth % 2) === 0 ?
opts.borderwidth :
opts.borderwidth - 1;
var offsetShift = -opts._offsetShift;
var lw = Drawing.crispRound(gd, opts.borderwidth);
bg.attr({
width: opts._width + borderCorrect,
height: opts._height + borderCorrect,
transform: 'translate(' + offsetShift + ',' + offsetShift + ')',
fill: opts.bgcolor,
stroke: opts.bordercolor,
'stroke-width': lw
});
}
function addClipPath(rangeSlider, gd, axisOpts, opts) {
var fullLayout = gd._fullLayout;
var clipPath = Lib.ensureSingleById(fullLayout._topdefs, 'clipPath', opts._clipId, function(s) {
s.append('rect').attr({ x: 0, y: 0 });
});
clipPath.select('rect').attr({
width: opts._width,
height: opts._height
});
}
function drawRangePlot(rangeSlider, gd, axisOpts, opts) {
var subplotData = Axes.getSubplots(gd, axisOpts),
calcData = gd.calcdata;
var rangePlots = rangeSlider.selectAll('g.' + constants.rangePlotClassName)
.data(subplotData, Lib.identity);
rangePlots.enter().append('g')
.attr('class', function(id) { return constants.rangePlotClassName + ' ' + id; })
.call(Drawing.setClipUrl, opts._clipId);
rangePlots.order();
rangePlots.exit().remove();
var mainplotinfo;
rangePlots.each(function(id, i) {
var plotgroup = d3.select(this),
isMainPlot = (i === 0);
var oppAxisOpts = Axes.getFromId(gd, id, 'y'),
oppAxisName = oppAxisOpts._name,
oppAxisRangeOpts = opts[oppAxisName];
var mockFigure = {
data: [],
layout: {
xaxis: {
type: axisOpts.type,
domain: [0, 1],
range: opts.range.slice(),
calendar: axisOpts.calendar
},
width: opts._width,
height: opts._height,
margin: { t: 0, b: 0, l: 0, r: 0 }
},
_context: gd._context
};
mockFigure.layout[oppAxisName] = {
type: oppAxisOpts.type,
domain: [0, 1],
range: oppAxisRangeOpts.rangemode !== 'match' ? oppAxisRangeOpts.range.slice() : oppAxisOpts.range.slice(),
calendar: oppAxisOpts.calendar
};
Plots.supplyDefaults(mockFigure);
var xa = mockFigure._fullLayout.xaxis;
var ya = mockFigure._fullLayout[oppAxisName];
var plotinfo = {
id: id,
plotgroup: plotgroup,
xaxis: xa,
yaxis: ya,
isRangePlot: true
};
if(isMainPlot) mainplotinfo = plotinfo;
else {
plotinfo.mainplot = 'xy';
plotinfo.mainplotinfo = mainplotinfo;
}
Cartesian.rangePlot(gd, plotinfo, filterRangePlotCalcData(calcData, id));
});
}
function filterRangePlotCalcData(calcData, subplotId) {
var out = [];
for(var i = 0; i < calcData.length; i++) {
var calcTrace = calcData[i],
trace = calcTrace[0].trace;
if(trace.xaxis + trace.yaxis === subplotId) {
out.push(calcTrace);
}
}
return out;
}
function drawMasks(rangeSlider, gd, axisOpts, opts, oppAxisRangeOpts) {
var maskMin = Lib.ensureSingle(rangeSlider, 'rect', constants.maskMinClassName, function(s) {
s.attr({
x: 0,
y: 0,
'shape-rendering': 'crispEdges'
});
});
maskMin
.attr('height', opts._height)
.call(Color.fill, constants.maskColor);
var maskMax = Lib.ensureSingle(rangeSlider, 'rect', constants.maskMaxClassName, function(s) {
s.attr({
y: 0,
'shape-rendering': 'crispEdges'
});
});
maskMax
.attr('height', opts._height)
.call(Color.fill, constants.maskColor);
// masks used for oppAxis zoom
if(oppAxisRangeOpts.rangemode !== 'match') {
var maskMinOppAxis = Lib.ensureSingle(rangeSlider, 'rect', constants.maskMinOppAxisClassName, function(s) {
s.attr({
y: 0,
'shape-rendering': 'crispEdges'
});
});
maskMinOppAxis
.attr('width', opts._width)
.call(Color.fill, constants.maskOppAxisColor);
var maskMaxOppAxis = Lib.ensureSingle(rangeSlider, 'rect', constants.maskMaxOppAxisClassName, function(s) {
s.attr({
y: 0,
'shape-rendering': 'crispEdges'
});
});
maskMaxOppAxis
.attr('width', opts._width)
.style('border-top', constants.maskOppBorder)
.call(Color.fill, constants.maskOppAxisColor);
}
}
function drawSlideBox(rangeSlider, gd, axisOpts, opts) {
if(gd._context.staticPlot) return;
var slideBox = Lib.ensureSingle(rangeSlider, 'rect', constants.slideBoxClassName, function(s) {
s.attr({
y: 0,
cursor: constants.slideBoxCursor,
'shape-rendering': 'crispEdges'
});
});
slideBox.attr({
height: opts._height,
fill: constants.slideBoxFill
});
}
function drawGrabbers(rangeSlider, gd, axisOpts, opts) {
// <g grabber />
var grabberMin = Lib.ensureSingle(rangeSlider, 'g', constants.grabberMinClassName);
var grabberMax = Lib.ensureSingle(rangeSlider, 'g', constants.grabberMaxClassName);
// <g handle />
var handleFixAttrs = {
x: 0,
width: constants.handleWidth,
rx: constants.handleRadius,
fill: Color.background,
stroke: Color.defaultLine,
'stroke-width': constants.handleStrokeWidth,
'shape-rendering': 'crispEdges'
};
var handleDynamicAttrs = {
y: Math.round(opts._height / 4),
height: Math.round(opts._height / 2),
};
var handleMin = Lib.ensureSingle(grabberMin, 'rect', constants.handleMinClassName, function(s) {
s.attr(handleFixAttrs);
});
handleMin.attr(handleDynamicAttrs);
var handleMax = Lib.ensureSingle(grabberMax, 'rect', constants.handleMaxClassName, function(s) {
s.attr(handleFixAttrs);
});
handleMax.attr(handleDynamicAttrs);
// <g grabarea />
if(gd._context.staticPlot) return;
var grabAreaFixAttrs = {
width: constants.grabAreaWidth,
x: 0,
y: 0,
fill: constants.grabAreaFill,
cursor: constants.grabAreaCursor
};
var grabAreaMin = Lib.ensureSingle(grabberMin, 'rect', constants.grabAreaMinClassName, function(s) {
s.attr(grabAreaFixAttrs);
});
grabAreaMin.attr('height', opts._height);
var grabAreaMax = Lib.ensureSingle(grabberMax, 'rect', constants.grabAreaMaxClassName, function(s) {
s.attr(grabAreaFixAttrs);
});
grabAreaMax.attr('height', opts._height);
}
},{"../../lib":693,"../../lib/setcursor":714,"../../plots/cartesian":753,"../../plots/cartesian/axes":742,"../../plots/plots":805,"../../registry":825,"../color":567,"../dragelement":589,"../drawing":592,"../titles":658,"./constants":641,"d3":147}],644:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var attrs = _dereq_('./attributes');
var oppAxisAttrs = _dereq_('./oppaxis_attributes');
module.exports = {
moduleType: 'component',
name: 'rangeslider',
schema: {
subplots: {
xaxis: {
rangeslider: Lib.extendFlat({}, attrs, {
yaxis: oppAxisAttrs
})
}
}
},
layoutAttributes: _dereq_('./attributes'),
handleDefaults: _dereq_('./defaults'),
calcAutorange: _dereq_('./calc_autorange'),
draw: _dereq_('./draw')
};
},{"../../lib":693,"./attributes":639,"./calc_autorange":640,"./defaults":642,"./draw":643,"./oppaxis_attributes":645}],645:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
// not really a 'subplot' attribute container,
// but this is the flag we use to denote attributes that
// support yaxis, yaxis2, yaxis3, ... counters
_isSubplotObj: true,
rangemode: {
valType: 'enumerated',
values: ['auto', 'fixed', 'match'],
dflt: 'match',
editType: 'calc',
},
range: {
valType: 'info_array',
items: [
{valType: 'any', editType: 'plot'},
{valType: 'any', editType: 'plot'}
],
editType: 'plot',
},
editType: 'calc'
};
},{}],646:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var annAttrs = _dereq_('../annotations/attributes');
var scatterLineAttrs = _dereq_('../../traces/scatter/attributes').line;
var dash = _dereq_('../drawing/attributes').dash;
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var templatedArray = _dereq_('../../plot_api/plot_template').templatedArray;
module.exports = templatedArray('shape', {
visible: {
valType: 'boolean',
dflt: true,
editType: 'calc+arraydraw',
},
type: {
valType: 'enumerated',
values: ['circle', 'rect', 'path', 'line'],
editType: 'calc+arraydraw',
},
layer: {
valType: 'enumerated',
values: ['below', 'above'],
dflt: 'above',
editType: 'arraydraw',
},
xref: extendFlat({}, annAttrs.xref, {
}),
xsizemode: {
valType: 'enumerated',
values: ['scaled', 'pixel'],
dflt: 'scaled',
editType: 'calc+arraydraw',
},
xanchor: {
valType: 'any',
editType: 'calc+arraydraw',
},
x0: {
valType: 'any',
editType: 'calc+arraydraw',
},
x1: {
valType: 'any',
editType: 'calc+arraydraw',
},
yref: extendFlat({}, annAttrs.yref, {
}),
ysizemode: {
valType: 'enumerated',
values: ['scaled', 'pixel'],
dflt: 'scaled',
editType: 'calc+arraydraw',
},
yanchor: {
valType: 'any',
editType: 'calc+arraydraw',
},
y0: {
valType: 'any',
editType: 'calc+arraydraw',
},
y1: {
valType: 'any',
editType: 'calc+arraydraw',
},
path: {
valType: 'string',
editType: 'calc+arraydraw',
},
opacity: {
valType: 'number',
min: 0,
max: 1,
dflt: 1,
editType: 'arraydraw',
},
line: {
color: extendFlat({}, scatterLineAttrs.color, {editType: 'arraydraw'}),
width: extendFlat({}, scatterLineAttrs.width, {editType: 'calc+arraydraw'}),
dash: extendFlat({}, dash, {editType: 'arraydraw'}),
editType: 'calc+arraydraw'
},
fillcolor: {
valType: 'color',
dflt: 'rgba(0,0,0,0)',
editType: 'arraydraw',
},
editType: 'arraydraw'
});
},{"../../lib/extend":682,"../../plot_api/plot_template":732,"../../traces/scatter/attributes":1032,"../annotations/attributes":550,"../drawing/attributes":591}],647:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Axes = _dereq_('../../plots/cartesian/axes');
var constants = _dereq_('./constants');
var helpers = _dereq_('./helpers');
module.exports = function calcAutorange(gd) {
var fullLayout = gd._fullLayout,
shapeList = Lib.filterVisible(fullLayout.shapes);
if(!shapeList.length || !gd._fullData.length) return;
for(var i = 0; i < shapeList.length; i++) {
var shape = shapeList[i];
shape._extremes = {};
var ax, bounds;
if(shape.xref !== 'paper') {
var vx0 = shape.xsizemode === 'pixel' ? shape.xanchor : shape.x0,
vx1 = shape.xsizemode === 'pixel' ? shape.xanchor : shape.x1;
ax = Axes.getFromId(gd, shape.xref);
bounds = shapeBounds(ax, vx0, vx1, shape.path, constants.paramIsX);
if(bounds) {
shape._extremes[ax._id] = Axes.findExtremes(ax, bounds, calcXPaddingOptions(shape));
}
}
if(shape.yref !== 'paper') {
var vy0 = shape.ysizemode === 'pixel' ? shape.yanchor : shape.y0,
vy1 = shape.ysizemode === 'pixel' ? shape.yanchor : shape.y1;
ax = Axes.getFromId(gd, shape.yref);
bounds = shapeBounds(ax, vy0, vy1, shape.path, constants.paramIsY);
if(bounds) {
shape._extremes[ax._id] = Axes.findExtremes(ax, bounds, calcYPaddingOptions(shape));
}
}
}
};
function calcXPaddingOptions(shape) {
return calcPaddingOptions(shape.line.width, shape.xsizemode, shape.x0, shape.x1, shape.path, false);
}
function calcYPaddingOptions(shape) {
return calcPaddingOptions(shape.line.width, shape.ysizemode, shape.y0, shape.y1, shape.path, true);
}
function calcPaddingOptions(lineWidth, sizeMode, v0, v1, path, isYAxis) {
var ppad = lineWidth / 2,
axisDirectionReverted = isYAxis;
if(sizeMode === 'pixel') {
var coords = path ?
helpers.extractPathCoords(path, isYAxis ? constants.paramIsY : constants.paramIsX) :
[v0, v1];
var maxValue = Lib.aggNums(Math.max, null, coords),
minValue = Lib.aggNums(Math.min, null, coords),
beforePad = minValue < 0 ? Math.abs(minValue) + ppad : ppad,
afterPad = maxValue > 0 ? maxValue + ppad : ppad;
return {
ppad: ppad,
ppadplus: axisDirectionReverted ? beforePad : afterPad,
ppadminus: axisDirectionReverted ? afterPad : beforePad
};
} else {
return {ppad: ppad};
}
}
function shapeBounds(ax, v0, v1, path, paramsToUse) {
var convertVal = (ax.type === 'category') ? ax.r2c : ax.d2c;
if(v0 !== undefined) return [convertVal(v0), convertVal(v1)];
if(!path) return;
var min = Infinity,
max = -Infinity,
segments = path.match(constants.segmentRE),
i,
segment,
drawnParam,
params,
val;
if(ax.type === 'date') convertVal = helpers.decodeDate(convertVal);
for(i = 0; i < segments.length; i++) {
segment = segments[i];
drawnParam = paramsToUse[segment.charAt(0)].drawn;
if(drawnParam === undefined) continue;
params = segments[i].substr(1).match(constants.paramRE);
if(!params || params.length < drawnParam) continue;
val = convertVal(params[drawnParam]);
if(val < min) min = val;
if(val > max) max = val;
}
if(max >= min) return [min, max];
}
},{"../../lib":693,"../../plots/cartesian/axes":742,"./constants":648,"./helpers":651}],648:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
segmentRE: /[MLHVQCTSZ][^MLHVQCTSZ]*/g,
paramRE: /[^\s,]+/g,
// which numbers in each path segment are x (or y) values
// drawn is which param is a drawn point, as opposed to a
// control point (which doesn't count toward autorange.
// TODO: this means curved paths could extend beyond the
// autorange bounds. This is a bit tricky to get right
// unless we revert to bounding boxes, but perhaps there's
// a calculation we could do...)
paramIsX: {
M: {0: true, drawn: 0},
L: {0: true, drawn: 0},
H: {0: true, drawn: 0},
V: {},
Q: {0: true, 2: true, drawn: 2},
C: {0: true, 2: true, 4: true, drawn: 4},
T: {0: true, drawn: 0},
S: {0: true, 2: true, drawn: 2},
// A: {0: true, 5: true},
Z: {}
},
paramIsY: {
M: {1: true, drawn: 1},
L: {1: true, drawn: 1},
H: {},
V: {0: true, drawn: 0},
Q: {1: true, 3: true, drawn: 3},
C: {1: true, 3: true, 5: true, drawn: 5},
T: {1: true, drawn: 1},
S: {1: true, 3: true, drawn: 5},
// A: {1: true, 6: true},
Z: {}
},
numParams: {
M: 2,
L: 2,
H: 1,
V: 1,
Q: 4,
C: 6,
T: 2,
S: 4,
// A: 7,
Z: 0
}
};
},{}],649:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Axes = _dereq_('../../plots/cartesian/axes');
var handleArrayContainerDefaults = _dereq_('../../plots/array_container_defaults');
var attributes = _dereq_('./attributes');
var helpers = _dereq_('./helpers');
module.exports = function supplyLayoutDefaults(layoutIn, layoutOut) {
handleArrayContainerDefaults(layoutIn, layoutOut, {
name: 'shapes',
handleItemDefaults: handleShapeDefaults
});
};
function handleShapeDefaults(shapeIn, shapeOut, fullLayout) {
function coerce(attr, dflt) {
return Lib.coerce(shapeIn, shapeOut, attributes, attr, dflt);
}
var visible = coerce('visible');
if(!visible) return;
coerce('layer');
coerce('opacity');
coerce('fillcolor');
coerce('line.color');
coerce('line.width');
coerce('line.dash');
var dfltType = shapeIn.path ? 'path' : 'rect',
shapeType = coerce('type', dfltType),
xSizeMode = coerce('xsizemode'),
ySizeMode = coerce('ysizemode');
// positioning
var axLetters = ['x', 'y'];
for(var i = 0; i < 2; i++) {
var axLetter = axLetters[i],
attrAnchor = axLetter + 'anchor',
sizeMode = axLetter === 'x' ? xSizeMode : ySizeMode,
gdMock = {_fullLayout: fullLayout},
ax,
pos2r,
r2pos;
// xref, yref
var axRef = Axes.coerceRef(shapeIn, shapeOut, gdMock, axLetter, '', 'paper');
if(axRef !== 'paper') {
ax = Axes.getFromId(gdMock, axRef);
ax._shapeIndices.push(shapeOut._index);
r2pos = helpers.rangeToShapePosition(ax);
pos2r = helpers.shapePositionToRange(ax);
}
else {
pos2r = r2pos = Lib.identity;
}
// Coerce x0, x1, y0, y1
if(shapeType !== 'path') {
var dflt0 = 0.25,
dflt1 = 0.75;
// hack until V2.0 when log has regular range behavior - make it look like other
// ranges to send to coerce, then put it back after
// this is all to give reasonable default position behavior on log axes, which is
// a pretty unimportant edge case so we could just ignore this.
var attr0 = axLetter + '0',
attr1 = axLetter + '1',
in0 = shapeIn[attr0],
in1 = shapeIn[attr1];
shapeIn[attr0] = pos2r(shapeIn[attr0], true);
shapeIn[attr1] = pos2r(shapeIn[attr1], true);
if(sizeMode === 'pixel') {
coerce(attr0, 0);
coerce(attr1, 10);
} else {
Axes.coercePosition(shapeOut, gdMock, coerce, axRef, attr0, dflt0);
Axes.coercePosition(shapeOut, gdMock, coerce, axRef, attr1, dflt1);
}
// hack part 2
shapeOut[attr0] = r2pos(shapeOut[attr0]);
shapeOut[attr1] = r2pos(shapeOut[attr1]);
shapeIn[attr0] = in0;
shapeIn[attr1] = in1;
}
// Coerce xanchor and yanchor
if(sizeMode === 'pixel') {
// Hack for log axis described above
var inAnchor = shapeIn[attrAnchor];
shapeIn[attrAnchor] = pos2r(shapeIn[attrAnchor], true);
Axes.coercePosition(shapeOut, gdMock, coerce, axRef, attrAnchor, 0.25);
// Hack part 2
shapeOut[attrAnchor] = r2pos(shapeOut[attrAnchor]);
shapeIn[attrAnchor] = inAnchor;
}
}
if(shapeType === 'path') {
coerce('path');
}
else {
Lib.noneOrAll(shapeIn, shapeOut, ['x0', 'x1', 'y0', 'y1']);
}
}
},{"../../lib":693,"../../plots/array_container_defaults":738,"../../plots/cartesian/axes":742,"./attributes":646,"./helpers":651}],650:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var Axes = _dereq_('../../plots/cartesian/axes');
var Color = _dereq_('../color');
var Drawing = _dereq_('../drawing');
var arrayEditor = _dereq_('../../plot_api/plot_template').arrayEditor;
var dragElement = _dereq_('../dragelement');
var setCursor = _dereq_('../../lib/setcursor');
var constants = _dereq_('./constants');
var helpers = _dereq_('./helpers');
// Shapes are stored in gd.layout.shapes, an array of objects
// index can point to one item in this array,
// or non-numeric to simply add a new one
// or -1 to modify all existing
// opt can be the full options object, or one key (to be set to value)
// or undefined to simply redraw
// if opt is blank, val can be 'add' or a full options object to add a new
// annotation at that point in the array, or 'remove' to delete this one
module.exports = {
draw: draw,
drawOne: drawOne
};
function draw(gd) {
var fullLayout = gd._fullLayout;
// Remove previous shapes before drawing new in shapes in fullLayout.shapes
fullLayout._shapeUpperLayer.selectAll('path').remove();
fullLayout._shapeLowerLayer.selectAll('path').remove();
for(var k in fullLayout._plots) {
var shapelayer = fullLayout._plots[k].shapelayer;
if(shapelayer) shapelayer.selectAll('path').remove();
}
for(var i = 0; i < fullLayout.shapes.length; i++) {
if(fullLayout.shapes[i].visible) {
drawOne(gd, i);
}
}
// may need to resurrect this if we put text (LaTeX) in shapes
// return Plots.previousPromises(gd);
}
function drawOne(gd, index) {
// remove the existing shape if there is one.
// because indices can change, we need to look in all shape layers
gd._fullLayout._paperdiv
.selectAll('.shapelayer [data-index="' + index + '"]')
.remove();
var options = gd._fullLayout.shapes[index] || {};
// this shape is gone - quit now after deleting it
// TODO: use d3 idioms instead of deleting and redrawing every time
if(!options._input || options.visible === false) return;
if(options.layer !== 'below') {
drawShape(gd._fullLayout._shapeUpperLayer);
}
else if(options.xref === 'paper' || options.yref === 'paper') {
drawShape(gd._fullLayout._shapeLowerLayer);
}
else {
var plotinfo = gd._fullLayout._plots[options.xref + options.yref];
if(plotinfo) {
var mainPlot = plotinfo.mainplotinfo || plotinfo;
drawShape(mainPlot.shapelayer);
}
else {
// Fall back to _shapeLowerLayer in case the requested subplot doesn't exist.
// This can happen if you reference the shape to an x / y axis combination
// that doesn't have any data on it (and layer is below)
drawShape(gd._fullLayout._shapeLowerLayer);
}
}
function drawShape(shapeLayer) {
var attrs = {
'data-index': index,
'fill-rule': 'evenodd',
d: getPathString(gd, options)
},
lineColor = options.line.width ?
options.line.color : 'rgba(0,0,0,0)';
var path = shapeLayer.append('path')
.attr(attrs)
.style('opacity', options.opacity)
.call(Color.stroke, lineColor)
.call(Color.fill, options.fillcolor)
.call(Drawing.dashLine, options.line.dash, options.line.width);
setClipPath(path, gd, options);
if(gd._context.edits.shapePosition) setupDragElement(gd, path, options, index, shapeLayer);
}
}
function setClipPath(shapePath, gd, shapeOptions) {
// note that for layer="below" the clipAxes can be different from the
// subplot we're drawing this in. This could cause problems if the shape
// spans two subplots. See https://github.com/plotly/plotly.js/issues/1452
var clipAxes = (shapeOptions.xref + shapeOptions.yref).replace(/paper/g, '');
shapePath.call(Drawing.setClipUrl, clipAxes ?
('clip' + gd._fullLayout._uid + clipAxes) :
null
);
}
function setupDragElement(gd, shapePath, shapeOptions, index, shapeLayer) {
var MINWIDTH = 10;
var MINHEIGHT = 10;
var xPixelSized = shapeOptions.xsizemode === 'pixel';
var yPixelSized = shapeOptions.ysizemode === 'pixel';
var isLine = shapeOptions.type === 'line';
var isPath = shapeOptions.type === 'path';
var editHelpers = arrayEditor(gd.layout, 'shapes', shapeOptions);
var modifyItem = editHelpers.modifyItem;
var x0, y0, x1, y1, xAnchor, yAnchor;
var n0, s0, w0, e0, optN, optS, optW, optE;
var pathIn;
// setup conversion functions
var xa = Axes.getFromId(gd, shapeOptions.xref),
ya = Axes.getFromId(gd, shapeOptions.yref),
x2p = helpers.getDataToPixel(gd, xa),
y2p = helpers.getDataToPixel(gd, ya, true),
p2x = helpers.getPixelToData(gd, xa),
p2y = helpers.getPixelToData(gd, ya, true);
var sensoryElement = obtainSensoryElement();
var dragOptions = {
element: sensoryElement.node(),
gd: gd,
prepFn: startDrag,
doneFn: endDrag,
clickFn: abortDrag
},
dragMode;
dragElement.init(dragOptions);
sensoryElement.node().onmousemove = updateDragMode;
function obtainSensoryElement() {
return isLine ? createLineDragHandles() : shapePath;
}
function createLineDragHandles() {
var minSensoryWidth = 10,
sensoryWidth = Math.max(shapeOptions.line.width, minSensoryWidth);
// Helper shapes group
// Note that by setting the `data-index` attr, it is ensured that
// the helper group is purged in this modules `draw` function
var g = shapeLayer.append('g')
.attr('data-index', index);
// Helper path for moving
g.append('path')
.attr('d', shapePath.attr('d'))
.style({
'cursor': 'move',
'stroke-width': sensoryWidth,
'stroke-opacity': '0' // ensure not visible
});
// Helper circles for resizing
var circleStyle = {
'fill-opacity': '0' // ensure not visible
};
var circleRadius = sensoryWidth / 2 > minSensoryWidth ? sensoryWidth / 2 : minSensoryWidth;
g.append('circle')
.attr({
'data-line-point': 'start-point',
'cx': xPixelSized ? x2p(shapeOptions.xanchor) + shapeOptions.x0 : x2p(shapeOptions.x0),
'cy': yPixelSized ? y2p(shapeOptions.yanchor) - shapeOptions.y0 : y2p(shapeOptions.y0),
'r': circleRadius
})
.style(circleStyle)
.classed('cursor-grab', true);
g.append('circle')
.attr({
'data-line-point': 'end-point',
'cx': xPixelSized ? x2p(shapeOptions.xanchor) + shapeOptions.x1 : x2p(shapeOptions.x1),
'cy': yPixelSized ? y2p(shapeOptions.yanchor) - shapeOptions.y1 : y2p(shapeOptions.y1),
'r': circleRadius
})
.style(circleStyle)
.classed('cursor-grab', true);
return g;
}
function updateDragMode(evt) {
if(isLine) {
if(evt.target.tagName === 'path') {
dragMode = 'move';
} else {
dragMode = evt.target.attributes['data-line-point'].value === 'start-point' ?
'resize-over-start-point' : 'resize-over-end-point';
}
} else {
// element might not be on screen at time of setup,
// so obtain bounding box here
var dragBBox = dragOptions.element.getBoundingClientRect();
// choose 'move' or 'resize'
// based on initial position of cursor within the drag element
var w = dragBBox.right - dragBBox.left,
h = dragBBox.bottom - dragBBox.top,
x = evt.clientX - dragBBox.left,
y = evt.clientY - dragBBox.top,
cursor = (!isPath && w > MINWIDTH && h > MINHEIGHT && !evt.shiftKey) ?
dragElement.getCursor(x / w, 1 - y / h) :
'move';
setCursor(shapePath, cursor);
// possible values 'move', 'sw', 'w', 'se', 'e', 'ne', 'n', 'nw' and 'w'
dragMode = cursor.split('-')[0];
}
}
function startDrag(evt) {
// setup update strings and initial values
if(xPixelSized) {
xAnchor = x2p(shapeOptions.xanchor);
}
if(yPixelSized) {
yAnchor = y2p(shapeOptions.yanchor);
}
if(shapeOptions.type === 'path') {
pathIn = shapeOptions.path;
}
else {
x0 = xPixelSized ? shapeOptions.x0 : x2p(shapeOptions.x0);
y0 = yPixelSized ? shapeOptions.y0 : y2p(shapeOptions.y0);
x1 = xPixelSized ? shapeOptions.x1 : x2p(shapeOptions.x1);
y1 = yPixelSized ? shapeOptions.y1 : y2p(shapeOptions.y1);
}
if(x0 < x1) {
w0 = x0;
optW = 'x0';
e0 = x1;
optE = 'x1';
}
else {
w0 = x1;
optW = 'x1';
e0 = x0;
optE = 'x0';
}
// For fixed size shapes take opposing direction of y-axis into account.
// Hint: For data sized shapes this is done by the y2p function.
if((!yPixelSized && y0 < y1) || (yPixelSized && y0 > y1)) {
n0 = y0;
optN = 'y0';
s0 = y1;
optS = 'y1';
}
else {
n0 = y1;
optN = 'y1';
s0 = y0;
optS = 'y0';
}
// setup dragMode and the corresponding handler
updateDragMode(evt);
renderVisualCues(shapeLayer, shapeOptions);
deactivateClipPathTemporarily(shapePath, shapeOptions, gd);
dragOptions.moveFn = (dragMode === 'move') ? moveShape : resizeShape;
}
function endDrag() {
setCursor(shapePath);
removeVisualCues(shapeLayer);
// Don't rely on clipPath being activated during re-layout
setClipPath(shapePath, gd, shapeOptions);
Registry.call('relayout', gd, editHelpers.getUpdateObj());
}
function abortDrag() {
removeVisualCues(shapeLayer);
}
function moveShape(dx, dy) {
if(shapeOptions.type === 'path') {
var noOp = function(coord) { return coord; },
moveX = noOp,
moveY = noOp;
if(xPixelSized) {
modifyItem('xanchor', shapeOptions.xanchor = p2x(xAnchor + dx));
} else {
moveX = function moveX(x) { return p2x(x2p(x) + dx); };
if(xa && xa.type === 'date') moveX = helpers.encodeDate(moveX);
}
if(yPixelSized) {
modifyItem('yanchor', shapeOptions.yanchor = p2y(yAnchor + dy));
} else {
moveY = function moveY(y) { return p2y(y2p(y) + dy); };
if(ya && ya.type === 'date') moveY = helpers.encodeDate(moveY);
}
modifyItem('path', shapeOptions.path = movePath(pathIn, moveX, moveY));
}
else {
if(xPixelSized) {
modifyItem('xanchor', shapeOptions.xanchor = p2x(xAnchor + dx));
} else {
modifyItem('x0', shapeOptions.x0 = p2x(x0 + dx));
modifyItem('x1', shapeOptions.x1 = p2x(x1 + dx));
}
if(yPixelSized) {
modifyItem('yanchor', shapeOptions.yanchor = p2y(yAnchor + dy));
} else {
modifyItem('y0', shapeOptions.y0 = p2y(y0 + dy));
modifyItem('y1', shapeOptions.y1 = p2y(y1 + dy));
}
}
shapePath.attr('d', getPathString(gd, shapeOptions));
renderVisualCues(shapeLayer, shapeOptions);
}
function resizeShape(dx, dy) {
if(isPath) {
// TODO: implement path resize, don't forget to update dragMode code
var noOp = function(coord) { return coord; },
moveX = noOp,
moveY = noOp;
if(xPixelSized) {
modifyItem('xanchor', shapeOptions.xanchor = p2x(xAnchor + dx));
} else {
moveX = function moveX(x) { return p2x(x2p(x) + dx); };
if(xa && xa.type === 'date') moveX = helpers.encodeDate(moveX);
}
if(yPixelSized) {
modifyItem('yanchor', shapeOptions.yanchor = p2y(yAnchor + dy));
} else {
moveY = function moveY(y) { return p2y(y2p(y) + dy); };
if(ya && ya.type === 'date') moveY = helpers.encodeDate(moveY);
}
modifyItem('path', shapeOptions.path = movePath(pathIn, moveX, moveY));
}
else if(isLine) {
if(dragMode === 'resize-over-start-point') {
var newX0 = x0 + dx;
var newY0 = yPixelSized ? y0 - dy : y0 + dy;
modifyItem('x0', shapeOptions.x0 = xPixelSized ? newX0 : p2x(newX0));
modifyItem('y0', shapeOptions.y0 = yPixelSized ? newY0 : p2y(newY0));
} else if(dragMode === 'resize-over-end-point') {
var newX1 = x1 + dx;
var newY1 = yPixelSized ? y1 - dy : y1 + dy;
modifyItem('x1', shapeOptions.x1 = xPixelSized ? newX1 : p2x(newX1));
modifyItem('y1', shapeOptions.y1 = yPixelSized ? newY1 : p2y(newY1));
}
}
else {
var newN = (~dragMode.indexOf('n')) ? n0 + dy : n0,
newS = (~dragMode.indexOf('s')) ? s0 + dy : s0,
newW = (~dragMode.indexOf('w')) ? w0 + dx : w0,
newE = (~dragMode.indexOf('e')) ? e0 + dx : e0;
// Do things in opposing direction for y-axis.
// Hint: for data-sized shapes the reversal of axis direction is done in p2y.
if(~dragMode.indexOf('n') && yPixelSized) newN = n0 - dy;
if(~dragMode.indexOf('s') && yPixelSized) newS = s0 - dy;
// Update shape eventually. Again, be aware of the
// opposing direction of the y-axis of fixed size shapes.
if((!yPixelSized && newS - newN > MINHEIGHT) ||
(yPixelSized && newN - newS > MINHEIGHT)) {
modifyItem(optN, shapeOptions[optN] = yPixelSized ? newN : p2y(newN));
modifyItem(optS, shapeOptions[optS] = yPixelSized ? newS : p2y(newS));
}
if(newE - newW > MINWIDTH) {
modifyItem(optW, shapeOptions[optW] = xPixelSized ? newW : p2x(newW));
modifyItem(optE, shapeOptions[optE] = xPixelSized ? newE : p2x(newE));
}
}
shapePath.attr('d', getPathString(gd, shapeOptions));
renderVisualCues(shapeLayer, shapeOptions);
}
function renderVisualCues(shapeLayer, shapeOptions) {
if(xPixelSized || yPixelSized) {
renderAnchor();
}
function renderAnchor() {
var isNotPath = shapeOptions.type !== 'path';
// d3 join with dummy data to satisfy d3 data-binding
var visualCues = shapeLayer.selectAll('.visual-cue').data([0]);
// Enter
var strokeWidth = 1;
visualCues.enter()
.append('path')
.attr({
'fill': '#fff',
'fill-rule': 'evenodd',
'stroke': '#000',
'stroke-width': strokeWidth
})
.classed('visual-cue', true);
// Update
var posX = x2p(
xPixelSized ?
shapeOptions.xanchor :
Lib.midRange(
isNotPath ?
[shapeOptions.x0, shapeOptions.x1] :
helpers.extractPathCoords(shapeOptions.path, constants.paramIsX))
);
var posY = y2p(
yPixelSized ?
shapeOptions.yanchor :
Lib.midRange(
isNotPath ?
[shapeOptions.y0, shapeOptions.y1] :
helpers.extractPathCoords(shapeOptions.path, constants.paramIsY))
);
posX = helpers.roundPositionForSharpStrokeRendering(posX, strokeWidth);
posY = helpers.roundPositionForSharpStrokeRendering(posY, strokeWidth);
if(xPixelSized && yPixelSized) {
var crossPath = 'M' + (posX - 1 - strokeWidth) + ',' + (posY - 1 - strokeWidth) +
'h-8v2h8 v8h2v-8 h8v-2h-8 v-8h-2 Z';
visualCues.attr('d', crossPath);
} else if(xPixelSized) {
var vBarPath = 'M' + (posX - 1 - strokeWidth) + ',' + (posY - 9 - strokeWidth) +
'v18 h2 v-18 Z';
visualCues.attr('d', vBarPath);
} else {
var hBarPath = 'M' + (posX - 9 - strokeWidth) + ',' + (posY - 1 - strokeWidth) +
'h18 v2 h-18 Z';
visualCues.attr('d', hBarPath);
}
}
}
function removeVisualCues(shapeLayer) {
shapeLayer.selectAll('.visual-cue').remove();
}
function deactivateClipPathTemporarily(shapePath, shapeOptions, gd) {
var xref = shapeOptions.xref,
yref = shapeOptions.yref,
xa = Axes.getFromId(gd, xref),
ya = Axes.getFromId(gd, yref);
var clipAxes = '';
if(xref !== 'paper' && !xa.autorange) clipAxes += xref;
if(yref !== 'paper' && !ya.autorange) clipAxes += yref;
shapePath.call(Drawing.setClipUrl, clipAxes ?
'clip' + gd._fullLayout._uid + clipAxes :
null
);
}
}
function getPathString(gd, options) {
var type = options.type,
xa = Axes.getFromId(gd, options.xref),
ya = Axes.getFromId(gd, options.yref),
gs = gd._fullLayout._size,
x2r, x2p, y2r, y2p,
x0, x1, y0, y1;
if(xa) {
x2r = helpers.shapePositionToRange(xa);
x2p = function(v) { return xa._offset + xa.r2p(x2r(v, true)); };
}
else {
x2p = function(v) { return gs.l + gs.w * v; };
}
if(ya) {
y2r = helpers.shapePositionToRange(ya);
y2p = function(v) { return ya._offset + ya.r2p(y2r(v, true)); };
}
else {
y2p = function(v) { return gs.t + gs.h * (1 - v); };
}
if(type === 'path') {
if(xa && xa.type === 'date') x2p = helpers.decodeDate(x2p);
if(ya && ya.type === 'date') y2p = helpers.decodeDate(y2p);
return convertPath(options, x2p, y2p);
}
if(options.xsizemode === 'pixel') {
var xAnchorPos = x2p(options.xanchor);
x0 = xAnchorPos + options.x0;
x1 = xAnchorPos + options.x1;
}
else {
x0 = x2p(options.x0);
x1 = x2p(options.x1);
}
if(options.ysizemode === 'pixel') {
var yAnchorPos = y2p(options.yanchor);
y0 = yAnchorPos - options.y0;
y1 = yAnchorPos - options.y1;
}
else {
y0 = y2p(options.y0);
y1 = y2p(options.y1);
}
if(type === 'line') return 'M' + x0 + ',' + y0 + 'L' + x1 + ',' + y1;
if(type === 'rect') return 'M' + x0 + ',' + y0 + 'H' + x1 + 'V' + y1 + 'H' + x0 + 'Z';
// circle
var cx = (x0 + x1) / 2,
cy = (y0 + y1) / 2,
rx = Math.abs(cx - x0),
ry = Math.abs(cy - y0),
rArc = 'A' + rx + ',' + ry,
rightPt = (cx + rx) + ',' + cy,
topPt = cx + ',' + (cy - ry);
return 'M' + rightPt + rArc + ' 0 1,1 ' + topPt +
rArc + ' 0 0,1 ' + rightPt + 'Z';
}
function convertPath(options, x2p, y2p) {
var pathIn = options.path,
xSizemode = options.xsizemode,
ySizemode = options.ysizemode,
xAnchor = options.xanchor,
yAnchor = options.yanchor;
return pathIn.replace(constants.segmentRE, function(segment) {
var paramNumber = 0,
segmentType = segment.charAt(0),
xParams = constants.paramIsX[segmentType],
yParams = constants.paramIsY[segmentType],
nParams = constants.numParams[segmentType];
var paramString = segment.substr(1).replace(constants.paramRE, function(param) {
if(xParams[paramNumber]) {
if(xSizemode === 'pixel') param = x2p(xAnchor) + Number(param);
else param = x2p(param);
}
else if(yParams[paramNumber]) {
if(ySizemode === 'pixel') param = y2p(yAnchor) - Number(param);
else param = y2p(param);
}
paramNumber++;
if(paramNumber > nParams) param = 'X';
return param;
});
if(paramNumber > nParams) {
paramString = paramString.replace(/[\s,]*X.*/, '');
Lib.log('Ignoring extra params in segment ' + segment);
}
return segmentType + paramString;
});
}
function movePath(pathIn, moveX, moveY) {
return pathIn.replace(constants.segmentRE, function(segment) {
var paramNumber = 0,
segmentType = segment.charAt(0),
xParams = constants.paramIsX[segmentType],
yParams = constants.paramIsY[segmentType],
nParams = constants.numParams[segmentType];
var paramString = segment.substr(1).replace(constants.paramRE, function(param) {
if(paramNumber >= nParams) return param;
if(xParams[paramNumber]) param = moveX(param);
else if(yParams[paramNumber]) param = moveY(param);
paramNumber++;
return param;
});
return segmentType + paramString;
});
}
},{"../../lib":693,"../../lib/setcursor":714,"../../plot_api/plot_template":732,"../../plots/cartesian/axes":742,"../../registry":825,"../color":567,"../dragelement":589,"../drawing":592,"./constants":648,"./helpers":651}],651:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var constants = _dereq_('./constants');
var Lib = _dereq_('../../lib');
// special position conversion functions... category axis positions can't be
// specified by their data values, because they don't make a continuous mapping.
// so these have to be specified in terms of the category serial numbers,
// but can take fractional values. Other axis types we specify position based on
// the actual data values.
// TODO: in V2.0 (when log axis ranges are in data units) range and shape position
// will be identical, so rangeToShapePosition and shapePositionToRange can be
// removed entirely.
exports.rangeToShapePosition = function(ax) {
return (ax.type === 'log') ? ax.r2d : function(v) { return v; };
};
exports.shapePositionToRange = function(ax) {
return (ax.type === 'log') ? ax.d2r : function(v) { return v; };
};
exports.decodeDate = function(convertToPx) {
return function(v) {
if(v.replace) v = v.replace('_', ' ');
return convertToPx(v);
};
};
exports.encodeDate = function(convertToDate) {
return function(v) { return convertToDate(v).replace(' ', '_'); };
};
exports.extractPathCoords = function(path, paramsToUse) {
var extractedCoordinates = [];
var segments = path.match(constants.segmentRE);
segments.forEach(function(segment) {
var relevantParamIdx = paramsToUse[segment.charAt(0)].drawn;
if(relevantParamIdx === undefined) return;
var params = segment.substr(1).match(constants.paramRE);
if(!params || params.length < relevantParamIdx) return;
extractedCoordinates.push(Lib.cleanNumber(params[relevantParamIdx]));
});
return extractedCoordinates;
};
exports.getDataToPixel = function(gd, axis, isVertical) {
var gs = gd._fullLayout._size,
dataToPixel;
if(axis) {
var d2r = exports.shapePositionToRange(axis);
dataToPixel = function(v) {
return axis._offset + axis.r2p(d2r(v, true));
};
if(axis.type === 'date') dataToPixel = exports.decodeDate(dataToPixel);
}
else if(isVertical) {
dataToPixel = function(v) { return gs.t + gs.h * (1 - v); };
}
else {
dataToPixel = function(v) { return gs.l + gs.w * v; };
}
return dataToPixel;
};
exports.getPixelToData = function(gd, axis, isVertical) {
var gs = gd._fullLayout._size,
pixelToData;
if(axis) {
var r2d = exports.rangeToShapePosition(axis);
pixelToData = function(p) { return r2d(axis.p2r(p - axis._offset)); };
}
else if(isVertical) {
pixelToData = function(p) { return 1 - (p - gs.t) / gs.h; };
}
else {
pixelToData = function(p) { return (p - gs.l) / gs.w; };
}
return pixelToData;
};
/**
* Based on the given stroke width, rounds the passed
* position value to represent either a full or half pixel.
*
* In case of an odd stroke width (e.g. 1), this measure ensures
* that a stroke positioned at the returned position isn't rendered
* blurry due to anti-aliasing.
*
* In case of an even stroke width (e.g. 2), this measure ensures
* that the position value is transformed to a full pixel value
* so that anti-aliasing doesn't take effect either.
*
* @param {number} pos The raw position value to be transformed
* @param {number} strokeWidth The stroke width
* @returns {number} either an integer or a .5 decimal number
*/
exports.roundPositionForSharpStrokeRendering = function(pos, strokeWidth) {
var strokeWidthIsOdd = Math.round(strokeWidth % 2) === 1;
var posValAsInt = Math.round(pos);
return strokeWidthIsOdd ? posValAsInt + 0.5 : posValAsInt;
};
},{"../../lib":693,"./constants":648}],652:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var drawModule = _dereq_('./draw');
module.exports = {
moduleType: 'component',
name: 'shapes',
layoutAttributes: _dereq_('./attributes'),
supplyLayoutDefaults: _dereq_('./defaults'),
includeBasePlot: _dereq_('../../plots/cartesian/include_components')('shapes'),
calcAutorange: _dereq_('./calc_autorange'),
draw: drawModule.draw,
drawOne: drawModule.drawOne
};
},{"../../plots/cartesian/include_components":752,"./attributes":646,"./calc_autorange":647,"./defaults":649,"./draw":650}],653:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var fontAttrs = _dereq_('../../plots/font_attributes');
var padAttrs = _dereq_('../../plots/pad_attributes');
var extendDeepAll = _dereq_('../../lib/extend').extendDeepAll;
var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll;
var animationAttrs = _dereq_('../../plots/animation_attributes');
var templatedArray = _dereq_('../../plot_api/plot_template').templatedArray;
var constants = _dereq_('./constants');
var stepsAttrs = templatedArray('step', {
visible: {
valType: 'boolean',
dflt: true,
},
method: {
valType: 'enumerated',
values: ['restyle', 'relayout', 'animate', 'update', 'skip'],
dflt: 'restyle',
},
args: {
valType: 'info_array',
freeLength: true,
items: [
{ valType: 'any' },
{ valType: 'any' },
{ valType: 'any' }
],
},
label: {
valType: 'string',
},
value: {
valType: 'string',
},
execute: {
valType: 'boolean',
dflt: true,
}
});
module.exports = overrideAll(templatedArray('slider', {
visible: {
valType: 'boolean',
dflt: true,
},
active: {
valType: 'number',
min: 0,
dflt: 0,
},
steps: stepsAttrs,
lenmode: {
valType: 'enumerated',
values: ['fraction', 'pixels'],
dflt: 'fraction',
},
len: {
valType: 'number',
min: 0,
dflt: 1,
},
x: {
valType: 'number',
min: -2,
max: 3,
dflt: 0,
},
pad: extendDeepAll({}, padAttrs, {
}, {t: {dflt: 20}}),
xanchor: {
valType: 'enumerated',
values: ['auto', 'left', 'center', 'right'],
dflt: 'left',
},
y: {
valType: 'number',
min: -2,
max: 3,
dflt: 0,
},
yanchor: {
valType: 'enumerated',
values: ['auto', 'top', 'middle', 'bottom'],
dflt: 'top',
},
transition: {
duration: {
valType: 'number',
min: 0,
dflt: 150,
},
easing: {
valType: 'enumerated',
values: animationAttrs.transition.easing.values,
dflt: 'cubic-in-out',
}
},
currentvalue: {
visible: {
valType: 'boolean',
dflt: true,
},
xanchor: {
valType: 'enumerated',
values: ['left', 'center', 'right'],
dflt: 'left',
},
offset: {
valType: 'number',
dflt: 10,
},
prefix: {
valType: 'string',
},
suffix: {
valType: 'string',
},
font: fontAttrs({
})
},
font: fontAttrs({
}),
activebgcolor: {
valType: 'color',
dflt: constants.gripBgActiveColor,
},
bgcolor: {
valType: 'color',
dflt: constants.railBgColor,
},
bordercolor: {
valType: 'color',
dflt: constants.railBorderColor,
},
borderwidth: {
valType: 'number',
min: 0,
dflt: constants.railBorderWidth,
},
ticklen: {
valType: 'number',
min: 0,
dflt: constants.tickLength,
},
tickcolor: {
valType: 'color',
dflt: constants.tickColor,
},
tickwidth: {
valType: 'number',
min: 0,
dflt: 1,
},
minorticklen: {
valType: 'number',
min: 0,
dflt: constants.minorTickLength,
}
}), 'arraydraw', 'from-root');
},{"../../lib/extend":682,"../../plot_api/edit_types":725,"../../plot_api/plot_template":732,"../../plots/animation_attributes":737,"../../plots/font_attributes":768,"../../plots/pad_attributes":804,"./constants":654}],654:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
// layout attribute name
name: 'sliders',
// class names
containerClassName: 'slider-container',
groupClassName: 'slider-group',
inputAreaClass: 'slider-input-area',
railRectClass: 'slider-rail-rect',
railTouchRectClass: 'slider-rail-touch-rect',
gripRectClass: 'slider-grip-rect',
tickRectClass: 'slider-tick-rect',
inputProxyClass: 'slider-input-proxy',
labelsClass: 'slider-labels',
labelGroupClass: 'slider-label-group',
labelClass: 'slider-label',
currentValueClass: 'slider-current-value',
railHeight: 5,
// DOM attribute name in button group keeping track
// of active update menu
menuIndexAttrName: 'slider-active-index',
// id root pass to Plots.autoMargin
autoMarginIdRoot: 'slider-',
// min item width / height
minWidth: 30,
minHeight: 30,
// padding around item text
textPadX: 40,
// arrow offset off right edge
arrowOffsetX: 4,
railRadius: 2,
railWidth: 5,
railBorder: 4,
railBorderWidth: 1,
railBorderColor: '#bec8d9',
railBgColor: '#f8fafc',
// The distance of the rail from the edge of the touchable area
// Slightly less than the step inset because of the curved edges
// of the rail
railInset: 8,
// The distance from the extremal tick marks to the edge of the
// touchable area. This is basically the same as the grip radius,
// but for other styles it wouldn't really need to be.
stepInset: 10,
gripRadius: 10,
gripWidth: 20,
gripHeight: 20,
gripBorder: 20,
gripBorderWidth: 1,
gripBorderColor: '#bec8d9',
gripBgColor: '#f6f8fa',
gripBgActiveColor: '#dbdde0',
labelPadding: 8,
labelOffset: 0,
tickWidth: 1,
tickColor: '#333',
tickOffset: 25,
tickLength: 7,
minorTickOffset: 25,
minorTickColor: '#333',
minorTickLength: 4,
// Extra space below the current value label:
currentValuePadding: 8,
currentValueInset: 0,
};
},{}],655:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var handleArrayContainerDefaults = _dereq_('../../plots/array_container_defaults');
var attributes = _dereq_('./attributes');
var constants = _dereq_('./constants');
var name = constants.name;
var stepAttrs = attributes.steps;
module.exports = function slidersDefaults(layoutIn, layoutOut) {
handleArrayContainerDefaults(layoutIn, layoutOut, {
name: name,
handleItemDefaults: sliderDefaults
});
};
function sliderDefaults(sliderIn, sliderOut, layoutOut) {
function coerce(attr, dflt) {
return Lib.coerce(sliderIn, sliderOut, attributes, attr, dflt);
}
var steps = handleArrayContainerDefaults(sliderIn, sliderOut, {
name: 'steps',
handleItemDefaults: stepDefaults
});
var stepCount = 0;
for(var i = 0; i < steps.length; i++) {
if(steps[i].visible) stepCount++;
}
var visible;
// If it has fewer than two options, it's not really a slider
if(stepCount < 2) visible = sliderOut.visible = false;
else visible = coerce('visible');
if(!visible) return;
sliderOut._stepCount = stepCount;
var visSteps = sliderOut._visibleSteps = Lib.filterVisible(steps);
var active = coerce('active');
if(!(steps[active] || {}).visible) sliderOut.active = visSteps[0]._index;
coerce('x');
coerce('y');
Lib.noneOrAll(sliderIn, sliderOut, ['x', 'y']);
coerce('xanchor');
coerce('yanchor');
coerce('len');
coerce('lenmode');
coerce('pad.t');
coerce('pad.r');
coerce('pad.b');
coerce('pad.l');
Lib.coerceFont(coerce, 'font', layoutOut.font);
var currentValueIsVisible = coerce('currentvalue.visible');
if(currentValueIsVisible) {
coerce('currentvalue.xanchor');
coerce('currentvalue.prefix');
coerce('currentvalue.suffix');
coerce('currentvalue.offset');
Lib.coerceFont(coerce, 'currentvalue.font', sliderOut.font);
}
coerce('transition.duration');
coerce('transition.easing');
coerce('bgcolor');
coerce('activebgcolor');
coerce('bordercolor');
coerce('borderwidth');
coerce('ticklen');
coerce('tickwidth');
coerce('tickcolor');
coerce('minorticklen');
}
function stepDefaults(valueIn, valueOut) {
function coerce(attr, dflt) {
return Lib.coerce(valueIn, valueOut, stepAttrs, attr, dflt);
}
var visible;
if(valueIn.method !== 'skip' && !Array.isArray(valueIn.args)) {
visible = valueOut.visible = false;
}
else visible = coerce('visible');
if(visible) {
coerce('method');
coerce('args');
var label = coerce('label', 'step-' + valueOut._index);
coerce('value', label);
coerce('execute');
}
}
},{"../../lib":693,"../../plots/array_container_defaults":738,"./attributes":653,"./constants":654}],656:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Plots = _dereq_('../../plots/plots');
var Color = _dereq_('../color');
var Drawing = _dereq_('../drawing');
var Lib = _dereq_('../../lib');
var svgTextUtils = _dereq_('../../lib/svg_text_utils');
var anchorUtils = _dereq_('../legend/anchor_utils');
var arrayEditor = _dereq_('../../plot_api/plot_template').arrayEditor;
var constants = _dereq_('./constants');
var alignmentConstants = _dereq_('../../constants/alignment');
var LINE_SPACING = alignmentConstants.LINE_SPACING;
var FROM_TL = alignmentConstants.FROM_TL;
var FROM_BR = alignmentConstants.FROM_BR;
module.exports = function draw(gd) {
var fullLayout = gd._fullLayout,
sliderData = makeSliderData(fullLayout, gd);
// draw a container for *all* sliders:
var sliders = fullLayout._infolayer
.selectAll('g.' + constants.containerClassName)
.data(sliderData.length > 0 ? [0] : []);
sliders.enter().append('g')
.classed(constants.containerClassName, true)
.style('cursor', 'ew-resize');
function clearSlider(sliderOpts) {
if(sliderOpts._commandObserver) {
sliderOpts._commandObserver.remove();
delete sliderOpts._commandObserver;
}
// Most components don't need to explicitly remove autoMargin, because
// marginPushers does this - but slider updates don't go through
// a full replot so we need to explicitly remove it.
Plots.autoMargin(gd, autoMarginId(sliderOpts));
}
sliders.exit().each(function() {
d3.select(this).selectAll('g.' + constants.groupClassName)
.each(clearSlider);
})
.remove();
// Return early if no menus visible:
if(sliderData.length === 0) return;
var sliderGroups = sliders.selectAll('g.' + constants.groupClassName)
.data(sliderData, keyFunction);
sliderGroups.enter().append('g')
.classed(constants.groupClassName, true);
sliderGroups.exit()
.each(clearSlider)
.remove();
// Find the dimensions of the sliders:
for(var i = 0; i < sliderData.length; i++) {
var sliderOpts = sliderData[i];
findDimensions(gd, sliderOpts);
}
sliderGroups.each(function(sliderOpts) {
var gSlider = d3.select(this);
computeLabelSteps(sliderOpts);
Plots.manageCommandObserver(gd, sliderOpts, sliderOpts._visibleSteps, function(data) {
// NB: Same as below. This is *not* always the same as sliderOpts since
// if a new set of steps comes in, the reference in this callback would
// be invalid. We need to refetch it from the slider group, which is
// the join data that creates this slider. So if this slider still exists,
// the group should be valid, *to the best of my knowledge.* If not,
// we'd have to look it up by d3 data join index/key.
var opts = gSlider.data()[0];
if(opts.active === data.index) return;
if(opts._dragging) return;
setActive(gd, gSlider, opts, data.index, false, true);
});
drawSlider(gd, d3.select(this), sliderOpts);
});
};
function autoMarginId(sliderOpts) {
return constants.autoMarginIdRoot + sliderOpts._index;
}
// This really only just filters by visibility:
function makeSliderData(fullLayout, gd) {
var contOpts = fullLayout[constants.name],
sliderData = [];
for(var i = 0; i < contOpts.length; i++) {
var item = contOpts[i];
if(!item.visible) continue;
item._gd = gd;
sliderData.push(item);
}
return sliderData;
}
// This is set in the defaults step:
function keyFunction(opts) {
return opts._index;
}
// Compute the dimensions (mutates sliderOpts):
function findDimensions(gd, sliderOpts) {
var sliderLabels = Drawing.tester.selectAll('g.' + constants.labelGroupClass)
.data(sliderOpts._visibleSteps);
sliderLabels.enter().append('g')
.classed(constants.labelGroupClass, true);
// loop over fake buttons to find width / height
var maxLabelWidth = 0;
var labelHeight = 0;
sliderLabels.each(function(stepOpts) {
var labelGroup = d3.select(this);
var text = drawLabel(labelGroup, {step: stepOpts}, sliderOpts);
var textNode = text.node();
if(textNode) {
var bBox = Drawing.bBox(textNode);
labelHeight = Math.max(labelHeight, bBox.height);
maxLabelWidth = Math.max(maxLabelWidth, bBox.width);
}
});
sliderLabels.remove();
var dims = sliderOpts._dims = {};
dims.inputAreaWidth = Math.max(
constants.railWidth,
constants.gripHeight
);
// calculate some overall dimensions - some of these are needed for
// calculating the currentValue dimensions
var graphSize = gd._fullLayout._size;
dims.lx = graphSize.l + graphSize.w * sliderOpts.x;
dims.ly = graphSize.t + graphSize.h * (1 - sliderOpts.y);
if(sliderOpts.lenmode === 'fraction') {
// fraction:
dims.outerLength = Math.round(graphSize.w * sliderOpts.len);
} else {
// pixels:
dims.outerLength = sliderOpts.len;
}
// The length of the rail, *excluding* padding on either end:
dims.inputAreaStart = 0;
dims.inputAreaLength = Math.round(dims.outerLength - sliderOpts.pad.l - sliderOpts.pad.r);
var textableInputLength = dims.inputAreaLength - 2 * constants.stepInset;
var availableSpacePerLabel = textableInputLength / (sliderOpts._stepCount - 1);
var computedSpacePerLabel = maxLabelWidth + constants.labelPadding;
dims.labelStride = Math.max(1, Math.ceil(computedSpacePerLabel / availableSpacePerLabel));
dims.labelHeight = labelHeight;
// loop over all possible values for currentValue to find the
// area we need for it
dims.currentValueMaxWidth = 0;
dims.currentValueHeight = 0;
dims.currentValueTotalHeight = 0;
dims.currentValueMaxLines = 1;
if(sliderOpts.currentvalue.visible) {
// Get the dimensions of the current value label:
var dummyGroup = Drawing.tester.append('g');
sliderLabels.each(function(stepOpts) {
var curValPrefix = drawCurrentValue(dummyGroup, sliderOpts, stepOpts.label);
var curValSize = (curValPrefix.node() && Drawing.bBox(curValPrefix.node())) || {width: 0, height: 0};
var lines = svgTextUtils.lineCount(curValPrefix);
dims.currentValueMaxWidth = Math.max(dims.currentValueMaxWidth, Math.ceil(curValSize.width));
dims.currentValueHeight = Math.max(dims.currentValueHeight, Math.ceil(curValSize.height));
dims.currentValueMaxLines = Math.max(dims.currentValueMaxLines, lines);
});
dims.currentValueTotalHeight = dims.currentValueHeight + sliderOpts.currentvalue.offset;
dummyGroup.remove();
}
dims.height = dims.currentValueTotalHeight + constants.tickOffset + sliderOpts.ticklen + constants.labelOffset + dims.labelHeight + sliderOpts.pad.t + sliderOpts.pad.b;
var xanchor = 'left';
if(anchorUtils.isRightAnchor(sliderOpts)) {
dims.lx -= dims.outerLength;
xanchor = 'right';
}
if(anchorUtils.isCenterAnchor(sliderOpts)) {
dims.lx -= dims.outerLength / 2;
xanchor = 'center';
}
var yanchor = 'top';
if(anchorUtils.isBottomAnchor(sliderOpts)) {
dims.ly -= dims.height;
yanchor = 'bottom';
}
if(anchorUtils.isMiddleAnchor(sliderOpts)) {
dims.ly -= dims.height / 2;
yanchor = 'middle';
}
dims.outerLength = Math.ceil(dims.outerLength);
dims.height = Math.ceil(dims.height);
dims.lx = Math.round(dims.lx);
dims.ly = Math.round(dims.ly);
var marginOpts = {
y: sliderOpts.y,
b: dims.height * FROM_BR[yanchor],
t: dims.height * FROM_TL[yanchor]
};
if(sliderOpts.lenmode === 'fraction') {
marginOpts.l = 0;
marginOpts.xl = sliderOpts.x - sliderOpts.len * FROM_TL[xanchor];
marginOpts.r = 0;
marginOpts.xr = sliderOpts.x + sliderOpts.len * FROM_BR[xanchor];
}
else {
marginOpts.x = sliderOpts.x;
marginOpts.l = dims.outerLength * FROM_TL[xanchor];
marginOpts.r = dims.outerLength * FROM_BR[xanchor];
}
Plots.autoMargin(gd, autoMarginId(sliderOpts), marginOpts);
}
function drawSlider(gd, sliderGroup, sliderOpts) {
// This is related to the other long notes in this file regarding what happens
// when slider steps disappear. This particular fix handles what happens when
// the *current* slider step is removed. The drawing functions will error out
// when they fail to find it, so the fix for now is that it will just draw the
// slider in the first position but will not execute the command.
if(!((sliderOpts.steps[sliderOpts.active] || {}).visible)) {
sliderOpts.active = sliderOpts._visibleSteps[0]._index;
}
// These are carefully ordered for proper z-ordering:
sliderGroup
.call(drawCurrentValue, sliderOpts)
.call(drawRail, sliderOpts)
.call(drawLabelGroup, sliderOpts)
.call(drawTicks, sliderOpts)
.call(drawTouchRect, gd, sliderOpts)
.call(drawGrip, gd, sliderOpts);
var dims = sliderOpts._dims;
// Position the rectangle:
Drawing.setTranslate(sliderGroup, dims.lx + sliderOpts.pad.l, dims.ly + sliderOpts.pad.t);
sliderGroup.call(setGripPosition, sliderOpts, false);
sliderGroup.call(drawCurrentValue, sliderOpts);
}
function drawCurrentValue(sliderGroup, sliderOpts, valueOverride) {
if(!sliderOpts.currentvalue.visible) return;
var dims = sliderOpts._dims;
var x0, textAnchor;
switch(sliderOpts.currentvalue.xanchor) {
case 'right':
// This is anchored left and adjusted by the width of the longest label
// so that the prefix doesn't move. The goal of this is to emphasize
// what's actually changing and make the update less distracting.
x0 = dims.inputAreaLength - constants.currentValueInset - dims.currentValueMaxWidth;
textAnchor = 'left';
break;
case 'center':
x0 = dims.inputAreaLength * 0.5;
textAnchor = 'middle';
break;
default:
x0 = constants.currentValueInset;
textAnchor = 'left';
}
var text = Lib.ensureSingle(sliderGroup, 'text', constants.labelClass, function(s) {
s.classed('user-select-none', true)
.attr({
'text-anchor': textAnchor,
'data-notex': 1
});
});
var str = sliderOpts.currentvalue.prefix ? sliderOpts.currentvalue.prefix : '';
if(typeof valueOverride === 'string') {
str += valueOverride;
} else {
var curVal = sliderOpts.steps[sliderOpts.active].label;
str += curVal;
}
if(sliderOpts.currentvalue.suffix) {
str += sliderOpts.currentvalue.suffix;
}
text.call(Drawing.font, sliderOpts.currentvalue.font)
.text(str)
.call(svgTextUtils.convertToTspans, sliderOpts._gd);
var lines = svgTextUtils.lineCount(text);
var y0 = (dims.currentValueMaxLines + 1 - lines) *
sliderOpts.currentvalue.font.size * LINE_SPACING;
svgTextUtils.positionText(text, x0, y0);
return text;
}
function drawGrip(sliderGroup, gd, sliderOpts) {
var grip = Lib.ensureSingle(sliderGroup, 'rect', constants.gripRectClass, function(s) {
s.call(attachGripEvents, gd, sliderGroup, sliderOpts)
.style('pointer-events', 'all');
});
grip.attr({
width: constants.gripWidth,
height: constants.gripHeight,
rx: constants.gripRadius,
ry: constants.gripRadius,
})
.call(Color.stroke, sliderOpts.bordercolor)
.call(Color.fill, sliderOpts.bgcolor)
.style('stroke-width', sliderOpts.borderwidth + 'px');
}
function drawLabel(item, data, sliderOpts) {
var text = Lib.ensureSingle(item, 'text', constants.labelClass, function(s) {
s.classed('user-select-none', true)
.attr({
'text-anchor': 'middle',
'data-notex': 1
});
});
text.call(Drawing.font, sliderOpts.font)
.text(data.step.label)
.call(svgTextUtils.convertToTspans, sliderOpts._gd);
return text;
}
function drawLabelGroup(sliderGroup, sliderOpts) {
var labels = Lib.ensureSingle(sliderGroup, 'g', constants.labelsClass);
var dims = sliderOpts._dims;
var labelItems = labels.selectAll('g.' + constants.labelGroupClass)
.data(dims.labelSteps);
labelItems.enter().append('g')
.classed(constants.labelGroupClass, true);
labelItems.exit().remove();
labelItems.each(function(d) {
var item = d3.select(this);
item.call(drawLabel, d, sliderOpts);
Drawing.setTranslate(item,
normalizedValueToPosition(sliderOpts, d.fraction),
constants.tickOffset +
sliderOpts.ticklen +
// position is the baseline of the top line of text only, even
// if the label spans multiple lines
sliderOpts.font.size * LINE_SPACING +
constants.labelOffset +
dims.currentValueTotalHeight
);
});
}
function handleInput(gd, sliderGroup, sliderOpts, normalizedPosition, doTransition) {
var quantizedPosition = Math.round(normalizedPosition * (sliderOpts._stepCount - 1));
var quantizedIndex = sliderOpts._visibleSteps[quantizedPosition]._index;
if(quantizedIndex !== sliderOpts.active) {
setActive(gd, sliderGroup, sliderOpts, quantizedIndex, true, doTransition);
}
}
function setActive(gd, sliderGroup, sliderOpts, index, doCallback, doTransition) {
var previousActive = sliderOpts.active;
sliderOpts.active = index;
// due to templating, it's possible this slider doesn't even exist yet
arrayEditor(gd.layout, constants.name, sliderOpts)
.applyUpdate('active', index);
var step = sliderOpts.steps[sliderOpts.active];
sliderGroup.call(setGripPosition, sliderOpts, doTransition);
sliderGroup.call(drawCurrentValue, sliderOpts);
gd.emit('plotly_sliderchange', {
slider: sliderOpts,
step: sliderOpts.steps[sliderOpts.active],
interaction: doCallback,
previousActive: previousActive
});
if(step && step.method && doCallback) {
if(sliderGroup._nextMethod) {
// If we've already queued up an update, just overwrite it with the most recent:
sliderGroup._nextMethod.step = step;
sliderGroup._nextMethod.doCallback = doCallback;
sliderGroup._nextMethod.doTransition = doTransition;
} else {
sliderGroup._nextMethod = {step: step, doCallback: doCallback, doTransition: doTransition};
sliderGroup._nextMethodRaf = window.requestAnimationFrame(function() {
var _step = sliderGroup._nextMethod.step;
if(!_step.method) return;
if(_step.execute) {
Plots.executeAPICommand(gd, _step.method, _step.args);
}
sliderGroup._nextMethod = null;
sliderGroup._nextMethodRaf = null;
});
}
}
}
function attachGripEvents(item, gd, sliderGroup) {
var node = sliderGroup.node();
var $gd = d3.select(gd);
// NB: This is *not* the same as sliderOpts itself! These callbacks
// are in a closure so this array won't actually be correct if the
// steps have changed since this was initialized. The sliderGroup,
// however, has not changed since that *is* the slider, so it must
// be present to receive mouse events.
function getSliderOpts() {
return sliderGroup.data()[0];
}
item.on('mousedown', function() {
var sliderOpts = getSliderOpts();
gd.emit('plotly_sliderstart', {slider: sliderOpts});
var grip = sliderGroup.select('.' + constants.gripRectClass);
d3.event.stopPropagation();
d3.event.preventDefault();
grip.call(Color.fill, sliderOpts.activebgcolor);
var normalizedPosition = positionToNormalizedValue(sliderOpts, d3.mouse(node)[0]);
handleInput(gd, sliderGroup, sliderOpts, normalizedPosition, true);
sliderOpts._dragging = true;
$gd.on('mousemove', function() {
var sliderOpts = getSliderOpts();
var normalizedPosition = positionToNormalizedValue(sliderOpts, d3.mouse(node)[0]);
handleInput(gd, sliderGroup, sliderOpts, normalizedPosition, false);
});
$gd.on('mouseup', function() {
var sliderOpts = getSliderOpts();
sliderOpts._dragging = false;
grip.call(Color.fill, sliderOpts.bgcolor);
$gd.on('mouseup', null);
$gd.on('mousemove', null);
gd.emit('plotly_sliderend', {
slider: sliderOpts,
step: sliderOpts.steps[sliderOpts.active]
});
});
});
}
function drawTicks(sliderGroup, sliderOpts) {
var tick = sliderGroup.selectAll('rect.' + constants.tickRectClass)
.data(sliderOpts._visibleSteps);
var dims = sliderOpts._dims;
tick.enter().append('rect')
.classed(constants.tickRectClass, true);
tick.exit().remove();
tick.attr({
width: sliderOpts.tickwidth + 'px',
'shape-rendering': 'crispEdges'
});
tick.each(function(d, i) {
var isMajor = i % dims.labelStride === 0;
var item = d3.select(this);
item
.attr({height: isMajor ? sliderOpts.ticklen : sliderOpts.minorticklen})
.call(Color.fill, isMajor ? sliderOpts.tickcolor : sliderOpts.tickcolor);
Drawing.setTranslate(item,
normalizedValueToPosition(sliderOpts, i / (sliderOpts._stepCount - 1)) - 0.5 * sliderOpts.tickwidth,
(isMajor ? constants.tickOffset : constants.minorTickOffset) + dims.currentValueTotalHeight
);
});
}
function computeLabelSteps(sliderOpts) {
var dims = sliderOpts._dims;
dims.labelSteps = [];
var nsteps = sliderOpts._stepCount;
for(var i = 0; i < nsteps; i += dims.labelStride) {
dims.labelSteps.push({
fraction: i / (nsteps - 1),
step: sliderOpts._visibleSteps[i]
});
}
}
function setGripPosition(sliderGroup, sliderOpts, doTransition) {
var grip = sliderGroup.select('rect.' + constants.gripRectClass);
var quantizedIndex = 0;
for(var i = 0; i < sliderOpts._stepCount; i++) {
if(sliderOpts._visibleSteps[i]._index === sliderOpts.active) {
quantizedIndex = i;
break;
}
}
var x = normalizedValueToPosition(sliderOpts, quantizedIndex / (sliderOpts._stepCount - 1));
// If this is true, then *this component* is already invoking its own command
// and has triggered its own animation.
if(sliderOpts._invokingCommand) return;
var el = grip;
if(doTransition && sliderOpts.transition.duration > 0) {
el = el.transition()
.duration(sliderOpts.transition.duration)
.ease(sliderOpts.transition.easing);
}
// Drawing.setTranslate doesn't work here becasue of the transition duck-typing.
// It's also not necessary because there are no other transitions to preserve.
el.attr('transform', 'translate(' + (x - constants.gripWidth * 0.5) + ',' + (sliderOpts._dims.currentValueTotalHeight) + ')');
}
// Convert a number from [0-1] to a pixel position relative to the slider group container:
function normalizedValueToPosition(sliderOpts, normalizedPosition) {
var dims = sliderOpts._dims;
return dims.inputAreaStart + constants.stepInset +
(dims.inputAreaLength - 2 * constants.stepInset) * Math.min(1, Math.max(0, normalizedPosition));
}
// Convert a position relative to the slider group to a nubmer in [0, 1]
function positionToNormalizedValue(sliderOpts, position) {
var dims = sliderOpts._dims;
return Math.min(1, Math.max(0, (position - constants.stepInset - dims.inputAreaStart) / (dims.inputAreaLength - 2 * constants.stepInset - 2 * dims.inputAreaStart)));
}
function drawTouchRect(sliderGroup, gd, sliderOpts) {
var dims = sliderOpts._dims;
var rect = Lib.ensureSingle(sliderGroup, 'rect', constants.railTouchRectClass, function(s) {
s.call(attachGripEvents, gd, sliderGroup, sliderOpts)
.style('pointer-events', 'all');
});
rect.attr({
width: dims.inputAreaLength,
height: Math.max(dims.inputAreaWidth, constants.tickOffset + sliderOpts.ticklen + dims.labelHeight)
})
.call(Color.fill, sliderOpts.bgcolor)
.attr('opacity', 0);
Drawing.setTranslate(rect, 0, dims.currentValueTotalHeight);
}
function drawRail(sliderGroup, sliderOpts) {
var dims = sliderOpts._dims;
var computedLength = dims.inputAreaLength - constants.railInset * 2;
var rect = Lib.ensureSingle(sliderGroup, 'rect', constants.railRectClass);
rect.attr({
width: computedLength,
height: constants.railWidth,
rx: constants.railRadius,
ry: constants.railRadius,
'shape-rendering': 'crispEdges'
})
.call(Color.stroke, sliderOpts.bordercolor)
.call(Color.fill, sliderOpts.bgcolor)
.style('stroke-width', sliderOpts.borderwidth + 'px');
Drawing.setTranslate(rect,
constants.railInset,
(dims.inputAreaWidth - constants.railWidth) * 0.5 + dims.currentValueTotalHeight
);
}
},{"../../constants/alignment":665,"../../lib":693,"../../lib/svg_text_utils":718,"../../plot_api/plot_template":732,"../../plots/plots":805,"../color":567,"../drawing":592,"../legend/anchor_utils":619,"./constants":654,"d3":147}],657:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var constants = _dereq_('./constants');
module.exports = {
moduleType: 'component',
name: constants.name,
layoutAttributes: _dereq_('./attributes'),
supplyLayoutDefaults: _dereq_('./defaults'),
draw: _dereq_('./draw')
};
},{"./attributes":653,"./constants":654,"./defaults":655,"./draw":656}],658:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var isNumeric = _dereq_('fast-isnumeric');
var Plots = _dereq_('../../plots/plots');
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var Drawing = _dereq_('../drawing');
var Color = _dereq_('../color');
var svgTextUtils = _dereq_('../../lib/svg_text_utils');
var interactConstants = _dereq_('../../constants/interactions');
module.exports = {
draw: draw
};
var numStripRE = / [XY][0-9]* /;
/**
* Titles - (re)draw titles on the axes and plot:
* @param {DOM element} gd - the graphDiv
* @param {string} titleClass - the css class of this title
* @param {object} options - how and what to draw
* propContainer - the layout object containing `title` and `titlefont`
* attributes that apply to this title
* propName - the full name of the title property (for Plotly.relayout)
* [traceIndex] - include only if this property applies to one trace
* (such as a colorbar title) - then editing pipes to Plotly.restyle
* instead of Plotly.relayout
* placeholder - placeholder text for an empty editable title
* [avoid] {object} - include if this title should move to avoid other elements
* selection - d3 selection of elements to avoid
* side - which direction to move if there is a conflict
* [offsetLeft] - if these elements are subject to a translation
* wrt the title element
* [offsetTop]
* attributes {object} - position and alignment attributes
* x - pixels
* y - pixels
* text-anchor - start|middle|end
* transform {object} - how to transform the title after positioning
* rotate - degrees
* offset - shift up/down in the rotated frame (unused?)
* containerGroup - if an svg <g> element already exists to hold this
* title, include here. Otherwise it will go in fullLayout._infolayer
*
* @return {selection} d3 selection of title container group
*/
function draw(gd, titleClass, options) {
var cont = options.propContainer;
var prop = options.propName;
var placeholder = options.placeholder;
var traceIndex = options.traceIndex;
var avoid = options.avoid || {};
var attributes = options.attributes;
var transform = options.transform;
var group = options.containerGroup;
var fullLayout = gd._fullLayout;
var titlefont = cont.titlefont || {};
var font = titlefont.family;
var fontSize = titlefont.size;
var fontColor = titlefont.color;
var opacity = 1;
var isplaceholder = false;
var txt = (cont.title || '').trim();
// only make this title editable if we positively identify its property
// as one that has editing enabled.
var editAttr;
if(prop === 'title') editAttr = 'titleText';
else if(prop.indexOf('axis') !== -1) editAttr = 'axisTitleText';
else if(prop.indexOf('colorbar' !== -1)) editAttr = 'colorbarTitleText';
var editable = gd._context.edits[editAttr];
if(txt === '') opacity = 0;
// look for placeholder text while stripping out numbers from eg X2, Y3
// this is just for backward compatibility with the old version that had
// "Click to enter X2 title" and may have gotten saved in some old plots,
// we don't want this to show up when these are displayed.
else if(txt.replace(numStripRE, ' % ') === placeholder.replace(numStripRE, ' % ')) {
opacity = 0.2;
isplaceholder = true;
if(!editable) txt = '';
}
var elShouldExist = txt || editable;
if(!group) {
group = Lib.ensureSingle(fullLayout._infolayer, 'g', 'g-' + titleClass);
}
var el = group.selectAll('text')
.data(elShouldExist ? [0] : []);
el.enter().append('text');
el.text(txt)
// this is hacky, but convertToTspans uses the class
// to determine whether to rotate mathJax...
// so we need to clear out any old class and put the
// correct one (only relevant for colorbars, at least
// for now) - ie don't use .classed
.attr('class', titleClass);
el.exit().remove();
if(!elShouldExist) return group;
function titleLayout(titleEl) {
Lib.syncOrAsync([drawTitle, scootTitle], titleEl);
}
function drawTitle(titleEl) {
var transformVal;
if(transform) {
transformVal = '';
if(transform.rotate) {
transformVal += 'rotate(' + [transform.rotate, attributes.x, attributes.y] + ')';
}
if(transform.offset) {
transformVal += 'translate(0, ' + transform.offset + ')';
}
} else {
transformVal = null;
}
titleEl.attr('transform', transformVal);
titleEl.style({
'font-family': font,
'font-size': d3.round(fontSize, 2) + 'px',
fill: Color.rgb(fontColor),
opacity: opacity * Color.opacity(fontColor),
'font-weight': Plots.fontWeight
})
.attr(attributes)
.call(svgTextUtils.convertToTspans, gd);
return Plots.previousPromises(gd);
}
function scootTitle(titleElIn) {
var titleGroup = d3.select(titleElIn.node().parentNode);
if(avoid && avoid.selection && avoid.side && txt) {
titleGroup.attr('transform', null);
// move toward avoid.side (= left, right, top, bottom) if needed
// can include pad (pixels, default 2)
var shift = 0;
var backside = {
left: 'right',
right: 'left',
top: 'bottom',
bottom: 'top'
}[avoid.side];
var shiftSign = (['left', 'top'].indexOf(avoid.side) !== -1) ?
-1 : 1;
var pad = isNumeric(avoid.pad) ? avoid.pad : 2;
var titlebb = Drawing.bBox(titleGroup.node());
var paperbb = {
left: 0,
top: 0,
right: fullLayout.width,
bottom: fullLayout.height
};
var maxshift = avoid.maxShift || (
(paperbb[avoid.side] - titlebb[avoid.side]) *
((avoid.side === 'left' || avoid.side === 'top') ? -1 : 1));
// Prevent the title going off the paper
if(maxshift < 0) shift = maxshift;
else {
// so we don't have to offset each avoided element,
// give the title the opposite offset
var offsetLeft = avoid.offsetLeft || 0;
var offsetTop = avoid.offsetTop || 0;
titlebb.left -= offsetLeft;
titlebb.right -= offsetLeft;
titlebb.top -= offsetTop;
titlebb.bottom -= offsetTop;
// iterate over a set of elements (avoid.selection)
// to avoid collisions with
avoid.selection.each(function() {
var avoidbb = Drawing.bBox(this);
if(Lib.bBoxIntersect(titlebb, avoidbb, pad)) {
shift = Math.max(shift, shiftSign * (
avoidbb[avoid.side] - titlebb[backside]) + pad);
}
});
shift = Math.min(maxshift, shift);
}
if(shift > 0 || maxshift < 0) {
var shiftTemplate = {
left: [-shift, 0],
right: [shift, 0],
top: [0, -shift],
bottom: [0, shift]
}[avoid.side];
titleGroup.attr('transform',
'translate(' + shiftTemplate + ')');
}
}
}
el.call(titleLayout);
function setPlaceholder() {
opacity = 0;
isplaceholder = true;
el.text(placeholder)
.on('mouseover.opacity', function() {
d3.select(this).transition()
.duration(interactConstants.SHOW_PLACEHOLDER).style('opacity', 1);
})
.on('mouseout.opacity', function() {
d3.select(this).transition()
.duration(interactConstants.HIDE_PLACEHOLDER).style('opacity', 0);
});
}
if(editable) {
if(!txt) setPlaceholder();
else el.on('.opacity', null);
el.call(svgTextUtils.makeEditable, {gd: gd})
.on('edit', function(text) {
if(traceIndex !== undefined) {
Registry.call('restyle', gd, prop, text, traceIndex);
} else {
Registry.call('relayout', gd, prop, text);
}
})
.on('cancel', function() {
this.text(this.attr('data-unformatted'))
.call(titleLayout);
})
.on('input', function(d) {
this.text(d || ' ')
.call(svgTextUtils.positionText, attributes.x, attributes.y);
});
}
el.classed('js-placeholder', isplaceholder);
return group;
}
},{"../../constants/interactions":669,"../../lib":693,"../../lib/svg_text_utils":718,"../../plots/plots":805,"../../registry":825,"../color":567,"../drawing":592,"d3":147,"fast-isnumeric":213}],659:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var fontAttrs = _dereq_('../../plots/font_attributes');
var colorAttrs = _dereq_('../color/attributes');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll;
var padAttrs = _dereq_('../../plots/pad_attributes');
var templatedArray = _dereq_('../../plot_api/plot_template').templatedArray;
var buttonsAttrs = templatedArray('button', {
visible: {
valType: 'boolean',
},
method: {
valType: 'enumerated',
values: ['restyle', 'relayout', 'animate', 'update', 'skip'],
dflt: 'restyle',
},
args: {
valType: 'info_array',
freeLength: true,
items: [
{valType: 'any'},
{valType: 'any'},
{valType: 'any'}
],
},
label: {
valType: 'string',
dflt: '',
},
execute: {
valType: 'boolean',
dflt: true,
}
});
module.exports = overrideAll(templatedArray('updatemenu', {
_arrayAttrRegexps: [/^updatemenus\[(0|[1-9][0-9]+)\]\.buttons/],
visible: {
valType: 'boolean',
},
type: {
valType: 'enumerated',
values: ['dropdown', 'buttons'],
dflt: 'dropdown',
},
direction: {
valType: 'enumerated',
values: ['left', 'right', 'up', 'down'],
dflt: 'down',
},
active: {
valType: 'integer',
min: -1,
dflt: 0,
},
showactive: {
valType: 'boolean',
dflt: true,
},
buttons: buttonsAttrs,
x: {
valType: 'number',
min: -2,
max: 3,
dflt: -0.05,
},
xanchor: {
valType: 'enumerated',
values: ['auto', 'left', 'center', 'right'],
dflt: 'right',
},
y: {
valType: 'number',
min: -2,
max: 3,
dflt: 1,
},
yanchor: {
valType: 'enumerated',
values: ['auto', 'top', 'middle', 'bottom'],
dflt: 'top',
},
pad: extendFlat({}, padAttrs, {
}),
font: fontAttrs({
}),
bgcolor: {
valType: 'color',
},
bordercolor: {
valType: 'color',
dflt: colorAttrs.borderLine,
},
borderwidth: {
valType: 'number',
min: 0,
dflt: 1,
editType: 'arraydraw',
}
}), 'arraydraw', 'from-root');
},{"../../lib/extend":682,"../../plot_api/edit_types":725,"../../plot_api/plot_template":732,"../../plots/font_attributes":768,"../../plots/pad_attributes":804,"../color/attributes":566}],660:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
// layout attribute name
name: 'updatemenus',
// class names
containerClassName: 'updatemenu-container',
headerGroupClassName: 'updatemenu-header-group',
headerClassName: 'updatemenu-header',
headerArrowClassName: 'updatemenu-header-arrow',
dropdownButtonGroupClassName: 'updatemenu-dropdown-button-group',
dropdownButtonClassName: 'updatemenu-dropdown-button',
buttonClassName: 'updatemenu-button',
itemRectClassName: 'updatemenu-item-rect',
itemTextClassName: 'updatemenu-item-text',
// DOM attribute name in button group keeping track
// of active update menu
menuIndexAttrName: 'updatemenu-active-index',
// id root pass to Plots.autoMargin
autoMarginIdRoot: 'updatemenu-',
// options when 'active: -1'
blankHeaderOpts: { label: ' ' },
// min item width / height
minWidth: 30,
minHeight: 30,
// padding around item text
textPadX: 24,
arrowPadX: 16,
// item rect radii
rx: 2,
ry: 2,
// item text x offset off left edge
textOffsetX: 12,
// item text y offset (w.r.t. middle)
textOffsetY: 3,
// arrow offset off right edge
arrowOffsetX: 4,
// gap between header and buttons
gapButtonHeader: 5,
// gap between between buttons
gapButton: 2,
// color given to active buttons
activeColor: '#F4FAFF',
// color given to hovered buttons
hoverColor: '#F4FAFF',
// symbol for menu open arrow
arrowSymbol: {
left: '◄',
right: '►',
up: '▲',
down: '▼'
}
};
},{}],661:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var handleArrayContainerDefaults = _dereq_('../../plots/array_container_defaults');
var attributes = _dereq_('./attributes');
var constants = _dereq_('./constants');
var name = constants.name;
var buttonAttrs = attributes.buttons;
module.exports = function updateMenusDefaults(layoutIn, layoutOut) {
var opts = {
name: name,
handleItemDefaults: menuDefaults
};
handleArrayContainerDefaults(layoutIn, layoutOut, opts);
};
function menuDefaults(menuIn, menuOut, layoutOut) {
function coerce(attr, dflt) {
return Lib.coerce(menuIn, menuOut, attributes, attr, dflt);
}
var buttons = handleArrayContainerDefaults(menuIn, menuOut, {
name: 'buttons',
handleItemDefaults: buttonDefaults
});
var visible = coerce('visible', buttons.length > 0);
if(!visible) return;
coerce('active');
coerce('direction');
coerce('type');
coerce('showactive');
coerce('x');
coerce('y');
Lib.noneOrAll(menuIn, menuOut, ['x', 'y']);
coerce('xanchor');
coerce('yanchor');
coerce('pad.t');
coerce('pad.r');
coerce('pad.b');
coerce('pad.l');
Lib.coerceFont(coerce, 'font', layoutOut.font);
coerce('bgcolor', layoutOut.paper_bgcolor);
coerce('bordercolor');
coerce('borderwidth');
}
function buttonDefaults(buttonIn, buttonOut) {
function coerce(attr, dflt) {
return Lib.coerce(buttonIn, buttonOut, buttonAttrs, attr, dflt);
}
var visible = coerce('visible',
(buttonIn.method === 'skip' || Array.isArray(buttonIn.args)));
if(visible) {
coerce('method');
coerce('args');
coerce('label');
coerce('execute');
}
}
},{"../../lib":693,"../../plots/array_container_defaults":738,"./attributes":659,"./constants":660}],662:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Plots = _dereq_('../../plots/plots');
var Color = _dereq_('../color');
var Drawing = _dereq_('../drawing');
var Lib = _dereq_('../../lib');
var svgTextUtils = _dereq_('../../lib/svg_text_utils');
var anchorUtils = _dereq_('../legend/anchor_utils');
var arrayEditor = _dereq_('../../plot_api/plot_template').arrayEditor;
var LINE_SPACING = _dereq_('../../constants/alignment').LINE_SPACING;
var constants = _dereq_('./constants');
var ScrollBox = _dereq_('./scrollbox');
module.exports = function draw(gd) {
var fullLayout = gd._fullLayout,
menuData = Lib.filterVisible(fullLayout[constants.name]);
/* Update menu data is bound to the header-group.
* The items in the header group are always present.
*
* Upon clicking on a header its corresponding button
* data is bound to the button-group.
*
* We draw all headers in one group before all buttons
* so that the buttons *always* appear above the headers.
*
* Note that only one set of buttons are visible at once.
*
* <g container />
*
* <g header-group />
* <g item header />
* <text item header-arrow />
* <g header-group />
* <g item header />
* <text item header-arrow />
* ...
*
* <g button-group />
* <g item button />
* <g item button />
* ...
*/
function clearAutoMargin(menuOpts) {
Plots.autoMargin(gd, autoMarginId(menuOpts));
}
// draw update menu container
var menus = fullLayout._menulayer
.selectAll('g.' + constants.containerClassName)
.data(menuData.length > 0 ? [0] : []);
menus.enter().append('g')
.classed(constants.containerClassName, true)
.style('cursor', 'pointer');
menus.exit().each(function() {
// Most components don't need to explicitly remove autoMargin, because
// marginPushers does this - but updatemenu updates don't go through
// a full replot so we need to explicitly remove it.
// This is for removing *all* updatemenus, removing individuals is
// handled below, in headerGroups.exit
d3.select(this).selectAll('g.' + constants.headerGroupClassName)
.each(clearAutoMargin);
}).remove();
// return early if no update menus are visible
if(menuData.length === 0) return;
// join header group
var headerGroups = menus.selectAll('g.' + constants.headerGroupClassName)
.data(menuData, keyFunction);
headerGroups.enter().append('g')
.classed(constants.headerGroupClassName, true);
// draw dropdown button container
var gButton = Lib.ensureSingle(menus, 'g', constants.dropdownButtonGroupClassName, function(s) {
s.style('pointer-events', 'all');
});
// find dimensions before plotting anything (this mutates menuOpts)
for(var i = 0; i < menuData.length; i++) {
var menuOpts = menuData[i];
findDimensions(gd, menuOpts);
}
// setup scrollbox
var scrollBoxId = 'updatemenus' + fullLayout._uid,
scrollBox = new ScrollBox(gd, gButton, scrollBoxId);
// remove exiting header, remove dropped buttons and reset margins
if(headerGroups.enter().size()) {
// make sure gButton is on top of all headers
gButton.node().parentNode.appendChild(gButton.node());
gButton.call(removeAllButtons);
}
headerGroups.exit().each(function(menuOpts) {
gButton.call(removeAllButtons);
clearAutoMargin(menuOpts);
}).remove();
// draw headers!
headerGroups.each(function(menuOpts) {
var gHeader = d3.select(this);
var _gButton = menuOpts.type === 'dropdown' ? gButton : null;
Plots.manageCommandObserver(gd, menuOpts, menuOpts.buttons, function(data) {
setActive(gd, menuOpts, menuOpts.buttons[data.index], gHeader, _gButton, scrollBox, data.index, true);
});
if(menuOpts.type === 'dropdown') {
drawHeader(gd, gHeader, gButton, scrollBox, menuOpts);
// if this menu is active, update the dropdown container
if(isActive(gButton, menuOpts)) {
drawButtons(gd, gHeader, gButton, scrollBox, menuOpts);
}
} else {
drawButtons(gd, gHeader, null, null, menuOpts);
}
});
};
// Note that '_index' is set at the default step,
// it corresponds to the menu index in the user layout update menu container.
// Because a menu can be set invisible,
// this is a more 'consistent' field than the index in the menuData.
function keyFunction(menuOpts) {
return menuOpts._index;
}
function isFolded(gButton) {
return +gButton.attr(constants.menuIndexAttrName) === -1;
}
function isActive(gButton, menuOpts) {
return +gButton.attr(constants.menuIndexAttrName) === menuOpts._index;
}
function setActive(gd, menuOpts, buttonOpts, gHeader, gButton, scrollBox, buttonIndex, isSilentUpdate) {
// update 'active' attribute in menuOpts
menuOpts.active = buttonIndex;
// due to templating, it's possible this slider doesn't even exist yet
arrayEditor(gd.layout, constants.name, menuOpts)
.applyUpdate('active', buttonIndex);
if(menuOpts.type === 'buttons') {
drawButtons(gd, gHeader, null, null, menuOpts);
}
else if(menuOpts.type === 'dropdown') {
// fold up buttons and redraw header
gButton.attr(constants.menuIndexAttrName, '-1');
drawHeader(gd, gHeader, gButton, scrollBox, menuOpts);
if(!isSilentUpdate) {
drawButtons(gd, gHeader, gButton, scrollBox, menuOpts);
}
}
}
function drawHeader(gd, gHeader, gButton, scrollBox, menuOpts) {
var header = Lib.ensureSingle(gHeader, 'g', constants.headerClassName, function(s) {
s.style('pointer-events', 'all');
});
var dims = menuOpts._dims;
var active = menuOpts.active;
var headerOpts = menuOpts.buttons[active] || constants.blankHeaderOpts;
var posOpts = { y: menuOpts.pad.t, yPad: 0, x: menuOpts.pad.l, xPad: 0, index: 0 };
var positionOverrides = {
width: dims.headerWidth,
height: dims.headerHeight
};
header
.call(drawItem, menuOpts, headerOpts, gd)
.call(setItemPosition, menuOpts, posOpts, positionOverrides);
// draw drop arrow at the right edge
var arrow = Lib.ensureSingle(gHeader, 'text', constants.headerArrowClassName, function(s) {
s.classed('user-select-none', true)
.attr('text-anchor', 'end')
.call(Drawing.font, menuOpts.font)
.text(constants.arrowSymbol[menuOpts.direction]);
});
arrow.attr({
x: dims.headerWidth - constants.arrowOffsetX + menuOpts.pad.l,
y: dims.headerHeight / 2 + constants.textOffsetY + menuOpts.pad.t
});
header.on('click', function() {
gButton.call(removeAllButtons,
String(isActive(gButton, menuOpts) ? -1 : menuOpts._index)
);
drawButtons(gd, gHeader, gButton, scrollBox, menuOpts);
});
header.on('mouseover', function() {
header.call(styleOnMouseOver);
});
header.on('mouseout', function() {
header.call(styleOnMouseOut, menuOpts);
});
// translate header group
Drawing.setTranslate(gHeader, dims.lx, dims.ly);
}
function drawButtons(gd, gHeader, gButton, scrollBox, menuOpts) {
// If this is a set of buttons, set pointer events = all since we play
// some minor games with which container is which in order to simplify
// the drawing of *either* buttons or menus
if(!gButton) {
gButton = gHeader;
gButton.attr('pointer-events', 'all');
}
var buttonData = (!isFolded(gButton) || menuOpts.type === 'buttons') ?
menuOpts.buttons :
[];
var klass = menuOpts.type === 'dropdown' ? constants.dropdownButtonClassName : constants.buttonClassName;
var buttons = gButton.selectAll('g.' + klass)
.data(Lib.filterVisible(buttonData));
var enter = buttons.enter().append('g')
.classed(klass, true);
var exit = buttons.exit();
if(menuOpts.type === 'dropdown') {
enter.attr('opacity', '0')
.transition()
.attr('opacity', '1');
exit.transition()
.attr('opacity', '0')
.remove();
} else {
exit.remove();
}
var x0 = 0;
var y0 = 0;
var dims = menuOpts._dims;
var isVertical = ['up', 'down'].indexOf(menuOpts.direction) !== -1;
if(menuOpts.type === 'dropdown') {
if(isVertical) {
y0 = dims.headerHeight + constants.gapButtonHeader;
} else {
x0 = dims.headerWidth + constants.gapButtonHeader;
}
}
if(menuOpts.type === 'dropdown' && menuOpts.direction === 'up') {
y0 = -constants.gapButtonHeader + constants.gapButton - dims.openHeight;
}
if(menuOpts.type === 'dropdown' && menuOpts.direction === 'left') {
x0 = -constants.gapButtonHeader + constants.gapButton - dims.openWidth;
}
var posOpts = {
x: dims.lx + x0 + menuOpts.pad.l,
y: dims.ly + y0 + menuOpts.pad.t,
yPad: constants.gapButton,
xPad: constants.gapButton,
index: 0,
};
var scrollBoxPosition = {
l: posOpts.x + menuOpts.borderwidth,
t: posOpts.y + menuOpts.borderwidth
};
buttons.each(function(buttonOpts, buttonIndex) {
var button = d3.select(this);
button
.call(drawItem, menuOpts, buttonOpts, gd)
.call(setItemPosition, menuOpts, posOpts);
button.on('click', function() {
// skip `dragend` events
if(d3.event.defaultPrevented) return;
setActive(gd, menuOpts, buttonOpts, gHeader, gButton, scrollBox, buttonIndex);
if(buttonOpts.execute) {
Plots.executeAPICommand(gd, buttonOpts.method, buttonOpts.args);
}
gd.emit('plotly_buttonclicked', {menu: menuOpts, button: buttonOpts, active: menuOpts.active});
});
button.on('mouseover', function() {
button.call(styleOnMouseOver);
});
button.on('mouseout', function() {
button.call(styleOnMouseOut, menuOpts);
buttons.call(styleButtons, menuOpts);
});
});
buttons.call(styleButtons, menuOpts);
if(isVertical) {
scrollBoxPosition.w = Math.max(dims.openWidth, dims.headerWidth);
scrollBoxPosition.h = posOpts.y - scrollBoxPosition.t;
}
else {
scrollBoxPosition.w = posOpts.x - scrollBoxPosition.l;
scrollBoxPosition.h = Math.max(dims.openHeight, dims.headerHeight);
}
scrollBoxPosition.direction = menuOpts.direction;
if(scrollBox) {
if(buttons.size()) {
drawScrollBox(gd, gHeader, gButton, scrollBox, menuOpts, scrollBoxPosition);
}
else {
hideScrollBox(scrollBox);
}
}
}
function drawScrollBox(gd, gHeader, gButton, scrollBox, menuOpts, position) {
// enable the scrollbox
var direction = menuOpts.direction;
var isVertical = (direction === 'up' || direction === 'down');
var dims = menuOpts._dims;
var active = menuOpts.active,
translateX, translateY,
i;
if(isVertical) {
translateY = 0;
for(i = 0; i < active; i++) {
translateY += dims.heights[i] + constants.gapButton;
}
}
else {
translateX = 0;
for(i = 0; i < active; i++) {
translateX += dims.widths[i] + constants.gapButton;
}
}
scrollBox.enable(position, translateX, translateY);
if(scrollBox.hbar) {
scrollBox.hbar
.attr('opacity', '0')
.transition()
.attr('opacity', '1');
}
if(scrollBox.vbar) {
scrollBox.vbar
.attr('opacity', '0')
.transition()
.attr('opacity', '1');
}
}
function hideScrollBox(scrollBox) {
var hasHBar = !!scrollBox.hbar,
hasVBar = !!scrollBox.vbar;
if(hasHBar) {
scrollBox.hbar
.transition()
.attr('opacity', '0')
.each('end', function() {
hasHBar = false;
if(!hasVBar) scrollBox.disable();
});
}
if(hasVBar) {
scrollBox.vbar
.transition()
.attr('opacity', '0')
.each('end', function() {
hasVBar = false;
if(!hasHBar) scrollBox.disable();
});
}
}
function drawItem(item, menuOpts, itemOpts, gd) {
item.call(drawItemRect, menuOpts)
.call(drawItemText, menuOpts, itemOpts, gd);
}
function drawItemRect(item, menuOpts) {
var rect = Lib.ensureSingle(item, 'rect', constants.itemRectClassName, function(s) {
s.attr({
rx: constants.rx,
ry: constants.ry,
'shape-rendering': 'crispEdges'
});
});
rect.call(Color.stroke, menuOpts.bordercolor)
.call(Color.fill, menuOpts.bgcolor)
.style('stroke-width', menuOpts.borderwidth + 'px');
}
function drawItemText(item, menuOpts, itemOpts, gd) {
var text = Lib.ensureSingle(item, 'text', constants.itemTextClassName, function(s) {
s.classed('user-select-none', true)
.attr({
'text-anchor': 'start',
'data-notex': 1
});
});
text.call(Drawing.font, menuOpts.font)
.text(itemOpts.label)
.call(svgTextUtils.convertToTspans, gd);
}
function styleButtons(buttons, menuOpts) {
var active = menuOpts.active;
buttons.each(function(buttonOpts, i) {
var button = d3.select(this);
if(i === active && menuOpts.showactive) {
button.select('rect.' + constants.itemRectClassName)
.call(Color.fill, constants.activeColor);
}
});
}
function styleOnMouseOver(item) {
item.select('rect.' + constants.itemRectClassName)
.call(Color.fill, constants.hoverColor);
}
function styleOnMouseOut(item, menuOpts) {
item.select('rect.' + constants.itemRectClassName)
.call(Color.fill, menuOpts.bgcolor);
}
// find item dimensions (this mutates menuOpts)
function findDimensions(gd, menuOpts) {
var dims = menuOpts._dims = {
width1: 0,
height1: 0,
heights: [],
widths: [],
totalWidth: 0,
totalHeight: 0,
openWidth: 0,
openHeight: 0,
lx: 0,
ly: 0
};
var fakeButtons = Drawing.tester.selectAll('g.' + constants.dropdownButtonClassName)
.data(Lib.filterVisible(menuOpts.buttons));
fakeButtons.enter().append('g')
.classed(constants.dropdownButtonClassName, true);
var isVertical = ['up', 'down'].indexOf(menuOpts.direction) !== -1;
// loop over fake buttons to find width / height
fakeButtons.each(function(buttonOpts, i) {
var button = d3.select(this);
button.call(drawItem, menuOpts, buttonOpts, gd);
var text = button.select('.' + constants.itemTextClassName);
// width is given by max width of all buttons
var tWidth = text.node() && Drawing.bBox(text.node()).width;
var wEff = Math.max(tWidth + constants.textPadX, constants.minWidth);
// height is determined by item text
var tHeight = menuOpts.font.size * LINE_SPACING;
var tLines = svgTextUtils.lineCount(text);
var hEff = Math.max(tHeight * tLines, constants.minHeight) + constants.textOffsetY;
hEff = Math.ceil(hEff);
wEff = Math.ceil(wEff);
// Store per-item sizes since a row of horizontal buttons, for example,
// don't all need to be the same width:
dims.widths[i] = wEff;
dims.heights[i] = hEff;
// Height and width of individual element:
dims.height1 = Math.max(dims.height1, hEff);
dims.width1 = Math.max(dims.width1, wEff);
if(isVertical) {
dims.totalWidth = Math.max(dims.totalWidth, wEff);
dims.openWidth = dims.totalWidth;
dims.totalHeight += hEff + constants.gapButton;
dims.openHeight += hEff + constants.gapButton;
} else {
dims.totalWidth += wEff + constants.gapButton;
dims.openWidth += wEff + constants.gapButton;
dims.totalHeight = Math.max(dims.totalHeight, hEff);
dims.openHeight = dims.totalHeight;
}
});
if(isVertical) {
dims.totalHeight -= constants.gapButton;
} else {
dims.totalWidth -= constants.gapButton;
}
dims.headerWidth = dims.width1 + constants.arrowPadX;
dims.headerHeight = dims.height1;
if(menuOpts.type === 'dropdown') {
if(isVertical) {
dims.width1 += constants.arrowPadX;
dims.totalHeight = dims.height1;
} else {
dims.totalWidth = dims.width1;
}
dims.totalWidth += constants.arrowPadX;
}
fakeButtons.remove();
var paddedWidth = dims.totalWidth + menuOpts.pad.l + menuOpts.pad.r;
var paddedHeight = dims.totalHeight + menuOpts.pad.t + menuOpts.pad.b;
var graphSize = gd._fullLayout._size;
dims.lx = graphSize.l + graphSize.w * menuOpts.x;
dims.ly = graphSize.t + graphSize.h * (1 - menuOpts.y);
var xanchor = 'left';
if(anchorUtils.isRightAnchor(menuOpts)) {
dims.lx -= paddedWidth;
xanchor = 'right';
}
if(anchorUtils.isCenterAnchor(menuOpts)) {
dims.lx -= paddedWidth / 2;
xanchor = 'center';
}
var yanchor = 'top';
if(anchorUtils.isBottomAnchor(menuOpts)) {
dims.ly -= paddedHeight;
yanchor = 'bottom';
}
if(anchorUtils.isMiddleAnchor(menuOpts)) {
dims.ly -= paddedHeight / 2;
yanchor = 'middle';
}
dims.totalWidth = Math.ceil(dims.totalWidth);
dims.totalHeight = Math.ceil(dims.totalHeight);
dims.lx = Math.round(dims.lx);
dims.ly = Math.round(dims.ly);
Plots.autoMargin(gd, autoMarginId(menuOpts), {
x: menuOpts.x,
y: menuOpts.y,
l: paddedWidth * ({right: 1, center: 0.5}[xanchor] || 0),
r: paddedWidth * ({left: 1, center: 0.5}[xanchor] || 0),
b: paddedHeight * ({top: 1, middle: 0.5}[yanchor] || 0),
t: paddedHeight * ({bottom: 1, middle: 0.5}[yanchor] || 0)
});
}
function autoMarginId(menuOpts) {
return constants.autoMarginIdRoot + menuOpts._index;
}
// set item positions (mutates posOpts)
function setItemPosition(item, menuOpts, posOpts, overrideOpts) {
overrideOpts = overrideOpts || {};
var rect = item.select('.' + constants.itemRectClassName);
var text = item.select('.' + constants.itemTextClassName);
var borderWidth = menuOpts.borderwidth;
var index = posOpts.index;
var dims = menuOpts._dims;
Drawing.setTranslate(item, borderWidth + posOpts.x, borderWidth + posOpts.y);
var isVertical = ['up', 'down'].indexOf(menuOpts.direction) !== -1;
var finalHeight = overrideOpts.height || (isVertical ? dims.heights[index] : dims.height1);
rect.attr({
x: 0,
y: 0,
width: overrideOpts.width || (isVertical ? dims.width1 : dims.widths[index]),
height: finalHeight
});
var tHeight = menuOpts.font.size * LINE_SPACING;
var tLines = svgTextUtils.lineCount(text);
var spanOffset = ((tLines - 1) * tHeight / 2);
svgTextUtils.positionText(text, constants.textOffsetX,
finalHeight / 2 - spanOffset + constants.textOffsetY);
if(isVertical) {
posOpts.y += dims.heights[index] + posOpts.yPad;
} else {
posOpts.x += dims.widths[index] + posOpts.xPad;
}
posOpts.index++;
}
function removeAllButtons(gButton, newMenuIndexAttr) {
gButton
.attr(constants.menuIndexAttrName, newMenuIndexAttr || '-1')
.selectAll('g.' + constants.dropdownButtonClassName).remove();
}
},{"../../constants/alignment":665,"../../lib":693,"../../lib/svg_text_utils":718,"../../plot_api/plot_template":732,"../../plots/plots":805,"../color":567,"../drawing":592,"../legend/anchor_utils":619,"./constants":660,"./scrollbox":664,"d3":147}],663:[function(_dereq_,module,exports){
arguments[4][657][0].apply(exports,arguments)
},{"./attributes":659,"./constants":660,"./defaults":661,"./draw":662,"dup":657}],664:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = ScrollBox;
var d3 = _dereq_('d3');
var Color = _dereq_('../color');
var Drawing = _dereq_('../drawing');
var Lib = _dereq_('../../lib');
/**
* Helper class to setup a scroll box
*
* @class
* @param gd Plotly's graph div
* @param container Container to be scroll-boxed (as a D3 selection)
* @param {string} id Id for the clip path to implement the scroll box
*/
function ScrollBox(gd, container, id) {
this.gd = gd;
this.container = container;
this.id = id;
// See ScrollBox.prototype.enable for further definition
this.position = null; // scrollbox position
this.translateX = null; // scrollbox horizontal translation
this.translateY = null; // scrollbox vertical translation
this.hbar = null; // horizontal scrollbar D3 selection
this.vbar = null; // vertical scrollbar D3 selection
// <rect> element to capture pointer events
this.bg = this.container.selectAll('rect.scrollbox-bg').data([0]);
this.bg.exit()
.on('.drag', null)
.on('wheel', null)
.remove();
this.bg.enter().append('rect')
.classed('scrollbox-bg', true)
.style('pointer-events', 'all')
.attr({
opacity: 0,
x: 0,
y: 0,
width: 0,
height: 0
});
}
// scroll bar dimensions
ScrollBox.barWidth = 2;
ScrollBox.barLength = 20;
ScrollBox.barRadius = 2;
ScrollBox.barPad = 1;
ScrollBox.barColor = '#808BA4';
/**
* If needed, setup a clip path and scrollbars
*
* @method
* @param {Object} position
* @param {number} position.l Left side position (in pixels)
* @param {number} position.t Top side (in pixels)
* @param {number} position.w Width (in pixels)
* @param {number} position.h Height (in pixels)
* @param {string} [position.direction='down']
* Either 'down', 'left', 'right' or 'up'
* @param {number} [translateX=0] Horizontal offset (in pixels)
* @param {number} [translateY=0] Vertical offset (in pixels)
*/
ScrollBox.prototype.enable = function enable(position, translateX, translateY) {
var fullLayout = this.gd._fullLayout,
fullWidth = fullLayout.width,
fullHeight = fullLayout.height;
// compute position of scrollbox
this.position = position;
var l = this.position.l,
w = this.position.w,
t = this.position.t,
h = this.position.h,
direction = this.position.direction,
isDown = (direction === 'down'),
isLeft = (direction === 'left'),
isRight = (direction === 'right'),
isUp = (direction === 'up'),
boxW = w,
boxH = h,
boxL, boxR,
boxT, boxB;
if(!isDown && !isLeft && !isRight && !isUp) {
this.position.direction = 'down';
isDown = true;
}
var isVertical = isDown || isUp;
if(isVertical) {
boxL = l;
boxR = boxL + boxW;
if(isDown) {
// anchor to top side
boxT = t;
boxB = Math.min(boxT + boxH, fullHeight);
boxH = boxB - boxT;
}
else {
// anchor to bottom side
boxB = t + boxH;
boxT = Math.max(boxB - boxH, 0);
boxH = boxB - boxT;
}
}
else {
boxT = t;
boxB = boxT + boxH;
if(isLeft) {
// anchor to right side
boxR = l + boxW;
boxL = Math.max(boxR - boxW, 0);
boxW = boxR - boxL;
}
else {
// anchor to left side
boxL = l;
boxR = Math.min(boxL + boxW, fullWidth);
boxW = boxR - boxL;
}
}
this._box = {
l: boxL,
t: boxT,
w: boxW,
h: boxH
};
// compute position of horizontal scroll bar
var needsHorizontalScrollBar = (w > boxW),
hbarW = ScrollBox.barLength + 2 * ScrollBox.barPad,
hbarH = ScrollBox.barWidth + 2 * ScrollBox.barPad,
// draw horizontal scrollbar on the bottom side
hbarL = l,
hbarT = t + h;
if(hbarT + hbarH > fullHeight) hbarT = fullHeight - hbarH;
var hbar = this.container.selectAll('rect.scrollbar-horizontal').data(
(needsHorizontalScrollBar) ? [0] : []);
hbar.exit()
.on('.drag', null)
.remove();
hbar.enter().append('rect')
.classed('scrollbar-horizontal', true)
.call(Color.fill, ScrollBox.barColor);
if(needsHorizontalScrollBar) {
this.hbar = hbar.attr({
'rx': ScrollBox.barRadius,
'ry': ScrollBox.barRadius,
'x': hbarL,
'y': hbarT,
'width': hbarW,
'height': hbarH
});
// hbar center moves between hbarXMin and hbarXMin + hbarTranslateMax
this._hbarXMin = hbarL + hbarW / 2;
this._hbarTranslateMax = boxW - hbarW;
}
else {
delete this.hbar;
delete this._hbarXMin;
delete this._hbarTranslateMax;
}
// compute position of vertical scroll bar
var needsVerticalScrollBar = (h > boxH),
vbarW = ScrollBox.barWidth + 2 * ScrollBox.barPad,
vbarH = ScrollBox.barLength + 2 * ScrollBox.barPad,
// draw vertical scrollbar on the right side
vbarL = l + w,
vbarT = t;
if(vbarL + vbarW > fullWidth) vbarL = fullWidth - vbarW;
var vbar = this.container.selectAll('rect.scrollbar-vertical').data(
(needsVerticalScrollBar) ? [0] : []);
vbar.exit()
.on('.drag', null)
.remove();
vbar.enter().append('rect')
.classed('scrollbar-vertical', true)
.call(Color.fill, ScrollBox.barColor);
if(needsVerticalScrollBar) {
this.vbar = vbar.attr({
'rx': ScrollBox.barRadius,
'ry': ScrollBox.barRadius,
'x': vbarL,
'y': vbarT,
'width': vbarW,
'height': vbarH
});
// vbar center moves between vbarYMin and vbarYMin + vbarTranslateMax
this._vbarYMin = vbarT + vbarH / 2;
this._vbarTranslateMax = boxH - vbarH;
}
else {
delete this.vbar;
delete this._vbarYMin;
delete this._vbarTranslateMax;
}
// setup a clip path (if scroll bars are needed)
var clipId = this.id,
clipL = boxL - 0.5,
clipR = (needsVerticalScrollBar) ? boxR + vbarW + 0.5 : boxR + 0.5,
clipT = boxT - 0.5,
clipB = (needsHorizontalScrollBar) ? boxB + hbarH + 0.5 : boxB + 0.5;
var clipPath = fullLayout._topdefs.selectAll('#' + clipId)
.data((needsHorizontalScrollBar || needsVerticalScrollBar) ? [0] : []);
clipPath.exit().remove();
clipPath.enter()
.append('clipPath').attr('id', clipId)
.append('rect');
if(needsHorizontalScrollBar || needsVerticalScrollBar) {
this._clipRect = clipPath.select('rect').attr({
x: Math.floor(clipL),
y: Math.floor(clipT),
width: Math.ceil(clipR) - Math.floor(clipL),
height: Math.ceil(clipB) - Math.floor(clipT)
});
this.container.call(Drawing.setClipUrl, clipId);
this.bg.attr({
x: l,
y: t,
width: w,
height: h
});
}
else {
this.bg.attr({
width: 0,
height: 0
});
this.container
.on('wheel', null)
.on('.drag', null)
.call(Drawing.setClipUrl, null);
delete this._clipRect;
}
// set up drag listeners (if scroll bars are needed)
if(needsHorizontalScrollBar || needsVerticalScrollBar) {
var onBoxDrag = d3.behavior.drag()
.on('dragstart', function() {
d3.event.sourceEvent.preventDefault();
})
.on('drag', this._onBoxDrag.bind(this));
this.container
.on('wheel', null)
.on('wheel', this._onBoxWheel.bind(this))
.on('.drag', null)
.call(onBoxDrag);
var onBarDrag = d3.behavior.drag()
.on('dragstart', function() {
d3.event.sourceEvent.preventDefault();
d3.event.sourceEvent.stopPropagation();
})
.on('drag', this._onBarDrag.bind(this));
if(needsHorizontalScrollBar) {
this.hbar
.on('.drag', null)
.call(onBarDrag);
}
if(needsVerticalScrollBar) {
this.vbar
.on('.drag', null)
.call(onBarDrag);
}
}
// set scrollbox translation
this.setTranslate(translateX, translateY);
};
/**
* If present, remove clip-path and scrollbars
*
* @method
*/
ScrollBox.prototype.disable = function disable() {
if(this.hbar || this.vbar) {
this.bg.attr({
width: 0,
height: 0
});
this.container
.on('wheel', null)
.on('.drag', null)
.call(Drawing.setClipUrl, null);
delete this._clipRect;
}
if(this.hbar) {
this.hbar.on('.drag', null);
this.hbar.remove();
delete this.hbar;
delete this._hbarXMin;
delete this._hbarTranslateMax;
}
if(this.vbar) {
this.vbar.on('.drag', null);
this.vbar.remove();
delete this.vbar;
delete this._vbarYMin;
delete this._vbarTranslateMax;
}
};
/**
* Handles scroll box drag events
*
* @method
*/
ScrollBox.prototype._onBoxDrag = function onBarDrag() {
var translateX = this.translateX,
translateY = this.translateY;
if(this.hbar) {
translateX -= d3.event.dx;
}
if(this.vbar) {
translateY -= d3.event.dy;
}
this.setTranslate(translateX, translateY);
};
/**
* Handles scroll box wheel events
*
* @method
*/
ScrollBox.prototype._onBoxWheel = function onBarWheel() {
var translateX = this.translateX,
translateY = this.translateY;
if(this.hbar) {
translateX += d3.event.deltaY;
}
if(this.vbar) {
translateY += d3.event.deltaY;
}
this.setTranslate(translateX, translateY);
};
/**
* Handles scroll bar drag events
*
* @method
*/
ScrollBox.prototype._onBarDrag = function onBarDrag() {
var translateX = this.translateX,
translateY = this.translateY;
if(this.hbar) {
var xMin = translateX + this._hbarXMin,
xMax = xMin + this._hbarTranslateMax,
x = Lib.constrain(d3.event.x, xMin, xMax),
xf = (x - xMin) / (xMax - xMin);
var translateXMax = this.position.w - this._box.w;
translateX = xf * translateXMax;
}
if(this.vbar) {
var yMin = translateY + this._vbarYMin,
yMax = yMin + this._vbarTranslateMax,
y = Lib.constrain(d3.event.y, yMin, yMax),
yf = (y - yMin) / (yMax - yMin);
var translateYMax = this.position.h - this._box.h;
translateY = yf * translateYMax;
}
this.setTranslate(translateX, translateY);
};
/**
* Set clip path and scroll bar translate transform
*
* @method
* @param {number} [translateX=0] Horizontal offset (in pixels)
* @param {number} [translateY=0] Vertical offset (in pixels)
*/
ScrollBox.prototype.setTranslate = function setTranslate(translateX, translateY) {
// store translateX and translateY (needed by mouse event handlers)
var translateXMax = this.position.w - this._box.w,
translateYMax = this.position.h - this._box.h;
translateX = Lib.constrain(translateX || 0, 0, translateXMax);
translateY = Lib.constrain(translateY || 0, 0, translateYMax);
this.translateX = translateX;
this.translateY = translateY;
this.container.call(Drawing.setTranslate,
this._box.l - this.position.l - translateX,
this._box.t - this.position.t - translateY);
if(this._clipRect) {
this._clipRect.attr({
x: Math.floor(this.position.l + translateX - 0.5),
y: Math.floor(this.position.t + translateY - 0.5)
});
}
if(this.hbar) {
var xf = translateX / translateXMax;
this.hbar.call(Drawing.setTranslate,
translateX + xf * this._hbarTranslateMax,
translateY);
}
if(this.vbar) {
var yf = translateY / translateYMax;
this.vbar.call(Drawing.setTranslate,
translateX,
translateY + yf * this._vbarTranslateMax);
}
};
},{"../../lib":693,"../color":567,"../drawing":592,"d3":147}],665:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
// fraction of some size to get to a named position
module.exports = {
// from bottom left: this is the origin of our paper-reference
// positioning system
FROM_BL: {
left: 0,
center: 0.5,
right: 1,
bottom: 0,
middle: 0.5,
top: 1
},
// from top left: this is the screen pixel positioning origin
FROM_TL: {
left: 0,
center: 0.5,
right: 1,
bottom: 1,
middle: 0.5,
top: 0
},
// from bottom right: sometimes you just need the opposite of ^^
FROM_BR: {
left: 1,
center: 0.5,
right: 0,
bottom: 0,
middle: 0.5,
top: 1
},
// multiple of fontSize to get the vertical offset between lines
LINE_SPACING: 1.3,
// multiple of fontSize to shift from the baseline to the midline
// (to use when we don't calculate this shift from Drawing.bBox)
// To be precise this should be half the cap height (capital letter)
// of the font, and according to wikipedia:
// an "average" font might have a cap height of 70% of the em
// https://en.wikipedia.org/wiki/Em_(typography)#History
MID_SHIFT: 0.35,
OPPOSITE_SIDE: {
left: 'right',
right: 'left',
top: 'bottom',
bottom: 'top'
}
};
},{}],666:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
COMPARISON_OPS: ['=', '!=', '<', '>=', '>', '<='],
COMPARISON_OPS2: ['=', '<', '>=', '>', '<='],
INTERVAL_OPS: ['[]', '()', '[)', '(]', '][', ')(', '](', ')['],
SET_OPS: ['{}', '}{'],
CONSTRAINT_REDUCTION: {
// for contour constraints, open/closed endpoints are equivalent
'=': '=',
'<': '<',
'<=': '<',
'>': '>',
'>=': '>',
'[]': '[]',
'()': '[]',
'[)': '[]',
'(]': '[]',
'][': '][',
')(': '][',
'](': '][',
')[': ']['
}
};
},{}],667:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
solid: [[], 0],
dot: [[0.5, 1], 200],
dash: [[0.5, 1], 50],
longdash: [[0.5, 1], 10],
dashdot: [[0.5, 0.625, 0.875, 1], 50],
longdashdot: [[0.5, 0.7, 0.8, 1], 10]
};
},{}],668:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
circle: '●',
'circle-open': '○',
square: '■',
'square-open': '□',
diamond: '◆',
'diamond-open': '◇',
cross: '+',
x: '❌'
};
},{}],669:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
/**
* Timing information for interactive elements
*/
SHOW_PLACEHOLDER: 100,
HIDE_PLACEHOLDER: 1000,
// ms between first mousedown and 2nd mouseup to constitute dblclick...
// we don't seem to have access to the system setting
DBLCLICKDELAY: 300,
// opacity dimming fraction for points that are not in selection
DESELECTDIM: 0.2
};
},{}],670:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
/**
* Standardize all missing data in calcdata to use undefined
* never null or NaN.
* That way we can use !==undefined, or !== BADNUM,
* to test for real data
*/
BADNUM: undefined,
/*
* Limit certain operations to well below floating point max value
* to avoid glitches: Make sure that even when you multiply it by the
* number of pixels on a giant screen it still works
*/
FP_SAFE: Number.MAX_VALUE / 10000,
/*
* conversion of date units to milliseconds
* year and month constants are marked "AVG"
* to remind us that not all years and months
* have the same length
*/
ONEAVGYEAR: 31557600000, // 365.25 days
ONEAVGMONTH: 2629800000, // 1/12 of ONEAVGYEAR
ONEDAY: 86400000,
ONEHOUR: 3600000,
ONEMIN: 60000,
ONESEC: 1000,
/*
* For fast conversion btwn world calendars and epoch ms, the Julian Day Number
* of the unix epoch. From calendars.instance().newDate(1970, 1, 1).toJD()
*/
EPOCHJD: 2440587.5,
/*
* Are two values nearly equal? Compare to 1PPM
*/
ALMOST_EQUAL: 1 - 1e-6,
/*
* If we're asked to clip a non-positive log value, how far off-screen
* do we put it?
*/
LOG_CLIP: 10,
/*
* not a number, but for displaying numbers: the "minus sign" symbol is
* wider than the regular ascii dash "-"
*/
MINUS_SIGN: '\u2212'
};
},{}],671:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
exports.xmlns = 'http://www.w3.org/2000/xmlns/';
exports.svg = 'http://www.w3.org/2000/svg';
exports.xlink = 'http://www.w3.org/1999/xlink';
// the 'old' d3 quirk got fix in v3.5.7
// https://github.com/mbostock/d3/commit/a6f66e9dd37f764403fc7c1f26be09ab4af24fed
exports.svgAttrs = {
xmlns: exports.svg,
'xmlns:xlink': exports.xlink
};
},{}],672:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
// package version injected by `npm run preprocess`
exports.version = '1.41.3';
// inject promise polyfill
_dereq_('es6-promise').polyfill();
// inject plot css
_dereq_('../build/plotcss');
// inject default MathJax config
_dereq_('./fonts/mathjax_config');
// include registry module and expose register method
var Registry = _dereq_('./registry');
var register = exports.register = Registry.register;
// expose plot api methods
var plotApi = _dereq_('./plot_api');
var methodNames = Object.keys(plotApi);
for(var i = 0; i < methodNames.length; i++) {
var name = methodNames[i];
exports[name] = plotApi[name];
register({
moduleType: 'apiMethod',
name: name,
fn: plotApi[name]
});
}
// scatter is the only trace included by default
register(_dereq_('./traces/scatter'));
// register all registrable components modules
register([
_dereq_('./components/fx'),
_dereq_('./components/legend'),
_dereq_('./components/annotations'),
_dereq_('./components/annotations3d'),
_dereq_('./components/shapes'),
_dereq_('./components/images'),
_dereq_('./components/updatemenus'),
_dereq_('./components/sliders'),
_dereq_('./components/rangeslider'),
_dereq_('./components/rangeselector'),
_dereq_('./components/grid'),
_dereq_('./components/errorbars')
]);
// locales en and en-US are required for default behavior
register([
_dereq_('./locale-en'),
_dereq_('./locale-en-us')
]);
// plot icons
exports.Icons = _dereq_('../build/ploticon');
// unofficial 'beta' plot methods, use at your own risk
exports.Plots = _dereq_('./plots/plots');
exports.Fx = _dereq_('./components/fx');
exports.Snapshot = _dereq_('./snapshot');
exports.PlotSchema = _dereq_('./plot_api/plot_schema');
exports.Queue = _dereq_('./lib/queue');
// export d3 used in the bundle
exports.d3 = _dereq_('d3');
},{"../build/plotcss":1,"../build/ploticon":2,"./components/annotations":558,"./components/annotations3d":563,"./components/errorbars":598,"./components/fx":609,"./components/grid":613,"./components/images":618,"./components/legend":627,"./components/rangeselector":638,"./components/rangeslider":644,"./components/shapes":652,"./components/sliders":657,"./components/updatemenus":663,"./fonts/mathjax_config":673,"./lib/queue":709,"./locale-en":723,"./locale-en-us":722,"./plot_api":727,"./plot_api/plot_schema":731,"./plots/plots":805,"./registry":825,"./snapshot":830,"./traces/scatter":1044,"d3":147,"es6-promise":202}],673:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/* global MathJax:false */
/**
* Check and configure MathJax
*/
if(typeof MathJax !== 'undefined') {
exports.MathJax = true;
MathJax.Hub.Config({
messageStyle: 'none',
skipStartupTypeset: true,
displayAlign: 'left',
tex2jax: {
inlineMath: [['$', '$'], ['\\(', '\\)']]
}
});
MathJax.Hub.Configured();
} else {
exports.MathJax = false;
}
},{}],674:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var modModule = _dereq_('./mod');
var mod = modModule.mod;
var modHalf = modModule.modHalf;
var PI = Math.PI;
var twoPI = 2 * PI;
function deg2rad(deg) { return deg / 180 * PI; }
function rad2deg(rad) { return rad / PI * 180; }
/**
* is sector a full circle?
* ... this comes up a lot in SVG path-drawing routines
*
* N.B. we consider all sectors that span more that 2pi 'full' circles
*
* @param {2-item array} aBnds : angular bounds in *radians*
* @return {boolean}
*/
function isFullCircle(aBnds) {
return Math.abs(aBnds[1] - aBnds[0]) > twoPI - 1e-15;
}
/**
* angular delta between angle 'a' and 'b'
* solution taken from: https://stackoverflow.com/a/2007279
*
* @param {number} a : first angle in *radians*
* @param {number} b : second angle in *radians*
* @return {number} angular delta in *radians*
*/
function angleDelta(a, b) {
return modHalf(b - a, twoPI);
}
/**
* angular distance between angle 'a' and 'b'
*
* @param {number} a : first angle in *radians*
* @param {number} b : second angle in *radians*
* @return {number} angular distance in *radians*
*/
function angleDist(a, b) {
return Math.abs(angleDelta(a, b));
}
/**
* is angle inside sector?
*
* @param {number} a : angle to test in *radians*
* @param {2-item array} aBnds : sector's angular bounds in *radians*
* @param {boolean}
*/
function isAngleInsideSector(a, aBnds) {
if(isFullCircle(aBnds)) return true;
var s0, s1;
if(aBnds[0] < aBnds[1]) {
s0 = aBnds[0];
s1 = aBnds[1];
} else {
s0 = aBnds[1];
s1 = aBnds[0];
}
s0 = mod(s0, twoPI);
s1 = mod(s1, twoPI);
if(s0 > s1) s1 += twoPI;
var a0 = mod(a, twoPI);
var a1 = a0 + twoPI;
return (a0 >= s0 && a0 <= s1) || (a1 >= s0 && a1 <= s1);
}
/**
* is pt (r,a) inside sector?
*
* @param {number} r : pt's radial coordinate
* @param {number} a : pt's angular coordinate in *radians*
* @param {2-item array} rBnds : sector's radial bounds
* @param {2-item array} aBnds : sector's angular bounds in *radians*
* @return {boolean}
*/
function isPtInsideSector(r, a, rBnds, aBnds) {
if(!isAngleInsideSector(a, aBnds)) return false;
var r0, r1;
if(rBnds[0] < rBnds[1]) {
r0 = rBnds[0];
r1 = rBnds[1];
} else {
r0 = rBnds[1];
r1 = rBnds[0];
}
return r >= r0 && r <= r1;
}
// common to pathArc, pathSector and pathAnnulus
function _path(r0, r1, a0, a1, cx, cy, isClosed) {
cx = cx || 0;
cy = cy || 0;
var isCircle = isFullCircle([a0, a1]);
var aStart, aMid, aEnd;
var rStart, rEnd;
if(isCircle) {
aStart = 0;
aMid = PI;
aEnd = twoPI;
} else {
if(a0 < a1) {
aStart = a0;
aEnd = a1;
} else {
aStart = a1;
aEnd = a0;
}
}
if(r0 < r1) {
rStart = r0;
rEnd = r1;
} else {
rStart = r1;
rEnd = r0;
}
// N.B. svg coordinates here, where y increases downward
function pt(r, a) {
return [r * Math.cos(a) + cx, cy - r * Math.sin(a)];
}
var largeArc = Math.abs(aEnd - aStart) <= PI ? 0 : 1;
function arc(r, a, cw) {
return 'A' + [r, r] + ' ' + [0, largeArc, cw] + ' ' + pt(r, a);
}
var p;
if(isCircle) {
if(rStart === null) {
p = 'M' + pt(rEnd, aStart) +
arc(rEnd, aMid, 0) +
arc(rEnd, aEnd, 0) + 'Z';
} else {
p = 'M' + pt(rStart, aStart) +
arc(rStart, aMid, 0) +
arc(rStart, aEnd, 0) + 'Z' +
'M' + pt(rEnd, aStart) +
arc(rEnd, aMid, 1) +
arc(rEnd, aEnd, 1) + 'Z';
}
} else {
if(rStart === null) {
p = 'M' + pt(rEnd, aStart) + arc(rEnd, aEnd, 0);
if(isClosed) p += 'L0,0Z';
} else {
p = 'M' + pt(rStart, aStart) +
'L' + pt(rEnd, aStart) +
arc(rEnd, aEnd, 0) +
'L' + pt(rStart, aEnd) +
arc(rStart, aStart, 1) + 'Z';
}
}
return p;
}
/**
* path an arc
*
* @param {number} r : radius
* @param {number} a0 : first angular coordinate in *radians*
* @param {number} a1 : second angular coordinate in *radians*
* @param {number (optional)} cx : x coordinate of center
* @param {number (optional)} cy : y coordinate of center
* @return {string} svg path
*/
function pathArc(r, a0, a1, cx, cy) {
return _path(null, r, a0, a1, cx, cy, 0);
}
/**
* path a sector
*
* @param {number} r : radius
* @param {number} a0 : first angular coordinate in *radians*
* @param {number} a1 : second angular coordinate in *radians*
* @param {number (optional)} cx : x coordinate of center
* @param {number (optional)} cy : y coordinate of center
* @return {string} svg path
*/
function pathSector(r, a0, a1, cx, cy) {
return _path(null, r, a0, a1, cx, cy, 1);
}
/**
* path an annulus
*
* @param {number} r0 : first radial coordinate
* @param {number} r1 : second radial coordinate
* @param {number} a0 : first angular coordinate in *radians*
* @param {number} a1 : second angular coordinate in *radians*
* @param {number (optional)} cx : x coordinate of center
* @param {number (optional)} cy : y coordinate of center
* @return {string} svg path
*/
function pathAnnulus(r0, r1, a0, a1, cx, cy) {
return _path(r0, r1, a0, a1, cx, cy, 1);
}
module.exports = {
deg2rad: deg2rad,
rad2deg: rad2deg,
angleDelta: angleDelta,
angleDist: angleDist,
isFullCircle: isFullCircle,
isAngleInsideSector: isAngleInsideSector,
isPtInsideSector: isPtInsideSector,
pathArc: pathArc,
pathSector: pathSector,
pathAnnulus: pathAnnulus
};
},{"./mod":701}],675:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var BADNUM = _dereq_('../constants/numerical').BADNUM;
// precompile for speed
var JUNK = /^['"%,$#\s']+|[, ]|['"%,$#\s']+$/g;
/**
* cleanNumber: remove common leading and trailing cruft
* Always returns either a number or BADNUM.
*/
module.exports = function cleanNumber(v) {
if(typeof v === 'string') {
v = v.replace(JUNK, '');
}
if(isNumeric(v)) return Number(v);
return BADNUM;
};
},{"../constants/numerical":670,"fast-isnumeric":213}],676:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/**
* Clear gl frame (if any). This is a common pattern as
* we usually set `preserveDrawingBuffer: true` during
* gl context creation (e.g. via `reglUtils.prepare`).
*
* @param {DOM node or object} gd : graph div object
*/
module.exports = function clearGlCanvases(gd) {
var fullLayout = gd._fullLayout;
if(fullLayout._glcanvas && fullLayout._glcanvas.size()) {
fullLayout._glcanvas.each(function(d) {
if(d.regl) d.regl.clear({color: true, depth: true});
});
}
};
},{}],677:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/**
* Clear responsive handlers (if any).
*
* @param {DOM node or object} gd : graph div object
*/
module.exports = function clearResponsive(gd) {
if(gd._responsiveChartHandler) {
window.removeEventListener('resize', gd._responsiveChartHandler);
delete gd._responsiveChartHandler;
}
};
},{}],678:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var tinycolor = _dereq_('tinycolor2');
var baseTraceAttrs = _dereq_('../plots/attributes');
var getColorscale = _dereq_('../components/colorscale/get_scale');
var colorscaleNames = Object.keys(_dereq_('../components/colorscale/scales'));
var nestedProperty = _dereq_('./nested_property');
var counterRegex = _dereq_('./regex').counter;
var DESELECTDIM = _dereq_('../constants/interactions').DESELECTDIM;
var modHalf = _dereq_('./mod').modHalf;
var isArrayOrTypedArray = _dereq_('./is_array').isArrayOrTypedArray;
exports.valObjectMeta = {
data_array: {
// You can use *dflt=[] to force said array to exist though.
coerceFunction: function(v, propOut, dflt) {
// TODO maybe `v: {type: 'float32', vals: [/* ... */]}` also
if(isArrayOrTypedArray(v)) propOut.set(v);
else if(dflt !== undefined) propOut.set(dflt);
}
},
enumerated: {
coerceFunction: function(v, propOut, dflt, opts) {
if(opts.coerceNumber) v = +v;
if(opts.values.indexOf(v) === -1) propOut.set(dflt);
else propOut.set(v);
},
validateFunction: function(v, opts) {
if(opts.coerceNumber) v = +v;
var values = opts.values;
for(var i = 0; i < values.length; i++) {
var k = String(values[i]);
if((k.charAt(0) === '/' && k.charAt(k.length - 1) === '/')) {
var regex = new RegExp(k.substr(1, k.length - 2));
if(regex.test(v)) return true;
} else if(v === values[i]) return true;
}
return false;
}
},
'boolean': {
coerceFunction: function(v, propOut, dflt) {
if(v === true || v === false) propOut.set(v);
else propOut.set(dflt);
}
},
number: {
coerceFunction: function(v, propOut, dflt, opts) {
if(!isNumeric(v) ||
(opts.min !== undefined && v < opts.min) ||
(opts.max !== undefined && v > opts.max)) {
propOut.set(dflt);
}
else propOut.set(+v);
}
},
integer: {
coerceFunction: function(v, propOut, dflt, opts) {
if(v % 1 || !isNumeric(v) ||
(opts.min !== undefined && v < opts.min) ||
(opts.max !== undefined && v > opts.max)) {
propOut.set(dflt);
}
else propOut.set(+v);
}
},
string: {
// TODO 'values shouldn't be in there (edge case: 'dash' in Scatter)
coerceFunction: function(v, propOut, dflt, opts) {
if(typeof v !== 'string') {
var okToCoerce = (typeof v === 'number');
if(opts.strict === true || !okToCoerce) propOut.set(dflt);
else propOut.set(String(v));
}
else if(opts.noBlank && !v) propOut.set(dflt);
else propOut.set(v);
}
},
color: {
coerceFunction: function(v, propOut, dflt) {
if(tinycolor(v).isValid()) propOut.set(v);
else propOut.set(dflt);
}
},
colorlist: {
coerceFunction: function(v, propOut, dflt) {
function isColor(color) {
return tinycolor(color).isValid();
}
if(!Array.isArray(v) || !v.length) propOut.set(dflt);
else if(v.every(isColor)) propOut.set(v);
else propOut.set(dflt);
}
},
colorscale: {
coerceFunction: function(v, propOut, dflt) {
propOut.set(getColorscale(v, dflt));
}
},
angle: {
coerceFunction: function(v, propOut, dflt) {
if(v === 'auto') propOut.set('auto');
else if(!isNumeric(v)) propOut.set(dflt);
else propOut.set(modHalf(+v, 360));
}
},
subplotid: {
coerceFunction: function(v, propOut, dflt, opts) {
var regex = opts.regex || counterRegex(dflt);
if(typeof v === 'string' && regex.test(v)) {
propOut.set(v);
return;
}
propOut.set(dflt);
},
validateFunction: function(v, opts) {
var dflt = opts.dflt;
if(v === dflt) return true;
if(typeof v !== 'string') return false;
if(counterRegex(dflt).test(v)) return true;
return false;
}
},
flaglist: {
coerceFunction: function(v, propOut, dflt, opts) {
if(typeof v !== 'string') {
propOut.set(dflt);
return;
}
if((opts.extras || []).indexOf(v) !== -1) {
propOut.set(v);
return;
}
var vParts = v.split('+'),
i = 0;
while(i < vParts.length) {
var vi = vParts[i];
if(opts.flags.indexOf(vi) === -1 || vParts.indexOf(vi) < i) {
vParts.splice(i, 1);
}
else i++;
}
if(!vParts.length) propOut.set(dflt);
else propOut.set(vParts.join('+'));
}
},
any: {
coerceFunction: function(v, propOut, dflt) {
if(v === undefined) propOut.set(dflt);
else propOut.set(v);
}
},
info_array: {
// set `dimensions=2` for a 2D array or '1-2' for either
// `items` may be a single object instead of an array, in which case
// `freeLength` must be true.
// if `dimensions='1-2'` and items is a 1D array, then the value can
// either be a matching 1D array or an array of such matching 1D arrays
coerceFunction: function(v, propOut, dflt, opts) {
// simplified coerce function just for array items
function coercePart(v, opts, dflt) {
var out;
var propPart = {set: function(v) { out = v; }};
if(dflt === undefined) dflt = opts.dflt;
exports.valObjectMeta[opts.valType].coerceFunction(v, propPart, dflt, opts);
return out;
}
var twoD = opts.dimensions === 2 || (opts.dimensions === '1-2' && Array.isArray(v) && Array.isArray(v[0]));
if(!Array.isArray(v)) {
propOut.set(dflt);
return;
}
var items = opts.items;
var vOut = [];
var arrayItems = Array.isArray(items);
var arrayItems2D = arrayItems && twoD && Array.isArray(items[0]);
var innerItemsOnly = twoD && arrayItems && !arrayItems2D;
var len = (arrayItems && !innerItemsOnly) ? items.length : v.length;
var i, j, row, item, len2, vNew;
dflt = Array.isArray(dflt) ? dflt : [];
if(twoD) {
for(i = 0; i < len; i++) {
vOut[i] = [];
row = Array.isArray(v[i]) ? v[i] : [];
if(innerItemsOnly) len2 = items.length;
else if(arrayItems) len2 = items[i].length;
else len2 = row.length;
for(j = 0; j < len2; j++) {
if(innerItemsOnly) item = items[j];
else if(arrayItems) item = items[i][j];
else item = items;
vNew = coercePart(row[j], item, (dflt[i] || [])[j]);
if(vNew !== undefined) vOut[i][j] = vNew;
}
}
}
else {
for(i = 0; i < len; i++) {
vNew = coercePart(v[i], arrayItems ? items[i] : items, dflt[i]);
if(vNew !== undefined) vOut[i] = vNew;
}
}
propOut.set(vOut);
},
validateFunction: function(v, opts) {
if(!Array.isArray(v)) return false;
var items = opts.items;
var arrayItems = Array.isArray(items);
var twoD = opts.dimensions === 2;
// when free length is off, input and declared lengths must match
if(!opts.freeLength && v.length !== items.length) return false;
// valid when all input items are valid
for(var i = 0; i < v.length; i++) {
if(twoD) {
if(!Array.isArray(v[i]) || (!opts.freeLength && v[i].length !== items[i].length)) {
return false;
}
for(var j = 0; j < v[i].length; j++) {
if(!validate(v[i][j], arrayItems ? items[i][j] : items)) {
return false;
}
}
}
else if(!validate(v[i], arrayItems ? items[i] : items)) return false;
}
return true;
}
}
};
/**
* Ensures that container[attribute] has a valid value.
*
* attributes[attribute] is an object with possible keys:
* - valType: data_array, enumerated, boolean, ... as in valObjectMeta
* - values: (enumerated only) array of allowed vals
* - min, max: (number, integer only) inclusive bounds on allowed vals
* either or both may be omitted
* - dflt: if attribute is invalid or missing, use this default
* if dflt is provided as an argument to lib.coerce it takes precedence
* as a convenience, returns the value it finally set
*/
exports.coerce = function(containerIn, containerOut, attributes, attribute, dflt) {
var opts = nestedProperty(attributes, attribute).get();
var propIn = nestedProperty(containerIn, attribute);
var propOut = nestedProperty(containerOut, attribute);
var v = propIn.get();
var template = containerOut._template;
if(v === undefined && template) {
v = nestedProperty(template, attribute).get();
// already used the template value, so short-circuit the second check
template = 0;
}
if(dflt === undefined) dflt = opts.dflt;
/**
* arrayOk: value MAY be an array, then we do no value checking
* at this point, because it can be more complicated than the
* individual form (eg. some array vals can be numbers, even if the
* single values must be color strings)
*/
if(opts.arrayOk && isArrayOrTypedArray(v)) {
propOut.set(v);
return v;
}
var coerceFunction = exports.valObjectMeta[opts.valType].coerceFunction;
coerceFunction(v, propOut, dflt, opts);
var out = propOut.get();
// in case v was provided but invalid, try the template again so it still
// overrides the regular default
if(template && out === dflt && !validate(v, opts)) {
v = nestedProperty(template, attribute).get();
coerceFunction(v, propOut, dflt, opts);
out = propOut.get();
}
return out;
};
/**
* Variation on coerce
*
* Uses coerce to get attribute value if user input is valid,
* returns attribute default if user input it not valid or
* returns false if there is no user input.
*/
exports.coerce2 = function(containerIn, containerOut, attributes, attribute, dflt) {
var propIn = nestedProperty(containerIn, attribute),
propOut = exports.coerce(containerIn, containerOut, attributes, attribute, dflt),
valIn = propIn.get();
return (valIn !== undefined && valIn !== null) ? propOut : false;
};
/*
* Shortcut to coerce the three font attributes
*
* 'coerce' is a lib.coerce wrapper with implied first three arguments
*/
exports.coerceFont = function(coerce, attr, dfltObj) {
var out = {};
dfltObj = dfltObj || {};
out.family = coerce(attr + '.family', dfltObj.family);
out.size = coerce(attr + '.size', dfltObj.size);
out.color = coerce(attr + '.color', dfltObj.color);
return out;
};
/** Coerce shortcut for 'hoverinfo'
* handling 1-vs-multi-trace dflt logic
*
* @param {object} traceIn : user trace object
* @param {object} traceOut : full trace object (requires _module ref)
* @param {object} layoutOut : full layout object (require _dataLength ref)
* @return {any} : the coerced value
*/
exports.coerceHoverinfo = function(traceIn, traceOut, layoutOut) {
var moduleAttrs = traceOut._module.attributes;
var attrs = moduleAttrs.hoverinfo ? moduleAttrs : baseTraceAttrs;
var valObj = attrs.hoverinfo;
var dflt;
if(layoutOut._dataLength === 1) {
var flags = valObj.dflt === 'all' ?
valObj.flags.slice() :
valObj.dflt.split('+');
flags.splice(flags.indexOf('name'), 1);
dflt = flags.join('+');
}
return exports.coerce(traceIn, traceOut, attrs, 'hoverinfo', dflt);
};
/** Coerce shortcut for [un]selected.marker.opacity,
* which has special default logic, to ensure that it corresponds to the
* default selection behavior while allowing to be overtaken by any other
* [un]selected attribute.
*
* N.B. This must be called *after* coercing all the other [un]selected attrs,
* to give the intended result.
*
* @param {object} traceOut : fullData item
* @param {function} coerce : lib.coerce wrapper with implied first three arguments
*/
exports.coerceSelectionMarkerOpacity = function(traceOut, coerce) {
if(!traceOut.marker) return;
var mo = traceOut.marker.opacity;
// you can still have a `marker` container with no markers if there's text
if(mo === undefined) return;
var smoDflt;
var usmoDflt;
// Don't give [un]selected.marker.opacity a default value if
// marker.opacity is an array: handle this during style step.
//
// Only give [un]selected.marker.opacity a default value if you don't
// set any other [un]selected attributes.
if(!isArrayOrTypedArray(mo) && !traceOut.selected && !traceOut.unselected) {
smoDflt = mo;
usmoDflt = DESELECTDIM * mo;
}
coerce('selected.marker.opacity', smoDflt);
coerce('unselected.marker.opacity', usmoDflt);
};
function validate(value, opts) {
var valObjectDef = exports.valObjectMeta[opts.valType];
if(opts.arrayOk && isArrayOrTypedArray(value)) return true;
if(valObjectDef.validateFunction) {
return valObjectDef.validateFunction(value, opts);
}
var failed = {},
out = failed,
propMock = { set: function(v) { out = v; } };
// 'failed' just something mutable that won't be === anything else
valObjectDef.coerceFunction(value, propMock, failed, opts);
return out !== failed;
}
exports.validate = validate;
},{"../components/colorscale/get_scale":580,"../components/colorscale/scales":586,"../constants/interactions":669,"../plots/attributes":739,"./is_array":694,"./mod":701,"./nested_property":702,"./regex":710,"fast-isnumeric":213,"tinycolor2":511}],679:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var isNumeric = _dereq_('fast-isnumeric');
var Loggers = _dereq_('./loggers');
var mod = _dereq_('./mod').mod;
var constants = _dereq_('../constants/numerical');
var BADNUM = constants.BADNUM;
var ONEDAY = constants.ONEDAY;
var ONEHOUR = constants.ONEHOUR;
var ONEMIN = constants.ONEMIN;
var ONESEC = constants.ONESEC;
var EPOCHJD = constants.EPOCHJD;
var Registry = _dereq_('../registry');
var utcFormat = d3.time.format.utc;
var DATETIME_REGEXP = /^\s*(-?\d\d\d\d|\d\d)(-(\d?\d)(-(\d?\d)([ Tt]([01]?\d|2[0-3])(:([0-5]\d)(:([0-5]\d(\.\d+)?))?(Z|z|[+\-]\d\d:?\d\d)?)?)?)?)?\s*$/m;
// special regex for chinese calendars to support yyyy-mmi-dd etc for intercalary months
var DATETIME_REGEXP_CN = /^\s*(-?\d\d\d\d|\d\d)(-(\d?\di?)(-(\d?\d)([ Tt]([01]?\d|2[0-3])(:([0-5]\d)(:([0-5]\d(\.\d+)?))?(Z|z|[+\-]\d\d:?\d\d)?)?)?)?)?\s*$/m;
// for 2-digit years, the first year we map them onto
var YFIRST = new Date().getFullYear() - 70;
function isWorldCalendar(calendar) {
return (
calendar &&
Registry.componentsRegistry.calendars &&
typeof calendar === 'string' && calendar !== 'gregorian'
);
}
/*
* dateTick0: get the canonical tick for this calendar
*
* bool sunday is for week ticks, shift it to a Sunday.
*/
exports.dateTick0 = function(calendar, sunday) {
if(isWorldCalendar(calendar)) {
return sunday ?
Registry.getComponentMethod('calendars', 'CANONICAL_SUNDAY')[calendar] :
Registry.getComponentMethod('calendars', 'CANONICAL_TICK')[calendar];
}
else {
return sunday ? '2000-01-02' : '2000-01-01';
}
};
/*
* dfltRange: for each calendar, give a valid default range
*/
exports.dfltRange = function(calendar) {
if(isWorldCalendar(calendar)) {
return Registry.getComponentMethod('calendars', 'DFLTRANGE')[calendar];
}
else {
return ['2000-01-01', '2001-01-01'];
}
};
// is an object a javascript date?
exports.isJSDate = function(v) {
return typeof v === 'object' && v !== null && typeof v.getTime === 'function';
};
// The absolute limits of our date-time system
// This is a little weird: we use MIN_MS and MAX_MS in dateTime2ms
// but we use dateTime2ms to calculate them (after defining it!)
var MIN_MS, MAX_MS;
/**
* dateTime2ms - turn a date object or string s into milliseconds
* (relative to 1970-01-01, per javascript standard)
* optional calendar (string) to use a non-gregorian calendar
*
* Returns BADNUM if it doesn't find a date
*
* strings should have the form:
*
* -?YYYY-mm-dd<sep>HH:MM:SS.sss<tzInfo>?
*
* <sep>: space (our normal standard) or T or t (ISO-8601)
* <tzInfo>: Z, z, or [+\-]HH:?MM and we THROW IT AWAY
* this format comes from https://tools.ietf.org/html/rfc3339#section-5.6
* but we allow it even with a space as the separator
*
* May truncate after any full field, and sss can be any length
* even >3 digits, though javascript dates truncate to milliseconds,
* we keep as much as javascript numeric precision can hold, but we only
* report back up to 100 microsecond precision, because most dates support
* this precision (close to 1970 support more, very far away support less)
*
* Expanded to support negative years to -9999 but you must always
* give 4 digits, except for 2-digit positive years which we assume are
* near the present time.
* Note that we follow ISO 8601:2004: there *is* a year 0, which
* is 1BC/BCE, and -1===2BC etc.
*
* World calendars: not all of these *have* agreed extensions to this full range,
* if you have another calendar system but want a date range outside its validity,
* you can use a gregorian date string prefixed with 'G' or 'g'.
*
* Where to cut off 2-digit years between 1900s and 2000s?
* from http://support.microsoft.com/kb/244664:
* 1930-2029 (the most retro of all...)
* but in my mac chrome from eg. d=new Date(Date.parse('8/19/50')):
* 1950-2049
* by Java, from http://stackoverflow.com/questions/2024273/:
* now-80 - now+19
* or FileMaker Pro, from
* http://www.filemaker.com/12help/html/add_view_data.4.21.html:
* now-70 - now+29
* but python strptime etc, via
* http://docs.python.org/py3k/library/time.html:
* 1969-2068 (super forward-looking, but static, not sliding!)
*
* lets go with now-70 to now+29, and if anyone runs into this problem
* they can learn the hard way not to use 2-digit years, as no choice we
* make now will cover all possibilities. mostly this will all be taken
* care of in initial parsing, should only be an issue for hand-entered data
* currently (2016) this range is:
* 1946-2045
*/
exports.dateTime2ms = function(s, calendar) {
// first check if s is a date object
if(exports.isJSDate(s)) {
// Convert to the UTC milliseconds that give the same
// hours as this date has in the local timezone
var tzOffset = s.getTimezoneOffset() * ONEMIN;
var offsetTweak = (s.getUTCMinutes() - s.getMinutes()) * ONEMIN +
(s.getUTCSeconds() - s.getSeconds()) * ONESEC +
(s.getUTCMilliseconds() - s.getMilliseconds());
if(offsetTweak) {
var comb = 3 * ONEMIN;
tzOffset = tzOffset - comb / 2 + mod(offsetTweak - tzOffset + comb / 2, comb);
}
s = Number(s) - tzOffset;
if(s >= MIN_MS && s <= MAX_MS) return s;
return BADNUM;
}
// otherwise only accept strings and numbers
if(typeof s !== 'string' && typeof s !== 'number') return BADNUM;
s = String(s);
var isWorld = isWorldCalendar(calendar);
// to handle out-of-range dates in international calendars, accept
// 'G' as a prefix to force the built-in gregorian calendar.
var s0 = s.charAt(0);
if(isWorld && (s0 === 'G' || s0 === 'g')) {
s = s.substr(1);
calendar = '';
}
var isChinese = isWorld && calendar.substr(0, 7) === 'chinese';
var match = s.match(isChinese ? DATETIME_REGEXP_CN : DATETIME_REGEXP);
if(!match) return BADNUM;
var y = match[1],
m = match[3] || '1',
d = Number(match[5] || 1),
H = Number(match[7] || 0),
M = Number(match[9] || 0),
S = Number(match[11] || 0);
if(isWorld) {
// disallow 2-digit years for world calendars
if(y.length === 2) return BADNUM;
y = Number(y);
var cDate;
try {
var calInstance = Registry.getComponentMethod('calendars', 'getCal')(calendar);
if(isChinese) {
var isIntercalary = m.charAt(m.length - 1) === 'i';
m = parseInt(m, 10);
cDate = calInstance.newDate(y, calInstance.toMonthIndex(y, m, isIntercalary), d);
}
else {
cDate = calInstance.newDate(y, Number(m), d);
}
}
catch(e) { return BADNUM; } // Invalid ... date
if(!cDate) return BADNUM;
return ((cDate.toJD() - EPOCHJD) * ONEDAY) +
(H * ONEHOUR) + (M * ONEMIN) + (S * ONESEC);
}
if(y.length === 2) {
y = (Number(y) + 2000 - YFIRST) % 100 + YFIRST;
}
else y = Number(y);
// new Date uses months from 0; subtract 1 here just so we
// don't have to do it again during the validity test below
m -= 1;
// javascript takes new Date(0..99,m,d) to mean 1900-1999, so
// to support years 0-99 we need to use setFullYear explicitly
// Note that 2000 is a leap year.
var date = new Date(Date.UTC(2000, m, d, H, M));
date.setUTCFullYear(y);
if(date.getUTCMonth() !== m) return BADNUM;
if(date.getUTCDate() !== d) return BADNUM;
return date.getTime() + S * ONESEC;
};
MIN_MS = exports.MIN_MS = exports.dateTime2ms('-9999');
MAX_MS = exports.MAX_MS = exports.dateTime2ms('9999-12-31 23:59:59.9999');
// is string s a date? (see above)
exports.isDateTime = function(s, calendar) {
return (exports.dateTime2ms(s, calendar) !== BADNUM);
};
// pad a number with zeroes, to given # of digits before the decimal point
function lpad(val, digits) {
return String(val + Math.pow(10, digits)).substr(1);
}
/**
* Turn ms into string of the form YYYY-mm-dd HH:MM:SS.ssss
* Crop any trailing zeros in time, except never stop right after hours
* (we could choose to crop '-01' from date too but for now we always
* show the whole date)
* Optional range r is the data range that applies, also in ms.
* If rng is big, the later parts of time will be omitted
*/
var NINETYDAYS = 90 * ONEDAY;
var THREEHOURS = 3 * ONEHOUR;
var FIVEMIN = 5 * ONEMIN;
exports.ms2DateTime = function(ms, r, calendar) {
if(typeof ms !== 'number' || !(ms >= MIN_MS && ms <= MAX_MS)) return BADNUM;
if(!r) r = 0;
var msecTenths = Math.floor(mod(ms + 0.05, 1) * 10),
msRounded = Math.round(ms - msecTenths / 10),
dateStr, h, m, s, msec10, d;
if(isWorldCalendar(calendar)) {
var dateJD = Math.floor(msRounded / ONEDAY) + EPOCHJD,
timeMs = Math.floor(mod(ms, ONEDAY));
try {
dateStr = Registry.getComponentMethod('calendars', 'getCal')(calendar)
.fromJD(dateJD).formatDate('yyyy-mm-dd');
}
catch(e) {
// invalid date in this calendar - fall back to Gyyyy-mm-dd
dateStr = utcFormat('G%Y-%m-%d')(new Date(msRounded));
}
// yyyy does NOT guarantee 4-digit years. YYYY mostly does, but does
// other things for a few calendars, so we can't trust it. Just pad
// it manually (after the '-' if there is one)
if(dateStr.charAt(0) === '-') {
while(dateStr.length < 11) dateStr = '-0' + dateStr.substr(1);
}
else {
while(dateStr.length < 10) dateStr = '0' + dateStr;
}
// TODO: if this is faster, we could use this block for extracting
// the time components of regular gregorian too
h = (r < NINETYDAYS) ? Math.floor(timeMs / ONEHOUR) : 0;
m = (r < NINETYDAYS) ? Math.floor((timeMs % ONEHOUR) / ONEMIN) : 0;
s = (r < THREEHOURS) ? Math.floor((timeMs % ONEMIN) / ONESEC) : 0;
msec10 = (r < FIVEMIN) ? (timeMs % ONESEC) * 10 + msecTenths : 0;
}
else {
d = new Date(msRounded);
dateStr = utcFormat('%Y-%m-%d')(d);
// <90 days: add hours and minutes - never *only* add hours
h = (r < NINETYDAYS) ? d.getUTCHours() : 0;
m = (r < NINETYDAYS) ? d.getUTCMinutes() : 0;
// <3 hours: add seconds
s = (r < THREEHOURS) ? d.getUTCSeconds() : 0;
// <5 minutes: add ms (plus one extra digit, this is msec*10)
msec10 = (r < FIVEMIN) ? d.getUTCMilliseconds() * 10 + msecTenths : 0;
}
return includeTime(dateStr, h, m, s, msec10);
};
// For converting old-style milliseconds to date strings,
// we use the local timezone rather than UTC like we use
// everywhere else, both for backward compatibility and
// because that's how people mostly use javasript date objects.
// Clip one extra day off our date range though so we can't get
// thrown beyond the range by the timezone shift.
exports.ms2DateTimeLocal = function(ms) {
if(!(ms >= MIN_MS + ONEDAY && ms <= MAX_MS - ONEDAY)) return BADNUM;
var msecTenths = Math.floor(mod(ms + 0.05, 1) * 10),
d = new Date(Math.round(ms - msecTenths / 10)),
dateStr = d3.time.format('%Y-%m-%d')(d),
h = d.getHours(),
m = d.getMinutes(),
s = d.getSeconds(),
msec10 = d.getUTCMilliseconds() * 10 + msecTenths;
return includeTime(dateStr, h, m, s, msec10);
};
function includeTime(dateStr, h, m, s, msec10) {
// include each part that has nonzero data in or after it
if(h || m || s || msec10) {
dateStr += ' ' + lpad(h, 2) + ':' + lpad(m, 2);
if(s || msec10) {
dateStr += ':' + lpad(s, 2);
if(msec10) {
var digits = 4;
while(msec10 % 10 === 0) {
digits -= 1;
msec10 /= 10;
}
dateStr += '.' + lpad(msec10, digits);
}
}
}
return dateStr;
}
// normalize date format to date string, in case it starts as
// a Date object or milliseconds
// optional dflt is the return value if cleaning fails
exports.cleanDate = function(v, dflt, calendar) {
if(exports.isJSDate(v) || typeof v === 'number') {
// do not allow milliseconds (old) or jsdate objects (inherently
// described as gregorian dates) with world calendars
if(isWorldCalendar(calendar)) {
Loggers.error('JS Dates and milliseconds are incompatible with world calendars', v);
return dflt;
}
// NOTE: if someone puts in a year as a number rather than a string,
// this will mistakenly convert it thinking it's milliseconds from 1970
// that is: '2012' -> Jan. 1, 2012, but 2012 -> 2012 epoch milliseconds
v = exports.ms2DateTimeLocal(+v);
if(!v && dflt !== undefined) return dflt;
}
else if(!exports.isDateTime(v, calendar)) {
Loggers.error('unrecognized date', v);
return dflt;
}
return v;
};
/*
* Date formatting for ticks and hovertext
*/
/*
* modDateFormat: Support world calendars, and add one item to
* d3's vocabulary:
* %{n}f where n is the max number of digits of fractional seconds
*/
var fracMatch = /%\d?f/g;
function modDateFormat(fmt, x, formatter, calendar) {
fmt = fmt.replace(fracMatch, function(match) {
var digits = Math.min(+(match.charAt(1)) || 6, 6),
fracSecs = ((x / 1000 % 1) + 2)
.toFixed(digits)
.substr(2).replace(/0+$/, '') || '0';
return fracSecs;
});
var d = new Date(Math.floor(x + 0.05));
if(isWorldCalendar(calendar)) {
try {
fmt = Registry.getComponentMethod('calendars', 'worldCalFmt')(fmt, x, calendar);
}
catch(e) {
return 'Invalid';
}
}
return formatter(fmt)(d);
}
/*
* formatTime: create a time string from:
* x: milliseconds
* tr: tickround ('M', 'S', or # digits)
* only supports UTC times (where every day is 24 hours and 0 is at midnight)
*/
var MAXSECONDS = [59, 59.9, 59.99, 59.999, 59.9999];
function formatTime(x, tr) {
var timePart = mod(x + 0.05, ONEDAY);
var timeStr = lpad(Math.floor(timePart / ONEHOUR), 2) + ':' +
lpad(mod(Math.floor(timePart / ONEMIN), 60), 2);
if(tr !== 'M') {
if(!isNumeric(tr)) tr = 0; // should only be 'S'
/*
* this is a weird one - and shouldn't come up unless people
* monkey with tick0 in weird ways, but we need to do something!
* IN PARTICULAR we had better not display garbage (see below)
* for numbers we always round to the nearest increment of the
* precision we're showing, and this seems like the right way to
* handle seconds and milliseconds, as they have a decimal point
* and people will interpret that to mean rounding like numbers.
* but for larger increments we floor the value: it's always
* 2013 until the ball drops on the new year. We could argue about
* which field it is where we start rounding (should 12:08:59
* round to 12:09 if we're stopping at minutes?) but for now I'll
* say we round seconds but floor everything else. BUT that means
* we need to never round up to 60 seconds, ie 23:59:60
*/
var sec = Math.min(mod(x / ONESEC, 60), MAXSECONDS[tr]);
var secStr = (100 + sec).toFixed(tr).substr(1);
if(tr > 0) {
secStr = secStr.replace(/0+$/, '').replace(/[\.]$/, '');
}
timeStr += ':' + secStr;
}
return timeStr;
}
/*
* formatDate: turn a date into tick or hover label text.
*
* x: milliseconds, the value to convert
* fmt: optional, an explicit format string (d3 format, even for world calendars)
* tr: tickround ('y', 'm', 'd', 'M', 'S', or # digits)
* used if no explicit fmt is provided
* formatter: locale-aware d3 date formatter for standard gregorian calendars
* should be the result of exports.getD3DateFormat(gd)
* calendar: optional string, the world calendar system to use
*
* returns the date/time as a string, potentially with the leading portion
* on a separate line (after '\n')
* Note that this means if you provide an explicit format which includes '\n'
* the axis may choose to strip things after it when they don't change from
* one tick to the next (as it does with automatic formatting)
*/
exports.formatDate = function(x, fmt, tr, formatter, calendar, extraFormat) {
calendar = isWorldCalendar(calendar) && calendar;
if(!fmt) {
if(tr === 'y') fmt = extraFormat.year;
else if(tr === 'm') fmt = extraFormat.month;
else if(tr === 'd') {
fmt = extraFormat.dayMonth + '\n' + extraFormat.year;
}
else {
return formatTime(x, tr) + '\n' + modDateFormat(extraFormat.dayMonthYear, x, formatter, calendar);
}
}
return modDateFormat(fmt, x, formatter, calendar);
};
/*
* incrementMonth: make a new milliseconds value from the given one,
* having changed the month
*
* special case for world calendars: multiples of 12 are treated as years,
* even for calendar systems that don't have (always or ever) 12 months/year
* TODO: perhaps we need a different code for year increments to support this?
*
* ms (number): the initial millisecond value
* dMonth (int): the (signed) number of months to shift
* calendar (string): the calendar system to use
*
* changing month does not (and CANNOT) always preserve day, since
* months have different lengths. The worst example of this is:
* d = new Date(1970,0,31); d.setMonth(1) -> Feb 31 turns into Mar 3
*
* But we want to be able to iterate over the last day of each month,
* regardless of what its number is.
* So shift 3 days forward, THEN set the new month, then unshift:
* 1/31 -> 2/28 (or 29) -> 3/31 -> 4/30 -> ...
*
* Note that odd behavior still exists if you start from the 26th-28th:
* 1/28 -> 2/28 -> 3/31
* but at least you can't shift any dates into the wrong month,
* and ticks on these days incrementing by month would be very unusual
*/
var THREEDAYS = 3 * ONEDAY;
exports.incrementMonth = function(ms, dMonth, calendar) {
calendar = isWorldCalendar(calendar) && calendar;
// pull time out and operate on pure dates, then add time back at the end
// this gives maximum precision - not that we *normally* care if we're
// incrementing by month, but better to be safe!
var timeMs = mod(ms, ONEDAY);
ms = Math.round(ms - timeMs);
if(calendar) {
try {
var dateJD = Math.round(ms / ONEDAY) + EPOCHJD,
calInstance = Registry.getComponentMethod('calendars', 'getCal')(calendar),
cDate = calInstance.fromJD(dateJD);
if(dMonth % 12) calInstance.add(cDate, dMonth, 'm');
else calInstance.add(cDate, dMonth / 12, 'y');
return (cDate.toJD() - EPOCHJD) * ONEDAY + timeMs;
}
catch(e) {
Loggers.error('invalid ms ' + ms + ' in calendar ' + calendar);
// then keep going in gregorian even though the result will be 'Invalid'
}
}
var y = new Date(ms + THREEDAYS);
return y.setUTCMonth(y.getUTCMonth() + dMonth) + timeMs - THREEDAYS;
};
/*
* findExactDates: what fraction of data is exact days, months, or years?
*
* data: array of millisecond values
* calendar (string) the calendar to test against
*/
exports.findExactDates = function(data, calendar) {
var exactYears = 0,
exactMonths = 0,
exactDays = 0,
blankCount = 0,
d,
di;
var calInstance = (
isWorldCalendar(calendar) &&
Registry.getComponentMethod('calendars', 'getCal')(calendar)
);
for(var i = 0; i < data.length; i++) {
di = data[i];
// not date data at all
if(!isNumeric(di)) {
blankCount ++;
continue;
}
// not an exact date
if(di % ONEDAY) continue;
if(calInstance) {
try {
d = calInstance.fromJD(di / ONEDAY + EPOCHJD);
if(d.day() === 1) {
if(d.month() === 1) exactYears++;
else exactMonths++;
}
else exactDays++;
}
catch(e) {
// invalid date in this calendar - ignore it here.
}
}
else {
d = new Date(di);
if(d.getUTCDate() === 1) {
if(d.getUTCMonth() === 0) exactYears++;
else exactMonths++;
}
else exactDays++;
}
}
exactMonths += exactYears;
exactDays += exactMonths;
var dataCount = data.length - blankCount;
return {
exactYears: exactYears / dataCount,
exactMonths: exactMonths / dataCount,
exactDays: exactDays / dataCount
};
};
},{"../constants/numerical":670,"../registry":825,"./loggers":698,"./mod":701,"d3":147,"fast-isnumeric":213}],680:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/*
* Ensures an array has the right amount of storage space. If it doesn't
* exist, it creates an array. If it does exist, it returns it if too
* short or truncates it in-place.
*
* The goal is to just reuse memory to avoid a bit of excessive garbage
* collection.
*/
module.exports = function ensureArray(out, n) {
if(!Array.isArray(out)) out = [];
// If too long, truncate. (If too short, it will grow
// automatically so we don't care about that case)
out.length = n;
return out;
};
},{}],681:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/* global jQuery:false */
var EventEmitter = _dereq_('events').EventEmitter;
var Events = {
init: function(plotObj) {
/*
* If we have already instantiated an emitter for this plot
* return early.
*/
if(plotObj._ev instanceof EventEmitter) return plotObj;
var ev = new EventEmitter();
var internalEv = new EventEmitter();
/*
* Assign to plot._ev while we still live in a land
* where plot is a DOM element with stuff attached to it.
* In the future we can make plot the event emitter itself.
*/
plotObj._ev = ev;
/*
* Create a second event handler that will manage events *internally*.
* This allows parts of plotly to respond to thing like relayout without
* having to use the user-facing event handler. They cannot peacefully
* coexist on the same handler because a user invoking
* plotObj.removeAllListeners() would detach internal events, breaking
* plotly.
*/
plotObj._internalEv = internalEv;
/*
* Assign bound methods from the ev to the plot object. These methods
* will reference the 'this' of plot._ev even though they are methods
* of plot. This will keep the event machinery away from the plot object
* which currently is often a DOM element but presents an API that will
* continue to function when plot becomes an emitter. Not all EventEmitter
* methods have been bound to `plot` as some do not currently add value to
* the Plotly event API.
*/
plotObj.on = ev.on.bind(ev);
plotObj.once = ev.once.bind(ev);
plotObj.removeListener = ev.removeListener.bind(ev);
plotObj.removeAllListeners = ev.removeAllListeners.bind(ev);
/*
* Create functions for managing internal events. These are *only* triggered
* by the mirroring of external events via the emit function.
*/
plotObj._internalOn = internalEv.on.bind(internalEv);
plotObj._internalOnce = internalEv.once.bind(internalEv);
plotObj._removeInternalListener = internalEv.removeListener.bind(internalEv);
plotObj._removeAllInternalListeners = internalEv.removeAllListeners.bind(internalEv);
/*
* We must wrap emit to continue to support JQuery events. The idea
* is to check to see if the user is using JQuery events, if they are
* we emit JQuery events to trigger user handlers as well as the EventEmitter
* events.
*/
plotObj.emit = function(event, data) {
if(typeof jQuery !== 'undefined') {
jQuery(plotObj).trigger(event, data);
}
ev.emit(event, data);
internalEv.emit(event, data);
};
return plotObj;
},
/*
* This function behaves like jQuery's triggerHandler. It calls
* all handlers for a particular event and returns the return value
* of the LAST handler. This function also triggers jQuery's
* triggerHandler for backwards compatibility.
*/
triggerHandler: function(plotObj, event, data) {
var jQueryHandlerValue;
var nodeEventHandlerValue;
/*
* If jQuery exists run all its handlers for this event and
* collect the return value of the LAST handler function
*/
if(typeof jQuery !== 'undefined') {
jQueryHandlerValue = jQuery(plotObj).triggerHandler(event, data);
}
/*
* Now run all the node style event handlers
*/
var ev = plotObj._ev;
if(!ev) return jQueryHandlerValue;
var handlers = ev._events[event];
if(!handlers) return jQueryHandlerValue;
// making sure 'this' is the EventEmitter instance
function apply(handler) {
// The 'once' case, we can't just call handler() as we need
// the return value here. So,
// - remove handler
// - call listener and grab return value!
// - stash 'fired' key to not call handler twice
if(handler.listener) {
ev.removeListener(event, handler.listener);
if(!handler.fired) {
handler.fired = true;
return handler.listener.apply(ev, [data]);
}
} else {
return handler.apply(ev, [data]);
}
}
// handlers can be function or an array of functions
handlers = Array.isArray(handlers) ? handlers : [handlers];
var i;
for(i = 0; i < handlers.length - 1; i++) {
apply(handlers[i]);
}
// now call the final handler and collect its value
nodeEventHandlerValue = apply(handlers[i]);
/*
* Return either the jQuery handler value if it exists or the
* nodeEventHandler value. jQuery event value supersedes nodejs
* events for backwards compatibility reasons.
*/
return jQueryHandlerValue !== undefined ?
jQueryHandlerValue :
nodeEventHandlerValue;
},
purge: function(plotObj) {
delete plotObj._ev;
delete plotObj.on;
delete plotObj.once;
delete plotObj.removeListener;
delete plotObj.removeAllListeners;
delete plotObj.emit;
delete plotObj._ev;
delete plotObj._internalEv;
delete plotObj._internalOn;
delete plotObj._internalOnce;
delete plotObj._removeInternalListener;
delete plotObj._removeAllInternalListeners;
return plotObj;
}
};
module.exports = Events;
},{"events":91}],682:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isPlainObject = _dereq_('./is_plain_object.js');
var isArray = Array.isArray;
function primitivesLoopSplice(source, target) {
var i, value;
for(i = 0; i < source.length; i++) {
value = source[i];
if(value !== null && typeof(value) === 'object') {
return false;
}
if(value !== void(0)) {
target[i] = value;
}
}
return true;
}
exports.extendFlat = function() {
return _extend(arguments, false, false, false);
};
exports.extendDeep = function() {
return _extend(arguments, true, false, false);
};
exports.extendDeepAll = function() {
return _extend(arguments, true, true, false);
};
exports.extendDeepNoArrays = function() {
return _extend(arguments, true, false, true);
};
/*
* Inspired by https://github.com/justmoon/node-extend/blob/master/index.js
* All credit to the jQuery authors for perfecting this amazing utility.
*
* API difference with jQuery version:
* - No optional boolean (true -> deep extend) first argument,
* use `extendFlat` for first-level only extend and
* use `extendDeep` for a deep extend.
*
* Other differences with jQuery version:
* - Uses a modern (and faster) isPlainObject routine.
* - Expected to work with object {} and array [] arguments only.
* - Does not check for circular structure.
* FYI: jQuery only does a check across one level.
* Warning: this might result in infinite loops.
*
*/
function _extend(inputs, isDeep, keepAllKeys, noArrayCopies) {
var target = inputs[0],
length = inputs.length;
var input, key, src, copy, copyIsArray, clone, allPrimitives;
// TODO does this do the right thing for typed arrays?
if(length === 2 && isArray(target) && isArray(inputs[1]) && target.length === 0) {
allPrimitives = primitivesLoopSplice(inputs[1], target);
if(allPrimitives) {
return target;
} else {
target.splice(0, target.length); // reset target and continue to next block
}
}
for(var i = 1; i < length; i++) {
input = inputs[i];
for(key in input) {
src = target[key];
copy = input[key];
// Stop early and just transfer the array if array copies are disallowed:
if(noArrayCopies && isArray(copy)) {
target[key] = copy;
}
// recurse if we're merging plain objects or arrays
else if(isDeep && copy && (isPlainObject(copy) || (copyIsArray = isArray(copy)))) {
if(copyIsArray) {
copyIsArray = false;
clone = src && isArray(src) ? src : [];
} else {
clone = src && isPlainObject(src) ? src : {};
}
// never move original objects, clone them
target[key] = _extend([clone, copy], isDeep, keepAllKeys, noArrayCopies);
}
// don't bring in undefined values, except for extendDeepAll
else if(typeof copy !== 'undefined' || keepAllKeys) {
target[key] = copy;
}
}
}
return target;
}
},{"./is_plain_object.js":695}],683:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/**
* Return news array containing only the unique items
* found in input array.
*
* IMPORTANT: Note that items are considered unique
* if `String({})` is unique. For example;
*
* Lib.filterUnique([ { a: 1 }, { b: 2 } ])
*
* returns [{ a: 1 }]
*
* and
*
* Lib.filterUnique([ '1', 1 ])
*
* returns ['1']
*
*
* @param {array} array base array
* @return {array} new filtered array
*/
module.exports = function filterUnique(array) {
var seen = {},
out = [],
j = 0;
for(var i = 0; i < array.length; i++) {
var item = array[i];
if(seen[item] !== 1) {
seen[item] = 1;
out[j++] = item;
}
}
return out;
};
},{}],684:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/** Filter out object items with visible !== true
* insider array container.
*
* @param {array of objects} container
* @return {array of objects} of length <= container
*
*/
module.exports = function filterVisible(container) {
var filterFn = isCalcData(container) ? calcDataFilter : baseFilter;
var out = [];
for(var i = 0; i < container.length; i++) {
var item = container[i];
if(filterFn(item)) out.push(item);
}
return out;
};
function baseFilter(item) {
return item.visible === true;
}
function calcDataFilter(item) {
return item[0].trace.visible === true;
}
function isCalcData(cont) {
return (
Array.isArray(cont) &&
Array.isArray(cont[0]) &&
cont[0][0] &&
cont[0][0].trace
);
}
},{}],685:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var countryRegex = _dereq_('country-regex');
var Lib = _dereq_('../lib');
// make list of all country iso3 ids from at runtime
var countryIds = Object.keys(countryRegex);
var locationmodeToIdFinder = {
'ISO-3': Lib.identity,
'USA-states': Lib.identity,
'country names': countryNameToISO3
};
exports.locationToFeature = function(locationmode, location, features) {
if(!location || typeof location !== 'string') return false;
var locationId = getLocationId(locationmode, location);
if(locationId) {
for(var i = 0; i < features.length; i++) {
var feature = features[i];
if(feature.id === locationId) return feature;
}
Lib.log([
'Location with id', locationId,
'does not have a matching topojson feature at this resolution.'
].join(' '));
}
return false;
};
function getLocationId(locationmode, location) {
var idFinder = locationmodeToIdFinder[locationmode];
return idFinder(location);
}
function countryNameToISO3(countryName) {
for(var i = 0; i < countryIds.length; i++) {
var iso3 = countryIds[i],
regex = new RegExp(countryRegex[iso3]);
if(regex.test(countryName.trim().toLowerCase())) return iso3;
}
Lib.log('Unrecognized country name: ' + countryName + '.');
return false;
}
},{"../lib":693,"country-regex":121}],686:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var BADNUM = _dereq_('../constants/numerical').BADNUM;
/**
* Convert calcTrace to GeoJSON 'MultiLineString' coordinate arrays
*
* @param {object} calcTrace
* gd.calcdata item.
* Note that calcTrace[i].lonlat is assumed to be defined
*
* @return {array}
* return line coords array (or array of arrays)
*
*/
exports.calcTraceToLineCoords = function(calcTrace) {
var trace = calcTrace[0].trace;
var connectgaps = trace.connectgaps;
var coords = [];
var lineString = [];
for(var i = 0; i < calcTrace.length; i++) {
var calcPt = calcTrace[i];
var lonlat = calcPt.lonlat;
if(lonlat[0] !== BADNUM) {
lineString.push(lonlat);
} else if(!connectgaps && lineString.length > 0) {
coords.push(lineString);
lineString = [];
}
}
if(lineString.length > 0) {
coords.push(lineString);
}
return coords;
};
/**
* Make line ('LineString' or 'MultiLineString') GeoJSON
*
* @param {array} coords
* results form calcTraceToLineCoords
* @return {object} out
* GeoJSON object
*
*/
exports.makeLine = function(coords) {
if(coords.length === 1) {
return {
type: 'LineString',
coordinates: coords[0]
};
} else {
return {
type: 'MultiLineString',
coordinates: coords
};
}
};
/**
* Make polygon ('Polygon' or 'MultiPolygon') GeoJSON
*
* @param {array} coords
* results form calcTraceToLineCoords
* @return {object} out
* GeoJSON object
*/
exports.makePolygon = function(coords) {
if(coords.length === 1) {
return {
type: 'Polygon',
coordinates: coords
};
} else {
var _coords = new Array(coords.length);
for(var i = 0; i < coords.length; i++) {
_coords[i] = [coords[i]];
}
return {
type: 'MultiPolygon',
coordinates: _coords
};
}
};
/**
* Make blank GeoJSON
*
* @return {object}
* Blank GeoJSON object
*
*/
exports.makeBlank = function() {
return {
type: 'Point',
coordinates: []
};
};
},{"../constants/numerical":670}],687:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var mod = _dereq_('./mod').mod;
/*
* look for intersection of two line segments
* (1->2 and 3->4) - returns array [x,y] if they do, null if not
*/
exports.segmentsIntersect = segmentsIntersect;
function segmentsIntersect(x1, y1, x2, y2, x3, y3, x4, y4) {
var a = x2 - x1,
b = x3 - x1,
c = x4 - x3,
d = y2 - y1,
e = y3 - y1,
f = y4 - y3,
det = a * f - c * d;
// parallel lines? intersection is undefined
// ignore the case where they are colinear
if(det === 0) return null;
var t = (b * f - c * e) / det,
u = (b * d - a * e) / det;
// segments do not intersect?
if(u < 0 || u > 1 || t < 0 || t > 1) return null;
return {x: x1 + a * t, y: y1 + d * t};
}
/*
* find the minimum distance between two line segments (1->2 and 3->4)
*/
exports.segmentDistance = function segmentDistance(x1, y1, x2, y2, x3, y3, x4, y4) {
if(segmentsIntersect(x1, y1, x2, y2, x3, y3, x4, y4)) return 0;
// the two segments and their lengths squared
var x12 = x2 - x1;
var y12 = y2 - y1;
var x34 = x4 - x3;
var y34 = y4 - y3;
var l2_12 = x12 * x12 + y12 * y12;
var l2_34 = x34 * x34 + y34 * y34;
// calculate distance squared, then take the sqrt at the very end
var dist2 = Math.min(
perpDistance2(x12, y12, l2_12, x3 - x1, y3 - y1),
perpDistance2(x12, y12, l2_12, x4 - x1, y4 - y1),
perpDistance2(x34, y34, l2_34, x1 - x3, y1 - y3),
perpDistance2(x34, y34, l2_34, x2 - x3, y2 - y3)
);
return Math.sqrt(dist2);
};
/*
* distance squared from segment ab to point c
* [xab, yab] is the vector b-a
* [xac, yac] is the vector c-a
* l2_ab is the length squared of (b-a), just to simplify calculation
*/
function perpDistance2(xab, yab, l2_ab, xac, yac) {
var fc_ab = (xac * xab + yac * yab);
if(fc_ab < 0) {
// point c is closer to point a
return xac * xac + yac * yac;
}
else if(fc_ab > l2_ab) {
// point c is closer to point b
var xbc = xac - xab;
var ybc = yac - yab;
return xbc * xbc + ybc * ybc;
}
else {
// perpendicular distance is the shortest
var crossProduct = xac * yab - yac * xab;
return crossProduct * crossProduct / l2_ab;
}
}
// a very short-term cache for getTextLocation, just because
// we're often looping over the same locations multiple times
// invalidated as soon as we look at a different path
var locationCache, workingPath, workingTextWidth;
// turn a path and position along it into x, y, and angle for the given text
exports.getTextLocation = function getTextLocation(path, totalPathLen, positionOnPath, textWidth) {
if(path !== workingPath || textWidth !== workingTextWidth) {
locationCache = {};
workingPath = path;
workingTextWidth = textWidth;
}
if(locationCache[positionOnPath]) {
return locationCache[positionOnPath];
}
// for the angle, use points on the path separated by the text width
// even though due to curvature, the text will cover a bit more than that
var p0 = path.getPointAtLength(mod(positionOnPath - textWidth / 2, totalPathLen));
var p1 = path.getPointAtLength(mod(positionOnPath + textWidth / 2, totalPathLen));
// note: atan handles 1/0 nicely
var theta = Math.atan((p1.y - p0.y) / (p1.x - p0.x));
// center the text at 2/3 of the center position plus 1/3 the p0/p1 midpoint
// that's the average position of this segment, assuming it's roughly quadratic
var pCenter = path.getPointAtLength(mod(positionOnPath, totalPathLen));
var x = (pCenter.x * 4 + p0.x + p1.x) / 6;
var y = (pCenter.y * 4 + p0.y + p1.y) / 6;
var out = {x: x, y: y, theta: theta};
locationCache[positionOnPath] = out;
return out;
};
exports.clearLocationCache = function() {
workingPath = null;
};
/*
* Find the segment of `path` that's within the visible area
* given by `bounds` {left, right, top, bottom}, to within a
* precision of `buffer` px
*
* returns: undefined if nothing is visible, else object:
* {
* min: position where the path first enters bounds, or 0 if it
* starts within bounds
* max: position where the path last exits bounds, or the path length
* if it finishes within bounds
* len: max - min, ie the length of visible path
* total: the total path length - just included so the caller doesn't
* need to call path.getTotalLength() again
* isClosed: true iff the start and end points of the path are both visible
* and are at the same point
* }
*
* Works by starting from either end and repeatedly finding the distance from
* that point to the plot area, and if it's outside the plot, moving along the
* path by that distance (because the plot must be at least that far away on
* the path). Note that if a path enters, exits, and re-enters the plot, we
* will not capture this behavior.
*/
exports.getVisibleSegment = function getVisibleSegment(path, bounds, buffer) {
var left = bounds.left;
var right = bounds.right;
var top = bounds.top;
var bottom = bounds.bottom;
var pMin = 0;
var pTotal = path.getTotalLength();
var pMax = pTotal;
var pt0, ptTotal;
function getDistToPlot(len) {
var pt = path.getPointAtLength(len);
// hold on to the start and end points for `closed`
if(len === 0) pt0 = pt;
else if(len === pTotal) ptTotal = pt;
var dx = (pt.x < left) ? left - pt.x : (pt.x > right ? pt.x - right : 0);
var dy = (pt.y < top) ? top - pt.y : (pt.y > bottom ? pt.y - bottom : 0);
return Math.sqrt(dx * dx + dy * dy);
}
var distToPlot = getDistToPlot(pMin);
while(distToPlot) {
pMin += distToPlot + buffer;
if(pMin > pMax) return;
distToPlot = getDistToPlot(pMin);
}
distToPlot = getDistToPlot(pMax);
while(distToPlot) {
pMax -= distToPlot + buffer;
if(pMin > pMax) return;
distToPlot = getDistToPlot(pMax);
}
return {
min: pMin,
max: pMax,
len: pMax - pMin,
total: pTotal,
isClosed: pMin === 0 && pMax === pTotal &&
Math.abs(pt0.x - ptTotal.x) < 0.1 &&
Math.abs(pt0.y - ptTotal.y) < 0.1
};
};
/**
* Find point on SVG path corresponding to a given constraint coordinate
*
* @param {SVGPathElement} path
* @param {Number} val : constraint coordinate value
* @param {String} coord : 'x' or 'y' the constraint coordinate
* @param {Object} opts :
* - {Number} pathLength : supply total path length before hand
* - {Number} tolerance
* - {Number} iterationLimit
* @return {SVGPoint}
*/
exports.findPointOnPath = function findPointOnPath(path, val, coord, opts) {
opts = opts || {};
var pathLength = opts.pathLength || path.getTotalLength();
var tolerance = opts.tolerance || 1e-3;
var iterationLimit = opts.iterationLimit || 30;
// if path starts at a val greater than the path tail (like on vertical violins),
// we must flip the sign of the computed diff.
var mul = path.getPointAtLength(0)[coord] > path.getPointAtLength(pathLength)[coord] ? -1 : 1;
var i = 0;
var b0 = 0;
var b1 = pathLength;
var mid;
var pt;
var diff;
while(i < iterationLimit) {
mid = (b0 + b1) / 2;
pt = path.getPointAtLength(mid);
diff = pt[coord] - val;
if(Math.abs(diff) < tolerance) {
return pt;
} else {
if(mul * diff > 0) {
b1 = mid;
} else {
b0 = mid;
}
i++;
}
}
return pt;
};
},{"./mod":701}],688:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/**
* Allow referencing a graph DOM element either directly
* or by its id string
*
* @param {HTMLDivElement|string} gd: a graph element or its id
*
* @returns {HTMLDivElement} the DOM element of the graph
*/
module.exports = function(gd) {
var gdElement;
if(typeof gd === 'string') {
gdElement = document.getElementById(gd);
if(gdElement === null) {
throw new Error('No DOM element with id \'' + gd + '\' exists on the page.');
}
return gdElement;
}
else if(gd === null || gd === undefined) {
throw new Error('DOM element provided is null or undefined');
}
return gd; // otherwise assume that gd is a DOM element
};
},{}],689:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var tinycolor = _dereq_('tinycolor2');
var rgba = _dereq_('color-normalize');
var Colorscale = _dereq_('../components/colorscale');
var colorDflt = _dereq_('../components/color/attributes').defaultLine;
var isArrayOrTypedArray = _dereq_('./is_array').isArrayOrTypedArray;
var colorDfltRgba = rgba(colorDflt);
var opacityDflt = 1;
function calculateColor(colorIn, opacityIn) {
var colorOut = colorIn;
colorOut[3] *= opacityIn;
return colorOut;
}
function validateColor(colorIn) {
if(isNumeric(colorIn)) return colorDfltRgba;
var colorOut = rgba(colorIn);
return colorOut.length ? colorOut : colorDfltRgba;
}
function validateOpacity(opacityIn) {
return isNumeric(opacityIn) ? opacityIn : opacityDflt;
}
function formatColor(containerIn, opacityIn, len) {
var colorIn = containerIn.color;
var isArrayColorIn = isArrayOrTypedArray(colorIn);
var isArrayOpacityIn = isArrayOrTypedArray(opacityIn);
var colorOut = [];
var sclFunc, getColor, getOpacity, colori, opacityi;
if(containerIn.colorscale !== undefined) {
sclFunc = Colorscale.makeColorScaleFunc(
Colorscale.extractScale(
containerIn.colorscale,
containerIn.cmin,
containerIn.cmax
)
);
}
else {
sclFunc = validateColor;
}
if(isArrayColorIn) {
getColor = function(c, i) {
// FIXME: there is double work, considering that sclFunc does the opposite
return c[i] === undefined ? colorDfltRgba : rgba(sclFunc(c[i]));
};
}
else getColor = validateColor;
if(isArrayOpacityIn) {
getOpacity = function(o, i) {
return o[i] === undefined ? opacityDflt : validateOpacity(o[i]);
};
}
else getOpacity = validateOpacity;
if(isArrayColorIn || isArrayOpacityIn) {
for(var i = 0; i < len; i++) {
colori = getColor(colorIn, i);
opacityi = getOpacity(opacityIn, i);
colorOut[i] = calculateColor(colori, opacityi);
}
}
else colorOut = calculateColor(rgba(colorIn), opacityIn);
return colorOut;
}
function parseColorScale(colorscale, alpha) {
if(alpha === undefined) alpha = 1;
return colorscale.map(function(elem) {
var index = elem[0];
var color = tinycolor(elem[1]);
var rgb = color.toRgb();
return {
index: index,
rgb: [rgb.r, rgb.g, rgb.b, alpha]
};
});
}
module.exports = {
formatColor: formatColor,
parseColorScale: parseColorScale
};
},{"../components/color/attributes":566,"../components/colorscale":582,"./is_array":694,"color-normalize":107,"fast-isnumeric":213,"tinycolor2":511}],690:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var identity = _dereq_('./identity');
function wrap(d) {return [d];}
module.exports = {
// The D3 data binding concept and the General Update Pattern promotes the idea of
// traversing into the scenegraph by using the `.data(fun, keyFun)` call.
// The `fun` is most often a `repeat`, ie. the elements beneath a `<g>` element need
// access to the same data, or a `descend`, which fans a scenegraph node into a bunch of
// of elements, e.g. points, lines, rows, requiring an array as input.
// The role of the `keyFun` is to identify what elements are being entered/exited/updated,
// otherwise D3 reverts to using a plain index which would screw up `transition`s.
keyFun: function(d) {return d.key;},
repeat: wrap,
descend: identity,
// Plotly.js uses a convention of storing the actual contents of the `calcData` as the
// element zero of a container array. These helpers are just used for clarity as a
// newcomer to the codebase may not know what the `[0]` is, and whether there can be further
// elements (not atm).
wrap: wrap,
unwrap: function(d) {return d[0];}
};
},{"./identity":692}],691:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var toSuperScript = _dereq_('superscript-text');
var fixEntities = _dereq_('./svg_text_utils').convertEntities;
function fixSuperScript(x) {
var idx = 0;
while((idx = x.indexOf('<sup>', idx)) >= 0) {
var nidx = x.indexOf('</sup>', idx);
if(nidx < idx) break;
x = x.slice(0, idx) + toSuperScript(x.slice(idx + 5, nidx)) + x.slice(nidx + 6);
}
return x;
}
function fixBR(x) {
return x.replace(/\<br\>/g, '\n');
}
function stripTags(x) {
return x.replace(/\<.*\>/g, '');
}
function convertHTMLToUnicode(html) {
return '' +
fixEntities(
stripTags(
fixSuperScript(
fixBR(
html))));
}
module.exports = convertHTMLToUnicode;
},{"./svg_text_utils":718,"superscript-text":504}],692:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
// Simple helper functions
// none of these need any external deps
module.exports = function identity(d) { return d; };
},{}],693:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var isNumeric = _dereq_('fast-isnumeric');
var numConstants = _dereq_('../constants/numerical');
var FP_SAFE = numConstants.FP_SAFE;
var BADNUM = numConstants.BADNUM;
var lib = module.exports = {};
lib.nestedProperty = _dereq_('./nested_property');
lib.keyedContainer = _dereq_('./keyed_container');
lib.relativeAttr = _dereq_('./relative_attr');
lib.isPlainObject = _dereq_('./is_plain_object');
lib.toLogRange = _dereq_('./to_log_range');
lib.relinkPrivateKeys = _dereq_('./relink_private');
lib.ensureArray = _dereq_('./ensure_array');
var modModule = _dereq_('./mod');
lib.mod = modModule.mod;
lib.modHalf = modModule.modHalf;
var isArrayModule = _dereq_('./is_array');
lib.isTypedArray = isArrayModule.isTypedArray;
lib.isArrayOrTypedArray = isArrayModule.isArrayOrTypedArray;
lib.isArray1D = isArrayModule.isArray1D;
var coerceModule = _dereq_('./coerce');
lib.valObjectMeta = coerceModule.valObjectMeta;
lib.coerce = coerceModule.coerce;
lib.coerce2 = coerceModule.coerce2;
lib.coerceFont = coerceModule.coerceFont;
lib.coerceHoverinfo = coerceModule.coerceHoverinfo;
lib.coerceSelectionMarkerOpacity = coerceModule.coerceSelectionMarkerOpacity;
lib.validate = coerceModule.validate;
var datesModule = _dereq_('./dates');
lib.dateTime2ms = datesModule.dateTime2ms;
lib.isDateTime = datesModule.isDateTime;
lib.ms2DateTime = datesModule.ms2DateTime;
lib.ms2DateTimeLocal = datesModule.ms2DateTimeLocal;
lib.cleanDate = datesModule.cleanDate;
lib.isJSDate = datesModule.isJSDate;
lib.formatDate = datesModule.formatDate;
lib.incrementMonth = datesModule.incrementMonth;
lib.dateTick0 = datesModule.dateTick0;
lib.dfltRange = datesModule.dfltRange;
lib.findExactDates = datesModule.findExactDates;
lib.MIN_MS = datesModule.MIN_MS;
lib.MAX_MS = datesModule.MAX_MS;
var searchModule = _dereq_('./search');
lib.findBin = searchModule.findBin;
lib.sorterAsc = searchModule.sorterAsc;
lib.sorterDes = searchModule.sorterDes;
lib.distinctVals = searchModule.distinctVals;
lib.roundUp = searchModule.roundUp;
lib.sort = searchModule.sort;
lib.findIndexOfMin = searchModule.findIndexOfMin;
var statsModule = _dereq_('./stats');
lib.aggNums = statsModule.aggNums;
lib.len = statsModule.len;
lib.mean = statsModule.mean;
lib.midRange = statsModule.midRange;
lib.variance = statsModule.variance;
lib.stdev = statsModule.stdev;
lib.interp = statsModule.interp;
var matrixModule = _dereq_('./matrix');
lib.init2dArray = matrixModule.init2dArray;
lib.transposeRagged = matrixModule.transposeRagged;
lib.dot = matrixModule.dot;
lib.translationMatrix = matrixModule.translationMatrix;
lib.rotationMatrix = matrixModule.rotationMatrix;
lib.rotationXYMatrix = matrixModule.rotationXYMatrix;
lib.apply2DTransform = matrixModule.apply2DTransform;
lib.apply2DTransform2 = matrixModule.apply2DTransform2;
var anglesModule = _dereq_('./angles');
lib.deg2rad = anglesModule.deg2rad;
lib.rad2deg = anglesModule.rad2deg;
lib.angleDelta = anglesModule.angleDelta;
lib.angleDist = anglesModule.angleDist;
lib.isFullCircle = anglesModule.isFullCircle;
lib.isAngleInsideSector = anglesModule.isAngleInsideSector;
lib.isPtInsideSector = anglesModule.isPtInsideSector;
lib.pathArc = anglesModule.pathArc;
lib.pathSector = anglesModule.pathSector;
lib.pathAnnulus = anglesModule.pathAnnulus;
var geom2dModule = _dereq_('./geometry2d');
lib.segmentsIntersect = geom2dModule.segmentsIntersect;
lib.segmentDistance = geom2dModule.segmentDistance;
lib.getTextLocation = geom2dModule.getTextLocation;
lib.clearLocationCache = geom2dModule.clearLocationCache;
lib.getVisibleSegment = geom2dModule.getVisibleSegment;
lib.findPointOnPath = geom2dModule.findPointOnPath;
var extendModule = _dereq_('./extend');
lib.extendFlat = extendModule.extendFlat;
lib.extendDeep = extendModule.extendDeep;
lib.extendDeepAll = extendModule.extendDeepAll;
lib.extendDeepNoArrays = extendModule.extendDeepNoArrays;
var loggersModule = _dereq_('./loggers');
lib.log = loggersModule.log;
lib.warn = loggersModule.warn;
lib.error = loggersModule.error;
var regexModule = _dereq_('./regex');
lib.counterRegex = regexModule.counter;
var throttleModule = _dereq_('./throttle');
lib.throttle = throttleModule.throttle;
lib.throttleDone = throttleModule.done;
lib.clearThrottle = throttleModule.clear;
lib.getGraphDiv = _dereq_('./get_graph_div');
lib.clearResponsive = _dereq_('./clear_responsive');
lib.makeTraceGroups = _dereq_('./make_trace_groups');
lib._ = _dereq_('./localize');
lib.notifier = _dereq_('./notifier');
lib.filterUnique = _dereq_('./filter_unique');
lib.filterVisible = _dereq_('./filter_visible');
lib.pushUnique = _dereq_('./push_unique');
lib.cleanNumber = _dereq_('./clean_number');
lib.ensureNumber = function num(v) {
if(!isNumeric(v)) return BADNUM;
v = Number(v);
if(v < -FP_SAFE || v > FP_SAFE) return BADNUM;
return isNumeric(v) ? Number(v) : BADNUM;
};
/**
* Is v a valid array index? Accepts numeric strings as well as numbers.
*
* @param {any} v: the value to test
* @param {Optional[integer]} len: the array length we are indexing
*
* @return {bool}: v is a valid array index
*/
lib.isIndex = function(v, len) {
if(len !== undefined && v >= len) return false;
return isNumeric(v) && (v >= 0) && (v % 1 === 0);
};
lib.noop = _dereq_('./noop');
lib.identity = _dereq_('./identity');
/**
* create an array of length 'cnt' filled with 'v' at all indices
*
* @param {any} v
* @param {number} cnt
* @return {array}
*/
lib.repeat = function(v, cnt) {
var out = new Array(cnt);
for(var i = 0; i < cnt; i++) {
out[i] = v;
}
return out;
};
/**
* swap x and y of the same attribute in container cont
* specify attr with a ? in place of x/y
* you can also swap other things than x/y by providing part1 and part2
*/
lib.swapAttrs = function(cont, attrList, part1, part2) {
if(!part1) part1 = 'x';
if(!part2) part2 = 'y';
for(var i = 0; i < attrList.length; i++) {
var attr = attrList[i],
xp = lib.nestedProperty(cont, attr.replace('?', part1)),
yp = lib.nestedProperty(cont, attr.replace('?', part2)),
temp = xp.get();
xp.set(yp.get());
yp.set(temp);
}
};
/**
* SVG painter's algo worked around with reinsertion
*/
lib.raiseToTop = function raiseToTop(elem) {
elem.parentNode.appendChild(elem);
};
/**
* cancel a possibly pending transition; returned selection may be used by caller
*/
lib.cancelTransition = function(selection) {
return selection.transition().duration(0);
};
// constrain - restrict a number v to be between v0 and v1
lib.constrain = function(v, v0, v1) {
if(v0 > v1) return Math.max(v1, Math.min(v0, v));
return Math.max(v0, Math.min(v1, v));
};
/**
* do two bounding boxes from getBoundingClientRect,
* ie {left,right,top,bottom,width,height}, overlap?
* takes optional padding pixels
*/
lib.bBoxIntersect = function(a, b, pad) {
pad = pad || 0;
return (a.left <= b.right + pad &&
b.left <= a.right + pad &&
a.top <= b.bottom + pad &&
b.top <= a.bottom + pad);
};
/*
* simpleMap: alternative to Array.map that only
* passes on the element and up to 2 extra args you
* provide (but not the array index or the whole array)
*
* array: the array to map it to
* func: the function to apply
* x1, x2: optional extra args
*/
lib.simpleMap = function(array, func, x1, x2) {
var len = array.length,
out = new Array(len);
for(var i = 0; i < len; i++) out[i] = func(array[i], x1, x2);
return out;
};
/**
* Random string generator
*
* @param {object} existing
* pass in strings to avoid as keys with truthy values
* @param {int} bits
* bits of information in the output string, default 24
* @param {int} base
* base of string representation, default 16. Should be a power of 2.
*/
lib.randstr = function randstr(existing, bits, base, _recursion) {
if(!base) base = 16;
if(bits === undefined) bits = 24;
if(bits <= 0) return '0';
var digits = Math.log(Math.pow(2, bits)) / Math.log(base);
var res = '';
var i, b, x;
for(i = 2; digits === Infinity; i *= 2) {
digits = Math.log(Math.pow(2, bits / i)) / Math.log(base) * i;
}
var rem = digits - Math.floor(digits);
for(i = 0; i < Math.floor(digits); i++) {
x = Math.floor(Math.random() * base).toString(base);
res = x + res;
}
if(rem) {
b = Math.pow(base, rem);
x = Math.floor(Math.random() * b).toString(base);
res = x + res;
}
var parsed = parseInt(res, base);
if((existing && existing[res]) ||
(parsed !== Infinity && parsed >= Math.pow(2, bits))) {
if(_recursion > 10) {
lib.warn('randstr failed uniqueness');
return res;
}
return randstr(existing, bits, base, (_recursion || 0) + 1);
}
else return res;
};
lib.OptionControl = function(opt, optname) {
/*
* An environment to contain all option setters and
* getters that collectively modify opts.
*
* You can call up opts from any function in new object
* as this.optname || this.opt
*
* See FitOpts for example of usage
*/
if(!opt) opt = {};
if(!optname) optname = 'opt';
var self = {};
self.optionList = [];
self._newoption = function(optObj) {
optObj[optname] = opt;
self[optObj.name] = optObj;
self.optionList.push(optObj);
};
self['_' + optname] = opt;
return self;
};
/**
* lib.smooth: smooth arrayIn by convolving with
* a hann window with given full width at half max
* bounce the ends in, so the output has the same length as the input
*/
lib.smooth = function(arrayIn, FWHM) {
FWHM = Math.round(FWHM) || 0; // only makes sense for integers
if(FWHM < 2) return arrayIn;
var alen = arrayIn.length,
alen2 = 2 * alen,
wlen = 2 * FWHM - 1,
w = new Array(wlen),
arrayOut = new Array(alen),
i,
j,
k,
v;
// first make the window array
for(i = 0; i < wlen; i++) {
w[i] = (1 - Math.cos(Math.PI * (i + 1) / FWHM)) / (2 * FWHM);
}
// now do the convolution
for(i = 0; i < alen; i++) {
v = 0;
for(j = 0; j < wlen; j++) {
k = i + j + 1 - FWHM;
// multibounce
if(k < -alen) k -= alen2 * Math.round(k / alen2);
else if(k >= alen2) k -= alen2 * Math.floor(k / alen2);
// single bounce
if(k < 0) k = - 1 - k;
else if(k >= alen) k = alen2 - 1 - k;
v += arrayIn[k] * w[j];
}
arrayOut[i] = v;
}
return arrayOut;
};
/**
* syncOrAsync: run a sequence of functions synchronously
* as long as its returns are not promises (ie have no .then)
* includes one argument arg to send to all functions...
* this is mainly just to prevent us having to make wrapper functions
* when the only purpose of the wrapper is to reference gd
* and a final step to be executed at the end
* TODO: if there's an error and everything is sync,
* this doesn't happen yet because we want to make sure
* that it gets reported
*/
lib.syncOrAsync = function(sequence, arg, finalStep) {
var ret, fni;
function continueAsync() {
return lib.syncOrAsync(sequence, arg, finalStep);
}
while(sequence.length) {
fni = sequence.splice(0, 1)[0];
ret = fni(arg);
if(ret && ret.then) {
return ret.then(continueAsync)
.then(undefined, lib.promiseError);
}
}
return finalStep && finalStep(arg);
};
/**
* Helper to strip trailing slash, from
* http://stackoverflow.com/questions/6680825/return-string-without-trailing-slash
*/
lib.stripTrailingSlash = function(str) {
if(str.substr(-1) === '/') return str.substr(0, str.length - 1);
return str;
};
lib.noneOrAll = function(containerIn, containerOut, attrList) {
/**
* some attributes come together, so if you have one of them
* in the input, you should copy the default values of the others
* to the input as well.
*/
if(!containerIn) return;
var hasAny = false,
hasAll = true,
i,
val;
for(i = 0; i < attrList.length; i++) {
val = containerIn[attrList[i]];
if(val !== undefined && val !== null) hasAny = true;
else hasAll = false;
}
if(hasAny && !hasAll) {
for(i = 0; i < attrList.length; i++) {
containerIn[attrList[i]] = containerOut[attrList[i]];
}
}
};
/** merges calcdata field (given by cdAttr) with traceAttr values
*
* N.B. Loop over minimum of cd.length and traceAttr.length
* i.e. it does not try to fill in beyond traceAttr.length-1
*
* @param {array} traceAttr : trace attribute
* @param {object} cd : calcdata trace
* @param {string} cdAttr : calcdata key
*/
lib.mergeArray = function(traceAttr, cd, cdAttr) {
if(lib.isArrayOrTypedArray(traceAttr)) {
var imax = Math.min(traceAttr.length, cd.length);
for(var i = 0; i < imax; i++) cd[i][cdAttr] = traceAttr[i];
}
};
/** fills calcdata field (given by cdAttr) with traceAttr values
* or function of traceAttr values (e.g. some fallback)
*
* N.B. Loops over all cd items.
*
* @param {array} traceAttr : trace attribute
* @param {object} cd : calcdata trace
* @param {string} cdAttr : calcdata key
* @param {function} [fn] : optional function to apply to each array item
*/
lib.fillArray = function(traceAttr, cd, cdAttr, fn) {
fn = fn || lib.identity;
if(lib.isArrayOrTypedArray(traceAttr)) {
for(var i = 0; i < cd.length; i++) {
cd[i][cdAttr] = fn(traceAttr[i]);
}
}
};
/** Handler for trace-wide vs per-point options
*
* @param {object} trace : (full) trace object
* @param {number} ptNumber : index of the point in question
* @param {string} astr : attribute string
* @param {function} [fn] : optional function to apply to each array item
*
* @return {any}
*/
lib.castOption = function(trace, ptNumber, astr, fn) {
fn = fn || lib.identity;
var val = lib.nestedProperty(trace, astr).get();
if(lib.isArrayOrTypedArray(val)) {
if(Array.isArray(ptNumber) && lib.isArrayOrTypedArray(val[ptNumber[0]])) {
return fn(val[ptNumber[0]][ptNumber[1]]);
} else {
return fn(val[ptNumber]);
}
} else {
return val;
}
};
/** Extract option from calcdata item, correctly falling back to
* trace value if not found.
*
* @param {object} calcPt : calcdata[i][j] item
* @param {object} trace : (full) trace object
* @param {string} calcKey : calcdata key
* @param {string} traceKey : aka trace attribute string
* @return {any}
*/
lib.extractOption = function(calcPt, trace, calcKey, traceKey) {
if(calcKey in calcPt) return calcPt[calcKey];
// fallback to trace value,
// must check if value isn't itself an array
// which means the trace attribute has a corresponding
// calcdata key, but its value is falsy
var traceVal = lib.nestedProperty(trace, traceKey).get();
if(!Array.isArray(traceVal)) return traceVal;
};
function makePtIndex2PtNumber(indexToPoints) {
var ptIndex2ptNumber = {};
for(var k in indexToPoints) {
var pts = indexToPoints[k];
for(var j = 0; j < pts.length; j++) {
ptIndex2ptNumber[pts[j]] = +k;
}
}
return ptIndex2ptNumber;
}
/** Tag selected calcdata items
*
* N.B. note that point 'index' corresponds to input data array index
* whereas 'number' is its post-transform version.
*
* @param {array} calcTrace
* @param {object} trace
* - selectedpoints {array}
* - _indexToPoints {object}
* @param {ptNumber2cdIndex} ptNumber2cdIndex (optional)
* optional map object for trace types that do not have 1-to-1 point number to
* calcdata item index correspondence (e.g. histogram)
*/
lib.tagSelected = function(calcTrace, trace, ptNumber2cdIndex) {
var selectedpoints = trace.selectedpoints;
var indexToPoints = trace._indexToPoints;
var ptIndex2ptNumber;
// make pt index-to-number map object, which takes care of transformed traces
if(indexToPoints) {
ptIndex2ptNumber = makePtIndex2PtNumber(indexToPoints);
}
function isCdIndexValid(v) {
return v !== undefined && v < calcTrace.length;
}
for(var i = 0; i < selectedpoints.length; i++) {
var ptIndex = selectedpoints[i];
if(lib.isIndex(ptIndex)) {
var ptNumber = ptIndex2ptNumber ? ptIndex2ptNumber[ptIndex] : ptIndex;
var cdIndex = ptNumber2cdIndex ? ptNumber2cdIndex[ptNumber] : ptNumber;
if(isCdIndexValid(cdIndex)) {
calcTrace[cdIndex].selected = 1;
}
}
}
};
lib.selIndices2selPoints = function(trace) {
var selectedpoints = trace.selectedpoints;
var indexToPoints = trace._indexToPoints;
if(indexToPoints) {
var ptIndex2ptNumber = makePtIndex2PtNumber(indexToPoints);
var out = [];
for(var i = 0; i < selectedpoints.length; i++) {
var ptIndex = selectedpoints[i];
if(lib.isIndex(ptIndex)) {
var ptNumber = ptIndex2ptNumber[ptIndex];
if(lib.isIndex(ptNumber)) {
out.push(ptNumber);
}
}
}
return out;
} else {
return selectedpoints;
}
};
/** Returns target as set by 'target' transform attribute
*
* @param {object} trace : full trace object
* @param {object} transformOpts : transform option object
* - target (string} :
* either an attribute string referencing an array in the trace object, or
* a set array.
*
* @return {array or false} : the target array (NOT a copy!!) or false if invalid
*/
lib.getTargetArray = function(trace, transformOpts) {
var target = transformOpts.target;
if(typeof target === 'string' && target) {
var array = lib.nestedProperty(trace, target).get();
return Array.isArray(array) ? array : false;
} else if(Array.isArray(target)) {
return target;
}
return false;
};
/**
* modified version of jQuery's extend to strip out private objs and functions,
* and cut arrays down to first <arraylen> or 1 elements
* because extend-like algorithms are hella slow
* obj2 is assumed to already be clean of these things (including no arrays)
*/
lib.minExtend = function(obj1, obj2) {
var objOut = {};
if(typeof obj2 !== 'object') obj2 = {};
var arrayLen = 3,
keys = Object.keys(obj1),
i,
k,
v;
for(i = 0; i < keys.length; i++) {
k = keys[i];
v = obj1[k];
if(k.charAt(0) === '_' || typeof v === 'function') continue;
else if(k === 'module') objOut[k] = v;
else if(Array.isArray(v)) objOut[k] = v.slice(0, arrayLen);
else if(v && (typeof v === 'object')) objOut[k] = lib.minExtend(obj1[k], obj2[k]);
else objOut[k] = v;
}
keys = Object.keys(obj2);
for(i = 0; i < keys.length; i++) {
k = keys[i];
v = obj2[k];
if(typeof v !== 'object' || !(k in objOut) || typeof objOut[k] !== 'object') {
objOut[k] = v;
}
}
return objOut;
};
lib.titleCase = function(s) {
return s.charAt(0).toUpperCase() + s.substr(1);
};
lib.containsAny = function(s, fragments) {
for(var i = 0; i < fragments.length; i++) {
if(s.indexOf(fragments[i]) !== -1) return true;
}
return false;
};
lib.isPlotDiv = function(el) {
var el3 = d3.select(el);
return el3.node() instanceof HTMLElement &&
el3.size() &&
el3.classed('js-plotly-plot');
};
lib.removeElement = function(el) {
var elParent = el && el.parentNode;
if(elParent) elParent.removeChild(el);
};
/**
* for dynamically adding style rules
* makes one stylesheet that contains all rules added
* by all calls to this function
*/
lib.addStyleRule = function(selector, styleString) {
if(!lib.styleSheet) {
var style = document.createElement('style');
// WebKit hack :(
style.appendChild(document.createTextNode(''));
document.head.appendChild(style);
lib.styleSheet = style.sheet;
}
var styleSheet = lib.styleSheet;
if(styleSheet.insertRule) {
styleSheet.insertRule(selector + '{' + styleString + '}', 0);
}
else if(styleSheet.addRule) {
styleSheet.addRule(selector, styleString, 0);
}
else lib.warn('addStyleRule failed');
};
lib.isIE = function() {
return typeof window.navigator.msSaveBlob !== 'undefined';
};
/**
* Duck typing to recognize a d3 selection, mostly for IE9's benefit
* because it doesn't handle instanceof like modern browsers
*/
lib.isD3Selection = function(obj) {
return obj && (typeof obj.classed === 'function');
};
/**
* Append element to DOM only if not present.
*
* @param {d3 selection} parent : parent selection of the element in question
* @param {string} nodeType : node type of element to append
* @param {string} className (optional) : class name of element in question
* @param {fn} enterFn (optional) : optional fn applied to entering elements only
* @return {d3 selection} selection of new layer
*
* Previously, we were using the following pattern:
*
* ```
* var sel = parent.selectAll('.' + className)
* .data([0]);
*
* sel.enter().append(nodeType)
* .classed(className, true);
*
* return sel;
* ```
*
* in numerous places in our codebase to achieve the same behavior.
*
* The logic below performs much better, mostly as we are using
* `.select` instead `.selectAll` that is `querySelector` instead of
* `querySelectorAll`.
*
*/
lib.ensureSingle = function(parent, nodeType, className, enterFn) {
var sel = parent.select(nodeType + (className ? '.' + className : ''));
if(sel.size()) return sel;
var layer = parent.append(nodeType);
if(className) layer.classed(className, true);
if(enterFn) layer.call(enterFn);
return layer;
};
/**
* Same as Lib.ensureSingle, but using id as selector.
* This version is mostly used for clipPath nodes.
*
* @param {d3 selection} parent : parent selection of the element in question
* @param {string} nodeType : node type of element to append
* @param {string} id : id of element in question
* @param {fn} enterFn (optional) : optional fn applied to entering elements only
* @return {d3 selection} selection of new layer
*/
lib.ensureSingleById = function(parent, nodeType, id, enterFn) {
var sel = parent.select(nodeType + '#' + id);
if(sel.size()) return sel;
var layer = parent.append(nodeType).attr('id', id);
if(enterFn) layer.call(enterFn);
return layer;
};
/**
* Converts a string path to an object.
*
* When given a string containing an array element, it will create a `null`
* filled array of the given size.
*
* @example
* lib.objectFromPath('nested.test[2].path', 'value');
* // returns { nested: { test: [null, null, { path: 'value' }]}
*
* @param {string} path to nested value
* @param {*} any value to be set
*
* @return {Object} the constructed object with a full nested path
*/
lib.objectFromPath = function(path, value) {
var keys = path.split('.'),
tmpObj,
obj = tmpObj = {};
for(var i = 0; i < keys.length; i++) {
var key = keys[i];
var el = null;
var parts = keys[i].match(/(.*)\[([0-9]+)\]/);
if(parts) {
key = parts[1];
el = parts[2];
tmpObj = tmpObj[key] = [];
if(i === keys.length - 1) {
tmpObj[el] = value;
} else {
tmpObj[el] = {};
}
tmpObj = tmpObj[el];
} else {
if(i === keys.length - 1) {
tmpObj[key] = value;
} else {
tmpObj[key] = {};
}
tmpObj = tmpObj[key];
}
}
return obj;
};
/**
* Iterate through an object in-place, converting dotted properties to objects.
*
* Examples:
*
* lib.expandObjectPaths({'nested.test.path': 'value'});
* => { nested: { test: {path: 'value'}}}
*
* It also handles array notation, e.g.:
*
* lib.expandObjectPaths({'foo[1].bar': 'value'});
* => { foo: [null, {bar: value}] }
*
* It handles merges the results when two properties are specified in parallel:
*
* lib.expandObjectPaths({'foo[1].bar': 10, 'foo[0].bar': 20});
* => { foo: [{bar: 10}, {bar: 20}] }
*
* It does NOT, however, merge mulitple mutliply-nested arrays::
*
* lib.expandObjectPaths({'marker[1].range[1]': 5, 'marker[1].range[0]': 4})
* => { marker: [null, {range: 4}] }
*/
// Store this to avoid recompiling regex on *every* prop since this may happen many
// many times for animations. Could maybe be inside the function. Not sure about
// scoping vs. recompilation tradeoff, but at least it's not just inlining it into
// the inner loop.
var dottedPropertyRegex = /^([^\[\.]+)\.(.+)?/;
var indexedPropertyRegex = /^([^\.]+)\[([0-9]+)\](\.)?(.+)?/;
lib.expandObjectPaths = function(data) {
var match, key, prop, datum, idx, dest, trailingPath;
if(typeof data === 'object' && !Array.isArray(data)) {
for(key in data) {
if(data.hasOwnProperty(key)) {
if((match = key.match(dottedPropertyRegex))) {
datum = data[key];
prop = match[1];
delete data[key];
data[prop] = lib.extendDeepNoArrays(data[prop] || {}, lib.objectFromPath(key, lib.expandObjectPaths(datum))[prop]);
} else if((match = key.match(indexedPropertyRegex))) {
datum = data[key];
prop = match[1];
idx = parseInt(match[2]);
delete data[key];
data[prop] = data[prop] || [];
if(match[3] === '.') {
// This is the case where theere are subsequent properties into which
// we must recurse, e.g. transforms[0].value
trailingPath = match[4];
dest = data[prop][idx] = data[prop][idx] || {};
// NB: Extend deep no arrays prevents this from working on multiple
// nested properties in the same object, e.g.
//
// {
// foo[0].bar[1].range
// foo[0].bar[0].range
// }
//
// In this case, the extendDeepNoArrays will overwrite one array with
// the other, so that both properties *will not* be present in the
// result. Fixing this would require a more intelligent tracking
// of changes and merging than extendDeepNoArrays currently accomplishes.
lib.extendDeepNoArrays(dest, lib.objectFromPath(trailingPath, lib.expandObjectPaths(datum)));
} else {
// This is the case where this property is the end of the line,
// e.g. xaxis.range[0]
data[prop][idx] = lib.expandObjectPaths(datum);
}
} else {
data[key] = lib.expandObjectPaths(data[key]);
}
}
}
}
return data;
};
/**
* Converts value to string separated by the provided separators.
*
* @example
* lib.numSeparate(2016, '.,');
* // returns '2016'
*
* @example
* lib.numSeparate(3000, '.,', true);
* // returns '3,000'
*
* @example
* lib.numSeparate(1234.56, '|,')
* // returns '1,234|56'
*
* @param {string|number} value the value to be converted
* @param {string} separators string of decimal, then thousands separators
* @param {boolean} separatethousands boolean, 4-digit integers are separated if true
*
* @return {string} the value that has been separated
*/
lib.numSeparate = function(value, separators, separatethousands) {
if(!separatethousands) separatethousands = false;
if(typeof separators !== 'string' || separators.length === 0) {
throw new Error('Separator string required for formatting!');
}
if(typeof value === 'number') {
value = String(value);
}
var thousandsRe = /(\d+)(\d{3})/,
decimalSep = separators.charAt(0),
thouSep = separators.charAt(1);
var x = value.split('.'),
x1 = x[0],
x2 = x.length > 1 ? decimalSep + x[1] : '';
// Years are ignored for thousands separators
if(thouSep && (x.length > 1 || x1.length > 4 || separatethousands)) {
while(thousandsRe.test(x1)) {
x1 = x1.replace(thousandsRe, '$1' + thouSep + '$2');
}
}
return x1 + x2;
};
var TEMPLATE_STRING_REGEX = /%{([^\s%{}]*)}/g;
var SIMPLE_PROPERTY_REGEX = /^\w*$/;
/*
* Substitute values from an object into a string
*
* Examples:
* Lib.templateString('name: %{trace}', {trace: 'asdf'}) --> 'name: asdf'
* Lib.templateString('name: %{trace[0].name}', {trace: [{name: 'asdf'}]}) --> 'name: asdf'
*
* @param {string} input string containing %{...} template strings
* @param {obj} data object containing substitution values
*
* @return {string} templated string
*/
lib.templateString = function(string, obj) {
// Not all that useful, but cache nestedProperty instantiation
// just in case it speeds things up *slightly*:
var getterCache = {};
return string.replace(TEMPLATE_STRING_REGEX, function(dummy, key) {
if(SIMPLE_PROPERTY_REGEX.test(key)) {
return obj[key] || '';
}
getterCache[key] = getterCache[key] || lib.nestedProperty(obj, key).get;
return getterCache[key]() || '';
});
};
/*
* alphanumeric string sort, tailored for subplot IDs like scene2, scene10, x10y13 etc
*/
var char0 = 48;
var char9 = 57;
lib.subplotSort = function(a, b) {
var l = Math.min(a.length, b.length) + 1;
var numA = 0;
var numB = 0;
for(var i = 0; i < l; i++) {
var charA = a.charCodeAt(i) || 0;
var charB = b.charCodeAt(i) || 0;
var isNumA = charA >= char0 && charA <= char9;
var isNumB = charB >= char0 && charB <= char9;
if(isNumA) numA = 10 * numA + charA - char0;
if(isNumB) numB = 10 * numB + charB - char0;
if(!isNumA || !isNumB) {
if(numA !== numB) return numA - numB;
if(charA !== charB) return charA - charB;
}
}
return numB - numA;
};
// repeatable pseudorandom generator
var randSeed = 2000000000;
lib.seedPseudoRandom = function() {
randSeed = 2000000000;
};
lib.pseudoRandom = function() {
var lastVal = randSeed;
randSeed = (69069 * randSeed + 1) % 4294967296;
// don't let consecutive vals be too close together
// gets away from really trying to be random, in favor of better local uniformity
if(Math.abs(randSeed - lastVal) < 429496729) return lib.pseudoRandom();
return randSeed / 4294967296;
};
},{"../constants/numerical":670,"./angles":674,"./clean_number":675,"./clear_responsive":677,"./coerce":678,"./dates":679,"./ensure_array":680,"./extend":682,"./filter_unique":683,"./filter_visible":684,"./geometry2d":687,"./get_graph_div":688,"./identity":692,"./is_array":694,"./is_plain_object":695,"./keyed_container":696,"./localize":697,"./loggers":698,"./make_trace_groups":699,"./matrix":700,"./mod":701,"./nested_property":702,"./noop":703,"./notifier":704,"./push_unique":708,"./regex":710,"./relative_attr":711,"./relink_private":712,"./search":713,"./stats":716,"./throttle":719,"./to_log_range":720,"d3":147,"fast-isnumeric":213}],694:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
// IE9 fallbacks
var ab = (typeof ArrayBuffer === 'undefined' || !ArrayBuffer.isView) ?
{isView: function() { return false; }} :
ArrayBuffer;
var dv = (typeof DataView === 'undefined') ?
function() {} :
DataView;
function isTypedArray(a) {
return ab.isView(a) && !(a instanceof dv);
}
function isArrayOrTypedArray(a) {
return Array.isArray(a) || isTypedArray(a);
}
/*
* Test whether an input object is 1D.
*
* Assumes we already know the object is an array.
*
* Looks only at the first element, if the dimensionality is
* not consistent we won't figure that out here.
*/
function isArray1D(a) {
return !isArrayOrTypedArray(a[0]);
}
module.exports = {
isTypedArray: isTypedArray,
isArrayOrTypedArray: isArrayOrTypedArray,
isArray1D: isArray1D
};
},{}],695:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
// more info: http://stackoverflow.com/questions/18531624/isplainobject-thing
module.exports = function isPlainObject(obj) {
// We need to be a little less strict in the `imagetest` container because
// of how async image requests are handled.
//
// N.B. isPlainObject(new Constructor()) will return true in `imagetest`
if(window && window.process && window.process.versions) {
return Object.prototype.toString.call(obj) === '[object Object]';
}
return (
Object.prototype.toString.call(obj) === '[object Object]' &&
Object.getPrototypeOf(obj) === Object.prototype
);
};
},{}],696:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var nestedProperty = _dereq_('./nested_property');
var SIMPLE_PROPERTY_REGEX = /^\w*$/;
// bitmask for deciding what's updated. Sometimes the name needs to be updated,
// sometimes the value needs to be updated, and sometimes both do. This is just
// a simple way to track what's updated such that it's a simple OR operation to
// assimilate new updates.
//
// The only exception is the UNSET bit that tracks when we need to explicitly
// unset and remove the property. This concrn arises because of the special
// way in which nestedProperty handles null/undefined. When you specify `null`,
// it prunes any unused items in the tree. I ran into some issues with it getting
// null vs undefined confused, so UNSET is just a bit that forces the property
// update to send `null`, removing the property explicitly rather than setting
// it to undefined.
var NONE = 0;
var NAME = 1;
var VALUE = 2;
var BOTH = 3;
var UNSET = 4;
module.exports = function keyedContainer(baseObj, path, keyName, valueName) {
keyName = keyName || 'name';
valueName = valueName || 'value';
var i, arr, baseProp;
var changeTypes = {};
if(path && path.length) {
baseProp = nestedProperty(baseObj, path);
arr = baseProp.get();
} else {
arr = baseObj;
}
path = path || '';
// Construct an index:
var indexLookup = {};
if(arr) {
for(i = 0; i < arr.length; i++) {
indexLookup[arr[i][keyName]] = i;
}
}
var isSimpleValueProp = SIMPLE_PROPERTY_REGEX.test(valueName);
var obj = {
set: function(name, value) {
var changeType = value === null ? UNSET : NONE;
// create the base array if necessary
if(!arr) {
if(!baseProp || changeType === UNSET) return;
arr = [];
baseProp.set(arr);
}
var idx = indexLookup[name];
if(idx === undefined) {
if(changeType === UNSET) return;
changeType = changeType | BOTH;
idx = arr.length;
indexLookup[name] = idx;
} else if(value !== (isSimpleValueProp ? arr[idx][valueName] : nestedProperty(arr[idx], valueName).get())) {
changeType = changeType | VALUE;
}
var newValue = arr[idx] = arr[idx] || {};
newValue[keyName] = name;
if(isSimpleValueProp) {
newValue[valueName] = value;
} else {
nestedProperty(newValue, valueName).set(value);
}
// If it's not an unset, force that bit to be unset. This is all related to the fact
// that undefined and null are a bit specially implemented in nestedProperties.
if(value !== null) {
changeType = changeType & ~UNSET;
}
changeTypes[idx] = changeTypes[idx] | changeType;
return obj;
},
get: function(name) {
if(!arr) return;
var idx = indexLookup[name];
if(idx === undefined) {
return undefined;
} else if(isSimpleValueProp) {
return arr[idx][valueName];
} else {
return nestedProperty(arr[idx], valueName).get();
}
},
rename: function(name, newName) {
var idx = indexLookup[name];
if(idx === undefined) return obj;
changeTypes[idx] = changeTypes[idx] | NAME;
indexLookup[newName] = idx;
delete indexLookup[name];
arr[idx][keyName] = newName;
return obj;
},
remove: function(name) {
var idx = indexLookup[name];
if(idx === undefined) return obj;
var object = arr[idx];
if(Object.keys(object).length > 2) {
// This object contains more than just the key/value, so unset
// the value without modifying the entry otherwise:
changeTypes[idx] = changeTypes[idx] | VALUE;
return obj.set(name, null);
}
if(isSimpleValueProp) {
for(i = idx; i < arr.length; i++) {
changeTypes[i] = changeTypes[i] | BOTH;
}
for(i = idx; i < arr.length; i++) {
indexLookup[arr[i][keyName]]--;
}
arr.splice(idx, 1);
delete(indexLookup[name]);
} else {
// Perform this update *strictly* so we can check whether the result's
// been pruned. If so, it's a removal. If not, it's a value unset only.
nestedProperty(object, valueName).set(null);
// Now check if the top level nested property has any keys left. If so,
// the object still has values so we only want to unset the key. If not,
// the entire object can be removed since there's no other data.
// var topLevelKeys = Object.keys(object[valueName.split('.')[0]] || []);
changeTypes[idx] = changeTypes[idx] | VALUE | UNSET;
}
return obj;
},
constructUpdate: function() {
var astr, idx;
var update = {};
var changed = Object.keys(changeTypes);
for(var i = 0; i < changed.length; i++) {
idx = changed[i];
astr = path + '[' + idx + ']';
if(arr[idx]) {
if(changeTypes[idx] & NAME) {
update[astr + '.' + keyName] = arr[idx][keyName];
}
if(changeTypes[idx] & VALUE) {
if(isSimpleValueProp) {
update[astr + '.' + valueName] = (changeTypes[idx] & UNSET) ? null : arr[idx][valueName];
} else {
update[astr + '.' + valueName] = (changeTypes[idx] & UNSET) ? null : nestedProperty(arr[idx], valueName).get();
}
}
} else {
update[astr] = null;
}
}
return update;
}
};
return obj;
};
},{"./nested_property":702}],697:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../registry');
/**
* localize: translate a string for the current locale
*
* @param {object} gd: the graphDiv for context
* gd._context.locale determines the language (& optional region/country)
* the dictionary for each locale may either be supplied in
* gd._context.locales or globally via Plotly.register
* @param {string} s: the string to translate
*/
module.exports = function localize(gd, s) {
var locale = gd._context.locale;
/*
* Priority of lookup:
* contextDicts[locale],
* registeredDicts[locale],
* contextDicts[baseLocale], (if baseLocale is distinct)
* registeredDicts[baseLocale]
* Return the first translation we find.
* This way if you have a regionalization you are allowed to specify
* only what's different from the base locale, everything else will
* fall back on the base.
*/
for(var i = 0; i < 2; i++) {
var locales = gd._context.locales;
for(var j = 0; j < 2; j++) {
var dict = (locales[locale] || {}).dictionary;
if(dict) {
var out = dict[s];
if(out) return out;
}
locales = Registry.localeRegistry;
}
var baseLocale = locale.split('-')[0];
if(baseLocale === locale) break;
locale = baseLocale;
}
return s;
};
},{"../registry":825}],698:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/* eslint-disable no-console */
var config = _dereq_('../plot_api/plot_config');
var loggers = module.exports = {};
/**
* ------------------------------------------
* debugging tools
* ------------------------------------------
*/
loggers.log = function() {
if(config.logging > 1) {
var messages = ['LOG:'];
for(var i = 0; i < arguments.length; i++) {
messages.push(arguments[i]);
}
apply(console.trace || console.log, messages);
}
};
loggers.warn = function() {
if(config.logging > 0) {
var messages = ['WARN:'];
for(var i = 0; i < arguments.length; i++) {
messages.push(arguments[i]);
}
apply(console.trace || console.log, messages);
}
};
loggers.error = function() {
if(config.logging > 0) {
var messages = ['ERROR:'];
for(var i = 0; i < arguments.length; i++) {
messages.push(arguments[i]);
}
apply(console.error, messages);
}
};
/*
* Robust apply, for IE9 where console.log doesn't support
* apply like other functions do
*/
function apply(f, args) {
if(f.apply) {
f.apply(f, args);
}
else {
for(var i = 0; i < args.length; i++) {
f(args[i]);
}
}
}
},{"../plot_api/plot_config":730}],699:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/**
* General helper to manage trace groups based on calcdata
*
* @param {d3.selection} traceLayer: a selection containing a single group
* to draw these traces into
* @param {array} cdModule: array of calcdata items for this
* module and subplot combination. Assumes the calcdata item for each
* trace is an array with the fullData trace attached to the first item.
* @param {string} cls: the class attribute to give each trace group
* so you can give multiple classes separated by spaces
*/
module.exports = function makeTraceGroups(traceLayer, cdModule, cls) {
var traces = traceLayer.selectAll('g.' + cls.replace(/\s/g, '.'))
.data(cdModule, function(cd) { return cd[0].trace.uid; });
traces.exit().remove();
traces.enter().append('g')
.attr('class', cls);
traces.order();
return traces;
};
},{}],700:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
exports.init2dArray = function(rowLength, colLength) {
var array = new Array(rowLength);
for(var i = 0; i < rowLength; i++) array[i] = new Array(colLength);
return array;
};
/**
* transpose a (possibly ragged) 2d array z. inspired by
* http://stackoverflow.com/questions/17428587/
* transposing-a-2d-array-in-javascript
*/
exports.transposeRagged = function(z) {
var maxlen = 0,
zlen = z.length,
i,
j;
// Maximum row length:
for(i = 0; i < zlen; i++) maxlen = Math.max(maxlen, z[i].length);
var t = new Array(maxlen);
for(i = 0; i < maxlen; i++) {
t[i] = new Array(zlen);
for(j = 0; j < zlen; j++) t[i][j] = z[j][i];
}
return t;
};
// our own dot function so that we don't need to include numeric
exports.dot = function(x, y) {
if(!(x.length && y.length) || x.length !== y.length) return null;
var len = x.length,
out,
i;
if(x[0].length) {
// mat-vec or mat-mat
out = new Array(len);
for(i = 0; i < len; i++) out[i] = exports.dot(x[i], y);
}
else if(y[0].length) {
// vec-mat
var yTranspose = exports.transposeRagged(y);
out = new Array(yTranspose.length);
for(i = 0; i < yTranspose.length; i++) out[i] = exports.dot(x, yTranspose[i]);
}
else {
// vec-vec
out = 0;
for(i = 0; i < len; i++) out += x[i] * y[i];
}
return out;
};
// translate by (x,y)
exports.translationMatrix = function(x, y) {
return [[1, 0, x], [0, 1, y], [0, 0, 1]];
};
// rotate by alpha around (0,0)
exports.rotationMatrix = function(alpha) {
var a = alpha * Math.PI / 180;
return [[Math.cos(a), -Math.sin(a), 0],
[Math.sin(a), Math.cos(a), 0],
[0, 0, 1]];
};
// rotate by alpha around (x,y)
exports.rotationXYMatrix = function(a, x, y) {
return exports.dot(
exports.dot(exports.translationMatrix(x, y),
exports.rotationMatrix(a)),
exports.translationMatrix(-x, -y));
};
// applies a 2D transformation matrix to either x and y params or an [x,y] array
exports.apply2DTransform = function(transform) {
return function() {
var args = arguments;
if(args.length === 3) {
args = args[0];
}// from map
var xy = arguments.length === 1 ? args[0] : [args[0], args[1]];
return exports.dot(transform, [xy[0], xy[1], 1]).slice(0, 2);
};
};
// applies a 2D transformation matrix to an [x1,y1,x2,y2] array (to transform a segment)
exports.apply2DTransform2 = function(transform) {
var at = exports.apply2DTransform(transform);
return function(xys) {
return at(xys.slice(0, 2)).concat(at(xys.slice(2, 4)));
};
};
},{}],701:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/**
* sanitized modulus function that always returns in the range [0, d)
* rather than (-d, 0] if v is negative
*/
function mod(v, d) {
var out = v % d;
return out < 0 ? out + d : out;
}
/**
* sanitized modulus function that always returns in the range [-d/2, d/2]
* rather than (-d, 0] if v is negative
*/
function modHalf(v, d) {
return Math.abs(v) > (d / 2) ?
v - Math.round(v / d) * d :
v;
}
module.exports = {
mod: mod,
modHalf: modHalf
};
},{}],702:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var isArrayOrTypedArray = _dereq_('./is_array').isArrayOrTypedArray;
/**
* convert a string s (such as 'xaxis.range[0]')
* representing a property of nested object into set and get methods
* also return the string and object so we don't have to keep track of them
* allows [-1] for an array index, to set a property inside all elements
* of an array
* eg if obj = {arr: [{a: 1}, {a: 2}]}
* you can do p = nestedProperty(obj, 'arr[-1].a')
* but you cannot set the array itself this way, to do that
* just set the whole array.
* eg if obj = {arr: [1, 2, 3]}
* you can't do nestedProperty(obj, 'arr[-1]').set(5)
* but you can do nestedProperty(obj, 'arr').set([5, 5, 5])
*/
module.exports = function nestedProperty(container, propStr) {
if(isNumeric(propStr)) propStr = String(propStr);
else if(typeof propStr !== 'string' ||
propStr.substr(propStr.length - 4) === '[-1]') {
throw 'bad property string';
}
var j = 0,
propParts = propStr.split('.'),
indexed,
indices,
i;
// check for parts of the nesting hierarchy that are numbers (ie array elements)
while(j < propParts.length) {
// look for non-bracket chars, then any number of [##] blocks
indexed = String(propParts[j]).match(/^([^\[\]]*)((\[\-?[0-9]*\])+)$/);
if(indexed) {
if(indexed[1]) propParts[j] = indexed[1];
// allow propStr to start with bracketed array indices
else if(j === 0) propParts.splice(0, 1);
else throw 'bad property string';
indices = indexed[2]
.substr(1, indexed[2].length - 2)
.split('][');
for(i = 0; i < indices.length; i++) {
j++;
propParts.splice(j, 0, Number(indices[i]));
}
}
j++;
}
if(typeof container !== 'object') {
return badContainer(container, propStr, propParts);
}
return {
set: npSet(container, propParts, propStr),
get: npGet(container, propParts),
astr: propStr,
parts: propParts,
obj: container
};
};
function npGet(cont, parts) {
return function() {
var curCont = cont,
curPart,
allSame,
out,
i,
j;
for(i = 0; i < parts.length - 1; i++) {
curPart = parts[i];
if(curPart === -1) {
allSame = true;
out = [];
for(j = 0; j < curCont.length; j++) {
out[j] = npGet(curCont[j], parts.slice(i + 1))();
if(out[j] !== out[0]) allSame = false;
}
return allSame ? out[0] : out;
}
if(typeof curPart === 'number' && !isArrayOrTypedArray(curCont)) {
return undefined;
}
curCont = curCont[curPart];
if(typeof curCont !== 'object' || curCont === null) {
return undefined;
}
}
// only hit this if parts.length === 1
if(typeof curCont !== 'object' || curCont === null) return undefined;
out = curCont[parts[i]];
if(out === null) return undefined;
return out;
};
}
/*
* Can this value be deleted? We can delete `undefined`, and `null` except INSIDE an
* *args* array.
*
* Previously we also deleted some `{}` and `[]`, in order to try and make set/unset
* a net noop; but this causes far more complication than it's worth, and still had
* lots of exceptions. See https://github.com/plotly/plotly.js/issues/1410
*
* *args* arrays get passed directly to API methods and we should respect null if
* the user put it there, but otherwise null is deleted as we use it as code
* in restyle/relayout/update for "delete this value" whereas undefined means
* "ignore this edit"
*/
var ARGS_PATTERN = /(^|\.)args\[/;
function isDeletable(val, propStr) {
return (val === undefined) || (val === null && !propStr.match(ARGS_PATTERN));
}
function npSet(cont, parts, propStr) {
return function(val) {
var curCont = cont,
propPart = '',
containerLevels = [[cont, propPart]],
toDelete = isDeletable(val, propStr),
curPart,
i;
for(i = 0; i < parts.length - 1; i++) {
curPart = parts[i];
if(typeof curPart === 'number' && !isArrayOrTypedArray(curCont)) {
throw 'array index but container is not an array';
}
// handle special -1 array index
if(curPart === -1) {
toDelete = !setArrayAll(curCont, parts.slice(i + 1), val, propStr);
if(toDelete) break;
else return;
}
if(!checkNewContainer(curCont, curPart, parts[i + 1], toDelete)) {
break;
}
curCont = curCont[curPart];
if(typeof curCont !== 'object' || curCont === null) {
throw 'container is not an object';
}
propPart = joinPropStr(propPart, curPart);
containerLevels.push([curCont, propPart]);
}
if(toDelete) {
if(i === parts.length - 1) {
delete curCont[parts[i]];
// The one bit of pruning we still do: drop `undefined` from the end of arrays.
// In case someone has already unset previous items, continue until we hit a
// non-undefined value.
if(Array.isArray(curCont) && +parts[i] === curCont.length - 1) {
while(curCont.length && curCont[curCont.length - 1] === undefined) {
curCont.pop();
}
}
}
}
else curCont[parts[i]] = val;
};
}
function joinPropStr(propStr, newPart) {
var toAdd = newPart;
if(isNumeric(newPart)) toAdd = '[' + newPart + ']';
else if(propStr) toAdd = '.' + newPart;
return propStr + toAdd;
}
// handle special -1 array index
function setArrayAll(containerArray, innerParts, val, propStr) {
var arrayVal = isArrayOrTypedArray(val),
allSet = true,
thisVal = val,
thisPropStr = propStr.replace('-1', 0),
deleteThis = arrayVal ? false : isDeletable(val, thisPropStr),
firstPart = innerParts[0],
i;
for(i = 0; i < containerArray.length; i++) {
thisPropStr = propStr.replace('-1', i);
if(arrayVal) {
thisVal = val[i % val.length];
deleteThis = isDeletable(thisVal, thisPropStr);
}
if(deleteThis) allSet = false;
if(!checkNewContainer(containerArray, i, firstPart, deleteThis)) {
continue;
}
npSet(containerArray[i], innerParts, propStr.replace('-1', i))(thisVal);
}
return allSet;
}
/**
* make new sub-container as needed.
* returns false if there's no container and none is needed
* because we're only deleting an attribute
*/
function checkNewContainer(container, part, nextPart, toDelete) {
if(container[part] === undefined) {
if(toDelete) return false;
if(typeof nextPart === 'number') container[part] = [];
else container[part] = {};
}
return true;
}
function badContainer(container, propStr, propParts) {
return {
set: function() { throw 'bad container'; },
get: function() {},
astr: propStr,
parts: propParts,
obj: container
};
}
},{"./is_array":694,"fast-isnumeric":213}],703:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
// Simple helper functions
// none of these need any external deps
module.exports = function noop() {};
},{}],704:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var isNumeric = _dereq_('fast-isnumeric');
var NOTEDATA = [];
/**
* notifier
* @param {String} text The person's user name
* @param {Number} [delay=1000] The delay time in milliseconds
* or 'long' which provides 2000 ms delay time.
* @return {undefined} this function does not return a value
*/
module.exports = function(text, displayLength) {
if(NOTEDATA.indexOf(text) !== -1) return;
NOTEDATA.push(text);
var ts = 1000;
if(isNumeric(displayLength)) ts = displayLength;
else if(displayLength === 'long') ts = 3000;
var notifierContainer = d3.select('body')
.selectAll('.plotly-notifier')
.data([0]);
notifierContainer.enter()
.append('div')
.classed('plotly-notifier', true);
var notes = notifierContainer.selectAll('.notifier-note').data(NOTEDATA);
function killNote(transition) {
transition
.duration(700)
.style('opacity', 0)
.each('end', function(thisText) {
var thisIndex = NOTEDATA.indexOf(thisText);
if(thisIndex !== -1) NOTEDATA.splice(thisIndex, 1);
d3.select(this).remove();
});
}
notes.enter().append('div')
.classed('notifier-note', true)
.style('opacity', 0)
.each(function(thisText) {
var note = d3.select(this);
note.append('button')
.classed('notifier-close', true)
.html('×')
.on('click', function() {
note.transition().call(killNote);
});
var p = note.append('p');
var lines = thisText.split(/<br\s*\/?>/g);
for(var i = 0; i < lines.length; i++) {
if(i) p.append('br');
p.append('span').text(lines[i]);
}
note.transition()
.duration(700)
.style('opacity', 1)
.transition()
.delay(ts)
.call(killNote);
});
};
},{"d3":147,"fast-isnumeric":213}],705:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var setCursor = _dereq_('./setcursor');
var STASHATTR = 'data-savedcursor';
var NO_CURSOR = '!!';
/*
* works with our CSS cursor classes (see css/_cursor.scss)
* to override a previous cursor set on d3 single-element selections,
* by moving the name of the original cursor to the data-savedcursor attr.
* omit cursor to revert to the previously set value.
*/
module.exports = function overrideCursor(el3, csr) {
var savedCursor = el3.attr(STASHATTR);
if(csr) {
if(!savedCursor) {
var classes = (el3.attr('class') || '').split(' ');
for(var i = 0; i < classes.length; i++) {
var cls = classes[i];
if(cls.indexOf('cursor-') === 0) {
el3.attr(STASHATTR, cls.substr(7))
.classed(cls, false);
}
}
if(!el3.attr(STASHATTR)) {
el3.attr(STASHATTR, NO_CURSOR);
}
}
setCursor(el3, csr);
}
else if(savedCursor) {
el3.attr(STASHATTR, null);
if(savedCursor === NO_CURSOR) setCursor(el3);
else setCursor(el3, savedCursor);
}
};
},{"./setcursor":714}],706:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var dot = _dereq_('./matrix').dot;
var BADNUM = _dereq_('../constants/numerical').BADNUM;
var polygon = module.exports = {};
/**
* Turn an array of [x, y] pairs into a polygon object
* that can test if points are inside it
*
* @param ptsIn Array of [x, y] pairs
*
* @returns polygon Object {xmin, xmax, ymin, ymax, pts, contains}
* (x|y)(min|max) are the bounding rect of the polygon
* pts is the original array, with the first pair repeated at the end
* contains is a function: (pt, omitFirstEdge)
* pt is the [x, y] pair to test
* omitFirstEdge truthy means points exactly on the first edge don't
* count. This is for use adding one polygon to another so we
* don't double-count the edge where they meet.
* returns boolean: is pt inside the polygon (including on its edges)
*/
polygon.tester = function tester(ptsIn) {
var pts = ptsIn.slice(),
xmin = pts[0][0],
xmax = xmin,
ymin = pts[0][1],
ymax = ymin,
i;
pts.push(pts[0]);
for(i = 1; i < pts.length; i++) {
xmin = Math.min(xmin, pts[i][0]);
xmax = Math.max(xmax, pts[i][0]);
ymin = Math.min(ymin, pts[i][1]);
ymax = Math.max(ymax, pts[i][1]);
}
// do we have a rectangle? Handle this here, so we can use the same
// tester for the rectangular case without sacrificing speed
var isRect = false,
rectFirstEdgeTest;
if(pts.length === 5) {
if(pts[0][0] === pts[1][0]) { // vert, horz, vert, horz
if(pts[2][0] === pts[3][0] &&
pts[0][1] === pts[3][1] &&
pts[1][1] === pts[2][1]) {
isRect = true;
rectFirstEdgeTest = function(pt) { return pt[0] === pts[0][0]; };
}
}
else if(pts[0][1] === pts[1][1]) { // horz, vert, horz, vert
if(pts[2][1] === pts[3][1] &&
pts[0][0] === pts[3][0] &&
pts[1][0] === pts[2][0]) {
isRect = true;
rectFirstEdgeTest = function(pt) { return pt[1] === pts[0][1]; };
}
}
}
function rectContains(pt, omitFirstEdge) {
var x = pt[0],
y = pt[1];
if(x === BADNUM || x < xmin || x > xmax || y === BADNUM || y < ymin || y > ymax) {
// pt is outside the bounding box of polygon
return false;
}
if(omitFirstEdge && rectFirstEdgeTest(pt)) return false;
return true;
}
function contains(pt, omitFirstEdge) {
var x = pt[0],
y = pt[1];
if(x === BADNUM || x < xmin || x > xmax || y === BADNUM || y < ymin || y > ymax) {
// pt is outside the bounding box of polygon
return false;
}
var imax = pts.length,
x1 = pts[0][0],
y1 = pts[0][1],
crossings = 0,
i,
x0,
y0,
xmini,
ycross;
for(i = 1; i < imax; i++) {
// find all crossings of a vertical line upward from pt with
// polygon segments
// crossings exactly at xmax don't count, unless the point is
// exactly on the segment, then it counts as inside.
x0 = x1;
y0 = y1;
x1 = pts[i][0];
y1 = pts[i][1];
xmini = Math.min(x0, x1);
// outside the bounding box of this segment, it's only a crossing
// if it's below the box.
if(x < xmini || x > Math.max(x0, x1) || y > Math.max(y0, y1)) {
continue;
}
else if(y < Math.min(y0, y1)) {
// don't count the left-most point of the segment as a crossing
// because we don't want to double-count adjacent crossings
// UNLESS the polygon turns past vertical at exactly this x
// Note that this is repeated below, but we can't factor it out
// because
if(x !== xmini) crossings++;
}
// inside the bounding box, check the actual line intercept
else {
// vertical segment - we know already that the point is exactly
// on the segment, so mark the crossing as exactly at the point.
if(x1 === x0) ycross = y;
// any other angle
else ycross = y0 + (x - x0) * (y1 - y0) / (x1 - x0);
// exactly on the edge: counts as inside the polygon, unless it's the
// first edge and we're omitting it.
if(y === ycross) {
if(i === 1 && omitFirstEdge) return false;
return true;
}
if(y <= ycross && x !== xmini) crossings++;
}
}
// if we've gotten this far, odd crossings means inside, even is outside
return crossings % 2 === 1;
}
// detect if poly is degenerate
var degenerate = true;
var lastPt = pts[0];
for(i = 1; i < pts.length; i++) {
if(lastPt[0] !== pts[i][0] || lastPt[1] !== pts[i][1]) {
degenerate = false;
break;
}
}
return {
xmin: xmin,
xmax: xmax,
ymin: ymin,
ymax: ymax,
pts: pts,
contains: isRect ? rectContains : contains,
isRect: isRect,
degenerate: degenerate
};
};
/**
* Test if a segment of a points array is bent or straight
*
* @param pts Array of [x, y] pairs
* @param start the index of the proposed start of the straight section
* @param end the index of the proposed end point
* @param tolerance the max distance off the line connecting start and end
* before the line counts as bent
* @returns boolean: true means this segment is bent, false means straight
*/
var isBent = polygon.isSegmentBent = function isBent(pts, start, end, tolerance) {
var startPt = pts[start],
segment = [pts[end][0] - startPt[0], pts[end][1] - startPt[1]],
segmentSquared = dot(segment, segment),
segmentLen = Math.sqrt(segmentSquared),
unitPerp = [-segment[1] / segmentLen, segment[0] / segmentLen],
i,
part,
partParallel;
for(i = start + 1; i < end; i++) {
part = [pts[i][0] - startPt[0], pts[i][1] - startPt[1]];
partParallel = dot(part, segment);
if(partParallel < 0 || partParallel > segmentSquared ||
Math.abs(dot(part, unitPerp)) > tolerance) return true;
}
return false;
};
/**
* Make a filtering polygon, to minimize the number of segments
*
* @param pts Array of [x, y] pairs (must start with at least 1 pair)
* @param tolerance the maximum deviation from straight allowed for
* removing points to simplify the polygon
*
* @returns Object {addPt, raw, filtered}
* addPt is a function(pt: [x, y] pair) to add a raw point and
* continue filtering
* raw is all the input points
* filtered is the resulting filtered Array of [x, y] pairs
*/
polygon.filter = function filter(pts, tolerance) {
var ptsFiltered = [pts[0]],
doneRawIndex = 0,
doneFilteredIndex = 0;
function addPt(pt) {
pts.push(pt);
var prevFilterLen = ptsFiltered.length,
iLast = doneRawIndex;
ptsFiltered.splice(doneFilteredIndex + 1);
for(var i = iLast + 1; i < pts.length; i++) {
if(i === pts.length - 1 || isBent(pts, iLast, i + 1, tolerance)) {
ptsFiltered.push(pts[i]);
if(ptsFiltered.length < prevFilterLen - 2) {
doneRawIndex = i;
doneFilteredIndex = ptsFiltered.length - 1;
}
iLast = i;
}
}
}
if(pts.length > 1) {
var lastPt = pts.pop();
addPt(lastPt);
}
return {
addPt: addPt,
raw: pts,
filtered: ptsFiltered
};
};
},{"../constants/numerical":670,"./matrix":700}],707:[function(_dereq_,module,exports){
(function (global){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var showNoWebGlMsg = _dereq_('./show_no_webgl_msg');
// Note that this module should be ONLY required into
// files corresponding to regl trace modules
// so that bundles with non-regl only don't include
// regl and all its bytes.
var createRegl = _dereq_('regl');
/**
* Idempotent version of createRegl. Create regl instances
* in the correct canvases with the correct attributes and
* options
*
* @param {DOM node or object} gd : graph div object
* @param {array} extensions : list of extension to pass to createRegl
*
* @return {boolean} true if all createRegl calls succeeded, false otherwise
*/
module.exports = function prepareRegl(gd, extensions) {
var fullLayout = gd._fullLayout;
var success = true;
fullLayout._glcanvas.each(function(d) {
if(d.regl) return;
// only parcoords needs pick layer
if(d.pick && !fullLayout._has('parcoords')) return;
try {
d.regl = createRegl({
canvas: this,
attributes: {
antialias: !d.pick,
preserveDrawingBuffer: true
},
pixelRatio: gd._context.plotGlPixelRatio || global.devicePixelRatio,
extensions: extensions || []
});
} catch(e) {
success = false;
}
if(success) {
this.addEventListener('webglcontextlost', function(event) {
if(gd && gd.emit) {
gd.emit('plotly_webglcontextlost', {
event: event,
layer: d.key
});
}
}, false);
}
});
if(!success) {
showNoWebGlMsg({container: fullLayout._glcontainer.node()});
}
return success;
};
}).call(this,typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {})
},{"./show_no_webgl_msg":715,"regl":475}],708:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/**
* Push array with unique items
*
* Ignores falsy items, except 0 so we can use it to construct arrays of indices.
*
* @param {array} array
* array to be filled
* @param {any} item
* item to be or not to be inserted
* @return {array}
* ref to array (now possibly containing one more item)
*
*/
module.exports = function pushUnique(array, item) {
if(item instanceof RegExp) {
var itemStr = item.toString(),
i;
for(i = 0; i < array.length; i++) {
if(array[i] instanceof RegExp && array[i].toString() === itemStr) {
return array;
}
}
array.push(item);
}
else if((item || item === 0) && array.indexOf(item) === -1) array.push(item);
return array;
};
},{}],709:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../lib');
var config = _dereq_('../plot_api/plot_config');
/**
* Copy arg array *without* removing `undefined` values from objects.
*
* @param gd
* @param args
* @returns {Array}
*/
function copyArgArray(gd, args) {
var copy = [];
var arg;
for(var i = 0; i < args.length; i++) {
arg = args[i];
if(arg === gd) copy[i] = arg;
else if(typeof arg === 'object') {
copy[i] = Array.isArray(arg) ?
Lib.extendDeep([], arg) :
Lib.extendDeepAll({}, arg);
}
else copy[i] = arg;
}
return copy;
}
// -----------------------------------------------------
// Undo/Redo queue for plots
// -----------------------------------------------------
var queue = {};
// TODO: disable/enable undo and redo buttons appropriately
/**
* Add an item to the undoQueue for a graphDiv
*
* @param gd
* @param undoFunc Function undo this operation
* @param undoArgs Args to supply undoFunc with
* @param redoFunc Function to redo this operation
* @param redoArgs Args to supply redoFunc with
*/
queue.add = function(gd, undoFunc, undoArgs, redoFunc, redoArgs) {
var queueObj,
queueIndex;
// make sure we have the queue and our position in it
gd.undoQueue = gd.undoQueue || {index: 0, queue: [], sequence: false};
queueIndex = gd.undoQueue.index;
// if we're already playing an undo or redo, or if this is an auto operation
// (like pane resize... any others?) then we don't save this to the undo queue
if(gd.autoplay) {
if(!gd.undoQueue.inSequence) gd.autoplay = false;
return;
}
// if we're not in a sequence or are just starting, we need a new queue item
if(!gd.undoQueue.sequence || gd.undoQueue.beginSequence) {
queueObj = {undo: {calls: [], args: []}, redo: {calls: [], args: []}};
gd.undoQueue.queue.splice(queueIndex, gd.undoQueue.queue.length - queueIndex, queueObj);
gd.undoQueue.index += 1;
} else {
queueObj = gd.undoQueue.queue[queueIndex - 1];
}
gd.undoQueue.beginSequence = false;
// we unshift to handle calls for undo in a forward for loop later
if(queueObj) {
queueObj.undo.calls.unshift(undoFunc);
queueObj.undo.args.unshift(undoArgs);
queueObj.redo.calls.push(redoFunc);
queueObj.redo.args.push(redoArgs);
}
if(gd.undoQueue.queue.length > config.queueLength) {
gd.undoQueue.queue.shift();
gd.undoQueue.index--;
}
};
/**
* Begin a sequence of undoQueue changes
*
* @param gd
*/
queue.startSequence = function(gd) {
gd.undoQueue = gd.undoQueue || {index: 0, queue: [], sequence: false};
gd.undoQueue.sequence = true;
gd.undoQueue.beginSequence = true;
};
/**
* Stop a sequence of undoQueue changes
*
* Call this *after* you're sure your undo chain has ended
*
* @param gd
*/
queue.stopSequence = function(gd) {
gd.undoQueue = gd.undoQueue || {index: 0, queue: [], sequence: false};
gd.undoQueue.sequence = false;
gd.undoQueue.beginSequence = false;
};
/**
* Move one step back in the undo queue, and undo the object there.
*
* @param gd
*/
queue.undo = function undo(gd) {
var queueObj, i;
if(gd.framework && gd.framework.isPolar) {
gd.framework.undo();
return;
}
if(gd.undoQueue === undefined ||
isNaN(gd.undoQueue.index) ||
gd.undoQueue.index <= 0) {
return;
}
// index is pointing to next *forward* queueObj, point to the one we're undoing
gd.undoQueue.index--;
// get the queueObj for instructions on how to undo
queueObj = gd.undoQueue.queue[gd.undoQueue.index];
// this sequence keeps things from adding to the queue during undo/redo
gd.undoQueue.inSequence = true;
for(i = 0; i < queueObj.undo.calls.length; i++) {
queue.plotDo(gd, queueObj.undo.calls[i], queueObj.undo.args[i]);
}
gd.undoQueue.inSequence = false;
gd.autoplay = false;
};
/**
* Redo the current object in the undo, then move forward in the queue.
*
* @param gd
*/
queue.redo = function redo(gd) {
var queueObj, i;
if(gd.framework && gd.framework.isPolar) {
gd.framework.redo();
return;
}
if(gd.undoQueue === undefined ||
isNaN(gd.undoQueue.index) ||
gd.undoQueue.index >= gd.undoQueue.queue.length) {
return;
}
// get the queueObj for instructions on how to undo
queueObj = gd.undoQueue.queue[gd.undoQueue.index];
// this sequence keeps things from adding to the queue during undo/redo
gd.undoQueue.inSequence = true;
for(i = 0; i < queueObj.redo.calls.length; i++) {
queue.plotDo(gd, queueObj.redo.calls[i], queueObj.redo.args[i]);
}
gd.undoQueue.inSequence = false;
gd.autoplay = false;
// index is pointing to the thing we just redid, move it
gd.undoQueue.index++;
};
/**
* Called by undo/redo to make the actual changes.
*
* Not meant to be called publically, but included for mocking out in tests.
*
* @param gd
* @param func
* @param args
*/
queue.plotDo = function(gd, func, args) {
gd.autoplay = true;
// this *won't* copy gd and it preserves `undefined` properties!
args = copyArgArray(gd, args);
// call the supplied function
func.apply(null, args);
};
module.exports = queue;
},{"../lib":693,"../plot_api/plot_config":730}],710:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/*
* make a regex for matching counter ids/names ie xaxis, xaxis2, xaxis10...
*
* @param {string} head: the head of the pattern, eg 'x' matches 'x', 'x2', 'x10' etc.
* 'xy' is a special case for cartesian subplots: it matches 'x2y3' etc
* @param {Optional(string)} tail: a fixed piece after the id
* eg counterRegex('scene', '.annotations') for scene2.annotations etc.
* @param {boolean} openEnded: if true, the string may continue past the match.
*/
exports.counter = function(head, tail, openEnded) {
var fullTail = (tail || '') + (openEnded ? '' : '$');
if(head === 'xy') {
return new RegExp('^x([2-9]|[1-9][0-9]+)?y([2-9]|[1-9][0-9]+)?' + fullTail);
}
return new RegExp('^' + head + '([2-9]|[1-9][0-9]+)?' + fullTail);
};
},{}],711:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
// ASCEND: chop off the last nesting level - either [<n>] or .<key> - to ascend
// the attribute tree. the remaining attrString is in match[1]
var ASCEND = /^(.*)(\.[^\.\[\]]+|\[\d\])$/;
// SIMPLEATTR: is this an un-nested attribute? (no dots or brackets)
var SIMPLEATTR = /^[^\.\[\]]+$/;
/*
* calculate a relative attribute string, similar to a relative path
*
* @param {string} baseAttr:
* an attribute string, such as 'annotations[3].x'. The "current location"
* is the attribute string minus the last component ('annotations[3]')
* @param {string} relativeAttr:
* a route to the desired attribute string, using '^' to ascend
*
* @return {string} attrString:
* for example:
* relativeAttr('annotations[3].x', 'y') = 'annotations[3].y'
* relativeAttr('annotations[3].x', '^[2].z') = 'annotations[2].z'
* relativeAttr('annotations[3].x', '^^margin') = 'margin'
* relativeAttr('annotations[3].x', '^^margin.r') = 'margin.r'
*/
module.exports = function(baseAttr, relativeAttr) {
while(relativeAttr) {
var match = baseAttr.match(ASCEND);
if(match) baseAttr = match[1];
else if(baseAttr.match(SIMPLEATTR)) baseAttr = '';
else throw new Error('bad relativeAttr call:' + [baseAttr, relativeAttr]);
if(relativeAttr.charAt(0) === '^') relativeAttr = relativeAttr.slice(1);
else break;
}
if(baseAttr && relativeAttr.charAt(0) !== '[') {
return baseAttr + '.' + relativeAttr;
}
return baseAttr + relativeAttr;
};
},{}],712:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isArrayOrTypedArray = _dereq_('./is_array').isArrayOrTypedArray;
var isPlainObject = _dereq_('./is_plain_object');
/**
* Relink private _keys and keys with a function value from one container
* to the new container.
* Relink means copying if object is pass-by-value and adding a reference
* if object is pass-by-ref.
* This prevents deepCopying massive structures like a webgl context.
*/
module.exports = function relinkPrivateKeys(toContainer, fromContainer) {
for(var k in fromContainer) {
var fromVal = fromContainer[k];
var toVal = toContainer[k];
if(toVal === fromVal) {
continue;
}
if(k.charAt(0) === '_' || typeof fromVal === 'function') {
// if it already exists at this point, it's something
// that we recreate each time around, so ignore it
if(k in toContainer) continue;
toContainer[k] = fromVal;
}
else if(isArrayOrTypedArray(fromVal) && isArrayOrTypedArray(toVal) && isPlainObject(fromVal[0])) {
// filter out data_array items that can contain user objects
// most of the time the toVal === fromVal check will catch these early
// but if the user makes new ones we also don't want to recurse in.
if(k === 'customdata' || k === 'ids') continue;
// recurse into arrays containers
var minLen = Math.min(fromVal.length, toVal.length);
for(var j = 0; j < minLen; j++) {
if((toVal[j] !== fromVal[j]) && isPlainObject(fromVal[j]) && isPlainObject(toVal[j])) {
relinkPrivateKeys(toVal[j], fromVal[j]);
}
}
}
else if(isPlainObject(fromVal) && isPlainObject(toVal)) {
// recurse into objects, but only if they still exist
relinkPrivateKeys(toVal, fromVal);
if(!Object.keys(toVal).length) delete toContainer[k];
}
}
};
},{"./is_array":694,"./is_plain_object":695}],713:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var loggers = _dereq_('./loggers');
var identity = _dereq_('./identity');
// don't trust floating point equality - fraction of bin size to call
// "on the line" and ensure that they go the right way specified by
// linelow
var roundingError = 1e-9;
/**
* findBin - find the bin for val - note that it can return outside the
* bin range any pos. or neg. integer for linear bins, or -1 or
* bins.length-1 for explicit.
* bins is either an object {start,size,end} or an array length #bins+1
* bins can be either increasing or decreasing but must be monotonic
* for linear bins, we can just calculate. For listed bins, run a binary
* search linelow (truthy) says the bin boundary should be attributed to
* the lower bin rather than the default upper bin
*/
exports.findBin = function(val, bins, linelow) {
if(isNumeric(bins.start)) {
return linelow ?
Math.ceil((val - bins.start) / bins.size - roundingError) - 1 :
Math.floor((val - bins.start) / bins.size + roundingError);
}
else {
var n1 = 0;
var n2 = bins.length;
var c = 0;
var binSize = (n2 > 1) ? (bins[n2 - 1] - bins[0]) / (n2 - 1) : 1;
var n, test;
if(binSize >= 0) {
test = linelow ? lessThan : lessOrEqual;
} else {
test = linelow ? greaterOrEqual : greaterThan;
}
val += binSize * roundingError * (linelow ? -1 : 1) * (binSize >= 0 ? 1 : -1);
// c is just to avoid infinite loops if there's an error
while(n1 < n2 && c++ < 100) {
n = Math.floor((n1 + n2) / 2);
if(test(bins[n], val)) n1 = n + 1;
else n2 = n;
}
if(c > 90) loggers.log('Long binary search...');
return n1 - 1;
}
};
function lessThan(a, b) { return a < b; }
function lessOrEqual(a, b) { return a <= b; }
function greaterThan(a, b) { return a > b; }
function greaterOrEqual(a, b) { return a >= b; }
exports.sorterAsc = function(a, b) { return a - b; };
exports.sorterDes = function(a, b) { return b - a; };
/**
* find distinct values in an array, lumping together ones that appear to
* just be off by a rounding error
* return the distinct values and the minimum difference between any two
*/
exports.distinctVals = function(valsIn) {
var vals = valsIn.slice(); // otherwise we sort the original array...
vals.sort(exports.sorterAsc);
var l = vals.length - 1,
minDiff = (vals[l] - vals[0]) || 1,
errDiff = minDiff / (l || 1) / 10000,
v2 = [vals[0]];
for(var i = 0; i < l; i++) {
// make sure values aren't just off by a rounding error
if(vals[i + 1] > vals[i] + errDiff) {
minDiff = Math.min(minDiff, vals[i + 1] - vals[i]);
v2.push(vals[i + 1]);
}
}
return {vals: v2, minDiff: minDiff};
};
/**
* return the smallest element from (sorted) array arrayIn that's bigger than val,
* or (reverse) the largest element smaller than val
* used to find the best tick given the minimum (non-rounded) tick
* particularly useful for date/time where things are not powers of 10
* binary search is probably overkill here...
*/
exports.roundUp = function(val, arrayIn, reverse) {
var low = 0,
high = arrayIn.length - 1,
mid,
c = 0,
dlow = reverse ? 0 : 1,
dhigh = reverse ? 1 : 0,
rounded = reverse ? Math.ceil : Math.floor;
// c is just to avoid infinite loops if there's an error
while(low < high && c++ < 100) {
mid = rounded((low + high) / 2);
if(arrayIn[mid] <= val) low = mid + dlow;
else high = mid - dhigh;
}
return arrayIn[low];
};
/**
* Tweak to Array.sort(sortFn) that improves performance for pre-sorted arrays
*
* Motivation: sometimes we need to sort arrays but the input is likely to
* already be sorted. Browsers don't seem to pick up on pre-sorted arrays,
* and in fact Chrome is actually *slower* sorting pre-sorted arrays than purely
* random arrays. FF is at least faster if the array is pre-sorted, but still
* not as fast as it could be.
* Here's how this plays out sorting a length-1e6 array:
*
* Calls to Sort FN | Chrome bare | FF bare | Chrome tweak | FF tweak
* | v68.0 Mac | v61.0 Mac| |
* ------------------+---------------+-----------+----------------+------------
* ordered | 30.4e6 | 10.1e6 | 1e6 | 1e6
* reversed | 29.4e6 | 9.9e6 | 1e6 + reverse | 1e6 + reverse
* random | ~21e6 | ~18.7e6 | ~21e6 | ~18.7e6
*
* So this is a substantial win for pre-sorted (ordered or exactly reversed)
* arrays. Including this wrapper on an unsorted array adds a penalty that will
* in general be only a few calls to the sort function. The only case this
* penalty will be significant is if the array is mostly sorted but there are
* a few unsorted items near the end, but the penalty is still at most N calls
* out of (for N=1e6) ~20N total calls
*
* @param {Array} array: the array, to be sorted in place
* @param {function} sortFn: As in Array.sort, function(a, b) that puts
* item a before item b if the return is negative, a after b if positive,
* and no change if zero.
* @return {Array}: the original array, sorted in place.
*/
exports.sort = function(array, sortFn) {
var notOrdered = 0;
var notReversed = 0;
for(var i = 1; i < array.length; i++) {
var pairOrder = sortFn(array[i], array[i - 1]);
if(pairOrder < 0) notOrdered = 1;
else if(pairOrder > 0) notReversed = 1;
if(notOrdered && notReversed) return array.sort(sortFn);
}
return notReversed ? array : array.reverse();
};
/**
* find index in array 'arr' that minimizes 'fn'
*
* @param {array} arr : array where to search
* @param {fn (optional)} fn : function to minimize,
* if not given, fn is the identity function
* @return {integer}
*/
exports.findIndexOfMin = function(arr, fn) {
fn = fn || identity;
var min = Infinity;
var ind;
for(var i = 0; i < arr.length; i++) {
var v = fn(arr[i]);
if(v < min) {
min = v;
ind = i;
}
}
return ind;
};
},{"./identity":692,"./loggers":698,"fast-isnumeric":213}],714:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
// works with our CSS cursor classes (see css/_cursor.scss)
// to apply cursors to d3 single-element selections.
// omit cursor to revert to the default.
module.exports = function setCursor(el3, csr) {
(el3.attr('class') || '').split(' ').forEach(function(cls) {
if(cls.indexOf('cursor-') === 0) el3.classed(cls, false);
});
if(csr) el3.classed('cursor-' + csr, true);
};
},{}],715:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Color = _dereq_('../components/color');
var noop = function() {};
/**
* Prints a no webgl error message into the scene container
* @param {scene instance} scene
*
* Expects 'scene' to have property 'container'
*
*/
module.exports = function showNoWebGlMsg(scene) {
for(var prop in scene) {
if(typeof scene[prop] === 'function') scene[prop] = noop;
}
scene.destroy = function() {
scene.container.parentNode.removeChild(scene.container);
};
var div = document.createElement('div');
div.className = 'no-webgl';
div.style.cursor = 'pointer';
div.style.fontSize = '24px';
div.style.color = Color.defaults[0];
div.style.position = 'absolute';
div.style.left = div.style.top = '0px';
div.style.width = div.style.height = '100%';
div.style['background-color'] = Color.lightLine;
div.style['z-index'] = 30;
var p = document.createElement('p');
p.textContent = 'WebGL is not supported by your browser - visit https://get.webgl.org for more info';
p.style.position = 'relative';
p.style.top = '50%';
p.style.left = '50%';
p.style.height = '30%';
p.style.width = '50%';
p.style.margin = '-15% 0 0 -25%';
div.appendChild(p);
scene.container.appendChild(div);
scene.container.style.background = '#FFFFFF';
scene.container.onclick = function() {
window.open('https://get.webgl.org');
};
// return before setting up camera and onrender methods
return false;
};
},{"../components/color":567}],716:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var isArrayOrTypedArray = _dereq_('./is_array').isArrayOrTypedArray;
/**
* aggNums() returns the result of an aggregate function applied to an array of
* values, where non-numerical values have been tossed out.
*
* @param {function} f - aggregation function (e.g., Math.min)
* @param {Number} v - initial value (continuing from previous calls)
* if there's no continuing value, use null for selector-type
* functions (max,min), or 0 for summations
* @param {Array} a - array to aggregate (may be nested, we will recurse,
* but all elements must have the same dimension)
* @param {Number} len - maximum length of a to aggregate
* @return {Number} - result of f applied to a starting from v
*/
exports.aggNums = function(f, v, a, len) {
var i,
b;
if(!len || len > a.length) len = a.length;
if(!isNumeric(v)) v = false;
if(isArrayOrTypedArray(a[0])) {
b = new Array(len);
for(i = 0; i < len; i++) b[i] = exports.aggNums(f, v, a[i]);
a = b;
}
for(i = 0; i < len; i++) {
if(!isNumeric(v)) v = a[i];
else if(isNumeric(a[i])) v = f(+v, +a[i]);
}
return v;
};
/**
* mean & std dev functions using aggNums, so it handles non-numerics nicely
* even need to use aggNums instead of .length, to toss out non-numerics
*/
exports.len = function(data) {
return exports.aggNums(function(a) { return a + 1; }, 0, data);
};
exports.mean = function(data, len) {
if(!len) len = exports.len(data);
return exports.aggNums(function(a, b) { return a + b; }, 0, data) / len;
};
exports.midRange = function(numArr) {
if(numArr === undefined || numArr.length === 0) return undefined;
return (exports.aggNums(Math.max, null, numArr) + exports.aggNums(Math.min, null, numArr)) / 2;
};
exports.variance = function(data, len, mean) {
if(!len) len = exports.len(data);
if(!isNumeric(mean)) mean = exports.mean(data, len);
return exports.aggNums(function(a, b) {
return a + Math.pow(b - mean, 2);
}, 0, data) / len;
};
exports.stdev = function(data, len, mean) {
return Math.sqrt(exports.variance(data, len, mean));
};
/**
* interp() computes a percentile (quantile) for a given distribution.
* We interpolate the distribution (to compute quantiles, we follow method #10 here:
* http://www.amstat.org/publications/jse/v14n3/langford.html).
* Typically the index or rank (n * arr.length) may be non-integer.
* For reference: ends are clipped to the extreme values in the array;
* For box plots: index you get is half a point too high (see
* http://en.wikipedia.org/wiki/Percentile#Nearest_rank) but note that this definition
* indexes from 1 rather than 0, so we subtract 1/2 (instead of add).
*
* @param {Array} arr - This array contains the values that make up the distribution.
* @param {Number} n - Between 0 and 1, n = p/100 is such that we compute the p^th percentile.
* For example, the 50th percentile (or median) corresponds to n = 0.5
* @return {Number} - percentile
*/
exports.interp = function(arr, n) {
if(!isNumeric(n)) throw 'n should be a finite number';
n = n * arr.length - 0.5;
if(n < 0) return arr[0];
if(n > arr.length - 1) return arr[arr.length - 1];
var frac = n % 1;
return frac * arr[Math.ceil(n)] + (1 - frac) * arr[Math.floor(n)];
};
},{"./is_array":694,"fast-isnumeric":213}],717:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var rgba = _dereq_('color-normalize');
function str2RgbaArray(color) {
if(!color) return [0, 0, 0, 1];
return rgba(color);
}
module.exports = str2RgbaArray;
},{"color-normalize":107}],718:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/* global MathJax:false */
var d3 = _dereq_('d3');
var Lib = _dereq_('../lib');
var xmlnsNamespaces = _dereq_('../constants/xmlns_namespaces');
var LINE_SPACING = _dereq_('../constants/alignment').LINE_SPACING;
// text converter
function getSize(_selection, _dimension) {
return _selection.node().getBoundingClientRect()[_dimension];
}
var FIND_TEX = /([^$]*)([$]+[^$]*[$]+)([^$]*)/;
exports.convertToTspans = function(_context, gd, _callback) {
var str = _context.text();
// Until we get tex integrated more fully (so it can be used along with non-tex)
// allow some elements to prohibit it by attaching 'data-notex' to the original
var tex = (!_context.attr('data-notex')) &&
(typeof MathJax !== 'undefined') &&
str.match(FIND_TEX);
var parent = d3.select(_context.node().parentNode);
if(parent.empty()) return;
var svgClass = (_context.attr('class')) ? _context.attr('class').split(' ')[0] : 'text';
svgClass += '-math';
parent.selectAll('svg.' + svgClass).remove();
parent.selectAll('g.' + svgClass + '-group').remove();
_context.style('display', null)
.attr({
// some callers use data-unformatted *from the <text> element* in 'cancel'
// so we need it here even if we're going to turn it into math
// these two (plus style and text-anchor attributes) form the key we're
// going to use for Drawing.bBox
'data-unformatted': str,
'data-math': 'N'
});
function showText() {
if(!parent.empty()) {
svgClass = _context.attr('class') + '-math';
parent.select('svg.' + svgClass).remove();
}
_context.text('')
.style('white-space', 'pre');
var hasLink = buildSVGText(_context.node(), str);
if(hasLink) {
// at least in Chrome, pointer-events does not seem
// to be honored in children of <text> elements
// so if we have an anchor, we have to make the
// whole element respond
_context.style('pointer-events', 'all');
}
exports.positionText(_context);
if(_callback) _callback.call(_context);
}
if(tex) {
((gd && gd._promises) || []).push(new Promise(function(resolve) {
_context.style('display', 'none');
var fontSize = parseInt(_context.node().style.fontSize, 10);
var config = {fontSize: fontSize};
texToSVG(tex[2], config, function(_svgEl, _glyphDefs, _svgBBox) {
parent.selectAll('svg.' + svgClass).remove();
parent.selectAll('g.' + svgClass + '-group').remove();
var newSvg = _svgEl && _svgEl.select('svg');
if(!newSvg || !newSvg.node()) {
showText();
resolve();
return;
}
var mathjaxGroup = parent.append('g')
.classed(svgClass + '-group', true)
.attr({
'pointer-events': 'none',
'data-unformatted': str,
'data-math': 'Y'
});
mathjaxGroup.node().appendChild(newSvg.node());
// stitch the glyph defs
if(_glyphDefs && _glyphDefs.node()) {
newSvg.node().insertBefore(_glyphDefs.node().cloneNode(true),
newSvg.node().firstChild);
}
newSvg.attr({
'class': svgClass,
height: _svgBBox.height,
preserveAspectRatio: 'xMinYMin meet'
})
.style({overflow: 'visible', 'pointer-events': 'none'});
var fill = _context.node().style.fill || 'black';
newSvg.select('g').attr({fill: fill, stroke: fill});
var newSvgW = getSize(newSvg, 'width'),
newSvgH = getSize(newSvg, 'height'),
newX = +_context.attr('x') - newSvgW *
{start: 0, middle: 0.5, end: 1}[_context.attr('text-anchor') || 'start'],
// font baseline is about 1/4 fontSize below centerline
textHeight = fontSize || getSize(_context, 'height'),
dy = -textHeight / 4;
if(svgClass[0] === 'y') {
mathjaxGroup.attr({
transform: 'rotate(' + [-90, +_context.attr('x'), +_context.attr('y')] +
') translate(' + [-newSvgW / 2, dy - newSvgH / 2] + ')'
});
newSvg.attr({x: +_context.attr('x'), y: +_context.attr('y')});
}
else if(svgClass[0] === 'l') {
newSvg.attr({x: _context.attr('x'), y: dy - (newSvgH / 2)});
}
else if(svgClass[0] === 'a') {
newSvg.attr({x: 0, y: dy});
}
else {
newSvg.attr({x: newX, y: (+_context.attr('y') + dy - newSvgH / 2)});
}
if(_callback) _callback.call(_context, mathjaxGroup);
resolve(mathjaxGroup);
});
}));
}
else showText();
return _context;
};
// MathJax
var LT_MATCH = /(<|<|<)/g;
var GT_MATCH = /(>|>|>)/g;
function cleanEscapesForTex(s) {
return s.replace(LT_MATCH, '\\lt ')
.replace(GT_MATCH, '\\gt ');
}
function texToSVG(_texString, _config, _callback) {
var randomID = 'math-output-' + Lib.randstr({}, 64);
var tmpDiv = d3.select('body').append('div')
.attr({id: randomID})
.style({visibility: 'hidden', position: 'absolute'})
.style({'font-size': _config.fontSize + 'px'})
.text(cleanEscapesForTex(_texString));
MathJax.Hub.Queue(['Typeset', MathJax.Hub, tmpDiv.node()], function() {
var glyphDefs = d3.select('body').select('#MathJax_SVG_glyphs');
if(tmpDiv.select('.MathJax_SVG').empty() || !tmpDiv.select('svg').node()) {
Lib.log('There was an error in the tex syntax.', _texString);
_callback();
}
else {
var svgBBox = tmpDiv.select('svg').node().getBoundingClientRect();
_callback(tmpDiv.select('.MathJax_SVG'), glyphDefs, svgBBox);
}
tmpDiv.remove();
});
}
var TAG_STYLES = {
// would like to use baseline-shift for sub/sup but FF doesn't support it
// so we need to use dy along with the uber hacky shift-back-to
// baseline below
sup: 'font-size:70%',
sub: 'font-size:70%',
b: 'font-weight:bold',
i: 'font-style:italic',
a: 'cursor:pointer',
span: '',
em: 'font-style:italic;font-weight:bold'
};
// baseline shifts for sub and sup
var SHIFT_DY = {
sub: '0.3em',
sup: '-0.6em'
};
// reset baseline by adding a tspan (empty except for a zero-width space)
// with dy of -70% * SHIFT_DY (because font-size=70%)
var RESET_DY = {
sub: '-0.21em',
sup: '0.42em'
};
var ZERO_WIDTH_SPACE = '\u200b';
/*
* Whitelist of protocols in user-supplied urls. Mostly we want to avoid javascript
* and related attack vectors. The empty items are there for IE, that in various
* versions treats relative paths as having different flavors of no protocol, while
* other browsers have these explicitly inherit the protocol of the page they're in.
*/
var PROTOCOLS = ['http:', 'https:', 'mailto:', '', undefined, ':'];
var STRIP_TAGS = new RegExp('</?(' + Object.keys(TAG_STYLES).join('|') + ')( [^>]*)?/?>', 'g');
var NEWLINES = /(\r\n?|\n)/g;
var SPLIT_TAGS = /(<[^<>]*>)/;
var ONE_TAG = /<(\/?)([^ >]*)(\s+(.*))?>/i;
var BR_TAG = /<br(\s+.*)?>/i;
/*
* style and href: pull them out of either single or double quotes. Also
* - target: (_blank|_self|_parent|_top|framename)
* note that you can't use target to get a popup but if you use popup,
* a `framename` will be passed along as the name of the popup window.
* per the spec, cannot contain whitespace.
* for backward compatibility we default to '_blank'
* - popup: a custom one for us to enable popup (new window) links. String
* for window.open -> strWindowFeatures, like 'menubar=yes,width=500,height=550'
* note that at least in Chrome, you need to give at least one property
* in this string or the page will open in a new tab anyway. We follow this
* convention and will not make a popup if this string is empty.
* per the spec, cannot contain whitespace.
*
* Because we hack in other attributes with style (sub & sup), drop any trailing
* semicolon in user-supplied styles so we can consistently append the tag-dependent style
*
* These are for tag attributes; Chrome anyway will convert entities in
* attribute values, but not in attribute names
* you can test this by for example:
* > p = document.createElement('p')
* > p.innerHTML = '<span style="font-color:red;">Hi</span>'
* > p.innerHTML
* <- '<span style="font-color:red;">Hi</span>'
*/
var STYLEMATCH = /(^|[\s"'])style\s*=\s*("([^"]*);?"|'([^']*);?')/i;
var HREFMATCH = /(^|[\s"'])href\s*=\s*("([^"]*)"|'([^']*)')/i;
var TARGETMATCH = /(^|[\s"'])target\s*=\s*("([^"\s]*)"|'([^'\s]*)')/i;
var POPUPMATCH = /(^|[\s"'])popup\s*=\s*("([\w=,]*)"|'([\w=,]*)')/i;
// dedicated matcher for these quoted regexes, that can return their results
// in two different places
function getQuotedMatch(_str, re) {
if(!_str) return null;
var match = _str.match(re);
var result = match && (match[3] || match[4]);
return result && convertEntities(result);
}
var COLORMATCH = /(^|;)\s*color:/;
exports.plainText = function(_str) {
// strip out our pseudo-html so we have a readable
// version to put into text fields
return (_str || '').replace(STRIP_TAGS, ' ');
};
/*
* N.B. HTML entities are listed without the leading '&' and trailing ';'
* https://www.freeformatter.com/html-entities.html
*
* FWIW if we wanted to support the full set, it has 2261 entries:
* https://www.w3.org/TR/html5/entities.json
* though I notice that some of these are duplicates and/or are missing ";"
* eg: "&", "&", "&", and "&" all map to "&"
* We no longer need to include numeric entities here, these are now handled
* by String.fromCodePoint/fromCharCode
*
* Anyway the only ones that are really important to allow are the HTML special
* chars <, >, and &, because these ones can trigger special processing if not
* replaced by the corresponding entity.
*/
var entityToUnicode = {
mu: 'μ',
amp: '&',
lt: '<',
gt: '>',
nbsp: ' ',
times: '×',
plusmn: '±',
deg: '°'
};
// NOTE: in general entities can contain uppercase too (so [a-zA-Z]) but all the
// ones we support use only lowercase. If we ever change that, update the regex.
var ENTITY_MATCH = /&(#\d+|#x[\da-fA-F]+|[a-z]+);/g;
function convertEntities(_str) {
return _str.replace(ENTITY_MATCH, function(fullMatch, innerMatch) {
var outChar;
if(innerMatch.charAt(0) === '#') {
// cannot use String.fromCodePoint in IE
outChar = fromCodePoint(
innerMatch.charAt(1) === 'x' ?
parseInt(innerMatch.substr(2), 16) :
parseInt(innerMatch.substr(1), 10)
);
}
else outChar = entityToUnicode[innerMatch];
// as in regular HTML, if we didn't decode the entity just
// leave the raw text in place.
return outChar || fullMatch;
});
}
exports.convertEntities = convertEntities;
function fromCodePoint(code) {
// Don't allow overflow. In Chrome this turns into � but I feel like it's
// more useful to just not convert it at all.
if(code > 0x10FFFF) return;
var stringFromCodePoint = String.fromCodePoint;
if(stringFromCodePoint) return stringFromCodePoint(code);
// IE doesn't have String.fromCodePoint
// see https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/String/fromCodePoint
var stringFromCharCode = String.fromCharCode;
if(code <= 0xFFFF) return stringFromCharCode(code);
return stringFromCharCode(
(code >> 10) + 0xD7C0,
(code % 0x400) + 0xDC00
);
}
/*
* buildSVGText: convert our pseudo-html into SVG tspan elements, and attach these
* to containerNode
*
* @param {svg text element} containerNode: the <text> node to insert this text into
* @param {string} str: the pseudo-html string to convert to svg
*
* @returns {bool}: does the result contain any links? We need to handle the text element
* somewhat differently if it does, so just keep track of this when it happens.
*/
function buildSVGText(containerNode, str) {
/*
* Normalize behavior between IE and others wrt newlines and whitespace:pre
* this combination makes IE barf https://github.com/plotly/plotly.js/issues/746
* Chrome and FF display \n, \r, or \r\n as a space in this mode.
* I feel like at some point we turned these into <br> but currently we don't so
* I'm just going to cement what we do now in Chrome and FF
*/
str = str.replace(NEWLINES, ' ');
var hasLink = false;
// as we're building the text, keep track of what elements we're nested inside
// nodeStack will be an array of {node, type, style, href, target, popup}
// where only type: 'a' gets the last 3 and node is only added when it's created
var nodeStack = [];
var currentNode;
var currentLine = -1;
function newLine() {
currentLine++;
var lineNode = document.createElementNS(xmlnsNamespaces.svg, 'tspan');
d3.select(lineNode).attr({
class: 'line',
dy: (currentLine * LINE_SPACING) + 'em'
});
containerNode.appendChild(lineNode);
currentNode = lineNode;
var oldNodeStack = nodeStack;
nodeStack = [{node: lineNode}];
if(oldNodeStack.length > 1) {
for(var i = 1; i < oldNodeStack.length; i++) {
enterNode(oldNodeStack[i]);
}
}
}
function enterNode(nodeSpec) {
var type = nodeSpec.type;
var nodeAttrs = {};
var nodeType;
if(type === 'a') {
nodeType = 'a';
var target = nodeSpec.target;
var href = nodeSpec.href;
var popup = nodeSpec.popup;
if(href) {
nodeAttrs = {
'xlink:xlink:show': (target === '_blank' || target.charAt(0) !== '_') ? 'new' : 'replace',
target: target,
'xlink:xlink:href': href
};
if(popup) {
// security: href and target are not inserted as code but
// as attributes. popup is, but limited to /[A-Za-z0-9_=,]/
nodeAttrs.onclick = 'window.open(this.href.baseVal,this.target.baseVal,"' +
popup + '");return false;';
}
}
}
else nodeType = 'tspan';
if(nodeSpec.style) nodeAttrs.style = nodeSpec.style;
var newNode = document.createElementNS(xmlnsNamespaces.svg, nodeType);
if(type === 'sup' || type === 'sub') {
addTextNode(currentNode, ZERO_WIDTH_SPACE);
currentNode.appendChild(newNode);
var resetter = document.createElementNS(xmlnsNamespaces.svg, 'tspan');
addTextNode(resetter, ZERO_WIDTH_SPACE);
d3.select(resetter).attr('dy', RESET_DY[type]);
nodeAttrs.dy = SHIFT_DY[type];
currentNode.appendChild(newNode);
currentNode.appendChild(resetter);
}
else {
currentNode.appendChild(newNode);
}
d3.select(newNode).attr(nodeAttrs);
currentNode = nodeSpec.node = newNode;
nodeStack.push(nodeSpec);
}
function addTextNode(node, text) {
node.appendChild(document.createTextNode(text));
}
function exitNode(type) {
// A bare closing tag can't close the root node. If we encounter this it
// means there's an extra closing tag that can just be ignored:
if(nodeStack.length === 1) {
Lib.log('Ignoring unexpected end tag </' + type + '>.', str);
return;
}
var innerNode = nodeStack.pop();
if(type !== innerNode.type) {
Lib.log('Start tag <' + innerNode.type + '> doesnt match end tag <' +
type + '>. Pretending it did match.', str);
}
currentNode = nodeStack[nodeStack.length - 1].node;
}
var hasLines = BR_TAG.test(str);
if(hasLines) newLine();
else {
currentNode = containerNode;
nodeStack = [{node: containerNode}];
}
var parts = str.split(SPLIT_TAGS);
for(var i = 0; i < parts.length; i++) {
var parti = parts[i];
var match = parti.match(ONE_TAG);
var tagType = match && match[2].toLowerCase();
var tagStyle = TAG_STYLES[tagType];
if(tagType === 'br') {
newLine();
}
else if(tagStyle === undefined) {
addTextNode(currentNode, convertEntities(parti));
}
else {
// tag - open or close
if(match[1]) {
exitNode(tagType);
}
else {
var extra = match[4];
var nodeSpec = {type: tagType};
// now add style, from both the tag name and any extra css
// Most of the svg css that users will care about is just like html,
// but font color is different (uses fill). Let our users ignore this.
var css = getQuotedMatch(extra, STYLEMATCH);
if(css) {
css = css.replace(COLORMATCH, '$1 fill:');
if(tagStyle) css += ';' + tagStyle;
}
else if(tagStyle) css = tagStyle;
if(css) nodeSpec.style = css;
if(tagType === 'a') {
hasLink = true;
var href = getQuotedMatch(extra, HREFMATCH);
if(href) {
// check safe protocols
var dummyAnchor = document.createElement('a');
dummyAnchor.href = href;
if(PROTOCOLS.indexOf(dummyAnchor.protocol) !== -1) {
// Decode href to allow both already encoded and not encoded
// URIs. Without decoding prior encoding, an already encoded
// URI would be encoded twice producing a semantically different URI.
nodeSpec.href = encodeURI(decodeURI(href));
nodeSpec.target = getQuotedMatch(extra, TARGETMATCH) || '_blank';
nodeSpec.popup = getQuotedMatch(extra, POPUPMATCH);
}
}
}
enterNode(nodeSpec);
}
}
}
return hasLink;
}
exports.lineCount = function lineCount(s) {
return s.selectAll('tspan.line').size() || 1;
};
exports.positionText = function positionText(s, x, y) {
return s.each(function() {
var text = d3.select(this);
function setOrGet(attr, val) {
if(val === undefined) {
val = text.attr(attr);
if(val === null) {
text.attr(attr, 0);
val = 0;
}
}
else text.attr(attr, val);
return val;
}
var thisX = setOrGet('x', x);
var thisY = setOrGet('y', y);
if(this.nodeName === 'text') {
text.selectAll('tspan.line').attr({x: thisX, y: thisY});
}
});
};
function alignHTMLWith(_base, container, options) {
var alignH = options.horizontalAlign,
alignV = options.verticalAlign || 'top',
bRect = _base.node().getBoundingClientRect(),
cRect = container.node().getBoundingClientRect(),
thisRect,
getTop,
getLeft;
if(alignV === 'bottom') {
getTop = function() { return bRect.bottom - thisRect.height; };
} else if(alignV === 'middle') {
getTop = function() { return bRect.top + (bRect.height - thisRect.height) / 2; };
} else { // default: top
getTop = function() { return bRect.top; };
}
if(alignH === 'right') {
getLeft = function() { return bRect.right - thisRect.width; };
} else if(alignH === 'center') {
getLeft = function() { return bRect.left + (bRect.width - thisRect.width) / 2; };
} else { // default: left
getLeft = function() { return bRect.left; };
}
return function() {
thisRect = this.node().getBoundingClientRect();
this.style({
top: (getTop() - cRect.top) + 'px',
left: (getLeft() - cRect.left) + 'px',
'z-index': 1000
});
return this;
};
}
/*
* Editable title
* @param {d3.selection} context: the element being edited. Normally text,
* but if it isn't, you should provide the styling options
* @param {object} options:
* @param {div} options.gd: graphDiv
* @param {d3.selection} options.delegate: item to bind events to if not this
* @param {boolean} options.immediate: start editing now (true) or on click (false, default)
* @param {string} options.fill: font color if not as shown
* @param {string} options.background: background color if not as shown
* @param {string} options.text: initial text, if not as shown
* @param {string} options.horizontalAlign: alignment of the edit box wrt. the bound element
* @param {string} options.verticalAlign: alignment of the edit box wrt. the bound element
*/
exports.makeEditable = function(context, options) {
var gd = options.gd;
var _delegate = options.delegate;
var dispatch = d3.dispatch('edit', 'input', 'cancel');
var handlerElement = _delegate || context;
context.style({'pointer-events': _delegate ? 'none' : 'all'});
if(context.size() !== 1) throw new Error('boo');
function handleClick() {
appendEditable();
context.style({opacity: 0});
// also hide any mathjax svg
var svgClass = handlerElement.attr('class'),
mathjaxClass;
if(svgClass) mathjaxClass = '.' + svgClass.split(' ')[0] + '-math-group';
else mathjaxClass = '[class*=-math-group]';
if(mathjaxClass) {
d3.select(context.node().parentNode).select(mathjaxClass).style({opacity: 0});
}
}
function selectElementContents(_el) {
var el = _el.node();
var range = document.createRange();
range.selectNodeContents(el);
var sel = window.getSelection();
sel.removeAllRanges();
sel.addRange(range);
el.focus();
}
function appendEditable() {
var plotDiv = d3.select(gd);
var container = plotDiv.select('.svg-container');
var div = container.append('div');
var cStyle = context.node().style;
var fontSize = parseFloat(cStyle.fontSize || 12);
var initialText = options.text;
if(initialText === undefined) initialText = context.attr('data-unformatted');
div.classed('plugin-editable editable', true)
.style({
position: 'absolute',
'font-family': cStyle.fontFamily || 'Arial',
'font-size': fontSize,
color: options.fill || cStyle.fill || 'black',
opacity: 1,
'background-color': options.background || 'transparent',
outline: '#ffffff33 1px solid',
margin: [-fontSize / 8 + 1, 0, 0, -1].join('px ') + 'px',
padding: '0',
'box-sizing': 'border-box'
})
.attr({contenteditable: true})
.text(initialText)
.call(alignHTMLWith(context, container, options))
.on('blur', function() {
gd._editing = false;
context.text(this.textContent)
.style({opacity: 1});
var svgClass = d3.select(this).attr('class'),
mathjaxClass;
if(svgClass) mathjaxClass = '.' + svgClass.split(' ')[0] + '-math-group';
else mathjaxClass = '[class*=-math-group]';
if(mathjaxClass) {
d3.select(context.node().parentNode).select(mathjaxClass).style({opacity: 0});
}
var text = this.textContent;
d3.select(this).transition().duration(0).remove();
d3.select(document).on('mouseup', null);
dispatch.edit.call(context, text);
})
.on('focus', function() {
var editDiv = this;
gd._editing = true;
d3.select(document).on('mouseup', function() {
if(d3.event.target === editDiv) return false;
if(document.activeElement === div.node()) div.node().blur();
});
})
.on('keyup', function() {
if(d3.event.which === 27) {
gd._editing = false;
context.style({opacity: 1});
d3.select(this)
.style({opacity: 0})
.on('blur', function() { return false; })
.transition().remove();
dispatch.cancel.call(context, this.textContent);
}
else {
dispatch.input.call(context, this.textContent);
d3.select(this).call(alignHTMLWith(context, container, options));
}
})
.on('keydown', function() {
if(d3.event.which === 13) this.blur();
})
.call(selectElementContents);
}
if(options.immediate) handleClick();
else handlerElement.on('click', handleClick);
return d3.rebind(context, dispatch, 'on');
};
},{"../constants/alignment":665,"../constants/xmlns_namespaces":671,"../lib":693,"d3":147}],719:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var timerCache = {};
/**
* Throttle a callback. `callback` executes synchronously only if
* more than `minInterval` milliseconds have already elapsed since the latest
* call (if any). Otherwise we wait until `minInterval` is over and execute the
* last callback received while waiting.
* So the first and last events in a train are always executed (eventually)
* but some of the events in the middle can be dropped.
*
* @param {string} id: an identifier to mark events to throttle together
* @param {number} minInterval: minimum time, in milliseconds, between
* invocations of `callback`
* @param {function} callback: the function to throttle. `callback` itself
* should be a purely synchronous function.
*/
exports.throttle = function throttle(id, minInterval, callback) {
var cache = timerCache[id];
var now = Date.now();
if(!cache) {
/*
* Throw out old items before making a new one, to prevent the cache
* getting overgrown, for example from old plots that have been replaced.
* 1 minute age is arbitrary.
*/
for(var idi in timerCache) {
if(timerCache[idi].ts < now - 60000) {
delete timerCache[idi];
}
}
cache = timerCache[id] = {ts: 0, timer: null};
}
_clearTimeout(cache);
function exec() {
callback();
cache.ts = Date.now();
if(cache.onDone) {
cache.onDone();
cache.onDone = null;
}
}
if(now > cache.ts + minInterval) {
exec();
return;
}
cache.timer = setTimeout(function() {
exec();
cache.timer = null;
}, minInterval);
};
exports.done = function(id) {
var cache = timerCache[id];
if(!cache || !cache.timer) return Promise.resolve();
return new Promise(function(resolve) {
var previousOnDone = cache.onDone;
cache.onDone = function onDone() {
if(previousOnDone) previousOnDone();
resolve();
cache.onDone = null;
};
});
};
/**
* Clear the throttle cache for one or all timers
* @param {optional string} id:
* if provided, clear just this timer
* if omitted, clear all timers (mainly useful for testing)
*/
exports.clear = function(id) {
if(id) {
_clearTimeout(timerCache[id]);
delete timerCache[id];
}
else {
for(var idi in timerCache) exports.clear(idi);
}
};
function _clearTimeout(cache) {
if(cache && cache.timer !== null) {
clearTimeout(cache.timer);
cache.timer = null;
}
}
},{}],720:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
/**
* convert a linear value into a logged value, folding negative numbers into
* the given range
*/
module.exports = function toLogRange(val, range) {
if(val > 0) return Math.log(val) / Math.LN10;
// move a negative value reference to a log axis - just put the
// result at the lowest range value on the plot (or if the range also went negative,
// one millionth of the top of the range)
var newVal = Math.log(Math.min(range[0], range[1])) / Math.LN10;
if(!isNumeric(newVal)) newVal = Math.log(Math.max(range[0], range[1])) / Math.LN10 - 6;
return newVal;
};
},{"fast-isnumeric":213}],721:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var topojsonUtils = module.exports = {};
var locationmodeToLayer = _dereq_('../plots/geo/constants').locationmodeToLayer;
var topojsonFeature = _dereq_('topojson-client').feature;
topojsonUtils.getTopojsonName = function(geoLayout) {
return [
geoLayout.scope.replace(/ /g, '-'), '_',
geoLayout.resolution.toString(), 'm'
].join('');
};
topojsonUtils.getTopojsonPath = function(topojsonURL, topojsonName) {
return topojsonURL + topojsonName + '.json';
};
topojsonUtils.getTopojsonFeatures = function(trace, topojson) {
var layer = locationmodeToLayer[trace.locationmode],
obj = topojson.objects[layer];
return topojsonFeature(topojson, obj).features;
};
},{"../plots/geo/constants":770,"topojson-client":514}],722:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
moduleType: 'locale',
name: 'en-US',
dictionary: {
'Click to enter Colorscale title': 'Click to enter Colorscale title'
},
format: {
date: '%m/%d/%Y'
}
};
},{}],723:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
moduleType: 'locale',
name: 'en',
dictionary: {
'Click to enter Colorscale title': 'Click to enter Colourscale title'
},
format: {
days: ['Sunday', 'Monday', 'Tuesday', 'Wednesday', 'Thursday', 'Friday', 'Saturday'],
shortDays: ['Sun', 'Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat'],
months: [
'January', 'February', 'March', 'April', 'May', 'June',
'July', 'August', 'September', 'October', 'November', 'December'
],
shortMonths: [
'Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun',
'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'
],
periods: ['AM', 'PM'],
dateTime: '%a %b %e %X %Y',
date: '%d/%m/%Y',
time: '%H:%M:%S',
decimal: '.',
thousands: ',',
grouping: [3],
currency: ['$', ''],
year: '%Y',
month: '%b %Y',
dayMonth: '%b %-d',
dayMonthYear: '%b %-d, %Y'
}
};
},{}],724:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../registry');
/*
* containerArrayMatch: does this attribute string point into a
* layout container array?
*
* @param {String} astr: an attribute string, like *annotations[2].text*
*
* @returns {Object | false} Returns false if `astr` doesn't match a container
* array. If it does, returns:
* {array: {String}, index: {Number}, property: {String}}
* ie the attribute string for the array, the index within the array (or ''
* if the whole array) and the property within that (or '' if the whole array
* or the whole object)
*/
module.exports = function containerArrayMatch(astr) {
var rootContainers = Registry.layoutArrayContainers,
regexpContainers = Registry.layoutArrayRegexes,
rootPart = astr.split('[')[0],
arrayStr,
match;
// look for regexp matches first, because they may be nested inside root matches
// eg updatemenus[i].buttons is nested inside updatemenus
for(var i = 0; i < regexpContainers.length; i++) {
match = astr.match(regexpContainers[i]);
if(match && match.index === 0) {
arrayStr = match[0];
break;
}
}
// now look for root matches
if(!arrayStr) arrayStr = rootContainers[rootContainers.indexOf(rootPart)];
if(!arrayStr) return false;
var tail = astr.substr(arrayStr.length);
if(!tail) return {array: arrayStr, index: '', property: ''};
match = tail.match(/^\[(0|[1-9][0-9]*)\](\.(.+))?$/);
if(!match) return false;
return {array: arrayStr, index: Number(match[1]), property: match[3] || ''};
};
},{"../registry":825}],725:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../lib');
var extendFlat = Lib.extendFlat;
var isPlainObject = Lib.isPlainObject;
var traceOpts = {
valType: 'flaglist',
extras: ['none'],
flags: ['calc', 'clearAxisTypes', 'plot', 'style', 'colorbars'],
};
var layoutOpts = {
valType: 'flaglist',
extras: ['none'],
flags: [
'calc', 'plot', 'legend', 'ticks', 'axrange',
'layoutstyle', 'modebar', 'camera', 'arraydraw'
],
};
// flags for inside restyle/relayout include a few extras
// that shouldn't be used in attributes, to deal with certain
// combinations and conditionals efficiently
var traceEditTypeFlags = traceOpts.flags.slice()
.concat(['fullReplot']);
var layoutEditTypeFlags = layoutOpts.flags.slice()
.concat('layoutReplot');
module.exports = {
traces: traceOpts,
layout: layoutOpts,
/*
* default (all false) edit flags for restyle (traces)
* creates a new object each call, so the caller can mutate freely
*/
traceFlags: function() { return falseObj(traceEditTypeFlags); },
/*
* default (all false) edit flags for relayout
* creates a new object each call, so the caller can mutate freely
*/
layoutFlags: function() { return falseObj(layoutEditTypeFlags); },
/*
* update `flags` with the `editType` values found in `attr`
*/
update: function(flags, attr) {
var editType = attr.editType;
if(editType && editType !== 'none') {
var editTypeParts = editType.split('+');
for(var i = 0; i < editTypeParts.length; i++) {
flags[editTypeParts[i]] = true;
}
}
},
overrideAll: overrideAll
};
function falseObj(keys) {
var out = {};
for(var i = 0; i < keys.length; i++) out[keys[i]] = false;
return out;
}
/**
* For attributes that are largely copied from elsewhere into a plot type that doesn't
* support partial redraws - overrides the editType field of all attributes in the object
*
* @param {object} attrs: the attributes to override. Will not be mutated.
* @param {string} editTypeOverride: the new editType to use
* @param {'nested'|'from-root'} overrideContainers:
* - 'nested' will override editType for nested containers but not the root.
* - 'from-root' will also override editType of the root container.
* Containers below the absolute top level (trace or layout root) DO need an
* editType even if they are not `valObject`s themselves (eg `scatter.marker`)
* to handle the case where you edit the whole container.
*
* @return {object} a new attributes object with `editType` modified as directed
*/
function overrideAll(attrs, editTypeOverride, overrideContainers) {
var out = extendFlat({}, attrs);
for(var key in out) {
var attr = out[key];
if(isPlainObject(attr)) {
out[key] = overrideOne(attr, editTypeOverride, overrideContainers, key);
}
}
if(overrideContainers === 'from-root') out.editType = editTypeOverride;
return out;
}
function overrideOne(attr, editTypeOverride, overrideContainers, key) {
if(attr.valType) {
var out = extendFlat({}, attr);
out.editType = editTypeOverride;
if(Array.isArray(attr.items)) {
out.items = new Array(attr.items.length);
for(var i = 0; i < attr.items.length; i++) {
out.items[i] = overrideOne(attr.items[i], editTypeOverride, 'from-root');
}
}
return out;
}
else {
// don't provide an editType for the _deprecated container
return overrideAll(attr, editTypeOverride,
(key.charAt(0) === '_') ? 'nested' : 'from-root');
}
}
},{"../lib":693}],726:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var m4FromQuat = _dereq_('gl-mat4/fromQuat');
var Registry = _dereq_('../registry');
var Lib = _dereq_('../lib');
var Plots = _dereq_('../plots/plots');
var AxisIds = _dereq_('../plots/cartesian/axis_ids');
var cleanId = AxisIds.cleanId;
var getFromTrace = AxisIds.getFromTrace;
var Color = _dereq_('../components/color');
// clear the promise queue if one of them got rejected
exports.clearPromiseQueue = function(gd) {
if(Array.isArray(gd._promises) && gd._promises.length > 0) {
Lib.log('Clearing previous rejected promises from queue.');
}
gd._promises = [];
};
// make a few changes to the layout right away
// before it gets used for anything
// backward compatibility and cleanup of nonstandard options
exports.cleanLayout = function(layout) {
var i, j;
if(!layout) layout = {};
// cannot have (x|y)axis1, numbering goes axis, axis2, axis3...
if(layout.xaxis1) {
if(!layout.xaxis) layout.xaxis = layout.xaxis1;
delete layout.xaxis1;
}
if(layout.yaxis1) {
if(!layout.yaxis) layout.yaxis = layout.yaxis1;
delete layout.yaxis1;
}
if(layout.scene1) {
if(!layout.scene) layout.scene = layout.scene1;
delete layout.scene1;
}
var axisAttrRegex = (Plots.subplotsRegistry.cartesian || {}).attrRegex;
var sceneAttrRegex = (Plots.subplotsRegistry.gl3d || {}).attrRegex;
var keys = Object.keys(layout);
for(i = 0; i < keys.length; i++) {
var key = keys[i];
// modifications to cartesian axes
if(axisAttrRegex && axisAttrRegex.test(key)) {
var ax = layout[key];
if(ax.anchor && ax.anchor !== 'free') {
ax.anchor = cleanId(ax.anchor);
}
if(ax.overlaying) ax.overlaying = cleanId(ax.overlaying);
// old method of axis type - isdate and islog (before category existed)
if(!ax.type) {
if(ax.isdate) ax.type = 'date';
else if(ax.islog) ax.type = 'log';
else if(ax.isdate === false && ax.islog === false) ax.type = 'linear';
}
if(ax.autorange === 'withzero' || ax.autorange === 'tozero') {
ax.autorange = true;
ax.rangemode = 'tozero';
}
delete ax.islog;
delete ax.isdate;
delete ax.categories; // replaced by _categories
// prune empty domain arrays made before the new nestedProperty
if(emptyContainer(ax, 'domain')) delete ax.domain;
// autotick -> tickmode
if(ax.autotick !== undefined) {
if(ax.tickmode === undefined) {
ax.tickmode = ax.autotick ? 'auto' : 'linear';
}
delete ax.autotick;
}
}
// modifications for 3D scenes
else if(sceneAttrRegex && sceneAttrRegex.test(key)) {
var scene = layout[key];
// clean old Camera coords
var cameraposition = scene.cameraposition;
if(Array.isArray(cameraposition) && cameraposition[0].length === 4) {
var rotation = cameraposition[0],
center = cameraposition[1],
radius = cameraposition[2],
mat = m4FromQuat([], rotation),
eye = [];
for(j = 0; j < 3; ++j) {
eye[j] = center[j] + radius * mat[2 + 4 * j];
}
scene.camera = {
eye: {x: eye[0], y: eye[1], z: eye[2]},
center: {x: center[0], y: center[1], z: center[2]},
up: {x: mat[1], y: mat[5], z: mat[9]}
};
delete scene.cameraposition;
}
}
}
var annotationsLen = Array.isArray(layout.annotations) ? layout.annotations.length : 0;
for(i = 0; i < annotationsLen; i++) {
var ann = layout.annotations[i];
if(!Lib.isPlainObject(ann)) continue;
if(ann.ref) {
if(ann.ref === 'paper') {
ann.xref = 'paper';
ann.yref = 'paper';
}
else if(ann.ref === 'data') {
ann.xref = 'x';
ann.yref = 'y';
}
delete ann.ref;
}
cleanAxRef(ann, 'xref');
cleanAxRef(ann, 'yref');
}
var shapesLen = Array.isArray(layout.shapes) ? layout.shapes.length : 0;
for(i = 0; i < shapesLen; i++) {
var shape = layout.shapes[i];
if(!Lib.isPlainObject(shape)) continue;
cleanAxRef(shape, 'xref');
cleanAxRef(shape, 'yref');
}
var legend = layout.legend;
if(legend) {
// check for old-style legend positioning (x or y is +/- 100)
if(legend.x > 3) {
legend.x = 1.02;
legend.xanchor = 'left';
}
else if(legend.x < -2) {
legend.x = -0.02;
legend.xanchor = 'right';
}
if(legend.y > 3) {
legend.y = 1.02;
legend.yanchor = 'bottom';
}
else if(legend.y < -2) {
legend.y = -0.02;
legend.yanchor = 'top';
}
}
/*
* Moved from rotate -> orbit for dragmode
*/
if(layout.dragmode === 'rotate') layout.dragmode = 'orbit';
// sanitize rgb(fractions) and rgba(fractions) that old tinycolor
// supported, but new tinycolor does not because they're not valid css
Color.clean(layout);
return layout;
};
function cleanAxRef(container, attr) {
var valIn = container[attr],
axLetter = attr.charAt(0);
if(valIn && valIn !== 'paper') {
container[attr] = cleanId(valIn, axLetter);
}
}
/*
* cleanData: Make a few changes to the data for backward compatibility
* before it gets used for anything. Modifies the data traces users provide.
*
* Important: if you're going to add something here that modifies a data array,
* update it in place so the new array === the old one.
*/
exports.cleanData = function(data) {
for(var tracei = 0; tracei < data.length; tracei++) {
var trace = data[tracei];
var i;
// use xbins to bin data in x, and ybins to bin data in y
if(trace.type === 'histogramy' && 'xbins' in trace && !('ybins' in trace)) {
trace.ybins = trace.xbins;
delete trace.xbins;
}
// error_y.opacity is obsolete - merge into color
if(trace.error_y && 'opacity' in trace.error_y) {
var dc = Color.defaults,
yeColor = trace.error_y.color ||
(Registry.traceIs(trace, 'bar') ? Color.defaultLine : dc[tracei % dc.length]);
trace.error_y.color = Color.addOpacity(
Color.rgb(yeColor),
Color.opacity(yeColor) * trace.error_y.opacity);
delete trace.error_y.opacity;
}
// convert bardir to orientation, and put the data into
// the axes it's eventually going to be used with
if('bardir' in trace) {
if(trace.bardir === 'h' && (Registry.traceIs(trace, 'bar') ||
trace.type.substr(0, 9) === 'histogram')) {
trace.orientation = 'h';
exports.swapXYData(trace);
}
delete trace.bardir;
}
// now we have only one 1D histogram type, and whether
// it uses x or y data depends on trace.orientation
if(trace.type === 'histogramy') exports.swapXYData(trace);
if(trace.type === 'histogramx' || trace.type === 'histogramy') {
trace.type = 'histogram';
}
// scl->scale, reversescl->reversescale
if('scl' in trace) {
trace.colorscale = trace.scl;
delete trace.scl;
}
if('reversescl' in trace) {
trace.reversescale = trace.reversescl;
delete trace.reversescl;
}
// axis ids x1 -> x, y1-> y
if(trace.xaxis) trace.xaxis = cleanId(trace.xaxis, 'x');
if(trace.yaxis) trace.yaxis = cleanId(trace.yaxis, 'y');
// scene ids scene1 -> scene
if(Registry.traceIs(trace, 'gl3d') && trace.scene) {
trace.scene = Plots.subplotsRegistry.gl3d.cleanId(trace.scene);
}
if(!Registry.traceIs(trace, 'pie') && !Registry.traceIs(trace, 'bar')) {
if(Array.isArray(trace.textposition)) {
for(i = 0; i < trace.textposition.length; i++) {
trace.textposition[i] = cleanTextPosition(trace.textposition[i]);
}
}
else if(trace.textposition) {
trace.textposition = cleanTextPosition(trace.textposition);
}
}
// fix typo in colorscale definition
var _module = Registry.getModule(trace);
if(_module && _module.colorbar) {
var containerName = _module.colorbar.container;
var container = containerName ? trace[containerName] : trace;
if(container && container.colorscale) {
if(container.colorscale === 'YIGnBu') container.colorscale = 'YlGnBu';
if(container.colorscale === 'YIOrRd') container.colorscale = 'YlOrRd';
}
}
// fix typo in surface 'highlight*' definitions
if(trace.type === 'surface' && Lib.isPlainObject(trace.contours)) {
var dims = ['x', 'y', 'z'];
for(i = 0; i < dims.length; i++) {
var opts = trace.contours[dims[i]];
if(!Lib.isPlainObject(opts)) continue;
if(opts.highlightColor) {
opts.highlightcolor = opts.highlightColor;
delete opts.highlightColor;
}
if(opts.highlightWidth) {
opts.highlightwidth = opts.highlightWidth;
delete opts.highlightWidth;
}
}
}
// fixes from converting finance from transforms to real trace types
if(trace.type === 'candlestick' || trace.type === 'ohlc') {
var increasingShowlegend = (trace.increasing || {}).showlegend !== false;
var decreasingShowlegend = (trace.decreasing || {}).showlegend !== false;
var increasingName = cleanFinanceDir(trace.increasing);
var decreasingName = cleanFinanceDir(trace.decreasing);
// now figure out something smart to do with the separate direction
// names we removed
if((increasingName !== false) && (decreasingName !== false)) {
// both sub-names existed: base name previously had no effect
// so ignore it and try to find a shared part of the sub-names
var newName = commonPrefix(
increasingName, decreasingName,
increasingShowlegend, decreasingShowlegend
);
// if no common part, leave whatever name was (or wasn't) there
if(newName) trace.name = newName;
}
else if((increasingName || decreasingName) && !trace.name) {
// one sub-name existed but not the base name - just use the sub-name
trace.name = increasingName || decreasingName;
}
}
// transforms backward compatibility fixes
if(Array.isArray(trace.transforms)) {
var transforms = trace.transforms;
for(i = 0; i < transforms.length; i++) {
var transform = transforms[i];
if(!Lib.isPlainObject(transform)) continue;
switch(transform.type) {
case 'filter':
if(transform.filtersrc) {
transform.target = transform.filtersrc;
delete transform.filtersrc;
}
if(transform.calendar) {
if(!transform.valuecalendar) {
transform.valuecalendar = transform.calendar;
}
delete transform.calendar;
}
break;
case 'groupby':
// Name has changed from `style` to `styles`, so use `style` but prefer `styles`:
transform.styles = transform.styles || transform.style;
if(transform.styles && !Array.isArray(transform.styles)) {
var prevStyles = transform.styles;
var styleKeys = Object.keys(prevStyles);
transform.styles = [];
for(var j = 0; j < styleKeys.length; j++) {
transform.styles.push({
target: styleKeys[j],
value: prevStyles[styleKeys[j]]
});
}
}
break;
}
}
}
// prune empty containers made before the new nestedProperty
if(emptyContainer(trace, 'line')) delete trace.line;
if('marker' in trace) {
if(emptyContainer(trace.marker, 'line')) delete trace.marker.line;
if(emptyContainer(trace, 'marker')) delete trace.marker;
}
// sanitize rgb(fractions) and rgba(fractions) that old tinycolor
// supported, but new tinycolor does not because they're not valid css
Color.clean(trace);
}
};
function cleanFinanceDir(dirContainer) {
if(!Lib.isPlainObject(dirContainer)) return false;
var dirName = dirContainer.name;
delete dirContainer.name;
delete dirContainer.showlegend;
return (typeof dirName === 'string' || typeof dirName === 'number') && String(dirName);
}
function commonPrefix(name1, name2, show1, show2) {
// if only one is shown in the legend, use that
if(show1 && !show2) return name1;
if(show2 && !show1) return name2;
// if both or neither are in the legend, check if one is blank (or whitespace)
// and use the other one
// note that hover labels can still use the name even if the legend doesn't
if(!name1.trim()) return name2;
if(!name2.trim()) return name1;
var minLen = Math.min(name1.length, name2.length);
var i;
for(i = 0; i < minLen; i++) {
if(name1.charAt(i) !== name2.charAt(i)) break;
}
var out = name1.substr(0, i);
return out.trim();
}
// textposition - support partial attributes (ie just 'top')
// and incorrect use of middle / center etc.
function cleanTextPosition(textposition) {
var posY = 'middle',
posX = 'center';
if(textposition.indexOf('top') !== -1) posY = 'top';
else if(textposition.indexOf('bottom') !== -1) posY = 'bottom';
if(textposition.indexOf('left') !== -1) posX = 'left';
else if(textposition.indexOf('right') !== -1) posX = 'right';
return posY + ' ' + posX;
}
function emptyContainer(outer, innerStr) {
return (innerStr in outer) &&
(typeof outer[innerStr] === 'object') &&
(Object.keys(outer[innerStr]).length === 0);
}
// swap all the data and data attributes associated with x and y
exports.swapXYData = function(trace) {
var i;
Lib.swapAttrs(trace, ['?', '?0', 'd?', '?bins', 'nbins?', 'autobin?', '?src', 'error_?']);
if(Array.isArray(trace.z) && Array.isArray(trace.z[0])) {
if(trace.transpose) delete trace.transpose;
else trace.transpose = true;
}
if(trace.error_x && trace.error_y) {
var errorY = trace.error_y,
copyYstyle = ('copy_ystyle' in errorY) ? errorY.copy_ystyle :
!(errorY.color || errorY.thickness || errorY.width);
Lib.swapAttrs(trace, ['error_?.copy_ystyle']);
if(copyYstyle) {
Lib.swapAttrs(trace, ['error_?.color', 'error_?.thickness', 'error_?.width']);
}
}
if(typeof trace.hoverinfo === 'string') {
var hoverInfoParts = trace.hoverinfo.split('+');
for(i = 0; i < hoverInfoParts.length; i++) {
if(hoverInfoParts[i] === 'x') hoverInfoParts[i] = 'y';
else if(hoverInfoParts[i] === 'y') hoverInfoParts[i] = 'x';
}
trace.hoverinfo = hoverInfoParts.join('+');
}
};
// coerce traceIndices input to array of trace indices
exports.coerceTraceIndices = function(gd, traceIndices) {
if(isNumeric(traceIndices)) {
return [traceIndices];
}
else if(!Array.isArray(traceIndices) || !traceIndices.length) {
return gd.data.map(function(_, i) { return i; });
}
return traceIndices;
};
/**
* Manages logic around array container item creation / deletion / update
* that nested property alone can't handle.
*
* @param {Object} np
* nested property of update attribute string about trace or layout object
* @param {*} newVal
* update value passed to restyle / relayout / update
* @param {Object} undoit
* undo hash (N.B. undoit may be mutated here).
*
*/
exports.manageArrayContainers = function(np, newVal, undoit) {
var obj = np.obj,
parts = np.parts,
pLength = parts.length,
pLast = parts[pLength - 1];
var pLastIsNumber = isNumeric(pLast);
// delete item
if(pLastIsNumber && newVal === null) {
// Clear item in array container when new value is null
var contPath = parts.slice(0, pLength - 1).join('.'),
cont = Lib.nestedProperty(obj, contPath).get();
cont.splice(pLast, 1);
// Note that nested property clears null / undefined at end of
// array container, but not within them.
}
// create item
else if(pLastIsNumber && np.get() === undefined) {
// When adding a new item, make sure undo command will remove it
if(np.get() === undefined) undoit[np.astr] = null;
np.set(newVal);
}
// update item
else {
// If the last part of attribute string isn't a number,
// np.set is all we need.
np.set(newVal);
}
};
/*
* Match the part to strip off to turn an attribute into its parent
* really it should be either '.some_characters' or '[number]'
* but we're a little more permissive here and match either
* '.not_brackets_or_dot' or '[not_brackets_or_dot]'
*/
var ATTR_TAIL_RE = /(\.[^\[\]\.]+|\[[^\[\]\.]+\])$/;
function getParent(attr) {
var tail = attr.search(ATTR_TAIL_RE);
if(tail > 0) return attr.substr(0, tail);
}
/*
* hasParent: does an attribute object contain a parent of the given attribute?
* for example, given 'images[2].x' do we also have 'images' or 'images[2]'?
*
* @param {Object} aobj
* update object, whose keys are attribute strings and values are their new settings
* @param {string} attr
* the attribute string to test against
* @returns {Boolean}
* is a parent of attr present in aobj?
*/
exports.hasParent = function(aobj, attr) {
var attrParent = getParent(attr);
while(attrParent) {
if(attrParent in aobj) return true;
attrParent = getParent(attrParent);
}
return false;
};
/**
* Empty out types for all axes containing these traces so we auto-set them again
*
* @param {object} gd
* @param {[integer]} traces: trace indices to search for axes to clear the types of
* @param {object} layoutUpdate: any update being done concurrently to the layout,
* which may supercede clearing the axis types
*/
var axLetters = ['x', 'y', 'z'];
exports.clearAxisTypes = function(gd, traces, layoutUpdate) {
for(var i = 0; i < traces.length; i++) {
var trace = gd._fullData[i];
for(var j = 0; j < 3; j++) {
var ax = getFromTrace(gd, trace, axLetters[j]);
// do not clear log type - that's never an auto result so must have been intentional
if(ax && ax.type !== 'log') {
var axAttr = ax._name;
var sceneName = ax._id.substr(1);
if(sceneName.substr(0, 5) === 'scene') {
if(layoutUpdate[sceneName] !== undefined) continue;
axAttr = sceneName + '.' + axAttr;
}
var typeAttr = axAttr + '.type';
if(layoutUpdate[axAttr] === undefined && layoutUpdate[typeAttr] === undefined) {
Lib.nestedProperty(gd.layout, typeAttr).set(null);
}
}
}
}
};
},{"../components/color":567,"../lib":693,"../plots/cartesian/axis_ids":745,"../plots/plots":805,"../registry":825,"fast-isnumeric":213,"gl-mat4/fromQuat":250}],727:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var main = _dereq_('./plot_api');
exports.plot = main.plot;
exports.newPlot = main.newPlot;
exports.restyle = main.restyle;
exports.relayout = main.relayout;
exports.redraw = main.redraw;
exports.update = main.update;
exports.react = main.react;
exports.extendTraces = main.extendTraces;
exports.prependTraces = main.prependTraces;
exports.addTraces = main.addTraces;
exports.deleteTraces = main.deleteTraces;
exports.moveTraces = main.moveTraces;
exports.purge = main.purge;
exports.addFrames = main.addFrames;
exports.deleteFrames = main.deleteFrames;
exports.animate = main.animate;
exports.setPlotConfig = main.setPlotConfig;
exports.toImage = _dereq_('./to_image');
exports.validate = _dereq_('./validate');
exports.downloadImage = _dereq_('../snapshot/download');
var templateApi = _dereq_('./template_api');
exports.makeTemplate = templateApi.makeTemplate;
exports.validateTemplate = templateApi.validateTemplate;
},{"../snapshot/download":827,"./plot_api":729,"./template_api":734,"./to_image":735,"./validate":736}],728:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var nestedProperty = _dereq_('../lib/nested_property');
var isPlainObject = _dereq_('../lib/is_plain_object');
var noop = _dereq_('../lib/noop');
var Loggers = _dereq_('../lib/loggers');
var sorterAsc = _dereq_('../lib/search').sorterAsc;
var Registry = _dereq_('../registry');
exports.containerArrayMatch = _dereq_('./container_array_match');
var isAddVal = exports.isAddVal = function isAddVal(val) {
return val === 'add' || isPlainObject(val);
};
var isRemoveVal = exports.isRemoveVal = function isRemoveVal(val) {
return val === null || val === 'remove';
};
/*
* applyContainerArrayChanges: for managing arrays of layout components in relayout
* handles them all with a consistent interface.
*
* Here are the supported actions -> relayout calls -> edits we get here
* (as prepared in _relayout):
*
* add an empty obj -> {'annotations[2]': 'add'} -> {2: {'': 'add'}}
* add a specific obj -> {'annotations[2]': {attrs}} -> {2: {'': {attrs}}}
* delete an obj -> {'annotations[2]': 'remove'} -> {2: {'': 'remove'}}
* -> {'annotations[2]': null} -> {2: {'': null}}
* delete the whole array -> {'annotations': 'remove'} -> {'': {'': 'remove'}}
* -> {'annotations': null} -> {'': {'': null}}
* edit an object -> {'annotations[2].text': 'boo'} -> {2: {'text': 'boo'}}
*
* You can combine many edits to different objects. Objects are added and edited
* in ascending order, then removed in descending order.
* For example, starting with [a, b, c], if you want to:
* - replace b with d:
* {'annotations[1]': d, 'annotations[2]': null} (b is item 2 after adding d)
* - add a new item d between a and b, and edit b:
* {'annotations[1]': d, 'annotations[2].x': newX} (b is item 2 after adding d)
* - delete b and edit c:
* {'annotations[1]': null, 'annotations[2].x': newX} (c is edited before b is removed)
*
* You CANNOT combine adding/deleting an item at index `i` with edits to the same index `i`
* You CANNOT combine replacing/deleting the whole array with anything else (for the same array).
*
* @param {HTMLDivElement} gd
* the DOM element of the graph container div
* @param {Lib.nestedProperty} componentType: the array we are editing
* @param {Object} edits
* the changes to make; keys are indices to edit, values are themselves objects:
* {attr: newValue} of changes to make to that index (with add/remove behavior
* in special values of the empty attr)
* @param {Object} flags
* the flags for which actions we're going to perform to display these (and
* any other) changes. If we're already `recalc`ing, we don't need to redraw
* individual items
*
* @returns {bool} `true` if it managed to complete drawing of the changes
* `false` would mean the parent should replot.
*/
exports.applyContainerArrayChanges = function applyContainerArrayChanges(gd, np, edits, flags) {
var componentType = np.astr,
supplyComponentDefaults = Registry.getComponentMethod(componentType, 'supplyLayoutDefaults'),
draw = Registry.getComponentMethod(componentType, 'draw'),
drawOne = Registry.getComponentMethod(componentType, 'drawOne'),
replotLater = flags.replot || flags.recalc || (supplyComponentDefaults === noop) ||
(draw === noop),
layout = gd.layout,
fullLayout = gd._fullLayout;
if(edits['']) {
if(Object.keys(edits).length > 1) {
Loggers.warn('Full array edits are incompatible with other edits',
componentType);
}
var fullVal = edits[''][''];
if(isRemoveVal(fullVal)) np.set(null);
else if(Array.isArray(fullVal)) np.set(fullVal);
else {
Loggers.warn('Unrecognized full array edit value', componentType, fullVal);
return true;
}
if(replotLater) return false;
supplyComponentDefaults(layout, fullLayout);
draw(gd);
return true;
}
var componentNums = Object.keys(edits).map(Number).sort(sorterAsc),
componentArrayIn = np.get(),
componentArray = componentArrayIn || [],
// componentArrayFull is used just to keep splices in line between
// full and input arrays, so private keys can be copied over after
// redoing supplyDefaults
// TODO: this assumes componentArray is in gd.layout - which will not be
// true after we extend this to restyle
componentArrayFull = nestedProperty(fullLayout, componentType).get();
var deletes = [],
firstIndexChange = -1,
maxIndex = componentArray.length,
i,
j,
componentNum,
objEdits,
objKeys,
objVal,
adding;
// first make the add and edit changes
for(i = 0; i < componentNums.length; i++) {
componentNum = componentNums[i];
objEdits = edits[componentNum];
objKeys = Object.keys(objEdits);
objVal = objEdits[''],
adding = isAddVal(objVal);
if(componentNum < 0 || componentNum > componentArray.length - (adding ? 0 : 1)) {
Loggers.warn('index out of range', componentType, componentNum);
continue;
}
if(objVal !== undefined) {
if(objKeys.length > 1) {
Loggers.warn(
'Insertion & removal are incompatible with edits to the same index.',
componentType, componentNum);
}
if(isRemoveVal(objVal)) {
deletes.push(componentNum);
}
else if(adding) {
if(objVal === 'add') objVal = {};
componentArray.splice(componentNum, 0, objVal);
if(componentArrayFull) componentArrayFull.splice(componentNum, 0, {});
}
else {
Loggers.warn('Unrecognized full object edit value',
componentType, componentNum, objVal);
}
if(firstIndexChange === -1) firstIndexChange = componentNum;
}
else {
for(j = 0; j < objKeys.length; j++) {
nestedProperty(componentArray[componentNum], objKeys[j]).set(objEdits[objKeys[j]]);
}
}
}
// now do deletes
for(i = deletes.length - 1; i >= 0; i--) {
componentArray.splice(deletes[i], 1);
// TODO: this drops private keys that had been stored in componentArrayFull
// does this have any ill effects?
if(componentArrayFull) componentArrayFull.splice(deletes[i], 1);
}
if(!componentArray.length) np.set(null);
else if(!componentArrayIn) np.set(componentArray);
if(replotLater) return false;
supplyComponentDefaults(layout, fullLayout);
// finally draw all the components we need to
// if we added or removed any, redraw all after it
if(drawOne !== noop) {
var indicesToDraw;
if(firstIndexChange === -1) {
// there's no re-indexing to do, so only redraw components that changed
indicesToDraw = componentNums;
}
else {
// in case the component array was shortened, we still need do call
// drawOne on the latter items so they get properly removed
maxIndex = Math.max(componentArray.length, maxIndex);
indicesToDraw = [];
for(i = 0; i < componentNums.length; i++) {
componentNum = componentNums[i];
if(componentNum >= firstIndexChange) break;
indicesToDraw.push(componentNum);
}
for(i = firstIndexChange; i < maxIndex; i++) {
indicesToDraw.push(i);
}
}
for(i = 0; i < indicesToDraw.length; i++) {
drawOne(gd, indicesToDraw[i]);
}
}
else draw(gd);
return true;
};
},{"../lib/is_plain_object":695,"../lib/loggers":698,"../lib/nested_property":702,"../lib/noop":703,"../lib/search":713,"../registry":825,"./container_array_match":724}],729:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var isNumeric = _dereq_('fast-isnumeric');
var hasHover = _dereq_('has-hover');
var Lib = _dereq_('../lib');
var Events = _dereq_('../lib/events');
var Queue = _dereq_('../lib/queue');
var Registry = _dereq_('../registry');
var PlotSchema = _dereq_('./plot_schema');
var Plots = _dereq_('../plots/plots');
var Polar = _dereq_('../plots/polar/legacy');
var Axes = _dereq_('../plots/cartesian/axes');
var Drawing = _dereq_('../components/drawing');
var Color = _dereq_('../components/color');
var connectColorbar = _dereq_('../components/colorbar/connect');
var initInteractions = _dereq_('../plots/cartesian/graph_interact').initInteractions;
var xmlnsNamespaces = _dereq_('../constants/xmlns_namespaces');
var svgTextUtils = _dereq_('../lib/svg_text_utils');
var defaultConfig = _dereq_('./plot_config');
var manageArrays = _dereq_('./manage_arrays');
var helpers = _dereq_('./helpers');
var subroutines = _dereq_('./subroutines');
var editTypes = _dereq_('./edit_types');
var AX_NAME_PATTERN = _dereq_('../plots/cartesian/constants').AX_NAME_PATTERN;
var numericNameWarningCount = 0;
var numericNameWarningCountLimit = 5;
/**
* Main plot-creation function
*
* @param {string id or DOM element} gd
* the id or DOM element of the graph container div
* @param {array of objects} data
* array of traces, containing the data and display information for each trace
* @param {object} layout
* object describing the overall display of the plot,
* all the stuff that doesn't pertain to any individual trace
* @param {object} config
* configuration options (see ./plot_config.js for more info)
*
* OR
*
* @param {string id or DOM element} gd
* the id or DOM element of the graph container div
* @param {object} figure
* object containing `data`, `layout`, `config`, and `frames` members
*
*/
exports.plot = function(gd, data, layout, config) {
var frames;
gd = Lib.getGraphDiv(gd);
// Events.init is idempotent and bails early if gd has already been init'd
Events.init(gd);
if(Lib.isPlainObject(data)) {
var obj = data;
data = obj.data;
layout = obj.layout;
config = obj.config;
frames = obj.frames;
}
var okToPlot = Events.triggerHandler(gd, 'plotly_beforeplot', [data, layout, config]);
if(okToPlot === false) return Promise.reject();
// if there's no data or layout, and this isn't yet a plotly plot
// container, log a warning to help plotly.js users debug
if(!data && !layout && !Lib.isPlotDiv(gd)) {
Lib.warn('Calling Plotly.plot as if redrawing ' +
'but this container doesn\'t yet have a plot.', gd);
}
function addFrames() {
if(frames) {
return exports.addFrames(gd, frames);
}
}
// transfer configuration options to gd until we move over to
// a more OO like model
setPlotContext(gd, config);
if(!layout) layout = {};
// hook class for plots main container (in case of plotly.js
// this won't be #embedded-graph or .js-tab-contents)
d3.select(gd).classed('js-plotly-plot', true);
// off-screen getBoundingClientRect testing space,
// in #js-plotly-tester (and stored as Drawing.tester)
// so we can share cached text across tabs
Drawing.makeTester();
// clear stashed base url
delete Drawing.baseUrl;
// collect promises for any async actions during plotting
// any part of the plotting code can push to gd._promises, then
// before we move to the next step, we check that they're all
// complete, and empty out the promise list again.
if(!Array.isArray(gd._promises)) gd._promises = [];
var graphWasEmpty = ((gd.data || []).length === 0 && Array.isArray(data));
// if there is already data on the graph, append the new data
// if you only want to redraw, pass a non-array for data
if(Array.isArray(data)) {
helpers.cleanData(data);
if(graphWasEmpty) gd.data = data;
else gd.data.push.apply(gd.data, data);
// for routines outside graph_obj that want a clean tab
// (rather than appending to an existing one) gd.empty
// is used to determine whether to make a new tab
gd.empty = false;
}
if(!gd.layout || graphWasEmpty) gd.layout = helpers.cleanLayout(layout);
// if the user is trying to drag the axes, allow new data and layout
// to come in but don't allow a replot.
if(gd._dragging && !gd._transitioning) {
// signal to drag handler that after everything else is done
// we need to replot, because something has changed
gd._replotPending = true;
return Promise.reject();
} else {
// we're going ahead with a replot now
gd._replotPending = false;
}
Plots.supplyDefaults(gd);
var fullLayout = gd._fullLayout;
var hasCartesian = fullLayout._has('cartesian');
// Legacy polar plots
if(!fullLayout._has('polar') && data && data[0] && data[0].r) {
Lib.log('Legacy polar charts are deprecated!');
return plotPolar(gd, data, layout);
}
// so we don't try to re-call Plotly.plot from inside
// legend and colorbar, if margins changed
fullLayout._replotting = true;
// make or remake the framework if we need to
if(graphWasEmpty) makePlotFramework(gd);
// polar need a different framework
if(gd.framework !== makePlotFramework) {
gd.framework = makePlotFramework;
makePlotFramework(gd);
}
// clear gradient defs on each .plot call, because we know we'll loop through all traces
Drawing.initGradients(gd);
// save initial show spikes once per graph
if(graphWasEmpty) Axes.saveShowSpikeInitial(gd);
// prepare the data and find the autorange
// generate calcdata, if we need to
// to force redoing calcdata, just delete it before calling Plotly.plot
var recalc = !gd.calcdata || gd.calcdata.length !== (gd._fullData || []).length;
if(recalc) Plots.doCalcdata(gd);
// in case it has changed, attach fullData traces to calcdata
for(var i = 0; i < gd.calcdata.length; i++) {
gd.calcdata[i][0].trace = gd._fullData[i];
}
// make the figure responsive
if(gd._context.responsive) {
if(!gd._responsiveChartHandler) {
// Keep a reference to the resize handler to purge it down the road
gd._responsiveChartHandler = function() {Plots.resize(gd);};
// Listen to window resize
window.addEventListener('resize', gd._responsiveChartHandler);
}
} else {
Lib.clearResponsive(gd);
}
/*
* start async-friendly code - now we're actually drawing things
*/
var oldmargins = JSON.stringify(fullLayout._size);
// draw framework first so that margin-pushing
// components can position themselves correctly
var drawFrameworkCalls = 0;
function drawFramework() {
var basePlotModules = fullLayout._basePlotModules;
for(var i = 0; i < basePlotModules.length; i++) {
if(basePlotModules[i].drawFramework) {
basePlotModules[i].drawFramework(gd);
}
}
if(!fullLayout._glcanvas && fullLayout._has('gl')) {
fullLayout._glcanvas = fullLayout._glcontainer.selectAll('.gl-canvas').data([{
key: 'contextLayer',
context: true,
pick: false
}, {
key: 'focusLayer',
context: false,
pick: false
}, {
key: 'pickLayer',
context: false,
pick: true
}], function(d) { return d.key; });
fullLayout._glcanvas.enter().append('canvas')
.attr('class', function(d) {
return 'gl-canvas gl-canvas-' + d.key.replace('Layer', '');
})
.style({
'position': 'absolute',
'top': 0,
'left': 0,
'width': '100%',
'height': '100%',
'overflow': 'visible',
'pointer-events': 'none'
});
}
if(fullLayout._glcanvas) {
fullLayout._glcanvas
.attr('width', fullLayout.width)
.attr('height', fullLayout.height);
var regl = fullLayout._glcanvas.data()[0].regl;
if(regl) {
// Unfortunately, this can happen when relayouting to large
// width/height on some browsers.
if(fullLayout.width !== regl._gl.drawingBufferWidth ||
fullLayout.height !== regl._gl.drawingBufferHeight
) {
var msg = 'WebGL context buffer and canvas dimensions do not match due to browser/WebGL bug.';
if(drawFrameworkCalls) {
Lib.error(msg);
} else {
Lib.log(msg + ' Clearing graph and plotting again.');
Plots.cleanPlot([], {}, gd._fullData, fullLayout, gd.calcdata);
Plots.supplyDefaults(gd);
fullLayout = gd._fullLayout;
Plots.doCalcdata(gd);
drawFrameworkCalls++;
return drawFramework();
}
}
}
}
return Plots.previousPromises(gd);
}
// draw anything that can affect margins.
function marginPushers() {
var calcdata = gd.calcdata;
var i, cd, trace;
// First reset the list of things that are allowed to change the margins
// So any deleted traces or components will be wiped out of the
// automargin calculation.
// This means *every* margin pusher must be listed here, even if it
// doesn't actually try to push the margins until later.
Plots.clearAutoMarginIds(gd);
subroutines.drawMarginPushers(gd);
Axes.allowAutoMargin(gd);
for(i = 0; i < calcdata.length; i++) {
cd = calcdata[i];
trace = cd[0].trace;
var colorbarOpts = trace._module.colorbar;
if(trace.visible !== true || !colorbarOpts) {
Plots.autoMargin(gd, 'cb' + trace.uid);
}
else connectColorbar(gd, cd, colorbarOpts);
}
Plots.doAutoMargin(gd);
return Plots.previousPromises(gd);
}
// in case the margins changed, draw margin pushers again
function marginPushersAgain() {
if(JSON.stringify(fullLayout._size) === oldmargins) return;
return Lib.syncOrAsync([
marginPushers,
subroutines.layoutStyles
], gd);
}
function positionAndAutorange() {
if(!recalc) {
doAutoRangeAndConstraints();
return;
}
// TODO: autosize extra for text markers and images
// see https://github.com/plotly/plotly.js/issues/1111
return Lib.syncOrAsync([
Registry.getComponentMethod('shapes', 'calcAutorange'),
Registry.getComponentMethod('annotations', 'calcAutorange'),
doAutoRangeAndConstraints,
Registry.getComponentMethod('rangeslider', 'calcAutorange')
], gd);
}
function doAutoRangeAndConstraints() {
if(gd._transitioning) return;
subroutines.doAutoRangeAndConstraints(gd);
// store initial ranges *after* enforcing constraints, otherwise
// we will never look like we're at the initial ranges
if(graphWasEmpty) Axes.saveRangeInitial(gd);
}
// draw ticks, titles, and calculate axis scaling (._b, ._m)
function drawAxes() {
return Axes.doTicks(gd, graphWasEmpty ? '' : 'redraw');
}
var seq = [
Plots.previousPromises,
addFrames,
drawFramework,
marginPushers,
marginPushersAgain
];
if(hasCartesian) seq.push(positionAndAutorange);
seq.push(subroutines.layoutStyles);
if(hasCartesian) seq.push(drawAxes);
seq.push(
subroutines.drawData,
subroutines.finalDraw,
initInteractions,
Plots.addLinks,
Plots.rehover,
// TODO: doAutoMargin is only needed here for axis automargin, which
// happens outside of marginPushers where all the other automargins are
// calculated. Would be much better to separate margin calculations from
// component drawing - see https://github.com/plotly/plotly.js/issues/2704
Plots.doAutoMargin,
Plots.previousPromises
);
// even if everything we did was synchronous, return a promise
// so that the caller doesn't care which route we took
var plotDone = Lib.syncOrAsync(seq, gd);
if(!plotDone || !plotDone.then) plotDone = Promise.resolve();
return plotDone.then(function() {
emitAfterPlot(gd);
return gd;
});
};
function emitAfterPlot(gd) {
var fullLayout = gd._fullLayout;
if(fullLayout._redrawFromAutoMarginCount) {
fullLayout._redrawFromAutoMarginCount--;
} else {
gd.emit('plotly_afterplot');
}
}
exports.setPlotConfig = function setPlotConfig(obj) {
return Lib.extendFlat(defaultConfig, obj);
};
function setBackground(gd, bgColor) {
try {
gd._fullLayout._paper.style('background', bgColor);
} catch(e) {
Lib.error(e);
}
}
function opaqueSetBackground(gd, bgColor) {
var blend = Color.combine(bgColor, 'white');
setBackground(gd, blend);
}
function setPlotContext(gd, config) {
if(!gd._context) gd._context = Lib.extendDeep({}, defaultConfig);
var context = gd._context;
var i, keys, key;
if(config) {
keys = Object.keys(config);
for(i = 0; i < keys.length; i++) {
key = keys[i];
if(key === 'editable' || key === 'edits') continue;
if(key in context) {
if(key === 'setBackground' && config[key] === 'opaque') {
context[key] = opaqueSetBackground;
} else {
context[key] = config[key];
}
}
}
// map plot3dPixelRatio to plotGlPixelRatio for backward compatibility
if(config.plot3dPixelRatio && !context.plotGlPixelRatio) {
context.plotGlPixelRatio = context.plot3dPixelRatio;
}
// now deal with editable and edits - first editable overrides
// everything, then edits refines
var editable = config.editable;
if(editable !== undefined) {
// we're not going to *use* context.editable, we're only going to
// use context.edits... but keep it for the record
context.editable = editable;
keys = Object.keys(context.edits);
for(i = 0; i < keys.length; i++) {
context.edits[keys[i]] = editable;
}
}
if(config.edits) {
keys = Object.keys(config.edits);
for(i = 0; i < keys.length; i++) {
key = keys[i];
if(key in context.edits) {
context.edits[key] = config.edits[key];
}
}
}
}
// staticPlot forces a bunch of others:
if(context.staticPlot) {
context.editable = false;
context.edits = {};
context.autosizable = false;
context.scrollZoom = false;
context.doubleClick = false;
context.showTips = false;
context.showLink = false;
context.displayModeBar = false;
}
// make sure hover-only devices have mode bar visible
if(context.displayModeBar === 'hover' && !hasHover) {
context.displayModeBar = true;
}
// default and fallback for setBackground
if(context.setBackground === 'transparent' || typeof context.setBackground !== 'function') {
context.setBackground = setBackground;
}
}
function plotPolar(gd, data, layout) {
// build or reuse the container skeleton
var plotContainer = d3.select(gd).selectAll('.plot-container')
.data([0]);
plotContainer.enter()
.insert('div', ':first-child')
.classed('plot-container plotly', true);
var paperDiv = plotContainer.selectAll('.svg-container')
.data([0]);
paperDiv.enter().append('div')
.classed('svg-container', true)
.style('position', 'relative');
// empty it everytime for now
paperDiv.html('');
// fulfill gd requirements
if(data) gd.data = data;
if(layout) gd.layout = layout;
Polar.manager.fillLayout(gd);
// resize canvas
paperDiv.style({
width: gd._fullLayout.width + 'px',
height: gd._fullLayout.height + 'px'
});
// instantiate framework
gd.framework = Polar.manager.framework(gd);
// plot
gd.framework({data: gd.data, layout: gd.layout}, paperDiv.node());
// set undo point
gd.framework.setUndoPoint();
// get the resulting svg for extending it
var polarPlotSVG = gd.framework.svg();
// editable title
var opacity = 1;
var txt = gd._fullLayout.title;
if(txt === '' || !txt) opacity = 0;
var titleLayout = function() {
this.call(svgTextUtils.convertToTspans, gd);
// TODO: html/mathjax
// TODO: center title
};
var title = polarPlotSVG.select('.title-group text')
.call(titleLayout);
if(gd._context.edits.titleText) {
var placeholderText = Lib._(gd, 'Click to enter Plot title');
if(!txt || txt === placeholderText) {
opacity = 0.2;
// placeholder is not going through convertToTspans
// so needs explicit data-unformatted
title.attr({'data-unformatted': placeholderText})
.text(placeholderText)
.style({opacity: opacity})
.on('mouseover.opacity', function() {
d3.select(this).transition().duration(100)
.style('opacity', 1);
})
.on('mouseout.opacity', function() {
d3.select(this).transition().duration(1000)
.style('opacity', 0);
});
}
var setContenteditable = function() {
this.call(svgTextUtils.makeEditable, {gd: gd})
.on('edit', function(text) {
gd.framework({layout: {title: text}});
this.text(text)
.call(titleLayout);
this.call(setContenteditable);
})
.on('cancel', function() {
var txt = this.attr('data-unformatted');
this.text(txt).call(titleLayout);
});
};
title.call(setContenteditable);
}
gd._context.setBackground(gd, gd._fullLayout.paper_bgcolor);
Plots.addLinks(gd);
return Promise.resolve();
}
// convenience function to force a full redraw, mostly for use by plotly.js
exports.redraw = function(gd) {
gd = Lib.getGraphDiv(gd);
if(!Lib.isPlotDiv(gd)) {
throw new Error('This element is not a Plotly plot: ' + gd);
}
helpers.cleanData(gd.data);
helpers.cleanLayout(gd.layout);
gd.calcdata = undefined;
return exports.plot(gd).then(function() {
gd.emit('plotly_redraw');
return gd;
});
};
/**
* Convenience function to make idempotent plot option obvious to users.
*
* @param gd
* @param {Object[]} data
* @param {Object} layout
* @param {Object} config
*/
exports.newPlot = function(gd, data, layout, config) {
gd = Lib.getGraphDiv(gd);
// remove gl contexts
Plots.cleanPlot([], {}, gd._fullData || [], gd._fullLayout || {}, gd.calcdata || []);
Plots.purge(gd);
return exports.plot(gd, data, layout, config);
};
/**
* Wrap negative indicies to their positive counterparts.
*
* @param {Number[]} indices An array of indices
* @param {Number} maxIndex The maximum index allowable (arr.length - 1)
*/
function positivifyIndices(indices, maxIndex) {
var parentLength = maxIndex + 1,
positiveIndices = [],
i,
index;
for(i = 0; i < indices.length; i++) {
index = indices[i];
if(index < 0) {
positiveIndices.push(parentLength + index);
} else {
positiveIndices.push(index);
}
}
return positiveIndices;
}
/**
* Ensures that an index array for manipulating gd.data is valid.
*
* Intended for use with addTraces, deleteTraces, and moveTraces.
*
* @param gd
* @param indices
* @param arrayName
*/
function assertIndexArray(gd, indices, arrayName) {
var i,
index;
for(i = 0; i < indices.length; i++) {
index = indices[i];
// validate that indices are indeed integers
if(index !== parseInt(index, 10)) {
throw new Error('all values in ' + arrayName + ' must be integers');
}
// check that all indices are in bounds for given gd.data array length
if(index >= gd.data.length || index < -gd.data.length) {
throw new Error(arrayName + ' must be valid indices for gd.data.');
}
// check that indices aren't repeated
if(indices.indexOf(index, i + 1) > -1 ||
index >= 0 && indices.indexOf(-gd.data.length + index) > -1 ||
index < 0 && indices.indexOf(gd.data.length + index) > -1) {
throw new Error('each index in ' + arrayName + ' must be unique.');
}
}
}
/**
* Private function used by Plotly.moveTraces to check input args
*
* @param gd
* @param currentIndices
* @param newIndices
*/
function checkMoveTracesArgs(gd, currentIndices, newIndices) {
// check that gd has attribute 'data' and 'data' is array
if(!Array.isArray(gd.data)) {
throw new Error('gd.data must be an array.');
}
// validate currentIndices array
if(typeof currentIndices === 'undefined') {
throw new Error('currentIndices is a required argument.');
} else if(!Array.isArray(currentIndices)) {
currentIndices = [currentIndices];
}
assertIndexArray(gd, currentIndices, 'currentIndices');
// validate newIndices array if it exists
if(typeof newIndices !== 'undefined' && !Array.isArray(newIndices)) {
newIndices = [newIndices];
}
if(typeof newIndices !== 'undefined') {
assertIndexArray(gd, newIndices, 'newIndices');
}
// check currentIndices and newIndices are the same length if newIdices exists
if(typeof newIndices !== 'undefined' && currentIndices.length !== newIndices.length) {
throw new Error('current and new indices must be of equal length.');
}
}
/**
* A private function to reduce the type checking clutter in addTraces.
*
* @param gd
* @param traces
* @param newIndices
*/
function checkAddTracesArgs(gd, traces, newIndices) {
var i, value;
// check that gd has attribute 'data' and 'data' is array
if(!Array.isArray(gd.data)) {
throw new Error('gd.data must be an array.');
}
// make sure traces exists
if(typeof traces === 'undefined') {
throw new Error('traces must be defined.');
}
// make sure traces is an array
if(!Array.isArray(traces)) {
traces = [traces];
}
// make sure each value in traces is an object
for(i = 0; i < traces.length; i++) {
value = traces[i];
if(typeof value !== 'object' || (Array.isArray(value) || value === null)) {
throw new Error('all values in traces array must be non-array objects');
}
}
// make sure we have an index for each trace
if(typeof newIndices !== 'undefined' && !Array.isArray(newIndices)) {
newIndices = [newIndices];
}
if(typeof newIndices !== 'undefined' && newIndices.length !== traces.length) {
throw new Error(
'if indices is specified, traces.length must equal indices.length'
);
}
}
/**
* A private function to reduce the type checking clutter in spliceTraces.
* Get all update Properties from gd.data. Validate inputs and outputs.
* Used by prependTrace and extendTraces
*
* @param gd
* @param update
* @param indices
* @param maxPoints
*/
function assertExtendTracesArgs(gd, update, indices, maxPoints) {
var maxPointsIsObject = Lib.isPlainObject(maxPoints);
if(!Array.isArray(gd.data)) {
throw new Error('gd.data must be an array');
}
if(!Lib.isPlainObject(update)) {
throw new Error('update must be a key:value object');
}
if(typeof indices === 'undefined') {
throw new Error('indices must be an integer or array of integers');
}
assertIndexArray(gd, indices, 'indices');
for(var key in update) {
/*
* Verify that the attribute to be updated contains as many trace updates
* as indices. Failure must result in throw and no-op
*/
if(!Array.isArray(update[key]) || update[key].length !== indices.length) {
throw new Error('attribute ' + key + ' must be an array of length equal to indices array length');
}
/*
* if maxPoints is an object it must match keys and array lengths of 'update' 1:1
*/
if(maxPointsIsObject &&
(!(key in maxPoints) || !Array.isArray(maxPoints[key]) ||
maxPoints[key].length !== update[key].length)) {
throw new Error('when maxPoints is set as a key:value object it must contain a 1:1 ' +
'corrispondence with the keys and number of traces in the update object');
}
}
}
/**
* A private function to reduce the type checking clutter in spliceTraces.
*
* @param {Object|HTMLDivElement} gd
* @param {Object} update
* @param {Number[]} indices
* @param {Number||Object} maxPoints
* @return {Object[]}
*/
function getExtendProperties(gd, update, indices, maxPoints) {
var maxPointsIsObject = Lib.isPlainObject(maxPoints),
updateProps = [];
var trace, target, prop, insert, maxp;
// allow scalar index to represent a single trace position
if(!Array.isArray(indices)) indices = [indices];
// negative indices are wrapped around to their positive value. Equivalent to python indexing.
indices = positivifyIndices(indices, gd.data.length - 1);
// loop through all update keys and traces and harvest validated data.
for(var key in update) {
for(var j = 0; j < indices.length; j++) {
/*
* Choose the trace indexed by the indices map argument and get the prop setter-getter
* instance that references the key and value for this particular trace.
*/
trace = gd.data[indices[j]];
prop = Lib.nestedProperty(trace, key);
/*
* Target is the existing gd.data.trace.dataArray value like "x" or "marker.size"
* Target must exist as an Array to allow the extend operation to be performed.
*/
target = prop.get();
insert = update[key][j];
if(!Lib.isArrayOrTypedArray(insert)) {
throw new Error('attribute: ' + key + ' index: ' + j + ' must be an array');
}
if(!Lib.isArrayOrTypedArray(target)) {
throw new Error('cannot extend missing or non-array attribute: ' + key);
}
if(target.constructor !== insert.constructor) {
throw new Error('cannot extend array with an array of a different type: ' + key);
}
/*
* maxPoints may be an object map or a scalar. If object select the key:value, else
* Use the scalar maxPoints for all key and trace combinations.
*/
maxp = maxPointsIsObject ? maxPoints[key][j] : maxPoints;
// could have chosen null here, -1 just tells us to not take a window
if(!isNumeric(maxp)) maxp = -1;
/*
* Wrap the nestedProperty in an object containing required data
* for lengthening and windowing this particular trace - key combination.
* Flooring maxp mirrors the behaviour of floats in the Array.slice JSnative function.
*/
updateProps.push({
prop: prop,
target: target,
insert: insert,
maxp: Math.floor(maxp)
});
}
}
// all target and insertion data now validated
return updateProps;
}
/**
* A private function to key Extend and Prepend traces DRY
*
* @param {Object|HTMLDivElement} gd
* @param {Object} update
* @param {Number[]} indices
* @param {Number||Object} maxPoints
* @param {Function} updateArray
* @return {Object}
*/
function spliceTraces(gd, update, indices, maxPoints, updateArray) {
assertExtendTracesArgs(gd, update, indices, maxPoints);
var updateProps = getExtendProperties(gd, update, indices, maxPoints);
var undoUpdate = {};
var undoPoints = {};
for(var i = 0; i < updateProps.length; i++) {
var prop = updateProps[i].prop;
var maxp = updateProps[i].maxp;
// return new array and remainder
var out = updateArray(updateProps[i].target, updateProps[i].insert, maxp);
prop.set(out[0]);
// build the inverse update object for the undo operation
if(!Array.isArray(undoUpdate[prop.astr])) undoUpdate[prop.astr] = [];
undoUpdate[prop.astr].push(out[1]);
// build the matching maxPoints undo object containing original trace lengths
if(!Array.isArray(undoPoints[prop.astr])) undoPoints[prop.astr] = [];
undoPoints[prop.astr].push(updateProps[i].target.length);
}
return {update: undoUpdate, maxPoints: undoPoints};
}
function concatTypedArray(arr0, arr1) {
var arr2 = new arr0.constructor(arr0.length + arr1.length);
arr2.set(arr0);
arr2.set(arr1, arr0.length);
return arr2;
}
/**
* extend && prepend traces at indices with update arrays, window trace lengths to maxPoints
*
* Extend and Prepend have identical APIs. Prepend inserts an array at the head while Extend
* inserts an array off the tail. Prepend truncates the tail of the array - counting maxPoints
* from the head, whereas Extend truncates the head of the array, counting backward maxPoints
* from the tail.
*
* If maxPoints is undefined, nonNumeric, negative or greater than extended trace length no
* truncation / windowing will be performed. If its zero, well the whole trace is truncated.
*
* @param {Object|HTMLDivElement} gd The graph div
* @param {Object} update The key:array map of target attributes to extend
* @param {Number|Number[]} indices The locations of traces to be extended
* @param {Number|Object} [maxPoints] Number of points for trace window after lengthening.
*
*/
exports.extendTraces = function extendTraces(gd, update, indices, maxPoints) {
gd = Lib.getGraphDiv(gd);
function updateArray(target, insert, maxp) {
var newArray, remainder;
if(Lib.isTypedArray(target)) {
if(maxp < 0) {
var none = new target.constructor(0);
var both = concatTypedArray(target, insert);
if(maxp < 0) {
newArray = both;
remainder = none;
} else {
newArray = none;
remainder = both;
}
} else {
newArray = new target.constructor(maxp);
remainder = new target.constructor(target.length + insert.length - maxp);
if(maxp === insert.length) {
newArray.set(insert);
remainder.set(target);
} else if(maxp < insert.length) {
var numberOfItemsFromInsert = insert.length - maxp;
newArray.set(insert.subarray(numberOfItemsFromInsert));
remainder.set(target);
remainder.set(insert.subarray(0, numberOfItemsFromInsert), target.length);
} else {
var numberOfItemsFromTarget = maxp - insert.length;
var targetBegin = target.length - numberOfItemsFromTarget;
newArray.set(target.subarray(targetBegin));
newArray.set(insert, numberOfItemsFromTarget);
remainder.set(target.subarray(0, targetBegin));
}
}
} else {
newArray = target.concat(insert);
remainder = (maxp >= 0 && maxp < newArray.length) ?
newArray.splice(0, newArray.length - maxp) :
[];
}
return [newArray, remainder];
}
var undo = spliceTraces(gd, update, indices, maxPoints, updateArray);
var promise = exports.redraw(gd);
var undoArgs = [gd, undo.update, indices, undo.maxPoints];
Queue.add(gd, exports.prependTraces, undoArgs, extendTraces, arguments);
return promise;
};
exports.prependTraces = function prependTraces(gd, update, indices, maxPoints) {
gd = Lib.getGraphDiv(gd);
function updateArray(target, insert, maxp) {
var newArray, remainder;
if(Lib.isTypedArray(target)) {
if(maxp <= 0) {
var none = new target.constructor(0);
var both = concatTypedArray(insert, target);
if(maxp < 0) {
newArray = both;
remainder = none;
} else {
newArray = none;
remainder = both;
}
} else {
newArray = new target.constructor(maxp);
remainder = new target.constructor(target.length + insert.length - maxp);
if(maxp === insert.length) {
newArray.set(insert);
remainder.set(target);
} else if(maxp < insert.length) {
var numberOfItemsFromInsert = insert.length - maxp;
newArray.set(insert.subarray(0, numberOfItemsFromInsert));
remainder.set(insert.subarray(numberOfItemsFromInsert));
remainder.set(target, numberOfItemsFromInsert);
} else {
var numberOfItemsFromTarget = maxp - insert.length;
newArray.set(insert);
newArray.set(target.subarray(0, numberOfItemsFromTarget), insert.length);
remainder.set(target.subarray(numberOfItemsFromTarget));
}
}
} else {
newArray = insert.concat(target);
remainder = (maxp >= 0 && maxp < newArray.length) ?
newArray.splice(maxp, newArray.length) :
[];
}
return [newArray, remainder];
}
var undo = spliceTraces(gd, update, indices, maxPoints, updateArray);
var promise = exports.redraw(gd);
var undoArgs = [gd, undo.update, indices, undo.maxPoints];
Queue.add(gd, exports.extendTraces, undoArgs, prependTraces, arguments);
return promise;
};
/**
* Add data traces to an existing graph div.
*
* @param {Object|HTMLDivElement} gd The graph div
* @param {Object[]} gd.data The array of traces we're adding to
* @param {Object[]|Object} traces The object or array of objects to add
* @param {Number[]|Number} [newIndices=[gd.data.length]] Locations to add traces
*
*/
exports.addTraces = function addTraces(gd, traces, newIndices) {
gd = Lib.getGraphDiv(gd);
var currentIndices = [],
undoFunc = exports.deleteTraces,
redoFunc = addTraces,
undoArgs = [gd, currentIndices],
redoArgs = [gd, traces], // no newIndices here
i,
promise;
// all validation is done elsewhere to remove clutter here
checkAddTracesArgs(gd, traces, newIndices);
// make sure traces is an array
if(!Array.isArray(traces)) {
traces = [traces];
}
// make sure traces do not repeat existing ones
traces = traces.map(function(trace) {
return Lib.extendFlat({}, trace);
});
helpers.cleanData(traces);
// add the traces to gd.data (no redrawing yet!)
for(i = 0; i < traces.length; i++) {
gd.data.push(traces[i]);
}
// to continue, we need to call moveTraces which requires currentIndices
for(i = 0; i < traces.length; i++) {
currentIndices.push(-traces.length + i);
}
// if the user didn't define newIndices, they just want the traces appended
// i.e., we can simply redraw and be done
if(typeof newIndices === 'undefined') {
promise = exports.redraw(gd);
Queue.add(gd, undoFunc, undoArgs, redoFunc, redoArgs);
return promise;
}
// make sure indices is property defined
if(!Array.isArray(newIndices)) {
newIndices = [newIndices];
}
try {
// this is redundant, but necessary to not catch later possible errors!
checkMoveTracesArgs(gd, currentIndices, newIndices);
}
catch(error) {
// something went wrong, reset gd to be safe and rethrow error
gd.data.splice(gd.data.length - traces.length, traces.length);
throw error;
}
// if we're here, the user has defined specific places to place the new traces
// this requires some extra work that moveTraces will do
Queue.startSequence(gd);
Queue.add(gd, undoFunc, undoArgs, redoFunc, redoArgs);
promise = exports.moveTraces(gd, currentIndices, newIndices);
Queue.stopSequence(gd);
return promise;
};
/**
* Delete traces at `indices` from gd.data array.
*
* @param {Object|HTMLDivElement} gd The graph div
* @param {Object[]} gd.data The array of traces we're removing from
* @param {Number|Number[]} indices The indices
*/
exports.deleteTraces = function deleteTraces(gd, indices) {
gd = Lib.getGraphDiv(gd);
var traces = [],
undoFunc = exports.addTraces,
redoFunc = deleteTraces,
undoArgs = [gd, traces, indices],
redoArgs = [gd, indices],
i,
deletedTrace;
// make sure indices are defined
if(typeof indices === 'undefined') {
throw new Error('indices must be an integer or array of integers.');
} else if(!Array.isArray(indices)) {
indices = [indices];
}
assertIndexArray(gd, indices, 'indices');
// convert negative indices to positive indices
indices = positivifyIndices(indices, gd.data.length - 1);
// we want descending here so that splicing later doesn't affect indexing
indices.sort(Lib.sorterDes);
for(i = 0; i < indices.length; i += 1) {
deletedTrace = gd.data.splice(indices[i], 1)[0];
traces.push(deletedTrace);
}
var promise = exports.redraw(gd);
Queue.add(gd, undoFunc, undoArgs, redoFunc, redoArgs);
return promise;
};
/**
* Move traces at currentIndices array to locations in newIndices array.
*
* If newIndices is omitted, currentIndices will be moved to the end. E.g.,
* these are equivalent:
*
* Plotly.moveTraces(gd, [1, 2, 3], [-3, -2, -1])
* Plotly.moveTraces(gd, [1, 2, 3])
*
* @param {Object|HTMLDivElement} gd The graph div
* @param {Object[]} gd.data The array of traces we're removing from
* @param {Number|Number[]} currentIndices The locations of traces to be moved
* @param {Number|Number[]} [newIndices] The locations to move traces to
*
* Example calls:
*
* // move trace i to location x
* Plotly.moveTraces(gd, i, x)
*
* // move trace i to end of array
* Plotly.moveTraces(gd, i)
*
* // move traces i, j, k to end of array (i != j != k)
* Plotly.moveTraces(gd, [i, j, k])
*
* // move traces [i, j, k] to [x, y, z] (i != j != k) (x != y != z)
* Plotly.moveTraces(gd, [i, j, k], [x, y, z])
*
* // reorder all traces (assume there are 5--a, b, c, d, e)
* Plotly.moveTraces(gd, [b, d, e, a, c]) // same as 'move to end'
*/
exports.moveTraces = function moveTraces(gd, currentIndices, newIndices) {
gd = Lib.getGraphDiv(gd);
var newData = [],
movingTraceMap = [],
undoFunc = moveTraces,
redoFunc = moveTraces,
undoArgs = [gd, newIndices, currentIndices],
redoArgs = [gd, currentIndices, newIndices],
i;
// to reduce complexity here, check args elsewhere
// this throws errors where appropriate
checkMoveTracesArgs(gd, currentIndices, newIndices);
// make sure currentIndices is an array
currentIndices = Array.isArray(currentIndices) ? currentIndices : [currentIndices];
// if undefined, define newIndices to point to the end of gd.data array
if(typeof newIndices === 'undefined') {
newIndices = [];
for(i = 0; i < currentIndices.length; i++) {
newIndices.push(-currentIndices.length + i);
}
}
// make sure newIndices is an array if it's user-defined
newIndices = Array.isArray(newIndices) ? newIndices : [newIndices];
// convert negative indices to positive indices (they're the same length)
currentIndices = positivifyIndices(currentIndices, gd.data.length - 1);
newIndices = positivifyIndices(newIndices, gd.data.length - 1);
// at this point, we've coerced the index arrays into predictable forms
// get the traces that aren't being moved around
for(i = 0; i < gd.data.length; i++) {
// if index isn't in currentIndices, include it in ignored!
if(currentIndices.indexOf(i) === -1) {
newData.push(gd.data[i]);
}
}
// get a mapping of indices to moving traces
for(i = 0; i < currentIndices.length; i++) {
movingTraceMap.push({newIndex: newIndices[i], trace: gd.data[currentIndices[i]]});
}
// reorder this mapping by newIndex, ascending
movingTraceMap.sort(function(a, b) {
return a.newIndex - b.newIndex;
});
// now, add the moving traces back in, in order!
for(i = 0; i < movingTraceMap.length; i += 1) {
newData.splice(movingTraceMap[i].newIndex, 0, movingTraceMap[i].trace);
}
gd.data = newData;
var promise = exports.redraw(gd);
Queue.add(gd, undoFunc, undoArgs, redoFunc, redoArgs);
return promise;
};
/**
* restyle: update trace attributes of an existing plot
*
* Can be called two ways.
*
* Signature 1:
* @param {String | HTMLDivElement} gd
* the id or DOM element of the graph container div
* @param {String} astr
* attribute string (like `'marker.symbol'`) to update
* @param {*} val
* value to give this attribute
* @param {Number[] | Number} [traces]
* integer or array of integers for the traces to alter (all if omitted)
*
* Signature 2:
* @param {String | HTMLDivElement} gd
* (as in signature 1)
* @param {Object} aobj
* attribute object `{astr1: val1, astr2: val2 ...}`
* allows setting multiple attributes simultaneously
* @param {Number[] | Number} [traces]
* (as in signature 1)
*
* `val` (or `val1`, `val2` ... in the object form) can be an array,
* to apply different values to each trace.
*
* If the array is too short, it will wrap around (useful for
* style files that want to specify cyclical default values).
*/
exports.restyle = function restyle(gd, astr, val, _traces) {
gd = Lib.getGraphDiv(gd);
helpers.clearPromiseQueue(gd);
var aobj = {};
if(typeof astr === 'string') aobj[astr] = val;
else if(Lib.isPlainObject(astr)) {
// the 3-arg form
aobj = Lib.extendFlat({}, astr);
if(_traces === undefined) _traces = val;
}
else {
Lib.warn('Restyle fail.', astr, val, _traces);
return Promise.reject();
}
if(Object.keys(aobj).length) gd.changed = true;
var traces = helpers.coerceTraceIndices(gd, _traces);
var specs = _restyle(gd, aobj, traces);
var flags = specs.flags;
// clear calcdata and/or axis types if required so they get regenerated
if(flags.calc) gd.calcdata = undefined;
if(flags.clearAxisTypes) helpers.clearAxisTypes(gd, traces, {});
// fill in redraw sequence
var seq = [];
if(flags.fullReplot) {
seq.push(exports.plot);
} else {
seq.push(Plots.previousPromises);
Plots.supplyDefaults(gd);
if(flags.style) seq.push(subroutines.doTraceStyle);
if(flags.colorbars) seq.push(subroutines.doColorBars);
seq.push(emitAfterPlot);
}
seq.push(Plots.rehover);
Queue.add(gd,
restyle, [gd, specs.undoit, specs.traces],
restyle, [gd, specs.redoit, specs.traces]
);
var plotDone = Lib.syncOrAsync(seq, gd);
if(!plotDone || !plotDone.then) plotDone = Promise.resolve();
return plotDone.then(function() {
gd.emit('plotly_restyle', specs.eventData);
return gd;
});
};
// for undo: undefined initial vals must be turned into nulls
// so that we unset rather than ignore them
function undefinedToNull(val) {
if(val === undefined) return null;
return val;
}
function _restyle(gd, aobj, traces) {
var fullLayout = gd._fullLayout,
fullData = gd._fullData,
data = gd.data,
i;
// initialize flags
var flags = editTypes.traceFlags();
// copies of the change (and previous values of anything affected)
// for the undo / redo queue
var redoit = {},
undoit = {},
axlist;
// make a new empty vals array for undoit
function a0() { return traces.map(function() { return undefined; }); }
// for autoranging multiple axes
function addToAxlist(axid) {
var axName = Axes.id2name(axid);
if(axlist.indexOf(axName) === -1) axlist.push(axName);
}
function autorangeAttr(axName) { return 'LAYOUT' + axName + '.autorange'; }
function rangeAttr(axName) { return 'LAYOUT' + axName + '.range'; }
// for attrs that interact (like scales & autoscales), save the
// old vals before making the change
// val=undefined will not set a value, just record what the value was.
// val=null will delete the attribute
// attr can be an array to set several at once (all to the same val)
function doextra(attr, val, i) {
if(Array.isArray(attr)) {
attr.forEach(function(a) { doextra(a, val, i); });
return;
}
// quit if explicitly setting this elsewhere
if(attr in aobj || helpers.hasParent(aobj, attr)) return;
var extraparam;
if(attr.substr(0, 6) === 'LAYOUT') {
extraparam = Lib.nestedProperty(gd.layout, attr.replace('LAYOUT', ''));
} else {
extraparam = Lib.nestedProperty(data[traces[i]], attr);
}
if(!(attr in undoit)) {
undoit[attr] = a0();
}
if(undoit[attr][i] === undefined) {
undoit[attr][i] = undefinedToNull(extraparam.get());
}
if(val !== undefined) {
extraparam.set(val);
}
}
// now make the changes to gd.data (and occasionally gd.layout)
// and figure out what kind of graphics update we need to do
for(var ai in aobj) {
if(helpers.hasParent(aobj, ai)) {
throw new Error('cannot set ' + ai + 'and a parent attribute simultaneously');
}
var vi = aobj[ai],
cont,
contFull,
param,
oldVal,
newVal,
valObject;
redoit[ai] = vi;
if(ai.substr(0, 6) === 'LAYOUT') {
param = Lib.nestedProperty(gd.layout, ai.replace('LAYOUT', ''));
undoit[ai] = [undefinedToNull(param.get())];
// since we're allowing val to be an array, allow it here too,
// even though that's meaningless
param.set(Array.isArray(vi) ? vi[0] : vi);
// ironically, the layout attrs in restyle only require replot,
// not relayout
flags.calc = true;
continue;
}
// set attribute in gd.data
undoit[ai] = a0();
for(i = 0; i < traces.length; i++) {
cont = data[traces[i]];
contFull = fullData[traces[i]];
param = Lib.nestedProperty(cont, ai);
oldVal = param.get();
newVal = Array.isArray(vi) ? vi[i % vi.length] : vi;
if(newVal === undefined) continue;
var finalPart = param.parts[param.parts.length - 1];
var prefix = ai.substr(0, ai.length - finalPart.length - 1);
var prefixDot = prefix ? prefix + '.' : '';
var innerContFull = prefix ?
Lib.nestedProperty(contFull, prefix).get() : contFull;
valObject = PlotSchema.getTraceValObject(contFull, param.parts);
if(valObject && valObject.impliedEdits && newVal !== null) {
for(var impliedKey in valObject.impliedEdits) {
doextra(Lib.relativeAttr(ai, impliedKey), valObject.impliedEdits[impliedKey], i);
}
}
// changing colorbar size modes,
// make the resulting size not change
// note that colorbar fractional sizing is based on the
// original plot size, before anything (like a colorbar)
// increases the margins
else if((finalPart === 'thicknessmode' || finalPart === 'lenmode') &&
oldVal !== newVal &&
(newVal === 'fraction' || newVal === 'pixels') &&
innerContFull
) {
var gs = fullLayout._size;
var orient = innerContFull.orient;
var topOrBottom = (orient === 'top') || (orient === 'bottom');
if(finalPart === 'thicknessmode') {
var thicknorm = topOrBottom ? gs.h : gs.w;
doextra(prefixDot + 'thickness', innerContFull.thickness *
(newVal === 'fraction' ? 1 / thicknorm : thicknorm), i);
}
else {
var lennorm = topOrBottom ? gs.w : gs.h;
doextra(prefixDot + 'len', innerContFull.len *
(newVal === 'fraction' ? 1 / lennorm : lennorm), i);
}
}
else if(ai === 'type' && (newVal === 'pie') !== (oldVal === 'pie')) {
var labelsTo = 'x',
valuesTo = 'y';
if((newVal === 'bar' || oldVal === 'bar') && cont.orientation === 'h') {
labelsTo = 'y';
valuesTo = 'x';
}
Lib.swapAttrs(cont, ['?', '?src'], 'labels', labelsTo);
Lib.swapAttrs(cont, ['d?', '?0'], 'label', labelsTo);
Lib.swapAttrs(cont, ['?', '?src'], 'values', valuesTo);
if(oldVal === 'pie') {
Lib.nestedProperty(cont, 'marker.color')
.set(Lib.nestedProperty(cont, 'marker.colors').get());
// super kludgy - but if all pies are gone we won't remove them otherwise
fullLayout._pielayer.selectAll('g.trace').remove();
} else if(Registry.traceIs(cont, 'cartesian')) {
Lib.nestedProperty(cont, 'marker.colors')
.set(Lib.nestedProperty(cont, 'marker.color').get());
}
}
undoit[ai][i] = undefinedToNull(oldVal);
// set the new value - if val is an array, it's one el per trace
// first check for attributes that get more complex alterations
var swapAttrs = [
'swapxy', 'swapxyaxes', 'orientation', 'orientationaxes'
];
if(swapAttrs.indexOf(ai) !== -1) {
// setting an orientation: make sure it's changing
// before we swap everything else
if(ai === 'orientation') {
param.set(newVal);
// obnoxious that we need this level of coupling... but in order to
// properly handle setting orientation to `null` we need to mimic
// the logic inside Bars.supplyDefaults for default orientation
var defaultOrientation = (cont.x && !cont.y) ? 'h' : 'v';
if((param.get() || defaultOrientation) === contFull.orientation) {
continue;
}
}
// orientationaxes has no value,
// it flips everything and the axes
else if(ai === 'orientationaxes') {
cont.orientation =
{v: 'h', h: 'v'}[contFull.orientation];
}
helpers.swapXYData(cont);
flags.calc = flags.clearAxisTypes = true;
}
else if(Plots.dataArrayContainers.indexOf(param.parts[0]) !== -1) {
// TODO: use manageArrays.applyContainerArrayChanges here too
helpers.manageArrayContainers(param, newVal, undoit);
flags.calc = true;
}
else {
if(valObject) {
// must redo calcdata when restyling array values of arrayOk attributes
if(valObject.arrayOk && (
Lib.isArrayOrTypedArray(newVal) || Lib.isArrayOrTypedArray(oldVal))
) {
flags.calc = true;
}
else editTypes.update(flags, valObject);
}
else {
/*
* if we couldn't find valObject, assume a full recalc.
* This can happen if you're changing type and making
* some other edits too, so the modules we're
* looking at don't have these attributes in them.
*/
flags.calc = true;
}
// all the other ones, just modify that one attribute
param.set(newVal);
}
}
// swap the data attributes of the relevant x and y axes?
if(['swapxyaxes', 'orientationaxes'].indexOf(ai) !== -1) {
Axes.swap(gd, traces);
}
// swap hovermode if set to "compare x/y data"
if(ai === 'orientationaxes') {
var hovermode = Lib.nestedProperty(gd.layout, 'hovermode');
if(hovermode.get() === 'x') {
hovermode.set('y');
} else if(hovermode.get() === 'y') {
hovermode.set('x');
}
}
// major enough changes deserve autoscale, autobin, and
// non-reversed axes so people don't get confused
if(['orientation', 'type'].indexOf(ai) !== -1) {
axlist = [];
for(i = 0; i < traces.length; i++) {
var trace = data[traces[i]];
if(Registry.traceIs(trace, 'cartesian')) {
addToAxlist(trace.xaxis || 'x');
addToAxlist(trace.yaxis || 'y');
if(ai === 'type') {
doextra(['autobinx', 'autobiny'], true, i);
}
}
}
doextra(axlist.map(autorangeAttr), true, 0);
doextra(axlist.map(rangeAttr), [0, 1], 0);
}
}
if(flags.calc || flags.plot) {
flags.fullReplot = true;
}
return {
flags: flags,
undoit: undoit,
redoit: redoit,
traces: traces,
eventData: Lib.extendDeepNoArrays([], [redoit, traces])
};
}
/**
* relayout: update layout attributes of an existing plot
*
* Can be called two ways:
*
* Signature 1:
* @param {String | HTMLDivElement} gd
* the id or dom element of the graph container div
* @param {String} astr
* attribute string (like `'xaxis.range[0]'`) to update
* @param {*} val
* value to give this attribute
*
* Signature 2:
* @param {String | HTMLDivElement} gd
* (as in signature 1)
* @param {Object} aobj
* attribute object `{astr1: val1, astr2: val2 ...}`
* allows setting multiple attributes simultaneously
*/
exports.relayout = function relayout(gd, astr, val) {
gd = Lib.getGraphDiv(gd);
helpers.clearPromiseQueue(gd);
if(gd.framework && gd.framework.isPolar) {
return Promise.resolve(gd);
}
var aobj = {};
if(typeof astr === 'string') {
aobj[astr] = val;
} else if(Lib.isPlainObject(astr)) {
aobj = Lib.extendFlat({}, astr);
} else {
Lib.warn('Relayout fail.', astr, val);
return Promise.reject();
}
if(Object.keys(aobj).length) gd.changed = true;
var specs = _relayout(gd, aobj);
var flags = specs.flags;
// clear calcdata if required
if(flags.calc) gd.calcdata = undefined;
// fill in redraw sequence
// even if we don't have anything left in aobj,
// something may have happened within relayout that we
// need to wait for
var seq = [Plots.previousPromises];
if(flags.layoutReplot) {
seq.push(subroutines.layoutReplot);
}
else if(Object.keys(aobj).length) {
Plots.supplyDefaults(gd);
if(flags.legend) seq.push(subroutines.doLegend);
if(flags.layoutstyle) seq.push(subroutines.layoutStyles);
if(flags.axrange) {
addAxRangeSequence(seq, specs.rangesAltered);
}
if(flags.ticks) seq.push(subroutines.doTicksRelayout);
if(flags.modebar) seq.push(subroutines.doModeBar);
if(flags.camera) seq.push(subroutines.doCamera);
seq.push(emitAfterPlot);
}
seq.push(Plots.rehover);
Queue.add(gd,
relayout, [gd, specs.undoit],
relayout, [gd, specs.redoit]
);
var plotDone = Lib.syncOrAsync(seq, gd);
if(!plotDone || !plotDone.then) plotDone = Promise.resolve(gd);
return plotDone.then(function() {
gd.emit('plotly_relayout', specs.eventData);
return gd;
});
};
function addAxRangeSequence(seq, rangesAltered) {
// N.B. leave as sequence of subroutines (for now) instead of
// subroutine of its own so that finalDraw always gets
// executed after drawData
var doTicks = rangesAltered ?
function(gd) { return subroutines.doTicksRelayout(gd, rangesAltered); } :
subroutines.doTicksRelayout;
seq.push(
subroutines.doAutoRangeAndConstraints,
doTicks,
subroutines.drawData,
subroutines.finalDraw
);
}
var AX_RANGE_RE = /^[xyz]axis[0-9]*\.range(\[[0|1]\])?$/;
var AX_AUTORANGE_RE = /^[xyz]axis[0-9]*\.autorange$/;
var AX_DOMAIN_RE = /^[xyz]axis[0-9]*\.domain(\[[0|1]\])?$/;
function _relayout(gd, aobj) {
var layout = gd.layout,
fullLayout = gd._fullLayout,
keys = Object.keys(aobj),
axes = Axes.list(gd),
arrayEdits = {},
arrayStr,
i,
j;
// look for 'allaxes', split out into all axes
// in case of 3D the axis are nested within a scene which is held in _id
for(i = 0; i < keys.length; i++) {
if(keys[i].indexOf('allaxes') === 0) {
for(j = 0; j < axes.length; j++) {
var scene = axes[j]._id.substr(1),
axisAttr = (scene.indexOf('scene') !== -1) ? (scene + '.') : '',
newkey = keys[i].replace('allaxes', axisAttr + axes[j]._name);
if(!aobj[newkey]) aobj[newkey] = aobj[keys[i]];
}
delete aobj[keys[i]];
}
}
// initialize flags
var flags = editTypes.layoutFlags();
// copies of the change (and previous values of anything affected)
// for the undo / redo queue
var redoit = {},
undoit = {};
// for attrs that interact (like scales & autoscales), save the
// old vals before making the change
// val=undefined will not set a value, just record what the value was.
// attr can be an array to set several at once (all to the same val)
function doextra(attr, val) {
if(Array.isArray(attr)) {
attr.forEach(function(a) { doextra(a, val); });
return;
}
// if we have another value for this attribute (explicitly or
// via a parent) do not override with this auto-generated extra
if(attr in aobj || helpers.hasParent(aobj, attr)) return;
var p = Lib.nestedProperty(layout, attr);
if(!(attr in undoit)) {
undoit[attr] = undefinedToNull(p.get());
}
if(val !== undefined) p.set(val);
}
// for constraint enforcement: keep track of all axes (as {id: name})
// we're editing the (auto)range of, so we can tell the others constrained
// to scale with them that it's OK for them to shrink
var rangesAltered = {};
var axId;
function recordAlteredAxis(pleafPlus) {
var axId = Axes.name2id(pleafPlus.split('.')[0]);
rangesAltered[axId] = 1;
return axId;
}
// alter gd.layout
for(var ai in aobj) {
if(helpers.hasParent(aobj, ai)) {
throw new Error('cannot set ' + ai + 'and a parent attribute simultaneously');
}
var p = Lib.nestedProperty(layout, ai);
var vi = aobj[ai];
var plen = p.parts.length;
// p.parts may end with an index integer if the property is an array
var pend = plen - 1;
while(pend > 0 && typeof p.parts[pend] !== 'string') pend--;
// last property in chain (leaf node)
var pleaf = p.parts[pend];
// leaf plus immediate parent
var pleafPlus = p.parts[pend - 1] + '.' + pleaf;
// trunk nodes (everything except the leaf)
var ptrunk = p.parts.slice(0, pend).join('.');
var parentIn = Lib.nestedProperty(gd.layout, ptrunk).get();
var parentFull = Lib.nestedProperty(fullLayout, ptrunk).get();
var vOld = p.get();
if(vi === undefined) continue;
redoit[ai] = vi;
// axis reverse is special - it is its own inverse
// op and has no flag.
undoit[ai] = (pleaf === 'reverse') ? vi : undefinedToNull(vOld);
var valObject = PlotSchema.getLayoutValObject(fullLayout, p.parts);
if(valObject && valObject.impliedEdits && vi !== null) {
for(var impliedKey in valObject.impliedEdits) {
doextra(Lib.relativeAttr(ai, impliedKey), valObject.impliedEdits[impliedKey]);
}
}
// Setting width or height to null must reset the graph's width / height
// back to its initial value as computed during the first pass in Plots.plotAutoSize.
//
// To do so, we must manually set them back here using the _initialAutoSize cache.
if(['width', 'height'].indexOf(ai) !== -1 && vi === null) {
fullLayout[ai] = gd._initialAutoSize[ai];
}
// check autorange vs range
else if(pleafPlus.match(AX_RANGE_RE)) {
recordAlteredAxis(pleafPlus);
Lib.nestedProperty(fullLayout, ptrunk + '._inputRange').set(null);
}
else if(pleafPlus.match(AX_AUTORANGE_RE)) {
recordAlteredAxis(pleafPlus);
Lib.nestedProperty(fullLayout, ptrunk + '._inputRange').set(null);
var axFull = Lib.nestedProperty(fullLayout, ptrunk).get();
if(axFull._inputDomain) {
// if we're autoranging and this axis has a constrained domain,
// reset it so we don't get locked into a shrunken size
axFull._input.domain = axFull._inputDomain.slice();
}
}
else if(pleafPlus.match(AX_DOMAIN_RE)) {
Lib.nestedProperty(fullLayout, ptrunk + '._inputDomain').set(null);
}
// toggling axis type between log and linear: we need to convert
// positions for components that are still using linearized values,
// not data values like newer components.
// previously we did this for log <-> not-log, but now only do it
// for log <-> linear
if(pleaf === 'type') {
var ax = parentIn,
toLog = parentFull.type === 'linear' && vi === 'log',
fromLog = parentFull.type === 'log' && vi === 'linear';
if(toLog || fromLog) {
if(!ax || !ax.range) {
// 2D never gets here, but 3D does
// I don't think this is needed, but left here in case there
// are edge cases I'm not thinking of.
doextra(ptrunk + '.autorange', true);
}
else if(!parentFull.autorange) {
// toggling log without autorange: need to also recalculate ranges
// because log axes use linearized values for range endpoints
var r0 = ax.range[0],
r1 = ax.range[1];
if(toLog) {
// if both limits are negative, autorange
if(r0 <= 0 && r1 <= 0) {
doextra(ptrunk + '.autorange', true);
}
// if one is negative, set it 6 orders below the other.
if(r0 <= 0) r0 = r1 / 1e6;
else if(r1 <= 0) r1 = r0 / 1e6;
// now set the range values as appropriate
doextra(ptrunk + '.range[0]', Math.log(r0) / Math.LN10);
doextra(ptrunk + '.range[1]', Math.log(r1) / Math.LN10);
}
else {
doextra(ptrunk + '.range[0]', Math.pow(10, r0));
doextra(ptrunk + '.range[1]', Math.pow(10, r1));
}
}
else if(toLog) {
// just make sure the range is positive and in the right
// order, it'll get recalculated later
ax.range = (ax.range[1] > ax.range[0]) ? [1, 2] : [2, 1];
}
// clear polar view initial stash for radial range so that
// value get recomputed in correct units
if(Array.isArray(fullLayout._subplots.polar) &&
fullLayout._subplots.polar.length &&
fullLayout[p.parts[0]] &&
p.parts[1] === 'radialaxis'
) {
delete fullLayout[p.parts[0]]._subplot.viewInitial['radialaxis.range'];
}
// Annotations and images also need to convert to/from linearized coords
// Shapes do not need this :)
Registry.getComponentMethod('annotations', 'convertCoords')(gd, parentFull, vi, doextra);
Registry.getComponentMethod('images', 'convertCoords')(gd, parentFull, vi, doextra);
}
else {
// any other type changes: the range from the previous type
// will not make sense, so autorange it.
doextra(ptrunk + '.autorange', true);
doextra(ptrunk + '.range', null);
}
Lib.nestedProperty(fullLayout, ptrunk + '._inputRange').set(null);
}
else if(pleaf.match(AX_NAME_PATTERN)) {
var fullProp = Lib.nestedProperty(fullLayout, ai).get(),
newType = (vi || {}).type;
// This can potentially cause strange behavior if the autotype is not
// numeric (linear, because we don't auto-log) but the previous type
// was log. That's a very strange edge case though
if(!newType || newType === '-') newType = 'linear';
Registry.getComponentMethod('annotations', 'convertCoords')(gd, fullProp, newType, doextra);
Registry.getComponentMethod('images', 'convertCoords')(gd, fullProp, newType, doextra);
}
// alter gd.layout
// collect array component edits for execution all together
// so we can ensure consistent behavior adding/removing items
// and order-independence for add/remove/edit all together in
// one relayout call
var containerArrayMatch = manageArrays.containerArrayMatch(ai);
if(containerArrayMatch) {
arrayStr = containerArrayMatch.array;
i = containerArrayMatch.index;
var propStr = containerArrayMatch.property;
var componentArray = Lib.nestedProperty(layout, arrayStr);
var obji = (componentArray || [])[i] || {};
var updateValObject = valObject || {editType: 'calc'};
if(propStr === '') {
// special handling of undoit if we're adding or removing an element
// ie 'annotations[2]' which can be {...} (add) or null (remove)
if(manageArrays.isAddVal(vi)) {
undoit[ai] = null;
} else if(manageArrays.isRemoveVal(vi)) {
undoit[ai] = obji;
} else {
Lib.warn('unrecognized full object value', aobj);
}
}
editTypes.update(flags, updateValObject);
// prepare the edits object we'll send to applyContainerArrayChanges
if(!arrayEdits[arrayStr]) arrayEdits[arrayStr] = {};
var objEdits = arrayEdits[arrayStr][i];
if(!objEdits) objEdits = arrayEdits[arrayStr][i] = {};
objEdits[propStr] = vi;
delete aobj[ai];
}
// handle axis reversal explicitly, as there's no 'reverse' attribute
else if(pleaf === 'reverse') {
if(parentIn.range) parentIn.range.reverse();
else {
doextra(ptrunk + '.autorange', true);
parentIn.range = [1, 0];
}
if(parentFull.autorange) flags.calc = true;
else flags.plot = true;
}
else {
if((fullLayout._has('scatter-like') && fullLayout._has('regl')) &&
(ai === 'dragmode' &&
(vi === 'lasso' || vi === 'select') &&
!(vOld === 'lasso' || vOld === 'select'))
) {
flags.plot = true;
}
else if(valObject) editTypes.update(flags, valObject);
else flags.calc = true;
p.set(vi);
}
}
// now we've collected component edits - execute them all together
for(arrayStr in arrayEdits) {
var finished = manageArrays.applyContainerArrayChanges(gd,
Lib.nestedProperty(layout, arrayStr), arrayEdits[arrayStr], flags);
if(!finished) flags.plot = true;
}
// figure out if we need to recalculate axis constraints
var constraints = fullLayout._axisConstraintGroups || [];
for(axId in rangesAltered) {
for(i = 0; i < constraints.length; i++) {
var group = constraints[i];
if(group[axId]) {
// Always recalc if we're changing constrained ranges.
// Otherwise it's possible to violate the constraints by
// specifying arbitrary ranges for all axes in the group.
// this way some ranges may expand beyond what's specified,
// as they do at first draw, to satisfy the constraints.
flags.calc = true;
for(var groupAxId in group) {
if(!rangesAltered[groupAxId]) {
Axes.getFromId(gd, groupAxId)._constraintShrinkable = true;
}
}
}
}
}
// If the autosize changed or height or width was explicitly specified,
// this triggers a redraw
// TODO: do we really need special aobj.height/width handling here?
// couldn't editType do this?
if(updateAutosize(gd) || aobj.height || aobj.width) flags.plot = true;
if(flags.plot || flags.calc) {
flags.layoutReplot = true;
}
// now all attribute mods are done, as are
// redo and undo so we can save them
return {
flags: flags,
rangesAltered: rangesAltered,
undoit: undoit,
redoit: redoit,
eventData: Lib.extendDeep({}, redoit)
};
}
/*
* updateAutosize: we made a change, does it change the autosize result?
* puts the new size into fullLayout
* returns true if either height or width changed
*/
function updateAutosize(gd) {
var fullLayout = gd._fullLayout;
var oldWidth = fullLayout.width;
var oldHeight = fullLayout.height;
// calculate autosizing
if(gd.layout.autosize) Plots.plotAutoSize(gd, gd.layout, fullLayout);
return (fullLayout.width !== oldWidth) || (fullLayout.height !== oldHeight);
}
/**
* update: update trace and layout attributes of an existing plot
*
* @param {String | HTMLDivElement} gd
* the id or DOM element of the graph container div
* @param {Object} traceUpdate
* attribute object `{astr1: val1, astr2: val2 ...}`
* corresponding to updates in the plot's traces
* @param {Object} layoutUpdate
* attribute object `{astr1: val1, astr2: val2 ...}`
* corresponding to updates in the plot's layout
* @param {Number[] | Number} [traces]
* integer or array of integers for the traces to alter (all if omitted)
*
*/
exports.update = function update(gd, traceUpdate, layoutUpdate, _traces) {
gd = Lib.getGraphDiv(gd);
helpers.clearPromiseQueue(gd);
if(gd.framework && gd.framework.isPolar) {
return Promise.resolve(gd);
}
if(!Lib.isPlainObject(traceUpdate)) traceUpdate = {};
if(!Lib.isPlainObject(layoutUpdate)) layoutUpdate = {};
if(Object.keys(traceUpdate).length) gd.changed = true;
if(Object.keys(layoutUpdate).length) gd.changed = true;
var traces = helpers.coerceTraceIndices(gd, _traces);
var restyleSpecs = _restyle(gd, Lib.extendFlat({}, traceUpdate), traces);
var restyleFlags = restyleSpecs.flags;
var relayoutSpecs = _relayout(gd, Lib.extendFlat({}, layoutUpdate));
var relayoutFlags = relayoutSpecs.flags;
// clear calcdata and/or axis types if required
if(restyleFlags.calc || relayoutFlags.calc) gd.calcdata = undefined;
if(restyleFlags.clearAxisTypes) helpers.clearAxisTypes(gd, traces, layoutUpdate);
// fill in redraw sequence
var seq = [];
if(restyleFlags.fullReplot && relayoutFlags.layoutReplot) {
var data = gd.data,
layout = gd.layout;
// clear existing data/layout on gd
// so that Plotly.plot doesn't try to extend them
gd.data = undefined;
gd.layout = undefined;
seq.push(function() { return exports.plot(gd, data, layout); });
}
else if(restyleFlags.fullReplot) {
seq.push(exports.plot);
}
else if(relayoutFlags.layoutReplot) {
seq.push(subroutines.layoutReplot);
}
else {
seq.push(Plots.previousPromises);
Plots.supplyDefaults(gd);
if(restyleFlags.style) seq.push(subroutines.doTraceStyle);
if(restyleFlags.colorbars) seq.push(subroutines.doColorBars);
if(relayoutFlags.legend) seq.push(subroutines.doLegend);
if(relayoutFlags.layoutstyle) seq.push(subroutines.layoutStyles);
if(relayoutFlags.axrange) {
addAxRangeSequence(seq, relayoutSpecs.rangesAltered);
}
if(relayoutFlags.ticks) seq.push(subroutines.doTicksRelayout);
if(relayoutFlags.modebar) seq.push(subroutines.doModeBar);
if(relayoutFlags.camera) seq.push(subroutines.doCamera);
seq.push(emitAfterPlot);
}
seq.push(Plots.rehover);
Queue.add(gd,
update, [gd, restyleSpecs.undoit, relayoutSpecs.undoit, restyleSpecs.traces],
update, [gd, restyleSpecs.redoit, relayoutSpecs.redoit, restyleSpecs.traces]
);
var plotDone = Lib.syncOrAsync(seq, gd);
if(!plotDone || !plotDone.then) plotDone = Promise.resolve(gd);
return plotDone.then(function() {
gd.emit('plotly_update', {
data: restyleSpecs.eventData,
layout: relayoutSpecs.eventData
});
return gd;
});
};
/**
* Plotly.react:
* A plot/update method that takes the full plot state (same API as plot/newPlot)
* and diffs to determine the minimal update pathway
*
* @param {string id or DOM element} gd
* the id or DOM element of the graph container div
* @param {array of objects} data
* array of traces, containing the data and display information for each trace
* @param {object} layout
* object describing the overall display of the plot,
* all the stuff that doesn't pertain to any individual trace
* @param {object} config
* configuration options (see ./plot_config.js for more info)
*
* OR
*
* @param {string id or DOM element} gd
* the id or DOM element of the graph container div
* @param {object} figure
* object containing `data`, `layout`, `config`, and `frames` members
*
*/
exports.react = function(gd, data, layout, config) {
var frames, plotDone;
function addFrames() { return exports.addFrames(gd, frames); }
gd = Lib.getGraphDiv(gd);
var oldFullData = gd._fullData;
var oldFullLayout = gd._fullLayout;
// you can use this as the initial draw as well as to update
if(!Lib.isPlotDiv(gd) || !oldFullData || !oldFullLayout) {
plotDone = exports.newPlot(gd, data, layout, config);
}
else {
if(Lib.isPlainObject(data)) {
var obj = data;
data = obj.data;
layout = obj.layout;
config = obj.config;
frames = obj.frames;
}
var configChanged = false;
// assume that if there's a config at all, we're reacting to it too,
// and completely replace the previous config
if(config) {
var oldConfig = Lib.extendDeep({}, gd._context);
gd._context = undefined;
setPlotContext(gd, config);
configChanged = diffConfig(oldConfig, gd._context);
}
gd.data = data || [];
helpers.cleanData(gd.data);
gd.layout = layout || {};
helpers.cleanLayout(gd.layout);
// "true" skips updating calcdata and remapping arrays from calcTransforms,
// which supplyDefaults usually does at the end, but we may need to NOT do
// if the diff (which we haven't determined yet) says we'll recalc
Plots.supplyDefaults(gd, {skipUpdateCalc: true});
var newFullData = gd._fullData;
var newFullLayout = gd._fullLayout;
var immutable = newFullLayout.datarevision === undefined;
var restyleFlags = diffData(gd, oldFullData, newFullData, immutable);
var relayoutFlags = diffLayout(gd, oldFullLayout, newFullLayout, immutable);
// TODO: how to translate this part of relayout to Plotly.react?
// // Setting width or height to null must reset the graph's width / height
// // back to its initial value as computed during the first pass in Plots.plotAutoSize.
// //
// // To do so, we must manually set them back here using the _initialAutoSize cache.
// if(['width', 'height'].indexOf(ai) !== -1 && vi === null) {
// fullLayout[ai] = gd._initialAutoSize[ai];
// }
if(updateAutosize(gd)) relayoutFlags.layoutReplot = true;
// clear calcdata if required
if(restyleFlags.calc || relayoutFlags.calc) gd.calcdata = undefined;
// otherwise do the calcdata updates and calcTransform array remaps that we skipped earlier
else Plots.supplyDefaultsUpdateCalc(gd.calcdata, newFullData);
// Note: what restyle/relayout use impliedEdits and clearAxisTypes for
// must be handled by the user when using Plotly.react.
// fill in redraw sequence
var seq = [];
if(frames) {
gd._transitionData = {};
Plots.createTransitionData(gd);
seq.push(addFrames);
}
if(restyleFlags.fullReplot || relayoutFlags.layoutReplot || configChanged) {
gd._fullLayout._skipDefaults = true;
seq.push(exports.plot);
}
else {
for(var componentType in relayoutFlags.arrays) {
var indices = relayoutFlags.arrays[componentType];
if(indices.length) {
var drawOne = Registry.getComponentMethod(componentType, 'drawOne');
if(drawOne !== Lib.noop) {
for(var i = 0; i < indices.length; i++) {
drawOne(gd, indices[i]);
}
}
else {
var draw = Registry.getComponentMethod(componentType, 'draw');
if(draw === Lib.noop) {
throw new Error('cannot draw components: ' + componentType);
}
draw(gd);
}
}
}
seq.push(Plots.previousPromises);
if(restyleFlags.style) seq.push(subroutines.doTraceStyle);
if(restyleFlags.colorbars) seq.push(subroutines.doColorBars);
if(relayoutFlags.legend) seq.push(subroutines.doLegend);
if(relayoutFlags.layoutstyle) seq.push(subroutines.layoutStyles);
if(relayoutFlags.axrange) addAxRangeSequence(seq);
if(relayoutFlags.ticks) seq.push(subroutines.doTicksRelayout);
if(relayoutFlags.modebar) seq.push(subroutines.doModeBar);
if(relayoutFlags.camera) seq.push(subroutines.doCamera);
seq.push(emitAfterPlot);
}
seq.push(Plots.rehover);
plotDone = Lib.syncOrAsync(seq, gd);
if(!plotDone || !plotDone.then) plotDone = Promise.resolve(gd);
}
return plotDone.then(function() {
gd.emit('plotly_react', {
data: data,
layout: layout
});
return gd;
});
};
function diffData(gd, oldFullData, newFullData, immutable) {
if(oldFullData.length !== newFullData.length) {
return {
fullReplot: true,
calc: true
};
}
var flags = editTypes.traceFlags();
flags.arrays = {};
var i, trace;
function getTraceValObject(parts) {
return PlotSchema.getTraceValObject(trace, parts);
}
var diffOpts = {
getValObject: getTraceValObject,
flags: flags,
immutable: immutable,
gd: gd
};
var seenUIDs = {};
for(i = 0; i < oldFullData.length; i++) {
trace = newFullData[i]._fullInput;
if(Plots.hasMakesDataTransform(trace)) trace = newFullData[i];
if(seenUIDs[trace.uid]) continue;
seenUIDs[trace.uid] = 1;
getDiffFlags(oldFullData[i]._fullInput, trace, [], diffOpts);
}
if(flags.calc || flags.plot) {
flags.fullReplot = true;
}
return flags;
}
function diffLayout(gd, oldFullLayout, newFullLayout, immutable) {
var flags = editTypes.layoutFlags();
flags.arrays = {};
function getLayoutValObject(parts) {
return PlotSchema.getLayoutValObject(newFullLayout, parts);
}
var diffOpts = {
getValObject: getLayoutValObject,
flags: flags,
immutable: immutable,
gd: gd
};
getDiffFlags(oldFullLayout, newFullLayout, [], diffOpts);
if(flags.plot || flags.calc) {
flags.layoutReplot = true;
}
return flags;
}
function getDiffFlags(oldContainer, newContainer, outerparts, opts) {
var valObject, key;
var getValObject = opts.getValObject;
var flags = opts.flags;
var immutable = opts.immutable;
var inArray = opts.inArray;
var arrayIndex = opts.arrayIndex;
function changed() {
var editType = valObject.editType;
if(inArray && editType.indexOf('arraydraw') !== -1) {
Lib.pushUnique(flags.arrays[inArray], arrayIndex);
return;
}
editTypes.update(flags, valObject);
}
function valObjectCanBeDataArray(valObject) {
return valObject.valType === 'data_array' || valObject.arrayOk;
}
for(key in oldContainer) {
// short-circuit based on previous calls or previous keys that already maximized the pathway
if(flags.calc) return;
var oldVal = oldContainer[key];
var newVal = newContainer[key];
if(key.charAt(0) === '_' || typeof oldVal === 'function' || oldVal === newVal) continue;
// FIXME: ax.tick0 and dtick get filled in during plotting (except for geo subplots),
// and unlike other auto values they don't make it back into the input,
// so newContainer won't have them.
if((key === 'tick0' || key === 'dtick') && outerparts[0] !== 'geo') {
var tickMode = newContainer.tickmode;
if(tickMode === 'auto' || tickMode === 'array' || !tickMode) continue;
}
// FIXME: Similarly for axis ranges for 3D
// contourcarpet doesn't HAVE zmin/zmax, they're just auto-added. It needs them.
if(key === 'range' && newContainer.autorange) continue;
if((key === 'zmin' || key === 'zmax') && newContainer.type === 'contourcarpet') continue;
var parts = outerparts.concat(key);
valObject = getValObject(parts);
// in case type changed, we may not even *have* a valObject.
if(!valObject) continue;
if(valObject._compareAsJSON && JSON.stringify(oldVal) === JSON.stringify(newVal)) continue;
var valType = valObject.valType;
var i;
var canBeDataArray = valObjectCanBeDataArray(valObject);
var wasArray = Array.isArray(oldVal);
var nowArray = Array.isArray(newVal);
// hack for traces that modify the data in supplyDefaults, like
// converting 1D to 2D arrays, which will always create new objects
if(wasArray && nowArray) {
var inputKey = '_input_' + key;
var oldValIn = oldContainer[inputKey];
var newValIn = newContainer[inputKey];
if(Array.isArray(oldValIn) && oldValIn === newValIn) continue;
}
if(newVal === undefined) {
if(canBeDataArray && wasArray) flags.calc = true;
else changed();
}
else if(valObject._isLinkedToArray) {
var arrayEditIndices = [];
var extraIndices = false;
if(!inArray) flags.arrays[key] = arrayEditIndices;
var minLen = Math.min(oldVal.length, newVal.length);
var maxLen = Math.max(oldVal.length, newVal.length);
if(minLen !== maxLen) {
if(valObject.editType === 'arraydraw') {
extraIndices = true;
}
else {
changed();
continue;
}
}
for(i = 0; i < minLen; i++) {
getDiffFlags(oldVal[i], newVal[i], parts.concat(i),
// add array indices, but not if we're already in an array
Lib.extendFlat({inArray: key, arrayIndex: i}, opts));
}
// put this at the end so that we know our collected array indices are sorted
// but the check for length changes happens up front so we can short-circuit
// diffing if appropriate
if(extraIndices) {
for(i = minLen; i < maxLen; i++) {
arrayEditIndices.push(i);
}
}
}
else if(!valType && Lib.isPlainObject(oldVal)) {
getDiffFlags(oldVal, newVal, parts, opts);
}
else if(canBeDataArray) {
if(wasArray && nowArray) {
// don't try to diff two data arrays. If immutable we know the data changed,
// if not, assume it didn't and let `layout.datarevision` tell us if it did
if(immutable) {
flags.calc = true;
}
}
else if(wasArray !== nowArray) {
flags.calc = true;
}
else changed();
}
else if(wasArray && nowArray) {
// info array, colorscale, 'any' - these are short, just stringify.
// I don't *think* that covers up any real differences post-validation, does it?
// otherwise we need to dive in 1 (info_array) or 2 (colorscale) levels and compare
// all elements.
if(oldVal.length !== newVal.length || String(oldVal) !== String(newVal)) {
changed();
}
}
else {
changed();
}
}
for(key in newContainer) {
if(!(key in oldContainer || key.charAt(0) === '_' || typeof newContainer[key] === 'function')) {
valObject = getValObject(outerparts.concat(key));
if(valObjectCanBeDataArray(valObject) && Array.isArray(newContainer[key])) {
flags.calc = true;
return;
}
else changed();
}
}
}
/*
* simple diff for config - for now, just treat all changes as equivalent
*/
function diffConfig(oldConfig, newConfig) {
var key;
for(key in oldConfig) {
var oldVal = oldConfig[key];
var newVal = newConfig[key];
if(oldVal !== newVal) {
if(Lib.isPlainObject(oldVal) && Lib.isPlainObject(newVal)) {
if(diffConfig(oldVal, newVal)) {
return true;
}
}
else if(Array.isArray(oldVal) && Array.isArray(newVal)) {
if(oldVal.length !== newVal.length) {
return true;
}
for(var i = 0; i < oldVal.length; i++) {
if(oldVal[i] !== newVal[i]) {
if(Lib.isPlainObject(oldVal[i]) && Lib.isPlainObject(newVal[i])) {
if(diffConfig(oldVal[i], newVal[i])) {
return true;
}
}
else {
return true;
}
}
}
}
else {
return true;
}
}
}
}
/**
* Animate to a frame, sequence of frame, frame group, or frame definition
*
* @param {string id or DOM element} gd
* the id or DOM element of the graph container div
*
* @param {string or object or array of strings or array of objects} frameOrGroupNameOrFrameList
* a single frame, array of frames, or group to which to animate. The intent is
* inferred by the type of the input. Valid inputs are:
*
* - string, e.g. 'groupname': animate all frames of a given `group` in the order
* in which they are defined via `Plotly.addFrames`.
*
* - array of strings, e.g. ['frame1', frame2']: a list of frames by name to which
* to animate in sequence
*
* - object: {data: ...}: a frame definition to which to animate. The frame is not
* and does not need to be added via `Plotly.addFrames`. It may contain any of
* the properties of a frame, including `data`, `layout`, and `traces`. The
* frame is used as provided and does not use the `baseframe` property.
*
* - array of objects, e.g. [{data: ...}, {data: ...}]: a list of frame objects,
* each following the same rules as a single `object`.
*
* @param {object} animationOpts
* configuration for the animation
*/
exports.animate = function(gd, frameOrGroupNameOrFrameList, animationOpts) {
gd = Lib.getGraphDiv(gd);
if(!Lib.isPlotDiv(gd)) {
throw new Error(
'This element is not a Plotly plot: ' + gd + '. It\'s likely that you\'ve failed ' +
'to create a plot before animating it. For more details, see ' +
'https://plot.ly/javascript/animations/'
);
}
var trans = gd._transitionData;
// This is the queue of frames that will be animated as soon as possible. They
// are popped immediately upon the *start* of a transition:
if(!trans._frameQueue) {
trans._frameQueue = [];
}
animationOpts = Plots.supplyAnimationDefaults(animationOpts);
var transitionOpts = animationOpts.transition;
var frameOpts = animationOpts.frame;
// Since frames are popped immediately, an empty queue only means all frames have
// *started* to transition, not that the animation is complete. To solve that,
// track a separate counter that increments at the same time as frames are added
// to the queue, but decrements only when the transition is complete.
if(trans._frameWaitingCnt === undefined) {
trans._frameWaitingCnt = 0;
}
function getTransitionOpts(i) {
if(Array.isArray(transitionOpts)) {
if(i >= transitionOpts.length) {
return transitionOpts[0];
} else {
return transitionOpts[i];
}
} else {
return transitionOpts;
}
}
function getFrameOpts(i) {
if(Array.isArray(frameOpts)) {
if(i >= frameOpts.length) {
return frameOpts[0];
} else {
return frameOpts[i];
}
} else {
return frameOpts;
}
}
// Execute a callback after the wrapper function has been called n times.
// This is used to defer the resolution until a transition has resovled *and*
// the frame has completed. If it's not done this way, then we get a race
// condition in which the animation might resolve before a transition is complete
// or vice versa.
function callbackOnNthTime(cb, n) {
var cnt = 0;
return function() {
if(cb && ++cnt === n) {
return cb();
}
};
}
return new Promise(function(resolve, reject) {
function discardExistingFrames() {
if(trans._frameQueue.length === 0) {
return;
}
while(trans._frameQueue.length) {
var next = trans._frameQueue.pop();
if(next.onInterrupt) {
next.onInterrupt();
}
}
gd.emit('plotly_animationinterrupted', []);
}
function queueFrames(frameList) {
if(frameList.length === 0) return;
for(var i = 0; i < frameList.length; i++) {
var computedFrame;
if(frameList[i].type === 'byname') {
// If it's a named frame, compute it:
computedFrame = Plots.computeFrame(gd, frameList[i].name);
} else {
// Otherwise we must have been given a simple object, so treat
// the input itself as the computed frame.
computedFrame = frameList[i].data;
}
var frameOpts = getFrameOpts(i);
var transitionOpts = getTransitionOpts(i);
// It doesn't make much sense for the transition duration to be greater than
// the frame duration, so limit it:
transitionOpts.duration = Math.min(transitionOpts.duration, frameOpts.duration);
var nextFrame = {
frame: computedFrame,
name: frameList[i].name,
frameOpts: frameOpts,
transitionOpts: transitionOpts,
};
if(i === frameList.length - 1) {
// The last frame in this .animate call stores the promise resolve
// and reject callbacks. This is how we ensure that the animation
// loop (which may exist as a result of a *different* .animate call)
// still resolves or rejecdts this .animate call's promise. once it's
// complete.
nextFrame.onComplete = callbackOnNthTime(resolve, 2);
nextFrame.onInterrupt = reject;
}
trans._frameQueue.push(nextFrame);
}
// Set it as never having transitioned to a frame. This will cause the animation
// loop to immediately transition to the next frame (which, for immediate mode,
// is the first frame in the list since all others would have been discarded
// below)
if(animationOpts.mode === 'immediate') {
trans._lastFrameAt = -Infinity;
}
// Only it's not already running, start a RAF loop. This could be avoided in the
// case that there's only one frame, but it significantly complicated the logic
// and only sped things up by about 5% or so for a lorenz attractor simulation.
// It would be a fine thing to implement, but the benefit of that optimization
// doesn't seem worth the extra complexity.
if(!trans._animationRaf) {
beginAnimationLoop();
}
}
function stopAnimationLoop() {
gd.emit('plotly_animated');
// Be sure to unset also since it's how we know whether a loop is already running:
window.cancelAnimationFrame(trans._animationRaf);
trans._animationRaf = null;
}
function nextFrame() {
if(trans._currentFrame && trans._currentFrame.onComplete) {
// Execute the callback and unset it to ensure it doesn't
// accidentally get called twice
trans._currentFrame.onComplete();
}
var newFrame = trans._currentFrame = trans._frameQueue.shift();
if(newFrame) {
// Since it's sometimes necessary to do deep digging into frame data,
// we'll consider it not 100% impossible for nulls or numbers to sneak through,
// so check when casting the name, just to be absolutely certain:
var stringName = newFrame.name ? newFrame.name.toString() : null;
gd._fullLayout._currentFrame = stringName;
trans._lastFrameAt = Date.now();
trans._timeToNext = newFrame.frameOpts.duration;
// This is simply called and it's left to .transition to decide how to manage
// interrupting current transitions. That means we don't need to worry about
// how it resolves or what happens after this:
Plots.transition(gd,
newFrame.frame.data,
newFrame.frame.layout,
helpers.coerceTraceIndices(gd, newFrame.frame.traces),
newFrame.frameOpts,
newFrame.transitionOpts
).then(function() {
if(newFrame.onComplete) {
newFrame.onComplete();
}
});
gd.emit('plotly_animatingframe', {
name: stringName,
frame: newFrame.frame,
animation: {
frame: newFrame.frameOpts,
transition: newFrame.transitionOpts,
}
});
} else {
// If there are no more frames, then stop the RAF loop:
stopAnimationLoop();
}
}
function beginAnimationLoop() {
gd.emit('plotly_animating');
// If no timer is running, then set last frame = long ago so that the next
// frame is immediately transitioned:
trans._lastFrameAt = -Infinity;
trans._timeToNext = 0;
trans._runningTransitions = 0;
trans._currentFrame = null;
var doFrame = function() {
// This *must* be requested before nextFrame since nextFrame may decide
// to cancel it if there's nothing more to animated:
trans._animationRaf = window.requestAnimationFrame(doFrame);
// Check if we're ready for a new frame:
if(Date.now() - trans._lastFrameAt > trans._timeToNext) {
nextFrame();
}
};
doFrame();
}
// This is an animate-local counter that helps match up option input list
// items with the particular frame.
var configCounter = 0;
function setTransitionConfig(frame) {
if(Array.isArray(transitionOpts)) {
if(configCounter >= transitionOpts.length) {
frame.transitionOpts = transitionOpts[configCounter];
} else {
frame.transitionOpts = transitionOpts[0];
}
} else {
frame.transitionOpts = transitionOpts;
}
configCounter++;
return frame;
}
// Disambiguate what's sort of frames have been received
var i, frame;
var frameList = [];
var allFrames = frameOrGroupNameOrFrameList === undefined || frameOrGroupNameOrFrameList === null;
var isFrameArray = Array.isArray(frameOrGroupNameOrFrameList);
var isSingleFrame = !allFrames && !isFrameArray && Lib.isPlainObject(frameOrGroupNameOrFrameList);
if(isSingleFrame) {
// In this case, a simple object has been passed to animate.
frameList.push({
type: 'object',
data: setTransitionConfig(Lib.extendFlat({}, frameOrGroupNameOrFrameList))
});
} else if(allFrames || ['string', 'number'].indexOf(typeof frameOrGroupNameOrFrameList) !== -1) {
// In this case, null or undefined has been passed so that we want to
// animate *all* currently defined frames
for(i = 0; i < trans._frames.length; i++) {
frame = trans._frames[i];
if(!frame) continue;
if(allFrames || String(frame.group) === String(frameOrGroupNameOrFrameList)) {
frameList.push({
type: 'byname',
name: String(frame.name),
data: setTransitionConfig({name: frame.name})
});
}
}
} else if(isFrameArray) {
for(i = 0; i < frameOrGroupNameOrFrameList.length; i++) {
var frameOrName = frameOrGroupNameOrFrameList[i];
if(['number', 'string'].indexOf(typeof frameOrName) !== -1) {
frameOrName = String(frameOrName);
// In this case, there's an array and this frame is a string name:
frameList.push({
type: 'byname',
name: frameOrName,
data: setTransitionConfig({name: frameOrName})
});
} else if(Lib.isPlainObject(frameOrName)) {
frameList.push({
type: 'object',
data: setTransitionConfig(Lib.extendFlat({}, frameOrName))
});
}
}
}
// Verify that all of these frames actually exist; return and reject if not:
for(i = 0; i < frameList.length; i++) {
frame = frameList[i];
if(frame.type === 'byname' && !trans._frameHash[frame.data.name]) {
Lib.warn('animate failure: frame not found: "' + frame.data.name + '"');
reject();
return;
}
}
// If the mode is either next or immediate, then all currently queued frames must
// be dumped and the corresponding .animate promises rejected.
if(['next', 'immediate'].indexOf(animationOpts.mode) !== -1) {
discardExistingFrames();
}
if(animationOpts.direction === 'reverse') {
frameList.reverse();
}
var currentFrame = gd._fullLayout._currentFrame;
if(currentFrame && animationOpts.fromcurrent) {
var idx = -1;
for(i = 0; i < frameList.length; i++) {
frame = frameList[i];
if(frame.type === 'byname' && frame.name === currentFrame) {
idx = i;
break;
}
}
if(idx > 0 && idx < frameList.length - 1) {
var filteredFrameList = [];
for(i = 0; i < frameList.length; i++) {
frame = frameList[i];
if(frameList[i].type !== 'byname' || i > idx) {
filteredFrameList.push(frame);
}
}
frameList = filteredFrameList;
}
}
if(frameList.length > 0) {
queueFrames(frameList);
} else {
// This is the case where there were simply no frames. It's a little strange
// since there's not much to do:
gd.emit('plotly_animated');
resolve();
}
});
};
/**
* Register new frames
*
* @param {string id or DOM element} gd
* the id or DOM element of the graph container div
*
* @param {array of objects} frameList
* list of frame definitions, in which each object includes any of:
* - name: {string} name of frame to add
* - data: {array of objects} trace data
* - layout {object} layout definition
* - traces {array} trace indices
* - baseframe {string} name of frame from which this frame gets defaults
*
* @param {array of integers} indices
* an array of integer indices matching the respective frames in `frameList`. If not
* provided, an index will be provided in serial order. If already used, the frame
* will be overwritten.
*/
exports.addFrames = function(gd, frameList, indices) {
gd = Lib.getGraphDiv(gd);
if(frameList === null || frameList === undefined) {
return Promise.resolve();
}
if(!Lib.isPlotDiv(gd)) {
throw new Error(
'This element is not a Plotly plot: ' + gd + '. It\'s likely that you\'ve failed ' +
'to create a plot before adding frames. For more details, see ' +
'https://plot.ly/javascript/animations/'
);
}
var i, frame, j, idx;
var _frames = gd._transitionData._frames;
var _frameHash = gd._transitionData._frameHash;
if(!Array.isArray(frameList)) {
throw new Error('addFrames failure: frameList must be an Array of frame definitions' + frameList);
}
// Create a sorted list of insertions since we run into lots of problems if these
// aren't in ascending order of index:
//
// Strictly for sorting. Make sure this is guaranteed to never collide with any
// already-exisisting indices:
var bigIndex = _frames.length + frameList.length * 2;
var insertions = [];
var _frameHashLocal = {};
for(i = frameList.length - 1; i >= 0; i--) {
if(!Lib.isPlainObject(frameList[i])) continue;
// The entire logic for checking for this type of name collision can be removed once we migrate to ES6 and
// use a Map instead of an Object instance, as Map keys aren't converted to strings.
var lookupName = frameList[i].name;
var name = (_frameHash[lookupName] || _frameHashLocal[lookupName] || {}).name;
var newName = frameList[i].name;
var collisionPresent = _frameHash[name] || _frameHashLocal[name];
if(name && newName && typeof newName === 'number' && collisionPresent && numericNameWarningCount < numericNameWarningCountLimit) {
numericNameWarningCount++;
Lib.warn('addFrames: overwriting frame "' + (_frameHash[name] || _frameHashLocal[name]).name +
'" with a frame whose name of type "number" also equates to "' +
name + '". This is valid but may potentially lead to unexpected ' +
'behavior since all plotly.js frame names are stored internally ' +
'as strings.');
if(numericNameWarningCount === numericNameWarningCountLimit) {
Lib.warn('addFrames: This API call has yielded too many of these warnings. ' +
'For the rest of this call, further warnings about numeric frame ' +
'names will be suppressed.');
}
}
_frameHashLocal[lookupName] = {name: lookupName};
insertions.push({
frame: Plots.supplyFrameDefaults(frameList[i]),
index: (indices && indices[i] !== undefined && indices[i] !== null) ? indices[i] : bigIndex + i
});
}
// Sort this, taking note that undefined insertions end up at the end:
insertions.sort(function(a, b) {
if(a.index > b.index) return -1;
if(a.index < b.index) return 1;
return 0;
});
var ops = [];
var revops = [];
var frameCount = _frames.length;
for(i = insertions.length - 1; i >= 0; i--) {
frame = insertions[i].frame;
if(typeof frame.name === 'number') {
Lib.warn('Warning: addFrames accepts frames with numeric names, but the numbers are' +
'implicitly cast to strings');
}
if(!frame.name) {
// Repeatedly assign a default name, incrementing the counter each time until
// we get a name that's not in the hashed lookup table:
while(_frameHash[(frame.name = 'frame ' + gd._transitionData._counter++)]);
}
if(_frameHash[frame.name]) {
// If frame is present, overwrite its definition:
for(j = 0; j < _frames.length; j++) {
if((_frames[j] || {}).name === frame.name) break;
}
ops.push({type: 'replace', index: j, value: frame});
revops.unshift({type: 'replace', index: j, value: _frames[j]});
} else {
// Otherwise insert it at the end of the list:
idx = Math.max(0, Math.min(insertions[i].index, frameCount));
ops.push({type: 'insert', index: idx, value: frame});
revops.unshift({type: 'delete', index: idx});
frameCount++;
}
}
var undoFunc = Plots.modifyFrames,
redoFunc = Plots.modifyFrames,
undoArgs = [gd, revops],
redoArgs = [gd, ops];
if(Queue) Queue.add(gd, undoFunc, undoArgs, redoFunc, redoArgs);
return Plots.modifyFrames(gd, ops);
};
/**
* Delete frame
*
* @param {string id or DOM element} gd
* the id or DOM element of the graph container div
*
* @param {array of integers} frameList
* list of integer indices of frames to be deleted
*/
exports.deleteFrames = function(gd, frameList) {
gd = Lib.getGraphDiv(gd);
if(!Lib.isPlotDiv(gd)) {
throw new Error('This element is not a Plotly plot: ' + gd);
}
var i, idx;
var _frames = gd._transitionData._frames;
var ops = [];
var revops = [];
if(!frameList) {
frameList = [];
for(i = 0; i < _frames.length; i++) {
frameList.push(i);
}
}
frameList = frameList.slice(0);
frameList.sort();
for(i = frameList.length - 1; i >= 0; i--) {
idx = frameList[i];
ops.push({type: 'delete', index: idx});
revops.unshift({type: 'insert', index: idx, value: _frames[idx]});
}
var undoFunc = Plots.modifyFrames,
redoFunc = Plots.modifyFrames,
undoArgs = [gd, revops],
redoArgs = [gd, ops];
if(Queue) Queue.add(gd, undoFunc, undoArgs, redoFunc, redoArgs);
return Plots.modifyFrames(gd, ops);
};
/**
* Purge a graph container div back to its initial pre-Plotly.plot state
*
* @param {string id or DOM element} gd
* the id or DOM element of the graph container div
*/
exports.purge = function purge(gd) {
gd = Lib.getGraphDiv(gd);
var fullLayout = gd._fullLayout || {};
var fullData = gd._fullData || [];
var calcdata = gd.calcdata || [];
// remove gl contexts
Plots.cleanPlot([], {}, fullData, fullLayout, calcdata);
// purge properties
Plots.purge(gd);
// purge event emitter methods
Events.purge(gd);
// remove plot container
if(fullLayout._container) fullLayout._container.remove();
// in contrast to Plotly.Plots.purge which does NOT clear _context!
delete gd._context;
return gd;
};
// -------------------------------------------------------
// makePlotFramework: Create the plot container and axes
// -------------------------------------------------------
function makePlotFramework(gd) {
var gd3 = d3.select(gd);
var fullLayout = gd._fullLayout;
// Plot container
fullLayout._container = gd3.selectAll('.plot-container').data([0]);
fullLayout._container.enter().insert('div', ':first-child')
.classed('plot-container', true)
.classed('plotly', true);
// Make the svg container
fullLayout._paperdiv = fullLayout._container.selectAll('.svg-container').data([0]);
fullLayout._paperdiv.enter().append('div')
.classed('svg-container', true)
.style('position', 'relative');
// Make the graph containers
// start fresh each time we get here, so we know the order comes out
// right, rather than enter/exit which can muck up the order
// TODO: sort out all the ordering so we don't have to
// explicitly delete anything
// FIXME: parcoords reuses this object, not the best pattern
fullLayout._glcontainer = fullLayout._paperdiv.selectAll('.gl-container')
.data([{}]);
fullLayout._glcontainer.enter().append('div')
.classed('gl-container', true);
fullLayout._paperdiv.selectAll('.main-svg').remove();
fullLayout._paper = fullLayout._paperdiv.insert('svg', ':first-child')
.classed('main-svg', true);
fullLayout._toppaper = fullLayout._paperdiv.append('svg')
.classed('main-svg', true);
if(!fullLayout._uid) {
var otherUids = {};
d3.selectAll('defs').each(function() {
if(this.id) otherUids[this.id.split('-')[1]] = 1;
});
fullLayout._uid = Lib.randstr(otherUids);
}
fullLayout._paperdiv.selectAll('.main-svg')
.attr(xmlnsNamespaces.svgAttrs);
fullLayout._defs = fullLayout._paper.append('defs')
.attr('id', 'defs-' + fullLayout._uid);
fullLayout._clips = fullLayout._defs.append('g')
.classed('clips', true);
fullLayout._topdefs = fullLayout._toppaper.append('defs')
.attr('id', 'topdefs-' + fullLayout._uid);
fullLayout._topclips = fullLayout._topdefs.append('g')
.classed('clips', true);
fullLayout._bgLayer = fullLayout._paper.append('g')
.classed('bglayer', true);
fullLayout._draggers = fullLayout._paper.append('g')
.classed('draglayer', true);
// lower shape/image layer - note that this is behind
// all subplots data/grids but above the backgrounds
// except inset subplots, whose backgrounds are drawn
// inside their own group so that they appear above
// the data for the main subplot
// lower shapes and images which are fully referenced to
// a subplot still get drawn within the subplot's group
// so they will work correctly on insets
var layerBelow = fullLayout._paper.append('g')
.classed('layer-below', true);
fullLayout._imageLowerLayer = layerBelow.append('g')
.classed('imagelayer', true);
fullLayout._shapeLowerLayer = layerBelow.append('g')
.classed('shapelayer', true);
// single cartesian layer for the whole plot
fullLayout._cartesianlayer = fullLayout._paper.append('g').classed('cartesianlayer', true);
// single polar layer for the whole plot
fullLayout._polarlayer = fullLayout._paper.append('g').classed('polarlayer', true);
// single ternary layer for the whole plot
fullLayout._ternarylayer = fullLayout._paper.append('g').classed('ternarylayer', true);
// single geo layer for the whole plot
fullLayout._geolayer = fullLayout._paper.append('g').classed('geolayer', true);
// single pie layer for the whole plot
fullLayout._pielayer = fullLayout._paper.append('g').classed('pielayer', true);
// fill in image server scrape-svg
fullLayout._glimages = fullLayout._paper.append('g').classed('glimages', true);
// lastly upper shapes, info (legend, annotations) and hover layers go on top
// these are in a different svg element normally, but get collapsed into a single
// svg when exporting (after inserting 3D)
// upper shapes/images are only those drawn above the whole plot, including subplots
var layerAbove = fullLayout._toppaper.append('g')
.classed('layer-above', true);
fullLayout._imageUpperLayer = layerAbove.append('g')
.classed('imagelayer', true);
fullLayout._shapeUpperLayer = layerAbove.append('g')
.classed('shapelayer', true);
fullLayout._infolayer = fullLayout._toppaper.append('g').classed('infolayer', true);
fullLayout._menulayer = fullLayout._toppaper.append('g').classed('menulayer', true);
fullLayout._zoomlayer = fullLayout._toppaper.append('g').classed('zoomlayer', true);
fullLayout._hoverlayer = fullLayout._toppaper.append('g').classed('hoverlayer', true);
gd.emit('plotly_framework');
}
},{"../components/color":567,"../components/colorbar/connect":569,"../components/drawing":592,"../constants/xmlns_namespaces":671,"../lib":693,"../lib/events":681,"../lib/queue":709,"../lib/svg_text_utils":718,"../plots/cartesian/axes":742,"../plots/cartesian/constants":747,"../plots/cartesian/graph_interact":751,"../plots/plots":805,"../plots/polar/legacy":813,"../registry":825,"./edit_types":725,"./helpers":726,"./manage_arrays":728,"./plot_config":730,"./plot_schema":731,"./subroutines":733,"d3":147,"fast-isnumeric":213,"has-hover":391}],730:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/**
* This will be transferred over to gd and overridden by
* config args to Plotly.plot.
*
* The defaults are the appropriate settings for plotly.js,
* so we get the right experience without any config argument.
*/
module.exports = {
// no interactivity, for export or image generation
staticPlot: false,
// base URL for the 'Edit in Chart Studio' (aka sendDataToCloud) mode bar button
// and the showLink/sendData on-graph link
plotlyServerURL: 'https://plot.ly',
/*
* we can edit titles, move annotations, etc - sets all pieces of `edits`
* unless a separate `edits` config item overrides individual parts
*/
editable: false,
edits: {
/*
* annotationPosition: the main anchor of the annotation, which is the
* text (if no arrow) or the arrow (which drags the whole thing leaving
* the arrow length & direction unchanged)
*/
annotationPosition: false,
// just for annotations with arrows, change the length and direction of the arrow
annotationTail: false,
annotationText: false,
axisTitleText: false,
colorbarPosition: false,
colorbarTitleText: false,
legendPosition: false,
// edit the trace name fields from the legend
legendText: false,
shapePosition: false,
// the global `layout.title`
titleText: false
},
/*
* DO autosize once regardless of layout.autosize
* (use default width or height values otherwise)
*/
autosizable: false,
// responsive: determines whether to change the layout size when window is resized
responsive: false,
// set the length of the undo/redo queue
queueLength: 0,
// if we DO autosize, do we fill the container or the screen?
fillFrame: false,
// if we DO autosize, set the frame margins in percents of plot size
frameMargins: 0,
// mousewheel or two-finger scroll zooms the plot
scrollZoom: false,
// double click interaction (false, 'reset', 'autosize' or 'reset+autosize')
doubleClick: 'reset+autosize',
// new users see some hints about interactivity
showTips: true,
// enable axis pan/zoom drag handles
showAxisDragHandles: true,
/*
* enable direct range entry at the pan/zoom drag points
* (drag handles must be enabled above)
*/
showAxisRangeEntryBoxes: true,
// link to open this plot in plotly
showLink: false,
// if we show a link, does it contain data or just link to a plotly file?
sendData: true,
// text appearing in the sendData link
linkText: 'Edit chart',
// false or function adding source(s) to linkText <text>
showSources: false,
// display the mode bar (true, false, or 'hover')
displayModeBar: 'hover',
/*
* remove mode bar button by name
* (see ../components/modebar/buttons.js for the list of names)
*/
modeBarButtonsToRemove: [],
/*
* add mode bar button using config objects
* (see ./components/modebar/buttons.js for list of arguments)
*/
modeBarButtonsToAdd: [],
/*
* fully custom mode bar buttons as nested array,
* where the outer arrays represents button groups, and
* the inner arrays have buttons config objects or names of default buttons
* (see ../components/modebar/buttons.js for more info)
*/
modeBarButtons: false,
// statically override options for toImage modebar button
// allowed keys are format, filename, width, height, scale
// see ../components/modebar/buttons.js
toImageButtonOptions: {},
// add the plotly logo on the end of the mode bar
displaylogo: true,
// increase the pixel ratio for Gl plot images
plotGlPixelRatio: 2,
/*
* background setting function
* 'transparent' sets the background `layout.paper_color`
* 'opaque' blends bg color with white ensuring an opaque background
* or any other custom function of gd
*/
setBackground: 'transparent',
// URL to topojson files used in geo charts
topojsonURL: 'https://cdn.plot.ly/',
/*
* Mapbox access token (required to plot mapbox trace types)
* If using an Mapbox Atlas server, set this option to '',
* so that plotly.js won't attempt to authenticate to the public Mapbox server.
*/
mapboxAccessToken: null,
/*
* Turn all console logging on or off (errors will be thrown)
* This should ONLY be set via Plotly.setPlotConfig
* 0: no logs
* 1: warnings and errors, but not informational messages
* 2: verbose logs
*/
logging: 1,
/*
* Set global transform to be applied to all traces with no
* specification needed
*/
globalTransforms: [],
/*
* Which localization should we use?
* Should be a string like 'en' or 'en-US'.
*/
locale: 'en-US',
/*
* Localization definitions
* Locales can be provided either here (specific to one chart) or globally
* by registering them as modules.
* Should be an object of objects {locale: {dictionary: {...}, format: {...}}}
* {
* da: {
* dictionary: {'Reset axes': 'Nulstil aksler', ...},
* format: {months: [...], shortMonths: [...]}
* },
* ...
* }
* All parts are optional. When looking for translation or format fields, we
* look first for an exact match in a config locale, then in a registered
* module. If those fail, we strip off any regionalization ('en-US' -> 'en')
* and try each (config, registry) again. The final fallback for translation
* is untranslated (which is US English) and for formats is the base English
* (the only consequence being the last fallback date format %x is DD/MM/YYYY
* instead of MM/DD/YYYY). Currently `grouping` and `currency` are ignored
* for our automatic number formatting, but can be used in custom formats.
*/
locales: {}
};
},{}],731:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../registry');
var Lib = _dereq_('../lib');
var baseAttributes = _dereq_('../plots/attributes');
var baseLayoutAttributes = _dereq_('../plots/layout_attributes');
var frameAttributes = _dereq_('../plots/frame_attributes');
var animationAttributes = _dereq_('../plots/animation_attributes');
// polar attributes are not part of the Registry yet
var polarAreaAttrs = _dereq_('../plots/polar/legacy/area_attributes');
var polarAxisAttrs = _dereq_('../plots/polar/legacy/axis_attributes');
var editTypes = _dereq_('./edit_types');
var extendFlat = Lib.extendFlat;
var extendDeepAll = Lib.extendDeepAll;
var isPlainObject = Lib.isPlainObject;
var IS_SUBPLOT_OBJ = '_isSubplotObj';
var IS_LINKED_TO_ARRAY = '_isLinkedToArray';
var ARRAY_ATTR_REGEXPS = '_arrayAttrRegexps';
var DEPRECATED = '_deprecated';
var UNDERSCORE_ATTRS = [IS_SUBPLOT_OBJ, IS_LINKED_TO_ARRAY, ARRAY_ATTR_REGEXPS, DEPRECATED];
exports.IS_SUBPLOT_OBJ = IS_SUBPLOT_OBJ;
exports.IS_LINKED_TO_ARRAY = IS_LINKED_TO_ARRAY;
exports.DEPRECATED = DEPRECATED;
exports.UNDERSCORE_ATTRS = UNDERSCORE_ATTRS;
/** Outputs the full plotly.js plot schema
*
* @return {object}
* - defs
* - traces
* - layout
* - transforms
* - frames
* - animations
* - config (coming soon ...)
*/
exports.get = function() {
var traces = {};
Registry.allTypes.concat('area').forEach(function(type) {
traces[type] = getTraceAttributes(type);
});
var transforms = {};
Object.keys(Registry.transformsRegistry).forEach(function(type) {
transforms[type] = getTransformAttributes(type);
});
return {
defs: {
valObjects: Lib.valObjectMeta,
metaKeys: UNDERSCORE_ATTRS.concat(['description', 'role', 'editType', 'impliedEdits']),
editType: {
traces: editTypes.traces,
layout: editTypes.layout
},
impliedEdits: {
}
},
traces: traces,
layout: getLayoutAttributes(),
transforms: transforms,
frames: getFramesAttributes(),
animation: formatAttributes(animationAttributes)
};
};
/**
* Crawl the attribute tree, recursively calling a callback function
*
* @param {object} attrs
* The node of the attribute tree (e.g. the root) from which recursion originates
* @param {Function} callback
* A callback function with the signature:
* @callback callback
* @param {object} attr an attribute
* @param {String} attrName name string
* @param {object[]} attrs all the attributes
* @param {Number} level the recursion level, 0 at the root
* @param {Number} [specifiedLevel]
* The level in the tree, in order to let the callback function detect descend or backtrack,
* typically unsupplied (implied 0), just used by the self-recursive call.
* The necessity arises because the tree traversal is not controlled by callback return values.
* The decision to not use callback return values for controlling tree pruning arose from
* the goal of keeping the crawler backwards compatible. Observe that one of the pruning conditions
* precedes the callback call.
* @param {string} [attrString]
* the path to the current attribute, as an attribute string (ie 'marker.line')
* typically unsupplied, but you may supply it if you want to disambiguate which attrs tree you
* are starting from
*
* @return {object} transformOut
* copy of transformIn that contains attribute defaults
*/
exports.crawl = function(attrs, callback, specifiedLevel, attrString) {
var level = specifiedLevel || 0;
attrString = attrString || '';
Object.keys(attrs).forEach(function(attrName) {
var attr = attrs[attrName];
if(UNDERSCORE_ATTRS.indexOf(attrName) !== -1) return;
var fullAttrString = (attrString ? attrString + '.' : '') + attrName;
callback(attr, attrName, attrs, level, fullAttrString);
if(exports.isValObject(attr)) return;
if(isPlainObject(attr) && attrName !== 'impliedEdits') {
exports.crawl(attr, callback, level + 1, fullAttrString);
}
});
};
/** Is object a value object (or a container object)?
*
* @param {object} obj
* @return {boolean}
* returns true for a valid value object and
* false for tree nodes in the attribute hierarchy
*/
exports.isValObject = function(obj) {
return obj && obj.valType !== undefined;
};
/**
* Find all data array attributes in a given trace object - including
* `arrayOk` attributes.
*
* @param {object} trace
* full trace object that contains a reference to `_module.attributes`
*
* @return {array} arrayAttributes
* list of array attributes for the given trace
*/
exports.findArrayAttributes = function(trace) {
var arrayAttributes = [];
var stack = [];
var isArrayStack = [];
var baseContainer, baseAttrName;
function callback(attr, attrName, attrs, level) {
stack = stack.slice(0, level).concat([attrName]);
isArrayStack = isArrayStack.slice(0, level).concat([attr && attr._isLinkedToArray]);
var splittableAttr = (
attr &&
(attr.valType === 'data_array' || attr.arrayOk === true) &&
!(stack[level - 1] === 'colorbar' && (attrName === 'ticktext' || attrName === 'tickvals'))
);
// Manually exclude 'colorbar.tickvals' and 'colorbar.ticktext' for now
// which are declared as `valType: 'data_array'` but scale independently of
// the coordinate arrays.
//
// Down the road, we might want to add a schema field (e.g `uncorrelatedArray: true`)
// to distinguish attributes of the likes.
if(!splittableAttr) return;
crawlIntoTrace(baseContainer, 0, '');
}
function crawlIntoTrace(container, i, astrPartial) {
var item = container[stack[i]];
var newAstrPartial = astrPartial + stack[i];
if(i === stack.length - 1) {
if(Lib.isArrayOrTypedArray(item)) {
arrayAttributes.push(baseAttrName + newAstrPartial);
}
}
else {
if(isArrayStack[i]) {
if(Array.isArray(item)) {
for(var j = 0; j < item.length; j++) {
if(Lib.isPlainObject(item[j])) {
crawlIntoTrace(item[j], i + 1, newAstrPartial + '[' + j + '].');
}
}
}
}
else if(Lib.isPlainObject(item)) {
crawlIntoTrace(item, i + 1, newAstrPartial + '.');
}
}
}
baseContainer = trace;
baseAttrName = '';
exports.crawl(baseAttributes, callback);
if(trace._module && trace._module.attributes) {
exports.crawl(trace._module.attributes, callback);
}
var transforms = trace.transforms;
if(transforms) {
for(var i = 0; i < transforms.length; i++) {
var transform = transforms[i];
var module = transform._module;
if(module) {
baseAttrName = 'transforms[' + i + '].';
baseContainer = transform;
exports.crawl(module.attributes, callback);
}
}
}
return arrayAttributes;
};
/*
* Find the valObject for one attribute in an existing trace
*
* @param {object} trace
* full trace object that contains a reference to `_module.attributes`
* @param {object} parts
* an array of parts, like ['transforms', 1, 'value']
* typically from nestedProperty(...).parts
*
* @return {object|false}
* the valObject for this attribute, or the last found parent
* in some cases the innermost valObject will not exist, for example
* `valType: 'any'` attributes where we might set a part of the attribute.
* In that case, stop at the deepest valObject we *do* find.
*/
exports.getTraceValObject = function(trace, parts) {
var head = parts[0];
var i = 1; // index to start recursing from
var moduleAttrs, valObject;
if(head === 'transforms') {
if(parts.length === 1) {
return baseAttributes.transforms;
}
var transforms = trace.transforms;
if(!Array.isArray(transforms) || !transforms.length) return false;
var tNum = parts[1];
if(!isIndex(tNum) || tNum >= transforms.length) {
return false;
}
moduleAttrs = (Registry.transformsRegistry[transforms[tNum].type] || {}).attributes;
valObject = moduleAttrs && moduleAttrs[parts[2]];
i = 3; // start recursing only inside the transform
}
else if(trace.type === 'area') {
valObject = polarAreaAttrs[head];
}
else {
// first look in the module for this trace
// components have already merged their trace attributes in here
var _module = trace._module;
if(!_module) _module = (Registry.modules[trace.type || baseAttributes.type.dflt] || {})._module;
if(!_module) return false;
moduleAttrs = _module.attributes;
valObject = moduleAttrs && moduleAttrs[head];
// then look in the subplot attributes
if(!valObject) {
var subplotModule = _module.basePlotModule;
if(subplotModule && subplotModule.attributes) {
valObject = subplotModule.attributes[head];
}
}
// finally look in the global attributes
if(!valObject) valObject = baseAttributes[head];
}
return recurseIntoValObject(valObject, parts, i);
};
/*
* Find the valObject for one layout attribute
*
* @param {array} parts
* an array of parts, like ['annotations', 1, 'x']
* typically from nestedProperty(...).parts
*
* @return {object|false}
* the valObject for this attribute, or the last found parent
* in some cases the innermost valObject will not exist, for example
* `valType: 'any'` attributes where we might set a part of the attribute.
* In that case, stop at the deepest valObject we *do* find.
*/
exports.getLayoutValObject = function(fullLayout, parts) {
var valObject = layoutHeadAttr(fullLayout, parts[0]);
return recurseIntoValObject(valObject, parts, 1);
};
function layoutHeadAttr(fullLayout, head) {
var i, key, _module, attributes;
// look for attributes of the subplot types used on the plot
var basePlotModules = fullLayout._basePlotModules;
if(basePlotModules) {
var out;
for(i = 0; i < basePlotModules.length; i++) {
_module = basePlotModules[i];
if(_module.attrRegex && _module.attrRegex.test(head)) {
// if a module defines overrides, these take precedence
// initially this is to allow gl2d different editTypes from svg cartesian
if(_module.layoutAttrOverrides) return _module.layoutAttrOverrides;
// otherwise take the first attributes we find
if(!out && _module.layoutAttributes) out = _module.layoutAttributes;
}
// a module can also override the behavior of base (and component) module layout attrs
// again see gl2d for initial use case
var baseOverrides = _module.baseLayoutAttrOverrides;
if(baseOverrides && head in baseOverrides) return baseOverrides[head];
}
if(out) return out;
}
// look for layout attributes contributed by traces on the plot
var modules = fullLayout._modules;
if(modules) {
for(i = 0; i < modules.length; i++) {
attributes = modules[i].layoutAttributes;
if(attributes && head in attributes) {
return attributes[head];
}
}
}
/*
* Next look in components.
* Components that define a schema have already merged this into
* base and subplot attribute defs, so ignore these.
* Others (older style) all put all their attributes
* inside a container matching the module `name`
* eg `attributes` (array) or `legend` (object)
*/
for(key in Registry.componentsRegistry) {
_module = Registry.componentsRegistry[key];
if(!_module.schema && (head === _module.name)) {
return _module.layoutAttributes;
}
}
if(head in baseLayoutAttributes) return baseLayoutAttributes[head];
// Polar doesn't populate _modules or _basePlotModules
// just fall back on these when the others fail
if(head === 'radialaxis' || head === 'angularaxis') {
return polarAxisAttrs[head];
}
return polarAxisAttrs.layout[head] || false;
}
function recurseIntoValObject(valObject, parts, i) {
if(!valObject) return false;
if(valObject._isLinkedToArray) {
// skip array index, abort if we try to dive into an array without an index
if(isIndex(parts[i])) i++;
else if(i < parts.length) return false;
}
// now recurse as far as we can. Occasionally we have an attribute
// setting an internal part below what's in the schema; just return
// the innermost schema item we find.
for(; i < parts.length; i++) {
var newValObject = valObject[parts[i]];
if(isPlainObject(newValObject)) valObject = newValObject;
else break;
if(i === parts.length - 1) break;
if(valObject._isLinkedToArray) {
i++;
if(!isIndex(parts[i])) return false;
}
else if(valObject.valType === 'info_array') {
i++;
var index = parts[i];
if(!isIndex(index)) return false;
var items = valObject.items;
if(Array.isArray(items)) {
if(index >= items.length) return false;
if(valObject.dimensions === 2) {
i++;
if(parts.length === i) return valObject;
var index2 = parts[i];
if(!isIndex(index2)) return false;
valObject = items[index][index2];
}
else valObject = items[index];
}
else {
valObject = items;
}
}
}
return valObject;
}
// note: this is different from Lib.isIndex, this one doesn't accept numeric
// strings, only actual numbers.
function isIndex(val) {
return val === Math.round(val) && val >= 0;
}
function getTraceAttributes(type) {
var _module, basePlotModule;
if(type === 'area') {
_module = { attributes: polarAreaAttrs };
basePlotModule = {};
}
else {
_module = Registry.modules[type]._module,
basePlotModule = _module.basePlotModule;
}
var attributes = {};
// make 'type' the first attribute in the object
attributes.type = null;
// base attributes (same for all trace types)
extendDeepAll(attributes, baseAttributes);
// module attributes
extendDeepAll(attributes, _module.attributes);
// subplot attributes
if(basePlotModule.attributes) {
extendDeepAll(attributes, basePlotModule.attributes);
}
// 'type' gets overwritten by baseAttributes; reset it here
attributes.type = type;
var out = {
meta: _module.meta || {},
attributes: formatAttributes(attributes),
};
// trace-specific layout attributes
if(_module.layoutAttributes) {
var layoutAttributes = {};
extendDeepAll(layoutAttributes, _module.layoutAttributes);
out.layoutAttributes = formatAttributes(layoutAttributes);
}
return out;
}
function getLayoutAttributes() {
var layoutAttributes = {};
var key, _module;
// global layout attributes
extendDeepAll(layoutAttributes, baseLayoutAttributes);
// add base plot module layout attributes
for(key in Registry.subplotsRegistry) {
_module = Registry.subplotsRegistry[key];
if(!_module.layoutAttributes) continue;
if(Array.isArray(_module.attr)) {
for(var i = 0; i < _module.attr.length; i++) {
handleBasePlotModule(layoutAttributes, _module, _module.attr[i]);
}
} else {
var astr = _module.attr === 'subplot' ? _module.name : _module.attr;
handleBasePlotModule(layoutAttributes, _module, astr);
}
}
// polar layout attributes
layoutAttributes = assignPolarLayoutAttrs(layoutAttributes);
// add registered components layout attributes
for(key in Registry.componentsRegistry) {
_module = Registry.componentsRegistry[key];
var schema = _module.schema;
/*
* Components with defined schema have already been merged in at register time
* but a few components define attributes that apply only to xaxis
* not yaxis (rangeselector, rangeslider) - delete from y schema.
* Note that the input attributes for xaxis/yaxis are the same object
* so it's not possible to only add them to xaxis from the start.
* If we ever have such asymmetry the other way, or anywhere else,
* we will need to extend both this code and mergeComponentAttrsToSubplot
* (which will not find yaxis only for example)
*/
if(schema && (schema.subplots || schema.layout)) {
var subplots = schema.subplots;
if(subplots && subplots.xaxis && !subplots.yaxis) {
for(var xkey in subplots.xaxis) delete layoutAttributes.yaxis[xkey];
}
}
// older style without schema need to be explicitly merged in now
else if(_module.layoutAttributes) {
insertAttrs(layoutAttributes, _module.layoutAttributes, _module.name);
}
}
return {
layoutAttributes: formatAttributes(layoutAttributes)
};
}
function getTransformAttributes(type) {
var _module = Registry.transformsRegistry[type];
var attributes = extendDeepAll({}, _module.attributes);
// add registered components transform attributes
Object.keys(Registry.componentsRegistry).forEach(function(k) {
var _module = Registry.componentsRegistry[k];
if(_module.schema && _module.schema.transforms && _module.schema.transforms[type]) {
Object.keys(_module.schema.transforms[type]).forEach(function(v) {
insertAttrs(attributes, _module.schema.transforms[type][v], v);
});
}
});
return {
attributes: formatAttributes(attributes)
};
}
function getFramesAttributes() {
var attrs = {
frames: Lib.extendDeepAll({}, frameAttributes)
};
formatAttributes(attrs);
return attrs.frames;
}
function formatAttributes(attrs) {
mergeValTypeAndRole(attrs);
formatArrayContainers(attrs);
stringify(attrs);
return attrs;
}
function mergeValTypeAndRole(attrs) {
function makeSrcAttr(attrName) {
return {
valType: 'string',
editType: 'none'
};
}
function callback(attr, attrName, attrs) {
if(exports.isValObject(attr)) {
if(attr.valType === 'data_array') {
// all 'data_array' attrs have role 'data'
attr.role = 'data';
// all 'data_array' attrs have a corresponding 'src' attr
attrs[attrName + 'src'] = makeSrcAttr(attrName);
}
else if(attr.arrayOk === true) {
// all 'arrayOk' attrs have a corresponding 'src' attr
attrs[attrName + 'src'] = makeSrcAttr(attrName);
}
}
else if(isPlainObject(attr)) {
// all attrs container objects get role 'object'
attr.role = 'object';
}
}
exports.crawl(attrs, callback);
}
function formatArrayContainers(attrs) {
function callback(attr, attrName, attrs) {
if(!attr) return;
var itemName = attr[IS_LINKED_TO_ARRAY];
if(!itemName) return;
delete attr[IS_LINKED_TO_ARRAY];
attrs[attrName] = { items: {} };
attrs[attrName].items[itemName] = attr;
attrs[attrName].role = 'object';
}
exports.crawl(attrs, callback);
}
// this can take around 10ms and should only be run from PlotSchema.get(),
// to ensure JSON.stringify(PlotSchema.get()) gives the intended result.
function stringify(attrs) {
function walk(attr) {
for(var k in attr) {
if(isPlainObject(attr[k])) {
walk(attr[k]);
} else if(Array.isArray(attr[k])) {
for(var i = 0; i < attr[k].length; i++) {
walk(attr[k][i]);
}
} else {
// as JSON.stringify(/test/) // => {}
if(attr[k] instanceof RegExp) {
attr[k] = attr[k].toString();
}
}
}
}
walk(attrs);
}
function assignPolarLayoutAttrs(layoutAttributes) {
extendFlat(layoutAttributes, {
radialaxis: polarAxisAttrs.radialaxis,
angularaxis: polarAxisAttrs.angularaxis
});
extendFlat(layoutAttributes, polarAxisAttrs.layout);
return layoutAttributes;
}
function handleBasePlotModule(layoutAttributes, _module, astr) {
var np = Lib.nestedProperty(layoutAttributes, astr),
attrs = extendDeepAll({}, _module.layoutAttributes);
attrs[IS_SUBPLOT_OBJ] = true;
np.set(attrs);
}
function insertAttrs(baseAttrs, newAttrs, astr) {
var np = Lib.nestedProperty(baseAttrs, astr);
np.set(extendDeepAll(np.get() || {}, newAttrs));
}
},{"../lib":693,"../plots/animation_attributes":737,"../plots/attributes":739,"../plots/frame_attributes":769,"../plots/layout_attributes":796,"../plots/polar/legacy/area_attributes":811,"../plots/polar/legacy/axis_attributes":812,"../registry":825,"./edit_types":725}],732:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../lib');
var plotAttributes = _dereq_('../plots/attributes');
var TEMPLATEITEMNAME = 'templateitemname';
var templateAttrs = {
name: {
valType: 'string',
editType: 'none',
}
};
templateAttrs[TEMPLATEITEMNAME] = {
valType: 'string',
editType: 'calc',
};
/**
* templatedArray: decorate an attributes object with templating (and array)
* properties.
*
* @param {string} name: the singular form of the array name. Sets
* `_isLinkedToArray` to this, so the schema knows to treat this as an array.
* @param {object} attrs: the item attributes. Since all callers are expected
* to be constructing this object on the spot, we mutate it here for
* performance, rather than extending a new object with it.
*
* @returns {object}: the decorated `attrs` object
*/
exports.templatedArray = function(name, attrs) {
attrs._isLinkedToArray = name;
attrs.name = templateAttrs.name;
attrs[TEMPLATEITEMNAME] = templateAttrs[TEMPLATEITEMNAME];
return attrs;
};
/**
* traceTemplater: logic for matching traces to trace templates
*
* @param {object} dataTemplate: collection of {traceType: [{template}, ...]}
* ie each type the template applies to contains a list of template objects,
* to be provided cyclically to data traces of that type.
*
* @returns {object}: {newTrace}, a function:
* newTrace(traceIn): that takes the input traceIn, coerces its type, then
* uses that type to find the next template to apply. returns the output
* traceOut with template attached, ready to continue supplyDefaults.
*/
exports.traceTemplater = function(dataTemplate) {
var traceCounts = {};
var traceType, typeTemplates;
for(traceType in dataTemplate) {
typeTemplates = dataTemplate[traceType];
if(Array.isArray(typeTemplates) && typeTemplates.length) {
traceCounts[traceType] = 0;
}
}
function newTrace(traceIn) {
traceType = Lib.coerce(traceIn, {}, plotAttributes, 'type');
var traceOut = {type: traceType, _template: null};
if(traceType in traceCounts) {
typeTemplates = dataTemplate[traceType];
// cycle through traces in the template set for this type
var typei = traceCounts[traceType] % typeTemplates.length;
traceCounts[traceType]++;
traceOut._template = typeTemplates[typei];
}
else {
// TODO: anything we should do for types missing from the template?
// try to apply some other type? Or just bail as we do here?
// Actually I think yes, we should apply other types; would be nice
// if all scatter* could inherit from each other, and if histogram
// could inherit from bar, etc... but how to specify this? And do we
// compose them, or if a type is present require it to be complete?
// Actually this could apply to layout too - 3D annotations
// inheriting from 2D, axes of different types inheriting from each
// other...
}
return traceOut;
}
return {
newTrace: newTrace
// TODO: function to figure out what's left & what didn't work
};
};
/**
* newContainer: Create a new sub-container inside `container` and propagate any
* applicable template to it. If there's no template, still propagates
* `undefined` so relinkPrivate will not retain an old template!
*
* @param {object} container: the outer container, should already have _template
* if there *is* a template for this plot
* @param {string} name: the key of the new container to make
* @param {string} baseName: if applicable, a base attribute to take the
* template from, ie for xaxis3 the base would be xaxis
*
* @returns {object}: an object for inclusion _full*, empty except for the
* appropriate template piece
*/
exports.newContainer = function(container, name, baseName) {
var template = container._template;
var part = template && (template[name] || (baseName && template[baseName]));
if(!Lib.isPlainObject(part)) part = null;
var out = container[name] = {_template: part};
return out;
};
/**
* arrayTemplater: special logic for templating both defaults and specific items
* in a container array (annotations etc)
*
* @param {object} container: the outer container, should already have _template
* if there *is* a template for this plot
* @param {string} name: the name of the array to template (ie 'annotations')
* will be used to find default ('annotationdefaults' object) and specific
* ('annotations' array) template specs.
* @param {string} inclusionAttr: the attribute determining this item's
* inclusion in the output, usually 'visible' or 'enabled'
*
* @returns {object}: {newItem, defaultItems}, both functions:
* newItem(itemIn): create an output item, bare except for the correct
* template and name(s), as the base for supplyDefaults
* defaultItems(): to be called after all newItem calls, return any
* specific template items that have not already beeen included,
* also as bare output items ready for supplyDefaults.
*/
exports.arrayTemplater = function(container, name, inclusionAttr) {
var template = container._template;
var defaultsTemplate = template && template[arrayDefaultKey(name)];
var templateItems = template && template[name];
if(!Array.isArray(templateItems) || !templateItems.length) {
templateItems = [];
}
var usedNames = {};
function newItem(itemIn) {
// include name and templateitemname in the output object for ALL
// container array items. Note: you could potentially use different
// name and templateitemname, if you're using one template to make
// another template. templateitemname would be the name in the original
// template, and name is the new "subclassed" item name.
var out = {name: itemIn.name, _input: itemIn};
var templateItemName = out[TEMPLATEITEMNAME] = itemIn[TEMPLATEITEMNAME];
// no itemname: use the default template
if(!validItemName(templateItemName)) {
out._template = defaultsTemplate;
return out;
}
// look for an item matching this itemname
// note these do not inherit from the default template, only the item.
for(var i = 0; i < templateItems.length; i++) {
var templateItem = templateItems[i];
if(templateItem.name === templateItemName) {
// Note: it's OK to use a template item more than once
// but using it at least once will stop it from generating
// a default item at the end.
usedNames[templateItemName] = 1;
out._template = templateItem;
return out;
}
}
// Didn't find a matching template item, so since this item is intended
// to only be modifications it's most likely broken. Hide it unless
// it's explicitly marked visible - in which case it gets NO template,
// not even the default.
out[inclusionAttr] = itemIn[inclusionAttr] || false;
// special falsy value we can look for in validateTemplate
out._template = false;
return out;
}
function defaultItems() {
var out = [];
for(var i = 0; i < templateItems.length; i++) {
var templateItem = templateItems[i];
var name = templateItem.name;
// only allow named items to be added as defaults,
// and only allow each name once
if(validItemName(name) && !usedNames[name]) {
var outi = {
_template: templateItem,
name: name,
_input: {_templateitemname: name}
};
outi[TEMPLATEITEMNAME] = templateItem[TEMPLATEITEMNAME];
out.push(outi);
usedNames[name] = 1;
}
}
return out;
}
return {
newItem: newItem,
defaultItems: defaultItems
};
};
function validItemName(name) {
return name && typeof name === 'string';
}
function arrayDefaultKey(name) {
var lastChar = name.length - 1;
if(name.charAt(lastChar) !== 's') {
Lib.warn('bad argument to arrayDefaultKey: ' + name);
}
return name.substr(0, name.length - 1) + 'defaults';
}
exports.arrayDefaultKey = arrayDefaultKey;
/**
* arrayEditor: helper for editing array items that may have come from
* template defaults (in which case they will not exist in the input yet)
*
* @param {object} parentIn: the input container (eg gd.layout)
* @param {string} containerStr: the attribute string for the container inside
* `parentIn`.
* @param {object} itemOut: the _full* item (eg gd._fullLayout.annotations[0])
* that we'll be editing. Assumed to have been created by `arrayTemplater`.
*
* @returns {object}: {modifyBase, modifyItem, getUpdateObj, applyUpdate}, all functions:
* modifyBase(attr, value): Add an update that's *not* related to the item.
* `attr` is the full attribute string.
* modifyItem(attr, value): Add an update to the item. `attr` is just the
* portion of the attribute string inside the item.
* getUpdateObj(): Get the final constructed update object, to use in
* `restyle` or `relayout`. Also resets the update object in case this
* update was canceled.
* applyUpdate(attr, value): optionally add an update `attr: value`,
* then apply it to `parent` which should be the parent of `containerIn`,
* ie the object to which `containerStr` is the attribute string.
*/
exports.arrayEditor = function(parentIn, containerStr, itemOut) {
var lengthIn = (Lib.nestedProperty(parentIn, containerStr).get() || []).length;
var index = itemOut._index;
// Check that we are indeed off the end of this container.
// Otherwise a devious user could put a key `_templateitemname` in their
// own input and break lots of things.
var templateItemName = (index >= lengthIn) && (itemOut._input || {})._templateitemname;
if(templateItemName) index = lengthIn;
var itemStr = containerStr + '[' + index + ']';
var update;
function resetUpdate() {
update = {};
if(templateItemName) {
update[itemStr] = {};
update[itemStr][TEMPLATEITEMNAME] = templateItemName;
}
}
resetUpdate();
function modifyBase(attr, value) {
update[attr] = value;
}
function modifyItem(attr, value) {
if(templateItemName) {
// we're making a new object: edit that object
Lib.nestedProperty(update[itemStr], attr).set(value);
}
else {
// we're editing an existing object: include *just* the edit
update[itemStr + '.' + attr] = value;
}
}
function getUpdateObj() {
var updateOut = update;
resetUpdate();
return updateOut;
}
function applyUpdate(attr, value) {
if(attr) modifyItem(attr, value);
var updateToApply = getUpdateObj();
for(var key in updateToApply) {
Lib.nestedProperty(parentIn, key).set(updateToApply[key]);
}
}
return {
modifyBase: modifyBase,
modifyItem: modifyItem,
getUpdateObj: getUpdateObj,
applyUpdate: applyUpdate
};
};
},{"../lib":693,"../plots/attributes":739}],733:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Registry = _dereq_('../registry');
var Plots = _dereq_('../plots/plots');
var Lib = _dereq_('../lib');
var clearGlCanvases = _dereq_('../lib/clear_gl_canvases');
var Color = _dereq_('../components/color');
var Drawing = _dereq_('../components/drawing');
var Titles = _dereq_('../components/titles');
var ModeBar = _dereq_('../components/modebar');
var Axes = _dereq_('../plots/cartesian/axes');
var alignmentConstants = _dereq_('../constants/alignment');
var axisConstraints = _dereq_('../plots/cartesian/constraints');
var enforceAxisConstraints = axisConstraints.enforce;
var cleanAxisConstraints = axisConstraints.clean;
var doAutoRange = _dereq_('../plots/cartesian/autorange').doAutoRange;
exports.layoutStyles = function(gd) {
return Lib.syncOrAsync([Plots.doAutoMargin, lsInner], gd);
};
function overlappingDomain(xDomain, yDomain, domains) {
for(var i = 0; i < domains.length; i++) {
var existingX = domains[i][0],
existingY = domains[i][1];
if(existingX[0] >= xDomain[1] || existingX[1] <= xDomain[0]) {
continue;
}
if(existingY[0] < yDomain[1] && existingY[1] > yDomain[0]) {
return true;
}
}
return false;
}
function lsInner(gd) {
var fullLayout = gd._fullLayout;
var gs = fullLayout._size;
var pad = gs.p;
var axList = Axes.list(gd, '', true);
// _has('cartesian') means SVG specifically, not GL2D - but GL2D
// can still get here because it makes some of the SVG structure
// for shared features like selections.
var hasSVGCartesian = fullLayout._has('cartesian');
var i;
function getLinePosition(ax, counterAx, side) {
var lwHalf = ax._lw / 2;
if(ax._id.charAt(0) === 'x') {
if(!counterAx) return gs.t + gs.h * (1 - (ax.position || 0)) + (lwHalf % 1);
else if(side === 'top') return counterAx._offset - pad - lwHalf;
return counterAx._offset + counterAx._length + pad + lwHalf;
}
if(!counterAx) return gs.l + gs.w * (ax.position || 0) + (lwHalf % 1);
else if(side === 'right') return counterAx._offset + counterAx._length + pad + lwHalf;
return counterAx._offset - pad - lwHalf;
}
// some preparation of axis position info
for(i = 0; i < axList.length; i++) {
var ax = axList[i];
// reset scale in case the margins have changed
ax.setScale();
var counterAx = ax._anchorAxis;
// clear axis line positions, to be set in the subplot loop below
ax._linepositions = {};
// stash crispRounded linewidth so we don't need to pass gd all over the place
ax._lw = Drawing.crispRound(gd, ax.linewidth, 1);
// figure out the main axis line and main mirror line position.
// it's easier to follow the logic if we handle these separately from
// ax._linepositions, which are only used by mirror=allticks
// for non-main-subplot ticks, and mirror=all(ticks)? for zero line
// hiding logic
ax._mainLinePosition = getLinePosition(ax, counterAx, ax.side);
ax._mainMirrorPosition = (ax.mirror && counterAx) ?
getLinePosition(ax, counterAx,
alignmentConstants.OPPOSITE_SIDE[ax.side]) : null;
// Figure out which subplot to draw ticks, labels, & axis lines on
// do this as a separate loop so we already have all the
// _mainAxis and _anchorAxis links set
ax._mainSubplot = findMainSubplot(ax, fullLayout);
}
fullLayout._paperdiv
.style({
width: fullLayout.width + 'px',
height: fullLayout.height + 'px'
})
.selectAll('.main-svg')
.call(Drawing.setSize, fullLayout.width, fullLayout.height);
gd._context.setBackground(gd, fullLayout.paper_bgcolor);
var subplotSelection = fullLayout._paper.selectAll('g.subplot');
// figure out which backgrounds we need to draw, and in which layers
// to put them
var lowerBackgroundIDs = [];
var lowerDomains = [];
subplotSelection.each(function(d) {
var subplot = d[0];
var plotinfo = fullLayout._plots[subplot];
if(plotinfo.mainplot) {
// mainplot is a reference to the main plot this one is overlaid on
// so if it exists, this is an overlaid plot and we don't need to
// give it its own background
if(plotinfo.bg) {
plotinfo.bg.remove();
}
plotinfo.bg = undefined;
return;
}
var xDomain = plotinfo.xaxis.domain;
var yDomain = plotinfo.yaxis.domain;
var plotgroup = plotinfo.plotgroup;
if(overlappingDomain(xDomain, yDomain, lowerDomains)) {
var pgNode = plotgroup.node();
var plotgroupBg = plotinfo.bg = Lib.ensureSingle(plotgroup, 'rect', 'bg');
pgNode.insertBefore(plotgroupBg.node(), pgNode.childNodes[0]);
} else {
plotgroup.select('rect.bg').remove();
lowerBackgroundIDs.push(subplot);
lowerDomains.push([xDomain, yDomain]);
}
});
// now create all the lower-layer backgrounds at once now that
// we have the list of subplots that need them
var lowerBackgrounds = fullLayout._bgLayer.selectAll('.bg')
.data(lowerBackgroundIDs);
lowerBackgrounds.enter().append('rect')
.classed('bg', true);
lowerBackgrounds.exit().remove();
lowerBackgrounds.each(function(subplot) {
fullLayout._plots[subplot].bg = d3.select(this);
});
subplotSelection.each(function(d) {
var subplot = d[0];
var plotinfo = fullLayout._plots[subplot];
var xa = plotinfo.xaxis;
var ya = plotinfo.yaxis;
if(plotinfo.bg && hasSVGCartesian) {
plotinfo.bg
.call(Drawing.setRect,
xa._offset - pad, ya._offset - pad,
xa._length + 2 * pad, ya._length + 2 * pad)
.call(Color.fill, fullLayout.plot_bgcolor)
.style('stroke-width', 0);
}
// Clip so that data only shows up on the plot area.
var clipId = plotinfo.clipId = 'clip' + fullLayout._uid + subplot + 'plot';
var plotClip = Lib.ensureSingleById(fullLayout._clips, 'clipPath', clipId, function(s) {
s.classed('plotclip', true)
.append('rect');
});
plotinfo.clipRect = plotClip.select('rect').attr({
width: xa._length,
height: ya._length
});
Drawing.setTranslate(plotinfo.plot, xa._offset, ya._offset);
var plotClipId;
var layerClipId;
if(plotinfo._hasClipOnAxisFalse) {
plotClipId = null;
layerClipId = clipId;
} else {
plotClipId = clipId;
layerClipId = null;
}
Drawing.setClipUrl(plotinfo.plot, plotClipId);
// stash layer clipId value (null or same as clipId)
// to DRY up Drawing.setClipUrl calls on trace-module and trace layers
// downstream
plotinfo.layerClipId = layerClipId;
// figure out extra axis line and tick positions as needed
if(!hasSVGCartesian) return;
var xLinesXLeft, xLinesXRight, xLinesYBottom, xLinesYTop,
leftYLineWidth, rightYLineWidth;
var yLinesYBottom, yLinesYTop, yLinesXLeft, yLinesXRight,
connectYBottom, connectYTop;
var extraSubplot;
function xLinePath(y) {
return 'M' + xLinesXLeft + ',' + y + 'H' + xLinesXRight;
}
function xLinePathFree(y) {
return 'M' + xa._offset + ',' + y + 'h' + xa._length;
}
function yLinePath(x) {
return 'M' + x + ',' + yLinesYTop + 'V' + yLinesYBottom;
}
function yLinePathFree(x) {
return 'M' + x + ',' + ya._offset + 'v' + ya._length;
}
function mainPath(ax, pathFn, pathFnFree) {
if(!ax.showline || subplot !== ax._mainSubplot) return '';
if(!ax._anchorAxis) return pathFnFree(ax._mainLinePosition);
var out = pathFn(ax._mainLinePosition);
if(ax.mirror) out += pathFn(ax._mainMirrorPosition);
return out;
}
/*
* x lines get longer where they meet y lines, to make a crisp corner.
* The x lines get the padding (margin.pad) plus the y line width to
* fill up the corner nicely. Free x lines are excluded - they always
* span exactly the data area of the plot
*
* | XXXXX
* | XXXXX
* |
* +------
* x1
* -----
* x2
*/
var xPath = 'M0,0';
if(shouldShowLinesOrTicks(xa, subplot)) {
leftYLineWidth = findCounterAxisLineWidth(xa, 'left', ya, axList);
xLinesXLeft = xa._offset - (leftYLineWidth ? (pad + leftYLineWidth) : 0);
rightYLineWidth = findCounterAxisLineWidth(xa, 'right', ya, axList);
xLinesXRight = xa._offset + xa._length + (rightYLineWidth ? (pad + rightYLineWidth) : 0);
xLinesYBottom = getLinePosition(xa, ya, 'bottom');
xLinesYTop = getLinePosition(xa, ya, 'top');
// save axis line positions for extra ticks to reference
// each subplot that gets ticks from "allticks" gets an entry:
// [left or bottom, right or top]
extraSubplot = (!xa._anchorAxis || subplot !== xa._mainSubplot);
if(extraSubplot && (xa.mirror === 'allticks' || xa.mirror === 'all')) {
xa._linepositions[subplot] = [xLinesYBottom, xLinesYTop];
}
xPath = mainPath(xa, xLinePath, xLinePathFree);
if(extraSubplot && xa.showline && (xa.mirror === 'all' || xa.mirror === 'allticks')) {
xPath += xLinePath(xLinesYBottom) + xLinePath(xLinesYTop);
}
plotinfo.xlines
.style('stroke-width', xa._lw + 'px')
.call(Color.stroke, xa.showline ?
xa.linecolor : 'rgba(0,0,0,0)');
}
plotinfo.xlines.attr('d', xPath);
/*
* y lines that meet x axes get longer only by margin.pad, because
* the x axes fill in the corner space. Free y axes, like free x axes,
* always span exactly the data area of the plot
*
* | | XXXX
* y2| y1| XXXX
* | | XXXX
* |
* +-----
*/
var yPath = 'M0,0';
if(shouldShowLinesOrTicks(ya, subplot)) {
connectYBottom = findCounterAxisLineWidth(ya, 'bottom', xa, axList);
yLinesYBottom = ya._offset + ya._length + (connectYBottom ? pad : 0);
connectYTop = findCounterAxisLineWidth(ya, 'top', xa, axList);
yLinesYTop = ya._offset - (connectYTop ? pad : 0);
yLinesXLeft = getLinePosition(ya, xa, 'left');
yLinesXRight = getLinePosition(ya, xa, 'right');
extraSubplot = (!ya._anchorAxis || subplot !== ya._mainSubplot);
if(extraSubplot && (ya.mirror === 'allticks' || ya.mirror === 'all')) {
ya._linepositions[subplot] = [yLinesXLeft, yLinesXRight];
}
yPath = mainPath(ya, yLinePath, yLinePathFree);
if(extraSubplot && ya.showline && (ya.mirror === 'all' || ya.mirror === 'allticks')) {
yPath += yLinePath(yLinesXLeft) + yLinePath(yLinesXRight);
}
plotinfo.ylines
.style('stroke-width', ya._lw + 'px')
.call(Color.stroke, ya.showline ?
ya.linecolor : 'rgba(0,0,0,0)');
}
plotinfo.ylines.attr('d', yPath);
});
Axes.makeClipPaths(gd);
exports.drawMainTitle(gd);
ModeBar.manage(gd);
return gd._promises.length && Promise.all(gd._promises);
}
function findMainSubplot(ax, fullLayout) {
var subplotList = fullLayout._subplots;
var ids = subplotList.cartesian.concat(subplotList.gl2d || []);
var mockGd = {_fullLayout: fullLayout};
var isX = ax._id.charAt(0) === 'x';
var anchorAx = ax._mainAxis._anchorAxis;
var mainSubplotID = '';
var nextBestMainSubplotID = '';
var anchorID = '';
// First try the main ID with the anchor
if(anchorAx) {
anchorID = anchorAx._mainAxis._id;
mainSubplotID = isX ? (ax._id + anchorID) : (anchorID + ax._id);
}
// Then look for a subplot with the counteraxis overlaying the anchor
// If that fails just use the first subplot including this axis
if(!mainSubplotID || !fullLayout._plots[mainSubplotID]) {
mainSubplotID = '';
for(var j = 0; j < ids.length; j++) {
var id = ids[j];
var yIndex = id.indexOf('y');
var idPart = isX ? id.substr(0, yIndex) : id.substr(yIndex);
var counterPart = isX ? id.substr(yIndex) : id.substr(0, yIndex);
if(idPart === ax._id) {
if(!nextBestMainSubplotID) nextBestMainSubplotID = id;
var counterAx = Axes.getFromId(mockGd, counterPart);
if(anchorID && counterAx.overlaying === anchorID) {
mainSubplotID = id;
break;
}
}
}
}
return mainSubplotID || nextBestMainSubplotID;
}
function shouldShowLinesOrTicks(ax, subplot) {
return (ax.ticks || ax.showline) &&
(subplot === ax._mainSubplot || ax.mirror === 'all' || ax.mirror === 'allticks');
}
/*
* should we draw a line on counterAx at this side of ax?
* It's assumed that counterAx is known to overlay the subplot we're working on
* but it may not be its main axis.
*/
function shouldShowLineThisSide(ax, side, counterAx) {
// does counterAx get a line at all?
if(!counterAx.showline || !counterAx._lw) return false;
// are we drawing *all* lines for counterAx?
if(counterAx.mirror === 'all' || counterAx.mirror === 'allticks') return true;
var anchorAx = counterAx._anchorAxis;
// is this a free axis? free axes can only have a subplot side-line with all(ticks)? mirroring
if(!anchorAx) return false;
// in order to handle cases where the user forgot to anchor this axis correctly
// (because its default anchor has the same domain on the relevant end)
// check whether the relevant position is the same.
var sideIndex = alignmentConstants.FROM_BL[side];
if(counterAx.side === side) {
return anchorAx.domain[sideIndex] === ax.domain[sideIndex];
}
return counterAx.mirror && anchorAx.domain[1 - sideIndex] === ax.domain[1 - sideIndex];
}
/*
* Is there another axis intersecting `side` end of `ax`?
* First look at `counterAx` (the axis for this subplot),
* then at all other potential counteraxes on or overlaying this subplot.
* Take the line width from the first one that has a line.
*/
function findCounterAxisLineWidth(ax, side, counterAx, axList) {
if(shouldShowLineThisSide(ax, side, counterAx)) {
return counterAx._lw;
}
for(var i = 0; i < axList.length; i++) {
var axi = axList[i];
if(axi._mainAxis === counterAx._mainAxis && shouldShowLineThisSide(ax, side, axi)) {
return axi._lw;
}
}
return 0;
}
exports.drawMainTitle = function(gd) {
var fullLayout = gd._fullLayout;
Titles.draw(gd, 'gtitle', {
propContainer: fullLayout,
propName: 'title',
placeholder: fullLayout._dfltTitle.plot,
attributes: {
x: fullLayout.width / 2,
y: fullLayout._size.t / 2,
'text-anchor': 'middle'
}
});
};
// First, see if we need to do arraysToCalcdata
// call it regardless of what change we made, in case
// supplyDefaults brought in an array that was already
// in gd.data but not in gd._fullData previously
exports.doTraceStyle = function(gd) {
for(var i = 0; i < gd.calcdata.length; i++) {
var cdi = gd.calcdata[i],
_module = ((cdi[0] || {}).trace || {})._module || {},
arraysToCalcdata = _module.arraysToCalcdata;
if(arraysToCalcdata) arraysToCalcdata(cdi, cdi[0].trace);
}
Plots.style(gd);
Registry.getComponentMethod('legend', 'draw')(gd);
return Plots.previousPromises(gd);
};
exports.doColorBars = function(gd) {
for(var i = 0; i < gd.calcdata.length; i++) {
var cdi0 = gd.calcdata[i][0];
if((cdi0.t || {}).cb) {
var trace = cdi0.trace,
cb = cdi0.t.cb;
if(Registry.traceIs(trace, 'contour')) {
cb.line({
width: trace.contours.showlines !== false ?
trace.line.width : 0,
dash: trace.line.dash,
color: trace.contours.coloring === 'line' ?
cb._opts.line.color : trace.line.color
});
}
var moduleOpts = trace._module.colorbar;
var containerName = moduleOpts.container;
var opts = (containerName ? trace[containerName] : trace).colorbar;
cb.options(opts)();
}
}
return Plots.previousPromises(gd);
};
// force plot() to redo the layout and replot with the modified layout
exports.layoutReplot = function(gd) {
var layout = gd.layout;
gd.layout = undefined;
return Registry.call('plot', gd, '', layout);
};
exports.doLegend = function(gd) {
Registry.getComponentMethod('legend', 'draw')(gd);
return Plots.previousPromises(gd);
};
exports.doTicksRelayout = function(gd, rangesAltered) {
if(rangesAltered) {
Axes.doTicks(gd, Object.keys(rangesAltered), true);
} else {
Axes.doTicks(gd, 'redraw');
}
if(gd._fullLayout._hasOnlyLargeSploms) {
clearGlCanvases(gd);
Registry.subplotsRegistry.splom.plot(gd);
}
exports.drawMainTitle(gd);
return Plots.previousPromises(gd);
};
exports.doModeBar = function(gd) {
var fullLayout = gd._fullLayout;
ModeBar.manage(gd);
for(var i = 0; i < fullLayout._basePlotModules.length; i++) {
var updateFx = fullLayout._basePlotModules[i].updateFx;
if(updateFx) updateFx(gd);
}
return Plots.previousPromises(gd);
};
exports.doCamera = function(gd) {
var fullLayout = gd._fullLayout;
var sceneIds = fullLayout._subplots.gl3d;
for(var i = 0; i < sceneIds.length; i++) {
var sceneLayout = fullLayout[sceneIds[i]];
var scene = sceneLayout._scene;
scene.setCamera(sceneLayout.camera);
}
};
exports.drawData = function(gd) {
var fullLayout = gd._fullLayout;
var calcdata = gd.calcdata;
var i;
// remove old colorbars explicitly
for(i = 0; i < calcdata.length; i++) {
var trace = calcdata[i][0].trace;
if(trace.visible !== true || !trace._module.colorbar) {
fullLayout._infolayer.select('.cb' + trace.uid).remove();
}
}
clearGlCanvases(gd);
// loop over the base plot modules present on graph
var basePlotModules = fullLayout._basePlotModules;
for(i = 0; i < basePlotModules.length; i++) {
basePlotModules[i].plot(gd);
}
// styling separate from drawing
Plots.style(gd);
// show annotations and shapes
Registry.getComponentMethod('shapes', 'draw')(gd);
Registry.getComponentMethod('annotations', 'draw')(gd);
// Mark the first render as complete
fullLayout._replotting = false;
return Plots.previousPromises(gd);
};
exports.doAutoRangeAndConstraints = function(gd) {
var axList = Axes.list(gd, '', true);
for(var i = 0; i < axList.length; i++) {
var ax = axList[i];
cleanAxisConstraints(gd, ax);
doAutoRange(gd, ax);
}
enforceAxisConstraints(gd);
};
// An initial paint must be completed before these components can be
// correctly sized and the whole plot re-margined. fullLayout._replotting must
// be set to false before these will work properly.
exports.finalDraw = function(gd) {
Registry.getComponentMethod('shapes', 'draw')(gd);
Registry.getComponentMethod('images', 'draw')(gd);
Registry.getComponentMethod('annotations', 'draw')(gd);
// TODO: rangesliders really belong in marginPushers but they need to be
// drawn after data - can we at least get the margin pushing part separated
// out and done earlier?
Registry.getComponentMethod('rangeslider', 'draw')(gd);
// TODO: rangeselector only needs to be here (in addition to drawMarginPushers)
// because the margins need to be fully determined before we can call
// autorange and update axis ranges (which rangeselector needs to know which
// button is active). Can we break out its automargin step from its draw step?
Registry.getComponentMethod('rangeselector', 'draw')(gd);
};
exports.drawMarginPushers = function(gd) {
Registry.getComponentMethod('legend', 'draw')(gd);
Registry.getComponentMethod('rangeselector', 'draw')(gd);
Registry.getComponentMethod('sliders', 'draw')(gd);
Registry.getComponentMethod('updatemenus', 'draw')(gd);
};
},{"../components/color":567,"../components/drawing":592,"../components/modebar":630,"../components/titles":658,"../constants/alignment":665,"../lib":693,"../lib/clear_gl_canvases":676,"../plots/cartesian/autorange":741,"../plots/cartesian/axes":742,"../plots/cartesian/constraints":749,"../plots/plots":805,"../registry":825,"d3":147}],734:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../lib');
var isPlainObject = Lib.isPlainObject;
var PlotSchema = _dereq_('./plot_schema');
var Plots = _dereq_('../plots/plots');
var plotAttributes = _dereq_('../plots/attributes');
var Template = _dereq_('./plot_template');
var dfltConfig = _dereq_('./plot_config');
/**
* Plotly.makeTemplate: create a template off an existing figure to reuse
* style attributes on other figures.
*
* Note: separated from the rest of templates because otherwise we get circular
* references due to PlotSchema.
*
* @param {object|DOM element} figure: The figure to base the template on
* should contain a trace array `figure.data`
* and a layout object `figure.layout`
* @returns {object} template: the extracted template - can then be used as
* `layout.template` in another figure.
*/
exports.makeTemplate = function(figure) {
figure = Lib.extendDeep({_context: dfltConfig}, figure);
Plots.supplyDefaults(figure);
var data = figure.data || [];
var layout = figure.layout || {};
// copy over a few items to help follow the schema
layout._basePlotModules = figure._fullLayout._basePlotModules;
layout._modules = figure._fullLayout._modules;
var template = {
data: {},
layout: {}
};
/*
* Note: we do NOT validate template values, we just take what's in the
* user inputs data and layout, not the validated values in fullData and
* fullLayout. Even if we were to validate here, there's no guarantee that
* these values would still be valid when applied to a new figure, which
* may contain different trace modes, different axes, etc. So it's
* important that when applying a template we still validate the template
* values, rather than just using them as defaults.
*/
data.forEach(function(trace) {
// TODO: What if no style info is extracted for this trace. We may
// not want an empty object as the null value.
// TODO: allow transforms to contribute to templates?
// as it stands they are ignored, which may be for the best...
var traceTemplate = {};
walkStyleKeys(trace, traceTemplate, getTraceInfo.bind(null, trace));
var traceType = Lib.coerce(trace, {}, plotAttributes, 'type');
var typeTemplates = template.data[traceType];
if(!typeTemplates) typeTemplates = template.data[traceType] = [];
typeTemplates.push(traceTemplate);
});
walkStyleKeys(layout, template.layout, getLayoutInfo.bind(null, layout));
/*
* Compose the new template with an existing one to the same effect
*
* NOTE: there's a possibility of slightly different behavior: if the plot
* has an invalid value and the old template has a valid value for the same
* attribute, the plot will use the old template value but this routine
* will pull the invalid value (resulting in the original default).
* In the general case it's not possible to solve this with a single value,
* since valid options can be context-dependent. It could be solved with
* a *list* of values, but that would be huge complexity for little gain.
*/
delete template.layout.template;
var oldTemplate = layout.template;
if(isPlainObject(oldTemplate)) {
var oldLayoutTemplate = oldTemplate.layout;
var i, traceType, oldTypeTemplates, oldTypeLen, typeTemplates, typeLen;
if(isPlainObject(oldLayoutTemplate)) {
mergeTemplates(oldLayoutTemplate, template.layout);
}
var oldDataTemplate = oldTemplate.data;
if(isPlainObject(oldDataTemplate)) {
for(traceType in template.data) {
oldTypeTemplates = oldDataTemplate[traceType];
if(Array.isArray(oldTypeTemplates)) {
typeTemplates = template.data[traceType];
typeLen = typeTemplates.length;
oldTypeLen = oldTypeTemplates.length;
for(i = 0; i < typeLen; i++) {
mergeTemplates(oldTypeTemplates[i % oldTypeLen], typeTemplates[i]);
}
for(i = typeLen; i < oldTypeLen; i++) {
typeTemplates.push(Lib.extendDeep({}, oldTypeTemplates[i]));
}
}
}
for(traceType in oldDataTemplate) {
if(!(traceType in template.data)) {
template.data[traceType] = Lib.extendDeep([], oldDataTemplate[traceType]);
}
}
}
}
return template;
};
function mergeTemplates(oldTemplate, newTemplate) {
// we don't care about speed here, just make sure we have a totally
// distinct object from the previous template
oldTemplate = Lib.extendDeep({}, oldTemplate);
// sort keys so we always get annotationdefaults before annotations etc
// so arrayTemplater will work right
var oldKeys = Object.keys(oldTemplate).sort();
var i, j;
function mergeOne(oldVal, newVal, key) {
if(isPlainObject(newVal) && isPlainObject(oldVal)) {
mergeTemplates(oldVal, newVal);
}
else if(Array.isArray(newVal) && Array.isArray(oldVal)) {
// Note: omitted `inclusionAttr` from arrayTemplater here,
// it's irrelevant as we only want the resulting `_template`.
var templater = Template.arrayTemplater({_template: oldTemplate}, key);
for(j = 0; j < newVal.length; j++) {
var item = newVal[j];
var oldItem = templater.newItem(item)._template;
if(oldItem) mergeTemplates(oldItem, item);
}
var defaultItems = templater.defaultItems();
for(j = 0; j < defaultItems.length; j++) newVal.push(defaultItems[j]._template);
// templateitemname only applies to receiving plots
for(j = 0; j < newVal.length; j++) delete newVal[j].templateitemname;
}
}
for(i = 0; i < oldKeys.length; i++) {
var key = oldKeys[i];
var oldVal = oldTemplate[key];
if(key in newTemplate) {
mergeOne(oldVal, newTemplate[key], key);
}
else newTemplate[key] = oldVal;
// if this is a base key from the old template (eg xaxis), look for
// extended keys (eg xaxis2) in the new template to merge into
if(getBaseKey(key) === key) {
for(var key2 in newTemplate) {
var baseKey2 = getBaseKey(key2);
if(key2 !== baseKey2 && baseKey2 === key && !(key2 in oldTemplate)) {
mergeOne(oldVal, newTemplate[key2], key);
}
}
}
}
}
function getBaseKey(key) {
return key.replace(/[0-9]+$/, '');
}
function walkStyleKeys(parent, templateOut, getAttributeInfo, path, basePath) {
var pathAttr = basePath && getAttributeInfo(basePath);
for(var key in parent) {
var child = parent[key];
var nextPath = getNextPath(parent, key, path);
var nextBasePath = getNextPath(parent, key, basePath);
var attr = getAttributeInfo(nextBasePath);
if(!attr) {
var baseKey = getBaseKey(key);
if(baseKey !== key) {
nextBasePath = getNextPath(parent, baseKey, basePath);
attr = getAttributeInfo(nextBasePath);
}
}
// we'll get an attr if path starts with a valid part, then has an
// invalid ending. Make sure we got all the way to the end.
if(pathAttr && (pathAttr === attr)) continue;
if(!attr || attr._noTemplating ||
attr.valType === 'data_array' ||
(attr.arrayOk && Array.isArray(child))
) {
continue;
}
if(!attr.valType && isPlainObject(child)) {
walkStyleKeys(child, templateOut, getAttributeInfo, nextPath, nextBasePath);
}
else if(attr._isLinkedToArray && Array.isArray(child)) {
var dfltDone = false;
var namedIndex = 0;
var usedNames = {};
for(var i = 0; i < child.length; i++) {
var item = child[i];
if(isPlainObject(item)) {
var name = item.name;
if(name) {
if(!usedNames[name]) {
// named array items: allow all attributes except data arrays
walkStyleKeys(item, templateOut, getAttributeInfo,
getNextPath(child, namedIndex, nextPath),
getNextPath(child, namedIndex, nextBasePath));
namedIndex++;
usedNames[name] = 1;
}
}
else if(!dfltDone) {
var dfltKey = Template.arrayDefaultKey(key);
var dfltPath = getNextPath(parent, dfltKey, path);
// getAttributeInfo will fail if we try to use dfltKey directly.
// Instead put this item into the next array element, then
// pull it out and move it to dfltKey.
var pathInArray = getNextPath(child, namedIndex, nextPath);
walkStyleKeys(item, templateOut, getAttributeInfo, pathInArray,
getNextPath(child, namedIndex, nextBasePath));
var itemPropInArray = Lib.nestedProperty(templateOut, pathInArray);
var dfltProp = Lib.nestedProperty(templateOut, dfltPath);
dfltProp.set(itemPropInArray.get());
itemPropInArray.set(null);
dfltDone = true;
}
}
}
}
else {
var templateProp = Lib.nestedProperty(templateOut, nextPath);
templateProp.set(child);
}
}
}
function getLayoutInfo(layout, path) {
return PlotSchema.getLayoutValObject(
layout, Lib.nestedProperty({}, path).parts
);
}
function getTraceInfo(trace, path) {
return PlotSchema.getTraceValObject(
trace, Lib.nestedProperty({}, path).parts
);
}
function getNextPath(parent, key, path) {
var nextPath;
if(!path) nextPath = key;
else if(Array.isArray(parent)) nextPath = path + '[' + key + ']';
else nextPath = path + '.' + key;
return nextPath;
}
/**
* validateTemplate: Test for consistency between the given figure and
* a template, either already included in the figure or given separately.
* Note that not every issue we identify here is necessarily a problem,
* it depends on what you're using the template for.
*
* @param {object|DOM element} figure: the plot, with {data, layout} members,
* to test the template against
* @param {Optional(object)} template: the template, with its own {data, layout},
* to test. If omitted, we will look for a template already attached as the
* plot's `layout.template` attribute.
*
* @returns {array} array of error objects each containing:
* - {string} code
* error code ('missing', 'unused', 'reused', 'noLayout', 'noData')
* - {string} msg
* a full readable description of the issue.
*/
exports.validateTemplate = function(figureIn, template) {
var figure = Lib.extendDeep({}, {
_context: dfltConfig,
data: figureIn.data,
layout: figureIn.layout
});
var layout = figure.layout || {};
if(!isPlainObject(template)) template = layout.template || {};
var layoutTemplate = template.layout;
var dataTemplate = template.data;
var errorList = [];
figure.layout = layout;
figure.layout.template = template;
Plots.supplyDefaults(figure);
var fullLayout = figure._fullLayout;
var fullData = figure._fullData;
var layoutPaths = {};
function crawlLayoutForContainers(obj, paths) {
for(var key in obj) {
if(key.charAt(0) !== '_' && isPlainObject(obj[key])) {
var baseKey = getBaseKey(key);
var nextPaths = [];
var i;
for(i = 0; i < paths.length; i++) {
nextPaths.push(getNextPath(obj, key, paths[i]));
if(baseKey !== key) nextPaths.push(getNextPath(obj, baseKey, paths[i]));
}
for(i = 0; i < nextPaths.length; i++) {
layoutPaths[nextPaths[i]] = 1;
}
crawlLayoutForContainers(obj[key], nextPaths);
}
}
}
function crawlLayoutTemplateForContainers(obj, path) {
for(var key in obj) {
if(key.indexOf('defaults') === -1 && isPlainObject(obj[key])) {
var nextPath = getNextPath(obj, key, path);
if(layoutPaths[nextPath]) {
crawlLayoutTemplateForContainers(obj[key], nextPath);
}
else {
errorList.push({code: 'unused', path: nextPath});
}
}
}
}
if(!isPlainObject(layoutTemplate)) {
errorList.push({code: 'layout'});
}
else {
crawlLayoutForContainers(fullLayout, ['layout']);
crawlLayoutTemplateForContainers(layoutTemplate, 'layout');
}
if(!isPlainObject(dataTemplate)) {
errorList.push({code: 'data'});
}
else {
var typeCount = {};
var traceType;
for(var i = 0; i < fullData.length; i++) {
var fullTrace = fullData[i];
traceType = fullTrace.type;
typeCount[traceType] = (typeCount[traceType] || 0) + 1;
if(!fullTrace._fullInput._template) {
// this takes care of the case of traceType in the data but not
// the template
errorList.push({
code: 'missing',
index: fullTrace._fullInput.index,
traceType: traceType
});
}
}
for(traceType in dataTemplate) {
var templateCount = dataTemplate[traceType].length;
var dataCount = typeCount[traceType] || 0;
if(templateCount > dataCount) {
errorList.push({
code: 'unused',
traceType: traceType,
templateCount: templateCount,
dataCount: dataCount
});
}
else if(dataCount > templateCount) {
errorList.push({
code: 'reused',
traceType: traceType,
templateCount: templateCount,
dataCount: dataCount
});
}
}
}
// _template: false is when someone tried to modify an array item
// but there was no template with matching name
function crawlForMissingTemplates(obj, path) {
for(var key in obj) {
if(key.charAt(0) === '_') continue;
var val = obj[key];
var nextPath = getNextPath(obj, key, path);
if(isPlainObject(val)) {
if(Array.isArray(obj) && val._template === false && val.templateitemname) {
errorList.push({
code: 'missing',
path: nextPath,
templateitemname: val.templateitemname
});
}
crawlForMissingTemplates(val, nextPath);
}
else if(Array.isArray(val) && hasPlainObject(val)) {
crawlForMissingTemplates(val, nextPath);
}
}
}
crawlForMissingTemplates({data: fullData, layout: fullLayout}, '');
if(errorList.length) return errorList.map(format);
};
function hasPlainObject(arr) {
for(var i = 0; i < arr.length; i++) {
if(isPlainObject(arr[i])) return true;
}
}
function format(opts) {
var msg;
switch(opts.code) {
case 'data':
msg = 'The template has no key data.';
break;
case 'layout':
msg = 'The template has no key layout.';
break;
case 'missing':
if(opts.path) {
msg = 'There are no templates for item ' + opts.path +
' with name ' + opts.templateitemname;
}
else {
msg = 'There are no templates for trace ' + opts.index +
', of type ' + opts.traceType + '.';
}
break;
case 'unused':
if(opts.path) {
msg = 'The template item at ' + opts.path +
' was not used in constructing the plot.';
}
else if(opts.dataCount) {
msg = 'Some of the templates of type ' + opts.traceType +
' were not used. The template has ' + opts.templateCount +
' traces, the data only has ' + opts.dataCount +
' of this type.';
}
else {
msg = 'The template has ' + opts.templateCount +
' traces of type ' + opts.traceType +
' but there are none in the data.';
}
break;
case 'reused':
msg = 'Some of the templates of type ' + opts.traceType +
' were used more than once. The template has ' +
opts.templateCount + ' traces, the data has ' +
opts.dataCount + ' of this type.';
break;
}
opts.msg = msg;
return opts;
}
},{"../lib":693,"../plots/attributes":739,"../plots/plots":805,"./plot_config":730,"./plot_schema":731,"./plot_template":732}],735:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var plotApi = _dereq_('./plot_api');
var Lib = _dereq_('../lib');
var helpers = _dereq_('../snapshot/helpers');
var toSVG = _dereq_('../snapshot/tosvg');
var svgToImg = _dereq_('../snapshot/svgtoimg');
var attrs = {
format: {
valType: 'enumerated',
values: ['png', 'jpeg', 'webp', 'svg'],
dflt: 'png',
},
width: {
valType: 'number',
min: 1,
},
height: {
valType: 'number',
min: 1,
},
scale: {
valType: 'number',
min: 0,
dflt: 1,
},
setBackground: {
valType: 'any',
dflt: false,
},
imageDataOnly: {
valType: 'boolean',
dflt: false,
}
};
var IMAGE_URL_PREFIX = /^data:image\/\w+;base64,/;
/** Plotly.toImage
*
* @param {object | string | HTML div} gd
* can either be a data/layout/config object
* or an existing graph <div>
* or an id to an existing graph <div>
* @param {object} opts (see above)
* @return {promise}
*/
function toImage(gd, opts) {
opts = opts || {};
var data;
var layout;
var config;
if(Lib.isPlainObject(gd)) {
data = gd.data || [];
layout = gd.layout || {};
config = gd.config || {};
} else {
gd = Lib.getGraphDiv(gd);
data = Lib.extendDeep([], gd.data);
layout = Lib.extendDeep({}, gd.layout);
config = gd._context;
}
function isImpliedOrValid(attr) {
return !(attr in opts) || Lib.validate(opts[attr], attrs[attr]);
}
if(!isImpliedOrValid('width') || !isImpliedOrValid('height')) {
throw new Error('Height and width should be pixel values.');
}
if(!isImpliedOrValid('format')) {
throw new Error('Image format is not jpeg, png, svg or webp.');
}
var fullOpts = {};
function coerce(attr, dflt) {
return Lib.coerce(opts, fullOpts, attrs, attr, dflt);
}
var format = coerce('format');
var width = coerce('width');
var height = coerce('height');
var scale = coerce('scale');
var setBackground = coerce('setBackground');
var imageDataOnly = coerce('imageDataOnly');
// put the cloned div somewhere off screen before attaching to DOM
var clonedGd = document.createElement('div');
clonedGd.style.position = 'absolute';
clonedGd.style.left = '-5000px';
document.body.appendChild(clonedGd);
// extend layout with image options
var layoutImage = Lib.extendFlat({}, layout);
if(width) layoutImage.width = width;
if(height) layoutImage.height = height;
// extend config for static plot
var configImage = Lib.extendFlat({}, config, {
staticPlot: true,
setBackground: setBackground
});
var redrawFunc = helpers.getRedrawFunc(clonedGd);
function wait() {
return new Promise(function(resolve) {
setTimeout(resolve, helpers.getDelay(clonedGd._fullLayout));
});
}
function convert() {
return new Promise(function(resolve, reject) {
var svg = toSVG(clonedGd, format, scale);
var width = clonedGd._fullLayout.width;
var height = clonedGd._fullLayout.height;
plotApi.purge(clonedGd);
document.body.removeChild(clonedGd);
if(format === 'svg') {
if(imageDataOnly) {
return resolve(svg);
} else {
return resolve('data:image/svg+xml,' + encodeURIComponent(svg));
}
}
var canvas = document.createElement('canvas');
canvas.id = Lib.randstr();
svgToImg({
format: format,
width: width,
height: height,
scale: scale,
canvas: canvas,
svg: svg,
// ask svgToImg to return a Promise
// rather than EventEmitter
// leave EventEmitter for backward
// compatibility
promise: true
})
.then(resolve)
.catch(reject);
});
}
function urlToImageData(url) {
if(imageDataOnly) {
return url.replace(IMAGE_URL_PREFIX, '');
} else {
return url;
}
}
return new Promise(function(resolve, reject) {
plotApi.plot(clonedGd, data, layoutImage, configImage)
.then(redrawFunc)
.then(wait)
.then(convert)
.then(function(url) { resolve(urlToImageData(url)); })
.catch(function(err) { reject(err); });
});
}
module.exports = toImage;
},{"../lib":693,"../snapshot/helpers":829,"../snapshot/svgtoimg":831,"../snapshot/tosvg":833,"./plot_api":729}],736:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../lib');
var Plots = _dereq_('../plots/plots');
var PlotSchema = _dereq_('./plot_schema');
var dfltConfig = _dereq_('./plot_config');
var isPlainObject = Lib.isPlainObject;
var isArray = Array.isArray;
var isArrayOrTypedArray = Lib.isArrayOrTypedArray;
/**
* Validate a data array and layout object.
*
* @param {array} data
* @param {object} layout
*
* @return {array} array of error objects each containing:
* - {string} code
* error code ('object', 'array', 'schema', 'unused', 'invisible' or 'value')
* - {string} container
* container where the error occurs ('data' or 'layout')
* - {number} trace
* trace index of the 'data' container where the error occurs
* - {array} path
* nested path to the key that causes the error
* - {string} astr
* attribute string variant of 'path' compatible with Plotly.restyle and
* Plotly.relayout.
* - {string} msg
* error message (shown in console in logger config argument is enable)
*/
module.exports = function validate(data, layout) {
var schema = PlotSchema.get();
var errorList = [];
var gd = {_context: Lib.extendFlat({}, dfltConfig)};
var dataIn, layoutIn;
if(isArray(data)) {
gd.data = Lib.extendDeep([], data);
dataIn = data;
}
else {
gd.data = [];
dataIn = [];
errorList.push(format('array', 'data'));
}
if(isPlainObject(layout)) {
gd.layout = Lib.extendDeep({}, layout);
layoutIn = layout;
}
else {
gd.layout = {};
layoutIn = {};
if(arguments.length > 1) {
errorList.push(format('object', 'layout'));
}
}
// N.B. dataIn and layoutIn are in general not the same as
// gd.data and gd.layout after supplyDefaults as some attributes
// in gd.data and gd.layout (still) get mutated during this step.
Plots.supplyDefaults(gd);
var dataOut = gd._fullData,
len = dataIn.length;
for(var i = 0; i < len; i++) {
var traceIn = dataIn[i],
base = ['data', i];
if(!isPlainObject(traceIn)) {
errorList.push(format('object', base));
continue;
}
var traceOut = dataOut[i],
traceType = traceOut.type,
traceSchema = schema.traces[traceType].attributes;
// PlotSchema does something fancy with trace 'type', reset it here
// to make the trace schema compatible with Lib.validate.
traceSchema.type = {
valType: 'enumerated',
values: [traceType]
};
if(traceOut.visible === false && traceIn.visible !== false) {
errorList.push(format('invisible', base));
}
crawl(traceIn, traceOut, traceSchema, errorList, base);
var transformsIn = traceIn.transforms,
transformsOut = traceOut.transforms;
if(transformsIn) {
if(!isArray(transformsIn)) {
errorList.push(format('array', base, ['transforms']));
}
base.push('transforms');
for(var j = 0; j < transformsIn.length; j++) {
var path = ['transforms', j],
transformType = transformsIn[j].type;
if(!isPlainObject(transformsIn[j])) {
errorList.push(format('object', base, path));
continue;
}
var transformSchema = schema.transforms[transformType] ?
schema.transforms[transformType].attributes :
{};
// add 'type' to transform schema to validate the transform type
transformSchema.type = {
valType: 'enumerated',
values: Object.keys(schema.transforms)
};
crawl(transformsIn[j], transformsOut[j], transformSchema, errorList, base, path);
}
}
}
var layoutOut = gd._fullLayout,
layoutSchema = fillLayoutSchema(schema, dataOut);
crawl(layoutIn, layoutOut, layoutSchema, errorList, 'layout');
// return undefined if no validation errors were found
return (errorList.length === 0) ? void(0) : errorList;
};
function crawl(objIn, objOut, schema, list, base, path) {
path = path || [];
var keys = Object.keys(objIn);
for(var i = 0; i < keys.length; i++) {
var k = keys[i];
// transforms are handled separately
if(k === 'transforms') continue;
var p = path.slice();
p.push(k);
var valIn = objIn[k],
valOut = objOut[k];
var nestedSchema = getNestedSchema(schema, k);
var isInfoArray = (nestedSchema || {}).valType === 'info_array';
var isColorscale = (nestedSchema || {}).valType === 'colorscale';
var items = (nestedSchema || {}).items;
if(!isInSchema(schema, k)) {
list.push(format('schema', base, p));
}
else if(isPlainObject(valIn) && isPlainObject(valOut)) {
crawl(valIn, valOut, nestedSchema, list, base, p);
}
else if(isInfoArray && isArray(valIn)) {
if(valIn.length > valOut.length) {
list.push(format('unused', base, p.concat(valOut.length)));
}
var len = valOut.length;
var arrayItems = Array.isArray(items);
if(arrayItems) len = Math.min(len, items.length);
var m, n, item, valInPart, valOutPart;
if(nestedSchema.dimensions === 2) {
for(n = 0; n < len; n++) {
if(isArray(valIn[n])) {
if(valIn[n].length > valOut[n].length) {
list.push(format('unused', base, p.concat(n, valOut[n].length)));
}
var len2 = valOut[n].length;
for(m = 0; m < (arrayItems ? Math.min(len2, items[n].length) : len2); m++) {
item = arrayItems ? items[n][m] : items;
valInPart = valIn[n][m];
valOutPart = valOut[n][m];
if(!Lib.validate(valInPart, item)) {
list.push(format('value', base, p.concat(n, m), valInPart));
}
else if(valOutPart !== valInPart && valOutPart !== +valInPart) {
list.push(format('dynamic', base, p.concat(n, m), valInPart, valOutPart));
}
}
}
else {
list.push(format('array', base, p.concat(n), valIn[n]));
}
}
}
else {
for(n = 0; n < len; n++) {
item = arrayItems ? items[n] : items;
valInPart = valIn[n];
valOutPart = valOut[n];
if(!Lib.validate(valInPart, item)) {
list.push(format('value', base, p.concat(n), valInPart));
}
else if(valOutPart !== valInPart && valOutPart !== +valInPart) {
list.push(format('dynamic', base, p.concat(n), valInPart, valOutPart));
}
}
}
}
else if(nestedSchema.items && !isInfoArray && isArray(valIn)) {
var _nestedSchema = items[Object.keys(items)[0]],
indexList = [];
var j, _p;
// loop over valOut items while keeping track of their
// corresponding input container index (given by _index)
for(j = 0; j < valOut.length; j++) {
var _index = valOut[j]._index || j;
_p = p.slice();
_p.push(_index);
if(isPlainObject(valIn[_index]) && isPlainObject(valOut[j])) {
indexList.push(_index);
var valInj = valIn[_index];
var valOutj = valOut[j];
if(isPlainObject(valInj) && valInj.visible !== false && valOutj.visible === false) {
list.push(format('invisible', base, _p));
}
else crawl(valInj, valOutj, _nestedSchema, list, base, _p);
}
}
// loop over valIn to determine where it went wrong for some items
for(j = 0; j < valIn.length; j++) {
_p = p.slice();
_p.push(j);
if(!isPlainObject(valIn[j])) {
list.push(format('object', base, _p, valIn[j]));
}
else if(indexList.indexOf(j) === -1) {
list.push(format('unused', base, _p));
}
}
}
else if(!isPlainObject(valIn) && isPlainObject(valOut)) {
list.push(format('object', base, p, valIn));
}
else if(!isArrayOrTypedArray(valIn) && isArrayOrTypedArray(valOut) && !isInfoArray && !isColorscale) {
list.push(format('array', base, p, valIn));
}
else if(!(k in objOut)) {
list.push(format('unused', base, p, valIn));
}
else if(!Lib.validate(valIn, nestedSchema)) {
list.push(format('value', base, p, valIn));
}
else if(nestedSchema.valType === 'enumerated' &&
((nestedSchema.coerceNumber && valIn !== +valOut) || valIn !== valOut)
) {
list.push(format('dynamic', base, p, valIn, valOut));
}
}
return list;
}
// the 'full' layout schema depends on the traces types presents
function fillLayoutSchema(schema, dataOut) {
var layoutSchema = schema.layout.layoutAttributes;
for(var i = 0; i < dataOut.length; i++) {
var traceOut = dataOut[i];
var traceSchema = schema.traces[traceOut.type];
var traceLayoutAttr = traceSchema.layoutAttributes;
if(traceLayoutAttr) {
if(traceOut.subplot) {
Lib.extendFlat(layoutSchema[traceSchema.attributes.subplot.dflt], traceLayoutAttr);
} else {
Lib.extendFlat(layoutSchema, traceLayoutAttr);
}
}
}
return layoutSchema;
}
// validation error codes
var code2msgFunc = {
object: function(base, astr) {
var prefix;
if(base === 'layout' && astr === '') prefix = 'The layout argument';
else if(base[0] === 'data' && astr === '') {
prefix = 'Trace ' + base[1] + ' in the data argument';
}
else prefix = inBase(base) + 'key ' + astr;
return prefix + ' must be linked to an object container';
},
array: function(base, astr) {
var prefix;
if(base === 'data') prefix = 'The data argument';
else prefix = inBase(base) + 'key ' + astr;
return prefix + ' must be linked to an array container';
},
schema: function(base, astr) {
return inBase(base) + 'key ' + astr + ' is not part of the schema';
},
unused: function(base, astr, valIn) {
var target = isPlainObject(valIn) ? 'container' : 'key';
return inBase(base) + target + ' ' + astr + ' did not get coerced';
},
dynamic: function(base, astr, valIn, valOut) {
return [
inBase(base) + 'key',
astr,
'(set to \'' + valIn + '\')',
'got reset to',
'\'' + valOut + '\'',
'during defaults.'
].join(' ');
},
invisible: function(base, astr) {
return (
astr ? (inBase(base) + 'item ' + astr) : ('Trace ' + base[1])
) + ' got defaulted to be not visible';
},
value: function(base, astr, valIn) {
return [
inBase(base) + 'key ' + astr,
'is set to an invalid value (' + valIn + ')'
].join(' ');
}
};
function inBase(base) {
if(isArray(base)) return 'In data trace ' + base[1] + ', ';
return 'In ' + base + ', ';
}
function format(code, base, path, valIn, valOut) {
path = path || '';
var container, trace;
// container is either 'data' or 'layout
// trace is the trace index if 'data', null otherwise
if(isArray(base)) {
container = base[0];
trace = base[1];
}
else {
container = base;
trace = null;
}
var astr = convertPathToAttributeString(path);
var msg = code2msgFunc[code](base, astr, valIn, valOut);
// log to console if logger config option is enabled
Lib.log(msg);
return {
code: code,
container: container,
trace: trace,
path: path,
astr: astr,
msg: msg
};
}
function isInSchema(schema, key) {
var parts = splitKey(key),
keyMinusId = parts.keyMinusId,
id = parts.id;
if((keyMinusId in schema) && schema[keyMinusId]._isSubplotObj && id) {
return true;
}
return (key in schema);
}
function getNestedSchema(schema, key) {
if(key in schema) return schema[key];
var parts = splitKey(key);
return schema[parts.keyMinusId];
}
var idRegex = Lib.counterRegex('([a-z]+)');
function splitKey(key) {
var idMatch = key.match(idRegex);
return {
keyMinusId: idMatch && idMatch[1],
id: idMatch && idMatch[2]
};
}
function convertPathToAttributeString(path) {
if(!isArray(path)) return String(path);
var astr = '';
for(var i = 0; i < path.length; i++) {
var p = path[i];
if(typeof p === 'number') {
astr = astr.substr(0, astr.length - 1) + '[' + p + ']';
}
else {
astr += p;
}
if(i < path.length - 1) astr += '.';
}
return astr;
}
},{"../lib":693,"../plots/plots":805,"./plot_config":730,"./plot_schema":731}],737:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
mode: {
valType: 'enumerated',
dflt: 'afterall',
values: ['immediate', 'next', 'afterall'],
},
direction: {
valType: 'enumerated',
values: ['forward', 'reverse'],
dflt: 'forward',
},
fromcurrent: {
valType: 'boolean',
dflt: false,
},
frame: {
duration: {
valType: 'number',
min: 0,
dflt: 500,
},
redraw: {
valType: 'boolean',
dflt: true,
},
},
transition: {
duration: {
valType: 'number',
min: 0,
dflt: 500,
},
easing: {
valType: 'enumerated',
dflt: 'cubic-in-out',
values: [
'linear',
'quad',
'cubic',
'sin',
'exp',
'circle',
'elastic',
'back',
'bounce',
'linear-in',
'quad-in',
'cubic-in',
'sin-in',
'exp-in',
'circle-in',
'elastic-in',
'back-in',
'bounce-in',
'linear-out',
'quad-out',
'cubic-out',
'sin-out',
'exp-out',
'circle-out',
'elastic-out',
'back-out',
'bounce-out',
'linear-in-out',
'quad-in-out',
'cubic-in-out',
'sin-in-out',
'exp-in-out',
'circle-in-out',
'elastic-in-out',
'back-in-out',
'bounce-in-out'
],
},
}
};
},{}],738:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../lib');
var Template = _dereq_('../plot_api/plot_template');
/** Convenience wrapper for making array container logic DRY and consistent
*
* @param {object} parentObjIn
* user input object where the container in question is linked
* (i.e. either a user trace object or the user layout object)
*
* @param {object} parentObjOut
* full object where the coerced container will be linked
* (i.e. either a full trace object or the full layout object)
*
* @param {object} opts
* options object:
* - name {string}
* name of the key linking the container in question
* - inclusionAttr {string}
* name of the item attribute for inclusion/exclusion. Default is 'visible'.
* Since inclusion is true, use eg 'enabled' instead of 'disabled'.
* - handleItemDefaults {function}
* defaults method to be called on each item in the array container in question
*
* Its arguments are:
* - itemIn {object} item in user layout
* - itemOut {object} item in full layout
* - parentObj {object} (as in closure)
* - opts {object} (as in closure)
* N.B.
*
* - opts is passed to handleItemDefaults so it can also store
* links to supplementary data (e.g. fullData for layout components)
*
*/
module.exports = function handleArrayContainerDefaults(parentObjIn, parentObjOut, opts) {
var name = opts.name;
var inclusionAttr = opts.inclusionAttr || 'visible';
var previousContOut = parentObjOut[name];
var contIn = Lib.isArrayOrTypedArray(parentObjIn[name]) ? parentObjIn[name] : [];
var contOut = parentObjOut[name] = [];
var templater = Template.arrayTemplater(parentObjOut, name, inclusionAttr);
var i, itemOut;
for(i = 0; i < contIn.length; i++) {
var itemIn = contIn[i];
if(!Lib.isPlainObject(itemIn)) {
itemOut = templater.newItem({});
itemOut[inclusionAttr] = false;
}
else {
itemOut = templater.newItem(itemIn);
}
itemOut._index = i;
if(itemOut[inclusionAttr] !== false) {
opts.handleItemDefaults(itemIn, itemOut, parentObjOut, opts);
}
contOut.push(itemOut);
}
var defaultItems = templater.defaultItems();
for(i = 0; i < defaultItems.length; i++) {
itemOut = defaultItems[i];
itemOut._index = contOut.length;
opts.handleItemDefaults({}, itemOut, parentObjOut, opts, {});
contOut.push(itemOut);
}
// in case this array gets its defaults rebuilt independent of the whole layout,
// relink the private keys just for this array.
if(Lib.isArrayOrTypedArray(previousContOut)) {
var len = Math.min(previousContOut.length, contOut.length);
for(i = 0; i < len; i++) {
Lib.relinkPrivateKeys(contOut[i], previousContOut[i]);
}
}
return contOut;
};
},{"../lib":693,"../plot_api/plot_template":732}],739:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var fxAttrs = _dereq_('../components/fx/attributes');
module.exports = {
type: {
valType: 'enumerated',
values: [], // listed dynamically
dflt: 'scatter',
editType: 'calc+clearAxisTypes',
_noTemplating: true // we handle this at a higher level
},
visible: {
valType: 'enumerated',
values: [true, false, 'legendonly'],
dflt: true,
editType: 'calc',
},
showlegend: {
valType: 'boolean',
dflt: true,
editType: 'style',
},
legendgroup: {
valType: 'string',
dflt: '',
editType: 'style',
},
opacity: {
valType: 'number',
min: 0,
max: 1,
dflt: 1,
editType: 'style',
},
name: {
valType: 'string',
editType: 'style',
},
uid: {
valType: 'string',
editType: 'plot'
},
ids: {
valType: 'data_array',
editType: 'calc',
},
customdata: {
valType: 'data_array',
editType: 'calc',
},
// N.B. these cannot be 'data_array' as they do not have the same length as
// other data arrays and arrayOk attributes in general
//
// Maybe add another valType:
// https://github.com/plotly/plotly.js/issues/1894
selectedpoints: {
valType: 'any',
editType: 'calc',
},
hoverinfo: {
valType: 'flaglist',
flags: ['x', 'y', 'z', 'text', 'name'],
extras: ['all', 'none', 'skip'],
arrayOk: true,
dflt: 'all',
editType: 'none',
},
hoverlabel: fxAttrs.hoverlabel,
stream: {
token: {
valType: 'string',
noBlank: true,
strict: true,
editType: 'calc',
},
maxpoints: {
valType: 'number',
min: 0,
max: 10000,
dflt: 500,
editType: 'calc',
},
editType: 'calc'
},
transforms: {
_isLinkedToArray: 'transform',
editType: 'calc',
}
};
},{"../components/fx/attributes":601}],740:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
xaxis: {
valType: 'subplotid',
dflt: 'x',
editType: 'calc+clearAxisTypes',
},
yaxis: {
valType: 'subplotid',
dflt: 'y',
editType: 'calc+clearAxisTypes',
}
};
},{}],741:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var Lib = _dereq_('../../lib');
var FP_SAFE = _dereq_('../../constants/numerical').FP_SAFE;
module.exports = {
getAutoRange: getAutoRange,
makePadFn: makePadFn,
doAutoRange: doAutoRange,
findExtremes: findExtremes,
concatExtremes: concatExtremes
};
/**
* getAutoRange
*
* Collects all _extremes values corresponding to a given axis
* and computes its auto range.
*
* Note that getAutoRange uses return values from findExtremes.
*
* @param {object} gd:
* graph div object with filled-in fullData and fullLayout, in particular
* with filled-in '_extremes' containers:
* {
* val: calcdata value,
* pad: extra pixels beyond this value,
* extrapad: bool, does this point want 5% extra padding
* }
* @param {object} ax:
* full axis object, in particular with filled-in '_traceIndices'
* and '_annIndices' / '_shapeIndices' if applicable
* @return {array}
* an array of [min, max]. These are calcdata for log and category axes
* and data for linear and date axes.
*
* TODO: we want to change log to data as well, but it's hard to do this
* maintaining backward compatibility. category will always have to use calcdata
* though, because otherwise values between categories (or outside all categories)
* would be impossible.
*/
function getAutoRange(gd, ax) {
var i, j;
var newRange = [];
var getPad = makePadFn(ax);
var extremes = concatExtremes(gd, ax);
var minArray = extremes.min;
var maxArray = extremes.max;
if(minArray.length === 0 || maxArray.length === 0) {
return Lib.simpleMap(ax.range, ax.r2l);
}
var minmin = minArray[0].val;
var maxmax = maxArray[0].val;
for(i = 1; i < minArray.length; i++) {
if(minmin !== maxmax) break;
minmin = Math.min(minmin, minArray[i].val);
}
for(i = 1; i < maxArray.length; i++) {
if(minmin !== maxmax) break;
maxmax = Math.max(maxmax, maxArray[i].val);
}
var axReverse = false;
if(ax.range) {
var rng = Lib.simpleMap(ax.range, ax.r2l);
axReverse = rng[1] < rng[0];
}
// one-time setting to easily reverse the axis
// when plotting from code
if(ax.autorange === 'reversed') {
axReverse = true;
ax.autorange = true;
}
var rangeMode = ax.rangemode;
var toZero = rangeMode === 'tozero';
var nonNegative = rangeMode === 'nonnegative';
var axLen = ax._length;
// don't allow padding to reduce the data to < 10% of the length
var minSpan = axLen / 10;
var mbest = 0;
var minpt, maxpt, minbest, maxbest, dp, dv;
for(i = 0; i < minArray.length; i++) {
minpt = minArray[i];
for(j = 0; j < maxArray.length; j++) {
maxpt = maxArray[j];
dv = maxpt.val - minpt.val;
if(dv > 0) {
dp = axLen - getPad(minpt) - getPad(maxpt);
if(dp > minSpan) {
if(dv / dp > mbest) {
minbest = minpt;
maxbest = maxpt;
mbest = dv / dp;
}
}
else if(dv / axLen > mbest) {
// in case of padding longer than the axis
// at least include the unpadded data values.
minbest = {val: minpt.val, pad: 0};
maxbest = {val: maxpt.val, pad: 0};
mbest = dv / axLen;
}
}
}
}
function getMaxPad(prev, pt) {
return Math.max(prev, getPad(pt));
}
if(minmin === maxmax) {
var lower = minmin - 1;
var upper = minmin + 1;
if(toZero) {
if(minmin === 0) {
// The only value we have on this axis is 0, and we want to
// autorange so zero is one end.
// In principle this could be [0, 1] or [-1, 0] but usually
// 'tozero' pins 0 to the low end, so follow that.
newRange = [0, 1];
}
else {
var maxPad = (minmin > 0 ? maxArray : minArray).reduce(getMaxPad, 0);
// we're pushing a single value away from the edge due to its
// padding, with the other end clamped at zero
// 0.5 means don't push it farther than the center.
var rangeEnd = minmin / (1 - Math.min(0.5, maxPad / axLen));
newRange = minmin > 0 ? [0, rangeEnd] : [rangeEnd, 0];
}
} else if(nonNegative) {
newRange = [Math.max(0, lower), Math.max(1, upper)];
} else {
newRange = [lower, upper];
}
}
else {
if(toZero) {
if(minbest.val >= 0) {
minbest = {val: 0, pad: 0};
}
if(maxbest.val <= 0) {
maxbest = {val: 0, pad: 0};
}
}
else if(nonNegative) {
if(minbest.val - mbest * getPad(minbest) < 0) {
minbest = {val: 0, pad: 0};
}
if(maxbest.val <= 0) {
maxbest = {val: 1, pad: 0};
}
}
// in case it changed again...
mbest = (maxbest.val - minbest.val) /
(axLen - getPad(minbest) - getPad(maxbest));
newRange = [
minbest.val - mbest * getPad(minbest),
maxbest.val + mbest * getPad(maxbest)
];
}
// maintain reversal
if(axReverse) newRange.reverse();
return Lib.simpleMap(newRange, ax.l2r || Number);
}
/*
* calculate the pixel padding for ax._min and ax._max entries with
* optional extrapad as 5% of the total axis length
*/
function makePadFn(ax) {
// 5% padding for points that specify extrapad: true
var extrappad = ax._length / 20;
// domain-constrained axes: base extrappad on the unconstrained
// domain so it's consistent as the domain changes
if((ax.constrain === 'domain') && ax._inputDomain) {
extrappad *= (ax._inputDomain[1] - ax._inputDomain[0]) /
(ax.domain[1] - ax.domain[0]);
}
return function getPad(pt) { return pt.pad + (pt.extrapad ? extrappad : 0); };
}
function concatExtremes(gd, ax) {
var axId = ax._id;
var fullData = gd._fullData;
var fullLayout = gd._fullLayout;
var minArray = [];
var maxArray = [];
var i, j, d;
function _concat(cont, indices) {
for(i = 0; i < indices.length; i++) {
var item = cont[indices[i]];
var extremes = (item._extremes || {})[axId];
if(item.visible === true && extremes) {
for(j = 0; j < extremes.min.length; j++) {
d = extremes.min[j];
collapseMinArray(minArray, d.val, d.pad, {extrapad: d.extrapad});
}
for(j = 0; j < extremes.max.length; j++) {
d = extremes.max[j];
collapseMaxArray(maxArray, d.val, d.pad, {extrapad: d.extrapad});
}
}
}
}
_concat(fullData, ax._traceIndices);
_concat(fullLayout.annotations || [], ax._annIndices || []);
_concat(fullLayout.shapes || [], ax._shapeIndices || []);
return {min: minArray, max: maxArray};
}
function doAutoRange(gd, ax) {
if(!ax._length) ax.setScale();
var axIn;
if(ax.autorange) {
ax.range = getAutoRange(gd, ax);
ax._r = ax.range.slice();
ax._rl = Lib.simpleMap(ax._r, ax.r2l);
// doAutoRange will get called on fullLayout,
// but we want to report its results back to layout
axIn = ax._input;
axIn.range = ax.range.slice();
axIn.autorange = ax.autorange;
}
if(ax._anchorAxis && ax._anchorAxis.rangeslider) {
var axeRangeOpts = ax._anchorAxis.rangeslider[ax._name];
if(axeRangeOpts) {
if(axeRangeOpts.rangemode === 'auto') {
axeRangeOpts.range = getAutoRange(gd, ax);
}
}
axIn = ax._anchorAxis._input;
axIn.rangeslider[ax._name] = Lib.extendFlat({}, axeRangeOpts);
}
}
/**
* findExtremes
*
* Find min/max extremes of an array of coordinates on a given axis.
*
* Note that findExtremes is called during `calc`, when we don't yet know the axis
* length; all the inputs should be based solely on the trace data, nothing
* about the axis layout.
*
* Note that `ppad` and `vpad` as well as their asymmetric variants refer to
* the before and after padding of the passed `data` array, not to the whole axis.
*
* @param {object} ax: full axis object
* relies on
* - ax.type
* - ax._m (just its sign)
* - ax.d2l
* @param {array} data:
* array of numbers (i.e. already run though ax.d2c)
* @param {object} options:
* available keys are:
* vpad: (number or number array) pad values (data value +-vpad)
* ppad: (number or number array) pad pixels (pixel location +-ppad)
* ppadplus, ppadminus, vpadplus, vpadminus:
* separate padding for each side, overrides symmetric
* padded: (boolean) add 5% padding to both ends
* (unless one end is overridden by tozero)
* tozero: (boolean) make sure to include zero if axis is linear,
* and make it a tight bound if possible
*
* @return {object}
* - min {array of objects}
* - max {array of objects}
* each object item has fields:
* - val {number}
* - pad {number}
* - extrappad {number}
*/
function findExtremes(ax, data, options) {
if(!options) options = {};
if(!ax._m) ax.setScale();
var minArray = [];
var maxArray = [];
var len = data.length;
var extrapad = options.padded || false;
var tozero = options.tozero && (ax.type === 'linear' || ax.type === '-');
var isLog = ax.type === 'log';
var hasArrayOption = false;
var i, v, di, dmin, dmax, ppadiplus, ppadiminus, vmin, vmax;
function makePadAccessor(item) {
if(Array.isArray(item)) {
hasArrayOption = true;
return function(i) { return Math.max(Number(item[i]||0), 0); };
}
else {
var v = Math.max(Number(item||0), 0);
return function() { return v; };
}
}
var ppadplus = makePadAccessor((ax._m > 0 ?
options.ppadplus : options.ppadminus) || options.ppad || 0);
var ppadminus = makePadAccessor((ax._m > 0 ?
options.ppadminus : options.ppadplus) || options.ppad || 0);
var vpadplus = makePadAccessor(options.vpadplus || options.vpad);
var vpadminus = makePadAccessor(options.vpadminus || options.vpad);
if(!hasArrayOption) {
// with no arrays other than `data` we don't need to consider
// every point, only the extreme data points
vmin = Infinity;
vmax = -Infinity;
if(isLog) {
for(i = 0; i < len; i++) {
v = data[i];
// data is not linearized yet so we still have to filter out negative logs
if(v < vmin && v > 0) vmin = v;
if(v > vmax && v < FP_SAFE) vmax = v;
}
} else {
for(i = 0; i < len; i++) {
v = data[i];
if(v < vmin && v > -FP_SAFE) vmin = v;
if(v > vmax && v < FP_SAFE) vmax = v;
}
}
data = [vmin, vmax];
len = 2;
}
var collapseOpts = {tozero: tozero, extrapad: extrapad};
function addItem(i) {
di = data[i];
if(!isNumeric(di)) return;
ppadiplus = ppadplus(i);
ppadiminus = ppadminus(i);
vmin = di - vpadminus(i);
vmax = di + vpadplus(i);
// special case for log axes: if vpad makes this object span
// more than an order of mag, clip it to one order. This is so
// we don't have non-positive errors or absurdly large lower
// range due to rounding errors
if(isLog && vmin < vmax / 10) vmin = vmax / 10;
dmin = ax.c2l(vmin);
dmax = ax.c2l(vmax);
if(tozero) {
dmin = Math.min(0, dmin);
dmax = Math.max(0, dmax);
}
if(goodNumber(dmin)) {
collapseMinArray(minArray, dmin, ppadiminus, collapseOpts);
}
if(goodNumber(dmax)) {
collapseMaxArray(maxArray, dmax, ppadiplus, collapseOpts);
}
}
// For efficiency covering monotonic or near-monotonic data,
// check a few points at both ends first and then sweep
// through the middle
var iMax = Math.min(6, len);
for(i = 0; i < iMax; i++) addItem(i);
for(i = len - 1; i >= iMax; i--) addItem(i);
return {min: minArray, max: maxArray};
}
function collapseMinArray(array, newVal, newPad, opts) {
collapseArray(array, newVal, newPad, opts, lessOrEqual);
}
function collapseMaxArray(array, newVal, newPad, opts) {
collapseArray(array, newVal, newPad, opts, greaterOrEqual);
}
/**
* collapseArray
*
* Takes items from 'array' and compares them to 'newVal', 'newPad'.
*
* @param {array} array:
* current set of min or max extremes
* @param {number} newVal:
* new value to compare against
* @param {number} newPad:
* pad value associated with 'newVal'
* @param {object} opts:
* - tozero {boolean}
* - extrapad {number}
* @param {function} atLeastAsExtreme:
* comparison function, use
* - lessOrEqual for min 'array' and
* - greaterOrEqual for max 'array'
*
* In practice, 'array' is either
* - 'extremes[ax._id].min' or
* - 'extremes[ax._id].max
* found in traces and layout items that affect autorange.
*
* Since we don't yet know the relationship between pixels and values
* (that's what we're trying to figure out!) AND we don't yet know how
* many pixels `extrapad` represents (it's going to be 5% of the length,
* but we don't want to have to redo calc just because length changed)
* two point must satisfy three criteria simultaneously for one to supersede the other:
* - at least as extreme a `val`
* - at least as big a `pad`
* - an unpadded point cannot supersede a padded point, but any other combination can
*
* Then:
* - If the item supersedes the new point, set includeThis false
* - If the new pt supersedes the item, delete it from 'array'
*/
function collapseArray(array, newVal, newPad, opts, atLeastAsExtreme) {
var tozero = opts.tozero;
var extrapad = opts.extrapad;
var includeThis = true;
for(var j = 0; j < array.length && includeThis; j++) {
var v = array[j];
if(atLeastAsExtreme(v.val, newVal) && v.pad >= newPad && (v.extrapad || !extrapad)) {
includeThis = false;
break;
} else if(atLeastAsExtreme(newVal, v.val) && v.pad <= newPad && (extrapad || !v.extrapad)) {
array.splice(j, 1);
j--;
}
}
if(includeThis) {
var clipAtZero = (tozero && newVal === 0);
array.push({
val: newVal,
pad: clipAtZero ? 0 : newPad,
extrapad: clipAtZero ? false : extrapad
});
}
}
// In order to stop overflow errors, don't consider points
// too close to the limits of js floating point
function goodNumber(v) {
return isNumeric(v) && Math.abs(v) < FP_SAFE;
}
function lessOrEqual(v0, v1) { return v0 <= v1; }
function greaterOrEqual(v0, v1) { return v0 >= v1; }
},{"../../constants/numerical":670,"../../lib":693,"fast-isnumeric":213}],742:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var isNumeric = _dereq_('fast-isnumeric');
var Plots = _dereq_('../../plots/plots');
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var svgTextUtils = _dereq_('../../lib/svg_text_utils');
var Titles = _dereq_('../../components/titles');
var Color = _dereq_('../../components/color');
var Drawing = _dereq_('../../components/drawing');
var axAttrs = _dereq_('./layout_attributes');
var constants = _dereq_('../../constants/numerical');
var ONEAVGYEAR = constants.ONEAVGYEAR;
var ONEAVGMONTH = constants.ONEAVGMONTH;
var ONEDAY = constants.ONEDAY;
var ONEHOUR = constants.ONEHOUR;
var ONEMIN = constants.ONEMIN;
var ONESEC = constants.ONESEC;
var MINUS_SIGN = constants.MINUS_SIGN;
var BADNUM = constants.BADNUM;
var MID_SHIFT = _dereq_('../../constants/alignment').MID_SHIFT;
var LINE_SPACING = _dereq_('../../constants/alignment').LINE_SPACING;
var axes = module.exports = {};
axes.setConvert = _dereq_('./set_convert');
var autoType = _dereq_('./axis_autotype');
var axisIds = _dereq_('./axis_ids');
axes.id2name = axisIds.id2name;
axes.name2id = axisIds.name2id;
axes.cleanId = axisIds.cleanId;
axes.list = axisIds.list;
axes.listIds = axisIds.listIds;
axes.getFromId = axisIds.getFromId;
axes.getFromTrace = axisIds.getFromTrace;
var autorange = _dereq_('./autorange');
axes.getAutoRange = autorange.getAutoRange;
axes.findExtremes = autorange.findExtremes;
/*
* find the list of possible axes to reference with an xref or yref attribute
* and coerce it to that list
*
* attr: the attribute we're generating a reference for. Should end in 'x' or 'y'
* but can be prefixed, like 'ax' for annotation's arrow x
* dflt: the default to coerce to, or blank to use the first axis (falling back on
* extraOption if there is no axis)
* extraOption: aside from existing axes with this letter, what non-axis value is allowed?
* Only required if it's different from `dflt`
*/
axes.coerceRef = function(containerIn, containerOut, gd, attr, dflt, extraOption) {
var axLetter = attr.charAt(attr.length - 1);
var axlist = gd._fullLayout._subplots[axLetter + 'axis'];
var refAttr = attr + 'ref';
var attrDef = {};
if(!dflt) dflt = axlist[0] || extraOption;
if(!extraOption) extraOption = dflt;
// data-ref annotations are not supported in gl2d yet
attrDef[refAttr] = {
valType: 'enumerated',
values: axlist.concat(extraOption ? [extraOption] : []),
dflt: dflt
};
// xref, yref
return Lib.coerce(containerIn, containerOut, attrDef, refAttr);
};
/*
* coerce position attributes (range-type) that can be either on axes or absolute
* (paper or pixel) referenced. The biggest complication here is that we don't know
* before looking at the axis whether the value must be a number or not (it may be
* a date string), so we can't use the regular valType='number' machinery
*
* axRef (string): the axis this position is referenced to, or:
* paper: fraction of the plot area
* pixel: pixels relative to some starting position
* attr (string): the attribute in containerOut we are coercing
* dflt (number): the default position, as a fraction or pixels. If the attribute
* is to be axis-referenced, this will be converted to an axis data value
*
* Also cleans the values, since the attribute definition itself has to say
* valType: 'any' to handle date axes. This allows us to accept:
* - for category axes: category names, and convert them here into serial numbers.
* Note that this will NOT work for axis range endpoints, because we don't know
* the category list yet (it's set by ax.makeCalcdata during calc)
* but it works for component (note, shape, images) positions.
* - for date axes: JS Dates or milliseconds, and convert to date strings
* - for other types: coerce them to numbers
*/
axes.coercePosition = function(containerOut, gd, coerce, axRef, attr, dflt) {
var cleanPos, pos;
if(axRef === 'paper' || axRef === 'pixel') {
cleanPos = Lib.ensureNumber;
pos = coerce(attr, dflt);
} else {
var ax = axes.getFromId(gd, axRef);
dflt = ax.fraction2r(dflt);
pos = coerce(attr, dflt);
cleanPos = ax.cleanPos;
}
containerOut[attr] = cleanPos(pos);
};
axes.cleanPosition = function(pos, gd, axRef) {
var cleanPos = (axRef === 'paper' || axRef === 'pixel') ?
Lib.ensureNumber :
axes.getFromId(gd, axRef).cleanPos;
return cleanPos(pos);
};
var getDataConversions = axes.getDataConversions = function(gd, trace, target, targetArray) {
var ax;
// If target points to an axis, use the type we already have for that
// axis to find the data type. Otherwise use the values to autotype.
var d2cTarget = (target === 'x' || target === 'y' || target === 'z') ?
target :
targetArray;
// In the case of an array target, make a mock data array
// and call supplyDefaults to the data type and
// setup the data-to-calc method.
if(Array.isArray(d2cTarget)) {
ax = {
type: autoType(targetArray),
_categories: []
};
axes.setConvert(ax);
// build up ax._categories (usually done during ax.makeCalcdata()
if(ax.type === 'category') {
for(var i = 0; i < targetArray.length; i++) {
ax.d2c(targetArray[i]);
}
}
} else {
ax = axes.getFromTrace(gd, trace, d2cTarget);
}
// if 'target' has corresponding axis
// -> use setConvert method
if(ax) return {d2c: ax.d2c, c2d: ax.c2d};
// special case for 'ids'
// -> cast to String
if(d2cTarget === 'ids') return {d2c: toString, c2d: toString};
// otherwise (e.g. numeric-array of 'marker.color' or 'marker.size')
// -> cast to Number
return {d2c: toNum, c2d: toNum};
};
function toNum(v) { return +v; }
function toString(v) { return String(v); }
axes.getDataToCoordFunc = function(gd, trace, target, targetArray) {
return getDataConversions(gd, trace, target, targetArray).d2c;
};
// get counteraxis letter for this axis (name or id)
// this can also be used as the id for default counter axis
axes.counterLetter = function(id) {
var axLetter = id.charAt(0);
if(axLetter === 'x') return 'y';
if(axLetter === 'y') return 'x';
};
// incorporate a new minimum difference and first tick into
// forced
// note that _forceTick0 is linearized, so needs to be turned into
// a range value for setting tick0
axes.minDtick = function(ax, newDiff, newFirst, allow) {
// doesn't make sense to do forced min dTick on log or category axes,
// and the plot itself may decide to cancel (ie non-grouped bars)
if(['log', 'category'].indexOf(ax.type) !== -1 || !allow) {
ax._minDtick = 0;
}
// undefined means there's nothing there yet
else if(ax._minDtick === undefined) {
ax._minDtick = newDiff;
ax._forceTick0 = newFirst;
}
else if(ax._minDtick) {
// existing minDtick is an integer multiple of newDiff
// (within rounding err)
// and forceTick0 can be shifted to newFirst
if((ax._minDtick / newDiff + 1e-6) % 1 < 2e-6 &&
(((newFirst - ax._forceTick0) / newDiff % 1) +
1.000001) % 1 < 2e-6) {
ax._minDtick = newDiff;
ax._forceTick0 = newFirst;
}
// if the converse is true (newDiff is a multiple of minDtick and
// newFirst can be shifted to forceTick0) then do nothing - same
// forcing stands. Otherwise, cancel forced minimum
else if((newDiff / ax._minDtick + 1e-6) % 1 > 2e-6 ||
(((newFirst - ax._forceTick0) / ax._minDtick % 1) +
1.000001) % 1 > 2e-6) {
ax._minDtick = 0;
}
}
};
// save a copy of the initial axis ranges in fullLayout
// use them in mode bar and dblclick events
axes.saveRangeInitial = function(gd, overwrite) {
var axList = axes.list(gd, '', true),
hasOneAxisChanged = false;
for(var i = 0; i < axList.length; i++) {
var ax = axList[i];
var isNew = (ax._rangeInitial === undefined);
var hasChanged = (
isNew || !(
ax.range[0] === ax._rangeInitial[0] &&
ax.range[1] === ax._rangeInitial[1]
)
);
if((isNew && ax.autorange === false) || (overwrite && hasChanged)) {
ax._rangeInitial = ax.range.slice();
hasOneAxisChanged = true;
}
}
return hasOneAxisChanged;
};
// save a copy of the initial spike visibility
axes.saveShowSpikeInitial = function(gd, overwrite) {
var axList = axes.list(gd, '', true),
hasOneAxisChanged = false,
allSpikesEnabled = 'on';
for(var i = 0; i < axList.length; i++) {
var ax = axList[i];
var isNew = (ax._showSpikeInitial === undefined);
var hasChanged = (
isNew || !(
ax.showspikes === ax._showspikes
)
);
if((isNew) || (overwrite && hasChanged)) {
ax._showSpikeInitial = ax.showspikes;
hasOneAxisChanged = true;
}
if(allSpikesEnabled === 'on' && !ax.showspikes) {
allSpikesEnabled = 'off';
}
}
gd._fullLayout._cartesianSpikesEnabled = allSpikesEnabled;
return hasOneAxisChanged;
};
axes.autoBin = function(data, ax, nbins, is2d, calendar) {
var dataMin = Lib.aggNums(Math.min, null, data),
dataMax = Lib.aggNums(Math.max, null, data);
if(!calendar) calendar = ax.calendar;
if(ax.type === 'category') {
return {
start: dataMin - 0.5,
end: dataMax + 0.5,
size: 1,
_dataSpan: dataMax - dataMin,
};
}
var size0;
if(nbins) size0 = ((dataMax - dataMin) / nbins);
else {
// totally auto: scale off std deviation so the highest bin is
// somewhat taller than the total number of bins, but don't let
// the size get smaller than the 'nice' rounded down minimum
// difference between values
var distinctData = Lib.distinctVals(data),
msexp = Math.pow(10, Math.floor(
Math.log(distinctData.minDiff) / Math.LN10)),
minSize = msexp * Lib.roundUp(
distinctData.minDiff / msexp, [0.9, 1.9, 4.9, 9.9], true);
size0 = Math.max(minSize, 2 * Lib.stdev(data) /
Math.pow(data.length, is2d ? 0.25 : 0.4));
// fallback if ax.d2c output BADNUMs
// e.g. when user try to plot categorical bins
// on a layout.xaxis.type: 'linear'
if(!isNumeric(size0)) size0 = 1;
}
// piggyback off autotick code to make "nice" bin sizes
var dummyAx;
if(ax.type === 'log') {
dummyAx = {
type: 'linear',
range: [dataMin, dataMax]
};
}
else {
dummyAx = {
type: ax.type,
range: Lib.simpleMap([dataMin, dataMax], ax.c2r, 0, calendar),
calendar: calendar
};
}
axes.setConvert(dummyAx);
axes.autoTicks(dummyAx, size0);
var binStart = axes.tickIncrement(
axes.tickFirst(dummyAx), dummyAx.dtick, 'reverse', calendar);
var binEnd, bincount;
// check for too many data points right at the edges of bins
// (>50% within 1% of bin edges) or all data points integral
// and offset the bins accordingly
if(typeof dummyAx.dtick === 'number') {
binStart = autoShiftNumericBins(binStart, data, dummyAx, dataMin, dataMax);
bincount = 1 + Math.floor((dataMax - binStart) / dummyAx.dtick);
binEnd = binStart + bincount * dummyAx.dtick;
}
else {
// month ticks - should be the only nonlinear kind we have at this point.
// dtick (as supplied by axes.autoTick) only has nonlinear values on
// date and log axes, but even if you display a histogram on a log axis
// we bin it on a linear axis (which one could argue against, but that's
// a separate issue)
if(dummyAx.dtick.charAt(0) === 'M') {
binStart = autoShiftMonthBins(binStart, data, dummyAx.dtick, dataMin, calendar);
}
// calculate the endpoint for nonlinear ticks - you have to
// just increment until you're done
binEnd = binStart;
bincount = 0;
while(binEnd <= dataMax) {
binEnd = axes.tickIncrement(binEnd, dummyAx.dtick, false, calendar);
bincount++;
}
}
return {
start: ax.c2r(binStart, 0, calendar),
end: ax.c2r(binEnd, 0, calendar),
size: dummyAx.dtick,
_dataSpan: dataMax - dataMin
};
};
function autoShiftNumericBins(binStart, data, ax, dataMin, dataMax) {
var edgecount = 0,
midcount = 0,
intcount = 0,
blankCount = 0;
function nearEdge(v) {
// is a value within 1% of a bin edge?
return (1 + (v - binStart) * 100 / ax.dtick) % 100 < 2;
}
for(var i = 0; i < data.length; i++) {
if(data[i] % 1 === 0) intcount++;
else if(!isNumeric(data[i])) blankCount++;
if(nearEdge(data[i])) edgecount++;
if(nearEdge(data[i] + ax.dtick / 2)) midcount++;
}
var dataCount = data.length - blankCount;
if(intcount === dataCount && ax.type !== 'date') {
// all integers: if bin size is <1, it's because
// that was specifically requested (large nbins)
// so respect that... but center the bins containing
// integers on those integers
if(ax.dtick < 1) {
binStart = dataMin - 0.5 * ax.dtick;
}
// otherwise start half an integer down regardless of
// the bin size, just enough to clear up endpoint
// ambiguity about which integers are in which bins.
else {
binStart -= 0.5;
if(binStart + ax.dtick < dataMin) binStart += ax.dtick;
}
}
else if(midcount < dataCount * 0.1) {
if(edgecount > dataCount * 0.3 ||
nearEdge(dataMin) || nearEdge(dataMax)) {
// lots of points at the edge, not many in the middle
// shift half a bin
var binshift = ax.dtick / 2;
binStart += (binStart + binshift < dataMin) ? binshift : -binshift;
}
}
return binStart;
}
function autoShiftMonthBins(binStart, data, dtick, dataMin, calendar) {
var stats = Lib.findExactDates(data, calendar);
// number of data points that needs to be an exact value
// to shift that increment to (near) the bin center
var threshold = 0.8;
if(stats.exactDays > threshold) {
var numMonths = Number(dtick.substr(1));
if((stats.exactYears > threshold) && (numMonths % 12 === 0)) {
// The exact middle of a non-leap-year is 1.5 days into July
// so if we start the bins here, all but leap years will
// get hover-labeled as exact years.
binStart = axes.tickIncrement(binStart, 'M6', 'reverse') + ONEDAY * 1.5;
}
else if(stats.exactMonths > threshold) {
// Months are not as clean, but if we shift half the *longest*
// month (31/2 days) then 31-day months will get labeled exactly
// and shorter months will get labeled with the correct month
// but shifted 12-36 hours into it.
binStart = axes.tickIncrement(binStart, 'M1', 'reverse') + ONEDAY * 15.5;
}
else {
// Shifting half a day is exact, but since these are month bins it
// will always give a somewhat odd-looking label, until we do something
// smarter like showing the bin boundaries (or the bounds of the actual
// data in each bin)
binStart -= ONEDAY / 2;
}
var nextBinStart = axes.tickIncrement(binStart, dtick);
if(nextBinStart <= dataMin) return nextBinStart;
}
return binStart;
}
// ----------------------------------------------------
// Ticks and grids
// ----------------------------------------------------
// ensure we have tick0, dtick, and tick rounding calculated
axes.prepTicks = function(ax) {
var rng = Lib.simpleMap(ax.range, ax.r2l);
// calculate max number of (auto) ticks to display based on plot size
if(ax.tickmode === 'auto' || !ax.dtick) {
var nt = ax.nticks,
minPx;
if(!nt) {
if(ax.type === 'category') {
minPx = ax.tickfont ? (ax.tickfont.size || 12) * 1.2 : 15;
nt = ax._length / minPx;
}
else {
minPx = ax._id.charAt(0) === 'y' ? 40 : 80;
nt = Lib.constrain(ax._length / minPx, 4, 9) + 1;
}
// radial axes span half their domain,
// multiply nticks value by two to get correct number of auto ticks.
if(ax._name === 'radialaxis') nt *= 2;
}
// add a couple of extra digits for filling in ticks when we
// have explicit tickvals without tick text
if(ax.tickmode === 'array') nt *= 100;
axes.autoTicks(ax, Math.abs(rng[1] - rng[0]) / nt);
// check for a forced minimum dtick
if(ax._minDtick > 0 && ax.dtick < ax._minDtick * 2) {
ax.dtick = ax._minDtick;
ax.tick0 = ax.l2r(ax._forceTick0);
}
}
// check for missing tick0
if(!ax.tick0) {
ax.tick0 = (ax.type === 'date') ? '2000-01-01' : 0;
}
// ensure we don't try to make ticks below our minimum precision
// see https://github.com/plotly/plotly.js/issues/2892
if(ax.type === 'date' && ax.dtick < 0.1) ax.dtick = 0.1;
// now figure out rounding of tick values
autoTickRound(ax);
};
// calculate the ticks: text, values, positioning
// if ticks are set to automatic, determine the right values (tick0,dtick)
// in any case, set tickround to # of digits to round tick labels to,
// or codes to this effect for log and date scales
axes.calcTicks = function calcTicks(ax) {
axes.prepTicks(ax);
var rng = Lib.simpleMap(ax.range, ax.r2l);
// now that we've figured out the auto values for formatting
// in case we're missing some ticktext, we can break out for array ticks
if(ax.tickmode === 'array') return arrayTicks(ax);
// find the first tick
ax._tmin = axes.tickFirst(ax);
// add a tiny bit so we get ticks which may have rounded out
var startTick = rng[0] * 1.0001 - rng[1] * 0.0001;
var endTick = rng[1] * 1.0001 - rng[0] * 0.0001;
// check for reversed axis
var axrev = (rng[1] < rng[0]);
// No visible ticks? Quit.
// I've only seen this on category axes with all categories off the edge.
if((ax._tmin < startTick) !== axrev) return [];
// return the full set of tick vals
var vals = [];
if(ax.type === 'category') {
endTick = (axrev) ? Math.max(-0.5, endTick) :
Math.min(ax._categories.length - 0.5, endTick);
}
var xPrevious = null;
var maxTicks = Math.max(1000, ax._length || 0);
for(var x = ax._tmin;
(axrev) ? (x >= endTick) : (x <= endTick);
x = axes.tickIncrement(x, ax.dtick, axrev, ax.calendar)) {
// prevent infinite loops - no more than one tick per pixel,
// and make sure each value is different from the previous
if(vals.length > maxTicks || x === xPrevious) break;
xPrevious = x;
vals.push(x);
}
// If same angle over a full circle, the last tick vals is a duplicate.
// TODO must do something similar for angular date axes.
if(isAngular(ax) && Math.abs(rng[1] - rng[0]) === 360) {
vals.pop();
}
// save the last tick as well as first, so we can
// show the exponent only on the last one
ax._tmax = vals[vals.length - 1];
// for showing the rest of a date when the main tick label is only the
// latter part: ax._prevDateHead holds what we showed most recently.
// Start with it cleared and mark that we're in calcTicks (ie calculating a
// whole string of these so we should care what the previous date head was!)
ax._prevDateHead = '';
ax._inCalcTicks = true;
var ticksOut = new Array(vals.length);
for(var i = 0; i < vals.length; i++) ticksOut[i] = axes.tickText(ax, vals[i]);
ax._inCalcTicks = false;
return ticksOut;
};
function arrayTicks(ax) {
var vals = ax.tickvals,
text = ax.ticktext,
ticksOut = new Array(vals.length),
rng = Lib.simpleMap(ax.range, ax.r2l),
r0expanded = rng[0] * 1.0001 - rng[1] * 0.0001,
r1expanded = rng[1] * 1.0001 - rng[0] * 0.0001,
tickMin = Math.min(r0expanded, r1expanded),
tickMax = Math.max(r0expanded, r1expanded),
vali,
i,
j = 0;
// without a text array, just format the given values as any other ticks
// except with more precision to the numbers
if(!Array.isArray(text)) text = [];
// make sure showing ticks doesn't accidentally add new categories
var tickVal2l = ax.type === 'category' ? ax.d2l_noadd : ax.d2l;
// array ticks on log axes always show the full number
// (if no explicit ticktext overrides it)
if(ax.type === 'log' && String(ax.dtick).charAt(0) !== 'L') {
ax.dtick = 'L' + Math.pow(10, Math.floor(Math.min(ax.range[0], ax.range[1])) - 1);
}
for(i = 0; i < vals.length; i++) {
vali = tickVal2l(vals[i]);
if(vali > tickMin && vali < tickMax) {
if(text[i] === undefined) ticksOut[j] = axes.tickText(ax, vali);
else ticksOut[j] = tickTextObj(ax, vali, String(text[i]));
j++;
}
}
if(j < vals.length) ticksOut.splice(j, vals.length - j);
return ticksOut;
}
var roundBase10 = [2, 5, 10],
roundBase24 = [1, 2, 3, 6, 12],
roundBase60 = [1, 2, 5, 10, 15, 30],
// 2&3 day ticks are weird, but need something btwn 1&7
roundDays = [1, 2, 3, 7, 14],
// approx. tick positions for log axes, showing all (1) and just 1, 2, 5 (2)
// these don't have to be exact, just close enough to round to the right value
roundLog1 = [-0.046, 0, 0.301, 0.477, 0.602, 0.699, 0.778, 0.845, 0.903, 0.954, 1],
roundLog2 = [-0.301, 0, 0.301, 0.699, 1],
// N.B. `thetaunit; 'radians' angular axes must be converted to degrees
roundAngles = [15, 30, 45, 90, 180];
function roundDTick(roughDTick, base, roundingSet) {
return base * Lib.roundUp(roughDTick / base, roundingSet);
}
// autoTicks: calculate best guess at pleasant ticks for this axis
// inputs:
// ax - an axis object
// roughDTick - rough tick spacing (to be turned into a nice round number)
// outputs (into ax):
// tick0: starting point for ticks (not necessarily on the graph)
// usually 0 for numeric (=10^0=1 for log) or jan 1, 2000 for dates
// dtick: the actual, nice round tick spacing, usually a little larger than roughDTick
// if the ticks are spaced linearly (linear scale, categories,
// log with only full powers, date ticks < month),
// this will just be a number
// months: M#
// years: M# where # is 12*number of years
// log with linear ticks: L# where # is the linear tick spacing
// log showing powers plus some intermediates:
// D1 shows all digits, D2 shows 2 and 5
axes.autoTicks = function(ax, roughDTick) {
var base;
function getBase(v) {
return Math.pow(v, Math.floor(Math.log(roughDTick) / Math.LN10));
}
if(ax.type === 'date') {
ax.tick0 = Lib.dateTick0(ax.calendar);
// the criteria below are all based on the rough spacing we calculate
// being > half of the final unit - so precalculate twice the rough val
var roughX2 = 2 * roughDTick;
if(roughX2 > ONEAVGYEAR) {
roughDTick /= ONEAVGYEAR;
base = getBase(10);
ax.dtick = 'M' + (12 * roundDTick(roughDTick, base, roundBase10));
}
else if(roughX2 > ONEAVGMONTH) {
roughDTick /= ONEAVGMONTH;
ax.dtick = 'M' + roundDTick(roughDTick, 1, roundBase24);
}
else if(roughX2 > ONEDAY) {
ax.dtick = roundDTick(roughDTick, ONEDAY, roundDays);
// get week ticks on sunday
// this will also move the base tick off 2000-01-01 if dtick is
// 2 or 3 days... but that's a weird enough case that we'll ignore it.
ax.tick0 = Lib.dateTick0(ax.calendar, true);
}
else if(roughX2 > ONEHOUR) {
ax.dtick = roundDTick(roughDTick, ONEHOUR, roundBase24);
}
else if(roughX2 > ONEMIN) {
ax.dtick = roundDTick(roughDTick, ONEMIN, roundBase60);
}
else if(roughX2 > ONESEC) {
ax.dtick = roundDTick(roughDTick, ONESEC, roundBase60);
}
else {
// milliseconds
base = getBase(10);
ax.dtick = roundDTick(roughDTick, base, roundBase10);
}
}
else if(ax.type === 'log') {
ax.tick0 = 0;
var rng = Lib.simpleMap(ax.range, ax.r2l);
if(roughDTick > 0.7) {
// only show powers of 10
ax.dtick = Math.ceil(roughDTick);
}
else if(Math.abs(rng[1] - rng[0]) < 1) {
// span is less than one power of 10
var nt = 1.5 * Math.abs((rng[1] - rng[0]) / roughDTick);
// ticks on a linear scale, labeled fully
roughDTick = Math.abs(Math.pow(10, rng[1]) -
Math.pow(10, rng[0])) / nt;
base = getBase(10);
ax.dtick = 'L' + roundDTick(roughDTick, base, roundBase10);
}
else {
// include intermediates between powers of 10,
// labeled with small digits
// ax.dtick = "D2" (show 2 and 5) or "D1" (show all digits)
ax.dtick = (roughDTick > 0.3) ? 'D2' : 'D1';
}
}
else if(ax.type === 'category') {
ax.tick0 = 0;
ax.dtick = Math.ceil(Math.max(roughDTick, 1));
}
else if(isAngular(ax)) {
ax.tick0 = 0;
base = 1;
ax.dtick = roundDTick(roughDTick, base, roundAngles);
}
else {
// auto ticks always start at 0
ax.tick0 = 0;
base = getBase(10);
ax.dtick = roundDTick(roughDTick, base, roundBase10);
}
// prevent infinite loops
if(ax.dtick === 0) ax.dtick = 1;
// TODO: this is from log axis histograms with autorange off
if(!isNumeric(ax.dtick) && typeof ax.dtick !== 'string') {
var olddtick = ax.dtick;
ax.dtick = 1;
throw 'ax.dtick error: ' + String(olddtick);
}
};
// after dtick is already known, find tickround = precision
// to display in tick labels
// for numeric ticks, integer # digits after . to round to
// for date ticks, the last date part to show (y,m,d,H,M,S)
// or an integer # digits past seconds
function autoTickRound(ax) {
var dtick = ax.dtick;
ax._tickexponent = 0;
if(!isNumeric(dtick) && typeof dtick !== 'string') {
dtick = 1;
}
if(ax.type === 'category') {
ax._tickround = null;
}
if(ax.type === 'date') {
// If tick0 is unusual, give tickround a bit more information
// not necessarily *all* the information in tick0 though, if it's really odd
// minimal string length for tick0: 'd' is 10, 'M' is 16, 'S' is 19
// take off a leading minus (year < 0) and i (intercalary month) so length is consistent
var tick0ms = ax.r2l(ax.tick0),
tick0str = ax.l2r(tick0ms).replace(/(^-|i)/g, ''),
tick0len = tick0str.length;
if(String(dtick).charAt(0) === 'M') {
// any tick0 more specific than a year: alway show the full date
if(tick0len > 10 || tick0str.substr(5) !== '01-01') ax._tickround = 'd';
// show the month unless ticks are full multiples of a year
else ax._tickround = (+(dtick.substr(1)) % 12 === 0) ? 'y' : 'm';
}
else if((dtick >= ONEDAY && tick0len <= 10) || (dtick >= ONEDAY * 15)) ax._tickround = 'd';
else if((dtick >= ONEMIN && tick0len <= 16) || (dtick >= ONEHOUR)) ax._tickround = 'M';
else if((dtick >= ONESEC && tick0len <= 19) || (dtick >= ONEMIN)) ax._tickround = 'S';
else {
// tickround is a number of digits of fractional seconds
// of any two adjacent ticks, at least one will have the maximum fractional digits
// of all possible ticks - so take the max. length of tick0 and the next one
var tick1len = ax.l2r(tick0ms + dtick).replace(/^-/, '').length;
ax._tickround = Math.max(tick0len, tick1len) - 20;
// We shouldn't get here... but in case there's a situation I'm
// not thinking of where tick0str and tick1str are identical or
// something, fall back on maximum precision
if(ax._tickround < 0) ax._tickround = 4;
}
}
else if(isNumeric(dtick) || dtick.charAt(0) === 'L') {
// linear or log (except D1, D2)
var rng = ax.range.map(ax.r2d || Number);
if(!isNumeric(dtick)) dtick = Number(dtick.substr(1));
// 2 digits past largest digit of dtick
ax._tickround = 2 - Math.floor(Math.log(dtick) / Math.LN10 + 0.01);
var maxend = Math.max(Math.abs(rng[0]), Math.abs(rng[1]));
var rangeexp = Math.floor(Math.log(maxend) / Math.LN10 + 0.01);
if(Math.abs(rangeexp) > 3) {
if(isSIFormat(ax.exponentformat) && !beyondSI(rangeexp)) {
ax._tickexponent = 3 * Math.round((rangeexp - 1) / 3);
}
else ax._tickexponent = rangeexp;
}
}
// D1 or D2 (log)
else ax._tickround = null;
}
// months and years don't have constant millisecond values
// (but a year is always 12 months so we only need months)
// log-scale ticks are also not consistently spaced, except
// for pure powers of 10
// numeric ticks always have constant differences, other datetime ticks
// can all be calculated as constant number of milliseconds
axes.tickIncrement = function(x, dtick, axrev, calendar) {
var axSign = axrev ? -1 : 1;
// includes linear, all dates smaller than month, and pure 10^n in log
if(isNumeric(dtick)) return x + axSign * dtick;
// everything else is a string, one character plus a number
var tType = dtick.charAt(0),
dtSigned = axSign * Number(dtick.substr(1));
// Dates: months (or years - see Lib.incrementMonth)
if(tType === 'M') return Lib.incrementMonth(x, dtSigned, calendar);
// Log scales: Linear, Digits
else if(tType === 'L') return Math.log(Math.pow(10, x) + dtSigned) / Math.LN10;
// log10 of 2,5,10, or all digits (logs just have to be
// close enough to round)
else if(tType === 'D') {
var tickset = (dtick === 'D2') ? roundLog2 : roundLog1,
x2 = x + axSign * 0.01,
frac = Lib.roundUp(Lib.mod(x2, 1), tickset, axrev);
return Math.floor(x2) +
Math.log(d3.round(Math.pow(10, frac), 1)) / Math.LN10;
}
else throw 'unrecognized dtick ' + String(dtick);
};
// calculate the first tick on an axis
axes.tickFirst = function(ax) {
var r2l = ax.r2l || Number,
rng = Lib.simpleMap(ax.range, r2l),
axrev = rng[1] < rng[0],
sRound = axrev ? Math.floor : Math.ceil,
// add a tiny extra bit to make sure we get ticks
// that may have been rounded out
r0 = rng[0] * 1.0001 - rng[1] * 0.0001,
dtick = ax.dtick,
tick0 = r2l(ax.tick0);
if(isNumeric(dtick)) {
var tmin = sRound((r0 - tick0) / dtick) * dtick + tick0;
// make sure no ticks outside the category list
if(ax.type === 'category') {
tmin = Lib.constrain(tmin, 0, ax._categories.length - 1);
}
return tmin;
}
var tType = dtick.charAt(0),
dtNum = Number(dtick.substr(1));
// Dates: months (or years)
if(tType === 'M') {
var cnt = 0,
t0 = tick0,
t1,
mult,
newDTick;
// This algorithm should work for *any* nonlinear (but close to linear!)
// tick spacing. Limit to 10 iterations, for gregorian months it's normally <=3.
while(cnt < 10) {
t1 = axes.tickIncrement(t0, dtick, axrev, ax.calendar);
if((t1 - r0) * (t0 - r0) <= 0) {
// t1 and t0 are on opposite sides of r0! we've succeeded!
if(axrev) return Math.min(t0, t1);
return Math.max(t0, t1);
}
mult = (r0 - ((t0 + t1) / 2)) / (t1 - t0);
newDTick = tType + ((Math.abs(Math.round(mult)) || 1) * dtNum);
t0 = axes.tickIncrement(t0, newDTick, mult < 0 ? !axrev : axrev, ax.calendar);
cnt++;
}
Lib.error('tickFirst did not converge', ax);
return t0;
}
// Log scales: Linear, Digits
else if(tType === 'L') {
return Math.log(sRound(
(Math.pow(10, r0) - tick0) / dtNum) * dtNum + tick0) / Math.LN10;
}
else if(tType === 'D') {
var tickset = (dtick === 'D2') ? roundLog2 : roundLog1,
frac = Lib.roundUp(Lib.mod(r0, 1), tickset, axrev);
return Math.floor(r0) +
Math.log(d3.round(Math.pow(10, frac), 1)) / Math.LN10;
}
else throw 'unrecognized dtick ' + String(dtick);
};
// draw the text for one tick.
// px,py are the location on gd.paper
// prefix is there so the x axis ticks can be dropped a line
// ax is the axis layout, x is the tick value
// hover is a (truthy) flag for whether to show numbers with a bit
// more precision for hovertext
axes.tickText = function(ax, x, hover) {
var out = tickTextObj(ax, x),
hideexp,
arrayMode = ax.tickmode === 'array',
extraPrecision = hover || arrayMode,
i,
tickVal2l = ax.type === 'category' ? ax.d2l_noadd : ax.d2l;
if(arrayMode && Array.isArray(ax.ticktext)) {
var rng = Lib.simpleMap(ax.range, ax.r2l),
minDiff = Math.abs(rng[1] - rng[0]) / 10000;
for(i = 0; i < ax.ticktext.length; i++) {
if(Math.abs(x - tickVal2l(ax.tickvals[i])) < minDiff) break;
}
if(i < ax.ticktext.length) {
out.text = String(ax.ticktext[i]);
return out;
}
}
function isHidden(showAttr) {
var first_or_last;
if(showAttr === undefined) return true;
if(hover) return showAttr === 'none';
first_or_last = {
first: ax._tmin,
last: ax._tmax
}[showAttr];
return showAttr !== 'all' && x !== first_or_last;
}
if(hover) {
hideexp = 'never';
} else {
hideexp = ax.exponentformat !== 'none' && isHidden(ax.showexponent) ? 'hide' : '';
}
if(ax.type === 'date') formatDate(ax, out, hover, extraPrecision);
else if(ax.type === 'log') formatLog(ax, out, hover, extraPrecision, hideexp);
else if(ax.type === 'category') formatCategory(ax, out);
else if(isAngular(ax)) formatAngle(ax, out, hover, extraPrecision, hideexp);
else formatLinear(ax, out, hover, extraPrecision, hideexp);
// add prefix and suffix
if(ax.tickprefix && !isHidden(ax.showtickprefix)) out.text = ax.tickprefix + out.text;
if(ax.ticksuffix && !isHidden(ax.showticksuffix)) out.text += ax.ticksuffix;
return out;
};
/**
* create text for a hover label on this axis, with special handling of
* log axes (where negative values can't be displayed but can appear in hover text)
*
* @param {object} ax: the axis to format text for
* @param {number} val: calcdata value to format
* @param {Optional(number)} val2: a second value to display
*
* @returns {string} `val` formatted as a string appropriate to this axis, or
* `val` and `val2` as a range (ie '<val> - <val2>') if `val2` is provided and
* it's different from `val`.
*/
axes.hoverLabelText = function(ax, val, val2) {
if(val2 !== BADNUM && val2 !== val) {
return axes.hoverLabelText(ax, val) + ' - ' + axes.hoverLabelText(ax, val2);
}
var logOffScale = (ax.type === 'log' && val <= 0);
var tx = axes.tickText(ax, ax.c2l(logOffScale ? -val : val), 'hover').text;
if(logOffScale) {
return val === 0 ? '0' : MINUS_SIGN + tx;
}
// TODO: should we do something special if the axis calendar and
// the data calendar are different? Somehow display both dates with
// their system names? Right now it will just display in the axis calendar
// but users could add the other one as text.
return tx;
};
function tickTextObj(ax, x, text) {
var tf = ax.tickfont || {};
return {
x: x,
dx: 0,
dy: 0,
text: text || '',
fontSize: tf.size,
font: tf.family,
fontColor: tf.color
};
}
function formatDate(ax, out, hover, extraPrecision) {
var tr = ax._tickround,
fmt = (hover && ax.hoverformat) || axes.getTickFormat(ax);
if(extraPrecision) {
// second or sub-second precision: extra always shows max digits.
// for other fields, extra precision just adds one field.
if(isNumeric(tr)) tr = 4;
else tr = {y: 'm', m: 'd', d: 'M', M: 'S', S: 4}[tr];
}
var dateStr = Lib.formatDate(out.x, fmt, tr, ax._dateFormat, ax.calendar, ax._extraFormat),
headStr;
var splitIndex = dateStr.indexOf('\n');
if(splitIndex !== -1) {
headStr = dateStr.substr(splitIndex + 1);
dateStr = dateStr.substr(0, splitIndex);
}
if(extraPrecision) {
// if extraPrecision led to trailing zeros, strip them off
// actually, this can lead to removing even more zeros than
// in the original rounding, but that's fine because in these
// contexts uniformity is not so important (if there's even
// anything to be uniform with!)
// can we remove the whole time part?
if(dateStr === '00:00:00' || dateStr === '00:00') {
dateStr = headStr;
headStr = '';
}
else if(dateStr.length === 8) {
// strip off seconds if they're zero (zero fractional seconds
// are already omitted)
// but we never remove minutes and leave just hours
dateStr = dateStr.replace(/:00$/, '');
}
}
if(headStr) {
if(hover) {
// hover puts it all on one line, so headPart works best up front
// except for year headPart: turn this into "Jan 1, 2000" etc.
if(tr === 'd') dateStr += ', ' + headStr;
else dateStr = headStr + (dateStr ? ', ' + dateStr : '');
}
else if(!ax._inCalcTicks || (headStr !== ax._prevDateHead)) {
dateStr += '<br>' + headStr;
ax._prevDateHead = headStr;
}
}
out.text = dateStr;
}
function formatLog(ax, out, hover, extraPrecision, hideexp) {
var dtick = ax.dtick;
var x = out.x;
var tickformat = ax.tickformat;
var dtChar0 = typeof dtick === 'string' && dtick.charAt(0);
if(hideexp === 'never') {
// If this is a hover label, then we must *never* hide the exponent
// for the sake of display, which could give the wrong value by
// potentially many orders of magnitude. If hideexp was 'never', then
// it's now succeeded by preventing the other condition from automating
// this choice. Thus we can unset it so that the axis formatting takes
// precedence.
hideexp = '';
}
if(extraPrecision && (dtChar0 !== 'L')) {
dtick = 'L3';
dtChar0 = 'L';
}
if(tickformat || (dtChar0 === 'L')) {
out.text = numFormat(Math.pow(10, x), ax, hideexp, extraPrecision);
}
else if(isNumeric(dtick) || ((dtChar0 === 'D') && (Lib.mod(x + 0.01, 1) < 0.1))) {
var p = Math.round(x);
var absP = Math.abs(p);
var exponentFormat = ax.exponentformat;
if(exponentFormat === 'power' || (isSIFormat(exponentFormat) && beyondSI(p))) {
if(p === 0) out.text = 1;
else if(p === 1) out.text = '10';
else out.text = '10<sup>' + (p > 1 ? '' : MINUS_SIGN) + absP + '</sup>';
out.fontSize *= 1.25;
}
else if((exponentFormat === 'e' || exponentFormat === 'E') && absP > 2) {
out.text = '1' + exponentFormat + (p > 0 ? '+' : MINUS_SIGN) + absP;
}
else {
out.text = numFormat(Math.pow(10, x), ax, '', 'fakehover');
if(dtick === 'D1' && ax._id.charAt(0) === 'y') {
out.dy -= out.fontSize / 6;
}
}
}
else if(dtChar0 === 'D') {
out.text = String(Math.round(Math.pow(10, Lib.mod(x, 1))));
out.fontSize *= 0.75;
}
else throw 'unrecognized dtick ' + String(dtick);
// if 9's are printed on log scale, move the 10's away a bit
if(ax.dtick === 'D1') {
var firstChar = String(out.text).charAt(0);
if(firstChar === '0' || firstChar === '1') {
if(ax._id.charAt(0) === 'y') {
out.dx -= out.fontSize / 4;
}
else {
out.dy += out.fontSize / 2;
out.dx += (ax.range[1] > ax.range[0] ? 1 : -1) *
out.fontSize * (x < 0 ? 0.5 : 0.25);
}
}
}
}
function formatCategory(ax, out) {
var tt = ax._categories[Math.round(out.x)];
if(tt === undefined) tt = '';
out.text = String(tt);
}
function formatLinear(ax, out, hover, extraPrecision, hideexp) {
if(hideexp === 'never') {
// If this is a hover label, then we must *never* hide the exponent
// for the sake of display, which could give the wrong value by
// potentially many orders of magnitude. If hideexp was 'never', then
// it's now succeeded by preventing the other condition from automating
// this choice. Thus we can unset it so that the axis formatting takes
// precedence.
hideexp = '';
} else if(ax.showexponent === 'all' && Math.abs(out.x / ax.dtick) < 1e-6) {
// don't add an exponent to zero if we're showing all exponents
// so the only reason you'd show an exponent on zero is if it's the
// ONLY tick to get an exponent (first or last)
hideexp = 'hide';
}
out.text = numFormat(out.x, ax, hideexp, extraPrecision);
}
function formatAngle(ax, out, hover, extraPrecision, hideexp) {
if(ax.thetaunit === 'radians' && !hover) {
var num = out.x / 180;
if(num === 0) {
out.text = '0';
} else {
var frac = num2frac(num);
if(frac[1] >= 100) {
out.text = numFormat(Lib.deg2rad(out.x), ax, hideexp, extraPrecision);
} else {
var isNeg = out.x < 0;
if(frac[1] === 1) {
if(frac[0] === 1) out.text = 'π';
else out.text = frac[0] + 'π';
} else {
out.text = [
'<sup>', frac[0], '</sup>',
'⁄',
'<sub>', frac[1], '</sub>',
'π'
].join('');
}
if(isNeg) out.text = MINUS_SIGN + out.text;
}
}
} else {
out.text = numFormat(out.x, ax, hideexp, extraPrecision);
}
}
// inspired by
// https://github.com/yisibl/num2fraction/blob/master/index.js
function num2frac(num) {
function almostEq(a, b) {
return Math.abs(a - b) <= 1e-6;
}
function findGCD(a, b) {
return almostEq(b, 0) ? a : findGCD(b, a % b);
}
function findPrecision(n) {
var e = 1;
while(!almostEq(Math.round(n * e) / e, n)) {
e *= 10;
}
return e;
}
var precision = findPrecision(num);
var number = num * precision;
var gcd = Math.abs(findGCD(number, precision));
return [
// numerator
Math.round(number / gcd),
// denominator
Math.round(precision / gcd)
];
}
// format a number (tick value) according to the axis settings
// new, more reliable procedure than d3.round or similar:
// add half the rounding increment, then stringify and truncate
// also automatically switch to sci. notation
var SIPREFIXES = ['f', 'p', 'n', 'μ', 'm', '', 'k', 'M', 'G', 'T'];
function isSIFormat(exponentFormat) {
return exponentFormat === 'SI' || exponentFormat === 'B';
}
// are we beyond the range of common SI prefixes?
// 10^-16 -> 1x10^-16
// 10^-15 -> 1f
// ...
// 10^14 -> 100T
// 10^15 -> 1x10^15
// 10^16 -> 1x10^16
function beyondSI(exponent) {
return exponent > 14 || exponent < -15;
}
function numFormat(v, ax, fmtoverride, hover) {
// negative?
var isNeg = v < 0,
// max number of digits past decimal point to show
tickRound = ax._tickround,
exponentFormat = fmtoverride || ax.exponentformat || 'B',
exponent = ax._tickexponent,
tickformat = axes.getTickFormat(ax),
separatethousands = ax.separatethousands;
// special case for hover: set exponent just for this value, and
// add a couple more digits of precision over tick labels
if(hover) {
// make a dummy axis obj to get the auto rounding and exponent
var ah = {
exponentformat: exponentFormat,
dtick: ax.showexponent === 'none' ? ax.dtick :
(isNumeric(v) ? Math.abs(v) || 1 : 1),
// if not showing any exponents, don't change the exponent
// from what we calculate
range: ax.showexponent === 'none' ? ax.range.map(ax.r2d) : [0, v || 1]
};
autoTickRound(ah);
tickRound = (Number(ah._tickround) || 0) + 4;
exponent = ah._tickexponent;
if(ax.hoverformat) tickformat = ax.hoverformat;
}
if(tickformat) return ax._numFormat(tickformat)(v).replace(/-/g, MINUS_SIGN);
// 'epsilon' - rounding increment
var e = Math.pow(10, -tickRound) / 2;
// exponentFormat codes:
// 'e' (1.2e+6, default)
// 'E' (1.2E+6)
// 'SI' (1.2M)
// 'B' (same as SI except 10^9=B not G)
// 'none' (1200000)
// 'power' (1.2x10^6)
// 'hide' (1.2, use 3rd argument=='hide' to eg
// only show exponent on last tick)
if(exponentFormat === 'none') exponent = 0;
// take the sign out, put it back manually at the end
// - makes cases easier
v = Math.abs(v);
if(v < e) {
// 0 is just 0, but may get exponent if it's the last tick
v = '0';
isNeg = false;
}
else {
v += e;
// take out a common exponent, if any
if(exponent) {
v *= Math.pow(10, -exponent);
tickRound += exponent;
}
// round the mantissa
if(tickRound === 0) v = String(Math.floor(v));
else if(tickRound < 0) {
v = String(Math.round(v));
v = v.substr(0, v.length + tickRound);
for(var i = tickRound; i < 0; i++) v += '0';
}
else {
v = String(v);
var dp = v.indexOf('.') + 1;
if(dp) v = v.substr(0, dp + tickRound).replace(/\.?0+$/, '');
}
// insert appropriate decimal point and thousands separator
v = Lib.numSeparate(v, ax._separators, separatethousands);
}
// add exponent
if(exponent && exponentFormat !== 'hide') {
if(isSIFormat(exponentFormat) && beyondSI(exponent)) exponentFormat = 'power';
var signedExponent;
if(exponent < 0) signedExponent = MINUS_SIGN + -exponent;
else if(exponentFormat !== 'power') signedExponent = '+' + exponent;
else signedExponent = String(exponent);
if(exponentFormat === 'e' || exponentFormat === 'E') {
v += exponentFormat + signedExponent;
}
else if(exponentFormat === 'power') {
v += '×10<sup>' + signedExponent + '</sup>';
}
else if(exponentFormat === 'B' && exponent === 9) {
v += 'B';
}
else if(isSIFormat(exponentFormat)) {
v += SIPREFIXES[exponent / 3 + 5];
}
}
// put sign back in and return
// replace standard minus character (which is technically a hyphen)
// with a true minus sign
if(isNeg) return MINUS_SIGN + v;
return v;
}
axes.getTickFormat = function(ax) {
var i;
function convertToMs(dtick) {
return typeof dtick !== 'string' ? dtick : Number(dtick.replace('M', '')) * ONEAVGMONTH;
}
function compareLogTicks(left, right) {
var priority = ['L', 'D'];
if(typeof left === typeof right) {
if(typeof left === 'number') {
return left - right;
} else {
var leftPriority = priority.indexOf(left.charAt(0));
var rightPriority = priority.indexOf(right.charAt(0));
if(leftPriority === rightPriority) {
return Number(left.replace(/(L|D)/g, '')) - Number(right.replace(/(L|D)/g, ''));
} else {
return leftPriority - rightPriority;
}
}
} else {
return typeof left === 'number' ? 1 : -1;
}
}
function isProperStop(dtick, range, convert) {
var convertFn = convert || function(x) { return x;};
var leftDtick = range[0];
var rightDtick = range[1];
return ((!leftDtick && typeof leftDtick !== 'number') || convertFn(leftDtick) <= convertFn(dtick)) &&
((!rightDtick && typeof rightDtick !== 'number') || convertFn(rightDtick) >= convertFn(dtick));
}
function isProperLogStop(dtick, range) {
var isLeftDtickNull = range[0] === null;
var isRightDtickNull = range[1] === null;
var isDtickInRangeLeft = compareLogTicks(dtick, range[0]) >= 0;
var isDtickInRangeRight = compareLogTicks(dtick, range[1]) <= 0;
return (isLeftDtickNull || isDtickInRangeLeft) && (isRightDtickNull || isDtickInRangeRight);
}
var tickstop, stopi;
if(ax.tickformatstops && ax.tickformatstops.length > 0) {
switch(ax.type) {
case 'date':
case 'linear': {
for(i = 0; i < ax.tickformatstops.length; i++) {
stopi = ax.tickformatstops[i];
if(stopi.enabled && isProperStop(ax.dtick, stopi.dtickrange, convertToMs)) {
tickstop = stopi;
break;
}
}
break;
}
case 'log': {
for(i = 0; i < ax.tickformatstops.length; i++) {
stopi = ax.tickformatstops[i];
if(stopi.enabled && isProperLogStop(ax.dtick, stopi.dtickrange)) {
tickstop = stopi;
break;
}
}
break;
}
default:
}
}
return tickstop ? tickstop.value : ax.tickformat;
};
// getSubplots - extract all subplot IDs we need
// as an array of items like 'xy', 'x2y', 'x2y2'...
// sorted by x (x,x2,x3...) then y
// optionally restrict to only subplots containing axis object ax
axes.getSubplots = function(gd, ax) {
var subplotObj = gd._fullLayout._subplots;
var allSubplots = subplotObj.cartesian.concat(subplotObj.gl2d || []);
var out = ax ? axes.findSubplotsWithAxis(allSubplots, ax) : allSubplots;
out.sort(function(a, b) {
var aParts = a.substr(1).split('y');
var bParts = b.substr(1).split('y');
if(aParts[0] === bParts[0]) return +aParts[1] - +bParts[1];
return +aParts[0] - +bParts[0];
});
return out;
};
// find all subplots with axis 'ax'
axes.findSubplotsWithAxis = function(subplots, ax) {
var axMatch = new RegExp(
(ax._id.charAt(0) === 'x') ? ('^' + ax._id + 'y') : (ax._id + '$')
);
var subplotsWithAxis = [];
for(var i = 0; i < subplots.length; i++) {
var sp = subplots[i];
if(axMatch.test(sp)) subplotsWithAxis.push(sp);
}
return subplotsWithAxis;
};
// makeClipPaths: prepare clipPaths for all single axes and all possible xy pairings
axes.makeClipPaths = function(gd) {
var fullLayout = gd._fullLayout;
// for more info: https://github.com/plotly/plotly.js/issues/2595
if(fullLayout._hasOnlyLargeSploms) return;
var fullWidth = {_offset: 0, _length: fullLayout.width, _id: ''};
var fullHeight = {_offset: 0, _length: fullLayout.height, _id: ''};
var xaList = axes.list(gd, 'x', true);
var yaList = axes.list(gd, 'y', true);
var clipList = [];
var i, j;
for(i = 0; i < xaList.length; i++) {
clipList.push({x: xaList[i], y: fullHeight});
for(j = 0; j < yaList.length; j++) {
if(i === 0) clipList.push({x: fullWidth, y: yaList[j]});
clipList.push({x: xaList[i], y: yaList[j]});
}
}
// selectors don't work right with camelCase tags,
// have to use class instead
// https://groups.google.com/forum/#!topic/d3-js/6EpAzQ2gU9I
var axClips = fullLayout._clips.selectAll('.axesclip')
.data(clipList, function(d) { return d.x._id + d.y._id; });
axClips.enter().append('clipPath')
.classed('axesclip', true)
.attr('id', function(d) { return 'clip' + fullLayout._uid + d.x._id + d.y._id; })
.append('rect');
axClips.exit().remove();
axClips.each(function(d) {
d3.select(this).select('rect').attr({
x: d.x._offset || 0,
y: d.y._offset || 0,
width: d.x._length || 1,
height: d.y._length || 1
});
});
};
/**
* Main multi-axis drawing routine!
*
* @param {DOM element} gd : graph div
* @param {string or array of strings} arg : polymorphic argument
* @param {boolean} skipTitle : optional flag to skip axis title draw/update
*
* Signature 1: Axes.doTicks(gd, 'redraw')
* use this to clear and redraw all axes on graph
*
* Signature 2: Axes.doTicks(gd, '')
* use this to draw all axes on graph w/o the selectAll().remove()
* of the 'redraw' signature
*
* Signature 3: Axes.doTicks(gd, [axId, axId2, ...])
* where the items are axis id string,
* use this to update multiple axes in one call
*
* N.B doTicks updates:
* - ax._r (stored range for use by zoom/pan)
* - ax._rl (stored linearized range for use by zoom/pan)
*/
axes.doTicks = function(gd, arg, skipTitle) {
var fullLayout = gd._fullLayout;
if(arg === 'redraw') {
fullLayout._paper.selectAll('g.subplot').each(function(d) {
var id = d[0];
var plotinfo = fullLayout._plots[id];
var xa = plotinfo.xaxis;
var ya = plotinfo.yaxis;
plotinfo.xaxislayer.selectAll('.' + xa._id + 'tick').remove();
plotinfo.yaxislayer.selectAll('.' + ya._id + 'tick').remove();
if(plotinfo.gridlayer) plotinfo.gridlayer.selectAll('path').remove();
if(plotinfo.zerolinelayer) plotinfo.zerolinelayer.selectAll('path').remove();
fullLayout._infolayer.select('.g-' + xa._id + 'title').remove();
fullLayout._infolayer.select('.g-' + ya._id + 'title').remove();
});
}
var axList = (!arg || arg === 'redraw') ? axes.listIds(gd) : arg;
Lib.syncOrAsync(axList.map(function(axid) {
return function() {
if(!axid) return;
var axDone = axes.doTicksSingle(gd, axid, skipTitle);
var ax = axes.getFromId(gd, axid);
ax._r = ax.range.slice();
ax._rl = Lib.simpleMap(ax._r, ax.r2l);
return axDone;
};
}));
};
/**
* Per-axis drawing routine!
*
* This routine draws axis ticks and much more (... grids, labels, title etc.)
* Supports multiple argument signatures.
* N.B. this thing is async in general (because of MathJax rendering)
*
* @param {DOM element} gd : graph div
* @param {string or object} arg : polymorphic argument
* @param {boolean} skipTitle : optional flag to skip axis title draw/update
* @return {promise}
*
* Signature 1: Axes.doTicks(gd, ax)
* where ax is an axis object as in fullLayout
*
* Signature 2: Axes.doTicks(gd, axId)
* where axId is a axis id string
*/
axes.doTicksSingle = function(gd, arg, skipTitle) {
var fullLayout = gd._fullLayout;
var independent = false;
var ax;
if(Lib.isPlainObject(arg)) {
ax = arg;
independent = true;
} else {
ax = axes.getFromId(gd, arg);
}
// set scaling to pixels
ax.setScale();
var axid = ax._id;
var axLetter = axid.charAt(0);
var counterLetter = axes.counterLetter(axid);
var vals = ax._vals = axes.calcTicks(ax);
var datafn = function(d) { return [d.text, d.x, ax.mirror, d.font, d.fontSize, d.fontColor].join('_'); };
var tcls = axid + 'tick';
var gcls = axid + 'grid';
var zcls = axid + 'zl';
var pad = (ax.linewidth || 1) / 2;
var labelStandoff = (ax.ticks === 'outside' ? ax.ticklen : 0);
var labelShift = 0;
var gridWidth = Drawing.crispRound(gd, ax.gridwidth, 1);
var zeroLineWidth = Drawing.crispRound(gd, ax.zerolinewidth, gridWidth);
var tickWidth = Drawing.crispRound(gd, ax.tickwidth, 1);
var sides, transfn, tickpathfn, subplots;
var tickLabels;
var i;
if(ax._counterangle && ax.ticks === 'outside') {
var caRad = ax._counterangle * Math.PI / 180;
labelStandoff = ax.ticklen * Math.cos(caRad) + 1;
labelShift = ax.ticklen * Math.sin(caRad);
}
if(ax.showticklabels && (ax.ticks === 'outside' || ax.showline)) {
labelStandoff += 0.2 * ax.tickfont.size;
}
// positioning arguments for x vs y axes
if(axLetter === 'x') {
sides = ['bottom', 'top'];
transfn = ax._transfn || function(d) {
return 'translate(' + (ax._offset + ax.l2p(d.x)) + ',0)';
};
tickpathfn = function(shift, len) {
if(ax._counterangle) {
var caRad = ax._counterangle * Math.PI / 180;
return 'M0,' + shift + 'l' + (Math.sin(caRad) * len) + ',' + (Math.cos(caRad) * len);
}
else return 'M0,' + shift + 'v' + len;
};
}
else if(axLetter === 'y') {
sides = ['left', 'right'];
transfn = ax._transfn || function(d) {
return 'translate(0,' + (ax._offset + ax.l2p(d.x)) + ')';
};
tickpathfn = function(shift, len) {
if(ax._counterangle) {
var caRad = ax._counterangle * Math.PI / 180;
return 'M' + shift + ',0l' + (Math.cos(caRad) * len) + ',' + (-Math.sin(caRad) * len);
}
else return 'M' + shift + ',0h' + len;
};
}
else if(isAngular(ax)) {
sides = ['left', 'right'];
transfn = ax._transfn;
tickpathfn = function(shift, len) {
return 'M' + shift + ',0h' + len;
};
}
else {
Lib.warn('Unrecognized doTicks axis:', axid);
return;
}
var axside = ax.side || sides[0];
// which direction do the side[0], side[1], and free ticks go?
// then we flip if outside XOR y axis
var ticksign = [-1, 1, axside === sides[1] ? 1 : -1];
if((ax.ticks !== 'inside') === (axLetter === 'x')) {
ticksign = ticksign.map(function(v) { return -v; });
}
if(!ax.visible) return;
if(ax._tickFilter) {
vals = vals.filter(ax._tickFilter);
}
// Remove zero lines, grid lines, and inside ticks if they're within
// 1 pixel of the end.
// The key case here is removing zero lines when the axis bound is zero.
// Don't clip angular values.
var valsClipped = ax._valsClipped = isAngular(ax) ?
vals :
vals.filter(function(d) { return clipEnds(ax, d.x); });
function drawTicks(container, tickpath) {
var ticks = container.selectAll('path.' + tcls)
.data(ax.ticks === 'inside' ? valsClipped : vals, datafn);
if(tickpath && ax.ticks) {
ticks.enter().append('path').classed(tcls, 1).classed('ticks', 1)
.classed('crisp', 1)
.call(Color.stroke, ax.tickcolor)
.style('stroke-width', tickWidth + 'px')
.attr('d', tickpath);
ticks.attr('transform', transfn);
ticks.exit().remove();
}
else ticks.remove();
}
function drawLabels(container, position) {
// tick labels - for now just the main labels.
// TODO: mirror labels, esp for subplots
tickLabels = container.selectAll('g.' + tcls).data(vals, datafn);
if(!isNumeric(position)) {
tickLabels.remove();
drawAxTitle();
return;
}
if(!ax.showticklabels) {
tickLabels.remove();
drawAxTitle();
calcBoundingBox();
return;
}
var labelx, labely, labelanchor, labelpos0, flipit;
if(axLetter === 'x') {
flipit = (axside === 'bottom') ? 1 : -1;
labelx = function(d) { return d.dx + labelShift * flipit; };
labelpos0 = position + (labelStandoff + pad) * flipit;
labely = function(d) {
return d.dy + labelpos0 + d.fontSize *
((axside === 'bottom') ? 1 : -0.2);
};
labelanchor = function(angle) {
if(!isNumeric(angle) || angle === 0 || angle === 180) {
return 'middle';
}
return (angle * flipit < 0) ? 'end' : 'start';
};
}
else if(axLetter === 'y') {
flipit = (axside === 'right') ? 1 : -1;
labely = function(d) {
return d.dy + d.fontSize * MID_SHIFT - labelShift * flipit;
};
labelx = function(d) {
return d.dx + position + (labelStandoff + pad +
((Math.abs(ax.tickangle) === 90) ? d.fontSize / 2 : 0)) * flipit;
};
labelanchor = function(angle) {
if(isNumeric(angle) && Math.abs(angle) === 90) {
return 'middle';
}
return axside === 'right' ? 'start' : 'end';
};
}
else if(isAngular(ax)) {
ax._labelShift = labelShift;
ax._labelStandoff = labelStandoff;
ax._pad = pad;
labelx = ax._labelx;
labely = ax._labely;
labelanchor = ax._labelanchor;
}
var maxFontSize = 0,
autoangle = 0,
labelsReady = [];
tickLabels.enter().append('g').classed(tcls, 1)
.append('text')
// only so tex has predictable alignment that we can
// alter later
.attr('text-anchor', 'middle')
.each(function(d) {
var thisLabel = d3.select(this),
newPromise = gd._promises.length;
thisLabel
.call(svgTextUtils.positionText, labelx(d), labely(d))
.call(Drawing.font, d.font, d.fontSize, d.fontColor)
.text(d.text)
.call(svgTextUtils.convertToTspans, gd);
newPromise = gd._promises[newPromise];
if(newPromise) {
// if we have an async label, we'll deal with that
// all here so take it out of gd._promises and
// instead position the label and promise this in
// labelsReady
labelsReady.push(gd._promises.pop().then(function() {
positionLabels(thisLabel, ax.tickangle);
}));
}
else {
// sync label: just position it now.
positionLabels(thisLabel, ax.tickangle);
}
});
tickLabels.exit().remove();
tickLabels.each(function(d) {
maxFontSize = Math.max(maxFontSize, d.fontSize);
});
if(isAngular(ax)) {
tickLabels.each(function(d) {
d3.select(this).select('text')
.call(svgTextUtils.positionText, labelx(d), labely(d));
});
}
// How much to shift a multi-line label to center it vertically.
function getAnchorHeight(lineCount, lineHeight, angle) {
var h = (lineCount - 1) * lineHeight;
if(axLetter === 'x') {
if(angle < -60 || 60 < angle) {
return -0.5 * h;
} else if(axside === 'top') {
return -h;
}
} else {
angle *= axside === 'left' ? 1 : -1;
if(angle < -30) {
return -h;
} else if(angle < 30) {
return -0.5 * h;
}
}
return 0;
}
function positionLabels(s, angle) {
s.each(function(d) {
var anchor = labelanchor(angle, d);
var thisLabel = d3.select(this),
mathjaxGroup = thisLabel.select('.text-math-group'),
transform = transfn.call(thisLabel.node(), d) +
((isNumeric(angle) && +angle !== 0) ?
(' rotate(' + angle + ',' + labelx(d) + ',' +
(labely(d) - d.fontSize / 2) + ')') :
'');
var anchorHeight = getAnchorHeight(
svgTextUtils.lineCount(thisLabel),
LINE_SPACING * d.fontSize,
isNumeric(angle) ? +angle : 0);
if(anchorHeight) {
transform += ' translate(0, ' + anchorHeight + ')';
}
if(mathjaxGroup.empty()) {
thisLabel.select('text').attr({
transform: transform,
'text-anchor': anchor
});
}
else {
var mjShift =
Drawing.bBox(mathjaxGroup.node()).width *
{end: -0.5, start: 0.5}[anchor];
mathjaxGroup.attr('transform', transform +
(mjShift ? 'translate(' + mjShift + ',0)' : ''));
}
});
}
// make sure all labels are correctly positioned at their base angle
// the positionLabels call above is only for newly drawn labels.
// do this without waiting, using the last calculated angle to
// minimize flicker, then do it again when we know all labels are
// there, putting back the prescribed angle to check for overlaps.
positionLabels(tickLabels, ax._lastangle || ax.tickangle);
function allLabelsReady() {
return labelsReady.length && Promise.all(labelsReady);
}
function fixLabelOverlaps() {
positionLabels(tickLabels, ax.tickangle);
// check for auto-angling if x labels overlap
// don't auto-angle at all for log axes with
// base and digit format
if(axLetter === 'x' && !isNumeric(ax.tickangle) &&
(ax.type !== 'log' || String(ax.dtick).charAt(0) !== 'D')) {
var lbbArray = [];
tickLabels.each(function(d) {
var s = d3.select(this),
thisLabel = s.select('.text-math-group'),
x = ax.l2p(d.x);
if(thisLabel.empty()) thisLabel = s.select('text');
var bb = Drawing.bBox(thisLabel.node());
lbbArray.push({
// ignore about y, just deal with x overlaps
top: 0,
bottom: 10,
height: 10,
left: x - bb.width / 2,
// impose a 2px gap
right: x + bb.width / 2 + 2,
width: bb.width + 2
});
});
for(i = 0; i < lbbArray.length - 1; i++) {
if(Lib.bBoxIntersect(lbbArray[i], lbbArray[i + 1])) {
// any overlap at all - set 30 degrees
autoangle = 30;
break;
}
}
if(autoangle) {
var tickspacing = Math.abs(
(vals[vals.length - 1].x - vals[0].x) * ax._m
) / (vals.length - 1);
if(tickspacing < maxFontSize * 2.5) {
autoangle = 90;
}
positionLabels(tickLabels, autoangle);
}
ax._lastangle = autoangle;
}
// update the axis title
// (so it can move out of the way if needed)
// TODO: separate out scoot so we don't need to do
// a full redraw of the title (mostly relevant for MathJax)
drawAxTitle();
return axid + ' done';
}
function calcBoundingBox() {
if(ax.showticklabels) {
var gdBB = gd.getBoundingClientRect();
var bBox = container.node().getBoundingClientRect();
/*
* the way we're going to use this, the positioning that matters
* is relative to the origin of gd. This is important particularly
* if gd is scrollable, and may have been scrolled between the time
* we calculate this and the time we use it
*/
ax._boundingBox = {
width: bBox.width,
height: bBox.height,
left: bBox.left - gdBB.left,
right: bBox.right - gdBB.left,
top: bBox.top - gdBB.top,
bottom: bBox.bottom - gdBB.top
};
} else {
var gs = fullLayout._size;
var pos;
// set dummy bbox for ticklabel-less axes
if(axLetter === 'x') {
pos = ax.anchor === 'free' ?
gs.t + gs.h * (1 - ax.position) :
gs.t + gs.h * (1 - ax._anchorAxis.domain[{bottom: 0, top: 1}[ax.side]]);
ax._boundingBox = {
top: pos,
bottom: pos,
left: ax._offset,
right: ax._offset + ax._length,
width: ax._length,
height: 0
};
} else {
pos = ax.anchor === 'free' ?
gs.l + gs.w * ax.position :
gs.l + gs.w * ax._anchorAxis.domain[{left: 0, right: 1}[ax.side]];
ax._boundingBox = {
left: pos,
right: pos,
bottom: ax._offset + ax._length,
top: ax._offset,
height: ax._length,
width: 0
};
}
}
/*
* for spikelines: what's the full domain of positions in the
* opposite direction that are associated with this axis?
* This means any axes that we make a subplot with, plus the
* position of the axis itself if it's free.
*/
if(subplots) {
var fullRange = ax._counterSpan = [Infinity, -Infinity];
for(i = 0; i < subplots.length; i++) {
var subplot = fullLayout._plots[subplots[i]];
var counterAxis = subplot[(axLetter === 'x') ? 'yaxis' : 'xaxis'];
extendRange(fullRange, [
counterAxis._offset,
counterAxis._offset + counterAxis._length
]);
}
if(ax.anchor === 'free') {
extendRange(fullRange, (axLetter === 'x') ?
[ax._boundingBox.bottom, ax._boundingBox.top] :
[ax._boundingBox.right, ax._boundingBox.left]);
}
}
function extendRange(range, newRange) {
range[0] = Math.min(range[0], newRange[0]);
range[1] = Math.max(range[1], newRange[1]);
}
}
function doAutoMargins() {
var pushKey = ax._name + '.automargin';
if(axLetter !== 'x' && axLetter !== 'y') { return; }
if(!ax.automargin) {
Plots.autoMargin(gd, pushKey);
return;
}
var s = ax.side[0];
var push = {x: 0, y: 0, r: 0, l: 0, t: 0, b: 0};
if(axLetter === 'x') {
push.y = (ax.anchor === 'free' ? ax.position :
ax._anchorAxis.domain[s === 't' ? 1 : 0]);
push[s] += ax._boundingBox.height;
}
else {
push.x = (ax.anchor === 'free' ? ax.position :
ax._anchorAxis.domain[s === 'r' ? 1 : 0]);
push[s] += ax._boundingBox.width;
}
if(ax.title !== fullLayout._dfltTitle[axLetter]) {
push[s] += ax.titlefont.size;
}
Plots.autoMargin(gd, pushKey, push);
}
var done = Lib.syncOrAsync([
allLabelsReady,
fixLabelOverlaps,
calcBoundingBox,
doAutoMargins
]);
if(done && done.then) gd._promises.push(done);
return done;
}
function drawAxTitle() {
if(skipTitle) return;
// now this only applies to regular cartesian axes; colorbars and
// others ALWAYS call doTicks with skipTitle=true so they can
// configure their own titles.
// rangeslider takes over a bottom title so drop it here
if(ax.rangeslider && ax.rangeslider.visible && ax._boundingBox && ax.side === 'bottom') return;
var avoid = {
selection: tickLabels,
side: ax.side
};
var axLetter = axid.charAt(0);
var gs = gd._fullLayout._size;
var offsetBase = 1.5;
var fontSize = ax.titlefont.size;
var transform, counterAxis, x, y;
if(tickLabels.size()) {
var translation = Drawing.getTranslate(tickLabels.node().parentNode);
avoid.offsetLeft = translation.x;
avoid.offsetTop = translation.y;
}
var titleStandoff = 10 + fontSize * offsetBase +
(ax.linewidth ? ax.linewidth - 1 : 0);
if(axLetter === 'x') {
counterAxis = (ax.anchor === 'free') ?
{_offset: gs.t + (1 - (ax.position || 0)) * gs.h, _length: 0} :
axisIds.getFromId(gd, ax.anchor);
x = ax._offset + ax._length / 2;
if(ax.side === 'top') {
y = -titleStandoff - fontSize * (ax.showticklabels ? 1 : 0);
}
else {
y = counterAxis._length + titleStandoff +
fontSize * (ax.showticklabels ? 1.5 : 0.5);
}
y += counterAxis._offset;
if(!avoid.side) avoid.side = 'bottom';
}
else {
counterAxis = (ax.anchor === 'free') ?
{_offset: gs.l + (ax.position || 0) * gs.w, _length: 0} :
axisIds.getFromId(gd, ax.anchor);
y = ax._offset + ax._length / 2;
if(ax.side === 'right') {
x = counterAxis._length + titleStandoff +
fontSize * (ax.showticklabels ? 1 : 0.5);
}
else {
x = -titleStandoff - fontSize * (ax.showticklabels ? 0.5 : 0);
}
x += counterAxis._offset;
transform = {rotate: '-90', offset: 0};
if(!avoid.side) avoid.side = 'left';
}
Titles.draw(gd, axid + 'title', {
propContainer: ax,
propName: ax._name + '.title',
placeholder: fullLayout._dfltTitle[axLetter],
avoid: avoid,
transform: transform,
attributes: {x: x, y: y, 'text-anchor': 'middle'}
});
}
function drawGrid(plotinfo, counteraxis) {
if(fullLayout._hasOnlyLargeSploms) return;
var gridcontainer = plotinfo.gridlayer.selectAll('.' + axid);
var zlcontainer = plotinfo.zerolinelayer;
var gridpath = ax._gridpath || ((axLetter === 'x' ?
('M0,' + counteraxis._offset + 'v') :
('M' + counteraxis._offset + ',0h')
) + counteraxis._length);
var grid = gridcontainer.selectAll('path.' + gcls)
.data((ax.showgrid === false) ? [] : valsClipped, datafn);
grid.enter().append('path').classed(gcls, 1)
.classed('crisp', 1)
.attr('d', gridpath)
.each(function(d) {
if(ax.zeroline && (ax.type === 'linear' || ax.type === '-') &&
Math.abs(d.x) < ax.dtick / 100) {
d3.select(this).remove();
}
});
grid.attr('transform', transfn)
.call(Color.stroke, ax.gridcolor || '#ddd')
.style('stroke-width', gridWidth + 'px');
if(typeof gridpath === 'function') grid.attr('d', gridpath);
grid.exit().remove();
// zero line
if(zlcontainer) {
var zlData = {x: 0, id: axid};
var showZl = axes.shouldShowZeroLine(gd, ax, counteraxis);
var zl = zlcontainer.selectAll('path.' + zcls)
.data(showZl ? [zlData] : []);
zl.enter().append('path').classed(zcls, 1).classed('zl', 1)
.classed('crisp', 1)
.attr('d', gridpath)
.each(function() {
// use the fact that only one element can enter to trigger a sort.
// If several zerolines enter at the same time we will sort once per,
// but generally this should be a minimal overhead.
zlcontainer.selectAll('path').sort(function(da, db) {
return axisIds.idSort(da.id, db.id);
});
});
zl.attr('transform', transfn)
.call(Color.stroke, ax.zerolinecolor || Color.defaultLine)
.style('stroke-width', zeroLineWidth + 'px');
zl.exit().remove();
}
}
if(independent) {
drawTicks(ax._axislayer, tickpathfn(ax._pos + pad * ticksign[2], ticksign[2] * ax.ticklen));
if(ax._counteraxis) {
var fictionalPlotinfo = {
gridlayer: ax._gridlayer,
zerolinelayer: ax._zerolinelayer
};
drawGrid(fictionalPlotinfo, ax._counteraxis);
}
return drawLabels(ax._axislayer, ax._pos);
}
else if(fullLayout._has('cartesian')) {
subplots = axes.getSubplots(gd, ax);
// keep track of which subplots (by main conteraxis) we've already
// drawn grids for, so we don't overdraw overlaying subplots
var finishedGrids = {};
subplots.map(function(subplot) {
var plotinfo = fullLayout._plots[subplot];
var counterAxis = plotinfo[counterLetter + 'axis'];
var mainCounterID = counterAxis._mainAxis._id;
if(finishedGrids[mainCounterID]) return;
finishedGrids[mainCounterID] = 1;
drawGrid(plotinfo, counterAxis, subplot);
});
var mainSubplot = ax._mainSubplot;
var mainPlotinfo = fullLayout._plots[mainSubplot];
var tickSubplots = [];
if(ax.ticks) {
var mainSign = ticksign[2];
var tickpath = tickpathfn(ax._mainLinePosition + pad * mainSign, mainSign * ax.ticklen);
if(ax._anchorAxis && ax.mirror && ax.mirror !== true) {
tickpath += tickpathfn(ax._mainMirrorPosition - pad * mainSign, -mainSign * ax.ticklen);
}
drawTicks(mainPlotinfo[axLetter + 'axislayer'], tickpath);
tickSubplots = Object.keys(ax._linepositions || {});
}
tickSubplots.map(function(subplot) {
var plotinfo = fullLayout._plots[subplot];
var container = plotinfo[axLetter + 'axislayer'];
// [bottom or left, top or right]
// free and main are handled above
var linepositions = ax._linepositions[subplot] || [];
function tickPathSide(sidei) {
var tsign = ticksign[sidei];
return tickpathfn(linepositions[sidei] + pad * tsign, tsign * ax.ticklen);
}
drawTicks(container, tickPathSide(0) + tickPathSide(1));
});
var mainContainer = mainPlotinfo[axLetter + 'axislayer'];
return drawLabels(mainContainer, ax._mainLinePosition);
}
};
axes.shouldShowZeroLine = function(gd, ax, counterAxis) {
var rng = Lib.simpleMap(ax.range, ax.r2l);
return (
(rng[0] * rng[1] <= 0) &&
ax.zeroline &&
(ax.type === 'linear' || ax.type === '-') &&
ax._valsClipped.length &&
(
clipEnds(ax, 0) ||
!anyCounterAxLineAtZero(gd, ax, counterAxis, rng) ||
hasBarsOrFill(gd, ax)
)
);
};
function clipEnds(ax, l) {
var p = ax.l2p(l);
return (p > 1 && p < ax._length - 1);
}
function anyCounterAxLineAtZero(gd, ax, counterAxis, rng) {
var mainCounterAxis = counterAxis._mainAxis;
if(!mainCounterAxis) return;
var fullLayout = gd._fullLayout;
var axLetter = ax._id.charAt(0);
var counterLetter = axes.counterLetter(ax._id);
var zeroPosition = ax._offset + (
((Math.abs(rng[0]) < Math.abs(rng[1])) === (axLetter === 'x')) ?
0 : ax._length
);
function lineNearZero(ax2) {
if(!ax2.showline || !ax2.linewidth) return false;
var tolerance = Math.max((ax2.linewidth + ax.zerolinewidth) / 2, 1);
function closeEnough(pos2) {
return typeof pos2 === 'number' && Math.abs(pos2 - zeroPosition) < tolerance;
}
if(closeEnough(ax2._mainLinePosition) || closeEnough(ax2._mainMirrorPosition)) {
return true;
}
var linePositions = ax2._linepositions || {};
for(var k in linePositions) {
if(closeEnough(linePositions[k][0]) || closeEnough(linePositions[k][1])) {
return true;
}
}
}
var plotinfo = fullLayout._plots[counterAxis._mainSubplot];
if(!(plotinfo.mainplotinfo || plotinfo).overlays.length) {
return lineNearZero(counterAxis, zeroPosition);
}
var counterLetterAxes = axes.list(gd, counterLetter);
for(var i = 0; i < counterLetterAxes.length; i++) {
var counterAxis2 = counterLetterAxes[i];
if(
counterAxis2._mainAxis === mainCounterAxis &&
lineNearZero(counterAxis2, zeroPosition)
) {
return true;
}
}
}
function hasBarsOrFill(gd, ax) {
var fullData = gd._fullData;
var subplot = ax._mainSubplot;
var axLetter = ax._id.charAt(0);
for(var i = 0; i < fullData.length; i++) {
var trace = fullData[i];
if(trace.visible === true &&
(trace.xaxis + trace.yaxis) === subplot &&
(
Registry.traceIs(trace, 'bar') && trace.orientation === {x: 'h', y: 'v'}[axLetter] ||
trace.fill && trace.fill.charAt(trace.fill.length - 1) === axLetter
)
) {
return true;
}
}
return false;
}
/**
* Find all margin pushers for 2D axes and reserve them for later use
* Both label and rangeslider automargin calculations happen later so
* we need to explicitly allow their ids in order to not delete them.
*
* TODO: can we pull the actual automargin calls forward to avoid this hack?
* We're probably also doing multiple redraws in this case, would be faster
* if we can just do the whole calculation ahead of time and draw once.
*/
axes.allowAutoMargin = function(gd) {
var axList = axes.list(gd, '', true);
for(var i = 0; i < axList.length; i++) {
var ax = axList[i];
if(ax.automargin) {
Plots.allowAutoMargin(gd, ax._name + '.automargin');
}
if(ax.rangeslider && ax.rangeslider.visible) {
Plots.allowAutoMargin(gd, 'rangeslider' + ax._id);
}
}
};
// swap all the presentation attributes of the axes showing these traces
axes.swap = function(gd, traces) {
var axGroups = makeAxisGroups(gd, traces);
for(var i = 0; i < axGroups.length; i++) {
swapAxisGroup(gd, axGroups[i].x, axGroups[i].y);
}
};
function makeAxisGroups(gd, traces) {
var groups = [],
i,
j;
for(i = 0; i < traces.length; i++) {
var groupsi = [],
xi = gd._fullData[traces[i]].xaxis,
yi = gd._fullData[traces[i]].yaxis;
if(!xi || !yi) continue; // not a 2D cartesian trace?
for(j = 0; j < groups.length; j++) {
if(groups[j].x.indexOf(xi) !== -1 || groups[j].y.indexOf(yi) !== -1) {
groupsi.push(j);
}
}
if(!groupsi.length) {
groups.push({x: [xi], y: [yi]});
continue;
}
var group0 = groups[groupsi[0]],
groupj;
if(groupsi.length > 1) {
for(j = 1; j < groupsi.length; j++) {
groupj = groups[groupsi[j]];
mergeAxisGroups(group0.x, groupj.x);
mergeAxisGroups(group0.y, groupj.y);
}
}
mergeAxisGroups(group0.x, [xi]);
mergeAxisGroups(group0.y, [yi]);
}
return groups;
}
function mergeAxisGroups(intoSet, fromSet) {
for(var i = 0; i < fromSet.length; i++) {
if(intoSet.indexOf(fromSet[i]) === -1) intoSet.push(fromSet[i]);
}
}
function swapAxisGroup(gd, xIds, yIds) {
var i,
j,
xFullAxes = [],
yFullAxes = [],
layout = gd.layout;
for(i = 0; i < xIds.length; i++) xFullAxes.push(axes.getFromId(gd, xIds[i]));
for(i = 0; i < yIds.length; i++) yFullAxes.push(axes.getFromId(gd, yIds[i]));
var allAxKeys = Object.keys(axAttrs);
var noSwapAttrs = [
'anchor', 'domain', 'overlaying', 'position', 'side', 'tickangle', 'editType'
];
var numericTypes = ['linear', 'log'];
for(i = 0; i < allAxKeys.length; i++) {
var keyi = allAxKeys[i],
xVal = xFullAxes[0][keyi],
yVal = yFullAxes[0][keyi],
allEqual = true,
coerceLinearX = false,
coerceLinearY = false;
if(keyi.charAt(0) === '_' || typeof xVal === 'function' ||
noSwapAttrs.indexOf(keyi) !== -1) {
continue;
}
for(j = 1; j < xFullAxes.length && allEqual; j++) {
var xVali = xFullAxes[j][keyi];
if(keyi === 'type' && numericTypes.indexOf(xVal) !== -1 &&
numericTypes.indexOf(xVali) !== -1 && xVal !== xVali) {
// type is special - if we find a mixture of linear and log,
// coerce them all to linear on flipping
coerceLinearX = true;
}
else if(xVali !== xVal) allEqual = false;
}
for(j = 1; j < yFullAxes.length && allEqual; j++) {
var yVali = yFullAxes[j][keyi];
if(keyi === 'type' && numericTypes.indexOf(yVal) !== -1 &&
numericTypes.indexOf(yVali) !== -1 && yVal !== yVali) {
// type is special - if we find a mixture of linear and log,
// coerce them all to linear on flipping
coerceLinearY = true;
}
else if(yFullAxes[j][keyi] !== yVal) allEqual = false;
}
if(allEqual) {
if(coerceLinearX) layout[xFullAxes[0]._name].type = 'linear';
if(coerceLinearY) layout[yFullAxes[0]._name].type = 'linear';
swapAxisAttrs(layout, keyi, xFullAxes, yFullAxes, gd._fullLayout._dfltTitle);
}
}
// now swap x&y for any annotations anchored to these x & y
for(i = 0; i < gd._fullLayout.annotations.length; i++) {
var ann = gd._fullLayout.annotations[i];
if(xIds.indexOf(ann.xref) !== -1 &&
yIds.indexOf(ann.yref) !== -1) {
Lib.swapAttrs(layout.annotations[i], ['?']);
}
}
}
function swapAxisAttrs(layout, key, xFullAxes, yFullAxes, dfltTitle) {
// in case the value is the default for either axis,
// look at the first axis in each list and see if
// this key's value is undefined
var np = Lib.nestedProperty,
xVal = np(layout[xFullAxes[0]._name], key).get(),
yVal = np(layout[yFullAxes[0]._name], key).get(),
i;
if(key === 'title') {
// special handling of placeholder titles
if(xVal === dfltTitle.x) {
xVal = dfltTitle.y;
}
if(yVal === dfltTitle.y) {
yVal = dfltTitle.x;
}
}
for(i = 0; i < xFullAxes.length; i++) {
np(layout, xFullAxes[i]._name + '.' + key).set(yVal);
}
for(i = 0; i < yFullAxes.length; i++) {
np(layout, yFullAxes[i]._name + '.' + key).set(xVal);
}
}
function isAngular(ax) {
return ax._id === 'angularaxis';
}
},{"../../components/color":567,"../../components/drawing":592,"../../components/titles":658,"../../constants/alignment":665,"../../constants/numerical":670,"../../lib":693,"../../lib/svg_text_utils":718,"../../plots/plots":805,"../../registry":825,"./autorange":741,"./axis_autotype":743,"./axis_ids":745,"./layout_attributes":754,"./set_convert":760,"d3":147,"fast-isnumeric":213}],743:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var Lib = _dereq_('../../lib');
var BADNUM = _dereq_('../../constants/numerical').BADNUM;
module.exports = function autoType(array, calendar) {
if(moreDates(array, calendar)) return 'date';
if(category(array)) return 'category';
if(linearOK(array)) return 'linear';
else return '-';
};
// is there at least one number in array? If not, we should leave
// ax.type empty so it can be autoset later
function linearOK(array) {
if(!array) return false;
for(var i = 0; i < array.length; i++) {
if(isNumeric(array[i])) return true;
}
return false;
}
// does the array a have mostly dates rather than numbers?
// note: some values can be neither (such as blanks, text)
// 2- or 4-digit integers can be both, so require twice as many
// dates as non-dates, to exclude cases with mostly 2 & 4 digit
// numbers and a few dates
function moreDates(a, calendar) {
var dcnt = 0,
ncnt = 0,
// test at most 1000 points, evenly spaced
inc = Math.max(1, (a.length - 1) / 1000),
ai;
for(var i = 0; i < a.length; i += inc) {
ai = a[Math.round(i)];
if(Lib.isDateTime(ai, calendar)) dcnt += 1;
if(isNumeric(ai)) ncnt += 1;
}
return (dcnt > ncnt * 2);
}
// are the (x,y)-values in gd.data mostly text?
// require twice as many categories as numbers
function category(a) {
// test at most 1000 points
var inc = Math.max(1, (a.length - 1) / 1000),
curvenums = 0,
curvecats = 0,
ai;
for(var i = 0; i < a.length; i += inc) {
ai = a[Math.round(i)];
if(Lib.cleanNumber(ai) !== BADNUM) curvenums++;
else if(typeof ai === 'string' && ai !== '' && ai !== 'None') curvecats++;
}
return curvecats > curvenums * 2;
}
},{"../../constants/numerical":670,"../../lib":693,"fast-isnumeric":213}],744:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var layoutAttributes = _dereq_('./layout_attributes');
var handleTickValueDefaults = _dereq_('./tick_value_defaults');
var handleTickMarkDefaults = _dereq_('./tick_mark_defaults');
var handleTickLabelDefaults = _dereq_('./tick_label_defaults');
var handleCategoryOrderDefaults = _dereq_('./category_order_defaults');
var handleLineGridDefaults = _dereq_('./line_grid_defaults');
var setConvert = _dereq_('./set_convert');
/**
* options: object containing:
*
* letter: 'x' or 'y'
* title: name of the axis (ie 'Colorbar') to go in default title
* font: the default font to inherit
* outerTicks: boolean, should ticks default to outside?
* showGrid: boolean, should gridlines be shown by default?
* noHover: boolean, this axis doesn't support hover effects?
* data: the plot data, used to manage categories
* bgColor: the plot background color, to calculate default gridline colors
*/
module.exports = function handleAxisDefaults(containerIn, containerOut, coerce, options, layoutOut) {
var letter = options.letter;
var font = options.font || {};
var splomStash = options.splomStash || {};
var visible = coerce('visible', !options.cheateronly);
var axType = containerOut.type;
if(axType === 'date') {
var handleCalendarDefaults = Registry.getComponentMethod('calendars', 'handleDefaults');
handleCalendarDefaults(containerIn, containerOut, 'calendar', options.calendar);
}
setConvert(containerOut, layoutOut);
var autoRange = coerce('autorange', !containerOut.isValidRange(containerIn.range));
if(autoRange && (axType === 'linear' || axType === '-')) coerce('rangemode');
coerce('range');
containerOut.cleanRange();
handleCategoryOrderDefaults(containerIn, containerOut, coerce, options);
if(axType !== 'category' && !options.noHover) coerce('hoverformat');
if(!visible) return containerOut;
var dfltColor = coerce('color');
// if axis.color was provided, use it for fonts too; otherwise,
// inherit from global font color in case that was provided.
// Compare to dflt rather than to containerIn, so we can provide color via
// template too.
var dfltFontColor = (dfltColor !== layoutAttributes.color.dflt) ? dfltColor : font.color;
// try to get default title from splom trace, fallback to graph-wide value
var dfltTitle = splomStash.label || layoutOut._dfltTitle[letter];
coerce('title', dfltTitle);
Lib.coerceFont(coerce, 'titlefont', {
family: font.family,
size: Math.round(font.size * 1.2),
color: dfltFontColor
});
handleTickValueDefaults(containerIn, containerOut, coerce, axType);
handleTickLabelDefaults(containerIn, containerOut, coerce, axType, options);
handleTickMarkDefaults(containerIn, containerOut, coerce, options);
handleLineGridDefaults(containerIn, containerOut, coerce, {
dfltColor: dfltColor,
bgColor: options.bgColor,
showGrid: options.showGrid,
attributes: layoutAttributes
});
if(containerOut.showline || containerOut.ticks) coerce('mirror');
if(options.automargin) coerce('automargin');
return containerOut;
};
},{"../../lib":693,"../../registry":825,"./category_order_defaults":746,"./layout_attributes":754,"./line_grid_defaults":756,"./set_convert":760,"./tick_label_defaults":761,"./tick_mark_defaults":762,"./tick_value_defaults":763}],745:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
var constants = _dereq_('./constants');
// convert between axis names (xaxis, xaxis2, etc, elements of gd.layout)
// and axis id's (x, x2, etc). Would probably have ditched 'xaxis'
// completely in favor of just 'x' if it weren't ingrained in the API etc.
exports.id2name = function id2name(id) {
if(typeof id !== 'string' || !id.match(constants.AX_ID_PATTERN)) return;
var axNum = id.substr(1);
if(axNum === '1') axNum = '';
return id.charAt(0) + 'axis' + axNum;
};
exports.name2id = function name2id(name) {
if(!name.match(constants.AX_NAME_PATTERN)) return;
var axNum = name.substr(5);
if(axNum === '1') axNum = '';
return name.charAt(0) + axNum;
};
exports.cleanId = function cleanId(id, axLetter) {
if(!id.match(constants.AX_ID_PATTERN)) return;
if(axLetter && id.charAt(0) !== axLetter) return;
var axNum = id.substr(1).replace(/^0+/, '');
if(axNum === '1') axNum = '';
return id.charAt(0) + axNum;
};
// get all axis objects, as restricted in listNames
exports.list = function(gd, axLetter, only2d) {
var fullLayout = gd._fullLayout;
if(!fullLayout) return [];
var idList = exports.listIds(gd, axLetter);
var out = new Array(idList.length);
var i;
for(i = 0; i < idList.length; i++) {
var idi = idList[i];
out[i] = fullLayout[idi.charAt(0) + 'axis' + idi.substr(1)];
}
if(!only2d) {
var sceneIds3D = fullLayout._subplots.gl3d || [];
for(i = 0; i < sceneIds3D.length; i++) {
var scene = fullLayout[sceneIds3D[i]];
if(axLetter) out.push(scene[axLetter + 'axis']);
else out.push(scene.xaxis, scene.yaxis, scene.zaxis);
}
}
return out;
};
// get all axis ids, optionally restricted by letter
// this only makes sense for 2d axes
exports.listIds = function(gd, axLetter) {
var fullLayout = gd._fullLayout;
if(!fullLayout) return [];
var subplotLists = fullLayout._subplots;
if(axLetter) return subplotLists[axLetter + 'axis'];
return subplotLists.xaxis.concat(subplotLists.yaxis);
};
// get an axis object from its id 'x','x2' etc
// optionally, id can be a subplot (ie 'x2y3') and type gets x or y from it
exports.getFromId = function(gd, id, type) {
var fullLayout = gd._fullLayout;
if(type === 'x') id = id.replace(/y[0-9]*/, '');
else if(type === 'y') id = id.replace(/x[0-9]*/, '');
return fullLayout[exports.id2name(id)];
};
// get an axis object of specified type from the containing trace
exports.getFromTrace = function(gd, fullTrace, type) {
var fullLayout = gd._fullLayout;
var ax = null;
if(Registry.traceIs(fullTrace, 'gl3d')) {
var scene = fullTrace.scene;
if(scene.substr(0, 5) === 'scene') {
ax = fullLayout[scene][type + 'axis'];
}
}
else {
ax = exports.getFromId(gd, fullTrace[type + 'axis'] || type);
}
return ax;
};
// sort x, x2, x10, y, y2, y10...
exports.idSort = function(id1, id2) {
var letter1 = id1.charAt(0);
var letter2 = id2.charAt(0);
if(letter1 !== letter2) return letter1 > letter2 ? 1 : -1;
return +(id1.substr(1) || 1) - +(id2.substr(1) || 1);
};
},{"../../registry":825,"./constants":747}],746:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
function findCategories(ax, opts) {
var dataAttr = opts.dataAttr || ax._id.charAt(0);
var lookup = {};
var axData;
var i, j;
if(opts.axData) {
// non-x/y case
axData = opts.axData;
} else {
// x/y case
axData = [];
for(i = 0; i < opts.data.length; i++) {
var trace = opts.data[i];
if(trace[dataAttr + 'axis'] === ax._id) {
axData.push(trace);
}
}
}
for(i = 0; i < axData.length; i++) {
var vals = axData[i][dataAttr];
for(j = 0; j < vals.length; j++) {
var v = vals[j];
if(v !== null && v !== undefined) {
lookup[v] = 1;
}
}
}
return Object.keys(lookup);
}
/**
* Fills in category* default and initial categories.
*
* @param {object} containerIn : input axis object
* @param {object} containerOut : full axis object
* @param {function} coerce : Lib.coerce fn wrapper
* @param {object} opts :
* - data {array} : (full) data trace
* OR
* - axData {array} : (full) data associated with axis being coerced here
* - dataAttr {string} : attribute name corresponding to coordinate array
*/
module.exports = function handleCategoryOrderDefaults(containerIn, containerOut, coerce, opts) {
if(containerOut.type !== 'category') return;
var arrayIn = containerIn.categoryarray;
var isValidArray = (Array.isArray(arrayIn) && arrayIn.length > 0);
// override default 'categoryorder' value when non-empty array is supplied
var orderDefault;
if(isValidArray) orderDefault = 'array';
var order = coerce('categoryorder', orderDefault);
var array;
// coerce 'categoryarray' only in array order case
if(order === 'array') {
array = coerce('categoryarray');
}
// cannot set 'categoryorder' to 'array' with an invalid 'categoryarray'
if(!isValidArray && order === 'array') {
order = containerOut.categoryorder = 'trace';
}
// set up things for makeCalcdata
if(order === 'trace') {
containerOut._initialCategories = [];
} else if(order === 'array') {
containerOut._initialCategories = array.slice();
} else {
array = findCategories(containerOut, opts).sort();
if(order === 'category ascending') {
containerOut._initialCategories = array;
} else if(order === 'category descending') {
containerOut._initialCategories = array.reverse();
}
}
};
},{}],747:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var counterRegex = _dereq_('../../lib/regex').counter;
module.exports = {
idRegex: {
x: counterRegex('x'),
y: counterRegex('y')
},
attrRegex: counterRegex('[xy]axis'),
// axis match regular expression
xAxisMatch: counterRegex('xaxis'),
yAxisMatch: counterRegex('yaxis'),
// pattern matching axis ids and names
// note that this is more permissive than counterRegex, as
// id2name, name2id, and cleanId accept "x1" etc
AX_ID_PATTERN: /^[xyz][0-9]*$/,
AX_NAME_PATTERN: /^[xyz]axis[0-9]*$/,
// and for 2D subplots
SUBPLOT_PATTERN: /^x([0-9]*)y([0-9]*)$/,
// pixels to move mouse before you stop clamping to starting point
MINDRAG: 8,
// smallest dimension allowed for a select box
MINSELECT: 12,
// smallest dimension allowed for a zoombox
MINZOOM: 20,
// width of axis drag regions
DRAGGERSIZE: 20,
// max pixels off straight before a lasso select line counts as bent
BENDPX: 1.5,
// delay before a redraw (relayout) after smooth panning and zooming
REDRAWDELAY: 50,
// throttling limit (ms) for selectPoints calls
SELECTDELAY: 100,
// cache ID suffix for throttle
SELECTID: '-select',
// last resort axis ranges for x and y axes if we have no data
DFLTRANGEX: [-1, 6],
DFLTRANGEY: [-1, 4],
// Layers to keep trace types in the right order
// N.B. each 'unique' plot method must have its own layer
traceLayerClasses: [
'heatmaplayer',
'contourcarpetlayer', 'contourlayer',
'barlayer',
'carpetlayer',
'violinlayer',
'boxlayer',
'ohlclayer',
'scattercarpetlayer', 'scatterlayer'
],
layerValue2layerClass: {
'above traces': 'above',
'below traces': 'below'
}
};
},{"../../lib/regex":710}],748:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var id2name = _dereq_('./axis_ids').id2name;
module.exports = function handleConstraintDefaults(containerIn, containerOut, coerce, allAxisIds, layoutOut) {
var constraintGroups = layoutOut._axisConstraintGroups;
var thisID = containerOut._id;
var letter = thisID.charAt(0);
if(containerOut.fixedrange) return;
// coerce the constraint mechanics even if this axis has no scaleanchor
// because it may be the anchor of another axis.
coerce('constrain');
Lib.coerce(containerIn, containerOut, {
constraintoward: {
valType: 'enumerated',
values: letter === 'x' ? ['left', 'center', 'right'] : ['bottom', 'middle', 'top'],
dflt: letter === 'x' ? 'center' : 'middle'
}
}, 'constraintoward');
if(!containerIn.scaleanchor) return;
var constraintOpts = getConstraintOpts(constraintGroups, thisID, allAxisIds, layoutOut);
var scaleanchor = Lib.coerce(containerIn, containerOut, {
scaleanchor: {
valType: 'enumerated',
values: constraintOpts.linkableAxes
}
}, 'scaleanchor');
if(scaleanchor) {
var scaleratio = coerce('scaleratio');
// TODO: I suppose I could do attribute.min: Number.MIN_VALUE to avoid zero,
// but that seems hacky. Better way to say "must be a positive number"?
// Of course if you use several super-tiny values you could eventually
// force a product of these to zero and all hell would break loose...
// Likewise with super-huge values.
if(!scaleratio) scaleratio = containerOut.scaleratio = 1;
updateConstraintGroups(constraintGroups, constraintOpts.thisGroup,
thisID, scaleanchor, scaleratio);
}
else if(allAxisIds.indexOf(containerIn.scaleanchor) !== -1) {
Lib.warn('ignored ' + containerOut._name + '.scaleanchor: "' +
containerIn.scaleanchor + '" to avoid either an infinite loop ' +
'and possibly inconsistent scaleratios, or because the target' +
'axis has fixed range.');
}
};
function getConstraintOpts(constraintGroups, thisID, allAxisIds, layoutOut) {
// If this axis is already part of a constraint group, we can't
// scaleanchor any other axis in that group, or we'd make a loop.
// Filter allAxisIds to enforce this, also matching axis types.
var thisType = layoutOut[id2name(thisID)].type;
var i, j, idj, axj;
var linkableAxes = [];
for(j = 0; j < allAxisIds.length; j++) {
idj = allAxisIds[j];
if(idj === thisID) continue;
axj = layoutOut[id2name(idj)];
if(axj.type === thisType && !axj.fixedrange) linkableAxes.push(idj);
}
for(i = 0; i < constraintGroups.length; i++) {
if(constraintGroups[i][thisID]) {
var thisGroup = constraintGroups[i];
var linkableAxesNoLoops = [];
for(j = 0; j < linkableAxes.length; j++) {
idj = linkableAxes[j];
if(!thisGroup[idj]) linkableAxesNoLoops.push(idj);
}
return {linkableAxes: linkableAxesNoLoops, thisGroup: thisGroup};
}
}
return {linkableAxes: linkableAxes, thisGroup: null};
}
/*
* Add this axis to the axis constraint groups, which is the collection
* of axes that are all constrained together on scale.
*
* constraintGroups: a list of objects. each object is
* {axis_id: scale_within_group}, where scale_within_group is
* only important relative to the rest of the group, and defines
* the relative scales between all axes in the group
*
* thisGroup: the group the current axis is already in
* thisID: the id if the current axis
* scaleanchor: the id of the axis to scale it with
* scaleratio: the ratio of this axis to the scaleanchor axis
*/
function updateConstraintGroups(constraintGroups, thisGroup, thisID, scaleanchor, scaleratio) {
var i, j, groupi, keyj, thisGroupIndex;
if(thisGroup === null) {
thisGroup = {};
thisGroup[thisID] = 1;
thisGroupIndex = constraintGroups.length;
constraintGroups.push(thisGroup);
}
else {
thisGroupIndex = constraintGroups.indexOf(thisGroup);
}
var thisGroupKeys = Object.keys(thisGroup);
// we know that this axis isn't in any other groups, but we don't know
// about the scaleanchor axis. If it is, we need to merge the groups.
for(i = 0; i < constraintGroups.length; i++) {
groupi = constraintGroups[i];
if(i !== thisGroupIndex && groupi[scaleanchor]) {
var baseScale = groupi[scaleanchor];
for(j = 0; j < thisGroupKeys.length; j++) {
keyj = thisGroupKeys[j];
groupi[keyj] = baseScale * scaleratio * thisGroup[keyj];
}
constraintGroups.splice(thisGroupIndex, 1);
return;
}
}
// otherwise, we insert the new scaleanchor axis as the base scale (1)
// in its group, and scale the rest of the group to it
if(scaleratio !== 1) {
for(j = 0; j < thisGroupKeys.length; j++) {
thisGroup[thisGroupKeys[j]] *= scaleratio;
}
}
thisGroup[scaleanchor] = 1;
}
},{"../../lib":693,"./axis_ids":745}],749:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var id2name = _dereq_('./axis_ids').id2name;
var scaleZoom = _dereq_('./scale_zoom');
var makePadFn = _dereq_('./autorange').makePadFn;
var concatExtremes = _dereq_('./autorange').concatExtremes;
var ALMOST_EQUAL = _dereq_('../../constants/numerical').ALMOST_EQUAL;
var FROM_BL = _dereq_('../../constants/alignment').FROM_BL;
exports.enforce = function enforceAxisConstraints(gd) {
var fullLayout = gd._fullLayout;
var constraintGroups = fullLayout._axisConstraintGroups || [];
var i, j, axisID, ax, normScale, mode, factor;
for(i = 0; i < constraintGroups.length; i++) {
var group = constraintGroups[i];
var axisIDs = Object.keys(group);
var minScale = Infinity;
var maxScale = 0;
// mostly matchScale will be the same as minScale
// ie we expand axis ranges to encompass *everything*
// that's currently in any of their ranges, but during
// autorange of a subset of axes we will ignore other
// axes for this purpose.
var matchScale = Infinity;
var normScales = {};
var axes = {};
var hasAnyDomainConstraint = false;
// find the (normalized) scale of each axis in the group
for(j = 0; j < axisIDs.length; j++) {
axisID = axisIDs[j];
axes[axisID] = ax = fullLayout[id2name(axisID)];
if(ax._inputDomain) ax.domain = ax._inputDomain.slice();
else ax._inputDomain = ax.domain.slice();
if(!ax._inputRange) ax._inputRange = ax.range.slice();
// set axis scale here so we can use _m rather than
// having to calculate it from length and range
ax.setScale();
// abs: inverted scales still satisfy the constraint
normScales[axisID] = normScale = Math.abs(ax._m) / group[axisID];
minScale = Math.min(minScale, normScale);
if(ax.constrain === 'domain' || !ax._constraintShrinkable) {
matchScale = Math.min(matchScale, normScale);
}
// this has served its purpose, so remove it
delete ax._constraintShrinkable;
maxScale = Math.max(maxScale, normScale);
if(ax.constrain === 'domain') hasAnyDomainConstraint = true;
}
// Do we have a constraint mismatch? Give a small buffer for rounding errors
if(minScale > ALMOST_EQUAL * maxScale && !hasAnyDomainConstraint) continue;
// now increase any ranges we need to until all normalized scales are equal
for(j = 0; j < axisIDs.length; j++) {
axisID = axisIDs[j];
normScale = normScales[axisID];
ax = axes[axisID];
mode = ax.constrain;
// even if the scale didn't change, if we're shrinking domain
// we need to recalculate in case `constraintoward` changed
if(normScale !== matchScale || mode === 'domain') {
factor = normScale / matchScale;
if(mode === 'range') {
scaleZoom(ax, factor);
}
else {
// mode === 'domain'
var inputDomain = ax._inputDomain;
var domainShrunk = (ax.domain[1] - ax.domain[0]) /
(inputDomain[1] - inputDomain[0]);
var rangeShrunk = (ax.r2l(ax.range[1]) - ax.r2l(ax.range[0])) /
(ax.r2l(ax._inputRange[1]) - ax.r2l(ax._inputRange[0]));
factor /= domainShrunk;
if(factor * rangeShrunk < 1) {
// we've asked to magnify the axis more than we can just by
// enlarging the domain - so we need to constrict range
ax.domain = ax._input.domain = inputDomain.slice();
scaleZoom(ax, factor);
continue;
}
if(rangeShrunk < 1) {
// the range has previously been constricted by ^^, but we've
// switched to the domain-constricted regime, so reset range
ax.range = ax._input.range = ax._inputRange.slice();
factor *= rangeShrunk;
}
if(ax.autorange) {
/*
* range & factor may need to change because range was
* calculated for the larger scaling, so some pixel
* paddings may get cut off when we reduce the domain.
*
* This is easier than the regular autorange calculation
* because we already know the scaling `m`, but we still
* need to cut out impossible constraints (like
* annotations with super-long arrows). That's what
* outerMin/Max are for - if the expansion was going to
* go beyond the original domain, it must be impossible
*/
var rl0 = ax.r2l(ax.range[0]);
var rl1 = ax.r2l(ax.range[1]);
var rangeCenter = (rl0 + rl1) / 2;
var rangeMin = rangeCenter;
var rangeMax = rangeCenter;
var halfRange = Math.abs(rl1 - rangeCenter);
// extra tiny bit for rounding errors, in case we actually
// *are* expanding to the full domain
var outerMin = rangeCenter - halfRange * factor * 1.0001;
var outerMax = rangeCenter + halfRange * factor * 1.0001;
var getPad = makePadFn(ax);
updateDomain(ax, factor);
ax.setScale();
var m = Math.abs(ax._m);
var extremes = concatExtremes(gd, ax);
var minArray = extremes.min;
var maxArray = extremes.max;
var newVal;
var k;
for(k = 0; k < minArray.length; k++) {
newVal = minArray[k].val - getPad(minArray[k]) / m;
if(newVal > outerMin && newVal < rangeMin) {
rangeMin = newVal;
}
}
for(k = 0; k < maxArray.length; k++) {
newVal = maxArray[k].val + getPad(maxArray[k]) / m;
if(newVal < outerMax && newVal > rangeMax) {
rangeMax = newVal;
}
}
var domainExpand = (rangeMax - rangeMin) / (2 * halfRange);
factor /= domainExpand;
rangeMin = ax.l2r(rangeMin);
rangeMax = ax.l2r(rangeMax);
ax.range = ax._input.range = (rl0 < rl1) ?
[rangeMin, rangeMax] : [rangeMax, rangeMin];
}
updateDomain(ax, factor);
}
}
}
}
};
// For use before autoranging, check if this axis was previously constrained
// by domain but no longer is
exports.clean = function cleanConstraints(gd, ax) {
if(ax._inputDomain) {
var isConstrained = false;
var axId = ax._id;
var constraintGroups = gd._fullLayout._axisConstraintGroups;
for(var j = 0; j < constraintGroups.length; j++) {
if(constraintGroups[j][axId]) {
isConstrained = true;
break;
}
}
if(!isConstrained || ax.constrain !== 'domain') {
ax._input.domain = ax.domain = ax._inputDomain;
delete ax._inputDomain;
}
}
};
function updateDomain(ax, factor) {
var inputDomain = ax._inputDomain;
var centerFraction = FROM_BL[ax.constraintoward];
var center = inputDomain[0] + (inputDomain[1] - inputDomain[0]) * centerFraction;
ax.domain = ax._input.domain = [
center + (inputDomain[0] - center) / factor,
center + (inputDomain[1] - center) / factor
];
}
},{"../../constants/alignment":665,"../../constants/numerical":670,"./autorange":741,"./axis_ids":745,"./scale_zoom":758}],750:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var tinycolor = _dereq_('tinycolor2');
var supportsPassive = _dereq_('has-passive-events');
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var svgTextUtils = _dereq_('../../lib/svg_text_utils');
var clearGlCanvases = _dereq_('../../lib/clear_gl_canvases');
var Color = _dereq_('../../components/color');
var Drawing = _dereq_('../../components/drawing');
var Fx = _dereq_('../../components/fx');
var setCursor = _dereq_('../../lib/setcursor');
var dragElement = _dereq_('../../components/dragelement');
var FROM_TL = _dereq_('../../constants/alignment').FROM_TL;
var Plots = _dereq_('../plots');
var doTicksSingle = _dereq_('./axes').doTicksSingle;
var getFromId = _dereq_('./axis_ids').getFromId;
var prepSelect = _dereq_('./select').prepSelect;
var clearSelect = _dereq_('./select').clearSelect;
var selectOnClick = _dereq_('./select').selectOnClick;
var scaleZoom = _dereq_('./scale_zoom');
var constants = _dereq_('./constants');
var MINDRAG = constants.MINDRAG;
var MINZOOM = constants.MINZOOM;
// flag for showing "doubleclick to zoom out" only at the beginning
var SHOWZOOMOUTTIP = true;
// dragBox: create an element to drag one or more axis ends
// inputs:
// plotinfo - which subplot are we making dragboxes on?
// x,y,w,h - left, top, width, height of the box
// ns - how does this drag the vertical axis?
// 'n' - top only
// 's' - bottom only
// 'ns' - top and bottom together, difference unchanged
// ew - same for horizontal axis
function makeDragBox(gd, plotinfo, x, y, w, h, ns, ew) {
// mouseDown stores ms of first mousedown event in the last
// DBLCLICKDELAY ms on the drag bars
// numClicks stores how many mousedowns have been seen
// within DBLCLICKDELAY so we can check for click or doubleclick events
// dragged stores whether a drag has occurred, so we don't have to
// redraw unnecessarily, ie if no move bigger than MINDRAG or MINZOOM px
var zoomlayer = gd._fullLayout._zoomlayer;
var isMainDrag = (ns + ew === 'nsew');
var singleEnd = (ns + ew).length === 1;
// main subplot x and y (i.e. found in plotinfo - the main ones)
var xa0, ya0;
// {ax._id: ax} hash objects
var xaHash, yaHash;
// xaHash/yaHash values (arrays)
var xaxes, yaxes;
// main axis offsets
var xs, ys;
// main axis lengths
var pw, ph;
// contains keys 'xaHash', 'yaHash', 'xaxes', and 'yaxes'
// which are the x/y {ax._id: ax} hash objects and their values
// for linked axis relative to this subplot
var links;
// set to ew/ns val when active, set to '' when inactive
var xActive, yActive;
// are all axes in this subplot are fixed?
var allFixedRanges;
// is subplot constrained?
var isSubplotConstrained;
// do we need to edit x/y ranges?
var editX, editY;
// graph-wide optimization flags
var hasScatterGl, hasOnlyLargeSploms, hasSplom, hasSVG;
// collected changes to be made to the plot by relayout at the end
var updates;
function recomputeAxisLists() {
xa0 = plotinfo.xaxis;
ya0 = plotinfo.yaxis;
pw = xa0._length;
ph = ya0._length;
xs = xa0._offset;
ys = ya0._offset;
xaHash = {};
xaHash[xa0._id] = xa0;
yaHash = {};
yaHash[ya0._id] = ya0;
// if we're dragging two axes at once, also drag overlays
if(ns && ew) {
var overlays = plotinfo.overlays;
for(var i = 0; i < overlays.length; i++) {
var xa = overlays[i].xaxis;
xaHash[xa._id] = xa;
var ya = overlays[i].yaxis;
yaHash[ya._id] = ya;
}
}
xaxes = hashValues(xaHash);
yaxes = hashValues(yaHash);
xActive = isDirectionActive(xaxes, ew);
yActive = isDirectionActive(yaxes, ns);
allFixedRanges = !yActive && !xActive;
links = calcLinks(gd, xaHash, yaHash);
isSubplotConstrained = links.isSubplotConstrained;
editX = ew || isSubplotConstrained;
editY = ns || isSubplotConstrained;
var fullLayout = gd._fullLayout;
hasScatterGl = fullLayout._has('scattergl');
hasOnlyLargeSploms = fullLayout._hasOnlyLargeSploms;
hasSplom = hasOnlyLargeSploms || fullLayout._has('splom');
hasSVG = fullLayout._has('svg');
}
recomputeAxisLists();
var cursor = getDragCursor(yActive + xActive, gd._fullLayout.dragmode, isMainDrag);
var dragger = makeRectDragger(plotinfo, ns + ew + 'drag', cursor, x, y, w, h);
// still need to make the element if the axes are disabled
// but nuke its events (except for maindrag which needs them for hover)
// and stop there
if(allFixedRanges && !isMainDrag) {
dragger.onmousedown = null;
dragger.style.pointerEvents = 'none';
return dragger;
}
var dragOptions = {
element: dragger,
gd: gd,
plotinfo: plotinfo
};
dragOptions.prepFn = function(e, startX, startY) {
var dragModePrev = dragOptions.dragmode;
var dragModeNow = gd._fullLayout.dragmode;
if(dragModeNow !== dragModePrev) {
dragOptions.dragmode = dragModeNow;
}
recomputeAxisLists();
if(!allFixedRanges) {
if(isMainDrag) {
// main dragger handles all drag modes, and changes
// to pan (or to zoom if it already is pan) on shift
if(e.shiftKey) {
if(dragModeNow === 'pan') dragModeNow = 'zoom';
else if(!isSelectOrLasso(dragModeNow)) dragModeNow = 'pan';
}
else if(e.ctrlKey) {
dragModeNow = 'pan';
}
}
// all other draggers just pan
else dragModeNow = 'pan';
}
if(dragModeNow === 'lasso') dragOptions.minDrag = 1;
else dragOptions.minDrag = undefined;
if(isSelectOrLasso(dragModeNow)) {
dragOptions.xaxes = xaxes;
dragOptions.yaxes = yaxes;
// this attaches moveFn, clickFn, doneFn on dragOptions
prepSelect(e, startX, startY, dragOptions, dragModeNow);
} else {
dragOptions.clickFn = clickFn;
if(isSelectOrLasso(dragModePrev)) {
// TODO Fix potential bug
// Note: clearing / resetting selection state only happens, when user
// triggers at least one interaction in pan/zoom mode. Otherwise, the
// select/lasso outlines are deleted (in plots.js.cleanPlot) but the selection
// cache isn't cleared. So when the user switches back to select/lasso and
// 'adds to a selection' with Shift, the "old", seemingly removed outlines
// are redrawn again because the selection cache still holds their coordinates.
// However, this isn't easily solved, since plots.js would need
// to have a reference to the dragOptions object (which holds the
// selection cache).
clearAndResetSelect();
}
if(!allFixedRanges) {
if(dragModeNow === 'zoom') {
dragOptions.moveFn = zoomMove;
dragOptions.doneFn = zoomDone;
// zoomMove takes care of the threshold, but we need to
// minimize this so that constrained zoom boxes will flip
// orientation at the right place
dragOptions.minDrag = 1;
zoomPrep(e, startX, startY);
} else if(dragModeNow === 'pan') {
dragOptions.moveFn = plotDrag;
dragOptions.doneFn = dragTail;
}
}
}
};
function clearAndResetSelect() {
// clear selection polygon cache (if any)
dragOptions.plotinfo.selection = false;
// clear selection outlines
clearSelect(zoomlayer);
}
function clickFn(numClicks, evt) {
var clickmode = gd._fullLayout.clickmode;
removeZoombox(gd);
if(numClicks === 2 && !singleEnd) doubleClick();
if(isMainDrag) {
if(clickmode.indexOf('select') > -1) {
selectOnClick(evt, gd, xaxes, yaxes, plotinfo.id, dragOptions);
}
if(clickmode.indexOf('event') > -1) {
Fx.click(gd, evt, plotinfo.id);
}
}
else if(numClicks === 1 && singleEnd) {
var ax = ns ? ya0 : xa0,
end = (ns === 's' || ew === 'w') ? 0 : 1,
attrStr = ax._name + '.range[' + end + ']',
initialText = getEndText(ax, end),
hAlign = 'left',
vAlign = 'middle';
if(ax.fixedrange) return;
if(ns) {
vAlign = (ns === 'n') ? 'top' : 'bottom';
if(ax.side === 'right') hAlign = 'right';
}
else if(ew === 'e') hAlign = 'right';
if(gd._context.showAxisRangeEntryBoxes) {
d3.select(dragger)
.call(svgTextUtils.makeEditable, {
gd: gd,
immediate: true,
background: gd._fullLayout.paper_bgcolor,
text: String(initialText),
fill: ax.tickfont ? ax.tickfont.color : '#444',
horizontalAlign: hAlign,
verticalAlign: vAlign
})
.on('edit', function(text) {
var v = ax.d2r(text);
if(v !== undefined) {
Registry.call('relayout', gd, attrStr, v);
}
});
}
}
}
dragElement.init(dragOptions);
var x0,
y0,
box,
lum,
path0,
dimmed,
zoomMode,
zb,
corners;
// zoom takes over minDrag, so it also has to take over gd._dragged
var zoomDragged;
function zoomPrep(e, startX, startY) {
var dragBBox = dragger.getBoundingClientRect();
x0 = startX - dragBBox.left;
y0 = startY - dragBBox.top;
box = {l: x0, r: x0, w: 0, t: y0, b: y0, h: 0};
lum = gd._hmpixcount ?
(gd._hmlumcount / gd._hmpixcount) :
tinycolor(gd._fullLayout.plot_bgcolor).getLuminance();
path0 = 'M0,0H' + pw + 'V' + ph + 'H0V0';
dimmed = false;
zoomMode = 'xy';
zoomDragged = false;
zb = makeZoombox(zoomlayer, lum, xs, ys, path0);
corners = makeCorners(zoomlayer, xs, ys);
}
function zoomMove(dx0, dy0) {
if(gd._transitioningWithDuration) {
return false;
}
var x1 = Math.max(0, Math.min(pw, dx0 + x0)),
y1 = Math.max(0, Math.min(ph, dy0 + y0)),
dx = Math.abs(x1 - x0),
dy = Math.abs(y1 - y0);
box.l = Math.min(x0, x1);
box.r = Math.max(x0, x1);
box.t = Math.min(y0, y1);
box.b = Math.max(y0, y1);
function noZoom() {
zoomMode = '';
box.r = box.l;
box.t = box.b;
corners.attr('d', 'M0,0Z');
}
if(isSubplotConstrained) {
if(dx > MINZOOM || dy > MINZOOM) {
zoomMode = 'xy';
if(dx / pw > dy / ph) {
dy = dx * ph / pw;
if(y0 > y1) box.t = y0 - dy;
else box.b = y0 + dy;
}
else {
dx = dy * pw / ph;
if(x0 > x1) box.l = x0 - dx;
else box.r = x0 + dx;
}
corners.attr('d', xyCorners(box));
}
else {
noZoom();
}
}
// look for small drags in one direction or the other,
// and only drag the other axis
else if(!yActive || dy < Math.min(Math.max(dx * 0.6, MINDRAG), MINZOOM)) {
if(dx < MINDRAG || !xActive) {
noZoom();
} else {
box.t = 0;
box.b = ph;
zoomMode = 'x';
corners.attr('d', xCorners(box, y0));
}
}
else if(!xActive || dx < Math.min(dy * 0.6, MINZOOM)) {
box.l = 0;
box.r = pw;
zoomMode = 'y';
corners.attr('d', yCorners(box, x0));
}
else {
zoomMode = 'xy';
corners.attr('d', xyCorners(box));
}
box.w = box.r - box.l;
box.h = box.b - box.t;
if(zoomMode) zoomDragged = true;
gd._dragged = zoomDragged;
updateZoombox(zb, corners, box, path0, dimmed, lum);
dimmed = true;
}
function zoomDone() {
updates = {};
// more strict than dragged, which allows you to come back to where you started
// and still count as dragged
if(Math.min(box.h, box.w) < MINDRAG * 2) {
return removeZoombox(gd);
}
// TODO: edit linked axes in zoomAxRanges and in dragTail
if(zoomMode === 'xy' || zoomMode === 'x') {
zoomAxRanges(xaxes, box.l / pw, box.r / pw, updates, links.xaxes);
}
if(zoomMode === 'xy' || zoomMode === 'y') {
zoomAxRanges(yaxes, (ph - box.b) / ph, (ph - box.t) / ph, updates, links.yaxes);
}
removeZoombox(gd);
dragTail();
showDoubleClickNotifier(gd);
}
// scroll zoom, on all draggers except corners
var scrollViewBox = [0, 0, pw, ph];
// wait a little after scrolling before redrawing
var redrawTimer = null;
var REDRAWDELAY = constants.REDRAWDELAY;
var mainplot = plotinfo.mainplot ? gd._fullLayout._plots[plotinfo.mainplot] : plotinfo;
function zoomWheel(e) {
// deactivate mousewheel scrolling on embedded graphs
// devs can override this with layout._enablescrollzoom,
// but _ ensures this setting won't leave their page
if(!gd._context.scrollZoom && !gd._fullLayout._enablescrollzoom) {
return;
}
clearAndResetSelect();
// If a transition is in progress, then disable any behavior:
if(gd._transitioningWithDuration) {
e.preventDefault();
e.stopPropagation();
return;
}
var pc = gd.querySelector('.plotly');
recomputeAxisLists();
// if the plot has scrollbars (more than a tiny excess)
// disable scrollzoom too.
if(pc.scrollHeight - pc.clientHeight > 10 ||
pc.scrollWidth - pc.clientWidth > 10) {
return;
}
clearTimeout(redrawTimer);
var wheelDelta = -e.deltaY;
if(!isFinite(wheelDelta)) wheelDelta = e.wheelDelta / 10;
if(!isFinite(wheelDelta)) {
Lib.log('Did not find wheel motion attributes: ', e);
return;
}
var zoom = Math.exp(-Math.min(Math.max(wheelDelta, -20), 20) / 200),
gbb = mainplot.draglayer.select('.nsewdrag')
.node().getBoundingClientRect(),
xfrac = (e.clientX - gbb.left) / gbb.width,
yfrac = (gbb.bottom - e.clientY) / gbb.height,
i;
function zoomWheelOneAxis(ax, centerFraction, zoom) {
if(ax.fixedrange) return;
var axRange = Lib.simpleMap(ax.range, ax.r2l),
v0 = axRange[0] + (axRange[1] - axRange[0]) * centerFraction;
function doZoom(v) { return ax.l2r(v0 + (v - v0) * zoom); }
ax.range = axRange.map(doZoom);
}
if(editX) {
// if we're only zooming this axis because of constraints,
// zoom it about the center
if(!ew) xfrac = 0.5;
for(i = 0; i < xaxes.length; i++) {
zoomWheelOneAxis(xaxes[i], xfrac, zoom);
}
scrollViewBox[2] *= zoom;
scrollViewBox[0] += scrollViewBox[2] * xfrac * (1 / zoom - 1);
}
if(editY) {
if(!ns) yfrac = 0.5;
for(i = 0; i < yaxes.length; i++) {
zoomWheelOneAxis(yaxes[i], yfrac, zoom);
}
scrollViewBox[3] *= zoom;
scrollViewBox[1] += scrollViewBox[3] * (1 - yfrac) * (1 / zoom - 1);
}
// viewbox redraw at first
updateSubplots(scrollViewBox);
ticksAndAnnotations(ns, ew);
// then replot after a delay to make sure
// no more scrolling is coming
redrawTimer = setTimeout(function() {
scrollViewBox = [0, 0, pw, ph];
dragTail();
}, REDRAWDELAY);
e.preventDefault();
return;
}
// everything but the corners gets wheel zoom
if(ns.length * ew.length !== 1) {
attachWheelEventHandler(dragger, zoomWheel);
}
// plotDrag: move the plot in response to a drag
function plotDrag(dx, dy) {
// If a transition is in progress, then disable any behavior:
if(gd._transitioningWithDuration) {
return;
}
if(xActive === 'ew' || yActive === 'ns') {
if(xActive) dragAxList(xaxes, dx);
if(yActive) dragAxList(yaxes, dy);
updateSubplots([xActive ? -dx : 0, yActive ? -dy : 0, pw, ph]);
ticksAndAnnotations(yActive, xActive);
return;
}
// dz: set a new value for one end (0 or 1) of an axis array axArray,
// and return a pixel shift for that end for the viewbox
// based on pixel drag distance d
// TODO: this makes (generally non-fatal) errors when you get
// near floating point limits
function dz(axArray, end, d) {
var otherEnd = 1 - end,
movedAx,
newLinearizedEnd;
for(var i = 0; i < axArray.length; i++) {
var axi = axArray[i];
if(axi.fixedrange) continue;
movedAx = axi;
newLinearizedEnd = axi._rl[otherEnd] +
(axi._rl[end] - axi._rl[otherEnd]) / dZoom(d / axi._length);
var newEnd = axi.l2r(newLinearizedEnd);
// if l2r comes back false or undefined, it means we've dragged off
// the end of valid ranges - so stop.
if(newEnd !== false && newEnd !== undefined) axi.range[end] = newEnd;
}
return movedAx._length * (movedAx._rl[end] - newLinearizedEnd) /
(movedAx._rl[end] - movedAx._rl[otherEnd]);
}
if(isSubplotConstrained && xActive && yActive) {
// dragging a corner of a constrained subplot:
// respect the fixed corner, but harmonize dx and dy
var dxySign = ((xActive === 'w') === (yActive === 'n')) ? 1 : -1;
var dxyFraction = (dx / pw + dxySign * dy / ph) / 2;
dx = dxyFraction * pw;
dy = dxySign * dxyFraction * ph;
}
if(xActive === 'w') dx = dz(xaxes, 0, dx);
else if(xActive === 'e') dx = dz(xaxes, 1, -dx);
else if(!xActive) dx = 0;
if(yActive === 'n') dy = dz(yaxes, 1, dy);
else if(yActive === 's') dy = dz(yaxes, 0, -dy);
else if(!yActive) dy = 0;
var x0 = (xActive === 'w') ? dx : 0;
var y0 = (yActive === 'n') ? dy : 0;
if(isSubplotConstrained) {
var i;
if(!xActive && yActive.length === 1) {
// dragging one end of the y axis of a constrained subplot
// scale the other axis the same about its middle
for(i = 0; i < xaxes.length; i++) {
xaxes[i].range = xaxes[i]._r.slice();
scaleZoom(xaxes[i], 1 - dy / ph);
}
dx = dy * pw / ph;
x0 = dx / 2;
}
if(!yActive && xActive.length === 1) {
for(i = 0; i < yaxes.length; i++) {
yaxes[i].range = yaxes[i]._r.slice();
scaleZoom(yaxes[i], 1 - dx / pw);
}
dy = dx * ph / pw;
y0 = dy / 2;
}
}
updateSubplots([x0, y0, pw - dx, ph - dy]);
ticksAndAnnotations(yActive, xActive);
}
// Draw ticks and annotations (and other components) when ranges change.
// Also records the ranges that have changed for use by update at the end.
function ticksAndAnnotations(ns, ew) {
var activeAxIds = [],
i;
function pushActiveAxIds(axList) {
for(i = 0; i < axList.length; i++) {
if(!axList[i].fixedrange) activeAxIds.push(axList[i]._id);
}
}
if(editX) {
pushActiveAxIds(xaxes);
pushActiveAxIds(links.xaxes);
}
if(editY) {
pushActiveAxIds(yaxes);
pushActiveAxIds(links.yaxes);
}
updates = {};
for(i = 0; i < activeAxIds.length; i++) {
var axId = activeAxIds[i];
doTicksSingle(gd, axId, true);
var ax = getFromId(gd, axId);
updates[ax._name + '.range[0]'] = ax.range[0];
updates[ax._name + '.range[1]'] = ax.range[1];
}
function redrawObjs(objArray, method, shortCircuit) {
for(i = 0; i < objArray.length; i++) {
var obji = objArray[i];
if((ew && activeAxIds.indexOf(obji.xref) !== -1) ||
(ns && activeAxIds.indexOf(obji.yref) !== -1)) {
method(gd, i);
// once is enough for images (which doesn't use the `i` arg anyway)
if(shortCircuit) return;
}
}
}
// annotations and shapes 'draw' method is slow,
// use the finer-grained 'drawOne' method instead
redrawObjs(gd._fullLayout.annotations || [], Registry.getComponentMethod('annotations', 'drawOne'));
redrawObjs(gd._fullLayout.shapes || [], Registry.getComponentMethod('shapes', 'drawOne'));
redrawObjs(gd._fullLayout.images || [], Registry.getComponentMethod('images', 'draw'), true);
}
function doubleClick() {
if(gd._transitioningWithDuration) return;
var doubleClickConfig = gd._context.doubleClick,
axList = (xActive ? xaxes : []).concat(yActive ? yaxes : []),
attrs = {};
var ax, i, rangeInitial;
// For reset+autosize mode:
// If *any* of the main axes is not at its initial range
// (or autoranged, if we have no initial range, to match the logic in
// doubleClickConfig === 'reset' below), we reset.
// If they are *all* at their initial ranges, then we autosize.
if(doubleClickConfig === 'reset+autosize') {
doubleClickConfig = 'autosize';
for(i = 0; i < axList.length; i++) {
ax = axList[i];
if((ax._rangeInitial && (
ax.range[0] !== ax._rangeInitial[0] ||
ax.range[1] !== ax._rangeInitial[1]
)) ||
(!ax._rangeInitial && !ax.autorange)
) {
doubleClickConfig = 'reset';
break;
}
}
}
if(doubleClickConfig === 'autosize') {
// don't set the linked axes here, so relayout marks them as shrinkable
// and we autosize just to the requested axis/axes
for(i = 0; i < axList.length; i++) {
ax = axList[i];
if(!ax.fixedrange) attrs[ax._name + '.autorange'] = true;
}
}
else if(doubleClickConfig === 'reset') {
// when we're resetting, reset all linked axes too, so we get back
// to the fully-auto-with-constraints situation
if(xActive || isSubplotConstrained) axList = axList.concat(links.xaxes);
if(yActive && !isSubplotConstrained) axList = axList.concat(links.yaxes);
if(isSubplotConstrained) {
if(!xActive) axList = axList.concat(xaxes);
else if(!yActive) axList = axList.concat(yaxes);
}
for(i = 0; i < axList.length; i++) {
ax = axList[i];
if(!ax._rangeInitial) {
attrs[ax._name + '.autorange'] = true;
}
else {
rangeInitial = ax._rangeInitial;
attrs[ax._name + '.range[0]'] = rangeInitial[0];
attrs[ax._name + '.range[1]'] = rangeInitial[1];
}
}
}
gd.emit('plotly_doubleclick', null);
Registry.call('relayout', gd, attrs);
}
// dragTail - finish a drag event with a redraw
function dragTail() {
// put the subplot viewboxes back to default (Because we're going to)
// be repositioning the data in the relayout. But DON'T call
// ticksAndAnnotations again - it's unnecessary and would overwrite `updates`
updateSubplots([0, 0, pw, ph]);
// since we may have been redrawing some things during the drag, we may have
// accumulated MathJax promises - wait for them before we relayout.
Lib.syncOrAsync([
Plots.previousPromises,
function() { Registry.call('relayout', gd, updates); }
], gd);
}
// x/y scaleFactor stash,
// minimizes number of per-point DOM updates in updateSubplots below
var xScaleFactorOld, yScaleFactorOld;
// updateSubplots - find all plot viewboxes that should be
// affected by this drag, and update them. look for all plots
// sharing an affected axis (including the one being dragged),
// includes also scattergl and splom logic.
function updateSubplots(viewBox) {
var fullLayout = gd._fullLayout;
var plotinfos = fullLayout._plots;
var subplots = fullLayout._subplots.cartesian;
var i, sp, xa, ya;
if(hasSplom || hasScatterGl) {
clearGlCanvases(gd);
}
if(hasSplom) {
Registry.subplotsRegistry.splom.drag(gd);
if(hasOnlyLargeSploms) return;
}
if(hasScatterGl) {
// loop over all subplots (w/o exceptions) here,
// as we cleared the gl canvases above
for(i = 0; i < subplots.length; i++) {
sp = plotinfos[subplots[i]];
xa = sp.xaxis;
ya = sp.yaxis;
var scene = sp._scene;
if(scene) {
// FIXME: possibly we could update axis internal _r and _rl here
var xrng = Lib.simpleMap(xa.range, xa.r2l);
var yrng = Lib.simpleMap(ya.range, ya.r2l);
scene.update({range: [xrng[0], yrng[0], xrng[1], yrng[1]]});
}
}
}
if(hasSVG) {
var xScaleFactor = viewBox[2] / xa0._length;
var yScaleFactor = viewBox[3] / ya0._length;
for(i = 0; i < subplots.length; i++) {
sp = plotinfos[subplots[i]];
xa = sp.xaxis;
ya = sp.yaxis;
var editX2 = editX && !xa.fixedrange && xaHash[xa._id];
var editY2 = editY && !ya.fixedrange && yaHash[ya._id];
var xScaleFactor2, yScaleFactor2;
var clipDx, clipDy;
if(editX2) {
xScaleFactor2 = xScaleFactor;
clipDx = ew ? viewBox[0] : getShift(xa, xScaleFactor2);
} else {
xScaleFactor2 = getLinkedScaleFactor(xa, xScaleFactor, yScaleFactor);
clipDx = scaleAndGetShift(xa, xScaleFactor2);
}
if(editY2) {
yScaleFactor2 = yScaleFactor;
clipDy = ns ? viewBox[1] : getShift(ya, yScaleFactor2);
} else {
yScaleFactor2 = getLinkedScaleFactor(ya, xScaleFactor, yScaleFactor);
clipDy = scaleAndGetShift(ya, yScaleFactor2);
}
// don't scale at all if neither axis is scalable here
if(!xScaleFactor2 && !yScaleFactor2) {
continue;
}
// but if only one is, reset the other axis scaling
if(!xScaleFactor2) xScaleFactor2 = 1;
if(!yScaleFactor2) yScaleFactor2 = 1;
var plotDx = xa._offset - clipDx / xScaleFactor2;
var plotDy = ya._offset - clipDy / yScaleFactor2;
// TODO could be more efficient here:
// setTranslate and setScale do a lot of extra work
// when working independently, should perhaps combine
// them into a single routine.
sp.clipRect
.call(Drawing.setTranslate, clipDx, clipDy)
.call(Drawing.setScale, xScaleFactor2, yScaleFactor2);
sp.plot
.call(Drawing.setTranslate, plotDx, plotDy)
.call(Drawing.setScale, 1 / xScaleFactor2, 1 / yScaleFactor2);
// apply an inverse scale to individual points to counteract
// the scale of the trace group.
// apply only when scale changes, as adjusting the scale of
// all the points can be expansive.
if(xScaleFactor2 !== xScaleFactorOld || yScaleFactor2 !== yScaleFactorOld) {
Drawing.setPointGroupScale(sp.zoomScalePts, xScaleFactor2, yScaleFactor2);
Drawing.setTextPointsScale(sp.zoomScaleTxt, xScaleFactor2, yScaleFactor2);
}
Drawing.hideOutsideRangePoints(sp.clipOnAxisFalseTraces, sp);
// update x/y scaleFactor stash
xScaleFactorOld = xScaleFactor2;
yScaleFactorOld = yScaleFactor2;
}
}
}
// Find the appropriate scaling for this axis, if it's linked to the
// dragged axes by constraints. 0 is special, it means this axis shouldn't
// ever be scaled (will be converted to 1 if the other axis is scaled)
function getLinkedScaleFactor(ax, xScaleFactor, yScaleFactor) {
if(ax.fixedrange) return 0;
if(editX && links.xaHash[ax._id]) {
return xScaleFactor;
}
if(editY && (isSubplotConstrained ? links.xaHash : links.yaHash)[ax._id]) {
return yScaleFactor;
}
return 0;
}
function scaleAndGetShift(ax, scaleFactor) {
if(scaleFactor) {
ax.range = ax._r.slice();
scaleZoom(ax, scaleFactor);
return getShift(ax, scaleFactor);
}
return 0;
}
function getShift(ax, scaleFactor) {
return ax._length * (1 - scaleFactor) * FROM_TL[ax.constraintoward || 'middle'];
}
return dragger;
}
function makeDragger(plotinfo, nodeName, dragClass, cursor) {
var dragger3 = Lib.ensureSingle(plotinfo.draglayer, nodeName, dragClass, function(s) {
s.classed('drag', true)
.style({fill: 'transparent', 'stroke-width': 0})
.attr('data-subplot', plotinfo.id);
});
dragger3.call(setCursor, cursor);
return dragger3.node();
}
function makeRectDragger(plotinfo, dragClass, cursor, x, y, w, h) {
var dragger = makeDragger(plotinfo, 'rect', dragClass, cursor);
d3.select(dragger).call(Drawing.setRect, x, y, w, h);
return dragger;
}
function isDirectionActive(axList, activeVal) {
for(var i = 0; i < axList.length; i++) {
if(!axList[i].fixedrange) return activeVal;
}
return '';
}
function getEndText(ax, end) {
var initialVal = ax.range[end],
diff = Math.abs(initialVal - ax.range[1 - end]),
dig;
// TODO: this should basically be ax.r2d but we're doing extra
// rounding here... can we clean up at all?
if(ax.type === 'date') {
return initialVal;
}
else if(ax.type === 'log') {
dig = Math.ceil(Math.max(0, -Math.log(diff) / Math.LN10)) + 3;
return d3.format('.' + dig + 'g')(Math.pow(10, initialVal));
}
else { // linear numeric (or category... but just show numbers here)
dig = Math.floor(Math.log(Math.abs(initialVal)) / Math.LN10) -
Math.floor(Math.log(diff) / Math.LN10) + 4;
return d3.format('.' + String(dig) + 'g')(initialVal);
}
}
function zoomAxRanges(axList, r0Fraction, r1Fraction, updates, linkedAxes) {
var i,
axi,
axRangeLinear0,
axRangeLinearSpan;
for(i = 0; i < axList.length; i++) {
axi = axList[i];
if(axi.fixedrange) continue;
axRangeLinear0 = axi._rl[0];
axRangeLinearSpan = axi._rl[1] - axRangeLinear0;
axi.range = [
axi.l2r(axRangeLinear0 + axRangeLinearSpan * r0Fraction),
axi.l2r(axRangeLinear0 + axRangeLinearSpan * r1Fraction)
];
updates[axi._name + '.range[0]'] = axi.range[0];
updates[axi._name + '.range[1]'] = axi.range[1];
}
// zoom linked axes about their centers
if(linkedAxes && linkedAxes.length) {
var linkedR0Fraction = (r0Fraction + (1 - r1Fraction)) / 2;
zoomAxRanges(linkedAxes, linkedR0Fraction, 1 - linkedR0Fraction, updates);
}
}
function dragAxList(axList, pix) {
for(var i = 0; i < axList.length; i++) {
var axi = axList[i];
if(!axi.fixedrange) {
axi.range = [
axi.l2r(axi._rl[0] - pix / axi._m),
axi.l2r(axi._rl[1] - pix / axi._m)
];
}
}
}
// common transform for dragging one end of an axis
// d>0 is compressing scale (cursor is over the plot,
// the axis end should move with the cursor)
// d<0 is expanding (cursor is off the plot, axis end moves
// nonlinearly so you can expand far)
function dZoom(d) {
return 1 - ((d >= 0) ? Math.min(d, 0.9) :
1 / (1 / Math.max(d, -0.3) + 3.222));
}
function getDragCursor(nsew, dragmode, isMainDrag) {
if(!nsew) return 'pointer';
if(nsew === 'nsew') {
// in this case here, clear cursor and
// use the cursor style set on <g .draglayer>
if(isMainDrag) return '';
if(dragmode === 'pan') return 'move';
return 'crosshair';
}
return nsew.toLowerCase() + '-resize';
}
function makeZoombox(zoomlayer, lum, xs, ys, path0) {
return zoomlayer.append('path')
.attr('class', 'zoombox')
.style({
'fill': lum > 0.2 ? 'rgba(0,0,0,0)' : 'rgba(255,255,255,0)',
'stroke-width': 0
})
.attr('transform', 'translate(' + xs + ', ' + ys + ')')
.attr('d', path0 + 'Z');
}
function makeCorners(zoomlayer, xs, ys) {
return zoomlayer.append('path')
.attr('class', 'zoombox-corners')
.style({
fill: Color.background,
stroke: Color.defaultLine,
'stroke-width': 1,
opacity: 0
})
.attr('transform', 'translate(' + xs + ', ' + ys + ')')
.attr('d', 'M0,0Z');
}
function updateZoombox(zb, corners, box, path0, dimmed, lum) {
zb.attr('d',
path0 + 'M' + (box.l) + ',' + (box.t) + 'v' + (box.h) +
'h' + (box.w) + 'v-' + (box.h) + 'h-' + (box.w) + 'Z');
transitionZoombox(zb, corners, dimmed, lum);
}
function transitionZoombox(zb, corners, dimmed, lum) {
if(!dimmed) {
zb.transition()
.style('fill', lum > 0.2 ? 'rgba(0,0,0,0.4)' :
'rgba(255,255,255,0.3)')
.duration(200);
corners.transition()
.style('opacity', 1)
.duration(200);
}
}
function removeZoombox(gd) {
d3.select(gd)
.selectAll('.zoombox,.js-zoombox-backdrop,.js-zoombox-menu,.zoombox-corners')
.remove();
}
function showDoubleClickNotifier(gd) {
if(SHOWZOOMOUTTIP && gd.data && gd._context.showTips) {
Lib.notifier(Lib._(gd, 'Double-click to zoom back out'), 'long');
SHOWZOOMOUTTIP = false;
}
}
function isSelectOrLasso(dragmode) {
return dragmode === 'lasso' || dragmode === 'select';
}
function xCorners(box, y0) {
return 'M' +
(box.l - 0.5) + ',' + (y0 - MINZOOM - 0.5) +
'h-3v' + (2 * MINZOOM + 1) + 'h3ZM' +
(box.r + 0.5) + ',' + (y0 - MINZOOM - 0.5) +
'h3v' + (2 * MINZOOM + 1) + 'h-3Z';
}
function yCorners(box, x0) {
return 'M' +
(x0 - MINZOOM - 0.5) + ',' + (box.t - 0.5) +
'v-3h' + (2 * MINZOOM + 1) + 'v3ZM' +
(x0 - MINZOOM - 0.5) + ',' + (box.b + 0.5) +
'v3h' + (2 * MINZOOM + 1) + 'v-3Z';
}
function xyCorners(box) {
var clen = Math.floor(Math.min(box.b - box.t, box.r - box.l, MINZOOM) / 2);
return 'M' +
(box.l - 3.5) + ',' + (box.t - 0.5 + clen) + 'h3v' + (-clen) +
'h' + clen + 'v-3h-' + (clen + 3) + 'ZM' +
(box.r + 3.5) + ',' + (box.t - 0.5 + clen) + 'h-3v' + (-clen) +
'h' + (-clen) + 'v-3h' + (clen + 3) + 'ZM' +
(box.r + 3.5) + ',' + (box.b + 0.5 - clen) + 'h-3v' + clen +
'h' + (-clen) + 'v3h' + (clen + 3) + 'ZM' +
(box.l - 3.5) + ',' + (box.b + 0.5 - clen) + 'h3v' + clen +
'h' + clen + 'v3h-' + (clen + 3) + 'Z';
}
function calcLinks(gd, xaHash, yaHash) {
var constraintGroups = gd._fullLayout._axisConstraintGroups;
var isSubplotConstrained = false;
var xLinks = {};
var yLinks = {};
var xID, yID, xLinkID, yLinkID;
for(var i = 0; i < constraintGroups.length; i++) {
var group = constraintGroups[i];
// check if any of the x axes we're dragging is in this constraint group
for(xID in xaHash) {
if(group[xID]) {
// put the rest of these axes into xLinks, if we're not already
// dragging them, so we know to scale these axes automatically too
// to match the changes in the dragged x axes
for(xLinkID in group) {
if(!(xLinkID.charAt(0) === 'x' ? xaHash : yaHash)[xLinkID]) {
xLinks[xLinkID] = 1;
}
}
// check if the x and y axes of THIS drag are linked
for(yID in yaHash) {
if(group[yID]) isSubplotConstrained = true;
}
}
}
// now check if any of the y axes we're dragging is in this constraint group
// only look for outside links, as we've already checked for links within the dragger
for(yID in yaHash) {
if(group[yID]) {
for(yLinkID in group) {
if(!(yLinkID.charAt(0) === 'x' ? xaHash : yaHash)[yLinkID]) {
yLinks[yLinkID] = 1;
}
}
}
}
}
if(isSubplotConstrained) {
// merge xLinks and yLinks if the subplot is constrained,
// since we'll always apply both anyway and the two will contain
// duplicates
Lib.extendFlat(xLinks, yLinks);
yLinks = {};
}
var xaHashLinked = {};
var xaxesLinked = [];
for(xLinkID in xLinks) {
var xa = getFromId(gd, xLinkID);
xaxesLinked.push(xa);
xaHashLinked[xa._id] = xa;
}
var yaHashLinked = {};
var yaxesLinked = [];
for(yLinkID in yLinks) {
var ya = getFromId(gd, yLinkID);
yaxesLinked.push(ya);
yaHashLinked[ya._id] = ya;
}
return {
xaHash: xaHashLinked,
yaHash: yaHashLinked,
xaxes: xaxesLinked,
yaxes: yaxesLinked,
isSubplotConstrained: isSubplotConstrained
};
}
// still seems to be some confusion about onwheel vs onmousewheel...
function attachWheelEventHandler(element, handler) {
if(!supportsPassive) {
if(element.onwheel !== undefined) element.onwheel = handler;
else if(element.onmousewheel !== undefined) element.onmousewheel = handler;
}
else {
var wheelEventName = element.onwheel !== undefined ? 'wheel' : 'mousewheel';
if(element._onwheel) {
element.removeEventListener(wheelEventName, element._onwheel);
}
element._onwheel = handler;
element.addEventListener(wheelEventName, handler, {passive: false});
}
}
function hashValues(hash) {
var out = [];
for(var k in hash) out.push(hash[k]);
return out;
}
module.exports = {
makeDragBox: makeDragBox,
makeDragger: makeDragger,
makeRectDragger: makeRectDragger,
makeZoombox: makeZoombox,
makeCorners: makeCorners,
updateZoombox: updateZoombox,
xyCorners: xyCorners,
transitionZoombox: transitionZoombox,
removeZoombox: removeZoombox,
showDoubleClickNotifier: showDoubleClickNotifier,
attachWheelEventHandler: attachWheelEventHandler
};
},{"../../components/color":567,"../../components/dragelement":589,"../../components/drawing":592,"../../components/fx":609,"../../constants/alignment":665,"../../lib":693,"../../lib/clear_gl_canvases":676,"../../lib/setcursor":714,"../../lib/svg_text_utils":718,"../../registry":825,"../plots":805,"./axes":742,"./axis_ids":745,"./constants":747,"./scale_zoom":758,"./select":759,"d3":147,"has-passive-events":392,"tinycolor2":511}],751:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Fx = _dereq_('../../components/fx');
var dragElement = _dereq_('../../components/dragelement');
var setCursor = _dereq_('../../lib/setcursor');
var makeDragBox = _dereq_('./dragbox').makeDragBox;
var DRAGGERSIZE = _dereq_('./constants').DRAGGERSIZE;
exports.initInteractions = function initInteractions(gd) {
var fullLayout = gd._fullLayout;
if(gd._context.staticPlot) {
// this sweeps up more than just cartesian drag elements...
d3.select(gd).selectAll('.drag').remove();
return;
}
if(!fullLayout._has('cartesian') && !fullLayout._has('splom')) return;
var subplots = Object.keys(fullLayout._plots || {}).sort(function(a, b) {
// sort overlays last, then by x axis number, then y axis number
if((fullLayout._plots[a].mainplot && true) ===
(fullLayout._plots[b].mainplot && true)) {
var aParts = a.split('y'),
bParts = b.split('y');
return (aParts[0] === bParts[0]) ?
(Number(aParts[1] || 1) - Number(bParts[1] || 1)) :
(Number(aParts[0] || 1) - Number(bParts[0] || 1));
}
return fullLayout._plots[a].mainplot ? 1 : -1;
});
subplots.forEach(function(subplot) {
var plotinfo = fullLayout._plots[subplot];
var xa = plotinfo.xaxis;
var ya = plotinfo.yaxis;
// main and corner draggers need not be repeated for
// overlaid subplots - these draggers drag them all
if(!plotinfo.mainplot) {
// main dragger goes over the grids and data, so we use its
// mousemove events for all data hover effects
var maindrag = makeDragBox(gd, plotinfo, xa._offset, ya._offset,
xa._length, ya._length, 'ns', 'ew');
maindrag.onmousemove = function(evt) {
// This is on `gd._fullLayout`, *not* fullLayout because the reference
// changes by the time this is called again.
gd._fullLayout._rehover = function() {
if(gd._fullLayout._hoversubplot === subplot) {
Fx.hover(gd, evt, subplot);
}
};
Fx.hover(gd, evt, subplot);
// Note that we have *not* used the cached fullLayout variable here
// since that may be outdated when this is called as a callback later on
gd._fullLayout._lasthover = maindrag;
gd._fullLayout._hoversubplot = subplot;
};
/*
* IMPORTANT:
* We must check for the presence of the drag cover here.
* If we don't, a 'mouseout' event is triggered on the
* maindrag before each 'click' event, which has the effect
* of clearing the hoverdata; thus, cancelling the click event.
*/
maindrag.onmouseout = function(evt) {
if(gd._dragging) return;
// When the mouse leaves this maindrag, unset the hovered subplot.
// This may cause problems if it leaves the subplot directly *onto*
// another subplot, but that's a tiny corner case at the moment.
gd._fullLayout._hoversubplot = null;
dragElement.unhover(gd, evt);
};
// corner draggers
if(gd._context.showAxisDragHandles) {
makeDragBox(gd, plotinfo, xa._offset - DRAGGERSIZE, ya._offset - DRAGGERSIZE,
DRAGGERSIZE, DRAGGERSIZE, 'n', 'w');
makeDragBox(gd, plotinfo, xa._offset + xa._length, ya._offset - DRAGGERSIZE,
DRAGGERSIZE, DRAGGERSIZE, 'n', 'e');
makeDragBox(gd, plotinfo, xa._offset - DRAGGERSIZE, ya._offset + ya._length,
DRAGGERSIZE, DRAGGERSIZE, 's', 'w');
makeDragBox(gd, plotinfo, xa._offset + xa._length, ya._offset + ya._length,
DRAGGERSIZE, DRAGGERSIZE, 's', 'e');
}
}
if(gd._context.showAxisDragHandles) {
// x axis draggers - if you have overlaid plots,
// these drag each axis separately
if(subplot === xa._mainSubplot) {
// the y position of the main x axis line
var y0 = xa._mainLinePosition;
if(xa.side === 'top') y0 -= DRAGGERSIZE;
makeDragBox(gd, plotinfo, xa._offset + xa._length * 0.1, y0,
xa._length * 0.8, DRAGGERSIZE, '', 'ew');
makeDragBox(gd, plotinfo, xa._offset, y0,
xa._length * 0.1, DRAGGERSIZE, '', 'w');
makeDragBox(gd, plotinfo, xa._offset + xa._length * 0.9, y0,
xa._length * 0.1, DRAGGERSIZE, '', 'e');
}
// y axis draggers
if(subplot === ya._mainSubplot) {
// the x position of the main y axis line
var x0 = ya._mainLinePosition;
if(ya.side !== 'right') x0 -= DRAGGERSIZE;
makeDragBox(gd, plotinfo, x0, ya._offset + ya._length * 0.1,
DRAGGERSIZE, ya._length * 0.8, 'ns', '');
makeDragBox(gd, plotinfo, x0, ya._offset + ya._length * 0.9,
DRAGGERSIZE, ya._length * 0.1, 's', '');
makeDragBox(gd, plotinfo, x0, ya._offset,
DRAGGERSIZE, ya._length * 0.1, 'n', '');
}
}
});
// In case you mousemove over some hovertext, send it to Fx.hover too
// we do this so that we can put the hover text in front of everything,
// but still be able to interact with everything as if it isn't there
var hoverLayer = fullLayout._hoverlayer.node();
hoverLayer.onmousemove = function(evt) {
evt.target = gd._fullLayout._lasthover;
Fx.hover(gd, evt, fullLayout._hoversubplot);
};
hoverLayer.onclick = function(evt) {
evt.target = gd._fullLayout._lasthover;
Fx.click(gd, evt);
};
// also delegate mousedowns... TODO: does this actually work?
hoverLayer.onmousedown = function(evt) {
gd._fullLayout._lasthover.onmousedown(evt);
};
exports.updateFx(gd);
};
// Minimal set of update needed on 'modebar' edits.
// We only need to update the <g .draglayer> cursor style.
//
// Note that changing the axis configuration and/or the fixedrange attribute
// should trigger a full initInteractions.
exports.updateFx = function(gd) {
var fullLayout = gd._fullLayout;
var cursor = fullLayout.dragmode === 'pan' ? 'move' : 'crosshair';
setCursor(fullLayout._draggers, cursor);
};
},{"../../components/dragelement":589,"../../components/fx":609,"../../lib/setcursor":714,"./constants":747,"./dragbox":750,"d3":147}],752:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
/**
* Factory function for checking component arrays for subplot references.
*
* @param {string} containerArrayName: the top-level array in gd.layout to check
* If an item in this container is found that references a cartesian x and/or y axis,
* ensure cartesian is marked as a base plot module and record the axes (and subplot
* if both refs are axes) in gd._fullLayout
*
* @return {function}: with args layoutIn (gd.layout) and layoutOut (gd._fullLayout)
* as expected of a component includeBasePlot method
*/
module.exports = function makeIncludeComponents(containerArrayName) {
return function includeComponents(layoutIn, layoutOut) {
var array = layoutIn[containerArrayName];
if(!Array.isArray(array)) return;
var Cartesian = Registry.subplotsRegistry.cartesian;
var idRegex = Cartesian.idRegex;
var subplots = layoutOut._subplots;
var xaList = subplots.xaxis;
var yaList = subplots.yaxis;
var cartesianList = subplots.cartesian;
var hasCartesianOrGL2D = layoutOut._has('cartesian') || layoutOut._has('gl2d');
for(var i = 0; i < array.length; i++) {
var itemi = array[i];
if(!Lib.isPlainObject(itemi)) continue;
var xref = itemi.xref;
var yref = itemi.yref;
var hasXref = idRegex.x.test(xref);
var hasYref = idRegex.y.test(yref);
if(hasXref || hasYref) {
if(!hasCartesianOrGL2D) Lib.pushUnique(layoutOut._basePlotModules, Cartesian);
var newAxis = false;
if(hasXref && xaList.indexOf(xref) === -1) {
xaList.push(xref);
newAxis = true;
}
if(hasYref && yaList.indexOf(yref) === -1) {
yaList.push(yref);
newAxis = true;
}
/*
* Notice the logic here: only add a subplot for a component if
* it's referencing both x and y axes AND it's creating a new axis
* so for example if your plot already has xy and x2y2, an annotation
* on x2y or xy2 will not create a new subplot.
*/
if(newAxis && hasXref && hasYref) {
cartesianList.push(xref + yref);
}
}
}
};
};
},{"../../lib":693,"../../registry":825}],753:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var Plots = _dereq_('../plots');
var Drawing = _dereq_('../../components/drawing');
var getModuleCalcData = _dereq_('../get_data').getModuleCalcData;
var axisIds = _dereq_('./axis_ids');
var constants = _dereq_('./constants');
var xmlnsNamespaces = _dereq_('../../constants/xmlns_namespaces');
var ensureSingle = Lib.ensureSingle;
function ensureSingleAndAddDatum(parent, nodeType, className) {
return Lib.ensureSingle(parent, nodeType, className, function(s) {
s.datum(className);
});
}
exports.name = 'cartesian';
exports.attr = ['xaxis', 'yaxis'];
exports.idRoot = ['x', 'y'];
exports.idRegex = constants.idRegex;
exports.attrRegex = constants.attrRegex;
exports.attributes = _dereq_('./attributes');
exports.layoutAttributes = _dereq_('./layout_attributes');
exports.supplyLayoutDefaults = _dereq_('./layout_defaults');
exports.transitionAxes = _dereq_('./transition_axes');
exports.finalizeSubplots = function(layoutIn, layoutOut) {
var subplots = layoutOut._subplots;
var xList = subplots.xaxis;
var yList = subplots.yaxis;
var spSVG = subplots.cartesian;
var spAll = spSVG.concat(subplots.gl2d || []);
var allX = {};
var allY = {};
var i, xi, yi;
for(i = 0; i < spAll.length; i++) {
var parts = spAll[i].split('y');
allX[parts[0]] = 1;
allY['y' + parts[1]] = 1;
}
// check for x axes with no subplot, and make one from the anchor of that x axis
for(i = 0; i < xList.length; i++) {
xi = xList[i];
if(!allX[xi]) {
yi = (layoutIn[axisIds.id2name(xi)] || {}).anchor;
if(!constants.idRegex.y.test(yi)) yi = 'y';
spSVG.push(xi + yi);
spAll.push(xi + yi);
if(!allY[yi]) {
allY[yi] = 1;
Lib.pushUnique(yList, yi);
}
}
}
// same for y axes with no subplot
for(i = 0; i < yList.length; i++) {
yi = yList[i];
if(!allY[yi]) {
xi = (layoutIn[axisIds.id2name(yi)] || {}).anchor;
if(!constants.idRegex.x.test(xi)) xi = 'x';
spSVG.push(xi + yi);
spAll.push(xi + yi);
if(!allX[xi]) {
allX[xi] = 1;
Lib.pushUnique(xList, xi);
}
}
}
// finally, if we've gotten here we're supposed to show cartesian...
// so if there are NO subplots at all, make one from the first
// x & y axes in the input layout
if(!spAll.length) {
xi = '';
yi = '';
for(var ki in layoutIn) {
if(constants.attrRegex.test(ki)) {
var axLetter = ki.charAt(0);
if(axLetter === 'x') {
if(!xi || (+ki.substr(5) < +xi.substr(5))) {
xi = ki;
}
}
else if(!yi || (+ki.substr(5) < +yi.substr(5))) {
yi = ki;
}
}
}
xi = xi ? axisIds.name2id(xi) : 'x';
yi = yi ? axisIds.name2id(yi) : 'y';
xList.push(xi);
yList.push(yi);
spSVG.push(xi + yi);
}
};
/**
* Cartesian.plot
*
* @param {DOM div | object} gd
* @param {array | null} (optional) traces
* array of traces indices to plot
* if undefined, plots all cartesian traces,
* if null, plots no traces
* @param {object} (optional) transitionOpts
* transition option object
* @param {function} (optional) makeOnCompleteCallback
* transition make callback function from Plots.transition
*/
exports.plot = function(gd, traces, transitionOpts, makeOnCompleteCallback) {
var fullLayout = gd._fullLayout;
var subplots = fullLayout._subplots.cartesian;
var calcdata = gd.calcdata;
var i;
if(traces === null) {
// this means no updates required, must return here
// so that plotOne doesn't remove the trace layers
return;
} else if(!Array.isArray(traces)) {
// If traces is not provided, then it's a complete replot and missing
// traces are removed
traces = [];
for(i = 0; i < calcdata.length; i++) traces.push(i);
}
for(i = 0; i < subplots.length; i++) {
var subplot = subplots[i];
var subplotInfo = fullLayout._plots[subplot];
// Get all calcdata for this subplot:
var cdSubplot = [];
var pcd;
for(var j = 0; j < calcdata.length; j++) {
var cd = calcdata[j];
var trace = cd[0].trace;
// Skip trace if whitelist provided and it's not whitelisted:
// if (Array.isArray(traces) && traces.indexOf(i) === -1) continue;
if(trace.xaxis + trace.yaxis === subplot) {
// XXX: Should trace carpet dependencies. Only replot all carpet plots if the carpet
// axis has actually changed:
//
// If this trace is specifically requested, add it to the list:
if(traces.indexOf(trace.index) !== -1 || trace.carpet) {
// Okay, so example: traces 0, 1, and 2 have fill = tonext. You animate
// traces 0 and 2. Trace 1 also needs to be updated, otherwise its fill
// is outdated. So this retroactively adds the previous trace if the
// traces are interdependent.
if(
pcd &&
pcd[0].trace.xaxis + pcd[0].trace.yaxis === subplot &&
['tonextx', 'tonexty', 'tonext'].indexOf(trace.fill) !== -1 &&
cdSubplot.indexOf(pcd) === -1
) {
cdSubplot.push(pcd);
}
cdSubplot.push(cd);
}
// Track the previous trace on this subplot for the retroactive-add step
// above:
pcd = cd;
}
}
plotOne(gd, subplotInfo, cdSubplot, transitionOpts, makeOnCompleteCallback);
}
};
function plotOne(gd, plotinfo, cdSubplot, transitionOpts, makeOnCompleteCallback) {
var traceLayerClasses = constants.traceLayerClasses;
var fullLayout = gd._fullLayout;
var modules = fullLayout._modules;
var _module, cdModuleAndOthers, cdModule;
var layerData = [];
var zoomScaleQueryParts = [];
for(var i = 0; i < modules.length; i++) {
_module = modules[i];
var name = _module.name;
var categories = Registry.modules[name].categories;
if(categories.svg) {
var className = (_module.layerName || name + 'layer');
var plotMethod = _module.plot;
// plot all visible traces of this type on this subplot at once
cdModuleAndOthers = getModuleCalcData(cdSubplot, plotMethod);
cdModule = cdModuleAndOthers[0];
// don't need to search the found traces again - in fact we need to NOT
// so that if two modules share the same plotter we don't double-plot
cdSubplot = cdModuleAndOthers[1];
if(cdModule.length) {
layerData.push({
i: traceLayerClasses.indexOf(className),
className: className,
plotMethod: plotMethod,
cdModule: cdModule
});
}
if(categories.zoomScale) {
zoomScaleQueryParts.push('.' + className);
}
}
}
layerData.sort(function(a, b) { return a.i - b.i; });
var layers = plotinfo.plot.selectAll('g.mlayer')
.data(layerData, function(d) { return d.className; });
layers.enter().append('g')
.attr('class', function(d) { return d.className; })
.classed('mlayer', true);
layers.exit().remove();
layers.order();
layers.each(function(d) {
var sel = d3.select(this);
var className = d.className;
d.plotMethod(
gd, plotinfo, d.cdModule, sel,
transitionOpts, makeOnCompleteCallback
);
// layers that allow `cliponaxis: false`
if(className !== 'scatterlayer' && className !== 'barlayer') {
Drawing.setClipUrl(sel, plotinfo.layerClipId);
}
});
// call Scattergl.plot separately
if(fullLayout._has('scattergl')) {
_module = Registry.getModule('scattergl');
cdModule = getModuleCalcData(cdSubplot, _module)[0];
_module.plot(gd, plotinfo, cdModule);
}
// stash "hot" selections for faster interaction on drag and scroll
if(!gd._context.staticPlot) {
if(plotinfo._hasClipOnAxisFalse) {
plotinfo.clipOnAxisFalseTraces = plotinfo.plot
.selectAll('.scatterlayer, .barlayer')
.selectAll('.trace');
}
if(zoomScaleQueryParts.length) {
var traces = plotinfo.plot
.selectAll(zoomScaleQueryParts.join(','))
.selectAll('.trace');
plotinfo.zoomScalePts = traces.selectAll('path.point');
plotinfo.zoomScaleTxt = traces.selectAll('.textpoint');
}
}
}
exports.clean = function(newFullData, newFullLayout, oldFullData, oldFullLayout) {
var oldPlots = oldFullLayout._plots || {};
var newPlots = newFullLayout._plots || {};
var oldSubplotList = oldFullLayout._subplots || {};
var plotinfo;
var i, k;
// when going from a large splom graph to something else,
// we need to clear <g subplot> so that the new cartesian subplot
// can have the correct layer ordering
if(oldFullLayout._hasOnlyLargeSploms && !newFullLayout._hasOnlyLargeSploms) {
for(k in oldPlots) {
plotinfo = oldPlots[k];
if(plotinfo.plotgroup) plotinfo.plotgroup.remove();
}
}
var hadGl = (oldFullLayout._has && oldFullLayout._has('gl'));
var hasGl = (newFullLayout._has && newFullLayout._has('gl'));
if(hadGl && !hasGl) {
for(k in oldPlots) {
plotinfo = oldPlots[k];
if(plotinfo._scene) plotinfo._scene.destroy();
}
}
// delete any titles we don't need anymore
// check if axis list has changed, and if so clear old titles
if(oldSubplotList.xaxis && oldSubplotList.yaxis) {
var oldAxIDs = axisIds.listIds({_fullLayout: oldFullLayout});
for(i = 0; i < oldAxIDs.length; i++) {
var oldAxId = oldAxIDs[i];
if(!newFullLayout[axisIds.id2name(oldAxId)]) {
oldFullLayout._infolayer.selectAll('.g-' + oldAxId + 'title').remove();
}
}
}
// if we've gotten rid of all cartesian traces, remove all the subplot svg items
var hadCartesian = (oldFullLayout._has && oldFullLayout._has('cartesian'));
var hasCartesian = (newFullLayout._has && newFullLayout._has('cartesian'));
if(hadCartesian && !hasCartesian) {
purgeSubplotLayers(oldFullLayout._cartesianlayer.selectAll('.subplot'), oldFullLayout);
oldFullLayout._defs.selectAll('.axesclip').remove();
delete oldFullLayout._axisConstraintGroups;
}
// otherwise look for subplots we need to remove
else if(oldSubplotList.cartesian) {
for(i = 0; i < oldSubplotList.cartesian.length; i++) {
var oldSubplotId = oldSubplotList.cartesian[i];
if(!newPlots[oldSubplotId]) {
var selector = '.' + oldSubplotId + ',.' + oldSubplotId + '-x,.' + oldSubplotId + '-y';
oldFullLayout._cartesianlayer.selectAll(selector).remove();
removeSubplotExtras(oldSubplotId, oldFullLayout);
}
}
}
};
exports.drawFramework = function(gd) {
var fullLayout = gd._fullLayout;
var subplotData = makeSubplotData(gd);
var subplotLayers = fullLayout._cartesianlayer.selectAll('.subplot')
.data(subplotData, String);
subplotLayers.enter().append('g')
.attr('class', function(d) { return 'subplot ' + d[0]; });
subplotLayers.order();
subplotLayers.exit()
.call(purgeSubplotLayers, fullLayout);
subplotLayers.each(function(d) {
var id = d[0];
var plotinfo = fullLayout._plots[id];
plotinfo.plotgroup = d3.select(this);
makeSubplotLayer(gd, plotinfo);
// make separate drag layers for each subplot,
// but append them to paper rather than the plot groups,
// so they end up on top of the rest
plotinfo.draglayer = ensureSingle(fullLayout._draggers, 'g', id);
});
};
exports.rangePlot = function(gd, plotinfo, cdSubplot) {
makeSubplotLayer(gd, plotinfo);
plotOne(gd, plotinfo, cdSubplot);
Plots.style(gd);
};
function makeSubplotData(gd) {
var fullLayout = gd._fullLayout;
var ids = fullLayout._subplots.cartesian;
var len = ids.length;
var i, j, id, plotinfo, xa, ya;
// split 'regular' and 'overlaying' subplots
var regulars = [];
var overlays = [];
for(i = 0; i < len; i++) {
id = ids[i];
plotinfo = fullLayout._plots[id];
xa = plotinfo.xaxis;
ya = plotinfo.yaxis;
var xa2 = xa._mainAxis;
var ya2 = ya._mainAxis;
var mainplot = xa2._id + ya2._id;
var mainplotinfo = fullLayout._plots[mainplot];
plotinfo.overlays = [];
if(mainplot !== id && mainplotinfo) {
plotinfo.mainplot = mainplot;
plotinfo.mainplotinfo = mainplotinfo;
overlays.push(id);
} else {
plotinfo.mainplot = undefined;
plotinfo.mainPlotinfo = undefined;
regulars.push(id);
}
}
// fill in list of overlaying subplots in 'main plot'
for(i = 0; i < overlays.length; i++) {
id = overlays[i];
plotinfo = fullLayout._plots[id];
plotinfo.mainplotinfo.overlays.push(plotinfo);
}
// put 'regular' subplot data before 'overlaying'
var subplotIds = regulars.concat(overlays);
var subplotData = new Array(len);
for(i = 0; i < len; i++) {
id = subplotIds[i];
plotinfo = fullLayout._plots[id];
xa = plotinfo.xaxis;
ya = plotinfo.yaxis;
// use info about axis layer and overlaying pattern
// to clean what need to be cleaned up in exit selection
var d = [id, xa.layer, ya.layer, xa.overlaying || '', ya.overlaying || ''];
for(j = 0; j < plotinfo.overlays.length; j++) {
d.push(plotinfo.overlays[j].id);
}
subplotData[i] = d;
}
return subplotData;
}
function makeSubplotLayer(gd, plotinfo) {
var plotgroup = plotinfo.plotgroup;
var id = plotinfo.id;
var xLayer = constants.layerValue2layerClass[plotinfo.xaxis.layer];
var yLayer = constants.layerValue2layerClass[plotinfo.yaxis.layer];
var hasOnlyLargeSploms = gd._fullLayout._hasOnlyLargeSploms;
if(!plotinfo.mainplot) {
if(hasOnlyLargeSploms) {
// TODO could do even better
// - we don't need plot (but we would have to mock it in lsInner
// and other places
// - we don't (x|y)lines and (x|y)axislayer for most subplots
// usually just the bottom x and left y axes.
plotinfo.plot = ensureSingle(plotgroup, 'g', 'plot');
plotinfo.xlines = ensureSingle(plotgroup, 'path', 'xlines-above');
plotinfo.ylines = ensureSingle(plotgroup, 'path', 'ylines-above');
plotinfo.xaxislayer = ensureSingle(plotgroup, 'g', 'xaxislayer-above');
plotinfo.yaxislayer = ensureSingle(plotgroup, 'g', 'yaxislayer-above');
}
else {
var backLayer = ensureSingle(plotgroup, 'g', 'layer-subplot');
plotinfo.shapelayer = ensureSingle(backLayer, 'g', 'shapelayer');
plotinfo.imagelayer = ensureSingle(backLayer, 'g', 'imagelayer');
plotinfo.gridlayer = ensureSingle(plotgroup, 'g', 'gridlayer');
plotinfo.zerolinelayer = ensureSingle(plotgroup, 'g', 'zerolinelayer');
ensureSingle(plotgroup, 'path', 'xlines-below');
ensureSingle(plotgroup, 'path', 'ylines-below');
plotinfo.overlinesBelow = ensureSingle(plotgroup, 'g', 'overlines-below');
ensureSingle(plotgroup, 'g', 'xaxislayer-below');
ensureSingle(plotgroup, 'g', 'yaxislayer-below');
plotinfo.overaxesBelow = ensureSingle(plotgroup, 'g', 'overaxes-below');
plotinfo.plot = ensureSingle(plotgroup, 'g', 'plot');
plotinfo.overplot = ensureSingle(plotgroup, 'g', 'overplot');
plotinfo.xlines = ensureSingle(plotgroup, 'path', 'xlines-above');
plotinfo.ylines = ensureSingle(plotgroup, 'path', 'ylines-above');
plotinfo.overlinesAbove = ensureSingle(plotgroup, 'g', 'overlines-above');
ensureSingle(plotgroup, 'g', 'xaxislayer-above');
ensureSingle(plotgroup, 'g', 'yaxislayer-above');
plotinfo.overaxesAbove = ensureSingle(plotgroup, 'g', 'overaxes-above');
// set refs to correct layers as determined by 'axis.layer'
plotinfo.xlines = plotgroup.select('.xlines-' + xLayer);
plotinfo.ylines = plotgroup.select('.ylines-' + yLayer);
plotinfo.xaxislayer = plotgroup.select('.xaxislayer-' + xLayer);
plotinfo.yaxislayer = plotgroup.select('.yaxislayer-' + yLayer);
}
}
else {
var mainplotinfo = plotinfo.mainplotinfo;
var mainplotgroup = mainplotinfo.plotgroup;
var xId = id + '-x';
var yId = id + '-y';
// now make the components of overlaid subplots
// overlays don't have backgrounds, and append all
// their other components to the corresponding
// extra groups of their main plots.
plotinfo.gridlayer = mainplotinfo.gridlayer;
plotinfo.zerolinelayer = mainplotinfo.zerolinelayer;
ensureSingle(mainplotinfo.overlinesBelow, 'path', xId);
ensureSingle(mainplotinfo.overlinesBelow, 'path', yId);
ensureSingle(mainplotinfo.overaxesBelow, 'g', xId);
ensureSingle(mainplotinfo.overaxesBelow, 'g', yId);
plotinfo.plot = ensureSingle(mainplotinfo.overplot, 'g', id);
ensureSingle(mainplotinfo.overlinesAbove, 'path', xId);
ensureSingle(mainplotinfo.overlinesAbove, 'path', yId);
ensureSingle(mainplotinfo.overaxesAbove, 'g', xId);
ensureSingle(mainplotinfo.overaxesAbove, 'g', yId);
// set refs to correct layers as determined by 'abovetraces'
plotinfo.xlines = mainplotgroup.select('.overlines-' + xLayer).select('.' + xId);
plotinfo.ylines = mainplotgroup.select('.overlines-' + yLayer).select('.' + yId);
plotinfo.xaxislayer = mainplotgroup.select('.overaxes-' + xLayer).select('.' + xId);
plotinfo.yaxislayer = mainplotgroup.select('.overaxes-' + yLayer).select('.' + yId);
}
// common attributes for all subplots, overlays or not
if(!hasOnlyLargeSploms) {
ensureSingleAndAddDatum(plotinfo.gridlayer, 'g', plotinfo.xaxis._id);
ensureSingleAndAddDatum(plotinfo.gridlayer, 'g', plotinfo.yaxis._id);
plotinfo.gridlayer.selectAll('g')
.map(function(d) { return d[0]; })
.sort(axisIds.idSort);
}
plotinfo.xlines
.style('fill', 'none')
.classed('crisp', true);
plotinfo.ylines
.style('fill', 'none')
.classed('crisp', true);
}
function purgeSubplotLayers(layers, fullLayout) {
if(!layers) return;
var overlayIdsToRemove = {};
layers.each(function(d) {
var id = d[0];
var plotgroup = d3.select(this);
plotgroup.remove();
removeSubplotExtras(id, fullLayout);
overlayIdsToRemove[id] = true;
// do not remove individual axis <clipPath>s here
// as other subplots may need them
});
// must remove overlaid subplot trace layers 'manually'
for(var k in fullLayout._plots) {
var subplotInfo = fullLayout._plots[k];
var overlays = subplotInfo.overlays || [];
for(var j = 0; j < overlays.length; j++) {
var overlayInfo = overlays[j];
if(overlayIdsToRemove[overlayInfo.id]) {
overlayInfo.plot.selectAll('.trace').remove();
}
}
}
}
function removeSubplotExtras(subplotId, fullLayout) {
fullLayout._draggers.selectAll('g.' + subplotId).remove();
fullLayout._defs.select('#clip' + fullLayout._uid + subplotId + 'plot').remove();
}
exports.toSVG = function(gd) {
var imageRoot = gd._fullLayout._glimages;
var root = d3.select(gd).selectAll('.svg-container');
var canvases = root.filter(function(d, i) {return i === root.size() - 1;})
.selectAll('.gl-canvas-context, .gl-canvas-focus');
function canvasToImage() {
var canvas = this;
var imageData = canvas.toDataURL('image/png');
var image = imageRoot.append('svg:image');
image.attr({
xmlns: xmlnsNamespaces.svg,
'xlink:href': imageData,
preserveAspectRatio: 'none',
x: 0,
y: 0,
width: canvas.width,
height: canvas.height
});
}
canvases.each(canvasToImage);
};
exports.updateFx = _dereq_('./graph_interact').updateFx;
},{"../../components/drawing":592,"../../constants/xmlns_namespaces":671,"../../lib":693,"../../registry":825,"../get_data":778,"../plots":805,"./attributes":740,"./axis_ids":745,"./constants":747,"./graph_interact":751,"./layout_attributes":754,"./layout_defaults":755,"./transition_axes":764,"d3":147}],754:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var fontAttrs = _dereq_('../font_attributes');
var colorAttrs = _dereq_('../../components/color/attributes');
var dash = _dereq_('../../components/drawing/attributes').dash;
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var templatedArray = _dereq_('../../plot_api/plot_template').templatedArray;
var constants = _dereq_('./constants');
module.exports = {
visible: {
valType: 'boolean',
editType: 'plot',
},
color: {
valType: 'color',
dflt: colorAttrs.defaultLine,
editType: 'ticks',
},
title: {
valType: 'string',
editType: 'ticks',
},
titlefont: fontAttrs({
editType: 'ticks',
}),
type: {
valType: 'enumerated',
// '-' means we haven't yet run autotype or couldn't find any data
// it gets turned into linear in gd._fullLayout but not copied back
// to gd.data like the others are.
values: ['-', 'linear', 'log', 'date', 'category'],
dflt: '-',
editType: 'calc',
// we forget when an axis has been autotyped, just writing the auto
// value back to the input - so it doesn't make sense to template this.
// Note: we do NOT prohibit this in `coerce`, so if someone enters a
// type in the template explicitly it will be honored as the default.
_noTemplating: true,
},
autorange: {
valType: 'enumerated',
values: [true, false, 'reversed'],
dflt: true,
editType: 'axrange',
impliedEdits: {'range[0]': undefined, 'range[1]': undefined},
},
rangemode: {
valType: 'enumerated',
values: ['normal', 'tozero', 'nonnegative'],
dflt: 'normal',
editType: 'plot',
},
range: {
valType: 'info_array',
items: [
{valType: 'any', editType: 'axrange', impliedEdits: {'^autorange': false}},
{valType: 'any', editType: 'axrange', impliedEdits: {'^autorange': false}}
],
editType: 'axrange',
impliedEdits: {'autorange': false},
},
fixedrange: {
valType: 'boolean',
dflt: false,
editType: 'calc',
},
// scaleanchor: not used directly, just put here for reference
// values are any opposite-letter axis id
scaleanchor: {
valType: 'enumerated',
values: [
constants.idRegex.x.toString(),
constants.idRegex.y.toString()
],
editType: 'plot',
},
scaleratio: {
valType: 'number',
min: 0,
dflt: 1,
editType: 'plot',
},
constrain: {
valType: 'enumerated',
values: ['range', 'domain'],
dflt: 'range',
editType: 'plot',
},
// constraintoward: not used directly, just put here for reference
constraintoward: {
valType: 'enumerated',
values: ['left', 'center', 'right', 'top', 'middle', 'bottom'],
editType: 'plot',
},
// ticks
tickmode: {
valType: 'enumerated',
values: ['auto', 'linear', 'array'],
editType: 'ticks',
impliedEdits: {tick0: undefined, dtick: undefined},
},
nticks: {
valType: 'integer',
min: 0,
dflt: 0,
editType: 'ticks',
},
tick0: {
valType: 'any',
editType: 'ticks',
impliedEdits: {tickmode: 'linear'},
},
dtick: {
valType: 'any',
editType: 'ticks',
impliedEdits: {tickmode: 'linear'},
},
tickvals: {
valType: 'data_array',
editType: 'ticks',
},
ticktext: {
valType: 'data_array',
editType: 'ticks',
},
ticks: {
valType: 'enumerated',
values: ['outside', 'inside', ''],
editType: 'ticks',
},
mirror: {
valType: 'enumerated',
values: [true, 'ticks', false, 'all', 'allticks'],
dflt: false,
editType: 'ticks+layoutstyle',
},
ticklen: {
valType: 'number',
min: 0,
dflt: 5,
editType: 'ticks',
},
tickwidth: {
valType: 'number',
min: 0,
dflt: 1,
editType: 'ticks',
},
tickcolor: {
valType: 'color',
dflt: colorAttrs.defaultLine,
editType: 'ticks',
},
showticklabels: {
valType: 'boolean',
dflt: true,
editType: 'ticks',
},
automargin: {
valType: 'boolean',
dflt: false,
editType: 'ticks',
},
showspikes: {
valType: 'boolean',
dflt: false,
editType: 'modebar',
},
spikecolor: {
valType: 'color',
dflt: null,
editType: 'none',
},
spikethickness: {
valType: 'number',
dflt: 3,
editType: 'none',
},
spikedash: extendFlat({}, dash, {dflt: 'dash', editType: 'none'}),
spikemode: {
valType: 'flaglist',
flags: ['toaxis', 'across', 'marker'],
dflt: 'toaxis',
editType: 'none',
},
spikesnap: {
valType: 'enumerated',
values: ['data', 'cursor'],
dflt: 'data',
editType: 'none',
},
tickfont: fontAttrs({
editType: 'ticks',
}),
tickangle: {
valType: 'angle',
dflt: 'auto',
editType: 'ticks',
},
tickprefix: {
valType: 'string',
dflt: '',
editType: 'ticks',
},
showtickprefix: {
valType: 'enumerated',
values: ['all', 'first', 'last', 'none'],
dflt: 'all',
editType: 'ticks',
},
ticksuffix: {
valType: 'string',
dflt: '',
editType: 'ticks',
},
showticksuffix: {
valType: 'enumerated',
values: ['all', 'first', 'last', 'none'],
dflt: 'all',
editType: 'ticks',
},
showexponent: {
valType: 'enumerated',
values: ['all', 'first', 'last', 'none'],
dflt: 'all',
editType: 'ticks',
},
exponentformat: {
valType: 'enumerated',
values: ['none', 'e', 'E', 'power', 'SI', 'B'],
dflt: 'B',
editType: 'ticks',
},
separatethousands: {
valType: 'boolean',
dflt: false,
editType: 'ticks',
},
tickformat: {
valType: 'string',
dflt: '',
editType: 'ticks',
},
tickformatstops: templatedArray('tickformatstop', {
enabled: {
valType: 'boolean',
dflt: true,
editType: 'ticks',
},
dtickrange: {
valType: 'info_array',
items: [
{valType: 'any', editType: 'ticks'},
{valType: 'any', editType: 'ticks'}
],
editType: 'ticks',
},
value: {
valType: 'string',
dflt: '',
editType: 'ticks',
},
editType: 'ticks'
}),
hoverformat: {
valType: 'string',
dflt: '',
editType: 'none',
},
// lines and grids
showline: {
valType: 'boolean',
dflt: false,
editType: 'ticks+layoutstyle',
},
linecolor: {
valType: 'color',
dflt: colorAttrs.defaultLine,
editType: 'layoutstyle',
},
linewidth: {
valType: 'number',
min: 0,
dflt: 1,
editType: 'ticks+layoutstyle',
},
showgrid: {
valType: 'boolean',
editType: 'ticks',
},
gridcolor: {
valType: 'color',
dflt: colorAttrs.lightLine,
editType: 'ticks',
},
gridwidth: {
valType: 'number',
min: 0,
dflt: 1,
editType: 'ticks',
},
zeroline: {
valType: 'boolean',
editType: 'ticks',
},
zerolinecolor: {
valType: 'color',
dflt: colorAttrs.defaultLine,
editType: 'ticks',
},
zerolinewidth: {
valType: 'number',
dflt: 1,
editType: 'ticks',
},
// positioning attributes
// anchor: not used directly, just put here for reference
// values are any opposite-letter axis id
anchor: {
valType: 'enumerated',
values: [
'free',
constants.idRegex.x.toString(),
constants.idRegex.y.toString()
],
editType: 'plot',
},
// side: not used directly, as values depend on direction
// values are top, bottom for x axes, and left, right for y
side: {
valType: 'enumerated',
values: ['top', 'bottom', 'left', 'right'],
editType: 'plot',
},
// overlaying: not used directly, just put here for reference
// values are false and any other same-letter axis id that's not
// itself overlaying anything
overlaying: {
valType: 'enumerated',
values: [
'free',
constants.idRegex.x.toString(),
constants.idRegex.y.toString()
],
editType: 'plot',
},
layer: {
valType: 'enumerated',
values: ['above traces', 'below traces'],
dflt: 'above traces',
editType: 'plot',
},
domain: {
valType: 'info_array',
items: [
{valType: 'number', min: 0, max: 1, editType: 'plot'},
{valType: 'number', min: 0, max: 1, editType: 'plot'}
],
dflt: [0, 1],
editType: 'plot',
},
position: {
valType: 'number',
min: 0,
max: 1,
dflt: 0,
editType: 'plot',
},
categoryorder: {
valType: 'enumerated',
values: [
'trace', 'category ascending', 'category descending', 'array'
/* , 'value ascending', 'value descending'*/ // value ascending / descending to be implemented later
],
dflt: 'trace',
editType: 'calc',
},
categoryarray: {
valType: 'data_array',
editType: 'calc',
},
editType: 'calc',
_deprecated: {
autotick: {
valType: 'boolean',
editType: 'ticks',
}
}
};
},{"../../components/color/attributes":566,"../../components/drawing/attributes":591,"../../lib/extend":682,"../../plot_api/plot_template":732,"../font_attributes":768,"./constants":747}],755:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Color = _dereq_('../../components/color');
var Template = _dereq_('../../plot_api/plot_template');
var basePlotLayoutAttributes = _dereq_('../layout_attributes');
var layoutAttributes = _dereq_('./layout_attributes');
var handleTypeDefaults = _dereq_('./type_defaults');
var handleAxisDefaults = _dereq_('./axis_defaults');
var handleConstraintDefaults = _dereq_('./constraint_defaults');
var handlePositionDefaults = _dereq_('./position_defaults');
var axisIds = _dereq_('./axis_ids');
var id2name = axisIds.id2name;
var name2id = axisIds.name2id;
var Registry = _dereq_('../../registry');
var traceIs = Registry.traceIs;
var getComponentMethod = Registry.getComponentMethod;
function appendList(cont, k, item) {
if(Array.isArray(cont[k])) cont[k].push(item);
else cont[k] = [item];
}
module.exports = function supplyLayoutDefaults(layoutIn, layoutOut, fullData) {
var ax2traces = {};
var xaCheater = {};
var xaNonCheater = {};
var outerTicks = {};
var noGrids = {};
var i, j;
// look for axes in the data
for(i = 0; i < fullData.length; i++) {
var trace = fullData[i];
if(!traceIs(trace, 'cartesian') && !traceIs(trace, 'gl2d')) continue;
var xaName;
if(trace.xaxis) {
xaName = id2name(trace.xaxis);
appendList(ax2traces, xaName, trace);
} else if(trace.xaxes) {
for(j = 0; j < trace.xaxes.length; j++) {
appendList(ax2traces, id2name(trace.xaxes[j]), trace);
}
}
var yaName;
if(trace.yaxis) {
yaName = id2name(trace.yaxis);
appendList(ax2traces, yaName, trace);
} else if(trace.yaxes) {
for(j = 0; j < trace.yaxes.length; j++) {
appendList(ax2traces, id2name(trace.yaxes[j]), trace);
}
}
// Two things trigger axis visibility:
// 1. is not carpet
// 2. carpet that's not cheater
if(!traceIs(trace, 'carpet') || (trace.type === 'carpet' && !trace._cheater)) {
if(xaName) xaNonCheater[xaName] = 1;
}
// The above check for definitely-not-cheater is not adequate. This
// second list tracks which axes *could* be a cheater so that the
// full condition triggering hiding is:
// *could* be a cheater and *is not definitely visible*
if(trace.type === 'carpet' && trace._cheater) {
if(xaName) xaCheater[xaName] = 1;
}
// check for default formatting tweaks
if(traceIs(trace, '2dMap')) {
outerTicks[xaName] = 1;
outerTicks[yaName] = 1;
}
if(traceIs(trace, 'oriented')) {
var positionAxis = trace.orientation === 'h' ? yaName : xaName;
noGrids[positionAxis] = 1;
}
}
var subplots = layoutOut._subplots;
var xIds = subplots.xaxis;
var yIds = subplots.yaxis;
var xNames = Lib.simpleMap(xIds, id2name);
var yNames = Lib.simpleMap(yIds, id2name);
var axNames = xNames.concat(yNames);
// plot_bgcolor only makes sense if there's a (2D) plot!
// TODO: bgcolor for each subplot, to inherit from the main one
var plot_bgcolor = Color.background;
if(xIds.length && yIds.length) {
plot_bgcolor = Lib.coerce(layoutIn, layoutOut, basePlotLayoutAttributes, 'plot_bgcolor');
}
var bgColor = Color.combine(plot_bgcolor, layoutOut.paper_bgcolor);
var axName, axLetter, axLayoutIn, axLayoutOut;
function coerce(attr, dflt) {
return Lib.coerce(axLayoutIn, axLayoutOut, layoutAttributes, attr, dflt);
}
function coerce2(attr, dflt) {
return Lib.coerce2(axLayoutIn, axLayoutOut, layoutAttributes, attr, dflt);
}
function getCounterAxes(axLetter) {
return (axLetter === 'x') ? yIds : xIds;
}
var counterAxes = {x: getCounterAxes('x'), y: getCounterAxes('y')};
function getOverlayableAxes(axLetter, axName) {
var list = (axLetter === 'x') ? xNames : yNames;
var out = [];
for(var j = 0; j < list.length; j++) {
var axName2 = list[j];
if(axName2 !== axName && !(layoutIn[axName2] || {}).overlaying) {
out.push(name2id(axName2));
}
}
return out;
}
// first pass creates the containers, determines types, and handles most of the settings
for(i = 0; i < axNames.length; i++) {
axName = axNames[i];
axLetter = axName.charAt(0);
if(!Lib.isPlainObject(layoutIn[axName])) {
layoutIn[axName] = {};
}
axLayoutIn = layoutIn[axName];
axLayoutOut = Template.newContainer(layoutOut, axName, axLetter + 'axis');
var traces = ax2traces[axName] || [];
axLayoutOut._traceIndices = traces.map(function(t) { return t._expandedIndex; });
axLayoutOut._annIndices = [];
axLayoutOut._shapeIndices = [];
// set up some private properties
axLayoutOut._name = axName;
var id = axLayoutOut._id = name2id(axName);
var overlayableAxes = getOverlayableAxes(axLetter, axName);
var defaultOptions = {
letter: axLetter,
font: layoutOut.font,
outerTicks: outerTicks[axName],
showGrid: !noGrids[axName],
data: traces,
bgColor: bgColor,
calendar: layoutOut.calendar,
automargin: true,
cheateronly: axLetter === 'x' && xaCheater[axName] && !xaNonCheater[axName],
splomStash: ((layoutOut._splomAxes || {})[axLetter] || {})[id]
};
handleTypeDefaults(axLayoutIn, axLayoutOut, coerce, defaultOptions);
handleAxisDefaults(axLayoutIn, axLayoutOut, coerce, defaultOptions, layoutOut);
var spikecolor = coerce2('spikecolor'),
spikethickness = coerce2('spikethickness'),
spikedash = coerce2('spikedash'),
spikemode = coerce2('spikemode'),
spikesnap = coerce2('spikesnap'),
showSpikes = coerce('showspikes', !!spikecolor || !!spikethickness || !!spikedash || !!spikemode || !!spikesnap);
if(!showSpikes) {
delete axLayoutOut.spikecolor;
delete axLayoutOut.spikethickness;
delete axLayoutOut.spikedash;
delete axLayoutOut.spikemode;
delete axLayoutOut.spikesnap;
}
var positioningOptions = {
letter: axLetter,
counterAxes: counterAxes[axLetter],
overlayableAxes: overlayableAxes,
grid: layoutOut.grid
};
handlePositionDefaults(axLayoutIn, axLayoutOut, coerce, positioningOptions);
axLayoutOut._input = axLayoutIn;
}
// quick second pass for range slider and selector defaults
var rangeSliderDefaults = getComponentMethod('rangeslider', 'handleDefaults');
var rangeSelectorDefaults = getComponentMethod('rangeselector', 'handleDefaults');
for(i = 0; i < xNames.length; i++) {
axName = xNames[i];
axLayoutIn = layoutIn[axName];
axLayoutOut = layoutOut[axName];
rangeSliderDefaults(layoutIn, layoutOut, axName);
if(axLayoutOut.type === 'date') {
rangeSelectorDefaults(
axLayoutIn,
axLayoutOut,
layoutOut,
yNames,
axLayoutOut.calendar
);
}
coerce('fixedrange');
}
for(i = 0; i < yNames.length; i++) {
axName = yNames[i];
axLayoutIn = layoutIn[axName];
axLayoutOut = layoutOut[axName];
var anchoredAxis = layoutOut[id2name(axLayoutOut.anchor)];
var fixedRangeDflt = (
anchoredAxis &&
anchoredAxis.rangeslider &&
anchoredAxis.rangeslider.visible
);
coerce('fixedrange', fixedRangeDflt);
}
// Finally, handle scale constraints. We need to do this after all axes have
// coerced both `type` (so we link only axes of the same type) and
// `fixedrange` (so we can avoid linking from OR TO a fixed axis).
// sets of axes linked by `scaleanchor` along with the scaleratios compounded
// together, populated in handleConstraintDefaults
layoutOut._axisConstraintGroups = [];
var allAxisIds = counterAxes.x.concat(counterAxes.y);
for(i = 0; i < axNames.length; i++) {
axName = axNames[i];
axLetter = axName.charAt(0);
axLayoutIn = layoutIn[axName];
axLayoutOut = layoutOut[axName];
handleConstraintDefaults(axLayoutIn, axLayoutOut, coerce, allAxisIds, layoutOut);
}
};
},{"../../components/color":567,"../../lib":693,"../../plot_api/plot_template":732,"../../registry":825,"../layout_attributes":796,"./axis_defaults":744,"./axis_ids":745,"./constraint_defaults":748,"./layout_attributes":754,"./position_defaults":757,"./type_defaults":765}],756:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var colorMix = _dereq_('tinycolor2').mix;
var lightFraction = _dereq_('../../components/color/attributes').lightFraction;
var Lib = _dereq_('../../lib');
/**
* @param {object} opts :
* - dfltColor {string} : default axis color
* - bgColor {string} : combined subplot bg color
* - blend {number, optional} : blend percentage (to compute dflt grid color)
* - showLine {boolean} : show line by default
* - showGrid {boolean} : show grid by default
* - noZeroLine {boolean} : don't coerce zeroline* attributes
* - attributes {object} : attribute object associated with input containers
*/
module.exports = function handleLineGridDefaults(containerIn, containerOut, coerce, opts) {
opts = opts || {};
var dfltColor = opts.dfltColor;
function coerce2(attr, dflt) {
return Lib.coerce2(containerIn, containerOut, opts.attributes, attr, dflt);
}
var lineColor = coerce2('linecolor', dfltColor);
var lineWidth = coerce2('linewidth');
var showLine = coerce('showline', opts.showLine || !!lineColor || !!lineWidth);
if(!showLine) {
delete containerOut.linecolor;
delete containerOut.linewidth;
}
var gridColorDflt = colorMix(dfltColor, opts.bgColor, opts.blend || lightFraction).toRgbString();
var gridColor = coerce2('gridcolor', gridColorDflt);
var gridWidth = coerce2('gridwidth');
var showGridLines = coerce('showgrid', opts.showGrid || !!gridColor || !!gridWidth);
if(!showGridLines) {
delete containerOut.gridcolor;
delete containerOut.gridwidth;
}
if(!opts.noZeroLine) {
var zeroLineColor = coerce2('zerolinecolor', dfltColor);
var zeroLineWidth = coerce2('zerolinewidth');
var showZeroLine = coerce('zeroline', opts.showGrid || !!zeroLineColor || !!zeroLineWidth);
if(!showZeroLine) {
delete containerOut.zerolinecolor;
delete containerOut.zerolinewidth;
}
}
};
},{"../../components/color/attributes":566,"../../lib":693,"tinycolor2":511}],757:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var Lib = _dereq_('../../lib');
module.exports = function handlePositionDefaults(containerIn, containerOut, coerce, options) {
var counterAxes = options.counterAxes || [];
var overlayableAxes = options.overlayableAxes || [];
var letter = options.letter;
var grid = options.grid;
var dfltAnchor, dfltDomain, dfltSide, dfltPosition;
if(grid) {
dfltDomain = grid._domains[letter][grid._axisMap[containerOut._id]];
dfltAnchor = grid._anchors[containerOut._id];
if(dfltDomain) {
dfltSide = grid[letter + 'side'].split(' ')[0];
dfltPosition = grid.domain[letter][dfltSide === 'right' || dfltSide === 'top' ? 1 : 0];
}
}
// Even if there's a grid, this axis may not be in it - fall back on non-grid defaults
dfltDomain = dfltDomain || [0, 1];
dfltAnchor = dfltAnchor || (isNumeric(containerIn.position) ? 'free' : (counterAxes[0] || 'free'));
dfltSide = dfltSide || (letter === 'x' ? 'bottom' : 'left');
dfltPosition = dfltPosition || 0;
var anchor = Lib.coerce(containerIn, containerOut, {
anchor: {
valType: 'enumerated',
values: ['free'].concat(counterAxes),
dflt: dfltAnchor
}
}, 'anchor');
if(anchor === 'free') coerce('position', dfltPosition);
Lib.coerce(containerIn, containerOut, {
side: {
valType: 'enumerated',
values: letter === 'x' ? ['bottom', 'top'] : ['left', 'right'],
dflt: dfltSide
}
}, 'side');
var overlaying = false;
if(overlayableAxes.length) {
overlaying = Lib.coerce(containerIn, containerOut, {
overlaying: {
valType: 'enumerated',
values: [false].concat(overlayableAxes),
dflt: false
}
}, 'overlaying');
}
if(!overlaying) {
// TODO: right now I'm copying this domain over to overlaying axes
// in ax.setscale()... but this means we still need (imperfect) logic
// in the axes popover to hide domain for the overlaying axis.
// perhaps I should make a private version _domain that all axes get???
var domain = coerce('domain', dfltDomain);
if(domain[0] > domain[1] - 0.01) containerOut.domain = dfltDomain;
Lib.noneOrAll(containerIn.domain, containerOut.domain, dfltDomain);
}
coerce('layer');
return containerOut;
};
},{"../../lib":693,"fast-isnumeric":213}],758:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var FROM_BL = _dereq_('../../constants/alignment').FROM_BL;
module.exports = function scaleZoom(ax, factor, centerFraction) {
if(centerFraction === undefined) {
centerFraction = FROM_BL[ax.constraintoward || 'center'];
}
var rangeLinear = [ax.r2l(ax.range[0]), ax.r2l(ax.range[1])];
var center = rangeLinear[0] + (rangeLinear[1] - rangeLinear[0]) * centerFraction;
ax.range = ax._input.range = [
ax.l2r(center + (rangeLinear[0] - center) * factor),
ax.l2r(center + (rangeLinear[1] - center) * factor)
];
};
},{"../../constants/alignment":665}],759:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var polybool = _dereq_('polybooljs');
var Registry = _dereq_('../../registry');
var Color = _dereq_('../../components/color');
var Fx = _dereq_('../../components/fx');
var polygon = _dereq_('../../lib/polygon');
var throttle = _dereq_('../../lib/throttle');
var makeEventData = _dereq_('../../components/fx/helpers').makeEventData;
var getFromId = _dereq_('./axis_ids').getFromId;
var sortModules = _dereq_('../sort_modules').sortModules;
var constants = _dereq_('./constants');
var MINSELECT = constants.MINSELECT;
var filteredPolygon = polygon.filter;
var polygonTester = polygon.tester;
function getAxId(ax) { return ax._id; }
function prepSelect(e, startX, startY, dragOptions, mode) {
var gd = dragOptions.gd;
var fullLayout = gd._fullLayout;
var zoomLayer = fullLayout._zoomlayer;
var dragBBox = dragOptions.element.getBoundingClientRect();
var plotinfo = dragOptions.plotinfo;
var xs = plotinfo.xaxis._offset;
var ys = plotinfo.yaxis._offset;
var x0 = startX - dragBBox.left;
var y0 = startY - dragBBox.top;
var x1 = x0;
var y1 = y0;
var path0 = 'M' + x0 + ',' + y0;
var pw = dragOptions.xaxes[0]._length;
var ph = dragOptions.yaxes[0]._length;
var allAxes = dragOptions.xaxes.concat(dragOptions.yaxes);
var subtract = e.altKey;
var filterPoly, selectionTester, mergedPolygons, currentPolygon;
var i, searchInfo, eventData;
coerceSelectionsCache(e, gd, dragOptions);
if(mode === 'lasso') {
filterPoly = filteredPolygon([[x0, y0]], constants.BENDPX);
}
var outlines = zoomLayer.selectAll('path.select-outline-' + plotinfo.id).data([1, 2]);
outlines.enter()
.append('path')
.attr('class', function(d) { return 'select-outline select-outline-' + d + ' select-outline-' + plotinfo.id; })
.attr('transform', 'translate(' + xs + ', ' + ys + ')')
.attr('d', path0 + 'Z');
var corners = zoomLayer.append('path')
.attr('class', 'zoombox-corners')
.style({
fill: Color.background,
stroke: Color.defaultLine,
'stroke-width': 1
})
.attr('transform', 'translate(' + xs + ', ' + ys + ')')
.attr('d', 'M0,0Z');
var throttleID = fullLayout._uid + constants.SELECTID;
var selection = [];
// find the traces to search for selection points
var searchTraces = determineSearchTraces(gd, dragOptions.xaxes,
dragOptions.yaxes, dragOptions.subplot);
function axValue(ax) {
var index = (ax._id.charAt(0) === 'y') ? 1 : 0;
return function(v) { return ax.p2d(v[index]); };
}
function ascending(a, b) { return a - b; }
// allow subplots to override fillRangeItems routine
var fillRangeItems;
if(plotinfo.fillRangeItems) {
fillRangeItems = plotinfo.fillRangeItems;
} else {
if(mode === 'select') {
fillRangeItems = function(eventData, poly) {
var ranges = eventData.range = {};
for(i = 0; i < allAxes.length; i++) {
var ax = allAxes[i];
var axLetter = ax._id.charAt(0);
ranges[ax._id] = [
ax.p2d(poly[axLetter + 'min']),
ax.p2d(poly[axLetter + 'max'])
].sort(ascending);
}
};
} else {
fillRangeItems = function(eventData, poly, filterPoly) {
var dataPts = eventData.lassoPoints = {};
for(i = 0; i < allAxes.length; i++) {
var ax = allAxes[i];
dataPts[ax._id] = filterPoly.filtered.map(axValue(ax));
}
};
}
}
dragOptions.moveFn = function(dx0, dy0) {
x1 = Math.max(0, Math.min(pw, dx0 + x0));
y1 = Math.max(0, Math.min(ph, dy0 + y0));
var dx = Math.abs(x1 - x0),
dy = Math.abs(y1 - y0);
if(mode === 'select') {
var direction = fullLayout.selectdirection;
if(fullLayout.selectdirection === 'any') {
if(dy < Math.min(dx * 0.6, MINSELECT)) direction = 'h';
else if(dx < Math.min(dy * 0.6, MINSELECT)) direction = 'v';
else direction = 'd';
}
else {
direction = fullLayout.selectdirection;
}
if(direction === 'h') {
// horizontal motion: make a vertical box
currentPolygon = [[x0, 0], [x0, ph], [x1, ph], [x1, 0]];
currentPolygon.xmin = Math.min(x0, x1);
currentPolygon.xmax = Math.max(x0, x1);
currentPolygon.ymin = Math.min(0, ph);
currentPolygon.ymax = Math.max(0, ph);
// extras to guide users in keeping a straight selection
corners.attr('d', 'M' + currentPolygon.xmin + ',' + (y0 - MINSELECT) +
'h-4v' + (2 * MINSELECT) + 'h4Z' +
'M' + (currentPolygon.xmax - 1) + ',' + (y0 - MINSELECT) +
'h4v' + (2 * MINSELECT) + 'h-4Z');
}
else if(direction === 'v') {
// vertical motion: make a horizontal box
currentPolygon = [[0, y0], [0, y1], [pw, y1], [pw, y0]];
currentPolygon.xmin = Math.min(0, pw);
currentPolygon.xmax = Math.max(0, pw);
currentPolygon.ymin = Math.min(y0, y1);
currentPolygon.ymax = Math.max(y0, y1);
corners.attr('d', 'M' + (x0 - MINSELECT) + ',' + currentPolygon.ymin +
'v-4h' + (2 * MINSELECT) + 'v4Z' +
'M' + (x0 - MINSELECT) + ',' + (currentPolygon.ymax - 1) +
'v4h' + (2 * MINSELECT) + 'v-4Z');
}
else if(direction === 'd') {
// diagonal motion
currentPolygon = [[x0, y0], [x0, y1], [x1, y1], [x1, y0]];
currentPolygon.xmin = Math.min(x0, x1);
currentPolygon.xmax = Math.max(x0, x1);
currentPolygon.ymin = Math.min(y0, y1);
currentPolygon.ymax = Math.max(y0, y1);
corners.attr('d', 'M0,0Z');
}
}
else if(mode === 'lasso') {
filterPoly.addPt([x1, y1]);
currentPolygon = filterPoly.filtered;
}
// create outline & tester
if(dragOptions.selectionDefs && dragOptions.selectionDefs.length) {
mergedPolygons = mergePolygons(dragOptions.mergedPolygons, currentPolygon, subtract);
currentPolygon.subtract = subtract;
selectionTester = multiTester(dragOptions.selectionDefs.concat([currentPolygon]));
}
else {
mergedPolygons = [currentPolygon];
selectionTester = polygonTester(currentPolygon);
}
// draw selection
drawSelection(mergedPolygons, outlines);
throttle.throttle(
throttleID,
constants.SELECTDELAY,
function() {
selection = [];
var thisSelection, traceSelections = [], traceSelection;
for(i = 0; i < searchTraces.length; i++) {
searchInfo = searchTraces[i];
traceSelection = searchInfo._module.selectPoints(searchInfo, selectionTester);
traceSelections.push(traceSelection);
thisSelection = fillSelectionItem(traceSelection, searchInfo);
if(selection.length) {
for(var j = 0; j < thisSelection.length; j++) {
selection.push(thisSelection[j]);
}
}
else selection = thisSelection;
}
eventData = {points: selection};
updateSelectedState(gd, searchTraces, eventData);
fillRangeItems(eventData, currentPolygon, filterPoly);
dragOptions.gd.emit('plotly_selecting', eventData);
}
);
};
dragOptions.clickFn = function(numClicks, evt) {
var clickmode = fullLayout.clickmode;
corners.remove();
throttle.done(throttleID).then(function() {
throttle.clear(throttleID);
if(numClicks === 2) {
// clear selection on doubleclick
outlines.remove();
for(i = 0; i < searchTraces.length; i++) {
searchInfo = searchTraces[i];
searchInfo._module.selectPoints(searchInfo, false);
}
updateSelectedState(gd, searchTraces);
clearSelectionsCache(dragOptions);
gd.emit('plotly_deselect', null);
} else {
if(clickmode.indexOf('select') > -1) {
selectOnClick(evt, gd, dragOptions.xaxes, dragOptions.yaxes,
dragOptions.subplot, dragOptions, outlines);
}
if(clickmode === 'event') {
// TODO: remove in v2 - this was probably never intended to work as it does,
// but in case anyone depends on it we don't want to break it now.
// Note that click-to-select introduced pre v2 also emitts proper
// event data when clickmode is having 'select' in its flag list.
gd.emit('plotly_selected', undefined);
}
}
Fx.click(gd, evt);
});
};
dragOptions.doneFn = function() {
corners.remove();
throttle.done(throttleID).then(function() {
throttle.clear(throttleID);
dragOptions.gd.emit('plotly_selected', eventData);
if(currentPolygon && dragOptions.selectionDefs) {
// save last polygons
currentPolygon.subtract = subtract;
dragOptions.selectionDefs.push(currentPolygon);
// we have to keep reference to arrays container
dragOptions.mergedPolygons.length = 0;
[].push.apply(dragOptions.mergedPolygons, mergedPolygons);
}
});
};
}
function selectOnClick(evt, gd, xAxes, yAxes, subplot, dragOptions, polygonOutlines) {
var hoverData = gd._hoverdata;
var clickmode = gd._fullLayout.clickmode;
var sendEvents = clickmode.indexOf('event') > -1;
var selection = [];
var searchTraces, searchInfo, currentSelectionDef, selectionTester, traceSelection;
var thisTracesSelection, pointOrBinSelected, subtract, eventData, i;
if(isHoverDataSet(hoverData)) {
coerceSelectionsCache(evt, gd, dragOptions);
searchTraces = determineSearchTraces(gd, xAxes, yAxes, subplot);
var clickedPtInfo = extractClickedPtInfo(hoverData, searchTraces);
var isBinnedTrace = clickedPtInfo.pointNumbers.length > 0;
// Note: potentially costly operation isPointOrBinSelected is
// called as late as possible through the use of an assignment
// in an if condition.
if(isBinnedTrace ?
isOnlyThisBinSelected(searchTraces, clickedPtInfo) :
isOnlyOnePointSelected(searchTraces) &&
(pointOrBinSelected = isPointOrBinSelected(clickedPtInfo)))
{
if(polygonOutlines) polygonOutlines.remove();
for(i = 0; i < searchTraces.length; i++) {
searchInfo = searchTraces[i];
searchInfo._module.selectPoints(searchInfo, false);
}
updateSelectedState(gd, searchTraces);
clearSelectionsCache(dragOptions);
if(sendEvents) {
gd.emit('plotly_deselect', null);
}
} else {
subtract = evt.shiftKey &&
(pointOrBinSelected !== undefined ?
pointOrBinSelected :
isPointOrBinSelected(clickedPtInfo));
currentSelectionDef = newPointSelectionDef(clickedPtInfo.pointNumber, clickedPtInfo.searchInfo, subtract);
var allSelectionDefs = dragOptions.selectionDefs.concat([currentSelectionDef]);
selectionTester = multiTester(allSelectionDefs);
for(i = 0; i < searchTraces.length; i++) {
traceSelection = searchTraces[i]._module.selectPoints(searchTraces[i], selectionTester);
thisTracesSelection = fillSelectionItem(traceSelection, searchTraces[i]);
if(selection.length) {
for(var j = 0; j < thisTracesSelection.length; j++) {
selection.push(thisTracesSelection[j]);
}
}
else selection = thisTracesSelection;
}
eventData = {points: selection};
updateSelectedState(gd, searchTraces, eventData);
if(currentSelectionDef && dragOptions) {
dragOptions.selectionDefs.push(currentSelectionDef);
}
if(polygonOutlines) drawSelection(dragOptions.mergedPolygons, polygonOutlines);
if(sendEvents) {
gd.emit('plotly_selected', eventData);
}
}
}
}
/**
* Constructs a new point selection definition object.
*/
function newPointSelectionDef(pointNumber, searchInfo, subtract) {
return {
pointNumber: pointNumber,
searchInfo: searchInfo,
subtract: subtract
};
}
function isPointSelectionDef(o) {
return 'pointNumber' in o && 'searchInfo' in o;
}
/*
* Constructs a new point number tester.
*/
function newPointNumTester(pointSelectionDef) {
return {
xmin: 0,
xmax: 0,
ymin: 0,
ymax: 0,
pts: [],
contains: function(pt, omitFirstEdge, pointNumber, searchInfo) {
var idxWantedTrace = pointSelectionDef.searchInfo.cd[0].trace._expandedIndex;
var idxActualTrace = searchInfo.cd[0].trace._expandedIndex;
return idxActualTrace === idxWantedTrace &&
pointNumber === pointSelectionDef.pointNumber;
},
isRect: false,
degenerate: false,
subtract: pointSelectionDef.subtract
};
}
/**
* Wraps multiple selection testers.
*
* @param {Array} list - An array of selection testers.
*
* @return a selection tester object with a contains function
* that can be called to evaluate a point against all wrapped
* selection testers that were passed in list.
*/
function multiTester(list) {
var testers = [];
var xmin = isPointSelectionDef(list[0]) ? 0 : list[0][0][0];
var xmax = xmin;
var ymin = isPointSelectionDef(list[0]) ? 0 : list[0][0][1];
var ymax = ymin;
for(var i = 0; i < list.length; i++) {
if(isPointSelectionDef(list[i])) {
testers.push(newPointNumTester(list[i]));
} else {
var tester = polygon.tester(list[i]);
tester.subtract = list[i].subtract;
testers.push(tester);
xmin = Math.min(xmin, tester.xmin);
xmax = Math.max(xmax, tester.xmax);
ymin = Math.min(ymin, tester.ymin);
ymax = Math.max(ymax, tester.ymax);
}
}
/**
* Tests if the given point is within this tester.
*
* @param {Array} pt - [0] is the x coordinate, [1] is the y coordinate of the point.
* @param {*} arg - An optional parameter to pass down to wrapped testers.
* @param {number} pointNumber - The point number of the point within the underlying data array.
* @param {number} searchInfo - An object identifying the trace the point is contained in.
*
* @return {boolean} true if point is considered to be selected, false otherwise.
*/
function contains(pt, arg, pointNumber, searchInfo) {
var contained = false;
for(var i = 0; i < testers.length; i++) {
if(testers[i].contains(pt, arg, pointNumber, searchInfo)) {
// if contained by subtract tester - exclude the point
contained = testers[i].subtract === false;
}
}
return contained;
}
return {
xmin: xmin,
xmax: xmax,
ymin: ymin,
ymax: ymax,
pts: [],
contains: contains,
isRect: false,
degenerate: false
};
}
function coerceSelectionsCache(evt, gd, dragOptions) {
var fullLayout = gd._fullLayout;
var zoomLayer = fullLayout._zoomlayer;
var plotinfo = dragOptions.plotinfo;
var selectingOnSameSubplot = (
fullLayout._lastSelectedSubplot &&
fullLayout._lastSelectedSubplot === plotinfo.id
);
var hasModifierKey = evt.shiftKey || evt.altKey;
if(selectingOnSameSubplot && hasModifierKey &&
(plotinfo.selection && plotinfo.selection.selectionDefs) && !dragOptions.selectionDefs) {
// take over selection definitions from prev mode, if any
dragOptions.selectionDefs = plotinfo.selection.selectionDefs;
dragOptions.mergedPolygons = plotinfo.selection.mergedPolygons;
} else if(!hasModifierKey || !plotinfo.selection) {
clearSelectionsCache(dragOptions);
}
// clear selection outline when selecting a different subplot
if(!selectingOnSameSubplot) {
clearSelect(zoomLayer);
fullLayout._lastSelectedSubplot = plotinfo.id;
}
}
function clearSelectionsCache(dragOptions) {
var plotinfo = dragOptions.plotinfo;
plotinfo.selection = {};
plotinfo.selection.selectionDefs = dragOptions.selectionDefs = [];
plotinfo.selection.mergedPolygons = dragOptions.mergedPolygons = [];
}
function determineSearchTraces(gd, xAxes, yAxes, subplot) {
var searchTraces = [];
var xAxisIds = xAxes.map(getAxId);
var yAxisIds = yAxes.map(getAxId);
var cd, trace, i;
for(i = 0; i < gd.calcdata.length; i++) {
cd = gd.calcdata[i];
trace = cd[0].trace;
if(trace.visible !== true || !trace._module || !trace._module.selectPoints) continue;
if(subplot && (trace.subplot === subplot || trace.geo === subplot)) {
searchTraces.push(createSearchInfo(trace._module, cd, xAxes[0], yAxes[0]));
} else if(
trace.type === 'splom' &&
// FIXME: make sure we don't have more than single axis for splom
trace._xaxes[xAxisIds[0]] && trace._yaxes[yAxisIds[0]]
) {
searchTraces.push(createSearchInfo(trace._module, cd, xAxes[0], yAxes[0]));
} else {
if(xAxisIds.indexOf(trace.xaxis) === -1) continue;
if(yAxisIds.indexOf(trace.yaxis) === -1) continue;
searchTraces.push(createSearchInfo(trace._module, cd,
getFromId(gd, trace.xaxis), getFromId(gd, trace.yaxis)));
}
}
return searchTraces;
function createSearchInfo(module, calcData, xaxis, yaxis) {
return {
_module: module,
cd: calcData,
xaxis: xaxis,
yaxis: yaxis
};
}
}
function drawSelection(polygons, outlines) {
var paths = [];
var i, d;
for(i = 0; i < polygons.length; i++) {
var ppts = polygons[i];
paths.push(ppts.join('L') + 'L' + ppts[0]);
}
d = polygons.length > 0 ?
'M' + paths.join('M') + 'Z' :
'M0,0Z';
outlines.attr('d', d);
}
function isHoverDataSet(hoverData) {
return hoverData &&
Array.isArray(hoverData) &&
hoverData[0].hoverOnBox !== true;
}
function extractClickedPtInfo(hoverData, searchTraces) {
var hoverDatum = hoverData[0];
var pointNumber = -1;
var pointNumbers = [];
var searchInfo, i;
for(i = 0; i < searchTraces.length; i++) {
searchInfo = searchTraces[i];
if(hoverDatum.fullData._expandedIndex === searchInfo.cd[0].trace._expandedIndex) {
// Special case for box (and violin)
if(hoverDatum.hoverOnBox === true) {
break;
}
// Hint: in some traces like histogram, one graphical element
// doesn't correspond to one particular data point, but to
// bins of data points. Thus, hoverDatum can have a binNumber
// property instead of pointNumber.
if(hoverDatum.pointNumber !== undefined) {
pointNumber = hoverDatum.pointNumber;
} else if(hoverDatum.binNumber !== undefined) {
pointNumber = hoverDatum.binNumber;
pointNumbers = hoverDatum.pointNumbers;
}
break;
}
}
return {
pointNumber: pointNumber,
pointNumbers: pointNumbers,
searchInfo: searchInfo
};
}
function isPointOrBinSelected(clickedPtInfo) {
var trace = clickedPtInfo.searchInfo.cd[0].trace;
var ptNum = clickedPtInfo.pointNumber;
var ptNums = clickedPtInfo.pointNumbers;
var ptNumsSet = ptNums.length > 0;
// When pointsNumbers is set (e.g. histogram's binning),
// it is assumed that when the first point of
// a bin is selected, all others are as well
var ptNumToTest = ptNumsSet ? ptNums[0] : ptNum;
// TODO potential performance improvement
// Primarily we need this function to determine if a click adds
// or subtracts from a selection.
// In cases `trace.selectedpoints` is a huge array, indexOf
// might be slow. One remedy would be to introduce a hash somewhere.
return trace.selectedpoints ? trace.selectedpoints.indexOf(ptNumToTest) > -1 : false;
}
function isOnlyThisBinSelected(searchTraces, clickedPtInfo) {
var tracesWithSelectedPts = [];
var searchInfo, trace, isSameTrace, i;
for(i = 0; i < searchTraces.length; i++) {
searchInfo = searchTraces[i];
if(searchInfo.cd[0].trace.selectedpoints && searchInfo.cd[0].trace.selectedpoints.length > 0) {
tracesWithSelectedPts.push(searchInfo);
}
}
if(tracesWithSelectedPts.length === 1) {
isSameTrace = tracesWithSelectedPts[0] === clickedPtInfo.searchInfo;
if(isSameTrace) {
trace = clickedPtInfo.searchInfo.cd[0].trace;
if(trace.selectedpoints.length === clickedPtInfo.pointNumbers.length) {
for(i = 0; i < clickedPtInfo.pointNumbers.length; i++) {
if(trace.selectedpoints.indexOf(clickedPtInfo.pointNumbers[i]) < 0) {
return false;
}
}
return true;
}
}
}
return false;
}
function isOnlyOnePointSelected(searchTraces) {
var len = 0;
var searchInfo, trace, i;
for(i = 0; i < searchTraces.length; i++) {
searchInfo = searchTraces[i];
trace = searchInfo.cd[0].trace;
if(trace.selectedpoints) {
if(trace.selectedpoints.length > 1) return false;
len += trace.selectedpoints.length;
if(len > 1) return false;
}
}
return len === 1;
}
function updateSelectedState(gd, searchTraces, eventData) {
var i, j, searchInfo, trace;
if(eventData) {
var pts = eventData.points || [];
for(i = 0; i < searchTraces.length; i++) {
trace = searchTraces[i].cd[0].trace;
trace.selectedpoints = [];
trace._input.selectedpoints = [];
}
for(i = 0; i < pts.length; i++) {
var pt = pts[i];
var data = pt.data;
var fullData = pt.fullData;
if(pt.pointIndices) {
[].push.apply(data.selectedpoints, pt.pointIndices);
[].push.apply(fullData.selectedpoints, pt.pointIndices);
} else {
data.selectedpoints.push(pt.pointIndex);
fullData.selectedpoints.push(pt.pointIndex);
}
}
}
else {
for(i = 0; i < searchTraces.length; i++) {
trace = searchTraces[i].cd[0].trace;
delete trace.selectedpoints;
delete trace._input.selectedpoints;
}
}
// group searchInfo traces by trace modules
var lookup = {};
for(i = 0; i < searchTraces.length; i++) {
searchInfo = searchTraces[i];
var name = searchInfo._module.name;
if(lookup[name]) {
lookup[name].push(searchInfo);
} else {
lookup[name] = [searchInfo];
}
}
var keys = Object.keys(lookup).sort(sortModules);
for(i = 0; i < keys.length; i++) {
var items = lookup[keys[i]];
var len = items.length;
var item0 = items[0];
var trace0 = item0.cd[0].trace;
var _module = item0._module;
var styleSelection = _module.styleOnSelect || _module.style;
if(Registry.traceIs(trace0, 'regl')) {
// plot regl traces per module
var cds = new Array(len);
for(j = 0; j < len; j++) {
cds[j] = items[j].cd;
}
styleSelection(gd, cds);
} else {
// plot svg trace per trace
for(j = 0; j < len; j++) {
styleSelection(gd, items[j].cd);
}
}
}
}
function mergePolygons(list, poly, subtract) {
var res;
if(subtract) {
res = polybool.difference({
regions: list,
inverted: false
}, {
regions: [poly],
inverted: false
});
return res.regions;
}
res = polybool.union({
regions: list,
inverted: false
}, {
regions: [poly],
inverted: false
});
return res.regions;
}
function fillSelectionItem(selection, searchInfo) {
if(Array.isArray(selection)) {
var cd = searchInfo.cd;
var trace = searchInfo.cd[0].trace;
for(var i = 0; i < selection.length; i++) {
selection[i] = makeEventData(selection[i], trace, cd);
}
}
return selection;
}
function clearSelect(zoomlayer) {
// until we get around to persistent selections, remove the outline
// here. The selection itself will be removed when the plot redraws
// at the end.
zoomlayer.selectAll('.select-outline').remove();
}
module.exports = {
prepSelect: prepSelect,
clearSelect: clearSelect,
selectOnClick: selectOnClick
};
},{"../../components/color":567,"../../components/fx":609,"../../components/fx/helpers":606,"../../lib/polygon":706,"../../lib/throttle":719,"../../registry":825,"../sort_modules":819,"./axis_ids":745,"./constants":747,"polybooljs":453}],760:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var isNumeric = _dereq_('fast-isnumeric');
var Lib = _dereq_('../../lib');
var cleanNumber = Lib.cleanNumber;
var ms2DateTime = Lib.ms2DateTime;
var dateTime2ms = Lib.dateTime2ms;
var ensureNumber = Lib.ensureNumber;
var numConstants = _dereq_('../../constants/numerical');
var FP_SAFE = numConstants.FP_SAFE;
var BADNUM = numConstants.BADNUM;
var LOG_CLIP = numConstants.LOG_CLIP;
var constants = _dereq_('./constants');
var axisIds = _dereq_('./axis_ids');
function fromLog(v) {
return Math.pow(10, v);
}
/**
* Define the conversion functions for an axis data is used in 5 ways:
*
* d: data, in whatever form it's provided
* c: calcdata: turned into numbers, but not linearized
* l: linearized - same as c except for log axes (and other nonlinear
* mappings later?) this is used when we need to know if it's
* *possible* to show some data on this axis, without caring about
* the current range
* p: pixel value - mapped to the screen with current size and zoom
* r: ranges, tick0, and annotation positions match one of the above
* but are handled differently for different types:
* - linear and date: data format (d)
* - category: calcdata format (c), and will stay that way because
* the data format has no continuous mapping
* - log: linearized (l) format
* TODO: in v2.0 we plan to change it to data format. At that point
* shapes will work the same way as ranges, tick0, and annotations
* so they can use this conversion too.
*
* Creates/updates these conversion functions, and a few more utilities
* like cleanRange, and makeCalcdata
*
* also clears the autotick constraints ._minDtick, ._forceTick0
*/
module.exports = function setConvert(ax, fullLayout) {
fullLayout = fullLayout || {};
var axLetter = (ax._id || 'x').charAt(0);
function toLog(v, clip) {
if(v > 0) return Math.log(v) / Math.LN10;
else if(v <= 0 && clip && ax.range && ax.range.length === 2) {
// clip NaN (ie past negative infinity) to LOG_CLIP axis
// length past the negative edge
var r0 = ax.range[0],
r1 = ax.range[1];
return 0.5 * (r0 + r1 - 2 * LOG_CLIP * Math.abs(r0 - r1));
}
else return BADNUM;
}
/*
* wrapped dateTime2ms that:
* - accepts ms numbers for backward compatibility
* - inserts a dummy arg so calendar is the 3rd arg (see notes below).
* - defaults to ax.calendar
*/
function dt2ms(v, _, calendar) {
// NOTE: Changed this behavior: previously we took any numeric value
// to be a ms, even if it was a string that could be a bare year.
// Now we convert it as a date if at all possible, and only try
// as (local) ms if that fails.
var ms = dateTime2ms(v, calendar || ax.calendar);
if(ms === BADNUM) {
if(isNumeric(v)) {
v = +v;
// keep track of tenths of ms, that `new Date` will drop
// same logic as in Lib.ms2DateTime
var msecTenths = Math.floor(Lib.mod(v + 0.05, 1) * 10);
var msRounded = Math.round(v - msecTenths / 10);
ms = dateTime2ms(new Date(msRounded)) + msecTenths / 10;
}
else return BADNUM;
}
return ms;
}
// wrapped ms2DateTime to insert default ax.calendar
function ms2dt(v, r, calendar) {
return ms2DateTime(v, r, calendar || ax.calendar);
}
function getCategoryName(v) {
return ax._categories[Math.round(v)];
}
/*
* setCategoryIndex: return the index of category v,
* inserting it in the list if it's not already there
*
* this will enter the categories in the order it
* encounters them, ie all the categories from the
* first data set, then all the ones from the second
* that aren't in the first etc.
*
* it is assumed that this function is being invoked in the
* already sorted category order; otherwise there would be
* a disconnect between the array and the index returned
*/
function setCategoryIndex(v) {
if(v !== null && v !== undefined) {
if(ax._categoriesMap === undefined) {
ax._categoriesMap = {};
}
if(ax._categoriesMap[v] !== undefined) {
return ax._categoriesMap[v];
} else {
ax._categories.push(v);
var curLength = ax._categories.length - 1;
ax._categoriesMap[v] = curLength;
return curLength;
}
}
return BADNUM;
}
function getCategoryIndex(v) {
// d2l/d2c variant that that won't add categories but will also
// allow numbers to be mapped to the linearized axis positions
if(ax._categoriesMap) {
var index = ax._categoriesMap[v];
if(index !== undefined) return index;
}
if(isNumeric(v)) return +v;
}
function l2p(v) {
if(!isNumeric(v)) return BADNUM;
// include 2 fractional digits on pixel, for PDF zooming etc
return d3.round(ax._b + ax._m * v, 2);
}
function p2l(px) { return (px - ax._b) / ax._m; }
// conversions among c/l/p are fairly simple - do them together for all axis types
ax.c2l = (ax.type === 'log') ? toLog : ensureNumber;
ax.l2c = (ax.type === 'log') ? fromLog : ensureNumber;
ax.l2p = l2p;
ax.p2l = p2l;
ax.c2p = (ax.type === 'log') ? function(v, clip) { return l2p(toLog(v, clip)); } : l2p;
ax.p2c = (ax.type === 'log') ? function(px) { return fromLog(p2l(px)); } : p2l;
/*
* now type-specific conversions for **ALL** other combinations
* they're all written out, instead of being combinations of each other, for
* both clarity and speed.
*/
if(['linear', '-'].indexOf(ax.type) !== -1) {
// all are data vals, but d and r need cleaning
ax.d2r = ax.r2d = ax.d2c = ax.r2c = ax.d2l = ax.r2l = cleanNumber;
ax.c2d = ax.c2r = ax.l2d = ax.l2r = ensureNumber;
ax.d2p = ax.r2p = function(v) { return ax.l2p(cleanNumber(v)); };
ax.p2d = ax.p2r = p2l;
ax.cleanPos = ensureNumber;
}
else if(ax.type === 'log') {
// d and c are data vals, r and l are logged (but d and r need cleaning)
ax.d2r = ax.d2l = function(v, clip) { return toLog(cleanNumber(v), clip); };
ax.r2d = ax.r2c = function(v) { return fromLog(cleanNumber(v)); };
ax.d2c = ax.r2l = cleanNumber;
ax.c2d = ax.l2r = ensureNumber;
ax.c2r = toLog;
ax.l2d = fromLog;
ax.d2p = function(v, clip) { return ax.l2p(ax.d2r(v, clip)); };
ax.p2d = function(px) { return fromLog(p2l(px)); };
ax.r2p = function(v) { return ax.l2p(cleanNumber(v)); };
ax.p2r = p2l;
ax.cleanPos = ensureNumber;
}
else if(ax.type === 'date') {
// r and d are date strings, l and c are ms
/*
* Any of these functions with r and d on either side, calendar is the
* **3rd** argument. log has reserved the second argument.
*
* Unless you need the special behavior of the second arg (ms2DateTime
* uses this to limit precision, toLog uses true to clip negatives
* to offscreen low rather than undefined), it's safe to pass 0.
*/
ax.d2r = ax.r2d = Lib.identity;
ax.d2c = ax.r2c = ax.d2l = ax.r2l = dt2ms;
ax.c2d = ax.c2r = ax.l2d = ax.l2r = ms2dt;
ax.d2p = ax.r2p = function(v, _, calendar) { return ax.l2p(dt2ms(v, 0, calendar)); };
ax.p2d = ax.p2r = function(px, r, calendar) { return ms2dt(p2l(px), r, calendar); };
ax.cleanPos = function(v) { return Lib.cleanDate(v, BADNUM, ax.calendar); };
}
else if(ax.type === 'category') {
// d is categories (string)
// c and l are indices (numbers)
// r is categories or numbers
ax.d2c = ax.d2l = setCategoryIndex;
ax.r2d = ax.c2d = ax.l2d = getCategoryName;
ax.d2r = ax.d2l_noadd = getCategoryIndex;
ax.r2c = function(v) {
var index = getCategoryIndex(v);
return index !== undefined ? index : ax.fraction2r(0.5);
};
ax.l2r = ax.c2r = ensureNumber;
ax.r2l = getCategoryIndex;
ax.d2p = function(v) { return ax.l2p(ax.r2c(v)); };
ax.p2d = function(px) { return getCategoryName(p2l(px)); };
ax.r2p = ax.d2p;
ax.p2r = p2l;
ax.cleanPos = function(v) {
if(typeof v === 'string' && v !== '') return v;
return ensureNumber(v);
};
}
// find the range value at the specified (linear) fraction of the axis
ax.fraction2r = function(v) {
var rl0 = ax.r2l(ax.range[0]),
rl1 = ax.r2l(ax.range[1]);
return ax.l2r(rl0 + v * (rl1 - rl0));
};
// find the fraction of the range at the specified range value
ax.r2fraction = function(v) {
var rl0 = ax.r2l(ax.range[0]),
rl1 = ax.r2l(ax.range[1]);
return (ax.r2l(v) - rl0) / (rl1 - rl0);
};
/*
* cleanRange: make sure range is a couplet of valid & distinct values
* keep numbers away from the limits of floating point numbers,
* and dates away from the ends of our date system (+/- 9999 years)
*
* optional param rangeAttr: operate on a different attribute, like
* ax._r, rather than ax.range
*/
ax.cleanRange = function(rangeAttr, opts) {
if(!opts) opts = {};
if(!rangeAttr) rangeAttr = 'range';
var range = Lib.nestedProperty(ax, rangeAttr).get();
var i, dflt;
if(ax.type === 'date') dflt = Lib.dfltRange(ax.calendar);
else if(axLetter === 'y') dflt = constants.DFLTRANGEY;
else dflt = opts.dfltRange || constants.DFLTRANGEX;
// make sure we don't later mutate the defaults
dflt = dflt.slice();
if(!range || range.length !== 2) {
Lib.nestedProperty(ax, rangeAttr).set(dflt);
return;
}
if(ax.type === 'date') {
// check if milliseconds or js date objects are provided for range
// and convert to date strings
range[0] = Lib.cleanDate(range[0], BADNUM, ax.calendar);
range[1] = Lib.cleanDate(range[1], BADNUM, ax.calendar);
}
for(i = 0; i < 2; i++) {
if(ax.type === 'date') {
if(!Lib.isDateTime(range[i], ax.calendar)) {
ax[rangeAttr] = dflt;
break;
}
if(ax.r2l(range[0]) === ax.r2l(range[1])) {
// split by +/- 1 second
var linCenter = Lib.constrain(ax.r2l(range[0]),
Lib.MIN_MS + 1000, Lib.MAX_MS - 1000);
range[0] = ax.l2r(linCenter - 1000);
range[1] = ax.l2r(linCenter + 1000);
break;
}
}
else {
if(!isNumeric(range[i])) {
if(isNumeric(range[1 - i])) {
range[i] = range[1 - i] * (i ? 10 : 0.1);
}
else {
ax[rangeAttr] = dflt;
break;
}
}
if(range[i] < -FP_SAFE) range[i] = -FP_SAFE;
else if(range[i] > FP_SAFE) range[i] = FP_SAFE;
if(range[0] === range[1]) {
// somewhat arbitrary: split by 1 or 1ppm, whichever is bigger
var inc = Math.max(1, Math.abs(range[0] * 1e-6));
range[0] -= inc;
range[1] += inc;
}
}
}
};
// set scaling to pixels
ax.setScale = function(usePrivateRange) {
var gs = fullLayout._size;
// TODO cleaner way to handle this case
if(!ax._categories) ax._categories = [];
// Add a map to optimize the performance of category collection
if(!ax._categoriesMap) ax._categoriesMap = {};
// make sure we have a domain (pull it in from the axis
// this one is overlaying if necessary)
if(ax.overlaying) {
var ax2 = axisIds.getFromId({ _fullLayout: fullLayout }, ax.overlaying);
ax.domain = ax2.domain;
}
// While transitions are occuring, occurring, we get a double-transform
// issue if we transform the drawn layer *and* use the new axis range to
// draw the data. This allows us to construct setConvert using the pre-
// interaction values of the range:
var rangeAttr = (usePrivateRange && ax._r) ? '_r' : 'range',
calendar = ax.calendar;
ax.cleanRange(rangeAttr);
var rl0 = ax.r2l(ax[rangeAttr][0], calendar),
rl1 = ax.r2l(ax[rangeAttr][1], calendar);
if(axLetter === 'y') {
ax._offset = gs.t + (1 - ax.domain[1]) * gs.h;
ax._length = gs.h * (ax.domain[1] - ax.domain[0]);
ax._m = ax._length / (rl0 - rl1);
ax._b = -ax._m * rl1;
}
else {
ax._offset = gs.l + ax.domain[0] * gs.w;
ax._length = gs.w * (ax.domain[1] - ax.domain[0]);
ax._m = ax._length / (rl1 - rl0);
ax._b = -ax._m * rl0;
}
if(!isFinite(ax._m) || !isFinite(ax._b)) {
fullLayout._replotting = false;
throw new Error('Something went wrong with axis scaling');
}
};
// makeCalcdata: takes an x or y array and converts it
// to a position on the axis object "ax"
// inputs:
// trace - a data object from gd.data
// axLetter - a string, either 'x' or 'y', for which item
// to convert (TODO: is this now always the same as
// the first letter of ax._id?)
// in case the expected data isn't there, make a list of
// integers based on the opposite data
ax.makeCalcdata = function(trace, axLetter) {
var arrayIn, arrayOut, i, len;
var axType = ax.type;
var cal = axType === 'date' && trace[axLetter + 'calendar'];
if(axLetter in trace) {
arrayIn = trace[axLetter];
len = trace._length || arrayIn.length;
if(Lib.isTypedArray(arrayIn) && (axType === 'linear' || axType === 'log')) {
if(len === arrayIn.length) {
return arrayIn;
} else if(arrayIn.subarray) {
return arrayIn.subarray(0, len);
}
}
arrayOut = new Array(len);
for(i = 0; i < len; i++) {
arrayOut[i] = ax.d2c(arrayIn[i], 0, cal);
}
}
else {
var v0 = ((axLetter + '0') in trace) ? ax.d2c(trace[axLetter + '0'], 0, cal) : 0;
var dv = (trace['d' + axLetter]) ? Number(trace['d' + axLetter]) : 1;
// the opposing data, for size if we have x and dx etc
arrayIn = trace[{x: 'y', y: 'x'}[axLetter]];
len = trace._length || arrayIn.length;
arrayOut = new Array(len);
for(i = 0; i < len; i++) {
arrayOut[i] = v0 + i * dv;
}
}
return arrayOut;
};
ax.isValidRange = function(range) {
return (
Array.isArray(range) &&
range.length === 2 &&
isNumeric(ax.r2l(range[0])) &&
isNumeric(ax.r2l(range[1]))
);
};
ax.isPtWithinRange = function(d, calendar) {
var coord = ax.c2l(d[axLetter], null, calendar);
var r0 = ax.r2l(ax.range[0]);
var r1 = ax.r2l(ax.range[1]);
if(r0 < r1) {
return r0 <= coord && coord <= r1;
} else {
// Reversed axis case.
return r1 <= coord && coord <= r0;
}
};
ax.clearCalc = function() {
// initialize the category list, if there is one, so we start over
// to be filled in later by ax.d2c
ax._categories = (ax._initialCategories || []).slice();
// Build the lookup map for initialized categories
ax._categoriesMap = {};
for(var j = 0; j < ax._categories.length; j++) {
ax._categoriesMap[ax._categories[j]] = j;
}
};
// Propagate localization into the axis so that
// methods in Axes can use it w/o having to pass fullLayout
// Default (non-d3) number formatting uses separators directly
// dates and d3-formatted numbers use the d3 locale
// Fall back on default format for dummy axes that don't care about formatting
var locale = fullLayout._d3locale;
if(ax.type === 'date') {
ax._dateFormat = locale ? locale.timeFormat.utc : d3.time.format.utc;
ax._extraFormat = fullLayout._extraFormat;
}
// occasionally we need _numFormat to pass through
// even though it won't be needed by this axis
ax._separators = fullLayout.separators;
ax._numFormat = locale ? locale.numberFormat : d3.format;
// and for bar charts and box plots: reset forced minimum tick spacing
delete ax._minDtick;
delete ax._forceTick0;
};
},{"../../constants/numerical":670,"../../lib":693,"./axis_ids":745,"./constants":747,"d3":147,"fast-isnumeric":213}],761:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var layoutAttributes = _dereq_('./layout_attributes');
var handleArrayContainerDefaults = _dereq_('../array_container_defaults');
module.exports = function handleTickLabelDefaults(containerIn, containerOut, coerce, axType, options) {
var showAttrDflt = getShowAttrDflt(containerIn);
var tickPrefix = coerce('tickprefix');
if(tickPrefix) coerce('showtickprefix', showAttrDflt);
var tickSuffix = coerce('ticksuffix', options.tickSuffixDflt);
if(tickSuffix) coerce('showticksuffix', showAttrDflt);
var showTickLabels = coerce('showticklabels');
if(showTickLabels) {
var font = options.font || {};
var contColor = containerOut.color;
// as with titlefont.color, inherit axis.color only if one was
// explicitly provided
var dfltFontColor = (contColor && contColor !== layoutAttributes.color.dflt) ?
contColor : font.color;
Lib.coerceFont(coerce, 'tickfont', {
family: font.family,
size: font.size,
color: dfltFontColor
});
coerce('tickangle');
if(axType !== 'category') {
var tickFormat = coerce('tickformat');
var tickformatStops = containerIn.tickformatstops;
if(Array.isArray(tickformatStops) && tickformatStops.length) {
handleArrayContainerDefaults(containerIn, containerOut, {
name: 'tickformatstops',
inclusionAttr: 'enabled',
handleItemDefaults: tickformatstopDefaults
});
}
if(!tickFormat && axType !== 'date') {
coerce('showexponent', showAttrDflt);
coerce('exponentformat');
coerce('separatethousands');
}
}
}
};
/*
* Attributes 'showexponent', 'showtickprefix' and 'showticksuffix'
* share values.
*
* If only 1 attribute is set,
* the remaining attributes inherit that value.
*
* If 2 attributes are set to the same value,
* the remaining attribute inherits that value.
*
* If 2 attributes are set to different values,
* the remaining is set to its dflt value.
*
*/
function getShowAttrDflt(containerIn) {
var showAttrsAll = ['showexponent',
'showtickprefix',
'showticksuffix'],
showAttrs = showAttrsAll.filter(function(a) {
return containerIn[a] !== undefined;
}),
sameVal = function(a) {
return containerIn[a] === containerIn[showAttrs[0]];
};
if(showAttrs.every(sameVal) || showAttrs.length === 1) {
return containerIn[showAttrs[0]];
}
}
function tickformatstopDefaults(valueIn, valueOut) {
function coerce(attr, dflt) {
return Lib.coerce(valueIn, valueOut, layoutAttributes.tickformatstops, attr, dflt);
}
var enabled = coerce('enabled');
if(enabled) {
coerce('dtickrange');
coerce('value');
}
}
},{"../../lib":693,"../array_container_defaults":738,"./layout_attributes":754}],762:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var layoutAttributes = _dereq_('./layout_attributes');
/**
* options: inherits outerTicks from axes.handleAxisDefaults
*/
module.exports = function handleTickDefaults(containerIn, containerOut, coerce, options) {
var tickLen = Lib.coerce2(containerIn, containerOut, layoutAttributes, 'ticklen'),
tickWidth = Lib.coerce2(containerIn, containerOut, layoutAttributes, 'tickwidth'),
tickColor = Lib.coerce2(containerIn, containerOut, layoutAttributes, 'tickcolor', containerOut.color),
showTicks = coerce('ticks', (options.outerTicks || tickLen || tickWidth || tickColor) ? 'outside' : '');
if(!showTicks) {
delete containerOut.ticklen;
delete containerOut.tickwidth;
delete containerOut.tickcolor;
}
};
},{"../../lib":693,"./layout_attributes":754}],763:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var Lib = _dereq_('../../lib');
var ONEDAY = _dereq_('../../constants/numerical').ONEDAY;
module.exports = function handleTickValueDefaults(containerIn, containerOut, coerce, axType) {
var tickmode;
if(containerIn.tickmode === 'array' &&
(axType === 'log' || axType === 'date')) {
tickmode = containerOut.tickmode = 'auto';
}
else {
var tickmodeDefault =
Array.isArray(containerIn.tickvals) ? 'array' :
containerIn.dtick ? 'linear' :
'auto';
tickmode = coerce('tickmode', tickmodeDefault);
}
if(tickmode === 'auto') coerce('nticks');
else if(tickmode === 'linear') {
// dtick is usually a positive number, but there are some
// special strings available for log or date axes
// default is 1 day for dates, otherwise 1
var dtickDflt = (axType === 'date') ? ONEDAY : 1;
var dtick = coerce('dtick', dtickDflt);
if(isNumeric(dtick)) {
containerOut.dtick = (dtick > 0) ? Number(dtick) : dtickDflt;
}
else if(typeof dtick !== 'string') {
containerOut.dtick = dtickDflt;
}
else {
// date and log special cases are all one character plus a number
var prefix = dtick.charAt(0),
dtickNum = dtick.substr(1);
dtickNum = isNumeric(dtickNum) ? Number(dtickNum) : 0;
if((dtickNum <= 0) || !(
// "M<n>" gives ticks every (integer) n months
(axType === 'date' && prefix === 'M' && dtickNum === Math.round(dtickNum)) ||
// "L<f>" gives ticks linearly spaced in data (not in position) every (float) f
(axType === 'log' && prefix === 'L') ||
// "D1" gives powers of 10 with all small digits between, "D2" gives only 2 and 5
(axType === 'log' && prefix === 'D' && (dtickNum === 1 || dtickNum === 2))
)) {
containerOut.dtick = dtickDflt;
}
}
// tick0 can have different valType for different axis types, so
// validate that now. Also for dates, change milliseconds to date strings
var tick0Dflt = (axType === 'date') ? Lib.dateTick0(containerOut.calendar) : 0;
var tick0 = coerce('tick0', tick0Dflt);
if(axType === 'date') {
containerOut.tick0 = Lib.cleanDate(tick0, tick0Dflt);
}
// Aside from date axes, dtick must be numeric; D1 and D2 modes ignore tick0 entirely
else if(isNumeric(tick0) && dtick !== 'D1' && dtick !== 'D2') {
containerOut.tick0 = Number(tick0);
}
else {
containerOut.tick0 = tick0Dflt;
}
}
else {
var tickvals = coerce('tickvals');
if(tickvals === undefined) containerOut.tickmode = 'auto';
else coerce('ticktext');
}
};
},{"../../constants/numerical":670,"../../lib":693,"fast-isnumeric":213}],764:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Registry = _dereq_('../../registry');
var Drawing = _dereq_('../../components/drawing');
var Axes = _dereq_('./axes');
var axisRegex = _dereq_('./constants').attrRegex;
module.exports = function transitionAxes(gd, newLayout, transitionOpts, makeOnCompleteCallback) {
var fullLayout = gd._fullLayout;
var axes = [];
function computeUpdates(layout) {
var ai, attrList, match, axis, update;
var updates = {};
for(ai in layout) {
attrList = ai.split('.');
match = attrList[0].match(axisRegex);
if(match) {
var axisLetter = ai.charAt(0);
var axisName = attrList[0];
axis = fullLayout[axisName];
update = {};
if(Array.isArray(layout[ai])) {
update.to = layout[ai].slice(0);
} else {
if(Array.isArray(layout[ai].range)) {
update.to = layout[ai].range.slice(0);
}
}
if(!update.to) continue;
update.axisName = axisName;
update.length = axis._length;
axes.push(axisLetter);
updates[axisLetter] = update;
}
}
return updates;
}
function computeAffectedSubplots(fullLayout, updatedAxisIds, updates) {
var plotName;
var plotinfos = fullLayout._plots;
var affectedSubplots = [];
var toX, toY;
for(plotName in plotinfos) {
var plotinfo = plotinfos[plotName];
if(affectedSubplots.indexOf(plotinfo) !== -1) continue;
var x = plotinfo.xaxis._id;
var y = plotinfo.yaxis._id;
var fromX = plotinfo.xaxis.range;
var fromY = plotinfo.yaxis.range;
// Store the initial range at the beginning of this transition:
plotinfo.xaxis._r = plotinfo.xaxis.range.slice();
plotinfo.yaxis._r = plotinfo.yaxis.range.slice();
if(updates[x]) {
toX = updates[x].to;
} else {
toX = fromX;
}
if(updates[y]) {
toY = updates[y].to;
} else {
toY = fromY;
}
if(fromX[0] === toX[0] && fromX[1] === toX[1] && fromY[0] === toY[0] && fromY[1] === toY[1]) continue;
if(updatedAxisIds.indexOf(x) !== -1 || updatedAxisIds.indexOf(y) !== -1) {
affectedSubplots.push(plotinfo);
}
}
return affectedSubplots;
}
var updates = computeUpdates(newLayout);
var updatedAxisIds = Object.keys(updates);
var affectedSubplots = computeAffectedSubplots(fullLayout, updatedAxisIds, updates);
function updateLayoutObjs() {
function redrawObjs(objArray, method, shortCircuit) {
for(var i = 0; i < objArray.length; i++) {
method(gd, i);
// once is enough for images (which doesn't use the `i` arg anyway)
if(shortCircuit) return;
}
}
redrawObjs(fullLayout.annotations || [], Registry.getComponentMethod('annotations', 'drawOne'));
redrawObjs(fullLayout.shapes || [], Registry.getComponentMethod('shapes', 'drawOne'));
redrawObjs(fullLayout.images || [], Registry.getComponentMethod('images', 'draw'), true);
}
if(!affectedSubplots.length) {
updateLayoutObjs();
return false;
}
function ticksAndAnnotations(xa, ya) {
var activeAxIds = [],
i;
activeAxIds = [xa._id, ya._id];
for(i = 0; i < activeAxIds.length; i++) {
Axes.doTicksSingle(gd, activeAxIds[i], true);
}
function redrawObjs(objArray, method, shortCircuit) {
for(i = 0; i < objArray.length; i++) {
var obji = objArray[i];
if((activeAxIds.indexOf(obji.xref) !== -1) ||
(activeAxIds.indexOf(obji.yref) !== -1)) {
method(gd, i);
}
// once is enough for images (which doesn't use the `i` arg anyway)
if(shortCircuit) return;
}
}
redrawObjs(fullLayout.annotations || [], Registry.getComponentMethod('annotations', 'drawOne'));
redrawObjs(fullLayout.shapes || [], Registry.getComponentMethod('shapes', 'drawOne'));
redrawObjs(fullLayout.images || [], Registry.getComponentMethod('images', 'draw'), true);
}
function unsetSubplotTransform(subplot) {
var xa2 = subplot.xaxis;
var ya2 = subplot.yaxis;
fullLayout._defs.select('#' + subplot.clipId + '> rect')
.call(Drawing.setTranslate, 0, 0)
.call(Drawing.setScale, 1, 1);
subplot.plot
.call(Drawing.setTranslate, xa2._offset, ya2._offset)
.call(Drawing.setScale, 1, 1);
var traceGroups = subplot.plot.selectAll('.scatterlayer .trace');
// This is specifically directed at scatter traces, applying an inverse
// scale to individual points to counteract the scale of the trace
// as a whole:
traceGroups.selectAll('.point')
.call(Drawing.setPointGroupScale, 1, 1);
traceGroups.selectAll('.textpoint')
.call(Drawing.setTextPointsScale, 1, 1);
traceGroups
.call(Drawing.hideOutsideRangePoints, subplot);
}
function updateSubplot(subplot, progress) {
var axis, r0, r1;
var xUpdate = updates[subplot.xaxis._id];
var yUpdate = updates[subplot.yaxis._id];
var viewBox = [];
if(xUpdate) {
axis = gd._fullLayout[xUpdate.axisName];
r0 = axis._r;
r1 = xUpdate.to;
viewBox[0] = (r0[0] * (1 - progress) + progress * r1[0] - r0[0]) / (r0[1] - r0[0]) * subplot.xaxis._length;
var dx1 = r0[1] - r0[0];
var dx2 = r1[1] - r1[0];
axis.range[0] = r0[0] * (1 - progress) + progress * r1[0];
axis.range[1] = r0[1] * (1 - progress) + progress * r1[1];
viewBox[2] = subplot.xaxis._length * ((1 - progress) + progress * dx2 / dx1);
} else {
viewBox[0] = 0;
viewBox[2] = subplot.xaxis._length;
}
if(yUpdate) {
axis = gd._fullLayout[yUpdate.axisName];
r0 = axis._r;
r1 = yUpdate.to;
viewBox[1] = (r0[1] * (1 - progress) + progress * r1[1] - r0[1]) / (r0[0] - r0[1]) * subplot.yaxis._length;
var dy1 = r0[1] - r0[0];
var dy2 = r1[1] - r1[0];
axis.range[0] = r0[0] * (1 - progress) + progress * r1[0];
axis.range[1] = r0[1] * (1 - progress) + progress * r1[1];
viewBox[3] = subplot.yaxis._length * ((1 - progress) + progress * dy2 / dy1);
} else {
viewBox[1] = 0;
viewBox[3] = subplot.yaxis._length;
}
ticksAndAnnotations(subplot.xaxis, subplot.yaxis);
var xa2 = subplot.xaxis;
var ya2 = subplot.yaxis;
var editX = !!xUpdate;
var editY = !!yUpdate;
var xScaleFactor = editX ? xa2._length / viewBox[2] : 1,
yScaleFactor = editY ? ya2._length / viewBox[3] : 1;
var clipDx = editX ? viewBox[0] : 0,
clipDy = editY ? viewBox[1] : 0;
var fracDx = editX ? (viewBox[0] / viewBox[2] * xa2._length) : 0,
fracDy = editY ? (viewBox[1] / viewBox[3] * ya2._length) : 0;
var plotDx = xa2._offset - fracDx,
plotDy = ya2._offset - fracDy;
subplot.clipRect
.call(Drawing.setTranslate, clipDx, clipDy)
.call(Drawing.setScale, 1 / xScaleFactor, 1 / yScaleFactor);
subplot.plot
.call(Drawing.setTranslate, plotDx, plotDy)
.call(Drawing.setScale, xScaleFactor, yScaleFactor);
// apply an inverse scale to individual points to counteract
// the scale of the trace group.
Drawing.setPointGroupScale(subplot.zoomScalePts, 1 / xScaleFactor, 1 / yScaleFactor);
Drawing.setTextPointsScale(subplot.zoomScaleTxt, 1 / xScaleFactor, 1 / yScaleFactor);
}
var onComplete;
if(makeOnCompleteCallback) {
// This module makes the choice whether or not it notifies Plotly.transition
// about completion:
onComplete = makeOnCompleteCallback();
}
function transitionComplete() {
var aobj = {};
for(var i = 0; i < updatedAxisIds.length; i++) {
var axi = gd._fullLayout[updates[updatedAxisIds[i]].axisName];
var to = updates[updatedAxisIds[i]].to;
aobj[axi._name + '.range[0]'] = to[0];
aobj[axi._name + '.range[1]'] = to[1];
axi.range = to.slice();
}
// Signal that this transition has completed:
onComplete && onComplete();
return Registry.call('relayout', gd, aobj).then(function() {
for(var i = 0; i < affectedSubplots.length; i++) {
unsetSubplotTransform(affectedSubplots[i]);
}
});
}
function transitionInterrupt() {
var aobj = {};
for(var i = 0; i < updatedAxisIds.length; i++) {
var axi = gd._fullLayout[updatedAxisIds[i] + 'axis'];
aobj[axi._name + '.range[0]'] = axi.range[0];
aobj[axi._name + '.range[1]'] = axi.range[1];
axi.range = axi._r.slice();
}
return Registry.call('relayout', gd, aobj).then(function() {
for(var i = 0; i < affectedSubplots.length; i++) {
unsetSubplotTransform(affectedSubplots[i]);
}
});
}
var t1, t2, raf;
var easeFn = d3.ease(transitionOpts.easing);
gd._transitionData._interruptCallbacks.push(function() {
window.cancelAnimationFrame(raf);
raf = null;
return transitionInterrupt();
});
function doFrame() {
t2 = Date.now();
var tInterp = Math.min(1, (t2 - t1) / transitionOpts.duration);
var progress = easeFn(tInterp);
for(var i = 0; i < affectedSubplots.length; i++) {
updateSubplot(affectedSubplots[i], progress);
}
if(t2 - t1 > transitionOpts.duration) {
transitionComplete();
raf = window.cancelAnimationFrame(doFrame);
} else {
raf = window.requestAnimationFrame(doFrame);
}
}
t1 = Date.now();
raf = window.requestAnimationFrame(doFrame);
return Promise.resolve();
};
},{"../../components/drawing":592,"../../registry":825,"./axes":742,"./constants":747,"d3":147}],765:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
var autoType = _dereq_('./axis_autotype');
/*
* data: the plot data to use in choosing auto type
* name: axis object name (ie 'xaxis') if one should be stored
*/
module.exports = function handleTypeDefaults(containerIn, containerOut, coerce, options) {
var axType = coerce('type', (options.splomStash || {}).type);
if(axType === '-') {
setAutoType(containerOut, options.data);
if(containerOut.type === '-') {
containerOut.type = 'linear';
} else {
// copy autoType back to input axis
// note that if this object didn't exist
// in the input layout, we have to put it in
// this happens in the main supplyDefaults function
containerIn.type = containerOut.type;
}
}
};
function setAutoType(ax, data) {
// new logic: let people specify any type they want,
// only autotype if type is '-'
if(ax.type !== '-') return;
var id = ax._id;
var axLetter = id.charAt(0);
// support 3d
if(id.indexOf('scene') !== -1) id = axLetter;
var d0 = getFirstNonEmptyTrace(data, id, axLetter);
if(!d0) return;
// first check for histograms, as the count direction
// should always default to a linear axis
if(d0.type === 'histogram' &&
axLetter === {v: 'y', h: 'x'}[d0.orientation || 'v']) {
ax.type = 'linear';
return;
}
var calAttr = axLetter + 'calendar';
var calendar = d0[calAttr];
var i;
// check all boxes on this x axis to see
// if they're dates, numbers, or categories
if(isBoxWithoutPositionCoords(d0, axLetter)) {
var posLetter = getBoxPosLetter(d0);
var boxPositions = [];
for(i = 0; i < data.length; i++) {
var trace = data[i];
if(!Registry.traceIs(trace, 'box-violin') ||
(trace[axLetter + 'axis'] || axLetter) !== id) continue;
if(trace[posLetter] !== undefined) boxPositions.push(trace[posLetter][0]);
else if(trace.name !== undefined) boxPositions.push(trace.name);
else boxPositions.push('text');
if(trace[calAttr] !== calendar) calendar = undefined;
}
ax.type = autoType(boxPositions, calendar);
}
else if(d0.type === 'splom') {
var dimensions = d0.dimensions;
var diag = d0._diag;
for(i = 0; i < dimensions.length; i++) {
var dim = dimensions[i];
if(dim.visible && (diag[i][0] === id || diag[i][1] === id)) {
ax.type = autoType(dim.values, calendar);
break;
}
}
}
else {
ax.type = autoType(d0[axLetter] || [d0[axLetter + '0']], calendar);
}
}
function getFirstNonEmptyTrace(data, id, axLetter) {
for(var i = 0; i < data.length; i++) {
var trace = data[i];
if(trace.type === 'splom' &&
trace._length > 0 &&
(trace['_' + axLetter + 'axes'] || {})[id]
) {
return trace;
}
if((trace[axLetter + 'axis'] || axLetter) === id) {
if(isBoxWithoutPositionCoords(trace, axLetter)) {
return trace;
}
else if((trace[axLetter] || []).length || trace[axLetter + '0']) {
return trace;
}
}
}
}
function getBoxPosLetter(trace) {
return {v: 'x', h: 'y'}[trace.orientation || 'v'];
}
function isBoxWithoutPositionCoords(trace, axLetter) {
var posLetter = getBoxPosLetter(trace),
isBox = Registry.traceIs(trace, 'box-violin'),
isCandlestick = Registry.traceIs(trace._fullInput || {}, 'candlestick');
return (
isBox &&
!isCandlestick &&
axLetter === posLetter &&
trace[posLetter] === undefined &&
trace[posLetter + '0'] === undefined
);
}
},{"../../registry":825,"./axis_autotype":743}],766:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../registry');
var Lib = _dereq_('../lib');
/*
* Create or update an observer. This function is designed to be
* idempotent so that it can be called over and over as the component
* updates, and will attach and detach listeners as needed.
*
* @param {optional object} container
* An object on which the observer is stored. This is the mechanism
* by which it is idempotent. If it already exists, another won't be
* added. Each time it's called, the value lookup table is updated.
* @param {array} commandList
* An array of commands, following either `buttons` of `updatemenus`
* or `steps` of `sliders`.
* @param {function} onchange
* A listener called when the value is changed. Receives data object
* with information about the new state.
*/
exports.manageCommandObserver = function(gd, container, commandList, onchange) {
var ret = {};
var enabled = true;
if(container && container._commandObserver) {
ret = container._commandObserver;
}
if(!ret.cache) {
ret.cache = {};
}
// Either create or just recompute this:
ret.lookupTable = {};
var binding = exports.hasSimpleAPICommandBindings(gd, commandList, ret.lookupTable);
if(container && container._commandObserver) {
if(!binding) {
// If container exists and there are no longer any bindings,
// remove existing:
if(container._commandObserver.remove) {
container._commandObserver.remove();
container._commandObserver = null;
return ret;
}
} else {
// If container exists and there *are* bindings, then the lookup
// table should have been updated and check is already attached,
// so there's nothing to be done:
return ret;
}
}
// Determine whether there's anything to do for this binding:
if(binding) {
// Build the cache:
bindingValueHasChanged(gd, binding, ret.cache);
ret.check = function check() {
if(!enabled) return;
var update = bindingValueHasChanged(gd, binding, ret.cache);
if(update.changed && onchange) {
// Disable checks for the duration of this command in order to avoid
// infinite loops:
if(ret.lookupTable[update.value] !== undefined) {
ret.disable();
Promise.resolve(onchange({
value: update.value,
type: binding.type,
prop: binding.prop,
traces: binding.traces,
index: ret.lookupTable[update.value]
})).then(ret.enable, ret.enable);
}
}
return update.changed;
};
var checkEvents = [
'plotly_relayout',
'plotly_redraw',
'plotly_restyle',
'plotly_update',
'plotly_animatingframe',
'plotly_afterplot'
];
for(var i = 0; i < checkEvents.length; i++) {
gd._internalOn(checkEvents[i], ret.check);
}
ret.remove = function() {
for(var i = 0; i < checkEvents.length; i++) {
gd._removeInternalListener(checkEvents[i], ret.check);
}
};
} else {
// TODO: It'd be really neat to actually give a *reason* for this, but at least a warning
// is a start
Lib.log('Unable to automatically bind plot updates to API command');
ret.lookupTable = {};
ret.remove = function() {};
}
ret.disable = function disable() {
enabled = false;
};
ret.enable = function enable() {
enabled = true;
};
if(container) {
container._commandObserver = ret;
}
return ret;
};
/*
* This function checks to see if an array of objects containing
* method and args properties is compatible with automatic two-way
* binding. The criteria right now are that
*
* 1. multiple traces may be affected
* 2. only one property may be affected
* 3. the same property must be affected by all commands
*/
exports.hasSimpleAPICommandBindings = function(gd, commandList, bindingsByValue) {
var i;
var n = commandList.length;
var refBinding;
for(i = 0; i < n; i++) {
var binding;
var command = commandList[i];
var method = command.method;
var args = command.args;
if(!Array.isArray(args)) args = [];
// If any command has no method, refuse to bind:
if(!method) {
return false;
}
var bindings = exports.computeAPICommandBindings(gd, method, args);
// Right now, handle one and *only* one property being set:
if(bindings.length !== 1) {
return false;
}
if(!refBinding) {
refBinding = bindings[0];
if(Array.isArray(refBinding.traces)) {
refBinding.traces.sort();
}
} else {
binding = bindings[0];
if(binding.type !== refBinding.type) {
return false;
}
if(binding.prop !== refBinding.prop) {
return false;
}
if(Array.isArray(refBinding.traces)) {
if(Array.isArray(binding.traces)) {
binding.traces.sort();
for(var j = 0; j < refBinding.traces.length; j++) {
if(refBinding.traces[j] !== binding.traces[j]) {
return false;
}
}
} else {
return false;
}
} else {
if(binding.prop !== refBinding.prop) {
return false;
}
}
}
binding = bindings[0];
var value = binding.value;
if(Array.isArray(value)) {
if(value.length === 1) {
value = value[0];
} else {
return false;
}
}
if(bindingsByValue) {
bindingsByValue[value] = i;
}
}
return refBinding;
};
function bindingValueHasChanged(gd, binding, cache) {
var container, value, obj;
var changed = false;
if(binding.type === 'data') {
// If it's data, we need to get a trace. Based on the limited scope
// of what we cover, we can just take the first trace from the list,
// or otherwise just the first trace:
container = gd._fullData[binding.traces !== null ? binding.traces[0] : 0];
} else if(binding.type === 'layout') {
container = gd._fullLayout;
} else {
return false;
}
value = Lib.nestedProperty(container, binding.prop).get();
obj = cache[binding.type] = cache[binding.type] || {};
if(obj.hasOwnProperty(binding.prop)) {
if(obj[binding.prop] !== value) {
changed = true;
}
}
obj[binding.prop] = value;
return {
changed: changed,
value: value
};
}
/*
* Execute an API command. There's really not much to this; it just provides
* a common hook so that implementations don't need to be synchronized across
* multiple components with the ability to invoke API commands.
*
* @param {string} method
* The name of the plotly command to execute. Must be one of 'animate',
* 'restyle', 'relayout', 'update'.
* @param {array} args
* A list of arguments passed to the API command
*/
exports.executeAPICommand = function(gd, method, args) {
if(method === 'skip') return Promise.resolve();
var _method = Registry.apiMethodRegistry[method];
var allArgs = [gd];
if(!Array.isArray(args)) args = [];
for(var i = 0; i < args.length; i++) {
allArgs.push(args[i]);
}
return _method.apply(null, allArgs).catch(function(err) {
Lib.warn('API call to Plotly.' + method + ' rejected.', err);
return Promise.reject(err);
});
};
exports.computeAPICommandBindings = function(gd, method, args) {
var bindings;
if(!Array.isArray(args)) args = [];
switch(method) {
case 'restyle':
bindings = computeDataBindings(gd, args);
break;
case 'relayout':
bindings = computeLayoutBindings(gd, args);
break;
case 'update':
bindings = computeDataBindings(gd, [args[0], args[2]])
.concat(computeLayoutBindings(gd, [args[1]]));
break;
case 'animate':
bindings = computeAnimateBindings(gd, args);
break;
default:
// This is the case where intelligent logic about what affects
// this command is not implemented. It causes no ill effects.
// For example, addFrames simply won't bind to a control component.
bindings = [];
}
return bindings;
};
function computeAnimateBindings(gd, args) {
// We'll assume that the only relevant modification an animation
// makes that's meaningfully tracked is the frame:
if(Array.isArray(args[0]) && args[0].length === 1 && ['string', 'number'].indexOf(typeof args[0][0]) !== -1) {
return [{type: 'layout', prop: '_currentFrame', value: args[0][0].toString()}];
} else {
return [];
}
}
function computeLayoutBindings(gd, args) {
var bindings = [];
var astr = args[0];
var aobj = {};
if(typeof astr === 'string') {
aobj[astr] = args[1];
} else if(Lib.isPlainObject(astr)) {
aobj = astr;
} else {
return bindings;
}
crawl(aobj, function(path, attrName, attr) {
bindings.push({type: 'layout', prop: path, value: attr});
}, '', 0);
return bindings;
}
function computeDataBindings(gd, args) {
var traces, astr, val, aobj;
var bindings = [];
// Logic copied from Plotly.restyle:
astr = args[0];
val = args[1];
traces = args[2];
aobj = {};
if(typeof astr === 'string') {
aobj[astr] = val;
} else if(Lib.isPlainObject(astr)) {
// the 3-arg form
aobj = astr;
if(traces === undefined) {
traces = val;
}
} else {
return bindings;
}
if(traces === undefined) {
// Explicitly assign this to null instead of undefined:
traces = null;
}
crawl(aobj, function(path, attrName, attr) {
var thisTraces;
if(Array.isArray(attr)) {
var nAttr = Math.min(attr.length, gd.data.length);
if(traces) {
nAttr = Math.min(nAttr, traces.length);
}
thisTraces = [];
for(var j = 0; j < nAttr; j++) {
thisTraces[j] = traces ? traces[j] : j;
}
} else {
thisTraces = traces ? traces.slice(0) : null;
}
// Convert [7] to just 7 when traces is null:
if(thisTraces === null) {
if(Array.isArray(attr)) {
attr = attr[0];
}
} else if(Array.isArray(thisTraces)) {
if(!Array.isArray(attr)) {
var tmp = attr;
attr = [];
for(var i = 0; i < thisTraces.length; i++) {
attr[i] = tmp;
}
}
attr.length = Math.min(thisTraces.length, attr.length);
}
bindings.push({
type: 'data',
prop: path,
traces: thisTraces,
value: attr
});
}, '', 0);
return bindings;
}
function crawl(attrs, callback, path, depth) {
Object.keys(attrs).forEach(function(attrName) {
var attr = attrs[attrName];
if(attrName[0] === '_') return;
var thisPath = path + (depth > 0 ? '.' : '') + attrName;
if(Lib.isPlainObject(attr)) {
crawl(attr, callback, thisPath, depth + 1);
} else {
// Only execute the callback on leaf nodes:
callback(thisPath, attrName, attr);
}
});
}
},{"../lib":693,"../registry":825}],767:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var extendFlat = _dereq_('../lib/extend').extendFlat;
/**
* Make a xy domain attribute group
*
* @param {object} opts
* @param {string}
* opts.name: name to be inserted in the default description
* @param {boolean}
* opts.trace: set to true for trace containers
* @param {string}
* opts.editType: editType for all pieces
* @param {boolean}
* opts.noGridCell: set to true to omit `row` and `column`
*
* @param {object} extra
* @param {string}
* extra.description: extra description. N.B we use
* a separate extra container to make it compatible with
* the compress_attributes transform.
*
* @return {object} attributes object containing {x,y} as specified
*/
exports.attributes = function(opts, extra) {
opts = opts || {};
extra = extra || {};
var base = {
valType: 'info_array',
editType: opts.editType,
items: [
{valType: 'number', min: 0, max: 1, editType: opts.editType},
{valType: 'number', min: 0, max: 1, editType: opts.editType}
],
dflt: [0, 1]
};
var namePart = opts.name ? opts.name + ' ' : '';
var contPart = opts.trace ? 'trace ' : 'subplot ';
var descPart = extra.description ? ' ' + extra.description : '';
var out = {
x: extendFlat({}, base, {
}),
y: extendFlat({}, base, {
}),
editType: opts.editType
};
if(!opts.noGridCell) {
out.row = {
valType: 'integer',
min: 0,
dflt: 0,
editType: opts.editType,
};
out.column = {
valType: 'integer',
min: 0,
dflt: 0,
editType: opts.editType,
};
}
return out;
};
exports.defaults = function(containerOut, layout, coerce, dfltDomains) {
var dfltX = (dfltDomains && dfltDomains.x) || [0, 1];
var dfltY = (dfltDomains && dfltDomains.y) || [0, 1];
var grid = layout.grid;
if(grid) {
var column = coerce('domain.column');
if(column !== undefined) {
if(column < grid.columns) dfltX = grid._domains.x[column];
else delete containerOut.domain.column;
}
var row = coerce('domain.row');
if(row !== undefined) {
if(row < grid.rows) dfltY = grid._domains.y[row];
else delete containerOut.domain.row;
}
}
coerce('domain.x', dfltX);
coerce('domain.y', dfltY);
};
},{"../lib/extend":682}],768:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/*
* make a font attribute group
*
* @param {object} opts
* @param {string}
* opts.description: where & how this font is used
* @param {optional bool} arrayOk:
* should each part (family, size, color) be arrayOk? default false.
* @param {string} editType:
* the editType for all pieces of this font
* @param {optional string} colorEditType:
* a separate editType just for color
*
* @return {object} attributes object containing {family, size, color} as specified
*/
module.exports = function(opts) {
var editType = opts.editType;
var colorEditType = opts.colorEditType;
if(colorEditType === undefined) colorEditType = editType;
var attrs = {
family: {
valType: 'string',
noBlank: true,
strict: true,
editType: editType,
},
size: {
valType: 'number',
min: 1,
editType: editType
},
color: {
valType: 'color',
editType: colorEditType
},
editType: editType,
// blank strings so compress_attributes can remove
// TODO - that's uber hacky... better solution?
};
if(opts.arrayOk) {
attrs.family.arrayOk = true;
attrs.size.arrayOk = true;
attrs.color.arrayOk = true;
}
return attrs;
};
},{}],769:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
_isLinkedToArray: 'frames_entry',
group: {
valType: 'string',
},
name: {
valType: 'string',
},
traces: {
valType: 'any',
},
baseframe: {
valType: 'string',
},
data: {
valType: 'any',
},
layout: {
valType: 'any',
}
};
},{}],770:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
// projection names to d3 function name
exports.projNames = {
// d3.geo.projection
'equirectangular': 'equirectangular',
'mercator': 'mercator',
'orthographic': 'orthographic',
'natural earth': 'naturalEarth',
'kavrayskiy7': 'kavrayskiy7',
'miller': 'miller',
'robinson': 'robinson',
'eckert4': 'eckert4',
'azimuthal equal area': 'azimuthalEqualArea',
'azimuthal equidistant': 'azimuthalEquidistant',
'conic equal area': 'conicEqualArea',
'conic conformal': 'conicConformal',
'conic equidistant': 'conicEquidistant',
'gnomonic': 'gnomonic',
'stereographic': 'stereographic',
'mollweide': 'mollweide',
'hammer': 'hammer',
'transverse mercator': 'transverseMercator',
'albers usa': 'albersUsa',
'winkel tripel': 'winkel3',
'aitoff': 'aitoff',
'sinusoidal': 'sinusoidal'
};
// name of the axes
exports.axesNames = ['lonaxis', 'lataxis'];
// max longitudinal angular span (EXPERIMENTAL)
exports.lonaxisSpan = {
'orthographic': 180,
'azimuthal equal area': 360,
'azimuthal equidistant': 360,
'conic conformal': 180,
'gnomonic': 160,
'stereographic': 180,
'transverse mercator': 180,
'*': 360
};
// max latitudinal angular span (EXPERIMENTAL)
exports.lataxisSpan = {
'conic conformal': 150,
'stereographic': 179.5,
'*': 180
};
// defaults for each scope
exports.scopeDefaults = {
world: {
lonaxisRange: [-180, 180],
lataxisRange: [-90, 90],
projType: 'equirectangular',
projRotate: [0, 0, 0]
},
usa: {
lonaxisRange: [-180, -50],
lataxisRange: [15, 80],
projType: 'albers usa'
},
europe: {
lonaxisRange: [-30, 60],
lataxisRange: [30, 85],
projType: 'conic conformal',
projRotate: [15, 0, 0],
projParallels: [0, 60]
},
asia: {
lonaxisRange: [22, 160],
lataxisRange: [-15, 55],
projType: 'mercator',
projRotate: [0, 0, 0]
},
africa: {
lonaxisRange: [-30, 60],
lataxisRange: [-40, 40],
projType: 'mercator',
projRotate: [0, 0, 0]
},
'north america': {
lonaxisRange: [-180, -45],
lataxisRange: [5, 85],
projType: 'conic conformal',
projRotate: [-100, 0, 0],
projParallels: [29.5, 45.5]
},
'south america': {
lonaxisRange: [-100, -30],
lataxisRange: [-60, 15],
projType: 'mercator',
projRotate: [0, 0, 0]
}
};
// angular pad to avoid rounding error around clip angles
exports.clipPad = 1e-3;
// map projection precision
exports.precision = 0.1;
// default land and water fill colors
exports.landColor = '#F0DC82';
exports.waterColor = '#3399FF';
// locationmode to layer name
exports.locationmodeToLayer = {
'ISO-3': 'countries',
'USA-states': 'subunits',
'country names': 'countries'
};
// SVG element for a sphere (use to frame maps)
exports.sphereSVG = {type: 'Sphere'};
// N.B. base layer names must be the same as in the topojson files
// base layer with a fill color
exports.fillLayers = {
ocean: 1,
land: 1,
lakes: 1
};
// base layer with a only a line color
exports.lineLayers = {
subunits: 1,
countries: 1,
coastlines: 1,
rivers: 1,
frame: 1
};
exports.layers = [
'bg',
'ocean', 'land', 'lakes',
'subunits', 'countries', 'coastlines', 'rivers',
'lataxis', 'lonaxis', 'frame',
'backplot',
'frontplot'
];
exports.layersForChoropleth = [
'bg',
'ocean', 'land',
'subunits', 'countries', 'coastlines',
'lataxis', 'lonaxis', 'frame',
'backplot',
'rivers', 'lakes',
'frontplot'
];
exports.layerNameToAdjective = {
ocean: 'ocean',
land: 'land',
lakes: 'lake',
subunits: 'subunit',
countries: 'country',
coastlines: 'coastline',
rivers: 'river',
frame: 'frame'
};
},{}],771:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/* global PlotlyGeoAssets:false */
var d3 = _dereq_('d3');
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var Color = _dereq_('../../components/color');
var Drawing = _dereq_('../../components/drawing');
var Fx = _dereq_('../../components/fx');
var Plots = _dereq_('../plots');
var Axes = _dereq_('../cartesian/axes');
var dragElement = _dereq_('../../components/dragelement');
var prepSelect = _dereq_('../cartesian/select').prepSelect;
var selectOnClick = _dereq_('../cartesian/select').selectOnClick;
var createGeoZoom = _dereq_('./zoom');
var constants = _dereq_('./constants');
var topojsonUtils = _dereq_('../../lib/topojson_utils');
var topojsonFeature = _dereq_('topojson-client').feature;
_dereq_('./projections')(d3);
function Geo(opts) {
this.id = opts.id;
this.graphDiv = opts.graphDiv;
this.container = opts.container;
this.topojsonURL = opts.topojsonURL;
this.isStatic = opts.staticPlot;
this.topojsonName = null;
this.topojson = null;
this.projection = null;
this.viewInitial = null;
this.fitScale = null;
this.bounds = null;
this.midPt = null;
this.hasChoropleth = false;
this.traceHash = {};
this.layers = {};
this.basePaths = {};
this.dataPaths = {};
this.dataPoints = {};
this.clipDef = null;
this.clipRect = null;
this.bgRect = null;
this.makeFramework();
}
var proto = Geo.prototype;
module.exports = function createGeo(opts) {
return new Geo(opts);
};
proto.plot = function(geoCalcData, fullLayout, promises) {
var _this = this;
var geoLayout = fullLayout[this.id];
var topojsonNameNew = topojsonUtils.getTopojsonName(geoLayout);
if(_this.topojson === null || topojsonNameNew !== _this.topojsonName) {
_this.topojsonName = topojsonNameNew;
if(PlotlyGeoAssets.topojson[_this.topojsonName] === undefined) {
promises.push(_this.fetchTopojson().then(function(topojson) {
PlotlyGeoAssets.topojson[_this.topojsonName] = topojson;
_this.topojson = topojson;
_this.update(geoCalcData, fullLayout);
}));
} else {
_this.topojson = PlotlyGeoAssets.topojson[_this.topojsonName];
_this.update(geoCalcData, fullLayout);
}
} else {
_this.update(geoCalcData, fullLayout);
}
};
proto.fetchTopojson = function() {
var topojsonPath = topojsonUtils.getTopojsonPath(
this.topojsonURL,
this.topojsonName
);
return new Promise(function(resolve, reject) {
d3.json(topojsonPath, function(err, topojson) {
if(err) {
if(err.status === 404) {
return reject(new Error([
'plotly.js could not find topojson file at',
topojsonPath, '.',
'Make sure the *topojsonURL* plot config option',
'is set properly.'
].join(' ')));
} else {
return reject(new Error([
'unexpected error while fetching topojson file at',
topojsonPath
].join(' ')));
}
}
resolve(topojson);
});
});
};
proto.update = function(geoCalcData, fullLayout) {
var geoLayout = fullLayout[this.id];
var hasInvalidBounds = this.updateProjection(fullLayout, geoLayout);
if(hasInvalidBounds) return;
// important: maps with choropleth traces have a different layer order
this.hasChoropleth = false;
for(var i = 0; i < geoCalcData.length; i++) {
if(geoCalcData[i][0].trace.type === 'choropleth') {
this.hasChoropleth = true;
break;
}
}
if(!this.viewInitial) {
this.saveViewInitial(geoLayout);
}
this.updateBaseLayers(fullLayout, geoLayout);
this.updateDims(fullLayout, geoLayout);
this.updateFx(fullLayout, geoLayout);
Plots.generalUpdatePerTraceModule(this.graphDiv, this, geoCalcData, geoLayout);
var scatterLayer = this.layers.frontplot.select('.scatterlayer');
this.dataPoints.point = scatterLayer.selectAll('.point');
this.dataPoints.text = scatterLayer.selectAll('text');
this.dataPaths.line = scatterLayer.selectAll('.js-line');
var choroplethLayer = this.layers.backplot.select('.choroplethlayer');
this.dataPaths.choropleth = choroplethLayer.selectAll('path');
this.render();
};
proto.updateProjection = function(fullLayout, geoLayout) {
var gs = fullLayout._size;
var domain = geoLayout.domain;
var projLayout = geoLayout.projection;
var rotation = projLayout.rotation || {};
var center = geoLayout.center || {};
var projection = this.projection = getProjection(geoLayout);
// set 'pre-fit' projection
projection
.center([center.lon - rotation.lon, center.lat - rotation.lat])
.rotate([-rotation.lon, -rotation.lat, rotation.roll])
.parallels(projLayout.parallels);
// setup subplot extent [[x0,y0], [x1,y1]]
var extent = [[
gs.l + gs.w * domain.x[0],
gs.t + gs.h * (1 - domain.y[1])
], [
gs.l + gs.w * domain.x[1],
gs.t + gs.h * (1 - domain.y[0])
]];
var lonaxis = geoLayout.lonaxis;
var lataxis = geoLayout.lataxis;
var rangeBox = makeRangeBox(lonaxis.range, lataxis.range);
// fit projection 'scale' and 'translate' to set lon/lat ranges
projection.fitExtent(extent, rangeBox);
var b = this.bounds = projection.getBounds(rangeBox);
var s = this.fitScale = projection.scale();
var t = projection.translate();
if(
!isFinite(b[0][0]) || !isFinite(b[0][1]) ||
!isFinite(b[1][0]) || !isFinite(b[1][1]) ||
isNaN(t[0]) || isNaN(t[0])
) {
var gd = this.graphDiv;
var attrToUnset = ['projection.rotation', 'center', 'lonaxis.range', 'lataxis.range'];
var msg = 'Invalid geo settings, relayout\'ing to default view.';
var updateObj = {};
// clear all attribute that could cause invalid bounds,
// clear viewInitial to update reset-view behavior
for(var i = 0; i < attrToUnset.length; i++) {
updateObj[this.id + '.' + attrToUnset[i]] = null;
}
this.viewInitial = null;
Lib.warn(msg);
gd._promises.push(Registry.call('relayout', gd, updateObj));
return msg;
}
// px coordinates of view mid-point,
// useful to update `geo.center` after interactions
var midPt = this.midPt = [
(b[0][0] + b[1][0]) / 2,
(b[0][1] + b[1][1]) / 2
];
// adjust projection to user setting
projection
.scale(projLayout.scale * s)
.translate([t[0] + (midPt[0] - t[0]), t[1] + (midPt[1] - t[1])])
.clipExtent(b);
// the 'albers usa' projection does not expose a 'center' method
// so here's this hack to make it respond to 'geoLayout.center'
if(geoLayout._isAlbersUsa) {
var centerPx = projection([center.lon, center.lat]);
var tt = projection.translate();
projection.translate([
tt[0] - (centerPx[0] - tt[0]),
tt[1] - (centerPx[1] - tt[1])
]);
}
};
proto.updateBaseLayers = function(fullLayout, geoLayout) {
var _this = this;
var topojson = _this.topojson;
var layers = _this.layers;
var basePaths = _this.basePaths;
function isAxisLayer(d) {
return (d === 'lonaxis' || d === 'lataxis');
}
function isLineLayer(d) {
return Boolean(constants.lineLayers[d]);
}
function isFillLayer(d) {
return Boolean(constants.fillLayers[d]);
}
var allLayers = this.hasChoropleth ?
constants.layersForChoropleth :
constants.layers;
var layerData = allLayers.filter(function(d) {
return (isLineLayer(d) || isFillLayer(d)) ? geoLayout['show' + d] :
isAxisLayer(d) ? geoLayout[d].showgrid :
true;
});
var join = _this.framework.selectAll('.layer')
.data(layerData, String);
join.exit().each(function(d) {
delete layers[d];
delete basePaths[d];
d3.select(this).remove();
});
join.enter().append('g')
.attr('class', function(d) { return 'layer ' + d; })
.each(function(d) {
var layer = layers[d] = d3.select(this);
if(d === 'bg') {
_this.bgRect = layer.append('rect')
.style('pointer-events', 'all');
} else if(isAxisLayer(d)) {
basePaths[d] = layer.append('path')
.style('fill', 'none');
} else if(d === 'backplot') {
layer.append('g')
.classed('choroplethlayer', true);
} else if(d === 'frontplot') {
layer.append('g')
.classed('scatterlayer', true);
} else if(isLineLayer(d)) {
basePaths[d] = layer.append('path')
.style('fill', 'none')
.style('stroke-miterlimit', 2);
} else if(isFillLayer(d)) {
basePaths[d] = layer.append('path')
.style('stroke', 'none');
}
});
join.order();
join.each(function(d) {
var path = basePaths[d];
var adj = constants.layerNameToAdjective[d];
if(d === 'frame') {
path.datum(constants.sphereSVG);
} else if(isLineLayer(d) || isFillLayer(d)) {
path.datum(topojsonFeature(topojson, topojson.objects[d]));
} else if(isAxisLayer(d)) {
path.datum(makeGraticule(d, geoLayout))
.call(Color.stroke, geoLayout[d].gridcolor)
.call(Drawing.dashLine, '', geoLayout[d].gridwidth);
}
if(isLineLayer(d)) {
path.call(Color.stroke, geoLayout[adj + 'color'])
.call(Drawing.dashLine, '', geoLayout[adj + 'width']);
} else if(isFillLayer(d)) {
path.call(Color.fill, geoLayout[adj + 'color']);
}
});
};
proto.updateDims = function(fullLayout, geoLayout) {
var b = this.bounds;
var hFrameWidth = (geoLayout.framewidth || 0) / 2;
var l = b[0][0] - hFrameWidth;
var t = b[0][1] - hFrameWidth;
var w = b[1][0] - l + hFrameWidth;
var h = b[1][1] - t + hFrameWidth;
Drawing.setRect(this.clipRect, l, t, w, h);
this.bgRect
.call(Drawing.setRect, l, t, w, h)
.call(Color.fill, geoLayout.bgcolor);
this.xaxis._offset = l;
this.xaxis._length = w;
this.yaxis._offset = t;
this.yaxis._length = h;
};
proto.updateFx = function(fullLayout, geoLayout) {
var _this = this;
var gd = _this.graphDiv;
var bgRect = _this.bgRect;
var dragMode = fullLayout.dragmode;
var clickMode = fullLayout.clickmode;
if(_this.isStatic) return;
function zoomReset() {
var viewInitial = _this.viewInitial;
var updateObj = {};
for(var k in viewInitial) {
updateObj[_this.id + '.' + k] = viewInitial[k];
}
Registry.call('relayout', gd, updateObj);
gd.emit('plotly_doubleclick', null);
}
function invert(lonlat) {
return _this.projection.invert([
lonlat[0] + _this.xaxis._offset,
lonlat[1] + _this.yaxis._offset
]);
}
var fillRangeItems;
if(dragMode === 'select') {
fillRangeItems = function(eventData, poly) {
var ranges = eventData.range = {};
ranges[_this.id] = [
invert([poly.xmin, poly.ymin]),
invert([poly.xmax, poly.ymax])
];
};
} else if(dragMode === 'lasso') {
fillRangeItems = function(eventData, poly, pts) {
var dataPts = eventData.lassoPoints = {};
dataPts[_this.id] = pts.filtered.map(invert);
};
}
// Note: dragOptions is needed to be declared for all dragmodes because
// it's the object that holds persistent selection state.
var dragOptions = {
element: _this.bgRect.node(),
gd: gd,
plotinfo: {
id: _this.id,
xaxis: _this.xaxis,
yaxis: _this.yaxis,
fillRangeItems: fillRangeItems
},
xaxes: [_this.xaxis],
yaxes: [_this.yaxis],
subplot: _this.id,
clickFn: function(numClicks) {
if(numClicks === 2) {
fullLayout._zoomlayer.selectAll('.select-outline').remove();
}
}
};
if(dragMode === 'pan') {
bgRect.node().onmousedown = null;
bgRect.call(createGeoZoom(_this, geoLayout));
bgRect.on('dblclick.zoom', zoomReset);
}
else if(dragMode === 'select' || dragMode === 'lasso') {
bgRect.on('.zoom', null);
dragOptions.prepFn = function(e, startX, startY) {
prepSelect(e, startX, startY, dragOptions, dragMode);
};
dragElement.init(dragOptions);
}
bgRect.on('mousemove', function() {
var lonlat = _this.projection.invert(d3.mouse(this));
if(!lonlat || isNaN(lonlat[0]) || isNaN(lonlat[1])) {
return dragElement.unhover(gd, d3.event);
}
_this.xaxis.p2c = function() { return lonlat[0]; };
_this.yaxis.p2c = function() { return lonlat[1]; };
Fx.hover(gd, d3.event, _this.id);
});
bgRect.on('mouseout', function() {
if(gd._dragging) return;
dragElement.unhover(gd, d3.event);
});
bgRect.on('click', function() {
// For select and lasso the dragElement is handling clicks
if(dragMode !== 'select' && dragMode !== 'lasso') {
if(clickMode.indexOf('select') > -1) {
selectOnClick(d3.event, gd, [_this.xaxis], [_this.yaxis],
_this.id, dragOptions);
}
if(clickMode.indexOf('event') > -1) {
// TODO: like pie and mapbox, this doesn't support right-click
// actually this one is worse, as right-click starts a pan, or leaves
// select in a weird state.
// Also, only tangentially related, we should cancel hover during pan
Fx.click(gd, d3.event);
}
}
});
};
proto.makeFramework = function() {
var _this = this;
var fullLayout = _this.graphDiv._fullLayout;
var clipId = 'clip' + fullLayout._uid + _this.id;
_this.clipDef = fullLayout._clips.append('clipPath')
.attr('id', clipId);
_this.clipRect = _this.clipDef.append('rect');
_this.framework = d3.select(_this.container).append('g')
.attr('class', 'geo ' + _this.id)
.call(Drawing.setClipUrl, clipId);
// sane lonlat to px
_this.project = function(v) {
var px = _this.projection(v);
return px ?
[px[0] - _this.xaxis._offset, px[1] - _this.yaxis._offset] :
[null, null];
};
_this.xaxis = {
_id: 'x',
c2p: function(v) { return _this.project(v)[0]; }
};
_this.yaxis = {
_id: 'y',
c2p: function(v) { return _this.project(v)[1]; }
};
// mock axis for hover formatting
_this.mockAxis = {
type: 'linear',
showexponent: 'all',
exponentformat: 'B'
};
Axes.setConvert(_this.mockAxis, fullLayout);
};
proto.saveViewInitial = function(geoLayout) {
var center = geoLayout.center || {};
var projLayout = geoLayout.projection;
var rotation = projLayout.rotation || {};
if(geoLayout._isScoped) {
this.viewInitial = {
'center.lon': center.lon,
'center.lat': center.lat,
'projection.scale': projLayout.scale
};
} else if(geoLayout._isClipped) {
this.viewInitial = {
'projection.scale': projLayout.scale,
'projection.rotation.lon': rotation.lon,
'projection.rotation.lat': rotation.lat
};
} else {
this.viewInitial = {
'center.lon': center.lon,
'center.lat': center.lat,
'projection.scale': projLayout.scale,
'projection.rotation.lon': rotation.lon
};
}
};
// [hot code path] (re)draw all paths which depend on the projection
proto.render = function() {
var projection = this.projection;
var pathFn = projection.getPath();
var k;
function translatePoints(d) {
var lonlatPx = projection(d.lonlat);
return lonlatPx ?
'translate(' + lonlatPx[0] + ',' + lonlatPx[1] + ')' :
null;
}
function hideShowPoints(d) {
return projection.isLonLatOverEdges(d.lonlat) ? 'none' : null;
}
for(k in this.basePaths) {
this.basePaths[k].attr('d', pathFn);
}
for(k in this.dataPaths) {
this.dataPaths[k].attr('d', function(d) { return pathFn(d.geojson); });
}
for(k in this.dataPoints) {
this.dataPoints[k]
.attr('display', hideShowPoints)
.attr('transform', translatePoints);
}
};
// Helper that wraps d3.geo[/* projection name /*]() which:
//
// - adds 'fitExtent' (available in d3 v4)
// - adds 'getPath', 'getBounds' convenience methods
// - scopes logic related to 'clipAngle'
// - adds 'isLonLatOverEdges' method
// - sets projection precision
// - sets methods that aren't always defined depending
// on the projection type to a dummy 'd3-esque' function,
//
// This wrapper alleviates subsequent code of (many) annoying if-statements.
function getProjection(geoLayout) {
var projLayout = geoLayout.projection;
var projType = projLayout.type;
var projection = d3.geo[constants.projNames[projType]]();
var clipAngle = geoLayout._isClipped ?
constants.lonaxisSpan[projType] / 2 :
null;
var methods = ['center', 'rotate', 'parallels', 'clipExtent'];
var dummyFn = function(_) { return _ ? projection : []; };
for(var i = 0; i < methods.length; i++) {
var m = methods[i];
if(typeof projection[m] !== 'function') {
projection[m] = dummyFn;
}
}
projection.isLonLatOverEdges = function(lonlat) {
if(projection(lonlat) === null) {
return true;
}
if(clipAngle) {
var r = projection.rotate();
var angle = d3.geo.distance(lonlat, [-r[0], -r[1]]);
var maxAngle = clipAngle * Math.PI / 180;
return angle > maxAngle;
} else {
return false;
}
};
projection.getPath = function() {
return d3.geo.path().projection(projection);
};
projection.getBounds = function(object) {
return projection.getPath().bounds(object);
};
// adapted from d3 v4:
// https://github.com/d3/d3-geo/blob/master/src/projection/fit.js
projection.fitExtent = function(extent, object) {
var w = extent[1][0] - extent[0][0];
var h = extent[1][1] - extent[0][1];
var clip = projection.clipExtent && projection.clipExtent();
projection
.scale(150)
.translate([0, 0]);
if(clip) projection.clipExtent(null);
var b = projection.getBounds(object);
var k = Math.min(w / (b[1][0] - b[0][0]), h / (b[1][1] - b[0][1]));
var x = +extent[0][0] + (w - k * (b[1][0] + b[0][0])) / 2;
var y = +extent[0][1] + (h - k * (b[1][1] + b[0][1])) / 2;
if(clip) projection.clipExtent(clip);
return projection
.scale(k * 150)
.translate([x, y]);
};
projection.precision(constants.precision);
if(clipAngle) {
projection.clipAngle(clipAngle - constants.clipPad);
}
return projection;
}
function makeGraticule(axisName, geoLayout) {
var axisLayout = geoLayout[axisName];
var dtick = axisLayout.dtick;
var scopeDefaults = constants.scopeDefaults[geoLayout.scope];
var lonaxisRange = scopeDefaults.lonaxisRange;
var lataxisRange = scopeDefaults.lataxisRange;
var step = axisName === 'lonaxis' ? [dtick] : [0, dtick];
return d3.geo.graticule()
.extent([
[lonaxisRange[0], lataxisRange[0]],
[lonaxisRange[1], lataxisRange[1]]
])
.step(step);
}
// Returns polygon GeoJSON corresponding to lon/lat range box
// with well-defined direction
//
// Note that clipPad padding is added around range to avoid aliasing.
function makeRangeBox(lon, lat) {
var clipPad = constants.clipPad;
var lon0 = lon[0] + clipPad;
var lon1 = lon[1] - clipPad;
var lat0 = lat[0] + clipPad;
var lat1 = lat[1] - clipPad;
// to cross antimeridian w/o ambiguity
if(lon0 > 0 && lon1 < 0) lon1 += 360;
var dlon4 = (lon1 - lon0) / 4;
return {
type: 'Polygon',
coordinates: [[
[lon0, lat0],
[lon0, lat1],
[lon0 + dlon4, lat1],
[lon0 + 2 * dlon4, lat1],
[lon0 + 3 * dlon4, lat1],
[lon1, lat1],
[lon1, lat0],
[lon1 - dlon4, lat0],
[lon1 - 2 * dlon4, lat0],
[lon1 - 3 * dlon4, lat0],
[lon0, lat0]
]]
};
}
},{"../../components/color":567,"../../components/dragelement":589,"../../components/drawing":592,"../../components/fx":609,"../../lib":693,"../../lib/topojson_utils":721,"../../registry":825,"../cartesian/axes":742,"../cartesian/select":759,"../plots":805,"./constants":770,"./projections":776,"./zoom":777,"d3":147,"topojson-client":514}],772:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var createGeo = _dereq_('./geo');
var getSubplotCalcData = _dereq_('../../plots/get_data').getSubplotCalcData;
var counterRegex = _dereq_('../../lib').counterRegex;
var GEO = 'geo';
exports.name = GEO;
exports.attr = GEO;
exports.idRoot = GEO;
exports.idRegex = exports.attrRegex = counterRegex(GEO);
exports.attributes = _dereq_('./layout/attributes');
exports.layoutAttributes = _dereq_('./layout/layout_attributes');
exports.supplyLayoutDefaults = _dereq_('./layout/defaults');
exports.plot = function plotGeo(gd) {
var fullLayout = gd._fullLayout;
var calcData = gd.calcdata;
var geoIds = fullLayout._subplots[GEO];
/**
* If 'plotly-geo-assets.js' is not included,
* initialize object to keep reference to every loaded topojson
*/
if(window.PlotlyGeoAssets === undefined) {
window.PlotlyGeoAssets = {topojson: {}};
}
for(var i = 0; i < geoIds.length; i++) {
var geoId = geoIds[i];
var geoCalcData = getSubplotCalcData(calcData, GEO, geoId);
var geoLayout = fullLayout[geoId];
var geo = geoLayout._subplot;
if(!geo) {
geo = createGeo({
id: geoId,
graphDiv: gd,
container: fullLayout._geolayer.node(),
topojsonURL: gd._context.topojsonURL,
staticPlot: gd._context.staticPlot
});
fullLayout[geoId]._subplot = geo;
}
geo.plot(geoCalcData, fullLayout, gd._promises);
}
};
exports.clean = function(newFullData, newFullLayout, oldFullData, oldFullLayout) {
var oldGeoKeys = oldFullLayout._subplots[GEO] || [];
for(var i = 0; i < oldGeoKeys.length; i++) {
var oldGeoKey = oldGeoKeys[i];
var oldGeo = oldFullLayout[oldGeoKey]._subplot;
if(!newFullLayout[oldGeoKey] && !!oldGeo) {
oldGeo.framework.remove();
oldGeo.clipDef.remove();
}
}
};
exports.updateFx = function(gd) {
var fullLayout = gd._fullLayout;
var subplotIds = fullLayout._subplots[GEO];
for(var i = 0; i < subplotIds.length; i++) {
var subplotLayout = fullLayout[subplotIds[i]];
var subplotObj = subplotLayout._subplot;
subplotObj.updateFx(fullLayout, subplotLayout);
}
};
},{"../../lib":693,"../../plots/get_data":778,"./geo":771,"./layout/attributes":773,"./layout/defaults":774,"./layout/layout_attributes":775}],773:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
geo: {
valType: 'subplotid',
dflt: 'geo',
editType: 'calc',
}
};
},{}],774:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var handleSubplotDefaults = _dereq_('../../subplot_defaults');
var constants = _dereq_('../constants');
var layoutAttributes = _dereq_('./layout_attributes');
var axesNames = constants.axesNames;
module.exports = function supplyLayoutDefaults(layoutIn, layoutOut, fullData) {
handleSubplotDefaults(layoutIn, layoutOut, fullData, {
type: 'geo',
attributes: layoutAttributes,
handleDefaults: handleGeoDefaults,
partition: 'y'
});
};
function handleGeoDefaults(geoLayoutIn, geoLayoutOut, coerce) {
var show;
var resolution = coerce('resolution');
var scope = coerce('scope');
var scopeParams = constants.scopeDefaults[scope];
var projType = coerce('projection.type', scopeParams.projType);
var isAlbersUsa = geoLayoutOut._isAlbersUsa = projType === 'albers usa';
// no other scopes are allowed for 'albers usa' projection
if(isAlbersUsa) scope = geoLayoutOut.scope = 'usa';
var isScoped = geoLayoutOut._isScoped = (scope !== 'world');
var isConic = geoLayoutOut._isConic = projType.indexOf('conic') !== -1;
geoLayoutOut._isClipped = !!constants.lonaxisSpan[projType];
for(var i = 0; i < axesNames.length; i++) {
var axisName = axesNames[i];
var dtickDflt = [30, 10][i];
var rangeDflt;
if(isScoped) {
rangeDflt = scopeParams[axisName + 'Range'];
} else {
var dfltSpans = constants[axisName + 'Span'];
var hSpan = (dfltSpans[projType] || dfltSpans['*']) / 2;
var rot = coerce(
'projection.rotation.' + axisName.substr(0, 3),
scopeParams.projRotate[i]
);
rangeDflt = [rot - hSpan, rot + hSpan];
}
var range = coerce(axisName + '.range', rangeDflt);
coerce(axisName + '.tick0', range[0]);
coerce(axisName + '.dtick', dtickDflt);
show = coerce(axisName + '.showgrid');
if(show) {
coerce(axisName + '.gridcolor');
coerce(axisName + '.gridwidth');
}
}
var lonRange = geoLayoutOut.lonaxis.range;
var latRange = geoLayoutOut.lataxis.range;
// to cross antimeridian w/o ambiguity
var lon0 = lonRange[0];
var lon1 = lonRange[1];
if(lon0 > 0 && lon1 < 0) lon1 += 360;
var centerLon = (lon0 + lon1) / 2;
var projLon;
if(!isAlbersUsa) {
var dfltProjRotate = isScoped ? scopeParams.projRotate : [centerLon, 0, 0];
projLon = coerce('projection.rotation.lon', dfltProjRotate[0]);
coerce('projection.rotation.lat', dfltProjRotate[1]);
coerce('projection.rotation.roll', dfltProjRotate[2]);
show = coerce('showcoastlines', !isScoped);
if(show) {
coerce('coastlinecolor');
coerce('coastlinewidth');
}
show = coerce('showocean');
if(show) coerce('oceancolor');
}
var centerLonDflt;
var centerLatDflt;
if(isAlbersUsa) {
// 'albers usa' does not have a 'center',
// these values were found using via:
// projection.invert([geoLayout.center.lon, geoLayoutIn.center.lat])
centerLonDflt = -96.6;
centerLatDflt = 38.7;
} else {
centerLonDflt = isScoped ? centerLon : projLon;
centerLatDflt = (latRange[0] + latRange[1]) / 2;
}
coerce('center.lon', centerLonDflt);
coerce('center.lat', centerLatDflt);
if(isConic) {
var dfltProjParallels = scopeParams.projParallels || [0, 60];
coerce('projection.parallels', dfltProjParallels);
}
coerce('projection.scale');
show = coerce('showland');
if(show) coerce('landcolor');
show = coerce('showlakes');
if(show) coerce('lakecolor');
show = coerce('showrivers');
if(show) {
coerce('rivercolor');
coerce('riverwidth');
}
show = coerce('showcountries', isScoped && scope !== 'usa');
if(show) {
coerce('countrycolor');
coerce('countrywidth');
}
if(scope === 'usa' || (scope === 'north america' && resolution === 50)) {
// Only works for:
// USA states at 110m
// USA states + Canada provinces at 50m
coerce('showsubunits', true);
coerce('subunitcolor');
coerce('subunitwidth');
}
if(!isScoped) {
// Does not work in non-world scopes
show = coerce('showframe', true);
if(show) {
coerce('framecolor');
coerce('framewidth');
}
}
coerce('bgcolor');
}
},{"../../subplot_defaults":820,"../constants":770,"./layout_attributes":775}],775:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var colorAttrs = _dereq_('../../../components/color/attributes');
var domainAttrs = _dereq_('../../domain').attributes;
var constants = _dereq_('../constants');
var overrideAll = _dereq_('../../../plot_api/edit_types').overrideAll;
var geoAxesAttrs = {
range: {
valType: 'info_array',
items: [
{valType: 'number'},
{valType: 'number'}
],
},
showgrid: {
valType: 'boolean',
dflt: false,
},
tick0: {
valType: 'number',
},
dtick: {
valType: 'number',
},
gridcolor: {
valType: 'color',
dflt: colorAttrs.lightLine,
},
gridwidth: {
valType: 'number',
min: 0,
dflt: 1,
}
};
module.exports = overrideAll({
domain: domainAttrs({name: 'geo'}, {
}),
resolution: {
valType: 'enumerated',
values: [110, 50],
dflt: 110,
coerceNumber: true,
},
scope: {
valType: 'enumerated',
values: Object.keys(constants.scopeDefaults),
dflt: 'world',
},
projection: {
type: {
valType: 'enumerated',
values: Object.keys(constants.projNames),
},
rotation: {
lon: {
valType: 'number',
},
lat: {
valType: 'number',
},
roll: {
valType: 'number',
}
},
parallels: {
valType: 'info_array',
items: [
{valType: 'number'},
{valType: 'number'}
],
},
scale: {
valType: 'number',
min: 0,
dflt: 1,
},
},
center: {
lon: {
valType: 'number',
},
lat: {
valType: 'number',
}
},
showcoastlines: {
valType: 'boolean',
},
coastlinecolor: {
valType: 'color',
dflt: colorAttrs.defaultLine,
},
coastlinewidth: {
valType: 'number',
min: 0,
dflt: 1,
},
showland: {
valType: 'boolean',
dflt: false,
},
landcolor: {
valType: 'color',
dflt: constants.landColor,
},
showocean: {
valType: 'boolean',
dflt: false,
},
oceancolor: {
valType: 'color',
dflt: constants.waterColor,
},
showlakes: {
valType: 'boolean',
dflt: false,
},
lakecolor: {
valType: 'color',
dflt: constants.waterColor,
},
showrivers: {
valType: 'boolean',
dflt: false,
},
rivercolor: {
valType: 'color',
dflt: constants.waterColor,
},
riverwidth: {
valType: 'number',
min: 0,
dflt: 1,
},
showcountries: {
valType: 'boolean',
},
countrycolor: {
valType: 'color',
dflt: colorAttrs.defaultLine,
},
countrywidth: {
valType: 'number',
min: 0,
dflt: 1,
},
showsubunits: {
valType: 'boolean',
},
subunitcolor: {
valType: 'color',
dflt: colorAttrs.defaultLine,
},
subunitwidth: {
valType: 'number',
min: 0,
dflt: 1,
},
showframe: {
valType: 'boolean',
},
framecolor: {
valType: 'color',
dflt: colorAttrs.defaultLine,
},
framewidth: {
valType: 'number',
min: 0,
dflt: 1,
},
bgcolor: {
valType: 'color',
dflt: colorAttrs.background,
},
lonaxis: geoAxesAttrs,
lataxis: geoAxesAttrs
}, 'plot', 'from-root');
},{"../../../components/color/attributes":566,"../../../plot_api/edit_types":725,"../../domain":767,"../constants":770}],776:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
/*
* Generated by https://github.com/etpinard/d3-geo-projection-picker
*
* which is hand-picks projection from https://github.com/d3/d3-geo-projection
*
* into a CommonJS require-able module.
*/
'use strict';
/* eslint-disable */
function addProjectionsToD3(d3) {
d3.geo.project = function(object, projection) {
var stream = projection.stream;
if (!stream) throw new Error("not yet supported");
return (object && d3_geo_projectObjectType.hasOwnProperty(object.type) ? d3_geo_projectObjectType[object.type] : d3_geo_projectGeometry)(object, stream);
};
function d3_geo_projectFeature(object, stream) {
return {
type: "Feature",
id: object.id,
properties: object.properties,
geometry: d3_geo_projectGeometry(object.geometry, stream)
};
}
function d3_geo_projectGeometry(geometry, stream) {
if (!geometry) return null;
if (geometry.type === "GeometryCollection") return {
type: "GeometryCollection",
geometries: object.geometries.map(function(geometry) {
return d3_geo_projectGeometry(geometry, stream);
})
};
if (!d3_geo_projectGeometryType.hasOwnProperty(geometry.type)) return null;
var sink = d3_geo_projectGeometryType[geometry.type];
d3.geo.stream(geometry, stream(sink));
return sink.result();
}
var d3_geo_projectObjectType = {
Feature: d3_geo_projectFeature,
FeatureCollection: function(object, stream) {
return {
type: "FeatureCollection",
features: object.features.map(function(feature) {
return d3_geo_projectFeature(feature, stream);
})
};
}
};
var d3_geo_projectPoints = [], d3_geo_projectLines = [];
var d3_geo_projectPoint = {
point: function(x, y) {
d3_geo_projectPoints.push([ x, y ]);
},
result: function() {
var result = !d3_geo_projectPoints.length ? null : d3_geo_projectPoints.length < 2 ? {
type: "Point",
coordinates: d3_geo_projectPoints[0]
} : {
type: "MultiPoint",
coordinates: d3_geo_projectPoints
};
d3_geo_projectPoints = [];
return result;
}
};
var d3_geo_projectLine = {
lineStart: d3_geo_projectNoop,
point: function(x, y) {
d3_geo_projectPoints.push([ x, y ]);
},
lineEnd: function() {
if (d3_geo_projectPoints.length) d3_geo_projectLines.push(d3_geo_projectPoints),
d3_geo_projectPoints = [];
},
result: function() {
var result = !d3_geo_projectLines.length ? null : d3_geo_projectLines.length < 2 ? {
type: "LineString",
coordinates: d3_geo_projectLines[0]
} : {
type: "MultiLineString",
coordinates: d3_geo_projectLines
};
d3_geo_projectLines = [];
return result;
}
};
var d3_geo_projectPolygon = {
polygonStart: d3_geo_projectNoop,
lineStart: d3_geo_projectNoop,
point: function(x, y) {
d3_geo_projectPoints.push([ x, y ]);
},
lineEnd: function() {
var n = d3_geo_projectPoints.length;
if (n) {
do d3_geo_projectPoints.push(d3_geo_projectPoints[0].slice()); while (++n < 4);
d3_geo_projectLines.push(d3_geo_projectPoints), d3_geo_projectPoints = [];
}
},
polygonEnd: d3_geo_projectNoop,
result: function() {
if (!d3_geo_projectLines.length) return null;
var polygons = [], holes = [];
d3_geo_projectLines.forEach(function(ring) {
if (d3_geo_projectClockwise(ring)) polygons.push([ ring ]); else holes.push(ring);
});
holes.forEach(function(hole) {
var point = hole[0];
polygons.some(function(polygon) {
if (d3_geo_projectContains(polygon[0], point)) {
polygon.push(hole);
return true;
}
}) || polygons.push([ hole ]);
});
d3_geo_projectLines = [];
return !polygons.length ? null : polygons.length > 1 ? {
type: "MultiPolygon",
coordinates: polygons
} : {
type: "Polygon",
coordinates: polygons[0]
};
}
};
var d3_geo_projectGeometryType = {
Point: d3_geo_projectPoint,
MultiPoint: d3_geo_projectPoint,
LineString: d3_geo_projectLine,
MultiLineString: d3_geo_projectLine,
Polygon: d3_geo_projectPolygon,
MultiPolygon: d3_geo_projectPolygon,
Sphere: d3_geo_projectPolygon
};
function d3_geo_projectNoop() {}
function d3_geo_projectClockwise(ring) {
if ((n = ring.length) < 4) return false;
var i = 0, n, area = ring[n - 1][1] * ring[0][0] - ring[n - 1][0] * ring[0][1];
while (++i < n) area += ring[i - 1][1] * ring[i][0] - ring[i - 1][0] * ring[i][1];
return area <= 0;
}
function d3_geo_projectContains(ring, point) {
var x = point[0], y = point[1], contains = false;
for (var i = 0, n = ring.length, j = n - 1; i < n; j = i++) {
var pi = ring[i], xi = pi[0], yi = pi[1], pj = ring[j], xj = pj[0], yj = pj[1];
if (yi > y ^ yj > y && x < (xj - xi) * (y - yi) / (yj - yi) + xi) contains = !contains;
}
return contains;
}
var ε = 1e-6, ε2 = ε * ε, π = Math.PI, halfπ = π / 2, sqrtπ = Math.sqrt(π), radians = π / 180, degrees = 180 / π;
function sinci(x) {
return x ? x / Math.sin(x) : 1;
}
function sgn(x) {
return x > 0 ? 1 : x < 0 ? -1 : 0;
}
function asin(x) {
return x > 1 ? halfπ : x < -1 ? -halfπ : Math.asin(x);
}
function acos(x) {
return x > 1 ? 0 : x < -1 ? π : Math.acos(x);
}
function asqrt(x) {
return x > 0 ? Math.sqrt(x) : 0;
}
var projection = d3.geo.projection, projectionMutator = d3.geo.projectionMutator;
d3.geo.interrupt = function(project) {
var lobes = [ [ [ [ -π, 0 ], [ 0, halfπ ], [ π, 0 ] ] ], [ [ [ -π, 0 ], [ 0, -halfπ ], [ π, 0 ] ] ] ];
var bounds;
function forward(λ, φ) {
var sign = φ < 0 ? -1 : +1, hemilobes = lobes[+(φ < 0)];
for (var i = 0, n = hemilobes.length - 1; i < n && λ > hemilobes[i][2][0]; ++i) ;
var coordinates = project(λ - hemilobes[i][1][0], φ);
coordinates[0] += project(hemilobes[i][1][0], sign * φ > sign * hemilobes[i][0][1] ? hemilobes[i][0][1] : φ)[0];
return coordinates;
}
function reset() {
bounds = lobes.map(function(hemilobes) {
return hemilobes.map(function(lobe) {
var x0 = project(lobe[0][0], lobe[0][1])[0], x1 = project(lobe[2][0], lobe[2][1])[0], y0 = project(lobe[1][0], lobe[0][1])[1], y1 = project(lobe[1][0], lobe[1][1])[1], t;
if (y0 > y1) t = y0, y0 = y1, y1 = t;
return [ [ x0, y0 ], [ x1, y1 ] ];
});
});
}
if (project.invert) forward.invert = function(x, y) {
var hemibounds = bounds[+(y < 0)], hemilobes = lobes[+(y < 0)];
for (var i = 0, n = hemibounds.length; i < n; ++i) {
var b = hemibounds[i];
if (b[0][0] <= x && x < b[1][0] && b[0][1] <= y && y < b[1][1]) {
var coordinates = project.invert(x - project(hemilobes[i][1][0], 0)[0], y);
coordinates[0] += hemilobes[i][1][0];
return pointEqual(forward(coordinates[0], coordinates[1]), [ x, y ]) ? coordinates : null;
}
}
};
var projection = d3.geo.projection(forward), stream_ = projection.stream;
projection.stream = function(stream) {
var rotate = projection.rotate(), rotateStream = stream_(stream), sphereStream = (projection.rotate([ 0, 0 ]),
stream_(stream));
projection.rotate(rotate);
rotateStream.sphere = function() {
d3.geo.stream(sphere(), sphereStream);
};
return rotateStream;
};
projection.lobes = function(_) {
if (!arguments.length) return lobes.map(function(lobes) {
return lobes.map(function(lobe) {
return [ [ lobe[0][0] * 180 / π, lobe[0][1] * 180 / π ], [ lobe[1][0] * 180 / π, lobe[1][1] * 180 / π ], [ lobe[2][0] * 180 / π, lobe[2][1] * 180 / π ] ];
});
});
lobes = _.map(function(lobes) {
return lobes.map(function(lobe) {
return [ [ lobe[0][0] * π / 180, lobe[0][1] * π / 180 ], [ lobe[1][0] * π / 180, lobe[1][1] * π / 180 ], [ lobe[2][0] * π / 180, lobe[2][1] * π / 180 ] ];
});
});
reset();
return projection;
};
function sphere() {
var ε = 1e-6, coordinates = [];
for (var i = 0, n = lobes[0].length; i < n; ++i) {
var lobe = lobes[0][i], λ0 = lobe[0][0] * 180 / π, φ0 = lobe[0][1] * 180 / π, φ1 = lobe[1][1] * 180 / π, λ2 = lobe[2][0] * 180 / π, φ2 = lobe[2][1] * 180 / π;
coordinates.push(resample([ [ λ0 + ε, φ0 + ε ], [ λ0 + ε, φ1 - ε ], [ λ2 - ε, φ1 - ε ], [ λ2 - ε, φ2 + ε ] ], 30));
}
for (var i = lobes[1].length - 1; i >= 0; --i) {
var lobe = lobes[1][i], λ0 = lobe[0][0] * 180 / π, φ0 = lobe[0][1] * 180 / π, φ1 = lobe[1][1] * 180 / π, λ2 = lobe[2][0] * 180 / π, φ2 = lobe[2][1] * 180 / π;
coordinates.push(resample([ [ λ2 - ε, φ2 - ε ], [ λ2 - ε, φ1 + ε ], [ λ0 + ε, φ1 + ε ], [ λ0 + ε, φ0 - ε ] ], 30));
}
return {
type: "Polygon",
coordinates: [ d3.merge(coordinates) ]
};
}
function resample(coordinates, m) {
var i = -1, n = coordinates.length, p0 = coordinates[0], p1, dx, dy, resampled = [];
while (++i < n) {
p1 = coordinates[i];
dx = (p1[0] - p0[0]) / m;
dy = (p1[1] - p0[1]) / m;
for (var j = 0; j < m; ++j) resampled.push([ p0[0] + j * dx, p0[1] + j * dy ]);
p0 = p1;
}
resampled.push(p1);
return resampled;
}
function pointEqual(a, b) {
return Math.abs(a[0] - b[0]) < ε && Math.abs(a[1] - b[1]) < ε;
}
return projection;
};
function eckert4(λ, φ) {
var k = (2 + halfπ) * Math.sin(φ);
φ /= 2;
for (var i = 0, δ = Infinity; i < 10 && Math.abs(δ) > ε; i++) {
var cosφ = Math.cos(φ);
φ -= δ = (φ + Math.sin(φ) * (cosφ + 2) - k) / (2 * cosφ * (1 + cosφ));
}
return [ 2 / Math.sqrt(π * (4 + π)) * λ * (1 + Math.cos(φ)), 2 * Math.sqrt(π / (4 + π)) * Math.sin(φ) ];
}
eckert4.invert = function(x, y) {
var A = .5 * y * Math.sqrt((4 + π) / π), k = asin(A), c = Math.cos(k);
return [ x / (2 / Math.sqrt(π * (4 + π)) * (1 + c)), asin((k + A * (c + 2)) / (2 + halfπ)) ];
};
(d3.geo.eckert4 = function() {
return projection(eckert4);
}).raw = eckert4;
var hammerAzimuthalEqualArea = d3.geo.azimuthalEqualArea.raw;
function hammer(A, B) {
if (arguments.length < 2) B = A;
if (B === 1) return hammerAzimuthalEqualArea;
if (B === Infinity) return hammerQuarticAuthalic;
function forward(λ, φ) {
var coordinates = hammerAzimuthalEqualArea(λ / B, φ);
coordinates[0] *= A;
return coordinates;
}
forward.invert = function(x, y) {
var coordinates = hammerAzimuthalEqualArea.invert(x / A, y);
coordinates[0] *= B;
return coordinates;
};
return forward;
}
function hammerProjection() {
var B = 2, m = projectionMutator(hammer), p = m(B);
p.coefficient = function(_) {
if (!arguments.length) return B;
return m(B = +_);
};
return p;
}
function hammerQuarticAuthalic(λ, φ) {
return [ λ * Math.cos(φ) / Math.cos(φ /= 2), 2 * Math.sin(φ) ];
}
hammerQuarticAuthalic.invert = function(x, y) {
var φ = 2 * asin(y / 2);
return [ x * Math.cos(φ / 2) / Math.cos(φ), φ ];
};
(d3.geo.hammer = hammerProjection).raw = hammer;
function kavrayskiy7(λ, φ) {
return [ 3 * λ / (2 * π) * Math.sqrt(π * π / 3 - φ * φ), φ ];
}
kavrayskiy7.invert = function(x, y) {
return [ 2 / 3 * π * x / Math.sqrt(π * π / 3 - y * y), y ];
};
(d3.geo.kavrayskiy7 = function() {
return projection(kavrayskiy7);
}).raw = kavrayskiy7;
function miller(λ, φ) {
return [ λ, 1.25 * Math.log(Math.tan(π / 4 + .4 * φ)) ];
}
miller.invert = function(x, y) {
return [ x, 2.5 * Math.atan(Math.exp(.8 * y)) - .625 * π ];
};
(d3.geo.miller = function() {
return projection(miller);
}).raw = miller;
function mollweideBromleyθ(Cp) {
return function(θ) {
var Cpsinθ = Cp * Math.sin(θ), i = 30, δ;
do θ -= δ = (θ + Math.sin(θ) - Cpsinθ) / (1 + Math.cos(θ)); while (Math.abs(δ) > ε && --i > 0);
return θ / 2;
};
}
function mollweideBromley(Cx, Cy, Cp) {
var θ = mollweideBromleyθ(Cp);
function forward(λ, φ) {
return [ Cx * λ * Math.cos(φ = θ(φ)), Cy * Math.sin(φ) ];
}
forward.invert = function(x, y) {
var θ = asin(y / Cy);
return [ x / (Cx * Math.cos(θ)), asin((2 * θ + Math.sin(2 * θ)) / Cp) ];
};
return forward;
}
var mollweideθ = mollweideBromleyθ(π), mollweide = mollweideBromley(Math.SQRT2 / halfπ, Math.SQRT2, π);
(d3.geo.mollweide = function() {
return projection(mollweide);
}).raw = mollweide;
function naturalEarth(λ, φ) {
var φ2 = φ * φ, φ4 = φ2 * φ2;
return [ λ * (.8707 - .131979 * φ2 + φ4 * (-.013791 + φ4 * (.003971 * φ2 - .001529 * φ4))), φ * (1.007226 + φ2 * (.015085 + φ4 * (-.044475 + .028874 * φ2 - .005916 * φ4))) ];
}
naturalEarth.invert = function(x, y) {
var φ = y, i = 25, δ;
do {
var φ2 = φ * φ, φ4 = φ2 * φ2;
φ -= δ = (φ * (1.007226 + φ2 * (.015085 + φ4 * (-.044475 + .028874 * φ2 - .005916 * φ4))) - y) / (1.007226 + φ2 * (.015085 * 3 + φ4 * (-.044475 * 7 + .028874 * 9 * φ2 - .005916 * 11 * φ4)));
} while (Math.abs(δ) > ε && --i > 0);
return [ x / (.8707 + (φ2 = φ * φ) * (-.131979 + φ2 * (-.013791 + φ2 * φ2 * φ2 * (.003971 - .001529 * φ2)))), φ ];
};
(d3.geo.naturalEarth = function() {
return projection(naturalEarth);
}).raw = naturalEarth;
var robinsonConstants = [ [ .9986, -.062 ], [ 1, 0 ], [ .9986, .062 ], [ .9954, .124 ], [ .99, .186 ], [ .9822, .248 ], [ .973, .31 ], [ .96, .372 ], [ .9427, .434 ], [ .9216, .4958 ], [ .8962, .5571 ], [ .8679, .6176 ], [ .835, .6769 ], [ .7986, .7346 ], [ .7597, .7903 ], [ .7186, .8435 ], [ .6732, .8936 ], [ .6213, .9394 ], [ .5722, .9761 ], [ .5322, 1 ] ];
robinsonConstants.forEach(function(d) {
d[1] *= 1.0144;
});
function robinson(λ, φ) {
var i = Math.min(18, Math.abs(φ) * 36 / π), i0 = Math.floor(i), di = i - i0, ax = (k = robinsonConstants[i0])[0], ay = k[1], bx = (k = robinsonConstants[++i0])[0], by = k[1], cx = (k = robinsonConstants[Math.min(19, ++i0)])[0], cy = k[1], k;
return [ λ * (bx + di * (cx - ax) / 2 + di * di * (cx - 2 * bx + ax) / 2), (φ > 0 ? halfπ : -halfπ) * (by + di * (cy - ay) / 2 + di * di * (cy - 2 * by + ay) / 2) ];
}
robinson.invert = function(x, y) {
var yy = y / halfπ, φ = yy * 90, i = Math.min(18, Math.abs(φ / 5)), i0 = Math.max(0, Math.floor(i));
do {
var ay = robinsonConstants[i0][1], by = robinsonConstants[i0 + 1][1], cy = robinsonConstants[Math.min(19, i0 + 2)][1], u = cy - ay, v = cy - 2 * by + ay, t = 2 * (Math.abs(yy) - by) / u, c = v / u, di = t * (1 - c * t * (1 - 2 * c * t));
if (di >= 0 || i0 === 1) {
φ = (y >= 0 ? 5 : -5) * (di + i);
var j = 50, δ;
do {
i = Math.min(18, Math.abs(φ) / 5);
i0 = Math.floor(i);
di = i - i0;
ay = robinsonConstants[i0][1];
by = robinsonConstants[i0 + 1][1];
cy = robinsonConstants[Math.min(19, i0 + 2)][1];
φ -= (δ = (y >= 0 ? halfπ : -halfπ) * (by + di * (cy - ay) / 2 + di * di * (cy - 2 * by + ay) / 2) - y) * degrees;
} while (Math.abs(δ) > ε2 && --j > 0);
break;
}
} while (--i0 >= 0);
var ax = robinsonConstants[i0][0], bx = robinsonConstants[i0 + 1][0], cx = robinsonConstants[Math.min(19, i0 + 2)][0];
return [ x / (bx + di * (cx - ax) / 2 + di * di * (cx - 2 * bx + ax) / 2), φ * radians ];
};
(d3.geo.robinson = function() {
return projection(robinson);
}).raw = robinson;
function sinusoidal(λ, φ) {
return [ λ * Math.cos(φ), φ ];
}
sinusoidal.invert = function(x, y) {
return [ x / Math.cos(y), y ];
};
(d3.geo.sinusoidal = function() {
return projection(sinusoidal);
}).raw = sinusoidal;
function aitoff(λ, φ) {
var cosφ = Math.cos(φ), sinciα = sinci(acos(cosφ * Math.cos(λ /= 2)));
return [ 2 * cosφ * Math.sin(λ) * sinciα, Math.sin(φ) * sinciα ];
}
aitoff.invert = function(x, y) {
if (x * x + 4 * y * y > π * π + ε) return;
var λ = x, φ = y, i = 25;
do {
var sinλ = Math.sin(λ), sinλ_2 = Math.sin(λ / 2), cosλ_2 = Math.cos(λ / 2), sinφ = Math.sin(φ), cosφ = Math.cos(φ), sin_2φ = Math.sin(2 * φ), sin2φ = sinφ * sinφ, cos2φ = cosφ * cosφ, sin2λ_2 = sinλ_2 * sinλ_2, C = 1 - cos2φ * cosλ_2 * cosλ_2, E = C ? acos(cosφ * cosλ_2) * Math.sqrt(F = 1 / C) : F = 0, F, fx = 2 * E * cosφ * sinλ_2 - x, fy = E * sinφ - y, δxδλ = F * (cos2φ * sin2λ_2 + E * cosφ * cosλ_2 * sin2φ), δxδφ = F * (.5 * sinλ * sin_2φ - E * 2 * sinφ * sinλ_2), δyδλ = F * .25 * (sin_2φ * sinλ_2 - E * sinφ * cos2φ * sinλ), δyδφ = F * (sin2φ * cosλ_2 + E * sin2λ_2 * cosφ), denominator = δxδφ * δyδλ - δyδφ * δxδλ;
if (!denominator) break;
var δλ = (fy * δxδφ - fx * δyδφ) / denominator, δφ = (fx * δyδλ - fy * δxδλ) / denominator;
λ -= δλ, φ -= δφ;
} while ((Math.abs(δλ) > ε || Math.abs(δφ) > ε) && --i > 0);
return [ λ, φ ];
};
(d3.geo.aitoff = function() {
return projection(aitoff);
}).raw = aitoff;
function winkel3(λ, φ) {
var coordinates = aitoff(λ, φ);
return [ (coordinates[0] + λ / halfπ) / 2, (coordinates[1] + φ) / 2 ];
}
winkel3.invert = function(x, y) {
var λ = x, φ = y, i = 25;
do {
var cosφ = Math.cos(φ), sinφ = Math.sin(φ), sin_2φ = Math.sin(2 * φ), sin2φ = sinφ * sinφ, cos2φ = cosφ * cosφ, sinλ = Math.sin(λ), cosλ_2 = Math.cos(λ / 2), sinλ_2 = Math.sin(λ / 2), sin2λ_2 = sinλ_2 * sinλ_2, C = 1 - cos2φ * cosλ_2 * cosλ_2, E = C ? acos(cosφ * cosλ_2) * Math.sqrt(F = 1 / C) : F = 0, F, fx = .5 * (2 * E * cosφ * sinλ_2 + λ / halfπ) - x, fy = .5 * (E * sinφ + φ) - y, δxδλ = .5 * F * (cos2φ * sin2λ_2 + E * cosφ * cosλ_2 * sin2φ) + .5 / halfπ, δxδφ = F * (sinλ * sin_2φ / 4 - E * sinφ * sinλ_2), δyδλ = .125 * F * (sin_2φ * sinλ_2 - E * sinφ * cos2φ * sinλ), δyδφ = .5 * F * (sin2φ * cosλ_2 + E * sin2λ_2 * cosφ) + .5, denominator = δxδφ * δyδλ - δyδφ * δxδλ, δλ = (fy * δxδφ - fx * δyδφ) / denominator, δφ = (fx * δyδλ - fy * δxδλ) / denominator;
λ -= δλ, φ -= δφ;
} while ((Math.abs(δλ) > ε || Math.abs(δφ) > ε) && --i > 0);
return [ λ, φ ];
};
(d3.geo.winkel3 = function() {
return projection(winkel3);
}).raw = winkel3;
}
module.exports = addProjectionsToD3;
},{}],777:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Lib = _dereq_('../../lib');
var radians = Math.PI / 180;
var degrees = 180 / Math.PI;
var zoomstartStyle = {cursor: 'pointer'};
var zoomendStyle = {cursor: 'auto'};
function createGeoZoom(geo, geoLayout) {
var projection = geo.projection;
var zoomConstructor;
if(geoLayout._isScoped) {
zoomConstructor = zoomScoped;
} else if(geoLayout._isClipped) {
zoomConstructor = zoomClipped;
} else {
zoomConstructor = zoomNonClipped;
}
// TODO add a conic-specific zoom
return zoomConstructor(geo, projection);
}
module.exports = createGeoZoom;
// common to all zoom types
function initZoom(geo, projection) {
return d3.behavior.zoom()
.translate(projection.translate())
.scale(projection.scale());
}
// sync zoom updates with user & full layout
function sync(geo, projection, cb) {
var id = geo.id;
var gd = geo.graphDiv;
var userOpts = gd.layout[id];
var fullOpts = gd._fullLayout[id];
var eventData = {};
function set(propStr, val) {
var fullNp = Lib.nestedProperty(fullOpts, propStr);
if(fullNp.get() !== val) {
fullNp.set(val);
Lib.nestedProperty(userOpts, propStr).set(val);
eventData[id + '.' + propStr] = val;
}
}
cb(set);
set('projection.scale', projection.scale() / geo.fitScale);
gd.emit('plotly_relayout', eventData);
}
// zoom for scoped projections
function zoomScoped(geo, projection) {
var zoom = initZoom(geo, projection);
function handleZoomstart() {
d3.select(this).style(zoomstartStyle);
}
function handleZoom() {
projection
.scale(d3.event.scale)
.translate(d3.event.translate);
geo.render();
}
function syncCb(set) {
var center = projection.invert(geo.midPt);
set('center.lon', center[0]);
set('center.lat', center[1]);
}
function handleZoomend() {
d3.select(this).style(zoomendStyle);
sync(geo, projection, syncCb);
}
zoom
.on('zoomstart', handleZoomstart)
.on('zoom', handleZoom)
.on('zoomend', handleZoomend);
return zoom;
}
// zoom for non-clipped projections
function zoomNonClipped(geo, projection) {
var zoom = initZoom(geo, projection);
var INSIDETOLORANCEPXS = 2;
var mouse0, rotate0, translate0, lastRotate, zoomPoint,
mouse1, rotate1, point1, didZoom;
function position(x) { return projection.invert(x); }
function outside(x) {
var pos = position(x);
if(!pos) return true;
var pt = projection(pos);
return (
Math.abs(pt[0] - x[0]) > INSIDETOLORANCEPXS ||
Math.abs(pt[1] - x[1]) > INSIDETOLORANCEPXS
);
}
function handleZoomstart() {
d3.select(this).style(zoomstartStyle);
mouse0 = d3.mouse(this);
rotate0 = projection.rotate();
translate0 = projection.translate();
lastRotate = rotate0;
zoomPoint = position(mouse0);
}
function handleZoom() {
mouse1 = d3.mouse(this);
if(outside(mouse0)) {
zoom.scale(projection.scale());
zoom.translate(projection.translate());
return;
}
projection.scale(d3.event.scale);
projection.translate([translate0[0], d3.event.translate[1]]);
if(!zoomPoint) {
mouse0 = mouse1;
zoomPoint = position(mouse0);
}
else if(position(mouse1)) {
point1 = position(mouse1);
rotate1 = [lastRotate[0] + (point1[0] - zoomPoint[0]), rotate0[1], rotate0[2]];
projection.rotate(rotate1);
lastRotate = rotate1;
}
didZoom = true;
geo.render();
}
function handleZoomend() {
d3.select(this).style(zoomendStyle);
if(didZoom) sync(geo, projection, syncCb);
}
function syncCb(set) {
var rotate = projection.rotate();
var center = projection.invert(geo.midPt);
set('projection.rotation.lon', -rotate[0]);
set('center.lon', center[0]);
set('center.lat', center[1]);
}
zoom
.on('zoomstart', handleZoomstart)
.on('zoom', handleZoom)
.on('zoomend', handleZoomend);
return zoom;
}
// zoom for clipped projections
// inspired by https://www.jasondavies.com/maps/d3.geo.zoom.js
function zoomClipped(geo, projection) {
var view = {r: projection.rotate(), k: projection.scale()},
zoom = initZoom(geo, projection),
event = d3_eventDispatch(zoom, 'zoomstart', 'zoom', 'zoomend'),
zooming = 0,
zoomOn = zoom.on;
var zoomPoint;
zoom.on('zoomstart', function() {
d3.select(this).style(zoomstartStyle);
var mouse0 = d3.mouse(this),
rotate0 = projection.rotate(),
lastRotate = rotate0,
translate0 = projection.translate(),
q = quaternionFromEuler(rotate0);
zoomPoint = position(projection, mouse0);
zoomOn.call(zoom, 'zoom', function() {
var mouse1 = d3.mouse(this);
projection.scale(view.k = d3.event.scale);
if(!zoomPoint) {
// if no zoomPoint, the mouse wasn't over the actual geography yet
// maybe this point is the start... we'll find out next time!
mouse0 = mouse1;
zoomPoint = position(projection, mouse0);
}
// check if the point is on the map
// if not, don't do anything new but scale
// if it is, then we can assume between will exist below
// so we don't need the 'bank' function, whatever that is.
else if(position(projection, mouse1)) {
// go back to original projection temporarily
// except for scale... that's kind of independent?
projection
.rotate(rotate0)
.translate(translate0);
// calculate the new params
var point1 = position(projection, mouse1),
between = rotateBetween(zoomPoint, point1),
newEuler = eulerFromQuaternion(multiply(q, between)),
rotateAngles = view.r = unRoll(newEuler, zoomPoint, lastRotate);
if(!isFinite(rotateAngles[0]) || !isFinite(rotateAngles[1]) ||
!isFinite(rotateAngles[2])) {
rotateAngles = lastRotate;
}
// update the projection
projection.rotate(rotateAngles);
lastRotate = rotateAngles;
}
zoomed(event.of(this, arguments));
});
zoomstarted(event.of(this, arguments));
})
.on('zoomend', function() {
d3.select(this).style(zoomendStyle);
zoomOn.call(zoom, 'zoom', null);
zoomended(event.of(this, arguments));
sync(geo, projection, syncCb);
})
.on('zoom.redraw', function() {
geo.render();
});
function zoomstarted(dispatch) {
if(!zooming++) dispatch({type: 'zoomstart'});
}
function zoomed(dispatch) {
dispatch({type: 'zoom'});
}
function zoomended(dispatch) {
if(!--zooming) dispatch({type: 'zoomend'});
}
function syncCb(set) {
var _rotate = projection.rotate();
set('projection.rotation.lon', -_rotate[0]);
set('projection.rotation.lat', -_rotate[1]);
}
return d3.rebind(zoom, event, 'on');
}
// -- helper functions for zoomClipped
function position(projection, point) {
var spherical = projection.invert(point);
return spherical && isFinite(spherical[0]) && isFinite(spherical[1]) && cartesian(spherical);
}
function quaternionFromEuler(euler) {
var lambda = 0.5 * euler[0] * radians,
phi = 0.5 * euler[1] * radians,
gamma = 0.5 * euler[2] * radians,
sinLambda = Math.sin(lambda), cosLambda = Math.cos(lambda),
sinPhi = Math.sin(phi), cosPhi = Math.cos(phi),
sinGamma = Math.sin(gamma), cosGamma = Math.cos(gamma);
return [
cosLambda * cosPhi * cosGamma + sinLambda * sinPhi * sinGamma,
sinLambda * cosPhi * cosGamma - cosLambda * sinPhi * sinGamma,
cosLambda * sinPhi * cosGamma + sinLambda * cosPhi * sinGamma,
cosLambda * cosPhi * sinGamma - sinLambda * sinPhi * cosGamma
];
}
function multiply(a, b) {
var a0 = a[0], a1 = a[1], a2 = a[2], a3 = a[3],
b0 = b[0], b1 = b[1], b2 = b[2], b3 = b[3];
return [
a0 * b0 - a1 * b1 - a2 * b2 - a3 * b3,
a0 * b1 + a1 * b0 + a2 * b3 - a3 * b2,
a0 * b2 - a1 * b3 + a2 * b0 + a3 * b1,
a0 * b3 + a1 * b2 - a2 * b1 + a3 * b0
];
}
function rotateBetween(a, b) {
if(!a || !b) return;
var axis = cross(a, b),
norm = Math.sqrt(dot(axis, axis)),
halfgamma = 0.5 * Math.acos(Math.max(-1, Math.min(1, dot(a, b)))),
k = Math.sin(halfgamma) / norm;
return norm && [Math.cos(halfgamma), axis[2] * k, -axis[1] * k, axis[0] * k];
}
// input:
// rotateAngles: a calculated set of Euler angles
// pt: a point (cartesian in 3-space) to keep fixed
// roll0: an initial roll, to be preserved
// output:
// a set of Euler angles that preserve the projection of pt
// but set roll (output[2]) equal to roll0
// note that this doesn't depend on the particular projection,
// just on the rotation angles
function unRoll(rotateAngles, pt, lastRotate) {
// calculate the fixed point transformed by these Euler angles
// but with the desired roll undone
var ptRotated = rotateCartesian(pt, 2, rotateAngles[0]);
ptRotated = rotateCartesian(ptRotated, 1, rotateAngles[1]);
ptRotated = rotateCartesian(ptRotated, 0, rotateAngles[2] - lastRotate[2]);
var x = pt[0],
y = pt[1],
z = pt[2],
f = ptRotated[0],
g = ptRotated[1],
h = ptRotated[2],
// the following essentially solves:
// ptRotated = rotateCartesian(rotateCartesian(pt, 2, newYaw), 1, newPitch)
// for newYaw and newPitch, as best it can
theta = Math.atan2(y, x) * degrees,
a = Math.sqrt(x * x + y * y),
b,
newYaw1;
if(Math.abs(g) > a) {
newYaw1 = (g > 0 ? 90 : -90) - theta;
b = 0;
} else {
newYaw1 = Math.asin(g / a) * degrees - theta;
b = Math.sqrt(a * a - g * g);
}
var newYaw2 = 180 - newYaw1 - 2 * theta,
newPitch1 = (Math.atan2(h, f) - Math.atan2(z, b)) * degrees,
newPitch2 = (Math.atan2(h, f) - Math.atan2(z, -b)) * degrees;
// which is closest to lastRotate[0,1]: newYaw/Pitch or newYaw2/Pitch2?
var dist1 = angleDistance(lastRotate[0], lastRotate[1], newYaw1, newPitch1),
dist2 = angleDistance(lastRotate[0], lastRotate[1], newYaw2, newPitch2);
if(dist1 <= dist2) return [newYaw1, newPitch1, lastRotate[2]];
else return [newYaw2, newPitch2, lastRotate[2]];
}
function angleDistance(yaw0, pitch0, yaw1, pitch1) {
var dYaw = angleMod(yaw1 - yaw0),
dPitch = angleMod(pitch1 - pitch0);
return Math.sqrt(dYaw * dYaw + dPitch * dPitch);
}
// reduce an angle in degrees to [-180,180]
function angleMod(angle) {
return (angle % 360 + 540) % 360 - 180;
}
// rotate a cartesian vector
// axis is 0 (x), 1 (y), or 2 (z)
// angle is in degrees
function rotateCartesian(vector, axis, angle) {
var angleRads = angle * radians,
vectorOut = vector.slice(),
ax1 = (axis === 0) ? 1 : 0,
ax2 = (axis === 2) ? 1 : 2,
cosa = Math.cos(angleRads),
sina = Math.sin(angleRads);
vectorOut[ax1] = vector[ax1] * cosa - vector[ax2] * sina;
vectorOut[ax2] = vector[ax2] * cosa + vector[ax1] * sina;
return vectorOut;
}
function eulerFromQuaternion(q) {
return [
Math.atan2(2 * (q[0] * q[1] + q[2] * q[3]), 1 - 2 * (q[1] * q[1] + q[2] * q[2])) * degrees,
Math.asin(Math.max(-1, Math.min(1, 2 * (q[0] * q[2] - q[3] * q[1])))) * degrees,
Math.atan2(2 * (q[0] * q[3] + q[1] * q[2]), 1 - 2 * (q[2] * q[2] + q[3] * q[3])) * degrees
];
}
function cartesian(spherical) {
var lambda = spherical[0] * radians,
phi = spherical[1] * radians,
cosPhi = Math.cos(phi);
return [
cosPhi * Math.cos(lambda),
cosPhi * Math.sin(lambda),
Math.sin(phi)
];
}
function dot(a, b) {
var s = 0;
for(var i = 0, n = a.length; i < n; ++i) s += a[i] * b[i];
return s;
}
function cross(a, b) {
return [
a[1] * b[2] - a[2] * b[1],
a[2] * b[0] - a[0] * b[2],
a[0] * b[1] - a[1] * b[0]
];
}
// Like d3.dispatch, but for custom events abstracting native UI events. These
// events have a target component (such as a brush), a target element (such as
// the svg:g element containing the brush) and the standard arguments `d` (the
// target element's data) and `i` (the selection index of the target element).
function d3_eventDispatch(target) {
var i = 0,
n = arguments.length,
argumentz = [];
while(++i < n) argumentz.push(arguments[i]);
var dispatch = d3.dispatch.apply(null, argumentz);
// Creates a dispatch context for the specified `thiz` (typically, the target
// DOM element that received the source event) and `argumentz` (typically, the
// data `d` and index `i` of the target element). The returned function can be
// used to dispatch an event to any registered listeners; the function takes a
// single argument as input, being the event to dispatch. The event must have
// a "type" attribute which corresponds to a type registered in the
// constructor. This context will automatically populate the "sourceEvent" and
// "target" attributes of the event, as well as setting the `d3.event` global
// for the duration of the notification.
dispatch.of = function(thiz, argumentz) {
return function(e1) {
var e0;
try {
e0 = e1.sourceEvent = d3.event;
e1.target = target;
d3.event = e1;
dispatch[e1.type].apply(thiz, argumentz);
} finally {
d3.event = e0;
}
};
};
return dispatch;
}
},{"../../lib":693,"d3":147}],778:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../registry');
var SUBPLOT_PATTERN = _dereq_('./cartesian/constants').SUBPLOT_PATTERN;
/**
* Get calcdata trace(s) associated with a given subplot
*
* @param {array} calcData: as in gd.calcdata
* @param {string} type: subplot type
* @param {string} subplotId: subplot id to look for
*
* @return {array} array of calcdata traces
*/
exports.getSubplotCalcData = function(calcData, type, subplotId) {
var basePlotModule = Registry.subplotsRegistry[type];
if(!basePlotModule) return [];
var attr = basePlotModule.attr;
var subplotCalcData = [];
for(var i = 0; i < calcData.length; i++) {
var calcTrace = calcData[i];
var trace = calcTrace[0].trace;
if(trace[attr] === subplotId) subplotCalcData.push(calcTrace);
}
return subplotCalcData;
};
/**
* Get calcdata trace(s) that can be plotted with a given module
* NOTE: this isn't necessarily just exactly matching trace type,
* if multiple trace types use the same plotting routine, they will be
* collected here.
* In order to not plot the same thing multiple times, we return two arrays,
* the calcdata we *will* plot with this module, and the ones we *won't*
*
* @param {array} calcdata: as in gd.calcdata
* @param {object|string|fn} arg1:
* the plotting module, or its name, or its plot method
*
* @return {array[array]} [foundCalcdata, remainingCalcdata]
*/
exports.getModuleCalcData = function(calcdata, arg1) {
var moduleCalcData = [];
var remainingCalcData = [];
var plotMethod;
if(typeof arg1 === 'string') {
plotMethod = Registry.getModule(arg1).plot;
} else if(typeof arg1 === 'function') {
plotMethod = arg1;
} else {
plotMethod = arg1.plot;
}
if(!plotMethod) {
return [moduleCalcData, calcdata];
}
for(var i = 0; i < calcdata.length; i++) {
var cd = calcdata[i];
var trace = cd[0].trace;
// N.B. 'legendonly' traces do not make it past here
if(trace.visible !== true) continue;
// group calcdata trace not by 'module' (as the name of this function
// would suggest), but by 'module plot method' so that if some traces
// share the same module plot method (e.g. bar and histogram), we
// only call it one!
if(trace._module.plot === plotMethod) {
moduleCalcData.push(cd);
} else {
remainingCalcData.push(cd);
}
}
return [moduleCalcData, remainingCalcData];
};
/**
* Get the data trace(s) associated with a given subplot.
*
* @param {array} data plotly full data array.
* @param {string} type subplot type to look for.
* @param {string} subplotId subplot id to look for.
*
* @return {array} list of trace objects.
*
*/
exports.getSubplotData = function getSubplotData(data, type, subplotId) {
if(!Registry.subplotsRegistry[type]) return [];
var attr = Registry.subplotsRegistry[type].attr;
var subplotData = [];
var trace, subplotX, subplotY;
if(type === 'gl2d') {
var spmatch = subplotId.match(SUBPLOT_PATTERN);
subplotX = 'x' + spmatch[1];
subplotY = 'y' + spmatch[2];
}
for(var i = 0; i < data.length; i++) {
trace = data[i];
if(type === 'gl2d' && Registry.traceIs(trace, 'gl2d')) {
if(trace[attr[0]] === subplotX && trace[attr[1]] === subplotY) {
subplotData.push(trace);
}
}
else {
if(trace[attr] === subplotId) subplotData.push(trace);
}
}
return subplotData;
};
},{"../registry":825,"./cartesian/constants":747}],779:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var mouseChange = _dereq_('mouse-change');
var mouseWheel = _dereq_('mouse-wheel');
var mouseOffset = _dereq_('mouse-event-offset');
var cartesianConstants = _dereq_('../cartesian/constants');
var hasPassive = _dereq_('has-passive-events');
module.exports = createCamera;
function Camera2D(element, plot) {
this.element = element;
this.plot = plot;
this.mouseListener = null;
this.wheelListener = null;
this.lastInputTime = Date.now();
this.lastPos = [0, 0];
this.boxEnabled = false;
this.boxInited = false;
this.boxStart = [0, 0];
this.boxEnd = [0, 0];
this.dragStart = [0, 0];
}
function createCamera(scene) {
var element = scene.mouseContainer,
plot = scene.glplot,
result = new Camera2D(element, plot);
function unSetAutoRange() {
scene.xaxis.autorange = false;
scene.yaxis.autorange = false;
}
function getSubplotConstraint() {
// note: this assumes we only have one x and one y axis on this subplot
// when this constraint is lifted this block won't make sense
var constraints = scene.graphDiv._fullLayout._axisConstraintGroups;
var xaId = scene.xaxis._id;
var yaId = scene.yaxis._id;
for(var i = 0; i < constraints.length; i++) {
if(constraints[i][xaId] !== -1) {
if(constraints[i][yaId] !== -1) return true;
break;
}
}
return false;
}
result.mouseListener = mouseChange(element, handleInteraction);
// enable simple touch interactions
element.addEventListener('touchstart', function(ev) {
var xy = mouseOffset(ev.changedTouches[0], element);
handleInteraction(0, xy[0], xy[1]);
handleInteraction(1, xy[0], xy[1]);
ev.preventDefault();
}, hasPassive ? {passive: false} : false);
element.addEventListener('touchmove', function(ev) {
ev.preventDefault();
var xy = mouseOffset(ev.changedTouches[0], element);
handleInteraction(1, xy[0], xy[1]);
ev.preventDefault();
}, hasPassive ? {passive: false} : false);
element.addEventListener('touchend', function(ev) {
handleInteraction(0, result.lastPos[0], result.lastPos[1]);
ev.preventDefault();
}, hasPassive ? {passive: false} : false);
function handleInteraction(buttons, x, y) {
var dataBox = scene.calcDataBox(),
viewBox = plot.viewBox;
var lastX = result.lastPos[0],
lastY = result.lastPos[1];
var MINDRAG = cartesianConstants.MINDRAG * plot.pixelRatio;
var MINZOOM = cartesianConstants.MINZOOM * plot.pixelRatio;
var dx, dy;
x *= plot.pixelRatio;
y *= plot.pixelRatio;
// mouseChange gives y about top; convert to about bottom
y = (viewBox[3] - viewBox[1]) - y;
function updateRange(i0, start, end) {
var range0 = Math.min(start, end),
range1 = Math.max(start, end);
if(range0 !== range1) {
dataBox[i0] = range0;
dataBox[i0 + 2] = range1;
result.dataBox = dataBox;
scene.setRanges(dataBox);
}
else {
scene.selectBox.selectBox = [0, 0, 1, 1];
scene.glplot.setDirty();
}
}
switch(scene.fullLayout.dragmode) {
case 'zoom':
if(buttons) {
var dataX = x /
(viewBox[2] - viewBox[0]) * (dataBox[2] - dataBox[0]) +
dataBox[0];
var dataY = y /
(viewBox[3] - viewBox[1]) * (dataBox[3] - dataBox[1]) +
dataBox[1];
if(!result.boxInited) {
result.boxStart[0] = dataX;
result.boxStart[1] = dataY;
result.dragStart[0] = x;
result.dragStart[1] = y;
}
result.boxEnd[0] = dataX;
result.boxEnd[1] = dataY;
// we need to mark the box as initialized right away
// so that we can tell the start and end points apart
result.boxInited = true;
// but don't actually enable the box until the cursor moves
if(!result.boxEnabled && (
result.boxStart[0] !== result.boxEnd[0] ||
result.boxStart[1] !== result.boxEnd[1])
) {
result.boxEnabled = true;
}
// constrain aspect ratio if the axes require it
var smallDx = Math.abs(result.dragStart[0] - x) < MINZOOM;
var smallDy = Math.abs(result.dragStart[1] - y) < MINZOOM;
if(getSubplotConstraint() && !(smallDx && smallDy)) {
dx = result.boxEnd[0] - result.boxStart[0];
dy = result.boxEnd[1] - result.boxStart[1];
var dydx = (dataBox[3] - dataBox[1]) / (dataBox[2] - dataBox[0]);
if(Math.abs(dx * dydx) > Math.abs(dy)) {
result.boxEnd[1] = result.boxStart[1] +
Math.abs(dx) * dydx * (dy >= 0 ? 1 : -1);
// gl-select-box clips to the plot area bounds,
// which breaks the axis constraint, so don't allow
// this box to go out of bounds
if(result.boxEnd[1] < dataBox[1]) {
result.boxEnd[1] = dataBox[1];
result.boxEnd[0] = result.boxStart[0] +
(dataBox[1] - result.boxStart[1]) / Math.abs(dydx);
}
else if(result.boxEnd[1] > dataBox[3]) {
result.boxEnd[1] = dataBox[3];
result.boxEnd[0] = result.boxStart[0] +
(dataBox[3] - result.boxStart[1]) / Math.abs(dydx);
}
}
else {
result.boxEnd[0] = result.boxStart[0] +
Math.abs(dy) / dydx * (dx >= 0 ? 1 : -1);
if(result.boxEnd[0] < dataBox[0]) {
result.boxEnd[0] = dataBox[0];
result.boxEnd[1] = result.boxStart[1] +
(dataBox[0] - result.boxStart[0]) * Math.abs(dydx);
}
else if(result.boxEnd[0] > dataBox[2]) {
result.boxEnd[0] = dataBox[2];
result.boxEnd[1] = result.boxStart[1] +
(dataBox[2] - result.boxStart[0]) * Math.abs(dydx);
}
}
}
// otherwise clamp small changes to the origin so we get 1D zoom
else {
if(smallDx) result.boxEnd[0] = result.boxStart[0];
if(smallDy) result.boxEnd[1] = result.boxStart[1];
}
}
else if(result.boxEnabled) {
dx = result.boxStart[0] !== result.boxEnd[0];
dy = result.boxStart[1] !== result.boxEnd[1];
if(dx || dy) {
if(dx) {
updateRange(0, result.boxStart[0], result.boxEnd[0]);
scene.xaxis.autorange = false;
}
if(dy) {
updateRange(1, result.boxStart[1], result.boxEnd[1]);
scene.yaxis.autorange = false;
}
scene.relayoutCallback();
}
else {
scene.glplot.setDirty();
}
result.boxEnabled = false;
result.boxInited = false;
}
// if box was inited but button released then - reset the box
else if(result.boxInited) {
result.boxInited = false;
}
break;
case 'pan':
result.boxEnabled = false;
result.boxInited = false;
if(buttons) {
if(!result.panning) {
result.dragStart[0] = x;
result.dragStart[1] = y;
}
if(Math.abs(result.dragStart[0] - x) < MINDRAG) x = result.dragStart[0];
if(Math.abs(result.dragStart[1] - y) < MINDRAG) y = result.dragStart[1];
dx = (lastX - x) * (dataBox[2] - dataBox[0]) /
(plot.viewBox[2] - plot.viewBox[0]);
dy = (lastY - y) * (dataBox[3] - dataBox[1]) /
(plot.viewBox[3] - plot.viewBox[1]);
dataBox[0] += dx;
dataBox[2] += dx;
dataBox[1] += dy;
dataBox[3] += dy;
scene.setRanges(dataBox);
result.panning = true;
result.lastInputTime = Date.now();
unSetAutoRange();
scene.cameraChanged();
scene.handleAnnotations();
}
else if(result.panning) {
result.panning = false;
scene.relayoutCallback();
}
break;
}
result.lastPos[0] = x;
result.lastPos[1] = y;
}
result.wheelListener = mouseWheel(element, function(dx, dy) {
if(!scene.scrollZoom) return false;
var dataBox = scene.calcDataBox(),
viewBox = plot.viewBox;
var lastX = result.lastPos[0],
lastY = result.lastPos[1];
var scale = Math.exp(5.0 * dy / (viewBox[3] - viewBox[1]));
var cx = lastX /
(viewBox[2] - viewBox[0]) * (dataBox[2] - dataBox[0]) +
dataBox[0];
var cy = lastY /
(viewBox[3] - viewBox[1]) * (dataBox[3] - dataBox[1]) +
dataBox[1];
dataBox[0] = (dataBox[0] - cx) * scale + cx;
dataBox[2] = (dataBox[2] - cx) * scale + cx;
dataBox[1] = (dataBox[1] - cy) * scale + cy;
dataBox[3] = (dataBox[3] - cy) * scale + cy;
scene.setRanges(dataBox);
result.lastInputTime = Date.now();
unSetAutoRange();
scene.cameraChanged();
scene.handleAnnotations();
scene.relayoutCallback();
return true;
}, true);
return result;
}
},{"../cartesian/constants":747,"has-passive-events":392,"mouse-change":415,"mouse-event-offset":416,"mouse-wheel":418}],780:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Axes = _dereq_('../cartesian/axes');
var convertHTMLToUnicode = _dereq_('../../lib/html2unicode');
var str2RGBArray = _dereq_('../../lib/str2rgbarray');
function Axes2DOptions(scene) {
this.scene = scene;
this.gl = scene.gl;
this.pixelRatio = scene.pixelRatio;
this.screenBox = [0, 0, 1, 1];
this.viewBox = [0, 0, 1, 1];
this.dataBox = [-1, -1, 1, 1];
this.borderLineEnable = [false, false, false, false];
this.borderLineWidth = [1, 1, 1, 1];
this.borderLineColor = [
[0, 0, 0, 1],
[0, 0, 0, 1],
[0, 0, 0, 1],
[0, 0, 0, 1]
];
this.ticks = [[], []];
this.tickEnable = [true, true, false, false];
this.tickPad = [15, 15, 15, 15];
this.tickAngle = [0, 0, 0, 0];
this.tickColor = [
[0, 0, 0, 1],
[0, 0, 0, 1],
[0, 0, 0, 1],
[0, 0, 0, 1]
];
this.tickMarkLength = [0, 0, 0, 0];
this.tickMarkWidth = [0, 0, 0, 0];
this.tickMarkColor = [
[0, 0, 0, 1],
[0, 0, 0, 1],
[0, 0, 0, 1],
[0, 0, 0, 1]
];
this.labels = ['x', 'y'];
this.labelEnable = [true, true, false, false];
this.labelAngle = [0, Math.PI / 2, 0, 3.0 * Math.PI / 2];
this.labelPad = [15, 15, 15, 15];
this.labelSize = [12, 12];
this.labelFont = ['sans-serif', 'sans-serif'];
this.labelColor = [
[0, 0, 0, 1],
[0, 0, 0, 1],
[0, 0, 0, 1],
[0, 0, 0, 1]
];
this.title = '';
this.titleEnable = true;
this.titleCenter = [0, 0, 0, 0];
this.titleAngle = 0;
this.titleColor = [0, 0, 0, 1];
this.titleFont = 'sans-serif';
this.titleSize = 18;
this.gridLineEnable = [true, true];
this.gridLineColor = [
[0, 0, 0, 0.5],
[0, 0, 0, 0.5]
];
this.gridLineWidth = [1, 1];
this.zeroLineEnable = [true, true];
this.zeroLineWidth = [1, 1];
this.zeroLineColor = [
[0, 0, 0, 1],
[0, 0, 0, 1]
];
this.borderColor = false;
this.backgroundColor = [0, 0, 0, 0];
this.static = this.scene.staticPlot;
}
var proto = Axes2DOptions.prototype;
var AXES = ['xaxis', 'yaxis'];
proto.merge = function(options) {
// titles are rendered in SVG
this.titleEnable = false;
this.backgroundColor = str2RGBArray(options.plot_bgcolor);
var axisName, ax, axTitle, axMirror;
var hasAxisInDfltPos, hasAxisInAltrPos, hasSharedAxis, mirrorLines, mirrorTicks;
var i, j;
for(i = 0; i < 2; ++i) {
axisName = AXES[i];
var axisLetter = axisName.charAt(0);
// get options relevant to this subplot,
// '_name' is e.g. xaxis, xaxis2, yaxis, yaxis4 ...
ax = options[this.scene[axisName]._name];
axTitle = ax.title === this.scene.fullLayout._dfltTitle[axisLetter] ? '' : ax.title;
for(j = 0; j <= 2; j += 2) {
this.labelEnable[i + j] = false;
this.labels[i + j] = convertHTMLToUnicode(axTitle);
this.labelColor[i + j] = str2RGBArray(ax.titlefont.color);
this.labelFont[i + j] = ax.titlefont.family;
this.labelSize[i + j] = ax.titlefont.size;
this.labelPad[i + j] = this.getLabelPad(axisName, ax);
this.tickEnable[i + j] = false;
this.tickColor[i + j] = str2RGBArray((ax.tickfont || {}).color);
this.tickAngle[i + j] = (ax.tickangle === 'auto') ?
0 :
Math.PI * -ax.tickangle / 180;
this.tickPad[i + j] = this.getTickPad(ax);
this.tickMarkLength[i + j] = 0;
this.tickMarkWidth[i + j] = ax.tickwidth || 0;
this.tickMarkColor[i + j] = str2RGBArray(ax.tickcolor);
this.borderLineEnable[i + j] = false;
this.borderLineColor[i + j] = str2RGBArray(ax.linecolor);
this.borderLineWidth[i + j] = ax.linewidth || 0;
}
hasSharedAxis = this.hasSharedAxis(ax);
hasAxisInDfltPos = this.hasAxisInDfltPos(axisName, ax) && !hasSharedAxis;
hasAxisInAltrPos = this.hasAxisInAltrPos(axisName, ax) && !hasSharedAxis;
axMirror = ax.mirror || false;
mirrorLines = hasSharedAxis ?
(String(axMirror).indexOf('all') !== -1) : // 'all' or 'allticks'
!!axMirror; // all but false
mirrorTicks = hasSharedAxis ?
(axMirror === 'allticks') :
(String(axMirror).indexOf('ticks') !== -1); // 'ticks' or 'allticks'
// Axis titles and tick labels can only appear of one side of the scene
// and are never show on subplots that share existing axes.
if(hasAxisInDfltPos) this.labelEnable[i] = true;
else if(hasAxisInAltrPos) this.labelEnable[i + 2] = true;
if(hasAxisInDfltPos) this.tickEnable[i] = ax.showticklabels;
else if(hasAxisInAltrPos) this.tickEnable[i + 2] = ax.showticklabels;
// Grid lines and ticks can appear on both sides of the scene
// and can appear on subplot that share existing axes via `ax.mirror`.
if(hasAxisInDfltPos || mirrorLines) this.borderLineEnable[i] = ax.showline;
if(hasAxisInAltrPos || mirrorLines) this.borderLineEnable[i + 2] = ax.showline;
if(hasAxisInDfltPos || mirrorTicks) this.tickMarkLength[i] = this.getTickMarkLength(ax);
if(hasAxisInAltrPos || mirrorTicks) this.tickMarkLength[i + 2] = this.getTickMarkLength(ax);
this.gridLineEnable[i] = ax.showgrid;
this.gridLineColor[i] = str2RGBArray(ax.gridcolor);
this.gridLineWidth[i] = ax.gridwidth;
this.zeroLineEnable[i] = ax.zeroline;
this.zeroLineColor[i] = str2RGBArray(ax.zerolinecolor);
this.zeroLineWidth[i] = ax.zerolinewidth;
}
};
// is an axis shared with an already-drawn subplot ?
proto.hasSharedAxis = function(ax) {
var scene = this.scene;
var subplotIds = scene.fullLayout._subplots.gl2d;
var list = Axes.findSubplotsWithAxis(subplotIds, ax);
// if index === 0, then the subplot is already drawn as subplots
// are drawn in order.
return (list.indexOf(scene.id) !== 0);
};
// has an axis in default position (i.e. bottom/left) ?
proto.hasAxisInDfltPos = function(axisName, ax) {
var axSide = ax.side;
if(axisName === 'xaxis') return (axSide === 'bottom');
else if(axisName === 'yaxis') return (axSide === 'left');
};
// has an axis in alternate position (i.e. top/right) ?
proto.hasAxisInAltrPos = function(axisName, ax) {
var axSide = ax.side;
if(axisName === 'xaxis') return (axSide === 'top');
else if(axisName === 'yaxis') return (axSide === 'right');
};
proto.getLabelPad = function(axisName, ax) {
var offsetBase = 1.5,
fontSize = ax.titlefont.size,
showticklabels = ax.showticklabels;
if(axisName === 'xaxis') {
return (ax.side === 'top') ?
-10 + fontSize * (offsetBase + (showticklabels ? 1 : 0)) :
-10 + fontSize * (offsetBase + (showticklabels ? 0.5 : 0));
}
else if(axisName === 'yaxis') {
return (ax.side === 'right') ?
10 + fontSize * (offsetBase + (showticklabels ? 1 : 0.5)) :
10 + fontSize * (offsetBase + (showticklabels ? 0.5 : 0));
}
};
proto.getTickPad = function(ax) {
return (ax.ticks === 'outside') ? 10 + ax.ticklen : 15;
};
proto.getTickMarkLength = function(ax) {
if(!ax.ticks) return 0;
var ticklen = ax.ticklen;
return (ax.ticks === 'inside') ? -ticklen : ticklen;
};
function createAxes2D(scene) {
return new Axes2DOptions(scene);
}
module.exports = createAxes2D;
},{"../../lib/html2unicode":691,"../../lib/str2rgbarray":717,"../cartesian/axes":742}],781:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll;
var Scene2D = _dereq_('./scene2d');
var layoutGlobalAttrs = _dereq_('../layout_attributes');
var xmlnsNamespaces = _dereq_('../../constants/xmlns_namespaces');
var constants = _dereq_('../cartesian/constants');
var Cartesian = _dereq_('../cartesian');
var fxAttrs = _dereq_('../../components/fx/layout_attributes');
var getSubplotData = _dereq_('../get_data').getSubplotData;
exports.name = 'gl2d';
exports.attr = ['xaxis', 'yaxis'];
exports.idRoot = ['x', 'y'];
exports.idRegex = constants.idRegex;
exports.attrRegex = constants.attrRegex;
exports.attributes = _dereq_('../cartesian/attributes');
exports.supplyLayoutDefaults = function(layoutIn, layoutOut, fullData) {
if(!layoutOut._has('cartesian')) {
Cartesian.supplyLayoutDefaults(layoutIn, layoutOut, fullData);
}
};
// gl2d uses svg axis attributes verbatim, but overrides editType
// this could potentially be just `layoutAttributes` but it would
// still need special handling somewhere to give it precedence over
// the svg version when both are in use on one plot
exports.layoutAttrOverrides = overrideAll(Cartesian.layoutAttributes, 'plot', 'from-root');
// similar overrides for base plot attributes (and those added by components)
exports.baseLayoutAttrOverrides = overrideAll({
plot_bgcolor: layoutGlobalAttrs.plot_bgcolor,
hoverlabel: fxAttrs.hoverlabel
// dragmode needs calc but only when transitioning TO lasso or select
// so for now it's left inside _relayout
// dragmode: fxAttrs.dragmode
}, 'plot', 'nested');
exports.plot = function plotGl2d(gd) {
var fullLayout = gd._fullLayout;
var fullData = gd._fullData;
var subplotIds = fullLayout._subplots.gl2d;
for(var i = 0; i < subplotIds.length; i++) {
var subplotId = subplotIds[i],
subplotObj = fullLayout._plots[subplotId],
fullSubplotData = getSubplotData(fullData, 'gl2d', subplotId);
// ref. to corresp. Scene instance
var scene = subplotObj._scene2d;
// If Scene is not instantiated, create one!
if(scene === undefined) {
scene = new Scene2D({
id: subplotId,
graphDiv: gd,
container: gd.querySelector('.gl-container'),
staticPlot: gd._context.staticPlot,
plotGlPixelRatio: gd._context.plotGlPixelRatio
},
fullLayout
);
// set ref to Scene instance
subplotObj._scene2d = scene;
}
scene.plot(fullSubplotData, gd.calcdata, fullLayout, gd.layout);
}
};
exports.clean = function(newFullData, newFullLayout, oldFullData, oldFullLayout) {
var oldSceneKeys = oldFullLayout._subplots.gl2d || [];
for(var i = 0; i < oldSceneKeys.length; i++) {
var id = oldSceneKeys[i],
oldSubplot = oldFullLayout._plots[id];
// old subplot wasn't gl2d; nothing to do
if(!oldSubplot._scene2d) continue;
// if no traces are present, delete gl2d subplot
var subplotData = getSubplotData(newFullData, 'gl2d', id);
if(subplotData.length === 0) {
oldSubplot._scene2d.destroy();
delete oldFullLayout._plots[id];
}
}
// since we use cartesian interactions, do cartesian clean
Cartesian.clean.apply(this, arguments);
};
exports.drawFramework = function(gd) {
if(!gd._context.staticPlot) {
Cartesian.drawFramework(gd);
}
};
exports.toSVG = function(gd) {
var fullLayout = gd._fullLayout;
var subplotIds = fullLayout._subplots.gl2d;
for(var i = 0; i < subplotIds.length; i++) {
var subplot = fullLayout._plots[subplotIds[i]],
scene = subplot._scene2d;
var imageData = scene.toImage('png');
var image = fullLayout._glimages.append('svg:image');
image.attr({
xmlns: xmlnsNamespaces.svg,
'xlink:href': imageData,
x: 0,
y: 0,
width: '100%',
height: '100%',
preserveAspectRatio: 'none'
});
scene.destroy();
}
};
exports.updateFx = function(gd) {
var fullLayout = gd._fullLayout;
var subplotIds = fullLayout._subplots.gl2d;
for(var i = 0; i < subplotIds.length; i++) {
var subplotObj = fullLayout._plots[subplotIds[i]]._scene2d;
subplotObj.updateFx(fullLayout.dragmode);
}
};
},{"../../components/fx/layout_attributes":610,"../../constants/xmlns_namespaces":671,"../../plot_api/edit_types":725,"../cartesian":753,"../cartesian/attributes":740,"../cartesian/constants":747,"../get_data":778,"../layout_attributes":796,"./scene2d":782}],782:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
var Axes = _dereq_('../../plots/cartesian/axes');
var Fx = _dereq_('../../components/fx');
var createPlot2D = _dereq_('gl-plot2d');
var createSpikes = _dereq_('gl-spikes2d');
var createSelectBox = _dereq_('gl-select-box');
var getContext = _dereq_('webgl-context');
var createOptions = _dereq_('./convert');
var createCamera = _dereq_('./camera');
var convertHTMLToUnicode = _dereq_('../../lib/html2unicode');
var showNoWebGlMsg = _dereq_('../../lib/show_no_webgl_msg');
var axisConstraints = _dereq_('../cartesian/constraints');
var enforceAxisConstraints = axisConstraints.enforce;
var cleanAxisConstraints = axisConstraints.clean;
var doAutoRange = _dereq_('../cartesian/autorange').doAutoRange;
var AXES = ['xaxis', 'yaxis'];
var STATIC_CANVAS, STATIC_CONTEXT;
var SUBPLOT_PATTERN = _dereq_('../cartesian/constants').SUBPLOT_PATTERN;
function Scene2D(options, fullLayout) {
this.container = options.container;
this.graphDiv = options.graphDiv;
this.pixelRatio = options.plotGlPixelRatio || window.devicePixelRatio;
this.id = options.id;
this.staticPlot = !!options.staticPlot;
this.scrollZoom = this.graphDiv._context.scrollZoom;
this.fullData = null;
this.updateRefs(fullLayout);
this.makeFramework();
if(this.stopped) return;
// update options
this.glplotOptions = createOptions(this);
this.glplotOptions.merge(fullLayout);
// create the plot
this.glplot = createPlot2D(this.glplotOptions);
// create camera
this.camera = createCamera(this);
// trace set
this.traces = {};
// create axes spikes
this.spikes = createSpikes(this.glplot);
this.selectBox = createSelectBox(this.glplot, {
innerFill: false,
outerFill: true
});
// last button state
this.lastButtonState = 0;
// last pick result
this.pickResult = null;
// is the mouse over the plot?
// it's OK if this says true when it's not, so long as
// when we get a mouseout we set it to false before handling
this.isMouseOver = true;
// flag to stop render loop
this.stopped = false;
// redraw the plot
this.redraw = this.draw.bind(this);
this.redraw();
}
module.exports = Scene2D;
var proto = Scene2D.prototype;
proto.makeFramework = function() {
// create canvas and gl context
if(this.staticPlot) {
if(!STATIC_CONTEXT) {
STATIC_CANVAS = document.createElement('canvas');
STATIC_CONTEXT = getContext({
canvas: STATIC_CANVAS,
preserveDrawingBuffer: false,
premultipliedAlpha: true,
antialias: true
});
if(!STATIC_CONTEXT) {
throw new Error('Error creating static canvas/context for image server');
}
}
this.canvas = STATIC_CANVAS;
this.gl = STATIC_CONTEXT;
}
else {
var liveCanvas = this.container.querySelector('.gl-canvas-focus');
var gl = getContext({
canvas: liveCanvas,
preserveDrawingBuffer: true,
premultipliedAlpha: true
});
if(!gl) {
showNoWebGlMsg(this);
this.stopped = true;
return;
}
this.canvas = liveCanvas;
this.gl = gl;
}
// position the canvas
var canvas = this.canvas;
canvas.style.width = '100%';
canvas.style.height = '100%';
canvas.style.position = 'absolute';
canvas.style.top = '0px';
canvas.style.left = '0px';
canvas.style['pointer-events'] = 'none';
this.updateSize(canvas);
// disabling user select on the canvas
// sanitizes double-clicks interactions
// ref: https://github.com/plotly/plotly.js/issues/744
canvas.className += ' user-select-none';
// create SVG container for hover text
var svgContainer = this.svgContainer = document.createElementNS(
'http://www.w3.org/2000/svg',
'svg');
svgContainer.style.position = 'absolute';
svgContainer.style.top = svgContainer.style.left = '0px';
svgContainer.style.width = svgContainer.style.height = '100%';
svgContainer.style['z-index'] = 20;
svgContainer.style['pointer-events'] = 'none';
// create div to catch the mouse event
var mouseContainer = this.mouseContainer = document.createElement('div');
mouseContainer.style.position = 'absolute';
mouseContainer.style['pointer-events'] = 'auto';
this.pickCanvas = this.container.querySelector('.gl-canvas-pick');
// append canvas, hover svg and mouse div to container
var container = this.container;
container.appendChild(svgContainer);
container.appendChild(mouseContainer);
var self = this;
mouseContainer.addEventListener('mouseout', function() {
self.isMouseOver = false;
self.unhover();
});
mouseContainer.addEventListener('mouseover', function() {
self.isMouseOver = true;
});
};
proto.toImage = function(format) {
if(!format) format = 'png';
this.stopped = true;
if(this.staticPlot) this.container.appendChild(STATIC_CANVAS);
// update canvas size
this.updateSize(this.canvas);
// grab context and yank out pixels
var gl = this.glplot.gl,
w = gl.drawingBufferWidth,
h = gl.drawingBufferHeight;
// force redraw
gl.clearColor(1, 1, 1, 0);
gl.clear(gl.COLOR_BUFFER_BIT | gl.DEPTH_BUFFER_BIT);
this.glplot.setDirty();
this.glplot.draw();
gl.bindFramebuffer(gl.FRAMEBUFFER, null);
var pixels = new Uint8Array(w * h * 4);
gl.readPixels(0, 0, w, h, gl.RGBA, gl.UNSIGNED_BYTE, pixels);
// flip pixels
for(var j = 0, k = h - 1; j < k; ++j, --k) {
for(var i = 0; i < w; ++i) {
for(var l = 0; l < 4; ++l) {
var tmp = pixels[4 * (w * j + i) + l];
pixels[4 * (w * j + i) + l] = pixels[4 * (w * k + i) + l];
pixels[4 * (w * k + i) + l] = tmp;
}
}
}
var canvas = document.createElement('canvas');
canvas.width = w;
canvas.height = h;
var context = canvas.getContext('2d');
var imageData = context.createImageData(w, h);
imageData.data.set(pixels);
context.putImageData(imageData, 0, 0);
var dataURL;
switch(format) {
case 'jpeg':
dataURL = canvas.toDataURL('image/jpeg');
break;
case 'webp':
dataURL = canvas.toDataURL('image/webp');
break;
default:
dataURL = canvas.toDataURL('image/png');
}
if(this.staticPlot) this.container.removeChild(STATIC_CANVAS);
return dataURL;
};
proto.updateSize = function(canvas) {
if(!canvas) canvas = this.canvas;
var pixelRatio = this.pixelRatio,
fullLayout = this.fullLayout;
var width = fullLayout.width,
height = fullLayout.height,
pixelWidth = Math.ceil(pixelRatio * width) |0,
pixelHeight = Math.ceil(pixelRatio * height) |0;
// check for resize
if(canvas.width !== pixelWidth || canvas.height !== pixelHeight) {
canvas.width = pixelWidth;
canvas.height = pixelHeight;
}
return canvas;
};
proto.computeTickMarks = function() {
this.xaxis.setScale();
this.yaxis.setScale();
var nextTicks = [
Axes.calcTicks(this.xaxis),
Axes.calcTicks(this.yaxis)
];
for(var j = 0; j < 2; ++j) {
for(var i = 0; i < nextTicks[j].length; ++i) {
// coercing tick value (may not be a string) to a string
nextTicks[j][i].text = convertHTMLToUnicode(nextTicks[j][i].text + '');
}
}
return nextTicks;
};
function compareTicks(a, b) {
for(var i = 0; i < 2; ++i) {
var aticks = a[i],
bticks = b[i];
if(aticks.length !== bticks.length) return true;
for(var j = 0; j < aticks.length; ++j) {
if(aticks[j].x !== bticks[j].x) return true;
}
}
return false;
}
proto.updateRefs = function(newFullLayout) {
this.fullLayout = newFullLayout;
var spmatch = this.id.match(SUBPLOT_PATTERN);
var xaxisName = 'xaxis' + spmatch[1];
var yaxisName = 'yaxis' + spmatch[2];
this.xaxis = this.fullLayout[xaxisName];
this.yaxis = this.fullLayout[yaxisName];
};
proto.relayoutCallback = function() {
var graphDiv = this.graphDiv,
xaxis = this.xaxis,
yaxis = this.yaxis,
layout = graphDiv.layout;
// update user layout
layout.xaxis.autorange = xaxis.autorange;
layout.xaxis.range = xaxis.range.slice(0);
layout.yaxis.autorange = yaxis.autorange;
layout.yaxis.range = yaxis.range.slice(0);
// make a meaningful value to be passed on to the possible 'plotly_relayout' subscriber(s)
// scene.camera has no many useful projection or scale information
// helps determine which one is the latest input (if async)
var update = {
lastInputTime: this.camera.lastInputTime
};
update[xaxis._name] = xaxis.range.slice(0);
update[yaxis._name] = yaxis.range.slice(0);
graphDiv.emit('plotly_relayout', update);
};
proto.cameraChanged = function() {
var camera = this.camera;
this.glplot.setDataBox(this.calcDataBox());
var nextTicks = this.computeTickMarks();
var curTicks = this.glplotOptions.ticks;
if(compareTicks(nextTicks, curTicks)) {
this.glplotOptions.ticks = nextTicks;
this.glplotOptions.dataBox = camera.dataBox;
this.glplot.update(this.glplotOptions);
this.handleAnnotations();
}
};
proto.handleAnnotations = function() {
var gd = this.graphDiv,
annotations = this.fullLayout.annotations;
for(var i = 0; i < annotations.length; i++) {
var ann = annotations[i];
if(ann.xref === this.xaxis._id && ann.yref === this.yaxis._id) {
Registry.getComponentMethod('annotations', 'drawOne')(gd, i);
}
}
};
proto.destroy = function() {
if(!this.glplot) return;
var traces = this.traces;
if(traces) {
Object.keys(traces).map(function(key) {
traces[key].dispose();
delete traces[key];
});
}
this.glplot.dispose();
this.container.removeChild(this.svgContainer);
this.container.removeChild(this.mouseContainer);
this.fullData = null;
this.glplot = null;
this.stopped = true;
this.camera.mouseListener.enabled = false;
this.mouseContainer.removeEventListener('wheel', this.camera.wheelListener);
this.camera = null;
};
proto.plot = function(fullData, calcData, fullLayout) {
var glplot = this.glplot;
this.updateRefs(fullLayout);
this.xaxis.clearCalc();
this.yaxis.clearCalc();
this.updateTraces(fullData, calcData);
this.updateFx(fullLayout.dragmode);
var width = fullLayout.width,
height = fullLayout.height;
this.updateSize(this.canvas);
var options = this.glplotOptions;
options.merge(fullLayout);
options.screenBox = [0, 0, width, height];
var mockGraphDiv = {_fullLayout: {
_axisConstraintGroups: this.graphDiv._fullLayout._axisConstraintGroups,
xaxis: this.xaxis,
yaxis: this.yaxis
}};
cleanAxisConstraints(mockGraphDiv, this.xaxis);
cleanAxisConstraints(mockGraphDiv, this.yaxis);
var size = fullLayout._size,
domainX = this.xaxis.domain,
domainY = this.yaxis.domain;
options.viewBox = [
size.l + domainX[0] * size.w,
size.b + domainY[0] * size.h,
(width - size.r) - (1 - domainX[1]) * size.w,
(height - size.t) - (1 - domainY[1]) * size.h
];
this.mouseContainer.style.width = size.w * (domainX[1] - domainX[0]) + 'px';
this.mouseContainer.style.height = size.h * (domainY[1] - domainY[0]) + 'px';
this.mouseContainer.height = size.h * (domainY[1] - domainY[0]);
this.mouseContainer.style.left = size.l + domainX[0] * size.w + 'px';
this.mouseContainer.style.top = size.t + (1 - domainY[1]) * size.h + 'px';
var ax, i;
for(i = 0; i < 2; ++i) {
ax = this[AXES[i]];
ax._length = options.viewBox[i + 2] - options.viewBox[i];
doAutoRange(this.graphDiv, ax);
ax.setScale();
}
enforceAxisConstraints(mockGraphDiv);
options.ticks = this.computeTickMarks();
options.dataBox = this.calcDataBox();
options.merge(fullLayout);
glplot.update(options);
// force redraw so that promise is returned when rendering is completed
this.glplot.draw();
};
proto.calcDataBox = function() {
var xaxis = this.xaxis,
yaxis = this.yaxis,
xrange = xaxis.range,
yrange = yaxis.range,
xr2l = xaxis.r2l,
yr2l = yaxis.r2l;
return [xr2l(xrange[0]), yr2l(yrange[0]), xr2l(xrange[1]), yr2l(yrange[1])];
};
proto.setRanges = function(dataBox) {
var xaxis = this.xaxis,
yaxis = this.yaxis,
xl2r = xaxis.l2r,
yl2r = yaxis.l2r;
xaxis.range = [xl2r(dataBox[0]), xl2r(dataBox[2])];
yaxis.range = [yl2r(dataBox[1]), yl2r(dataBox[3])];
};
proto.updateTraces = function(fullData, calcData) {
var traceIds = Object.keys(this.traces);
var i, j, fullTrace;
this.fullData = fullData;
// remove empty traces
trace_id_loop:
for(i = 0; i < traceIds.length; i++) {
var oldUid = traceIds[i],
oldTrace = this.traces[oldUid];
for(j = 0; j < fullData.length; j++) {
fullTrace = fullData[j];
if(fullTrace.uid === oldUid && fullTrace.type === oldTrace.type) {
continue trace_id_loop;
}
}
oldTrace.dispose();
delete this.traces[oldUid];
}
// update / create trace objects
for(i = 0; i < fullData.length; i++) {
fullTrace = fullData[i];
var calcTrace = calcData[i],
traceObj = this.traces[fullTrace.uid];
if(traceObj) traceObj.update(fullTrace, calcTrace);
else {
traceObj = fullTrace._module.plot(this, fullTrace, calcTrace);
this.traces[fullTrace.uid] = traceObj;
}
}
// order object per traces
this.glplot.objects.sort(function(a, b) {
return a._trace.index - b._trace.index;
});
};
proto.updateFx = function(dragmode) {
// switch to svg interactions in lasso/select mode
if(dragmode === 'lasso' || dragmode === 'select') {
this.pickCanvas.style['pointer-events'] = 'none';
this.mouseContainer.style['pointer-events'] = 'none';
} else {
this.pickCanvas.style['pointer-events'] = 'auto';
this.mouseContainer.style['pointer-events'] = 'auto';
}
// set proper cursor
if(dragmode === 'pan') {
this.mouseContainer.style.cursor = 'move';
}
else if(dragmode === 'zoom') {
this.mouseContainer.style.cursor = 'crosshair';
}
else {
this.mouseContainer.style.cursor = null;
}
};
proto.emitPointAction = function(nextSelection, eventType) {
var uid = nextSelection.trace.uid;
var ptNumber = nextSelection.pointIndex;
var trace;
for(var i = 0; i < this.fullData.length; i++) {
if(this.fullData[i].uid === uid) {
trace = this.fullData[i];
}
}
var pointData = {
x: nextSelection.traceCoord[0],
y: nextSelection.traceCoord[1],
curveNumber: trace.index,
pointNumber: ptNumber,
data: trace._input,
fullData: this.fullData,
xaxis: this.xaxis,
yaxis: this.yaxis
};
Fx.appendArrayPointValue(pointData, trace, ptNumber);
this.graphDiv.emit(eventType, {points: [pointData]});
};
proto.draw = function() {
if(this.stopped) return;
requestAnimationFrame(this.redraw);
var glplot = this.glplot,
camera = this.camera,
mouseListener = camera.mouseListener,
mouseUp = this.lastButtonState === 1 && mouseListener.buttons === 0,
fullLayout = this.fullLayout;
this.lastButtonState = mouseListener.buttons;
this.cameraChanged();
var x = mouseListener.x * glplot.pixelRatio;
var y = this.canvas.height - glplot.pixelRatio * mouseListener.y;
var result;
if(camera.boxEnabled && fullLayout.dragmode === 'zoom') {
this.selectBox.enabled = true;
var selectBox = this.selectBox.selectBox = [
Math.min(camera.boxStart[0], camera.boxEnd[0]),
Math.min(camera.boxStart[1], camera.boxEnd[1]),
Math.max(camera.boxStart[0], camera.boxEnd[0]),
Math.max(camera.boxStart[1], camera.boxEnd[1])
];
// 1D zoom
for(var i = 0; i < 2; i++) {
if(camera.boxStart[i] === camera.boxEnd[i]) {
selectBox[i] = glplot.dataBox[i];
selectBox[i + 2] = glplot.dataBox[i + 2];
}
}
glplot.setDirty();
}
else if(!camera.panning && this.isMouseOver) {
this.selectBox.enabled = false;
var size = fullLayout._size,
domainX = this.xaxis.domain,
domainY = this.yaxis.domain;
result = glplot.pick(
(x / glplot.pixelRatio) + size.l + domainX[0] * size.w,
(y / glplot.pixelRatio) - (size.t + (1 - domainY[1]) * size.h)
);
var nextSelection = result && result.object._trace.handlePick(result);
if(nextSelection && mouseUp) {
this.emitPointAction(nextSelection, 'plotly_click');
}
if(result && result.object._trace.hoverinfo !== 'skip' && fullLayout.hovermode) {
if(nextSelection && (
!this.lastPickResult ||
this.lastPickResult.traceUid !== nextSelection.trace.uid ||
this.lastPickResult.dataCoord[0] !== nextSelection.dataCoord[0] ||
this.lastPickResult.dataCoord[1] !== nextSelection.dataCoord[1])
) {
var selection = nextSelection;
this.lastPickResult = {
traceUid: nextSelection.trace ? nextSelection.trace.uid : null,
dataCoord: nextSelection.dataCoord.slice()
};
this.spikes.update({ center: result.dataCoord });
selection.screenCoord = [
((glplot.viewBox[2] - glplot.viewBox[0]) *
(result.dataCoord[0] - glplot.dataBox[0]) /
(glplot.dataBox[2] - glplot.dataBox[0]) + glplot.viewBox[0]) /
glplot.pixelRatio,
(this.canvas.height - (glplot.viewBox[3] - glplot.viewBox[1]) *
(result.dataCoord[1] - glplot.dataBox[1]) /
(glplot.dataBox[3] - glplot.dataBox[1]) - glplot.viewBox[1]) /
glplot.pixelRatio
];
// this needs to happen before the next block that deletes traceCoord data
// also it's important to copy, otherwise data is lost by the time event data is read
this.emitPointAction(nextSelection, 'plotly_hover');
var trace = this.fullData[selection.trace.index] || {};
var ptNumber = selection.pointIndex;
var hoverinfo = Fx.castHoverinfo(trace, fullLayout, ptNumber);
if(hoverinfo && hoverinfo !== 'all') {
var parts = hoverinfo.split('+');
if(parts.indexOf('x') === -1) selection.traceCoord[0] = undefined;
if(parts.indexOf('y') === -1) selection.traceCoord[1] = undefined;
if(parts.indexOf('z') === -1) selection.traceCoord[2] = undefined;
if(parts.indexOf('text') === -1) selection.textLabel = undefined;
if(parts.indexOf('name') === -1) selection.name = undefined;
}
Fx.loneHover({
x: selection.screenCoord[0],
y: selection.screenCoord[1],
xLabel: this.hoverFormatter('xaxis', selection.traceCoord[0]),
yLabel: this.hoverFormatter('yaxis', selection.traceCoord[1]),
zLabel: selection.traceCoord[2],
text: selection.textLabel,
name: selection.name,
color: Fx.castHoverOption(trace, ptNumber, 'bgcolor') || selection.color,
borderColor: Fx.castHoverOption(trace, ptNumber, 'bordercolor'),
fontFamily: Fx.castHoverOption(trace, ptNumber, 'font.family'),
fontSize: Fx.castHoverOption(trace, ptNumber, 'font.size'),
fontColor: Fx.castHoverOption(trace, ptNumber, 'font.color')
}, {
container: this.svgContainer,
gd: this.graphDiv
});
}
}
}
// Remove hover effects if we're not over a point OR
// if we're zooming or panning (in which case result is not set)
if(!result) {
this.unhover();
}
glplot.draw();
};
proto.unhover = function() {
if(this.lastPickResult) {
this.spikes.update({});
this.lastPickResult = null;
this.graphDiv.emit('plotly_unhover');
Fx.loneUnhover(this.svgContainer);
}
};
proto.hoverFormatter = function(axisName, val) {
if(val === undefined) return undefined;
var axis = this[axisName];
return Axes.tickText(axis, axis.c2l(val), 'hover').text;
};
},{"../../components/fx":609,"../../lib/html2unicode":691,"../../lib/show_no_webgl_msg":715,"../../plots/cartesian/axes":742,"../../registry":825,"../cartesian/autorange":741,"../cartesian/constants":747,"../cartesian/constraints":749,"./camera":779,"./convert":780,"gl-plot2d":274,"gl-select-box":284,"gl-spikes2d":293,"webgl-context":530}],783:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = createCamera;
var now = _dereq_('right-now');
var createView = _dereq_('3d-view');
var mouseChange = _dereq_('mouse-change');
var mouseWheel = _dereq_('mouse-wheel');
var mouseOffset = _dereq_('mouse-event-offset');
var supportsPassive = _dereq_('has-passive-events');
function createCamera(element, options) {
element = element || document.body;
options = options || {};
var limits = [ 0.01, Infinity ];
if('distanceLimits' in options) {
limits[0] = options.distanceLimits[0];
limits[1] = options.distanceLimits[1];
}
if('zoomMin' in options) {
limits[0] = options.zoomMin;
}
if('zoomMax' in options) {
limits[1] = options.zoomMax;
}
var view = createView({
center: options.center || [0, 0, 0],
up: options.up || [0, 1, 0],
eye: options.eye || [0, 0, 10],
mode: options.mode || 'orbit',
distanceLimits: limits
});
var pmatrix = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0];
var distance = 0.0;
var width = element.clientWidth;
var height = element.clientHeight;
var camera = {
keyBindingMode: 'rotate',
view: view,
element: element,
delay: options.delay || 16,
rotateSpeed: options.rotateSpeed || 1,
zoomSpeed: options.zoomSpeed || 1,
translateSpeed: options.translateSpeed || 1,
flipX: !!options.flipX,
flipY: !!options.flipY,
modes: view.modes,
tick: function() {
var t = now();
var delay = this.delay;
var ctime = t - 2 * delay;
view.idle(t - delay);
view.recalcMatrix(ctime);
view.flush(t - (100 + delay * 2));
var allEqual = true;
var matrix = view.computedMatrix;
for(var i = 0; i < 16; ++i) {
allEqual = allEqual && (pmatrix[i] === matrix[i]);
pmatrix[i] = matrix[i];
}
var sizeChanged =
element.clientWidth === width &&
element.clientHeight === height;
width = element.clientWidth;
height = element.clientHeight;
if(allEqual) return !sizeChanged;
distance = Math.exp(view.computedRadius[0]);
return true;
},
lookAt: function(center, eye, up) {
view.lookAt(view.lastT(), center, eye, up);
},
rotate: function(pitch, yaw, roll) {
view.rotate(view.lastT(), pitch, yaw, roll);
},
pan: function(dx, dy, dz) {
view.pan(view.lastT(), dx, dy, dz);
},
translate: function(dx, dy, dz) {
view.translate(view.lastT(), dx, dy, dz);
}
};
Object.defineProperties(camera, {
matrix: {
get: function() {
return view.computedMatrix;
},
set: function(mat) {
view.setMatrix(view.lastT(), mat);
return view.computedMatrix;
},
enumerable: true
},
mode: {
get: function() {
return view.getMode();
},
set: function(mode) {
var curUp = view.computedUp.slice();
var curEye = view.computedEye.slice();
var curCenter = view.computedCenter.slice();
view.setMode(mode);
if(mode === 'turntable') {
// Hacky time warping stuff to generate smooth animation
var t0 = now();
view._active.lookAt(t0, curEye, curCenter, curUp);
view._active.lookAt(t0 + 500, curEye, curCenter, [0, 0, 1]);
view._active.flush(t0);
}
return view.getMode();
},
enumerable: true
},
center: {
get: function() {
return view.computedCenter;
},
set: function(ncenter) {
view.lookAt(view.lastT(), null, ncenter);
return view.computedCenter;
},
enumerable: true
},
eye: {
get: function() {
return view.computedEye;
},
set: function(neye) {
view.lookAt(view.lastT(), neye);
return view.computedEye;
},
enumerable: true
},
up: {
get: function() {
return view.computedUp;
},
set: function(nup) {
view.lookAt(view.lastT(), null, null, nup);
return view.computedUp;
},
enumerable: true
},
distance: {
get: function() {
return distance;
},
set: function(d) {
view.setDistance(view.lastT(), d);
return d;
},
enumerable: true
},
distanceLimits: {
get: function() {
return view.getDistanceLimits(limits);
},
set: function(v) {
view.setDistanceLimits(v);
return v;
},
enumerable: true
}
});
element.addEventListener('contextmenu', function(ev) {
ev.preventDefault();
return false;
});
var lastX = 0, lastY = 0, lastMods = {shift: false, control: false, alt: false, meta: false};
camera.mouseListener = mouseChange(element, handleInteraction);
// enable simple touch interactions
element.addEventListener('touchstart', function(ev) {
var xy = mouseOffset(ev.changedTouches[0], element);
handleInteraction(0, xy[0], xy[1], lastMods);
handleInteraction(1, xy[0], xy[1], lastMods);
ev.preventDefault();
}, supportsPassive ? {passive: false} : false);
element.addEventListener('touchmove', function(ev) {
var xy = mouseOffset(ev.changedTouches[0], element);
handleInteraction(1, xy[0], xy[1], lastMods);
ev.preventDefault();
}, supportsPassive ? {passive: false} : false);
element.addEventListener('touchend', function(ev) {
handleInteraction(0, lastX, lastY, lastMods);
ev.preventDefault();
}, supportsPassive ? {passive: false} : false);
function handleInteraction(buttons, x, y, mods) {
var keyBindingMode = camera.keyBindingMode;
if(keyBindingMode === false) return;
var rotate = keyBindingMode === 'rotate';
var pan = keyBindingMode === 'pan';
var zoom = keyBindingMode === 'zoom';
var ctrl = !!mods.control;
var alt = !!mods.alt;
var shift = !!mods.shift;
var left = !!(buttons & 1);
var right = !!(buttons & 2);
var middle = !!(buttons & 4);
var scale = 1.0 / element.clientHeight;
var dx = scale * (x - lastX);
var dy = scale * (y - lastY);
var flipX = camera.flipX ? 1 : -1;
var flipY = camera.flipY ? 1 : -1;
var t = now();
var drot = Math.PI * camera.rotateSpeed;
if((rotate && left && !ctrl && !alt && !shift) || (left && !ctrl && !alt && shift)) {
// Rotate
view.rotate(t, flipX * drot * dx, -flipY * drot * dy, 0);
}
if((pan && left && !ctrl && !alt && !shift) || right || (left && ctrl && !alt && !shift)) {
// Pan
view.pan(t, -camera.translateSpeed * dx * distance, camera.translateSpeed * dy * distance, 0);
}
if((zoom && left && !ctrl && !alt && !shift) || middle || (left && !ctrl && alt && !shift)) {
// Zoom
var kzoom = -camera.zoomSpeed * dy / window.innerHeight * (t - view.lastT()) * 100;
view.pan(t, 0, 0, distance * (Math.exp(kzoom) - 1));
}
lastX = x;
lastY = y;
lastMods = mods;
return true;
}
camera.wheelListener = mouseWheel(element, function(dx, dy) {
if(camera.keyBindingMode === false) return;
var flipX = camera.flipX ? 1 : -1;
var flipY = camera.flipY ? 1 : -1;
var t = now();
if(Math.abs(dx) > Math.abs(dy)) {
view.rotate(t, 0, 0, -dx * flipX * Math.PI * camera.rotateSpeed / window.innerWidth);
} else {
var kzoom = -camera.zoomSpeed * flipY * dy / window.innerHeight * (t - view.lastT()) / 20.0;
view.pan(t, 0, 0, distance * (Math.exp(kzoom) - 1));
}
}, true);
return camera;
}
},{"3d-view":44,"has-passive-events":392,"mouse-change":415,"mouse-event-offset":416,"mouse-wheel":418,"right-now":477}],784:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll;
var fxAttrs = _dereq_('../../components/fx/layout_attributes');
var Scene = _dereq_('./scene');
var getSubplotData = _dereq_('../get_data').getSubplotData;
var Lib = _dereq_('../../lib');
var xmlnsNamespaces = _dereq_('../../constants/xmlns_namespaces');
var GL3D = 'gl3d';
var SCENE = 'scene';
exports.name = GL3D;
exports.attr = SCENE;
exports.idRoot = SCENE;
exports.idRegex = exports.attrRegex = Lib.counterRegex('scene');
exports.attributes = _dereq_('./layout/attributes');
exports.layoutAttributes = _dereq_('./layout/layout_attributes');
exports.baseLayoutAttrOverrides = overrideAll({
hoverlabel: fxAttrs.hoverlabel
}, 'plot', 'nested');
exports.supplyLayoutDefaults = _dereq_('./layout/defaults');
exports.plot = function plotGl3d(gd) {
var fullLayout = gd._fullLayout;
var fullData = gd._fullData;
var sceneIds = fullLayout._subplots[GL3D];
for(var i = 0; i < sceneIds.length; i++) {
var sceneId = sceneIds[i],
fullSceneData = getSubplotData(fullData, GL3D, sceneId),
sceneLayout = fullLayout[sceneId],
scene = sceneLayout._scene;
if(!scene) {
scene = new Scene({
id: sceneId,
graphDiv: gd,
container: gd.querySelector('.gl-container'),
staticPlot: gd._context.staticPlot,
plotGlPixelRatio: gd._context.plotGlPixelRatio
},
fullLayout
);
// set ref to Scene instance
sceneLayout._scene = scene;
}
// save 'initial' camera settings for modebar button
if(!scene.cameraInitial) {
scene.cameraInitial = Lib.extendDeep({}, sceneLayout.camera);
}
scene.plot(fullSceneData, fullLayout, gd.layout);
}
};
exports.clean = function(newFullData, newFullLayout, oldFullData, oldFullLayout) {
var oldSceneKeys = oldFullLayout._subplots[GL3D] || [];
for(var i = 0; i < oldSceneKeys.length; i++) {
var oldSceneKey = oldSceneKeys[i];
if(!newFullLayout[oldSceneKey] && !!oldFullLayout[oldSceneKey]._scene) {
oldFullLayout[oldSceneKey]._scene.destroy();
if(oldFullLayout._infolayer) {
oldFullLayout._infolayer
.selectAll('.annotation-' + oldSceneKey)
.remove();
}
}
}
};
exports.toSVG = function(gd) {
var fullLayout = gd._fullLayout;
var sceneIds = fullLayout._subplots[GL3D];
var size = fullLayout._size;
for(var i = 0; i < sceneIds.length; i++) {
var sceneLayout = fullLayout[sceneIds[i]];
var domain = sceneLayout.domain;
var scene = sceneLayout._scene;
var imageData = scene.toImage('png');
var image = fullLayout._glimages.append('svg:image');
image.attr({
xmlns: xmlnsNamespaces.svg,
'xlink:href': imageData,
x: size.l + size.w * domain.x[0],
y: size.t + size.h * (1 - domain.y[1]),
width: size.w * (domain.x[1] - domain.x[0]),
height: size.h * (domain.y[1] - domain.y[0]),
preserveAspectRatio: 'none'
});
scene.destroy();
}
};
// clean scene ids, 'scene1' -> 'scene'
exports.cleanId = function cleanId(id) {
if(!id.match(/^scene[0-9]*$/)) return;
var sceneNum = id.substr(5);
if(sceneNum === '1') sceneNum = '';
return SCENE + sceneNum;
};
exports.updateFx = function(gd) {
var fullLayout = gd._fullLayout;
var subplotIds = fullLayout._subplots[GL3D];
for(var i = 0; i < subplotIds.length; i++) {
var subplotObj = fullLayout[subplotIds[i]]._scene;
subplotObj.updateFx(fullLayout.dragmode, fullLayout.hovermode);
}
};
},{"../../components/fx/layout_attributes":610,"../../constants/xmlns_namespaces":671,"../../lib":693,"../../plot_api/edit_types":725,"../get_data":778,"./layout/attributes":785,"./layout/defaults":789,"./layout/layout_attributes":790,"./scene":794}],785:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
scene: {
valType: 'subplotid',
dflt: 'scene',
editType: 'calc+clearAxisTypes',
}
};
},{}],786:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Color = _dereq_('../../../components/color');
var axesAttrs = _dereq_('../../cartesian/layout_attributes');
var extendFlat = _dereq_('../../../lib/extend').extendFlat;
var overrideAll = _dereq_('../../../plot_api/edit_types').overrideAll;
module.exports = overrideAll({
visible: axesAttrs.visible,
showspikes: {
valType: 'boolean',
dflt: true,
},
spikesides: {
valType: 'boolean',
dflt: true,
},
spikethickness: {
valType: 'number',
min: 0,
dflt: 2,
},
spikecolor: {
valType: 'color',
dflt: Color.defaultLine,
},
showbackground: {
valType: 'boolean',
dflt: false,
},
backgroundcolor: {
valType: 'color',
dflt: 'rgba(204, 204, 204, 0.5)',
},
showaxeslabels: {
valType: 'boolean',
dflt: true,
},
color: axesAttrs.color,
categoryorder: axesAttrs.categoryorder,
categoryarray: axesAttrs.categoryarray,
title: axesAttrs.title,
titlefont: axesAttrs.titlefont,
type: axesAttrs.type,
autorange: axesAttrs.autorange,
rangemode: axesAttrs.rangemode,
range: axesAttrs.range,
// ticks
tickmode: axesAttrs.tickmode,
nticks: axesAttrs.nticks,
tick0: axesAttrs.tick0,
dtick: axesAttrs.dtick,
tickvals: axesAttrs.tickvals,
ticktext: axesAttrs.ticktext,
ticks: axesAttrs.ticks,
mirror: axesAttrs.mirror,
ticklen: axesAttrs.ticklen,
tickwidth: axesAttrs.tickwidth,
tickcolor: axesAttrs.tickcolor,
showticklabels: axesAttrs.showticklabels,
tickfont: axesAttrs.tickfont,
tickangle: axesAttrs.tickangle,
tickprefix: axesAttrs.tickprefix,
showtickprefix: axesAttrs.showtickprefix,
ticksuffix: axesAttrs.ticksuffix,
showticksuffix: axesAttrs.showticksuffix,
showexponent: axesAttrs.showexponent,
exponentformat: axesAttrs.exponentformat,
separatethousands: axesAttrs.separatethousands,
tickformat: axesAttrs.tickformat,
tickformatstops: axesAttrs.tickformatstops,
hoverformat: axesAttrs.hoverformat,
// lines and grids
showline: axesAttrs.showline,
linecolor: axesAttrs.linecolor,
linewidth: axesAttrs.linewidth,
showgrid: axesAttrs.showgrid,
gridcolor: extendFlat({}, axesAttrs.gridcolor, // shouldn't this be on-par with 2D?
{dflt: 'rgb(204, 204, 204)'}),
gridwidth: axesAttrs.gridwidth,
zeroline: axesAttrs.zeroline,
zerolinecolor: axesAttrs.zerolinecolor,
zerolinewidth: axesAttrs.zerolinewidth
}, 'plot', 'from-root');
},{"../../../components/color":567,"../../../lib/extend":682,"../../../plot_api/edit_types":725,"../../cartesian/layout_attributes":754}],787:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var colorMix = _dereq_('tinycolor2').mix;
var Lib = _dereq_('../../../lib');
var Template = _dereq_('../../../plot_api/plot_template');
var layoutAttributes = _dereq_('./axis_attributes');
var handleTypeDefaults = _dereq_('../../cartesian/type_defaults');
var handleAxisDefaults = _dereq_('../../cartesian/axis_defaults');
var axesNames = ['xaxis', 'yaxis', 'zaxis'];
// TODO: hard-coded lightness fraction based on gridline default colors
// that differ from other subplot types.
var gridLightness = 100 * (204 - 0x44) / (255 - 0x44);
module.exports = function supplyLayoutDefaults(layoutIn, layoutOut, options) {
var containerIn, containerOut;
function coerce(attr, dflt) {
return Lib.coerce(containerIn, containerOut, layoutAttributes, attr, dflt);
}
for(var j = 0; j < axesNames.length; j++) {
var axName = axesNames[j];
containerIn = layoutIn[axName] || {};
containerOut = Template.newContainer(layoutOut, axName);
containerOut._id = axName[0] + options.scene;
containerOut._name = axName;
handleTypeDefaults(containerIn, containerOut, coerce, options);
handleAxisDefaults(
containerIn,
containerOut,
coerce,
{
font: options.font,
letter: axName[0],
data: options.data,
showGrid: true,
bgColor: options.bgColor,
calendar: options.calendar
},
options.fullLayout);
coerce('gridcolor', colorMix(containerOut.color, options.bgColor, gridLightness).toRgbString());
coerce('title', axName[0]); // shouldn't this be on-par with 2D?
containerOut.setScale = Lib.noop;
if(coerce('showspikes')) {
coerce('spikesides');
coerce('spikethickness');
coerce('spikecolor', containerOut.color);
}
coerce('showaxeslabels');
if(coerce('showbackground')) coerce('backgroundcolor');
}
};
},{"../../../lib":693,"../../../plot_api/plot_template":732,"../../cartesian/axis_defaults":744,"../../cartesian/type_defaults":765,"./axis_attributes":786,"tinycolor2":511}],788:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var convertHTMLToUnicode = _dereq_('../../../lib/html2unicode');
var str2RgbaArray = _dereq_('../../../lib/str2rgbarray');
var AXES_NAMES = ['xaxis', 'yaxis', 'zaxis'];
function AxesOptions() {
this.bounds = [
[-10, -10, -10],
[10, 10, 10]
];
this.ticks = [ [], [], [] ];
this.tickEnable = [ true, true, true ];
this.tickFont = [ 'sans-serif', 'sans-serif', 'sans-serif' ];
this.tickSize = [ 12, 12, 12 ];
this.tickAngle = [ 0, 0, 0 ];
this.tickColor = [ [0, 0, 0, 1], [0, 0, 0, 1], [0, 0, 0, 1] ];
this.tickPad = [ 18, 18, 18 ];
this.labels = [ 'x', 'y', 'z' ];
this.labelEnable = [ true, true, true ];
this.labelFont = ['Open Sans', 'Open Sans', 'Open Sans'];
this.labelSize = [ 20, 20, 20 ];
this.labelAngle = [ 0, 0, 0 ];
this.labelColor = [ [0, 0, 0, 1], [0, 0, 0, 1], [0, 0, 0, 1] ];
this.labelPad = [ 30, 30, 30 ];
this.lineEnable = [ true, true, true ];
this.lineMirror = [ false, false, false ];
this.lineWidth = [ 1, 1, 1 ];
this.lineColor = [ [0, 0, 0, 1], [0, 0, 0, 1], [0, 0, 0, 1] ];
this.lineTickEnable = [ true, true, true ];
this.lineTickMirror = [ false, false, false ];
this.lineTickLength = [ 10, 10, 10 ];
this.lineTickWidth = [ 1, 1, 1 ];
this.lineTickColor = [ [0, 0, 0, 1], [0, 0, 0, 1], [0, 0, 0, 1] ];
this.gridEnable = [ true, true, true ];
this.gridWidth = [ 1, 1, 1 ];
this.gridColor = [ [0, 0, 0, 1], [0, 0, 0, 1], [0, 0, 0, 1] ];
this.zeroEnable = [ true, true, true ];
this.zeroLineColor = [ [0, 0, 0, 1], [0, 0, 0, 1], [0, 0, 0, 1] ];
this.zeroLineWidth = [ 2, 2, 2 ];
this.backgroundEnable = [ true, true, true ];
this.backgroundColor = [ [0.8, 0.8, 0.8, 0.5],
[0.8, 0.8, 0.8, 0.5],
[0.8, 0.8, 0.8, 0.5] ];
// some default values are stored for applying model transforms
this._defaultTickPad = this.tickPad.slice();
this._defaultLabelPad = this.labelPad.slice();
this._defaultLineTickLength = this.lineTickLength.slice();
}
var proto = AxesOptions.prototype;
proto.merge = function(sceneLayout) {
var opts = this;
for(var i = 0; i < 3; ++i) {
var axes = sceneLayout[AXES_NAMES[i]];
if(!axes.visible) {
opts.tickEnable[i] = false;
opts.labelEnable[i] = false;
opts.lineEnable[i] = false;
opts.lineTickEnable[i] = false;
opts.gridEnable[i] = false;
opts.zeroEnable[i] = false;
opts.backgroundEnable[i] = false;
continue;
}
// Axes labels
opts.labels[i] = convertHTMLToUnicode(axes.title);
if('titlefont' in axes) {
if(axes.titlefont.color) opts.labelColor[i] = str2RgbaArray(axes.titlefont.color);
if(axes.titlefont.family) opts.labelFont[i] = axes.titlefont.family;
if(axes.titlefont.size) opts.labelSize[i] = axes.titlefont.size;
}
// Lines
if('showline' in axes) opts.lineEnable[i] = axes.showline;
if('linecolor' in axes) opts.lineColor[i] = str2RgbaArray(axes.linecolor);
if('linewidth' in axes) opts.lineWidth[i] = axes.linewidth;
if('showgrid' in axes) opts.gridEnable[i] = axes.showgrid;
if('gridcolor' in axes) opts.gridColor[i] = str2RgbaArray(axes.gridcolor);
if('gridwidth' in axes) opts.gridWidth[i] = axes.gridwidth;
// Remove zeroline if axis type is log
// otherwise the zeroline is incorrectly drawn at 1 on log axes
if(axes.type === 'log') opts.zeroEnable[i] = false;
else if('zeroline' in axes) opts.zeroEnable[i] = axes.zeroline;
if('zerolinecolor' in axes) opts.zeroLineColor[i] = str2RgbaArray(axes.zerolinecolor);
if('zerolinewidth' in axes) opts.zeroLineWidth[i] = axes.zerolinewidth;
// tick lines
if('ticks' in axes && !!axes.ticks) opts.lineTickEnable[i] = true;
else opts.lineTickEnable[i] = false;
if('ticklen' in axes) {
opts.lineTickLength[i] = opts._defaultLineTickLength[i] = axes.ticklen;
}
if('tickcolor' in axes) opts.lineTickColor[i] = str2RgbaArray(axes.tickcolor);
if('tickwidth' in axes) opts.lineTickWidth[i] = axes.tickwidth;
if('tickangle' in axes) {
opts.tickAngle[i] = (axes.tickangle === 'auto') ?
0 :
Math.PI * -axes.tickangle / 180;
}
// tick labels
if('showticklabels' in axes) opts.tickEnable[i] = axes.showticklabels;
if('tickfont' in axes) {
if(axes.tickfont.color) opts.tickColor[i] = str2RgbaArray(axes.tickfont.color);
if(axes.tickfont.family) opts.tickFont[i] = axes.tickfont.family;
if(axes.tickfont.size) opts.tickSize[i] = axes.tickfont.size;
}
if('mirror' in axes) {
if(['ticks', 'all', 'allticks'].indexOf(axes.mirror) !== -1) {
opts.lineTickMirror[i] = true;
opts.lineMirror[i] = true;
} else if(axes.mirror === true) {
opts.lineTickMirror[i] = false;
opts.lineMirror[i] = true;
} else {
opts.lineTickMirror[i] = false;
opts.lineMirror[i] = false;
}
} else opts.lineMirror[i] = false;
// grid background
if('showbackground' in axes && axes.showbackground !== false) {
opts.backgroundEnable[i] = true;
opts.backgroundColor[i] = str2RgbaArray(axes.backgroundcolor);
} else opts.backgroundEnable[i] = false;
}
};
function createAxesOptions(plotlyOptions) {
var result = new AxesOptions();
result.merge(plotlyOptions);
return result;
}
module.exports = createAxesOptions;
},{"../../../lib/html2unicode":691,"../../../lib/str2rgbarray":717}],789:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../../lib');
var Color = _dereq_('../../../components/color');
var Registry = _dereq_('../../../registry');
var handleSubplotDefaults = _dereq_('../../subplot_defaults');
var supplyGl3dAxisLayoutDefaults = _dereq_('./axis_defaults');
var layoutAttributes = _dereq_('./layout_attributes');
module.exports = function supplyLayoutDefaults(layoutIn, layoutOut, fullData) {
var hasNon3D = layoutOut._basePlotModules.length > 1;
// some layout-wide attribute are used in all scenes
// if 3D is the only visible plot type
function getDfltFromLayout(attr) {
if(hasNon3D) return;
var isValid = Lib.validate(layoutIn[attr], layoutAttributes[attr]);
if(isValid) return layoutIn[attr];
}
handleSubplotDefaults(layoutIn, layoutOut, fullData, {
type: 'gl3d',
attributes: layoutAttributes,
handleDefaults: handleGl3dDefaults,
fullLayout: layoutOut,
font: layoutOut.font,
fullData: fullData,
getDfltFromLayout: getDfltFromLayout,
paper_bgcolor: layoutOut.paper_bgcolor,
calendar: layoutOut.calendar
});
};
function handleGl3dDefaults(sceneLayoutIn, sceneLayoutOut, coerce, opts) {
/*
* Scene numbering proceeds as follows
* scene
* scene2
* scene3
*
* and d.scene will be undefined or some number or number string
*
* Also write back a blank scene object to user layout so that some
* attributes like aspectratio can be written back dynamically.
*/
var bgcolor = coerce('bgcolor'),
bgColorCombined = Color.combine(bgcolor, opts.paper_bgcolor);
var cameraKeys = ['up', 'center', 'eye'];
for(var j = 0; j < cameraKeys.length; j++) {
coerce('camera.' + cameraKeys[j] + '.x');
coerce('camera.' + cameraKeys[j] + '.y');
coerce('camera.' + cameraKeys[j] + '.z');
}
/*
* coerce to positive number (min 0) but also do not accept 0 (>0 not >=0)
* note that 0's go false with the !! call
*/
var hasAspect = !!coerce('aspectratio.x') &&
!!coerce('aspectratio.y') &&
!!coerce('aspectratio.z');
var defaultAspectMode = hasAspect ? 'manual' : 'auto';
var aspectMode = coerce('aspectmode', defaultAspectMode);
/*
* We need aspectratio object in all the Layouts as it is dynamically set
* in the calculation steps, ie, we cant set the correct data now, it happens later.
* We must also account for the case the user sends bad ratio data with 'manual' set
* for the mode. In this case we must force change it here as the default coerce
* misses it above.
*/
if(!hasAspect) {
sceneLayoutIn.aspectratio = sceneLayoutOut.aspectratio = {x: 1, y: 1, z: 1};
if(aspectMode === 'manual') sceneLayoutOut.aspectmode = 'auto';
/*
* kind of like autorange - we need the calculated aspectmode back in
* the input layout or relayout can cause problems later
*/
sceneLayoutIn.aspectmode = sceneLayoutOut.aspectmode;
}
supplyGl3dAxisLayoutDefaults(sceneLayoutIn, sceneLayoutOut, {
font: opts.font,
scene: opts.id,
data: opts.fullData,
bgColor: bgColorCombined,
calendar: opts.calendar,
fullLayout: opts.fullLayout
});
Registry.getComponentMethod('annotations3d', 'handleDefaults')(
sceneLayoutIn, sceneLayoutOut, opts
);
coerce('dragmode', opts.getDfltFromLayout('dragmode'));
coerce('hovermode', opts.getDfltFromLayout('hovermode'));
}
},{"../../../components/color":567,"../../../lib":693,"../../../registry":825,"../../subplot_defaults":820,"./axis_defaults":787,"./layout_attributes":790}],790:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var gl3dAxisAttrs = _dereq_('./axis_attributes');
var domainAttrs = _dereq_('../../domain').attributes;
var extendFlat = _dereq_('../../../lib/extend').extendFlat;
var counterRegex = _dereq_('../../../lib').counterRegex;
function makeCameraVector(x, y, z) {
return {
x: {
valType: 'number',
dflt: x,
editType: 'camera'
},
y: {
valType: 'number',
dflt: y,
editType: 'camera'
},
z: {
valType: 'number',
dflt: z,
editType: 'camera'
},
editType: 'camera'
};
}
module.exports = {
_arrayAttrRegexps: [counterRegex('scene', '.annotations', true)],
bgcolor: {
valType: 'color',
dflt: 'rgba(0,0,0,0)',
editType: 'plot'
},
camera: {
up: extendFlat(makeCameraVector(0, 0, 1), {
}),
center: extendFlat(makeCameraVector(0, 0, 0), {
}),
eye: extendFlat(makeCameraVector(1.25, 1.25, 1.25), {
}),
editType: 'camera'
},
domain: domainAttrs({name: 'scene', editType: 'plot'}),
aspectmode: {
valType: 'enumerated',
values: ['auto', 'cube', 'data', 'manual'],
dflt: 'auto',
editType: 'plot',
impliedEdits: {
'aspectratio.x': undefined,
'aspectratio.y': undefined,
'aspectratio.z': undefined
},
},
aspectratio: { // must be positive (0's are coerced to 1)
x: {
valType: 'number',
min: 0,
editType: 'plot',
impliedEdits: {'^aspectmode': 'manual'}
},
y: {
valType: 'number',
min: 0,
editType: 'plot',
impliedEdits: {'^aspectmode': 'manual'}
},
z: {
valType: 'number',
min: 0,
editType: 'plot',
impliedEdits: {'^aspectmode': 'manual'}
},
editType: 'plot',
impliedEdits: {aspectmode: 'manual'},
},
xaxis: gl3dAxisAttrs,
yaxis: gl3dAxisAttrs,
zaxis: gl3dAxisAttrs,
dragmode: {
valType: 'enumerated',
values: ['orbit', 'turntable', 'zoom', 'pan', false],
dflt: 'turntable',
editType: 'plot',
},
hovermode: {
valType: 'enumerated',
values: ['closest', false],
dflt: 'closest',
editType: 'modebar',
},
editType: 'plot',
_deprecated: {
cameraposition: {
valType: 'info_array',
editType: 'camera',
}
}
};
},{"../../../lib":693,"../../../lib/extend":682,"../../domain":767,"./axis_attributes":786}],791:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var str2RGBArray = _dereq_('../../../lib/str2rgbarray');
var AXES_NAMES = ['xaxis', 'yaxis', 'zaxis'];
function SpikeOptions() {
this.enabled = [true, true, true];
this.colors = [[0, 0, 0, 1],
[0, 0, 0, 1],
[0, 0, 0, 1]];
this.drawSides = [true, true, true];
this.lineWidth = [1, 1, 1];
}
var proto = SpikeOptions.prototype;
proto.merge = function(sceneLayout) {
for(var i = 0; i < 3; ++i) {
var axes = sceneLayout[AXES_NAMES[i]];
if(!axes.visible) {
this.enabled[i] = false;
this.drawSides[i] = false;
continue;
}
this.enabled[i] = axes.showspikes;
this.colors[i] = str2RGBArray(axes.spikecolor);
this.drawSides[i] = axes.spikesides;
this.lineWidth[i] = axes.spikethickness;
}
};
function createSpikeOptions(layout) {
var result = new SpikeOptions();
result.merge(layout);
return result;
}
module.exports = createSpikeOptions;
},{"../../../lib/str2rgbarray":717}],792:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
/* eslint block-scoped-var: 0*/
/* eslint no-redeclare: 0*/
'use strict';
module.exports = computeTickMarks;
var Axes = _dereq_('../../cartesian/axes');
var Lib = _dereq_('../../../lib');
var convertHTMLToUnicode = _dereq_('../../../lib/html2unicode');
var AXES_NAMES = ['xaxis', 'yaxis', 'zaxis'];
var centerPoint = [0, 0, 0];
function contourLevelsFromTicks(ticks) {
var result = new Array(3);
for(var i = 0; i < 3; ++i) {
var tlevel = ticks[i];
var clevel = new Array(tlevel.length);
for(var j = 0; j < tlevel.length; ++j) {
clevel[j] = tlevel[j].x;
}
result[i] = clevel;
}
return result;
}
function computeTickMarks(scene) {
var axesOptions = scene.axesOptions;
var glRange = scene.glplot.axesPixels;
var sceneLayout = scene.fullSceneLayout;
var ticks = [[], [], []];
for(var i = 0; i < 3; ++i) {
var axes = sceneLayout[AXES_NAMES[i]];
axes._length = (glRange[i].hi - glRange[i].lo) *
glRange[i].pixelsPerDataUnit / scene.dataScale[i];
if(Math.abs(axes._length) === Infinity) {
ticks[i] = [];
} else {
axes._input_range = axes.range.slice();
axes.range[0] = (glRange[i].lo) / scene.dataScale[i];
axes.range[1] = (glRange[i].hi) / scene.dataScale[i];
axes._m = 1.0 / (scene.dataScale[i] * glRange[i].pixelsPerDataUnit);
if(axes.range[0] === axes.range[1]) {
axes.range[0] -= 1;
axes.range[1] += 1;
}
// this is necessary to short-circuit the 'y' handling
// in autotick part of calcTicks... Treating all axes as 'y' in this case
// running the autoticks here, then setting
// autoticks to false to get around the 2D handling in calcTicks.
var tickModeCached = axes.tickmode;
if(axes.tickmode === 'auto') {
axes.tickmode = 'linear';
var nticks = axes.nticks || Lib.constrain((axes._length / 40), 4, 9);
Axes.autoTicks(axes, Math.abs(axes.range[1] - axes.range[0]) / nticks);
}
var dataTicks = Axes.calcTicks(axes);
for(var j = 0; j < dataTicks.length; ++j) {
dataTicks[j].x = dataTicks[j].x * scene.dataScale[i];
dataTicks[j].text = convertHTMLToUnicode(dataTicks[j].text);
}
ticks[i] = dataTicks;
axes.tickmode = tickModeCached;
}
}
axesOptions.ticks = ticks;
// Calculate tick lengths dynamically
for(var i = 0; i < 3; ++i) {
centerPoint[i] = 0.5 * (scene.glplot.bounds[0][i] + scene.glplot.bounds[1][i]);
for(var j = 0; j < 2; ++j) {
axesOptions.bounds[j][i] = scene.glplot.bounds[j][i];
}
}
scene.contourLevels = contourLevelsFromTicks(ticks);
}
},{"../../../lib":693,"../../../lib/html2unicode":691,"../../cartesian/axes":742}],793:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
function xformMatrix(m, v) {
var out = [0, 0, 0, 0];
var i, j;
for(i = 0; i < 4; ++i) {
for(j = 0; j < 4; ++j) {
out[j] += m[4 * i + j] * v[i];
}
}
return out;
}
function project(camera, v) {
var p = xformMatrix(camera.projection,
xformMatrix(camera.view,
xformMatrix(camera.model, [v[0], v[1], v[2], 1])));
return p;
}
module.exports = project;
},{}],794:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var createPlot = _dereq_('gl-plot3d');
var getContext = _dereq_('webgl-context');
var passiveSupported = _dereq_('has-passive-events');
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var Axes = _dereq_('../../plots/cartesian/axes');
var Fx = _dereq_('../../components/fx');
var str2RGBAarray = _dereq_('../../lib/str2rgbarray');
var showNoWebGlMsg = _dereq_('../../lib/show_no_webgl_msg');
var createCamera = _dereq_('./camera');
var project = _dereq_('./project');
var createAxesOptions = _dereq_('./layout/convert');
var createSpikeOptions = _dereq_('./layout/spikes');
var computeTickMarks = _dereq_('./layout/tick_marks');
var STATIC_CANVAS, STATIC_CONTEXT;
function render(scene) {
var trace;
// update size of svg container
var svgContainer = scene.svgContainer;
var clientRect = scene.container.getBoundingClientRect();
var width = clientRect.width, height = clientRect.height;
svgContainer.setAttributeNS(null, 'viewBox', '0 0 ' + width + ' ' + height);
svgContainer.setAttributeNS(null, 'width', width);
svgContainer.setAttributeNS(null, 'height', height);
computeTickMarks(scene);
scene.glplot.axes.update(scene.axesOptions);
// check if pick has changed
var keys = Object.keys(scene.traces);
var lastPicked = null;
var selection = scene.glplot.selection;
for(var i = 0; i < keys.length; ++i) {
trace = scene.traces[keys[i]];
if(trace.data.hoverinfo !== 'skip' && trace.handlePick(selection)) {
lastPicked = trace;
}
if(trace.setContourLevels) trace.setContourLevels();
}
function formatter(axisName, val) {
var axis = scene.fullSceneLayout[axisName];
return Axes.tickText(axis, axis.d2l(val), 'hover').text;
}
var oldEventData;
if(lastPicked !== null) {
var pdata = project(scene.glplot.cameraParams, selection.dataCoordinate);
trace = lastPicked.data;
var ptNumber = selection.index;
var hoverinfo = Fx.castHoverinfo(trace, scene.fullLayout, ptNumber);
var hoverinfoParts = hoverinfo.split('+');
var isHoverinfoAll = hoverinfo === 'all';
var xVal = formatter('xaxis', selection.traceCoordinate[0]);
var yVal = formatter('yaxis', selection.traceCoordinate[1]);
var zVal = formatter('zaxis', selection.traceCoordinate[2]);
if(!isHoverinfoAll) {
if(hoverinfoParts.indexOf('x') === -1) xVal = undefined;
if(hoverinfoParts.indexOf('y') === -1) yVal = undefined;
if(hoverinfoParts.indexOf('z') === -1) zVal = undefined;
if(hoverinfoParts.indexOf('text') === -1) selection.textLabel = undefined;
if(hoverinfoParts.indexOf('name') === -1) lastPicked.name = undefined;
}
var tx;
if(trace.type === 'cone' || trace.type === 'streamtube') {
var vectorTx = [];
if(isHoverinfoAll || hoverinfoParts.indexOf('u') !== -1) {
vectorTx.push('u: ' + formatter('xaxis', selection.traceCoordinate[3]));
}
if(isHoverinfoAll || hoverinfoParts.indexOf('v') !== -1) {
vectorTx.push('v: ' + formatter('yaxis', selection.traceCoordinate[4]));
}
if(isHoverinfoAll || hoverinfoParts.indexOf('w') !== -1) {
vectorTx.push('w: ' + formatter('zaxis', selection.traceCoordinate[5]));
}
if(isHoverinfoAll || hoverinfoParts.indexOf('norm') !== -1) {
vectorTx.push('norm: ' + selection.traceCoordinate[6].toPrecision(3));
}
if(trace.type === 'streamtube' && (isHoverinfoAll || hoverinfoParts.indexOf('divergence') !== -1)) {
vectorTx.push('divergence: ' + selection.traceCoordinate[7].toPrecision(3));
}
if(selection.textLabel) {
vectorTx.push(selection.textLabel);
}
tx = vectorTx.join('<br>');
} else {
tx = selection.textLabel;
}
if(scene.fullSceneLayout.hovermode) {
Fx.loneHover({
x: (0.5 + 0.5 * pdata[0] / pdata[3]) * width,
y: (0.5 - 0.5 * pdata[1] / pdata[3]) * height,
xLabel: xVal,
yLabel: yVal,
zLabel: zVal,
text: tx,
name: lastPicked.name,
color: Fx.castHoverOption(trace, ptNumber, 'bgcolor') || lastPicked.color,
borderColor: Fx.castHoverOption(trace, ptNumber, 'bordercolor'),
fontFamily: Fx.castHoverOption(trace, ptNumber, 'font.family'),
fontSize: Fx.castHoverOption(trace, ptNumber, 'font.size'),
fontColor: Fx.castHoverOption(trace, ptNumber, 'font.color')
}, {
container: svgContainer,
gd: scene.graphDiv
});
}
// TODO not sure if streamtube x/y/z should be emitted as x/y/z
var pointData = {
x: selection.traceCoordinate[0],
y: selection.traceCoordinate[1],
z: selection.traceCoordinate[2],
data: trace._input,
fullData: trace,
curveNumber: trace.index,
pointNumber: ptNumber
};
if(trace._module.eventData) {
pointData = trace._module.eventData(pointData, selection, trace, {}, ptNumber);
}
Fx.appendArrayPointValue(pointData, trace, ptNumber);
var eventData = {points: [pointData]};
if(selection.buttons && selection.distance < 5) {
scene.graphDiv.emit('plotly_click', eventData);
}
else {
scene.graphDiv.emit('plotly_hover', eventData);
}
oldEventData = eventData;
}
else {
Fx.loneUnhover(svgContainer);
scene.graphDiv.emit('plotly_unhover', oldEventData);
}
scene.drawAnnotations(scene);
}
function initializeGLPlot(scene, fullLayout, canvas, gl) {
var gd = scene.graphDiv;
var glplotOptions = {
canvas: canvas,
gl: gl,
container: scene.container,
axes: scene.axesOptions,
spikes: scene.spikeOptions,
pickRadius: 10,
snapToData: true,
autoScale: true,
autoBounds: false
};
// for static plots, we reuse the WebGL context
// as WebKit doesn't collect them reliably
if(scene.staticMode) {
if(!STATIC_CONTEXT) {
STATIC_CANVAS = document.createElement('canvas');
STATIC_CONTEXT = getContext({
canvas: STATIC_CANVAS,
preserveDrawingBuffer: true,
premultipliedAlpha: true,
antialias: true
});
if(!STATIC_CONTEXT) {
throw new Error('error creating static canvas/context for image server');
}
}
glplotOptions.pixelRatio = scene.pixelRatio;
glplotOptions.gl = STATIC_CONTEXT;
glplotOptions.canvas = STATIC_CANVAS;
}
try {
scene.glplot = createPlot(glplotOptions);
}
catch(e) {
/*
* createPlot will throw when webgl is not enabled in the client.
* Lets return an instance of the module with all functions noop'd.
* The destroy method - which will remove the container from the DOM
* is overridden with a function that removes the container only.
*/
return showNoWebGlMsg(scene);
}
var relayoutCallback = function(scene) {
if(scene.fullSceneLayout.dragmode === false) return;
var update = {};
update[scene.id + '.camera'] = getLayoutCamera(scene.camera);
scene.saveCamera(gd.layout);
scene.graphDiv.emit('plotly_relayout', update);
};
scene.glplot.canvas.addEventListener('mouseup', relayoutCallback.bind(null, scene));
scene.glplot.canvas.addEventListener('wheel', relayoutCallback.bind(null, scene), passiveSupported ? {passive: false} : false);
if(!scene.staticMode) {
scene.glplot.canvas.addEventListener('webglcontextlost', function(event) {
if(gd && gd.emit) {
gd.emit('plotly_webglcontextlost', {
event: event,
layer: scene.id
});
}
}, false);
}
if(!scene.camera) {
var cameraData = scene.fullSceneLayout.camera;
scene.camera = createCamera(scene.container, {
center: [cameraData.center.x, cameraData.center.y, cameraData.center.z],
eye: [cameraData.eye.x, cameraData.eye.y, cameraData.eye.z],
up: [cameraData.up.x, cameraData.up.y, cameraData.up.z],
zoomMin: 0.1,
zoomMax: 100,
mode: 'orbit'
});
}
scene.glplot.camera = scene.camera;
scene.glplot.oncontextloss = function() {
scene.recoverContext();
};
scene.glplot.onrender = render.bind(null, scene);
// List of scene objects
scene.traces = {};
return true;
}
function Scene(options, fullLayout) {
// create sub container for plot
var sceneContainer = document.createElement('div');
var plotContainer = options.container;
// keep a ref to the graph div to fire hover+click events
this.graphDiv = options.graphDiv;
// create SVG container for hover text
var svgContainer = document.createElementNS(
'http://www.w3.org/2000/svg',
'svg');
svgContainer.style.position = 'absolute';
svgContainer.style.top = svgContainer.style.left = '0px';
svgContainer.style.width = svgContainer.style.height = '100%';
svgContainer.style['z-index'] = 20;
svgContainer.style['pointer-events'] = 'none';
sceneContainer.appendChild(svgContainer);
this.svgContainer = svgContainer;
// Tag the container with the sceneID
sceneContainer.id = options.id;
sceneContainer.style.position = 'absolute';
sceneContainer.style.top = sceneContainer.style.left = '0px';
sceneContainer.style.width = sceneContainer.style.height = '100%';
plotContainer.appendChild(sceneContainer);
this.fullLayout = fullLayout;
this.id = options.id || 'scene';
this.fullSceneLayout = fullLayout[this.id];
// Saved from last call to plot()
this.plotArgs = [ [], {}, {} ];
/*
* Move this to calc step? Why does it work here?
*/
this.axesOptions = createAxesOptions(fullLayout[this.id]);
this.spikeOptions = createSpikeOptions(fullLayout[this.id]);
this.container = sceneContainer;
this.staticMode = !!options.staticPlot;
this.pixelRatio = options.plotGlPixelRatio || 2;
// Coordinate rescaling
this.dataScale = [1, 1, 1];
this.contourLevels = [ [], [], [] ];
this.convertAnnotations = Registry.getComponentMethod('annotations3d', 'convert');
this.drawAnnotations = Registry.getComponentMethod('annotations3d', 'draw');
if(!initializeGLPlot(this, fullLayout)) return; // todo check the necessity for this line
}
var proto = Scene.prototype;
proto.recoverContext = function() {
var scene = this;
var gl = this.glplot.gl;
var canvas = this.glplot.canvas;
this.glplot.dispose();
function tryRecover() {
if(gl.isContextLost()) {
requestAnimationFrame(tryRecover);
return;
}
if(!initializeGLPlot(scene, scene.fullLayout, canvas, gl)) {
Lib.error('Catastrophic and unrecoverable WebGL error. Context lost.');
return;
}
scene.plot.apply(scene, scene.plotArgs);
}
requestAnimationFrame(tryRecover);
};
var axisProperties = [ 'xaxis', 'yaxis', 'zaxis' ];
function computeTraceBounds(scene, trace, bounds) {
var sceneLayout = scene.fullSceneLayout;
for(var d = 0; d < 3; d++) {
var axisName = axisProperties[d];
var axLetter = axisName.charAt(0);
var ax = sceneLayout[axisName];
var coords = trace[axLetter];
var calendar = trace[axLetter + 'calendar'];
var len = trace['_' + axLetter + 'length'];
if(!Lib.isArrayOrTypedArray(coords)) {
bounds[0][d] = Math.min(bounds[0][d], 0);
bounds[1][d] = Math.max(bounds[1][d], len - 1);
} else {
var v;
for(var i = 0; i < (len || coords.length); i++) {
if(Lib.isArrayOrTypedArray(coords[i])) {
for(var j = 0; j < coords[i].length; ++j) {
v = ax.d2l(coords[i][j], 0, calendar);
if(!isNaN(v) && isFinite(v)) {
bounds[0][d] = Math.min(bounds[0][d], v);
bounds[1][d] = Math.max(bounds[1][d], v);
}
}
} else {
v = ax.d2l(coords[i], 0, calendar);
if(!isNaN(v) && isFinite(v)) {
bounds[0][d] = Math.min(bounds[0][d], v);
bounds[1][d] = Math.max(bounds[1][d], v);
}
}
}
}
}
}
proto.plot = function(sceneData, fullLayout, layout) {
// Save parameters
this.plotArgs = [sceneData, fullLayout, layout];
if(this.glplot.contextLost) return;
var data, trace;
var i, j, axis, axisType;
var fullSceneLayout = fullLayout[this.id];
var sceneLayout = layout[this.id];
if(fullSceneLayout.bgcolor) this.glplot.clearColor = str2RGBAarray(fullSceneLayout.bgcolor);
else this.glplot.clearColor = [0, 0, 0, 0];
this.glplot.snapToData = true;
// Update layout
this.fullLayout = fullLayout;
this.fullSceneLayout = fullSceneLayout;
this.glplotLayout = fullSceneLayout;
this.axesOptions.merge(fullSceneLayout);
this.spikeOptions.merge(fullSceneLayout);
// Update camera and camera mode
this.setCamera(fullSceneLayout.camera);
this.updateFx(fullSceneLayout.dragmode, fullSceneLayout.hovermode);
// Update scene
this.glplot.update({});
// Update axes functions BEFORE updating traces
this.setConvert(axis);
// Convert scene data
if(!sceneData) sceneData = [];
else if(!Array.isArray(sceneData)) sceneData = [sceneData];
// Compute trace bounding box
var dataBounds = [
[Infinity, Infinity, Infinity],
[-Infinity, -Infinity, -Infinity]
];
for(i = 0; i < sceneData.length; ++i) {
data = sceneData[i];
if(data.visible !== true) continue;
computeTraceBounds(this, data, dataBounds);
}
var dataScale = [1, 1, 1];
for(j = 0; j < 3; ++j) {
if(dataBounds[0][j] > dataBounds[1][j]) {
dataScale[j] = 1.0;
}
else {
if(dataBounds[1][j] === dataBounds[0][j]) {
dataScale[j] = 1.0;
}
else {
dataScale[j] = 1.0 / (dataBounds[1][j] - dataBounds[0][j]);
}
}
}
// Save scale
this.dataScale = dataScale;
// after computeTraceBounds where ax._categories are filled in
this.convertAnnotations(this);
// Update traces
for(i = 0; i < sceneData.length; ++i) {
data = sceneData[i];
if(data.visible !== true) {
continue;
}
trace = this.traces[data.uid];
if(trace) {
if(trace.data.type === data.type) {
trace.update(data);
} else {
trace.dispose();
trace = data._module.plot(this, data);
this.traces[data.uid] = trace;
}
} else {
trace = data._module.plot(this, data);
this.traces[data.uid] = trace;
}
trace.name = data.name;
}
// Remove empty traces
var traceIds = Object.keys(this.traces);
trace_id_loop:
for(i = 0; i < traceIds.length; ++i) {
for(j = 0; j < sceneData.length; ++j) {
if(sceneData[j].uid === traceIds[i] && sceneData[j].visible === true) {
continue trace_id_loop;
}
}
trace = this.traces[traceIds[i]];
trace.dispose();
delete this.traces[traceIds[i]];
}
// order object per trace index
this.glplot.objects.sort(function(a, b) {
return a._trace.data.index - b._trace.data.index;
});
// Update ranges (needs to be called *after* objects are added due to updates)
var sceneBounds = [[0, 0, 0], [0, 0, 0]],
axisDataRange = [],
axisTypeRatios = {};
for(i = 0; i < 3; ++i) {
axis = fullSceneLayout[axisProperties[i]];
axisType = axis.type;
if(axisType in axisTypeRatios) {
axisTypeRatios[axisType].acc *= dataScale[i];
axisTypeRatios[axisType].count += 1;
}
else {
axisTypeRatios[axisType] = {
acc: dataScale[i],
count: 1
};
}
if(axis.autorange) {
sceneBounds[0][i] = Infinity;
sceneBounds[1][i] = -Infinity;
var objects = this.glplot.objects;
var annotations = this.fullSceneLayout.annotations || [];
var axLetter = axis._name.charAt(0);
for(j = 0; j < objects.length; j++) {
var obj = objects[j];
var objBounds = obj.bounds;
var pad = obj._trace.data._pad || 0;
if(obj.constructor.name === 'ErrorBars' && axis._lowerLogErrorBound) {
sceneBounds[0][i] = Math.min(sceneBounds[0][i], axis._lowerLogErrorBound);
} else {
sceneBounds[0][i] = Math.min(sceneBounds[0][i], objBounds[0][i] / dataScale[i] - pad);
}
sceneBounds[1][i] = Math.max(sceneBounds[1][i], objBounds[1][i] / dataScale[i] + pad);
}
for(j = 0; j < annotations.length; j++) {
var ann = annotations[j];
// N.B. not taking into consideration the arrowhead
if(ann.visible) {
var pos = axis.r2l(ann[axLetter]);
sceneBounds[0][i] = Math.min(sceneBounds[0][i], pos);
sceneBounds[1][i] = Math.max(sceneBounds[1][i], pos);
}
}
if('rangemode' in axis && axis.rangemode === 'tozero') {
sceneBounds[0][i] = Math.min(sceneBounds[0][i], 0);
sceneBounds[1][i] = Math.max(sceneBounds[1][i], 0);
}
if(sceneBounds[0][i] > sceneBounds[1][i]) {
sceneBounds[0][i] = -1;
sceneBounds[1][i] = 1;
} else {
var d = sceneBounds[1][i] - sceneBounds[0][i];
sceneBounds[0][i] -= d / 32.0;
sceneBounds[1][i] += d / 32.0;
}
} else {
var range = axis.range;
sceneBounds[0][i] = axis.r2l(range[0]);
sceneBounds[1][i] = axis.r2l(range[1]);
}
if(sceneBounds[0][i] === sceneBounds[1][i]) {
sceneBounds[0][i] -= 1;
sceneBounds[1][i] += 1;
}
axisDataRange[i] = sceneBounds[1][i] - sceneBounds[0][i];
// Update plot bounds
this.glplot.bounds[0][i] = sceneBounds[0][i] * dataScale[i];
this.glplot.bounds[1][i] = sceneBounds[1][i] * dataScale[i];
}
var axesScaleRatio = [1, 1, 1];
// Compute axis scale per category
for(i = 0; i < 3; ++i) {
axis = fullSceneLayout[axisProperties[i]];
axisType = axis.type;
var axisRatio = axisTypeRatios[axisType];
axesScaleRatio[i] = Math.pow(axisRatio.acc, 1.0 / axisRatio.count) / dataScale[i];
}
/*
* Dynamically set the aspect ratio depending on the users aspect settings
*/
var axisAutoScaleFactor = 4;
var aspectRatio;
if(fullSceneLayout.aspectmode === 'auto') {
if(Math.max.apply(null, axesScaleRatio) / Math.min.apply(null, axesScaleRatio) <= axisAutoScaleFactor) {
/*
* USE DATA MODE WHEN AXIS RANGE DIMENSIONS ARE RELATIVELY EQUAL
*/
aspectRatio = axesScaleRatio;
} else {
/*
* USE EQUAL MODE WHEN AXIS RANGE DIMENSIONS ARE HIGHLY UNEQUAL
*/
aspectRatio = [1, 1, 1];
}
} else if(fullSceneLayout.aspectmode === 'cube') {
aspectRatio = [1, 1, 1];
} else if(fullSceneLayout.aspectmode === 'data') {
aspectRatio = axesScaleRatio;
} else if(fullSceneLayout.aspectmode === 'manual') {
var userRatio = fullSceneLayout.aspectratio;
aspectRatio = [userRatio.x, userRatio.y, userRatio.z];
} else {
throw new Error('scene.js aspectRatio was not one of the enumerated types');
}
/*
* Write aspect Ratio back to user data and fullLayout so that it is modifies as user
* manipulates the aspectmode settings and the fullLayout is up-to-date.
*/
fullSceneLayout.aspectratio.x = sceneLayout.aspectratio.x = aspectRatio[0];
fullSceneLayout.aspectratio.y = sceneLayout.aspectratio.y = aspectRatio[1];
fullSceneLayout.aspectratio.z = sceneLayout.aspectratio.z = aspectRatio[2];
/*
* Finally assign the computed aspecratio to the glplot module. This will have an effect
* on the next render cycle.
*/
this.glplot.aspect = aspectRatio;
// Update frame position for multi plots
var domain = fullSceneLayout.domain || null,
size = fullLayout._size || null;
if(domain && size) {
var containerStyle = this.container.style;
containerStyle.position = 'absolute';
containerStyle.left = (size.l + domain.x[0] * size.w) + 'px';
containerStyle.top = (size.t + (1 - domain.y[1]) * size.h) + 'px';
containerStyle.width = (size.w * (domain.x[1] - domain.x[0])) + 'px';
containerStyle.height = (size.h * (domain.y[1] - domain.y[0])) + 'px';
}
// force redraw so that promise is returned when rendering is completed
this.glplot.redraw();
};
proto.destroy = function() {
if(!this.glplot) return;
this.camera.mouseListener.enabled = false;
this.container.removeEventListener('wheel', this.camera.wheelListener);
this.camera = this.glplot.camera = null;
this.glplot.dispose();
this.container.parentNode.removeChild(this.container);
this.glplot = null;
};
// getOrbitCamera :: plotly_coords -> orbit_camera_coords
// inverse of getLayoutCamera
function getOrbitCamera(camera) {
return [
[camera.eye.x, camera.eye.y, camera.eye.z],
[camera.center.x, camera.center.y, camera.center.z],
[camera.up.x, camera.up.y, camera.up.z]
];
}
// getLayoutCamera :: orbit_camera_coords -> plotly_coords
// inverse of getOrbitCamera
function getLayoutCamera(camera) {
return {
up: {x: camera.up[0], y: camera.up[1], z: camera.up[2]},
center: {x: camera.center[0], y: camera.center[1], z: camera.center[2]},
eye: {x: camera.eye[0], y: camera.eye[1], z: camera.eye[2]}
};
}
// get camera position in plotly coords from 'orbit-camera' coords
proto.getCamera = function getCamera() {
this.glplot.camera.view.recalcMatrix(this.camera.view.lastT());
return getLayoutCamera(this.glplot.camera);
};
// set camera position with a set of plotly coords
proto.setCamera = function setCamera(cameraData) {
this.glplot.camera.lookAt.apply(this, getOrbitCamera(cameraData));
};
// save camera to user layout (i.e. gd.layout)
proto.saveCamera = function saveCamera(layout) {
var cameraData = this.getCamera(),
cameraNestedProp = Lib.nestedProperty(layout, this.id + '.camera'),
cameraDataLastSave = cameraNestedProp.get(),
hasChanged = false;
function same(x, y, i, j) {
var vectors = ['up', 'center', 'eye'],
components = ['x', 'y', 'z'];
return y[vectors[i]] && (x[vectors[i]][components[j]] === y[vectors[i]][components[j]]);
}
if(cameraDataLastSave === undefined) hasChanged = true;
else {
for(var i = 0; i < 3; i++) {
for(var j = 0; j < 3; j++) {
if(!same(cameraData, cameraDataLastSave, i, j)) {
hasChanged = true;
break;
}
}
}
}
if(hasChanged) cameraNestedProp.set(cameraData);
return hasChanged;
};
proto.updateFx = function(dragmode, hovermode) {
var camera = this.camera;
if(camera) {
// rotate and orbital are synonymous
if(dragmode === 'orbit') {
camera.mode = 'orbit';
camera.keyBindingMode = 'rotate';
} else if(dragmode === 'turntable') {
camera.up = [0, 0, 1];
camera.mode = 'turntable';
camera.keyBindingMode = 'rotate';
} else {
// none rotation modes [pan or zoom]
camera.keyBindingMode = dragmode;
}
}
// to put dragmode and hovermode on the same grounds from relayout
this.fullSceneLayout.hovermode = hovermode;
};
proto.toImage = function(format) {
if(!format) format = 'png';
if(this.staticMode) this.container.appendChild(STATIC_CANVAS);
// Force redraw
this.glplot.redraw();
// Grab context and yank out pixels
var gl = this.glplot.gl;
var w = gl.drawingBufferWidth;
var h = gl.drawingBufferHeight;
gl.bindFramebuffer(gl.FRAMEBUFFER, null);
var pixels = new Uint8Array(w * h * 4);
gl.readPixels(0, 0, w, h, gl.RGBA, gl.UNSIGNED_BYTE, pixels);
// Flip pixels
for(var j = 0, k = h - 1; j < k; ++j, --k) {
for(var i = 0; i < w; ++i) {
for(var l = 0; l < 4; ++l) {
var tmp = pixels[4 * (w * j + i) + l];
pixels[4 * (w * j + i) + l] = pixels[4 * (w * k + i) + l];
pixels[4 * (w * k + i) + l] = tmp;
}
}
}
var canvas = document.createElement('canvas');
canvas.width = w;
canvas.height = h;
var context = canvas.getContext('2d');
var imageData = context.createImageData(w, h);
imageData.data.set(pixels);
context.putImageData(imageData, 0, 0);
var dataURL;
switch(format) {
case 'jpeg':
dataURL = canvas.toDataURL('image/jpeg');
break;
case 'webp':
dataURL = canvas.toDataURL('image/webp');
break;
default:
dataURL = canvas.toDataURL('image/png');
}
if(this.staticMode) this.container.removeChild(STATIC_CANVAS);
return dataURL;
};
proto.setConvert = function() {
for(var i = 0; i < 3; i++) {
var ax = this.fullSceneLayout[axisProperties[i]];
Axes.setConvert(ax, this.fullLayout);
ax.setScale = Lib.noop;
}
};
module.exports = Scene;
},{"../../components/fx":609,"../../lib":693,"../../lib/show_no_webgl_msg":715,"../../lib/str2rgbarray":717,"../../plots/cartesian/axes":742,"../../registry":825,"./camera":783,"./layout/convert":788,"./layout/spikes":791,"./layout/tick_marks":792,"./project":793,"gl-plot3d":276,"has-passive-events":392,"webgl-context":530}],795:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function zip3(x, y, z, len) {
len = len || x.length;
var result = new Array(len);
for(var i = 0; i < len; i++) {
result[i] = [x[i], y[i], z[i]];
}
return result;
};
},{}],796:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var fontAttrs = _dereq_('./font_attributes');
var colorAttrs = _dereq_('../components/color/attributes');
var globalFont = fontAttrs({
editType: 'calc',
});
globalFont.family.dflt = '"Open Sans", verdana, arial, sans-serif';
globalFont.size.dflt = 12;
globalFont.color.dflt = colorAttrs.defaultLine;
module.exports = {
font: globalFont,
title: {
valType: 'string',
editType: 'layoutstyle',
},
titlefont: fontAttrs({
editType: 'layoutstyle',
}),
autosize: {
valType: 'boolean',
dflt: false,
// autosize, width, and height get special editType treatment in _relayout
// so we can handle noop resizes more efficiently
editType: 'none',
},
width: {
valType: 'number',
min: 10,
dflt: 700,
editType: 'plot',
},
height: {
valType: 'number',
min: 10,
dflt: 450,
editType: 'plot',
},
margin: {
l: {
valType: 'number',
min: 0,
dflt: 80,
editType: 'plot',
},
r: {
valType: 'number',
min: 0,
dflt: 80,
editType: 'plot',
},
t: {
valType: 'number',
min: 0,
dflt: 100,
editType: 'plot',
},
b: {
valType: 'number',
min: 0,
dflt: 80,
editType: 'plot',
},
pad: {
valType: 'number',
min: 0,
dflt: 0,
editType: 'plot',
},
autoexpand: {
valType: 'boolean',
dflt: true,
editType: 'plot'
},
editType: 'plot'
},
paper_bgcolor: {
valType: 'color',
dflt: colorAttrs.background,
editType: 'plot',
},
plot_bgcolor: {
// defined here, but set in cartesian.supplyLayoutDefaults
// because it needs to know if there are (2D) axes or not
valType: 'color',
dflt: colorAttrs.background,
editType: 'layoutstyle',
},
separators: {
valType: 'string',
editType: 'plot',
},
hidesources: {
valType: 'boolean',
dflt: false,
editType: 'plot',
},
showlegend: {
// handled in legend.supplyLayoutDefaults
// but included here because it's not in the legend object
valType: 'boolean',
editType: 'legend',
},
colorway: {
valType: 'colorlist',
dflt: colorAttrs.defaults,
editType: 'calc',
},
datarevision: {
valType: 'any',
editType: 'calc',
},
template: {
valType: 'any',
editType: 'calc',
}
};
},{"../components/color/attributes":566,"./font_attributes":768}],797:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var requiredVersion = '0.45.0';
module.exports = {
requiredVersion: requiredVersion,
styleUrlPrefix: 'mapbox://styles/mapbox/',
styleUrlSuffix: 'v9',
controlContainerClassName: 'mapboxgl-control-container',
wrongVersionErrorMsg: [
'Your custom plotly.js bundle is not using the correct mapbox-gl version',
'Please install mapbox-gl@' + requiredVersion + '.'
].join('\n'),
noAccessTokenErrorMsg: [
'Missing Mapbox access token.',
'Mapbox trace type require a Mapbox access token to be registered.',
'For example:',
' Plotly.plot(gd, data, layout, { mapboxAccessToken: \'my-access-token\' });',
'More info here: https://www.mapbox.com/help/define-access-token/'
].join('\n'),
mapOnErrorMsg: 'Mapbox error.',
// a subset of node_modules/mapbox-gl/dist/mapbox-gl.css
styleRules: {
map: 'overflow:hidden;position:relative;',
'missing-css': 'display:none',
}
};
},{}],798:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
/**
* Convert plotly.js 'textposition' to mapbox-gl 'anchor' and 'offset'
* (with the help of the icon size).
*
* @param {string} textpostion : plotly.js textposition value
* @param {number} iconSize : plotly.js icon size (e.g. marker.size for traces)
*
* @return {object}
* - anchor
* - offset
*/
module.exports = function convertTextOpts(textposition, iconSize) {
var parts = textposition.split(' '),
vPos = parts[0],
hPos = parts[1];
// ballpack values
var factor = Lib.isArrayOrTypedArray(iconSize) ? Lib.mean(iconSize) : iconSize,
xInc = 0.5 + (factor / 100),
yInc = 1.5 + (factor / 100);
var anchorVals = ['', ''],
offset = [0, 0];
switch(vPos) {
case 'top':
anchorVals[0] = 'top';
offset[1] = -yInc;
break;
case 'bottom':
anchorVals[0] = 'bottom';
offset[1] = yInc;
break;
}
switch(hPos) {
case 'left':
anchorVals[1] = 'right';
offset[0] = -xInc;
break;
case 'right':
anchorVals[1] = 'left';
offset[0] = xInc;
break;
}
// Mapbox text-anchor must be one of:
// center, left, right, top, bottom,
// top-left, top-right, bottom-left, bottom-right
var anchor;
if(anchorVals[0] && anchorVals[1]) anchor = anchorVals.join('-');
else if(anchorVals[0]) anchor = anchorVals[0];
else if(anchorVals[1]) anchor = anchorVals[1];
else anchor = 'center';
return { anchor: anchor, offset: offset };
};
},{"../../lib":693}],799:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var mapboxgl = _dereq_('mapbox-gl');
var Lib = _dereq_('../../lib');
var getSubplotCalcData = _dereq_('../../plots/get_data').getSubplotCalcData;
var xmlnsNamespaces = _dereq_('../../constants/xmlns_namespaces');
var createMapbox = _dereq_('./mapbox');
var constants = _dereq_('./constants');
var MAPBOX = 'mapbox';
for(var k in constants.styleRules) {
Lib.addStyleRule('.mapboxgl-' + k, constants.styleRules[k]);
}
exports.name = MAPBOX;
exports.attr = 'subplot';
exports.idRoot = MAPBOX;
exports.idRegex = exports.attrRegex = Lib.counterRegex(MAPBOX);
exports.attributes = {
subplot: {
valType: 'subplotid',
dflt: 'mapbox',
editType: 'calc',
}
};
exports.layoutAttributes = _dereq_('./layout_attributes');
exports.supplyLayoutDefaults = _dereq_('./layout_defaults');
exports.plot = function plotMapbox(gd) {
var fullLayout = gd._fullLayout;
var calcData = gd.calcdata;
var mapboxIds = fullLayout._subplots[MAPBOX];
if(mapboxgl.version !== constants.requiredVersion) {
throw new Error(constants.wrongVersionErrorMsg);
}
var accessToken = findAccessToken(gd, mapboxIds);
mapboxgl.accessToken = accessToken;
for(var i = 0; i < mapboxIds.length; i++) {
var id = mapboxIds[i],
subplotCalcData = getSubplotCalcData(calcData, MAPBOX, id),
opts = fullLayout[id],
mapbox = opts._subplot;
if(!mapbox) {
mapbox = createMapbox({
gd: gd,
container: fullLayout._glcontainer.node(),
id: id,
fullLayout: fullLayout,
staticPlot: gd._context.staticPlot
});
fullLayout[id]._subplot = mapbox;
}
if(!mapbox.viewInitial) {
mapbox.viewInitial = {
center: Lib.extendFlat({}, opts.center),
zoom: opts.zoom,
bearing: opts.bearing,
pitch: opts.pitch
};
}
mapbox.plot(subplotCalcData, fullLayout, gd._promises);
}
};
exports.clean = function(newFullData, newFullLayout, oldFullData, oldFullLayout) {
var oldMapboxKeys = oldFullLayout._subplots[MAPBOX] || [];
for(var i = 0; i < oldMapboxKeys.length; i++) {
var oldMapboxKey = oldMapboxKeys[i];
if(!newFullLayout[oldMapboxKey] && !!oldFullLayout[oldMapboxKey]._subplot) {
oldFullLayout[oldMapboxKey]._subplot.destroy();
}
}
};
exports.toSVG = function(gd) {
var fullLayout = gd._fullLayout;
var subplotIds = fullLayout._subplots[MAPBOX];
var size = fullLayout._size;
for(var i = 0; i < subplotIds.length; i++) {
var opts = fullLayout[subplotIds[i]],
domain = opts.domain,
mapbox = opts._subplot;
var imageData = mapbox.toImage('png');
var image = fullLayout._glimages.append('svg:image');
image.attr({
xmlns: xmlnsNamespaces.svg,
'xlink:href': imageData,
x: size.l + size.w * domain.x[0],
y: size.t + size.h * (1 - domain.y[1]),
width: size.w * (domain.x[1] - domain.x[0]),
height: size.h * (domain.y[1] - domain.y[0]),
preserveAspectRatio: 'none'
});
mapbox.destroy();
}
};
function findAccessToken(gd, mapboxIds) {
var fullLayout = gd._fullLayout,
context = gd._context;
// special case for Mapbox Atlas users
if(context.mapboxAccessToken === '') return '';
// Take the first token we find in a mapbox subplot.
// These default to the context value but may be overridden.
for(var i = 0; i < mapboxIds.length; i++) {
var opts = fullLayout[mapboxIds[i]];
if(opts.accesstoken) {
return opts.accesstoken;
}
}
throw new Error(constants.noAccessTokenErrorMsg);
}
exports.updateFx = function(gd) {
var fullLayout = gd._fullLayout;
var subplotIds = fullLayout._subplots[MAPBOX];
for(var i = 0; i < subplotIds.length; i++) {
var subplotObj = fullLayout[subplotIds[i]]._subplot;
subplotObj.updateFx(fullLayout);
}
};
},{"../../constants/xmlns_namespaces":671,"../../lib":693,"../../plots/get_data":778,"./constants":797,"./layout_attributes":801,"./layout_defaults":802,"./mapbox":803,"mapbox-gl":406}],800:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var convertTextOpts = _dereq_('./convert_text_opts');
function MapboxLayer(mapbox, index) {
this.mapbox = mapbox;
this.map = mapbox.map;
this.uid = mapbox.uid + '-' + 'layer' + index;
this.idSource = this.uid + '-source';
this.idLayer = this.uid + '-layer';
// some state variable to check if a remove/add step is needed
this.sourceType = null;
this.source = null;
this.layerType = null;
this.below = null;
// is layer currently visible
this.visible = false;
}
var proto = MapboxLayer.prototype;
proto.update = function update(opts) {
if(!this.visible) {
// IMPORTANT: must create source before layer to not cause errors
this.updateSource(opts);
this.updateLayer(opts);
} else if(this.needsNewSource(opts)) {
// IMPORTANT: must delete layer before source to not cause errors
this.removeLayer();
this.updateSource(opts);
this.updateLayer(opts);
} else if(this.needsNewLayer(opts)) {
this.updateLayer(opts);
} else {
this.updateStyle(opts);
}
this.visible = isVisible(opts);
};
proto.needsNewSource = function(opts) {
// for some reason changing layer to 'fill' or 'symbol'
// w/o changing the source throws an exception in mapbox-gl 0.18 ;
// stay safe and make new source on type changes
return (
this.sourceType !== opts.sourcetype ||
this.source !== opts.source ||
this.layerType !== opts.type
);
};
proto.needsNewLayer = function(opts) {
return (
this.layerType !== opts.type ||
this.below !== opts.below
);
};
proto.updateSource = function(opts) {
var map = this.map;
if(map.getSource(this.idSource)) map.removeSource(this.idSource);
this.sourceType = opts.sourcetype;
this.source = opts.source;
if(!isVisible(opts)) return;
var sourceOpts = convertSourceOpts(opts);
map.addSource(this.idSource, sourceOpts);
};
proto.updateLayer = function(opts) {
var map = this.map;
var convertedOpts = convertOpts(opts);
this.removeLayer();
this.layerType = opts.type;
if(isVisible(opts)) {
map.addLayer({
id: this.idLayer,
source: this.idSource,
'source-layer': opts.sourcelayer || '',
type: opts.type,
layout: convertedOpts.layout,
paint: convertedOpts.paint
}, opts.below);
}
};
proto.updateStyle = function(opts) {
if(isVisible(opts)) {
var convertedOpts = convertOpts(opts);
this.mapbox.setOptions(this.idLayer, 'setLayoutProperty', convertedOpts.layout);
this.mapbox.setOptions(this.idLayer, 'setPaintProperty', convertedOpts.paint);
}
};
proto.removeLayer = function() {
var map = this.map;
if(map.getLayer(this.idLayer)) {
map.removeLayer(this.idLayer);
}
};
proto.dispose = function dispose() {
var map = this.map;
map.removeLayer(this.idLayer);
map.removeSource(this.idSource);
};
function isVisible(opts) {
var source = opts.source;
return opts.visible && (
Lib.isPlainObject(source) ||
(typeof source === 'string' && source.length > 0)
);
}
function convertOpts(opts) {
var layout = {},
paint = {};
switch(opts.type) {
case 'circle':
Lib.extendFlat(paint, {
'circle-radius': opts.circle.radius,
'circle-color': opts.color,
'circle-opacity': opts.opacity
});
break;
case 'line':
Lib.extendFlat(paint, {
'line-width': opts.line.width,
'line-color': opts.color,
'line-opacity': opts.opacity
});
break;
case 'fill':
Lib.extendFlat(paint, {
'fill-color': opts.color,
'fill-outline-color': opts.fill.outlinecolor,
'fill-opacity': opts.opacity
// no way to pass specify outline width at the moment
});
break;
case 'symbol':
var symbol = opts.symbol,
textOpts = convertTextOpts(symbol.textposition, symbol.iconsize);
Lib.extendFlat(layout, {
'icon-image': symbol.icon + '-15',
'icon-size': symbol.iconsize / 10,
'text-field': symbol.text,
'text-size': symbol.textfont.size,
'text-anchor': textOpts.anchor,
'text-offset': textOpts.offset
// TODO font family
// 'text-font': symbol.textfont.family.split(', '),
});
Lib.extendFlat(paint, {
'icon-color': opts.color,
'text-color': symbol.textfont.color,
'text-opacity': opts.opacity
});
break;
}
return { layout: layout, paint: paint };
}
function convertSourceOpts(opts) {
var sourceType = opts.sourcetype;
var source = opts.source;
var sourceOpts = {type: sourceType};
var field;
if(sourceType === 'geojson') {
field = 'data';
} else if(sourceType === 'vector') {
field = typeof source === 'string' ? 'url' : 'tiles';
}
sourceOpts[field] = source;
return sourceOpts;
}
module.exports = function createMapboxLayer(mapbox, index, opts) {
var mapboxLayer = new MapboxLayer(mapbox, index);
mapboxLayer.update(opts);
return mapboxLayer;
};
},{"../../lib":693,"./convert_text_opts":798}],801:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var defaultLine = _dereq_('../../components/color').defaultLine;
var domainAttrs = _dereq_('../domain').attributes;
var fontAttrs = _dereq_('../font_attributes');
var textposition = _dereq_('../../traces/scatter/attributes').textposition;
var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll;
var templatedArray = _dereq_('../../plot_api/plot_template').templatedArray;
var fontAttr = fontAttrs({
});
fontAttr.family.dflt = 'Open Sans Regular, Arial Unicode MS Regular';
module.exports = overrideAll({
_arrayAttrRegexps: [Lib.counterRegex('mapbox', '.layers', true)],
domain: domainAttrs({name: 'mapbox'}),
accesstoken: {
valType: 'string',
noBlank: true,
strict: true,
},
style: {
valType: 'any',
values: ['basic', 'streets', 'outdoors', 'light', 'dark', 'satellite', 'satellite-streets'],
dflt: 'basic',
},
center: {
lon: {
valType: 'number',
dflt: 0,
},
lat: {
valType: 'number',
dflt: 0,
}
},
zoom: {
valType: 'number',
dflt: 1,
},
bearing: {
valType: 'number',
dflt: 0,
},
pitch: {
valType: 'number',
dflt: 0,
},
layers: templatedArray('layer', {
visible: {
valType: 'boolean',
dflt: true,
},
sourcetype: {
valType: 'enumerated',
values: ['geojson', 'vector'],
dflt: 'geojson',
},
source: {
valType: 'any',
},
sourcelayer: {
valType: 'string',
dflt: '',
},
type: {
valType: 'enumerated',
values: ['circle', 'line', 'fill', 'symbol'],
dflt: 'circle',
},
// attributes shared between all types
below: {
valType: 'string',
dflt: '',
},
color: {
valType: 'color',
dflt: defaultLine,
},
opacity: {
valType: 'number',
min: 0,
max: 1,
dflt: 1,
},
// type-specific style attributes
circle: {
radius: {
valType: 'number',
dflt: 15,
}
},
line: {
width: {
valType: 'number',
dflt: 2,
}
},
fill: {
outlinecolor: {
valType: 'color',
dflt: defaultLine,
}
},
symbol: {
icon: {
valType: 'string',
dflt: 'marker',
},
iconsize: {
valType: 'number',
dflt: 10,
},
text: {
valType: 'string',
dflt: '',
},
textfont: fontAttr,
textposition: Lib.extendFlat({}, textposition, { arrayOk: false })
}
})
}, 'plot', 'from-root');
},{"../../components/color":567,"../../lib":693,"../../plot_api/edit_types":725,"../../plot_api/plot_template":732,"../../traces/scatter/attributes":1032,"../domain":767,"../font_attributes":768}],802:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var handleSubplotDefaults = _dereq_('../subplot_defaults');
var handleArrayContainerDefaults = _dereq_('../array_container_defaults');
var layoutAttributes = _dereq_('./layout_attributes');
module.exports = function supplyLayoutDefaults(layoutIn, layoutOut, fullData) {
handleSubplotDefaults(layoutIn, layoutOut, fullData, {
type: 'mapbox',
attributes: layoutAttributes,
handleDefaults: handleDefaults,
partition: 'y',
accessToken: layoutOut._mapboxAccessToken
});
};
function handleDefaults(containerIn, containerOut, coerce, opts) {
coerce('accesstoken', opts.accessToken);
coerce('style');
coerce('center.lon');
coerce('center.lat');
coerce('zoom');
coerce('bearing');
coerce('pitch');
handleArrayContainerDefaults(containerIn, containerOut, {
name: 'layers',
handleItemDefaults: handleLayerDefaults
});
// copy ref to input container to update 'center' and 'zoom' on map move
containerOut._input = containerIn;
}
function handleLayerDefaults(layerIn, layerOut) {
function coerce(attr, dflt) {
return Lib.coerce(layerIn, layerOut, layoutAttributes.layers, attr, dflt);
}
var visible = coerce('visible');
if(visible) {
var sourceType = coerce('sourcetype');
coerce('source');
if(sourceType === 'vector') coerce('sourcelayer');
// maybe add smart default based off GeoJSON geometry?
var type = coerce('type');
coerce('below');
coerce('color');
coerce('opacity');
if(type === 'circle') {
coerce('circle.radius');
}
if(type === 'line') {
coerce('line.width');
}
if(type === 'fill') {
coerce('fill.outlinecolor');
}
if(type === 'symbol') {
coerce('symbol.icon');
coerce('symbol.iconsize');
coerce('symbol.text');
Lib.coerceFont(coerce, 'symbol.textfont');
coerce('symbol.textposition');
}
}
}
},{"../../lib":693,"../array_container_defaults":738,"../subplot_defaults":820,"./layout_attributes":801}],803:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var mapboxgl = _dereq_('mapbox-gl');
var Fx = _dereq_('../../components/fx');
var Lib = _dereq_('../../lib');
var dragElement = _dereq_('../../components/dragelement');
var prepSelect = _dereq_('../cartesian/select').prepSelect;
var selectOnClick = _dereq_('../cartesian/select').selectOnClick;
var constants = _dereq_('./constants');
var layoutAttributes = _dereq_('./layout_attributes');
var createMapboxLayer = _dereq_('./layers');
function Mapbox(opts) {
this.id = opts.id;
this.gd = opts.gd;
this.container = opts.container;
this.isStatic = opts.staticPlot;
var fullLayout = opts.fullLayout;
// unique id for this Mapbox instance
this.uid = fullLayout._uid + '-' + this.id;
// full mapbox options (N.B. needs to be updated on every updates)
this.opts = fullLayout[this.id];
// create framework on instantiation for a smoother first plot call
this.div = null;
this.xaxis = null;
this.yaxis = null;
this.createFramework(fullLayout);
// state variables used to infer how and what to update
this.map = null;
this.accessToken = null;
this.styleObj = null;
this.traceHash = {};
this.layerList = [];
}
var proto = Mapbox.prototype;
module.exports = function createMapbox(opts) {
return new Mapbox(opts);
};
proto.plot = function(calcData, fullLayout, promises) {
var self = this;
// feed in new mapbox options
var opts = self.opts = fullLayout[this.id];
// remove map and create a new map if access token has change
if(self.map && (opts.accesstoken !== self.accessToken)) {
self.map.remove();
self.map = null;
self.styleObj = null;
self.traceHash = [];
self.layerList = {};
}
var promise;
if(!self.map) {
promise = new Promise(function(resolve, reject) {
self.createMap(calcData, fullLayout, resolve, reject);
});
} else {
promise = new Promise(function(resolve, reject) {
self.updateMap(calcData, fullLayout, resolve, reject);
});
}
promises.push(promise);
};
proto.createMap = function(calcData, fullLayout, resolve, reject) {
var self = this;
var gd = self.gd;
var opts = self.opts;
// store style id and URL or object
var styleObj = self.styleObj = getStyleObj(opts.style);
// store access token associated with this map
self.accessToken = opts.accesstoken;
// create the map!
var map = self.map = new mapboxgl.Map({
container: self.div,
style: styleObj.style,
center: convertCenter(opts.center),
zoom: opts.zoom,
bearing: opts.bearing,
pitch: opts.pitch,
interactive: !self.isStatic,
preserveDrawingBuffer: self.isStatic,
doubleClickZoom: false,
boxZoom: false
});
// clear navigation container
var className = constants.controlContainerClassName;
var controlContainer = self.div.getElementsByClassName(className)[0];
self.div.removeChild(controlContainer);
// make sure canvas does not inherit left and top css
map._canvas.style.left = '0px';
map._canvas.style.top = '0px';
self.rejectOnError(reject);
map.once('load', function() {
self.updateData(calcData);
self.updateLayout(fullLayout);
self.resolveOnRender(resolve);
});
if(self.isStatic) return;
var wheeling = false;
// keep track of pan / zoom in user layout and emit relayout event
map.on('moveend', function(eventData) {
if(!self.map) return;
var view = self.getView();
opts._input.center = opts.center = view.center;
opts._input.zoom = opts.zoom = view.zoom;
opts._input.bearing = opts.bearing = view.bearing;
opts._input.pitch = opts.pitch = view.pitch;
// 'moveend' gets triggered by map.setCenter, map.setZoom,
// map.setBearing and map.setPitch.
//
// Here, we make sure that 'plotly_relayout' is
// triggered here only when the 'moveend' originates from a
// mouse target (filtering out API calls) to not
// duplicate 'plotly_relayout' events.
if(eventData.originalEvent || wheeling) {
emitRelayoutFromView(view);
}
wheeling = false;
});
map.on('wheel', function() {
wheeling = true;
});
map.on('mousemove', function(evt) {
var bb = self.div.getBoundingClientRect();
// some hackery to get Fx.hover to work
evt.clientX = evt.point.x + bb.left;
evt.clientY = evt.point.y + bb.top;
evt.target.getBoundingClientRect = function() { return bb; };
self.xaxis.p2c = function() { return evt.lngLat.lng; };
self.yaxis.p2c = function() { return evt.lngLat.lat; };
Fx.hover(gd, evt, self.id);
});
function unhover() {
Fx.loneUnhover(fullLayout._toppaper);
}
map.on('dragstart', unhover);
map.on('zoomstart', unhover);
map.on('dblclick', function() {
gd.emit('plotly_doubleclick', null);
var viewInitial = self.viewInitial;
map.setCenter(convertCenter(viewInitial.center));
map.setZoom(viewInitial.zoom);
map.setBearing(viewInitial.bearing);
map.setPitch(viewInitial.pitch);
var viewNow = self.getView();
opts._input.center = opts.center = viewNow.center;
opts._input.zoom = opts.zoom = viewNow.zoom;
opts._input.bearing = opts.bearing = viewNow.bearing;
opts._input.pitch = opts.pitch = viewNow.pitch;
emitRelayoutFromView(viewNow);
});
function emitRelayoutFromView(view) {
var id = self.id;
var evtData = {};
for(var k in view) {
evtData[id + '.' + k] = view[k];
}
gd.emit('plotly_relayout', evtData);
}
// define event handlers on map creation, to keep one ref per map,
// so that map.on / map.off in updateFx works as expected
self.clearSelect = function() {
gd._fullLayout._zoomlayer.selectAll('.select-outline').remove();
};
/**
* Returns a click handler function that is supposed
* to handle clicks in pan mode.
*/
self.onClickInPanFn = function(dragOptions) {
return function(evt) {
var clickMode = gd._fullLayout.clickmode;
if(clickMode.indexOf('select') > -1) {
selectOnClick(evt.originalEvent, gd, [self.xaxis], [self.yaxis], self.id, dragOptions);
}
if(clickMode.indexOf('event') > -1) {
// TODO: this does not support right-click. If we want to support it, we
// would likely need to change mapbox to use dragElement instead of straight
// mapbox event binding. Or perhaps better, make a simple wrapper with the
// right mousedown, mousemove, and mouseup handlers just for a left/right click
// pie would use this too.
Fx.click(gd, evt.originalEvent);
}
};
};
};
proto.updateMap = function(calcData, fullLayout, resolve, reject) {
var self = this;
var map = self.map;
self.rejectOnError(reject);
var styleObj = getStyleObj(self.opts.style);
if(self.styleObj.id !== styleObj.id) {
self.styleObj = styleObj;
map.setStyle(styleObj.style);
map.once('styledata', function() {
// need to rebuild trace layers on reload
// to avoid 'lost event' errors
self.traceHash = {};
self.updateData(calcData);
self.updateLayout(fullLayout);
self.resolveOnRender(resolve);
});
} else {
self.updateData(calcData);
self.updateLayout(fullLayout);
self.resolveOnRender(resolve);
}
};
proto.updateData = function(calcData) {
var traceHash = this.traceHash;
var traceObj, trace, i, j;
// update or create trace objects
for(i = 0; i < calcData.length; i++) {
var calcTrace = calcData[i];
trace = calcTrace[0].trace;
traceObj = traceHash[trace.uid];
if(traceObj) {
traceObj.update(calcTrace);
} else if(trace._module) {
traceHash[trace.uid] = trace._module.plot(this, calcTrace);
}
}
// remove empty trace objects
var ids = Object.keys(traceHash);
id_loop:
for(i = 0; i < ids.length; i++) {
var id = ids[i];
for(j = 0; j < calcData.length; j++) {
trace = calcData[j][0].trace;
if(id === trace.uid) continue id_loop;
}
traceObj = traceHash[id];
traceObj.dispose();
delete traceHash[id];
}
};
proto.updateLayout = function(fullLayout) {
var map = this.map,
opts = this.opts;
map.setCenter(convertCenter(opts.center));
map.setZoom(opts.zoom);
map.setBearing(opts.bearing);
map.setPitch(opts.pitch);
this.updateLayers();
this.updateFramework(fullLayout);
this.updateFx(fullLayout);
this.map.resize();
};
proto.resolveOnRender = function(resolve) {
var map = this.map;
map.on('render', function onRender() {
if(map.loaded()) {
map.off('render', onRender);
// resolve at end of render loop
setTimeout(resolve, 0);
}
});
};
proto.rejectOnError = function(reject) {
var map = this.map;
function handler() {
reject(new Error(constants.mapOnErrorMsg));
}
map.once('error', handler);
map.once('style.error', handler);
map.once('source.error', handler);
map.once('tile.error', handler);
map.once('layer.error', handler);
};
proto.createFramework = function(fullLayout) {
var self = this;
var div = self.div = document.createElement('div');
div.id = self.uid;
div.style.position = 'absolute';
self.container.appendChild(div);
// create mock x/y axes for hover routine
self.xaxis = {
_id: 'x',
c2p: function(v) { return self.project(v).x; }
};
self.yaxis = {
_id: 'y',
c2p: function(v) { return self.project(v).y; }
};
self.updateFramework(fullLayout);
};
proto.updateFx = function(fullLayout) {
var self = this;
var map = self.map;
var gd = self.gd;
if(self.isStatic) return;
function invert(pxpy) {
var obj = self.map.unproject(pxpy);
return [obj.lng, obj.lat];
}
var dragMode = fullLayout.dragmode;
var fillRangeItems;
if(dragMode === 'select') {
fillRangeItems = function(eventData, poly) {
var ranges = eventData.range = {};
ranges[self.id] = [
invert([poly.xmin, poly.ymin]),
invert([poly.xmax, poly.ymax])
];
};
} else {
fillRangeItems = function(eventData, poly, pts) {
var dataPts = eventData.lassoPoints = {};
dataPts[self.id] = pts.filtered.map(invert);
};
}
// Note: dragOptions is needed to be declared for all dragmodes because
// it's the object that holds persistent selection state.
// Merge old dragOptions with new to keep possibly initialized
// persistent selection state.
var oldDragOptions = self.dragOptions;
self.dragOptions = Lib.extendDeep(oldDragOptions || {}, {
element: self.div,
gd: gd,
plotinfo: {
id: self.id,
xaxis: self.xaxis,
yaxis: self.yaxis,
fillRangeItems: fillRangeItems
},
xaxes: [self.xaxis],
yaxes: [self.yaxis],
subplot: self.id
});
// Unregister the old handler before potentially registering
// a new one. Otherwise multiple click handlers might
// be registered resulting in unwanted behavior.
map.off('click', self.onClickInPanHandler);
if(dragMode === 'select' || dragMode === 'lasso') {
map.dragPan.disable();
map.on('zoomstart', self.clearSelect);
self.dragOptions.prepFn = function(e, startX, startY) {
prepSelect(e, startX, startY, self.dragOptions, dragMode);
};
dragElement.init(self.dragOptions);
} else {
map.dragPan.enable();
map.off('zoomstart', self.clearSelect);
self.div.onmousedown = null;
// TODO: this does not support right-click. If we want to support it, we
// would likely need to change mapbox to use dragElement instead of straight
// mapbox event binding. Or perhaps better, make a simple wrapper with the
// right mousedown, mousemove, and mouseup handlers just for a left/right click
// pie would use this too.
self.onClickInPanHandler = self.onClickInPanFn(self.dragOptions);
map.on('click', self.onClickInPanHandler);
}
};
proto.updateFramework = function(fullLayout) {
var domain = fullLayout[this.id].domain;
var size = fullLayout._size;
var style = this.div.style;
style.width = size.w * (domain.x[1] - domain.x[0]) + 'px';
style.height = size.h * (domain.y[1] - domain.y[0]) + 'px';
style.left = size.l + domain.x[0] * size.w + 'px';
style.top = size.t + (1 - domain.y[1]) * size.h + 'px';
this.xaxis._offset = size.l + domain.x[0] * size.w;
this.xaxis._length = size.w * (domain.x[1] - domain.x[0]);
this.yaxis._offset = size.t + (1 - domain.y[1]) * size.h;
this.yaxis._length = size.h * (domain.y[1] - domain.y[0]);
};
proto.updateLayers = function() {
var opts = this.opts;
var layers = opts.layers;
var layerList = this.layerList;
var i;
// if the layer arrays don't match,
// don't try to be smart,
// delete them all, and start all over.
if(layers.length !== layerList.length) {
for(i = 0; i < layerList.length; i++) {
layerList[i].dispose();
}
layerList = this.layerList = [];
for(i = 0; i < layers.length; i++) {
layerList.push(createMapboxLayer(this, i, layers[i]));
}
} else {
for(i = 0; i < layers.length; i++) {
layerList[i].update(layers[i]);
}
}
};
proto.destroy = function() {
if(this.map) {
this.map.remove();
this.map = null;
this.container.removeChild(this.div);
}
};
proto.toImage = function() {
this.map.stop();
return this.map.getCanvas().toDataURL();
};
// convenience wrapper to create set multiple layer
// 'layout' or 'paint options at once.
proto.setOptions = function(id, methodName, opts) {
for(var k in opts) {
this.map[methodName](id, k, opts[k]);
}
};
// convenience method to project a [lon, lat] array to pixel coords
proto.project = function(v) {
return this.map.project(new mapboxgl.LngLat(v[0], v[1]));
};
// get map's current view values in plotly.js notation
proto.getView = function() {
var map = this.map;
var mapCenter = map.getCenter();
var center = { lon: mapCenter.lng, lat: mapCenter.lat };
return {
center: center,
zoom: map.getZoom(),
bearing: map.getBearing(),
pitch: map.getPitch()
};
};
function getStyleObj(val) {
var styleValues = layoutAttributes.style.values;
var styleDflt = layoutAttributes.style.dflt;
var styleObj = {};
if(Lib.isPlainObject(val)) {
styleObj.id = val.id;
styleObj.style = val;
} else if(typeof val === 'string') {
styleObj.id = val;
styleObj.style = (styleValues.indexOf(val) !== -1) ?
convertStyleVal(val) :
val;
} else {
styleObj.id = styleDflt;
styleObj.style = convertStyleVal(styleDflt);
}
styleObj.transition = {duration: 0, delay: 0};
return styleObj;
}
// if style is part of the 'official' mapbox values, add URL prefix and suffix
function convertStyleVal(val) {
return constants.styleUrlPrefix + val + '-' + constants.styleUrlSuffix;
}
function convertCenter(center) {
return [center.lon, center.lat];
}
},{"../../components/dragelement":589,"../../components/fx":609,"../../lib":693,"../cartesian/select":759,"./constants":797,"./layers":800,"./layout_attributes":801,"mapbox-gl":406}],804:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
// This is used exclusively by components inside component arrays,
// hence the 'arraydraw' editType. If this ever gets used elsewhere
// we could generalize it as a function ala font_attributes
module.exports = {
t: {
valType: 'number',
dflt: 0,
editType: 'arraydraw',
},
r: {
valType: 'number',
dflt: 0,
editType: 'arraydraw',
},
b: {
valType: 'number',
dflt: 0,
editType: 'arraydraw',
},
l: {
valType: 'number',
dflt: 0,
editType: 'arraydraw',
},
editType: 'arraydraw'
};
},{}],805:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var isNumeric = _dereq_('fast-isnumeric');
var Registry = _dereq_('../registry');
var PlotSchema = _dereq_('../plot_api/plot_schema');
var Template = _dereq_('../plot_api/plot_template');
var Lib = _dereq_('../lib');
var Color = _dereq_('../components/color');
var BADNUM = _dereq_('../constants/numerical').BADNUM;
var axisIDs = _dereq_('../plots/cartesian/axis_ids');
var sortBasePlotModules = _dereq_('./sort_modules').sortBasePlotModules;
var animationAttrs = _dereq_('./animation_attributes');
var frameAttrs = _dereq_('./frame_attributes');
var relinkPrivateKeys = Lib.relinkPrivateKeys;
var _ = Lib._;
var plots = module.exports = {};
// Expose registry methods on Plots for backward-compatibility
Lib.extendFlat(plots, Registry);
plots.attributes = _dereq_('./attributes');
plots.attributes.type.values = plots.allTypes;
plots.fontAttrs = _dereq_('./font_attributes');
plots.layoutAttributes = _dereq_('./layout_attributes');
// TODO make this a plot attribute?
plots.fontWeight = 'normal';
var transformsRegistry = plots.transformsRegistry;
var commandModule = _dereq_('./command');
plots.executeAPICommand = commandModule.executeAPICommand;
plots.computeAPICommandBindings = commandModule.computeAPICommandBindings;
plots.manageCommandObserver = commandModule.manageCommandObserver;
plots.hasSimpleAPICommandBindings = commandModule.hasSimpleAPICommandBindings;
// in some cases the browser doesn't seem to know how big
// the text is at first, so it needs to draw it,
// then wait a little, then draw it again
plots.redrawText = function(gd) {
gd = Lib.getGraphDiv(gd);
// do not work if polar is present
if((gd.data && gd.data[0] && gd.data[0].r)) return;
return new Promise(function(resolve) {
setTimeout(function() {
Registry.getComponentMethod('annotations', 'draw')(gd);
Registry.getComponentMethod('legend', 'draw')(gd);
(gd.calcdata || []).forEach(function(d) {
if(d[0] && d[0].t && d[0].t.cb) d[0].t.cb();
});
resolve(plots.previousPromises(gd));
}, 300);
});
};
// resize plot about the container size
plots.resize = function(gd) {
gd = Lib.getGraphDiv(gd);
return new Promise(function(resolve, reject) {
function isHidden(gd) {
var display = window.getComputedStyle(gd).display;
return !display || display === 'none';
}
if(!gd || isHidden(gd)) {
reject(new Error('Resize must be passed a displayed plot div element.'));
}
if(gd._redrawTimer) clearTimeout(gd._redrawTimer);
gd._redrawTimer = setTimeout(function() {
// return if there is nothing to resize or is hidden
if(!gd.layout || (gd.layout.width && gd.layout.height) || isHidden(gd)) {
resolve(gd);
return;
}
delete gd.layout.width;
delete gd.layout.height;
// autosizing doesn't count as a change that needs saving
var oldchanged = gd.changed;
// nor should it be included in the undo queue
gd.autoplay = true;
Registry.call('relayout', gd, {autosize: true}).then(function() {
gd.changed = oldchanged;
resolve(gd);
});
}, 100);
});
};
// for use in Lib.syncOrAsync, check if there are any
// pending promises in this plot and wait for them
plots.previousPromises = function(gd) {
if((gd._promises || []).length) {
return Promise.all(gd._promises)
.then(function() { gd._promises = []; });
}
};
/**
* Adds the 'Edit chart' link.
* Note that now Plotly.plot() calls this so it can regenerate whenever it replots
*
* Add source links to your graph inside the 'showSources' config argument.
*/
plots.addLinks = function(gd) {
// Do not do anything if showLink and showSources are not set to true in config
if(!gd._context.showLink && !gd._context.showSources) return;
var fullLayout = gd._fullLayout;
var linkContainer = Lib.ensureSingle(fullLayout._paper, 'text', 'js-plot-link-container', function(s) {
s.style({
'font-family': '"Open Sans", Arial, sans-serif',
'font-size': '12px',
'fill': Color.defaultLine,
'pointer-events': 'all'
})
.each(function() {
var links = d3.select(this);
links.append('tspan').classed('js-link-to-tool', true);
links.append('tspan').classed('js-link-spacer', true);
links.append('tspan').classed('js-sourcelinks', true);
});
});
// The text node inside svg
var text = linkContainer.node();
var attrs = {y: fullLayout._paper.attr('height') - 9};
// If text's width is bigger than the layout
// Check that text is a child node or document.body
// because otherwise IE/Edge might throw an exception
// when calling getComputedTextLength().
// Apparently offsetParent is null for invisibles.
if(document.body.contains(text) && text.getComputedTextLength() >= (fullLayout.width - 20)) {
// Align the text at the left
attrs['text-anchor'] = 'start';
attrs.x = 5;
}
else {
// Align the text at the right
attrs['text-anchor'] = 'end';
attrs.x = fullLayout._paper.attr('width') - 7;
}
linkContainer.attr(attrs);
var toolspan = linkContainer.select('.js-link-to-tool'),
spacespan = linkContainer.select('.js-link-spacer'),
sourcespan = linkContainer.select('.js-sourcelinks');
if(gd._context.showSources) gd._context.showSources(gd);
// 'view in plotly' link for embedded plots
if(gd._context.showLink) positionPlayWithData(gd, toolspan);
// separator if we have both sources and tool link
spacespan.text((toolspan.text() && sourcespan.text()) ? ' - ' : '');
};
// note that now this function is only adding the brand in
// iframes and 3rd-party apps
function positionPlayWithData(gd, container) {
container.text('');
var link = container.append('a')
.attr({
'xlink:xlink:href': '#',
'class': 'link--impt link--embedview',
'font-weight': 'bold'
})
.text(gd._context.linkText + ' ' + String.fromCharCode(187));
if(gd._context.sendData) {
link.on('click', function() {
plots.sendDataToCloud(gd);
});
}
else {
var path = window.location.pathname.split('/');
var query = window.location.search;
link.attr({
'xlink:xlink:show': 'new',
'xlink:xlink:href': '/' + path[2].split('.')[0] + '/' + path[1] + query
});
}
}
plots.sendDataToCloud = function(gd) {
gd.emit('plotly_beforeexport');
var baseUrl = (window.PLOTLYENV || {}).BASE_URL || gd._context.plotlyServerURL;
var hiddenformDiv = d3.select(gd)
.append('div')
.attr('id', 'hiddenform')
.style('display', 'none');
var hiddenform = hiddenformDiv
.append('form')
.attr({
action: baseUrl + '/external',
method: 'post',
target: '_blank'
});
var hiddenformInput = hiddenform
.append('input')
.attr({
type: 'text',
name: 'data'
});
hiddenformInput.node().value = plots.graphJson(gd, false, 'keepdata');
hiddenform.node().submit();
hiddenformDiv.remove();
gd.emit('plotly_afterexport');
return false;
};
var d3FormatKeys = [
'days', 'shortDays', 'months', 'shortMonths', 'periods',
'dateTime', 'date', 'time',
'decimal', 'thousands', 'grouping', 'currency'
];
var extraFormatKeys = [
'year', 'month', 'dayMonth', 'dayMonthYear'
];
/*
* Fill in default values
* @param {DOM element} gd
* @param {object} opts
* @param {boolean} opts.skipUpdateCalc: normally if the existing gd.calcdata looks
* compatible with the new gd._fullData we finish by linking the new _fullData traces
* to the old gd.calcdata, so it's correctly set if we're not going to recalc. But also,
* if there are calcTransforms on the trace, we first remap data arrays from the old full
* trace into the new one. Use skipUpdateCalc to defer this (needed by Plotly.react)
*
* gd.data, gd.layout:
* are precisely what the user specified (except as modified by cleanData/cleanLayout),
* these fields shouldn't be modified (except for filling in some auto values)
* nor used directly after the supply defaults step.
*
* gd._fullData, gd._fullLayout:
* are complete descriptions of how to draw the plot,
* use these fields in all required computations.
*
* gd._fullLayout._modules
* is a list of all the trace modules required to draw the plot.
*
* gd._fullLayout._visibleModules
* subset of _modules, a list of modules corresponding to visible:true traces.
*
* gd._fullLayout._basePlotModules
* is a list of all the plot modules required to draw the plot.
*
* gd._fullLayout._transformModules
* is a list of all the transform modules invoked.
*
*/
plots.supplyDefaults = function(gd, opts) {
var skipUpdateCalc = opts && opts.skipUpdateCalc;
var oldFullLayout = gd._fullLayout || {};
if(oldFullLayout._skipDefaults) {
delete oldFullLayout._skipDefaults;
return;
}
var newFullLayout = gd._fullLayout = {};
var newLayout = gd.layout || {};
var oldFullData = gd._fullData || [];
var newFullData = gd._fullData = [];
var newData = gd.data || [];
var oldCalcdata = gd.calcdata || [];
var context = gd._context || {};
var i;
// Create all the storage space for frames, but only if doesn't already exist
if(!gd._transitionData) plots.createTransitionData(gd);
// So we only need to do this once (and since we have gd here)
// get the translated placeholder titles.
// These ones get used as default values so need to be known at supplyDefaults
// others keep their blank defaults but render the placeholder as desired later
// TODO: make these work the same way, only inserting the placeholder text at draw time?
// The challenge is that this has slightly different behavior right now in editable mode:
// using the placeholder as default makes this text permanently (but lightly) visible,
// but explicit '' for these titles gives you a placeholder that's hidden until you mouse
// over it - so you're not distracted by it if you really don't want a title, but if you do
// and you're new to plotly you may not be able to find it.
// When editable=false the two behave the same, no title is drawn.
newFullLayout._dfltTitle = {
plot: _(gd, 'Click to enter Plot title'),
x: _(gd, 'Click to enter X axis title'),
y: _(gd, 'Click to enter Y axis title'),
colorbar: _(gd, 'Click to enter Colorscale title'),
annotation: _(gd, 'new text')
};
newFullLayout._traceWord = _(gd, 'trace');
var formatObj = getFormatObj(gd, d3FormatKeys);
// stash the token from context so mapbox subplots can use it as default
newFullLayout._mapboxAccessToken = context.mapboxAccessToken;
// first fill in what we can of layout without looking at data
// because fullData needs a few things from layout
if(oldFullLayout._initialAutoSizeIsDone) {
// coerce the updated layout while preserving width and height
var oldWidth = oldFullLayout.width,
oldHeight = oldFullLayout.height;
plots.supplyLayoutGlobalDefaults(newLayout, newFullLayout, formatObj);
if(!newLayout.width) newFullLayout.width = oldWidth;
if(!newLayout.height) newFullLayout.height = oldHeight;
plots.sanitizeMargins(newFullLayout);
}
else {
// coerce the updated layout and autosize if needed
plots.supplyLayoutGlobalDefaults(newLayout, newFullLayout, formatObj);
var missingWidthOrHeight = (!newLayout.width || !newLayout.height),
autosize = newFullLayout.autosize,
autosizable = context.autosizable,
initialAutoSize = missingWidthOrHeight && (autosize || autosizable);
if(initialAutoSize) plots.plotAutoSize(gd, newLayout, newFullLayout);
else if(missingWidthOrHeight) plots.sanitizeMargins(newFullLayout);
// for backwards-compatibility with Plotly v1.x.x
if(!autosize && missingWidthOrHeight) {
newLayout.width = newFullLayout.width;
newLayout.height = newFullLayout.height;
}
}
newFullLayout._d3locale = getFormatter(formatObj, newFullLayout.separators);
newFullLayout._extraFormat = getFormatObj(gd, extraFormatKeys);
newFullLayout._initialAutoSizeIsDone = true;
// keep track of how many traces are inputted
newFullLayout._dataLength = newData.length;
// clear the lists of trace and baseplot modules, and subplots
newFullLayout._modules = [];
newFullLayout._visibleModules = [];
newFullLayout._basePlotModules = [];
var subplots = newFullLayout._subplots = emptySubplotLists();
// initialize axis and subplot hash objects for splom-generated grids
var splomAxes = newFullLayout._splomAxes = {x: {}, y: {}};
var splomSubplots = newFullLayout._splomSubplots = {};
// initialize splom grid defaults
newFullLayout._splomGridDflt = {};
// for stacked area traces to share config across traces
newFullLayout._scatterStackOpts = {};
// for the first scatter trace on each subplot (so it knows tonext->tozero)
newFullLayout._firstScatter = {};
// for traces to request a default rangeslider on their x axes
// eg set `_requestRangeslider.x2 = true` for xaxis2
newFullLayout._requestRangeslider = {};
// pull uids from old data to use as new defaults
newFullLayout._traceUids = getTraceUids(oldFullData, newData);
// then do the data
newFullLayout._globalTransforms = (gd._context || {}).globalTransforms;
plots.supplyDataDefaults(newData, newFullData, newLayout, newFullLayout);
// redo grid size defaults with info about splom x/y axes,
// and fill in generated cartesian axes and subplots
var splomXa = Object.keys(splomAxes.x);
var splomYa = Object.keys(splomAxes.y);
if(splomXa.length > 1 && splomYa.length > 1) {
Registry.getComponentMethod('grid', 'sizeDefaults')(newLayout, newFullLayout);
for(i = 0; i < splomXa.length; i++) {
Lib.pushUnique(subplots.xaxis, splomXa[i]);
}
for(i = 0; i < splomYa.length; i++) {
Lib.pushUnique(subplots.yaxis, splomYa[i]);
}
for(var k in splomSubplots) {
Lib.pushUnique(subplots.cartesian, k);
}
}
// attach helper method to check whether a plot type is present on graph
newFullLayout._has = plots._hasPlotType.bind(newFullLayout);
// special cases that introduce interactions between traces
var _modules = newFullLayout._visibleModules;
for(i = 0; i < _modules.length; i++) {
var _module = _modules[i];
if(_module.cleanData) _module.cleanData(newFullData);
}
if(oldFullData.length === newFullData.length) {
for(i = 0; i < newFullData.length; i++) {
relinkPrivateKeys(newFullData[i], oldFullData[i]);
}
}
// finally, fill in the pieces of layout that may need to look at data
plots.supplyLayoutModuleDefaults(newLayout, newFullLayout, newFullData, gd._transitionData);
// turn on flag to optimize large splom-only graphs
// mostly by omitting SVG layers during Cartesian.drawFramework
newFullLayout._hasOnlyLargeSploms = (
newFullLayout._basePlotModules.length === 1 &&
newFullLayout._basePlotModules[0].name === 'splom' &&
splomXa.length > 15 &&
splomYa.length > 15 &&
newFullLayout.shapes.length === 0 &&
newFullLayout.images.length === 0
);
// TODO remove in v2.0.0
// add has-plot-type refs to fullLayout for backward compatibility
newFullLayout._hasCartesian = newFullLayout._has('cartesian');
newFullLayout._hasGeo = newFullLayout._has('geo');
newFullLayout._hasGL3D = newFullLayout._has('gl3d');
newFullLayout._hasGL2D = newFullLayout._has('gl2d');
newFullLayout._hasTernary = newFullLayout._has('ternary');
newFullLayout._hasPie = newFullLayout._has('pie');
// relink / initialize subplot axis objects
plots.linkSubplots(newFullData, newFullLayout, oldFullData, oldFullLayout);
// clean subplots and other artifacts from previous plot calls
plots.cleanPlot(newFullData, newFullLayout, oldFullData, oldFullLayout, oldCalcdata);
// relink functions and _ attributes to promote consistency between plots
relinkPrivateKeys(newFullLayout, oldFullLayout);
// TODO may return a promise
plots.doAutoMargin(gd);
// set scale after auto margin routine
var axList = axisIDs.list(gd);
for(i = 0; i < axList.length; i++) {
var ax = axList[i];
ax.setScale();
}
// update object references in calcdata
if(!skipUpdateCalc && oldCalcdata.length === newFullData.length) {
plots.supplyDefaultsUpdateCalc(oldCalcdata, newFullData);
}
// sort base plot modules for consistent ordering
newFullLayout._basePlotModules.sort(sortBasePlotModules);
};
plots.supplyDefaultsUpdateCalc = function(oldCalcdata, newFullData) {
for(var i = 0; i < newFullData.length; i++) {
var newTrace = newFullData[i];
var cd0 = oldCalcdata[i][0];
if(cd0 && cd0.trace) {
var oldTrace = cd0.trace;
if(oldTrace._hasCalcTransform) {
var arrayAttrs = oldTrace._arrayAttrs;
var j, astr, oldArrayVal;
for(j = 0; j < arrayAttrs.length; j++) {
astr = arrayAttrs[j];
oldArrayVal = Lib.nestedProperty(oldTrace, astr).get().slice();
Lib.nestedProperty(newTrace, astr).set(oldArrayVal);
}
}
cd0.trace = newTrace;
}
}
};
/**
* Create a list of uid strings satisfying (in this order of importance):
* 1. all unique, all strings
* 2. matches input uids if provided
* 3. matches previous data uids
*/
function getTraceUids(oldFullData, newData) {
var len = newData.length;
var oldFullInput = [];
var i, prevFullInput;
for(i = 0; i < oldFullData.length; i++) {
var thisFullInput = oldFullData[i]._fullInput;
if(thisFullInput !== prevFullInput) oldFullInput.push(thisFullInput);
prevFullInput = thisFullInput;
}
var oldLen = oldFullInput.length;
var out = new Array(len);
var seenUids = {};
function setUid(uid, i) {
out[i] = uid;
seenUids[uid] = 1;
}
function tryUid(uid, i) {
if(uid && typeof uid === 'string' && !seenUids[uid]) {
setUid(uid, i);
return true;
}
}
for(i = 0; i < len; i++) {
if(tryUid(newData[i].uid, i)) continue;
if(i < oldLen && tryUid(oldFullInput[i].uid, i)) continue;
setUid(Lib.randstr(seenUids), i);
}
return out;
}
/**
* Make a container for collecting subplots we need to display.
*
* Finds all subplot types we need to enumerate once and caches it,
* but makes a new output object each time.
* Single-trace subplots (which have no `id`) such as pie, table, etc
* do not need to be collected because we just draw all visible traces.
*/
var collectableSubplotTypes;
function emptySubplotLists() {
var out = {};
var i, j;
if(!collectableSubplotTypes) {
collectableSubplotTypes = [];
var subplotsRegistry = Registry.subplotsRegistry;
for(var subplotType in subplotsRegistry) {
var subplotModule = subplotsRegistry[subplotType];
var subplotAttr = subplotModule.attr;
if(subplotAttr) {
collectableSubplotTypes.push(subplotType);
// special case, currently just for cartesian:
// we need to enumerate axes, not just subplots
if(Array.isArray(subplotAttr)) {
for(j = 0; j < subplotAttr.length; j++) {
Lib.pushUnique(collectableSubplotTypes, subplotAttr[j]);
}
}
}
}
}
for(i = 0; i < collectableSubplotTypes.length; i++) {
out[collectableSubplotTypes[i]] = [];
}
return out;
}
/**
* getFormatObj: use _context to get the format object from locale.
* Used to get d3.locale argument object and extraFormat argument object
*
* Regarding d3.locale argument :
* decimal and thousands can be overridden later by layout.separators
* grouping and currency are not presently used by our automatic number
* formatting system but can be used by custom formats.
*
* @returns {object} d3.locale format object
*/
function getFormatObj(gd, formatKeys) {
var locale = gd._context.locale;
if(!locale) locale === 'en-US';
var formatDone = false;
var formatObj = {};
function includeFormat(newFormat) {
var formatFinished = true;
for(var i = 0; i < formatKeys.length; i++) {
var formatKey = formatKeys[i];
if(!formatObj[formatKey]) {
if(newFormat[formatKey]) {
formatObj[formatKey] = newFormat[formatKey];
}
else formatFinished = false;
}
}
if(formatFinished) formatDone = true;
}
// same as localize, look for format parts in each format spec in the chain
for(var i = 0; i < 2; i++) {
var locales = gd._context.locales;
for(var j = 0; j < 2; j++) {
var formatj = (locales[locale] || {}).format;
if(formatj) {
includeFormat(formatj);
if(formatDone) break;
}
locales = Registry.localeRegistry;
}
var baseLocale = locale.split('-')[0];
if(formatDone || baseLocale === locale) break;
locale = baseLocale;
}
// lastly pick out defaults from english (non-US, as DMY is so much more common)
if(!formatDone) includeFormat(Registry.localeRegistry.en.format);
return formatObj;
}
/**
* getFormatter: combine the final separators with the locale formatting object
* we pulled earlier to generate number and time formatters
* TODO: remove separators in v2, only use locale, so we don't need this step?
*
* @param {object} formatObj: d3.locale format object
* @param {string} separators: length-2 string to override decimal and thousands
* separators in number formatting
*
* @returns {object} {numberFormat, timeFormat} d3 formatter factory functions
* for numbers and time
*/
function getFormatter(formatObj, separators) {
formatObj.decimal = separators.charAt(0);
formatObj.thousands = separators.charAt(1);
return d3.locale(formatObj);
}
// Create storage for all of the data related to frames and transitions:
plots.createTransitionData = function(gd) {
// Set up the default keyframe if it doesn't exist:
if(!gd._transitionData) {
gd._transitionData = {};
}
if(!gd._transitionData._frames) {
gd._transitionData._frames = [];
}
if(!gd._transitionData._frameHash) {
gd._transitionData._frameHash = {};
}
if(!gd._transitionData._counter) {
gd._transitionData._counter = 0;
}
if(!gd._transitionData._interruptCallbacks) {
gd._transitionData._interruptCallbacks = [];
}
};
// helper function to be bound to fullLayout to check
// whether a certain plot type is present on plot
// or trace has a category
plots._hasPlotType = function(category) {
var i;
// check base plot modules
var basePlotModules = this._basePlotModules || [];
for(i = 0; i < basePlotModules.length; i++) {
if(basePlotModules[i].name === category) return true;
}
// check trace modules (including non-visible:true)
var modules = this._modules || [];
for(i = 0; i < modules.length; i++) {
var name = modules[i].name;
if(name === category) return true;
// N.B. this is modules[i] along with 'categories' as a hash object
var _module = Registry.modules[name];
if(_module && _module.categories[category]) return true;
}
return false;
};
plots.cleanPlot = function(newFullData, newFullLayout, oldFullData, oldFullLayout, oldCalcdata) {
var i, j;
var basePlotModules = oldFullLayout._basePlotModules || [];
for(i = 0; i < basePlotModules.length; i++) {
var _module = basePlotModules[i];
if(_module.clean) {
_module.clean(newFullData, newFullLayout, oldFullData, oldFullLayout, oldCalcdata);
}
}
var hadGl = oldFullLayout._has && oldFullLayout._has('gl');
var hasGl = newFullLayout._has && newFullLayout._has('gl');
if(hadGl && !hasGl) {
if(oldFullLayout._glcontainer !== undefined) {
oldFullLayout._glcontainer.selectAll('.gl-canvas').remove();
oldFullLayout._glcontainer.selectAll('.no-webgl').remove();
oldFullLayout._glcanvas = null;
}
}
var hasInfoLayer = !!oldFullLayout._infolayer;
oldLoop:
for(i = 0; i < oldFullData.length; i++) {
var oldTrace = oldFullData[i],
oldUid = oldTrace.uid;
for(j = 0; j < newFullData.length; j++) {
var newTrace = newFullData[j];
if(oldUid === newTrace.uid) continue oldLoop;
}
// clean old colorbars
if(hasInfoLayer) {
oldFullLayout._infolayer.select('.cb' + oldUid).remove();
}
}
if(oldFullLayout._zoomlayer) {
oldFullLayout._zoomlayer.selectAll('.select-outline').remove();
}
};
plots.linkSubplots = function(newFullData, newFullLayout, oldFullData, oldFullLayout) {
var i, j;
var oldSubplots = oldFullLayout._plots || {};
var newSubplots = newFullLayout._plots = {};
var newSubplotList = newFullLayout._subplots;
var mockGd = {
_fullData: newFullData,
_fullLayout: newFullLayout
};
var ids = newSubplotList.cartesian.concat(newSubplotList.gl2d || []);
for(i = 0; i < ids.length; i++) {
var id = ids[i];
var oldSubplot = oldSubplots[id];
var xaxis = axisIDs.getFromId(mockGd, id, 'x');
var yaxis = axisIDs.getFromId(mockGd, id, 'y');
var plotinfo;
// link or create subplot object
if(oldSubplot) {
plotinfo = newSubplots[id] = oldSubplot;
} else {
plotinfo = newSubplots[id] = {};
plotinfo.id = id;
}
// update x and y axis layout object refs
plotinfo.xaxis = xaxis;
plotinfo.yaxis = yaxis;
// By default, we clip at the subplot level,
// but if one trace on a given subplot has *cliponaxis* set to false,
// we need to clip at the trace module layer level;
// find this out here, once of for all.
plotinfo._hasClipOnAxisFalse = false;
for(j = 0; j < newFullData.length; j++) {
var trace = newFullData[j];
if(
trace.xaxis === plotinfo.xaxis._id &&
trace.yaxis === plotinfo.yaxis._id &&
trace.cliponaxis === false
) {
plotinfo._hasClipOnAxisFalse = true;
break;
}
}
}
// while we're at it, link overlaying axes to their main axes and
// anchored axes to the axes they're anchored to
var axList = axisIDs.list(mockGd, null, true);
for(i = 0; i < axList.length; i++) {
var ax = axList[i];
var mainAx = null;
if(ax.overlaying) {
mainAx = axisIDs.getFromId(mockGd, ax.overlaying);
// you cannot overlay an axis that's already overlaying another
if(mainAx && mainAx.overlaying) {
ax.overlaying = false;
mainAx = null;
}
}
ax._mainAxis = mainAx || ax;
/*
* For now force overlays to overlay completely... so they
* can drag together correctly and share backgrounds.
* Later perhaps we make separate axis domain and
* tick/line domain or something, so they can still share
* the (possibly larger) dragger and background but don't
* have to both be drawn over that whole domain
*/
if(mainAx) ax.domain = mainAx.domain.slice();
ax._anchorAxis = ax.anchor === 'free' ?
null :
axisIDs.getFromId(mockGd, ax.anchor);
}
};
// This function clears any trace attributes with valType: color and
// no set dflt filed in the plot schema. This is needed because groupby (which
// is the only transform for which this currently applies) supplies parent
// trace defaults, then expanded trace defaults. The result is that `null`
// colors are default-supplied and inherited as a color instead of a null.
// The result is that expanded trace default colors have no effect, with
// the final result that groups are indistinguishable. This function clears
// those colors so that individual groupby groups get unique colors.
plots.clearExpandedTraceDefaultColors = function(trace) {
var colorAttrs, path, i;
// This uses weird closure state in order to satisfy the linter rule
// that we can't create functions in a loop.
function locateColorAttrs(attr, attrName, attrs, level) {
path[level] = attrName;
path.length = level + 1;
if(attr.valType === 'color' && attr.dflt === undefined) {
colorAttrs.push(path.join('.'));
}
}
path = [];
// Get the cached colorAttrs:
colorAttrs = trace._module._colorAttrs;
// Or else compute and cache the colorAttrs on the module:
if(!colorAttrs) {
trace._module._colorAttrs = colorAttrs = [];
PlotSchema.crawl(
trace._module.attributes,
locateColorAttrs
);
}
for(i = 0; i < colorAttrs.length; i++) {
var origprop = Lib.nestedProperty(trace, '_input.' + colorAttrs[i]);
if(!origprop.get()) {
Lib.nestedProperty(trace, colorAttrs[i]).set(null);
}
}
};
plots.supplyDataDefaults = function(dataIn, dataOut, layout, fullLayout) {
var modules = fullLayout._modules;
var visibleModules = fullLayout._visibleModules;
var basePlotModules = fullLayout._basePlotModules;
var cnt = 0;
var colorCnt = 0;
var i, fullTrace, trace;
fullLayout._transformModules = [];
function pushModule(fullTrace) {
dataOut.push(fullTrace);
var _module = fullTrace._module;
if(!_module) return;
Lib.pushUnique(modules, _module);
if(fullTrace.visible === true) Lib.pushUnique(visibleModules, _module);
Lib.pushUnique(basePlotModules, fullTrace._module.basePlotModule);
cnt++;
// TODO: do we really want color not to increment for explicitly invisible traces?
// This logic is weird, but matches previous behavior: traces that you explicitly
// set to visible:false do not increment the color, but traces WE determine to be
// empty or invalid (and thus set to visible:false) DO increment color.
// I kind of think we should just let all traces increment color, visible or not.
// see mock: axes-autotype-empty vs. a test of restyling visible: false that
// I can't find right now...
if(fullTrace._input.visible !== false) colorCnt++;
}
var carpetIndex = {};
var carpetDependents = [];
var dataTemplate = (layout.template || {}).data || {};
var templater = Template.traceTemplater(dataTemplate);
for(i = 0; i < dataIn.length; i++) {
trace = dataIn[i];
// reuse uid we may have pulled out of oldFullData
// Note: templater supplies trace type
fullTrace = templater.newTrace(trace);
fullTrace.uid = fullLayout._traceUids[i];
plots.supplyTraceDefaults(trace, fullTrace, colorCnt, fullLayout, i);
fullTrace.index = i;
fullTrace._input = trace;
fullTrace._expandedIndex = cnt;
if(fullTrace.transforms && fullTrace.transforms.length) {
var expandedTraces = applyTransforms(fullTrace, dataOut, layout, fullLayout);
for(var j = 0; j < expandedTraces.length; j++) {
var expandedTrace = expandedTraces[j];
// No further templating during transforms.
var fullExpandedTrace = {
_template: fullTrace._template,
type: fullTrace.type,
// set uid using parent uid and expanded index
// to promote consistency between update calls
uid: fullTrace.uid + j
};
plots.supplyTraceDefaults(expandedTrace, fullExpandedTrace, cnt, fullLayout, i);
// relink private (i.e. underscore) keys expanded trace to full expanded trace so
// that transform supply-default methods can set _ keys for future use.
relinkPrivateKeys(fullExpandedTrace, expandedTrace);
// add info about parent data trace
fullExpandedTrace.index = i;
fullExpandedTrace._input = trace;
fullExpandedTrace._fullInput = fullTrace;
// add info about the expanded data
fullExpandedTrace._expandedIndex = cnt;
fullExpandedTrace._expandedInput = expandedTrace;
pushModule(fullExpandedTrace);
}
}
else {
// add identify refs for consistency with transformed traces
fullTrace._fullInput = fullTrace;
fullTrace._expandedInput = fullTrace;
pushModule(fullTrace);
}
if(Registry.traceIs(fullTrace, 'carpetAxis')) {
carpetIndex[fullTrace.carpet] = fullTrace;
}
if(Registry.traceIs(fullTrace, 'carpetDependent')) {
carpetDependents.push(i);
}
}
for(i = 0; i < carpetDependents.length; i++) {
fullTrace = dataOut[carpetDependents[i]];
if(!fullTrace.visible) continue;
var carpetAxis = carpetIndex[fullTrace.carpet];
fullTrace._carpet = carpetAxis;
if(!carpetAxis || !carpetAxis.visible) {
fullTrace.visible = false;
continue;
}
fullTrace.xaxis = carpetAxis.xaxis;
fullTrace.yaxis = carpetAxis.yaxis;
}
};
plots.supplyAnimationDefaults = function(opts) {
opts = opts || {};
var i;
var optsOut = {};
function coerce(attr, dflt) {
return Lib.coerce(opts || {}, optsOut, animationAttrs, attr, dflt);
}
coerce('mode');
coerce('direction');
coerce('fromcurrent');
if(Array.isArray(opts.frame)) {
optsOut.frame = [];
for(i = 0; i < opts.frame.length; i++) {
optsOut.frame[i] = plots.supplyAnimationFrameDefaults(opts.frame[i] || {});
}
} else {
optsOut.frame = plots.supplyAnimationFrameDefaults(opts.frame || {});
}
if(Array.isArray(opts.transition)) {
optsOut.transition = [];
for(i = 0; i < opts.transition.length; i++) {
optsOut.transition[i] = plots.supplyAnimationTransitionDefaults(opts.transition[i] || {});
}
} else {
optsOut.transition = plots.supplyAnimationTransitionDefaults(opts.transition || {});
}
return optsOut;
};
plots.supplyAnimationFrameDefaults = function(opts) {
var optsOut = {};
function coerce(attr, dflt) {
return Lib.coerce(opts || {}, optsOut, animationAttrs.frame, attr, dflt);
}
coerce('duration');
coerce('redraw');
return optsOut;
};
plots.supplyAnimationTransitionDefaults = function(opts) {
var optsOut = {};
function coerce(attr, dflt) {
return Lib.coerce(opts || {}, optsOut, animationAttrs.transition, attr, dflt);
}
coerce('duration');
coerce('easing');
return optsOut;
};
plots.supplyFrameDefaults = function(frameIn) {
var frameOut = {};
function coerce(attr, dflt) {
return Lib.coerce(frameIn, frameOut, frameAttrs, attr, dflt);
}
coerce('group');
coerce('name');
coerce('traces');
coerce('baseframe');
coerce('data');
coerce('layout');
return frameOut;
};
plots.supplyTraceDefaults = function(traceIn, traceOut, colorIndex, layout, traceInIndex) {
var colorway = layout.colorway || Color.defaults;
var defaultColor = colorway[colorIndex % colorway.length];
var i;
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, plots.attributes, attr, dflt);
}
var visible = coerce('visible');
coerce('type');
coerce('name', layout._traceWord + ' ' + traceInIndex);
// we want even invisible traces to make their would-be subplots visible
// so coerce the subplot id(s) now no matter what
var _module = plots.getModule(traceOut);
traceOut._module = _module;
if(_module) {
var basePlotModule = _module.basePlotModule;
var subplotAttr = basePlotModule.attr;
var subplotAttrs = basePlotModule.attributes;
if(subplotAttr && subplotAttrs) {
var subplots = layout._subplots;
var subplotId = '';
// TODO - currently if we draw an empty gl2d subplot, it draws
// nothing then gets stuck and you can't get it back without newPlot
// sort this out in the regl refactor? but for now just drop empty gl2d subplots
if(basePlotModule.name !== 'gl2d' || visible) {
if(Array.isArray(subplotAttr)) {
for(i = 0; i < subplotAttr.length; i++) {
var attri = subplotAttr[i];
var vali = Lib.coerce(traceIn, traceOut, subplotAttrs, attri);
if(subplots[attri]) Lib.pushUnique(subplots[attri], vali);
subplotId += vali;
}
}
else {
subplotId = Lib.coerce(traceIn, traceOut, subplotAttrs, subplotAttr);
}
if(subplots[basePlotModule.name]) {
Lib.pushUnique(subplots[basePlotModule.name], subplotId);
}
}
}
}
if(visible) {
coerce('customdata');
coerce('ids');
if(Registry.traceIs(traceOut, 'showLegend')) {
traceOut._dfltShowLegend = true;
coerce('showlegend');
coerce('legendgroup');
}
else {
traceOut._dfltShowLegend = false;
}
Registry.getComponentMethod(
'fx',
'supplyDefaults'
)(traceIn, traceOut, defaultColor, layout);
// TODO add per-base-plot-module trace defaults step
if(_module) {
_module.supplyDefaults(traceIn, traceOut, defaultColor, layout);
Lib.coerceHoverinfo(traceIn, traceOut, layout);
}
if(!Registry.traceIs(traceOut, 'noOpacity')) coerce('opacity');
if(Registry.traceIs(traceOut, 'notLegendIsolatable')) {
// This clears out the legendonly state for traces like carpet that
// cannot be isolated in the legend
traceOut.visible = !!traceOut.visible;
}
if(_module && _module.selectPoints) {
coerce('selectedpoints');
}
plots.supplyTransformDefaults(traceIn, traceOut, layout);
}
return traceOut;
};
/**
* hasMakesDataTransform: does this trace have a transform that makes its own
* data, either by grabbing it from somewhere else or by creating it from input
* parameters? If so, we should still keep going with supplyDefaults
* even if the trace is invisible, which may just be because it has no data yet.
*/
function hasMakesDataTransform(trace) {
var transforms = trace.transforms;
if(Array.isArray(transforms) && transforms.length) {
for(var i = 0; i < transforms.length; i++) {
var ti = transforms[i];
var _module = ti._module || transformsRegistry[ti.type];
if(_module && _module.makesData) return true;
}
}
return false;
}
plots.hasMakesDataTransform = hasMakesDataTransform;
plots.supplyTransformDefaults = function(traceIn, traceOut, layout) {
// For now we only allow transforms on 1D traces, ie those that specify a _length.
// If we were to implement 2D transforms, we'd need to have each transform
// describe its own applicability and disable itself when it doesn't apply.
// Also allow transforms that make their own data, but not in globalTransforms
if(!(traceOut._length || hasMakesDataTransform(traceIn))) return;
var globalTransforms = layout._globalTransforms || [];
var transformModules = layout._transformModules || [];
if(!Array.isArray(traceIn.transforms) && globalTransforms.length === 0) return;
var containerIn = traceIn.transforms || [],
transformList = globalTransforms.concat(containerIn),
containerOut = traceOut.transforms = [];
for(var i = 0; i < transformList.length; i++) {
var transformIn = transformList[i],
type = transformIn.type,
_module = transformsRegistry[type],
transformOut;
/*
* Supply defaults may run twice. First pass runs all supply defaults steps
* and adds the _module to any output transforms.
* If transforms exist another pass is run so that any generated traces also
* go through supply defaults. This has the effect of rerunning
* supplyTransformDefaults. If the transform does not have a `transform`
* function it could not have generated any new traces and the second stage
* is unnecessary. We detect this case with the following variables.
*/
var isFirstStage = !(transformIn._module && transformIn._module === _module),
doLaterStages = _module && typeof _module.transform === 'function';
if(!_module) Lib.warn('Unrecognized transform type ' + type + '.');
if(_module && _module.supplyDefaults && (isFirstStage || doLaterStages)) {
transformOut = _module.supplyDefaults(transformIn, traceOut, layout, traceIn);
transformOut.type = type;
transformOut._module = _module;
Lib.pushUnique(transformModules, _module);
}
else {
transformOut = Lib.extendFlat({}, transformIn);
}
containerOut.push(transformOut);
}
};
function applyTransforms(fullTrace, fullData, layout, fullLayout) {
var container = fullTrace.transforms,
dataOut = [fullTrace];
for(var i = 0; i < container.length; i++) {
var transform = container[i],
_module = transformsRegistry[transform.type];
if(_module && _module.transform) {
dataOut = _module.transform(dataOut, {
transform: transform,
fullTrace: fullTrace,
fullData: fullData,
layout: layout,
fullLayout: fullLayout,
transformIndex: i
});
}
}
return dataOut;
}
plots.supplyLayoutGlobalDefaults = function(layoutIn, layoutOut, formatObj) {
function coerce(attr, dflt) {
return Lib.coerce(layoutIn, layoutOut, plots.layoutAttributes, attr, dflt);
}
var template = layoutIn.template;
if(Lib.isPlainObject(template)) {
layoutOut.template = template;
layoutOut._template = template.layout;
layoutOut._dataTemplate = template.data;
}
var globalFont = Lib.coerceFont(coerce, 'font');
coerce('title', layoutOut._dfltTitle.plot);
Lib.coerceFont(coerce, 'titlefont', {
family: globalFont.family,
size: Math.round(globalFont.size * 1.4),
color: globalFont.color
});
// Make sure that autosize is defaulted to *true*
// on layouts with no set width and height for backward compatibly,
// in particular https://plot.ly/javascript/responsive-fluid-layout/
//
// Before https://github.com/plotly/plotly.js/pull/635 ,
// layouts with no set width and height were set temporary set to 'initial'
// to pass through the autosize routine
//
// This behavior is subject to change in v2.
coerce('autosize', !(layoutIn.width && layoutIn.height));
coerce('width');
coerce('height');
coerce('margin.l');
coerce('margin.r');
coerce('margin.t');
coerce('margin.b');
coerce('margin.pad');
coerce('margin.autoexpand');
if(layoutIn.width && layoutIn.height) plots.sanitizeMargins(layoutOut);
Registry.getComponentMethod('grid', 'sizeDefaults')(layoutIn, layoutOut);
coerce('paper_bgcolor');
coerce('separators', formatObj.decimal + formatObj.thousands);
coerce('hidesources');
coerce('colorway');
coerce('datarevision');
Registry.getComponentMethod(
'calendars',
'handleDefaults'
)(layoutIn, layoutOut, 'calendar');
Registry.getComponentMethod(
'fx',
'supplyLayoutGlobalDefaults'
)(layoutIn, layoutOut, coerce);
};
plots.plotAutoSize = function plotAutoSize(gd, layout, fullLayout) {
var context = gd._context || {},
frameMargins = context.frameMargins,
newWidth,
newHeight;
var isPlotDiv = Lib.isPlotDiv(gd);
if(isPlotDiv) gd.emit('plotly_autosize');
// embedded in an iframe - just take the full iframe size
// if we get to this point, with no aspect ratio restrictions
if(context.fillFrame) {
newWidth = window.innerWidth;
newHeight = window.innerHeight;
// somehow we get a few extra px height sometimes...
// just hide it
document.body.style.overflow = 'hidden';
}
else if(isNumeric(frameMargins) && frameMargins > 0) {
var reservedMargins = calculateReservedMargins(gd._boundingBoxMargins),
reservedWidth = reservedMargins.left + reservedMargins.right,
reservedHeight = reservedMargins.bottom + reservedMargins.top,
factor = 1 - 2 * frameMargins;
var gdBB = fullLayout._container && fullLayout._container.node ?
fullLayout._container.node().getBoundingClientRect() : {
width: fullLayout.width,
height: fullLayout.height
};
newWidth = Math.round(factor * (gdBB.width - reservedWidth));
newHeight = Math.round(factor * (gdBB.height - reservedHeight));
}
else {
// plotly.js - let the developers do what they want, either
// provide height and width for the container div,
// specify size in layout, or take the defaults,
// but don't enforce any ratio restrictions
var computedStyle = isPlotDiv ? window.getComputedStyle(gd) : {};
newWidth = parseFloat(computedStyle.width) || parseFloat(computedStyle.maxWidth) || fullLayout.width;
newHeight = parseFloat(computedStyle.height) || parseFloat(computedStyle.maxHeight) || fullLayout.height;
}
var minWidth = plots.layoutAttributes.width.min,
minHeight = plots.layoutAttributes.height.min;
if(newWidth < minWidth) newWidth = minWidth;
if(newHeight < minHeight) newHeight = minHeight;
var widthHasChanged = !layout.width &&
(Math.abs(fullLayout.width - newWidth) > 1),
heightHasChanged = !layout.height &&
(Math.abs(fullLayout.height - newHeight) > 1);
if(heightHasChanged || widthHasChanged) {
if(widthHasChanged) fullLayout.width = newWidth;
if(heightHasChanged) fullLayout.height = newHeight;
}
// cache initial autosize value, used in relayout when
// width or height values are set to null
if(!gd._initialAutoSize) {
gd._initialAutoSize = { width: newWidth, height: newHeight };
}
plots.sanitizeMargins(fullLayout);
};
/**
* Reduce all reserved margin objects to a single required margin reservation.
*
* @param {Object} margins
* @returns {{left: number, right: number, bottom: number, top: number}}
*/
function calculateReservedMargins(margins) {
var resultingMargin = {left: 0, right: 0, bottom: 0, top: 0},
marginName;
if(margins) {
for(marginName in margins) {
if(margins.hasOwnProperty(marginName)) {
resultingMargin.left += margins[marginName].left || 0;
resultingMargin.right += margins[marginName].right || 0;
resultingMargin.bottom += margins[marginName].bottom || 0;
resultingMargin.top += margins[marginName].top || 0;
}
}
}
return resultingMargin;
}
plots.supplyLayoutModuleDefaults = function(layoutIn, layoutOut, fullData, transitionData) {
var componentsRegistry = Registry.componentsRegistry;
var basePlotModules = layoutOut._basePlotModules;
var component, i, _module;
var Cartesian = Registry.subplotsRegistry.cartesian;
// check if any components need to add more base plot modules
// that weren't captured by traces
for(component in componentsRegistry) {
_module = componentsRegistry[component];
if(_module.includeBasePlot) {
_module.includeBasePlot(layoutIn, layoutOut);
}
}
// make sure we *at least* have some cartesian axes
if(!basePlotModules.length) {
basePlotModules.push(Cartesian);
}
// ensure all cartesian axes have at least one subplot
if(layoutOut._has('cartesian')) {
Registry.getComponentMethod('grid', 'contentDefaults')(layoutIn, layoutOut);
Cartesian.finalizeSubplots(layoutIn, layoutOut);
}
// sort subplot lists
for(var subplotType in layoutOut._subplots) {
layoutOut._subplots[subplotType].sort(Lib.subplotSort);
}
// base plot module layout defaults
for(i = 0; i < basePlotModules.length; i++) {
_module = basePlotModules[i];
// e.g. pie does not have a layout-defaults step
if(_module.supplyLayoutDefaults) {
_module.supplyLayoutDefaults(layoutIn, layoutOut, fullData);
}
}
// trace module layout defaults
var modules = layoutOut._visibleModules;
for(i = 0; i < modules.length; i++) {
_module = modules[i];
if(_module.supplyLayoutDefaults) {
_module.supplyLayoutDefaults(layoutIn, layoutOut, fullData);
}
}
// transform module layout defaults
var transformModules = layoutOut._transformModules;
for(i = 0; i < transformModules.length; i++) {
_module = transformModules[i];
if(_module.supplyLayoutDefaults) {
_module.supplyLayoutDefaults(layoutIn, layoutOut, fullData, transitionData);
}
}
for(component in componentsRegistry) {
_module = componentsRegistry[component];
if(_module.supplyLayoutDefaults) {
_module.supplyLayoutDefaults(layoutIn, layoutOut, fullData);
}
}
};
// Remove all plotly attributes from a div so it can be replotted fresh
// TODO: these really need to be encapsulated into a much smaller set...
plots.purge = function(gd) {
// note: we DO NOT remove _context because it doesn't change when we insert
// a new plot, and may have been set outside of our scope.
var fullLayout = gd._fullLayout || {};
if(fullLayout._glcontainer !== undefined) {
fullLayout._glcontainer.selectAll('.gl-canvas').remove();
fullLayout._glcontainer.remove();
fullLayout._glcanvas = null;
}
if(fullLayout._geocontainer !== undefined) fullLayout._geocontainer.remove();
// remove modebar
if(fullLayout._modeBar) fullLayout._modeBar.destroy();
if(gd._transitionData) {
// Ensure any dangling callbacks are simply dropped if the plot is purged.
// This is more or less only actually important for testing.
if(gd._transitionData._interruptCallbacks) {
gd._transitionData._interruptCallbacks.length = 0;
}
if(gd._transitionData._animationRaf) {
window.cancelAnimationFrame(gd._transitionData._animationRaf);
}
}
// remove any planned throttles
Lib.clearThrottle();
// remove responsive handler
Lib.clearResponsive(gd);
// data and layout
delete gd.data;
delete gd.layout;
delete gd._fullData;
delete gd._fullLayout;
delete gd.calcdata;
delete gd.framework;
delete gd.empty;
delete gd.fid;
delete gd.undoqueue; // action queue
delete gd.undonum;
delete gd.autoplay; // are we doing an action that doesn't go in undo queue?
delete gd.changed;
// these get recreated on Plotly.plot anyway, but just to be safe
// (and to have a record of them...)
delete gd._promises;
delete gd._redrawTimer;
delete gd._hmlumcount;
delete gd._hmpixcount;
delete gd._transitionData;
delete gd._transitioning;
delete gd._initialAutoSize;
delete gd._transitioningWithDuration;
// created during certain events, that *should* clean them up
// themselves, but may not if there was an error
delete gd._dragging;
delete gd._dragged;
delete gd._hoverdata;
delete gd._snapshotInProgress;
delete gd._editing;
delete gd._replotPending;
delete gd._mouseDownTime;
delete gd._legendMouseDownTime;
// remove all event listeners
if(gd.removeAllListeners) gd.removeAllListeners();
};
plots.style = function(gd) {
var _modules = gd._fullLayout._visibleModules;
var styleModules = [];
var i;
// some trace modules reuse the same style method,
// make sure to not unnecessary call them multiple times.
for(i = 0; i < _modules.length; i++) {
var _module = _modules[i];
if(_module.style) {
Lib.pushUnique(styleModules, _module.style);
}
}
for(i = 0; i < styleModules.length; i++) {
styleModules[i](gd);
}
};
plots.sanitizeMargins = function(fullLayout) {
// polar doesn't do margins...
if(!fullLayout || !fullLayout.margin) return;
var width = fullLayout.width,
height = fullLayout.height,
margin = fullLayout.margin,
plotWidth = width - (margin.l + margin.r),
plotHeight = height - (margin.t + margin.b),
correction;
// if margin.l + margin.r = 0 then plotWidth > 0
// as width >= 10 by supplyDefaults
// similarly for margin.t + margin.b
if(plotWidth < 0) {
correction = (width - 1) / (margin.l + margin.r);
margin.l = Math.floor(correction * margin.l);
margin.r = Math.floor(correction * margin.r);
}
if(plotHeight < 0) {
correction = (height - 1) / (margin.t + margin.b);
margin.t = Math.floor(correction * margin.t);
margin.b = Math.floor(correction * margin.b);
}
};
plots.clearAutoMarginIds = function(gd) {
gd._fullLayout._pushmarginIds = {};
};
plots.allowAutoMargin = function(gd, id) {
gd._fullLayout._pushmarginIds[id] = 1;
};
function setupAutoMargin(fullLayout) {
if(!fullLayout._pushmargin) fullLayout._pushmargin = {};
if(!fullLayout._pushmarginIds) fullLayout._pushmarginIds = {};
}
/**
* autoMargin: called by components that may need to expand the margins to
* be rendered on-plot.
*
* @param {DOM element} gd
* @param {string} id - an identifier unique (within this plot) to this object,
* so we can remove a previous margin expansion from the same object.
* @param {object} o - the margin requirements of this object, or omit to delete
* this entry (like if it's hidden). Keys are:
* x, y: plot fraction of the anchor point.
* xl, xr, yt, yb: if the object has an extent defined in plot fraction,
* you can specify both edges as plot fractions in each dimension
* l, r, t, b: the pixels to pad past the plot fraction x[l|r] and y[t|b]
* pad: extra pixels to add in all directions, default 12 (why?)
*/
plots.autoMargin = function(gd, id, o) {
var fullLayout = gd._fullLayout;
setupAutoMargin(fullLayout);
var pushMargin = fullLayout._pushmargin;
var pushMarginIds = fullLayout._pushmarginIds;
if(fullLayout.margin.autoexpand !== false) {
if(!o) {
delete pushMargin[id];
delete pushMarginIds[id];
}
else {
var pad = o.pad;
if(pad === undefined) {
var margin = fullLayout.margin;
// if no explicit pad is given, use 12px unless there's a
// specified margin that's smaller than that
pad = Math.min(12, margin.l, margin.r, margin.t, margin.b);
}
// if the item is too big, just give it enough automargin to
// make sure you can still grab it and bring it back
if(o.l + o.r > fullLayout.width * 0.5) o.l = o.r = 0;
if(o.b + o.t > fullLayout.height * 0.5) o.b = o.t = 0;
var xl = o.xl !== undefined ? o.xl : o.x;
var xr = o.xr !== undefined ? o.xr : o.x;
var yt = o.yt !== undefined ? o.yt : o.y;
var yb = o.yb !== undefined ? o.yb : o.y;
pushMargin[id] = {
l: {val: xl, size: o.l + pad},
r: {val: xr, size: o.r + pad},
b: {val: yb, size: o.b + pad},
t: {val: yt, size: o.t + pad}
};
pushMarginIds[id] = 1;
}
if(!fullLayout._replotting) plots.doAutoMargin(gd);
}
};
plots.doAutoMargin = function(gd) {
var fullLayout = gd._fullLayout;
if(!fullLayout._size) fullLayout._size = {};
setupAutoMargin(fullLayout);
var gs = fullLayout._size,
oldmargins = JSON.stringify(gs);
// adjust margins for outside components
// fullLayout.margin is the requested margin,
// fullLayout._size has margins and plotsize after adjustment
var ml = Math.max(fullLayout.margin.l || 0, 0);
var mr = Math.max(fullLayout.margin.r || 0, 0);
var mt = Math.max(fullLayout.margin.t || 0, 0);
var mb = Math.max(fullLayout.margin.b || 0, 0);
var pushMargin = fullLayout._pushmargin;
var pushMarginIds = fullLayout._pushmarginIds;
if(fullLayout.margin.autoexpand !== false) {
for(var k in pushMargin) {
if(!pushMarginIds[k]) delete pushMargin[k];
}
// fill in the requested margins
pushMargin.base = {
l: {val: 0, size: ml},
r: {val: 1, size: mr},
t: {val: 1, size: mt},
b: {val: 0, size: mb}
};
// now cycle through all the combinations of l and r
// (and t and b) to find the required margins
for(var k1 in pushMargin) {
var pushleft = pushMargin[k1].l || {},
pushbottom = pushMargin[k1].b || {},
fl = pushleft.val,
pl = pushleft.size,
fb = pushbottom.val,
pb = pushbottom.size;
for(var k2 in pushMargin) {
if(isNumeric(pl) && pushMargin[k2].r) {
var fr = pushMargin[k2].r.val,
pr = pushMargin[k2].r.size;
if(fr > fl) {
var newl = (pl * fr +
(pr - fullLayout.width) * fl) / (fr - fl),
newr = (pr * (1 - fl) +
(pl - fullLayout.width) * (1 - fr)) / (fr - fl);
if(newl >= 0 && newr >= 0 && newl + newr > ml + mr) {
ml = newl;
mr = newr;
}
}
}
if(isNumeric(pb) && pushMargin[k2].t) {
var ft = pushMargin[k2].t.val,
pt = pushMargin[k2].t.size;
if(ft > fb) {
var newb = (pb * ft +
(pt - fullLayout.height) * fb) / (ft - fb),
newt = (pt * (1 - fb) +
(pb - fullLayout.height) * (1 - ft)) / (ft - fb);
if(newb >= 0 && newt >= 0 && newb + newt > mb + mt) {
mb = newb;
mt = newt;
}
}
}
}
}
}
gs.l = Math.round(ml);
gs.r = Math.round(mr);
gs.t = Math.round(mt);
gs.b = Math.round(mb);
gs.p = Math.round(fullLayout.margin.pad);
gs.w = Math.round(fullLayout.width) - gs.l - gs.r;
gs.h = Math.round(fullLayout.height) - gs.t - gs.b;
// if things changed and we're not already redrawing, trigger a redraw
if(!fullLayout._replotting &&
oldmargins !== '{}' &&
oldmargins !== JSON.stringify(fullLayout._size)
) {
if('_redrawFromAutoMarginCount' in fullLayout) {
fullLayout._redrawFromAutoMarginCount++;
} else {
fullLayout._redrawFromAutoMarginCount = 1;
}
return Registry.call('plot', gd);
}
};
/**
* JSONify the graph data and layout
*
* This function needs to recurse because some src can be inside
* sub-objects.
*
* It also strips out functions and private (starts with _) elements.
* Therefore, we can add temporary things to data and layout that don't
* get saved.
*
* @param gd The graphDiv
* @param {Boolean} dataonly If true, don't return layout.
* @param {'keepref'|'keepdata'|'keepall'} [mode='keepref'] Filter what's kept
* keepref: remove data for which there's a src present
* eg if there's xsrc present (and xsrc is well-formed,
* ie has : and some chars before it), strip out x
* keepdata: remove all src tags, don't remove the data itself
* keepall: keep data and src
* @param {String} output If you specify 'object', the result will not be stringified
* @param {Boolean} useDefaults If truthy, use _fullLayout and _fullData
* @returns {Object|String}
*/
plots.graphJson = function(gd, dataonly, mode, output, useDefaults) {
// if the defaults aren't supplied yet, we need to do that...
if((useDefaults && dataonly && !gd._fullData) ||
(useDefaults && !dataonly && !gd._fullLayout)) {
plots.supplyDefaults(gd);
}
var data = (useDefaults) ? gd._fullData : gd.data,
layout = (useDefaults) ? gd._fullLayout : gd.layout,
frames = (gd._transitionData || {})._frames;
function stripObj(d) {
if(typeof d === 'function') {
return null;
}
if(Lib.isPlainObject(d)) {
var o = {}, v, src;
for(v in d) {
// remove private elements and functions
// _ is for private, [ is a mistake ie [object Object]
if(typeof d[v] === 'function' ||
['_', '['].indexOf(v.charAt(0)) !== -1) {
continue;
}
// look for src/data matches and remove the appropriate one
if(mode === 'keepdata') {
// keepdata: remove all ...src tags
if(v.substr(v.length - 3) === 'src') {
continue;
}
}
else if(mode === 'keepstream') {
// keep sourced data if it's being streamed.
// similar to keepref, but if the 'stream' object exists
// in a trace, we will keep the data array.
src = d[v + 'src'];
if(typeof src === 'string' && src.indexOf(':') > 0) {
if(!Lib.isPlainObject(d.stream)) {
continue;
}
}
}
else if(mode !== 'keepall') {
// keepref: remove sourced data but only
// if the source tag is well-formed
src = d[v + 'src'];
if(typeof src === 'string' && src.indexOf(':') > 0) {
continue;
}
}
// OK, we're including this... recurse into it
o[v] = stripObj(d[v]);
}
return o;
}
if(Array.isArray(d)) {
return d.map(stripObj);
}
if(Lib.isTypedArray(d)) {
return Lib.simpleMap(d, Lib.identity);
}
// convert native dates to date strings...
// mostly for external users exporting to plotly
if(Lib.isJSDate(d)) return Lib.ms2DateTimeLocal(+d);
return d;
}
var obj = {
data: (data || []).map(function(v) {
var d = stripObj(v);
// fit has some little arrays in it that don't contain data,
// just fit params and meta
if(dataonly) { delete d.fit; }
return d;
})
};
if(!dataonly) { obj.layout = stripObj(layout); }
if(gd.framework && gd.framework.isPolar) obj = gd.framework.getConfig();
if(frames) obj.frames = stripObj(frames);
return (output === 'object') ? obj : JSON.stringify(obj);
};
/**
* Modify a keyframe using a list of operations:
*
* @param {array of objects} operations
* Sequence of operations to be performed on the keyframes
*/
plots.modifyFrames = function(gd, operations) {
var i, op, frame;
var _frames = gd._transitionData._frames;
var _frameHash = gd._transitionData._frameHash;
for(i = 0; i < operations.length; i++) {
op = operations[i];
switch(op.type) {
// No reason this couldn't exist, but is currently unused/untested:
/* case 'rename':
frame = _frames[op.index];
delete _frameHash[frame.name];
_frameHash[op.name] = frame;
frame.name = op.name;
break;*/
case 'replace':
frame = op.value;
var oldName = (_frames[op.index] || {}).name;
var newName = frame.name;
_frames[op.index] = _frameHash[newName] = frame;
if(newName !== oldName) {
// If name has changed in addition to replacement, then update
// the lookup table:
delete _frameHash[oldName];
_frameHash[newName] = frame;
}
break;
case 'insert':
frame = op.value;
_frameHash[frame.name] = frame;
_frames.splice(op.index, 0, frame);
break;
case 'delete':
frame = _frames[op.index];
delete _frameHash[frame.name];
_frames.splice(op.index, 1);
break;
}
}
return Promise.resolve();
};
/*
* Compute a keyframe. Merge a keyframe into its base frame(s) and
* expand properties.
*
* @param {object} frameLookup
* An object containing frames keyed by name (i.e. gd._transitionData._frameHash)
* @param {string} frame
* The name of the keyframe to be computed
*
* Returns: a new object with the merged content
*/
plots.computeFrame = function(gd, frameName) {
var frameLookup = gd._transitionData._frameHash;
var i, traceIndices, traceIndex, destIndex;
// Null or undefined will fail on .toString(). We'll allow numbers since we
// make it clear frames must be given string names, but we'll allow numbers
// here since they're otherwise fine for looking up frames as long as they're
// properly cast to strings. We really just want to ensure here that this
// 1) doesn't fail, and
// 2) doens't give an incorrect answer (which String(frameName) would)
if(!frameName) {
throw new Error('computeFrame must be given a string frame name');
}
var framePtr = frameLookup[frameName.toString()];
// Return false if the name is invalid:
if(!framePtr) {
return false;
}
var frameStack = [framePtr];
var frameNameStack = [framePtr.name];
// Follow frame pointers:
while(framePtr.baseframe && (framePtr = frameLookup[framePtr.baseframe.toString()])) {
// Avoid infinite loops:
if(frameNameStack.indexOf(framePtr.name) !== -1) break;
frameStack.push(framePtr);
frameNameStack.push(framePtr.name);
}
// A new object for the merged result:
var result = {};
// Merge, starting with the last and ending with the desired frame:
while((framePtr = frameStack.pop())) {
if(framePtr.layout) {
result.layout = plots.extendLayout(result.layout, framePtr.layout);
}
if(framePtr.data) {
if(!result.data) {
result.data = [];
}
traceIndices = framePtr.traces;
if(!traceIndices) {
// If not defined, assume serial order starting at zero
traceIndices = [];
for(i = 0; i < framePtr.data.length; i++) {
traceIndices[i] = i;
}
}
if(!result.traces) {
result.traces = [];
}
for(i = 0; i < framePtr.data.length; i++) {
// Loop through this frames data, find out where it should go,
// and merge it!
traceIndex = traceIndices[i];
if(traceIndex === undefined || traceIndex === null) {
continue;
}
destIndex = result.traces.indexOf(traceIndex);
if(destIndex === -1) {
destIndex = result.data.length;
result.traces[destIndex] = traceIndex;
}
result.data[destIndex] = plots.extendTrace(result.data[destIndex], framePtr.data[i]);
}
}
}
return result;
};
/*
* Recompute the lookup table that maps frame name -> frame object. addFrames/
* deleteFrames already manages this data one at a time, so the only time this
* is necessary is if you poke around manually in `gd._transitionData._frames`
* and create and haven't updated the lookup table.
*/
plots.recomputeFrameHash = function(gd) {
var hash = gd._transitionData._frameHash = {};
var frames = gd._transitionData._frames;
for(var i = 0; i < frames.length; i++) {
var frame = frames[i];
if(frame && frame.name) {
hash[frame.name] = frame;
}
}
};
/**
* Extend an object, treating container arrays very differently by extracting
* their contents and merging them separately.
*
* This exists so that we can extendDeepNoArrays and avoid stepping into data
* arrays without knowledge of the plot schema, but so that we may also manually
* recurse into known container arrays, such as transforms.
*
* See extendTrace and extendLayout below for usage.
*/
plots.extendObjectWithContainers = function(dest, src, containerPaths) {
var containerProp, containerVal, i, j, srcProp, destProp, srcContainer, destContainer;
var copy = Lib.extendDeepNoArrays({}, src || {});
var expandedObj = Lib.expandObjectPaths(copy);
var containerObj = {};
// Step through and extract any container properties. Otherwise extendDeepNoArrays
// will clobber any existing properties with an empty array and then supplyDefaults
// will reset everything to defaults.
if(containerPaths && containerPaths.length) {
for(i = 0; i < containerPaths.length; i++) {
containerProp = Lib.nestedProperty(expandedObj, containerPaths[i]);
containerVal = containerProp.get();
if(containerVal === undefined) {
Lib.nestedProperty(containerObj, containerPaths[i]).set(null);
}
else {
containerProp.set(null);
Lib.nestedProperty(containerObj, containerPaths[i]).set(containerVal);
}
}
}
dest = Lib.extendDeepNoArrays(dest || {}, expandedObj);
if(containerPaths && containerPaths.length) {
for(i = 0; i < containerPaths.length; i++) {
srcProp = Lib.nestedProperty(containerObj, containerPaths[i]);
srcContainer = srcProp.get();
if(!srcContainer) continue;
destProp = Lib.nestedProperty(dest, containerPaths[i]);
destContainer = destProp.get();
if(!Array.isArray(destContainer)) {
destContainer = [];
destProp.set(destContainer);
}
for(j = 0; j < srcContainer.length; j++) {
var srcObj = srcContainer[j];
if(srcObj === null) destContainer[j] = null;
else {
destContainer[j] = plots.extendObjectWithContainers(destContainer[j], srcObj);
}
}
destProp.set(destContainer);
}
}
return dest;
};
plots.dataArrayContainers = ['transforms', 'dimensions'];
plots.layoutArrayContainers = Registry.layoutArrayContainers;
/*
* Extend a trace definition. This method:
*
* 1. directly transfers any array references
* 2. manually recurses into container arrays like transforms
*
* The result is the original object reference with the new contents merged in.
*/
plots.extendTrace = function(destTrace, srcTrace) {
return plots.extendObjectWithContainers(destTrace, srcTrace, plots.dataArrayContainers);
};
/*
* Extend a layout definition. This method:
*
* 1. directly transfers any array references (not critically important for
* layout since there aren't really data arrays)
* 2. manually recurses into container arrays like annotations
*
* The result is the original object reference with the new contents merged in.
*/
plots.extendLayout = function(destLayout, srcLayout) {
return plots.extendObjectWithContainers(destLayout, srcLayout, plots.layoutArrayContainers);
};
/**
* Transition to a set of new data and layout properties
*
* @param {DOM element} gd
* the DOM element of the graph container div
* @param {Object[]} data
* an array of data objects following the normal Plotly data definition format
* @param {Object} layout
* a layout object, following normal Plotly layout format
* @param {Number[]} traces
* indices of the corresponding traces specified in `data`
* @param {Object} frameOpts
* options for the frame (i.e. whether to redraw post-transition)
* @param {Object} transitionOpts
* options for the transition
*/
plots.transition = function(gd, data, layout, traces, frameOpts, transitionOpts) {
var i, traceIdx;
var dataLength = Array.isArray(data) ? data.length : 0;
var traceIndices = traces.slice(0, dataLength);
var transitionedTraces = [];
function prepareTransitions() {
var i;
for(i = 0; i < traceIndices.length; i++) {
var traceIdx = traceIndices[i];
var trace = gd._fullData[traceIdx];
var module = trace._module;
// There's nothing to do if this module is not defined:
if(!module) continue;
// Don't register the trace as transitioned if it doesn't know what to do.
// If it *is* registered, it will receive a callback that it's responsible
// for calling in order to register the transition as having completed.
if(module.animatable) {
transitionedTraces.push(traceIdx);
}
gd.data[traceIndices[i]] = plots.extendTrace(gd.data[traceIndices[i]], data[i]);
}
// Follow the same procedure. Clone it so we don't mangle the input, then
// expand any object paths so we can merge deep into gd.layout:
var layoutUpdate = Lib.expandObjectPaths(Lib.extendDeepNoArrays({}, layout));
// Before merging though, we need to modify the incoming layout. We only
// know how to *transition* layout ranges, so it's imperative that a new
// range not be sent to the layout before the transition has started. So
// we must remove the things we can transition:
var axisAttrRe = /^[xy]axis[0-9]*$/;
for(var attr in layoutUpdate) {
if(!axisAttrRe.test(attr)) continue;
delete layoutUpdate[attr].range;
}
plots.extendLayout(gd.layout, layoutUpdate);
// Supply defaults after applying the incoming properties. Note that any attempt
// to simplify this step and reduce the amount of work resulted in the reconstruction
// of essentially the whole supplyDefaults step, so that it seems sensible to just use
// supplyDefaults even though it's heavier than would otherwise be desired for
// transitions:
// first delete calcdata so supplyDefaults knows a calc step is coming
delete gd.calcdata;
plots.supplyDefaults(gd);
plots.doCalcdata(gd);
return Promise.resolve();
}
function executeCallbacks(list) {
var p = Promise.resolve();
if(!list) return p;
while(list.length) {
p = p.then((list.shift()));
}
return p;
}
function flushCallbacks(list) {
if(!list) return;
while(list.length) {
list.shift();
}
}
var aborted = false;
function executeTransitions() {
gd.emit('plotly_transitioning', []);
return new Promise(function(resolve) {
// This flag is used to disabled things like autorange:
gd._transitioning = true;
// When instantaneous updates are coming through quickly, it's too much to simply disable
// all interaction, so store this flag so we can disambiguate whether mouse interactions
// should be fully disabled or not:
if(transitionOpts.duration > 0) {
gd._transitioningWithDuration = true;
}
// If another transition is triggered, this callback will be executed simply because it's
// in the interruptCallbacks queue. If this transition completes, it will instead flush
// that queue and forget about this callback.
gd._transitionData._interruptCallbacks.push(function() {
aborted = true;
});
if(frameOpts.redraw) {
gd._transitionData._interruptCallbacks.push(function() {
return Registry.call('redraw', gd);
});
}
// Emit this and make sure it happens last:
gd._transitionData._interruptCallbacks.push(function() {
gd.emit('plotly_transitioninterrupted', []);
});
// Construct callbacks that are executed on transition end. This ensures the d3 transitions
// are *complete* before anything else is done.
var numCallbacks = 0;
var numCompleted = 0;
function makeCallback() {
numCallbacks++;
return function() {
numCompleted++;
// When all are complete, perform a redraw:
if(!aborted && numCompleted === numCallbacks) {
completeTransition(resolve);
}
};
}
var traceTransitionOpts;
var j;
var basePlotModules = gd._fullLayout._basePlotModules;
var hasAxisTransition = false;
if(layout) {
for(j = 0; j < basePlotModules.length; j++) {
if(basePlotModules[j].transitionAxes) {
var newLayout = Lib.expandObjectPaths(layout);
hasAxisTransition = basePlotModules[j].transitionAxes(gd, newLayout, transitionOpts, makeCallback) || hasAxisTransition;
}
}
}
// Here handle the exception that we refuse to animate scales and axes at the same
// time. In other words, if there's an axis transition, then set the data transition
// to instantaneous.
if(hasAxisTransition) {
traceTransitionOpts = Lib.extendFlat({}, transitionOpts);
traceTransitionOpts.duration = 0;
// This means do not transition traces,
// this happens on layout-only (e.g. axis range) animations
transitionedTraces = null;
} else {
traceTransitionOpts = transitionOpts;
}
for(j = 0; j < basePlotModules.length; j++) {
// Note that we pass a callback to *create* the callback that must be invoked on completion.
// This is since not all traces know about transitions, so it greatly simplifies matters if
// the trace is responsible for creating a callback, if needed, and then executing it when
// the time is right.
basePlotModules[j].plot(gd, transitionedTraces, traceTransitionOpts, makeCallback);
}
// If nothing else creates a callback, then this will trigger the completion in the next tick:
setTimeout(makeCallback());
});
}
function completeTransition(callback) {
// This a simple workaround for tests which purge the graph before animations
// have completed. That's not a very common case, so this is the simplest
// fix.
if(!gd._transitionData) return;
flushCallbacks(gd._transitionData._interruptCallbacks);
return Promise.resolve().then(function() {
if(frameOpts.redraw) {
return Registry.call('redraw', gd);
}
}).then(function() {
// Set transitioning false again once the redraw has occurred. This is used, for example,
// to prevent the trailing redraw from autoranging:
gd._transitioning = false;
gd._transitioningWithDuration = false;
gd.emit('plotly_transitioned', []);
}).then(callback);
}
function interruptPreviousTransitions() {
// Fail-safe against purged plot:
if(!gd._transitionData) return;
// If a transition is interrupted, set this to false. At the moment, the only thing that would
// interrupt a transition is another transition, so that it will momentarily be set to true
// again, but this determines whether autorange or dragbox work, so it's for the sake of
// cleanliness:
gd._transitioning = false;
return executeCallbacks(gd._transitionData._interruptCallbacks);
}
for(i = 0; i < traceIndices.length; i++) {
traceIdx = traceIndices[i];
var contFull = gd._fullData[traceIdx];
var module = contFull._module;
if(!module) continue;
}
var seq = [plots.previousPromises, interruptPreviousTransitions, prepareTransitions, plots.rehover, executeTransitions];
var transitionStarting = Lib.syncOrAsync(seq, gd);
if(!transitionStarting || !transitionStarting.then) {
transitionStarting = Promise.resolve();
}
return transitionStarting.then(function() {
return gd;
});
};
plots.doCalcdata = function(gd, traces) {
var axList = axisIDs.list(gd),
fullData = gd._fullData,
fullLayout = gd._fullLayout;
var trace, _module, i, j;
// XXX: Is this correct? Needs a closer look so that *some* traces can be recomputed without
// *all* needing doCalcdata:
var calcdata = new Array(fullData.length);
var oldCalcdata = (gd.calcdata || []).slice(0);
gd.calcdata = calcdata;
// extra helper variables
// how many box/violins plots do we have (in case they're grouped)
fullLayout._numBoxes = 0;
fullLayout._numViolins = 0;
// initialize violin per-scale-group stats container
fullLayout._violinScaleGroupStats = {};
// for calculating avg luminosity of heatmaps
gd._hmpixcount = 0;
gd._hmlumcount = 0;
// for sharing colors across pies (and for legend)
fullLayout._piecolormap = {};
// If traces were specified and this trace was not included,
// then transfer it over from the old calcdata:
for(i = 0; i < fullData.length; i++) {
if(Array.isArray(traces) && traces.indexOf(i) === -1) {
calcdata[i] = oldCalcdata[i];
continue;
}
}
for(i = 0; i < fullData.length; i++) {
trace = fullData[i];
trace._arrayAttrs = PlotSchema.findArrayAttributes(trace);
// keep track of trace extremes (for autorange) in here
trace._extremes = {};
}
// add polar axes to axis list
var polarIds = fullLayout._subplots.polar || [];
for(i = 0; i < polarIds.length; i++) {
axList.push(
fullLayout[polarIds[i]].radialaxis,
fullLayout[polarIds[i]].angularaxis
);
}
clearAxesCalc(axList);
var hasCalcTransform = false;
// transform loop
for(i = 0; i < fullData.length; i++) {
trace = fullData[i];
if(trace.visible === true && trace.transforms) {
_module = trace._module;
// we need one round of trace module calc before
// the calc transform to 'fill in' the categories list
// used for example in the data-to-coordinate method
if(_module && _module.calc) {
var cdi = _module.calc(gd, trace);
// must clear scene 'batches', so that 2nd
// _module.calc call starts from scratch
if(cdi[0] && cdi[0].t && cdi[0].t._scene) {
delete cdi[0].t._scene.dirty;
}
}
for(j = 0; j < trace.transforms.length; j++) {
var transform = trace.transforms[j];
_module = transformsRegistry[transform.type];
if(_module && _module.calcTransform) {
trace._hasCalcTransform = true;
hasCalcTransform = true;
_module.calcTransform(gd, trace, transform);
}
}
}
}
// clear stuff that should recomputed in 'regular' loop
if(hasCalcTransform) clearAxesCalc(axList);
function calci(i, isContainer) {
trace = fullData[i];
_module = trace._module;
if(!!_module.isContainer !== isContainer) return;
var cd = [];
if(trace.visible === true) {
// clear existing ref in case it got relinked
delete trace._indexToPoints;
// keep ref of index-to-points map object of the *last* enabled transform,
// this index-to-points map object is required to determine the calcdata indices
// that correspond to input indices (e.g. from 'selectedpoints')
var transforms = trace.transforms || [];
for(j = transforms.length - 1; j >= 0; j--) {
if(transforms[j].enabled) {
trace._indexToPoints = transforms[j]._indexToPoints;
break;
}
}
if(_module && _module.calc) {
cd = _module.calc(gd, trace);
}
}
// Make sure there is a first point.
//
// This ensures there is a calcdata item for every trace,
// even if cartesian logic doesn't handle it (for things like legends).
if(!Array.isArray(cd) || !cd[0]) {
cd = [{x: BADNUM, y: BADNUM}];
}
// add the trace-wide properties to the first point,
// per point properties to every point
// t is the holder for trace-wide properties
if(!cd[0].t) cd[0].t = {};
cd[0].trace = trace;
calcdata[i] = cd;
}
// 'regular' loop - make sure container traces (eg carpet) calc before
// contained traces (eg contourcarpet)
for(i = 0; i < fullData.length; i++) calci(i, true);
for(i = 0; i < fullData.length; i++) calci(i, false);
doCrossTraceCalc(gd);
Registry.getComponentMethod('fx', 'calc')(gd);
Registry.getComponentMethod('errorbars', 'calc')(gd);
};
function clearAxesCalc(axList) {
for(var i = 0; i < axList.length; i++) {
axList[i].clearCalc();
}
}
function doCrossTraceCalc(gd) {
var fullLayout = gd._fullLayout;
var modules = fullLayout._visibleModules;
var hash = {};
var i, j, k;
// position and range calculations for traces that
// depend on each other ie bars (stacked or grouped)
// and boxes (grouped) push each other out of the way
for(j = 0; j < modules.length; j++) {
var _module = modules[j];
var fn = _module.crossTraceCalc;
if(fn) {
var spType = _module.basePlotModule.name;
if(hash[spType]) {
Lib.pushUnique(hash[spType], fn);
} else {
hash[spType] = [fn];
}
}
}
for(k in hash) {
var methods = hash[k];
var subplots = fullLayout._subplots[k];
if(Array.isArray(subplots)) {
for(i = 0; i < subplots.length; i++) {
var sp = subplots[i];
var spInfo = k === 'cartesian' ?
fullLayout._plots[sp] :
fullLayout[sp];
for(j = 0; j < methods.length; j++) {
methods[j](gd, spInfo, sp);
}
}
}
else {
for(j = 0; j < methods.length; j++) {
methods[j](gd);
}
}
}
}
plots.rehover = function(gd) {
if(gd._fullLayout._rehover) {
gd._fullLayout._rehover();
}
};
plots.generalUpdatePerTraceModule = function(gd, subplot, subplotCalcData, subplotLayout) {
var traceHashOld = subplot.traceHash;
var traceHash = {};
var i;
// build up moduleName -> calcData hash
for(i = 0; i < subplotCalcData.length; i++) {
var calcTraces = subplotCalcData[i],
trace = calcTraces[0].trace;
// skip over visible === false traces
// as they don't have `_module` ref
if(trace.visible) {
traceHash[trace.type] = traceHash[trace.type] || [];
traceHash[trace.type].push(calcTraces);
}
}
// when a trace gets deleted, make sure that its module's
// plot method is called so that it is properly
// removed from the DOM.
for(var moduleNameOld in traceHashOld) {
if(!traceHash[moduleNameOld]) {
var fakeCalcTrace = traceHashOld[moduleNameOld][0],
fakeTrace = fakeCalcTrace[0].trace;
fakeTrace.visible = false;
traceHash[moduleNameOld] = [fakeCalcTrace];
}
}
// call module plot method
for(var moduleName in traceHash) {
var moduleCalcData = traceHash[moduleName];
var _module = moduleCalcData[0][0].trace._module;
_module.plot(gd, subplot, Lib.filterVisible(moduleCalcData), subplotLayout);
}
// update moduleName -> calcData hash
subplot.traceHash = traceHash;
};
},{"../components/color":567,"../constants/numerical":670,"../lib":693,"../plot_api/plot_schema":731,"../plot_api/plot_template":732,"../plots/cartesian/axis_ids":745,"../registry":825,"./animation_attributes":737,"./attributes":739,"./command":766,"./font_attributes":768,"./frame_attributes":769,"./layout_attributes":796,"./sort_modules":819,"d3":147,"fast-isnumeric":213}],806:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
attr: 'subplot',
name: 'polar',
axisNames: ['angularaxis', 'radialaxis'],
axisName2dataArray: {angularaxis: 'theta', radialaxis: 'r'},
layerNames: [
'draglayer',
'plotbg',
'backplot',
'angular-grid',
'radial-grid',
'frontplot',
'angular-line',
'radial-line',
'angular-axis',
'radial-axis'
],
radialDragBoxSize: 50,
angularDragBoxSize: 30,
cornerLen: 25,
cornerHalfWidth: 2,
// pixels to move mouse before you stop clamping to starting point
MINDRAG: 8,
// smallest radial distance [px] allowed for a zoombox
MINZOOM: 20,
// distance [px] off (r=0) or (r=radius) where we transition
// from single-sided to two-sided radial zoom
OFFEDGE: 20
};
},{}],807:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var polygonTester = _dereq_('../../lib/polygon').tester;
var findIndexOfMin = Lib.findIndexOfMin;
var isAngleInsideSector = Lib.isAngleInsideSector;
var angleDelta = Lib.angleDelta;
var angleDist = Lib.angleDist;
/**
* is pt (r,a) inside polygon made up vertices at angles 'vangles'
* inside a given polar sector
*
* @param {number} r : pt's radial coordinate
* @param {number} a : pt's angular coordinate in *radians*
* @param {2-item array} rBnds : sector's radial bounds
* @param {2-item array} aBnds : sector's angular bounds *radians*
* @param {array} vangles : angles of polygon vertices in *radians*
* @return {boolean}
*/
function isPtInsidePolygon(r, a, rBnds, aBnds, vangles) {
if(!isAngleInsideSector(a, aBnds)) return false;
var r0, r1;
if(rBnds[0] < rBnds[1]) {
r0 = rBnds[0];
r1 = rBnds[1];
} else {
r0 = rBnds[1];
r1 = rBnds[0];
}
var polygonIn = polygonTester(makePolygon(r0, aBnds[0], aBnds[1], vangles));
var polygonOut = polygonTester(makePolygon(r1, aBnds[0], aBnds[1], vangles));
var xy = [r * Math.cos(a), r * Math.sin(a)];
return polygonOut.contains(xy) && !polygonIn.contains(xy);
}
// find intersection of 'v0' <-> 'v1' edge with a ray at angle 'a'
// (i.e. a line that starts from the origin at angle 'a')
// given an (xp,yp) pair on the 'v0' <-> 'v1' line
// (N.B. 'v0' and 'v1' are angles in radians)
function findIntersectionXY(v0, v1, a, xpyp) {
var xstar, ystar;
var xp = xpyp[0];
var yp = xpyp[1];
var dsin = clampTiny(Math.sin(v1) - Math.sin(v0));
var dcos = clampTiny(Math.cos(v1) - Math.cos(v0));
var tanA = Math.tan(a);
var cotanA = clampTiny(1 / tanA);
var m = dsin / dcos;
var b = yp - m * xp;
if(cotanA) {
if(dsin && dcos) {
// given
// g(x) := v0 -> v1 line = m*x + b
// h(x) := ray at angle 'a' = m*x = tanA*x
// solve g(xstar) = h(xstar)
xstar = b / (tanA - m);
ystar = tanA * xstar;
} else if(dcos) {
// horizontal v0 -> v1
xstar = yp * cotanA;
ystar = yp;
} else {
// vertical v0 -> v1
xstar = xp;
ystar = xp * tanA;
}
} else {
// vertical ray
if(dsin && dcos) {
xstar = 0;
ystar = b;
} else if(dcos) {
xstar = 0;
ystar = yp;
} else {
// does this case exists?
xstar = ystar = NaN;
}
}
return [xstar, ystar];
}
// solves l^2 = (f(x)^2 - yp)^2 + (x - xp)^2
// rearranged into 0 = a*x^2 + b * x + c
//
// where f(x) = m*x + t + yp
// and (x0, x1) = (-b +/- del) / (2*a)
function findXYatLength(l, m, xp, yp) {
var t = -m * xp;
var a = m * m + 1;
var b = 2 * (m * t - xp);
var c = t * t + xp * xp - l * l;
var del = Math.sqrt(b * b - 4 * a * c);
var x0 = (-b + del) / (2 * a);
var x1 = (-b - del) / (2 * a);
return [
[x0, m * x0 + t + yp],
[x1, m * x1 + t + yp]
];
}
function makeRegularPolygon(r, vangles) {
var len = vangles.length;
var vertices = new Array(len + 1);
var i;
for(i = 0; i < len; i++) {
var va = vangles[i];
vertices[i] = [r * Math.cos(va), r * Math.sin(va)];
}
vertices[i] = vertices[0].slice();
return vertices;
}
function makeClippedPolygon(r, a0, a1, vangles) {
var len = vangles.length;
var vertices = [];
var i, j;
function a2xy(a) {
return [r * Math.cos(a), r * Math.sin(a)];
}
function findXY(va0, va1, s) {
return findIntersectionXY(va0, va1, s, a2xy(va0));
}
function cycleIndex(ind) {
return Lib.mod(ind, len);
}
function isInside(v) {
return isAngleInsideSector(v, [a0, a1]);
}
// find index in sector closest to a0
// use it to find intersection of v[i0] <-> v[i0-1] edge with sector radius
var i0 = findIndexOfMin(vangles, function(v) {
return isInside(v) ? angleDist(v, a0) : Infinity;
});
var xy0 = findXY(vangles[i0], vangles[cycleIndex(i0 - 1)], a0);
vertices.push(xy0);
// fill in in-sector vertices
for(i = i0, j = 0; j < len; i++, j++) {
var va = vangles[cycleIndex(i)];
if(!isInside(va)) break;
vertices.push(a2xy(va));
}
// find index in sector closest to a1,
// use it to find intersection of v[iN] <-> v[iN+1] edge with sector radius
var iN = findIndexOfMin(vangles, function(v) {
return isInside(v) ? angleDist(v, a1) : Infinity;
});
var xyN = findXY(vangles[iN], vangles[cycleIndex(iN + 1)], a1);
vertices.push(xyN);
vertices.push([0, 0]);
vertices.push(vertices[0].slice());
return vertices;
}
function makePolygon(r, a0, a1, vangles) {
return Lib.isFullCircle([a0, a1]) ?
makeRegularPolygon(r, vangles) :
makeClippedPolygon(r, a0, a1, vangles);
}
function findPolygonOffset(r, a0, a1, vangles) {
var minX = Infinity;
var minY = Infinity;
var vertices = makePolygon(r, a0, a1, vangles);
for(var i = 0; i < vertices.length; i++) {
var v = vertices[i];
minX = Math.min(minX, v[0]);
minY = Math.min(minY, -v[1]);
}
return [minX, minY];
}
/**
* find vertex angles (in 'vangles') the enclose angle 'a'
*
* @param {number} a : angle in *radians*
* @param {array} vangles : angles of polygon vertices in *radians*
* @return {2-item array}
*/
function findEnclosingVertexAngles(a, vangles) {
var minFn = function(v) {
var adelta = angleDelta(v, a);
return adelta > 0 ? adelta : Infinity;
};
var i0 = findIndexOfMin(vangles, minFn);
var i1 = Lib.mod(i0 + 1, vangles.length);
return [vangles[i0], vangles[i1]];
}
// to more easily catch 'almost zero' numbers in if-else blocks
function clampTiny(v) {
return Math.abs(v) > 1e-10 ? v : 0;
}
function transformForSVG(pts0, cx, cy) {
cx = cx || 0;
cy = cy || 0;
var len = pts0.length;
var pts1 = new Array(len);
for(var i = 0; i < len; i++) {
var pt = pts0[i];
pts1[i] = [cx + pt[0], cy - pt[1]];
}
return pts1;
}
/**
* path polygon
*
* @param {number} r : polygon 'radius'
* @param {number} a0 : first angular coordinate in *radians*
* @param {number} a1 : second angular coordinate in *radians*
* @param {array} vangles : angles of polygon vertices in *radians*
* @param {number (optional)} cx : x coordinate of center
* @param {number (optional)} cy : y coordinate of center
* @return {string} svg path
*
*/
function pathPolygon(r, a0, a1, vangles, cx, cy) {
var poly = makePolygon(r, a0, a1, vangles);
return 'M' + transformForSVG(poly, cx, cy).join('L');
}
/**
* path a polygon 'annulus'
* i.e. a polygon with a concentric hole
*
* N.B. this routine uses the evenodd SVG rule
*
* @param {number} r0 : first radial coordinate
* @param {number} r1 : second radial coordinate
* @param {number} a0 : first angular coordinate in *radians*
* @param {number} a1 : second angular coordinate in *radians*
* @param {array} vangles : angles of polygon vertices in *radians*
* @param {number (optional)} cx : x coordinate of center
* @param {number (optional)} cy : y coordinate of center
* @return {string} svg path
*
*/
function pathPolygonAnnulus(r0, r1, a0, a1, vangles, cx, cy) {
var rStart, rEnd;
if(r0 < r1) {
rStart = r0;
rEnd = r1;
} else {
rStart = r1;
rEnd = r0;
}
var inner = transformForSVG(makePolygon(rStart, a0, a1, vangles), cx, cy);
var outer = transformForSVG(makePolygon(rEnd, a0, a1, vangles), cx, cy);
return 'M' + outer.reverse().join('L') + 'M' + inner.join('L');
}
module.exports = {
isPtInsidePolygon: isPtInsidePolygon,
findPolygonOffset: findPolygonOffset,
findEnclosingVertexAngles: findEnclosingVertexAngles,
findIntersectionXY: findIntersectionXY,
findXYatLength: findXYatLength,
clampTiny: clampTiny,
pathPolygon: pathPolygon,
pathPolygonAnnulus: pathPolygonAnnulus
};
},{"../../lib":693,"../../lib/polygon":706}],808:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var getSubplotCalcData = _dereq_('../get_data').getSubplotCalcData;
var counterRegex = _dereq_('../../lib').counterRegex;
var createPolar = _dereq_('./polar');
var constants = _dereq_('./constants');
var attr = constants.attr;
var name = constants.name;
var counter = counterRegex(name);
var attributes = {};
attributes[attr] = {
valType: 'subplotid',
dflt: name,
editType: 'calc',
};
function plot(gd) {
var fullLayout = gd._fullLayout;
var calcData = gd.calcdata;
var subplotIds = fullLayout._subplots[name];
for(var i = 0; i < subplotIds.length; i++) {
var id = subplotIds[i];
var subplotCalcData = getSubplotCalcData(calcData, name, id);
var subplot = fullLayout[id]._subplot;
if(!subplot) {
subplot = createPolar(gd, id);
fullLayout[id]._subplot = subplot;
}
subplot.plot(subplotCalcData, fullLayout, gd._promises);
}
}
function clean(newFullData, newFullLayout, oldFullData, oldFullLayout) {
var oldIds = oldFullLayout._subplots[name] || [];
for(var i = 0; i < oldIds.length; i++) {
var id = oldIds[i];
var oldSubplot = oldFullLayout[id]._subplot;
if(!newFullLayout[id] && !!oldSubplot) {
oldSubplot.framework.remove();
oldSubplot.layers['radial-axis-title'].remove();
for(var k in oldSubplot.clipPaths) {
oldSubplot.clipPaths[k].remove();
}
}
}
}
module.exports = {
attr: attr,
name: name,
idRoot: name,
idRegex: counter,
attrRegex: counter,
attributes: attributes,
layoutAttributes: _dereq_('./layout_attributes'),
supplyLayoutDefaults: _dereq_('./layout_defaults'),
plot: plot,
clean: clean,
toSVG: _dereq_('../cartesian').toSVG
};
},{"../../lib":693,"../cartesian":753,"../get_data":778,"./constants":806,"./layout_attributes":809,"./layout_defaults":810,"./polar":817}],809:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var colorAttrs = _dereq_('../../components/color/attributes');
var axesAttrs = _dereq_('../cartesian/layout_attributes');
var domainAttrs = _dereq_('../domain').attributes;
var extendFlat = _dereq_('../../lib').extendFlat;
var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll;
var axisLineGridAttr = overrideAll({
color: axesAttrs.color,
showline: extendFlat({}, axesAttrs.showline, {dflt: true}),
linecolor: axesAttrs.linecolor,
linewidth: axesAttrs.linewidth,
showgrid: extendFlat({}, axesAttrs.showgrid, {dflt: true}),
gridcolor: axesAttrs.gridcolor,
gridwidth: axesAttrs.gridwidth
// TODO add spike* attributes down the road
// should we add zeroline* attributes?
}, 'plot', 'from-root');
var axisTickAttrs = overrideAll({
tickmode: axesAttrs.tickmode,
nticks: axesAttrs.nticks,
tick0: axesAttrs.tick0,
dtick: axesAttrs.dtick,
tickvals: axesAttrs.tickvals,
ticktext: axesAttrs.ticktext,
ticks: axesAttrs.ticks,
ticklen: axesAttrs.ticklen,
tickwidth: axesAttrs.tickwidth,
tickcolor: axesAttrs.tickcolor,
showticklabels: axesAttrs.showticklabels,
showtickprefix: axesAttrs.showtickprefix,
tickprefix: axesAttrs.tickprefix,
showticksuffix: axesAttrs.showticksuffix,
ticksuffix: axesAttrs.ticksuffix,
showexponent: axesAttrs.showexponent,
exponentformat: axesAttrs.exponentformat,
separatethousands: axesAttrs.separatethousands,
tickfont: axesAttrs.tickfont,
tickangle: axesAttrs.tickangle,
tickformat: axesAttrs.tickformat,
tickformatstops: axesAttrs.tickformatstops,
layer: axesAttrs.layer
}, 'plot', 'from-root');
var radialAxisAttrs = {
visible: extendFlat({}, axesAttrs.visible, {dflt: true}),
type: axesAttrs.type,
autorange: axesAttrs.autorange,
rangemode: {
valType: 'enumerated',
values: ['tozero', 'nonnegative', 'normal'],
dflt: 'tozero',
editType: 'calc',
},
range: axesAttrs.range,
categoryorder: axesAttrs.categoryorder,
categoryarray: axesAttrs.categoryarray,
angle: {
valType: 'angle',
editType: 'plot',
},
side: {
valType: 'enumerated',
// TODO add 'center' for `showline: false` radial axes
values: ['clockwise', 'counterclockwise'],
dflt: 'clockwise',
editType: 'plot',
},
title: extendFlat({}, axesAttrs.title, {editType: 'plot', dflt: ''}),
titlefont: overrideAll(axesAttrs.titlefont, 'plot', 'from-root'),
// might need a 'titleside' and even 'titledirection' down the road
hoverformat: axesAttrs.hoverformat,
editType: 'calc'
};
extendFlat(
radialAxisAttrs,
// N.B. radialaxis grid lines are circular,
// but radialaxis lines are straight from circle center to outer bound
axisLineGridAttr,
axisTickAttrs
);
var angularAxisAttrs = {
visible: extendFlat({}, axesAttrs.visible, {dflt: true}),
type: {
valType: 'enumerated',
// 'linear' should maybe be called 'angle' or 'angular' here
// to make clear that axis here is periodic and more tightly match
// `thetaunit`?
//
// skip 'date' for first push
// no 'log' for now
values: ['-', 'linear', 'category'],
dflt: '-',
editType: 'calc',
_noTemplating: true,
},
categoryorder: axesAttrs.categoryorder,
categoryarray: axesAttrs.categoryarray,
thetaunit: {
valType: 'enumerated',
values: ['radians', 'degrees'],
dflt: 'degrees',
editType: 'calc',
},
period: {
valType: 'number',
editType: 'calc',
min: 0,
// Examples for date axes:
//
// - period that equals the timeseries length
// http://flowingdata.com/2017/01/24/one-dataset-visualized-25-ways/18-polar-coordinates/
// - and 1-year periods (focusing on seasonal change0
// http://otexts.org/fpp2/seasonal-plots.html
// https://blogs.scientificamerican.com/sa-visual/why-are-so-many-babies-born-around-8-00-a-m/
// http://www.seasonaladjustment.com/2012/09/05/clock-plot-visualising-seasonality-using-r-and-ggplot2-part-3/
// https://i.pinimg.com/736x/49/b9/72/49b972ccb3206a1a6d6f870dac543280.jpg
// https://www.climate-lab-book.ac.uk/spirals/
},
direction: {
valType: 'enumerated',
values: ['counterclockwise', 'clockwise'],
dflt: 'counterclockwise',
editType: 'calc',
},
rotation: {
valType: 'angle',
editType: 'calc',
},
hoverformat: axesAttrs.hoverformat,
editType: 'calc'
};
extendFlat(
angularAxisAttrs,
// N.B. angular grid lines are straight lines from circle center to outer bound
// the angular line is circular bounding the polar plot area.
axisLineGridAttr,
// N.B. ticksuffix defaults to '°' for angular axes with `thetaunit: 'degrees'`
axisTickAttrs
);
module.exports = {
// TODO for x/y/zoom system for paper-based zooming:
// x: {},
// y: {},
// zoom: {},
domain: domainAttrs({name: 'polar', editType: 'plot'}),
sector: {
valType: 'info_array',
items: [
{valType: 'number', editType: 'plot'},
{valType: 'number', editType: 'plot'}
],
dflt: [0, 360],
editType: 'plot',
},
hole: {
valType: 'number',
min: 0,
max: 1,
dflt: 0,
editType: 'plot',
},
bgcolor: {
valType: 'color',
editType: 'plot',
dflt: colorAttrs.background,
},
radialaxis: radialAxisAttrs,
angularaxis: angularAxisAttrs,
gridshape: {
valType: 'enumerated',
values: ['circular', 'linear'],
dflt: 'circular',
editType: 'plot',
},
// TODO maybe?
// annotations:
editType: 'calc'
};
},{"../../components/color/attributes":566,"../../lib":693,"../../plot_api/edit_types":725,"../cartesian/layout_attributes":754,"../domain":767}],810:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Color = _dereq_('../../components/color');
var handleSubplotDefaults = _dereq_('../subplot_defaults');
var getSubplotData = _dereq_('../get_data').getSubplotData;
var handleTickValueDefaults = _dereq_('../cartesian/tick_value_defaults');
var handleTickMarkDefaults = _dereq_('../cartesian/tick_mark_defaults');
var handleTickLabelDefaults = _dereq_('../cartesian/tick_label_defaults');
var handleCategoryOrderDefaults = _dereq_('../cartesian/category_order_defaults');
var handleLineGridDefaults = _dereq_('../cartesian/line_grid_defaults');
var autoType = _dereq_('../cartesian/axis_autotype');
var layoutAttributes = _dereq_('./layout_attributes');
var setConvert = _dereq_('./set_convert');
var constants = _dereq_('./constants');
var axisNames = constants.axisNames;
function handleDefaults(contIn, contOut, coerce, opts) {
var bgColor = coerce('bgcolor');
opts.bgColor = Color.combine(bgColor, opts.paper_bgcolor);
var sector = coerce('sector');
coerce('hole');
// could optimize, subplotData is not always needed!
var subplotData = getSubplotData(opts.fullData, constants.name, opts.id);
var layoutOut = opts.layoutOut;
var axName;
function coerceAxis(attr, dflt) {
return coerce(axName + '.' + attr, dflt);
}
for(var i = 0; i < axisNames.length; i++) {
axName = axisNames[i];
if(!Lib.isPlainObject(contIn[axName])) {
contIn[axName] = {};
}
var axIn = contIn[axName];
// Note: does not need template propagation, since coerceAxis is still
// based on the subplot-wide coerce function. Though it may be more
// efficient to make a new coerce function, then we *would* need to
// propagate the template.
var axOut = contOut[axName] = {};
axOut._id = axOut._name = axName;
axOut._traceIndices = subplotData.map(function(t) { return t._expandedIndex; });
var dataAttr = constants.axisName2dataArray[axName];
var axType = handleAxisTypeDefaults(axIn, axOut, coerceAxis, subplotData, dataAttr);
handleCategoryOrderDefaults(axIn, axOut, coerceAxis, {
axData: subplotData,
dataAttr: dataAttr
});
var visible = coerceAxis('visible');
setConvert(axOut, contOut, layoutOut);
var dfltColor;
var dfltFontColor;
if(visible) {
dfltColor = coerceAxis('color');
dfltFontColor = (dfltColor === axIn.color) ? dfltColor : opts.font.color;
}
// We don't want to make downstream code call ax.setScale,
// as both radial and angular axes don't have a set domain.
// Furthermore, angular axes don't have a set range.
//
// Mocked domains and ranges are set by the polar subplot instances,
// but Axes.findExtremes uses the sign of _m to determine which padding value
// to use.
//
// By setting, _m to 1 here, we make Axes.findExtremes think that
// range[1] > range[0], and vice-versa for `autorange: 'reversed'` below.
axOut._m = 1;
switch(axName) {
case 'radialaxis':
var autoRange = coerceAxis('autorange', !axOut.isValidRange(axIn.range));
axIn.autorange = autoRange;
if(autoRange && (axType === 'linear' || axType === '-')) coerceAxis('rangemode');
if(autoRange === 'reversed') axOut._m = -1;
coerceAxis('range');
axOut.cleanRange('range', {dfltRange: [0, 1]});
if(visible) {
coerceAxis('side');
coerceAxis('angle', sector[0]);
coerceAxis('title');
Lib.coerceFont(coerceAxis, 'titlefont', {
family: opts.font.family,
size: Math.round(opts.font.size * 1.2),
color: dfltFontColor
});
}
break;
case 'angularaxis':
// We do not support 'true' date angular axes yet,
// users can still plot dates on angular axes by setting
// `angularaxis.type: 'category'`.
//
// Here, if a date angular axes is detected, we make
// all its corresponding traces invisible, so that
// when we do add support for data angular axes, the new
// behavior won't conflict with existing behavior
if(axType === 'date') {
Lib.log('Polar plots do not support date angular axes yet.');
for(var j = 0; j < subplotData.length; j++) {
subplotData[j].visible = false;
}
// turn this into a 'dummy' linear axis so that
// the subplot still renders ok
axType = axIn.type = axOut.type = 'linear';
}
if(axType === 'linear') {
coerceAxis('thetaunit');
} else {
coerceAxis('period');
}
var direction = coerceAxis('direction');
coerceAxis('rotation', {counterclockwise: 0, clockwise: 90}[direction]);
break;
}
if(visible) {
handleTickValueDefaults(axIn, axOut, coerceAxis, axOut.type);
handleTickLabelDefaults(axIn, axOut, coerceAxis, axOut.type, {
tickSuffixDflt: axOut.thetaunit === 'degrees' ? '°' : undefined
});
handleTickMarkDefaults(axIn, axOut, coerceAxis, {outerTicks: true});
var showTickLabels = coerceAxis('showticklabels');
if(showTickLabels) {
Lib.coerceFont(coerceAxis, 'tickfont', {
family: opts.font.family,
size: opts.font.size,
color: dfltFontColor
});
coerceAxis('tickangle');
coerceAxis('tickformat');
}
handleLineGridDefaults(axIn, axOut, coerceAxis, {
dfltColor: dfltColor,
bgColor: opts.bgColor,
// default grid color is darker here (60%, vs cartesian default ~91%)
// because the grid is not square so the eye needs heavier cues to follow
blend: 60,
showLine: true,
showGrid: true,
noZeroLine: true,
attributes: layoutAttributes[axName]
});
coerceAxis('layer');
}
if(axType !== 'category') coerceAxis('hoverformat');
axOut._input = axIn;
}
if(contOut.angularaxis.type === 'category') {
coerce('gridshape');
}
}
function handleAxisTypeDefaults(axIn, axOut, coerce, subplotData, dataAttr) {
var axType = coerce('type');
if(axType === '-') {
var trace;
for(var i = 0; i < subplotData.length; i++) {
if(subplotData[i].visible) {
trace = subplotData[i];
break;
}
}
if(trace && trace[dataAttr]) {
axOut.type = autoType(trace[dataAttr], 'gregorian');
}
if(axOut.type === '-') {
axOut.type = 'linear';
} else {
// copy autoType back to input axis
// note that if this object didn't exist
// in the input layout, we have to put it in
// this happens in the main supplyDefaults function
axIn.type = axOut.type;
}
}
return axOut.type;
}
module.exports = function supplyLayoutDefaults(layoutIn, layoutOut, fullData) {
handleSubplotDefaults(layoutIn, layoutOut, fullData, {
type: constants.name,
attributes: layoutAttributes,
handleDefaults: handleDefaults,
font: layoutOut.font,
paper_bgcolor: layoutOut.paper_bgcolor,
fullData: fullData,
layoutOut: layoutOut
});
};
},{"../../components/color":567,"../../lib":693,"../cartesian/axis_autotype":743,"../cartesian/category_order_defaults":746,"../cartesian/line_grid_defaults":756,"../cartesian/tick_label_defaults":761,"../cartesian/tick_mark_defaults":762,"../cartesian/tick_value_defaults":763,"../get_data":778,"../subplot_defaults":820,"./constants":806,"./layout_attributes":809,"./set_convert":818}],811:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var scatterAttrs = _dereq_('../../../traces/scatter/attributes');
var scatterMarkerAttrs = scatterAttrs.marker;
var extendFlat = _dereq_('../../../lib/extend').extendFlat;
var deprecationWarning = [
'Area traces are deprecated!',
'Please switch to the *barpolar* trace type.'
].join(' ');
module.exports = {
r: extendFlat({}, scatterAttrs.r, {
}),
t: extendFlat({}, scatterAttrs.t, {
}),
marker: {
color: extendFlat({}, scatterMarkerAttrs.color, {
}),
size: extendFlat({}, scatterMarkerAttrs.size, {
}),
symbol: extendFlat({}, scatterMarkerAttrs.symbol, {
}),
opacity: extendFlat({}, scatterMarkerAttrs.opacity, {
}),
editType: 'calc'
}
};
},{"../../../lib/extend":682,"../../../traces/scatter/attributes":1032}],812:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var axesAttrs = _dereq_('../../cartesian/layout_attributes');
var extendFlat = _dereq_('../../../lib/extend').extendFlat;
var overrideAll = _dereq_('../../../plot_api/edit_types').overrideAll;
var deprecationWarning = [
'Legacy polar charts are deprecated!',
'Please switch to *polar* subplots.'
].join(' ');
var domainAttr = extendFlat({}, axesAttrs.domain, {
});
function mergeAttrs(axisName, nonCommonAttrs) {
var commonAttrs = {
showline: {
valType: 'boolean',
},
showticklabels: {
valType: 'boolean',
},
tickorientation: {
valType: 'enumerated',
values: ['horizontal', 'vertical'],
},
ticklen: {
valType: 'number',
min: 0,
},
tickcolor: {
valType: 'color',
},
ticksuffix: {
valType: 'string',
},
endpadding: {
valType: 'number',
description: deprecationWarning,
},
visible: {
valType: 'boolean',
}
};
return extendFlat({}, nonCommonAttrs, commonAttrs);
}
module.exports = overrideAll({
radialaxis: mergeAttrs('radial', {
range: {
valType: 'info_array',
items: [
{ valType: 'number' },
{ valType: 'number' }
],
},
domain: domainAttr,
orientation: {
valType: 'number',
}
}),
angularaxis: mergeAttrs('angular', {
range: {
valType: 'info_array',
items: [
{ valType: 'number', dflt: 0 },
{ valType: 'number', dflt: 360 }
],
},
domain: domainAttr
}),
// attributes that appear at layout root
layout: {
direction: {
valType: 'enumerated',
values: ['clockwise', 'counterclockwise'],
},
orientation: {
valType: 'angle',
}
}
}, 'plot', 'nested');
},{"../../../lib/extend":682,"../../../plot_api/edit_types":725,"../../cartesian/layout_attributes":754}],813:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Polar = module.exports = _dereq_('./micropolar');
Polar.manager = _dereq_('./micropolar_manager');
},{"./micropolar":814,"./micropolar_manager":815}],814:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
var d3 = _dereq_('d3');
var Lib = _dereq_('../../../lib');
var extendDeepAll = Lib.extendDeepAll;
var MID_SHIFT = _dereq_('../../../constants/alignment').MID_SHIFT;
var µ = module.exports = { version: '0.2.2' };
µ.Axis = function module() {
var config = {
data: [],
layout: {}
}, inputConfig = {}, liveConfig = {};
var svg, container, dispatch = d3.dispatch('hover'), radialScale, angularScale;
var exports = {};
function render(_container) {
container = _container || container;
var data = config.data;
var axisConfig = config.layout;
if (typeof container == 'string' || container.nodeName) container = d3.select(container);
container.datum(data).each(function(_data, _index) {
var dataOriginal = _data.slice();
liveConfig = {
data: µ.util.cloneJson(dataOriginal),
layout: µ.util.cloneJson(axisConfig)
};
var colorIndex = 0;
dataOriginal.forEach(function(d, i) {
if (!d.color) {
d.color = axisConfig.defaultColorRange[colorIndex];
colorIndex = (colorIndex + 1) % axisConfig.defaultColorRange.length;
}
if (!d.strokeColor) {
d.strokeColor = d.geometry === 'LinePlot' ? d.color : d3.rgb(d.color).darker().toString();
}
liveConfig.data[i].color = d.color;
liveConfig.data[i].strokeColor = d.strokeColor;
liveConfig.data[i].strokeDash = d.strokeDash;
liveConfig.data[i].strokeSize = d.strokeSize;
});
var data = dataOriginal.filter(function(d, i) {
var visible = d.visible;
return typeof visible === 'undefined' || visible === true;
});
var isStacked = false;
var dataWithGroupId = data.map(function(d, i) {
isStacked = isStacked || typeof d.groupId !== 'undefined';
return d;
});
if (isStacked) {
var grouped = d3.nest().key(function(d, i) {
return typeof d.groupId != 'undefined' ? d.groupId : 'unstacked';
}).entries(dataWithGroupId);
var dataYStack = [];
var stacked = grouped.map(function(d, i) {
if (d.key === 'unstacked') return d.values; else {
var prevArray = d.values[0].r.map(function(d, i) {
return 0;
});
d.values.forEach(function(d, i, a) {
d.yStack = [ prevArray ];
dataYStack.push(prevArray);
prevArray = µ.util.sumArrays(d.r, prevArray);
});
return d.values;
}
});
data = d3.merge(stacked);
}
data.forEach(function(d, i) {
d.t = Array.isArray(d.t[0]) ? d.t : [ d.t ];
d.r = Array.isArray(d.r[0]) ? d.r : [ d.r ];
});
var radius = Math.min(axisConfig.width - axisConfig.margin.left - axisConfig.margin.right, axisConfig.height - axisConfig.margin.top - axisConfig.margin.bottom) / 2;
radius = Math.max(10, radius);
var chartCenter = [ axisConfig.margin.left + radius, axisConfig.margin.top + radius ];
var extent;
if (isStacked) {
var highestStackedValue = d3.max(µ.util.sumArrays(µ.util.arrayLast(data).r[0], µ.util.arrayLast(dataYStack)));
extent = [ 0, highestStackedValue ];
} else extent = d3.extent(µ.util.flattenArray(data.map(function(d, i) {
return d.r;
})));
if (axisConfig.radialAxis.domain != µ.DATAEXTENT) extent[0] = 0;
radialScale = d3.scale.linear().domain(axisConfig.radialAxis.domain != µ.DATAEXTENT && axisConfig.radialAxis.domain ? axisConfig.radialAxis.domain : extent).range([ 0, radius ]);
liveConfig.layout.radialAxis.domain = radialScale.domain();
var angularDataMerged = µ.util.flattenArray(data.map(function(d, i) {
return d.t;
}));
var isOrdinal = typeof angularDataMerged[0] === 'string';
var ticks;
if (isOrdinal) {
angularDataMerged = µ.util.deduplicate(angularDataMerged);
ticks = angularDataMerged.slice();
angularDataMerged = d3.range(angularDataMerged.length);
data = data.map(function(d, i) {
var result = d;
d.t = [ angularDataMerged ];
if (isStacked) result.yStack = d.yStack;
return result;
});
}
var hasOnlyLineOrDotPlot = data.filter(function(d, i) {
return d.geometry === 'LinePlot' || d.geometry === 'DotPlot';
}).length === data.length;
var needsEndSpacing = axisConfig.needsEndSpacing === null ? isOrdinal || !hasOnlyLineOrDotPlot : axisConfig.needsEndSpacing;
var useProvidedDomain = axisConfig.angularAxis.domain && axisConfig.angularAxis.domain != µ.DATAEXTENT && !isOrdinal && axisConfig.angularAxis.domain[0] >= 0;
var angularDomain = useProvidedDomain ? axisConfig.angularAxis.domain : d3.extent(angularDataMerged);
var angularDomainStep = Math.abs(angularDataMerged[1] - angularDataMerged[0]);
if (hasOnlyLineOrDotPlot && !isOrdinal) angularDomainStep = 0;
var angularDomainWithPadding = angularDomain.slice();
if (needsEndSpacing && isOrdinal) angularDomainWithPadding[1] += angularDomainStep;
var tickCount = axisConfig.angularAxis.ticksCount || 4;
if (tickCount > 8) tickCount = tickCount / (tickCount / 8) + tickCount % 8;
if (axisConfig.angularAxis.ticksStep) {
tickCount = (angularDomainWithPadding[1] - angularDomainWithPadding[0]) / tickCount;
}
var angularTicksStep = axisConfig.angularAxis.ticksStep || (angularDomainWithPadding[1] - angularDomainWithPadding[0]) / (tickCount * (axisConfig.minorTicks + 1));
if (ticks) angularTicksStep = Math.max(Math.round(angularTicksStep), 1);
if (!angularDomainWithPadding[2]) angularDomainWithPadding[2] = angularTicksStep;
var angularAxisRange = d3.range.apply(this, angularDomainWithPadding);
angularAxisRange = angularAxisRange.map(function(d, i) {
return parseFloat(d.toPrecision(12));
});
angularScale = d3.scale.linear().domain(angularDomainWithPadding.slice(0, 2)).range(axisConfig.direction === 'clockwise' ? [ 0, 360 ] : [ 360, 0 ]);
liveConfig.layout.angularAxis.domain = angularScale.domain();
liveConfig.layout.angularAxis.endPadding = needsEndSpacing ? angularDomainStep : 0;
svg = d3.select(this).select('svg.chart-root');
if (typeof svg === 'undefined' || svg.empty()) {
var skeleton = "<svg xmlns='http://www.w3.org/2000/svg' class='chart-root'>' + '<g class='outer-group'>' + '<g class='chart-group'>' + '<circle class='background-circle'></circle>' + '<g class='geometry-group'></g>' + '<g class='radial axis-group'>' + '<circle class='outside-circle'></circle>' + '</g>' + '<g class='angular axis-group'></g>' + '<g class='guides-group'><line></line><circle r='0'></circle></g>' + '</g>' + '<g class='legend-group'></g>' + '<g class='tooltips-group'></g>' + '<g class='title-group'><text></text></g>' + '</g>' + '</svg>";
var doc = new DOMParser().parseFromString(skeleton, 'application/xml');
var newSvg = this.appendChild(this.ownerDocument.importNode(doc.documentElement, true));
svg = d3.select(newSvg);
}
svg.select('.guides-group').style({
'pointer-events': 'none'
});
svg.select('.angular.axis-group').style({
'pointer-events': 'none'
});
svg.select('.radial.axis-group').style({
'pointer-events': 'none'
});
var chartGroup = svg.select('.chart-group');
var lineStyle = {
fill: 'none',
stroke: axisConfig.tickColor
};
var fontStyle = {
'font-size': axisConfig.font.size,
'font-family': axisConfig.font.family,
fill: axisConfig.font.color,
'text-shadow': [ '-1px 0px', '1px -1px', '-1px 1px', '1px 1px' ].map(function(d, i) {
return ' ' + d + ' 0 ' + axisConfig.font.outlineColor;
}).join(',')
};
var legendContainer;
if (axisConfig.showLegend) {
legendContainer = svg.select('.legend-group').attr({
transform: 'translate(' + [ radius, axisConfig.margin.top ] + ')'
}).style({
display: 'block'
});
var elements = data.map(function(d, i) {
var datumClone = µ.util.cloneJson(d);
datumClone.symbol = d.geometry === 'DotPlot' ? d.dotType || 'circle' : d.geometry != 'LinePlot' ? 'square' : 'line';
datumClone.visibleInLegend = typeof d.visibleInLegend === 'undefined' || d.visibleInLegend;
datumClone.color = d.geometry === 'LinePlot' ? d.strokeColor : d.color;
return datumClone;
});
µ.Legend().config({
data: data.map(function(d, i) {
return d.name || 'Element' + i;
}),
legendConfig: extendDeepAll({},
µ.Legend.defaultConfig().legendConfig,
{
container: legendContainer,
elements: elements,
reverseOrder: axisConfig.legend.reverseOrder
}
)
})();
var legendBBox = legendContainer.node().getBBox();
radius = Math.min(axisConfig.width - legendBBox.width - axisConfig.margin.left - axisConfig.margin.right, axisConfig.height - axisConfig.margin.top - axisConfig.margin.bottom) / 2;
radius = Math.max(10, radius);
chartCenter = [ axisConfig.margin.left + radius, axisConfig.margin.top + radius ];
radialScale.range([ 0, radius ]);
liveConfig.layout.radialAxis.domain = radialScale.domain();
legendContainer.attr('transform', 'translate(' + [ chartCenter[0] + radius, chartCenter[1] - radius ] + ')');
} else {
legendContainer = svg.select('.legend-group').style({
display: 'none'
});
}
svg.attr({
width: axisConfig.width,
height: axisConfig.height
}).style({
opacity: axisConfig.opacity
});
chartGroup.attr('transform', 'translate(' + chartCenter + ')').style({
cursor: 'crosshair'
});
var centeringOffset = [ (axisConfig.width - (axisConfig.margin.left + axisConfig.margin.right + radius * 2 + (legendBBox ? legendBBox.width : 0))) / 2, (axisConfig.height - (axisConfig.margin.top + axisConfig.margin.bottom + radius * 2)) / 2 ];
centeringOffset[0] = Math.max(0, centeringOffset[0]);
centeringOffset[1] = Math.max(0, centeringOffset[1]);
svg.select('.outer-group').attr('transform', 'translate(' + centeringOffset + ')');
if (axisConfig.title) {
var title = svg.select('g.title-group text').style(fontStyle).text(axisConfig.title);
var titleBBox = title.node().getBBox();
title.attr({
x: chartCenter[0] - titleBBox.width / 2,
y: chartCenter[1] - radius - 20
});
}
var radialAxis = svg.select('.radial.axis-group');
if (axisConfig.radialAxis.gridLinesVisible) {
var gridCircles = radialAxis.selectAll('circle.grid-circle').data(radialScale.ticks(5));
gridCircles.enter().append('circle').attr({
'class': 'grid-circle'
}).style(lineStyle);
gridCircles.attr('r', radialScale);
gridCircles.exit().remove();
}
radialAxis.select('circle.outside-circle').attr({
r: radius
}).style(lineStyle);
var backgroundCircle = svg.select('circle.background-circle').attr({
r: radius
}).style({
fill: axisConfig.backgroundColor,
stroke: axisConfig.stroke
});
function currentAngle(d, i) {
return angularScale(d) % 360 + axisConfig.orientation;
}
if (axisConfig.radialAxis.visible) {
var axis = d3.svg.axis().scale(radialScale).ticks(5).tickSize(5);
radialAxis.call(axis).attr({
transform: 'rotate(' + axisConfig.radialAxis.orientation + ')'
});
radialAxis.selectAll('.domain').style(lineStyle);
radialAxis.selectAll('g>text').text(function(d, i) {
return this.textContent + axisConfig.radialAxis.ticksSuffix;
}).style(fontStyle).style({
'text-anchor': 'start'
}).attr({
x: 0,
y: 0,
dx: 0,
dy: 0,
transform: function(d, i) {
if (axisConfig.radialAxis.tickOrientation === 'horizontal') {
return 'rotate(' + -axisConfig.radialAxis.orientation + ') translate(' + [ 0, fontStyle['font-size'] ] + ')';
} else return 'translate(' + [ 0, fontStyle['font-size'] ] + ')';
}
});
radialAxis.selectAll('g>line').style({
stroke: 'black'
});
}
var angularAxis = svg.select('.angular.axis-group').selectAll('g.angular-tick').data(angularAxisRange);
var angularAxisEnter = angularAxis.enter().append('g').classed('angular-tick', true);
angularAxis.attr({
transform: function(d, i) {
return 'rotate(' + currentAngle(d, i) + ')';
}
}).style({
display: axisConfig.angularAxis.visible ? 'block' : 'none'
});
angularAxis.exit().remove();
angularAxisEnter.append('line').classed('grid-line', true).classed('major', function(d, i) {
return i % (axisConfig.minorTicks + 1) == 0;
}).classed('minor', function(d, i) {
return !(i % (axisConfig.minorTicks + 1) == 0);
}).style(lineStyle);
angularAxisEnter.selectAll('.minor').style({
stroke: axisConfig.minorTickColor
});
angularAxis.select('line.grid-line').attr({
x1: axisConfig.tickLength ? radius - axisConfig.tickLength : 0,
x2: radius
}).style({
display: axisConfig.angularAxis.gridLinesVisible ? 'block' : 'none'
});
angularAxisEnter.append('text').classed('axis-text', true).style(fontStyle);
var ticksText = angularAxis.select('text.axis-text').attr({
x: radius + axisConfig.labelOffset,
dy: MID_SHIFT + 'em',
transform: function(d, i) {
var angle = currentAngle(d, i);
var rad = radius + axisConfig.labelOffset;
var orient = axisConfig.angularAxis.tickOrientation;
if (orient == 'horizontal') return 'rotate(' + -angle + ' ' + rad + ' 0)'; else if (orient == 'radial') return angle < 270 && angle > 90 ? 'rotate(180 ' + rad + ' 0)' : null; else return 'rotate(' + (angle <= 180 && angle > 0 ? -90 : 90) + ' ' + rad + ' 0)';
}
}).style({
'text-anchor': 'middle',
display: axisConfig.angularAxis.labelsVisible ? 'block' : 'none'
}).text(function(d, i) {
if (i % (axisConfig.minorTicks + 1) != 0) return '';
if (ticks) {
return ticks[d] + axisConfig.angularAxis.ticksSuffix;
} else return d + axisConfig.angularAxis.ticksSuffix;
}).style(fontStyle);
if (axisConfig.angularAxis.rewriteTicks) ticksText.text(function(d, i) {
if (i % (axisConfig.minorTicks + 1) != 0) return '';
return axisConfig.angularAxis.rewriteTicks(this.textContent, i);
});
var rightmostTickEndX = d3.max(chartGroup.selectAll('.angular-tick text')[0].map(function(d, i) {
return d.getCTM().e + d.getBBox().width;
}));
legendContainer.attr({
transform: 'translate(' + [ radius + rightmostTickEndX, axisConfig.margin.top ] + ')'
});
var hasGeometry = svg.select('g.geometry-group').selectAll('g').size() > 0;
var geometryContainer = svg.select('g.geometry-group').selectAll('g.geometry').data(data);
geometryContainer.enter().append('g').attr({
'class': function(d, i) {
return 'geometry geometry' + i;
}
});
geometryContainer.exit().remove();
if (data[0] || hasGeometry) {
var geometryConfigs = [];
data.forEach(function(d, i) {
var geometryConfig = {};
geometryConfig.radialScale = radialScale;
geometryConfig.angularScale = angularScale;
geometryConfig.container = geometryContainer.filter(function(dB, iB) {
return iB == i;
});
geometryConfig.geometry = d.geometry;
geometryConfig.orientation = axisConfig.orientation;
geometryConfig.direction = axisConfig.direction;
geometryConfig.index = i;
geometryConfigs.push({
data: d,
geometryConfig: geometryConfig
});
});
var geometryConfigsGrouped = d3.nest().key(function(d, i) {
return typeof d.data.groupId != 'undefined' || 'unstacked';
}).entries(geometryConfigs);
var geometryConfigsGrouped2 = [];
geometryConfigsGrouped.forEach(function(d, i) {
if (d.key === 'unstacked') geometryConfigsGrouped2 = geometryConfigsGrouped2.concat(d.values.map(function(d, i) {
return [ d ];
})); else geometryConfigsGrouped2.push(d.values);
});
geometryConfigsGrouped2.forEach(function(d, i) {
var geometry;
if (Array.isArray(d)) geometry = d[0].geometryConfig.geometry; else geometry = d.geometryConfig.geometry;
var finalGeometryConfig = d.map(function(dB, iB) {
return extendDeepAll(µ[geometry].defaultConfig(), dB);
});
µ[geometry]().config(finalGeometryConfig)();
});
}
var guides = svg.select('.guides-group');
var tooltipContainer = svg.select('.tooltips-group');
var angularTooltip = µ.tooltipPanel().config({
container: tooltipContainer,
fontSize: 8
})();
var radialTooltip = µ.tooltipPanel().config({
container: tooltipContainer,
fontSize: 8
})();
var geometryTooltip = µ.tooltipPanel().config({
container: tooltipContainer,
hasTick: true
})();
var angularValue, radialValue;
if (!isOrdinal) {
var angularGuideLine = guides.select('line').attr({
x1: 0,
y1: 0,
y2: 0
}).style({
stroke: 'grey',
'pointer-events': 'none'
});
chartGroup.on('mousemove.angular-guide', function(d, i) {
var mouseAngle = µ.util.getMousePos(backgroundCircle).angle;
angularGuideLine.attr({
x2: -radius,
transform: 'rotate(' + mouseAngle + ')'
}).style({
opacity: .5
});
var angleWithOriginOffset = (mouseAngle + 180 + 360 - axisConfig.orientation) % 360;
angularValue = angularScale.invert(angleWithOriginOffset);
var pos = µ.util.convertToCartesian(radius + 12, mouseAngle + 180);
angularTooltip.text(µ.util.round(angularValue)).move([ pos[0] + chartCenter[0], pos[1] + chartCenter[1] ]);
}).on('mouseout.angular-guide', function(d, i) {
guides.select('line').style({
opacity: 0
});
});
}
var angularGuideCircle = guides.select('circle').style({
stroke: 'grey',
fill: 'none'
});
chartGroup.on('mousemove.radial-guide', function(d, i) {
var r = µ.util.getMousePos(backgroundCircle).radius;
angularGuideCircle.attr({
r: r
}).style({
opacity: .5
});
radialValue = radialScale.invert(µ.util.getMousePos(backgroundCircle).radius);
var pos = µ.util.convertToCartesian(r, axisConfig.radialAxis.orientation);
radialTooltip.text(µ.util.round(radialValue)).move([ pos[0] + chartCenter[0], pos[1] + chartCenter[1] ]);
}).on('mouseout.radial-guide', function(d, i) {
angularGuideCircle.style({
opacity: 0
});
geometryTooltip.hide();
angularTooltip.hide();
radialTooltip.hide();
});
svg.selectAll('.geometry-group .mark').on('mouseover.tooltip', function(d, i) {
var el = d3.select(this);
var color = this.style.fill;
var newColor = 'black';
var opacity = this.style.opacity || 1;
el.attr({
'data-opacity': opacity
});
if (color && color !== 'none') {
el.attr({
'data-fill': color
});
newColor = d3.hsl(color).darker().toString();
el.style({
fill: newColor,
opacity: 1
});
var textData = {
t: µ.util.round(d[0]),
r: µ.util.round(d[1])
};
if (isOrdinal) textData.t = ticks[d[0]];
var text = 't: ' + textData.t + ', r: ' + textData.r;
var bbox = this.getBoundingClientRect();
var svgBBox = svg.node().getBoundingClientRect();
var pos = [ bbox.left + bbox.width / 2 - centeringOffset[0] - svgBBox.left, bbox.top + bbox.height / 2 - centeringOffset[1] - svgBBox.top ];
geometryTooltip.config({
color: newColor
}).text(text);
geometryTooltip.move(pos);
} else {
color = this.style.stroke || 'black';
el.attr({
'data-stroke': color
});
newColor = d3.hsl(color).darker().toString();
el.style({
stroke: newColor,
opacity: 1
});
}
}).on('mousemove.tooltip', function(d, i) {
if (d3.event.which != 0) return false;
if (d3.select(this).attr('data-fill')) geometryTooltip.show();
}).on('mouseout.tooltip', function(d, i) {
geometryTooltip.hide();
var el = d3.select(this);
var fillColor = el.attr('data-fill');
if (fillColor) el.style({
fill: fillColor,
opacity: el.attr('data-opacity')
}); else el.style({
stroke: el.attr('data-stroke'),
opacity: el.attr('data-opacity')
});
});
});
return exports;
}
exports.render = function(_container) {
render(_container);
return this;
};
exports.config = function(_x) {
if (!arguments.length) return config;
var xClone = µ.util.cloneJson(_x);
xClone.data.forEach(function(d, i) {
if (!config.data[i]) config.data[i] = {};
extendDeepAll(config.data[i], µ.Axis.defaultConfig().data[0]);
extendDeepAll(config.data[i], d);
});
extendDeepAll(config.layout, µ.Axis.defaultConfig().layout);
extendDeepAll(config.layout, xClone.layout);
return this;
};
exports.getLiveConfig = function() {
return liveConfig;
};
exports.getinputConfig = function() {
return inputConfig;
};
exports.radialScale = function(_x) {
return radialScale;
};
exports.angularScale = function(_x) {
return angularScale;
};
exports.svg = function() {
return svg;
};
d3.rebind(exports, dispatch, 'on');
return exports;
};
µ.Axis.defaultConfig = function(d, i) {
var config = {
data: [ {
t: [ 1, 2, 3, 4 ],
r: [ 10, 11, 12, 13 ],
name: 'Line1',
geometry: 'LinePlot',
color: null,
strokeDash: 'solid',
strokeColor: null,
strokeSize: '1',
visibleInLegend: true,
opacity: 1
} ],
layout: {
defaultColorRange: d3.scale.category10().range(),
title: null,
height: 450,
width: 500,
margin: {
top: 40,
right: 40,
bottom: 40,
left: 40
},
font: {
size: 12,
color: 'gray',
outlineColor: 'white',
family: 'Tahoma, sans-serif'
},
direction: 'clockwise',
orientation: 0,
labelOffset: 10,
radialAxis: {
domain: null,
orientation: -45,
ticksSuffix: '',
visible: true,
gridLinesVisible: true,
tickOrientation: 'horizontal',
rewriteTicks: null
},
angularAxis: {
domain: [ 0, 360 ],
ticksSuffix: '',
visible: true,
gridLinesVisible: true,
labelsVisible: true,
tickOrientation: 'horizontal',
rewriteTicks: null,
ticksCount: null,
ticksStep: null
},
minorTicks: 0,
tickLength: null,
tickColor: 'silver',
minorTickColor: '#eee',
backgroundColor: 'none',
needsEndSpacing: null,
showLegend: true,
legend: {
reverseOrder: false
},
opacity: 1
}
};
return config;
};
µ.util = {};
µ.DATAEXTENT = 'dataExtent';
µ.AREA = 'AreaChart';
µ.LINE = 'LinePlot';
µ.DOT = 'DotPlot';
µ.BAR = 'BarChart';
µ.util._override = function(_objA, _objB) {
for (var x in _objA) if (x in _objB) _objB[x] = _objA[x];
};
µ.util._extend = function(_objA, _objB) {
for (var x in _objA) _objB[x] = _objA[x];
};
µ.util._rndSnd = function() {
return Math.random() * 2 - 1 + (Math.random() * 2 - 1) + (Math.random() * 2 - 1);
};
µ.util.dataFromEquation2 = function(_equation, _step) {
var step = _step || 6;
var data = d3.range(0, 360 + step, step).map(function(deg, index) {
var theta = deg * Math.PI / 180;
var radius = _equation(theta);
return [ deg, radius ];
});
return data;
};
µ.util.dataFromEquation = function(_equation, _step, _name) {
var step = _step || 6;
var t = [], r = [];
d3.range(0, 360 + step, step).forEach(function(deg, index) {
var theta = deg * Math.PI / 180;
var radius = _equation(theta);
t.push(deg);
r.push(radius);
});
var result = {
t: t,
r: r
};
if (_name) result.name = _name;
return result;
};
µ.util.ensureArray = function(_val, _count) {
if (typeof _val === 'undefined') return null;
var arr = [].concat(_val);
return d3.range(_count).map(function(d, i) {
return arr[i] || arr[0];
});
};
µ.util.fillArrays = function(_obj, _valueNames, _count) {
_valueNames.forEach(function(d, i) {
_obj[d] = µ.util.ensureArray(_obj[d], _count);
});
return _obj;
};
µ.util.cloneJson = function(json) {
return JSON.parse(JSON.stringify(json));
};
µ.util.validateKeys = function(obj, keys) {
if (typeof keys === 'string') keys = keys.split('.');
var next = keys.shift();
return obj[next] && (!keys.length || objHasKeys(obj[next], keys));
};
µ.util.sumArrays = function(a, b) {
return d3.zip(a, b).map(function(d, i) {
return d3.sum(d);
});
};
µ.util.arrayLast = function(a) {
return a[a.length - 1];
};
µ.util.arrayEqual = function(a, b) {
var i = Math.max(a.length, b.length, 1);
while (i-- >= 0 && a[i] === b[i]) ;
return i === -2;
};
µ.util.flattenArray = function(arr) {
var r = [];
while (!µ.util.arrayEqual(r, arr)) {
r = arr;
arr = [].concat.apply([], arr);
}
return arr;
};
µ.util.deduplicate = function(arr) {
return arr.filter(function(v, i, a) {
return a.indexOf(v) == i;
});
};
µ.util.convertToCartesian = function(radius, theta) {
var thetaRadians = theta * Math.PI / 180;
var x = radius * Math.cos(thetaRadians);
var y = radius * Math.sin(thetaRadians);
return [ x, y ];
};
µ.util.round = function(_value, _digits) {
var digits = _digits || 2;
var mult = Math.pow(10, digits);
return Math.round(_value * mult) / mult;
};
µ.util.getMousePos = function(_referenceElement) {
var mousePos = d3.mouse(_referenceElement.node());
var mouseX = mousePos[0];
var mouseY = mousePos[1];
var mouse = {};
mouse.x = mouseX;
mouse.y = mouseY;
mouse.pos = mousePos;
mouse.angle = (Math.atan2(mouseY, mouseX) + Math.PI) * 180 / Math.PI;
mouse.radius = Math.sqrt(mouseX * mouseX + mouseY * mouseY);
return mouse;
};
µ.util.duplicatesCount = function(arr) {
var uniques = {}, val;
var dups = {};
for (var i = 0, len = arr.length; i < len; i++) {
val = arr[i];
if (val in uniques) {
uniques[val]++;
dups[val] = uniques[val];
} else {
uniques[val] = 1;
}
}
return dups;
};
µ.util.duplicates = function(arr) {
return Object.keys(µ.util.duplicatesCount(arr));
};
µ.util.translator = function(obj, sourceBranch, targetBranch, reverse) {
if (reverse) {
var targetBranchCopy = targetBranch.slice();
targetBranch = sourceBranch;
sourceBranch = targetBranchCopy;
}
var value = sourceBranch.reduce(function(previousValue, currentValue) {
if (typeof previousValue != 'undefined') return previousValue[currentValue];
}, obj);
if (typeof value === 'undefined') return;
sourceBranch.reduce(function(previousValue, currentValue, index) {
if (typeof previousValue == 'undefined') return;
if (index === sourceBranch.length - 1) delete previousValue[currentValue];
return previousValue[currentValue];
}, obj);
targetBranch.reduce(function(previousValue, currentValue, index) {
if (typeof previousValue[currentValue] === 'undefined') previousValue[currentValue] = {};
if (index === targetBranch.length - 1) previousValue[currentValue] = value;
return previousValue[currentValue];
}, obj);
};
µ.PolyChart = function module() {
var config = [ µ.PolyChart.defaultConfig() ];
var dispatch = d3.dispatch('hover');
var dashArray = {
solid: 'none',
dash: [ 5, 2 ],
dot: [ 2, 5 ]
};
var colorScale;
function exports() {
var geometryConfig = config[0].geometryConfig;
var container = geometryConfig.container;
if (typeof container == 'string') container = d3.select(container);
container.datum(config).each(function(_config, _index) {
var isStack = !!_config[0].data.yStack;
var data = _config.map(function(d, i) {
if (isStack) return d3.zip(d.data.t[0], d.data.r[0], d.data.yStack[0]); else return d3.zip(d.data.t[0], d.data.r[0]);
});
var angularScale = geometryConfig.angularScale;
var domainMin = geometryConfig.radialScale.domain()[0];
var generator = {};
generator.bar = function(d, i, pI) {
var dataConfig = _config[pI].data;
var h = geometryConfig.radialScale(d[1]) - geometryConfig.radialScale(0);
var stackTop = geometryConfig.radialScale(d[2] || 0);
var w = dataConfig.barWidth;
d3.select(this).attr({
'class': 'mark bar',
d: 'M' + [ [ h + stackTop, -w / 2 ], [ h + stackTop, w / 2 ], [ stackTop, w / 2 ], [ stackTop, -w / 2 ] ].join('L') + 'Z',
transform: function(d, i) {
return 'rotate(' + (geometryConfig.orientation + angularScale(d[0])) + ')';
}
});
};
generator.dot = function(d, i, pI) {
var stackedData = d[2] ? [ d[0], d[1] + d[2] ] : d;
var symbol = d3.svg.symbol().size(_config[pI].data.dotSize).type(_config[pI].data.dotType)(d, i);
d3.select(this).attr({
'class': 'mark dot',
d: symbol,
transform: function(d, i) {
var coord = convertToCartesian(getPolarCoordinates(stackedData));
return 'translate(' + [ coord.x, coord.y ] + ')';
}
});
};
var line = d3.svg.line.radial().interpolate(_config[0].data.lineInterpolation).radius(function(d) {
return geometryConfig.radialScale(d[1]);
}).angle(function(d) {
return geometryConfig.angularScale(d[0]) * Math.PI / 180;
});
generator.line = function(d, i, pI) {
var lineData = d[2] ? data[pI].map(function(d, i) {
return [ d[0], d[1] + d[2] ];
}) : data[pI];
d3.select(this).each(generator['dot']).style({
opacity: function(dB, iB) {
return +_config[pI].data.dotVisible;
},
fill: markStyle.stroke(d, i, pI)
}).attr({
'class': 'mark dot'
});
if (i > 0) return;
var lineSelection = d3.select(this.parentNode).selectAll('path.line').data([ 0 ]);
lineSelection.enter().insert('path');
lineSelection.attr({
'class': 'line',
d: line(lineData),
transform: function(dB, iB) {
return 'rotate(' + (geometryConfig.orientation + 90) + ')';
},
'pointer-events': 'none'
}).style({
fill: function(dB, iB) {
return markStyle.fill(d, i, pI);
},
'fill-opacity': 0,
stroke: function(dB, iB) {
return markStyle.stroke(d, i, pI);
},
'stroke-width': function(dB, iB) {
return markStyle['stroke-width'](d, i, pI);
},
'stroke-dasharray': function(dB, iB) {
return markStyle['stroke-dasharray'](d, i, pI);
},
opacity: function(dB, iB) {
return markStyle.opacity(d, i, pI);
},
display: function(dB, iB) {
return markStyle.display(d, i, pI);
}
});
};
var angularRange = geometryConfig.angularScale.range();
var triangleAngle = Math.abs(angularRange[1] - angularRange[0]) / data[0].length * Math.PI / 180;
var arc = d3.svg.arc().startAngle(function(d) {
return -triangleAngle / 2;
}).endAngle(function(d) {
return triangleAngle / 2;
}).innerRadius(function(d) {
return geometryConfig.radialScale(domainMin + (d[2] || 0));
}).outerRadius(function(d) {
return geometryConfig.radialScale(domainMin + (d[2] || 0)) + geometryConfig.radialScale(d[1]);
});
generator.arc = function(d, i, pI) {
d3.select(this).attr({
'class': 'mark arc',
d: arc,
transform: function(d, i) {
return 'rotate(' + (geometryConfig.orientation + angularScale(d[0]) + 90) + ')';
}
});
};
var markStyle = {
fill: function(d, i, pI) {
return _config[pI].data.color;
},
stroke: function(d, i, pI) {
return _config[pI].data.strokeColor;
},
'stroke-width': function(d, i, pI) {
return _config[pI].data.strokeSize + 'px';
},
'stroke-dasharray': function(d, i, pI) {
return dashArray[_config[pI].data.strokeDash];
},
opacity: function(d, i, pI) {
return _config[pI].data.opacity;
},
display: function(d, i, pI) {
return typeof _config[pI].data.visible === 'undefined' || _config[pI].data.visible ? 'block' : 'none';
}
};
var geometryLayer = d3.select(this).selectAll('g.layer').data(data);
geometryLayer.enter().append('g').attr({
'class': 'layer'
});
var geometry = geometryLayer.selectAll('path.mark').data(function(d, i) {
return d;
});
geometry.enter().append('path').attr({
'class': 'mark'
});
geometry.style(markStyle).each(generator[geometryConfig.geometryType]);
geometry.exit().remove();
geometryLayer.exit().remove();
function getPolarCoordinates(d, i) {
var r = geometryConfig.radialScale(d[1]);
var t = (geometryConfig.angularScale(d[0]) + geometryConfig.orientation) * Math.PI / 180;
return {
r: r,
t: t
};
}
function convertToCartesian(polarCoordinates) {
var x = polarCoordinates.r * Math.cos(polarCoordinates.t);
var y = polarCoordinates.r * Math.sin(polarCoordinates.t);
return {
x: x,
y: y
};
}
});
}
exports.config = function(_x) {
if (!arguments.length) return config;
_x.forEach(function(d, i) {
if (!config[i]) config[i] = {};
extendDeepAll(config[i], µ.PolyChart.defaultConfig());
extendDeepAll(config[i], d);
});
return this;
};
exports.getColorScale = function() {
return colorScale;
};
d3.rebind(exports, dispatch, 'on');
return exports;
};
µ.PolyChart.defaultConfig = function() {
var config = {
data: {
name: 'geom1',
t: [ [ 1, 2, 3, 4 ] ],
r: [ [ 1, 2, 3, 4 ] ],
dotType: 'circle',
dotSize: 64,
dotVisible: false,
barWidth: 20,
color: '#ffa500',
strokeSize: 1,
strokeColor: 'silver',
strokeDash: 'solid',
opacity: 1,
index: 0,
visible: true,
visibleInLegend: true
},
geometryConfig: {
geometry: 'LinePlot',
geometryType: 'arc',
direction: 'clockwise',
orientation: 0,
container: 'body',
radialScale: null,
angularScale: null,
colorScale: d3.scale.category20()
}
};
return config;
};
µ.BarChart = function module() {
return µ.PolyChart();
};
µ.BarChart.defaultConfig = function() {
var config = {
geometryConfig: {
geometryType: 'bar'
}
};
return config;
};
µ.AreaChart = function module() {
return µ.PolyChart();
};
µ.AreaChart.defaultConfig = function() {
var config = {
geometryConfig: {
geometryType: 'arc'
}
};
return config;
};
µ.DotPlot = function module() {
return µ.PolyChart();
};
µ.DotPlot.defaultConfig = function() {
var config = {
geometryConfig: {
geometryType: 'dot',
dotType: 'circle'
}
};
return config;
};
µ.LinePlot = function module() {
return µ.PolyChart();
};
µ.LinePlot.defaultConfig = function() {
var config = {
geometryConfig: {
geometryType: 'line'
}
};
return config;
};
µ.Legend = function module() {
var config = µ.Legend.defaultConfig();
var dispatch = d3.dispatch('hover');
function exports() {
var legendConfig = config.legendConfig;
var flattenData = config.data.map(function(d, i) {
return [].concat(d).map(function(dB, iB) {
var element = extendDeepAll({}, legendConfig.elements[i]);
element.name = dB;
element.color = [].concat(legendConfig.elements[i].color)[iB];
return element;
});
});
var data = d3.merge(flattenData);
data = data.filter(function(d, i) {
return legendConfig.elements[i] && (legendConfig.elements[i].visibleInLegend || typeof legendConfig.elements[i].visibleInLegend === 'undefined');
});
if (legendConfig.reverseOrder) data = data.reverse();
var container = legendConfig.container;
if (typeof container == 'string' || container.nodeName) container = d3.select(container);
var colors = data.map(function(d, i) {
return d.color;
});
var lineHeight = legendConfig.fontSize;
var isContinuous = legendConfig.isContinuous == null ? typeof data[0] === 'number' : legendConfig.isContinuous;
var height = isContinuous ? legendConfig.height : lineHeight * data.length;
var legendContainerGroup = container.classed('legend-group', true);
var svg = legendContainerGroup.selectAll('svg').data([ 0 ]);
var svgEnter = svg.enter().append('svg').attr({
width: 300,
height: height + lineHeight,
xmlns: 'http://www.w3.org/2000/svg',
'xmlns:xlink': 'http://www.w3.org/1999/xlink',
version: '1.1'
});
svgEnter.append('g').classed('legend-axis', true);
svgEnter.append('g').classed('legend-marks', true);
var dataNumbered = d3.range(data.length);
var colorScale = d3.scale[isContinuous ? 'linear' : 'ordinal']().domain(dataNumbered).range(colors);
var dataScale = d3.scale[isContinuous ? 'linear' : 'ordinal']().domain(dataNumbered)[isContinuous ? 'range' : 'rangePoints']([ 0, height ]);
var shapeGenerator = function(_type, _size) {
var squareSize = _size * 3;
if (_type === 'line') {
return 'M' + [ [ -_size / 2, -_size / 12 ], [ _size / 2, -_size / 12 ], [ _size / 2, _size / 12 ], [ -_size / 2, _size / 12 ] ] + 'Z';
} else if (d3.svg.symbolTypes.indexOf(_type) != -1) return d3.svg.symbol().type(_type).size(squareSize)(); else return d3.svg.symbol().type('square').size(squareSize)();
};
if (isContinuous) {
var gradient = svg.select('.legend-marks').append('defs').append('linearGradient').attr({
id: 'grad1',
x1: '0%',
y1: '0%',
x2: '0%',
y2: '100%'
}).selectAll('stop').data(colors);
gradient.enter().append('stop');
gradient.attr({
offset: function(d, i) {
return i / (colors.length - 1) * 100 + '%';
}
}).style({
'stop-color': function(d, i) {
return d;
}
});
svg.append('rect').classed('legend-mark', true).attr({
height: legendConfig.height,
width: legendConfig.colorBandWidth,
fill: 'url(#grad1)'
});
} else {
var legendElement = svg.select('.legend-marks').selectAll('path.legend-mark').data(data);
legendElement.enter().append('path').classed('legend-mark', true);
legendElement.attr({
transform: function(d, i) {
return 'translate(' + [ lineHeight / 2, dataScale(i) + lineHeight / 2 ] + ')';
},
d: function(d, i) {
var symbolType = d.symbol;
return shapeGenerator(symbolType, lineHeight);
},
fill: function(d, i) {
return colorScale(i);
}
});
legendElement.exit().remove();
}
var legendAxis = d3.svg.axis().scale(dataScale).orient('right');
var axis = svg.select('g.legend-axis').attr({
transform: 'translate(' + [ isContinuous ? legendConfig.colorBandWidth : lineHeight, lineHeight / 2 ] + ')'
}).call(legendAxis);
axis.selectAll('.domain').style({
fill: 'none',
stroke: 'none'
});
axis.selectAll('line').style({
fill: 'none',
stroke: isContinuous ? legendConfig.textColor : 'none'
});
axis.selectAll('text').style({
fill: legendConfig.textColor,
'font-size': legendConfig.fontSize
}).text(function(d, i) {
return data[i].name;
});
return exports;
}
exports.config = function(_x) {
if (!arguments.length) return config;
extendDeepAll(config, _x);
return this;
};
d3.rebind(exports, dispatch, 'on');
return exports;
};
µ.Legend.defaultConfig = function(d, i) {
var config = {
data: [ 'a', 'b', 'c' ],
legendConfig: {
elements: [ {
symbol: 'line',
color: 'red'
}, {
symbol: 'square',
color: 'yellow'
}, {
symbol: 'diamond',
color: 'limegreen'
} ],
height: 150,
colorBandWidth: 30,
fontSize: 12,
container: 'body',
isContinuous: null,
textColor: 'grey',
reverseOrder: false
}
};
return config;
};
µ.tooltipPanel = function() {
var tooltipEl, tooltipTextEl, backgroundEl;
var config = {
container: null,
hasTick: false,
fontSize: 12,
color: 'white',
padding: 5
};
var id = 'tooltip-' + µ.tooltipPanel.uid++;
var tickSize = 10;
var exports = function() {
tooltipEl = config.container.selectAll('g.' + id).data([ 0 ]);
var tooltipEnter = tooltipEl.enter().append('g').classed(id, true).style({
'pointer-events': 'none',
display: 'none'
});
backgroundEl = tooltipEnter.append('path').style({
fill: 'white',
'fill-opacity': .9
}).attr({
d: 'M0 0'
});
tooltipTextEl = tooltipEnter.append('text').attr({
dx: config.padding + tickSize,
dy: +config.fontSize * .3
});
return exports;
};
exports.text = function(_text) {
var l = d3.hsl(config.color).l;
var strokeColor = l >= .5 ? '#aaa' : 'white';
var fillColor = l >= .5 ? 'black' : 'white';
var text = _text || '';
tooltipTextEl.style({
fill: fillColor,
'font-size': config.fontSize + 'px'
}).text(text);
var padding = config.padding;
var bbox = tooltipTextEl.node().getBBox();
var boxStyle = {
fill: config.color,
stroke: strokeColor,
'stroke-width': '2px'
};
var backGroundW = bbox.width + padding * 2 + tickSize;
var backGroundH = bbox.height + padding * 2;
backgroundEl.attr({
d: 'M' + [ [ tickSize, -backGroundH / 2 ], [ tickSize, -backGroundH / 4 ], [ config.hasTick ? 0 : tickSize, 0 ], [ tickSize, backGroundH / 4 ], [ tickSize, backGroundH / 2 ], [ backGroundW, backGroundH / 2 ], [ backGroundW, -backGroundH / 2 ] ].join('L') + 'Z'
}).style(boxStyle);
tooltipEl.attr({
transform: 'translate(' + [ tickSize, -backGroundH / 2 + padding * 2 ] + ')'
});
tooltipEl.style({
display: 'block'
});
return exports;
};
exports.move = function(_pos) {
if (!tooltipEl) return;
tooltipEl.attr({
transform: 'translate(' + [ _pos[0], _pos[1] ] + ')'
}).style({
display: 'block'
});
return exports;
};
exports.hide = function() {
if (!tooltipEl) return;
tooltipEl.style({
display: 'none'
});
return exports;
};
exports.show = function() {
if (!tooltipEl) return;
tooltipEl.style({
display: 'block'
});
return exports;
};
exports.config = function(_x) {
extendDeepAll(config, _x);
return exports;
};
return exports;
};
µ.tooltipPanel.uid = 1;
µ.adapter = {};
µ.adapter.plotly = function module() {
var exports = {};
exports.convert = function(_inputConfig, reverse) {
var outputConfig = {};
if (_inputConfig.data) {
outputConfig.data = _inputConfig.data.map(function(d, i) {
var r = extendDeepAll({}, d);
var toTranslate = [
[ r, [ 'marker', 'color' ], [ 'color' ] ],
[ r, [ 'marker', 'opacity' ], [ 'opacity' ] ],
[ r, [ 'marker', 'line', 'color' ], [ 'strokeColor' ] ],
[ r, [ 'marker', 'line', 'dash' ], [ 'strokeDash' ] ],
[ r, [ 'marker', 'line', 'width' ], [ 'strokeSize' ] ],
[ r, [ 'marker', 'symbol' ], [ 'dotType' ] ],
[ r, [ 'marker', 'size' ], [ 'dotSize' ] ],
[ r, [ 'marker', 'barWidth' ], [ 'barWidth' ] ],
[ r, [ 'line', 'interpolation' ], [ 'lineInterpolation' ] ],
[ r, [ 'showlegend' ], [ 'visibleInLegend' ] ]
];
toTranslate.forEach(function(d, i) {
µ.util.translator.apply(null, d.concat(reverse));
});
if (!reverse) delete r.marker;
if (reverse) delete r.groupId;
if (!reverse) {
if (r.type === 'scatter') {
if (r.mode === 'lines') r.geometry = 'LinePlot'; else if (r.mode === 'markers') r.geometry = 'DotPlot'; else if (r.mode === 'lines+markers') {
r.geometry = 'LinePlot';
r.dotVisible = true;
}
} else if (r.type === 'area') r.geometry = 'AreaChart'; else if (r.type === 'bar') r.geometry = 'BarChart';
delete r.mode;
delete r.type;
} else {
if (r.geometry === 'LinePlot') {
r.type = 'scatter';
if (r.dotVisible === true) {
delete r.dotVisible;
r.mode = 'lines+markers';
} else r.mode = 'lines';
} else if (r.geometry === 'DotPlot') {
r.type = 'scatter';
r.mode = 'markers';
} else if (r.geometry === 'AreaChart') r.type = 'area'; else if (r.geometry === 'BarChart') r.type = 'bar';
delete r.geometry;
}
return r;
});
if (!reverse && _inputConfig.layout && _inputConfig.layout.barmode === 'stack') {
var duplicates = µ.util.duplicates(outputConfig.data.map(function(d, i) {
return d.geometry;
}));
outputConfig.data.forEach(function(d, i) {
var idx = duplicates.indexOf(d.geometry);
if (idx != -1) outputConfig.data[i].groupId = idx;
});
}
}
if (_inputConfig.layout) {
var r = extendDeepAll({}, _inputConfig.layout);
var toTranslate = [
[ r, [ 'plot_bgcolor' ], [ 'backgroundColor' ] ],
[ r, [ 'showlegend' ], [ 'showLegend' ] ],
[ r, [ 'radialaxis' ], [ 'radialAxis' ] ],
[ r, [ 'angularaxis' ], [ 'angularAxis' ] ],
[ r.angularaxis, [ 'showline' ], [ 'gridLinesVisible' ] ],
[ r.angularaxis, [ 'showticklabels' ], [ 'labelsVisible' ] ],
[ r.angularaxis, [ 'nticks' ], [ 'ticksCount' ] ],
[ r.angularaxis, [ 'tickorientation' ], [ 'tickOrientation' ] ],
[ r.angularaxis, [ 'ticksuffix' ], [ 'ticksSuffix' ] ],
[ r.angularaxis, [ 'range' ], [ 'domain' ] ],
[ r.angularaxis, [ 'endpadding' ], [ 'endPadding' ] ],
[ r.radialaxis, [ 'showline' ], [ 'gridLinesVisible' ] ],
[ r.radialaxis, [ 'tickorientation' ], [ 'tickOrientation' ] ],
[ r.radialaxis, [ 'ticksuffix' ], [ 'ticksSuffix' ] ],
[ r.radialaxis, [ 'range' ], [ 'domain' ] ],
[ r.angularAxis, [ 'showline' ], [ 'gridLinesVisible' ] ],
[ r.angularAxis, [ 'showticklabels' ], [ 'labelsVisible' ] ],
[ r.angularAxis, [ 'nticks' ], [ 'ticksCount' ] ],
[ r.angularAxis, [ 'tickorientation' ], [ 'tickOrientation' ] ],
[ r.angularAxis, [ 'ticksuffix' ], [ 'ticksSuffix' ] ],
[ r.angularAxis, [ 'range' ], [ 'domain' ] ],
[ r.angularAxis, [ 'endpadding' ], [ 'endPadding' ] ],
[ r.radialAxis, [ 'showline' ], [ 'gridLinesVisible' ] ],
[ r.radialAxis, [ 'tickorientation' ], [ 'tickOrientation' ] ],
[ r.radialAxis, [ 'ticksuffix' ], [ 'ticksSuffix' ] ],
[ r.radialAxis, [ 'range' ], [ 'domain' ] ],
[ r.font, [ 'outlinecolor' ], [ 'outlineColor' ] ],
[ r.legend, [ 'traceorder' ], [ 'reverseOrder' ] ],
[ r, [ 'labeloffset' ], [ 'labelOffset' ] ],
[ r, [ 'defaultcolorrange' ], [ 'defaultColorRange' ] ]
];
toTranslate.forEach(function(d, i) {
µ.util.translator.apply(null, d.concat(reverse));
});
if (!reverse) {
if (r.angularAxis && typeof r.angularAxis.ticklen !== 'undefined') r.tickLength = r.angularAxis.ticklen;
if (r.angularAxis && typeof r.angularAxis.tickcolor !== 'undefined') r.tickColor = r.angularAxis.tickcolor;
} else {
if (typeof r.tickLength !== 'undefined') {
r.angularaxis.ticklen = r.tickLength;
delete r.tickLength;
}
if (r.tickColor) {
r.angularaxis.tickcolor = r.tickColor;
delete r.tickColor;
}
}
if (r.legend && typeof r.legend.reverseOrder != 'boolean') {
r.legend.reverseOrder = r.legend.reverseOrder != 'normal';
}
if (r.legend && typeof r.legend.traceorder == 'boolean') {
r.legend.traceorder = r.legend.traceorder ? 'reversed' : 'normal';
delete r.legend.reverseOrder;
}
if (r.margin && typeof r.margin.t != 'undefined') {
var source = [ 't', 'r', 'b', 'l', 'pad' ];
var target = [ 'top', 'right', 'bottom', 'left', 'pad' ];
var margin = {};
d3.entries(r.margin).forEach(function(dB, iB) {
margin[target[source.indexOf(dB.key)]] = dB.value;
});
r.margin = margin;
}
if (reverse) {
delete r.needsEndSpacing;
delete r.minorTickColor;
delete r.minorTicks;
delete r.angularaxis.ticksCount;
delete r.angularaxis.ticksCount;
delete r.angularaxis.ticksStep;
delete r.angularaxis.rewriteTicks;
delete r.angularaxis.nticks;
delete r.radialaxis.ticksCount;
delete r.radialaxis.ticksCount;
delete r.radialaxis.ticksStep;
delete r.radialaxis.rewriteTicks;
delete r.radialaxis.nticks;
}
outputConfig.layout = r;
}
return outputConfig;
};
return exports;
};
},{"../../../constants/alignment":665,"../../../lib":693,"d3":147}],815:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
/* eslint-disable new-cap */
'use strict';
var d3 = _dereq_('d3');
var Lib = _dereq_('../../../lib');
var Color = _dereq_('../../../components/color');
var micropolar = _dereq_('./micropolar');
var UndoManager = _dereq_('./undo_manager');
var extendDeepAll = Lib.extendDeepAll;
var manager = module.exports = {};
manager.framework = function(_gd) {
var config, previousConfigClone, plot, convertedInput, container;
var undoManager = new UndoManager();
function exports(_inputConfig, _container) {
if(_container) container = _container;
d3.select(d3.select(container).node().parentNode).selectAll('.svg-container>*:not(.chart-root)').remove();
config = (!config) ?
_inputConfig :
extendDeepAll(config, _inputConfig);
if(!plot) plot = micropolar.Axis();
convertedInput = micropolar.adapter.plotly().convert(config);
plot.config(convertedInput).render(container);
_gd.data = config.data;
_gd.layout = config.layout;
manager.fillLayout(_gd);
return config;
}
exports.isPolar = true;
exports.svg = function() { return plot.svg(); };
exports.getConfig = function() { return config; };
exports.getLiveConfig = function() {
return micropolar.adapter.plotly().convert(plot.getLiveConfig(), true);
};
exports.getLiveScales = function() { return {t: plot.angularScale(), r: plot.radialScale()}; };
exports.setUndoPoint = function() {
var that = this;
var configClone = micropolar.util.cloneJson(config);
(function(_configClone, _previousConfigClone) {
undoManager.add({
undo: function() {
if(_previousConfigClone) that(_previousConfigClone);
},
redo: function() {
that(_configClone);
}
});
})(configClone, previousConfigClone);
previousConfigClone = micropolar.util.cloneJson(configClone);
};
exports.undo = function() { undoManager.undo(); };
exports.redo = function() { undoManager.redo(); };
return exports;
};
manager.fillLayout = function(_gd) {
var container = d3.select(_gd).selectAll('.plot-container'),
paperDiv = container.selectAll('.svg-container'),
paper = _gd.framework && _gd.framework.svg && _gd.framework.svg(),
dflts = {
width: 800,
height: 600,
paper_bgcolor: Color.background,
_container: container,
_paperdiv: paperDiv,
_paper: paper
};
_gd._fullLayout = extendDeepAll(dflts, _gd.layout);
};
},{"../../../components/color":567,"../../../lib":693,"./micropolar":814,"./undo_manager":816,"d3":147}],816:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
// Modified from https://github.com/ArthurClemens/Javascript-Undo-Manager
// Copyright (c) 2010-2013 Arthur Clemens, arthur@visiblearea.com
module.exports = function UndoManager() {
var undoCommands = [],
index = -1,
isExecuting = false,
callback;
function execute(command, action) {
if(!command) return this;
isExecuting = true;
command[action]();
isExecuting = false;
return this;
}
return {
add: function(command) {
if(isExecuting) return this;
undoCommands.splice(index + 1, undoCommands.length - index);
undoCommands.push(command);
index = undoCommands.length - 1;
return this;
},
setCallback: function(callbackFunc) { callback = callbackFunc; },
undo: function() {
var command = undoCommands[index];
if(!command) return this;
execute(command, 'undo');
index -= 1;
if(callback) callback(command.undo);
return this;
},
redo: function() {
var command = undoCommands[index + 1];
if(!command) return this;
execute(command, 'redo');
index += 1;
if(callback) callback(command.redo);
return this;
},
clear: function() {
undoCommands = [];
index = -1;
},
hasUndo: function() { return index !== -1; },
hasRedo: function() { return index < (undoCommands.length - 1); },
getCommands: function() { return undoCommands; },
getPreviousCommand: function() { return undoCommands[index - 1]; },
getIndex: function() { return index; }
};
};
},{}],817:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var tinycolor = _dereq_('tinycolor2');
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var Color = _dereq_('../../components/color');
var Drawing = _dereq_('../../components/drawing');
var Plots = _dereq_('../plots');
var setConvertCartesian = _dereq_('../cartesian/set_convert');
var setConvertPolar = _dereq_('./set_convert');
var doAutoRange = _dereq_('../cartesian/autorange').doAutoRange;
var doTicksSingle = _dereq_('../cartesian/axes').doTicksSingle;
var dragBox = _dereq_('../cartesian/dragbox');
var dragElement = _dereq_('../../components/dragelement');
var Fx = _dereq_('../../components/fx');
var Titles = _dereq_('../../components/titles');
var prepSelect = _dereq_('../cartesian/select').prepSelect;
var selectOnClick = _dereq_('../cartesian/select').selectOnClick;
var clearSelect = _dereq_('../cartesian/select').clearSelect;
var setCursor = _dereq_('../../lib/setcursor');
var MID_SHIFT = _dereq_('../../constants/alignment').MID_SHIFT;
var constants = _dereq_('./constants');
var helpers = _dereq_('./helpers');
var _ = Lib._;
var mod = Lib.mod;
var deg2rad = Lib.deg2rad;
var rad2deg = Lib.rad2deg;
function Polar(gd, id) {
this.id = id;
this.gd = gd;
this._hasClipOnAxisFalse = null;
this.vangles = null;
this.radialAxisAngle = null;
this.traceHash = {};
this.layers = {};
this.clipPaths = {};
this.clipIds = {};
this.viewInitial = {};
var fullLayout = gd._fullLayout;
var clipIdBase = 'clip' + fullLayout._uid + id;
this.clipIds.forTraces = clipIdBase + '-for-traces';
this.clipPaths.forTraces = fullLayout._clips.append('clipPath')
.attr('id', this.clipIds.forTraces);
this.clipPaths.forTraces.append('path');
this.framework = fullLayout._polarlayer.append('g')
.attr('class', id);
// unfortunately, we have to keep track of some axis tick settings
// so that we don't have to call doTicksSingle with its special redraw flag
this.radialTickLayout = null;
this.angularTickLayout = null;
}
var proto = Polar.prototype;
module.exports = function createPolar(gd, id) {
return new Polar(gd, id);
};
proto.plot = function(polarCalcData, fullLayout) {
var _this = this;
var polarLayout = fullLayout[_this.id];
_this._hasClipOnAxisFalse = false;
for(var i = 0; i < polarCalcData.length; i++) {
var trace = polarCalcData[i][0].trace;
if(trace.cliponaxis === false) {
_this._hasClipOnAxisFalse = true;
break;
}
}
_this.updateLayers(fullLayout, polarLayout);
_this.updateLayout(fullLayout, polarLayout);
Plots.generalUpdatePerTraceModule(_this.gd, _this, polarCalcData, polarLayout);
_this.updateFx(fullLayout, polarLayout);
};
proto.updateLayers = function(fullLayout, polarLayout) {
var _this = this;
var layers = _this.layers;
var radialLayout = polarLayout.radialaxis;
var angularLayout = polarLayout.angularaxis;
var layerNames = constants.layerNames;
var frontPlotIndex = layerNames.indexOf('frontplot');
var layerData = layerNames.slice(0, frontPlotIndex);
var isAngularAxisBelowTraces = angularLayout.layer === 'below traces';
var isRadialAxisBelowTraces = radialLayout.layer === 'below traces';
if(isAngularAxisBelowTraces) layerData.push('angular-line');
if(isRadialAxisBelowTraces) layerData.push('radial-line');
if(isAngularAxisBelowTraces) layerData.push('angular-axis');
if(isRadialAxisBelowTraces) layerData.push('radial-axis');
layerData.push('frontplot');
if(!isAngularAxisBelowTraces) layerData.push('angular-line');
if(!isRadialAxisBelowTraces) layerData.push('radial-line');
if(!isAngularAxisBelowTraces) layerData.push('angular-axis');
if(!isRadialAxisBelowTraces) layerData.push('radial-axis');
var join = _this.framework.selectAll('.polarsublayer')
.data(layerData, String);
join.enter().append('g')
.attr('class', function(d) { return 'polarsublayer ' + d;})
.each(function(d) {
var sel = layers[d] = d3.select(this);
switch(d) {
case 'frontplot':
// TODO add option to place in 'backplot' layer??
sel.append('g').classed('barlayer', true);
sel.append('g').classed('scatterlayer', true);
break;
case 'backplot':
sel.append('g').classed('maplayer', true);
break;
case 'plotbg':
layers.bg = sel.append('path');
break;
case 'radial-grid':
sel.style('fill', 'none');
sel.append('g').classed('x', 1);
break;
case 'angular-grid':
sel.style('fill', 'none');
sel.append('g').classed('angularaxis', 1);
break;
case 'radial-line':
sel.append('line').style('fill', 'none');
break;
case 'angular-line':
sel.append('path').style('fill', 'none');
break;
}
});
join.order();
};
/* Polar subplots juggle with 6 'axis objects' (!), these are:
*
* - polarLayout.radialaxis (aka radialLayout in this file):
* - polarLayout.angularaxis (aka angularLayout in this file):
* used for data -> calcdata conversions (aka d2c) during the calc step
*
* - this.radialAxis
* extends polarLayout.radialaxis, adds mocked 'domain' and
* few other keys in order to reuse Cartesian doAutoRange and doTicksSingle,
* used for calcdata -> geometric conversions (aka c2g) during the plot step
* + setGeometry setups ax.c2g for given ax.range
* + setScale setups ax._m,ax._b for given ax.range
*
* - this.angularAxis
* extends polarLayout.angularaxis, adds mocked 'range' and 'domain' and
* a few other keys in order to reuse Cartesian doTicksSingle,
* used for calcdata -> geometric conversions (aka c2g) during the plot step
* + setGeometry setups ax.c2g given ax.rotation, ax.direction & ax._categories,
* and mocks ax.range
* + setScale setups ax._m,ax._b with that mocked ax.range
*
* - this.xaxis
* - this.yaxis
* setup so that polar traces can reuse plot methods of Cartesian traces
* which mostly rely on 2pixel methods (e.g ax.c2p)
*/
proto.updateLayout = function(fullLayout, polarLayout) {
var _this = this;
var layers = _this.layers;
var gs = fullLayout._size;
// axis attributes
var radialLayout = polarLayout.radialaxis;
var angularLayout = polarLayout.angularaxis;
// layout domains
var xDomain = polarLayout.domain.x;
var yDomain = polarLayout.domain.y;
// offsets from paper edge to layout domain box
_this.xOffset = gs.l + gs.w * xDomain[0];
_this.yOffset = gs.t + gs.h * (1 - yDomain[1]);
// lengths of the layout domain box
var xLength = _this.xLength = gs.w * (xDomain[1] - xDomain[0]);
var yLength = _this.yLength = gs.h * (yDomain[1] - yDomain[0]);
// sector to plot
var sector = polarLayout.sector;
_this.sectorInRad = sector.map(deg2rad);
var sectorBBox = _this.sectorBBox = computeSectorBBox(sector);
var dxSectorBBox = sectorBBox[2] - sectorBBox[0];
var dySectorBBox = sectorBBox[3] - sectorBBox[1];
// aspect ratios
var arDomain = yLength / xLength;
var arSector = Math.abs(dySectorBBox / dxSectorBBox);
// actual lengths and domains of subplot box
var xLength2, yLength2;
var xDomain2, yDomain2;
var gap;
if(arDomain > arSector) {
xLength2 = xLength;
yLength2 = xLength * arSector;
gap = (yLength - yLength2) / gs.h / 2;
xDomain2 = [xDomain[0], xDomain[1]];
yDomain2 = [yDomain[0] + gap, yDomain[1] - gap];
} else {
xLength2 = yLength / arSector;
yLength2 = yLength;
gap = (xLength - xLength2) / gs.w / 2;
xDomain2 = [xDomain[0] + gap, xDomain[1] - gap];
yDomain2 = [yDomain[0], yDomain[1]];
}
_this.xLength2 = xLength2;
_this.yLength2 = yLength2;
_this.xDomain2 = xDomain2;
_this.yDomain2 = yDomain2;
// actual offsets from paper edge to the subplot box top-left corner
var xOffset2 = _this.xOffset2 = gs.l + gs.w * xDomain2[0];
var yOffset2 = _this.yOffset2 = gs.t + gs.h * (1 - yDomain2[1]);
// circle radius in px
var radius = _this.radius = xLength2 / dxSectorBBox;
// 'inner' radius in px (when polar.hole is set)
var innerRadius = _this.innerRadius = polarLayout.hole * radius;
// circle center position in px
var cx = _this.cx = xOffset2 - radius * sectorBBox[0];
var cy = _this.cy = yOffset2 + radius * sectorBBox[3];
// circle center in the coordinate system of plot area
var cxx = _this.cxx = cx - xOffset2;
var cyy = _this.cyy = cy - yOffset2;
_this.radialAxis = _this.mockAxis(fullLayout, polarLayout, radialLayout, {
_axislayer: layers['radial-axis'],
_gridlayer: layers['radial-grid'],
// make this an 'x' axis to make positioning (especially rotation) easier
_id: 'x',
// convert to 'x' axis equivalent
side: {
counterclockwise: 'top',
clockwise: 'bottom'
}[radialLayout.side],
// spans length 1 radius
domain: [innerRadius / gs.w, radius / gs.w]
});
_this.angularAxis = _this.mockAxis(fullLayout, polarLayout, angularLayout, {
_axislayer: layers['angular-axis'],
_gridlayer: layers['angular-grid'],
side: 'right',
// to get auto nticks right
domain: [0, Math.PI],
// don't pass through autorange logic
autorange: false
});
_this.doAutoRange(fullLayout, polarLayout);
// N.B. this sets _this.vangles
_this.updateAngularAxis(fullLayout, polarLayout);
// N.B. this sets _this.radialAxisAngle
_this.updateRadialAxis(fullLayout, polarLayout);
_this.updateRadialAxisTitle(fullLayout, polarLayout);
_this.xaxis = _this.mockCartesianAxis(fullLayout, polarLayout, {
_id: 'x',
domain: xDomain2
});
_this.yaxis = _this.mockCartesianAxis(fullLayout, polarLayout, {
_id: 'y',
domain: yDomain2
});
var dPath = _this.pathSubplot();
_this.clipPaths.forTraces.select('path')
.attr('d', dPath)
.attr('transform', strTranslate(cxx, cyy));
layers.frontplot
.attr('transform', strTranslate(xOffset2, yOffset2))
.call(Drawing.setClipUrl, _this._hasClipOnAxisFalse ? null : _this.clipIds.forTraces);
layers.bg
.attr('d', dPath)
.attr('transform', strTranslate(cx, cy))
.call(Color.fill, polarLayout.bgcolor);
// remove crispEdges - all the off-square angles in polar plots
// make these counterproductive.
_this.framework.selectAll('.crisp').classed('crisp', 0);
};
proto.mockAxis = function(fullLayout, polarLayout, axLayout, opts) {
var commonOpts = {
// to get _boundingBox computation right when showticklabels is false
anchor: 'free',
position: 0,
_pos: 0,
// dummy truthy value to make doTicksSingle draw the grid
_counteraxis: true,
// don't use automargins routine for labels
automargin: false
};
var ax = Lib.extendFlat(commonOpts, axLayout, opts);
setConvertPolar(ax, polarLayout, fullLayout);
return ax;
};
proto.mockCartesianAxis = function(fullLayout, polarLayout, opts) {
var _this = this;
var axId = opts._id;
var ax = Lib.extendFlat({type: 'linear'}, opts);
setConvertCartesian(ax, fullLayout);
var bboxIndices = {
x: [0, 2],
y: [1, 3]
};
ax.setRange = function() {
var sectorBBox = _this.sectorBBox;
var ind = bboxIndices[axId];
var rl = _this.radialAxis._rl;
var drl = (rl[1] - rl[0]) / (1 - polarLayout.hole);
ax.range = [sectorBBox[ind[0]] * drl, sectorBBox[ind[1]] * drl];
};
ax.isPtWithinRange = axId === 'x' ?
function(d) { return _this.isPtInside(d); } :
function() { return true; };
ax.setRange();
ax.setScale();
return ax;
};
proto.doAutoRange = function(fullLayout, polarLayout) {
var gd = this.gd;
var radialAxis = this.radialAxis;
var radialLayout = polarLayout.radialaxis;
radialAxis.setScale();
doAutoRange(gd, radialAxis);
var rng = radialAxis.range;
radialLayout.range = rng.slice();
radialLayout._input.range = rng.slice();
radialAxis._rl = [
radialAxis.r2l(rng[0], null, 'gregorian'),
radialAxis.r2l(rng[1], null, 'gregorian')
];
};
proto.updateRadialAxis = function(fullLayout, polarLayout) {
var _this = this;
var gd = _this.gd;
var layers = _this.layers;
var radius = _this.radius;
var innerRadius = _this.innerRadius;
var cx = _this.cx;
var cy = _this.cy;
var radialLayout = polarLayout.radialaxis;
var a0 = mod(polarLayout.sector[0], 360);
var ax = _this.radialAxis;
var hasRoomForIt = innerRadius < radius;
_this.fillViewInitialKey('radialaxis.angle', radialLayout.angle);
_this.fillViewInitialKey('radialaxis.range', ax.range.slice());
ax.setGeometry();
// rotate auto tick labels by 180 if in quadrant II and III to make them
// readable from left-to-right
//
// TODO try moving deeper in doTicksSingle for better results?
if(ax.tickangle === 'auto' && (a0 > 90 && a0 <= 270)) {
ax.tickangle = 180;
}
// easier to set rotate angle with custom translate function
ax._transfn = function(d) {
return 'translate(' + (ax.l2p(d.x) + innerRadius) + ',0)';
};
// set special grid path function
ax._gridpath = function(d) {
return _this.pathArc(ax.r2p(d.x) + innerRadius);
};
var newTickLayout = strTickLayout(radialLayout);
if(_this.radialTickLayout !== newTickLayout) {
layers['radial-axis'].selectAll('.xtick').remove();
_this.radialTickLayout = newTickLayout;
}
if(hasRoomForIt) {
ax.setScale();
doTicksSingle(gd, ax, true);
}
// stash 'actual' radial axis angle for drag handlers (in degrees)
var angle = _this.radialAxisAngle = _this.vangles ?
rad2deg(snapToVertexAngle(deg2rad(radialLayout.angle), _this.vangles)) :
radialLayout.angle;
var trans = strTranslate(cx, cy) + strRotate(-angle);
updateElement(
layers['radial-axis'],
hasRoomForIt && (radialLayout.showticklabels || radialLayout.ticks),
{transform: trans}
);
// move all grid paths to about circle center,
// undo individual grid lines translations
updateElement(
layers['radial-grid'],
hasRoomForIt && radialLayout.showgrid,
{transform: strTranslate(cx, cy)}
).selectAll('path').attr('transform', null);
updateElement(
layers['radial-line'].select('line'),
hasRoomForIt && radialLayout.showline,
{
x1: innerRadius,
y1: 0,
x2: radius,
y2: 0,
transform: trans
}
)
.attr('stroke-width', radialLayout.linewidth)
.call(Color.stroke, radialLayout.linecolor);
};
proto.updateRadialAxisTitle = function(fullLayout, polarLayout, _angle) {
var _this = this;
var gd = _this.gd;
var radius = _this.radius;
var cx = _this.cx;
var cy = _this.cy;
var radialLayout = polarLayout.radialaxis;
var titleClass = _this.id + 'title';
var angle = _angle !== undefined ? _angle : _this.radialAxisAngle;
var angleRad = deg2rad(angle);
var cosa = Math.cos(angleRad);
var sina = Math.sin(angleRad);
var pad = 0;
if(radialLayout.title) {
var h = Drawing.bBox(_this.layers['radial-axis'].node()).height;
var ts = radialLayout.titlefont.size;
pad = radialLayout.side === 'counterclockwise' ?
-h - ts * 0.4 :
h + ts * 0.8;
}
_this.layers['radial-axis-title'] = Titles.draw(gd, titleClass, {
propContainer: radialLayout,
propName: _this.id + '.radialaxis.title',
placeholder: _(gd, 'Click to enter radial axis title'),
attributes: {
x: cx + (radius / 2) * cosa + pad * sina,
y: cy - (radius / 2) * sina + pad * cosa,
'text-anchor': 'middle'
},
transform: {rotate: -angle}
});
};
proto.updateAngularAxis = function(fullLayout, polarLayout) {
var _this = this;
var gd = _this.gd;
var layers = _this.layers;
var radius = _this.radius;
var innerRadius = _this.innerRadius;
var cx = _this.cx;
var cy = _this.cy;
var angularLayout = polarLayout.angularaxis;
var ax = _this.angularAxis;
_this.fillViewInitialKey('angularaxis.rotation', angularLayout.rotation);
ax.setGeometry();
// 't'ick to 'g'eometric radians is used all over the place here
var t2g = function(d) { return ax.t2g(d.x); };
// run rad2deg on tick0 and ditck for thetaunit: 'radians' axes
if(ax.type === 'linear' && ax.thetaunit === 'radians') {
ax.tick0 = rad2deg(ax.tick0);
ax.dtick = rad2deg(ax.dtick);
}
// Use tickval filter for category axes instead of tweaking
// the range w.r.t sector, so that sectors that cross 360 can
// show all their ticks.
if(ax.type === 'category') {
ax._tickFilter = function(d) {
return Lib.isAngleInsideSector(t2g(d), _this.sectorInRad);
};
}
ax._transfn = function(d) {
var sel = d3.select(this);
var hasElement = sel && sel.node();
// don't translate grid lines
if(hasElement && sel.classed('angularaxisgrid')) return '';
var rad = t2g(d);
var out = strTranslate(cx + radius * Math.cos(rad), cy - radius * Math.sin(rad));
// must also rotate ticks, but don't rotate labels
if(hasElement && sel.classed('ticks')) {
out += strRotate(-rad2deg(rad));
}
return out;
};
ax._gridpath = function(d) {
var rad = t2g(d);
var cosRad = Math.cos(rad);
var sinRad = Math.sin(rad);
return 'M' + [cx + innerRadius * cosRad, cy - innerRadius * sinRad] +
'L' + [cx + radius * cosRad, cy - radius * sinRad];
};
var offset4fontsize = (angularLayout.ticks !== 'outside' ? 0.7 : 0.5);
ax._labelx = function(d) {
var rad = t2g(d);
var labelStandoff = ax._labelStandoff;
var pad = ax._pad;
var offset4tx = signSin(rad) === 0 ?
0 :
Math.cos(rad) * (labelStandoff + pad + offset4fontsize * d.fontSize);
var offset4tick = signCos(rad) * (d.dx + labelStandoff + pad);
return offset4tx + offset4tick;
};
ax._labely = function(d) {
var rad = t2g(d);
var labelStandoff = ax._labelStandoff;
var labelShift = ax._labelShift;
var pad = ax._pad;
var offset4tx = d.dy + d.fontSize * MID_SHIFT - labelShift;
var offset4tick = -Math.sin(rad) * (labelStandoff + pad + offset4fontsize * d.fontSize);
return offset4tx + offset4tick;
};
ax._labelanchor = function(angle, d) {
var rad = t2g(d);
return signSin(rad) === 0 ?
(signCos(rad) > 0 ? 'start' : 'end') :
'middle';
};
var newTickLayout = strTickLayout(angularLayout);
if(_this.angularTickLayout !== newTickLayout) {
layers['angular-axis'].selectAll('.' + ax._id + 'tick').remove();
_this.angularTickLayout = newTickLayout;
}
ax.setScale();
doTicksSingle(gd, ax, true);
// angle of polygon vertices in geometric radians (null means circles)
// TODO what to do when ax.period > ax._categories ??
var vangles;
if(polarLayout.gridshape === 'linear') {
vangles = ax._vals.map(t2g);
// ax._vals should be always ordered, make them
// always turn counterclockwise for convenience here
if(Lib.angleDelta(vangles[0], vangles[1]) < 0) {
vangles = vangles.slice().reverse();
}
} else {
vangles = null;
}
_this.vangles = vangles;
// TODO maybe two arcs is better here?
// maybe split style attributes between inner and outer angular axes?
updateElement(layers['angular-line'].select('path'), angularLayout.showline, {
d: _this.pathSubplot(),
transform: strTranslate(cx, cy)
})
.attr('stroke-width', angularLayout.linewidth)
.call(Color.stroke, angularLayout.linecolor);
};
proto.updateFx = function(fullLayout, polarLayout) {
if(!this.gd._context.staticPlot) {
this.updateAngularDrag(fullLayout);
this.updateRadialDrag(fullLayout, polarLayout, 0);
this.updateRadialDrag(fullLayout, polarLayout, 1);
this.updateMainDrag(fullLayout);
}
};
proto.updateMainDrag = function(fullLayout) {
var _this = this;
var gd = _this.gd;
var layers = _this.layers;
var zoomlayer = fullLayout._zoomlayer;
var MINZOOM = constants.MINZOOM;
var OFFEDGE = constants.OFFEDGE;
var radius = _this.radius;
var innerRadius = _this.innerRadius;
var cx = _this.cx;
var cy = _this.cy;
var cxx = _this.cxx;
var cyy = _this.cyy;
var sectorInRad = _this.sectorInRad;
var vangles = _this.vangles;
var radialAxis = _this.radialAxis;
var clampTiny = helpers.clampTiny;
var findXYatLength = helpers.findXYatLength;
var findEnclosingVertexAngles = helpers.findEnclosingVertexAngles;
var chw = constants.cornerHalfWidth;
var chl = constants.cornerLen / 2;
var mainDrag = dragBox.makeDragger(layers, 'path', 'maindrag', 'crosshair');
d3.select(mainDrag)
.attr('d', _this.pathSubplot())
.attr('transform', strTranslate(cx, cy));
var dragOpts = {
element: mainDrag,
gd: gd,
subplot: _this.id,
plotinfo: {
id: _this.id,
xaxis: _this.xaxis,
yaxis: _this.yaxis
},
xaxes: [_this.xaxis],
yaxes: [_this.yaxis]
};
// mouse px position at drag start (0), move (1)
var x0, y0;
// radial distance from circle center at drag start (0), move (1)
var r0, r1;
// zoombox persistent quantities
var path0, dimmed, lum;
// zoombox, corners elements
var zb, corners;
function norm(x, y) {
return Math.sqrt(x * x + y * y);
}
function xy2r(x, y) {
return norm(x - cxx, y - cyy);
}
function xy2a(x, y) {
return Math.atan2(cyy - y, x - cxx);
}
function ra2xy(r, a) {
return [r * Math.cos(a), r * Math.sin(-a)];
}
function pathCorner(r, a) {
if(r === 0) return _this.pathSector(2 * chw);
var da = chl / r;
var am = a - da;
var ap = a + da;
var rb = Math.max(0, Math.min(r, radius));
var rm = rb - chw;
var rp = rb + chw;
return 'M' + ra2xy(rm, am) +
'A' + [rm, rm] + ' 0,0,0 ' + ra2xy(rm, ap) +
'L' + ra2xy(rp, ap) +
'A' + [rp, rp] + ' 0,0,1 ' + ra2xy(rp, am) +
'Z';
}
// (x,y) is the pt at middle of the va0 <-> va1 edge
//
// ... we could eventually add another mode for cursor
// angles 'close to' enough to a particular vertex.
function pathCornerForPolygons(r, va0, va1) {
if(r === 0) return _this.pathSector(2 * chw);
var xy0 = ra2xy(r, va0);
var xy1 = ra2xy(r, va1);
var x = clampTiny((xy0[0] + xy1[0]) / 2);
var y = clampTiny((xy0[1] + xy1[1]) / 2);
var innerPts, outerPts;
if(x && y) {
var m = y / x;
var mperp = -1 / m;
var midPts = findXYatLength(chw, m, x, y);
innerPts = findXYatLength(chl, mperp, midPts[0][0], midPts[0][1]);
outerPts = findXYatLength(chl, mperp, midPts[1][0], midPts[1][1]);
} else {
var dx, dy;
if(y) {
// horizontal handles
dx = chl;
dy = chw;
} else {
// vertical handles
dx = chw;
dy = chl;
}
innerPts = [[x - dx, y - dy], [x + dx, y - dy]];
outerPts = [[x - dx, y + dy], [x + dx, y + dy]];
}
return 'M' + innerPts.join('L') +
'L' + outerPts.reverse().join('L') + 'Z';
}
function zoomPrep() {
r0 = null;
r1 = null;
path0 = _this.pathSubplot();
dimmed = false;
var polarLayoutNow = gd._fullLayout[_this.id];
lum = tinycolor(polarLayoutNow.bgcolor).getLuminance();
zb = dragBox.makeZoombox(zoomlayer, lum, cx, cy, path0);
zb.attr('fill-rule', 'evenodd');
corners = dragBox.makeCorners(zoomlayer, cx, cy);
clearSelect(zoomlayer);
}
// N.B. this sets scoped 'r0' and 'r1'
// return true if 'valid' zoom distance, false otherwise
function clampAndSetR0R1(rr0, rr1) {
rr1 = Math.max(Math.min(rr1, radius), innerRadius);
// starting or ending drag near center (outer edge),
// clamps radial distance at origin (at r=radius)
if(rr0 < OFFEDGE) rr0 = 0;
else if((radius - rr0) < OFFEDGE) rr0 = radius;
else if(rr1 < OFFEDGE) rr1 = 0;
else if((radius - rr1) < OFFEDGE) rr1 = radius;
// make sure r0 < r1,
// to get correct fill pattern in path1 below
if(Math.abs(rr1 - rr0) > MINZOOM) {
if(rr0 < rr1) {
r0 = rr0;
r1 = rr1;
} else {
r0 = rr1;
r1 = rr0;
}
return true;
} else {
r0 = null;
r1 = null;
return false;
}
}
function applyZoomMove(path1, cpath) {
path1 = path1 || path0;
cpath = cpath || 'M0,0Z';
zb.attr('d', path1);
corners.attr('d', cpath);
dragBox.transitionZoombox(zb, corners, dimmed, lum);
dimmed = true;
}
function zoomMove(dx, dy) {
var x1 = x0 + dx;
var y1 = y0 + dy;
var rr0 = xy2r(x0, y0);
var rr1 = Math.min(xy2r(x1, y1), radius);
var a0 = xy2a(x0, y0);
var path1;
var cpath;
if(clampAndSetR0R1(rr0, rr1)) {
path1 = path0 + _this.pathSector(r1);
if(r0) path1 += _this.pathSector(r0);
// keep 'starting' angle
cpath = pathCorner(r0, a0) + pathCorner(r1, a0);
}
applyZoomMove(path1, cpath);
}
function findPolygonRadius(x, y, va0, va1) {
var xy = helpers.findIntersectionXY(va0, va1, va0, [x - cxx, cyy - y]);
return norm(xy[0], xy[1]);
}
function zoomMoveForPolygons(dx, dy) {
var x1 = x0 + dx;
var y1 = y0 + dy;
var a0 = xy2a(x0, y0);
var a1 = xy2a(x1, y1);
var vangles0 = findEnclosingVertexAngles(a0, vangles);
var vangles1 = findEnclosingVertexAngles(a1, vangles);
var rr0 = findPolygonRadius(x0, y0, vangles0[0], vangles0[1]);
var rr1 = Math.min(findPolygonRadius(x1, y1, vangles1[0], vangles1[1]), radius);
var path1;
var cpath;
if(clampAndSetR0R1(rr0, rr1)) {
path1 = path0 + _this.pathSector(r1);
if(r0) path1 += _this.pathSector(r0);
// keep 'starting' angle here too
cpath = [
pathCornerForPolygons(r0, vangles0[0], vangles0[1]),
pathCornerForPolygons(r1, vangles0[0], vangles0[1])
].join(' ');
}
applyZoomMove(path1, cpath);
}
function zoomDone() {
dragBox.removeZoombox(gd);
if(r0 === null || r1 === null) return;
dragBox.showDoubleClickNotifier(gd);
var rl = radialAxis._rl;
var m = (rl[1] - rl[0]) / (1 - innerRadius / radius) / radius;
var newRng = [
rl[0] + (r0 - innerRadius) * m,
rl[0] + (r1 - innerRadius) * m
];
Registry.call('relayout', gd, _this.id + '.radialaxis.range', newRng);
}
function zoomClick(numClicks, evt) {
var clickMode = gd._fullLayout.clickmode;
dragBox.removeZoombox(gd);
// TODO double once vs twice logic (autorange vs fixed range)
if(numClicks === 2) {
var updateObj = {};
for(var k in _this.viewInitial) {
updateObj[_this.id + '.' + k] = _this.viewInitial[k];
}
gd.emit('plotly_doubleclick', null);
Registry.call('relayout', gd, updateObj);
}
if(clickMode.indexOf('select') > -1 && numClicks === 1) {
selectOnClick(evt, gd, [_this.xaxis], [_this.yaxis], _this.id, dragOpts);
}
if(clickMode.indexOf('event') > -1) {
Fx.click(gd, evt, _this.id);
}
}
dragOpts.prepFn = function(evt, startX, startY) {
var dragModeNow = gd._fullLayout.dragmode;
var bbox = mainDrag.getBoundingClientRect();
x0 = startX - bbox.left;
y0 = startY - bbox.top;
// need to offset x/y as bbox center does not
// match origin for asymmetric polygons
if(vangles) {
var offset = helpers.findPolygonOffset(radius, sectorInRad[0], sectorInRad[1], vangles);
x0 += cxx + offset[0];
y0 += cyy + offset[1];
}
switch(dragModeNow) {
case 'zoom':
if(vangles) {
dragOpts.moveFn = zoomMoveForPolygons;
} else {
dragOpts.moveFn = zoomMove;
}
dragOpts.clickFn = zoomClick;
dragOpts.doneFn = zoomDone;
zoomPrep(evt, startX, startY);
break;
case 'select':
case 'lasso':
prepSelect(evt, startX, startY, dragOpts, dragModeNow);
break;
}
};
mainDrag.onmousemove = function(evt) {
Fx.hover(gd, evt, _this.id);
gd._fullLayout._lasthover = mainDrag;
gd._fullLayout._hoversubplot = _this.id;
};
mainDrag.onmouseout = function(evt) {
if(gd._dragging) return;
dragElement.unhover(gd, evt);
};
dragElement.init(dragOpts);
};
proto.updateRadialDrag = function(fullLayout, polarLayout, rngIndex) {
var _this = this;
var gd = _this.gd;
var layers = _this.layers;
var radius = _this.radius;
var innerRadius = _this.innerRadius;
var cx = _this.cx;
var cy = _this.cy;
var radialAxis = _this.radialAxis;
var bl = constants.radialDragBoxSize;
var bl2 = bl / 2;
if(!radialAxis.visible) return;
var angle0 = deg2rad(_this.radialAxisAngle);
var rl = radialAxis._rl;
var rl0 = rl[0];
var rl1 = rl[1];
var rbase = rl[rngIndex];
var m = 0.75 * (rl[1] - rl[0]) / (1 - polarLayout.hole) / radius;
var tx, ty, className;
if(rngIndex) {
tx = cx + (radius + bl2) * Math.cos(angle0);
ty = cy - (radius + bl2) * Math.sin(angle0);
className = 'radialdrag';
} else {
// the 'inner' box can get called:
// - when polar.hole>0
// - when polar.sector isn't a full circle
// otherwise it is hidden behind the main drag.
tx = cx + (innerRadius - bl2) * Math.cos(angle0);
ty = cy - (innerRadius - bl2) * Math.sin(angle0);
className = 'radialdrag-inner';
}
var radialDrag = dragBox.makeRectDragger(layers, className, 'crosshair', -bl2, -bl2, bl, bl);
var dragOpts = {element: radialDrag, gd: gd};
updateElement(d3.select(radialDrag), radialAxis.visible && innerRadius < radius, {
transform: strTranslate(tx, ty)
});
// move function (either rotate or re-range flavor)
var moveFn2;
// rotate angle on done
var angle1;
// re-range range[1] (or range[0]) on done
var rprime;
function moveFn(dx, dy) {
if(moveFn2) {
moveFn2(dx, dy);
} else {
var dvec = [dx, -dy];
var rvec = [Math.cos(angle0), Math.sin(angle0)];
var comp = Math.abs(Lib.dot(dvec, rvec) / Math.sqrt(Lib.dot(dvec, dvec)));
// mostly perpendicular motions rotate,
// mostly parallel motions re-range
if(!isNaN(comp)) {
moveFn2 = comp < 0.5 ? rotateMove : rerangeMove;
}
}
}
function doneFn() {
if(angle1 !== null) {
Registry.call('relayout', gd, _this.id + '.radialaxis.angle', angle1);
} else if(rprime !== null) {
Registry.call('relayout', gd, _this.id + '.radialaxis.range[' + rngIndex + ']', rprime);
}
}
function rotateMove(dx, dy) {
// disable for inner drag boxes
if(rngIndex === 0) return;
var x1 = tx + dx;
var y1 = ty + dy;
angle1 = Math.atan2(cy - y1, x1 - cx);
if(_this.vangles) angle1 = snapToVertexAngle(angle1, _this.vangles);
angle1 = rad2deg(angle1);
var transform = strTranslate(cx, cy) + strRotate(-angle1);
layers['radial-axis'].attr('transform', transform);
layers['radial-line'].select('line').attr('transform', transform);
var fullLayoutNow = _this.gd._fullLayout;
var polarLayoutNow = fullLayoutNow[_this.id];
_this.updateRadialAxisTitle(fullLayoutNow, polarLayoutNow, angle1);
}
function rerangeMove(dx, dy) {
// project (dx, dy) unto unit radial axis vector
var dr = Lib.dot([dx, -dy], [Math.cos(angle0), Math.sin(angle0)]);
rprime = rbase - m * dr;
// make sure rprime does not change the range[0] -> range[1] sign
if((m > 0) !== (rngIndex ? rprime > rl0 : rprime < rl1)) {
rprime = null;
return;
}
// update radial range -> update c2g -> update _m,_b
radialAxis.range[rngIndex] = rprime;
radialAxis._rl[rngIndex] = rprime;
radialAxis.setGeometry();
radialAxis.setScale();
_this.xaxis.setRange();
_this.xaxis.setScale();
_this.yaxis.setRange();
_this.yaxis.setScale();
doTicksSingle(gd, radialAxis, true);
layers['radial-grid']
.attr('transform', strTranslate(cx, cy))
.selectAll('path').attr('transform', null);
if(_this._scene) _this._scene.clear();
for(var traceType in _this.traceHash) {
var moduleCalcData = _this.traceHash[traceType];
var moduleCalcDataVisible = Lib.filterVisible(moduleCalcData);
var _module = moduleCalcData[0][0].trace._module;
var polarLayoutNow = gd._fullLayout[_this.id];
_module.plot(gd, _this, moduleCalcDataVisible, polarLayoutNow);
}
}
dragOpts.prepFn = function() {
moveFn2 = null;
angle1 = null;
rprime = null;
dragOpts.moveFn = moveFn;
dragOpts.doneFn = doneFn;
clearSelect(fullLayout._zoomlayer);
};
dragOpts.clampFn = function(dx, dy) {
if(Math.sqrt(dx * dx + dy * dy) < constants.MINDRAG) {
dx = 0;
dy = 0;
}
return [dx, dy];
};
dragElement.init(dragOpts);
};
proto.updateAngularDrag = function(fullLayout) {
var _this = this;
var gd = _this.gd;
var layers = _this.layers;
var radius = _this.radius;
var angularAxis = _this.angularAxis;
var cx = _this.cx;
var cy = _this.cy;
var cxx = _this.cxx;
var cyy = _this.cyy;
var dbs = constants.angularDragBoxSize;
var angularDrag = dragBox.makeDragger(layers, 'path', 'angulardrag', 'move');
var dragOpts = {element: angularDrag, gd: gd};
d3.select(angularDrag)
.attr('d', _this.pathAnnulus(radius, radius + dbs))
.attr('transform', strTranslate(cx, cy))
.call(setCursor, 'move');
function xy2a(x, y) {
return Math.atan2(cyy + dbs - y, x - cxx - dbs);
}
// scatter trace, points and textpoints selections
var scatterTraces = layers.frontplot.select('.scatterlayer').selectAll('.trace');
var scatterPoints = scatterTraces.selectAll('.point');
var scatterTextPoints = scatterTraces.selectAll('.textpoint');
// mouse px position at drag start (0), move (1)
var x0, y0;
// angular axis angle rotation at drag start (0), move (1)
var rot0, rot1;
// induced radial axis rotation (only used on polygon grids)
var rrot1;
// angle about circle center at drag start
var a0;
function moveFn(dx, dy) {
var fullLayoutNow = _this.gd._fullLayout;
var polarLayoutNow = fullLayoutNow[_this.id];
var x1 = x0 + dx;
var y1 = y0 + dy;
var a1 = xy2a(x1, y1);
var da = rad2deg(a1 - a0);
rot1 = rot0 + da;
layers.frontplot.attr('transform',
strTranslate(_this.xOffset2, _this.yOffset2) + strRotate([-da, cxx, cyy])
);
if(_this.vangles) {
rrot1 = _this.radialAxisAngle + da;
var trans = strTranslate(cx, cy) + strRotate(-da);
var trans2 = strTranslate(cx, cy) + strRotate(-rrot1);
layers.bg.attr('transform', trans);
layers['radial-grid'].attr('transform', trans);
layers['angular-line'].select('path').attr('transform', trans);
layers['radial-axis'].attr('transform', trans2);
layers['radial-line'].select('line').attr('transform', trans2);
_this.updateRadialAxisTitle(fullLayoutNow, polarLayoutNow, rrot1);
} else {
_this.clipPaths.forTraces.select('path').attr('transform',
strTranslate(cxx, cyy) + strRotate(da)
);
}
// 'un-rotate' marker and text points
scatterPoints.each(function() {
var sel = d3.select(this);
var xy = Drawing.getTranslate(sel);
sel.attr('transform', strTranslate(xy.x, xy.y) + strRotate([da]));
});
scatterTextPoints.each(function() {
var sel = d3.select(this);
var tx = sel.select('text');
var xy = Drawing.getTranslate(sel);
// N.B rotate -> translate ordering matters
sel.attr('transform', strRotate([da, tx.attr('x'), tx.attr('y')]) + strTranslate(xy.x, xy.y));
});
// update rotation -> range -> _m,_b
angularAxis.rotation = Lib.modHalf(rot1, 360);
angularAxis.setGeometry();
angularAxis.setScale();
doTicksSingle(gd, angularAxis, true);
if(_this._hasClipOnAxisFalse && !Lib.isFullCircle(_this.sectorInRad)) {
scatterTraces.call(Drawing.hideOutsideRangePoints, _this);
}
if(_this._scene) _this._scene.clear();
for(var traceType in _this.traceHash) {
if(Registry.traceIs(traceType, 'gl')) {
var moduleCalcData = _this.traceHash[traceType];
var moduleCalcDataVisible = Lib.filterVisible(moduleCalcData);
var _module = moduleCalcData[0][0].trace._module;
_module.plot(gd, _this, moduleCalcDataVisible, polarLayoutNow);
}
}
}
function doneFn() {
scatterTextPoints.select('text').attr('transform', null);
var updateObj = {};
updateObj[_this.id + '.angularaxis.rotation'] = rot1;
if(_this.vangles) {
updateObj[_this.id + '.radialaxis.angle'] = rrot1;
}
Registry.call('relayout', gd, updateObj);
}
dragOpts.prepFn = function(evt, startX, startY) {
var polarLayoutNow = fullLayout[_this.id];
rot0 = polarLayoutNow.angularaxis.rotation;
var bbox = angularDrag.getBoundingClientRect();
x0 = startX - bbox.left;
y0 = startY - bbox.top;
a0 = xy2a(x0, y0);
dragOpts.moveFn = moveFn;
dragOpts.doneFn = doneFn;
clearSelect(fullLayout._zoomlayer);
};
// I don't what we should do in this case, skip we now
if(_this.vangles && !Lib.isFullCircle(_this.sectorInRad)) {
dragOpts.prepFn = Lib.noop;
setCursor(d3.select(angularDrag), null);
}
dragElement.init(dragOpts);
};
proto.isPtInside = function(d) {
var sectorInRad = this.sectorInRad;
var vangles = this.vangles;
var thetag = this.angularAxis.c2g(d.theta);
var radialAxis = this.radialAxis;
var r = radialAxis.c2l(d.r);
var rl = radialAxis._rl;
var fn = vangles ? helpers.isPtInsidePolygon : Lib.isPtInsideSector;
return fn(r, thetag, rl, sectorInRad, vangles);
};
proto.pathArc = function(r) {
var sectorInRad = this.sectorInRad;
var vangles = this.vangles;
var fn = vangles ? helpers.pathPolygon : Lib.pathArc;
return fn(r, sectorInRad[0], sectorInRad[1], vangles);
};
proto.pathSector = function(r) {
var sectorInRad = this.sectorInRad;
var vangles = this.vangles;
var fn = vangles ? helpers.pathPolygon : Lib.pathSector;
return fn(r, sectorInRad[0], sectorInRad[1], vangles);
};
proto.pathAnnulus = function(r0, r1) {
var sectorInRad = this.sectorInRad;
var vangles = this.vangles;
var fn = vangles ? helpers.pathPolygonAnnulus : Lib.pathAnnulus;
return fn(r0, r1, sectorInRad[0], sectorInRad[1], vangles);
};
proto.pathSubplot = function() {
var r0 = this.innerRadius;
var r1 = this.radius;
return r0 ? this.pathAnnulus(r0, r1) : this.pathSector(r1);
};
proto.fillViewInitialKey = function(key, val) {
if(!(key in this.viewInitial)) {
this.viewInitial[key] = val;
}
};
function strTickLayout(axLayout) {
var out = axLayout.ticks + String(axLayout.ticklen) + String(axLayout.showticklabels);
if('side' in axLayout) out += axLayout.side;
return out;
}
// Finds the bounding box of a given circle sector,
// inspired by https://math.stackexchange.com/q/1852703
//
// assumes:
// - sector[0] < sector[1]
// - counterclockwise rotation
function computeSectorBBox(sector) {
var s0 = sector[0];
var s1 = sector[1];
var arc = s1 - s0;
var a0 = mod(s0, 360);
var a1 = a0 + arc;
var ax0 = Math.cos(deg2rad(a0));
var ay0 = Math.sin(deg2rad(a0));
var ax1 = Math.cos(deg2rad(a1));
var ay1 = Math.sin(deg2rad(a1));
var x0, y0, x1, y1;
if((a0 <= 90 && a1 >= 90) || (a0 > 90 && a1 >= 450)) {
y1 = 1;
} else if(ay0 <= 0 && ay1 <= 0) {
y1 = 0;
} else {
y1 = Math.max(ay0, ay1);
}
if((a0 <= 180 && a1 >= 180) || (a0 > 180 && a1 >= 540)) {
x0 = -1;
} else if(ax0 >= 0 && ax1 >= 0) {
x0 = 0;
} else {
x0 = Math.min(ax0, ax1);
}
if((a0 <= 270 && a1 >= 270) || (a0 > 270 && a1 >= 630)) {
y0 = -1;
} else if(ay0 >= 0 && ay1 >= 0) {
y0 = 0;
} else {
y0 = Math.min(ay0, ay1);
}
if(a1 >= 360) {
x1 = 1;
} else if(ax0 <= 0 && ax1 <= 0) {
x1 = 0;
} else {
x1 = Math.max(ax0, ax1);
}
return [x0, y0, x1, y1];
}
function snapToVertexAngle(a, vangles) {
var fn = function(v) { return Lib.angleDist(a, v); };
var ind = Lib.findIndexOfMin(vangles, fn);
return vangles[ind];
}
function updateElement(sel, showAttr, attrs) {
if(showAttr) {
sel.attr('display', null);
sel.attr(attrs);
} else if(sel) {
sel.attr('display', 'none');
}
return sel;
}
function strTranslate(x, y) {
return 'translate(' + x + ',' + y + ')';
}
function strRotate(angle) {
return 'rotate(' + angle + ')';
}
// because Math.sign(Math.cos(Math.PI / 2)) === 1
// oh javascript ;)
function sign(v) {
return Math.abs(v) < 1e-10 ? 0 :
v > 0 ? 1 : -1;
}
function signCos(v) {
return sign(Math.cos(v));
}
function signSin(v) {
return sign(Math.sin(v));
}
},{"../../components/color":567,"../../components/dragelement":589,"../../components/drawing":592,"../../components/fx":609,"../../components/titles":658,"../../constants/alignment":665,"../../lib":693,"../../lib/setcursor":714,"../../registry":825,"../cartesian/autorange":741,"../cartesian/axes":742,"../cartesian/dragbox":750,"../cartesian/select":759,"../cartesian/set_convert":760,"../plots":805,"./constants":806,"./helpers":807,"./set_convert":818,"d3":147,"tinycolor2":511}],818:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var setConvertCartesian = _dereq_('../cartesian/set_convert');
var deg2rad = Lib.deg2rad;
var rad2deg = Lib.rad2deg;
/**
* setConvert for polar axes!
*
* @param {object} ax
* axis in question (works for both radial and angular axes)
* @param {object} polarLayout
* full polar layout of the subplot associated with 'ax'
* @param {object} fullLayout
* full layout
*
* Here, reuse some of the Cartesian setConvert logic,
* but we must extend some of it, as both radial and angular axes
* don't have domains and angular axes don't have _true_ ranges.
*
* Moreover, we introduce two new coordinate systems:
* - 'g' for geometric coordinates and
* - 't' for angular ticks
*
* Radial axis coordinate systems:
* - d, c and l: same as for cartesian axes
* - g: like calcdata but translated about `radialaxis.range[0]` & `polar.hole`
*
* Angular axis coordinate systems:
* - d: data, in whatever form it's provided
* - c: calcdata, turned into radians (for linear axes)
* or category indices (category axes)
* - t: tick calcdata, just like 'c' but in degrees for linear axes
* - g: geometric calcdata, radians coordinates that take into account
* axis rotation and direction
*
* Then, 'g'eometric data is ready to be converted to (x,y).
*/
module.exports = function setConvert(ax, polarLayout, fullLayout) {
setConvertCartesian(ax, fullLayout);
switch(ax._id) {
case 'x':
case 'radialaxis':
setConvertRadial(ax, polarLayout);
break;
case 'angularaxis':
setConvertAngular(ax, polarLayout);
break;
}
};
function setConvertRadial(ax, polarLayout) {
var subplot = polarLayout._subplot;
ax.setGeometry = function() {
var rl0 = ax._rl[0];
var rl1 = ax._rl[1];
var b = subplot.innerRadius;
var m = (subplot.radius - b) / (rl1 - rl0);
var b2 = b / m;
var rFilter = rl0 > rl1 ?
function(v) { return v <= 0; } :
function(v) { return v >= 0; };
ax.c2g = function(v) {
var r = ax.c2l(v) - rl0;
return (rFilter(r) ? r : 0) + b2;
};
ax.g2c = function(v) {
return ax.l2c(v + rl0 - b2);
};
ax.g2p = function(v) { return v * m; };
ax.c2p = function(v) { return ax.g2p(ax.c2g(v)); };
};
}
function toRadians(v, unit) {
return unit === 'degrees' ? deg2rad(v) : v;
}
function fromRadians(v, unit) {
return unit === 'degrees' ? rad2deg(v) : v;
}
function setConvertAngular(ax, polarLayout) {
var axType = ax.type;
if(axType === 'linear') {
var _d2c = ax.d2c;
var _c2d = ax.c2d;
ax.d2c = function(v, unit) { return toRadians(_d2c(v), unit); };
ax.c2d = function(v, unit) { return _c2d(fromRadians(v, unit)); };
}
// override makeCalcdata to handle thetaunit and special theta0/dtheta logic
ax.makeCalcdata = function(trace, coord) {
var arrayIn = trace[coord];
var len = trace._length;
var arrayOut, i;
var _d2c = function(v) { return ax.d2c(v, trace.thetaunit); };
if(arrayIn) {
if(Lib.isTypedArray(arrayIn) && axType === 'linear') {
if(len === arrayIn.length) {
return arrayIn;
} else if(arrayIn.subarray) {
return arrayIn.subarray(0, len);
}
}
arrayOut = new Array(len);
for(i = 0; i < len; i++) {
arrayOut[i] = _d2c(arrayIn[i]);
}
} else {
var coord0 = coord + '0';
var dcoord = 'd' + coord;
var v0 = (coord0 in trace) ? _d2c(trace[coord0]) : 0;
var dv = (trace[dcoord]) ? _d2c(trace[dcoord]) : (ax.period || 2 * Math.PI) / len;
arrayOut = new Array(len);
for(i = 0; i < len; i++) {
arrayOut[i] = v0 + i * dv;
}
}
return arrayOut;
};
// N.B. we mock the axis 'range' here
ax.setGeometry = function() {
var sector = polarLayout.sector;
var sectorInRad = sector.map(deg2rad);
var dir = {clockwise: -1, counterclockwise: 1}[ax.direction];
var rot = deg2rad(ax.rotation);
var rad2g = function(v) { return dir * v + rot; };
var g2rad = function(v) { return (v - rot) / dir; };
var rad2c, c2rad;
var rad2t, t2rad;
switch(axType) {
case 'linear':
c2rad = rad2c = Lib.identity;
t2rad = deg2rad;
rad2t = rad2deg;
// Set the angular range in degrees to make auto-tick computation cleaner,
// changing rotation/direction should not affect the angular tick value.
ax.range = Lib.isFullCircle(sectorInRad) ?
[sector[0], sector[0] + 360] :
sectorInRad.map(g2rad).map(rad2deg);
break;
case 'category':
var catLen = ax._categories.length;
var _period = ax.period ? Math.max(ax.period, catLen) : catLen;
c2rad = t2rad = function(v) { return v * 2 * Math.PI / _period; };
rad2c = rad2t = function(v) { return v * _period / Math.PI / 2; };
ax.range = [0, _period];
break;
}
ax.c2g = function(v) { return rad2g(c2rad(v)); };
ax.g2c = function(v) { return rad2c(g2rad(v)); };
ax.t2g = function(v) { return rad2g(t2rad(v)); };
ax.g2t = function(v) { return rad2t(g2rad(v)); };
};
}
},{"../../lib":693,"../cartesian/set_convert":760}],819:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
// always plot splom before cartesian (i.e. scattergl traces)
function sortModules(a, b) {
if(a === 'splom') return -1;
if(b === 'splom') return 1;
return 0;
}
function sortBasePlotModules(a, b) {
return sortModules(a.name, b.name);
}
module.exports = {
sortBasePlotModules: sortBasePlotModules,
sortModules: sortModules
};
},{}],820:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../lib');
var Template = _dereq_('../plot_api/plot_template');
var handleDomainDefaults = _dereq_('./domain').defaults;
/**
* Find and supply defaults to all subplots of a given type
* This handles subplots that are contained within one container - so
* gl3d, geo, ternary... but not 2d axes which have separate x and y axes
* finds subplots, coerces their `domain` attributes, then calls the
* given handleDefaults function to fill in everything else.
*
* layoutIn: the complete user-supplied input layout
* layoutOut: the complete finished layout
* fullData: the finished data array, used only to find subplots
* opts: {
* type: subplot type string
* attributes: subplot attributes object
* partition: 'x' or 'y', which direction to divide domain space by default
* (default 'x', ie side-by-side subplots)
* TODO: this option is only here because 3D and geo made opposite
* choices in this regard previously and I didn't want to change it.
* Instead we should do:
* - something consistent
* - something more square (4 cuts 2x2, 5/6 cuts 2x3, etc.)
* - something that includes all subplot types in one arrangement,
* now that we can have them together!
* handleDefaults: function of (subplotLayoutIn, subplotLayoutOut, coerce, opts)
* this opts object is passed through to handleDefaults, so attach any
* additional items needed by this function here as well
* }
*/
module.exports = function handleSubplotDefaults(layoutIn, layoutOut, fullData, opts) {
var subplotType = opts.type;
var subplotAttributes = opts.attributes;
var handleDefaults = opts.handleDefaults;
var partition = opts.partition || 'x';
var ids = layoutOut._subplots[subplotType];
var idsLength = ids.length;
var baseId = idsLength && ids[0].replace(/\d+$/, '');
var subplotLayoutIn, subplotLayoutOut;
function coerce(attr, dflt) {
return Lib.coerce(subplotLayoutIn, subplotLayoutOut, subplotAttributes, attr, dflt);
}
for(var i = 0; i < idsLength; i++) {
var id = ids[i];
// ternary traces get a layout ternary for free!
if(layoutIn[id]) subplotLayoutIn = layoutIn[id];
else subplotLayoutIn = layoutIn[id] = {};
subplotLayoutOut = Template.newContainer(layoutOut, id, baseId);
var dfltDomains = {};
dfltDomains[partition] = [i / idsLength, (i + 1) / idsLength];
handleDomainDefaults(subplotLayoutOut, layoutOut, coerce, dfltDomains);
opts.id = id;
handleDefaults(subplotLayoutIn, subplotLayoutOut, coerce, opts);
}
};
},{"../lib":693,"../plot_api/plot_template":732,"./domain":767}],821:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Ternary = _dereq_('./ternary');
var getSubplotCalcData = _dereq_('../../plots/get_data').getSubplotCalcData;
var counterRegex = _dereq_('../../lib').counterRegex;
var TERNARY = 'ternary';
exports.name = TERNARY;
var attr = exports.attr = 'subplot';
exports.idRoot = TERNARY;
exports.idRegex = exports.attrRegex = counterRegex(TERNARY);
var attributes = exports.attributes = {};
attributes[attr] = {
valType: 'subplotid',
dflt: 'ternary',
editType: 'calc',
};
exports.layoutAttributes = _dereq_('./layout_attributes');
exports.supplyLayoutDefaults = _dereq_('./layout_defaults');
exports.plot = function plotTernary(gd) {
var fullLayout = gd._fullLayout;
var calcData = gd.calcdata;
var ternaryIds = fullLayout._subplots[TERNARY];
for(var i = 0; i < ternaryIds.length; i++) {
var ternaryId = ternaryIds[i],
ternaryCalcData = getSubplotCalcData(calcData, TERNARY, ternaryId),
ternary = fullLayout[ternaryId]._subplot;
// If ternary is not instantiated, create one!
if(!ternary) {
ternary = new Ternary({
id: ternaryId,
graphDiv: gd,
container: fullLayout._ternarylayer.node()
},
fullLayout
);
fullLayout[ternaryId]._subplot = ternary;
}
ternary.plot(ternaryCalcData, fullLayout, gd._promises);
}
};
exports.clean = function(newFullData, newFullLayout, oldFullData, oldFullLayout) {
var oldTernaryKeys = oldFullLayout._subplots[TERNARY] || [];
for(var i = 0; i < oldTernaryKeys.length; i++) {
var oldTernaryKey = oldTernaryKeys[i];
var oldTernary = oldFullLayout[oldTernaryKey]._subplot;
if(!newFullLayout[oldTernaryKey] && !!oldTernary) {
oldTernary.plotContainer.remove();
oldTernary.clipDef.remove();
oldTernary.clipDefRelative.remove();
oldTernary.layers['a-title'].remove();
oldTernary.layers['b-title'].remove();
oldTernary.layers['c-title'].remove();
}
}
};
},{"../../lib":693,"../../plots/get_data":778,"./layout_attributes":822,"./layout_defaults":823,"./ternary":824}],822:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var colorAttrs = _dereq_('../../components/color/attributes');
var domainAttrs = _dereq_('../domain').attributes;
var axesAttrs = _dereq_('../cartesian/layout_attributes');
var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll;
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var ternaryAxesAttrs = {
title: axesAttrs.title,
titlefont: axesAttrs.titlefont,
color: axesAttrs.color,
// ticks
tickmode: axesAttrs.tickmode,
nticks: extendFlat({}, axesAttrs.nticks, {dflt: 6, min: 1}),
tick0: axesAttrs.tick0,
dtick: axesAttrs.dtick,
tickvals: axesAttrs.tickvals,
ticktext: axesAttrs.ticktext,
ticks: axesAttrs.ticks,
ticklen: axesAttrs.ticklen,
tickwidth: axesAttrs.tickwidth,
tickcolor: axesAttrs.tickcolor,
showticklabels: axesAttrs.showticklabels,
showtickprefix: axesAttrs.showtickprefix,
tickprefix: axesAttrs.tickprefix,
showticksuffix: axesAttrs.showticksuffix,
ticksuffix: axesAttrs.ticksuffix,
showexponent: axesAttrs.showexponent,
exponentformat: axesAttrs.exponentformat,
separatethousands: axesAttrs.separatethousands,
tickfont: axesAttrs.tickfont,
tickangle: axesAttrs.tickangle,
tickformat: axesAttrs.tickformat,
tickformatstops: axesAttrs.tickformatstops,
hoverformat: axesAttrs.hoverformat,
// lines and grids
showline: extendFlat({}, axesAttrs.showline, {dflt: true}),
linecolor: axesAttrs.linecolor,
linewidth: axesAttrs.linewidth,
showgrid: extendFlat({}, axesAttrs.showgrid, {dflt: true}),
gridcolor: axesAttrs.gridcolor,
gridwidth: axesAttrs.gridwidth,
layer: axesAttrs.layer,
// range
min: {
valType: 'number',
dflt: 0,
min: 0,
}
};
module.exports = overrideAll({
domain: domainAttrs({name: 'ternary'}),
bgcolor: {
valType: 'color',
dflt: colorAttrs.background,
},
sum: {
valType: 'number',
dflt: 1,
min: 0,
},
aaxis: ternaryAxesAttrs,
baxis: ternaryAxesAttrs,
caxis: ternaryAxesAttrs
}, 'plot', 'from-root');
},{"../../components/color/attributes":566,"../../lib/extend":682,"../../plot_api/edit_types":725,"../cartesian/layout_attributes":754,"../domain":767}],823:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Color = _dereq_('../../components/color');
var Template = _dereq_('../../plot_api/plot_template');
var Lib = _dereq_('../../lib');
var handleSubplotDefaults = _dereq_('../subplot_defaults');
var handleTickLabelDefaults = _dereq_('../cartesian/tick_label_defaults');
var handleTickMarkDefaults = _dereq_('../cartesian/tick_mark_defaults');
var handleTickValueDefaults = _dereq_('../cartesian/tick_value_defaults');
var handleLineGridDefaults = _dereq_('../cartesian/line_grid_defaults');
var layoutAttributes = _dereq_('./layout_attributes');
var axesNames = ['aaxis', 'baxis', 'caxis'];
module.exports = function supplyLayoutDefaults(layoutIn, layoutOut, fullData) {
handleSubplotDefaults(layoutIn, layoutOut, fullData, {
type: 'ternary',
attributes: layoutAttributes,
handleDefaults: handleTernaryDefaults,
font: layoutOut.font,
paper_bgcolor: layoutOut.paper_bgcolor
});
};
function handleTernaryDefaults(ternaryLayoutIn, ternaryLayoutOut, coerce, options) {
var bgColor = coerce('bgcolor');
var sum = coerce('sum');
options.bgColor = Color.combine(bgColor, options.paper_bgcolor);
var axName, containerIn, containerOut;
// TODO: allow most (if not all) axis attributes to be set
// in the outer container and used as defaults in the individual axes?
for(var j = 0; j < axesNames.length; j++) {
axName = axesNames[j];
containerIn = ternaryLayoutIn[axName] || {};
containerOut = Template.newContainer(ternaryLayoutOut, axName);
containerOut._name = axName;
handleAxisDefaults(containerIn, containerOut, options);
}
// if the min values contradict each other, set them all to default (0)
// and delete *all* the inputs so the user doesn't get confused later by
// changing one and having them all change.
var aaxis = ternaryLayoutOut.aaxis,
baxis = ternaryLayoutOut.baxis,
caxis = ternaryLayoutOut.caxis;
if(aaxis.min + baxis.min + caxis.min >= sum) {
aaxis.min = 0;
baxis.min = 0;
caxis.min = 0;
if(ternaryLayoutIn.aaxis) delete ternaryLayoutIn.aaxis.min;
if(ternaryLayoutIn.baxis) delete ternaryLayoutIn.baxis.min;
if(ternaryLayoutIn.caxis) delete ternaryLayoutIn.caxis.min;
}
}
function handleAxisDefaults(containerIn, containerOut, options) {
var axAttrs = layoutAttributes[containerOut._name];
function coerce(attr, dflt) {
return Lib.coerce(containerIn, containerOut, axAttrs, attr, dflt);
}
containerOut.type = 'linear'; // no other types allowed for ternary
var dfltColor = coerce('color');
// if axis.color was provided, use it for fonts too; otherwise,
// inherit from global font color in case that was provided.
var dfltFontColor = (dfltColor !== axAttrs.color.dflt) ? dfltColor : options.font.color;
var axName = containerOut._name,
letterUpper = axName.charAt(0).toUpperCase(),
dfltTitle = 'Component ' + letterUpper;
var title = coerce('title', dfltTitle);
containerOut._hovertitle = title === dfltTitle ? title : letterUpper;
Lib.coerceFont(coerce, 'titlefont', {
family: options.font.family,
size: Math.round(options.font.size * 1.2),
color: dfltFontColor
});
// range is just set by 'min' - max is determined by the other axes mins
coerce('min');
handleTickValueDefaults(containerIn, containerOut, coerce, 'linear');
handleTickLabelDefaults(containerIn, containerOut, coerce, 'linear', {});
handleTickMarkDefaults(containerIn, containerOut, coerce,
{ outerTicks: true });
var showTickLabels = coerce('showticklabels');
if(showTickLabels) {
Lib.coerceFont(coerce, 'tickfont', {
family: options.font.family,
size: options.font.size,
color: dfltFontColor
});
coerce('tickangle');
coerce('tickformat');
}
handleLineGridDefaults(containerIn, containerOut, coerce, {
dfltColor: dfltColor,
bgColor: options.bgColor,
// default grid color is darker here (60%, vs cartesian default ~91%)
// because the grid is not square so the eye needs heavier cues to follow
blend: 60,
showLine: true,
showGrid: true,
noZeroLine: true,
attributes: axAttrs
});
coerce('hoverformat');
coerce('layer');
}
},{"../../components/color":567,"../../lib":693,"../../plot_api/plot_template":732,"../cartesian/line_grid_defaults":756,"../cartesian/tick_label_defaults":761,"../cartesian/tick_mark_defaults":762,"../cartesian/tick_value_defaults":763,"../subplot_defaults":820,"./layout_attributes":822}],824:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var tinycolor = _dereq_('tinycolor2');
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var _ = Lib._;
var Color = _dereq_('../../components/color');
var Drawing = _dereq_('../../components/drawing');
var setConvert = _dereq_('../cartesian/set_convert');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var Plots = _dereq_('../plots');
var Axes = _dereq_('../cartesian/axes');
var dragElement = _dereq_('../../components/dragelement');
var Fx = _dereq_('../../components/fx');
var Titles = _dereq_('../../components/titles');
var prepSelect = _dereq_('../cartesian/select').prepSelect;
var selectOnClick = _dereq_('../cartesian/select').selectOnClick;
var clearSelect = _dereq_('../cartesian/select').clearSelect;
var constants = _dereq_('../cartesian/constants');
function Ternary(options, fullLayout) {
this.id = options.id;
this.graphDiv = options.graphDiv;
this.init(fullLayout);
this.makeFramework(fullLayout);
// unfortunately, we have to keep track of some axis tick settings
// as ternary subplots do not implement the 'ticks' editType
this.aTickLayout = null;
this.bTickLayout = null;
this.cTickLayout = null;
}
module.exports = Ternary;
var proto = Ternary.prototype;
proto.init = function(fullLayout) {
this.container = fullLayout._ternarylayer;
this.defs = fullLayout._defs;
this.layoutId = fullLayout._uid;
this.traceHash = {};
this.layers = {};
};
proto.plot = function(ternaryCalcData, fullLayout) {
var _this = this;
var ternaryLayout = fullLayout[_this.id];
var graphSize = fullLayout._size;
_this._hasClipOnAxisFalse = false;
for(var i = 0; i < ternaryCalcData.length; i++) {
var trace = ternaryCalcData[i][0].trace;
if(trace.cliponaxis === false) {
_this._hasClipOnAxisFalse = true;
break;
}
}
_this.updateLayers(ternaryLayout);
_this.adjustLayout(ternaryLayout, graphSize);
Plots.generalUpdatePerTraceModule(_this.graphDiv, _this, ternaryCalcData, ternaryLayout);
_this.layers.plotbg.select('path').call(Color.fill, ternaryLayout.bgcolor);
};
proto.makeFramework = function(fullLayout) {
var _this = this;
var ternaryLayout = fullLayout[_this.id];
var clipId = _this.clipId = 'clip' + _this.layoutId + _this.id;
var clipIdRelative = _this.clipIdRelative = 'clip-relative' + _this.layoutId + _this.id;
// clippath for this ternary subplot
_this.clipDef = Lib.ensureSingleById(fullLayout._clips, 'clipPath', clipId, function(s) {
s.append('path').attr('d', 'M0,0Z');
});
// 'relative' clippath (i.e. no translation) for this ternary subplot
_this.clipDefRelative = Lib.ensureSingleById(fullLayout._clips, 'clipPath', clipIdRelative, function(s) {
s.append('path').attr('d', 'M0,0Z');
});
// container for everything in this ternary subplot
_this.plotContainer = Lib.ensureSingle(_this.container, 'g', _this.id);
_this.updateLayers(ternaryLayout);
Drawing.setClipUrl(_this.layers.backplot, clipId);
Drawing.setClipUrl(_this.layers.grids, clipId);
};
proto.updateLayers = function(ternaryLayout) {
var _this = this;
var layers = _this.layers;
// inside that container, we have one container for the data, and
// one each for the three axes around it.
var plotLayers = ['draglayer', 'plotbg', 'backplot', 'grids'];
if(ternaryLayout.aaxis.layer === 'below traces') {
plotLayers.push('aaxis', 'aline');
}
if(ternaryLayout.baxis.layer === 'below traces') {
plotLayers.push('baxis', 'bline');
}
if(ternaryLayout.caxis.layer === 'below traces') {
plotLayers.push('caxis', 'cline');
}
plotLayers.push('frontplot');
if(ternaryLayout.aaxis.layer === 'above traces') {
plotLayers.push('aaxis', 'aline');
}
if(ternaryLayout.baxis.layer === 'above traces') {
plotLayers.push('baxis', 'bline');
}
if(ternaryLayout.caxis.layer === 'above traces') {
plotLayers.push('caxis', 'cline');
}
var toplevel = _this.plotContainer.selectAll('g.toplevel')
.data(plotLayers, String);
var grids = ['agrid', 'bgrid', 'cgrid'];
toplevel.enter().append('g')
.attr('class', function(d) { return 'toplevel ' + d; })
.each(function(d) {
var s = d3.select(this);
layers[d] = s;
// containers for different trace types.
// NOTE - this is different from cartesian, where all traces
// are in front of grids. Here I'm putting maps behind the grids
// so the grids will always be visible if they're requested.
// Perhaps we want that for cartesian too?
if(d === 'frontplot') {
s.append('g').classed('scatterlayer', true);
} else if(d === 'backplot') {
s.append('g').classed('maplayer', true);
} else if(d === 'plotbg') {
s.append('path').attr('d', 'M0,0Z');
} else if(d === 'aline' || d === 'bline' || d === 'cline') {
s.append('path');
} else if(d === 'grids') {
grids.forEach(function(d) {
layers[d] = s.append('g').classed('grid ' + d, true);
var fictID = (d === 'bgrid') ? 'x' : 'y';
layers[d].append('g').classed(fictID, true);
});
}
});
toplevel.order();
};
var w_over_h = Math.sqrt(4 / 3);
proto.adjustLayout = function(ternaryLayout, graphSize) {
var _this = this,
domain = ternaryLayout.domain,
xDomainCenter = (domain.x[0] + domain.x[1]) / 2,
yDomainCenter = (domain.y[0] + domain.y[1]) / 2,
xDomain = domain.x[1] - domain.x[0],
yDomain = domain.y[1] - domain.y[0],
wmax = xDomain * graphSize.w,
hmax = yDomain * graphSize.h,
sum = ternaryLayout.sum,
amin = ternaryLayout.aaxis.min,
bmin = ternaryLayout.baxis.min,
cmin = ternaryLayout.caxis.min;
var x0, y0, w, h, xDomainFinal, yDomainFinal;
if(wmax > w_over_h * hmax) {
h = hmax;
w = h * w_over_h;
}
else {
w = wmax;
h = w / w_over_h;
}
xDomainFinal = xDomain * w / wmax;
yDomainFinal = yDomain * h / hmax;
x0 = graphSize.l + graphSize.w * xDomainCenter - w / 2;
y0 = graphSize.t + graphSize.h * (1 - yDomainCenter) - h / 2;
_this.x0 = x0;
_this.y0 = y0;
_this.w = w;
_this.h = h;
_this.sum = sum;
// set up the x and y axis objects we'll use to lay out the points
_this.xaxis = {
type: 'linear',
range: [amin + 2 * cmin - sum, sum - amin - 2 * bmin],
domain: [
xDomainCenter - xDomainFinal / 2,
xDomainCenter + xDomainFinal / 2
],
_id: 'x'
};
setConvert(_this.xaxis, _this.graphDiv._fullLayout);
_this.xaxis.setScale();
_this.xaxis.isPtWithinRange = function(d) {
return (
d.a >= _this.aaxis.range[0] &&
d.a <= _this.aaxis.range[1] &&
d.b >= _this.baxis.range[1] &&
d.b <= _this.baxis.range[0] &&
d.c >= _this.caxis.range[1] &&
d.c <= _this.caxis.range[0]
);
};
_this.yaxis = {
type: 'linear',
range: [amin, sum - bmin - cmin],
domain: [
yDomainCenter - yDomainFinal / 2,
yDomainCenter + yDomainFinal / 2
],
_id: 'y'
};
setConvert(_this.yaxis, _this.graphDiv._fullLayout);
_this.yaxis.setScale();
_this.yaxis.isPtWithinRange = function() { return true; };
// set up the modified axes for tick drawing
var yDomain0 = _this.yaxis.domain[0];
// aaxis goes up the left side. Set it up as a y axis, but with
// fictitious angles and domain, but then rotate and translate
// it into place at the end
var aaxis = _this.aaxis = extendFlat({}, ternaryLayout.aaxis, {
visible: true,
range: [amin, sum - bmin - cmin],
side: 'left',
_counterangle: 30,
// tickangle = 'auto' means 0 anyway for a y axis, need to coerce to 0 here
// so we can shift by 30.
tickangle: (+ternaryLayout.aaxis.tickangle || 0) - 30,
domain: [yDomain0, yDomain0 + yDomainFinal * w_over_h],
_axislayer: _this.layers.aaxis,
_gridlayer: _this.layers.agrid,
anchor: 'free',
position: 0,
_pos: 0, // _this.xaxis.domain[0] * graphSize.w,
_id: 'y',
_length: w,
_gridpath: 'M0,0l' + h + ',-' + (w / 2),
automargin: false // don't use automargins routine for labels
});
setConvert(aaxis, _this.graphDiv._fullLayout);
aaxis.setScale();
// baxis goes across the bottom (backward). We can set it up as an x axis
// without any enclosing transformation.
var baxis = _this.baxis = extendFlat({}, ternaryLayout.baxis, {
visible: true,
range: [sum - amin - cmin, bmin],
side: 'bottom',
_counterangle: 30,
domain: _this.xaxis.domain,
_axislayer: _this.layers.baxis,
_gridlayer: _this.layers.bgrid,
_counteraxis: _this.aaxis,
anchor: 'free',
position: 0,
_pos: 0, // (1 - yDomain0) * graphSize.h,
_id: 'x',
_length: w,
_gridpath: 'M0,0l-' + (w / 2) + ',-' + h,
automargin: false // don't use automargins routine for labels
});
setConvert(baxis, _this.graphDiv._fullLayout);
baxis.setScale();
aaxis._counteraxis = baxis;
// caxis goes down the right side. Set it up as a y axis, with
// post-transformation similar to aaxis
var caxis = _this.caxis = extendFlat({}, ternaryLayout.caxis, {
visible: true,
range: [sum - amin - bmin, cmin],
side: 'right',
_counterangle: 30,
tickangle: (+ternaryLayout.caxis.tickangle || 0) + 30,
domain: [yDomain0, yDomain0 + yDomainFinal * w_over_h],
_axislayer: _this.layers.caxis,
_gridlayer: _this.layers.cgrid,
_counteraxis: _this.baxis,
anchor: 'free',
position: 0,
_pos: 0, // _this.xaxis.domain[1] * graphSize.w,
_id: 'y',
_length: w,
_gridpath: 'M0,0l-' + h + ',' + (w / 2),
automargin: false // don't use automargins routine for labels
});
setConvert(caxis, _this.graphDiv._fullLayout);
caxis.setScale();
var triangleClip = 'M' + x0 + ',' + (y0 + h) + 'h' + w + 'l-' + (w / 2) + ',-' + h + 'Z';
_this.clipDef.select('path').attr('d', triangleClip);
_this.layers.plotbg.select('path').attr('d', triangleClip);
var triangleClipRelative = 'M0,' + h + 'h' + w + 'l-' + (w / 2) + ',-' + h + 'Z';
_this.clipDefRelative.select('path').attr('d', triangleClipRelative);
var plotTransform = 'translate(' + x0 + ',' + y0 + ')';
_this.plotContainer.selectAll('.scatterlayer,.maplayer')
.attr('transform', plotTransform);
_this.clipDefRelative.select('path').attr('transform', null);
// TODO: shift axes to accommodate linewidth*sin(30) tick mark angle
// TODO: there's probably an easier way to handle these translations/offsets now...
var bTransform = 'translate(' + (x0 - baxis._offset) + ',' + (y0 + h) + ')';
_this.layers.baxis.attr('transform', bTransform);
_this.layers.bgrid.attr('transform', bTransform);
var aTransform = 'translate(' + (x0 + w / 2) + ',' + y0 +
')rotate(30)translate(0,' + -aaxis._offset + ')';
_this.layers.aaxis.attr('transform', aTransform);
_this.layers.agrid.attr('transform', aTransform);
var cTransform = 'translate(' + (x0 + w / 2) + ',' + y0 +
')rotate(-30)translate(0,' + -caxis._offset + ')';
_this.layers.caxis.attr('transform', cTransform);
_this.layers.cgrid.attr('transform', cTransform);
_this.drawAxes(true);
// remove crispEdges - all the off-square angles in ternary plots
// make these counterproductive.
_this.plotContainer.selectAll('.crisp').classed('crisp', false);
_this.layers.aline.select('path')
.attr('d', aaxis.showline ?
'M' + x0 + ',' + (y0 + h) + 'l' + (w / 2) + ',-' + h : 'M0,0')
.call(Color.stroke, aaxis.linecolor || '#000')
.style('stroke-width', (aaxis.linewidth || 0) + 'px');
_this.layers.bline.select('path')
.attr('d', baxis.showline ?
'M' + x0 + ',' + (y0 + h) + 'h' + w : 'M0,0')
.call(Color.stroke, baxis.linecolor || '#000')
.style('stroke-width', (baxis.linewidth || 0) + 'px');
_this.layers.cline.select('path')
.attr('d', caxis.showline ?
'M' + (x0 + w / 2) + ',' + y0 + 'l' + (w / 2) + ',' + h : 'M0,0')
.call(Color.stroke, caxis.linecolor || '#000')
.style('stroke-width', (caxis.linewidth || 0) + 'px');
if(!_this.graphDiv._context.staticPlot) {
_this.initInteractions();
}
Drawing.setClipUrl(
_this.layers.frontplot,
_this._hasClipOnAxisFalse ? null : _this.clipId
);
};
proto.drawAxes = function(doTitles) {
var _this = this;
var gd = _this.graphDiv;
var titlesuffix = _this.id.substr(7) + 'title';
var layers = _this.layers;
var aaxis = _this.aaxis;
var baxis = _this.baxis;
var caxis = _this.caxis;
var newTickLayout;
newTickLayout = strTickLayout(aaxis);
if(_this.aTickLayout !== newTickLayout) {
layers.aaxis.selectAll('.ytick').remove();
_this.aTickLayout = newTickLayout;
}
newTickLayout = strTickLayout(baxis);
if(_this.bTickLayout !== newTickLayout) {
layers.baxis.selectAll('.xtick').remove();
_this.bTickLayout = newTickLayout;
}
newTickLayout = strTickLayout(caxis);
if(_this.cTickLayout !== newTickLayout) {
layers.caxis.selectAll('.ytick').remove();
_this.cTickLayout = newTickLayout;
}
// 3rd arg true below skips titles, so we can configure them
// correctly later on.
Axes.doTicksSingle(gd, aaxis, true);
Axes.doTicksSingle(gd, baxis, true);
Axes.doTicksSingle(gd, caxis, true);
if(doTitles) {
var apad = Math.max(aaxis.showticklabels ? aaxis.tickfont.size / 2 : 0,
(caxis.showticklabels ? caxis.tickfont.size * 0.75 : 0) +
(caxis.ticks === 'outside' ? caxis.ticklen * 0.87 : 0));
_this.layers['a-title'] = Titles.draw(gd, 'a' + titlesuffix, {
propContainer: aaxis,
propName: _this.id + '.aaxis.title',
placeholder: _(gd, 'Click to enter Component A title'),
attributes: {
x: _this.x0 + _this.w / 2,
y: _this.y0 - aaxis.titlefont.size / 3 - apad,
'text-anchor': 'middle'
}
});
var bpad = (baxis.showticklabels ? baxis.tickfont.size : 0) +
(baxis.ticks === 'outside' ? baxis.ticklen : 0) + 3;
_this.layers['b-title'] = Titles.draw(gd, 'b' + titlesuffix, {
propContainer: baxis,
propName: _this.id + '.baxis.title',
placeholder: _(gd, 'Click to enter Component B title'),
attributes: {
x: _this.x0 - bpad,
y: _this.y0 + _this.h + baxis.titlefont.size * 0.83 + bpad,
'text-anchor': 'middle'
}
});
_this.layers['c-title'] = Titles.draw(gd, 'c' + titlesuffix, {
propContainer: caxis,
propName: _this.id + '.caxis.title',
placeholder: _(gd, 'Click to enter Component C title'),
attributes: {
x: _this.x0 + _this.w + bpad,
y: _this.y0 + _this.h + caxis.titlefont.size * 0.83 + bpad,
'text-anchor': 'middle'
}
});
}
};
function strTickLayout(axLayout) {
return axLayout.ticks + String(axLayout.ticklen) + String(axLayout.showticklabels);
}
// hard coded paths for zoom corners
// uses the same sizing as cartesian, length is MINZOOM/2, width is 3px
var CLEN = constants.MINZOOM / 2 + 0.87;
var BLPATH = 'm-0.87,.5h' + CLEN + 'v3h-' + (CLEN + 5.2) +
'l' + (CLEN / 2 + 2.6) + ',-' + (CLEN * 0.87 + 4.5) +
'l2.6,1.5l-' + (CLEN / 2) + ',' + (CLEN * 0.87) + 'Z';
var BRPATH = 'm0.87,.5h-' + CLEN + 'v3h' + (CLEN + 5.2) +
'l-' + (CLEN / 2 + 2.6) + ',-' + (CLEN * 0.87 + 4.5) +
'l-2.6,1.5l' + (CLEN / 2) + ',' + (CLEN * 0.87) + 'Z';
var TOPPATH = 'm0,1l' + (CLEN / 2) + ',' + (CLEN * 0.87) +
'l2.6,-1.5l-' + (CLEN / 2 + 2.6) + ',-' + (CLEN * 0.87 + 4.5) +
'l-' + (CLEN / 2 + 2.6) + ',' + (CLEN * 0.87 + 4.5) +
'l2.6,1.5l' + (CLEN / 2) + ',-' + (CLEN * 0.87) + 'Z';
var STARTMARKER = 'm0.5,0.5h5v-2h-5v-5h-2v5h-5v2h5v5h2Z';
// I guess this could be shared with cartesian... but for now it's separate.
var SHOWZOOMOUTTIP = true;
proto.initInteractions = function() {
var _this = this,
dragger = _this.layers.plotbg.select('path').node(),
gd = _this.graphDiv,
zoomContainer = gd._fullLayout._zoomlayer;
// use plotbg for the main interactions
var dragOptions = {
element: dragger,
gd: gd,
plotinfo: {
id: _this.id,
xaxis: _this.xaxis,
yaxis: _this.yaxis
},
subplot: _this.id,
prepFn: function(e, startX, startY) {
// these aren't available yet when initInteractions
// is called
dragOptions.xaxes = [_this.xaxis];
dragOptions.yaxes = [_this.yaxis];
var dragModeNow = gd._fullLayout.dragmode;
if(dragModeNow === 'lasso') dragOptions.minDrag = 1;
else dragOptions.minDrag = undefined;
if(dragModeNow === 'zoom') {
dragOptions.moveFn = zoomMove;
dragOptions.clickFn = clickZoomPan;
dragOptions.doneFn = zoomDone;
zoomPrep(e, startX, startY);
}
else if(dragModeNow === 'pan') {
dragOptions.moveFn = plotDrag;
dragOptions.clickFn = clickZoomPan;
dragOptions.doneFn = dragDone;
panPrep();
clearSelect(zoomContainer);
}
else if(dragModeNow === 'select' || dragModeNow === 'lasso') {
prepSelect(e, startX, startY, dragOptions, dragModeNow);
}
}
};
var x0, y0, mins0, span0, mins, lum, path0, dimmed, zb, corners;
function clickZoomPan(numClicks, evt) {
var clickMode = gd._fullLayout.clickmode;
removeZoombox(gd);
if(numClicks === 2) {
var attrs = {};
attrs[_this.id + '.aaxis.min'] = 0;
attrs[_this.id + '.baxis.min'] = 0;
attrs[_this.id + '.caxis.min'] = 0;
gd.emit('plotly_doubleclick', null);
Registry.call('relayout', gd, attrs);
}
if(clickMode.indexOf('select') > -1 && numClicks === 1) {
selectOnClick(evt, gd, [_this.xaxis], [_this.yaxis], _this.id, dragOptions);
}
if(clickMode.indexOf('event') > -1) {
Fx.click(gd, evt, _this.id);
}
}
function zoomPrep(e, startX, startY) {
var dragBBox = dragger.getBoundingClientRect();
x0 = startX - dragBBox.left;
y0 = startY - dragBBox.top;
mins0 = {
a: _this.aaxis.range[0],
b: _this.baxis.range[1],
c: _this.caxis.range[1]
};
mins = mins0;
span0 = _this.aaxis.range[1] - mins0.a;
lum = tinycolor(_this.graphDiv._fullLayout[_this.id].bgcolor).getLuminance();
path0 = 'M0,' + _this.h + 'L' + (_this.w / 2) + ', 0L' + _this.w + ',' + _this.h + 'Z';
dimmed = false;
zb = zoomContainer.append('path')
.attr('class', 'zoombox')
.attr('transform', 'translate(' + _this.x0 + ', ' + _this.y0 + ')')
.style({
'fill': lum > 0.2 ? 'rgba(0,0,0,0)' : 'rgba(255,255,255,0)',
'stroke-width': 0
})
.attr('d', path0);
corners = zoomContainer.append('path')
.attr('class', 'zoombox-corners')
.attr('transform', 'translate(' + _this.x0 + ', ' + _this.y0 + ')')
.style({
fill: Color.background,
stroke: Color.defaultLine,
'stroke-width': 1,
opacity: 0
})
.attr('d', 'M0,0Z');
clearSelect(zoomContainer);
}
function getAFrac(x, y) { return 1 - (y / _this.h); }
function getBFrac(x, y) { return 1 - ((x + (_this.h - y) / Math.sqrt(3)) / _this.w); }
function getCFrac(x, y) { return ((x - (_this.h - y) / Math.sqrt(3)) / _this.w); }
function zoomMove(dx0, dy0) {
var x1 = x0 + dx0,
y1 = y0 + dy0,
afrac = Math.max(0, Math.min(1, getAFrac(x0, y0), getAFrac(x1, y1))),
bfrac = Math.max(0, Math.min(1, getBFrac(x0, y0), getBFrac(x1, y1))),
cfrac = Math.max(0, Math.min(1, getCFrac(x0, y0), getCFrac(x1, y1))),
xLeft = ((afrac / 2) + cfrac) * _this.w,
xRight = (1 - (afrac / 2) - bfrac) * _this.w,
xCenter = (xLeft + xRight) / 2,
xSpan = xRight - xLeft,
yBottom = (1 - afrac) * _this.h,
yTop = yBottom - xSpan / w_over_h;
if(xSpan < constants.MINZOOM) {
mins = mins0;
zb.attr('d', path0);
corners.attr('d', 'M0,0Z');
}
else {
mins = {
a: mins0.a + afrac * span0,
b: mins0.b + bfrac * span0,
c: mins0.c + cfrac * span0
};
zb.attr('d', path0 + 'M' + xLeft + ',' + yBottom +
'H' + xRight + 'L' + xCenter + ',' + yTop +
'L' + xLeft + ',' + yBottom + 'Z');
corners.attr('d', 'M' + x0 + ',' + y0 + STARTMARKER +
'M' + xLeft + ',' + yBottom + BLPATH +
'M' + xRight + ',' + yBottom + BRPATH +
'M' + xCenter + ',' + yTop + TOPPATH);
}
if(!dimmed) {
zb.transition()
.style('fill', lum > 0.2 ? 'rgba(0,0,0,0.4)' :
'rgba(255,255,255,0.3)')
.duration(200);
corners.transition()
.style('opacity', 1)
.duration(200);
dimmed = true;
}
}
function zoomDone() {
removeZoombox(gd);
if(mins === mins0) return;
var attrs = {};
attrs[_this.id + '.aaxis.min'] = mins.a;
attrs[_this.id + '.baxis.min'] = mins.b;
attrs[_this.id + '.caxis.min'] = mins.c;
Registry.call('relayout', gd, attrs);
if(SHOWZOOMOUTTIP && gd.data && gd._context.showTips) {
Lib.notifier(_(gd, 'Double-click to zoom back out'), 'long');
SHOWZOOMOUTTIP = false;
}
}
function panPrep() {
mins0 = {
a: _this.aaxis.range[0],
b: _this.baxis.range[1],
c: _this.caxis.range[1]
};
mins = mins0;
}
function plotDrag(dx, dy) {
var dxScaled = dx / _this.xaxis._m,
dyScaled = dy / _this.yaxis._m;
mins = {
a: mins0.a - dyScaled,
b: mins0.b + (dxScaled + dyScaled) / 2,
c: mins0.c - (dxScaled - dyScaled) / 2
};
var minsorted = [mins.a, mins.b, mins.c].sort(),
minindices = {
a: minsorted.indexOf(mins.a),
b: minsorted.indexOf(mins.b),
c: minsorted.indexOf(mins.c)
};
if(minsorted[0] < 0) {
if(minsorted[1] + minsorted[0] / 2 < 0) {
minsorted[2] += minsorted[0] + minsorted[1];
minsorted[0] = minsorted[1] = 0;
}
else {
minsorted[2] += minsorted[0] / 2;
minsorted[1] += minsorted[0] / 2;
minsorted[0] = 0;
}
mins = {
a: minsorted[minindices.a],
b: minsorted[minindices.b],
c: minsorted[minindices.c]
};
dy = (mins0.a - mins.a) * _this.yaxis._m;
dx = (mins0.c - mins.c - mins0.b + mins.b) * _this.xaxis._m;
}
// move the data (translate, don't redraw)
var plotTransform = 'translate(' + (_this.x0 + dx) + ',' + (_this.y0 + dy) + ')';
_this.plotContainer.selectAll('.scatterlayer,.maplayer')
.attr('transform', plotTransform);
var plotTransform2 = 'translate(' + -dx + ',' + -dy + ')';
_this.clipDefRelative.select('path').attr('transform', plotTransform2);
// move the ticks
_this.aaxis.range = [mins.a, _this.sum - mins.b - mins.c];
_this.baxis.range = [_this.sum - mins.a - mins.c, mins.b];
_this.caxis.range = [_this.sum - mins.a - mins.b, mins.c];
_this.drawAxes(false);
_this.plotContainer.selectAll('.crisp').classed('crisp', false);
if(_this._hasClipOnAxisFalse) {
_this.plotContainer
.select('.scatterlayer').selectAll('.trace')
.call(Drawing.hideOutsideRangePoints, _this);
}
}
function dragDone() {
var attrs = {};
attrs[_this.id + '.aaxis.min'] = mins.a;
attrs[_this.id + '.baxis.min'] = mins.b;
attrs[_this.id + '.caxis.min'] = mins.c;
Registry.call('relayout', gd, attrs);
}
// finally, set up hover and click
// these event handlers must already be set before dragElement.init
// so it can stash them and override them.
dragger.onmousemove = function(evt) {
Fx.hover(gd, evt, _this.id);
gd._fullLayout._lasthover = dragger;
gd._fullLayout._hoversubplot = _this.id;
};
dragger.onmouseout = function(evt) {
if(gd._dragging) return;
dragElement.unhover(gd, evt);
};
dragElement.init(dragOptions);
};
function removeZoombox(gd) {
d3.select(gd)
.selectAll('.zoombox,.js-zoombox-backdrop,.js-zoombox-menu,.zoombox-corners')
.remove();
}
},{"../../components/color":567,"../../components/dragelement":589,"../../components/drawing":592,"../../components/fx":609,"../../components/titles":658,"../../lib":693,"../../lib/extend":682,"../../registry":825,"../cartesian/axes":742,"../cartesian/constants":747,"../cartesian/select":759,"../cartesian/set_convert":760,"../plots":805,"d3":147,"tinycolor2":511}],825:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Loggers = _dereq_('./lib/loggers');
var noop = _dereq_('./lib/noop');
var pushUnique = _dereq_('./lib/push_unique');
var isPlainObject = _dereq_('./lib/is_plain_object');
var ExtendModule = _dereq_('./lib/extend');
var basePlotAttributes = _dereq_('./plots/attributes');
var baseLayoutAttributes = _dereq_('./plots/layout_attributes');
var extendFlat = ExtendModule.extendFlat;
var extendDeepAll = ExtendModule.extendDeepAll;
exports.modules = {};
exports.allCategories = {};
exports.allTypes = [];
exports.subplotsRegistry = {};
exports.transformsRegistry = {};
exports.componentsRegistry = {};
exports.layoutArrayContainers = [];
exports.layoutArrayRegexes = [];
exports.traceLayoutAttributes = {};
exports.localeRegistry = {};
exports.apiMethodRegistry = {};
/**
* Top-level register routine, exported as Plotly.register
*
* @param {object array or array of objects} _modules :
* module object or list of module object to register.
*
* A valid `moduleType: 'trace'` module has fields:
* - name {string} : the trace type
* - categories {array} : categories associated with this trace type,
* tested with Register.traceIs()
* - meta {object} : meta info (mostly for plot-schema)
*
* A valid `moduleType: 'locale'` module has fields:
* - name {string} : the locale name. Should be a 2-digit language string ('en', 'de')
* optionally with a country/region code ('en-GB', 'de-CH'). If a country
* code is used but the base language locale has not yet been supplied,
* we will use this locale for the base as well.
* - dictionary {object} : the dictionary mapping input strings to localized strings
* generally the keys should be the literal input strings, but
* if default translations are provided you can use any string as a key.
* - format {object} : a `d3.locale` format specifier for this locale
* any omitted keys we'll fall back on en-US.
*
* A valid `moduleType: 'transform'` module has fields:
* - name {string} : transform name
* - transform {function} : default-level transform function
* - calcTransform {function} : calc-level transform function
* - attributes {object} : transform attributes declarations
* - supplyDefaults {function} : attributes default-supply function
*
* A valid `moduleType: 'component'` module has fields:
* - name {string} : the component name, used it with Register.getComponentMethod()
* to employ component method.
*
* A valid `moduleType: 'apiMethod'` module has fields:
* - name {string} : the api method name.
* - fn {function} : the api method called with Register.call();
*
*/
exports.register = function register(_modules) {
if(!_modules) {
throw new Error('No argument passed to Plotly.register.');
} else if(_modules && !Array.isArray(_modules)) {
_modules = [_modules];
}
for(var i = 0; i < _modules.length; i++) {
var newModule = _modules[i];
if(!newModule) {
throw new Error('Invalid module was attempted to be registered!');
}
switch(newModule.moduleType) {
case 'trace':
registerTraceModule(newModule);
break;
case 'transform':
registerTransformModule(newModule);
break;
case 'component':
registerComponentModule(newModule);
break;
case 'locale':
registerLocale(newModule);
break;
case 'apiMethod':
var name = newModule.name;
exports.apiMethodRegistry[name] = newModule.fn;
break;
default:
throw new Error('Invalid module was attempted to be registered!');
}
}
};
/**
* Get registered module using trace object or trace type
*
* @param {object||string} trace
* trace object with prop 'type' or trace type as a string
* @return {object}
* module object corresponding to trace type
*/
exports.getModule = function(trace) {
var _module = exports.modules[getTraceType(trace)];
if(!_module) return false;
return _module._module;
};
/**
* Determine if this trace type is in a given category
*
* @param {object||string} traceType
* a trace (object) or trace type (string)
* @param {string} category
* category in question
* @return {boolean}
*/
exports.traceIs = function(traceType, category) {
traceType = getTraceType(traceType);
// old plot.ly workspace hack, nothing to see here
if(traceType === 'various') return false;
var _module = exports.modules[traceType];
if(!_module) {
if(traceType && traceType !== 'area') {
Loggers.log('Unrecognized trace type ' + traceType + '.');
}
_module = exports.modules[basePlotAttributes.type.dflt];
}
return !!_module.categories[category];
};
/**
* Determine if this trace has a transform of the given type and return
* array of matching indices.
*
* @param {object} data
* a trace object (member of data or fullData)
* @param {string} type
* type of trace to test
* @return {array}
* array of matching indices. If none found, returns []
*/
exports.getTransformIndices = function(data, type) {
var indices = [];
var transforms = data.transforms || [];
for(var i = 0; i < transforms.length; i++) {
if(transforms[i].type === type) {
indices.push(i);
}
}
return indices;
};
/**
* Determine if this trace has a transform of the given type
*
* @param {object} data
* a trace object (member of data or fullData)
* @param {string} type
* type of trace to test
* @return {boolean}
*/
exports.hasTransform = function(data, type) {
var transforms = data.transforms || [];
for(var i = 0; i < transforms.length; i++) {
if(transforms[i].type === type) {
return true;
}
}
return false;
};
/**
* Retrieve component module method. Falls back on noop if either the
* module or the method is missing, so the result can always be safely called
*
* @param {string} name
* name of component (as declared in component module)
* @param {string} method
* name of component module method
* @return {function}
*/
exports.getComponentMethod = function(name, method) {
var _module = exports.componentsRegistry[name];
if(!_module) return noop;
return _module[method] || noop;
};
/**
* Call registered api method.
*
* @param {string} name : api method name
* @param {...array} args : arguments passed to api method
* @return {any} : returns api method output
*/
exports.call = function() {
var name = arguments[0];
var args = [].slice.call(arguments, 1);
return exports.apiMethodRegistry[name].apply(null, args);
};
function registerTraceModule(_module) {
var thisType = _module.name;
var categoriesIn = _module.categories;
var meta = _module.meta;
if(exports.modules[thisType]) {
Loggers.log('Type ' + thisType + ' already registered');
return;
}
if(!exports.subplotsRegistry[_module.basePlotModule.name]) {
registerSubplot(_module.basePlotModule);
}
var categoryObj = {};
for(var i = 0; i < categoriesIn.length; i++) {
categoryObj[categoriesIn[i]] = true;
exports.allCategories[categoriesIn[i]] = true;
}
exports.modules[thisType] = {
_module: _module,
categories: categoryObj
};
if(meta && Object.keys(meta).length) {
exports.modules[thisType].meta = meta;
}
exports.allTypes.push(thisType);
for(var componentName in exports.componentsRegistry) {
mergeComponentAttrsToTrace(componentName, thisType);
}
/*
* Collect all trace layout attributes in one place for easier lookup later
* but don't merge them into the base schema as it would confuse the docs
* (at least after https://github.com/plotly/documentation/issues/202 gets done!)
*/
if(_module.layoutAttributes) {
extendFlat(exports.traceLayoutAttributes, _module.layoutAttributes);
}
}
function registerSubplot(_module) {
var plotType = _module.name;
if(exports.subplotsRegistry[plotType]) {
Loggers.log('Plot type ' + plotType + ' already registered.');
return;
}
// relayout array handling will look for component module methods with this
// name and won't find them because this is a subplot module... but that
// should be fine, it will just fall back on redrawing the plot.
findArrayRegexps(_module);
// not sure what's best for the 'cartesian' type at this point
exports.subplotsRegistry[plotType] = _module;
for(var componentName in exports.componentsRegistry) {
mergeComponentAttrsToSubplot(componentName, _module.name);
}
}
function registerComponentModule(_module) {
if(typeof _module.name !== 'string') {
throw new Error('Component module *name* must be a string.');
}
var name = _module.name;
exports.componentsRegistry[name] = _module;
if(_module.layoutAttributes) {
if(_module.layoutAttributes._isLinkedToArray) {
pushUnique(exports.layoutArrayContainers, name);
}
findArrayRegexps(_module);
}
for(var traceType in exports.modules) {
mergeComponentAttrsToTrace(name, traceType);
}
for(var subplotName in exports.subplotsRegistry) {
mergeComponentAttrsToSubplot(name, subplotName);
}
for(var transformType in exports.transformsRegistry) {
mergeComponentAttrsToTransform(name, transformType);
}
if(_module.schema && _module.schema.layout) {
extendDeepAll(baseLayoutAttributes, _module.schema.layout);
}
}
function registerTransformModule(_module) {
if(typeof _module.name !== 'string') {
throw new Error('Transform module *name* must be a string.');
}
var prefix = 'Transform module ' + _module.name;
var hasTransform = typeof _module.transform === 'function';
var hasCalcTransform = typeof _module.calcTransform === 'function';
if(!hasTransform && !hasCalcTransform) {
throw new Error(prefix + ' is missing a *transform* or *calcTransform* method.');
}
if(hasTransform && hasCalcTransform) {
Loggers.log([
prefix + ' has both a *transform* and *calcTransform* methods.',
'Please note that all *transform* methods are executed',
'before all *calcTransform* methods.'
].join(' '));
}
if(!isPlainObject(_module.attributes)) {
Loggers.log(prefix + ' registered without an *attributes* object.');
}
if(typeof _module.supplyDefaults !== 'function') {
Loggers.log(prefix + ' registered without a *supplyDefaults* method.');
}
exports.transformsRegistry[_module.name] = _module;
for(var componentName in exports.componentsRegistry) {
mergeComponentAttrsToTransform(componentName, _module.name);
}
}
function registerLocale(_module) {
var locale = _module.name;
var baseLocale = locale.split('-')[0];
var newDict = _module.dictionary;
var newFormat = _module.format;
var hasDict = newDict && Object.keys(newDict).length;
var hasFormat = newFormat && Object.keys(newFormat).length;
var locales = exports.localeRegistry;
var localeObj = locales[locale];
if(!localeObj) locales[locale] = localeObj = {};
// Should we use this dict for the base locale?
// In case we're overwriting a previous dict for this locale, check
// whether the base matches the full locale dict now. If we're not
// overwriting, locales[locale] is undefined so this just checks if
// baseLocale already had a dict or not.
// Same logic for dateFormats
if(baseLocale !== locale) {
var baseLocaleObj = locales[baseLocale];
if(!baseLocaleObj) locales[baseLocale] = baseLocaleObj = {};
if(hasDict && baseLocaleObj.dictionary === localeObj.dictionary) {
baseLocaleObj.dictionary = newDict;
}
if(hasFormat && baseLocaleObj.format === localeObj.format) {
baseLocaleObj.format = newFormat;
}
}
if(hasDict) localeObj.dictionary = newDict;
if(hasFormat) localeObj.format = newFormat;
}
function findArrayRegexps(_module) {
if(_module.layoutAttributes) {
var arrayAttrRegexps = _module.layoutAttributes._arrayAttrRegexps;
if(arrayAttrRegexps) {
for(var i = 0; i < arrayAttrRegexps.length; i++) {
pushUnique(exports.layoutArrayRegexes, arrayAttrRegexps[i]);
}
}
}
}
function mergeComponentAttrsToTrace(componentName, traceType) {
var componentSchema = exports.componentsRegistry[componentName].schema;
if(!componentSchema || !componentSchema.traces) return;
var traceAttrs = componentSchema.traces[traceType];
if(traceAttrs) {
extendDeepAll(exports.modules[traceType]._module.attributes, traceAttrs);
}
}
function mergeComponentAttrsToTransform(componentName, transformType) {
var componentSchema = exports.componentsRegistry[componentName].schema;
if(!componentSchema || !componentSchema.transforms) return;
var transformAttrs = componentSchema.transforms[transformType];
if(transformAttrs) {
extendDeepAll(exports.transformsRegistry[transformType].attributes, transformAttrs);
}
}
function mergeComponentAttrsToSubplot(componentName, subplotName) {
var componentSchema = exports.componentsRegistry[componentName].schema;
if(!componentSchema || !componentSchema.subplots) return;
var subplotModule = exports.subplotsRegistry[subplotName];
var subplotAttrs = subplotModule.layoutAttributes;
var subplotAttr = subplotModule.attr === 'subplot' ? subplotModule.name : subplotModule.attr;
if(Array.isArray(subplotAttr)) subplotAttr = subplotAttr[0];
var componentLayoutAttrs = componentSchema.subplots[subplotAttr];
if(subplotAttrs && componentLayoutAttrs) {
extendDeepAll(subplotAttrs, componentLayoutAttrs);
}
}
function getTraceType(traceType) {
if(typeof traceType === 'object') traceType = traceType.type;
return traceType;
}
},{"./lib/extend":682,"./lib/is_plain_object":695,"./lib/loggers":698,"./lib/noop":703,"./lib/push_unique":708,"./plots/attributes":739,"./plots/layout_attributes":796}],826:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../lib');
var extendFlat = Lib.extendFlat;
var extendDeep = Lib.extendDeep;
// Put default plotTile layouts here
function cloneLayoutOverride(tileClass) {
var override;
switch(tileClass) {
case 'themes__thumb':
override = {
autosize: true,
width: 150,
height: 150,
title: '',
showlegend: false,
margin: {l: 5, r: 5, t: 5, b: 5, pad: 0},
annotations: []
};
break;
case 'thumbnail':
override = {
title: '',
hidesources: true,
showlegend: false,
borderwidth: 0,
bordercolor: '',
margin: {l: 1, r: 1, t: 1, b: 1, pad: 0},
annotations: []
};
break;
default:
override = {};
}
return override;
}
function keyIsAxis(keyName) {
var types = ['xaxis', 'yaxis', 'zaxis'];
return (types.indexOf(keyName.slice(0, 5)) > -1);
}
module.exports = function clonePlot(graphObj, options) {
// Polar plot compatibility
if(graphObj.framework && graphObj.framework.isPolar) {
graphObj = graphObj.framework.getConfig();
}
var i;
var oldData = graphObj.data;
var oldLayout = graphObj.layout;
var newData = extendDeep([], oldData);
var newLayout = extendDeep({}, oldLayout, cloneLayoutOverride(options.tileClass));
var context = graphObj._context || {};
if(options.width) newLayout.width = options.width;
if(options.height) newLayout.height = options.height;
if(options.tileClass === 'thumbnail' || options.tileClass === 'themes__thumb') {
// kill annotations
newLayout.annotations = [];
var keys = Object.keys(newLayout);
for(i = 0; i < keys.length; i++) {
if(keyIsAxis(keys[i])) {
newLayout[keys[i]].title = '';
}
}
// kill colorbar and pie labels
for(i = 0; i < newData.length; i++) {
var trace = newData[i];
trace.showscale = false;
if(trace.marker) trace.marker.showscale = false;
if(trace.type === 'pie') trace.textposition = 'none';
}
}
if(Array.isArray(options.annotations)) {
for(i = 0; i < options.annotations.length; i++) {
newLayout.annotations.push(options.annotations[i]);
}
}
// TODO: does this scene modification really belong here?
// If we still need it, can it move into the gl3d module?
var sceneIds = Object.keys(newLayout).filter(function(key) {
return key.match(/^scene\d*$/);
});
if(sceneIds.length) {
var axesImageOverride = {};
if(options.tileClass === 'thumbnail') {
axesImageOverride = {
title: '',
showaxeslabels: false,
showticklabels: false,
linetickenable: false
};
}
for(i = 0; i < sceneIds.length; i++) {
var scene = newLayout[sceneIds[i]];
if(!scene.xaxis) {
scene.xaxis = {};
}
if(!scene.yaxis) {
scene.yaxis = {};
}
if(!scene.zaxis) {
scene.zaxis = {};
}
extendFlat(scene.xaxis, axesImageOverride);
extendFlat(scene.yaxis, axesImageOverride);
extendFlat(scene.zaxis, axesImageOverride);
// TODO what does this do?
scene._scene = null;
}
}
var gd = document.createElement('div');
if(options.tileClass) gd.className = options.tileClass;
var plotTile = {
gd: gd,
td: gd, // for external (image server) compatibility
layout: newLayout,
data: newData,
config: {
staticPlot: (options.staticPlot === undefined) ?
true :
options.staticPlot,
plotGlPixelRatio: (options.plotGlPixelRatio === undefined) ?
2 :
options.plotGlPixelRatio,
displaylogo: options.displaylogo || false,
showLink: options.showLink || false,
showTips: options.showTips || false,
mapboxAccessToken: context.mapboxAccessToken
}
};
if(options.setBackground !== 'transparent') {
plotTile.config.setBackground = options.setBackground || 'opaque';
}
// attaching the default Layout the gd, so you can grab it later
plotTile.gd.defaultLayout = cloneLayoutOverride(options.tileClass);
return plotTile;
};
},{"../lib":693}],827:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var toImage = _dereq_('../plot_api/to_image');
var Lib = _dereq_('../lib'); // for isIE
var fileSaver = _dereq_('./filesaver');
/** Plotly.downloadImage
*
* @param {object | string | HTML div} gd
* can either be a data/layout/config object
* or an existing graph <div>
* or an id to an existing graph <div>
* @param {object} opts (see ../plot_api/to_image)
* @return {promise}
*/
function downloadImage(gd, opts) {
var _gd;
if(!Lib.isPlainObject(gd)) _gd = Lib.getGraphDiv(gd);
// check for undefined opts
opts = opts || {};
// default to png
opts.format = opts.format || 'png';
return new Promise(function(resolve, reject) {
if(_gd && _gd._snapshotInProgress) {
reject(new Error('Snapshotting already in progress.'));
}
// see comments within svgtoimg for additional
// discussion of problems with IE
// can now draw to canvas, but CORS tainted canvas
// does not allow toDataURL
// svg format will work though
if(Lib.isIE() && opts.format !== 'svg') {
reject(new Error('Sorry IE does not support downloading from canvas. Try {format:\'svg\'} instead.'));
}
if(_gd) _gd._snapshotInProgress = true;
var promise = toImage(gd, opts);
var filename = opts.filename || gd.fn || 'newplot';
filename += '.' + opts.format;
promise.then(function(result) {
if(_gd) _gd._snapshotInProgress = false;
return fileSaver(result, filename);
}).then(function(name) {
resolve(name);
}).catch(function(err) {
if(_gd) _gd._snapshotInProgress = false;
reject(err);
});
});
}
module.exports = downloadImage;
},{"../lib":693,"../plot_api/to_image":735,"./filesaver":828}],828:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
/*
* substantial portions of this code from FileSaver.js
* https://github.com/eligrey/FileSaver.js
* License: https://github.com/eligrey/FileSaver.js/blob/master/LICENSE.md
* FileSaver.js
* A saveAs() FileSaver implementation.
* 1.1.20160328
*
* By Eli Grey, http://eligrey.com
* License: MIT
* See https://github.com/eligrey/FileSaver.js/blob/master/LICENSE.md
*/
'use strict';
var fileSaver = function(url, name) {
var saveLink = document.createElement('a');
var canUseSaveLink = 'download' in saveLink;
var isSafari = /Version\/[\d\.]+.*Safari/.test(navigator.userAgent);
var promise = new Promise(function(resolve, reject) {
// IE <10 is explicitly unsupported
if(typeof navigator !== 'undefined' && /MSIE [1-9]\./.test(navigator.userAgent)) {
reject(new Error('IE < 10 unsupported'));
}
// First try a.download, then web filesystem, then object URLs
if(isSafari) {
// Safari doesn't allow downloading of blob urls
document.location.href = 'data:application/octet-stream' + url.slice(url.search(/[,;]/));
resolve(name);
}
if(!name) {
name = 'download';
}
if(canUseSaveLink) {
saveLink.href = url;
saveLink.download = name;
document.body.appendChild(saveLink);
saveLink.click();
document.body.removeChild(saveLink);
resolve(name);
}
// IE 10+ (native saveAs)
if(typeof navigator !== 'undefined' && navigator.msSaveBlob) {
// At this point we are only dealing with a SVG encoded as
// a data URL (since IE only supports SVG)
var encoded = url.split(/^data:image\/svg\+xml,/)[1];
var svg = decodeURIComponent(encoded);
navigator.msSaveBlob(new Blob([svg]), name);
resolve(name);
}
reject(new Error('download error'));
});
return promise;
};
module.exports = fileSaver;
},{}],829:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
exports.getDelay = function(fullLayout) {
if(!fullLayout._has) return 0;
return (
fullLayout._has('gl3d') ||
fullLayout._has('gl2d') ||
fullLayout._has('mapbox')
) ? 500 : 0;
};
exports.getRedrawFunc = function(gd) {
var fullLayout = gd._fullLayout || {};
var hasPolar = fullLayout._has && fullLayout._has('polar');
var hasLegacyPolar = !hasPolar && gd.data && gd.data[0] && gd.data[0].r;
// do not work for legacy polar
if(hasLegacyPolar) return;
return function() {
(gd.calcdata || []).forEach(function(d) {
if(d[0] && d[0].t && d[0].t.cb) d[0].t.cb();
});
};
};
},{}],830:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var helpers = _dereq_('./helpers');
var Snapshot = {
getDelay: helpers.getDelay,
getRedrawFunc: helpers.getRedrawFunc,
clone: _dereq_('./cloneplot'),
toSVG: _dereq_('./tosvg'),
svgToImg: _dereq_('./svgtoimg'),
toImage: _dereq_('./toimage'),
downloadImage: _dereq_('./download')
};
module.exports = Snapshot;
},{"./cloneplot":826,"./download":827,"./helpers":829,"./svgtoimg":831,"./toimage":832,"./tosvg":833}],831:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../lib');
var EventEmitter = _dereq_('events').EventEmitter;
function svgToImg(opts) {
var ev = opts.emitter || new EventEmitter();
var promise = new Promise(function(resolve, reject) {
var Image = window.Image;
var svg = opts.svg;
var format = opts.format || 'png';
// IE only support svg
if(Lib.isIE() && format !== 'svg') {
var ieSvgError = new Error('Sorry IE does not support downloading from canvas. Try {format:\'svg\'} instead.');
reject(ieSvgError);
// eventually remove the ev
// in favor of promises
if(!opts.promise) {
return ev.emit('error', ieSvgError);
} else {
return promise;
}
}
var canvas = opts.canvas;
var scale = opts.scale || 1;
var w0 = opts.width || 300;
var h0 = opts.height || 150;
var w1 = scale * w0;
var h1 = scale * h0;
var ctx = canvas.getContext('2d');
var img = new Image();
// for Safari support, eliminate createObjectURL
// this decision could cause problems if content
// is not restricted to svg
var url = 'data:image/svg+xml,' + encodeURIComponent(svg);
canvas.width = w1;
canvas.height = h1;
img.onload = function() {
var imgData;
// don't need to draw to canvas if svg
// save some time and also avoid failure on IE
if(format !== 'svg') {
ctx.drawImage(img, 0, 0, w1, h1);
}
switch(format) {
case 'jpeg':
imgData = canvas.toDataURL('image/jpeg');
break;
case 'png':
imgData = canvas.toDataURL('image/png');
break;
case 'webp':
imgData = canvas.toDataURL('image/webp');
break;
case 'svg':
imgData = url;
break;
default:
var errorMsg = 'Image format is not jpeg, png, svg or webp.';
reject(new Error(errorMsg));
// eventually remove the ev
// in favor of promises
if(!opts.promise) {
return ev.emit('error', errorMsg);
}
}
resolve(imgData);
// eventually remove the ev
// in favor of promises
if(!opts.promise) {
ev.emit('success', imgData);
}
};
img.onerror = function(err) {
reject(err);
// eventually remove the ev
// in favor of promises
if(!opts.promise) {
return ev.emit('error', err);
}
};
img.src = url;
});
// temporary for backward compatibility
// move to only Promise in 2.0.0
// and eliminate the EventEmitter
if(opts.promise) {
return promise;
}
return ev;
}
module.exports = svgToImg;
},{"../lib":693,"events":91}],832:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var EventEmitter = _dereq_('events').EventEmitter;
var Registry = _dereq_('../registry');
var Lib = _dereq_('../lib');
var helpers = _dereq_('./helpers');
var clonePlot = _dereq_('./cloneplot');
var toSVG = _dereq_('./tosvg');
var svgToImg = _dereq_('./svgtoimg');
/**
* @param {object} gd figure Object
* @param {object} opts option object
* @param opts.format 'jpeg' | 'png' | 'webp' | 'svg'
*/
function toImage(gd, opts) {
// first clone the GD so we can operate in a clean environment
var ev = new EventEmitter();
var clone = clonePlot(gd, {format: 'png'});
var clonedGd = clone.gd;
// put the cloned div somewhere off screen before attaching to DOM
clonedGd.style.position = 'absolute';
clonedGd.style.left = '-5000px';
document.body.appendChild(clonedGd);
function wait() {
var delay = helpers.getDelay(clonedGd._fullLayout);
setTimeout(function() {
var svg = toSVG(clonedGd);
var canvas = document.createElement('canvas');
canvas.id = Lib.randstr();
ev = svgToImg({
format: opts.format,
width: clonedGd._fullLayout.width,
height: clonedGd._fullLayout.height,
canvas: canvas,
emitter: ev,
svg: svg
});
ev.clean = function() {
if(clonedGd) document.body.removeChild(clonedGd);
};
}, delay);
}
var redrawFunc = helpers.getRedrawFunc(clonedGd);
Registry.call('plot', clonedGd, clone.data, clone.layout, clone.config)
.then(redrawFunc)
.then(wait)
.catch(function(err) {
ev.emit('error', err);
});
return ev;
}
module.exports = toImage;
},{"../lib":693,"../registry":825,"./cloneplot":826,"./helpers":829,"./svgtoimg":831,"./tosvg":833,"events":91}],833:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Lib = _dereq_('../lib');
var Drawing = _dereq_('../components/drawing');
var Color = _dereq_('../components/color');
var xmlnsNamespaces = _dereq_('../constants/xmlns_namespaces');
var DOUBLEQUOTE_REGEX = /"/g;
var DUMMY_SUB = 'TOBESTRIPPED';
var DUMMY_REGEX = new RegExp('("' + DUMMY_SUB + ')|(' + DUMMY_SUB + '")', 'g');
function htmlEntityDecode(s) {
var hiddenDiv = d3.select('body').append('div').style({display: 'none'}).html('');
var replaced = s.replace(/(&[^;]*;)/gi, function(d) {
if(d === '<') { return '<'; } // special handling for brackets
if(d === '&rt;') { return '>'; }
if(d.indexOf('<') !== -1 || d.indexOf('>') !== -1) { return ''; }
return hiddenDiv.html(d).text(); // everything else, let the browser decode it to unicode
});
hiddenDiv.remove();
return replaced;
}
function xmlEntityEncode(str) {
return str.replace(/&(?!\w+;|\#[0-9]+;| \#x[0-9A-F]+;)/g, '&');
}
module.exports = function toSVG(gd, format, scale) {
var fullLayout = gd._fullLayout;
var svg = fullLayout._paper;
var toppaper = fullLayout._toppaper;
var width = fullLayout.width;
var height = fullLayout.height;
var i;
// make background color a rect in the svg, then revert after scraping
// all other alterations have been dealt with by properly preparing the svg
// in the first place... like setting cursors with css classes so we don't
// have to remove them, and providing the right namespaces in the svg to
// begin with
svg.insert('rect', ':first-child')
.call(Drawing.setRect, 0, 0, width, height)
.call(Color.fill, fullLayout.paper_bgcolor);
// subplot-specific to-SVG methods
// which notably add the contents of the gl-container
// into the main svg node
var basePlotModules = fullLayout._basePlotModules || [];
for(i = 0; i < basePlotModules.length; i++) {
var _module = basePlotModules[i];
if(_module.toSVG) _module.toSVG(gd);
}
// add top items above them assumes everything in toppaper is either
// a group or a defs, and if it's empty (like hoverlayer) we can ignore it.
if(toppaper) {
var nodes = toppaper.node().childNodes;
// make copy of nodes as childNodes prop gets mutated in loop below
var topGroups = Array.prototype.slice.call(nodes);
for(i = 0; i < topGroups.length; i++) {
var topGroup = topGroups[i];
if(topGroup.childNodes.length) svg.node().appendChild(topGroup);
}
}
// remove draglayer for Adobe Illustrator compatibility
if(fullLayout._draggers) {
fullLayout._draggers.remove();
}
// in case the svg element had an explicit background color, remove this
// we want the rect to get the color so it's the right size; svg bg will
// fill whatever container it's displayed in regardless of plot size.
svg.node().style.background = '';
svg.selectAll('text')
.attr({'data-unformatted': null, 'data-math': null})
.each(function() {
var txt = d3.select(this);
// hidden text is pre-formatting mathjax, the browser ignores it
// but in a static plot it's useless and it can confuse batik
// we've tried to standardize on display:none but make sure we still
// catch visibility:hidden if it ever arises
if(this.style.visibility === 'hidden' || this.style.display === 'none') {
txt.remove();
return;
}
else {
// clear other visibility/display values to default
// to not potentially confuse non-browser SVG implementations
txt.style({visibility: null, display: null});
}
// Font family styles break things because of quotation marks,
// so we must remove them *after* the SVG DOM has been serialized
// to a string (browsers convert singles back)
var ff = this.style.fontFamily;
if(ff && ff.indexOf('"') !== -1) {
txt.style('font-family', ff.replace(DOUBLEQUOTE_REGEX, DUMMY_SUB));
}
});
svg.selectAll('.point, .scatterpts, .legendfill>path, .legendlines>path, .cbfill').each(function() {
var pt = d3.select(this);
// similar to font family styles above,
// we must remove " after the SVG DOM has been serialized
var fill = this.style.fill;
if(fill && fill.indexOf('url(') !== -1) {
pt.style('fill', fill.replace(DOUBLEQUOTE_REGEX, DUMMY_SUB));
}
var stroke = this.style.stroke;
if(stroke && stroke.indexOf('url(') !== -1) {
pt.style('stroke', stroke.replace(DOUBLEQUOTE_REGEX, DUMMY_SUB));
}
});
if(format === 'pdf' || format === 'eps') {
// these formats make the extra line MathJax adds around symbols look super thick in some cases
// it looks better if this is removed entirely.
svg.selectAll('#MathJax_SVG_glyphs path')
.attr('stroke-width', 0);
}
// fix for IE namespacing quirk?
// http://stackoverflow.com/questions/19610089/unwanted-namespaces-on-svg-markup-when-using-xmlserializer-in-javascript-with-ie
svg.node().setAttributeNS(xmlnsNamespaces.xmlns, 'xmlns', xmlnsNamespaces.svg);
svg.node().setAttributeNS(xmlnsNamespaces.xmlns, 'xmlns:xlink', xmlnsNamespaces.xlink);
if(format === 'svg' && scale) {
svg.attr('width', scale * width);
svg.attr('height', scale * height);
svg.attr('viewBox', '0 0 ' + width + ' ' + height);
}
var s = new window.XMLSerializer().serializeToString(svg.node());
s = htmlEntityDecode(s);
s = xmlEntityEncode(s);
// Fix quotations around font strings and gradient URLs
s = s.replace(DUMMY_REGEX, '\'');
// IE is very strict, so we will need to clean
// svg with the following regex
// yes this is messy, but do not know a better way
// Even with this IE will not work due to tainted canvas
// see https://github.com/kangax/fabric.js/issues/1957
// http://stackoverflow.com/questions/18112047/canvas-todataurl-working-in-all-browsers-except-ie10
// Leave here just in case the CORS/tainted IE issue gets resolved
if(Lib.isIE()) {
// replace double quote with single quote
s = s.replace(/"/gi, '\'');
// url in svg are single quoted
// since we changed double to single
// we'll need to change these to double-quoted
s = s.replace(/(\('#)([^']*)('\))/gi, '(\"#$2\")');
// font names with spaces will be escaped single-quoted
// we'll need to change these to double-quoted
s = s.replace(/(\\')/gi, '\"');
}
return s;
};
},{"../components/color":567,"../components/drawing":592,"../constants/xmlns_namespaces":671,"../lib":693,"d3":147}],834:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var mergeArray = _dereq_('../../lib').mergeArray;
// arrayOk attributes, merge them into calcdata array
module.exports = function arraysToCalcdata(cd, trace) {
for(var i = 0; i < cd.length; i++) cd[i].i = i;
mergeArray(trace.text, cd, 'tx');
mergeArray(trace.hovertext, cd, 'htx');
var marker = trace.marker;
if(marker) {
mergeArray(marker.opacity, cd, 'mo');
mergeArray(marker.color, cd, 'mc');
var markerLine = marker.line;
if(markerLine) {
mergeArray(markerLine.color, cd, 'mlc');
mergeArray(markerLine.width, cd, 'mlw');
}
}
};
},{"../../lib":693}],835:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var scatterAttrs = _dereq_('../scatter/attributes');
var colorAttributes = _dereq_('../../components/colorscale/attributes');
var colorbarAttrs = _dereq_('../../components/colorbar/attributes');
var fontAttrs = _dereq_('../../plots/font_attributes');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var textFontAttrs = fontAttrs({
editType: 'calc',
arrayOk: true,
});
var scatterMarkerAttrs = scatterAttrs.marker;
var scatterMarkerLineAttrs = scatterMarkerAttrs.line;
var markerLineWidth = extendFlat({},
scatterMarkerLineAttrs.width, { dflt: 0 });
var markerLine = extendFlat({
width: markerLineWidth,
editType: 'calc'
}, colorAttributes('marker.line'));
var marker = extendFlat({
line: markerLine,
editType: 'calc'
}, colorAttributes('marker'), {
colorbar: colorbarAttrs,
opacity: {
valType: 'number',
arrayOk: true,
dflt: 1,
min: 0,
max: 1,
editType: 'style',
}
});
module.exports = {
x: scatterAttrs.x,
x0: scatterAttrs.x0,
dx: scatterAttrs.dx,
y: scatterAttrs.y,
y0: scatterAttrs.y0,
dy: scatterAttrs.dy,
text: scatterAttrs.text,
hovertext: scatterAttrs.hovertext,
textposition: {
valType: 'enumerated',
values: ['inside', 'outside', 'auto', 'none'],
dflt: 'none',
arrayOk: true,
editType: 'calc',
},
textfont: extendFlat({}, textFontAttrs, {
}),
insidetextfont: extendFlat({}, textFontAttrs, {
}),
outsidetextfont: extendFlat({}, textFontAttrs, {
}),
constraintext: {
valType: 'enumerated',
values: ['inside', 'outside', 'both', 'none'],
dflt: 'both',
editType: 'calc',
},
cliponaxis: extendFlat({}, scatterAttrs.cliponaxis, {
}),
orientation: {
valType: 'enumerated',
values: ['v', 'h'],
editType: 'calc+clearAxisTypes',
},
base: {
valType: 'any',
dflt: null,
arrayOk: true,
editType: 'calc',
},
offset: {
valType: 'number',
dflt: null,
arrayOk: true,
editType: 'calc',
},
width: {
valType: 'number',
dflt: null,
min: 0,
arrayOk: true,
editType: 'calc',
},
marker: marker,
selected: {
marker: {
opacity: scatterAttrs.selected.marker.opacity,
color: scatterAttrs.selected.marker.color,
editType: 'style'
},
textfont: scatterAttrs.selected.textfont,
editType: 'style'
},
unselected: {
marker: {
opacity: scatterAttrs.unselected.marker.opacity,
color: scatterAttrs.unselected.marker.color,
editType: 'style'
},
textfont: scatterAttrs.unselected.textfont,
editType: 'style'
},
r: scatterAttrs.r,
t: scatterAttrs.t,
_deprecated: {
bardir: {
valType: 'enumerated',
editType: 'calc',
values: ['v', 'h'],
}
}
};
},{"../../components/colorbar/attributes":568,"../../components/colorscale/attributes":574,"../../lib/extend":682,"../../plots/font_attributes":768,"../scatter/attributes":1032}],836:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Axes = _dereq_('../../plots/cartesian/axes');
var hasColorscale = _dereq_('../../components/colorscale/has_colorscale');
var colorscaleCalc = _dereq_('../../components/colorscale/calc');
var arraysToCalcdata = _dereq_('./arrays_to_calcdata');
var calcSelection = _dereq_('../scatter/calc_selection');
module.exports = function calc(gd, trace) {
var xa = Axes.getFromId(gd, trace.xaxis || 'x');
var ya = Axes.getFromId(gd, trace.yaxis || 'y');
var size, pos;
if(trace.orientation === 'h') {
size = xa.makeCalcdata(trace, 'x');
pos = ya.makeCalcdata(trace, 'y');
} else {
size = ya.makeCalcdata(trace, 'y');
pos = xa.makeCalcdata(trace, 'x');
}
// create the "calculated data" to plot
var serieslen = Math.min(pos.length, size.length);
var cd = new Array(serieslen);
// set position and size
for(var i = 0; i < serieslen; i++) {
cd[i] = { p: pos[i], s: size[i] };
if(trace.ids) {
cd[i].id = String(trace.ids[i]);
}
}
// auto-z and autocolorscale if applicable
if(hasColorscale(trace, 'marker')) {
colorscaleCalc(trace, trace.marker.color, 'marker', 'c');
}
if(hasColorscale(trace, 'marker.line')) {
colorscaleCalc(trace, trace.marker.line.color, 'marker.line', 'c');
}
arraysToCalcdata(cd, trace);
calcSelection(cd, trace);
return cd;
};
},{"../../components/colorscale/calc":575,"../../components/colorscale/has_colorscale":581,"../../plots/cartesian/axes":742,"../scatter/calc_selection":1034,"./arrays_to_calcdata":834}],837:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var isArrayOrTypedArray = _dereq_('../../lib').isArrayOrTypedArray;
var BADNUM = _dereq_('../../constants/numerical').BADNUM;
var Registry = _dereq_('../../registry');
var Axes = _dereq_('../../plots/cartesian/axes');
var Sieve = _dereq_('./sieve.js');
/*
* Bar chart stacking/grouping positioning and autoscaling calculations
* for each direction separately calculate the ranges and positions
* note that this handles histograms too
* now doing this one subplot at a time
*/
function crossTraceCalc(gd, plotinfo) {
var xa = plotinfo.xaxis,
ya = plotinfo.yaxis;
var fullTraces = gd._fullData,
calcTraces = gd.calcdata,
calcTracesHorizontal = [],
calcTracesVertical = [],
i;
for(i = 0; i < fullTraces.length; i++) {
var fullTrace = fullTraces[i];
if(
fullTrace.visible === true &&
Registry.traceIs(fullTrace, 'bar') &&
fullTrace.xaxis === xa._id &&
fullTrace.yaxis === ya._id
) {
if(fullTrace.orientation === 'h') {
calcTracesHorizontal.push(calcTraces[i]);
}
else {
calcTracesVertical.push(calcTraces[i]);
}
}
}
setGroupPositions(gd, xa, ya, calcTracesVertical);
setGroupPositions(gd, ya, xa, calcTracesHorizontal);
}
function setGroupPositions(gd, pa, sa, calcTraces) {
if(!calcTraces.length) return;
var barmode = gd._fullLayout.barmode,
overlay = (barmode === 'overlay'),
group = (barmode === 'group'),
excluded,
included,
i, calcTrace, fullTrace;
initBase(gd, pa, sa, calcTraces);
if(overlay) {
setGroupPositionsInOverlayMode(gd, pa, sa, calcTraces);
}
else if(group) {
// exclude from the group those traces for which the user set an offset
excluded = [];
included = [];
for(i = 0; i < calcTraces.length; i++) {
calcTrace = calcTraces[i];
fullTrace = calcTrace[0].trace;
if(fullTrace.offset === undefined) included.push(calcTrace);
else excluded.push(calcTrace);
}
if(included.length) {
setGroupPositionsInGroupMode(gd, pa, sa, included);
}
if(excluded.length) {
setGroupPositionsInOverlayMode(gd, pa, sa, excluded);
}
}
else {
// exclude from the stack those traces for which the user set a base
excluded = [];
included = [];
for(i = 0; i < calcTraces.length; i++) {
calcTrace = calcTraces[i];
fullTrace = calcTrace[0].trace;
if(fullTrace.base === undefined) included.push(calcTrace);
else excluded.push(calcTrace);
}
if(included.length) {
setGroupPositionsInStackOrRelativeMode(gd, pa, sa, included);
}
if(excluded.length) {
setGroupPositionsInOverlayMode(gd, pa, sa, excluded);
}
}
collectExtents(calcTraces, pa);
}
function initBase(gd, pa, sa, calcTraces) {
var i, j;
for(i = 0; i < calcTraces.length; i++) {
var cd = calcTraces[i];
var trace = cd[0].trace;
var base = trace.base;
var b;
// not sure if it really makes sense to have dates for bar size data...
// ideally if we want to make gantt charts or something we'd treat
// the actual size (trace.x or y) as time delta but base as absolute
// time. But included here for completeness.
var scalendar = trace.orientation === 'h' ? trace.xcalendar : trace.ycalendar;
if(isArrayOrTypedArray(base)) {
for(j = 0; j < Math.min(base.length, cd.length); j++) {
b = sa.d2c(base[j], 0, scalendar);
if(isNumeric(b)) {
cd[j].b = +b;
cd[j].hasB = 1;
}
else cd[j].b = 0;
}
for(; j < cd.length; j++) {
cd[j].b = 0;
}
} else {
b = sa.d2c(base, 0, scalendar);
var hasBase = isNumeric(b);
b = hasBase ? b : 0;
for(j = 0; j < cd.length; j++) {
cd[j].b = b;
if(hasBase) cd[j].hasB = 1;
}
}
}
}
function setGroupPositionsInOverlayMode(gd, pa, sa, calcTraces) {
var barnorm = gd._fullLayout.barnorm,
separateNegativeValues = false,
dontMergeOverlappingData = !barnorm;
// update position axis and set bar offsets and widths
for(var i = 0; i < calcTraces.length; i++) {
var calcTrace = calcTraces[i];
var sieve = new Sieve(
[calcTrace], separateNegativeValues, dontMergeOverlappingData
);
// set bar offsets and widths, and update position axis
setOffsetAndWidth(gd, pa, sieve);
// set bar bases and sizes, and update size axis
//
// (note that `setGroupPositionsInOverlayMode` handles the case barnorm
// is defined, because this function is also invoked for traces that
// can't be grouped or stacked)
if(barnorm) {
sieveBars(gd, sa, sieve);
normalizeBars(gd, sa, sieve);
}
else {
setBaseAndTop(gd, sa, sieve);
}
}
}
function setGroupPositionsInGroupMode(gd, pa, sa, calcTraces) {
var fullLayout = gd._fullLayout,
barnorm = fullLayout.barnorm,
separateNegativeValues = false,
dontMergeOverlappingData = !barnorm,
sieve = new Sieve(
calcTraces, separateNegativeValues, dontMergeOverlappingData
);
// set bar offsets and widths, and update position axis
setOffsetAndWidthInGroupMode(gd, pa, sieve);
// set bar bases and sizes, and update size axis
if(barnorm) {
sieveBars(gd, sa, sieve);
normalizeBars(gd, sa, sieve);
}
else {
setBaseAndTop(gd, sa, sieve);
}
}
function setGroupPositionsInStackOrRelativeMode(gd, pa, sa, calcTraces) {
var fullLayout = gd._fullLayout,
barmode = fullLayout.barmode,
stack = (barmode === 'stack'),
relative = (barmode === 'relative'),
barnorm = gd._fullLayout.barnorm,
separateNegativeValues = relative,
dontMergeOverlappingData = !(barnorm || stack || relative),
sieve = new Sieve(
calcTraces, separateNegativeValues, dontMergeOverlappingData
);
// set bar offsets and widths, and update position axis
setOffsetAndWidth(gd, pa, sieve);
// set bar bases and sizes, and update size axis
stackBars(gd, sa, sieve);
// flag the outmost bar (for text display purposes)
for(var i = 0; i < calcTraces.length; i++) {
var calcTrace = calcTraces[i];
for(var j = 0; j < calcTrace.length; j++) {
var bar = calcTrace[j];
if(bar.s === BADNUM) continue;
var isOutmostBar = ((bar.b + bar.s) === sieve.get(bar.p, bar.s));
if(isOutmostBar) bar._outmost = true;
}
}
// Note that marking the outmost bars has to be done
// before `normalizeBars` changes `bar.b` and `bar.s`.
if(barnorm) normalizeBars(gd, sa, sieve);
}
function setOffsetAndWidth(gd, pa, sieve) {
var fullLayout = gd._fullLayout,
bargap = fullLayout.bargap,
bargroupgap = fullLayout.bargroupgap || 0,
minDiff = sieve.minDiff,
calcTraces = sieve.traces,
i, calcTrace, calcTrace0,
t;
// set bar offsets and widths
var barGroupWidth = minDiff * (1 - bargap),
barWidthPlusGap = barGroupWidth,
barWidth = barWidthPlusGap * (1 - bargroupgap);
// computer bar group center and bar offset
var offsetFromCenter = -barWidth / 2;
for(i = 0; i < calcTraces.length; i++) {
calcTrace = calcTraces[i];
calcTrace0 = calcTrace[0];
// store bar width and offset for this trace
t = calcTrace0.t;
t.barwidth = barWidth;
t.poffset = offsetFromCenter;
t.bargroupwidth = barGroupWidth;
t.bardelta = minDiff;
}
// stack bars that only differ by rounding
sieve.binWidth = calcTraces[0][0].t.barwidth / 100;
// if defined, apply trace offset and width
applyAttributes(sieve);
// store the bar center in each calcdata item
setBarCenterAndWidth(gd, pa, sieve);
// update position axes
updatePositionAxis(gd, pa, sieve);
}
function setOffsetAndWidthInGroupMode(gd, pa, sieve) {
var fullLayout = gd._fullLayout,
bargap = fullLayout.bargap,
bargroupgap = fullLayout.bargroupgap || 0,
positions = sieve.positions,
distinctPositions = sieve.distinctPositions,
minDiff = sieve.minDiff,
calcTraces = sieve.traces,
i, calcTrace, calcTrace0,
t;
// if there aren't any overlapping positions,
// let them have full width even if mode is group
var overlap = (positions.length !== distinctPositions.length);
var nTraces = calcTraces.length,
barGroupWidth = minDiff * (1 - bargap),
barWidthPlusGap = (overlap) ? barGroupWidth / nTraces : barGroupWidth,
barWidth = barWidthPlusGap * (1 - bargroupgap);
for(i = 0; i < nTraces; i++) {
calcTrace = calcTraces[i];
calcTrace0 = calcTrace[0];
// computer bar group center and bar offset
var offsetFromCenter = (overlap) ?
((2 * i + 1 - nTraces) * barWidthPlusGap - barWidth) / 2 :
-barWidth / 2;
// store bar width and offset for this trace
t = calcTrace0.t;
t.barwidth = barWidth;
t.poffset = offsetFromCenter;
t.bargroupwidth = barGroupWidth;
t.bardelta = minDiff;
}
// stack bars that only differ by rounding
sieve.binWidth = calcTraces[0][0].t.barwidth / 100;
// if defined, apply trace width
applyAttributes(sieve);
// store the bar center in each calcdata item
setBarCenterAndWidth(gd, pa, sieve);
// update position axes
updatePositionAxis(gd, pa, sieve, overlap);
}
function applyAttributes(sieve) {
var calcTraces = sieve.traces,
i, calcTrace, calcTrace0, fullTrace,
j,
t;
for(i = 0; i < calcTraces.length; i++) {
calcTrace = calcTraces[i];
calcTrace0 = calcTrace[0];
fullTrace = calcTrace0.trace;
t = calcTrace0.t;
var offset = fullTrace._offset || fullTrace.offset,
initialPoffset = t.poffset,
newPoffset;
if(isArrayOrTypedArray(offset)) {
// if offset is an array, then clone it into t.poffset.
newPoffset = offset.slice(0, calcTrace.length);
// guard against non-numeric items
for(j = 0; j < newPoffset.length; j++) {
if(!isNumeric(newPoffset[j])) {
newPoffset[j] = initialPoffset;
}
}
// if the length of the array is too short,
// then extend it with the initial value of t.poffset
for(j = newPoffset.length; j < calcTrace.length; j++) {
newPoffset.push(initialPoffset);
}
t.poffset = newPoffset;
}
else if(offset !== undefined) {
t.poffset = offset;
}
var width = fullTrace._width || fullTrace.width,
initialBarwidth = t.barwidth;
if(isArrayOrTypedArray(width)) {
// if width is an array, then clone it into t.barwidth.
var newBarwidth = width.slice(0, calcTrace.length);
// guard against non-numeric items
for(j = 0; j < newBarwidth.length; j++) {
if(!isNumeric(newBarwidth[j])) newBarwidth[j] = initialBarwidth;
}
// if the length of the array is too short,
// then extend it with the initial value of t.barwidth
for(j = newBarwidth.length; j < calcTrace.length; j++) {
newBarwidth.push(initialBarwidth);
}
t.barwidth = newBarwidth;
// if user didn't set offset,
// then correct t.poffset to ensure bars remain centered
if(offset === undefined) {
newPoffset = [];
for(j = 0; j < calcTrace.length; j++) {
newPoffset.push(
initialPoffset + (initialBarwidth - newBarwidth[j]) / 2
);
}
t.poffset = newPoffset;
}
}
else if(width !== undefined) {
t.barwidth = width;
// if user didn't set offset,
// then correct t.poffset to ensure bars remain centered
if(offset === undefined) {
t.poffset = initialPoffset + (initialBarwidth - width) / 2;
}
}
}
}
function setBarCenterAndWidth(gd, pa, sieve) {
var calcTraces = sieve.traces,
pLetter = getAxisLetter(pa);
for(var i = 0; i < calcTraces.length; i++) {
var calcTrace = calcTraces[i],
t = calcTrace[0].t,
poffset = t.poffset,
poffsetIsArray = Array.isArray(poffset),
barwidth = t.barwidth,
barwidthIsArray = Array.isArray(barwidth);
for(var j = 0; j < calcTrace.length; j++) {
var calcBar = calcTrace[j];
// store the actual bar width and position, for use by hover
var width = calcBar.w = (barwidthIsArray) ? barwidth[j] : barwidth;
calcBar[pLetter] = calcBar.p +
((poffsetIsArray) ? poffset[j] : poffset) +
width / 2;
}
}
}
function updatePositionAxis(gd, pa, sieve, allowMinDtick) {
var calcTraces = sieve.traces,
distinctPositions = sieve.distinctPositions,
distinctPositions0 = distinctPositions[0],
minDiff = sieve.minDiff,
vpad = minDiff / 2;
Axes.minDtick(pa, minDiff, distinctPositions0, allowMinDtick);
// If the user set the bar width or the offset,
// then bars can be shifted away from their positions
// and widths can be larger than minDiff.
//
// Here, we compute pMin and pMax to expand the position axis,
// so that all bars are fully within the axis range.
var pMin = Math.min.apply(Math, distinctPositions) - vpad,
pMax = Math.max.apply(Math, distinctPositions) + vpad;
for(var i = 0; i < calcTraces.length; i++) {
var calcTrace = calcTraces[i],
calcTrace0 = calcTrace[0],
fullTrace = calcTrace0.trace;
if(fullTrace.width === undefined && fullTrace.offset === undefined) {
continue;
}
var t = calcTrace0.t,
poffset = t.poffset,
barwidth = t.barwidth,
poffsetIsArray = Array.isArray(poffset),
barwidthIsArray = Array.isArray(barwidth);
for(var j = 0; j < calcTrace.length; j++) {
var calcBar = calcTrace[j],
calcBarOffset = (poffsetIsArray) ? poffset[j] : poffset,
calcBarWidth = (barwidthIsArray) ? barwidth[j] : barwidth,
p = calcBar.p,
l = p + calcBarOffset,
r = l + calcBarWidth;
pMin = Math.min(pMin, l);
pMax = Math.max(pMax, r);
}
}
var extremes = Axes.findExtremes(pa, [pMin, pMax], {padded: false});
putExtremes(calcTraces, pa, extremes);
}
function expandRange(range, newValue) {
if(isNumeric(range[0])) range[0] = Math.min(range[0], newValue);
else range[0] = newValue;
if(isNumeric(range[1])) range[1] = Math.max(range[1], newValue);
else range[1] = newValue;
}
function setBaseAndTop(gd, sa, sieve) {
// store these bar bases and tops in calcdata
// and make sure the size axis includes zero,
// along with the bases and tops of each bar.
var traces = sieve.traces,
sLetter = getAxisLetter(sa),
sRange = [null, null];
for(var i = 0; i < traces.length; i++) {
var trace = traces[i];
for(var j = 0; j < trace.length; j++) {
var bar = trace[j],
barBase = bar.b,
barTop = barBase + bar.s;
bar[sLetter] = barTop;
if(isNumeric(sa.c2l(barTop))) expandRange(sRange, barTop);
if(bar.hasB && isNumeric(sa.c2l(barBase))) expandRange(sRange, barBase);
}
}
var extremes = Axes.findExtremes(sa, sRange, {tozero: true, padded: true});
putExtremes(traces, sa, extremes);
}
function stackBars(gd, sa, sieve) {
var fullLayout = gd._fullLayout,
barnorm = fullLayout.barnorm,
sLetter = getAxisLetter(sa),
traces = sieve.traces,
i, trace,
j, bar;
var sRange = [null, null];
for(i = 0; i < traces.length; i++) {
trace = traces[i];
for(j = 0; j < trace.length; j++) {
bar = trace[j];
if(bar.s === BADNUM) continue;
// stack current bar and get previous sum
var barBase = sieve.put(bar.p, bar.b + bar.s),
barTop = barBase + bar.b + bar.s;
// store the bar base and top in each calcdata item
bar.b = barBase;
bar[sLetter] = barTop;
if(!barnorm) {
if(isNumeric(sa.c2l(barTop))) expandRange(sRange, barTop);
if(bar.hasB && isNumeric(sa.c2l(barBase))) expandRange(sRange, barBase);
}
}
}
// if barnorm is set, let normalizeBars update the axis range
if(!barnorm) {
var extremes = Axes.findExtremes(sa, sRange, {tozero: true, padded: true});
putExtremes(traces, sa, extremes);
}
}
function sieveBars(gd, sa, sieve) {
var traces = sieve.traces;
for(var i = 0; i < traces.length; i++) {
var trace = traces[i];
for(var j = 0; j < trace.length; j++) {
var bar = trace[j];
if(bar.s !== BADNUM) sieve.put(bar.p, bar.b + bar.s);
}
}
}
function normalizeBars(gd, sa, sieve) {
// Note:
//
// normalizeBars requires that either sieveBars or stackBars has been
// previously invoked.
var traces = sieve.traces,
sLetter = getAxisLetter(sa),
sTop = (gd._fullLayout.barnorm === 'fraction') ? 1 : 100,
sTiny = sTop / 1e9, // in case of rounding error in sum
sMin = sa.l2c(sa.c2l(0)),
sMax = (gd._fullLayout.barmode === 'stack') ? sTop : sMin,
sRange = [sMin, sMax],
padded = false;
function maybeExpand(newValue) {
if(isNumeric(sa.c2l(newValue)) &&
((newValue < sMin - sTiny) || (newValue > sMax + sTiny) || !isNumeric(sMin))
) {
padded = true;
expandRange(sRange, newValue);
}
}
for(var i = 0; i < traces.length; i++) {
var trace = traces[i];
for(var j = 0; j < trace.length; j++) {
var bar = trace[j];
if(bar.s === BADNUM) continue;
var scale = Math.abs(sTop / sieve.get(bar.p, bar.s));
bar.b *= scale;
bar.s *= scale;
var barBase = bar.b,
barTop = barBase + bar.s;
bar[sLetter] = barTop;
maybeExpand(barTop);
if(bar.hasB) maybeExpand(barBase);
}
}
// update range of size axis
var extremes = Axes.findExtremes(sa, sRange, {tozero: true, padded: padded});
putExtremes(traces, sa, extremes);
}
function getAxisLetter(ax) {
return ax._id.charAt(0);
}
function putExtremes(cd, ax, extremes) {
for(var i = 0; i < cd.length; i++) {
cd[i][0].trace._extremes[ax._id] = extremes;
}
}
// find the full position span of bars at each position
// for use by hover, to ensure labels move in if bars are
// narrower than the space they're in.
// run once per trace group (subplot & direction) and
// the same mapping is attached to all calcdata traces
function collectExtents(calcTraces, pa) {
var posLetter = pa._id.charAt(0);
var extents = {};
var pMin = Infinity;
var pMax = -Infinity;
var i, j, cd;
for(i = 0; i < calcTraces.length; i++) {
cd = calcTraces[i];
for(j = 0; j < cd.length; j++) {
var p = cd[j].p;
if(isNumeric(p)) {
pMin = Math.min(pMin, p);
pMax = Math.max(pMax, p);
}
}
}
// this is just for positioning of hover labels, and nobody will care if
// the label is 1px too far out; so round positions to 1/10K in case
// position values don't exactly match from trace to trace
var roundFactor = 10000 / (pMax - pMin);
var round = extents.round = function(p) {
return String(Math.round(roundFactor * (p - pMin)));
};
var poffset, poffsetIsArray;
for(i = 0; i < calcTraces.length; i++) {
cd = calcTraces[i];
cd[0].t.extents = extents;
poffset = cd[0].t.poffset;
poffsetIsArray = Array.isArray(poffset);
for(j = 0; j < cd.length; j++) {
var di = cd[j];
var p0 = di[posLetter] - di.w / 2;
if(isNumeric(p0)) {
var p1 = di[posLetter] + di.w / 2;
var pVal = round(di.p);
if(extents[pVal]) {
extents[pVal] = [Math.min(p0, extents[pVal][0]), Math.max(p1, extents[pVal][1])];
} else {
extents[pVal] = [p0, p1];
}
}
di.p0 = di.p + ((poffsetIsArray) ? poffset[j] : poffset);
di.p1 = di.p0 + di.w;
di.s0 = di.b;
di.s1 = di.s0 + di.s;
}
}
}
module.exports = {
crossTraceCalc: crossTraceCalc,
setGroupPositions: setGroupPositions
};
},{"../../constants/numerical":670,"../../lib":693,"../../plots/cartesian/axes":742,"../../registry":825,"./sieve.js":845,"fast-isnumeric":213}],838:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Color = _dereq_('../../components/color');
var Registry = _dereq_('../../registry');
var handleXYDefaults = _dereq_('../scatter/xy_defaults');
var handleStyleDefaults = _dereq_('../bar/style_defaults');
var attributes = _dereq_('./attributes');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
var coerceFont = Lib.coerceFont;
var len = handleXYDefaults(traceIn, traceOut, layout, coerce);
if(!len) {
traceOut.visible = false;
return;
}
coerce('orientation', (traceOut.x && !traceOut.y) ? 'h' : 'v');
coerce('base');
coerce('offset');
coerce('width');
coerce('text');
coerce('hovertext');
var textPosition = coerce('textposition');
var hasBoth = Array.isArray(textPosition) || textPosition === 'auto',
hasInside = hasBoth || textPosition === 'inside',
hasOutside = hasBoth || textPosition === 'outside';
if(hasInside || hasOutside) {
var textFont = coerceFont(coerce, 'textfont', layout.font);
if(hasInside) coerceFont(coerce, 'insidetextfont', textFont);
if(hasOutside) coerceFont(coerce, 'outsidetextfont', textFont);
coerce('constraintext');
coerce('selected.textfont.color');
coerce('unselected.textfont.color');
coerce('cliponaxis');
}
handleStyleDefaults(traceIn, traceOut, coerce, defaultColor, layout);
// override defaultColor for error bars with defaultLine
var errorBarsSupplyDefaults = Registry.getComponentMethod('errorbars', 'supplyDefaults');
errorBarsSupplyDefaults(traceIn, traceOut, Color.defaultLine, {axis: 'y'});
errorBarsSupplyDefaults(traceIn, traceOut, Color.defaultLine, {axis: 'x', inherit: 'y'});
Lib.coerceSelectionMarkerOpacity(traceOut, coerce);
};
},{"../../components/color":567,"../../lib":693,"../../registry":825,"../bar/style_defaults":847,"../scatter/xy_defaults":1058,"./attributes":835}],839:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Fx = _dereq_('../../components/fx');
var Registry = _dereq_('../../registry');
var Color = _dereq_('../../components/color');
var fillHoverText = _dereq_('../scatter/fill_hover_text');
function hoverPoints(pointData, xval, yval, hovermode) {
var cd = pointData.cd;
var trace = cd[0].trace;
var t = cd[0].t;
var isClosest = (hovermode === 'closest');
var maxHoverDistance = pointData.maxHoverDistance;
var maxSpikeDistance = pointData.maxSpikeDistance;
var posVal, sizeVal, posLetter, sizeLetter, dx, dy, pRangeCalc;
function thisBarMinPos(di) { return di[posLetter] - di.w / 2; }
function thisBarMaxPos(di) { return di[posLetter] + di.w / 2; }
var minPos = isClosest ?
thisBarMinPos :
function(di) {
/*
* In compare mode, accept a bar if you're on it *or* its group.
* Nearly always it's the group that matters, but in case the bar
* was explicitly set wider than its group we'd better accept the
* whole bar.
*
* use `bardelta` instead of `bargroupwidth` so we accept hover
* in the gap. That way hover doesn't flash on and off as you
* mouse over the plot in compare modes.
* In 'closest' mode though the flashing seems inevitable,
* without far more complex logic
*/
return Math.min(thisBarMinPos(di), di.p - t.bardelta / 2);
};
var maxPos = isClosest ?
thisBarMaxPos :
function(di) {
return Math.max(thisBarMaxPos(di), di.p + t.bardelta / 2);
};
function _positionFn(_minPos, _maxPos) {
// add a little to the pseudo-distance for wider bars, so that like scatter,
// if you are over two overlapping bars, the narrower one wins.
return Fx.inbox(_minPos - posVal, _maxPos - posVal,
maxHoverDistance + Math.min(1, Math.abs(_maxPos - _minPos) / pRangeCalc) - 1);
}
function positionFn(di) {
return _positionFn(minPos(di), maxPos(di));
}
function thisBarPositionFn(di) {
return _positionFn(thisBarMinPos(di), thisBarMaxPos(di));
}
function sizeFn(di) {
// add a gradient so hovering near the end of a
// bar makes it a little closer match
return Fx.inbox(di.b - sizeVal, di[sizeLetter] - sizeVal,
maxHoverDistance + (di[sizeLetter] - sizeVal) / (di[sizeLetter] - di.b) - 1);
}
if(trace.orientation === 'h') {
posVal = yval;
sizeVal = xval;
posLetter = 'y';
sizeLetter = 'x';
dx = sizeFn;
dy = positionFn;
}
else {
posVal = xval;
sizeVal = yval;
posLetter = 'x';
sizeLetter = 'y';
dy = sizeFn;
dx = positionFn;
}
var pa = pointData[posLetter + 'a'];
var sa = pointData[sizeLetter + 'a'];
pRangeCalc = Math.abs(pa.r2c(pa.range[1]) - pa.r2c(pa.range[0]));
function dxy(di) { return (dx(di) + dy(di)) / 2; }
var distfn = Fx.getDistanceFunction(hovermode, dx, dy, dxy);
Fx.getClosest(cd, distfn, pointData);
// skip the rest (for this trace) if we didn't find a close point
if(pointData.index === false) return;
// if we get here and we're not in 'closest' mode, push min/max pos back
// onto the group - even though that means occasionally the mouse will be
// over the hover label.
if(!isClosest) {
minPos = function(di) {
return Math.min(thisBarMinPos(di), di.p - t.bargroupwidth / 2);
};
maxPos = function(di) {
return Math.max(thisBarMaxPos(di), di.p + t.bargroupwidth / 2);
};
}
// the closest data point
var index = pointData.index;
var di = cd[index];
var size = (trace.base) ? di.b + di.s : di.s;
pointData[sizeLetter + '0'] = pointData[sizeLetter + '1'] = sa.c2p(di[sizeLetter], true);
pointData[sizeLetter + 'LabelVal'] = size;
var extent = t.extents[t.extents.round(di.p)];
pointData[posLetter + '0'] = pa.c2p(isClosest ? minPos(di) : extent[0], true);
pointData[posLetter + '1'] = pa.c2p(isClosest ? maxPos(di) : extent[1], true);
pointData[posLetter + 'LabelVal'] = di.p;
// spikelines always want "closest" distance regardless of hovermode
pointData.spikeDistance = (sizeFn(di) + thisBarPositionFn(di)) / 2 + maxSpikeDistance - maxHoverDistance;
// they also want to point to the data value, regardless of where the label goes
// in case of bars shifted within groups
pointData[posLetter + 'Spike'] = pa.c2p(di.p, true);
pointData.color = getTraceColor(trace, di);
fillHoverText(di, trace, pointData);
Registry.getComponentMethod('errorbars', 'hoverInfo')(di, trace, pointData);
return [pointData];
}
function getTraceColor(trace, di) {
var mc = di.mcc || trace.marker.color;
var mlc = di.mlcc || trace.marker.line.color;
var mlw = di.mlw || trace.marker.line.width;
if(Color.opacity(mc)) return mc;
else if(Color.opacity(mlc) && mlw) return mlc;
}
module.exports = {
hoverPoints: hoverPoints,
getTraceColor: getTraceColor
};
},{"../../components/color":567,"../../components/fx":609,"../../registry":825,"../scatter/fill_hover_text":1040}],840:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Bar = {};
Bar.attributes = _dereq_('./attributes');
Bar.layoutAttributes = _dereq_('./layout_attributes');
Bar.supplyDefaults = _dereq_('./defaults');
Bar.supplyLayoutDefaults = _dereq_('./layout_defaults');
Bar.calc = _dereq_('./calc');
Bar.crossTraceCalc = _dereq_('./cross_trace_calc').crossTraceCalc;
Bar.colorbar = _dereq_('../scatter/marker_colorbar');
Bar.arraysToCalcdata = _dereq_('./arrays_to_calcdata');
Bar.plot = _dereq_('./plot');
Bar.style = _dereq_('./style').style;
Bar.styleOnSelect = _dereq_('./style').styleOnSelect;
Bar.hoverPoints = _dereq_('./hover').hoverPoints;
Bar.selectPoints = _dereq_('./select');
Bar.moduleType = 'trace';
Bar.name = 'bar';
Bar.basePlotModule = _dereq_('../../plots/cartesian');
Bar.categories = ['cartesian', 'svg', 'bar', 'oriented', 'errorBarsOK', 'showLegend', 'zoomScale'];
Bar.meta = {
};
module.exports = Bar;
},{"../../plots/cartesian":753,"../scatter/marker_colorbar":1050,"./arrays_to_calcdata":834,"./attributes":835,"./calc":836,"./cross_trace_calc":837,"./defaults":838,"./hover":839,"./layout_attributes":841,"./layout_defaults":842,"./plot":843,"./select":844,"./style":846}],841:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
barmode: {
valType: 'enumerated',
values: ['stack', 'group', 'overlay', 'relative'],
dflt: 'group',
editType: 'calc',
},
barnorm: {
valType: 'enumerated',
values: ['', 'fraction', 'percent'],
dflt: '',
editType: 'calc',
},
bargap: {
valType: 'number',
min: 0,
max: 1,
editType: 'calc',
},
bargroupgap: {
valType: 'number',
min: 0,
max: 1,
dflt: 0,
editType: 'calc',
}
};
},{}],842:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
var Axes = _dereq_('../../plots/cartesian/axes');
var Lib = _dereq_('../../lib');
var layoutAttributes = _dereq_('./layout_attributes');
module.exports = function(layoutIn, layoutOut, fullData) {
function coerce(attr, dflt) {
return Lib.coerce(layoutIn, layoutOut, layoutAttributes, attr, dflt);
}
var hasBars = false,
shouldBeGapless = false,
gappedAnyway = false,
usedSubplots = {};
for(var i = 0; i < fullData.length; i++) {
var trace = fullData[i];
if(Registry.traceIs(trace, 'bar')) hasBars = true;
else continue;
// if we have at least 2 grouped bar traces on the same subplot,
// we should default to a gap anyway, even if the data is histograms
if(layoutIn.barmode !== 'overlay' && layoutIn.barmode !== 'stack') {
var subploti = trace.xaxis + trace.yaxis;
if(usedSubplots[subploti]) gappedAnyway = true;
usedSubplots[subploti] = true;
}
if(trace.visible && trace.type === 'histogram') {
var pa = Axes.getFromId({_fullLayout: layoutOut},
trace[trace.orientation === 'v' ? 'xaxis' : 'yaxis']);
if(pa.type !== 'category') shouldBeGapless = true;
}
}
if(!hasBars) return;
var mode = coerce('barmode');
if(mode !== 'overlay') coerce('barnorm');
coerce('bargap', (shouldBeGapless && !gappedAnyway) ? 0 : 0.2);
coerce('bargroupgap');
};
},{"../../lib":693,"../../plots/cartesian/axes":742,"../../registry":825,"./layout_attributes":841}],843:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var isNumeric = _dereq_('fast-isnumeric');
var tinycolor = _dereq_('tinycolor2');
var Lib = _dereq_('../../lib');
var svgTextUtils = _dereq_('../../lib/svg_text_utils');
var Color = _dereq_('../../components/color');
var Drawing = _dereq_('../../components/drawing');
var Registry = _dereq_('../../registry');
var attributes = _dereq_('./attributes'),
attributeText = attributes.text,
attributeTextPosition = attributes.textposition,
attributeTextFont = attributes.textfont,
attributeInsideTextFont = attributes.insidetextfont,
attributeOutsideTextFont = attributes.outsidetextfont;
// padding in pixels around text
var TEXTPAD = 3;
module.exports = function plot(gd, plotinfo, cdbar, barLayer) {
var xa = plotinfo.xaxis;
var ya = plotinfo.yaxis;
var fullLayout = gd._fullLayout;
var bartraces = Lib.makeTraceGroups(barLayer, cdbar, 'trace bars').each(function(cd) {
var plotGroup = d3.select(this);
var cd0 = cd[0];
var trace = cd0.trace;
if(!plotinfo.isRangePlot) cd0.node3 = plotGroup;
var pointGroup = Lib.ensureSingle(plotGroup, 'g', 'points');
var bars = pointGroup.selectAll('g.point').data(Lib.identity);
bars.enter().append('g')
.classed('point', true);
bars.exit().remove();
bars.each(function(di, i) {
var bar = d3.select(this);
// now display the bar
// clipped xf/yf (2nd arg true): non-positive
// log values go off-screen by plotwidth
// so you see them continue if you drag the plot
var x0, x1, y0, y1;
if(trace.orientation === 'h') {
y0 = ya.c2p(di.p0, true);
y1 = ya.c2p(di.p1, true);
x0 = xa.c2p(di.s0, true);
x1 = xa.c2p(di.s1, true);
// for selections
di.ct = [x1, (y0 + y1) / 2];
}
else {
x0 = xa.c2p(di.p0, true);
x1 = xa.c2p(di.p1, true);
y0 = ya.c2p(di.s0, true);
y1 = ya.c2p(di.s1, true);
// for selections
di.ct = [(x0 + x1) / 2, y1];
}
if(!isNumeric(x0) || !isNumeric(x1) ||
!isNumeric(y0) || !isNumeric(y1) ||
x0 === x1 || y0 === y1) {
bar.remove();
return;
}
var lw = (di.mlw + 1 || trace.marker.line.width + 1 ||
(di.trace ? di.trace.marker.line.width : 0) + 1) - 1,
offset = d3.round((lw / 2) % 1, 2);
function roundWithLine(v) {
// if there are explicit gaps, don't round,
// it can make the gaps look crappy
return (fullLayout.bargap === 0 && fullLayout.bargroupgap === 0) ?
d3.round(Math.round(v) - offset, 2) : v;
}
function expandToVisible(v, vc) {
// if it's not in danger of disappearing entirely,
// round more precisely
return Math.abs(v - vc) >= 2 ? roundWithLine(v) :
// but if it's very thin, expand it so it's
// necessarily visible, even if it might overlap
// its neighbor
(v > vc ? Math.ceil(v) : Math.floor(v));
}
if(!gd._context.staticPlot) {
// if bars are not fully opaque or they have a line
// around them, round to integer pixels, mainly for
// safari so we prevent overlaps from its expansive
// pixelation. if the bars ARE fully opaque and have
// no line, expand to a full pixel to make sure we
// can see them
var op = Color.opacity(di.mc || trace.marker.color),
fixpx = (op < 1 || lw > 0.01) ?
roundWithLine : expandToVisible;
x0 = fixpx(x0, x1);
x1 = fixpx(x1, x0);
y0 = fixpx(y0, y1);
y1 = fixpx(y1, y0);
}
Lib.ensureSingle(bar, 'path')
.style('vector-effect', 'non-scaling-stroke')
.attr('d',
'M' + x0 + ',' + y0 + 'V' + y1 + 'H' + x1 + 'V' + y0 + 'Z')
.call(Drawing.setClipUrl, plotinfo.layerClipId);
appendBarText(gd, bar, cd, i, x0, x1, y0, y1);
if(plotinfo.layerClipId) {
Drawing.hideOutsideRangePoint(di, bar.select('text'), xa, ya, trace.xcalendar, trace.ycalendar);
}
});
// lastly, clip points groups of `cliponaxis !== false` traces
// on `plotinfo._hasClipOnAxisFalse === true` subplots
var hasClipOnAxisFalse = cd0.trace.cliponaxis === false;
Drawing.setClipUrl(plotGroup, hasClipOnAxisFalse ? null : plotinfo.layerClipId);
});
// error bars are on the top
Registry.getComponentMethod('errorbars', 'plot')(bartraces, plotinfo);
};
function appendBarText(gd, bar, calcTrace, i, x0, x1, y0, y1) {
var textPosition;
function appendTextNode(bar, text, textFont) {
var textSelection = Lib.ensureSingle(bar, 'text')
.text(text)
.attr({
'class': 'bartext bartext-' + textPosition,
transform: '',
'text-anchor': 'middle',
// prohibit tex interpretation until we can handle
// tex and regular text together
'data-notex': 1
})
.call(Drawing.font, textFont)
.call(svgTextUtils.convertToTspans, gd);
return textSelection;
}
// get trace attributes
var trace = calcTrace[0].trace,
orientation = trace.orientation;
var text = getText(trace, i);
textPosition = getTextPosition(trace, i);
if(!text || textPosition === 'none') {
bar.select('text').remove();
return;
}
var textFont = getTextFont(trace, i, gd._fullLayout.font),
insideTextFont = getInsideTextFont(trace, i, textFont),
outsideTextFont = getOutsideTextFont(trace, i, textFont);
// compute text position
var barmode = gd._fullLayout.barmode,
inStackMode = (barmode === 'stack'),
inRelativeMode = (barmode === 'relative'),
inStackOrRelativeMode = inStackMode || inRelativeMode,
calcBar = calcTrace[i],
isOutmostBar = !inStackOrRelativeMode || calcBar._outmost,
barWidth = Math.abs(x1 - x0) - 2 * TEXTPAD, // padding excluded
barHeight = Math.abs(y1 - y0) - 2 * TEXTPAD, // padding excluded
textSelection,
textBB,
textWidth,
textHeight;
if(textPosition === 'outside') {
if(!isOutmostBar) textPosition = 'inside';
}
if(textPosition === 'auto') {
if(isOutmostBar) {
// draw text using insideTextFont and check if it fits inside bar
textPosition = 'inside';
textSelection = appendTextNode(bar, text, insideTextFont);
textBB = Drawing.bBox(textSelection.node()),
textWidth = textBB.width,
textHeight = textBB.height;
var textHasSize = (textWidth > 0 && textHeight > 0),
fitsInside =
(textWidth <= barWidth && textHeight <= barHeight),
fitsInsideIfRotated =
(textWidth <= barHeight && textHeight <= barWidth),
fitsInsideIfShrunk = (orientation === 'h') ?
(barWidth >= textWidth * (barHeight / textHeight)) :
(barHeight >= textHeight * (barWidth / textWidth));
if(textHasSize &&
(fitsInside || fitsInsideIfRotated || fitsInsideIfShrunk)) {
textPosition = 'inside';
}
else {
textPosition = 'outside';
textSelection.remove();
textSelection = null;
}
}
else textPosition = 'inside';
}
if(!textSelection) {
textSelection = appendTextNode(bar, text,
(textPosition === 'outside') ?
outsideTextFont : insideTextFont);
textBB = Drawing.bBox(textSelection.node()),
textWidth = textBB.width,
textHeight = textBB.height;
if(textWidth <= 0 || textHeight <= 0) {
textSelection.remove();
return;
}
}
// compute text transform
var transform, constrained;
if(textPosition === 'outside') {
constrained = trace.constraintext === 'both' || trace.constraintext === 'outside';
transform = getTransformToMoveOutsideBar(x0, x1, y0, y1, textBB,
orientation, constrained);
}
else {
constrained = trace.constraintext === 'both' || trace.constraintext === 'inside';
transform = getTransformToMoveInsideBar(x0, x1, y0, y1, textBB,
orientation, constrained);
}
textSelection.attr('transform', transform);
}
function getTransformToMoveInsideBar(x0, x1, y0, y1, textBB, orientation, constrained) {
// compute text and target positions
var textWidth = textBB.width,
textHeight = textBB.height,
textX = (textBB.left + textBB.right) / 2,
textY = (textBB.top + textBB.bottom) / 2,
barWidth = Math.abs(x1 - x0),
barHeight = Math.abs(y1 - y0),
targetWidth,
targetHeight,
targetX,
targetY;
// apply text padding
var textpad;
if(barWidth > (2 * TEXTPAD) && barHeight > (2 * TEXTPAD)) {
textpad = TEXTPAD;
barWidth -= 2 * textpad;
barHeight -= 2 * textpad;
}
else textpad = 0;
// compute rotation and scale
var rotate,
scale;
if(textWidth <= barWidth && textHeight <= barHeight) {
// no scale or rotation is required
rotate = false;
scale = 1;
}
else if(textWidth <= barHeight && textHeight <= barWidth) {
// only rotation is required
rotate = true;
scale = 1;
}
else if((textWidth < textHeight) === (barWidth < barHeight)) {
// only scale is required
rotate = false;
scale = constrained ? Math.min(barWidth / textWidth, barHeight / textHeight) : 1;
}
else {
// both scale and rotation are required
rotate = true;
scale = constrained ? Math.min(barHeight / textWidth, barWidth / textHeight) : 1;
}
if(rotate) rotate = 90; // rotate clockwise
// compute text and target positions
if(rotate) {
targetWidth = scale * textHeight;
targetHeight = scale * textWidth;
}
else {
targetWidth = scale * textWidth;
targetHeight = scale * textHeight;
}
if(orientation === 'h') {
if(x1 < x0) {
// bar end is on the left hand side
targetX = x1 + textpad + targetWidth / 2;
targetY = (y0 + y1) / 2;
}
else {
targetX = x1 - textpad - targetWidth / 2;
targetY = (y0 + y1) / 2;
}
}
else {
if(y1 > y0) {
// bar end is on the bottom
targetX = (x0 + x1) / 2;
targetY = y1 - textpad - targetHeight / 2;
}
else {
targetX = (x0 + x1) / 2;
targetY = y1 + textpad + targetHeight / 2;
}
}
return getTransform(textX, textY, targetX, targetY, scale, rotate);
}
function getTransformToMoveOutsideBar(x0, x1, y0, y1, textBB, orientation, constrained) {
var barWidth = (orientation === 'h') ?
Math.abs(y1 - y0) :
Math.abs(x1 - x0),
textpad;
// Keep the padding so the text doesn't sit right against
// the bars, but don't factor it into barWidth
if(barWidth > 2 * TEXTPAD) {
textpad = TEXTPAD;
}
// compute rotation and scale
var scale = 1;
if(constrained) {
scale = (orientation === 'h') ?
Math.min(1, barWidth / textBB.height) :
Math.min(1, barWidth / textBB.width);
}
// compute text and target positions
var textX = (textBB.left + textBB.right) / 2,
textY = (textBB.top + textBB.bottom) / 2,
targetWidth,
targetHeight,
targetX,
targetY;
targetWidth = scale * textBB.width;
targetHeight = scale * textBB.height;
if(orientation === 'h') {
if(x1 < x0) {
// bar end is on the left hand side
targetX = x1 - textpad - targetWidth / 2;
targetY = (y0 + y1) / 2;
}
else {
targetX = x1 + textpad + targetWidth / 2;
targetY = (y0 + y1) / 2;
}
}
else {
if(y1 > y0) {
// bar end is on the bottom
targetX = (x0 + x1) / 2;
targetY = y1 + textpad + targetHeight / 2;
}
else {
targetX = (x0 + x1) / 2;
targetY = y1 - textpad - targetHeight / 2;
}
}
return getTransform(textX, textY, targetX, targetY, scale, false);
}
function getTransform(textX, textY, targetX, targetY, scale, rotate) {
var transformScale,
transformRotate,
transformTranslate;
if(scale < 1) transformScale = 'scale(' + scale + ') ';
else {
scale = 1;
transformScale = '';
}
transformRotate = (rotate) ?
'rotate(' + rotate + ' ' + textX + ' ' + textY + ') ' : '';
// Note that scaling also affects the center of the text box
var translateX = (targetX - scale * textX),
translateY = (targetY - scale * textY);
transformTranslate = 'translate(' + translateX + ' ' + translateY + ')';
return transformTranslate + transformScale + transformRotate;
}
function getText(trace, index) {
var value = getValue(trace.text, index);
return coerceString(attributeText, value);
}
function getTextPosition(trace, index) {
var value = getValue(trace.textposition, index);
return coerceEnumerated(attributeTextPosition, value);
}
function getTextFont(trace, index, defaultValue) {
return getFontValue(
attributeTextFont, trace.textfont, index, defaultValue);
}
function getInsideTextFont(trace, index, defaultValue) {
return getFontValue(
attributeInsideTextFont, trace.insidetextfont, index, defaultValue);
}
function getOutsideTextFont(trace, index, defaultValue) {
return getFontValue(
attributeOutsideTextFont, trace.outsidetextfont, index, defaultValue);
}
function getFontValue(attributeDefinition, attributeValue, index, defaultValue) {
attributeValue = attributeValue || {};
var familyValue = getValue(attributeValue.family, index),
sizeValue = getValue(attributeValue.size, index),
colorValue = getValue(attributeValue.color, index);
return {
family: coerceString(
attributeDefinition.family, familyValue, defaultValue.family),
size: coerceNumber(
attributeDefinition.size, sizeValue, defaultValue.size),
color: coerceColor(
attributeDefinition.color, colorValue, defaultValue.color)
};
}
function getValue(arrayOrScalar, index) {
var value;
if(!Array.isArray(arrayOrScalar)) value = arrayOrScalar;
else if(index < arrayOrScalar.length) value = arrayOrScalar[index];
return value;
}
function coerceString(attributeDefinition, value, defaultValue) {
if(typeof value === 'string') {
if(value || !attributeDefinition.noBlank) return value;
}
else if(typeof value === 'number') {
if(!attributeDefinition.strict) return String(value);
}
return (defaultValue !== undefined) ?
defaultValue :
attributeDefinition.dflt;
}
function coerceEnumerated(attributeDefinition, value, defaultValue) {
if(attributeDefinition.coerceNumber) value = +value;
if(attributeDefinition.values.indexOf(value) !== -1) return value;
return (defaultValue !== undefined) ?
defaultValue :
attributeDefinition.dflt;
}
function coerceNumber(attributeDefinition, value, defaultValue) {
if(isNumeric(value)) {
value = +value;
var min = attributeDefinition.min,
max = attributeDefinition.max,
isOutOfBounds = (min !== undefined && value < min) ||
(max !== undefined && value > max);
if(!isOutOfBounds) return value;
}
return (defaultValue !== undefined) ?
defaultValue :
attributeDefinition.dflt;
}
function coerceColor(attributeDefinition, value, defaultValue) {
if(tinycolor(value).isValid()) return value;
return (defaultValue !== undefined) ?
defaultValue :
attributeDefinition.dflt;
}
},{"../../components/color":567,"../../components/drawing":592,"../../lib":693,"../../lib/svg_text_utils":718,"../../registry":825,"./attributes":835,"d3":147,"fast-isnumeric":213,"tinycolor2":511}],844:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function selectPoints(searchInfo, selectionTester) {
var cd = searchInfo.cd;
var xa = searchInfo.xaxis;
var ya = searchInfo.yaxis;
var selection = [];
var i;
if(selectionTester === false) {
// clear selection
for(i = 0; i < cd.length; i++) {
cd[i].selected = 0;
}
} else {
for(i = 0; i < cd.length; i++) {
var di = cd[i];
if(selectionTester.contains(di.ct, false, i, searchInfo)) {
selection.push({
pointNumber: i,
x: xa.c2d(di.x),
y: ya.c2d(di.y)
});
di.selected = 1;
} else {
di.selected = 0;
}
}
}
return selection;
};
},{}],845:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = Sieve;
var Lib = _dereq_('../../lib');
var BADNUM = _dereq_('../../constants/numerical').BADNUM;
/**
* Helper class to sieve data from traces into bins
*
* @class
* @param {Array} traces
* Array of calculated traces
* @param {boolean} [separateNegativeValues]
* If true, then split data at the same position into a bar
* for positive values and another for negative values
* @param {boolean} [dontMergeOverlappingData]
* If true, then don't merge overlapping bars into a single bar
*/
function Sieve(traces, separateNegativeValues, dontMergeOverlappingData) {
this.traces = traces;
this.separateNegativeValues = separateNegativeValues;
this.dontMergeOverlappingData = dontMergeOverlappingData;
// for single-bin histograms - see histogram/calc
var width1 = Infinity;
var positions = [];
for(var i = 0; i < traces.length; i++) {
var trace = traces[i];
for(var j = 0; j < trace.length; j++) {
var bar = trace[j];
if(bar.p !== BADNUM) positions.push(bar.p);
}
if(trace[0] && trace[0].width1) {
width1 = Math.min(trace[0].width1, width1);
}
}
this.positions = positions;
var dv = Lib.distinctVals(positions);
this.distinctPositions = dv.vals;
if(dv.vals.length === 1 && width1 !== Infinity) this.minDiff = width1;
else this.minDiff = Math.min(dv.minDiff, width1);
this.binWidth = this.minDiff;
this.bins = {};
}
/**
* Sieve datum
*
* @method
* @param {number} position
* @param {number} value
* @returns {number} Previous bin value
*/
Sieve.prototype.put = function put(position, value) {
var label = this.getLabel(position, value),
oldValue = this.bins[label] || 0;
this.bins[label] = oldValue + value;
return oldValue;
};
/**
* Get current bin value for a given datum
*
* @method
* @param {number} position Position of datum
* @param {number} [value] Value of datum
* (required if this.separateNegativeValues is true)
* @returns {number} Current bin value
*/
Sieve.prototype.get = function put(position, value) {
var label = this.getLabel(position, value);
return this.bins[label] || 0;
};
/**
* Get bin label for a given datum
*
* @method
* @param {number} position Position of datum
* @param {number} [value] Value of datum
* (required if this.separateNegativeValues is true)
* @returns {string} Bin label
* (prefixed with a 'v' if value is negative and this.separateNegativeValues is
* true; otherwise prefixed with '^')
*/
Sieve.prototype.getLabel = function getLabel(position, value) {
var prefix = (value < 0 && this.separateNegativeValues) ? 'v' : '^',
label = (this.dontMergeOverlappingData) ?
position :
Math.round(position / this.binWidth);
return prefix + label;
};
},{"../../constants/numerical":670,"../../lib":693}],846:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Drawing = _dereq_('../../components/drawing');
var Registry = _dereq_('../../registry');
function style(gd, cd) {
var s = cd ? cd[0].node3 : d3.select(gd).selectAll('g.trace.bars');
var barcount = s.size();
var fullLayout = gd._fullLayout;
// trace styling
s.style('opacity', function(d) { return d[0].trace.opacity; })
// for gapless (either stacked or neighboring grouped) bars use
// crispEdges to turn off antialiasing so an artificial gap
// isn't introduced.
.each(function(d) {
if((fullLayout.barmode === 'stack' && barcount > 1) ||
(fullLayout.bargap === 0 &&
fullLayout.bargroupgap === 0 &&
!d[0].trace.marker.line.width)) {
d3.select(this).attr('shape-rendering', 'crispEdges');
}
});
s.selectAll('g.points').each(function(d) {
var sel = d3.select(this);
var trace = d[0].trace;
stylePoints(sel, trace, gd);
});
Registry.getComponentMethod('errorbars', 'style')(s);
}
function stylePoints(sel, trace, gd) {
var pts = sel.selectAll('path');
var txs = sel.selectAll('text');
Drawing.pointStyle(pts, trace, gd);
txs.each(function(d) {
var tx = d3.select(this);
var textFont;
if(tx.classed('bartext-inside')) {
textFont = trace.insidetextfont;
} else if(tx.classed('bartext-outside')) {
textFont = trace.outsidetextfont;
}
if(!textFont) textFont = trace.textfont;
function cast(k) {
var cont = textFont[k];
return Array.isArray(cont) ? cont[d.i] : cont;
}
Drawing.font(tx, cast('family'), cast('size'), cast('color'));
});
}
function styleOnSelect(gd, cd) {
var s = cd[0].node3;
var trace = cd[0].trace;
if(trace.selectedpoints) {
Drawing.selectedPointStyle(s.selectAll('path'), trace);
Drawing.selectedTextStyle(s.selectAll('text'), trace);
} else {
stylePoints(s, trace, gd);
}
}
module.exports = {
style: style,
styleOnSelect: styleOnSelect
};
},{"../../components/drawing":592,"../../registry":825,"d3":147}],847:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Color = _dereq_('../../components/color');
var hasColorscale = _dereq_('../../components/colorscale/has_colorscale');
var colorscaleDefaults = _dereq_('../../components/colorscale/defaults');
module.exports = function handleStyleDefaults(traceIn, traceOut, coerce, defaultColor, layout) {
coerce('marker.color', defaultColor);
if(hasColorscale(traceIn, 'marker')) {
colorscaleDefaults(
traceIn, traceOut, layout, coerce, {prefix: 'marker.', cLetter: 'c'}
);
}
coerce('marker.line.color', Color.defaultLine);
if(hasColorscale(traceIn, 'marker.line')) {
colorscaleDefaults(
traceIn, traceOut, layout, coerce, {prefix: 'marker.line.', cLetter: 'c'}
);
}
coerce('marker.line.width');
coerce('marker.opacity');
coerce('selected.marker.color');
coerce('unselected.marker.color');
};
},{"../../components/color":567,"../../components/colorscale/defaults":577,"../../components/colorscale/has_colorscale":581}],848:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var scatterPolarAttrs = _dereq_('../scatterpolar/attributes');
var barAttrs = _dereq_('../bar/attributes');
module.exports = {
r: scatterPolarAttrs.r,
theta: scatterPolarAttrs.theta,
r0: scatterPolarAttrs.r0,
dr: scatterPolarAttrs.dr,
theta0: scatterPolarAttrs.theta0,
dtheta: scatterPolarAttrs.dtheta,
thetaunit: scatterPolarAttrs.thetaunit,
// orientation: {
// valType: 'enumerated',
//
// values: ['radial', 'angular'],
// editType: 'calc+clearAxisTypes',
//
// },
base: extendFlat({}, barAttrs.base, {
}),
offset: extendFlat({}, barAttrs.offset, {
}),
width: extendFlat({}, barAttrs.width, {
}),
text: extendFlat({}, barAttrs.text, {
}),
// hovertext: barAttrs.hovertext,
// textposition: {},
// textfont: {},
// insidetextfont: {},
// outsidetextfont: {},
// constraintext: {},
// cliponaxis: extendFlat({}, barAttrs.cliponaxis, {dflt: false}),
marker: barAttrs.marker,
hoverinfo: scatterPolarAttrs.hoverinfo,
selected: barAttrs.selected,
unselected: barAttrs.unselected
// error_x (error_r, error_theta)
// error_y
};
},{"../../lib/extend":682,"../bar/attributes":835,"../scatterpolar/attributes":1094}],849:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var hasColorscale = _dereq_('../../components/colorscale/has_colorscale');
var colorscaleCalc = _dereq_('../../components/colorscale/calc');
var arraysToCalcdata = _dereq_('../bar/arrays_to_calcdata');
var setGroupPositions = _dereq_('../bar/cross_trace_calc').setGroupPositions;
var calcSelection = _dereq_('../scatter/calc_selection');
var traceIs = _dereq_('../../registry').traceIs;
var extendFlat = _dereq_('../../lib').extendFlat;
function calc(gd, trace) {
var fullLayout = gd._fullLayout;
var subplotId = trace.subplot;
var radialAxis = fullLayout[subplotId].radialaxis;
var angularAxis = fullLayout[subplotId].angularaxis;
var rArray = radialAxis.makeCalcdata(trace, 'r');
var thetaArray = angularAxis.makeCalcdata(trace, 'theta');
var len = trace._length;
var cd = new Array(len);
// 'size' axis variables
var sArray = rArray;
// 'pos' axis variables
var pArray = thetaArray;
for(var i = 0; i < len; i++) {
cd[i] = {p: pArray[i], s: sArray[i]};
}
// convert width and offset in 'c' coordinate,
// set 'c' value(s) in trace._width and trace._offset,
// to make Bar.crossTraceCalc "just work"
function d2c(attr) {
var val = trace[attr];
if(val !== undefined) {
trace['_' + attr] = Array.isArray(val) ?
angularAxis.makeCalcdata(trace, attr) :
angularAxis.d2c(val, trace.thetaunit);
}
}
if(angularAxis.type === 'linear') {
d2c('width');
d2c('offset');
}
if(hasColorscale(trace, 'marker')) {
colorscaleCalc(trace, trace.marker.color, 'marker', 'c');
}
if(hasColorscale(trace, 'marker.line')) {
colorscaleCalc(trace, trace.marker.line.color, 'marker.line', 'c');
}
arraysToCalcdata(cd, trace);
calcSelection(cd, trace);
return cd;
}
function crossTraceCalc(gd, polarLayout, subplotId) {
var calcdata = gd.calcdata;
var barPolarCd = [];
for(var i = 0; i < calcdata.length; i++) {
var cdi = calcdata[i];
var trace = cdi[0].trace;
if(trace.visible === true && traceIs(trace, 'bar') &&
trace.subplot === subplotId
) {
barPolarCd.push(cdi);
}
}
// to make _extremes is filled in correctly so that
// polar._subplot.radialAxis can get auotrange'd
// TODO clean up!
// I think we want to call getAutorange on polar.radialaxis
// NOT on polar._subplot.radialAxis
var rAxis = extendFlat({}, polarLayout.radialaxis, {_id: 'x'});
var aAxis = polarLayout.angularaxis;
// 'bargap', 'barmode' are in _fullLayout.polar
// TODO clean up setGroupPositions API instead
var mockGd = {_fullLayout: polarLayout};
setGroupPositions(mockGd, aAxis, rAxis, barPolarCd);
}
module.exports = {
calc: calc,
crossTraceCalc: crossTraceCalc
};
},{"../../components/colorscale/calc":575,"../../components/colorscale/has_colorscale":581,"../../lib":693,"../../registry":825,"../bar/arrays_to_calcdata":834,"../bar/cross_trace_calc":837,"../scatter/calc_selection":1034}],850:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var handleRThetaDefaults = _dereq_('../scatterpolar/defaults').handleRThetaDefaults;
var handleStyleDefaults = _dereq_('../bar/style_defaults');
var attributes = _dereq_('./attributes');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
var len = handleRThetaDefaults(traceIn, traceOut, layout, coerce);
if(!len) {
traceOut.visible = false;
return;
}
// coerce('orientation', (traceOut.theta && !traceOut.r) ? 'angular' : 'radial');
coerce('thetaunit');
coerce('base');
coerce('offset');
coerce('width');
coerce('text');
// coerce('hovertext');
// var textPosition = coerce('textposition');
// var hasBoth = Array.isArray(textPosition) || textPosition === 'auto';
// var hasInside = hasBoth || textPosition === 'inside';
// var hasOutside = hasBoth || textPosition === 'outside';
// if(hasInside || hasOutside) {
// var textFont = coerceFont(coerce, 'textfont', layout.font);
// if(hasInside) coerceFont(coerce, 'insidetextfont', textFont);
// if(hasOutside) coerceFont(coerce, 'outsidetextfont', textFont);
// coerce('constraintext');
// coerce('selected.textfont.color');
// coerce('unselected.textfont.color');
// coerce('cliponaxis');
// }
handleStyleDefaults(traceIn, traceOut, coerce, defaultColor, layout);
Lib.coerceSelectionMarkerOpacity(traceOut, coerce);
};
},{"../../lib":693,"../bar/style_defaults":847,"../scatterpolar/defaults":1096,"./attributes":848}],851:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Fx = _dereq_('../../components/fx');
var Lib = _dereq_('../../lib');
var getTraceColor = _dereq_('../bar/hover').getTraceColor;
var fillHoverText = _dereq_('../scatter/fill_hover_text');
var makeHoverPointText = _dereq_('../scatterpolar/hover').makeHoverPointText;
var isPtInsidePolygon = _dereq_('../../plots/polar/helpers').isPtInsidePolygon;
module.exports = function hoverPoints(pointData, xval, yval) {
var cd = pointData.cd;
var trace = cd[0].trace;
var subplot = pointData.subplot;
var radialAxis = subplot.radialAxis;
var angularAxis = subplot.angularAxis;
var vangles = subplot.vangles;
var inboxFn = vangles ? isPtInsidePolygon : Lib.isPtInsideSector;
var maxHoverDistance = pointData.maxHoverDistance;
var period = angularAxis._period || 2 * Math.PI;
var rVal = Math.abs(radialAxis.g2p(Math.sqrt(xval * xval + yval * yval)));
var thetaVal = Math.atan2(yval, xval);
// polar.(x|y)axis.p2c doesn't get the reversed radial axis range case right
if(radialAxis.range[0] > radialAxis.range[1]) {
thetaVal += Math.PI;
}
var distFn = function(di) {
if(inboxFn(rVal, thetaVal, [di.rp0, di.rp1], [di.thetag0, di.thetag1], vangles)) {
return maxHoverDistance +
// add a little to the pseudo-distance for wider bars, so that like scatter,
// if you are over two overlapping bars, the narrower one wins.
Math.min(1, Math.abs(di.thetag1 - di.thetag0) / period) - 1 +
// add a gradient so hovering near the end of a
// bar makes it a little closer match
(di.rp1 - rVal) / (di.rp1 - di.rp0) - 1;
} else {
return Infinity;
}
};
Fx.getClosest(cd, distFn, pointData);
if(pointData.index === false) return;
var index = pointData.index;
var cdi = cd[index];
pointData.x0 = pointData.x1 = cdi.ct[0];
pointData.y0 = pointData.y1 = cdi.ct[1];
var _cdi = Lib.extendFlat({}, cdi, {r: cdi.s, theta: cdi.p});
fillHoverText(cdi, trace, pointData);
makeHoverPointText(_cdi, trace, subplot, pointData);
pointData.color = getTraceColor(trace, cdi);
pointData.xLabelVal = pointData.yLabelVal = undefined;
if(cdi.s < 0) {
pointData.idealAlign = 'left';
}
return [pointData];
};
},{"../../components/fx":609,"../../lib":693,"../../plots/polar/helpers":807,"../bar/hover":839,"../scatter/fill_hover_text":1040,"../scatterpolar/hover":1097}],852:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
moduleType: 'trace',
name: 'barpolar',
basePlotModule: _dereq_('../../plots/polar'),
categories: ['polar', 'bar', 'showLegend'],
attributes: _dereq_('./attributes'),
layoutAttributes: _dereq_('./layout_attributes'),
supplyDefaults: _dereq_('./defaults'),
supplyLayoutDefaults: _dereq_('./layout_defaults'),
calc: _dereq_('./calc').calc,
crossTraceCalc: _dereq_('./calc').crossTraceCalc,
plot: _dereq_('./plot'),
colorbar: _dereq_('../scatter/marker_colorbar'),
style: _dereq_('../bar/style').style,
hoverPoints: _dereq_('./hover'),
selectPoints: _dereq_('../bar/select'),
meta: {
}
};
},{"../../plots/polar":808,"../bar/select":844,"../bar/style":846,"../scatter/marker_colorbar":1050,"./attributes":848,"./calc":849,"./defaults":850,"./hover":851,"./layout_attributes":853,"./layout_defaults":854,"./plot":855}],853:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
barmode: {
valType: 'enumerated',
values: ['stack', 'overlay'],
dflt: 'stack',
editType: 'calc',
},
bargap: {
valType: 'number',
dflt: 0.1,
min: 0,
max: 1,
editType: 'calc',
}
};
},{}],854:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var attrs = _dereq_('./layout_attributes');
module.exports = function(layoutIn, layoutOut, fullData) {
var subplotsDone = {};
var sp;
function coerce(attr, dflt) {
return Lib.coerce(layoutIn[sp] || {}, layoutOut[sp], attrs, attr, dflt);
}
for(var i = 0; i < fullData.length; i++) {
var trace = fullData[i];
if(trace.type === 'barpolar' && trace.visible === true) {
sp = trace.subplot;
if(!subplotsDone[sp]) {
coerce('barmode');
coerce('bargap');
subplotsDone[sp] = 1;
}
}
}
};
},{"../../lib":693,"./layout_attributes":853}],855:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var isNumeric = _dereq_('fast-isnumeric');
var Lib = _dereq_('../../lib');
var Drawing = _dereq_('../../components/drawing');
var helpers = _dereq_('../../plots/polar/helpers');
module.exports = function plot(gd, subplot, cdbar) {
var xa = subplot.xaxis;
var ya = subplot.yaxis;
var radialAxis = subplot.radialAxis;
var angularAxis = subplot.angularAxis;
var pathFn = makePathFn(subplot);
var barLayer = subplot.layers.frontplot.select('g.barlayer');
Lib.makeTraceGroups(barLayer, cdbar, 'trace bars').each(function(cd) {
var plotGroup = cd[0].node3 = d3.select(this);
var pointGroup = Lib.ensureSingle(plotGroup, 'g', 'points');
var bars = pointGroup.selectAll('g.point').data(Lib.identity);
bars.enter().append('g')
.style('vector-effect', 'non-scaling-stroke')
.style('stroke-miterlimit', 2)
.classed('point', true);
bars.exit().remove();
bars.each(function(di) {
var bar = d3.select(this);
var rp0 = di.rp0 = radialAxis.c2p(di.s0);
var rp1 = di.rp1 = radialAxis.c2p(di.s1);
var thetag0 = di.thetag0 = angularAxis.c2g(di.p0);
var thetag1 = di.thetag1 = angularAxis.c2g(di.p1);
var dPath;
if(!isNumeric(rp0) || !isNumeric(rp1) ||
!isNumeric(thetag0) || !isNumeric(thetag1) ||
rp0 === rp1 || thetag0 === thetag1
) {
// do not remove blank bars, to keep data-to-node
// mapping intact during radial drag, that we
// can skip calling _module.style during interactions
dPath = 'M0,0Z';
} else {
// this 'center' pt is used for selections and hover labels
var rg1 = radialAxis.c2g(di.s1);
var thetagMid = (thetag0 + thetag1) / 2;
di.ct = [
xa.c2p(rg1 * Math.cos(thetagMid)),
ya.c2p(rg1 * Math.sin(thetagMid))
];
dPath = pathFn(rp0, rp1, thetag0, thetag1);
}
Lib.ensureSingle(bar, 'path').attr('d', dPath);
});
// clip plotGroup, when trace layer isn't clipped
Drawing.setClipUrl(plotGroup, subplot._hasClipOnAxisFalse ? subplot.clipIds.forTraces : null);
});
};
function makePathFn(subplot) {
var cxx = subplot.cxx;
var cyy = subplot.cyy;
if(subplot.vangles) {
return function(r0, r1, _a0, _a1) {
var a0, a1;
if(Lib.angleDelta(_a0, _a1) > 0) {
a0 = _a0;
a1 = _a1;
} else {
a0 = _a1;
a1 = _a0;
}
var va0 = helpers.findEnclosingVertexAngles(a0, subplot.vangles)[0];
var va1 = helpers.findEnclosingVertexAngles(a1, subplot.vangles)[1];
var vaBar = [va0, (a0 + a1) / 2, va1];
return helpers.pathPolygonAnnulus(r0, r1, a0, a1, vaBar, cxx, cyy);
};
}
return function(r0, r1, a0, a1) {
return Lib.pathAnnulus(r0, r1, a0, a1, cxx, cyy);
};
}
},{"../../components/drawing":592,"../../lib":693,"../../plots/polar/helpers":807,"d3":147,"fast-isnumeric":213}],856:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var scatterAttrs = _dereq_('../scatter/attributes');
var colorAttrs = _dereq_('../../components/color/attributes');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var scatterMarkerAttrs = scatterAttrs.marker;
var scatterMarkerLineAttrs = scatterMarkerAttrs.line;
module.exports = {
y: {
valType: 'data_array',
editType: 'calc+clearAxisTypes',
},
x: {
valType: 'data_array',
editType: 'calc+clearAxisTypes',
},
x0: {
valType: 'any',
editType: 'calc+clearAxisTypes',
},
y0: {
valType: 'any',
editType: 'calc+clearAxisTypes',
},
name: {
valType: 'string',
editType: 'calc+clearAxisTypes',
},
text: extendFlat({}, scatterAttrs.text, {
}),
whiskerwidth: {
valType: 'number',
min: 0,
max: 1,
dflt: 0.5,
editType: 'calc',
},
notched: {
valType: 'boolean',
editType: 'calc',
},
notchwidth: {
valType: 'number',
min: 0,
max: 0.5,
dflt: 0.25,
editType: 'calc',
},
boxpoints: {
valType: 'enumerated',
values: ['all', 'outliers', 'suspectedoutliers', false],
dflt: 'outliers',
editType: 'calc',
},
boxmean: {
valType: 'enumerated',
values: [true, 'sd', false],
dflt: false,
editType: 'calc',
},
jitter: {
valType: 'number',
min: 0,
max: 1,
editType: 'calc',
},
pointpos: {
valType: 'number',
min: -2,
max: 2,
editType: 'calc',
},
orientation: {
valType: 'enumerated',
values: ['v', 'h'],
editType: 'calc+clearAxisTypes',
},
marker: {
outliercolor: {
valType: 'color',
dflt: 'rgba(0, 0, 0, 0)',
editType: 'style',
},
symbol: extendFlat({}, scatterMarkerAttrs.symbol,
{arrayOk: false, editType: 'plot'}),
opacity: extendFlat({}, scatterMarkerAttrs.opacity,
{arrayOk: false, dflt: 1, editType: 'style'}),
size: extendFlat({}, scatterMarkerAttrs.size,
{arrayOk: false, editType: 'calc'}),
color: extendFlat({}, scatterMarkerAttrs.color,
{arrayOk: false, editType: 'style'}),
line: {
color: extendFlat({}, scatterMarkerLineAttrs.color,
{arrayOk: false, dflt: colorAttrs.defaultLine, editType: 'style'}
),
width: extendFlat({}, scatterMarkerLineAttrs.width,
{arrayOk: false, dflt: 0, editType: 'style'}
),
outliercolor: {
valType: 'color',
editType: 'style',
},
outlierwidth: {
valType: 'number',
min: 0,
dflt: 1,
editType: 'style',
},
editType: 'style'
},
editType: 'plot'
},
line: {
color: {
valType: 'color',
editType: 'style',
},
width: {
valType: 'number',
min: 0,
dflt: 2,
editType: 'style',
},
editType: 'plot'
},
fillcolor: scatterAttrs.fillcolor,
selected: {
marker: scatterAttrs.selected.marker,
editType: 'style'
},
unselected: {
marker: scatterAttrs.unselected.marker,
editType: 'style'
},
hoveron: {
valType: 'flaglist',
flags: ['boxes', 'points'],
dflt: 'boxes+points',
editType: 'style',
}
};
},{"../../components/color/attributes":566,"../../lib/extend":682,"../scatter/attributes":1032}],857:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var Lib = _dereq_('../../lib');
var _ = Lib._;
var Axes = _dereq_('../../plots/cartesian/axes');
// outlier definition based on http://www.physics.csbsju.edu/stats/box2.html
module.exports = function calc(gd, trace) {
var fullLayout = gd._fullLayout;
var xa = Axes.getFromId(gd, trace.xaxis || 'x');
var ya = Axes.getFromId(gd, trace.yaxis || 'y');
var cd = [];
// N.B. violin reuses same Box.calc
var numKey = trace.type === 'violin' ? '_numViolins' : '_numBoxes';
var i;
var valAxis, valLetter;
var posAxis, posLetter;
if(trace.orientation === 'h') {
valAxis = xa;
valLetter = 'x';
posAxis = ya;
posLetter = 'y';
} else {
valAxis = ya;
valLetter = 'y';
posAxis = xa;
posLetter = 'x';
}
var val = valAxis.makeCalcdata(trace, valLetter);
var pos = getPos(trace, posLetter, posAxis, val, fullLayout[numKey]);
var dv = Lib.distinctVals(pos);
var posDistinct = dv.vals;
var dPos = dv.minDiff / 2;
var posBins = makeBins(posDistinct, dPos);
var pLen = posDistinct.length;
var ptsPerBin = initNestedArray(pLen);
// bin pts info per position bins
for(i = 0; i < trace._length; i++) {
var v = val[i];
if(!isNumeric(v)) continue;
var n = Lib.findBin(pos[i], posBins);
if(n >= 0 && n < pLen) {
var pt = {v: v, i: i};
arraysToCalcdata(pt, trace, i);
ptsPerBin[n].push(pt);
}
}
// build calcdata trace items, one item per distinct position
for(i = 0; i < pLen; i++) {
if(ptsPerBin[i].length > 0) {
var pts = ptsPerBin[i].sort(sortByVal);
var boxVals = pts.map(extractVal);
var bvLen = boxVals.length;
var cdi = {
pos: posDistinct[i],
pts: pts
};
cdi.min = boxVals[0];
cdi.max = boxVals[bvLen - 1];
cdi.mean = Lib.mean(boxVals, bvLen);
cdi.sd = Lib.stdev(boxVals, bvLen, cdi.mean);
// first quartile
cdi.q1 = Lib.interp(boxVals, 0.25);
// median
cdi.med = Lib.interp(boxVals, 0.5);
// third quartile
cdi.q3 = Lib.interp(boxVals, 0.75);
// lower and upper fences - last point inside
// 1.5 interquartile ranges from quartiles
cdi.lf = Math.min(
cdi.q1,
boxVals[Math.min(
Lib.findBin(2.5 * cdi.q1 - 1.5 * cdi.q3, boxVals, true) + 1,
bvLen - 1
)]
);
cdi.uf = Math.max(
cdi.q3,
boxVals[Math.max(
Lib.findBin(2.5 * cdi.q3 - 1.5 * cdi.q1, boxVals),
0
)]
);
// lower and upper outliers - 3 IQR out (don't clip to max/min,
// this is only for discriminating suspected & far outliers)
cdi.lo = 4 * cdi.q1 - 3 * cdi.q3;
cdi.uo = 4 * cdi.q3 - 3 * cdi.q1;
// lower and upper notches ~95% Confidence Intervals for median
var iqr = cdi.q3 - cdi.q1;
var mci = 1.57 * iqr / Math.sqrt(bvLen);
cdi.ln = cdi.med - mci;
cdi.un = cdi.med + mci;
cd.push(cdi);
}
}
calcSelection(cd, trace);
var extremes = Axes.findExtremes(valAxis, val, {padded: true});
trace._extremes[valAxis._id] = extremes;
if(cd.length > 0) {
cd[0].t = {
num: fullLayout[numKey],
dPos: dPos,
posLetter: posLetter,
valLetter: valLetter,
labels: {
med: _(gd, 'median:'),
min: _(gd, 'min:'),
q1: _(gd, 'q1:'),
q3: _(gd, 'q3:'),
max: _(gd, 'max:'),
mean: trace.boxmean === 'sd' ? _(gd, 'mean ± σ:') : _(gd, 'mean:'),
lf: _(gd, 'lower fence:'),
uf: _(gd, 'upper fence:')
}
};
fullLayout[numKey]++;
return cd;
} else {
return [{t: {empty: true}}];
}
};
// In vertical (horizontal) box plots:
// if no x (y) data, use x0 (y0), or name
// so if you want one box
// per trace, set x0 (y0) to the x (y) value or category for this trace
// (or set x (y) to a constant array matching y (x))
function getPos(trace, posLetter, posAxis, val, num) {
if(posLetter in trace) {
return posAxis.makeCalcdata(trace, posLetter);
}
var pos0;
if(posLetter + '0' in trace) {
pos0 = trace[posLetter + '0'];
} else if('name' in trace && (
posAxis.type === 'category' || (
isNumeric(trace.name) &&
['linear', 'log'].indexOf(posAxis.type) !== -1
) || (
Lib.isDateTime(trace.name) &&
posAxis.type === 'date'
)
)) {
pos0 = trace.name;
} else {
pos0 = num;
}
var pos0c = posAxis.d2c(pos0, 0, trace[posLetter + 'calendar']);
return val.map(function() { return pos0c; });
}
function makeBins(x, dx) {
var len = x.length;
var bins = new Array(len + 1);
for(var i = 0; i < len; i++) {
bins[i] = x[i] - dx;
}
bins[len] = x[len - 1] + dx;
return bins;
}
function initNestedArray(len) {
var arr = new Array(len);
for(var i = 0; i < len; i++) {
arr[i] = [];
}
return arr;
}
function arraysToCalcdata(pt, trace, i) {
var trace2calc = {
text: 'tx'
};
for(var k in trace2calc) {
if(Array.isArray(trace[k])) {
pt[trace2calc[k]] = trace[k][i];
}
}
}
function calcSelection(cd, trace) {
if(Lib.isArrayOrTypedArray(trace.selectedpoints)) {
for(var i = 0; i < cd.length; i++) {
var pts = cd[i].pts || [];
var ptNumber2cdIndex = {};
for(var j = 0; j < pts.length; j++) {
ptNumber2cdIndex[pts[j].i] = j;
}
Lib.tagSelected(pts, trace, ptNumber2cdIndex);
}
}
}
function sortByVal(a, b) { return a.v - b.v; }
function extractVal(o) { return o.v; }
},{"../../lib":693,"../../plots/cartesian/axes":742,"fast-isnumeric":213}],858:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Axes = _dereq_('../../plots/cartesian/axes');
var Lib = _dereq_('../../lib');
var orientations = ['v', 'h'];
function crossTraceCalc(gd, plotinfo) {
var calcdata = gd.calcdata;
var xa = plotinfo.xaxis;
var ya = plotinfo.yaxis;
for(var i = 0; i < orientations.length; i++) {
var orientation = orientations[i];
var posAxis = orientation === 'h' ? ya : xa;
var boxList = [];
var minPad = 0;
var maxPad = 0;
// make list of boxes / candlesticks
// For backward compatibility, candlesticks are treated as if they *are* box traces here
for(var j = 0; j < calcdata.length; j++) {
var cd = calcdata[j];
var t = cd[0].t;
var trace = cd[0].trace;
if(trace.visible === true &&
(trace.type === 'box' || trace.type === 'candlestick') &&
!t.empty &&
(trace.orientation || 'v') === orientation &&
trace.xaxis === xa._id &&
trace.yaxis === ya._id
) {
boxList.push(j);
if(trace.boxpoints) {
minPad = Math.max(minPad, trace.jitter - trace.pointpos - 1);
maxPad = Math.max(maxPad, trace.jitter + trace.pointpos - 1);
}
}
}
setPositionOffset('box', gd, boxList, posAxis, [minPad, maxPad]);
}
}
function setPositionOffset(traceType, gd, boxList, posAxis, pad) {
var calcdata = gd.calcdata;
var fullLayout = gd._fullLayout;
var pointList = [];
// N.B. reused in violin
var numKey = traceType === 'violin' ? '_numViolins' : '_numBoxes';
var i, j, calcTrace;
// make list of box points
for(i = 0; i < boxList.length; i++) {
calcTrace = calcdata[boxList[i]];
for(j = 0; j < calcTrace.length; j++) {
pointList.push(calcTrace[j].pos);
}
}
if(!pointList.length) return;
// box plots - update dPos based on multiple traces
// and then use for posAxis autorange
var boxdv = Lib.distinctVals(pointList);
var dPos = boxdv.minDiff / 2;
// if there's no duplication of x points,
// disable 'group' mode by setting counter to 1
if(pointList.length === boxdv.vals.length) {
fullLayout[numKey] = 1;
}
// check for forced minimum dtick
Axes.minDtick(posAxis, boxdv.minDiff, boxdv.vals[0], true);
var gap = fullLayout[traceType + 'gap'];
var groupgap = fullLayout[traceType + 'groupgap'];
var padfactor = (1 - gap) * (1 - groupgap) * dPos / fullLayout[numKey];
// autoscale the x axis - including space for points if they're off the side
// TODO: this will overdo it if the outermost boxes don't have
// their points as far out as the other boxes
var extremes = Axes.findExtremes(posAxis, boxdv.vals, {
vpadminus: dPos + pad[0] * padfactor,
vpadplus: dPos + pad[1] * padfactor
});
for(i = 0; i < boxList.length; i++) {
calcTrace = calcdata[boxList[i]];
// set the width of all boxes
calcTrace[0].t.dPos = dPos;
// link extremes to all boxes
calcTrace[0].trace._extremes[posAxis._id] = extremes;
}
}
module.exports = {
crossTraceCalc: crossTraceCalc,
setPositionOffset: setPositionOffset
};
},{"../../lib":693,"../../plots/cartesian/axes":742}],859:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Registry = _dereq_('../../registry');
var Color = _dereq_('../../components/color');
var attributes = _dereq_('./attributes');
function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
handleSampleDefaults(traceIn, traceOut, coerce, layout);
if(traceOut.visible === false) return;
coerce('line.color', (traceIn.marker || {}).color || defaultColor);
coerce('line.width');
coerce('fillcolor', Color.addOpacity(traceOut.line.color, 0.5));
coerce('whiskerwidth');
coerce('boxmean');
var notched = coerce('notched', traceIn.notchwidth !== undefined);
if(notched) coerce('notchwidth');
handlePointsDefaults(traceIn, traceOut, coerce, {prefix: 'box'});
}
function handleSampleDefaults(traceIn, traceOut, coerce, layout) {
var y = coerce('y');
var x = coerce('x');
var hasX = x && x.length;
var defaultOrientation, len;
if(y && y.length) {
defaultOrientation = 'v';
if(hasX) {
len = Math.min(x.length, y.length);
}
else {
coerce('x0');
len = y.length;
}
} else if(hasX) {
defaultOrientation = 'h';
coerce('y0');
len = x.length;
} else {
traceOut.visible = false;
return;
}
traceOut._length = len;
var handleCalendarDefaults = Registry.getComponentMethod('calendars', 'handleTraceDefaults');
handleCalendarDefaults(traceIn, traceOut, ['x', 'y'], layout);
coerce('orientation', defaultOrientation);
}
function handlePointsDefaults(traceIn, traceOut, coerce, opts) {
var prefix = opts.prefix;
var outlierColorDflt = Lib.coerce2(traceIn, traceOut, attributes, 'marker.outliercolor');
var lineoutliercolor = coerce('marker.line.outliercolor');
var points = coerce(
prefix + 'points',
(outlierColorDflt || lineoutliercolor) ? 'suspectedoutliers' : undefined
);
if(points) {
coerce('jitter', points === 'all' ? 0.3 : 0);
coerce('pointpos', points === 'all' ? -1.5 : 0);
coerce('marker.symbol');
coerce('marker.opacity');
coerce('marker.size');
coerce('marker.color', traceOut.line.color);
coerce('marker.line.color');
coerce('marker.line.width');
if(points === 'suspectedoutliers') {
coerce('marker.line.outliercolor', traceOut.marker.color);
coerce('marker.line.outlierwidth');
}
coerce('selected.marker.color');
coerce('unselected.marker.color');
coerce('selected.marker.size');
coerce('unselected.marker.size');
coerce('text');
} else {
delete traceOut.marker;
}
coerce('hoveron');
Lib.coerceSelectionMarkerOpacity(traceOut, coerce);
}
module.exports = {
supplyDefaults: supplyDefaults,
handleSampleDefaults: handleSampleDefaults,
handlePointsDefaults: handlePointsDefaults
};
},{"../../components/color":567,"../../lib":693,"../../registry":825,"./attributes":856}],860:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function eventData(out, pt) {
// Note: hoverOnBox property is needed for click-to-select
// to ignore when a box was clicked. This is the reason box
// implements this custom eventData function.
if(pt.hoverOnBox) out.hoverOnBox = pt.hoverOnBox;
if('xVal' in pt) out.x = pt.xVal;
if('yVal' in pt) out.y = pt.yVal;
if(pt.xa) out.xaxis = pt.xa;
if(pt.ya) out.yaxis = pt.ya;
return out;
};
},{}],861:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Axes = _dereq_('../../plots/cartesian/axes');
var Lib = _dereq_('../../lib');
var Fx = _dereq_('../../components/fx');
var Color = _dereq_('../../components/color');
var fillHoverText = _dereq_('../scatter/fill_hover_text');
function hoverPoints(pointData, xval, yval, hovermode) {
var cd = pointData.cd;
var trace = cd[0].trace;
var hoveron = trace.hoveron;
var closeBoxData = [];
var closePtData;
if(hoveron.indexOf('boxes') !== -1) {
closeBoxData = closeBoxData.concat(hoverOnBoxes(pointData, xval, yval, hovermode));
}
if(hoveron.indexOf('points') !== -1) {
closePtData = hoverOnPoints(pointData, xval, yval);
}
// If there's a point in range and hoveron has points, show the best single point only.
// If hoveron has boxes and there's no point in range (or hoveron doesn't have points), show the box stats.
if(hovermode === 'closest') {
if(closePtData) return [closePtData];
return closeBoxData;
}
// Otherwise in compare mode, allow a point AND the box stats to be labeled
// If there are multiple boxes in range (ie boxmode = 'overlay') we'll see stats for all of them.
if(closePtData) {
closeBoxData.push(closePtData);
return closeBoxData;
}
return closeBoxData;
}
function hoverOnBoxes(pointData, xval, yval, hovermode) {
var cd = pointData.cd;
var xa = pointData.xa;
var ya = pointData.ya;
var trace = cd[0].trace;
var t = cd[0].t;
var isViolin = trace.type === 'violin';
var closeBoxData = [];
var pLetter, vLetter, pAxis, vAxis, vVal, pVal, dx, dy, dPos,
hoverPseudoDistance, spikePseudoDistance;
var boxDelta = t.bdPos;
var posAcceptance = t.wHover;
var shiftPos = function(di) { return di.pos + t.bPos - pVal; };
if(isViolin && trace.side !== 'both') {
if(trace.side === 'positive') {
dPos = function(di) {
var pos = shiftPos(di);
return Fx.inbox(pos, pos + posAcceptance, hoverPseudoDistance);
};
}
if(trace.side === 'negative') {
dPos = function(di) {
var pos = shiftPos(di);
return Fx.inbox(pos - posAcceptance, pos, hoverPseudoDistance);
};
}
} else {
dPos = function(di) {
var pos = shiftPos(di);
return Fx.inbox(pos - posAcceptance, pos + posAcceptance, hoverPseudoDistance);
};
}
var dVal;
if(isViolin) {
dVal = function(di) {
return Fx.inbox(di.span[0] - vVal, di.span[1] - vVal, hoverPseudoDistance);
};
} else {
dVal = function(di) {
return Fx.inbox(di.min - vVal, di.max - vVal, hoverPseudoDistance);
};
}
if(trace.orientation === 'h') {
vVal = xval;
pVal = yval;
dx = dVal;
dy = dPos;
pLetter = 'y';
pAxis = ya;
vLetter = 'x';
vAxis = xa;
} else {
vVal = yval;
pVal = xval;
dx = dPos;
dy = dVal;
pLetter = 'x';
pAxis = xa;
vLetter = 'y';
vAxis = ya;
}
// if two boxes are overlaying, let the narrowest one win
var pseudoDistance = Math.min(1, boxDelta / Math.abs(pAxis.r2c(pAxis.range[1]) - pAxis.r2c(pAxis.range[0])));
hoverPseudoDistance = pointData.maxHoverDistance - pseudoDistance;
spikePseudoDistance = pointData.maxSpikeDistance - pseudoDistance;
function dxy(di) { return (dx(di) + dy(di)) / 2; }
var distfn = Fx.getDistanceFunction(hovermode, dx, dy, dxy);
Fx.getClosest(cd, distfn, pointData);
// skip the rest (for this trace) if we didn't find a close point
// and create the item(s) in closedata for this point
if(pointData.index === false) return [];
var di = cd[pointData.index];
var lc = trace.line.color;
var mc = (trace.marker || {}).color;
if(Color.opacity(lc) && trace.line.width) pointData.color = lc;
else if(Color.opacity(mc) && trace.boxpoints) pointData.color = mc;
else pointData.color = trace.fillcolor;
pointData[pLetter + '0'] = pAxis.c2p(di.pos + t.bPos - boxDelta, true);
pointData[pLetter + '1'] = pAxis.c2p(di.pos + t.bPos + boxDelta, true);
pointData[pLetter + 'LabelVal'] = di.pos;
var spikePosAttr = pLetter + 'Spike';
pointData.spikeDistance = dxy(di) * spikePseudoDistance / hoverPseudoDistance;
pointData[spikePosAttr] = pAxis.c2p(di.pos, true);
// box plots: each "point" gets many labels
var usedVals = {};
var attrs = ['med', 'min', 'q1', 'q3', 'max'];
if(trace.boxmean || (trace.meanline || {}).visible) {
attrs.push('mean');
}
if(trace.boxpoints || trace.points) {
attrs.push('lf', 'uf');
}
for(var i = 0; i < attrs.length; i++) {
var attr = attrs[i];
if(!(attr in di) || (di[attr] in usedVals)) continue;
usedVals[di[attr]] = true;
// copy out to a new object for each value to label
var val = di[attr];
var valPx = vAxis.c2p(val, true);
var pointData2 = Lib.extendFlat({}, pointData);
pointData2[vLetter + '0'] = pointData2[vLetter + '1'] = valPx;
pointData2[vLetter + 'LabelVal'] = val;
pointData2[vLetter + 'Label'] = (t.labels ? t.labels[attr] + ' ' : '') + Axes.hoverLabelText(vAxis, val);
// Note: introduced to be able to distinguish a
// clicked point from a box during click-to-select
pointData2.hoverOnBox = true;
if(attr === 'mean' && ('sd' in di) && trace.boxmean === 'sd') {
pointData2[vLetter + 'err'] = di.sd;
}
// only keep name and spikes on the first item (median)
pointData.name = '';
pointData.spikeDistance = undefined;
pointData[spikePosAttr] = undefined;
closeBoxData.push(pointData2);
}
return closeBoxData;
}
function hoverOnPoints(pointData, xval, yval) {
var cd = pointData.cd;
var xa = pointData.xa;
var ya = pointData.ya;
var trace = cd[0].trace;
var xPx = xa.c2p(xval);
var yPx = ya.c2p(yval);
var closePtData;
var dx = function(di) {
var rad = Math.max(3, di.mrc || 0);
return Math.max(Math.abs(xa.c2p(di.x) - xPx) - rad, 1 - 3 / rad);
};
var dy = function(di) {
var rad = Math.max(3, di.mrc || 0);
return Math.max(Math.abs(ya.c2p(di.y) - yPx) - rad, 1 - 3 / rad);
};
var distfn = Fx.quadrature(dx, dy);
// show one point per trace
var ijClosest = false;
var di, pt;
for(var i = 0; i < cd.length; i++) {
di = cd[i];
for(var j = 0; j < (di.pts || []).length; j++) {
pt = di.pts[j];
var newDistance = distfn(pt);
if(newDistance <= pointData.distance) {
pointData.distance = newDistance;
ijClosest = [i, j];
}
}
}
if(!ijClosest) return false;
di = cd[ijClosest[0]];
pt = di.pts[ijClosest[1]];
var xc = xa.c2p(pt.x, true);
var yc = ya.c2p(pt.y, true);
var rad = pt.mrc || 1;
closePtData = Lib.extendFlat({}, pointData, {
// corresponds to index in x/y input data array
index: pt.i,
color: (trace.marker || {}).color,
name: trace.name,
x0: xc - rad,
x1: xc + rad,
xLabelVal: pt.x,
y0: yc - rad,
y1: yc + rad,
yLabelVal: pt.y,
spikeDistance: pointData.distance
});
var pLetter = trace.orientation === 'h' ? 'y' : 'x';
var pa = trace.orientation === 'h' ? ya : xa;
closePtData[pLetter + 'Spike'] = pa.c2p(di.pos, true);
fillHoverText(pt, trace, closePtData);
return closePtData;
}
module.exports = {
hoverPoints: hoverPoints,
hoverOnBoxes: hoverOnBoxes,
hoverOnPoints: hoverOnPoints
};
},{"../../components/color":567,"../../components/fx":609,"../../lib":693,"../../plots/cartesian/axes":742,"../scatter/fill_hover_text":1040}],862:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Box = {};
Box.attributes = _dereq_('./attributes');
Box.layoutAttributes = _dereq_('./layout_attributes');
Box.supplyDefaults = _dereq_('./defaults').supplyDefaults;
Box.supplyLayoutDefaults = _dereq_('./layout_defaults').supplyLayoutDefaults;
Box.calc = _dereq_('./calc');
Box.crossTraceCalc = _dereq_('./cross_trace_calc').crossTraceCalc;
Box.plot = _dereq_('./plot').plot;
Box.style = _dereq_('./style').style;
Box.styleOnSelect = _dereq_('./style').styleOnSelect;
Box.hoverPoints = _dereq_('./hover').hoverPoints;
Box.eventData = _dereq_('./event_data');
Box.selectPoints = _dereq_('./select');
Box.moduleType = 'trace';
Box.name = 'box';
Box.basePlotModule = _dereq_('../../plots/cartesian');
Box.categories = ['cartesian', 'svg', 'symbols', 'oriented', 'box-violin', 'showLegend', 'boxLayout', 'zoomScale'];
Box.meta = {
};
module.exports = Box;
},{"../../plots/cartesian":753,"./attributes":856,"./calc":857,"./cross_trace_calc":858,"./defaults":859,"./event_data":860,"./hover":861,"./layout_attributes":863,"./layout_defaults":864,"./plot":865,"./select":866,"./style":867}],863:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
boxmode: {
valType: 'enumerated',
values: ['group', 'overlay'],
dflt: 'overlay',
editType: 'calc',
},
boxgap: {
valType: 'number',
min: 0,
max: 1,
dflt: 0.3,
editType: 'calc',
},
boxgroupgap: {
valType: 'number',
min: 0,
max: 1,
dflt: 0.3,
editType: 'calc',
}
};
},{}],864:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var layoutAttributes = _dereq_('./layout_attributes');
function _supply(layoutIn, layoutOut, fullData, coerce, traceType) {
var hasTraceType;
var category = traceType + 'Layout';
for(var i = 0; i < fullData.length; i++) {
if(Registry.traceIs(fullData[i], category)) {
hasTraceType = true;
break;
}
}
if(!hasTraceType) return;
coerce(traceType + 'mode');
coerce(traceType + 'gap');
coerce(traceType + 'groupgap');
}
function supplyLayoutDefaults(layoutIn, layoutOut, fullData) {
function coerce(attr, dflt) {
return Lib.coerce(layoutIn, layoutOut, layoutAttributes, attr, dflt);
}
_supply(layoutIn, layoutOut, fullData, coerce, 'box');
}
module.exports = {
supplyLayoutDefaults: supplyLayoutDefaults,
_supply: _supply
};
},{"../../lib":693,"../../registry":825,"./layout_attributes":863}],865:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Lib = _dereq_('../../lib');
var Drawing = _dereq_('../../components/drawing');
// constants for dynamic jitter (ie less jitter for sparser points)
var JITTERCOUNT = 5; // points either side of this to include
var JITTERSPREAD = 0.01; // fraction of IQR to count as "dense"
function plot(gd, plotinfo, cdbox, boxLayer) {
var fullLayout = gd._fullLayout;
var xa = plotinfo.xaxis;
var ya = plotinfo.yaxis;
var numBoxes = fullLayout._numBoxes;
var groupFraction = (1 - fullLayout.boxgap);
var group = (fullLayout.boxmode === 'group' && numBoxes > 1);
Lib.makeTraceGroups(boxLayer, cdbox, 'trace boxes').each(function(cd) {
var plotGroup = d3.select(this);
var cd0 = cd[0];
var t = cd0.t;
var trace = cd0.trace;
if(!plotinfo.isRangePlot) cd0.node3 = plotGroup;
// box half width
var bdPos = t.dPos * groupFraction * (1 - fullLayout.boxgroupgap) / (group ? numBoxes : 1);
// box center offset
var bPos = group ? 2 * t.dPos * (-0.5 + (t.num + 0.5) / numBoxes) * groupFraction : 0;
// whisker width
var wdPos = bdPos * trace.whiskerwidth;
if(trace.visible !== true || t.empty) {
plotGroup.remove();
return;
}
var posAxis, valAxis;
if(trace.orientation === 'h') {
posAxis = ya;
valAxis = xa;
} else {
posAxis = xa;
valAxis = ya;
}
// save the box size and box position for use by hover
t.bPos = bPos;
t.bdPos = bdPos;
t.wdPos = wdPos;
// half-width within which to accept hover for this box
// always split the distance to the closest box
t.wHover = t.dPos * (group ? groupFraction / numBoxes : 1);
plotBoxAndWhiskers(plotGroup, {pos: posAxis, val: valAxis}, trace, t);
plotPoints(plotGroup, {x: xa, y: ya}, trace, t);
plotBoxMean(plotGroup, {pos: posAxis, val: valAxis}, trace, t);
});
}
function plotBoxAndWhiskers(sel, axes, trace, t) {
var posAxis = axes.pos;
var valAxis = axes.val;
var bPos = t.bPos;
var wdPos = t.wdPos || 0;
var bPosPxOffset = t.bPosPxOffset || 0;
var whiskerWidth = trace.whiskerwidth || 0;
var notched = trace.notched || false;
var nw = notched ? 1 - 2 * trace.notchwidth : 1;
// to support for one-sided box
var bdPos0;
var bdPos1;
if(Array.isArray(t.bdPos)) {
bdPos0 = t.bdPos[0];
bdPos1 = t.bdPos[1];
} else {
bdPos0 = t.bdPos;
bdPos1 = t.bdPos;
}
var paths = sel.selectAll('path.box').data((
trace.type !== 'violin' ||
trace.box.visible
) ? Lib.identity : []);
paths.enter().append('path')
.style('vector-effect', 'non-scaling-stroke')
.attr('class', 'box');
paths.exit().remove();
paths.each(function(d) {
var pos = d.pos;
var posc = posAxis.c2p(pos + bPos, true) + bPosPxOffset;
var pos0 = posAxis.c2p(pos + bPos - bdPos0, true) + bPosPxOffset;
var pos1 = posAxis.c2p(pos + bPos + bdPos1, true) + bPosPxOffset;
var posw0 = posAxis.c2p(pos + bPos - wdPos, true) + bPosPxOffset;
var posw1 = posAxis.c2p(pos + bPos + wdPos, true) + bPosPxOffset;
var posm0 = posAxis.c2p(pos + bPos - bdPos0 * nw, true) + bPosPxOffset;
var posm1 = posAxis.c2p(pos + bPos + bdPos1 * nw, true) + bPosPxOffset;
var q1 = valAxis.c2p(d.q1, true);
var q3 = valAxis.c2p(d.q3, true);
// make sure median isn't identical to either of the
// quartiles, so we can see it
var m = Lib.constrain(
valAxis.c2p(d.med, true),
Math.min(q1, q3) + 1, Math.max(q1, q3) - 1
);
// for compatibility with box, violin, and candlestick
// perhaps we should put this into cd0.t instead so it's more explicit,
// but what we have now is:
// - box always has d.lf, but boxpoints can be anything
// - violin has d.lf and should always use it (boxpoints is undefined)
// - candlestick has only min/max
var useExtremes = (d.lf === undefined) || (trace.boxpoints === false);
var lf = valAxis.c2p(useExtremes ? d.min : d.lf, true);
var uf = valAxis.c2p(useExtremes ? d.max : d.uf, true);
var ln = valAxis.c2p(d.ln, true);
var un = valAxis.c2p(d.un, true);
if(trace.orientation === 'h') {
d3.select(this).attr('d',
'M' + m + ',' + posm0 + 'V' + posm1 + // median line
'M' + q1 + ',' + pos0 + 'V' + pos1 + // left edge
(notched ? 'H' + ln + 'L' + m + ',' + posm1 + 'L' + un + ',' + pos1 : '') + // top notched edge
'H' + q3 + // end of the top edge
'V' + pos0 + // right edge
(notched ? 'H' + un + 'L' + m + ',' + posm0 + 'L' + ln + ',' + pos0 : '') + // bottom notched edge
'Z' + // end of the box
'M' + q1 + ',' + posc + 'H' + lf + 'M' + q3 + ',' + posc + 'H' + uf + // whiskers
((whiskerWidth === 0) ? '' : // whisker caps
'M' + lf + ',' + posw0 + 'V' + posw1 + 'M' + uf + ',' + posw0 + 'V' + posw1));
} else {
d3.select(this).attr('d',
'M' + posm0 + ',' + m + 'H' + posm1 + // median line
'M' + pos0 + ',' + q1 + 'H' + pos1 + // top of the box
(notched ? 'V' + ln + 'L' + posm1 + ',' + m + 'L' + pos1 + ',' + un : '') + // notched right edge
'V' + q3 + // end of the right edge
'H' + pos0 + // bottom of the box
(notched ? 'V' + un + 'L' + posm0 + ',' + m + 'L' + pos0 + ',' + ln : '') + // notched left edge
'Z' + // end of the box
'M' + posc + ',' + q1 + 'V' + lf + 'M' + posc + ',' + q3 + 'V' + uf + // whiskers
((whiskerWidth === 0) ? '' : // whisker caps
'M' + posw0 + ',' + lf + 'H' + posw1 + 'M' + posw0 + ',' + uf + 'H' + posw1));
}
});
}
function plotPoints(sel, axes, trace, t) {
var xa = axes.x;
var ya = axes.y;
var bdPos = t.bdPos;
var bPos = t.bPos;
// to support violin points
var mode = trace.boxpoints || trace.points;
// repeatable pseudo-random number generator
Lib.seedPseudoRandom();
// since box plot points get an extra level of nesting, each
// box needs the trace styling info
var fn = function(d) {
d.forEach(function(v) {
v.t = t;
v.trace = trace;
});
return d;
};
var gPoints = sel.selectAll('g.points')
.data(mode ? fn : []);
gPoints.enter().append('g')
.attr('class', 'points');
gPoints.exit().remove();
var paths = gPoints.selectAll('path')
.data(function(d) {
var i;
var pts = mode === 'all' ?
d.pts :
d.pts.filter(function(pt) { return (pt.v < d.lf || pt.v > d.uf); });
// normally use IQR, but if this is 0 or too small, use max-min
var typicalSpread = Math.max((d.max - d.min) / 10, d.q3 - d.q1);
var minSpread = typicalSpread * 1e-9;
var spreadLimit = typicalSpread * JITTERSPREAD;
var jitterFactors = [];
var maxJitterFactor = 0;
var newJitter;
// dynamic jitter
if(trace.jitter) {
if(typicalSpread === 0) {
// edge case of no spread at all: fall back to max jitter
maxJitterFactor = 1;
jitterFactors = new Array(pts.length);
for(i = 0; i < pts.length; i++) {
jitterFactors[i] = 1;
}
} else {
for(i = 0; i < pts.length; i++) {
var i0 = Math.max(0, i - JITTERCOUNT);
var pmin = pts[i0].v;
var i1 = Math.min(pts.length - 1, i + JITTERCOUNT);
var pmax = pts[i1].v;
if(mode !== 'all') {
if(pts[i].v < d.lf) pmax = Math.min(pmax, d.lf);
else pmin = Math.max(pmin, d.uf);
}
var jitterFactor = Math.sqrt(spreadLimit * (i1 - i0) / (pmax - pmin + minSpread)) || 0;
jitterFactor = Lib.constrain(Math.abs(jitterFactor), 0, 1);
jitterFactors.push(jitterFactor);
maxJitterFactor = Math.max(jitterFactor, maxJitterFactor);
}
}
newJitter = trace.jitter * 2 / (maxJitterFactor || 1);
}
// fills in 'x' and 'y' in calcdata 'pts' item
for(i = 0; i < pts.length; i++) {
var pt = pts[i];
var v = pt.v;
var jitterOffset = trace.jitter ?
(newJitter * jitterFactors[i] * (Lib.pseudoRandom() - 0.5)) :
0;
var posPx = d.pos + bPos + bdPos * (trace.pointpos + jitterOffset);
if(trace.orientation === 'h') {
pt.y = posPx;
pt.x = v;
} else {
pt.x = posPx;
pt.y = v;
}
// tag suspected outliers
if(mode === 'suspectedoutliers' && v < d.uo && v > d.lo) {
pt.so = true;
}
}
return pts;
});
paths.enter().append('path')
.classed('point', true);
paths.exit().remove();
paths.call(Drawing.translatePoints, xa, ya);
}
function plotBoxMean(sel, axes, trace, t) {
var posAxis = axes.pos;
var valAxis = axes.val;
var bPos = t.bPos;
var bPosPxOffset = t.bPosPxOffset || 0;
// to support violin mean lines
var mode = trace.boxmean || (trace.meanline || {}).visible;
// to support for one-sided box
var bdPos0;
var bdPos1;
if(Array.isArray(t.bdPos)) {
bdPos0 = t.bdPos[0];
bdPos1 = t.bdPos[1];
} else {
bdPos0 = t.bdPos;
bdPos1 = t.bdPos;
}
var paths = sel.selectAll('path.mean').data((
(trace.type === 'box' && trace.boxmean) ||
(trace.type === 'violin' && trace.box.visible && trace.meanline.visible)
) ? Lib.identity : []);
paths.enter().append('path')
.attr('class', 'mean')
.style({
fill: 'none',
'vector-effect': 'non-scaling-stroke'
});
paths.exit().remove();
paths.each(function(d) {
var posc = posAxis.c2p(d.pos + bPos, true) + bPosPxOffset;
var pos0 = posAxis.c2p(d.pos + bPos - bdPos0, true) + bPosPxOffset;
var pos1 = posAxis.c2p(d.pos + bPos + bdPos1, true) + bPosPxOffset;
var m = valAxis.c2p(d.mean, true);
var sl = valAxis.c2p(d.mean - d.sd, true);
var sh = valAxis.c2p(d.mean + d.sd, true);
if(trace.orientation === 'h') {
d3.select(this).attr('d',
'M' + m + ',' + pos0 + 'V' + pos1 +
(mode === 'sd' ?
'm0,0L' + sl + ',' + posc + 'L' + m + ',' + pos0 + 'L' + sh + ',' + posc + 'Z' :
'')
);
} else {
d3.select(this).attr('d',
'M' + pos0 + ',' + m + 'H' + pos1 +
(mode === 'sd' ?
'm0,0L' + posc + ',' + sl + 'L' + pos0 + ',' + m + 'L' + posc + ',' + sh + 'Z' :
'')
);
}
});
}
module.exports = {
plot: plot,
plotBoxAndWhiskers: plotBoxAndWhiskers,
plotPoints: plotPoints,
plotBoxMean: plotBoxMean
};
},{"../../components/drawing":592,"../../lib":693,"d3":147}],866:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function selectPoints(searchInfo, selectionTester) {
var cd = searchInfo.cd;
var xa = searchInfo.xaxis;
var ya = searchInfo.yaxis;
var selection = [];
var i, j;
if(selectionTester === false) {
for(i = 0; i < cd.length; i++) {
for(j = 0; j < (cd[i].pts || []).length; j++) {
// clear selection
cd[i].pts[j].selected = 0;
}
}
} else {
for(i = 0; i < cd.length; i++) {
for(j = 0; j < (cd[i].pts || []).length; j++) {
var pt = cd[i].pts[j];
var x = xa.c2p(pt.x);
var y = ya.c2p(pt.y);
if(selectionTester.contains([x, y], null, pt.i, searchInfo)) {
selection.push({
pointNumber: pt.i,
x: xa.c2d(pt.x),
y: ya.c2d(pt.y)
});
pt.selected = 1;
} else {
pt.selected = 0;
}
}
}
}
return selection;
};
},{}],867:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Color = _dereq_('../../components/color');
var Drawing = _dereq_('../../components/drawing');
function style(gd, cd) {
var s = cd ? cd[0].node3 : d3.select(gd).selectAll('g.trace.boxes');
s.style('opacity', function(d) { return d[0].trace.opacity; });
s.each(function(d) {
var el = d3.select(this);
var trace = d[0].trace;
var lineWidth = trace.line.width;
function styleBox(boxSel, lineWidth, lineColor, fillColor) {
boxSel.style('stroke-width', lineWidth + 'px')
.call(Color.stroke, lineColor)
.call(Color.fill, fillColor);
}
var allBoxes = el.selectAll('path.box');
if(trace.type === 'candlestick') {
allBoxes.each(function(boxData) {
var thisBox = d3.select(this);
var container = trace[boxData.dir]; // dir = 'increasing' or 'decreasing'
styleBox(thisBox, container.line.width, container.line.color, container.fillcolor);
// TODO: custom selection style for candlesticks
thisBox.style('opacity', trace.selectedpoints && !boxData.selected ? 0.3 : 1);
});
}
else {
styleBox(allBoxes, lineWidth, trace.line.color, trace.fillcolor);
el.selectAll('path.mean')
.style({
'stroke-width': lineWidth,
'stroke-dasharray': (2 * lineWidth) + 'px,' + lineWidth + 'px'
})
.call(Color.stroke, trace.line.color);
var pts = el.selectAll('path.point');
Drawing.pointStyle(pts, trace, gd);
}
});
}
function styleOnSelect(gd, cd) {
var s = cd[0].node3;
var trace = cd[0].trace;
var pts = s.selectAll('path.point');
if(trace.selectedpoints) {
Drawing.selectedPointStyle(pts, trace);
} else {
Drawing.pointStyle(pts, trace, gd);
}
}
module.exports = {
style: style,
styleOnSelect: styleOnSelect
};
},{"../../components/color":567,"../../components/drawing":592,"d3":147}],868:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var extendFlat = _dereq_('../../lib').extendFlat;
var OHLCattrs = _dereq_('../ohlc/attributes');
var boxAttrs = _dereq_('../box/attributes');
function directionAttrs(lineColorDefault) {
return {
line: {
color: extendFlat({}, boxAttrs.line.color, {dflt: lineColorDefault}),
width: boxAttrs.line.width,
editType: 'style'
},
fillcolor: boxAttrs.fillcolor,
editType: 'style'
};
}
module.exports = {
x: OHLCattrs.x,
open: OHLCattrs.open,
high: OHLCattrs.high,
low: OHLCattrs.low,
close: OHLCattrs.close,
line: {
width: extendFlat({}, boxAttrs.line.width, {
}),
editType: 'style'
},
increasing: directionAttrs(OHLCattrs.increasing.line.color.dflt),
decreasing: directionAttrs(OHLCattrs.decreasing.line.color.dflt),
text: OHLCattrs.text,
whiskerwidth: extendFlat({}, boxAttrs.whiskerwidth, { dflt: 0 })
};
},{"../../lib":693,"../box/attributes":856,"../ohlc/attributes":987}],869:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Axes = _dereq_('../../plots/cartesian/axes');
var calcCommon = _dereq_('../ohlc/calc').calcCommon;
module.exports = function(gd, trace) {
var fullLayout = gd._fullLayout;
var xa = Axes.getFromId(gd, trace.xaxis);
var ya = Axes.getFromId(gd, trace.yaxis);
var x = xa.makeCalcdata(trace, 'x');
var cd = calcCommon(gd, trace, x, ya, ptFunc);
if(cd.length) {
Lib.extendFlat(cd[0].t, {
num: fullLayout._numBoxes,
dPos: Lib.distinctVals(x).minDiff / 2,
posLetter: 'x',
valLetter: 'y',
});
fullLayout._numBoxes++;
return cd;
} else {
return [{t: {empty: true}}];
}
};
function ptFunc(o, h, l, c) {
return {
min: l,
q1: Math.min(o, c),
med: c,
q3: Math.max(o, c),
max: h,
};
}
},{"../../lib":693,"../../plots/cartesian/axes":742,"../ohlc/calc":988}],870:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Color = _dereq_('../../components/color');
var handleOHLC = _dereq_('../ohlc/ohlc_defaults');
var attributes = _dereq_('./attributes');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
var len = handleOHLC(traceIn, traceOut, coerce, layout);
if(!len) {
traceOut.visible = false;
return;
}
coerce('line.width');
handleDirection(traceIn, traceOut, coerce, 'increasing');
handleDirection(traceIn, traceOut, coerce, 'decreasing');
coerce('text');
coerce('whiskerwidth');
layout._requestRangeslider[traceOut.xaxis] = true;
};
function handleDirection(traceIn, traceOut, coerce, direction) {
var lineColor = coerce(direction + '.line.color');
coerce(direction + '.line.width', traceOut.line.width);
coerce(direction + '.fillcolor', Color.addOpacity(lineColor, 0.5));
}
},{"../../components/color":567,"../../lib":693,"../ohlc/ohlc_defaults":992,"./attributes":868}],871:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
moduleType: 'trace',
name: 'candlestick',
basePlotModule: _dereq_('../../plots/cartesian'),
categories: ['cartesian', 'svg', 'showLegend', 'candlestick', 'boxLayout'],
meta: {
},
attributes: _dereq_('./attributes'),
layoutAttributes: _dereq_('../box/layout_attributes'),
supplyLayoutDefaults: _dereq_('../box/layout_defaults').supplyLayoutDefaults,
crossTraceCalc: _dereq_('../box/cross_trace_calc').crossTraceCalc,
supplyDefaults: _dereq_('./defaults'),
calc: _dereq_('./calc'),
plot: _dereq_('../box/plot').plot,
layerName: 'boxlayer',
style: _dereq_('../box/style').style,
hoverPoints: _dereq_('../ohlc/hover'),
selectPoints: _dereq_('../ohlc/select')
};
},{"../../plots/cartesian":753,"../box/cross_trace_calc":858,"../box/layout_attributes":863,"../box/layout_defaults":864,"../box/plot":865,"../box/style":867,"../ohlc/hover":990,"../ohlc/select":994,"./attributes":868,"./calc":869,"./defaults":870}],872:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var handleAxisDefaults = _dereq_('./axis_defaults');
module.exports = function handleABDefaults(traceIn, traceOut, fullLayout, coerce, dfltColor) {
var a = coerce('a');
if(!a) {
coerce('da');
coerce('a0');
}
var b = coerce('b');
if(!b) {
coerce('db');
coerce('b0');
}
mimickAxisDefaults(traceIn, traceOut, fullLayout, dfltColor);
};
function mimickAxisDefaults(traceIn, traceOut, fullLayout, dfltColor) {
var axesList = ['aaxis', 'baxis'];
axesList.forEach(function(axName) {
var axLetter = axName.charAt(0);
var axIn = traceIn[axName] || {};
var axOut = {};
var defaultOptions = {
tickfont: 'x',
id: axLetter + 'axis',
letter: axLetter,
font: traceOut.font,
name: axName,
data: traceIn[axLetter],
calendar: traceOut.calendar,
dfltColor: dfltColor,
bgColor: fullLayout.paper_bgcolor,
fullLayout: fullLayout
};
handleAxisDefaults(axIn, axOut, defaultOptions);
axOut._categories = axOut._categories || [];
traceOut[axName] = axOut;
// so we don't have to repeat autotype unnecessarily,
// copy an autotype back to traceIn
if(!traceIn[axName] && axIn.type !== '-') {
traceIn[axName] = {type: axIn.type};
}
});
}
},{"./axis_defaults":877}],873:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isArrayOrTypedArray = _dereq_('../../lib').isArrayOrTypedArray;
module.exports = function(a) {
return minMax(a, 0);
};
function minMax(a, depth) {
// Limit to ten dimensional datasets. This seems *exceedingly* unlikely to
// ever cause problems or even be a concern. It's include strictly so that
// circular arrays could never cause this to loop.
if(!isArrayOrTypedArray(a) || depth >= 10) {
return null;
}
var min = Infinity;
var max = -Infinity;
var n = a.length;
for(var i = 0; i < n; i++) {
var datum = a[i];
if(isArrayOrTypedArray(datum)) {
var result = minMax(datum, depth + 1);
if(result) {
min = Math.min(result[0], min);
max = Math.max(result[1], max);
}
} else {
min = Math.min(datum, min);
max = Math.max(datum, max);
}
}
return [min, max];
}
},{"../../lib":693}],874:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var fontAttrs = _dereq_('../../plots/font_attributes');
var axisAttrs = _dereq_('./axis_attributes');
var colorAttrs = _dereq_('../../components/color/attributes');
var carpetFont = fontAttrs({
editType: 'calc',
});
// TODO: inherit from global font
carpetFont.family.dflt = '"Open Sans", verdana, arial, sans-serif';
carpetFont.size.dflt = 12;
carpetFont.color.dflt = colorAttrs.defaultLine;
module.exports = {
carpet: {
valType: 'string',
editType: 'calc',
},
x: {
valType: 'data_array',
editType: 'calc+clearAxisTypes',
},
y: {
valType: 'data_array',
editType: 'calc+clearAxisTypes',
},
a: {
valType: 'data_array',
editType: 'calc',
},
a0: {
valType: 'number',
dflt: 0,
editType: 'calc',
},
da: {
valType: 'number',
dflt: 1,
editType: 'calc',
},
b: {
valType: 'data_array',
editType: 'calc',
},
b0: {
valType: 'number',
dflt: 0,
editType: 'calc',
},
db: {
valType: 'number',
dflt: 1,
editType: 'calc',
},
cheaterslope: {
valType: 'number',
dflt: 1,
editType: 'calc',
},
aaxis: axisAttrs,
baxis: axisAttrs,
font: carpetFont,
color: {
valType: 'color',
dflt: colorAttrs.defaultLine,
editType: 'plot',
},
};
},{"../../components/color/attributes":566,"../../plots/font_attributes":768,"./axis_attributes":876}],875:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isArrayOrTypedArray = _dereq_('../../lib').isArrayOrTypedArray;
/* This function retrns a set of control points that define a curve aligned along
* either the a or b axis. Exactly one of a or b must be an array defining the range
* spanned.
*
* Honestly this is the most complicated function I've implemente here so far because
* of the way it handles knot insertion and direction/axis-agnostic slices.
*/
module.exports = function(carpet, carpetcd, a, b) {
var idx, tangent, tanIsoIdx, tanIsoPar, segment, refidx;
var p0, p1, v0, v1, start, end, range;
var axis = isArrayOrTypedArray(a) ? 'a' : 'b';
var ax = axis === 'a' ? carpet.aaxis : carpet.baxis;
var smoothing = ax.smoothing;
var toIdx = axis === 'a' ? carpet.a2i : carpet.b2j;
var pt = axis === 'a' ? a : b;
var iso = axis === 'a' ? b : a;
var n = axis === 'a' ? carpetcd.a.length : carpetcd.b.length;
var m = axis === 'a' ? carpetcd.b.length : carpetcd.a.length;
var isoIdx = Math.floor(axis === 'a' ? carpet.b2j(iso) : carpet.a2i(iso));
var xy = axis === 'a' ? function(value) {
return carpet.evalxy([], value, isoIdx);
} : function(value) {
return carpet.evalxy([], isoIdx, value);
};
if(smoothing) {
tanIsoIdx = Math.max(0, Math.min(m - 2, isoIdx));
tanIsoPar = isoIdx - tanIsoIdx;
tangent = axis === 'a' ? function(i, ti) {
return carpet.dxydi([], i, tanIsoIdx, ti, tanIsoPar);
} : function(j, tj) {
return carpet.dxydj([], tanIsoIdx, j, tanIsoPar, tj);
};
}
var vstart = toIdx(pt[0]);
var vend = toIdx(pt[1]);
// So that we can make this work in two directions, flip all of the
// math functions if the direction is from higher to lower indices:
//
// Note that the tolerance is directional!
var dir = vstart < vend ? 1 : -1;
var tol = (vend - vstart) * 1e-8;
var dirfloor = dir > 0 ? Math.floor : Math.ceil;
var dirceil = dir > 0 ? Math.ceil : Math.floor;
var dirmin = dir > 0 ? Math.min : Math.max;
var dirmax = dir > 0 ? Math.max : Math.min;
var idx0 = dirfloor(vstart + tol);
var idx1 = dirceil(vend - tol);
p0 = xy(vstart);
var segments = [[p0]];
for(idx = idx0; idx * dir < idx1 * dir; idx += dir) {
segment = [];
start = dirmax(vstart, idx);
end = dirmin(vend, idx + dir);
range = end - start;
// In order to figure out which cell we're in for the derivative (remember,
// the derivatives are *not* constant across grid lines), let's just average
// the start and end points. This cuts out just a tiny bit of logic and
// there's really no computational difference:
refidx = Math.max(0, Math.min(n - 2, Math.floor(0.5 * (start + end))));
p1 = xy(end);
if(smoothing) {
v0 = tangent(refidx, start - refidx);
v1 = tangent(refidx, end - refidx);
segment.push([
p0[0] + v0[0] / 3 * range,
p0[1] + v0[1] / 3 * range
]);
segment.push([
p1[0] - v1[0] / 3 * range,
p1[1] - v1[1] / 3 * range
]);
}
segment.push(p1);
segments.push(segment);
p0 = p1;
}
return segments;
};
},{"../../lib":693}],876:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var fontAttrs = _dereq_('../../plots/font_attributes');
var colorAttrs = _dereq_('../../components/color/attributes');
var axesAttrs = _dereq_('../../plots/cartesian/layout_attributes');
var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll;
module.exports = {
color: {
valType: 'color',
editType: 'calc',
},
smoothing: {
valType: 'number',
dflt: 1,
min: 0,
max: 1.3,
editType: 'calc'
},
title: {
valType: 'string',
editType: 'calc',
},
titlefont: fontAttrs({
editType: 'calc',
}),
titleoffset: {
valType: 'number',
dflt: 10,
editType: 'calc',
},
type: {
valType: 'enumerated',
// '-' means we haven't yet run autotype or couldn't find any data
// it gets turned into linear in gd._fullLayout but not copied back
// to gd.data like the others are.
values: ['-', 'linear', 'date', 'category'],
dflt: '-',
editType: 'calc',
},
autorange: {
valType: 'enumerated',
values: [true, false, 'reversed'],
dflt: true,
editType: 'calc',
},
rangemode: {
valType: 'enumerated',
values: ['normal', 'tozero', 'nonnegative'],
dflt: 'normal',
editType: 'calc',
},
range: {
valType: 'info_array',
editType: 'calc',
items: [
{valType: 'any', editType: 'calc'},
{valType: 'any', editType: 'calc'}
],
},
fixedrange: {
valType: 'boolean',
dflt: false,
editType: 'calc',
},
cheatertype: {
valType: 'enumerated',
values: ['index', 'value'],
dflt: 'value',
editType: 'calc'
},
tickmode: {
valType: 'enumerated',
values: ['linear', 'array'],
dflt: 'array',
editType: 'calc'
},
nticks: {
valType: 'integer',
min: 0,
dflt: 0,
editType: 'calc',
},
tickvals: {
valType: 'data_array',
editType: 'calc',
},
ticktext: {
valType: 'data_array',
editType: 'calc',
},
showticklabels: {
valType: 'enumerated',
values: ['start', 'end', 'both', 'none'],
dflt: 'start',
editType: 'calc',
},
tickfont: fontAttrs({
editType: 'calc',
}),
tickangle: {
valType: 'angle',
dflt: 'auto',
editType: 'calc',
},
tickprefix: {
valType: 'string',
dflt: '',
editType: 'calc',
},
showtickprefix: {
valType: 'enumerated',
values: ['all', 'first', 'last', 'none'],
dflt: 'all',
editType: 'calc',
},
ticksuffix: {
valType: 'string',
dflt: '',
editType: 'calc',
},
showticksuffix: {
valType: 'enumerated',
values: ['all', 'first', 'last', 'none'],
dflt: 'all',
editType: 'calc',
},
showexponent: {
valType: 'enumerated',
values: ['all', 'first', 'last', 'none'],
dflt: 'all',
editType: 'calc',
},
exponentformat: {
valType: 'enumerated',
values: ['none', 'e', 'E', 'power', 'SI', 'B'],
dflt: 'B',
editType: 'calc',
},
separatethousands: {
valType: 'boolean',
dflt: false,
editType: 'calc',
},
tickformat: {
valType: 'string',
dflt: '',
editType: 'calc',
},
tickformatstops: overrideAll(axesAttrs.tickformatstops, 'calc', 'from-root'),
categoryorder: {
valType: 'enumerated',
values: [
'trace', 'category ascending', 'category descending', 'array'
/* , 'value ascending', 'value descending'*/ // value ascending / descending to be implemented later
],
dflt: 'trace',
editType: 'calc',
},
categoryarray: {
valType: 'data_array',
editType: 'calc',
},
labelpadding: {
valType: 'integer',
dflt: 10,
editType: 'calc',
},
labelprefix: {
valType: 'string',
editType: 'calc',
},
labelsuffix: {
valType: 'string',
dflt: '',
editType: 'calc',
},
// lines and grids
showline: {
valType: 'boolean',
dflt: false,
editType: 'calc',
},
linecolor: {
valType: 'color',
dflt: colorAttrs.defaultLine,
editType: 'calc',
},
linewidth: {
valType: 'number',
min: 0,
dflt: 1,
editType: 'calc',
},
gridcolor: {
valType: 'color',
editType: 'calc',
},
gridwidth: {
valType: 'number',
min: 0,
dflt: 1,
editType: 'calc',
},
showgrid: {
valType: 'boolean',
dflt: true,
editType: 'calc',
},
minorgridcount: {
valType: 'integer',
min: 0,
dflt: 0,
editType: 'calc',
},
minorgridwidth: {
valType: 'number',
min: 0,
dflt: 1,
editType: 'calc',
},
minorgridcolor: {
valType: 'color',
dflt: colorAttrs.lightLine,
editType: 'calc',
},
startline: {
valType: 'boolean',
editType: 'calc',
},
startlinecolor: {
valType: 'color',
editType: 'calc',
},
startlinewidth: {
valType: 'number',
dflt: 1,
editType: 'calc',
},
endline: {
valType: 'boolean',
editType: 'calc',
},
endlinewidth: {
valType: 'number',
dflt: 1,
editType: 'calc',
},
endlinecolor: {
valType: 'color',
editType: 'calc',
},
tick0: {
valType: 'number',
min: 0,
dflt: 0,
editType: 'calc',
},
dtick: {
valType: 'number',
min: 0,
dflt: 1,
editType: 'calc',
},
arraytick0: {
valType: 'integer',
min: 0,
dflt: 0,
editType: 'calc',
},
arraydtick: {
valType: 'integer',
min: 1,
dflt: 1,
editType: 'calc',
},
editType: 'calc'
};
},{"../../components/color/attributes":566,"../../plot_api/edit_types":725,"../../plots/cartesian/layout_attributes":754,"../../plots/font_attributes":768}],877:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var carpetAttrs = _dereq_('./attributes');
var addOpacity = _dereq_('../../components/color').addOpacity;
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var handleTickValueDefaults = _dereq_('../../plots/cartesian/tick_value_defaults');
var handleTickLabelDefaults = _dereq_('../../plots/cartesian/tick_label_defaults');
var handleCategoryOrderDefaults = _dereq_('../../plots/cartesian/category_order_defaults');
var setConvert = _dereq_('../../plots/cartesian/set_convert');
var autoType = _dereq_('../../plots/cartesian/axis_autotype');
/**
* options: object containing:
*
* letter: 'a' or 'b'
* title: name of the axis (ie 'Colorbar') to go in default title
* name: axis object name (ie 'xaxis') if one should be stored
* font: the default font to inherit
* outerTicks: boolean, should ticks default to outside?
* showGrid: boolean, should gridlines be shown by default?
* data: the plot data to use in choosing auto type
* bgColor: the plot background color, to calculate default gridline colors
*/
module.exports = function handleAxisDefaults(containerIn, containerOut, options) {
var letter = options.letter,
font = options.font || {},
attributes = carpetAttrs[letter + 'axis'];
function coerce(attr, dflt) {
return Lib.coerce(containerIn, containerOut, attributes, attr, dflt);
}
function coerce2(attr, dflt) {
return Lib.coerce2(containerIn, containerOut, attributes, attr, dflt);
}
// set up some private properties
if(options.name) {
containerOut._name = options.name;
containerOut._id = options.name;
}
// now figure out type and do some more initialization
var axType = coerce('type');
if(axType === '-') {
if(options.data) setAutoType(containerOut, options.data);
if(containerOut.type === '-') {
containerOut.type = 'linear';
}
else {
// copy autoType back to input axis
// note that if this object didn't exist
// in the input layout, we have to put it in
// this happens in the main supplyDefaults function
axType = containerIn.type = containerOut.type;
}
}
coerce('smoothing');
coerce('cheatertype');
coerce('showticklabels');
coerce('labelprefix', letter + ' = ');
coerce('labelsuffix');
coerce('showtickprefix');
coerce('showticksuffix');
coerce('separatethousands');
coerce('tickformat');
coerce('exponentformat');
coerce('showexponent');
coerce('categoryorder');
coerce('tickmode');
coerce('tickvals');
coerce('ticktext');
coerce('tick0');
coerce('dtick');
if(containerOut.tickmode === 'array') {
coerce('arraytick0');
coerce('arraydtick');
}
coerce('labelpadding');
containerOut._hovertitle = letter;
if(axType === 'date') {
var handleCalendarDefaults = Registry.getComponentMethod('calendars', 'handleDefaults');
handleCalendarDefaults(containerIn, containerOut, 'calendar', options.calendar);
}
// we need some of the other functions setConvert attaches, but for
// path finding, override pixel scaling to simple passthrough (identity)
setConvert(containerOut, options.fullLayout);
containerOut.c2p = Lib.identity;
var dfltColor = coerce('color', options.dfltColor);
// if axis.color was provided, use it for fonts too; otherwise,
// inherit from global font color in case that was provided.
var dfltFontColor = (dfltColor === containerIn.color) ? dfltColor : font.color;
coerce('title');
Lib.coerceFont(coerce, 'titlefont', {
family: font.family,
size: Math.round(font.size * 1.2),
color: dfltFontColor
});
coerce('titleoffset');
coerce('tickangle');
var autoRange = coerce('autorange', !containerOut.isValidRange(containerIn.range));
if(autoRange) coerce('rangemode');
coerce('range');
containerOut.cleanRange();
coerce('fixedrange');
handleTickValueDefaults(containerIn, containerOut, coerce, axType);
handleTickLabelDefaults(containerIn, containerOut, coerce, axType, options);
handleCategoryOrderDefaults(containerIn, containerOut, coerce, {
data: options.data,
dataAttr: letter
});
var gridColor = coerce2('gridcolor', addOpacity(dfltColor, 0.3));
var gridWidth = coerce2('gridwidth');
var showGrid = coerce('showgrid');
if(!showGrid) {
delete containerOut.gridcolor;
delete containerOut.gridwidth;
}
var startLineColor = coerce2('startlinecolor', dfltColor);
var startLineWidth = coerce2('startlinewidth', gridWidth);
var showStartLine = coerce('startline', containerOut.showgrid || !!startLineColor || !!startLineWidth);
if(!showStartLine) {
delete containerOut.startlinecolor;
delete containerOut.startlinewidth;
}
var endLineColor = coerce2('endlinecolor', dfltColor);
var endLineWidth = coerce2('endlinewidth', gridWidth);
var showEndLine = coerce('endline', containerOut.showgrid || !!endLineColor || !!endLineWidth);
if(!showEndLine) {
delete containerOut.endlinecolor;
delete containerOut.endlinewidth;
}
if(!showGrid) {
delete containerOut.gridcolor;
delete containerOut.gridWidth;
} else {
coerce('minorgridcount');
coerce('minorgridwidth', gridWidth);
coerce('minorgridcolor', addOpacity(gridColor, 0.06));
if(!containerOut.minorgridcount) {
delete containerOut.minorgridwidth;
delete containerOut.minorgridcolor;
}
}
if(containerOut.showticklabels === 'none') {
delete containerOut.tickfont;
delete containerOut.tickangle;
delete containerOut.showexponent;
delete containerOut.exponentformat;
delete containerOut.tickformat;
delete containerOut.showticksuffix;
delete containerOut.showtickprefix;
}
if(!containerOut.showticksuffix) {
delete containerOut.ticksuffix;
}
if(!containerOut.showtickprefix) {
delete containerOut.tickprefix;
}
// It needs to be coerced, then something above overrides this deep in the axis code,
// but no, we *actually* want to coerce this.
coerce('tickmode');
if(!containerOut.title || (containerOut.title && containerOut.title.length === 0)) {
delete containerOut.titlefont;
delete containerOut.titleoffset;
}
return containerOut;
};
function setAutoType(ax, data) {
// new logic: let people specify any type they want,
// only autotype if type is '-'
if(ax.type !== '-') return;
var id = ax._id,
axLetter = id.charAt(0);
var calAttr = axLetter + 'calendar',
calendar = ax[calAttr];
ax.type = autoType(data, calendar);
}
},{"../../components/color":567,"../../lib":693,"../../plots/cartesian/axis_autotype":743,"../../plots/cartesian/category_order_defaults":746,"../../plots/cartesian/set_convert":760,"../../plots/cartesian/tick_label_defaults":761,"../../plots/cartesian/tick_value_defaults":763,"../../registry":825,"./attributes":874}],878:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Axes = _dereq_('../../plots/cartesian/axes');
var isArray1D = _dereq_('../../lib').isArray1D;
var cheaterBasis = _dereq_('./cheater_basis');
var arrayMinmax = _dereq_('./array_minmax');
var calcGridlines = _dereq_('./calc_gridlines');
var calcLabels = _dereq_('./calc_labels');
var calcClipPath = _dereq_('./calc_clippath');
var clean2dArray = _dereq_('../heatmap/clean_2d_array');
var smoothFill2dArray = _dereq_('./smooth_fill_2d_array');
var convertColumnData = _dereq_('../heatmap/convert_column_xyz');
var setConvert = _dereq_('./set_convert');
module.exports = function calc(gd, trace) {
var xa = Axes.getFromId(gd, trace.xaxis);
var ya = Axes.getFromId(gd, trace.yaxis);
var aax = trace.aaxis;
var bax = trace.baxis;
var x = trace.x;
var y = trace.y;
var cols = [];
if(x && isArray1D(x)) cols.push('x');
if(y && isArray1D(y)) cols.push('y');
if(cols.length) {
convertColumnData(trace, aax, bax, 'a', 'b', cols);
}
var a = trace._a = trace._a || trace.a;
var b = trace._b = trace._b || trace.b;
x = trace._x || trace.x;
y = trace._y || trace.y;
var t = {};
if(trace._cheater) {
var avals = aax.cheatertype === 'index' ? a.length : a;
var bvals = bax.cheatertype === 'index' ? b.length : b;
x = cheaterBasis(avals, bvals, trace.cheaterslope);
}
trace._x = x = clean2dArray(x);
trace._y = y = clean2dArray(y);
// Fill in any undefined values with elliptic smoothing. This doesn't take
// into account the spacing of the values. That is, the derivatives should
// be modified to use a and b values. It's not that hard, but this is already
// moderate overkill for just filling in missing values.
smoothFill2dArray(x, a, b);
smoothFill2dArray(y, a, b);
setConvert(trace);
// create conversion functions that depend on the data
trace.setScale();
// This is a rather expensive scan. Nothing guarantees monotonicity,
// so we need to scan through all data to get proper ranges:
var xrange = arrayMinmax(x);
var yrange = arrayMinmax(y);
var dx = 0.5 * (xrange[1] - xrange[0]);
var xc = 0.5 * (xrange[1] + xrange[0]);
var dy = 0.5 * (yrange[1] - yrange[0]);
var yc = 0.5 * (yrange[1] + yrange[0]);
// Expand the axes to fit the plot, except just grow it by a factor of 1.3
// because the labels should be taken into account except that's difficult
// hence 1.3.
var grow = 1.3;
xrange = [xc - dx * grow, xc + dx * grow];
yrange = [yc - dy * grow, yc + dy * grow];
trace._extremes[xa._id] = Axes.findExtremes(xa, xrange, {padded: true});
trace._extremes[ya._id] = Axes.findExtremes(ya, yrange, {padded: true});
// Enumerate the gridlines, both major and minor, and store them on the trace
// object:
calcGridlines(trace, 'a', 'b');
calcGridlines(trace, 'b', 'a');
// Calculate the text labels for each major gridline and store them on the
// trace object:
calcLabels(trace, aax);
calcLabels(trace, bax);
// Tabulate points for the four segments that bound the axes so that we can
// map to pixel coordinates in the plot function and create a clip rect:
t.clipsegments = calcClipPath(trace._xctrl, trace._yctrl, aax, bax);
t.x = x;
t.y = y;
t.a = a;
t.b = b;
return [t];
};
},{"../../lib":693,"../../plots/cartesian/axes":742,"../heatmap/clean_2d_array":944,"../heatmap/convert_column_xyz":946,"./array_minmax":873,"./calc_clippath":879,"./calc_gridlines":880,"./calc_labels":881,"./cheater_basis":883,"./set_convert":896,"./smooth_fill_2d_array":897}],879:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function makeClipPath(xctrl, yctrl, aax, bax) {
var i, x, y;
var segments = [];
var asmoothing = !!aax.smoothing;
var bsmoothing = !!bax.smoothing;
var nea1 = xctrl[0].length - 1;
var neb1 = xctrl.length - 1;
// Along the lower a axis:
for(i = 0, x = [], y = []; i <= nea1; i++) {
x[i] = xctrl[0][i];
y[i] = yctrl[0][i];
}
segments.push({x: x, y: y, bicubic: asmoothing});
// Along the upper b axis:
for(i = 0, x = [], y = []; i <= neb1; i++) {
x[i] = xctrl[i][nea1];
y[i] = yctrl[i][nea1];
}
segments.push({x: x, y: y, bicubic: bsmoothing});
// Backwards along the upper a axis:
for(i = nea1, x = [], y = []; i >= 0; i--) {
x[nea1 - i] = xctrl[neb1][i];
y[nea1 - i] = yctrl[neb1][i];
}
segments.push({x: x, y: y, bicubic: asmoothing});
// Backwards along the lower b axis:
for(i = neb1, x = [], y = []; i >= 0; i--) {
x[neb1 - i] = xctrl[i][0];
y[neb1 - i] = yctrl[i][0];
}
segments.push({x: x, y: y, bicubic: bsmoothing});
return segments;
};
},{}],880:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Axes = _dereq_('../../plots/cartesian/axes');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
module.exports = function calcGridlines(trace, axisLetter, crossAxisLetter) {
var i, j, j0;
var eps, bounds, n1, n2, n, value, v;
var j1, v0, v1, d;
var data = trace['_' + axisLetter];
var axis = trace[axisLetter + 'axis'];
var gridlines = axis._gridlines = [];
var minorgridlines = axis._minorgridlines = [];
var boundarylines = axis._boundarylines = [];
var crossData = trace['_' + crossAxisLetter];
var crossAxis = trace[crossAxisLetter + 'axis'];
if(axis.tickmode === 'array') {
axis.tickvals = data.slice();
}
var xcp = trace._xctrl;
var ycp = trace._yctrl;
var nea = xcp[0].length;
var neb = xcp.length;
var na = trace._a.length;
var nb = trace._b.length;
Axes.prepTicks(axis);
// don't leave tickvals in axis looking like an attribute
if(axis.tickmode === 'array') delete axis.tickvals;
// The default is an empty array that will cause the join to remove the gridline if
// it's just disappeared:
// axis._startline = axis._endline = [];
// If the cross axis uses bicubic interpolation, then the grid
// lines fall once every three expanded grid row/cols:
var stride = axis.smoothing ? 3 : 1;
function constructValueGridline(value) {
var i, j, j0, tj, pxy, i0, ti, xy, dxydi0, dxydi1, dxydj0, dxydj1;
var xpoints = [];
var ypoints = [];
var ret = {};
// Search for the fractional grid index giving this line:
if(axisLetter === 'b') {
// For the position we use just the i-j coordinates:
j = trace.b2j(value);
// The derivatives for catmull-rom splines are discontinuous across cell
// boundaries though, so we need to provide both the cell and the position
// within the cell separately:
j0 = Math.floor(Math.max(0, Math.min(nb - 2, j)));
tj = j - j0;
ret.length = nb;
ret.crossLength = na;
ret.xy = function(i) {
return trace.evalxy([], i, j);
};
ret.dxy = function(i0, ti) {
return trace.dxydi([], i0, j0, ti, tj);
};
for(i = 0; i < na; i++) {
i0 = Math.min(na - 2, i);
ti = i - i0;
xy = trace.evalxy([], i, j);
if(crossAxis.smoothing && i > 0) {
// First control point:
dxydi0 = trace.dxydi([], i - 1, j0, 0, tj);
xpoints.push(pxy[0] + dxydi0[0] / 3);
ypoints.push(pxy[1] + dxydi0[1] / 3);
// Second control point:
dxydi1 = trace.dxydi([], i - 1, j0, 1, tj);
xpoints.push(xy[0] - dxydi1[0] / 3);
ypoints.push(xy[1] - dxydi1[1] / 3);
}
xpoints.push(xy[0]);
ypoints.push(xy[1]);
pxy = xy;
}
} else {
i = trace.a2i(value);
i0 = Math.floor(Math.max(0, Math.min(na - 2, i)));
ti = i - i0;
ret.length = na;
ret.crossLength = nb;
ret.xy = function(j) {
return trace.evalxy([], i, j);
};
ret.dxy = function(j0, tj) {
return trace.dxydj([], i0, j0, ti, tj);
};
for(j = 0; j < nb; j++) {
j0 = Math.min(nb - 2, j);
tj = j - j0;
xy = trace.evalxy([], i, j);
if(crossAxis.smoothing && j > 0) {
// First control point:
dxydj0 = trace.dxydj([], i0, j - 1, ti, 0);
xpoints.push(pxy[0] + dxydj0[0] / 3);
ypoints.push(pxy[1] + dxydj0[1] / 3);
// Second control point:
dxydj1 = trace.dxydj([], i0, j - 1, ti, 1);
xpoints.push(xy[0] - dxydj1[0] / 3);
ypoints.push(xy[1] - dxydj1[1] / 3);
}
xpoints.push(xy[0]);
ypoints.push(xy[1]);
pxy = xy;
}
}
ret.axisLetter = axisLetter;
ret.axis = axis;
ret.crossAxis = crossAxis;
ret.value = value;
ret.constvar = crossAxisLetter;
ret.index = n;
ret.x = xpoints;
ret.y = ypoints;
ret.smoothing = crossAxis.smoothing;
return ret;
}
function constructArrayGridline(idx) {
var j, i0, j0, ti, tj;
var xpoints = [];
var ypoints = [];
var ret = {};
ret.length = data.length;
ret.crossLength = crossData.length;
if(axisLetter === 'b') {
j0 = Math.max(0, Math.min(nb - 2, idx));
tj = Math.min(1, Math.max(0, idx - j0));
ret.xy = function(i) {
return trace.evalxy([], i, idx);
};
ret.dxy = function(i0, ti) {
return trace.dxydi([], i0, j0, ti, tj);
};
// In the tickmode: array case, this operation is a simple
// transfer of data:
for(j = 0; j < nea; j++) {
xpoints[j] = xcp[idx * stride][j];
ypoints[j] = ycp[idx * stride][j];
}
} else {
i0 = Math.max(0, Math.min(na - 2, idx));
ti = Math.min(1, Math.max(0, idx - i0));
ret.xy = function(j) {
return trace.evalxy([], idx, j);
};
ret.dxy = function(j0, tj) {
return trace.dxydj([], i0, j0, ti, tj);
};
// In the tickmode: array case, this operation is a simple
// transfer of data:
for(j = 0; j < neb; j++) {
xpoints[j] = xcp[j][idx * stride];
ypoints[j] = ycp[j][idx * stride];
}
}
ret.axisLetter = axisLetter;
ret.axis = axis;
ret.crossAxis = crossAxis;
ret.value = data[idx];
ret.constvar = crossAxisLetter;
ret.index = idx;
ret.x = xpoints;
ret.y = ypoints;
ret.smoothing = crossAxis.smoothing;
return ret;
}
if(axis.tickmode === 'array') {
// var j0 = axis.startline ? 1 : 0;
// var j1 = data.length - (axis.endline ? 1 : 0);
eps = 5e-15;
bounds = [
Math.floor(((data.length - 1) - axis.arraytick0) / axis.arraydtick * (1 + eps)),
Math.ceil((- axis.arraytick0) / axis.arraydtick / (1 + eps))
].sort(function(a, b) {return a - b;});
// Unpack sorted values so we can be sure to avoid infinite loops if something
// is backwards:
n1 = bounds[0] - 1;
n2 = bounds[1] + 1;
// If the axes fall along array lines, then this is a much simpler process since
// we already have all the control points we need
for(n = n1; n < n2; n++) {
j = axis.arraytick0 + axis.arraydtick * n;
if(j < 0 || j > data.length - 1) continue;
gridlines.push(extendFlat(constructArrayGridline(j), {
color: axis.gridcolor,
width: axis.gridwidth
}));
}
for(n = n1; n < n2; n++) {
j0 = axis.arraytick0 + axis.arraydtick * n;
j1 = Math.min(j0 + axis.arraydtick, data.length - 1);
// TODO: fix the bounds computation so we don't have to do a large range and then throw
// out unneeded numbers
if(j0 < 0 || j0 > data.length - 1) continue;
if(j1 < 0 || j1 > data.length - 1) continue;
v0 = data[j0];
v1 = data[j1];
for(i = 0; i < axis.minorgridcount; i++) {
d = j1 - j0;
// TODO: fix the bounds computation so we don't have to do a large range and then throw
// out unneeded numbers
if(d <= 0) continue;
// XXX: This calculation isn't quite right. Off by one somewhere?
v = v0 + (v1 - v0) * (i + 1) / (axis.minorgridcount + 1) * (axis.arraydtick / d);
// TODO: fix the bounds computation so we don't have to do a large range and then throw
// out unneeded numbers
if(v < data[0] || v > data[data.length - 1]) continue;
minorgridlines.push(extendFlat(constructValueGridline(v), {
color: axis.minorgridcolor,
width: axis.minorgridwidth
}));
}
}
if(axis.startline) {
boundarylines.push(extendFlat(constructArrayGridline(0), {
color: axis.startlinecolor,
width: axis.startlinewidth
}));
}
if(axis.endline) {
boundarylines.push(extendFlat(constructArrayGridline(data.length - 1), {
color: axis.endlinecolor,
width: axis.endlinewidth
}));
}
} else {
// If the lines do not fall along the axes, then we have to interpolate
// the contro points and so some math to figure out where the lines are
// in the first place.
// Compute the integer boudns of tick0 + n * dtick that fall within the range
// (roughly speaking):
// Give this a nice generous epsilon. We use at as * (1 + eps) in order to make
// inequalities a little tolerant in a more or less correct manner:
eps = 5e-15;
bounds = [
Math.floor((data[data.length - 1] - axis.tick0) / axis.dtick * (1 + eps)),
Math.ceil((data[0] - axis.tick0) / axis.dtick / (1 + eps))
].sort(function(a, b) {return a - b;});
// Unpack sorted values so we can be sure to avoid infinite loops if something
// is backwards:
n1 = bounds[0];
n2 = bounds[1];
for(n = n1; n <= n2; n++) {
value = axis.tick0 + axis.dtick * n;
gridlines.push(extendFlat(constructValueGridline(value), {
color: axis.gridcolor,
width: axis.gridwidth
}));
}
for(n = n1 - 1; n < n2 + 1; n++) {
value = axis.tick0 + axis.dtick * n;
for(i = 0; i < axis.minorgridcount; i++) {
v = value + axis.dtick * (i + 1) / (axis.minorgridcount + 1);
if(v < data[0] || v > data[data.length - 1]) continue;
minorgridlines.push(extendFlat(constructValueGridline(v), {
color: axis.minorgridcolor,
width: axis.minorgridwidth
}));
}
}
if(axis.startline) {
boundarylines.push(extendFlat(constructValueGridline(data[0]), {
color: axis.startlinecolor,
width: axis.startlinewidth
}));
}
if(axis.endline) {
boundarylines.push(extendFlat(constructValueGridline(data[data.length - 1]), {
color: axis.endlinecolor,
width: axis.endlinewidth
}));
}
}
};
},{"../../lib/extend":682,"../../plots/cartesian/axes":742}],881:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Axes = _dereq_('../../plots/cartesian/axes');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
module.exports = function calcLabels(trace, axis) {
var i, tobj, prefix, suffix, gridline;
var labels = axis._labels = [];
var gridlines = axis._gridlines;
for(i = 0; i < gridlines.length; i++) {
gridline = gridlines[i];
if(['start', 'both'].indexOf(axis.showticklabels) !== -1) {
tobj = Axes.tickText(axis, gridline.value);
extendFlat(tobj, {
prefix: prefix,
suffix: suffix,
endAnchor: true,
xy: gridline.xy(0),
dxy: gridline.dxy(0, 0),
axis: gridline.axis,
length: gridline.crossAxis.length,
font: gridline.axis.tickfont,
isFirst: i === 0,
isLast: i === gridlines.length - 1
});
labels.push(tobj);
}
if(['end', 'both'].indexOf(axis.showticklabels) !== -1) {
tobj = Axes.tickText(axis, gridline.value);
extendFlat(tobj, {
endAnchor: false,
xy: gridline.xy(gridline.crossLength - 1),
dxy: gridline.dxy(gridline.crossLength - 2, 1),
axis: gridline.axis,
length: gridline.crossAxis.length,
font: gridline.axis.tickfont,
isFirst: i === 0,
isLast: i === gridlines.length - 1
});
labels.push(tobj);
}
}
};
},{"../../lib/extend":682,"../../plots/cartesian/axes":742}],882:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/*
* Compute the tangent vector according to catmull-rom cubic splines (centripetal,
* I think). That differs from the control point in two ways:
* 1. It is a vector, not a position relative to the point
* 2. the vector is longer than the position relative to p1 by a factor of 3
*
* Close to the boundaries, we'll use these as *quadratic control points, so that
* to make a nice grid, we'll need to divide the tangent by 2 instead of 3. (The
* math works out this way if you work through the bezier derivatives)
*/
var CatmullRomExp = 0.5;
module.exports = function makeControlPoints(p0, p1, p2, smoothness) {
var d1x = p0[0] - p1[0],
d1y = p0[1] - p1[1],
d2x = p2[0] - p1[0],
d2y = p2[1] - p1[1],
d1a = Math.pow(d1x * d1x + d1y * d1y, CatmullRomExp / 2),
d2a = Math.pow(d2x * d2x + d2y * d2y, CatmullRomExp / 2),
numx = (d2a * d2a * d1x - d1a * d1a * d2x) * smoothness,
numy = (d2a * d2a * d1y - d1a * d1a * d2y) * smoothness,
denom1 = d2a * (d1a + d2a) * 3,
denom2 = d1a * (d1a + d2a) * 3;
return [[
p1[0] + (denom1 && numx / denom1),
p1[1] + (denom1 && numy / denom1)
], [
p1[0] - (denom2 && numx / denom2),
p1[1] - (denom2 && numy / denom2)
]];
};
},{}],883:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isArrayOrTypedArray = _dereq_('../../lib').isArrayOrTypedArray;
/*
* Construct a 2D array of cheater values given a, b, and a slope.
* If
*/
module.exports = function(a, b, cheaterslope) {
var i, j, ascal, bscal, aval, bval;
var data = [];
var na = isArrayOrTypedArray(a) ? a.length : a;
var nb = isArrayOrTypedArray(b) ? b.length : b;
var adata = isArrayOrTypedArray(a) ? a : null;
var bdata = isArrayOrTypedArray(b) ? b : null;
// If we're using data, scale it so that for data that's just barely
// not evenly spaced, the switch to value-based indexing is continuous.
// This means evenly spaced data should look the same whether value
// or index cheatertype.
if(adata) {
ascal = (adata.length - 1) / (adata[adata.length - 1] - adata[0]) / (na - 1);
}
if(bdata) {
bscal = (bdata.length - 1) / (bdata[bdata.length - 1] - bdata[0]) / (nb - 1);
}
var xval;
var xmin = Infinity;
var xmax = -Infinity;
for(j = 0; j < nb; j++) {
data[j] = [];
bval = bdata ? (bdata[j] - bdata[0]) * bscal : j / (nb - 1);
for(i = 0; i < na; i++) {
aval = adata ? (adata[i] - adata[0]) * ascal : i / (na - 1);
xval = aval - bval * cheaterslope;
xmin = Math.min(xval, xmin);
xmax = Math.max(xval, xmax);
data[j][i] = xval;
}
}
// Normalize cheater values to the 0-1 range. This comes into play when you have
// multiple cheater plots. After careful consideration, it seems better if cheater
// values are normalized to a consistent range. Otherwise one cheater affects the
// layout of other cheaters on the same axis.
var slope = 1.0 / (xmax - xmin);
var offset = -xmin * slope;
for(j = 0; j < nb; j++) {
for(i = 0; i < na; i++) {
data[j][i] = slope * data[j][i] + offset;
}
}
return data;
};
},{"../../lib":693}],884:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var makeControlPoints = _dereq_('./catmull_rom');
var ensureArray = _dereq_('../../lib').ensureArray;
/*
* Turns a coarse grid into a fine grid with control points.
*
* Here's an ASCII representation:
*
* o ----- o ----- o ----- o
* | | | |
* | | | |
* | | | |
* o ----- o ----- o ----- o
* | | | |
* | | | |
* ^ | | | |
* | o ----- o ----- o ----- o
* b | | | | |
* | | | | |
* | | | | |
* o ----- o ----- o ----- o
* ------>
* a
*
* First of all, note that we want to do this in *cartesian* space. This means
* we might run into problems when there are extreme differences in x/y scaling,
* but the alternative is that the topology of the contours might actually be
* view-dependent, which seems worse. As a fallback, the only parameter that
* actually affects the result is the *aspect ratio*, so that we can at least
* improve the situation a bit without going all the way to screen coordinates.
*
* This function flattens the points + tangents into a slightly denser grid of
* *control points*. The resulting grid looks like this:
*
* 9 +--o-o--+ -o-o--+--o-o--+
* 8 o o o o o o o o o o
* | | | |
* 7 o o o o o o o o o o
* 6 +--o-o--+ -o-o--+--o-o--+
* 5 o o o o o o o o o o
* | | | |
* ^ 4 o o o o o o o o o o
* | 3 +--o-o--+ -o-o--+--o-o--+
* b | 2 o o o o o o o o o o
* | | | | |
* | 1 o o o o o o o o o o
* 0 +--o-o--+ -o-o--+--o-o--+
* 0 1 2 3 4 5 6 7 8 9
* ------>
* a
*
* where `o`s represent newly-computed control points. the resulting dimension is
*
* (m - 1) * 3 + 1
* = 3 * m - 2
*
* We could simply store the tangents separately, but that's a nightmare to organize
* in two dimensions since we'll be slicing grid lines in both directions and since
* that basically requires very nearly just as much storage as just storing the dense
* grid.
*
* Wow!
*/
/*
* Catmull-rom is biased at the boundaries toward the interior and we actually
* can't use catmull-rom to compute the control point closest to (but inside)
* the boundary.
*
* A note on plotly's spline interpolation. It uses the catmull rom control point
* closest to the boundary *as* a quadratic control point. This seems incorrect,
* so I've elected not to follow that. Given control points 0 and 1, regular plotly
* splines give *equivalent* cubic control points:
*
* Input:
*
* boundary
* | |
* p0 p2 p3 --> interior
* 0.0 0.667 1.0
* | |
*
* Cubic-equivalent of what plotly splines draw::
*
* boundary
* | |
* p0 p1 p2 p3 --> interior
* 0.0 0.4444 0.8888 1.0
* | |
*
* What this function fills in:
*
* boundary
* | |
* p0 p1 p2 p3 --> interior
* 0.0 0.333 0.667 1.0
* | |
*
* Parameters:
* p0: boundary point
* p2: catmull rom point based on computation at p3
* p3: first grid point
*
* Of course it works whichever way it's oriented; you just need to interpret the
* input/output accordingly.
*/
function inferCubicControlPoint(p0, p2, p3) {
// Extend p1 away from p0 by 50%. This is the equivalent quadratic point that
// would give the same slope as catmull rom at p0.
var p2e0 = -0.5 * p3[0] + 1.5 * p2[0];
var p2e1 = -0.5 * p3[1] + 1.5 * p2[1];
return [
(2 * p2e0 + p0[0]) / 3,
(2 * p2e1 + p0[1]) / 3,
];
}
module.exports = function computeControlPoints(xe, ye, x, y, asmoothing, bsmoothing) {
var i, j, ie, je, xej, yej, xj, yj, cp, p1;
// At this point, we know these dimensions are correct and representative of
// the whole 2D arrays:
var na = x[0].length;
var nb = x.length;
// (n)umber of (e)xpanded points:
var nea = asmoothing ? 3 * na - 2 : na;
var neb = bsmoothing ? 3 * nb - 2 : nb;
xe = ensureArray(xe, neb);
ye = ensureArray(ye, neb);
for(ie = 0; ie < neb; ie++) {
xe[ie] = ensureArray(xe[ie], nea);
ye[ie] = ensureArray(ye[ie], nea);
}
// This loop fills in the X'd points:
//
// . . . .
// . . . .
// | | | |
// | | | |
// X ----- X ----- X ----- X
// | | | |
// | | | |
// | | | |
// X ----- X ----- X ----- X
//
//
// ie = (i) (e)xpanded:
for(j = 0, je = 0; j < nb; j++, je += bsmoothing ? 3 : 1) {
xej = xe[je];
yej = ye[je];
xj = x[j];
yj = y[j];
// je = (j) (e)xpanded:
for(i = 0, ie = 0; i < na; i++, ie += asmoothing ? 3 : 1) {
xej[ie] = xj[i];
yej[ie] = yj[i];
}
}
if(asmoothing) {
// If there's a-smoothing, this loop fills in the X'd points with catmull-rom
// control points computed along the a-axis:
// . . . .
// . . . .
// | | | |
// | | | |
// o -Y-X- o -X-X- o -X-Y- o
// | | | |
// | | | |
// | | | |
// o -Y-X- o -X-X- o -X-Y- o
//
// i: 0 1 2 3
// ie: 0 1 3 3 4 5 6 7 8 9
//
// ------>
// a
//
for(j = 0, je = 0; j < nb; j++, je += bsmoothing ? 3 : 1) {
// Fill in the points marked X for this a-row:
for(i = 1, ie = 3; i < na - 1; i++, ie += 3) {
cp = makeControlPoints(
[x[j][i - 1], y[j][i - 1]],
[x[j][i ], y[j][i]],
[x[j][i + 1], y[j][i + 1]],
asmoothing
);
xe[je][ie - 1] = cp[0][0];
ye[je][ie - 1] = cp[0][1];
xe[je][ie + 1] = cp[1][0];
ye[je][ie + 1] = cp[1][1];
}
// The very first cubic interpolation point (to the left for i = 1 above) is
// used as a *quadratic* interpolation point by the spline drawing function
// which isn't really correct. But for the sake of consistency, we'll use it
// as such. Since we're using cubic splines, that means we need to shorten the
// tangent by 1/3 and also construct a new cubic spline control point 1/3 from
// the original to the i = 0 point.
p1 = inferCubicControlPoint(
[xe[je][0], ye[je][0]],
[xe[je][2], ye[je][2]],
[xe[je][3], ye[je][3]]
);
xe[je][1] = p1[0];
ye[je][1] = p1[1];
// Ditto last points, sans explanation:
p1 = inferCubicControlPoint(
[xe[je][nea - 1], ye[je][nea - 1]],
[xe[je][nea - 3], ye[je][nea - 3]],
[xe[je][nea - 4], ye[je][nea - 4]]
);
xe[je][nea - 2] = p1[0];
ye[je][nea - 2] = p1[1];
}
}
if(bsmoothing) {
// If there's a-smoothing, this loop fills in the X'd points with catmull-rom
// control points computed along the b-axis:
// . . . .
// X X X X X X X X X X
// | | | |
// X X X X X X X X X X
// o -o-o- o -o-o- o -o-o- o
// X X X X X X X X X X
// | | | |
// Y Y Y Y Y Y Y Y Y Y
// o -o-o- o -o-o- o -o-o- o
//
// i: 0 1 2 3
// ie: 0 1 3 3 4 5 6 7 8 9
//
// ------>
// a
//
for(ie = 0; ie < nea; ie++) {
for(je = 3; je < neb - 3; je += 3) {
cp = makeControlPoints(
[xe[je - 3][ie], ye[je - 3][ie]],
[xe[je][ie], ye[je][ie]],
[xe[je + 3][ie], ye[je + 3][ie]],
bsmoothing
);
xe[je - 1][ie] = cp[0][0];
ye[je - 1][ie] = cp[0][1];
xe[je + 1][ie] = cp[1][0];
ye[je + 1][ie] = cp[1][1];
}
// Do the same boundary condition magic for these control points marked Y above:
p1 = inferCubicControlPoint(
[xe[0][ie], ye[0][ie]],
[xe[2][ie], ye[2][ie]],
[xe[3][ie], ye[3][ie]]
);
xe[1][ie] = p1[0];
ye[1][ie] = p1[1];
p1 = inferCubicControlPoint(
[xe[neb - 1][ie], ye[neb - 1][ie]],
[xe[neb - 3][ie], ye[neb - 3][ie]],
[xe[neb - 4][ie], ye[neb - 4][ie]]
);
xe[neb - 2][ie] = p1[0];
ye[neb - 2][ie] = p1[1];
}
}
if(asmoothing && bsmoothing) {
// Do one more pass, this time recomputing exactly what we just computed.
// It's overdetermined since we're peforming catmull-rom in two directions,
// so we'll just average the overdetermined. These points don't lie along the
// grid lines, so note that only grid lines will follow normal plotly spline
// interpolation.
//
// Unless of course there was no b smoothing. Then these intermediate points
// don't actually exist and this section is bypassed.
// . . . .
// o X X o X X o X X o
// | | | |
// o X X o X X o X X o
// o -o-o- o -o-o- o -o-o- o
// o X X o X X o X X o
// | | | |
// o Y Y o Y Y o Y Y o
// o -o-o- o -o-o- o -o-o- o
//
// i: 0 1 2 3
// ie: 0 1 3 3 4 5 6 7 8 9
//
// ------>
// a
//
for(je = 1; je < neb; je += (je + 1) % 3 === 0 ? 2 : 1) {
// Fill in the points marked X for this a-row:
for(ie = 3; ie < nea - 3; ie += 3) {
cp = makeControlPoints(
[xe[je][ie - 3], ye[je][ie - 3]],
[xe[je][ie], ye[je][ie]],
[xe[je][ie + 3], ye[je][ie + 3]],
asmoothing
);
xe[je][ie - 1] = 0.5 * (xe[je][ie - 1] + cp[0][0]);
ye[je][ie - 1] = 0.5 * (ye[je][ie - 1] + cp[0][1]);
xe[je][ie + 1] = 0.5 * (xe[je][ie + 1] + cp[1][0]);
ye[je][ie + 1] = 0.5 * (ye[je][ie + 1] + cp[1][1]);
}
// This case is just slightly different. The computation is the same,
// but having computed this, we'll average with the existing result.
p1 = inferCubicControlPoint(
[xe[je][0], ye[je][0]],
[xe[je][2], ye[je][2]],
[xe[je][3], ye[je][3]]
);
xe[je][1] = 0.5 * (xe[je][1] + p1[0]);
ye[je][1] = 0.5 * (ye[je][1] + p1[1]);
p1 = inferCubicControlPoint(
[xe[je][nea - 1], ye[je][nea - 1]],
[xe[je][nea - 3], ye[je][nea - 3]],
[xe[je][nea - 4], ye[je][nea - 4]]
);
xe[je][nea - 2] = 0.5 * (xe[je][nea - 2] + p1[0]);
ye[je][nea - 2] = 0.5 * (ye[je][nea - 2] + p1[1]);
}
}
return [xe, ye];
};
},{"../../lib":693,"./catmull_rom":882}],885:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
RELATIVE_CULL_TOLERANCE: 1e-6
};
},{}],886:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/*
* Evaluates the derivative of a list of control point arrays. That is, it expects an array or arrays
* that are expanded relative to the raw data to include the bicubic control points, if applicable. If
* only linear interpolation is desired, then the data points correspond 1-1 along that axis to the
* data itself. Since it's catmull-rom splines in either direction note in particular that the
* derivatives are discontinuous across cell boundaries. That's the reason you need both the *cell*
* and the *point within the cell*.
*
* Also note that the discontinuity of the derivative is in magnitude only. The direction *is*
* continuous across cell boundaries.
*
* For example, to compute the derivative of the xcoordinate halfway betwen the 7 and 8th i-gridpoints
* and the 10th and 11th j-gridpoints given bicubic smoothing in both dimensions, you'd write:
*
* var deriv = createIDerivativeEvaluator([x], 1, 1);
*
* var dxdi = deriv([], 7, 10, 0.5, 0.5);
* // => [0.12345]
*
* Since there'd be a bunch of duplicate computation to compute multiple derivatives, you can double
* this up by providing more arrays:
*
* var deriv = createIDerivativeEvaluator([x, y], 1, 1);
*
* var dxdi = deriv([], 7, 10, 0.5, 0.5);
* // => [0.12345, 0.78910]
*
* NB: It's presumed that at this point all data has been sanitized and is valid numerical data arrays
* of the correct dimension.
*/
module.exports = function(arrays, asmoothing, bsmoothing) {
if(asmoothing && bsmoothing) {
return function(out, i0, j0, u, v) {
if(!out) out = [];
var f0, f1, f2, f3, ak, k;
// Since it's a grid of control points, the actual indices are * 3:
i0 *= 3;
j0 *= 3;
// Precompute some numbers:
var u2 = u * u;
var ou = 1 - u;
var ou2 = ou * ou;
var ouu2 = ou * u * 2;
var a = -3 * ou2;
var b = 3 * (ou2 - ouu2);
var c = 3 * (ouu2 - u2);
var d = 3 * u2;
var v2 = v * v;
var v3 = v2 * v;
var ov = 1 - v;
var ov2 = ov * ov;
var ov3 = ov2 * ov;
for(k = 0; k < arrays.length; k++) {
ak = arrays[k];
// Compute the derivatives in the u-direction:
f0 = a * ak[j0 ][i0] + b * ak[j0 ][i0 + 1] + c * ak[j0 ][i0 + 2] + d * ak[j0 ][i0 + 3];
f1 = a * ak[j0 + 1][i0] + b * ak[j0 + 1][i0 + 1] + c * ak[j0 + 1][i0 + 2] + d * ak[j0 + 1][i0 + 3];
f2 = a * ak[j0 + 2][i0] + b * ak[j0 + 2][i0 + 1] + c * ak[j0 + 2][i0 + 2] + d * ak[j0 + 2][i0 + 3];
f3 = a * ak[j0 + 3][i0] + b * ak[j0 + 3][i0 + 1] + c * ak[j0 + 3][i0 + 2] + d * ak[j0 + 3][i0 + 3];
// Now just interpolate in the v-direction since it's all separable:
out[k] = ov3 * f0 + 3 * (ov2 * v * f1 + ov * v2 * f2) + v3 * f3;
}
return out;
};
} else if(asmoothing) {
// Handle smooth in the a-direction but linear in the b-direction by performing four
// linear interpolations followed by one cubic interpolation of the result
return function(out, i0, j0, u, v) {
if(!out) out = [];
var f0, f1, k, ak;
i0 *= 3;
var u2 = u * u;
var ou = 1 - u;
var ou2 = ou * ou;
var ouu2 = ou * u * 2;
var a = -3 * ou2;
var b = 3 * (ou2 - ouu2);
var c = 3 * (ouu2 - u2);
var d = 3 * u2;
var ov = 1 - v;
for(k = 0; k < arrays.length; k++) {
ak = arrays[k];
f0 = a * ak[j0 ][i0] + b * ak[j0 ][i0 + 1] + c * ak[j0 ][i0 + 2] + d * ak[j0 ][i0 + 3];
f1 = a * ak[j0 + 1][i0] + b * ak[j0 + 1][i0 + 1] + c * ak[j0 + 1][i0 + 2] + d * ak[j0 + 1][i0 + 3];
out[k] = ov * f0 + v * f1;
}
return out;
};
} else if(bsmoothing) {
// Same as the above case, except reversed. I've disabled the no-unused vars rule
// so that this function is fully interpolation-agnostic. Otherwise it would need
// to be called differently in different cases. Which wouldn't be the worst, but
/* eslint-disable no-unused-vars */
return function(out, i0, j0, u, v) {
/* eslint-enable no-unused-vars */
if(!out) out = [];
var f0, f1, f2, f3, k, ak;
j0 *= 3;
var v2 = v * v;
var v3 = v2 * v;
var ov = 1 - v;
var ov2 = ov * ov;
var ov3 = ov2 * ov;
for(k = 0; k < arrays.length; k++) {
ak = arrays[k];
f0 = ak[j0][i0 + 1] - ak[j0][i0];
f1 = ak[j0 + 1][i0 + 1] - ak[j0 + 1][i0];
f2 = ak[j0 + 2][i0 + 1] - ak[j0 + 2][i0];
f3 = ak[j0 + 3][i0 + 1] - ak[j0 + 3][i0];
out[k] = ov3 * f0 + 3 * (ov2 * v * f1 + ov * v2 * f2) + v3 * f3;
}
return out;
};
} else {
// Finally, both directions are linear:
/* eslint-disable no-unused-vars */
return function(out, i0, j0, u, v) {
/* eslint-enable no-unused-vars */
if(!out) out = [];
var f0, f1, k, ak;
var ov = 1 - v;
for(k = 0; k < arrays.length; k++) {
ak = arrays[k];
f0 = ak[j0][i0 + 1] - ak[j0][i0];
f1 = ak[j0 + 1][i0 + 1] - ak[j0 + 1][i0];
out[k] = ov * f0 + v * f1;
}
return out;
};
}
};
},{}],887:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function(arrays, asmoothing, bsmoothing) {
if(asmoothing && bsmoothing) {
return function(out, i0, j0, u, v) {
if(!out) out = [];
var f0, f1, f2, f3, ak, k;
// Since it's a grid of control points, the actual indices are * 3:
i0 *= 3;
j0 *= 3;
// Precompute some numbers:
var u2 = u * u;
var u3 = u2 * u;
var ou = 1 - u;
var ou2 = ou * ou;
var ou3 = ou2 * ou;
var v2 = v * v;
var ov = 1 - v;
var ov2 = ov * ov;
var ovv2 = ov * v * 2;
var a = -3 * ov2;
var b = 3 * (ov2 - ovv2);
var c = 3 * (ovv2 - v2);
var d = 3 * v2;
for(k = 0; k < arrays.length; k++) {
ak = arrays[k];
// Compute the derivatives in the v-direction:
f0 = a * ak[j0][i0] + b * ak[j0 + 1][i0] + c * ak[j0 + 2][i0] + d * ak[j0 + 3][i0];
f1 = a * ak[j0][i0 + 1] + b * ak[j0 + 1][i0 + 1] + c * ak[j0 + 2][i0 + 1] + d * ak[j0 + 3][i0 + 1];
f2 = a * ak[j0][i0 + 2] + b * ak[j0 + 1][i0 + 2] + c * ak[j0 + 2][i0 + 2] + d * ak[j0 + 3][i0 + 2];
f3 = a * ak[j0][i0 + 3] + b * ak[j0 + 1][i0 + 3] + c * ak[j0 + 2][i0 + 3] + d * ak[j0 + 3][i0 + 3];
// Now just interpolate in the v-direction since it's all separable:
out[k] = ou3 * f0 + 3 * (ou2 * u * f1 + ou * u2 * f2) + u3 * f3;
}
return out;
};
} else if(asmoothing) {
// Handle smooth in the a-direction but linear in the b-direction by performing four
// linear interpolations followed by one cubic interpolation of the result
return function(out, i0, j0, v, u) {
if(!out) out = [];
var f0, f1, f2, f3, k, ak;
i0 *= 3;
var u2 = u * u;
var u3 = u2 * u;
var ou = 1 - u;
var ou2 = ou * ou;
var ou3 = ou2 * ou;
for(k = 0; k < arrays.length; k++) {
ak = arrays[k];
f0 = ak[j0 + 1][i0] - ak[j0][i0];
f1 = ak[j0 + 1][i0 + 1] - ak[j0][i0 + 1];
f2 = ak[j0 + 1][i0 + 2] - ak[j0][i0 + 2];
f3 = ak[j0 + 1][i0 + 3] - ak[j0][i0 + 3];
out[k] = ou3 * f0 + 3 * (ou2 * u * f1 + ou * u2 * f2) + u3 * f3;
// mathematically equivalent:
// f0 = ou3 * ak[j0 ][i0] + 3 * (ou2 * u * ak[j0 ][i0 + 1] + ou * u2 * ak[j0 ][i0 + 2]) + u3 * ak[j0 ][i0 + 3];
// f1 = ou3 * ak[j0 + 1][i0] + 3 * (ou2 * u * ak[j0 + 1][i0 + 1] + ou * u2 * ak[j0 + 1][i0 + 2]) + u3 * ak[j0 + 1][i0 + 3];
// out[k] = f1 - f0;
}
return out;
};
} else if(bsmoothing) {
// Same as the above case, except reversed:
/* eslint-disable no-unused-vars */
return function(out, i0, j0, u, v) {
/* eslint-enable no-unused-vars */
if(!out) out = [];
var f0, f1, k, ak;
j0 *= 3;
var ou = 1 - u;
var v2 = v * v;
var ov = 1 - v;
var ov2 = ov * ov;
var ovv2 = ov * v * 2;
var a = -3 * ov2;
var b = 3 * (ov2 - ovv2);
var c = 3 * (ovv2 - v2);
var d = 3 * v2;
for(k = 0; k < arrays.length; k++) {
ak = arrays[k];
f0 = a * ak[j0][i0] + b * ak[j0 + 1][i0] + c * ak[j0 + 2][i0] + d * ak[j0 + 3][i0];
f1 = a * ak[j0][i0 + 1] + b * ak[j0 + 1][i0 + 1] + c * ak[j0 + 2][i0 + 1] + d * ak[j0 + 3][i0 + 1];
out[k] = ou * f0 + u * f1;
}
return out;
};
} else {
// Finally, both directions are linear:
/* eslint-disable no-unused-vars */
return function(out, i0, j0, v, u) {
/* eslint-enable no-unused-vars */
if(!out) out = [];
var f0, f1, k, ak;
var ov = 1 - v;
for(k = 0; k < arrays.length; k++) {
ak = arrays[k];
f0 = ak[j0 + 1][i0] - ak[j0][i0];
f1 = ak[j0 + 1][i0 + 1] - ak[j0][i0 + 1];
out[k] = ov * f0 + v * f1;
}
return out;
};
}
};
},{}],888:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/*
* Return a function that evaluates a set of linear or bicubic control points.
* This will get evaluated a lot, so we'll at least do a bit of extra work to
* flatten some of the choices. In particular, we'll unroll the linear/bicubic
* combinations and we'll allow computing results in parallel to cut down
* on repeated arithmetic.
*
* Take note that we don't search for the correct range in this function. The
* reason is for consistency due to the corrresponding derivative function. In
* particular, the derivatives aren't continuous across cells, so it's important
* to be able control whether the derivative at a cell boundary is approached
* from one side or the other.
*/
module.exports = function(arrays, na, nb, asmoothing, bsmoothing) {
var imax = na - 2;
var jmax = nb - 2;
if(asmoothing && bsmoothing) {
return function(out, i, j) {
if(!out) out = [];
var f0, f1, f2, f3, ak, k;
var i0 = Math.max(0, Math.min(Math.floor(i), imax));
var j0 = Math.max(0, Math.min(Math.floor(j), jmax));
var u = Math.max(0, Math.min(1, i - i0));
var v = Math.max(0, Math.min(1, j - j0));
// Since it's a grid of control points, the actual indices are * 3:
i0 *= 3;
j0 *= 3;
// Precompute some numbers:
var u2 = u * u;
var u3 = u2 * u;
var ou = 1 - u;
var ou2 = ou * ou;
var ou3 = ou2 * ou;
var v2 = v * v;
var v3 = v2 * v;
var ov = 1 - v;
var ov2 = ov * ov;
var ov3 = ov2 * ov;
for(k = 0; k < arrays.length; k++) {
ak = arrays[k];
f0 = ou3 * ak[j0][i0] + 3 * (ou2 * u * ak[j0][i0 + 1] + ou * u2 * ak[j0][i0 + 2]) + u3 * ak[j0][i0 + 3];
f1 = ou3 * ak[j0 + 1][i0] + 3 * (ou2 * u * ak[j0 + 1][i0 + 1] + ou * u2 * ak[j0 + 1][i0 + 2]) + u3 * ak[j0 + 1][i0 + 3];
f2 = ou3 * ak[j0 + 2][i0] + 3 * (ou2 * u * ak[j0 + 2][i0 + 1] + ou * u2 * ak[j0 + 2][i0 + 2]) + u3 * ak[j0 + 2][i0 + 3];
f3 = ou3 * ak[j0 + 3][i0] + 3 * (ou2 * u * ak[j0 + 3][i0 + 1] + ou * u2 * ak[j0 + 3][i0 + 2]) + u3 * ak[j0 + 3][i0 + 3];
out[k] = ov3 * f0 + 3 * (ov2 * v * f1 + ov * v2 * f2) + v3 * f3;
}
return out;
};
} else if(asmoothing) {
// Handle smooth in the a-direction but linear in the b-direction by performing four
// linear interpolations followed by one cubic interpolation of the result
return function(out, i, j) {
if(!out) out = [];
var i0 = Math.max(0, Math.min(Math.floor(i), imax));
var j0 = Math.max(0, Math.min(Math.floor(j), jmax));
var u = Math.max(0, Math.min(1, i - i0));
var v = Math.max(0, Math.min(1, j - j0));
var f0, f1, f2, f3, k, ak;
i0 *= 3;
var u2 = u * u;
var u3 = u2 * u;
var ou = 1 - u;
var ou2 = ou * ou;
var ou3 = ou2 * ou;
var ov = 1 - v;
for(k = 0; k < arrays.length; k++) {
ak = arrays[k];
f0 = ov * ak[j0][i0] + v * ak[j0 + 1][i0];
f1 = ov * ak[j0][i0 + 1] + v * ak[j0 + 1][i0 + 1];
f2 = ov * ak[j0][i0 + 2] + v * ak[j0 + 1][i0 + 1];
f3 = ov * ak[j0][i0 + 3] + v * ak[j0 + 1][i0 + 1];
out[k] = ou3 * f0 + 3 * (ou2 * u * f1 + ou * u2 * f2) + u3 * f3;
}
return out;
};
} else if(bsmoothing) {
// Same as the above case, except reversed:
return function(out, i, j) {
if(!out) out = [];
var i0 = Math.max(0, Math.min(Math.floor(i), imax));
var j0 = Math.max(0, Math.min(Math.floor(j), jmax));
var u = Math.max(0, Math.min(1, i - i0));
var v = Math.max(0, Math.min(1, j - j0));
var f0, f1, f2, f3, k, ak;
j0 *= 3;
var v2 = v * v;
var v3 = v2 * v;
var ov = 1 - v;
var ov2 = ov * ov;
var ov3 = ov2 * ov;
var ou = 1 - u;
for(k = 0; k < arrays.length; k++) {
ak = arrays[k];
f0 = ou * ak[j0][i0] + u * ak[j0][i0 + 1];
f1 = ou * ak[j0 + 1][i0] + u * ak[j0 + 1][i0 + 1];
f2 = ou * ak[j0 + 2][i0] + u * ak[j0 + 2][i0 + 1];
f3 = ou * ak[j0 + 3][i0] + u * ak[j0 + 3][i0 + 1];
out[k] = ov3 * f0 + 3 * (ov2 * v * f1 + ov * v2 * f2) + v3 * f3;
}
return out;
};
} else {
// Finally, both directions are linear:
return function(out, i, j) {
if(!out) out = [];
var i0 = Math.max(0, Math.min(Math.floor(i), imax));
var j0 = Math.max(0, Math.min(Math.floor(j), jmax));
var u = Math.max(0, Math.min(1, i - i0));
var v = Math.max(0, Math.min(1, j - j0));
var f0, f1, k, ak;
var ov = 1 - v;
var ou = 1 - u;
for(k = 0; k < arrays.length; k++) {
ak = arrays[k];
f0 = ou * ak[j0][i0] + u * ak[j0][i0 + 1];
f1 = ou * ak[j0 + 1][i0] + u * ak[j0 + 1][i0 + 1];
out[k] = ov * f0 + v * f1;
}
return out;
};
}
};
},{}],889:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var handleXYDefaults = _dereq_('./xy_defaults');
var handleABDefaults = _dereq_('./ab_defaults');
var attributes = _dereq_('./attributes');
var colorAttrs = _dereq_('../../components/color/attributes');
module.exports = function supplyDefaults(traceIn, traceOut, dfltColor, fullLayout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
traceOut._clipPathId = 'clip' + traceOut.uid + 'carpet';
var defaultColor = coerce('color', colorAttrs.defaultLine);
Lib.coerceFont(coerce, 'font');
coerce('carpet');
handleABDefaults(traceIn, traceOut, fullLayout, coerce, defaultColor);
if(!traceOut.a || !traceOut.b) {
traceOut.visible = false;
return;
}
if(traceOut.a.length < 3) {
traceOut.aaxis.smoothing = 0;
}
if(traceOut.b.length < 3) {
traceOut.baxis.smoothing = 0;
}
// NB: the input is x/y arrays. You should know that the *first* dimension of x and y
// corresponds to b and the second to a. This sounds backwards but ends up making sense
// the important part to know is that when you write y[j][i], j goes from 0 to b.length - 1
// and i goes from 0 to a.length - 1.
var validData = handleXYDefaults(traceIn, traceOut, coerce);
if(!validData) {
traceOut.visible = false;
}
if(traceOut._cheater) {
coerce('cheaterslope');
}
};
},{"../../components/color/attributes":566,"../../lib":693,"./ab_defaults":872,"./attributes":874,"./xy_defaults":898}],890:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Carpet = {};
Carpet.attributes = _dereq_('./attributes');
Carpet.supplyDefaults = _dereq_('./defaults');
Carpet.plot = _dereq_('./plot');
Carpet.calc = _dereq_('./calc');
Carpet.animatable = true;
Carpet.isContainer = true; // so carpet traces get `calc` before other traces
Carpet.moduleType = 'trace';
Carpet.name = 'carpet';
Carpet.basePlotModule = _dereq_('../../plots/cartesian');
Carpet.categories = ['cartesian', 'svg', 'carpet', 'carpetAxis', 'notLegendIsolatable'];
Carpet.meta = {
};
module.exports = Carpet;
},{"../../plots/cartesian":753,"./attributes":874,"./calc":878,"./defaults":889,"./plot":895}],891:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/*
* Given a trace, look up the carpet axis by carpet.
*/
module.exports = function(gd, trace) {
var n = gd._fullData.length;
var firstAxis;
for(var i = 0; i < n; i++) {
var maybeCarpet = gd._fullData[i];
if(maybeCarpet.index === trace.index) continue;
if(maybeCarpet.type === 'carpet') {
if(!firstAxis) {
firstAxis = maybeCarpet;
}
if(maybeCarpet.carpet === trace.carpet) {
return maybeCarpet;
}
}
}
return firstAxis;
};
},{}],892:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function makePath(xp, yp, isBicubic) {
// Prevent d3 errors that would result otherwise:
if(xp.length === 0) return '';
var i, path = [];
var stride = isBicubic ? 3 : 1;
for(i = 0; i < xp.length; i += stride) {
path.push(xp[i] + ',' + yp[i]);
if(isBicubic && i < xp.length - stride) {
path.push('C');
path.push([
xp[i + 1] + ',' + yp[i + 1],
xp[i + 2] + ',' + yp[i + 2] + ' ',
].join(' '));
}
}
return path.join(isBicubic ? '' : 'L');
};
},{}],893:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isArrayOrTypedArray = _dereq_('../../lib').isArrayOrTypedArray;
/*
* Map an array of x or y coordinates (c) to screen-space pixel coordinates (p).
* The output array is optional, but if provided, it will be reused without
* reallocation to the extent possible.
*/
module.exports = function mapArray(out, data, func) {
var i;
if(!isArrayOrTypedArray(out)) {
// If not an array, make it an array:
out = [];
} else if(out.length > data.length) {
// If too long, truncate. (If too short, it will grow
// automatically so we don't care about that case)
out = out.slice(0, data.length);
}
for(i = 0; i < data.length; i++) {
out[i] = func(data[i]);
}
return out;
};
},{"../../lib":693}],894:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function orientText(trace, xaxis, yaxis, xy, dxy, refDxy) {
var dx = dxy[0] * trace.dpdx(xaxis);
var dy = dxy[1] * trace.dpdy(yaxis);
var flip = 1;
var offsetMultiplier = 1.0;
if(refDxy) {
var l1 = Math.sqrt(dxy[0] * dxy[0] + dxy[1] * dxy[1]);
var l2 = Math.sqrt(refDxy[0] * refDxy[0] + refDxy[1] * refDxy[1]);
var dot = (dxy[0] * refDxy[0] + dxy[1] * refDxy[1]) / l1 / l2;
offsetMultiplier = Math.max(0.0, dot);
}
var angle = Math.atan2(dy, dx) * 180 / Math.PI;
if(angle < -90) {
angle += 180;
flip = -flip;
} else if(angle > 90) {
angle -= 180;
flip = -flip;
}
return {
angle: angle,
flip: flip,
p: trace.c2p(xy, xaxis, yaxis),
offsetMultplier: offsetMultiplier
};
};
},{}],895:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Drawing = _dereq_('../../components/drawing');
var map1dArray = _dereq_('./map_1d_array');
var makepath = _dereq_('./makepath');
var orientText = _dereq_('./orient_text');
var svgTextUtils = _dereq_('../../lib/svg_text_utils');
var Lib = _dereq_('../../lib');
var alignmentConstants = _dereq_('../../constants/alignment');
module.exports = function plot(gd, plotinfo, cdcarpet, carpetLayer) {
var xa = plotinfo.xaxis;
var ya = plotinfo.yaxis;
var fullLayout = gd._fullLayout;
var clipLayer = fullLayout._clips;
Lib.makeTraceGroups(carpetLayer, cdcarpet, 'trace').each(function(cd) {
var axisLayer = d3.select(this);
var cd0 = cd[0];
var trace = cd0.trace;
var aax = trace.aaxis;
var bax = trace.baxis;
var minorLayer = Lib.ensureSingle(axisLayer, 'g', 'minorlayer');
var majorLayer = Lib.ensureSingle(axisLayer, 'g', 'majorlayer');
var boundaryLayer = Lib.ensureSingle(axisLayer, 'g', 'boundarylayer');
var labelLayer = Lib.ensureSingle(axisLayer, 'g', 'labellayer');
axisLayer.style('opacity', trace.opacity);
drawGridLines(xa, ya, majorLayer, aax, 'a', aax._gridlines, true);
drawGridLines(xa, ya, majorLayer, bax, 'b', bax._gridlines, true);
drawGridLines(xa, ya, minorLayer, aax, 'a', aax._minorgridlines, true);
drawGridLines(xa, ya, minorLayer, bax, 'b', bax._minorgridlines, true);
// NB: These are not ommitted if the lines are not active. The joins must be executed
// in order for them to get cleaned up without a full redraw
drawGridLines(xa, ya, boundaryLayer, aax, 'a-boundary', aax._boundarylines);
drawGridLines(xa, ya, boundaryLayer, bax, 'b-boundary', bax._boundarylines);
var labelOrientationA = drawAxisLabels(gd, xa, ya, trace, cd0, labelLayer, aax._labels, 'a-label');
var labelOrientationB = drawAxisLabels(gd, xa, ya, trace, cd0, labelLayer, bax._labels, 'b-label');
drawAxisTitles(gd, labelLayer, trace, cd0, xa, ya, labelOrientationA, labelOrientationB);
drawClipPath(trace, cd0, clipLayer, xa, ya);
});
};
function drawClipPath(trace, t, layer, xaxis, yaxis) {
var seg, xp, yp, i;
var clip = layer.select('#' + trace._clipPathId);
if(!clip.size()) {
clip = layer.append('clipPath')
.classed('carpetclip', true);
}
var path = Lib.ensureSingle(clip, 'path', 'carpetboundary');
var segments = t.clipsegments;
var segs = [];
for(i = 0; i < segments.length; i++) {
seg = segments[i];
xp = map1dArray([], seg.x, xaxis.c2p);
yp = map1dArray([], seg.y, yaxis.c2p);
segs.push(makepath(xp, yp, seg.bicubic));
}
// This could be optimized ever so slightly to avoid no-op L segments
// at the corners, but it's so negligible that I don't think it's worth
// the extra complexity
var clipPathData = 'M' + segs.join('L') + 'Z';
clip.attr('id', trace._clipPathId);
path.attr('d', clipPathData);
}
function drawGridLines(xaxis, yaxis, layer, axis, axisLetter, gridlines) {
var lineClass = 'const-' + axisLetter + '-lines';
var gridJoin = layer.selectAll('.' + lineClass).data(gridlines);
gridJoin.enter().append('path')
.classed(lineClass, true)
.style('vector-effect', 'non-scaling-stroke');
gridJoin.each(function(d) {
var gridline = d;
var x = gridline.x;
var y = gridline.y;
var xp = map1dArray([], x, xaxis.c2p);
var yp = map1dArray([], y, yaxis.c2p);
var path = 'M' + makepath(xp, yp, gridline.smoothing);
var el = d3.select(this);
el.attr('d', path)
.style('stroke-width', gridline.width)
.style('stroke', gridline.color)
.style('fill', 'none');
});
gridJoin.exit().remove();
}
function drawAxisLabels(gd, xaxis, yaxis, trace, t, layer, labels, labelClass) {
var labelJoin = layer.selectAll('text.' + labelClass).data(labels);
labelJoin.enter().append('text')
.classed(labelClass, true);
var maxExtent = 0;
var labelOrientation = {};
labelJoin.each(function(label, i) {
// Most of the positioning is done in calc_labels. Only the parts that depend upon
// the screen space representation of the x and y axes are here:
var orientation;
if(label.axis.tickangle === 'auto') {
orientation = orientText(trace, xaxis, yaxis, label.xy, label.dxy);
} else {
var angle = (label.axis.tickangle + 180.0) * Math.PI / 180.0;
orientation = orientText(trace, xaxis, yaxis, label.xy, [Math.cos(angle), Math.sin(angle)]);
}
if(!i) {
// TODO: offsetMultiplier? Not currently used anywhere...
labelOrientation = {angle: orientation.angle, flip: orientation.flip};
}
var direction = (label.endAnchor ? -1 : 1) * orientation.flip;
var labelEl = d3.select(this)
.attr({
'text-anchor': direction > 0 ? 'start' : 'end',
'data-notex': 1
})
.call(Drawing.font, label.font)
.text(label.text)
.call(svgTextUtils.convertToTspans, gd);
var bbox = Drawing.bBox(this);
labelEl.attr('transform',
// Translate to the correct point:
'translate(' + orientation.p[0] + ',' + orientation.p[1] + ') ' +
// Rotate to line up with grid line tangent:
'rotate(' + orientation.angle + ')' +
// Adjust the baseline and indentation:
'translate(' + label.axis.labelpadding * direction + ',' + bbox.height * 0.3 + ')'
);
maxExtent = Math.max(maxExtent, bbox.width + label.axis.labelpadding);
});
labelJoin.exit().remove();
labelOrientation.maxExtent = maxExtent;
return labelOrientation;
}
function drawAxisTitles(gd, layer, trace, t, xa, ya, labelOrientationA, labelOrientationB) {
var a, b, xy, dxy;
a = 0.5 * (trace.a[0] + trace.a[trace.a.length - 1]);
b = trace.b[0];
xy = trace.ab2xy(a, b, true);
dxy = trace.dxyda_rough(a, b);
if(labelOrientationA.angle === undefined) {
Lib.extendFlat(labelOrientationA, orientText(trace, xa, ya, xy, trace.dxydb_rough(a, b)));
}
drawAxisTitle(gd, layer, trace, t, xy, dxy, trace.aaxis, xa, ya, labelOrientationA, 'a-title');
a = trace.a[0];
b = 0.5 * (trace.b[0] + trace.b[trace.b.length - 1]);
xy = trace.ab2xy(a, b, true);
dxy = trace.dxydb_rough(a, b);
if(labelOrientationB.angle === undefined) {
Lib.extendFlat(labelOrientationB, orientText(trace, xa, ya, xy, trace.dxyda_rough(a, b)));
}
drawAxisTitle(gd, layer, trace, t, xy, dxy, trace.baxis, xa, ya, labelOrientationB, 'b-title');
}
var lineSpacing = alignmentConstants.LINE_SPACING;
var midShift = ((1 - alignmentConstants.MID_SHIFT) / lineSpacing) + 1;
function drawAxisTitle(gd, layer, trace, t, xy, dxy, axis, xa, ya, labelOrientation, labelClass) {
var data = [];
if(axis.title) data.push(axis.title);
var titleJoin = layer.selectAll('text.' + labelClass).data(data);
var offset = labelOrientation.maxExtent;
titleJoin.enter().append('text')
.classed(labelClass, true);
// There's only one, but we'll do it as a join so it's updated nicely:
titleJoin.each(function() {
var orientation = orientText(trace, xa, ya, xy, dxy);
if(['start', 'both'].indexOf(axis.showticklabels) === -1) {
offset = 0;
}
// In addition to the size of the labels, add on some extra padding:
var titleSize = axis.titlefont.size;
offset += titleSize + axis.titleoffset;
var labelNorm = labelOrientation.angle + (labelOrientation.flip < 0 ? 180 : 0);
var angleDiff = (labelNorm - orientation.angle + 450) % 360;
var reverseTitle = angleDiff > 90 && angleDiff < 270;
var el = d3.select(this);
el.text(axis.title || '')
.call(svgTextUtils.convertToTspans, gd);
if(reverseTitle) {
offset = (-svgTextUtils.lineCount(el) + midShift) * lineSpacing * titleSize - offset;
}
el.attr('transform',
'translate(' + orientation.p[0] + ',' + orientation.p[1] + ') ' +
'rotate(' + orientation.angle + ') ' +
'translate(0,' + offset + ')'
)
.classed('user-select-none', true)
.attr('text-anchor', 'middle')
.call(Drawing.font, axis.titlefont);
});
titleJoin.exit().remove();
}
},{"../../components/drawing":592,"../../constants/alignment":665,"../../lib":693,"../../lib/svg_text_utils":718,"./makepath":892,"./map_1d_array":893,"./orient_text":894,"d3":147}],896:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var constants = _dereq_('./constants');
var search = _dereq_('../../lib/search').findBin;
var computeControlPoints = _dereq_('./compute_control_points');
var createSplineEvaluator = _dereq_('./create_spline_evaluator');
var createIDerivativeEvaluator = _dereq_('./create_i_derivative_evaluator');
var createJDerivativeEvaluator = _dereq_('./create_j_derivative_evaluator');
/*
* Create conversion functions to go from one basis to another. In particular the letter
* abbreviations are:
*
* i: i/j coordinates along the grid. Integer values correspond to data points
* a: real-valued coordinates along the a/b axes
* c: cartesian x-y coordinates
* p: screen-space pixel coordinates
*/
module.exports = function setConvert(trace) {
var a = trace._a;
var b = trace._b;
var na = a.length;
var nb = b.length;
var aax = trace.aaxis;
var bax = trace.baxis;
// Grab the limits once rather than recomputing the bounds for every point
// independently:
var amin = a[0];
var amax = a[na - 1];
var bmin = b[0];
var bmax = b[nb - 1];
var arange = a[a.length - 1] - a[0];
var brange = b[b.length - 1] - b[0];
// Compute the tolerance so that points are visible slightly outside the
// defined carpet axis:
var atol = arange * constants.RELATIVE_CULL_TOLERANCE;
var btol = brange * constants.RELATIVE_CULL_TOLERANCE;
// Expand the limits to include the relative tolerance:
amin -= atol;
amax += atol;
bmin -= btol;
bmax += btol;
trace.isVisible = function(a, b) {
return a > amin && a < amax && b > bmin && b < bmax;
};
trace.isOccluded = function(a, b) {
return a < amin || a > amax || b < bmin || b > bmax;
};
trace.setScale = function() {
var x = trace._x;
var y = trace._y;
// This is potentially a very expensive step! It does the bulk of the work of constructing
// an expanded basis of control points. Note in particular that it overwrites the existing
// basis without creating a new array since that would potentially thrash the garbage
// collector.
var result = computeControlPoints(trace._xctrl, trace._yctrl, x, y, aax.smoothing, bax.smoothing);
trace._xctrl = result[0];
trace._yctrl = result[1];
// This step is the second step in the process, but it's somewhat simpler. It just unrolls
// some logic since it would be unnecessarily expensive to compute both interpolations
// nearly identically but separately and to include a bunch of linear vs. bicubic logic in
// every single call.
trace.evalxy = createSplineEvaluator([trace._xctrl, trace._yctrl], na, nb, aax.smoothing, bax.smoothing);
trace.dxydi = createIDerivativeEvaluator([trace._xctrl, trace._yctrl], aax.smoothing, bax.smoothing);
trace.dxydj = createJDerivativeEvaluator([trace._xctrl, trace._yctrl], aax.smoothing, bax.smoothing);
};
/*
* Convert from i/j data grid coordinates to a/b values. Note in particular that this
* is *linear* interpolation, even if the data is interpolated bicubically.
*/
trace.i2a = function(i) {
var i0 = Math.max(0, Math.floor(i[0]), na - 2);
var ti = i[0] - i0;
return (1 - ti) * a[i0] + ti * a[i0 + 1];
};
trace.j2b = function(j) {
var j0 = Math.max(0, Math.floor(j[1]), na - 2);
var tj = j[1] - j0;
return (1 - tj) * b[j0] + tj * b[j0 + 1];
};
trace.ij2ab = function(ij) {
return [trace.i2a(ij[0]), trace.j2b(ij[1])];
};
/*
* Convert from a/b coordinates to i/j grid-numbered coordinates. This requires searching
* through the a/b data arrays and assumes they are monotonic, which is presumed to have
* been enforced already.
*/
trace.a2i = function(aval) {
var i0 = Math.max(0, Math.min(search(aval, a), na - 2));
var a0 = a[i0];
var a1 = a[i0 + 1];
return Math.max(0, Math.min(na - 1, i0 + (aval - a0) / (a1 - a0)));
};
trace.b2j = function(bval) {
var j0 = Math.max(0, Math.min(search(bval, b), nb - 2));
var b0 = b[j0];
var b1 = b[j0 + 1];
return Math.max(0, Math.min(nb - 1, j0 + (bval - b0) / (b1 - b0)));
};
trace.ab2ij = function(ab) {
return [trace.a2i(ab[0]), trace.b2j(ab[1])];
};
/*
* Convert from i/j coordinates to x/y caretesian coordinates. This means either bilinear
* or bicubic spline evaluation, but the hard part is already done at this point.
*/
trace.i2c = function(i, j) {
return trace.evalxy([], i, j);
};
trace.ab2xy = function(aval, bval, extrapolate) {
if(!extrapolate && (aval < a[0] || aval > a[na - 1] | bval < b[0] || bval > b[nb - 1])) {
return [false, false];
}
var i = trace.a2i(aval);
var j = trace.b2j(bval);
var pt = trace.evalxy([], i, j);
if(extrapolate) {
// This section uses the boundary derivatives to extrapolate linearly outside
// the defined range. Consider a scatter line with one point inside the carpet
// axis and one point outside. If we don't extrapolate, we can't draw the line
// at all.
var iex = 0;
var jex = 0;
var der = [];
var i0, ti, j0, tj;
if(aval < a[0]) {
i0 = 0;
ti = 0;
iex = (aval - a[0]) / (a[1] - a[0]);
} else if(aval > a[na - 1]) {
i0 = na - 2;
ti = 1;
iex = (aval - a[na - 1]) / (a[na - 1] - a[na - 2]);
} else {
i0 = Math.max(0, Math.min(na - 2, Math.floor(i)));
ti = i - i0;
}
if(bval < b[0]) {
j0 = 0;
tj = 0;
jex = (bval - b[0]) / (b[1] - b[0]);
} else if(bval > b[nb - 1]) {
j0 = nb - 2;
tj = 1;
jex = (bval - b[nb - 1]) / (b[nb - 1] - b[nb - 2]);
} else {
j0 = Math.max(0, Math.min(nb - 2, Math.floor(j)));
tj = j - j0;
}
if(iex) {
trace.dxydi(der, i0, j0, ti, tj);
pt[0] += der[0] * iex;
pt[1] += der[1] * iex;
}
if(jex) {
trace.dxydj(der, i0, j0, ti, tj);
pt[0] += der[0] * jex;
pt[1] += der[1] * jex;
}
}
return pt;
};
trace.c2p = function(xy, xa, ya) {
return [xa.c2p(xy[0]), ya.c2p(xy[1])];
};
trace.p2x = function(p, xa, ya) {
return [xa.p2c(p[0]), ya.p2c(p[1])];
};
trace.dadi = function(i /* , u*/) {
// Right now only a piecewise linear a or b basis is permitted since smoother interpolation
// would cause monotonicity problems. As a retult, u is entirely disregarded in this
// computation, though we'll specify it as a parameter for the sake of completeness and
// future-proofing. It would be possible to use monotonic cubic interpolation, for example.
//
// See: https://en.wikipedia.org/wiki/Monotone_cubic_interpolation
// u = u || 0;
var i0 = Math.max(0, Math.min(a.length - 2, i));
// The step (demoninator) is implicitly 1 since that's the grid spacing.
return a[i0 + 1] - a[i0];
};
trace.dbdj = function(j /* , v*/) {
// See above caveats for dadi which also apply here
var j0 = Math.max(0, Math.min(b.length - 2, j));
// The step (demoninator) is implicitly 1 since that's the grid spacing.
return b[j0 + 1] - b[j0];
};
// Takes: grid cell coordinate (i, j) and fractional grid cell coordinates (u, v)
// Returns: (dx/da, dy/db)
//
// NB: separate grid cell + fractional grid cell coordinate format is due to the discontinuous
// derivative, as described better in create_i_derivative_evaluator.js
trace.dxyda = function(i0, j0, u, v) {
var dxydi = trace.dxydi(null, i0, j0, u, v);
var dadi = trace.dadi(i0, u);
return [dxydi[0] / dadi, dxydi[1] / dadi];
};
trace.dxydb = function(i0, j0, u, v) {
var dxydj = trace.dxydj(null, i0, j0, u, v);
var dbdj = trace.dbdj(j0, v);
return [dxydj[0] / dbdj, dxydj[1] / dbdj];
};
// Sometimes we don't care about precision and all we really want is decent rough
// directions (as is the case with labels). In that case, we can do a very rough finite
// difference and spare having to worry about precise grid coordinates:
trace.dxyda_rough = function(a, b, reldiff) {
var h = arange * (reldiff || 0.1);
var plus = trace.ab2xy(a + h, b, true);
var minus = trace.ab2xy(a - h, b, true);
return [
(plus[0] - minus[0]) * 0.5 / h,
(plus[1] - minus[1]) * 0.5 / h
];
};
trace.dxydb_rough = function(a, b, reldiff) {
var h = brange * (reldiff || 0.1);
var plus = trace.ab2xy(a, b + h, true);
var minus = trace.ab2xy(a, b - h, true);
return [
(plus[0] - minus[0]) * 0.5 / h,
(plus[1] - minus[1]) * 0.5 / h
];
};
trace.dpdx = function(xa) {
return xa._m;
};
trace.dpdy = function(ya) {
return ya._m;
};
};
},{"../../lib/search":713,"./compute_control_points":884,"./constants":885,"./create_i_derivative_evaluator":886,"./create_j_derivative_evaluator":887,"./create_spline_evaluator":888}],897:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
/*
* Given a 2D array as well as a basis in either direction, this function fills in the
* 2D array using a combination of smoothing and extrapolation. This is rather important
* for carpet plots since it's used for layout so that we can't simply omit or blank out
* points. We need a reasonable guess so that the interpolation puts points somewhere
* even if we were to somehow represent that the data was missing later on.
*
* input:
* - data: 2D array of arrays
* - a: array such that a.length === data[0].length
* - b: array such that b.length === data.length
*/
module.exports = function smoothFill2dArray(data, a, b) {
var i, j, k;
var ip = [];
var jp = [];
// var neighborCnts = [];
var ni = data[0].length;
var nj = data.length;
function avgSurrounding(i, j) {
// As a low-quality start, we can simply average surrounding points (in a not
// non-uniform grid aware manner):
var sum = 0.0;
var val;
var cnt = 0;
if(i > 0 && (val = data[j][i - 1]) !== undefined) {
cnt++;
sum += val;
}
if(i < ni - 1 && (val = data[j][i + 1]) !== undefined) {
cnt++;
sum += val;
}
if(j > 0 && (val = data[j - 1][i]) !== undefined) {
cnt++;
sum += val;
}
if(j < nj - 1 && (val = data[j + 1][i]) !== undefined) {
cnt++;
sum += val;
}
return sum / Math.max(1, cnt);
}
// This loop iterates over all cells. Any cells that are null will be noted and those
// are the only points we will loop over and update via laplace's equation. Points with
// any neighbors will receive the average. If there are no neighboring points, then they
// will be set to zero. Also as we go, track the maximum magnitude so that we can scale
// our tolerance accordingly.
var dmax = 0.0;
for(i = 0; i < ni; i++) {
for(j = 0; j < nj; j++) {
if(data[j][i] === undefined) {
ip.push(i);
jp.push(j);
data[j][i] = avgSurrounding(i, j);
// neighborCnts.push(result.neighbors);
}
dmax = Math.max(dmax, Math.abs(data[j][i]));
}
}
if(!ip.length) return data;
// The tolerance doesn't need to be excessive. It's just for display positioning
var dxp, dxm, dap, dam, dbp, dbm, c, d, diff, reldiff, overrelaxation;
var tol = 1e-5;
var resid = 0;
var itermax = 100;
var iter = 0;
var n = ip.length;
do {
resid = 0;
// Normally we'd loop in two dimensions, but not all points are blank and need
// an update, so we instead loop only over the points that were tabulated above
for(k = 0; k < n; k++) {
i = ip[k];
j = jp[k];
// neighborCnt = neighborCnts[k];
// Track a counter for how many contributions there are. We'll use this counter
// to average at the end, which reduces to laplace's equation with neumann boundary
// conditions on the first derivative (second derivative is zero so that we get
// a nice linear extrapolation at the boundaries).
var boundaryCnt = 0;
var newVal = 0;
var d0, d1, x0, x1, i0, j0;
if(i === 0) {
// If this lies along the i = 0 boundary, extrapolate from the two points
// to the right of this point. Note that the finite differences take into
// account non-uniform grid spacing:
i0 = Math.min(ni - 1, 2);
x0 = a[i0];
x1 = a[1];
d0 = data[j][i0];
d1 = data[j][1];
newVal += d1 + (d1 - d0) * (a[0] - x1) / (x1 - x0);
boundaryCnt++;
} else if(i === ni - 1) {
// If along the high i boundary, extrapolate from the two points to the
// left of this point
i0 = Math.max(0, ni - 3);
x0 = a[i0];
x1 = a[ni - 2];
d0 = data[j][i0];
d1 = data[j][ni - 2];
newVal += d1 + (d1 - d0) * (a[ni - 1] - x1) / (x1 - x0);
boundaryCnt++;
}
if((i === 0 || i === ni - 1) && (j > 0 && j < nj - 1)) {
// If along the min(i) or max(i) boundaries, also smooth vertically as long
// as we're not in a corner. Note that the finite differences used here
// are also aware of nonuniform grid spacing:
dxp = b[j + 1] - b[j];
dxm = b[j] - b[j - 1];
newVal += (dxm * data[j + 1][i] + dxp * data[j - 1][i]) / (dxm + dxp);
boundaryCnt++;
}
if(j === 0) {
// If along the j = 0 boundary, extrpolate this point from the two points
// above it
j0 = Math.min(nj - 1, 2);
x0 = b[j0];
x1 = b[1];
d0 = data[j0][i];
d1 = data[1][i];
newVal += d1 + (d1 - d0) * (b[0] - x1) / (x1 - x0);
boundaryCnt++;
} else if(j === nj - 1) {
// Same for the max j boundary from the cells below it:
j0 = Math.max(0, nj - 3);
x0 = b[j0];
x1 = b[nj - 2];
d0 = data[j0][i];
d1 = data[nj - 2][i];
newVal += d1 + (d1 - d0) * (b[nj - 1] - x1) / (x1 - x0);
boundaryCnt++;
}
if((j === 0 || j === nj - 1) && (i > 0 && i < ni - 1)) {
// Now average points to the left/right as long as not in a corner:
dxp = a[i + 1] - a[i];
dxm = a[i] - a[i - 1];
newVal += (dxm * data[j][i + 1] + dxp * data[j][i - 1]) / (dxm + dxp);
boundaryCnt++;
}
if(!boundaryCnt) {
// If none of the above conditions were triggered, then this is an interior
// point and we can just do a laplace equation update. As above, these differences
// are aware of nonuniform grid spacing:
dap = a[i + 1] - a[i];
dam = a[i] - a[i - 1];
dbp = b[j + 1] - b[j];
dbm = b[j] - b[j - 1];
// These are just some useful constants for the iteration, which is perfectly
// straightforward but a little long to derive from f_xx + f_yy = 0.
c = dap * dam * (dap + dam);
d = dbp * dbm * (dbp + dbm);
newVal = (c * (dbm * data[j + 1][i] + dbp * data[j - 1][i]) +
d * (dam * data[j][i + 1] + dap * data[j][i - 1])) /
(d * (dam + dap) + c * (dbm + dbp));
} else {
// If we did have contributions from the boundary conditions, then average
// the result from the various contributions:
newVal /= boundaryCnt;
}
// Jacobi updates are ridiculously slow to converge, so this approach uses a
// Gauss-seidel iteration which is dramatically faster.
diff = newVal - data[j][i];
reldiff = diff / dmax;
resid += reldiff * reldiff;
// Gauss-Seidel-ish iteration, omega chosen based on heuristics and some
// quick tests.
//
// NB: Don't overrelax the boundarie. Otherwise set an overrelaxation factor
// which is a little low but safely optimal-ish:
overrelaxation = boundaryCnt ? 0 : 0.85;
// If there are four non-null neighbors, then we want a simple average without
// overrelaxation. If all the surrouding points are null, then we want the full
// overrelaxation
//
// Based on experiments, this actually seems to slow down convergence just a bit.
// I'll leave it here for reference in case this needs to be revisited, but
// it seems to work just fine without this.
// if (overrelaxation) overrelaxation *= (4 - neighborCnt) / 4;
data[j][i] += diff * (1 + overrelaxation);
}
resid = Math.sqrt(resid);
} while(iter++ < itermax && resid > tol);
Lib.log('Smoother converged to', resid, 'after', iter, 'iterations');
return data;
};
},{"../../lib":693}],898:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isArray1D = _dereq_('../../lib').isArray1D;
module.exports = function handleXYDefaults(traceIn, traceOut, coerce) {
var x = coerce('x');
var hasX = x && x.length;
var y = coerce('y');
var hasY = y && y.length;
if(!hasX && !hasY) return false;
traceOut._cheater = !x;
if((!hasX || isArray1D(x)) && (!hasY || isArray1D(y))) {
var len = hasX ? x.length : Infinity;
if(hasY) len = Math.min(len, y.length);
if(traceOut.a && traceOut.a.length) len = Math.min(len, traceOut.a.length);
if(traceOut.b && traceOut.b.length) len = Math.min(len, traceOut.b.length);
traceOut._length = len;
}
else traceOut._length = null;
return true;
};
},{"../../lib":693}],899:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var scatterGeoAttrs = _dereq_('../scattergeo/attributes');
var colorscaleAttrs = _dereq_('../../components/colorscale/attributes');
var colorbarAttrs = _dereq_('../../components/colorbar/attributes');
var plotAttrs = _dereq_('../../plots/attributes');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var scatterGeoMarkerLineAttrs = scatterGeoAttrs.marker.line;
module.exports = extendFlat({
locations: {
valType: 'data_array',
editType: 'calc',
},
locationmode: scatterGeoAttrs.locationmode,
z: {
valType: 'data_array',
editType: 'calc',
},
text: extendFlat({}, scatterGeoAttrs.text, {
}),
marker: {
line: {
color: scatterGeoMarkerLineAttrs.color,
width: extendFlat({}, scatterGeoMarkerLineAttrs.width, {dflt: 1}),
editType: 'calc'
},
opacity: {
valType: 'number',
arrayOk: true,
min: 0,
max: 1,
dflt: 1,
editType: 'style',
},
editType: 'calc'
},
selected: {
marker: {
opacity: scatterGeoAttrs.selected.marker.opacity,
editType: 'plot'
},
editType: 'plot'
},
unselected: {
marker: {
opacity: scatterGeoAttrs.unselected.marker.opacity,
editType: 'plot'
},
editType: 'plot'
},
hoverinfo: extendFlat({}, plotAttrs.hoverinfo, {
editType: 'calc',
flags: ['location', 'z', 'text', 'name']
})
},
colorscaleAttrs('', {
cLetter: 'z',
editTypeOverride: 'calc'
}),
{colorbar: colorbarAttrs}
);
},{"../../components/colorbar/attributes":568,"../../components/colorscale/attributes":574,"../../lib/extend":682,"../../plots/attributes":739,"../scattergeo/attributes":1072}],900:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var BADNUM = _dereq_('../../constants/numerical').BADNUM;
var colorscaleCalc = _dereq_('../../components/colorscale/calc');
var arraysToCalcdata = _dereq_('../scatter/arrays_to_calcdata');
var calcSelection = _dereq_('../scatter/calc_selection');
module.exports = function calc(gd, trace) {
var len = trace._length;
var calcTrace = new Array(len);
for(var i = 0; i < len; i++) {
var calcPt = calcTrace[i] = {};
var loc = trace.locations[i];
var z = trace.z[i];
calcPt.loc = typeof loc === 'string' ? loc : null;
calcPt.z = isNumeric(z) ? z : BADNUM;
}
arraysToCalcdata(calcTrace, trace);
colorscaleCalc(trace, trace.z, '', 'z');
calcSelection(calcTrace, trace);
return calcTrace;
};
},{"../../components/colorscale/calc":575,"../../constants/numerical":670,"../scatter/arrays_to_calcdata":1031,"../scatter/calc_selection":1034,"fast-isnumeric":213}],901:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var colorscaleDefaults = _dereq_('../../components/colorscale/defaults');
var attributes = _dereq_('./attributes');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
var locations = coerce('locations');
var z = coerce('z');
if(!(locations && locations.length && Lib.isArrayOrTypedArray(z) && z.length)) {
traceOut.visible = false;
return;
}
traceOut._length = Math.min(locations.length, z.length);
coerce('locationmode');
coerce('text');
coerce('marker.line.color');
coerce('marker.line.width');
coerce('marker.opacity');
colorscaleDefaults(
traceIn, traceOut, layout, coerce, {prefix: '', cLetter: 'z'}
);
Lib.coerceSelectionMarkerOpacity(traceOut, coerce);
};
},{"../../components/colorscale/defaults":577,"../../lib":693,"./attributes":899}],902:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function eventData(out, pt) {
out.location = pt.location;
out.z = pt.z;
return out;
};
},{}],903:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Axes = _dereq_('../../plots/cartesian/axes');
var attributes = _dereq_('./attributes');
var fillHoverText = _dereq_('../scatter/fill_hover_text');
module.exports = function hoverPoints(pointData, xval, yval) {
var cd = pointData.cd;
var trace = cd[0].trace;
var geo = pointData.subplot;
var pt, i, j, isInside;
for(i = 0; i < cd.length; i++) {
pt = cd[i];
isInside = false;
if(pt._polygons) {
for(j = 0; j < pt._polygons.length; j++) {
if(pt._polygons[j].contains([xval, yval])) {
isInside = !isInside;
}
// for polygons that cross antimeridian as xval is in [-180, 180]
if(pt._polygons[j].contains([xval + 360, yval])) {
isInside = !isInside;
}
}
if(isInside) break;
}
}
if(!isInside || !pt) return;
pointData.x0 = pointData.x1 = pointData.xa.c2p(pt.ct);
pointData.y0 = pointData.y1 = pointData.ya.c2p(pt.ct);
pointData.index = pt.index;
pointData.location = pt.loc;
pointData.z = pt.z;
makeHoverInfo(pointData, trace, pt, geo.mockAxis);
return [pointData];
};
function makeHoverInfo(pointData, trace, pt, axis) {
var hoverinfo = pt.hi || trace.hoverinfo;
var parts = (hoverinfo === 'all') ?
attributes.hoverinfo.flags :
hoverinfo.split('+');
var hasName = (parts.indexOf('name') !== -1);
var hasLocation = (parts.indexOf('location') !== -1);
var hasZ = (parts.indexOf('z') !== -1);
var hasText = (parts.indexOf('text') !== -1);
var hasIdAsNameLabel = !hasName && hasLocation;
var text = [];
function formatter(val) {
return Axes.tickText(axis, axis.c2l(val), 'hover').text;
}
if(hasIdAsNameLabel) {
pointData.nameOverride = pt.loc;
} else {
if(hasName) pointData.nameOverride = trace.name;
if(hasLocation) text.push(pt.loc);
}
if(hasZ) text.push(formatter(pt.z));
if(hasText) {
fillHoverText(pt, trace, text);
}
pointData.extraText = text.join('<br>');
}
},{"../../plots/cartesian/axes":742,"../scatter/fill_hover_text":1040,"./attributes":899}],904:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Choropleth = {};
Choropleth.attributes = _dereq_('./attributes');
Choropleth.supplyDefaults = _dereq_('./defaults');
Choropleth.colorbar = _dereq_('../heatmap/colorbar');
Choropleth.calc = _dereq_('./calc');
Choropleth.plot = _dereq_('./plot');
Choropleth.style = _dereq_('./style').style;
Choropleth.styleOnSelect = _dereq_('./style').styleOnSelect;
Choropleth.hoverPoints = _dereq_('./hover');
Choropleth.eventData = _dereq_('./event_data');
Choropleth.selectPoints = _dereq_('./select');
Choropleth.moduleType = 'trace';
Choropleth.name = 'choropleth';
Choropleth.basePlotModule = _dereq_('../../plots/geo');
Choropleth.categories = ['geo', 'noOpacity'];
Choropleth.meta = {
};
module.exports = Choropleth;
},{"../../plots/geo":772,"../heatmap/colorbar":945,"./attributes":899,"./calc":900,"./defaults":901,"./event_data":902,"./hover":903,"./plot":905,"./select":906,"./style":907}],905:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Lib = _dereq_('../../lib');
var polygon = _dereq_('../../lib/polygon');
var getTopojsonFeatures = _dereq_('../../lib/topojson_utils').getTopojsonFeatures;
var locationToFeature = _dereq_('../../lib/geo_location_utils').locationToFeature;
var style = _dereq_('./style').style;
module.exports = function plot(gd, geo, calcData) {
for(var i = 0; i < calcData.length; i++) {
calcGeoJSON(calcData[i], geo.topojson);
}
var choroplethLayer = geo.layers.backplot.select('.choroplethlayer');
Lib.makeTraceGroups(choroplethLayer, calcData, 'trace choropleth').each(function(calcTrace) {
var sel = calcTrace[0].node3 = d3.select(this);
var paths = sel.selectAll('path.choroplethlocation')
.data(Lib.identity);
paths.enter().append('path')
.classed('choroplethlocation', true);
paths.exit().remove();
// call style here within topojson request callback
style(gd, calcTrace);
});
};
function calcGeoJSON(calcTrace, topojson) {
var trace = calcTrace[0].trace;
var len = calcTrace.length;
var features = getTopojsonFeatures(trace, topojson);
for(var i = 0; i < len; i++) {
var calcPt = calcTrace[i];
var feature = locationToFeature(trace.locationmode, calcPt.loc, features);
if(!feature) {
calcPt.geojson = null;
continue;
}
calcPt.geojson = feature;
calcPt.ct = feature.properties.ct;
calcPt.index = i;
calcPt._polygons = feature2polygons(feature);
}
}
function feature2polygons(feature) {
var geometry = feature.geometry;
var coords = geometry.coordinates;
var loc = feature.id;
var polygons = [];
var appendPolygon, j, k, m;
function doesCrossAntiMerdian(pts) {
for(var l = 0; l < pts.length - 1; l++) {
if(pts[l][0] > 0 && pts[l + 1][0] < 0) return l;
}
return null;
}
if(loc === 'RUS' || loc === 'FJI') {
// Russia and Fiji have landmasses that cross the antimeridian,
// we need to add +360 to their longitude coordinates, so that
// polygon 'contains' doesn't get confused when crossing the antimeridian.
//
// Note that other countries have polygons on either side of the antimeridian
// (e.g. some Aleutian island for the USA), but those don't confuse
// the 'contains' method; these are skipped here.
appendPolygon = function(_pts) {
var pts;
if(doesCrossAntiMerdian(_pts) === null) {
pts = _pts;
} else {
pts = new Array(_pts.length);
for(m = 0; m < _pts.length; m++) {
// do nut mutate calcdata[i][j].geojson !!
pts[m] = [
_pts[m][0] < 0 ? _pts[m][0] + 360 : _pts[m][0],
_pts[m][1]
];
}
}
polygons.push(polygon.tester(pts));
};
} else if(loc === 'ATA') {
// Antarctica has a landmass that wraps around every longitudes which
// confuses the 'contains' methods.
appendPolygon = function(pts) {
var crossAntiMeridianIndex = doesCrossAntiMerdian(pts);
// polygon that do not cross anti-meridian need no special handling
if(crossAntiMeridianIndex === null) {
return polygons.push(polygon.tester(pts));
}
// stitch polygon by adding pt over South Pole,
// so that it covers the projected region covers all latitudes
//
// Note that the algorithm below only works for polygons that
// start and end on longitude -180 (like the ones built by
// https://github.com/etpinard/sane-topojson).
var stitch = new Array(pts.length + 1);
var si = 0;
for(m = 0; m < pts.length; m++) {
if(m > crossAntiMeridianIndex) {
stitch[si++] = [pts[m][0] + 360, pts[m][1]];
} else if(m === crossAntiMeridianIndex) {
stitch[si++] = pts[m];
stitch[si++] = [pts[m][0], -90];
} else {
stitch[si++] = pts[m];
}
}
// polygon.tester by default appends pt[0] to the points list,
// we must remove it here, to avoid a jump in longitude from 180 to -180,
// that would confuse the 'contains' method
var tester = polygon.tester(stitch);
tester.pts.pop();
polygons.push(tester);
};
} else {
// otherwise using same array ref is fine
appendPolygon = function(pts) {
polygons.push(polygon.tester(pts));
};
}
switch(geometry.type) {
case 'MultiPolygon':
for(j = 0; j < coords.length; j++) {
for(k = 0; k < coords[j].length; k++) {
appendPolygon(coords[j][k]);
}
}
break;
case 'Polygon':
for(j = 0; j < coords.length; j++) {
appendPolygon(coords[j]);
}
break;
}
return polygons;
}
},{"../../lib":693,"../../lib/geo_location_utils":685,"../../lib/polygon":706,"../../lib/topojson_utils":721,"./style":907,"d3":147}],906:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function selectPoints(searchInfo, selectionTester) {
var cd = searchInfo.cd;
var xa = searchInfo.xaxis;
var ya = searchInfo.yaxis;
var selection = [];
var i, di, ct, x, y;
if(selectionTester === false) {
for(i = 0; i < cd.length; i++) {
cd[i].selected = 0;
}
} else {
for(i = 0; i < cd.length; i++) {
di = cd[i];
ct = di.ct;
if(!ct) continue;
x = xa.c2p(ct);
y = ya.c2p(ct);
if(selectionTester.contains([x, y], null, i, searchInfo)) {
selection.push({
pointNumber: i,
lon: ct[0],
lat: ct[1]
});
di.selected = 1;
} else {
di.selected = 0;
}
}
}
return selection;
};
},{}],907:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Color = _dereq_('../../components/color');
var Drawing = _dereq_('../../components/drawing');
var Colorscale = _dereq_('../../components/colorscale');
function style(gd, calcTrace) {
if(calcTrace) styleTrace(gd, calcTrace);
}
function styleTrace(gd, calcTrace) {
var trace = calcTrace[0].trace;
var s = calcTrace[0].node3;
var locs = s.selectAll('.choroplethlocation');
var marker = trace.marker || {};
var markerLine = marker.line || {};
var sclFunc = Colorscale.makeColorScaleFunc(
Colorscale.extractScale(
trace.colorscale,
trace.zmin,
trace.zmax
)
);
locs.each(function(d) {
d3.select(this)
.attr('fill', sclFunc(d.z))
.call(Color.stroke, d.mlc || markerLine.color)
.call(Drawing.dashLine, '', d.mlw || markerLine.width || 0)
.style('opacity', marker.opacity);
});
Drawing.selectedPointStyle(locs, trace, gd);
}
function styleOnSelect(gd, calcTrace) {
var s = calcTrace[0].node3;
var trace = calcTrace[0].trace;
if(trace.selectedpoints) {
Drawing.selectedPointStyle(s.selectAll('.choroplethlocation'), trace, gd);
} else {
styleTrace(gd, calcTrace);
}
}
module.exports = {
style: style,
styleOnSelect: styleOnSelect
};
},{"../../components/color":567,"../../components/colorscale":582,"../../components/drawing":592,"d3":147}],908:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var colorscaleAttrs = _dereq_('../../components/colorscale/attributes');
var colorbarAttrs = _dereq_('../../components/colorbar/attributes');
var mesh3dAttrs = _dereq_('../mesh3d/attributes');
var baseAttrs = _dereq_('../../plots/attributes');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var attrs = {
x: {
valType: 'data_array',
editType: 'calc+clearAxisTypes',
},
y: {
valType: 'data_array',
editType: 'calc+clearAxisTypes',
},
z: {
valType: 'data_array',
editType: 'calc+clearAxisTypes',
},
u: {
valType: 'data_array',
editType: 'calc',
},
v: {
valType: 'data_array',
editType: 'calc',
},
w: {
valType: 'data_array',
editType: 'calc',
},
// TODO add way to specify cone positions independently of the vector field
// provided, similar to MATLAB's coneplot Cx/Cy/Cz meshgrids,
// see https://www.mathworks.com/help/matlab/ref/coneplot.html
//
// Alternatively, if our goal is only to 'fill in gaps' in the vector data,
// we could try to extend the heatmap 'connectgaps' algorithm to 3D.
// From AJ: this particular algorithm which amounts to a Poisson equation,
// both for interpolation and extrapolation - is the right one to use for
// cones too. It makes a field with zero divergence, which is a good
// baseline assumption for vector fields.
//
// cones: {
// // potential attributes to add:
// //
// // - meshmode: 'cartesian-product', 'pts', 'grid'
// //
// // under `meshmode: 'grid'`
// // - (x|y|z)grid.start
// // - (x|y|z)grid.end
// // - (x|y|z)grid.size
//
// x: {
// valType: 'data_array',
// editType: 'calc',
//
// },
// y: {
// valType: 'data_array',
// editType: 'calc',
//
// },
// z: {
// valType: 'data_array',
// editType: 'calc',
//
// },
//
// editType: 'calc',
//
// },
sizemode: {
valType: 'enumerated',
values: ['scaled', 'absolute'],
editType: 'calc',
dflt: 'scaled',
},
sizeref: {
valType: 'number',
editType: 'calc',
min: 0,
},
anchor: {
valType: 'enumerated',
editType: 'calc',
values: ['tip', 'tail', 'cm', 'center'],
dflt: 'cm',
},
text: {
valType: 'string',
dflt: '',
arrayOk: true,
editType: 'calc',
}
};
extendFlat(attrs, colorscaleAttrs('', {
colorAttr: 'u/v/w norm',
showScaleDflt: true,
editTypeOverride: 'calc'
}), {
colorbar: colorbarAttrs
});
var fromMesh3d = ['opacity', 'lightposition', 'lighting'];
fromMesh3d.forEach(function(k) {
attrs[k] = mesh3dAttrs[k];
});
attrs.hoverinfo = extendFlat({}, baseAttrs.hoverinfo, {
editType: 'calc',
flags: ['x', 'y', 'z', 'u', 'v', 'w', 'norm', 'text', 'name'],
dflt: 'x+y+z+norm+text+name'
});
module.exports = attrs;
},{"../../components/colorbar/attributes":568,"../../components/colorscale/attributes":574,"../../lib/extend":682,"../../plots/attributes":739,"../mesh3d/attributes":982}],909:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var colorscaleCalc = _dereq_('../../components/colorscale/calc');
module.exports = function calc(gd, trace) {
var u = trace.u;
var v = trace.v;
var w = trace.w;
var len = Math.min(
trace.x.length, trace.y.length, trace.z.length,
u.length, v.length, w.length
);
var normMax = -Infinity;
var normMin = Infinity;
for(var i = 0; i < len; i++) {
var uu = u[i];
var vv = v[i];
var ww = w[i];
var norm = Math.sqrt(uu * uu + vv * vv + ww * ww);
normMax = Math.max(normMax, norm);
normMin = Math.min(normMin, norm);
}
trace._len = len;
trace._normMax = normMax;
colorscaleCalc(trace, [normMin, normMax], '', 'c');
};
},{"../../components/colorscale/calc":575}],910:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var conePlot = _dereq_('gl-cone3d');
var createConeMesh = _dereq_('gl-cone3d').createConeMesh;
var simpleMap = _dereq_('../../lib').simpleMap;
var parseColorScale = _dereq_('../../lib/gl_format_color').parseColorScale;
var zip3 = _dereq_('../../plots/gl3d/zip3');
function Cone(scene, uid) {
this.scene = scene;
this.uid = uid;
this.mesh = null;
this.data = null;
}
var proto = Cone.prototype;
proto.handlePick = function(selection) {
if(selection.object === this.mesh) {
var selectIndex = selection.index = selection.data.index;
var xx = this.data.x[selectIndex];
var yy = this.data.y[selectIndex];
var zz = this.data.z[selectIndex];
var uu = this.data.u[selectIndex];
var vv = this.data.v[selectIndex];
var ww = this.data.w[selectIndex];
selection.traceCoordinate = [
xx, yy, zz,
uu, vv, ww,
Math.sqrt(uu * uu + vv * vv + ww * ww)
];
var text = this.data.text;
if(Array.isArray(text) && text[selectIndex] !== undefined) {
selection.textLabel = text[selectIndex];
} else if(text) {
selection.textLabel = text;
}
return true;
}
};
var axisName2scaleIndex = {xaxis: 0, yaxis: 1, zaxis: 2};
var anchor2coneOffset = {tip: 1, tail: 0, cm: 0.25, center: 0.5};
var anchor2coneSpan = {tip: 1, tail: 1, cm: 0.75, center: 0.5};
function convert(scene, trace) {
var sceneLayout = scene.fullSceneLayout;
var dataScale = scene.dataScale;
var coneOpts = {};
function toDataCoords(arr, axisName) {
var ax = sceneLayout[axisName];
var scale = dataScale[axisName2scaleIndex[axisName]];
return simpleMap(arr, function(v) { return ax.d2l(v) * scale; });
}
coneOpts.vectors = zip3(
toDataCoords(trace.u, 'xaxis'),
toDataCoords(trace.v, 'yaxis'),
toDataCoords(trace.w, 'zaxis'),
trace._len
);
coneOpts.positions = zip3(
toDataCoords(trace.x, 'xaxis'),
toDataCoords(trace.y, 'yaxis'),
toDataCoords(trace.z, 'zaxis'),
trace._len
);
coneOpts.colormap = parseColorScale(trace.colorscale);
coneOpts.vertexIntensityBounds = [trace.cmin / trace._normMax, trace.cmax / trace._normMax];
coneOpts.coneOffset = anchor2coneOffset[trace.anchor];
if(trace.sizemode === 'scaled') {
// unitless sizeref
coneOpts.coneSize = trace.sizeref || 0.5;
} else {
// sizeref here has unit of velocity
coneOpts.coneSize = trace.sizeref && trace._normMax ?
trace.sizeref / trace._normMax :
0.5;
}
var meshData = conePlot(coneOpts);
// pass gl-mesh3d lighting attributes
var lp = trace.lightposition;
meshData.lightPosition = [lp.x, lp.y, lp.z];
meshData.ambient = trace.lighting.ambient;
meshData.diffuse = trace.lighting.diffuse;
meshData.specular = trace.lighting.specular;
meshData.roughness = trace.lighting.roughness;
meshData.fresnel = trace.lighting.fresnel;
meshData.opacity = trace.opacity;
// stash autorange pad value
trace._pad = anchor2coneSpan[trace.anchor] * meshData.vectorScale * meshData.coneScale * trace._normMax;
return meshData;
}
proto.update = function(data) {
this.data = data;
var meshData = convert(this.scene, data);
this.mesh.update(meshData);
};
proto.dispose = function() {
this.scene.glplot.remove(this.mesh);
this.mesh.dispose();
};
function createConeTrace(scene, data) {
var gl = scene.glplot.gl;
var meshData = convert(scene, data);
var mesh = createConeMesh(gl, meshData);
var cone = new Cone(scene, data.uid);
cone.mesh = mesh;
cone.data = data;
mesh._trace = cone;
scene.glplot.add(mesh);
return cone;
}
module.exports = createConeTrace;
},{"../../lib":693,"../../lib/gl_format_color":689,"../../plots/gl3d/zip3":795,"gl-cone3d":230}],911:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var colorscaleDefaults = _dereq_('../../components/colorscale/defaults');
var attributes = _dereq_('./attributes');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
var u = coerce('u');
var v = coerce('v');
var w = coerce('w');
var x = coerce('x');
var y = coerce('y');
var z = coerce('z');
if(
!u || !u.length || !v || !v.length || !w || !w.length ||
!x || !x.length || !y || !y.length || !z || !z.length
) {
traceOut.visible = false;
return;
}
coerce('sizeref');
coerce('sizemode');
coerce('anchor');
coerce('lighting.ambient');
coerce('lighting.diffuse');
coerce('lighting.specular');
coerce('lighting.roughness');
coerce('lighting.fresnel');
coerce('lightposition.x');
coerce('lightposition.y');
coerce('lightposition.z');
colorscaleDefaults(traceIn, traceOut, layout, coerce, {prefix: '', cLetter: 'c'});
coerce('text');
// disable 1D transforms (for now)
traceOut._length = null;
};
},{"../../components/colorscale/defaults":577,"../../lib":693,"./attributes":908}],912:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
moduleType: 'trace',
name: 'cone',
basePlotModule: _dereq_('../../plots/gl3d'),
categories: ['gl3d'],
attributes: _dereq_('./attributes'),
supplyDefaults: _dereq_('./defaults'),
colorbar: {
min: 'cmin',
max: 'cmax'
},
calc: _dereq_('./calc'),
plot: _dereq_('./convert'),
meta: {
}
};
},{"../../plots/gl3d":784,"./attributes":908,"./calc":909,"./convert":910,"./defaults":911}],913:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var heatmapAttrs = _dereq_('../heatmap/attributes');
var scatterAttrs = _dereq_('../scatter/attributes');
var colorscaleAttrs = _dereq_('../../components/colorscale/attributes');
var colorbarAttrs = _dereq_('../../components/colorbar/attributes');
var dash = _dereq_('../../components/drawing/attributes').dash;
var fontAttrs = _dereq_('../../plots/font_attributes');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var filterOps = _dereq_('../../constants/filter_ops');
var COMPARISON_OPS2 = filterOps.COMPARISON_OPS2;
var INTERVAL_OPS = filterOps.INTERVAL_OPS;
var scatterLineAttrs = scatterAttrs.line;
module.exports = extendFlat({
z: heatmapAttrs.z,
x: heatmapAttrs.x,
x0: heatmapAttrs.x0,
dx: heatmapAttrs.dx,
y: heatmapAttrs.y,
y0: heatmapAttrs.y0,
dy: heatmapAttrs.dy,
text: heatmapAttrs.text,
transpose: heatmapAttrs.transpose,
xtype: heatmapAttrs.xtype,
ytype: heatmapAttrs.ytype,
zhoverformat: heatmapAttrs.zhoverformat,
connectgaps: heatmapAttrs.connectgaps,
fillcolor: {
valType: 'color',
editType: 'calc',
},
autocontour: {
valType: 'boolean',
dflt: true,
editType: 'calc',
impliedEdits: {
'contours.start': undefined,
'contours.end': undefined,
'contours.size': undefined
},
},
ncontours: {
valType: 'integer',
dflt: 15,
min: 1,
editType: 'calc',
},
contours: {
type: {
valType: 'enumerated',
values: ['levels', 'constraint'],
dflt: 'levels',
editType: 'calc',
},
start: {
valType: 'number',
dflt: null,
editType: 'plot',
impliedEdits: {'^autocontour': false},
},
end: {
valType: 'number',
dflt: null,
editType: 'plot',
impliedEdits: {'^autocontour': false},
},
size: {
valType: 'number',
dflt: null,
min: 0,
editType: 'plot',
impliedEdits: {'^autocontour': false},
},
coloring: {
valType: 'enumerated',
values: ['fill', 'heatmap', 'lines', 'none'],
dflt: 'fill',
editType: 'calc',
},
showlines: {
valType: 'boolean',
dflt: true,
editType: 'plot',
},
showlabels: {
valType: 'boolean',
dflt: false,
editType: 'plot',
},
labelfont: fontAttrs({
editType: 'plot',
colorEditType: 'style',
}),
labelformat: {
valType: 'string',
dflt: '',
editType: 'plot',
},
operation: {
valType: 'enumerated',
values: [].concat(COMPARISON_OPS2).concat(INTERVAL_OPS),
dflt: '=',
editType: 'calc',
},
value: {
valType: 'any',
dflt: 0,
editType: 'calc',
},
editType: 'calc',
impliedEdits: {'autocontour': false}
},
line: {
color: extendFlat({}, scatterLineAttrs.color, {
editType: 'style+colorbars',
}),
width: extendFlat({}, scatterLineAttrs.width, {
editType: 'style+colorbars'
}),
dash: dash,
smoothing: extendFlat({}, scatterLineAttrs.smoothing, {
}),
editType: 'plot'
}
},
colorscaleAttrs('', {
cLetter: 'z',
autoColorDflt: false,
editTypeOverride: 'calc'
}),
{ colorbar: colorbarAttrs }
);
},{"../../components/colorbar/attributes":568,"../../components/colorscale/attributes":574,"../../components/drawing/attributes":591,"../../constants/filter_ops":666,"../../lib/extend":682,"../../plots/font_attributes":768,"../heatmap/attributes":942,"../scatter/attributes":1032}],914:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var heatmapCalc = _dereq_('../heatmap/calc');
var setContours = _dereq_('./set_contours');
// most is the same as heatmap calc, then adjust it
// though a few things inside heatmap calc still look for
// contour maps, because the makeBoundArray calls are too entangled
module.exports = function calc(gd, trace) {
var cd = heatmapCalc(gd, trace);
setContours(trace);
return cd;
};
},{"../heatmap/calc":943,"./set_contours":932}],915:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function(pathinfo, operation, perimeter, trace) {
// Abandon all hope, ye who enter here.
var i, v1, v2;
var pi0 = pathinfo[0];
var na = pi0.x.length;
var nb = pi0.y.length;
var z = pi0.z;
var contours = trace.contours;
var boundaryMax = -Infinity;
var boundaryMin = Infinity;
for(i = 0; i < nb; i++) {
boundaryMin = Math.min(boundaryMin, z[i][0]);
boundaryMin = Math.min(boundaryMin, z[i][na - 1]);
boundaryMax = Math.max(boundaryMax, z[i][0]);
boundaryMax = Math.max(boundaryMax, z[i][na - 1]);
}
for(i = 1; i < na - 1; i++) {
boundaryMin = Math.min(boundaryMin, z[0][i]);
boundaryMin = Math.min(boundaryMin, z[nb - 1][i]);
boundaryMax = Math.max(boundaryMax, z[0][i]);
boundaryMax = Math.max(boundaryMax, z[nb - 1][i]);
}
pi0.prefixBoundary = false;
switch(operation) {
case '>':
if(contours.value > boundaryMax) {
pi0.prefixBoundary = true;
}
break;
case '<':
if(contours.value < boundaryMin) {
pi0.prefixBoundary = true;
}
break;
case '[]':
v1 = Math.min.apply(null, contours.value);
v2 = Math.max.apply(null, contours.value);
if(v2 < boundaryMin || v1 > boundaryMax) {
pi0.prefixBoundary = true;
}
break;
case '][':
v1 = Math.min.apply(null, contours.value);
v2 = Math.max.apply(null, contours.value);
if(v1 < boundaryMin && v2 > boundaryMax) {
pi0.prefixBoundary = true;
}
break;
}
};
},{}],916:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var drawColorbar = _dereq_('../../components/colorbar/draw');
var makeColorMap = _dereq_('./make_color_map');
var endPlus = _dereq_('./end_plus');
module.exports = function colorbar(gd, cd) {
var trace = cd[0].trace;
var cbId = 'cb' + trace.uid;
gd._fullLayout._infolayer.selectAll('.' + cbId).remove();
if(!trace.showscale) return;
var cb = cd[0].t.cb = drawColorbar(gd, cbId);
var contours = trace.contours;
var line = trace.line;
var cs = contours.size || 1;
var coloring = contours.coloring;
var colorMap = makeColorMap(trace, {isColorbar: true});
cb.fillgradient(coloring === 'heatmap' ? trace.colorscale : '')
.zrange(coloring === 'heatmap' ? [trace.zmin, trace.zmax] : '')
.fillcolor((coloring === 'fill') ? colorMap : '')
.line({
color: coloring === 'lines' ? colorMap : line.color,
width: contours.showlines !== false ? line.width : 0,
dash: line.dash
})
.levels({
start: contours.start,
end: endPlus(contours),
size: cs
})
.options(trace.colorbar)();
};
},{"../../components/colorbar/draw":572,"./end_plus":924,"./make_color_map":929}],917:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
// some constants to help with marching squares algorithm
// where does the path start for each index?
BOTTOMSTART: [1, 9, 13, 104, 713],
TOPSTART: [4, 6, 7, 104, 713],
LEFTSTART: [8, 12, 14, 208, 1114],
RIGHTSTART: [2, 3, 11, 208, 1114],
// which way [dx,dy] do we leave a given index?
// saddles are already disambiguated
NEWDELTA: [
null, [-1, 0], [0, -1], [-1, 0],
[1, 0], null, [0, -1], [-1, 0],
[0, 1], [0, 1], null, [0, 1],
[1, 0], [1, 0], [0, -1]
],
// for each saddle, the first index here is used
// for dx||dy<0, the second for dx||dy>0
CHOOSESADDLE: {
104: [4, 1],
208: [2, 8],
713: [7, 13],
1114: [11, 14]
},
// after one index has been used for a saddle, which do we
// substitute to be used up later?
SADDLEREMAINDER: {1: 4, 2: 8, 4: 1, 7: 13, 8: 2, 11: 14, 13: 7, 14: 11},
// length of a contour, as a multiple of the plot area diagonal, per label
LABELDISTANCE: 2,
// number of contour levels after which we start increasing the number of
// labels we draw. Many contours means they will generally be close
// together, so it will be harder to follow a long way to find a label
LABELINCREASE: 10,
// minimum length of a contour line, as a multiple of the label length,
// at which we draw *any* labels
LABELMIN: 3,
// max number of labels to draw on a single contour path, no matter how long
LABELMAX: 10,
// constants for the label position cost function
LABELOPTIMIZER: {
// weight given to edge proximity
EDGECOST: 1,
// weight given to the angle off horizontal
ANGLECOST: 1,
// weight given to distance from already-placed labels
NEIGHBORCOST: 5,
// cost multiplier for labels on the same level
SAMELEVELFACTOR: 10,
// minimum distance (as a multiple of the label length)
// for labels on the same level
SAMELEVELDISTANCE: 5,
// maximum cost before we won't even place the label
MAXCOST: 100,
// number of evenly spaced points to look at in the first
// iteration of the search
INITIALSEARCHPOINTS: 10,
// number of binary search iterations after the initial wide search
ITERATIONS: 5
}
};
},{}],918:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var handleLabelDefaults = _dereq_('./label_defaults');
var Color = _dereq_('../../components/color');
var addOpacity = Color.addOpacity;
var opacity = Color.opacity;
var filterOps = _dereq_('../../constants/filter_ops');
var CONSTRAINT_REDUCTION = filterOps.CONSTRAINT_REDUCTION;
var COMPARISON_OPS2 = filterOps.COMPARISON_OPS2;
module.exports = function handleConstraintDefaults(traceIn, traceOut, coerce, layout, defaultColor, opts) {
var contours = traceOut.contours;
var showLines, lineColor, fillColor;
var operation = coerce('contours.operation');
contours._operation = CONSTRAINT_REDUCTION[operation];
handleConstraintValueDefaults(coerce, contours);
if(operation === '=') {
showLines = contours.showlines = true;
}
else {
showLines = coerce('contours.showlines');
fillColor = coerce('fillcolor', addOpacity(
(traceIn.line || {}).color || defaultColor, 0.5
));
}
if(showLines) {
var lineDfltColor = fillColor && opacity(fillColor) ?
addOpacity(traceOut.fillcolor, 1) :
defaultColor;
lineColor = coerce('line.color', lineDfltColor);
coerce('line.width', 2);
coerce('line.dash');
}
coerce('line.smoothing');
handleLabelDefaults(coerce, layout, lineColor, opts);
};
function handleConstraintValueDefaults(coerce, contours) {
var zvalue;
if(COMPARISON_OPS2.indexOf(contours.operation) === -1) {
// Requires an array of two numbers:
coerce('contours.value', [0, 1]);
if(!Array.isArray(contours.value)) {
if(isNumeric(contours.value)) {
zvalue = parseFloat(contours.value);
contours.value = [zvalue, zvalue + 1];
}
} else if(contours.value.length > 2) {
contours.value = contours.value.slice(2);
} else if(contours.length === 0) {
contours.value = [0, 1];
} else if(contours.length < 2) {
zvalue = parseFloat(contours.value[0]);
contours.value = [zvalue, zvalue + 1];
} else {
contours.value = [
parseFloat(contours.value[0]),
parseFloat(contours.value[1])
];
}
} else {
// Requires a single scalar:
coerce('contours.value', 0);
if(!isNumeric(contours.value)) {
if(Array.isArray(contours.value)) {
contours.value = parseFloat(contours.value[0]);
} else {
contours.value = 0;
}
}
}
}
},{"../../components/color":567,"../../constants/filter_ops":666,"./label_defaults":928,"fast-isnumeric":213}],919:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var filterOps = _dereq_('../../constants/filter_ops');
var isNumeric = _dereq_('fast-isnumeric');
// This syntax conforms to the existing filter transform syntax, but we don't care
// about open vs. closed intervals for simply drawing contours constraints:
module.exports = {
'[]': makeRangeSettings('[]'),
'][': makeRangeSettings(']['),
'>': makeInequalitySettings('>'),
'<': makeInequalitySettings('<'),
'=': makeInequalitySettings('=')
};
// This does not in any way shape or form support calendars. It's adapted from
// transforms/filter.js.
function coerceValue(operation, value) {
var hasArrayValue = Array.isArray(value);
var coercedValue;
function coerce(value) {
return isNumeric(value) ? (+value) : null;
}
if(filterOps.COMPARISON_OPS2.indexOf(operation) !== -1) {
coercedValue = hasArrayValue ? coerce(value[0]) : coerce(value);
} else if(filterOps.INTERVAL_OPS.indexOf(operation) !== -1) {
coercedValue = hasArrayValue ?
[coerce(value[0]), coerce(value[1])] :
[coerce(value), coerce(value)];
} else if(filterOps.SET_OPS.indexOf(operation) !== -1) {
coercedValue = hasArrayValue ? value.map(coerce) : [coerce(value)];
}
return coercedValue;
}
// Returns a parabola scaled so that the min/max is either +/- 1 and zero at the two values
// provided. The data is mapped by this function when constructing intervals so that it's
// very easy to construct contours as normal.
function makeRangeSettings(operation) {
return function(value) {
value = coerceValue(operation, value);
// Ensure proper ordering:
var min = Math.min(value[0], value[1]);
var max = Math.max(value[0], value[1]);
return {
start: min,
end: max,
size: max - min
};
};
}
function makeInequalitySettings(operation) {
return function(value) {
value = coerceValue(operation, value);
return {
start: value,
end: Infinity,
size: Infinity
};
};
}
},{"../../constants/filter_ops":666,"fast-isnumeric":213}],920:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function handleContourDefaults(traceIn, traceOut, coerce, coerce2) {
var contourStart = coerce2('contours.start');
var contourEnd = coerce2('contours.end');
var missingEnd = (contourStart === false) || (contourEnd === false);
// normally we only need size if autocontour is off. But contour.calc
// pushes its calculated contour size back to the input trace, so for
// things like restyle that can call supplyDefaults without calc
// after the initial draw, we can just reuse the previous calculation
var contourSize = coerce('contours.size');
var autoContour;
if(missingEnd) autoContour = traceOut.autocontour = true;
else autoContour = coerce('autocontour', false);
if(autoContour || !contourSize) coerce('ncontours');
};
},{}],921:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
// The contour extraction is great, except it totally fails for constraints because we
// need weird range loops and flipped contours instead of the usual format. This function
// does some weird manipulation of the extracted pathinfo data such that it magically
// draws contours correctly *as* constraints.
module.exports = function(pathinfo, operation) {
var i, pi0, pi1;
var op0 = function(arr) { return arr.reverse(); };
var op1 = function(arr) { return arr; };
switch(operation) {
case '=':
case '<':
return pathinfo;
case '>':
if(pathinfo.length !== 1) {
Lib.warn('Contour data invalid for the specified inequality operation.');
}
// In this case there should be exactly two contour levels in pathinfo. We
// simply concatenate the info into one pathinfo and flip all of the data
// in one. This will draw the contour as closed.
pi0 = pathinfo[0];
for(i = 0; i < pi0.edgepaths.length; i++) {
pi0.edgepaths[i] = op0(pi0.edgepaths[i]);
}
for(i = 0; i < pi0.paths.length; i++) {
pi0.paths[i] = op0(pi0.paths[i]);
}
return pathinfo;
case '][':
var tmp = op0;
op0 = op1;
op1 = tmp;
// It's a nice rule, except this definitely *is* what's intended here.
/* eslint-disable: no-fallthrough */
case '[]':
/* eslint-enable: no-fallthrough */
if(pathinfo.length !== 2) {
Lib.warn('Contour data invalid for the specified inequality range operation.');
}
// In this case there should be exactly two contour levels in pathinfo. We
// simply concatenate the info into one pathinfo and flip all of the data
// in one. This will draw the contour as closed.
pi0 = copyPathinfo(pathinfo[0]);
pi1 = copyPathinfo(pathinfo[1]);
for(i = 0; i < pi0.edgepaths.length; i++) {
pi0.edgepaths[i] = op0(pi0.edgepaths[i]);
}
for(i = 0; i < pi0.paths.length; i++) {
pi0.paths[i] = op0(pi0.paths[i]);
}
while(pi1.edgepaths.length) {
pi0.edgepaths.push(op1(pi1.edgepaths.shift()));
}
while(pi1.paths.length) {
pi0.paths.push(op1(pi1.paths.shift()));
}
return [pi0];
}
};
function copyPathinfo(pi) {
return Lib.extendFlat({}, pi, {
edgepaths: Lib.extendDeep([], pi.edgepaths),
paths: Lib.extendDeep([], pi.paths)
});
}
},{"../../lib":693}],922:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var handleXYZDefaults = _dereq_('../heatmap/xyz_defaults');
var handleConstraintDefaults = _dereq_('./constraint_defaults');
var handleContoursDefaults = _dereq_('./contours_defaults');
var handleStyleDefaults = _dereq_('./style_defaults');
var attributes = _dereq_('./attributes');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
function coerce2(attr) {
return Lib.coerce2(traceIn, traceOut, attributes, attr);
}
var len = handleXYZDefaults(traceIn, traceOut, coerce, layout);
if(!len) {
traceOut.visible = false;
return;
}
coerce('text');
var isConstraint = (coerce('contours.type') === 'constraint');
coerce('connectgaps', Lib.isArray1D(traceOut.z));
if(isConstraint) {
handleConstraintDefaults(traceIn, traceOut, coerce, layout, defaultColor);
}
else {
handleContoursDefaults(traceIn, traceOut, coerce, coerce2);
handleStyleDefaults(traceIn, traceOut, coerce, layout);
}
};
},{"../../lib":693,"../heatmap/xyz_defaults":957,"./attributes":913,"./constraint_defaults":918,"./contours_defaults":920,"./style_defaults":934}],923:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var constraintMapping = _dereq_('./constraint_mapping');
var endPlus = _dereq_('./end_plus');
module.exports = function emptyPathinfo(contours, plotinfo, cd0) {
var contoursFinal = (contours.type === 'constraint') ?
constraintMapping[contours._operation](contours.value) :
contours;
var cs = contoursFinal.size;
var pathinfo = [];
var end = endPlus(contoursFinal);
var carpet = cd0.trace._carpetTrace;
var basePathinfo = carpet ? {
// store axes so we can convert to px
xaxis: carpet.aaxis,
yaxis: carpet.baxis,
// full data arrays to use for interpolation
x: cd0.a,
y: cd0.b
} : {
xaxis: plotinfo.xaxis,
yaxis: plotinfo.yaxis,
x: cd0.x,
y: cd0.y
};
for(var ci = contoursFinal.start; ci < end; ci += cs) {
pathinfo.push(Lib.extendFlat({
level: ci,
// all the cells with nontrivial marching index
crossings: {},
// starting points on the edges of the lattice for each contour
starts: [],
// all unclosed paths (may have less items than starts,
// if a path is closed by rounding)
edgepaths: [],
// all closed paths
paths: [],
z: cd0.z,
smoothing: cd0.trace.line.smoothing
}, basePathinfo));
if(pathinfo.length > 1000) {
Lib.warn('Too many contours, clipping at 1000', contours);
break;
}
}
return pathinfo;
};
},{"../../lib":693,"./constraint_mapping":919,"./end_plus":924}],924:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/*
* tiny helper to move the end of the contours a little to prevent
* losing the last contour to rounding errors
*/
module.exports = function endPlus(contours) {
return contours.end + contours.size / 1e6;
};
},{}],925:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var constants = _dereq_('./constants');
module.exports = function findAllPaths(pathinfo, xtol, ytol) {
var cnt,
startLoc,
i,
pi,
j;
// Default just passes these values through as they were before:
xtol = xtol || 0.01;
ytol = ytol || 0.01;
for(i = 0; i < pathinfo.length; i++) {
pi = pathinfo[i];
for(j = 0; j < pi.starts.length; j++) {
startLoc = pi.starts[j];
makePath(pi, startLoc, 'edge', xtol, ytol);
}
cnt = 0;
while(Object.keys(pi.crossings).length && cnt < 10000) {
cnt++;
startLoc = Object.keys(pi.crossings)[0].split(',').map(Number);
makePath(pi, startLoc, undefined, xtol, ytol);
}
if(cnt === 10000) Lib.log('Infinite loop in contour?');
}
};
function equalPts(pt1, pt2, xtol, ytol) {
return Math.abs(pt1[0] - pt2[0]) < xtol &&
Math.abs(pt1[1] - pt2[1]) < ytol;
}
// distance in index units - uses the 3rd and 4th items in points
function ptDist(pt1, pt2) {
var dx = pt1[2] - pt2[2],
dy = pt1[3] - pt2[3];
return Math.sqrt(dx * dx + dy * dy);
}
function makePath(pi, loc, edgeflag, xtol, ytol) {
var startLocStr = loc.join(',');
var locStr = startLocStr;
var mi = pi.crossings[locStr];
var marchStep = startStep(mi, edgeflag, loc);
// start by going backward a half step and finding the crossing point
var pts = [getInterpPx(pi, loc, [-marchStep[0], -marchStep[1]])];
var startStepStr = marchStep.join(',');
var m = pi.z.length;
var n = pi.z[0].length;
var cnt;
// now follow the path
for(cnt = 0; cnt < 10000; cnt++) { // just to avoid infinite loops
if(mi > 20) {
mi = constants.CHOOSESADDLE[mi][(marchStep[0] || marchStep[1]) < 0 ? 0 : 1];
pi.crossings[locStr] = constants.SADDLEREMAINDER[mi];
}
else {
delete pi.crossings[locStr];
}
marchStep = constants.NEWDELTA[mi];
if(!marchStep) {
Lib.log('Found bad marching index:', mi, loc, pi.level);
break;
}
// find the crossing a half step forward, and then take the full step
pts.push(getInterpPx(pi, loc, marchStep));
loc[0] += marchStep[0];
loc[1] += marchStep[1];
// don't include the same point multiple times
if(equalPts(pts[pts.length - 1], pts[pts.length - 2], xtol, ytol)) pts.pop();
locStr = loc.join(',');
var atEdge = (marchStep[0] && (loc[0] < 0 || loc[0] > n - 2)) ||
(marchStep[1] && (loc[1] < 0 || loc[1] > m - 2)),
closedLoop = (locStr === startLocStr) && (marchStep.join(',') === startStepStr);
// have we completed a loop, or reached an edge?
if((closedLoop) || (edgeflag && atEdge)) break;
mi = pi.crossings[locStr];
}
if(cnt === 10000) {
Lib.log('Infinite loop in contour?');
}
var closedpath = equalPts(pts[0], pts[pts.length - 1], xtol, ytol);
var totaldist = 0;
var distThresholdFactor = 0.2 * pi.smoothing;
var alldists = [];
var cropstart = 0;
var distgroup, cnt2, cnt3, newpt, ptcnt, ptavg, thisdist,
i, j, edgepathi, edgepathj;
/*
* Check for points that are too close together (<1/5 the average dist
* *in grid index units* (important for log axes and nonuniform grids),
* less if less smoothed) and just take the center (or avg of center 2).
* This cuts down on funny behavior when a point is very close to a
* contour level.
*/
for(cnt = 1; cnt < pts.length; cnt++) {
thisdist = ptDist(pts[cnt], pts[cnt - 1]);
totaldist += thisdist;
alldists.push(thisdist);
}
var distThreshold = totaldist / alldists.length * distThresholdFactor;
function getpt(i) { return pts[i % pts.length]; }
for(cnt = pts.length - 2; cnt >= cropstart; cnt--) {
distgroup = alldists[cnt];
if(distgroup < distThreshold) {
cnt3 = 0;
for(cnt2 = cnt - 1; cnt2 >= cropstart; cnt2--) {
if(distgroup + alldists[cnt2] < distThreshold) {
distgroup += alldists[cnt2];
}
else break;
}
// closed path with close points wrapping around the boundary?
if(closedpath && cnt === pts.length - 2) {
for(cnt3 = 0; cnt3 < cnt2; cnt3++) {
if(distgroup + alldists[cnt3] < distThreshold) {
distgroup += alldists[cnt3];
}
else break;
}
}
ptcnt = cnt - cnt2 + cnt3 + 1;
ptavg = Math.floor((cnt + cnt2 + cnt3 + 2) / 2);
// either endpoint included: keep the endpoint
if(!closedpath && cnt === pts.length - 2) newpt = pts[pts.length - 1];
else if(!closedpath && cnt2 === -1) newpt = pts[0];
// odd # of points - just take the central one
else if(ptcnt % 2) newpt = getpt(ptavg);
// even # of pts - average central two
else {
newpt = [(getpt(ptavg)[0] + getpt(ptavg + 1)[0]) / 2,
(getpt(ptavg)[1] + getpt(ptavg + 1)[1]) / 2];
}
pts.splice(cnt2 + 1, cnt - cnt2 + 1, newpt);
cnt = cnt2 + 1;
if(cnt3) cropstart = cnt3;
if(closedpath) {
if(cnt === pts.length - 2) pts[cnt3] = pts[pts.length - 1];
else if(cnt === 0) pts[pts.length - 1] = pts[0];
}
}
}
pts.splice(0, cropstart);
// done with the index parts - remove them so path generation works right
// because it depends on only having [xpx, ypx]
for(cnt = 0; cnt < pts.length; cnt++) pts[cnt].length = 2;
// don't return single-point paths (ie all points were the same
// so they got deleted?)
if(pts.length < 2) return;
else if(closedpath) {
pts.pop();
pi.paths.push(pts);
}
else {
if(!edgeflag) {
Lib.log('Unclosed interior contour?',
pi.level, startLocStr, pts.join('L'));
}
// edge path - does it start where an existing edge path ends, or vice versa?
var merged = false;
for(i = 0; i < pi.edgepaths.length; i++) {
edgepathi = pi.edgepaths[i];
if(!merged && equalPts(edgepathi[0], pts[pts.length - 1], xtol, ytol)) {
pts.pop();
merged = true;
// now does it ALSO meet the end of another (or the same) path?
var doublemerged = false;
for(j = 0; j < pi.edgepaths.length; j++) {
edgepathj = pi.edgepaths[j];
if(equalPts(edgepathj[edgepathj.length - 1], pts[0], xtol, ytol)) {
doublemerged = true;
pts.shift();
pi.edgepaths.splice(i, 1);
if(j === i) {
// the path is now closed
pi.paths.push(pts.concat(edgepathj));
}
else {
if(j > i) j--;
pi.edgepaths[j] = edgepathj.concat(pts, edgepathi);
}
break;
}
}
if(!doublemerged) {
pi.edgepaths[i] = pts.concat(edgepathi);
}
}
}
for(i = 0; i < pi.edgepaths.length; i++) {
if(merged) break;
edgepathi = pi.edgepaths[i];
if(equalPts(edgepathi[edgepathi.length - 1], pts[0], xtol, ytol)) {
pts.shift();
pi.edgepaths[i] = edgepathi.concat(pts);
merged = true;
}
}
if(!merged) pi.edgepaths.push(pts);
}
}
// special function to get the marching step of the
// first point in the path (leading to loc)
function startStep(mi, edgeflag, loc) {
var dx = 0,
dy = 0;
if(mi > 20 && edgeflag) {
// these saddles start at +/- x
if(mi === 208 || mi === 1114) {
// if we're starting at the left side, we must be going right
dx = loc[0] === 0 ? 1 : -1;
}
else {
// if we're starting at the bottom, we must be going up
dy = loc[1] === 0 ? 1 : -1;
}
}
else if(constants.BOTTOMSTART.indexOf(mi) !== -1) dy = 1;
else if(constants.LEFTSTART.indexOf(mi) !== -1) dx = 1;
else if(constants.TOPSTART.indexOf(mi) !== -1) dy = -1;
else dx = -1;
return [dx, dy];
}
/*
* Find the pixel coordinates of a particular crossing
*
* @param {object} pi: the pathinfo object at this level
* @param {array} loc: the grid index [x, y] of the crossing
* @param {array} step: the direction [dx, dy] we're moving on the grid
*
* @return {array} [xpx, ypx, xi, yi]: the first two are the pixel location,
* the next two are the interpolated grid indices, which we use for
* distance calculations to delete points that are too close together.
* This is important when the grid is nonuniform (and most dramatically when
* we're on log axes and include invalid (0 or negative) values.
* It's crucial to delete these extra two before turning an array of these
* points into a path, because those routines require length-2 points.
*/
function getInterpPx(pi, loc, step) {
var locx = loc[0] + Math.max(step[0], 0),
locy = loc[1] + Math.max(step[1], 0),
zxy = pi.z[locy][locx],
xa = pi.xaxis,
ya = pi.yaxis;
if(step[1]) {
var dx = (pi.level - zxy) / (pi.z[locy][locx + 1] - zxy);
return [xa.c2p((1 - dx) * pi.x[locx] + dx * pi.x[locx + 1], true),
ya.c2p(pi.y[locy], true),
locx + dx, locy];
}
else {
var dy = (pi.level - zxy) / (pi.z[locy + 1][locx] - zxy);
return [xa.c2p(pi.x[locx], true),
ya.c2p((1 - dy) * pi.y[locy] + dy * pi.y[locy + 1], true),
locx, locy + dy];
}
}
},{"../../lib":693,"./constants":917}],926:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Color = _dereq_('../../components/color');
var heatmapHoverPoints = _dereq_('../heatmap/hover');
module.exports = function hoverPoints(pointData, xval, yval, hovermode, hoverLayer) {
var hoverData = heatmapHoverPoints(pointData, xval, yval, hovermode, hoverLayer, true);
if(hoverData) {
hoverData.forEach(function(hoverPt) {
var trace = hoverPt.trace;
if(trace.contours.type === 'constraint') {
if(trace.fillcolor && Color.opacity(trace.fillcolor)) {
hoverPt.color = Color.addOpacity(trace.fillcolor, 1);
}
else if(trace.contours.showlines && Color.opacity(trace.line.color)) {
hoverPt.color = Color.addOpacity(trace.line.color, 1);
}
}
});
}
return hoverData;
};
},{"../../components/color":567,"../heatmap/hover":949}],927:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Contour = {};
Contour.attributes = _dereq_('./attributes');
Contour.supplyDefaults = _dereq_('./defaults');
Contour.calc = _dereq_('./calc');
Contour.plot = _dereq_('./plot').plot;
Contour.style = _dereq_('./style');
Contour.colorbar = _dereq_('./colorbar');
Contour.hoverPoints = _dereq_('./hover');
Contour.moduleType = 'trace';
Contour.name = 'contour';
Contour.basePlotModule = _dereq_('../../plots/cartesian');
Contour.categories = ['cartesian', 'svg', '2dMap', 'contour', 'showLegend'];
Contour.meta = {
};
module.exports = Contour;
},{"../../plots/cartesian":753,"./attributes":913,"./calc":914,"./colorbar":916,"./defaults":922,"./hover":926,"./plot":931,"./style":933}],928:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
module.exports = function handleLabelDefaults(coerce, layout, lineColor, opts) {
if(!opts) opts = {};
var showLabels = coerce('contours.showlabels');
if(showLabels) {
var globalFont = layout.font;
Lib.coerceFont(coerce, 'contours.labelfont', {
family: globalFont.family,
size: globalFont.size,
color: lineColor
});
coerce('contours.labelformat');
}
if(opts.hasHover !== false) coerce('zhoverformat');
};
},{"../../lib":693}],929:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Colorscale = _dereq_('../../components/colorscale');
var endPlus = _dereq_('./end_plus');
module.exports = function makeColorMap(trace) {
var contours = trace.contours,
start = contours.start,
end = endPlus(contours),
cs = contours.size || 1,
nc = Math.floor((end - start) / cs) + 1,
extra = contours.coloring === 'lines' ? 0 : 1;
if(!isFinite(cs)) {
cs = 1;
nc = 1;
}
var scl = trace.colorscale,
len = scl.length;
var domain = new Array(len),
range = new Array(len);
var si, i;
if(contours.coloring === 'heatmap') {
if(trace.zauto && trace.autocontour === false) {
trace.zmin = start - cs / 2;
trace.zmax = trace.zmin + nc * cs;
}
for(i = 0; i < len; i++) {
si = scl[i];
domain[i] = si[0] * (trace.zmax - trace.zmin) + trace.zmin;
range[i] = si[1];
}
// do the contours extend beyond the colorscale?
// if so, extend the colorscale with constants
var zRange = d3.extent([trace.zmin, trace.zmax, contours.start,
contours.start + cs * (nc - 1)]),
zmin = zRange[trace.zmin < trace.zmax ? 0 : 1],
zmax = zRange[trace.zmin < trace.zmax ? 1 : 0];
if(zmin !== trace.zmin) {
domain.splice(0, 0, zmin);
range.splice(0, 0, Range[0]);
}
if(zmax !== trace.zmax) {
domain.push(zmax);
range.push(range[range.length - 1]);
}
}
else {
for(i = 0; i < len; i++) {
si = scl[i];
domain[i] = (si[0] * (nc + extra - 1) - (extra / 2)) * cs + start;
range[i] = si[1];
}
}
return Colorscale.makeColorScaleFunc({
domain: domain,
range: range,
}, {
noNumericCheck: true
});
};
},{"../../components/colorscale":582,"./end_plus":924,"d3":147}],930:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var constants = _dereq_('./constants');
// Calculate all the marching indices, for ALL levels at once.
// since we want to be exhaustive we'll check for contour crossings
// at every intersection, rather than just following a path
// TODO: shorten the inner loop to only the relevant levels
module.exports = function makeCrossings(pathinfo) {
var z = pathinfo[0].z,
m = z.length,
n = z[0].length, // we already made sure z isn't ragged in interp2d
twoWide = m === 2 || n === 2,
xi,
yi,
startIndices,
ystartIndices,
label,
corners,
mi,
pi,
i;
for(yi = 0; yi < m - 1; yi++) {
ystartIndices = [];
if(yi === 0) ystartIndices = ystartIndices.concat(constants.BOTTOMSTART);
if(yi === m - 2) ystartIndices = ystartIndices.concat(constants.TOPSTART);
for(xi = 0; xi < n - 1; xi++) {
startIndices = ystartIndices.slice();
if(xi === 0) startIndices = startIndices.concat(constants.LEFTSTART);
if(xi === n - 2) startIndices = startIndices.concat(constants.RIGHTSTART);
label = xi + ',' + yi;
corners = [[z[yi][xi], z[yi][xi + 1]],
[z[yi + 1][xi], z[yi + 1][xi + 1]]];
for(i = 0; i < pathinfo.length; i++) {
pi = pathinfo[i];
mi = getMarchingIndex(pi.level, corners);
if(!mi) continue;
pi.crossings[label] = mi;
if(startIndices.indexOf(mi) !== -1) {
pi.starts.push([xi, yi]);
if(twoWide && startIndices.indexOf(mi,
startIndices.indexOf(mi) + 1) !== -1) {
// the same square has starts from opposite sides
// it's not possible to have starts on opposite edges
// of a corner, only a start and an end...
// but if the array is only two points wide (either way)
// you can have starts on opposite sides.
pi.starts.push([xi, yi]);
}
}
}
}
}
};
// modified marching squares algorithm,
// so we disambiguate the saddle points from the start
// and we ignore the cases with no crossings
// the index I'm using is based on:
// http://en.wikipedia.org/wiki/Marching_squares
// except that the saddles bifurcate and I represent them
// as the decimal combination of the two appropriate
// non-saddle indices
function getMarchingIndex(val, corners) {
var mi = (corners[0][0] > val ? 0 : 1) +
(corners[0][1] > val ? 0 : 2) +
(corners[1][1] > val ? 0 : 4) +
(corners[1][0] > val ? 0 : 8);
if(mi === 5 || mi === 10) {
var avg = (corners[0][0] + corners[0][1] +
corners[1][0] + corners[1][1]) / 4;
// two peaks with a big valley
if(val > avg) return (mi === 5) ? 713 : 1114;
// two valleys with a big ridge
return (mi === 5) ? 104 : 208;
}
return (mi === 15) ? 0 : mi;
}
},{"./constants":917}],931:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Lib = _dereq_('../../lib');
var Drawing = _dereq_('../../components/drawing');
var svgTextUtils = _dereq_('../../lib/svg_text_utils');
var Axes = _dereq_('../../plots/cartesian/axes');
var setConvert = _dereq_('../../plots/cartesian/set_convert');
var heatmapPlot = _dereq_('../heatmap/plot');
var makeCrossings = _dereq_('./make_crossings');
var findAllPaths = _dereq_('./find_all_paths');
var emptyPathinfo = _dereq_('./empty_pathinfo');
var convertToConstraints = _dereq_('./convert_to_constraints');
var closeBoundaries = _dereq_('./close_boundaries');
var constants = _dereq_('./constants');
var costConstants = constants.LABELOPTIMIZER;
exports.plot = function plot(gd, plotinfo, cdcontours, contourLayer) {
var xa = plotinfo.xaxis;
var ya = plotinfo.yaxis;
var fullLayout = gd._fullLayout;
Lib.makeTraceGroups(contourLayer, cdcontours, 'contour').each(function(cd) {
var plotGroup = d3.select(this);
var cd0 = cd[0];
var trace = cd0.trace;
var x = cd0.x;
var y = cd0.y;
var contours = trace.contours;
var pathinfo = emptyPathinfo(contours, plotinfo, cd0);
// use a heatmap to fill - draw it behind the lines
var heatmapColoringLayer = Lib.ensureSingle(plotGroup, 'g', 'heatmapcoloring');
var cdheatmaps = [];
if(contours.coloring === 'heatmap') {
if(trace.zauto && (trace.autocontour === false)) {
trace._input.zmin = trace.zmin =
contours.start - contours.size / 2;
trace._input.zmax = trace.zmax =
trace.zmin + pathinfo.length * contours.size;
}
cdheatmaps = [cd];
}
heatmapPlot(gd, plotinfo, cdheatmaps, heatmapColoringLayer);
makeCrossings(pathinfo);
findAllPaths(pathinfo);
var leftedge = xa.c2p(x[0], true),
rightedge = xa.c2p(x[x.length - 1], true),
bottomedge = ya.c2p(y[0], true),
topedge = ya.c2p(y[y.length - 1], true),
perimeter = [
[leftedge, topedge],
[rightedge, topedge],
[rightedge, bottomedge],
[leftedge, bottomedge]
];
var fillPathinfo = pathinfo;
if(contours.type === 'constraint') {
fillPathinfo = convertToConstraints(pathinfo, contours._operation);
closeBoundaries(fillPathinfo, contours._operation, perimeter, trace);
}
// draw everything
makeBackground(plotGroup, perimeter, contours);
makeFills(plotGroup, fillPathinfo, perimeter, contours);
makeLinesAndLabels(plotGroup, pathinfo, gd, cd0, contours, perimeter);
clipGaps(plotGroup, plotinfo, fullLayout._clips, cd0, perimeter);
});
};
function makeBackground(plotgroup, perimeter, contours) {
var bggroup = Lib.ensureSingle(plotgroup, 'g', 'contourbg');
var bgfill = bggroup.selectAll('path')
.data(contours.coloring === 'fill' ? [0] : []);
bgfill.enter().append('path');
bgfill.exit().remove();
bgfill
.attr('d', 'M' + perimeter.join('L') + 'Z')
.style('stroke', 'none');
}
function makeFills(plotgroup, pathinfo, perimeter, contours) {
var fillgroup = Lib.ensureSingle(plotgroup, 'g', 'contourfill');
var fillitems = fillgroup.selectAll('path')
.data(contours.coloring === 'fill' || (contours.type === 'constraint' && contours._operation !== '=') ? pathinfo : []);
fillitems.enter().append('path');
fillitems.exit().remove();
fillitems.each(function(pi) {
// join all paths for this level together into a single path
// first follow clockwise around the perimeter to close any open paths
// if the whole perimeter is above this level, start with a path
// enclosing the whole thing. With all that, the parity should mean
// that we always fill everything above the contour, nothing below
var fullpath = joinAllPaths(pi, perimeter);
if(!fullpath) d3.select(this).remove();
else d3.select(this).attr('d', fullpath).style('stroke', 'none');
});
}
function initFullPath(pi, perimeter) {
var prefixBoundary = pi.prefixBoundary;
if(prefixBoundary === undefined) {
var edgeVal2 = Math.min(pi.z[0][0], pi.z[0][1]);
prefixBoundary = (!pi.edgepaths.length && edgeVal2 > pi.level);
}
if(prefixBoundary) {
// TODO: why does ^^ not work for constraints?
// pi.prefixBoundary gets set by closeBoundaries
return 'M' + perimeter.join('L') + 'Z';
}
return '';
}
function joinAllPaths(pi, perimeter) {
var fullpath = initFullPath(pi, perimeter),
i = 0,
startsleft = pi.edgepaths.map(function(v, i) { return i; }),
newloop = true,
endpt,
newendpt,
cnt,
nexti,
possiblei,
addpath;
function istop(pt) { return Math.abs(pt[1] - perimeter[0][1]) < 0.01; }
function isbottom(pt) { return Math.abs(pt[1] - perimeter[2][1]) < 0.01; }
function isleft(pt) { return Math.abs(pt[0] - perimeter[0][0]) < 0.01; }
function isright(pt) { return Math.abs(pt[0] - perimeter[2][0]) < 0.01; }
while(startsleft.length) {
addpath = Drawing.smoothopen(pi.edgepaths[i], pi.smoothing);
fullpath += newloop ? addpath : addpath.replace(/^M/, 'L');
startsleft.splice(startsleft.indexOf(i), 1);
endpt = pi.edgepaths[i][pi.edgepaths[i].length - 1];
nexti = -1;
// now loop through sides, moving our endpoint until we find a new start
for(cnt = 0; cnt < 4; cnt++) { // just to prevent infinite loops
if(!endpt) {
Lib.log('Missing end?', i, pi);
break;
}
if(istop(endpt) && !isright(endpt)) newendpt = perimeter[1]; // right top
else if(isleft(endpt)) newendpt = perimeter[0]; // left top
else if(isbottom(endpt)) newendpt = perimeter[3]; // right bottom
else if(isright(endpt)) newendpt = perimeter[2]; // left bottom
for(possiblei = 0; possiblei < pi.edgepaths.length; possiblei++) {
var ptNew = pi.edgepaths[possiblei][0];
// is ptNew on the (horz. or vert.) segment from endpt to newendpt?
if(Math.abs(endpt[0] - newendpt[0]) < 0.01) {
if(Math.abs(endpt[0] - ptNew[0]) < 0.01 &&
(ptNew[1] - endpt[1]) * (newendpt[1] - ptNew[1]) >= 0) {
newendpt = ptNew;
nexti = possiblei;
}
}
else if(Math.abs(endpt[1] - newendpt[1]) < 0.01) {
if(Math.abs(endpt[1] - ptNew[1]) < 0.01 &&
(ptNew[0] - endpt[0]) * (newendpt[0] - ptNew[0]) >= 0) {
newendpt = ptNew;
nexti = possiblei;
}
}
else {
Lib.log('endpt to newendpt is not vert. or horz.',
endpt, newendpt, ptNew);
}
}
endpt = newendpt;
if(nexti >= 0) break;
fullpath += 'L' + newendpt;
}
if(nexti === pi.edgepaths.length) {
Lib.log('unclosed perimeter path');
break;
}
i = nexti;
// if we closed back on a loop we already included,
// close it and start a new loop
newloop = (startsleft.indexOf(i) === -1);
if(newloop) {
i = startsleft[0];
fullpath += 'Z';
}
}
// finally add the interior paths
for(i = 0; i < pi.paths.length; i++) {
fullpath += Drawing.smoothclosed(pi.paths[i], pi.smoothing);
}
return fullpath;
}
function makeLinesAndLabels(plotgroup, pathinfo, gd, cd0, contours, perimeter) {
var lineContainer = Lib.ensureSingle(plotgroup, 'g', 'contourlines');
var showLines = contours.showlines !== false;
var showLabels = contours.showlabels;
var clipLinesForLabels = showLines && showLabels;
// Even if we're not going to show lines, we need to create them
// if we're showing labels, because the fill paths include the perimeter
// so can't be used to position the labels correctly.
// In this case we'll remove the lines after making the labels.
var linegroup = exports.createLines(lineContainer, showLines || showLabels, pathinfo);
var lineClip = exports.createLineClip(lineContainer, clipLinesForLabels,
gd._fullLayout._clips, cd0.trace.uid);
var labelGroup = plotgroup.selectAll('g.contourlabels')
.data(showLabels ? [0] : []);
labelGroup.exit().remove();
labelGroup.enter().append('g')
.classed('contourlabels', true);
if(showLabels) {
var labelClipPathData = [perimeter];
var labelData = [];
// invalidate the getTextLocation cache in case paths changed
Lib.clearLocationCache();
var contourFormat = exports.labelFormatter(contours, cd0.t.cb, gd._fullLayout);
var dummyText = Drawing.tester.append('text')
.attr('data-notex', 1)
.call(Drawing.font, contours.labelfont);
var xLen = pathinfo[0].xaxis._length;
var yLen = pathinfo[0].yaxis._length;
// visible bounds of the contour trace (and the midpoints, to
// help with cost calculations)
var bounds = {
left: Math.max(perimeter[0][0], 0),
right: Math.min(perimeter[2][0], xLen),
top: Math.max(perimeter[0][1], 0),
bottom: Math.min(perimeter[2][1], yLen)
};
bounds.middle = (bounds.top + bounds.bottom) / 2;
bounds.center = (bounds.left + bounds.right) / 2;
var plotDiagonal = Math.sqrt(xLen * xLen + yLen * yLen);
// the path length to use to scale the number of labels to draw:
var normLength = constants.LABELDISTANCE * plotDiagonal /
Math.max(1, pathinfo.length / constants.LABELINCREASE);
linegroup.each(function(d) {
var textOpts = exports.calcTextOpts(d.level, contourFormat, dummyText, gd);
d3.select(this).selectAll('path').each(function() {
var path = this;
var pathBounds = Lib.getVisibleSegment(path, bounds, textOpts.height / 2);
if(!pathBounds) return;
if(pathBounds.len < (textOpts.width + textOpts.height) * constants.LABELMIN) return;
var maxLabels = Math.min(Math.ceil(pathBounds.len / normLength),
constants.LABELMAX);
for(var i = 0; i < maxLabels; i++) {
var loc = exports.findBestTextLocation(path, pathBounds, textOpts,
labelData, bounds);
if(!loc) break;
exports.addLabelData(loc, textOpts, labelData, labelClipPathData);
}
});
});
dummyText.remove();
exports.drawLabels(labelGroup, labelData, gd, lineClip,
clipLinesForLabels ? labelClipPathData : null);
}
if(showLabels && !showLines) linegroup.remove();
}
exports.createLines = function(lineContainer, makeLines, pathinfo) {
var smoothing = pathinfo[0].smoothing;
var linegroup = lineContainer.selectAll('g.contourlevel')
.data(makeLines ? pathinfo : []);
linegroup.exit().remove();
linegroup.enter().append('g')
.classed('contourlevel', true);
if(makeLines) {
// pedgepaths / ppaths are used by contourcarpet, for the paths transformed from a/b to x/y
// edgepaths / paths are used by contour since it's in x/y from the start
var opencontourlines = linegroup.selectAll('path.openline')
.data(function(d) { return d.pedgepaths || d.edgepaths; });
opencontourlines.exit().remove();
opencontourlines.enter().append('path')
.classed('openline', true);
opencontourlines
.attr('d', function(d) {
return Drawing.smoothopen(d, smoothing);
})
.style('stroke-miterlimit', 1)
.style('vector-effect', 'non-scaling-stroke');
var closedcontourlines = linegroup.selectAll('path.closedline')
.data(function(d) { return d.ppaths || d.paths; });
closedcontourlines.exit().remove();
closedcontourlines.enter().append('path')
.classed('closedline', true);
closedcontourlines
.attr('d', function(d) {
return Drawing.smoothclosed(d, smoothing);
})
.style('stroke-miterlimit', 1)
.style('vector-effect', 'non-scaling-stroke');
}
return linegroup;
};
exports.createLineClip = function(lineContainer, clipLinesForLabels, clips, uid) {
var clipId = clipLinesForLabels ? ('clipline' + uid) : null;
var lineClip = clips.selectAll('#' + clipId)
.data(clipLinesForLabels ? [0] : []);
lineClip.exit().remove();
lineClip.enter().append('clipPath')
.classed('contourlineclip', true)
.attr('id', clipId);
Drawing.setClipUrl(lineContainer, clipId);
return lineClip;
};
exports.labelFormatter = function(contours, colorbar, fullLayout) {
if(contours.labelformat) {
return fullLayout._d3locale.numberFormat(contours.labelformat);
}
else {
var formatAxis;
if(colorbar) {
formatAxis = colorbar.axis;
}
else {
formatAxis = {
type: 'linear',
_id: 'ycontour',
showexponent: 'all',
exponentformat: 'B'
};
if(contours.type === 'constraint') {
var value = contours.value;
if(Array.isArray(value)) {
formatAxis.range = [value[0], value[value.length - 1]];
}
else formatAxis.range = [value, value];
}
else {
formatAxis.range = [contours.start, contours.end];
formatAxis.nticks = (contours.end - contours.start) / contours.size;
}
if(formatAxis.range[0] === formatAxis.range[1]) {
formatAxis.range[1] += formatAxis.range[0] || 1;
}
if(!formatAxis.nticks) formatAxis.nticks = 1000;
setConvert(formatAxis, fullLayout);
Axes.prepTicks(formatAxis);
formatAxis._tmin = null;
formatAxis._tmax = null;
}
return function(v) {
return Axes.tickText(formatAxis, v).text;
};
}
};
exports.calcTextOpts = function(level, contourFormat, dummyText, gd) {
var text = contourFormat(level);
dummyText.text(text)
.call(svgTextUtils.convertToTspans, gd);
var bBox = Drawing.bBox(dummyText.node(), true);
return {
text: text,
width: bBox.width,
height: bBox.height,
level: level,
dy: (bBox.top + bBox.bottom) / 2
};
};
exports.findBestTextLocation = function(path, pathBounds, textOpts, labelData, plotBounds) {
var textWidth = textOpts.width;
var p0, dp, pMax, pMin, loc;
if(pathBounds.isClosed) {
dp = pathBounds.len / costConstants.INITIALSEARCHPOINTS;
p0 = pathBounds.min + dp / 2;
pMax = pathBounds.max;
}
else {
dp = (pathBounds.len - textWidth) / (costConstants.INITIALSEARCHPOINTS + 1);
p0 = pathBounds.min + dp + textWidth / 2;
pMax = pathBounds.max - (dp + textWidth) / 2;
}
var cost = Infinity;
for(var j = 0; j < costConstants.ITERATIONS; j++) {
for(var p = p0; p < pMax; p += dp) {
var newLocation = Lib.getTextLocation(path, pathBounds.total, p, textWidth);
var newCost = locationCost(newLocation, textOpts, labelData, plotBounds);
if(newCost < cost) {
cost = newCost;
loc = newLocation;
pMin = p;
}
}
if(cost > costConstants.MAXCOST * 2) break;
// subsequent iterations just look half steps away from the
// best we found in the previous iteration
if(j) dp /= 2;
p0 = pMin - dp / 2;
pMax = p0 + dp * 1.5;
}
if(cost <= costConstants.MAXCOST) return loc;
};
/*
* locationCost: a cost function for label locations
* composed of three kinds of penalty:
* - for open paths, being close to the end of the path
* - the angle away from horizontal
* - being too close to already placed neighbors
*/
function locationCost(loc, textOpts, labelData, bounds) {
var halfWidth = textOpts.width / 2;
var halfHeight = textOpts.height / 2;
var x = loc.x;
var y = loc.y;
var theta = loc.theta;
var dx = Math.cos(theta) * halfWidth;
var dy = Math.sin(theta) * halfWidth;
// cost for being near an edge
var normX = ((x > bounds.center) ? (bounds.right - x) : (x - bounds.left)) /
(dx + Math.abs(Math.sin(theta) * halfHeight));
var normY = ((y > bounds.middle) ? (bounds.bottom - y) : (y - bounds.top)) /
(Math.abs(dy) + Math.cos(theta) * halfHeight);
if(normX < 1 || normY < 1) return Infinity;
var cost = costConstants.EDGECOST * (1 / (normX - 1) + 1 / (normY - 1));
// cost for not being horizontal
cost += costConstants.ANGLECOST * theta * theta;
// cost for being close to other labels
var x1 = x - dx;
var y1 = y - dy;
var x2 = x + dx;
var y2 = y + dy;
for(var i = 0; i < labelData.length; i++) {
var labeli = labelData[i];
var dxd = Math.cos(labeli.theta) * labeli.width / 2;
var dyd = Math.sin(labeli.theta) * labeli.width / 2;
var dist = Lib.segmentDistance(
x1, y1,
x2, y2,
labeli.x - dxd, labeli.y - dyd,
labeli.x + dxd, labeli.y + dyd
) * 2 / (textOpts.height + labeli.height);
var sameLevel = labeli.level === textOpts.level;
var distOffset = sameLevel ? costConstants.SAMELEVELDISTANCE : 1;
if(dist <= distOffset) return Infinity;
var distFactor = costConstants.NEIGHBORCOST *
(sameLevel ? costConstants.SAMELEVELFACTOR : 1);
cost += distFactor / (dist - distOffset);
}
return cost;
}
exports.addLabelData = function(loc, textOpts, labelData, labelClipPathData) {
var halfWidth = textOpts.width / 2;
var halfHeight = textOpts.height / 2;
var x = loc.x;
var y = loc.y;
var theta = loc.theta;
var sin = Math.sin(theta);
var cos = Math.cos(theta);
var dxw = halfWidth * cos;
var dxh = halfHeight * sin;
var dyw = halfWidth * sin;
var dyh = -halfHeight * cos;
var bBoxPts = [
[x - dxw - dxh, y - dyw - dyh],
[x + dxw - dxh, y + dyw - dyh],
[x + dxw + dxh, y + dyw + dyh],
[x - dxw + dxh, y - dyw + dyh],
];
labelData.push({
text: textOpts.text,
x: x,
y: y,
dy: textOpts.dy,
theta: theta,
level: textOpts.level,
width: textOpts.width,
height: textOpts.height
});
labelClipPathData.push(bBoxPts);
};
exports.drawLabels = function(labelGroup, labelData, gd, lineClip, labelClipPathData) {
var labels = labelGroup.selectAll('text')
.data(labelData, function(d) {
return d.text + ',' + d.x + ',' + d.y + ',' + d.theta;
});
labels.exit().remove();
labels.enter().append('text')
.attr({
'data-notex': 1,
'text-anchor': 'middle'
})
.each(function(d) {
var x = d.x + Math.sin(d.theta) * d.dy;
var y = d.y - Math.cos(d.theta) * d.dy;
d3.select(this)
.text(d.text)
.attr({
x: x,
y: y,
transform: 'rotate(' + (180 * d.theta / Math.PI) + ' ' + x + ' ' + y + ')'
})
.call(svgTextUtils.convertToTspans, gd);
});
if(labelClipPathData) {
var clipPath = '';
for(var i = 0; i < labelClipPathData.length; i++) {
clipPath += 'M' + labelClipPathData[i].join('L') + 'Z';
}
var lineClipPath = Lib.ensureSingle(lineClip, 'path', '');
lineClipPath.attr('d', clipPath);
}
};
function clipGaps(plotGroup, plotinfo, clips, cd0, perimeter) {
var clipId = 'clip' + cd0.trace.uid;
var clipPath = clips.selectAll('#' + clipId)
.data(cd0.trace.connectgaps ? [] : [0]);
clipPath.enter().append('clipPath')
.classed('contourclip', true)
.attr('id', clipId);
clipPath.exit().remove();
if(cd0.trace.connectgaps === false) {
var clipPathInfo = {
// fraction of the way from missing to present point
// to draw the boundary.
// if you make this 1 (or 1-epsilon) then a point in
// a sea of missing data will disappear entirely.
level: 0.9,
crossings: {},
starts: [],
edgepaths: [],
paths: [],
xaxis: plotinfo.xaxis,
yaxis: plotinfo.yaxis,
x: cd0.x,
y: cd0.y,
// 0 = no data, 1 = data
z: makeClipMask(cd0),
smoothing: 0
};
makeCrossings([clipPathInfo]);
findAllPaths([clipPathInfo]);
var fullpath = joinAllPaths(clipPathInfo, perimeter);
var path = Lib.ensureSingle(clipPath, 'path', '');
path.attr('d', fullpath);
}
else clipId = null;
plotGroup.call(Drawing.setClipUrl, clipId);
}
function makeClipMask(cd0) {
var empties = cd0.trace._emptypoints,
z = [],
m = cd0.z.length,
n = cd0.z[0].length,
i,
row = [],
emptyPoint;
for(i = 0; i < n; i++) row.push(1);
for(i = 0; i < m; i++) z.push(row.slice());
for(i = 0; i < empties.length; i++) {
emptyPoint = empties[i];
z[emptyPoint[0]][emptyPoint[1]] = 0;
}
// save this mask to determine whether to show this data in hover
cd0.zmask = z;
return z;
}
},{"../../components/drawing":592,"../../lib":693,"../../lib/svg_text_utils":718,"../../plots/cartesian/axes":742,"../../plots/cartesian/set_convert":760,"../heatmap/plot":954,"./close_boundaries":915,"./constants":917,"./convert_to_constraints":921,"./empty_pathinfo":923,"./find_all_paths":925,"./make_crossings":930,"d3":147}],932:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Axes = _dereq_('../../plots/cartesian/axes');
var Lib = _dereq_('../../lib');
module.exports = function setContours(trace) {
var contours = trace.contours;
// check if we need to auto-choose contour levels
if(trace.autocontour) {
var zmin = trace.zmin;
var zmax = trace.zmax;
if(zmin === undefined || zmax === undefined) {
zmin = Lib.aggNums(Math.min, null, trace._z);
zmax = Lib.aggNums(Math.max, null, trace._z);
}
var dummyAx = autoContours(zmin, zmax, trace.ncontours);
contours.size = dummyAx.dtick;
contours.start = Axes.tickFirst(dummyAx);
dummyAx.range.reverse();
contours.end = Axes.tickFirst(dummyAx);
if(contours.start === zmin) contours.start += contours.size;
if(contours.end === zmax) contours.end -= contours.size;
// if you set a small ncontours, *and* the ends are exactly on zmin/zmax
// there's an edge case where start > end now. Make sure there's at least
// one meaningful contour, put it midway between the crossed values
if(contours.start > contours.end) {
contours.start = contours.end = (contours.start + contours.end) / 2;
}
// copy auto-contour info back to the source data.
// previously we copied the whole contours object back, but that had
// other info (coloring, showlines) that should be left to supplyDefaults
if(!trace._input.contours) trace._input.contours = {};
Lib.extendFlat(trace._input.contours, {
start: contours.start,
end: contours.end,
size: contours.size
});
trace._input.autocontour = true;
}
else if(contours.type !== 'constraint') {
// sanity checks on manually-supplied start/end/size
var start = contours.start,
end = contours.end,
inputContours = trace._input.contours;
if(start > end) {
contours.start = inputContours.start = end;
end = contours.end = inputContours.end = start;
start = contours.start;
}
if(!(contours.size > 0)) {
var sizeOut;
if(start === end) sizeOut = 1;
else sizeOut = autoContours(start, end, trace.ncontours).dtick;
inputContours.size = contours.size = sizeOut;
}
}
};
/*
* autoContours: make a dummy axis object with dtick we can use
* as contours.size, and if needed we can use Axes.tickFirst
* with this axis object to calculate the start and end too
*
* start: the value to start the contours at
* end: the value to end at (must be > start)
* ncontours: max number of contours to make, like roughDTick
*
* returns: an axis object
*/
function autoContours(start, end, ncontours) {
var dummyAx = {
type: 'linear',
range: [start, end]
};
Axes.autoTicks(
dummyAx,
(end - start) / (ncontours || 15)
);
return dummyAx;
}
},{"../../lib":693,"../../plots/cartesian/axes":742}],933:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Drawing = _dereq_('../../components/drawing');
var heatmapStyle = _dereq_('../heatmap/style');
var makeColorMap = _dereq_('./make_color_map');
module.exports = function style(gd) {
var contours = d3.select(gd).selectAll('g.contour');
contours.style('opacity', function(d) {
return d[0].trace.opacity;
});
contours.each(function(d) {
var c = d3.select(this);
var trace = d[0].trace;
var contours = trace.contours;
var line = trace.line;
var cs = contours.size || 1;
var start = contours.start;
// for contourcarpet only - is this a constraint-type contour trace?
var isConstraintType = contours.type === 'constraint';
var colorLines = !isConstraintType && contours.coloring === 'lines';
var colorFills = !isConstraintType && contours.coloring === 'fill';
var colorMap = (colorLines || colorFills) ? makeColorMap(trace) : null;
c.selectAll('g.contourlevel').each(function(d) {
d3.select(this).selectAll('path')
.call(Drawing.lineGroupStyle,
line.width,
colorLines ? colorMap(d.level) : line.color,
line.dash);
});
var labelFont = contours.labelfont;
c.selectAll('g.contourlabels text').each(function(d) {
Drawing.font(d3.select(this), {
family: labelFont.family,
size: labelFont.size,
color: labelFont.color || (colorLines ? colorMap(d.level) : line.color)
});
});
if(isConstraintType) {
c.selectAll('g.contourfill path')
.style('fill', trace.fillcolor);
}
else if(colorFills) {
var firstFill;
c.selectAll('g.contourfill path')
.style('fill', function(d) {
if(firstFill === undefined) firstFill = d.level;
return colorMap(d.level + 0.5 * cs);
});
if(firstFill === undefined) firstFill = start;
c.selectAll('g.contourbg path')
.style('fill', colorMap(firstFill - 0.5 * cs));
}
});
heatmapStyle(gd);
};
},{"../../components/drawing":592,"../heatmap/style":955,"./make_color_map":929,"d3":147}],934:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var colorscaleDefaults = _dereq_('../../components/colorscale/defaults');
var handleLabelDefaults = _dereq_('./label_defaults');
module.exports = function handleStyleDefaults(traceIn, traceOut, coerce, layout, opts) {
var coloring = coerce('contours.coloring');
var showLines;
var lineColor = '';
if(coloring === 'fill') showLines = coerce('contours.showlines');
if(showLines !== false) {
if(coloring !== 'lines') lineColor = coerce('line.color', '#000');
coerce('line.width', 0.5);
coerce('line.dash');
}
if(coloring !== 'none') {
// plots/plots always coerces showlegend to true, but in this case
// we default to false and (by default) show a colorbar instead
if(traceIn.showlegend !== true) traceOut.showlegend = false;
traceOut._dfltShowLegend = false;
colorscaleDefaults(
traceIn, traceOut, layout, coerce, {prefix: '', cLetter: 'z'}
);
}
coerce('line.smoothing');
handleLabelDefaults(coerce, layout, lineColor, opts);
};
},{"../../components/colorscale/defaults":577,"./label_defaults":928}],935:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var heatmapAttrs = _dereq_('../heatmap/attributes');
var contourAttrs = _dereq_('../contour/attributes');
var contourContourAttrs = contourAttrs.contours;
var scatterAttrs = _dereq_('../scatter/attributes');
var colorscaleAttrs = _dereq_('../../components/colorscale/attributes');
var colorbarAttrs = _dereq_('../../components/colorbar/attributes');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var scatterLineAttrs = scatterAttrs.line;
module.exports = extendFlat({
carpet: {
valType: 'string',
editType: 'calc',
},
z: heatmapAttrs.z,
a: heatmapAttrs.x,
a0: heatmapAttrs.x0,
da: heatmapAttrs.dx,
b: heatmapAttrs.y,
b0: heatmapAttrs.y0,
db: heatmapAttrs.dy,
text: heatmapAttrs.text,
transpose: heatmapAttrs.transpose,
atype: heatmapAttrs.xtype,
btype: heatmapAttrs.ytype,
fillcolor: contourAttrs.fillcolor,
autocontour: contourAttrs.autocontour,
ncontours: contourAttrs.ncontours,
contours: {
type: contourContourAttrs.type,
start: contourContourAttrs.start,
end: contourContourAttrs.end,
size: contourContourAttrs.size,
coloring: {
// from contourAttrs.contours.coloring but no 'heatmap' option
valType: 'enumerated',
values: ['fill', 'lines', 'none'],
dflt: 'fill',
editType: 'calc',
},
showlines: contourContourAttrs.showlines,
showlabels: contourContourAttrs.showlabels,
labelfont: contourContourAttrs.labelfont,
labelformat: contourContourAttrs.labelformat,
operation: contourContourAttrs.operation,
value: contourContourAttrs.value,
editType: 'calc',
impliedEdits: {'autocontour': false}
},
line: {
color: extendFlat({}, scatterLineAttrs.color, {
}),
width: scatterLineAttrs.width,
dash: scatterLineAttrs.dash,
smoothing: extendFlat({}, scatterLineAttrs.smoothing, {
}),
editType: 'plot'
}
},
colorscaleAttrs('', {
cLetter: 'z',
autoColorDflt: false
}),
{ colorbar: colorbarAttrs }
);
},{"../../components/colorbar/attributes":568,"../../components/colorscale/attributes":574,"../../lib/extend":682,"../contour/attributes":913,"../heatmap/attributes":942,"../scatter/attributes":1032}],936:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var colorscaleCalc = _dereq_('../../components/colorscale/calc');
var isArray1D = _dereq_('../../lib').isArray1D;
var convertColumnData = _dereq_('../heatmap/convert_column_xyz');
var clean2dArray = _dereq_('../heatmap/clean_2d_array');
var maxRowLength = _dereq_('../heatmap/max_row_length');
var interp2d = _dereq_('../heatmap/interp2d');
var findEmpties = _dereq_('../heatmap/find_empties');
var makeBoundArray = _dereq_('../heatmap/make_bound_array');
var supplyDefaults = _dereq_('./defaults');
var lookupCarpet = _dereq_('../carpet/lookup_carpetid');
var setContours = _dereq_('../contour/set_contours');
// most is the same as heatmap calc, then adjust it
// though a few things inside heatmap calc still look for
// contour maps, because the makeBoundArray calls are too entangled
module.exports = function calc(gd, trace) {
var carpet = trace._carpetTrace = lookupCarpet(gd, trace);
if(!carpet || !carpet.visible || carpet.visible === 'legendonly') return;
if(!trace.a || !trace.b) {
// Look up the original incoming carpet data:
var carpetdata = gd.data[carpet.index];
// Look up the incoming trace data, *except* perform a shallow
// copy so that we're not actually modifying it when we use it
// to supply defaults:
var tracedata = gd.data[trace.index];
// var tracedata = extendFlat({}, gd.data[trace.index]);
// If the data is not specified
if(!tracedata.a) tracedata.a = carpetdata.a;
if(!tracedata.b) tracedata.b = carpetdata.b;
supplyDefaults(tracedata, trace, trace._defaultColor, gd._fullLayout);
}
var cd = heatmappishCalc(gd, trace);
setContours(trace);
return cd;
};
function heatmappishCalc(gd, trace) {
// prepare the raw data
// run makeCalcdata on x and y even for heatmaps, in case of category mappings
var carpet = trace._carpetTrace;
var aax = carpet.aaxis;
var bax = carpet.baxis;
var a,
a0,
da,
b,
b0,
db,
z;
// cancel minimum tick spacings (only applies to bars and boxes)
aax._minDtick = 0;
bax._minDtick = 0;
if(isArray1D(trace.z)) convertColumnData(trace, aax, bax, 'a', 'b', ['z']);
a = trace._a = trace._a || trace.a;
b = trace._b = trace._b || trace.b;
a = a ? aax.makeCalcdata(trace, '_a') : [];
b = b ? bax.makeCalcdata(trace, '_b') : [];
a0 = trace.a0 || 0;
da = trace.da || 1;
b0 = trace.b0 || 0;
db = trace.db || 1;
z = trace._z = clean2dArray(trace._z || trace.z, trace.transpose);
trace._emptypoints = findEmpties(z);
interp2d(z, trace._emptypoints);
// create arrays of brick boundaries, to be used by autorange and heatmap.plot
var xlen = maxRowLength(z),
xIn = trace.xtype === 'scaled' ? '' : a,
xArray = makeBoundArray(trace, xIn, a0, da, xlen, aax),
yIn = trace.ytype === 'scaled' ? '' : b,
yArray = makeBoundArray(trace, yIn, b0, db, z.length, bax);
var cd0 = {
a: xArray,
b: yArray,
z: z,
};
if(trace.contours.type === 'levels' && trace.contours.coloring !== 'none') {
// auto-z and autocolorscale if applicable
colorscaleCalc(trace, z, '', 'z');
}
return [cd0];
}
},{"../../components/colorscale/calc":575,"../../lib":693,"../carpet/lookup_carpetid":891,"../contour/set_contours":932,"../heatmap/clean_2d_array":944,"../heatmap/convert_column_xyz":946,"../heatmap/find_empties":948,"../heatmap/interp2d":951,"../heatmap/make_bound_array":952,"../heatmap/max_row_length":953,"./defaults":937}],937:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var handleXYZDefaults = _dereq_('../heatmap/xyz_defaults');
var attributes = _dereq_('./attributes');
var handleConstraintDefaults = _dereq_('../contour/constraint_defaults');
var handleContoursDefaults = _dereq_('../contour/contours_defaults');
var handleStyleDefaults = _dereq_('../contour/style_defaults');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
function coerce2(attr) {
return Lib.coerce2(traceIn, traceOut, attributes, attr);
}
coerce('carpet');
// If either a or b is not present, then it's not a valid trace *unless* the carpet
// axis has the a or b values we're looking for. So if these are not found, just defer
// that decision until the calc step.
//
// NB: the calc step will modify the original data input by assigning whichever of
// a or b are missing. This is necessary because panning goes right from supplyDefaults
// to plot (skipping calc). That means on subsequent updates, this *will* need to be
// able to find a and b.
//
// The long-term proper fix is that this should perhaps use underscored attributes to
// at least modify the user input to a slightly lesser extent. Fully removing the
// input mutation is challenging. The underscore approach is not currently taken since
// it requires modification to all of the functions below that expect the coerced
// attribute name to match the property name -- except '_a' !== 'a' so that is not
// straightforward.
if(traceIn.a && traceIn.b) {
var len = handleXYZDefaults(traceIn, traceOut, coerce, layout, 'a', 'b');
if(!len) {
traceOut.visible = false;
return;
}
coerce('text');
var isConstraint = (coerce('contours.type') === 'constraint');
if(isConstraint) {
handleConstraintDefaults(traceIn, traceOut, coerce, layout, defaultColor, {hasHover: false});
} else {
handleContoursDefaults(traceIn, traceOut, coerce, coerce2);
handleStyleDefaults(traceIn, traceOut, coerce, layout, {hasHover: false});
}
} else {
traceOut._defaultColor = defaultColor;
traceOut._length = null;
}
};
},{"../../lib":693,"../contour/constraint_defaults":918,"../contour/contours_defaults":920,"../contour/style_defaults":934,"../heatmap/xyz_defaults":957,"./attributes":935}],938:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var ContourCarpet = {};
ContourCarpet.attributes = _dereq_('./attributes');
ContourCarpet.supplyDefaults = _dereq_('./defaults');
ContourCarpet.colorbar = _dereq_('../contour/colorbar');
ContourCarpet.calc = _dereq_('./calc');
ContourCarpet.plot = _dereq_('./plot');
ContourCarpet.style = _dereq_('../contour/style');
ContourCarpet.moduleType = 'trace';
ContourCarpet.name = 'contourcarpet';
ContourCarpet.basePlotModule = _dereq_('../../plots/cartesian');
ContourCarpet.categories = ['cartesian', 'svg', 'carpet', 'contour', 'symbols', 'showLegend', 'hasLines', 'carpetDependent'];
ContourCarpet.meta = {
};
module.exports = ContourCarpet;
},{"../../plots/cartesian":753,"../contour/colorbar":916,"../contour/style":933,"./attributes":935,"./calc":936,"./defaults":937,"./plot":941}],939:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Drawing = _dereq_('../../components/drawing');
var axisAlignedLine = _dereq_('../carpet/axis_aligned_line');
var Lib = _dereq_('../../lib');
module.exports = function joinAllPaths(trace, pi, perimeter, ab2p, carpet, carpetcd, xa, ya) {
var i;
var fullpath = '';
var startsleft = pi.edgepaths.map(function(v, i) { return i; });
var newloop = true;
var endpt, newendpt, cnt, nexti, possiblei, addpath;
var atol = Math.abs(perimeter[0][0] - perimeter[2][0]) * 1e-4;
var btol = Math.abs(perimeter[0][1] - perimeter[2][1]) * 1e-4;
function istop(pt) { return Math.abs(pt[1] - perimeter[0][1]) < btol; }
function isbottom(pt) { return Math.abs(pt[1] - perimeter[2][1]) < btol; }
function isleft(pt) { return Math.abs(pt[0] - perimeter[0][0]) < atol; }
function isright(pt) { return Math.abs(pt[0] - perimeter[2][0]) < atol; }
function pathto(pt0, pt1) {
var i, j, segments, axis;
var path = '';
if((istop(pt0) && !isright(pt0)) || (isbottom(pt0) && !isleft(pt0))) {
axis = carpet.aaxis;
segments = axisAlignedLine(carpet, carpetcd, [pt0[0], pt1[0]], 0.5 * (pt0[1] + pt1[1]));
} else {
axis = carpet.baxis;
segments = axisAlignedLine(carpet, carpetcd, 0.5 * (pt0[0] + pt1[0]), [pt0[1], pt1[1]]);
}
for(i = 1; i < segments.length; i++) {
path += axis.smoothing ? 'C' : 'L';
for(j = 0; j < segments[i].length; j++) {
var pt = segments[i][j];
path += [xa.c2p(pt[0]), ya.c2p(pt[1])] + ' ';
}
}
return path;
}
i = 0;
endpt = null;
while(startsleft.length) {
var startpt = pi.edgepaths[i][0];
if(endpt) {
fullpath += pathto(endpt, startpt);
}
addpath = Drawing.smoothopen(pi.edgepaths[i].map(ab2p), pi.smoothing);
fullpath += newloop ? addpath : addpath.replace(/^M/, 'L');
startsleft.splice(startsleft.indexOf(i), 1);
endpt = pi.edgepaths[i][pi.edgepaths[i].length - 1];
nexti = -1;
// now loop through sides, moving our endpoint until we find a new start
for(cnt = 0; cnt < 4; cnt++) { // just to prevent infinite loops
if(!endpt) {
Lib.log('Missing end?', i, pi);
break;
}
if(istop(endpt) && !isright(endpt)) {
newendpt = perimeter[1]; // left top ---> right top
} else if(isleft(endpt)) {
newendpt = perimeter[0]; // left bottom ---> left top
} else if(isbottom(endpt)) {
newendpt = perimeter[3]; // right bottom
} else if(isright(endpt)) {
newendpt = perimeter[2]; // left bottom
}
for(possiblei = 0; possiblei < pi.edgepaths.length; possiblei++) {
var ptNew = pi.edgepaths[possiblei][0];
// is ptNew on the (horz. or vert.) segment from endpt to newendpt?
if(Math.abs(endpt[0] - newendpt[0]) < atol) {
if(Math.abs(endpt[0] - ptNew[0]) < atol && (ptNew[1] - endpt[1]) * (newendpt[1] - ptNew[1]) >= 0) {
newendpt = ptNew;
nexti = possiblei;
}
} else if(Math.abs(endpt[1] - newendpt[1]) < btol) {
if(Math.abs(endpt[1] - ptNew[1]) < btol && (ptNew[0] - endpt[0]) * (newendpt[0] - ptNew[0]) >= 0) {
newendpt = ptNew;
nexti = possiblei;
}
} else {
Lib.log('endpt to newendpt is not vert. or horz.', endpt, newendpt, ptNew);
}
}
if(nexti >= 0) break;
fullpath += pathto(endpt, newendpt);
endpt = newendpt;
}
if(nexti === pi.edgepaths.length) {
Lib.log('unclosed perimeter path');
break;
}
i = nexti;
// if we closed back on a loop we already included,
// close it and start a new loop
newloop = (startsleft.indexOf(i) === -1);
if(newloop) {
i = startsleft[0];
fullpath += pathto(endpt, newendpt) + 'Z';
endpt = null;
}
}
// finally add the interior paths
for(i = 0; i < pi.paths.length; i++) {
fullpath += Drawing.smoothclosed(pi.paths[i].map(ab2p), pi.smoothing);
}
return fullpath;
};
},{"../../components/drawing":592,"../../lib":693,"../carpet/axis_aligned_line":875}],940:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function mapPathinfo(pathinfo, map) {
var i, j, k, pi, pedgepaths, ppaths, pedgepath, ppath, path;
for(i = 0; i < pathinfo.length; i++) {
pi = pathinfo[i];
pedgepaths = pi.pedgepaths = [];
ppaths = pi.ppaths = [];
for(j = 0; j < pi.edgepaths.length; j++) {
path = pi.edgepaths[j];
pedgepath = [];
for(k = 0; k < path.length; k++) {
pedgepath[k] = map(path[k]);
}
pedgepaths.push(pedgepath);
}
for(j = 0; j < pi.paths.length; j++) {
path = pi.paths[j];
ppath = [];
for(k = 0; k < path.length; k++) {
ppath[k] = map(path[k]);
}
ppaths.push(ppath);
}
}
};
},{}],941:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var map1dArray = _dereq_('../carpet/map_1d_array');
var makepath = _dereq_('../carpet/makepath');
var Drawing = _dereq_('../../components/drawing');
var Lib = _dereq_('../../lib');
var makeCrossings = _dereq_('../contour/make_crossings');
var findAllPaths = _dereq_('../contour/find_all_paths');
var contourPlot = _dereq_('../contour/plot');
var constants = _dereq_('../contour/constants');
var convertToConstraints = _dereq_('../contour/convert_to_constraints');
var joinAllPaths = _dereq_('./join_all_paths');
var emptyPathinfo = _dereq_('../contour/empty_pathinfo');
var mapPathinfo = _dereq_('./map_pathinfo');
var lookupCarpet = _dereq_('../carpet/lookup_carpetid');
var closeBoundaries = _dereq_('../contour/close_boundaries');
module.exports = function plot(gd, plotinfo, cdcontours, contourcarpetLayer) {
var xa = plotinfo.xaxis;
var ya = plotinfo.yaxis;
Lib.makeTraceGroups(contourcarpetLayer, cdcontours, 'contour').each(function(cd) {
var plotGroup = d3.select(this);
var cd0 = cd[0];
var trace = cd0.trace;
var carpet = trace._carpetTrace = lookupCarpet(gd, trace);
var carpetcd = gd.calcdata[carpet.index][0];
if(!carpet.visible || carpet.visible === 'legendonly') return;
var a = cd0.a;
var b = cd0.b;
var contours = trace.contours;
var pathinfo = emptyPathinfo(contours, plotinfo, cd0);
var isConstraint = contours.type === 'constraint';
var operation = contours._operation;
var coloring = isConstraint ? (operation === '=' ? 'lines' : 'fill') : contours.coloring;
// Map [a, b] (data) --> [i, j] (pixels)
function ab2p(ab) {
var pt = carpet.ab2xy(ab[0], ab[1], true);
return [xa.c2p(pt[0]), ya.c2p(pt[1])];
}
// Define the perimeter in a/b coordinates:
var perimeter = [
[a[0], b[b.length - 1]],
[a[a.length - 1], b[b.length - 1]],
[a[a.length - 1], b[0]],
[a[0], b[0]]
];
// Extract the contour levels:
makeCrossings(pathinfo);
var atol = (a[a.length - 1] - a[0]) * 1e-8;
var btol = (b[b.length - 1] - b[0]) * 1e-8;
findAllPaths(pathinfo, atol, btol);
// Constraints might need to be draw inverted, which is not something contours
// handle by default since they're assumed fully opaque so that they can be
// drawn overlapping. This function flips the paths as necessary so that they're
// drawn correctly.
//
// TODO: Perhaps this should be generalized and *all* paths should be drawn as
// closed regions so that translucent contour levels would be valid.
// See: https://github.com/plotly/plotly.js/issues/1356
var fillPathinfo = pathinfo;
if(contours.type === 'constraint') {
fillPathinfo = convertToConstraints(pathinfo, operation);
closeBoundaries(fillPathinfo, operation, perimeter, trace);
}
// Map the paths in a/b coordinates to pixel coordinates:
mapPathinfo(pathinfo, ab2p);
// draw everything
// Compute the boundary path
var seg, xp, yp, i;
var segs = [];
for(i = carpetcd.clipsegments.length - 1; i >= 0; i--) {
seg = carpetcd.clipsegments[i];
xp = map1dArray([], seg.x, xa.c2p);
yp = map1dArray([], seg.y, ya.c2p);
xp.reverse();
yp.reverse();
segs.push(makepath(xp, yp, seg.bicubic));
}
var boundaryPath = 'M' + segs.join('L') + 'Z';
// Draw the baseline background fill that fills in the space behind any other
// contour levels:
makeBackground(plotGroup, carpetcd.clipsegments, xa, ya, isConstraint, coloring);
// Draw the specific contour fills. As a simplification, they're assumed to be
// fully opaque so that it's easy to draw them simply overlapping. The alternative
// would be to flip adjacent paths and draw closed paths for each level instead.
makeFills(trace, plotGroup, xa, ya, fillPathinfo, perimeter, ab2p, carpet, carpetcd, coloring, boundaryPath);
// Draw contour lines:
makeLinesAndLabels(plotGroup, pathinfo, gd, cd0, contours, plotinfo, carpet);
// Clip the boundary of the plot
Drawing.setClipUrl(plotGroup, carpet._clipPathId);
});
};
function makeLinesAndLabels(plotgroup, pathinfo, gd, cd0, contours, plotinfo, carpet) {
var lineContainer = Lib.ensureSingle(plotgroup, 'g', 'contourlines');
var showLines = contours.showlines !== false;
var showLabels = contours.showlabels;
var clipLinesForLabels = showLines && showLabels;
// Even if we're not going to show lines, we need to create them
// if we're showing labels, because the fill paths include the perimeter
// so can't be used to position the labels correctly.
// In this case we'll remove the lines after making the labels.
var linegroup = contourPlot.createLines(lineContainer, showLines || showLabels, pathinfo);
var lineClip = contourPlot.createLineClip(lineContainer, clipLinesForLabels,
gd._fullLayout._defs, cd0.trace.uid);
var labelGroup = plotgroup.selectAll('g.contourlabels')
.data(showLabels ? [0] : []);
labelGroup.exit().remove();
labelGroup.enter().append('g')
.classed('contourlabels', true);
if(showLabels) {
var xa = plotinfo.xaxis;
var ya = plotinfo.yaxis;
var xLen = xa._length;
var yLen = ya._length;
// for simplicity use the xy box for label clipping outline.
var labelClipPathData = [[
[0, 0],
[xLen, 0],
[xLen, yLen],
[0, yLen]
]];
var labelData = [];
// invalidate the getTextLocation cache in case paths changed
Lib.clearLocationCache();
var contourFormat = contourPlot.labelFormatter(contours, cd0.t.cb, gd._fullLayout);
var dummyText = Drawing.tester.append('text')
.attr('data-notex', 1)
.call(Drawing.font, contours.labelfont);
// use `bounds` only to keep labels away from the x/y boundaries
// `constrainToCarpet` below ensures labels don't go off the
// carpet edges
var bounds = {
left: 0,
right: xLen,
center: xLen / 2,
top: 0,
bottom: yLen,
middle: yLen / 2
};
var plotDiagonal = Math.sqrt(xLen * xLen + yLen * yLen);
// the path length to use to scale the number of labels to draw:
var normLength = constants.LABELDISTANCE * plotDiagonal /
Math.max(1, pathinfo.length / constants.LABELINCREASE);
linegroup.each(function(d) {
var textOpts = contourPlot.calcTextOpts(d.level, contourFormat, dummyText, gd);
d3.select(this).selectAll('path').each(function(pathData) {
var path = this;
var pathBounds = Lib.getVisibleSegment(path, bounds, textOpts.height / 2);
if(!pathBounds) return;
constrainToCarpet(path, pathData, d, pathBounds, carpet, textOpts.height);
if(pathBounds.len < (textOpts.width + textOpts.height) * constants.LABELMIN) return;
var maxLabels = Math.min(Math.ceil(pathBounds.len / normLength),
constants.LABELMAX);
for(var i = 0; i < maxLabels; i++) {
var loc = contourPlot.findBestTextLocation(path, pathBounds, textOpts,
labelData, bounds);
if(!loc) break;
contourPlot.addLabelData(loc, textOpts, labelData, labelClipPathData);
}
});
});
dummyText.remove();
contourPlot.drawLabels(labelGroup, labelData, gd, lineClip,
clipLinesForLabels ? labelClipPathData : null);
}
if(showLabels && !showLines) linegroup.remove();
}
// figure out if this path goes off the edge of the carpet
// and shorten the part we call visible to keep labels away from the edge
function constrainToCarpet(path, pathData, levelData, pathBounds, carpet, textHeight) {
var pathABData;
for(var i = 0; i < levelData.pedgepaths.length; i++) {
if(pathData === levelData.pedgepaths[i]) {
pathABData = levelData.edgepaths[i];
}
}
if(!pathABData) return;
var aMin = carpet.a[0];
var aMax = carpet.a[carpet.a.length - 1];
var bMin = carpet.b[0];
var bMax = carpet.b[carpet.b.length - 1];
function getOffset(abPt, pathVector) {
var offset = 0;
var edgeVector;
var dAB = 0.1;
if(Math.abs(abPt[0] - aMin) < dAB || Math.abs(abPt[0] - aMax) < dAB) {
edgeVector = normalizeVector(carpet.dxydb_rough(abPt[0], abPt[1], dAB));
offset = Math.max(offset, textHeight * vectorTan(pathVector, edgeVector) / 2);
}
if(Math.abs(abPt[1] - bMin) < dAB || Math.abs(abPt[1] - bMax) < dAB) {
edgeVector = normalizeVector(carpet.dxyda_rough(abPt[0], abPt[1], dAB));
offset = Math.max(offset, textHeight * vectorTan(pathVector, edgeVector) / 2);
}
return offset;
}
var startVector = getUnitVector(path, 0, 1);
var endVector = getUnitVector(path, pathBounds.total, pathBounds.total - 1);
var minStart = getOffset(pathABData[0], startVector);
var maxEnd = pathBounds.total - getOffset(pathABData[pathABData.length - 1], endVector);
if(pathBounds.min < minStart) pathBounds.min = minStart;
if(pathBounds.max > maxEnd) pathBounds.max = maxEnd;
pathBounds.len = pathBounds.max - pathBounds.min;
}
function getUnitVector(path, p0, p1) {
var pt0 = path.getPointAtLength(p0);
var pt1 = path.getPointAtLength(p1);
var dx = pt1.x - pt0.x;
var dy = pt1.y - pt0.y;
var len = Math.sqrt(dx * dx + dy * dy);
return [dx / len, dy / len];
}
function normalizeVector(v) {
var len = Math.sqrt(v[0] * v[0] + v[1] * v[1]);
return [v[0] / len, v[1] / len];
}
function vectorTan(v0, v1) {
var cos = Math.abs(v0[0] * v1[0] + v0[1] * v1[1]);
var sin = Math.sqrt(1 - cos * cos);
return sin / cos;
}
function makeBackground(plotgroup, clipsegments, xaxis, yaxis, isConstraint, coloring) {
var seg, xp, yp, i;
var bggroup = Lib.ensureSingle(plotgroup, 'g', 'contourbg');
var bgfill = bggroup.selectAll('path')
.data((coloring === 'fill' && !isConstraint) ? [0] : []);
bgfill.enter().append('path');
bgfill.exit().remove();
var segs = [];
for(i = 0; i < clipsegments.length; i++) {
seg = clipsegments[i];
xp = map1dArray([], seg.x, xaxis.c2p);
yp = map1dArray([], seg.y, yaxis.c2p);
segs.push(makepath(xp, yp, seg.bicubic));
}
bgfill
.attr('d', 'M' + segs.join('L') + 'Z')
.style('stroke', 'none');
}
function makeFills(trace, plotgroup, xa, ya, pathinfo, perimeter, ab2p, carpet, carpetcd, coloring, boundaryPath) {
var fillgroup = Lib.ensureSingle(plotgroup, 'g', 'contourfill');
var fillitems = fillgroup.selectAll('path')
.data(coloring === 'fill' ? pathinfo : []);
fillitems.enter().append('path');
fillitems.exit().remove();
fillitems.each(function(pi) {
// join all paths for this level together into a single path
// first follow clockwise around the perimeter to close any open paths
// if the whole perimeter is above this level, start with a path
// enclosing the whole thing. With all that, the parity should mean
// that we always fill everything above the contour, nothing below
var fullpath = joinAllPaths(trace, pi, perimeter, ab2p, carpet, carpetcd, xa, ya);
if(pi.prefixBoundary) {
fullpath = boundaryPath + fullpath;
}
if(!fullpath) {
d3.select(this).remove();
} else {
d3.select(this)
.attr('d', fullpath)
.style('stroke', 'none');
}
});
}
},{"../../components/drawing":592,"../../lib":693,"../carpet/lookup_carpetid":891,"../carpet/makepath":892,"../carpet/map_1d_array":893,"../contour/close_boundaries":915,"../contour/constants":917,"../contour/convert_to_constraints":921,"../contour/empty_pathinfo":923,"../contour/find_all_paths":925,"../contour/make_crossings":930,"../contour/plot":931,"./join_all_paths":939,"./map_pathinfo":940,"d3":147}],942:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var scatterAttrs = _dereq_('../scatter/attributes');
var colorscaleAttrs = _dereq_('../../components/colorscale/attributes');
var colorbarAttrs = _dereq_('../../components/colorbar/attributes');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
module.exports = extendFlat({
z: {
valType: 'data_array',
editType: 'calc',
},
x: extendFlat({}, scatterAttrs.x, {impliedEdits: {xtype: 'array'}}),
x0: extendFlat({}, scatterAttrs.x0, {impliedEdits: {xtype: 'scaled'}}),
dx: extendFlat({}, scatterAttrs.dx, {impliedEdits: {xtype: 'scaled'}}),
y: extendFlat({}, scatterAttrs.y, {impliedEdits: {ytype: 'array'}}),
y0: extendFlat({}, scatterAttrs.y0, {impliedEdits: {ytype: 'scaled'}}),
dy: extendFlat({}, scatterAttrs.dy, {impliedEdits: {ytype: 'scaled'}}),
text: {
valType: 'data_array',
editType: 'calc',
},
transpose: {
valType: 'boolean',
dflt: false,
editType: 'calc',
},
xtype: {
valType: 'enumerated',
values: ['array', 'scaled'],
editType: 'calc+clearAxisTypes',
},
ytype: {
valType: 'enumerated',
values: ['array', 'scaled'],
editType: 'calc+clearAxisTypes',
},
zsmooth: {
valType: 'enumerated',
values: ['fast', 'best', false],
dflt: false,
editType: 'calc',
},
connectgaps: {
valType: 'boolean',
dflt: false,
editType: 'calc',
},
xgap: {
valType: 'number',
dflt: 0,
min: 0,
editType: 'plot',
},
ygap: {
valType: 'number',
dflt: 0,
min: 0,
editType: 'plot',
},
zhoverformat: {
valType: 'string',
dflt: '',
editType: 'none',
},
},
colorscaleAttrs('', {
cLetter: 'z',
autoColorDflt: false
}),
{ colorbar: colorbarAttrs }
);
},{"../../components/colorbar/attributes":568,"../../components/colorscale/attributes":574,"../../lib/extend":682,"../scatter/attributes":1032}],943:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var Axes = _dereq_('../../plots/cartesian/axes');
var histogram2dCalc = _dereq_('../histogram2d/calc');
var colorscaleCalc = _dereq_('../../components/colorscale/calc');
var convertColumnData = _dereq_('./convert_column_xyz');
var maxRowLength = _dereq_('./max_row_length');
var clean2dArray = _dereq_('./clean_2d_array');
var interp2d = _dereq_('./interp2d');
var findEmpties = _dereq_('./find_empties');
var makeBoundArray = _dereq_('./make_bound_array');
module.exports = function calc(gd, trace) {
// prepare the raw data
// run makeCalcdata on x and y even for heatmaps, in case of category mappings
var xa = Axes.getFromId(gd, trace.xaxis || 'x'),
ya = Axes.getFromId(gd, trace.yaxis || 'y'),
isContour = Registry.traceIs(trace, 'contour'),
isHist = Registry.traceIs(trace, 'histogram'),
isGL2D = Registry.traceIs(trace, 'gl2d'),
zsmooth = isContour ? 'best' : trace.zsmooth,
x,
x0,
dx,
y,
y0,
dy,
z,
i,
binned;
// cancel minimum tick spacings (only applies to bars and boxes)
xa._minDtick = 0;
ya._minDtick = 0;
if(isHist) {
binned = histogram2dCalc(gd, trace);
x = binned.x;
x0 = binned.x0;
dx = binned.dx;
y = binned.y;
y0 = binned.y0;
dy = binned.dy;
z = binned.z;
}
else {
var zIn = trace.z;
if(Lib.isArray1D(zIn)) {
convertColumnData(trace, xa, ya, 'x', 'y', ['z']);
x = trace._x;
y = trace._y;
zIn = trace._z;
} else {
x = trace.x ? xa.makeCalcdata(trace, 'x') : [];
y = trace.y ? ya.makeCalcdata(trace, 'y') : [];
}
x0 = trace.x0 || 0;
dx = trace.dx || 1;
y0 = trace.y0 || 0;
dy = trace.dy || 1;
z = clean2dArray(zIn, trace.transpose);
if(isContour || trace.connectgaps) {
trace._emptypoints = findEmpties(z);
interp2d(z, trace._emptypoints);
}
}
function noZsmooth(msg) {
zsmooth = trace._input.zsmooth = trace.zsmooth = false;
Lib.warn('cannot use zsmooth: "fast": ' + msg);
}
// check whether we really can smooth (ie all boxes are about the same size)
if(zsmooth === 'fast') {
if(xa.type === 'log' || ya.type === 'log') {
noZsmooth('log axis found');
}
else if(!isHist) {
if(x.length) {
var avgdx = (x[x.length - 1] - x[0]) / (x.length - 1),
maxErrX = Math.abs(avgdx / 100);
for(i = 0; i < x.length - 1; i++) {
if(Math.abs(x[i + 1] - x[i] - avgdx) > maxErrX) {
noZsmooth('x scale is not linear');
break;
}
}
}
if(y.length && zsmooth === 'fast') {
var avgdy = (y[y.length - 1] - y[0]) / (y.length - 1),
maxErrY = Math.abs(avgdy / 100);
for(i = 0; i < y.length - 1; i++) {
if(Math.abs(y[i + 1] - y[i] - avgdy) > maxErrY) {
noZsmooth('y scale is not linear');
break;
}
}
}
}
}
// create arrays of brick boundaries, to be used by autorange and heatmap.plot
var xlen = maxRowLength(z);
var xIn = trace.xtype === 'scaled' ? '' : x;
var xArray = makeBoundArray(trace, xIn, x0, dx, xlen, xa);
var yIn = trace.ytype === 'scaled' ? '' : y;
var yArray = makeBoundArray(trace, yIn, y0, dy, z.length, ya);
// handled in gl2d convert step
if(!isGL2D) {
trace._extremes[xa._id] = Axes.findExtremes(xa, xArray);
trace._extremes[ya._id] = Axes.findExtremes(ya, yArray);
}
var cd0 = {
x: xArray,
y: yArray,
z: z,
text: trace._text || trace.text
};
if(xIn && xIn.length === xArray.length - 1) cd0.xCenter = xIn;
if(yIn && yIn.length === yArray.length - 1) cd0.yCenter = yIn;
if(isHist) {
cd0.xRanges = binned.xRanges;
cd0.yRanges = binned.yRanges;
cd0.pts = binned.pts;
}
// auto-z and autocolorscale if applicable
if(!isContour || trace.contours.type !== 'constraint') {
colorscaleCalc(trace, z, '', 'z');
}
if(isContour && trace.contours && trace.contours.coloring === 'heatmap') {
var dummyTrace = {
type: trace.type === 'contour' ? 'heatmap' : 'histogram2d',
xcalendar: trace.xcalendar,
ycalendar: trace.ycalendar
};
cd0.xfill = makeBoundArray(dummyTrace, xIn, x0, dx, xlen, xa);
cd0.yfill = makeBoundArray(dummyTrace, yIn, y0, dy, z.length, ya);
}
return [cd0];
};
},{"../../components/colorscale/calc":575,"../../lib":693,"../../plots/cartesian/axes":742,"../../registry":825,"../histogram2d/calc":974,"./clean_2d_array":944,"./convert_column_xyz":946,"./find_empties":948,"./interp2d":951,"./make_bound_array":952,"./max_row_length":953}],944:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
module.exports = function clean2dArray(zOld, transpose) {
var rowlen, collen, getCollen, old2new, i, j;
function cleanZvalue(v) {
if(!isNumeric(v)) return undefined;
return +v;
}
if(transpose) {
rowlen = 0;
for(i = 0; i < zOld.length; i++) rowlen = Math.max(rowlen, zOld[i].length);
if(rowlen === 0) return false;
getCollen = function(zOld) { return zOld.length; };
old2new = function(zOld, i, j) { return zOld[j][i]; };
}
else {
rowlen = zOld.length;
getCollen = function(zOld, i) { return zOld[i].length; };
old2new = function(zOld, i, j) { return zOld[i][j]; };
}
var zNew = new Array(rowlen);
for(i = 0; i < rowlen; i++) {
collen = getCollen(zOld, i);
zNew[i] = new Array(collen);
for(j = 0; j < collen; j++) zNew[i][j] = cleanZvalue(old2new(zOld, i, j));
}
return zNew;
};
},{"fast-isnumeric":213}],945:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
min: 'zmin',
max: 'zmax'
};
},{}],946:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var BADNUM = _dereq_('../../constants/numerical').BADNUM;
module.exports = function convertColumnData(trace, ax1, ax2, var1Name, var2Name, arrayVarNames) {
var colLen = trace._length;
var col1 = trace[var1Name].slice(0, colLen);
var col2 = trace[var2Name].slice(0, colLen);
var textCol = trace.text;
var hasColumnText = (textCol !== undefined && Lib.isArray1D(textCol));
var col1Calendar = trace[var1Name + 'calendar'];
var col2Calendar = trace[var2Name + 'calendar'];
var i, j, arrayVar, newArray, arrayVarName;
for(i = 0; i < colLen; i++) {
col1[i] = ax1.d2c(col1[i], 0, col1Calendar);
col2[i] = ax2.d2c(col2[i], 0, col2Calendar);
}
var col1dv = Lib.distinctVals(col1),
col1vals = col1dv.vals,
col2dv = Lib.distinctVals(col2),
col2vals = col2dv.vals,
newArrays = [];
for(i = 0; i < arrayVarNames.length; i++) {
newArrays[i] = Lib.init2dArray(col2vals.length, col1vals.length);
}
var i1, i2, text;
if(hasColumnText) text = Lib.init2dArray(col2vals.length, col1vals.length);
for(i = 0; i < colLen; i++) {
if(col1[i] !== BADNUM && col2[i] !== BADNUM) {
i1 = Lib.findBin(col1[i] + col1dv.minDiff / 2, col1vals);
i2 = Lib.findBin(col2[i] + col2dv.minDiff / 2, col2vals);
for(j = 0; j < arrayVarNames.length; j++) {
arrayVarName = arrayVarNames[j];
arrayVar = trace[arrayVarName];
newArray = newArrays[j];
newArray[i2][i1] = arrayVar[i];
}
if(hasColumnText) text[i2][i1] = textCol[i];
}
}
trace['_' + var1Name] = col1vals;
trace['_' + var2Name] = col2vals;
for(j = 0; j < arrayVarNames.length; j++) {
trace['_' + arrayVarNames[j]] = newArrays[j];
}
if(hasColumnText) trace._text = text;
};
},{"../../constants/numerical":670,"../../lib":693}],947:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var handleXYZDefaults = _dereq_('./xyz_defaults');
var handleStyleDefaults = _dereq_('./style_defaults');
var colorscaleDefaults = _dereq_('../../components/colorscale/defaults');
var attributes = _dereq_('./attributes');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
var validData = handleXYZDefaults(traceIn, traceOut, coerce, layout);
if(!validData) {
traceOut.visible = false;
return;
}
coerce('text');
handleStyleDefaults(traceIn, traceOut, coerce, layout);
coerce('connectgaps', Lib.isArray1D(traceOut.z) && (traceOut.zsmooth !== false));
colorscaleDefaults(traceIn, traceOut, layout, coerce, {prefix: '', cLetter: 'z'});
};
},{"../../components/colorscale/defaults":577,"../../lib":693,"./attributes":942,"./style_defaults":956,"./xyz_defaults":957}],948:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var maxRowLength = _dereq_('./max_row_length');
/* Return a list of empty points in 2D array z
* each empty point z[i][j] gives an array [i, j, neighborCount]
* neighborCount is the count of 4 nearest neighbors that DO exist
* this is to give us an order of points to evaluate for interpolation.
* if no neighbors exist, we iteratively look for neighbors that HAVE
* neighbors, and add a fractional neighborCount
*/
module.exports = function findEmpties(z) {
var empties = [],
neighborHash = {},
noNeighborList = [],
nextRow = z[0],
row = [],
blank = [0, 0, 0],
rowLength = maxRowLength(z),
prevRow,
i,
j,
thisPt,
p,
neighborCount,
newNeighborHash,
foundNewNeighbors;
for(i = 0; i < z.length; i++) {
prevRow = row;
row = nextRow;
nextRow = z[i + 1] || [];
for(j = 0; j < rowLength; j++) {
if(row[j] === undefined) {
neighborCount = (row[j - 1] !== undefined ? 1 : 0) +
(row[j + 1] !== undefined ? 1 : 0) +
(prevRow[j] !== undefined ? 1 : 0) +
(nextRow[j] !== undefined ? 1 : 0);
if(neighborCount) {
// for this purpose, don't count off-the-edge points
// as undefined neighbors
if(i === 0) neighborCount++;
if(j === 0) neighborCount++;
if(i === z.length - 1) neighborCount++;
if(j === row.length - 1) neighborCount++;
// if all neighbors that could exist do, we don't
// need this for finding farther neighbors
if(neighborCount < 4) {
neighborHash[[i, j]] = [i, j, neighborCount];
}
empties.push([i, j, neighborCount]);
}
else noNeighborList.push([i, j]);
}
}
}
while(noNeighborList.length) {
newNeighborHash = {};
foundNewNeighbors = false;
// look for cells that now have neighbors but didn't before
for(p = noNeighborList.length - 1; p >= 0; p--) {
thisPt = noNeighborList[p];
i = thisPt[0];
j = thisPt[1];
neighborCount = ((neighborHash[[i - 1, j]] || blank)[2] +
(neighborHash[[i + 1, j]] || blank)[2] +
(neighborHash[[i, j - 1]] || blank)[2] +
(neighborHash[[i, j + 1]] || blank)[2]) / 20;
if(neighborCount) {
newNeighborHash[thisPt] = [i, j, neighborCount];
noNeighborList.splice(p, 1);
foundNewNeighbors = true;
}
}
if(!foundNewNeighbors) {
throw 'findEmpties iterated with no new neighbors';
}
// put these new cells into the main neighbor list
for(thisPt in newNeighborHash) {
neighborHash[thisPt] = newNeighborHash[thisPt];
empties.push(newNeighborHash[thisPt]);
}
}
// sort the full list in descending order of neighbor count
return empties.sort(function(a, b) { return b[2] - a[2]; });
};
},{"./max_row_length":953}],949:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Fx = _dereq_('../../components/fx');
var Lib = _dereq_('../../lib');
var Axes = _dereq_('../../plots/cartesian/axes');
module.exports = function hoverPoints(pointData, xval, yval, hovermode, hoverLayer, contour) {
var cd0 = pointData.cd[0];
var trace = cd0.trace;
var xa = pointData.xa;
var ya = pointData.ya;
var x = cd0.x;
var y = cd0.y;
var z = cd0.z;
var xc = cd0.xCenter;
var yc = cd0.yCenter;
var zmask = cd0.zmask;
var range = [trace.zmin, trace.zmax];
var zhoverformat = trace.zhoverformat;
var x2 = x;
var y2 = y;
var xl, yl, nx, ny;
if(pointData.index !== false) {
try {
nx = Math.round(pointData.index[1]);
ny = Math.round(pointData.index[0]);
}
catch(e) {
Lib.error('Error hovering on heatmap, ' +
'pointNumber must be [row,col], found:', pointData.index);
return;
}
if(nx < 0 || nx >= z[0].length || ny < 0 || ny > z.length) {
return;
}
}
else if(Fx.inbox(xval - x[0], xval - x[x.length - 1], 0) > 0 ||
Fx.inbox(yval - y[0], yval - y[y.length - 1], 0) > 0) {
return;
}
else {
if(contour) {
var i2;
x2 = [2 * x[0] - x[1]];
for(i2 = 1; i2 < x.length; i2++) {
x2.push((x[i2] + x[i2 - 1]) / 2);
}
x2.push([2 * x[x.length - 1] - x[x.length - 2]]);
y2 = [2 * y[0] - y[1]];
for(i2 = 1; i2 < y.length; i2++) {
y2.push((y[i2] + y[i2 - 1]) / 2);
}
y2.push([2 * y[y.length - 1] - y[y.length - 2]]);
}
nx = Math.max(0, Math.min(x2.length - 2, Lib.findBin(xval, x2)));
ny = Math.max(0, Math.min(y2.length - 2, Lib.findBin(yval, y2)));
}
var x0 = xa.c2p(x[nx]),
x1 = xa.c2p(x[nx + 1]),
y0 = ya.c2p(y[ny]),
y1 = ya.c2p(y[ny + 1]);
if(contour) {
x1 = x0;
xl = x[nx];
y1 = y0;
yl = y[ny];
}
else {
xl = xc ? xc[nx] : ((x[nx] + x[nx + 1]) / 2);
yl = yc ? yc[ny] : ((y[ny] + y[ny + 1]) / 2);
if(trace.zsmooth) {
x0 = x1 = xa.c2p(xl);
y0 = y1 = ya.c2p(yl);
}
}
var zVal = z[ny][nx];
if(zmask && !zmask[ny][nx]) zVal = undefined;
var text;
if(Array.isArray(cd0.text) && Array.isArray(cd0.text[ny])) {
text = cd0.text[ny][nx];
}
var zLabel;
// dummy axis for formatting the z value
var dummyAx = {
type: 'linear',
range: range,
hoverformat: zhoverformat,
_separators: xa._separators,
_numFormat: xa._numFormat
};
var zLabelObj = Axes.tickText(dummyAx, zVal, 'hover');
zLabel = zLabelObj.text;
return [Lib.extendFlat(pointData, {
index: [ny, nx],
// never let a 2D override 1D type as closest point
distance: pointData.maxHoverDistance,
spikeDistance: pointData.maxSpikeDistance,
x0: x0,
x1: x1,
y0: y0,
y1: y1,
xLabelVal: xl,
yLabelVal: yl,
zLabelVal: zVal,
zLabel: zLabel,
text: text
})];
};
},{"../../components/fx":609,"../../lib":693,"../../plots/cartesian/axes":742}],950:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Heatmap = {};
Heatmap.attributes = _dereq_('./attributes');
Heatmap.supplyDefaults = _dereq_('./defaults');
Heatmap.calc = _dereq_('./calc');
Heatmap.plot = _dereq_('./plot');
Heatmap.colorbar = _dereq_('./colorbar');
Heatmap.style = _dereq_('./style');
Heatmap.hoverPoints = _dereq_('./hover');
Heatmap.moduleType = 'trace';
Heatmap.name = 'heatmap';
Heatmap.basePlotModule = _dereq_('../../plots/cartesian');
Heatmap.categories = ['cartesian', 'svg', '2dMap'];
Heatmap.meta = {
};
module.exports = Heatmap;
},{"../../plots/cartesian":753,"./attributes":942,"./calc":943,"./colorbar":945,"./defaults":947,"./hover":949,"./plot":954,"./style":955}],951:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var INTERPTHRESHOLD = 1e-2;
var NEIGHBORSHIFTS = [[-1, 0], [1, 0], [0, -1], [0, 1]];
function correctionOvershoot(maxFractionalChange) {
// start with less overshoot, until we know it's converging,
// then ramp up the overshoot for faster convergence
return 0.5 - 0.25 * Math.min(1, maxFractionalChange * 0.5);
}
/*
* interp2d: Fill in missing data from a 2D array using an iterative
* poisson equation solver with zero-derivative BC at edges.
* Amazingly, this just amounts to repeatedly averaging all the existing
* nearest neighbors, at least if we don't take x/y scaling into account,
* which is the right approach here where x and y may not even have the
* same units.
*
* @param {array of arrays} z
* The 2D array to fill in. Will be mutated here. Assumed to already be
* cleaned, so all entries are numbers except gaps, which are `undefined`.
* @param {array of arrays} emptyPoints
* Each entry [i, j, neighborCount] for empty points z[i][j] and the number
* of neighbors that are *not* missing. Assumed to be sorted from most to
* least neighbors, as produced by heatmap/find_empties.
*/
module.exports = function interp2d(z, emptyPoints) {
var maxFractionalChange = 1;
var i;
// one pass to fill in a starting value for all the empties
iterateInterp2d(z, emptyPoints);
// we're don't need to iterate lone empties - remove them
for(i = 0; i < emptyPoints.length; i++) {
if(emptyPoints[i][2] < 4) break;
}
// but don't remove these points from the original array,
// we'll use them for masking, so make a copy.
emptyPoints = emptyPoints.slice(i);
for(i = 0; i < 100 && maxFractionalChange > INTERPTHRESHOLD; i++) {
maxFractionalChange = iterateInterp2d(z, emptyPoints,
correctionOvershoot(maxFractionalChange));
}
if(maxFractionalChange > INTERPTHRESHOLD) {
Lib.log('interp2d didn\'t converge quickly', maxFractionalChange);
}
return z;
};
function iterateInterp2d(z, emptyPoints, overshoot) {
var maxFractionalChange = 0,
thisPt,
i,
j,
p,
q,
neighborShift,
neighborRow,
neighborVal,
neighborCount,
neighborSum,
initialVal,
minNeighbor,
maxNeighbor;
for(p = 0; p < emptyPoints.length; p++) {
thisPt = emptyPoints[p];
i = thisPt[0];
j = thisPt[1];
initialVal = z[i][j];
neighborSum = 0;
neighborCount = 0;
for(q = 0; q < 4; q++) {
neighborShift = NEIGHBORSHIFTS[q];
neighborRow = z[i + neighborShift[0]];
if(!neighborRow) continue;
neighborVal = neighborRow[j + neighborShift[1]];
if(neighborVal !== undefined) {
if(neighborSum === 0) {
minNeighbor = maxNeighbor = neighborVal;
}
else {
minNeighbor = Math.min(minNeighbor, neighborVal);
maxNeighbor = Math.max(maxNeighbor, neighborVal);
}
neighborCount++;
neighborSum += neighborVal;
}
}
if(neighborCount === 0) {
throw 'iterateInterp2d order is wrong: no defined neighbors';
}
// this is the laplace equation interpolation:
// each point is just the average of its neighbors
// note that this ignores differential x/y scaling
// which I think is the right approach, since we
// don't know what that scaling means
z[i][j] = neighborSum / neighborCount;
if(initialVal === undefined) {
if(neighborCount < 4) maxFractionalChange = 1;
}
else {
// we can make large empty regions converge faster
// if we overshoot the change vs the previous value
z[i][j] = (1 + overshoot) * z[i][j] - overshoot * initialVal;
if(maxNeighbor > minNeighbor) {
maxFractionalChange = Math.max(maxFractionalChange,
Math.abs(z[i][j] - initialVal) / (maxNeighbor - minNeighbor));
}
}
}
return maxFractionalChange;
}
},{"../../lib":693}],952:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
var isArrayOrTypedArray = _dereq_('../../lib').isArrayOrTypedArray;
module.exports = function makeBoundArray(trace, arrayIn, v0In, dvIn, numbricks, ax) {
var arrayOut = [],
isContour = Registry.traceIs(trace, 'contour'),
isHist = Registry.traceIs(trace, 'histogram'),
isGL2D = Registry.traceIs(trace, 'gl2d'),
v0,
dv,
i;
var isArrayOfTwoItemsOrMore = isArrayOrTypedArray(arrayIn) && arrayIn.length > 1;
if(isArrayOfTwoItemsOrMore && !isHist && (ax.type !== 'category')) {
var len = arrayIn.length;
// given vals are brick centers
// hopefully length === numbricks, but use this method even if too few are supplied
// and extend it linearly based on the last two points
if(len <= numbricks) {
// contour plots only want the centers
if(isContour || isGL2D) arrayOut = arrayIn.slice(0, numbricks);
else if(numbricks === 1) {
arrayOut = [arrayIn[0] - 0.5, arrayIn[0] + 0.5];
}
else {
arrayOut = [1.5 * arrayIn[0] - 0.5 * arrayIn[1]];
for(i = 1; i < len; i++) {
arrayOut.push((arrayIn[i - 1] + arrayIn[i]) * 0.5);
}
arrayOut.push(1.5 * arrayIn[len - 1] - 0.5 * arrayIn[len - 2]);
}
if(len < numbricks) {
var lastPt = arrayOut[arrayOut.length - 1],
delta = lastPt - arrayOut[arrayOut.length - 2];
for(i = len; i < numbricks; i++) {
lastPt += delta;
arrayOut.push(lastPt);
}
}
}
else {
// hopefully length === numbricks+1, but do something regardless:
// given vals are brick boundaries
return isContour ?
arrayIn.slice(0, numbricks) : // we must be strict for contours
arrayIn.slice(0, numbricks + 1);
}
}
else {
dv = dvIn || 1;
var calendar = trace[ax._id.charAt(0) + 'calendar'];
if(isHist || ax.type === 'category') v0 = ax.r2c(v0In, 0, calendar) || 0;
else if(isArrayOrTypedArray(arrayIn) && arrayIn.length === 1) v0 = arrayIn[0];
else if(v0In === undefined) v0 = 0;
else v0 = ax.d2c(v0In, 0, calendar);
for(i = (isContour || isGL2D) ? 0 : -0.5; i < numbricks; i++) {
arrayOut.push(v0 + dv * i);
}
}
return arrayOut;
};
},{"../../lib":693,"../../registry":825}],953:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function maxRowLength(z) {
var len = 0;
for(var i = 0; i < z.length; i++) {
len = Math.max(len, z[i].length);
}
return len;
};
},{}],954:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var tinycolor = _dereq_('tinycolor2');
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var Colorscale = _dereq_('../../components/colorscale');
var xmlnsNamespaces = _dereq_('../../constants/xmlns_namespaces');
var maxRowLength = _dereq_('./max_row_length');
module.exports = function(gd, plotinfo, cdheatmaps, heatmapLayer) {
var xa = plotinfo.xaxis;
var ya = plotinfo.yaxis;
Lib.makeTraceGroups(heatmapLayer, cdheatmaps, 'hm').each(function(cd) {
var plotGroup = d3.select(this);
var cd0 = cd[0];
var trace = cd0.trace;
var z = cd0.z;
var x = cd0.x;
var y = cd0.y;
var xc = cd0.xCenter;
var yc = cd0.yCenter;
var isContour = Registry.traceIs(trace, 'contour');
var zsmooth = isContour ? 'best' : trace.zsmooth;
// get z dims
var m = z.length;
var n = maxRowLength(z);
var xrev = false;
var yrev = false;
var left, right, temp, top, bottom, i;
// TODO: if there are multiple overlapping categorical heatmaps,
// or if we allow category sorting, then the categories may not be
// sequential... may need to reorder and/or expand z
// Get edges of png in pixels (xa.c2p() maps axes coordinates to pixel coordinates)
// figure out if either axis is reversed (y is usually reversed, in pixel coords)
// also clip the image to maximum 50% outside the visible plot area
// bigger image lets you pan more naturally, but slows performance.
// TODO: use low-resolution images outside the visible plot for panning
// these while loops find the first and last brick bounds that are defined
// (in case of log of a negative)
i = 0;
while(left === undefined && i < x.length - 1) {
left = xa.c2p(x[i]);
i++;
}
i = x.length - 1;
while(right === undefined && i > 0) {
right = xa.c2p(x[i]);
i--;
}
if(right < left) {
temp = right;
right = left;
left = temp;
xrev = true;
}
i = 0;
while(top === undefined && i < y.length - 1) {
top = ya.c2p(y[i]);
i++;
}
i = y.length - 1;
while(bottom === undefined && i > 0) {
bottom = ya.c2p(y[i]);
i--;
}
if(bottom < top) {
temp = top;
top = bottom;
bottom = temp;
yrev = true;
}
// for contours with heatmap fill, we generate the boundaries based on
// brick centers but then use the brick edges for drawing the bricks
if(isContour) {
xc = x;
yc = y;
x = cd0.xfill;
y = cd0.yfill;
}
// make an image that goes at most half a screen off either side, to keep
// time reasonable when you zoom in. if zsmooth is true/fast, don't worry
// about this, because zooming doesn't increase number of pixels
// if zsmooth is best, don't include anything off screen because it takes too long
if(zsmooth !== 'fast') {
var extra = zsmooth === 'best' ? 0 : 0.5;
left = Math.max(-extra * xa._length, left);
right = Math.min((1 + extra) * xa._length, right);
top = Math.max(-extra * ya._length, top);
bottom = Math.min((1 + extra) * ya._length, bottom);
}
var imageWidth = Math.round(right - left),
imageHeight = Math.round(bottom - top);
// setup image nodes
// if image is entirely off-screen, don't even draw it
var isOffScreen = (imageWidth <= 0 || imageHeight <= 0);
if(isOffScreen) {
var noImage = plotGroup.selectAll('image').data([]);
noImage.exit().remove();
return;
}
// generate image data
var canvasW, canvasH;
if(zsmooth === 'fast') {
canvasW = n;
canvasH = m;
} else {
canvasW = imageWidth;
canvasH = imageHeight;
}
var canvas = document.createElement('canvas');
canvas.width = canvasW;
canvas.height = canvasH;
var context = canvas.getContext('2d');
var sclFunc = Colorscale.makeColorScaleFunc(
Colorscale.extractScale(
trace.colorscale,
trace.zmin,
trace.zmax
),
{ noNumericCheck: true, returnArray: true }
);
// map brick boundaries to image pixels
var xpx,
ypx;
if(zsmooth === 'fast') {
xpx = xrev ?
function(index) { return n - 1 - index; } :
Lib.identity;
ypx = yrev ?
function(index) { return m - 1 - index; } :
Lib.identity;
}
else {
xpx = function(index) {
return Lib.constrain(Math.round(xa.c2p(x[index]) - left),
0, imageWidth);
};
ypx = function(index) {
return Lib.constrain(Math.round(ya.c2p(y[index]) - top),
0, imageHeight);
};
}
// build the pixel map brick-by-brick
// cruise through z-matrix row-by-row
// build a brick at each z-matrix value
var yi = ypx(0);
var yb = [yi, yi];
var xbi = xrev ? 0 : 1;
var ybi = yrev ? 0 : 1;
// for collecting an average luminosity of the heatmap
var pixcount = 0;
var rcount = 0;
var gcount = 0;
var bcount = 0;
var xb, j, xi, v, row, c;
function setColor(v, pixsize) {
if(v !== undefined) {
var c = sclFunc(v);
c[0] = Math.round(c[0]);
c[1] = Math.round(c[1]);
c[2] = Math.round(c[2]);
pixcount += pixsize;
rcount += c[0] * pixsize;
gcount += c[1] * pixsize;
bcount += c[2] * pixsize;
return c;
}
return [0, 0, 0, 0];
}
function interpColor(r0, r1, xinterp, yinterp) {
var z00 = r0[xinterp.bin0];
if(z00 === undefined) return setColor(undefined, 1);
var z01 = r0[xinterp.bin1],
z10 = r1[xinterp.bin0],
z11 = r1[xinterp.bin1],
dx = (z01 - z00) || 0,
dy = (z10 - z00) || 0,
dxy;
// the bilinear interpolation term needs different calculations
// for all the different permutations of missing data
// among the neighbors of the main point, to ensure
// continuity across brick boundaries.
if(z01 === undefined) {
if(z11 === undefined) dxy = 0;
else if(z10 === undefined) dxy = 2 * (z11 - z00);
else dxy = (2 * z11 - z10 - z00) * 2 / 3;
}
else if(z11 === undefined) {
if(z10 === undefined) dxy = 0;
else dxy = (2 * z00 - z01 - z10) * 2 / 3;
}
else if(z10 === undefined) dxy = (2 * z11 - z01 - z00) * 2 / 3;
else dxy = (z11 + z00 - z01 - z10);
return setColor(z00 + xinterp.frac * dx + yinterp.frac * (dy + xinterp.frac * dxy));
}
if(zsmooth) { // best or fast, works fastest with imageData
var pxIndex = 0,
pixels;
try {
pixels = new Uint8Array(imageWidth * imageHeight * 4);
}
catch(e) {
pixels = new Array(imageWidth * imageHeight * 4);
}
if(zsmooth === 'best') {
var xForPx = xc || x;
var yForPx = yc || y;
var xPixArray = new Array(xForPx.length);
var yPixArray = new Array(yForPx.length);
var xinterpArray = new Array(imageWidth);
var findInterpX = xc ? findInterpFromCenters : findInterp;
var findInterpY = yc ? findInterpFromCenters : findInterp;
var yinterp, r0, r1;
// first make arrays of x and y pixel locations of brick boundaries
for(i = 0; i < xForPx.length; i++) xPixArray[i] = Math.round(xa.c2p(xForPx[i]) - left);
for(i = 0; i < yForPx.length; i++) yPixArray[i] = Math.round(ya.c2p(yForPx[i]) - top);
// then make arrays of interpolations
// (bin0=closest, bin1=next, frac=fractional dist.)
for(i = 0; i < imageWidth; i++) xinterpArray[i] = findInterpX(i, xPixArray);
// now do the interpolations and fill the png
for(j = 0; j < imageHeight; j++) {
yinterp = findInterpY(j, yPixArray);
r0 = z[yinterp.bin0];
r1 = z[yinterp.bin1];
for(i = 0; i < imageWidth; i++, pxIndex += 4) {
c = interpColor(r0, r1, xinterpArray[i], yinterp);
putColor(pixels, pxIndex, c);
}
}
}
else { // zsmooth = fast
for(j = 0; j < m; j++) {
row = z[j];
yb = ypx(j);
for(i = 0; i < imageWidth; i++) {
c = setColor(row[i], 1);
pxIndex = (yb * imageWidth + xpx(i)) * 4;
putColor(pixels, pxIndex, c);
}
}
}
var imageData = context.createImageData(imageWidth, imageHeight);
try {
imageData.data.set(pixels);
}
catch(e) {
var pxArray = imageData.data,
dlen = pxArray.length;
for(j = 0; j < dlen; j ++) {
pxArray[j] = pixels[j];
}
}
context.putImageData(imageData, 0, 0);
} else { // zsmooth = false -> filling potentially large bricks works fastest with fillRect
// gaps do not need to be exact integers, but if they *are* we will get
// cleaner edges by rounding at least one edge
var xGap = trace.xgap;
var yGap = trace.ygap;
var xGapLeft = Math.floor(xGap / 2);
var yGapTop = Math.floor(yGap / 2);
for(j = 0; j < m; j++) {
row = z[j];
yb.reverse();
yb[ybi] = ypx(j + 1);
if(yb[0] === yb[1] || yb[0] === undefined || yb[1] === undefined) {
continue;
}
xi = xpx(0);
xb = [xi, xi];
for(i = 0; i < n; i++) {
// build one color brick!
xb.reverse();
xb[xbi] = xpx(i + 1);
if(xb[0] === xb[1] || xb[0] === undefined || xb[1] === undefined) {
continue;
}
v = row[i];
c = setColor(v, (xb[1] - xb[0]) * (yb[1] - yb[0]));
context.fillStyle = 'rgba(' + c.join(',') + ')';
context.fillRect(xb[0] + xGapLeft, yb[0] + yGapTop,
xb[1] - xb[0] - xGap, yb[1] - yb[0] - yGap);
}
}
}
rcount = Math.round(rcount / pixcount);
gcount = Math.round(gcount / pixcount);
bcount = Math.round(bcount / pixcount);
var avgColor = tinycolor('rgb(' + rcount + ',' + gcount + ',' + bcount + ')');
gd._hmpixcount = (gd._hmpixcount||0) + pixcount;
gd._hmlumcount = (gd._hmlumcount||0) + pixcount * avgColor.getLuminance();
var image3 = plotGroup.selectAll('image')
.data(cd);
image3.enter().append('svg:image').attr({
xmlns: xmlnsNamespaces.svg,
preserveAspectRatio: 'none'
});
image3.attr({
height: imageHeight,
width: imageWidth,
x: left,
y: top,
'xlink:href': canvas.toDataURL('image/png')
});
});
};
// get interpolated bin value. Returns {bin0:closest bin, frac:fractional dist to next, bin1:next bin}
function findInterp(pixel, pixArray) {
var maxBin = pixArray.length - 2;
var bin = Lib.constrain(Lib.findBin(pixel, pixArray), 0, maxBin);
var pix0 = pixArray[bin];
var pix1 = pixArray[bin + 1];
var interp = Lib.constrain(bin + (pixel - pix0) / (pix1 - pix0) - 0.5, 0, maxBin);
var bin0 = Math.round(interp);
var frac = Math.abs(interp - bin0);
if(!interp || interp === maxBin || !frac) {
return {
bin0: bin0,
bin1: bin0,
frac: 0
};
}
return {
bin0: bin0,
frac: frac,
bin1: Math.round(bin0 + frac / (interp - bin0))
};
}
function findInterpFromCenters(pixel, centerPixArray) {
var maxBin = centerPixArray.length - 1;
var bin = Lib.constrain(Lib.findBin(pixel, centerPixArray), 0, maxBin);
var pix0 = centerPixArray[bin];
var pix1 = centerPixArray[bin + 1];
var frac = ((pixel - pix0) / (pix1 - pix0)) || 0;
if(frac <= 0) {
return {
bin0: bin,
bin1: bin,
frac: 0
};
}
if(frac < 0.5) {
return {
bin0: bin,
bin1: bin + 1,
frac: frac
};
}
return {
bin0: bin + 1,
bin1: bin,
frac: 1 - frac
};
}
function putColor(pixels, pxIndex, c) {
pixels[pxIndex] = c[0];
pixels[pxIndex + 1] = c[1];
pixels[pxIndex + 2] = c[2];
pixels[pxIndex + 3] = Math.round(c[3] * 255);
}
},{"../../components/colorscale":582,"../../constants/xmlns_namespaces":671,"../../lib":693,"../../registry":825,"./max_row_length":953,"d3":147,"tinycolor2":511}],955:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
module.exports = function style(gd) {
d3.select(gd).selectAll('.hm image')
.style('opacity', function(d) {
return d.trace.opacity;
});
};
},{"d3":147}],956:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function handleStyleDefaults(traceIn, traceOut, coerce) {
var zsmooth = coerce('zsmooth');
if(zsmooth === false) {
// ensure that xgap and ygap are coerced only when zsmooth allows them to have an effect.
coerce('xgap');
coerce('ygap');
}
coerce('zhoverformat');
};
},{}],957:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var Lib = _dereq_('../../lib');
var Registry = _dereq_('../../registry');
module.exports = function handleXYZDefaults(traceIn, traceOut, coerce, layout, xName, yName) {
var z = coerce('z');
xName = xName || 'x';
yName = yName || 'y';
var x, y;
if(z === undefined || !z.length) return 0;
if(Lib.isArray1D(traceIn.z)) {
x = coerce(xName);
y = coerce(yName);
// column z must be accompanied by xName and yName arrays
if(!(x && x.length && y && y.length)) return 0;
traceOut._length = Math.min(x.length, y.length, z.length);
}
else {
x = coordDefaults(xName, coerce);
y = coordDefaults(yName, coerce);
// TODO put z validation elsewhere
if(!isValidZ(z)) return 0;
coerce('transpose');
traceOut._length = null;
}
var handleCalendarDefaults = Registry.getComponentMethod('calendars', 'handleTraceDefaults');
handleCalendarDefaults(traceIn, traceOut, [xName, yName], layout);
return true;
};
function coordDefaults(coordStr, coerce) {
var coord = coerce(coordStr),
coordType = coord ?
coerce(coordStr + 'type', 'array') :
'scaled';
if(coordType === 'scaled') {
coerce(coordStr + '0');
coerce('d' + coordStr);
}
return coord;
}
function isValidZ(z) {
var allRowsAreArrays = true,
oneRowIsFilled = false,
hasOneNumber = false,
zi;
/*
* Without this step:
*
* hasOneNumber = false breaks contour but not heatmap
* allRowsAreArrays = false breaks contour but not heatmap
* oneRowIsFilled = false breaks both
*/
for(var i = 0; i < z.length; i++) {
zi = z[i];
if(!Lib.isArrayOrTypedArray(zi)) {
allRowsAreArrays = false;
break;
}
if(zi.length > 0) oneRowIsFilled = true;
for(var j = 0; j < zi.length; j++) {
if(isNumeric(zi[j])) {
hasOneNumber = true;
break;
}
}
}
return (allRowsAreArrays && oneRowIsFilled && hasOneNumber);
}
},{"../../lib":693,"../../registry":825,"fast-isnumeric":213}],958:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var heatmapAttrs = _dereq_('../heatmap/attributes');
var colorscaleAttrs = _dereq_('../../components/colorscale/attributes');
var colorbarAttrs = _dereq_('../../components/colorbar/attributes');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll;
var commonList = [
'z',
'x', 'x0', 'dx',
'y', 'y0', 'dy',
'text', 'transpose',
'xtype', 'ytype'
];
var attrs = {};
for(var i = 0; i < commonList.length; i++) {
var k = commonList[i];
attrs[k] = heatmapAttrs[k];
}
extendFlat(
attrs,
colorscaleAttrs('', {cLetter: 'z', autoColorDflt: false}),
{colorbar: colorbarAttrs}
);
module.exports = overrideAll(attrs, 'calc', 'nested');
},{"../../components/colorbar/attributes":568,"../../components/colorscale/attributes":574,"../../lib/extend":682,"../../plot_api/edit_types":725,"../heatmap/attributes":942}],959:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var createHeatmap2D = _dereq_('gl-heatmap2d');
var Axes = _dereq_('../../plots/cartesian/axes');
var str2RGBArray = _dereq_('../../lib/str2rgbarray');
function Heatmap(scene, uid) {
this.scene = scene;
this.uid = uid;
this.type = 'heatmapgl';
this.name = '';
this.hoverinfo = 'all';
this.xData = [];
this.yData = [];
this.zData = [];
this.textLabels = [];
this.idToIndex = [];
this.bounds = [0, 0, 0, 0];
this.options = {
z: [],
x: [],
y: [],
shape: [0, 0],
colorLevels: [0],
colorValues: [0, 0, 0, 1]
};
this.heatmap = createHeatmap2D(scene.glplot, this.options);
this.heatmap._trace = this;
}
var proto = Heatmap.prototype;
proto.handlePick = function(pickResult) {
var options = this.options,
shape = options.shape,
index = pickResult.pointId,
xIndex = index % shape[0],
yIndex = Math.floor(index / shape[0]),
zIndex = index;
return {
trace: this,
dataCoord: pickResult.dataCoord,
traceCoord: [
options.x[xIndex],
options.y[yIndex],
options.z[zIndex]
],
textLabel: this.textLabels[index],
name: this.name,
pointIndex: [yIndex, xIndex],
hoverinfo: this.hoverinfo
};
};
proto.update = function(fullTrace, calcTrace) {
var calcPt = calcTrace[0];
this.index = fullTrace.index;
this.name = fullTrace.name;
this.hoverinfo = fullTrace.hoverinfo;
// convert z from 2D -> 1D
var z = calcPt.z;
this.options.z = [].concat.apply([], z);
var rowLen = z[0].length,
colLen = z.length;
this.options.shape = [rowLen, colLen];
this.options.x = calcPt.x;
this.options.y = calcPt.y;
var colorOptions = convertColorscale(fullTrace);
this.options.colorLevels = colorOptions.colorLevels;
this.options.colorValues = colorOptions.colorValues;
// convert text from 2D -> 1D
this.textLabels = [].concat.apply([], fullTrace.text);
this.heatmap.update(this.options);
var xa = this.scene.xaxis;
var ya = this.scene.yaxis;
fullTrace._extremes[xa._id] = Axes.findExtremes(xa, calcPt.x);
fullTrace._extremes[ya._id] = Axes.findExtremes(ya, calcPt.y);
};
proto.dispose = function() {
this.heatmap.dispose();
};
function convertColorscale(fullTrace) {
var scl = fullTrace.colorscale,
zmin = fullTrace.zmin,
zmax = fullTrace.zmax;
var N = scl.length,
domain = new Array(N),
range = new Array(4 * N);
for(var i = 0; i < N; i++) {
var si = scl[i];
var color = str2RGBArray(si[1]);
domain[i] = zmin + si[0] * (zmax - zmin);
for(var j = 0; j < 4; j++) {
range[(4 * i) + j] = color[j];
}
}
return {
colorLevels: domain,
colorValues: range
};
}
function createHeatmap(scene, fullTrace, calcTrace) {
var plot = new Heatmap(scene, fullTrace.uid);
plot.update(fullTrace, calcTrace);
return plot;
}
module.exports = createHeatmap;
},{"../../lib/str2rgbarray":717,"../../plots/cartesian/axes":742,"gl-heatmap2d":240}],960:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var HeatmapGl = {};
HeatmapGl.attributes = _dereq_('./attributes');
HeatmapGl.supplyDefaults = _dereq_('../heatmap/defaults');
HeatmapGl.colorbar = _dereq_('../heatmap/colorbar');
HeatmapGl.calc = _dereq_('../heatmap/calc');
HeatmapGl.plot = _dereq_('./convert');
HeatmapGl.moduleType = 'trace';
HeatmapGl.name = 'heatmapgl';
HeatmapGl.basePlotModule = _dereq_('../../plots/gl2d');
HeatmapGl.categories = ['gl', 'gl2d', '2dMap'];
HeatmapGl.meta = {
};
module.exports = HeatmapGl;
},{"../../plots/gl2d":781,"../heatmap/calc":943,"../heatmap/colorbar":945,"../heatmap/defaults":947,"./attributes":958,"./convert":959}],961:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var barAttrs = _dereq_('../bar/attributes');
module.exports = {
x: {
valType: 'data_array',
editType: 'calc+clearAxisTypes',
},
y: {
valType: 'data_array',
editType: 'calc+clearAxisTypes',
},
text: barAttrs.text,
orientation: barAttrs.orientation,
histfunc: {
valType: 'enumerated',
values: ['count', 'sum', 'avg', 'min', 'max'],
dflt: 'count',
editType: 'calc',
},
histnorm: {
valType: 'enumerated',
values: ['', 'percent', 'probability', 'density', 'probability density'],
dflt: '',
editType: 'calc',
},
cumulative: {
enabled: {
valType: 'boolean',
dflt: false,
editType: 'calc',
},
direction: {
valType: 'enumerated',
values: ['increasing', 'decreasing'],
dflt: 'increasing',
editType: 'calc',
},
currentbin: {
valType: 'enumerated',
values: ['include', 'exclude', 'half'],
dflt: 'include',
editType: 'calc',
},
editType: 'calc'
},
autobinx: {
valType: 'boolean',
dflt: null,
editType: 'calc',
impliedEdits: {
'xbins.start': undefined,
'xbins.end': undefined,
'xbins.size': undefined
},
},
nbinsx: {
valType: 'integer',
min: 0,
dflt: 0,
editType: 'calc',
},
xbins: makeBinsAttr('x'),
autobiny: {
valType: 'boolean',
dflt: null,
editType: 'calc',
impliedEdits: {
'ybins.start': undefined,
'ybins.end': undefined,
'ybins.size': undefined
},
},
nbinsy: {
valType: 'integer',
min: 0,
dflt: 0,
editType: 'calc',
},
ybins: makeBinsAttr('y'),
marker: barAttrs.marker,
selected: barAttrs.selected,
unselected: barAttrs.unselected,
_deprecated: {
bardir: barAttrs._deprecated.bardir
}
};
function makeBinsAttr(axLetter) {
var impliedEdits = {};
impliedEdits['autobin' + axLetter] = false;
var impliedEditsInner = {};
impliedEditsInner['^autobin' + axLetter] = false;
return {
start: {
valType: 'any', // for date axes
dflt: null,
editType: 'calc',
impliedEdits: impliedEditsInner,
},
end: {
valType: 'any', // for date axes
dflt: null,
editType: 'calc',
impliedEdits: impliedEditsInner,
},
size: {
valType: 'any', // for date axes
dflt: null,
editType: 'calc',
impliedEdits: impliedEditsInner,
},
editType: 'calc',
impliedEdits: impliedEdits
};
}
},{"../bar/attributes":835}],962:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function doAvg(size, counts) {
var nMax = size.length,
total = 0;
for(var i = 0; i < nMax; i++) {
if(counts[i]) {
size[i] /= counts[i];
total += size[i];
}
else size[i] = null;
}
return total;
};
},{}],963:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function handleBinDefaults(traceIn, traceOut, coerce, binDirections) {
coerce('histnorm');
binDirections.forEach(function(binDirection) {
/*
* Because date axes have string values for start and end,
* and string options for size, we cannot validate these attributes
* now. We will do this during calc (immediately prior to binning)
* in ./clean_bins, and push the cleaned values back to _fullData.
*/
coerce(binDirection + 'bins.start');
coerce(binDirection + 'bins.end');
coerce(binDirection + 'bins.size');
var autobin = coerce('autobin' + binDirection);
if(autobin !== false) coerce('nbins' + binDirection);
});
return traceOut;
};
},{}],964:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
module.exports = {
count: function(n, i, size) {
size[n]++;
return 1;
},
sum: function(n, i, size, counterData) {
var v = counterData[i];
if(isNumeric(v)) {
v = Number(v);
size[n] += v;
return v;
}
return 0;
},
avg: function(n, i, size, counterData, counts) {
var v = counterData[i];
if(isNumeric(v)) {
v = Number(v);
size[n] += v;
counts[n]++;
}
return 0;
},
min: function(n, i, size, counterData) {
var v = counterData[i];
if(isNumeric(v)) {
v = Number(v);
if(!isNumeric(size[n])) {
size[n] = v;
return v;
}
else if(size[n] > v) {
var delta = v - size[n];
size[n] = v;
return delta;
}
}
return 0;
},
max: function(n, i, size, counterData) {
var v = counterData[i];
if(isNumeric(v)) {
v = Number(v);
if(!isNumeric(size[n])) {
size[n] = v;
return v;
}
else if(size[n] < v) {
var delta = v - size[n];
size[n] = v;
return delta;
}
}
return 0;
}
};
},{"fast-isnumeric":213}],965:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var numConstants = _dereq_('../../constants/numerical');
var oneYear = numConstants.ONEAVGYEAR;
var oneMonth = numConstants.ONEAVGMONTH;
var oneDay = numConstants.ONEDAY;
var oneHour = numConstants.ONEHOUR;
var oneMin = numConstants.ONEMIN;
var oneSec = numConstants.ONESEC;
var tickIncrement = _dereq_('../../plots/cartesian/axes').tickIncrement;
/*
* make a function that will find rounded bin edges
* @param {number} leftGap: how far from the left edge of any bin is the closest data value?
* @param {number} rightGap: how far from the right edge of any bin is the closest data value?
* @param {Array[number]} binEdges: the actual edge values used in binning
* @param {object} pa: the position axis
* @param {string} calendar: the data calendar
*
* @return {function(v, isRightEdge)}:
* find the start (isRightEdge is falsy) or end (truthy) label value for a bin edge `v`
*/
module.exports = function getBinSpanLabelRound(leftGap, rightGap, binEdges, pa, calendar) {
// the rounding digit is the largest digit that changes in *all* of 4 regions:
// - inside the rightGap before binEdges[0] (shifted 10% to the left)
// - inside the leftGap after binEdges[0] (expanded by 10% of rightGap on each end)
// - same for binEdges[1]
var dv0 = -1.1 * rightGap;
var dv1 = -0.1 * rightGap;
var dv2 = leftGap - dv1;
var edge0 = binEdges[0];
var edge1 = binEdges[1];
var leftDigit = Math.min(
biggestDigitChanged(edge0 + dv1, edge0 + dv2, pa, calendar),
biggestDigitChanged(edge1 + dv1, edge1 + dv2, pa, calendar)
);
var rightDigit = Math.min(
biggestDigitChanged(edge0 + dv0, edge0 + dv1, pa, calendar),
biggestDigitChanged(edge1 + dv0, edge1 + dv1, pa, calendar)
);
// normally we try to make the label for the right edge different from
// the left edge label, so it's unambiguous which bin gets data on the edge.
// but if this results in more than 3 extra digits (or for dates, more than
// 2 fields ie hr&min or min&sec, which is 3600x), it'll be more clutter than
// useful so keep the label cleaner instead
var digit, disambiguateEdges;
if(leftDigit > rightDigit && rightDigit < Math.abs(edge1 - edge0) / 4000) {
digit = leftDigit;
disambiguateEdges = false;
}
else {
digit = Math.min(leftDigit, rightDigit);
disambiguateEdges = true;
}
if(pa.type === 'date' && digit > oneDay) {
var dashExclude = (digit === oneYear) ? 1 : 6;
var increment = (digit === oneYear) ? 'M12' : 'M1';
return function(v, isRightEdge) {
var dateStr = pa.c2d(v, oneYear, calendar);
var dashPos = dateStr.indexOf('-', dashExclude);
if(dashPos > 0) dateStr = dateStr.substr(0, dashPos);
var roundedV = pa.d2c(dateStr, 0, calendar);
if(roundedV < v) {
var nextV = tickIncrement(roundedV, increment, false, calendar);
if((roundedV + nextV) / 2 < v + leftGap) roundedV = nextV;
}
if(isRightEdge && disambiguateEdges) {
return tickIncrement(roundedV, increment, true, calendar);
}
return roundedV;
};
}
return function(v, isRightEdge) {
var roundedV = digit * Math.round(v / digit);
// if we rounded down and we could round up and still be < leftGap
// (or what leftGap values round to), do that
if(roundedV + (digit / 10) < v && roundedV + (digit * 0.9) < v + leftGap) {
roundedV += digit;
}
// finally for the right edge back off one digit - but only if we can do that
// and not clip off any data that's potentially in the bin
if(isRightEdge && disambiguateEdges) {
roundedV -= digit;
}
return roundedV;
};
};
/*
* Find the largest digit that changes within a (calcdata) region [v1, v2]
* if dates, "digit" means date/time part when it's bigger than a second
* returns the unit value to round to this digit, eg 0.01 to round to hundredths, or
* 100 to round to hundreds. returns oneMonth or oneYear for month or year rounding,
* so that Math.min will work, rather than 'M1' and 'M12'
*/
function biggestDigitChanged(v1, v2, pa, calendar) {
// are we crossing zero? can't say anything.
// in principle this doesn't apply to dates but turns out this doesn't matter.
if(v1 * v2 <= 0) return Infinity;
var dv = Math.abs(v2 - v1);
var isDate = pa.type === 'date';
var digit = biggestGuaranteedDigitChanged(dv, isDate);
// see if a larger digit also changed
for(var i = 0; i < 10; i++) {
// numbers: next digit needs to be >10x but <100x then gets rounded down.
// dates: next digit can be as much as 60x (then rounded down)
var nextDigit = biggestGuaranteedDigitChanged(digit * 80, isDate);
// if we get to years, the chain stops
if(digit === nextDigit) break;
if(didDigitChange(nextDigit, v1, v2, isDate, pa, calendar)) digit = nextDigit;
else break;
}
return digit;
}
/*
* Find the largest digit that *definitely* changes in a region [v, v + dv] for any v
* for nonuniform date regions (months/years) pick the largest
*/
function biggestGuaranteedDigitChanged(dv, isDate) {
if(isDate && dv > oneSec) {
// this is supposed to be the biggest *guaranteed* change
// so compare to the longest month and year across any calendar,
// and we'll iterate back up later
// note: does not support rounding larger than one year. We could add
// that if anyone wants it, but seems unusual and not strictly necessary.
if(dv > oneDay) {
if(dv > oneYear * 1.1) return oneYear;
if(dv > oneMonth * 1.1) return oneMonth;
return oneDay;
}
if(dv > oneHour) return oneHour;
if(dv > oneMin) return oneMin;
return oneSec;
}
return Math.pow(10, Math.floor(Math.log(dv) / Math.LN10));
}
function didDigitChange(digit, v1, v2, isDate, pa, calendar) {
if(isDate && digit > oneDay) {
var dateParts1 = dateParts(v1, pa, calendar);
var dateParts2 = dateParts(v2, pa, calendar);
var parti = (digit === oneYear) ? 0 : 1;
return dateParts1[parti] !== dateParts2[parti];
}
return Math.floor(v2 / digit) - Math.floor(v1 / digit) > 0.1;
}
function dateParts(v, pa, calendar) {
var parts = pa.c2d(v, oneYear, calendar).split('-');
if(parts[0] === '') {
parts.unshift();
parts[0] = '-' + parts[0];
}
return parts;
}
},{"../../constants/numerical":670,"../../plots/cartesian/axes":742}],966:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var Lib = _dereq_('../../lib');
var Axes = _dereq_('../../plots/cartesian/axes');
var arraysToCalcdata = _dereq_('../bar/arrays_to_calcdata');
var binFunctions = _dereq_('./bin_functions');
var normFunctions = _dereq_('./norm_functions');
var doAvg = _dereq_('./average');
var cleanBins = _dereq_('./clean_bins');
var oneMonth = _dereq_('../../constants/numerical').ONEAVGMONTH;
var getBinSpanLabelRound = _dereq_('./bin_label_vals');
module.exports = function calc(gd, trace) {
// ignore as much processing as possible (and including in autorange) if not visible
if(trace.visible !== true) return;
// depending on orientation, set position and size axes and data ranges
// note: this logic for choosing orientation is duplicated in graph_obj->setstyles
var pos = [];
var size = [];
var pa = Axes.getFromId(gd, trace.orientation === 'h' ?
(trace.yaxis || 'y') : (trace.xaxis || 'x'));
var mainData = trace.orientation === 'h' ? 'y' : 'x';
var counterData = {x: 'y', y: 'x'}[mainData];
var calendar = trace[mainData + 'calendar'];
var cumulativeSpec = trace.cumulative;
var i;
cleanBins(trace, pa, mainData);
var binsAndPos = calcAllAutoBins(gd, trace, pa, mainData);
var binSpec = binsAndPos[0];
var pos0 = binsAndPos[1];
var nonuniformBins = typeof binSpec.size === 'string';
var binEdges = [];
var bins = nonuniformBins ? binEdges : binSpec;
// make the empty bin array
var inc = [];
var counts = [];
var inputPoints = [];
var total = 0;
var norm = trace.histnorm;
var func = trace.histfunc;
var densityNorm = norm.indexOf('density') !== -1;
var i2, binEnd, n;
if(cumulativeSpec.enabled && densityNorm) {
// we treat "cumulative" like it means "integral" if you use a density norm,
// which in the end means it's the same as without "density"
norm = norm.replace(/ ?density$/, '');
densityNorm = false;
}
var extremeFunc = func === 'max' || func === 'min';
var sizeInit = extremeFunc ? null : 0;
var binFunc = binFunctions.count;
var normFunc = normFunctions[norm];
var isAvg = false;
var pr2c = function(v) { return pa.r2c(v, 0, calendar); };
var rawCounterData;
if(Lib.isArrayOrTypedArray(trace[counterData]) && func !== 'count') {
rawCounterData = trace[counterData];
isAvg = func === 'avg';
binFunc = binFunctions[func];
}
// create the bins (and any extra arrays needed)
// assume more than 1e6 bins is an error, so we don't crash the browser
i = pr2c(binSpec.start);
// decrease end a little in case of rounding errors
binEnd = pr2c(binSpec.end) + (i - Axes.tickIncrement(i, binSpec.size, false, calendar)) / 1e6;
while(i < binEnd && pos.length < 1e6) {
i2 = Axes.tickIncrement(i, binSpec.size, false, calendar);
pos.push((i + i2) / 2);
size.push(sizeInit);
inputPoints.push([]);
// nonuniform bins (like months) we need to search,
// rather than straight calculate the bin we're in
binEdges.push(i);
// nonuniform bins also need nonuniform normalization factors
if(densityNorm) inc.push(1 / (i2 - i));
if(isAvg) counts.push(0);
// break to avoid infinite loops
if(i2 <= i) break;
i = i2;
}
binEdges.push(i);
// for date axes we need bin bounds to be calcdata. For nonuniform bins
// we already have this, but uniform with start/end/size they're still strings.
if(!nonuniformBins && pa.type === 'date') {
bins = {
start: pr2c(bins.start),
end: pr2c(bins.end),
size: bins.size
};
}
// bin the data
// and make histogram-specific pt-number-to-cd-index map object
var nMax = size.length;
var uniqueValsPerBin = true;
var leftGap = Infinity;
var rightGap = Infinity;
var ptNumber2cdIndex = {};
for(i = 0; i < pos0.length; i++) {
var posi = pos0[i];
n = Lib.findBin(posi, bins);
if(n >= 0 && n < nMax) {
total += binFunc(n, i, size, rawCounterData, counts);
if(uniqueValsPerBin && inputPoints[n].length && posi !== pos0[inputPoints[n][0]]) {
uniqueValsPerBin = false;
}
inputPoints[n].push(i);
ptNumber2cdIndex[i] = n;
leftGap = Math.min(leftGap, posi - binEdges[n]);
rightGap = Math.min(rightGap, binEdges[n + 1] - posi);
}
}
var roundFn;
if(!uniqueValsPerBin) {
roundFn = getBinSpanLabelRound(leftGap, rightGap, binEdges, pa, calendar);
}
// average and/or normalize the data, if needed
if(isAvg) total = doAvg(size, counts);
if(normFunc) normFunc(size, total, inc);
// after all normalization etc, now we can accumulate if desired
if(cumulativeSpec.enabled) cdf(size, cumulativeSpec.direction, cumulativeSpec.currentbin);
var seriesLen = Math.min(pos.length, size.length);
var cd = [];
var firstNonzero = 0;
var lastNonzero = seriesLen - 1;
// look for empty bins at the ends to remove, so autoscale omits them
for(i = 0; i < seriesLen; i++) {
if(size[i]) {
firstNonzero = i;
break;
}
}
for(i = seriesLen - 1; i >= firstNonzero; i--) {
if(size[i]) {
lastNonzero = i;
break;
}
}
// create the "calculated data" to plot
for(i = firstNonzero; i <= lastNonzero; i++) {
if((isNumeric(pos[i]) && isNumeric(size[i]))) {
var cdi = {
p: pos[i],
s: size[i],
b: 0
};
// setup hover and event data fields,
// N.B. pts and "hover" positions ph0/ph1 don't seem to make much sense
// for cumulative distributions
if(!cumulativeSpec.enabled) {
cdi.pts = inputPoints[i];
if(uniqueValsPerBin) {
cdi.ph0 = cdi.ph1 = (inputPoints[i].length) ? pos0[inputPoints[i][0]] : pos[i];
}
else {
cdi.ph0 = roundFn(binEdges[i]);
cdi.ph1 = roundFn(binEdges[i + 1], true);
}
}
cd.push(cdi);
}
}
if(cd.length === 1) {
// when we collapse to a single bin, calcdata no longer describes bin size
// so we need to explicitly specify it
cd[0].width1 = Axes.tickIncrement(cd[0].p, binSpec.size, false, calendar) - cd[0].p;
}
arraysToCalcdata(cd, trace);
if(Lib.isArrayOrTypedArray(trace.selectedpoints)) {
Lib.tagSelected(cd, trace, ptNumber2cdIndex);
}
return cd;
};
/*
* calcAllAutoBins: we want all histograms on the same axes to share bin specs
* if they're grouped or stacked. If the user has explicitly specified differing
* bin specs, there's nothing we can do, but if possible we will try to use the
* smallest bins of any of the auto values for all histograms grouped/stacked
* together.
*/
function calcAllAutoBins(gd, trace, pa, mainData, _overlayEdgeCase) {
var binAttr = mainData + 'bins';
var isOverlay = gd._fullLayout.barmode === 'overlay';
var i, tracei, calendar, firstManual, pos0;
// all but the first trace in this group has already been marked finished
// clear this flag, so next time we run calc we will run autobin again
if(trace._autoBinFinished) {
delete trace._autoBinFinished;
}
else {
// must be the first trace in the group - do the autobinning on them all
// find all grouped traces - in overlay mode each trace is independent
var traceGroup = isOverlay ? [trace] : getConnectedHistograms(gd, trace);
var autoBinnedTraces = [];
var minSize = Infinity;
var minStart = Infinity;
var maxEnd = -Infinity;
var autoBinAttr = 'autobin' + mainData;
for(i = 0; i < traceGroup.length; i++) {
tracei = traceGroup[i];
// stash pos0 on the trace so we don't need to duplicate this
// in the main body of calc
pos0 = tracei._pos0 = pa.makeCalcdata(tracei, mainData);
var binSpec = tracei[binAttr];
if((tracei[autoBinAttr]) || !binSpec ||
binSpec.start === null || binSpec.end === null) {
calendar = tracei[mainData + 'calendar'];
var cumulativeSpec = tracei.cumulative;
binSpec = Axes.autoBin(pos0, pa, tracei['nbins' + mainData], false, calendar);
// Edge case: single-valued histogram overlaying others
// Use them all together to calculate the bin size for the single-valued one
if(isOverlay && binSpec._dataSpan === 0 && pa.type !== 'category') {
// Several single-valued histograms! Stop infinite recursion,
// just return an extra flag that tells handleSingleValueOverlays
// to sort out this trace too
if(_overlayEdgeCase) return [binSpec, pos0, true];
binSpec = handleSingleValueOverlays(gd, trace, pa, mainData, binAttr);
}
// adjust for CDF edge cases
if(cumulativeSpec.enabled && (cumulativeSpec.currentbin !== 'include')) {
if(cumulativeSpec.direction === 'decreasing') {
minStart = Math.min(minStart, pa.r2c(binSpec.start, 0, calendar) - binSpec.size);
}
else {
maxEnd = Math.max(maxEnd, pa.r2c(binSpec.end, 0, calendar) + binSpec.size);
}
}
// note that it's possible to get here with an explicit autobin: false
// if the bins were not specified. mark this trace for followup
autoBinnedTraces.push(tracei);
}
else if(!firstManual) {
// Remember the first manually set binSpec. We'll try to be extra
// accommodating of this one, so other bins line up with these.
// But if there's more than one manual bin set and they're mutually
// inconsistent, then there's not much we can do...
firstManual = {
size: binSpec.size,
start: pa.r2c(binSpec.start, 0, calendar),
end: pa.r2c(binSpec.end, 0, calendar)
};
}
// Even non-autobinned traces get included here, so we get the greatest extent
// and minimum bin size of them all.
// But manually binned traces won't be adjusted, even if the auto values
// are inconsistent with the manual ones (or the manual ones are inconsistent
// with each other).
minSize = getMinSize(minSize, binSpec.size);
minStart = Math.min(minStart, pa.r2c(binSpec.start, 0, calendar));
maxEnd = Math.max(maxEnd, pa.r2c(binSpec.end, 0, calendar));
// add the flag that lets us abort autobin on later traces
if(i) tracei._autoBinFinished = 1;
}
// do what we can to match the auto bins to the first manual bins
// but only if sizes are all numeric
if(firstManual && isNumeric(firstManual.size) && isNumeric(minSize)) {
// first need to ensure the bin size is the same as or an integer fraction
// of the first manual bin
// allow the bin size to increase just under the autobin step size to match,
// (which is a factor of 2 or 2.5) otherwise shrink it
if(minSize > firstManual.size / 1.9) minSize = firstManual.size;
else minSize = firstManual.size / Math.ceil(firstManual.size / minSize);
// now decrease minStart if needed to make the bin centers line up
var adjustedFirstStart = firstManual.start + (firstManual.size - minSize) / 2;
minStart = adjustedFirstStart - minSize * Math.ceil((adjustedFirstStart - minStart) / minSize);
}
// now go back to the autobinned traces and update their bin specs with the final values
for(i = 0; i < autoBinnedTraces.length; i++) {
tracei = autoBinnedTraces[i];
calendar = tracei[mainData + 'calendar'];
tracei._input[binAttr] = tracei[binAttr] = {
start: pa.c2r(minStart, 0, calendar),
end: pa.c2r(maxEnd, 0, calendar),
size: minSize
};
// note that it's possible to get here with an explicit autobin: false
// if the bins were not specified.
// in that case this will remain in the trace, so that future updates
// which would change the autobinning will not do so.
tracei._input[autoBinAttr] = tracei[autoBinAttr];
}
}
pos0 = trace._pos0;
delete trace._pos0;
return [trace[binAttr], pos0];
}
/*
* Adjust single-value histograms in overlay mode to make as good a
* guess as we can at autobin values the user would like.
*
* Returns the binSpec for the trace that sparked all this
*/
function handleSingleValueOverlays(gd, trace, pa, mainData, binAttr) {
var overlaidTraceGroup = getConnectedHistograms(gd, trace);
var pastThisTrace = false;
var minSize = Infinity;
var singleValuedTraces = [trace];
var i, tracei;
// first collect all the:
// - min bin size from all multi-valued traces
// - single-valued traces
for(i = 0; i < overlaidTraceGroup.length; i++) {
tracei = overlaidTraceGroup[i];
if(tracei === trace) pastThisTrace = true;
else if(!pastThisTrace) {
// This trace has already had its autobins calculated
// (so must not have been single-valued).
minSize = Math.min(minSize, tracei[binAttr].size);
}
else {
var resulti = calcAllAutoBins(gd, tracei, pa, mainData, true);
var binSpeci = resulti[0];
var isSingleValued = resulti[2];
// so we can use this result when we get to tracei in the normal
// course of events, mark it as done and put _pos0 back
tracei._autoBinFinished = 1;
tracei._pos0 = resulti[1];
if(isSingleValued) {
singleValuedTraces.push(tracei);
}
else {
minSize = Math.min(minSize, binSpeci.size);
}
}
}
// find the real data values for each single-valued trace
// hunt through pos0 for the first valid value
var dataVals = new Array(singleValuedTraces.length);
for(i = 0; i < singleValuedTraces.length; i++) {
var pos0 = singleValuedTraces[i]._pos0;
for(var j = 0; j < pos0.length; j++) {
if(pos0[j] !== undefined) {
dataVals[i] = pos0[j];
break;
}
}
}
// are ALL traces are single-valued? use the min difference between
// all of their values (which defaults to 1 if there's still only one)
if(!isFinite(minSize)) {
minSize = Lib.distinctVals(dataVals).minDiff;
}
// now apply the min size we found to all single-valued traces
for(i = 0; i < singleValuedTraces.length; i++) {
tracei = singleValuedTraces[i];
var calendar = tracei[mainData + 'calendar'];
tracei._input[binAttr] = tracei[binAttr] = {
start: pa.c2r(dataVals[i] - minSize / 2, 0, calendar),
end: pa.c2r(dataVals[i] + minSize / 2, 0, calendar),
size: minSize
};
}
return trace[binAttr];
}
/*
* Return an array of histograms that share axes and orientation.
*
* Only considers histograms. In principle we could include bars in a
* similar way to how we do manually binned histograms, though this
* would have tons of edge cases and value judgments to make.
*/
function getConnectedHistograms(gd, trace) {
var xid = trace.xaxis;
var yid = trace.yaxis;
var orientation = trace.orientation;
var out = [];
var fullData = gd._fullData;
for(var i = 0; i < fullData.length; i++) {
var tracei = fullData[i];
if(tracei.type === 'histogram' &&
tracei.visible === true &&
tracei.orientation === orientation &&
tracei.xaxis === xid && tracei.yaxis === yid
) {
out.push(tracei);
}
}
return out;
}
/*
* getMinSize: find the smallest given that size can be a string code
* ie 'M6' for 6 months. ('L' wouldn't make sense to compare with numeric sizes)
*/
function getMinSize(size1, size2) {
if(size1 === Infinity) return size2;
var sizeNumeric1 = numericSize(size1);
var sizeNumeric2 = numericSize(size2);
return sizeNumeric2 < sizeNumeric1 ? size2 : size1;
}
function numericSize(size) {
if(isNumeric(size)) return size;
if(typeof size === 'string' && size.charAt(0) === 'M') {
return oneMonth * +(size.substr(1));
}
return Infinity;
}
function cdf(size, direction, currentBin) {
var i, vi, prevSum;
function firstHalfPoint(i) {
prevSum = size[i];
size[i] /= 2;
}
function nextHalfPoint(i) {
vi = size[i];
size[i] = prevSum + vi / 2;
prevSum += vi;
}
if(currentBin === 'half') {
if(direction === 'increasing') {
firstHalfPoint(0);
for(i = 1; i < size.length; i++) {
nextHalfPoint(i);
}
}
else {
firstHalfPoint(size.length - 1);
for(i = size.length - 2; i >= 0; i--) {
nextHalfPoint(i);
}
}
}
else if(direction === 'increasing') {
for(i = 1; i < size.length; i++) {
size[i] += size[i - 1];
}
// 'exclude' is identical to 'include' just shifted one bin over
if(currentBin === 'exclude') {
size.unshift(0);
size.pop();
}
}
else {
for(i = size.length - 2; i >= 0; i--) {
size[i] += size[i + 1];
}
if(currentBin === 'exclude') {
size.push(0);
size.shift();
}
}
}
},{"../../constants/numerical":670,"../../lib":693,"../../plots/cartesian/axes":742,"../bar/arrays_to_calcdata":834,"./average":962,"./bin_functions":964,"./bin_label_vals":965,"./clean_bins":967,"./norm_functions":972,"fast-isnumeric":213}],967:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var cleanDate = _dereq_('../../lib').cleanDate;
var constants = _dereq_('../../constants/numerical');
var ONEDAY = constants.ONEDAY;
var BADNUM = constants.BADNUM;
/*
* cleanBins: validate attributes autobin[xy] and [xy]bins.(start, end, size)
* Mutates trace so all these attributes are valid.
*
* Normally this kind of thing would happen during supplyDefaults, but
* in this case we need to know the axis type, and axis type isn't set until
* after trace supplyDefaults are completed. So this gets called during the
* calc step, when data are inserted into bins.
*/
module.exports = function cleanBins(trace, ax, binDirection) {
var axType = ax.type,
binAttr = binDirection + 'bins',
bins = trace[binAttr];
if(!bins) bins = trace[binAttr] = {};
var cleanBound = (axType === 'date') ?
function(v) { return (v || v === 0) ? cleanDate(v, BADNUM, bins.calendar) : null; } :
function(v) { return isNumeric(v) ? Number(v) : null; };
bins.start = cleanBound(bins.start);
bins.end = cleanBound(bins.end);
// logic for bin size is very similar to dtick (cartesian/tick_value_defaults)
// but without the extra string options for log axes
// ie the only strings we accept are M<n> for months
var sizeDflt = (axType === 'date') ? ONEDAY : 1,
binSize = bins.size;
if(isNumeric(binSize)) {
bins.size = (binSize > 0) ? Number(binSize) : sizeDflt;
}
else if(typeof binSize !== 'string') {
bins.size = sizeDflt;
}
else {
// date special case: "M<n>" gives bins every (integer) n months
var prefix = binSize.charAt(0),
sizeNum = binSize.substr(1);
sizeNum = isNumeric(sizeNum) ? Number(sizeNum) : 0;
if((sizeNum <= 0) || !(
axType === 'date' && prefix === 'M' && sizeNum === Math.round(sizeNum)
)) {
bins.size = sizeDflt;
}
}
var autoBinAttr = 'autobin' + binDirection;
if(typeof trace[autoBinAttr] !== 'boolean') {
trace[autoBinAttr] = trace._fullInput[autoBinAttr] = trace._input[autoBinAttr] = !(
(bins.start || bins.start === 0) &&
(bins.end || bins.end === 0)
);
}
if(!trace[autoBinAttr]) {
delete trace['nbins' + binDirection];
delete trace._fullInput['nbins' + binDirection];
}
};
},{"../../constants/numerical":670,"../../lib":693,"fast-isnumeric":213}],968:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var Color = _dereq_('../../components/color');
var handleBinDefaults = _dereq_('./bin_defaults');
var handleStyleDefaults = _dereq_('../bar/style_defaults');
var attributes = _dereq_('./attributes');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
var x = coerce('x');
var y = coerce('y');
var cumulative = coerce('cumulative.enabled');
if(cumulative) {
coerce('cumulative.direction');
coerce('cumulative.currentbin');
}
coerce('text');
var orientation = coerce('orientation', (y && !x) ? 'h' : 'v');
var sampleLetter = orientation === 'v' ? 'x' : 'y';
var aggLetter = orientation === 'v' ? 'y' : 'x';
var len = (x && y) ? Math.min(x.length && y.length) : (traceOut[sampleLetter] || []).length;
if(!len) {
traceOut.visible = false;
return;
}
traceOut._length = len;
var handleCalendarDefaults = Registry.getComponentMethod('calendars', 'handleTraceDefaults');
handleCalendarDefaults(traceIn, traceOut, ['x', 'y'], layout);
var hasAggregationData = traceOut[aggLetter];
if(hasAggregationData) coerce('histfunc');
handleBinDefaults(traceIn, traceOut, coerce, [sampleLetter]);
handleStyleDefaults(traceIn, traceOut, coerce, defaultColor, layout);
// override defaultColor for error bars with defaultLine
var errorBarsSupplyDefaults = Registry.getComponentMethod('errorbars', 'supplyDefaults');
errorBarsSupplyDefaults(traceIn, traceOut, Color.defaultLine, {axis: 'y'});
errorBarsSupplyDefaults(traceIn, traceOut, Color.defaultLine, {axis: 'x', inherit: 'y'});
Lib.coerceSelectionMarkerOpacity(traceOut, coerce);
};
},{"../../components/color":567,"../../lib":693,"../../registry":825,"../bar/style_defaults":847,"./attributes":961,"./bin_defaults":963}],969:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function eventData(out, pt, trace, cd, pointNumber) {
// standard cartesian event data
out.x = 'xVal' in pt ? pt.xVal : pt.x;
out.y = 'yVal' in pt ? pt.yVal : pt.y;
if(pt.xa) out.xaxis = pt.xa;
if(pt.ya) out.yaxis = pt.ya;
// specific to histogram - CDFs do not have pts (yet?)
if(!(trace.cumulative || {}).enabled) {
var pts = Array.isArray(pointNumber) ?
cd[0].pts[pointNumber[0]][pointNumber[1]] :
cd[pointNumber].pts;
out.pointNumbers = pts;
out.binNumber = out.pointNumber;
delete out.pointNumber;
delete out.pointIndex;
var pointIndices;
if(trace._indexToPoints) {
pointIndices = [];
for(var i = 0; i < pts.length; i++) {
pointIndices = pointIndices.concat(trace._indexToPoints[pts[i]]);
}
} else {
pointIndices = pts;
}
out.pointIndices = pointIndices;
}
return out;
};
},{}],970:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var barHover = _dereq_('../bar/hover').hoverPoints;
var hoverLabelText = _dereq_('../../plots/cartesian/axes').hoverLabelText;
module.exports = function hoverPoints(pointData, xval, yval, hovermode) {
var pts = barHover(pointData, xval, yval, hovermode);
if(!pts) return;
pointData = pts[0];
var di = pointData.cd[pointData.index];
var trace = pointData.cd[0].trace;
if(!trace.cumulative.enabled) {
var posLetter = trace.orientation === 'h' ? 'y' : 'x';
pointData[posLetter + 'Label'] = hoverLabelText(pointData[posLetter + 'a'], di.ph0, di.ph1);
}
return pts;
};
},{"../../plots/cartesian/axes":742,"../bar/hover":839}],971:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/**
* Histogram has its own attribute, defaults and calc steps,
* but uses bar's plot to display
* and bar's crossTraceCalc (formerly known as setPositions) for stacking and grouping
*/
/**
* histogram errorBarsOK is debatable, but it's put in for backward compat.
* there are use cases for it - sqrt for a simple histogram works right now,
* constant and % work but they're not so meaningful. I guess it could be cool
* to allow quadrature combination of errors in summed histograms...
*/
var Histogram = {};
Histogram.attributes = _dereq_('./attributes');
Histogram.layoutAttributes = _dereq_('../bar/layout_attributes');
Histogram.supplyDefaults = _dereq_('./defaults');
Histogram.supplyLayoutDefaults = _dereq_('../bar/layout_defaults');
Histogram.calc = _dereq_('./calc');
Histogram.crossTraceCalc = _dereq_('../bar/cross_trace_calc').crossTraceCalc;
Histogram.plot = _dereq_('../bar/plot');
Histogram.layerName = 'barlayer';
Histogram.style = _dereq_('../bar/style').style;
Histogram.styleOnSelect = _dereq_('../bar/style').styleOnSelect;
Histogram.colorbar = _dereq_('../scatter/marker_colorbar');
Histogram.hoverPoints = _dereq_('./hover');
Histogram.selectPoints = _dereq_('../bar/select');
Histogram.eventData = _dereq_('./event_data');
Histogram.moduleType = 'trace';
Histogram.name = 'histogram';
Histogram.basePlotModule = _dereq_('../../plots/cartesian');
Histogram.categories = ['cartesian', 'svg', 'bar', 'histogram', 'oriented', 'errorBarsOK', 'showLegend'];
Histogram.meta = {
};
module.exports = Histogram;
},{"../../plots/cartesian":753,"../bar/cross_trace_calc":837,"../bar/layout_attributes":841,"../bar/layout_defaults":842,"../bar/plot":843,"../bar/select":844,"../bar/style":846,"../scatter/marker_colorbar":1050,"./attributes":961,"./calc":966,"./defaults":968,"./event_data":969,"./hover":970}],972:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
percent: function(size, total) {
var nMax = size.length,
norm = 100 / total;
for(var n = 0; n < nMax; n++) size[n] *= norm;
},
probability: function(size, total) {
var nMax = size.length;
for(var n = 0; n < nMax; n++) size[n] /= total;
},
density: function(size, total, inc, yinc) {
var nMax = size.length;
yinc = yinc || 1;
for(var n = 0; n < nMax; n++) size[n] *= inc[n] * yinc;
},
'probability density': function(size, total, inc, yinc) {
var nMax = size.length;
if(yinc) total /= yinc;
for(var n = 0; n < nMax; n++) size[n] *= inc[n] / total;
}
};
},{}],973:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var histogramAttrs = _dereq_('../histogram/attributes');
var heatmapAttrs = _dereq_('../heatmap/attributes');
var colorscaleAttrs = _dereq_('../../components/colorscale/attributes');
var colorbarAttrs = _dereq_('../../components/colorbar/attributes');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
module.exports = extendFlat(
{
x: histogramAttrs.x,
y: histogramAttrs.y,
z: {
valType: 'data_array',
editType: 'calc',
},
marker: {
color: {
valType: 'data_array',
editType: 'calc',
},
editType: 'calc'
},
histnorm: histogramAttrs.histnorm,
histfunc: histogramAttrs.histfunc,
autobinx: histogramAttrs.autobinx,
nbinsx: histogramAttrs.nbinsx,
xbins: histogramAttrs.xbins,
autobiny: histogramAttrs.autobiny,
nbinsy: histogramAttrs.nbinsy,
ybins: histogramAttrs.ybins,
xgap: heatmapAttrs.xgap,
ygap: heatmapAttrs.ygap,
zsmooth: heatmapAttrs.zsmooth,
zhoverformat: heatmapAttrs.zhoverformat
},
colorscaleAttrs('', {
cLetter: 'z',
autoColorDflt: false
}),
{ colorbar: colorbarAttrs }
);
},{"../../components/colorbar/attributes":568,"../../components/colorscale/attributes":574,"../../lib/extend":682,"../heatmap/attributes":942,"../histogram/attributes":961}],974:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Axes = _dereq_('../../plots/cartesian/axes');
var binFunctions = _dereq_('../histogram/bin_functions');
var normFunctions = _dereq_('../histogram/norm_functions');
var doAvg = _dereq_('../histogram/average');
var cleanBins = _dereq_('../histogram/clean_bins');
var getBinSpanLabelRound = _dereq_('../histogram/bin_label_vals');
module.exports = function calc(gd, trace) {
var xa = Axes.getFromId(gd, trace.xaxis || 'x');
var x = trace.x ? xa.makeCalcdata(trace, 'x') : [];
var ya = Axes.getFromId(gd, trace.yaxis || 'y');
var y = trace.y ? ya.makeCalcdata(trace, 'y') : [];
var xcalendar = trace.xcalendar;
var ycalendar = trace.ycalendar;
var xr2c = function(v) { return xa.r2c(v, 0, xcalendar); };
var yr2c = function(v) { return ya.r2c(v, 0, ycalendar); };
var xc2r = function(v) { return xa.c2r(v, 0, xcalendar); };
var yc2r = function(v) { return ya.c2r(v, 0, ycalendar); };
var i, j, n, m;
var serieslen = trace._length;
if(x.length > serieslen) x.splice(serieslen, x.length - serieslen);
if(y.length > serieslen) y.splice(serieslen, y.length - serieslen);
// calculate the bins
cleanAndAutobin(trace, 'x', x, xa, xr2c, xc2r, xcalendar);
cleanAndAutobin(trace, 'y', y, ya, yr2c, yc2r, ycalendar);
// make the empty bin array & scale the map
var z = [];
var onecol = [];
var zerocol = [];
var nonuniformBinsX = (typeof(trace.xbins.size) === 'string');
var nonuniformBinsY = (typeof(trace.ybins.size) === 'string');
var xEdges = [];
var yEdges = [];
var xbins = nonuniformBinsX ? xEdges : trace.xbins;
var ybins = nonuniformBinsY ? yEdges : trace.ybins;
var total = 0;
var counts = [];
var inputPoints = [];
var norm = trace.histnorm;
var func = trace.histfunc;
var densitynorm = (norm.indexOf('density') !== -1);
var extremefunc = (func === 'max' || func === 'min');
var sizeinit = (extremefunc ? null : 0);
var binfunc = binFunctions.count;
var normfunc = normFunctions[norm];
var doavg = false;
var xinc = [];
var yinc = [];
// set a binning function other than count?
// for binning functions: check first for 'z',
// then 'mc' in case we had a colored scatter plot
// and want to transfer these colors to the 2D histo
// TODO: axe this, make it the responsibility of the app changing type? or an impliedEdit?
var rawCounterData = ('z' in trace) ?
trace.z :
(('marker' in trace && Array.isArray(trace.marker.color)) ?
trace.marker.color : '');
if(rawCounterData && func !== 'count') {
doavg = func === 'avg';
binfunc = binFunctions[func];
}
// decrease end a little in case of rounding errors
var binSpec = trace.xbins,
binStart = xr2c(binSpec.start),
binEnd = xr2c(binSpec.end) +
(binStart - Axes.tickIncrement(binStart, binSpec.size, false, xcalendar)) / 1e6;
for(i = binStart; i < binEnd; i = Axes.tickIncrement(i, binSpec.size, false, xcalendar)) {
onecol.push(sizeinit);
xEdges.push(i);
if(doavg) zerocol.push(0);
}
xEdges.push(i);
var nx = onecol.length;
var x0c = xr2c(trace.xbins.start);
var dx = (i - x0c) / nx;
var x0 = xc2r(x0c + dx / 2);
binSpec = trace.ybins;
binStart = yr2c(binSpec.start);
binEnd = yr2c(binSpec.end) +
(binStart - Axes.tickIncrement(binStart, binSpec.size, false, ycalendar)) / 1e6;
for(i = binStart; i < binEnd; i = Axes.tickIncrement(i, binSpec.size, false, ycalendar)) {
z.push(onecol.slice());
yEdges.push(i);
var ipCol = new Array(nx);
for(j = 0; j < nx; j++) ipCol[j] = [];
inputPoints.push(ipCol);
if(doavg) counts.push(zerocol.slice());
}
yEdges.push(i);
var ny = z.length;
var y0c = yr2c(trace.ybins.start);
var dy = (i - y0c) / ny;
var y0 = yc2r(y0c + dy / 2);
if(densitynorm) {
xinc = makeIncrements(onecol.length, xbins, dx, nonuniformBinsX);
yinc = makeIncrements(z.length, ybins, dy, nonuniformBinsY);
}
// for date axes we need bin bounds to be calcdata. For nonuniform bins
// we already have this, but uniform with start/end/size they're still strings.
if(!nonuniformBinsX && xa.type === 'date') xbins = binsToCalc(xr2c, xbins);
if(!nonuniformBinsY && ya.type === 'date') ybins = binsToCalc(yr2c, ybins);
// put data into bins
var uniqueValsPerX = true;
var uniqueValsPerY = true;
var xVals = new Array(nx);
var yVals = new Array(ny);
var xGapLow = Infinity;
var xGapHigh = Infinity;
var yGapLow = Infinity;
var yGapHigh = Infinity;
for(i = 0; i < serieslen; i++) {
var xi = x[i];
var yi = y[i];
n = Lib.findBin(xi, xbins);
m = Lib.findBin(yi, ybins);
if(n >= 0 && n < nx && m >= 0 && m < ny) {
total += binfunc(n, i, z[m], rawCounterData, counts[m]);
inputPoints[m][n].push(i);
if(uniqueValsPerX) {
if(xVals[n] === undefined) xVals[n] = xi;
else if(xVals[n] !== xi) uniqueValsPerX = false;
}
if(uniqueValsPerY) {
if(yVals[n] === undefined) yVals[n] = yi;
else if(yVals[n] !== yi) uniqueValsPerY = false;
}
xGapLow = Math.min(xGapLow, xi - xEdges[n]);
xGapHigh = Math.min(xGapHigh, xEdges[n + 1] - xi);
yGapLow = Math.min(yGapLow, yi - yEdges[m]);
yGapHigh = Math.min(yGapHigh, yEdges[m + 1] - yi);
}
}
// normalize, if needed
if(doavg) {
for(m = 0; m < ny; m++) total += doAvg(z[m], counts[m]);
}
if(normfunc) {
for(m = 0; m < ny; m++) normfunc(z[m], total, xinc, yinc[m]);
}
return {
x: x,
xRanges: getRanges(xEdges, uniqueValsPerX && xVals, xGapLow, xGapHigh, xa, xcalendar),
x0: x0,
dx: dx,
y: y,
yRanges: getRanges(yEdges, uniqueValsPerY && yVals, yGapLow, yGapHigh, ya, ycalendar),
y0: y0,
dy: dy,
z: z,
pts: inputPoints
};
};
function cleanAndAutobin(trace, axLetter, data, ax, r2c, c2r, calendar) {
var binSpecAttr = axLetter + 'bins';
var autoBinAttr = 'autobin' + axLetter;
var binSpec = trace[binSpecAttr];
cleanBins(trace, ax, axLetter);
if(trace[autoBinAttr] || !binSpec || binSpec.start === null || binSpec.end === null) {
binSpec = Axes.autoBin(data, ax, trace['nbins' + axLetter], '2d', calendar);
if(trace.type === 'histogram2dcontour') {
// the "true" last argument reverses the tick direction (which we can't
// just do with a minus sign because of month bins)
binSpec.start = c2r(Axes.tickIncrement(
r2c(binSpec.start), binSpec.size, true, calendar));
binSpec.end = c2r(Axes.tickIncrement(
r2c(binSpec.end), binSpec.size, false, calendar));
}
// copy bin info back to the source data.
trace._input[binSpecAttr] = trace[binSpecAttr] = binSpec;
// note that it's possible to get here with an explicit autobin: false
// if the bins were not specified.
// in that case this will remain in the trace, so that future updates
// which would change the autobinning will not do so.
trace._input[autoBinAttr] = trace[autoBinAttr];
}
}
function makeIncrements(len, bins, dv, nonuniform) {
var out = new Array(len);
var i;
if(nonuniform) {
for(i = 0; i < len; i++) out[i] = 1 / (bins[i + 1] - bins[i]);
}
else {
var inc = 1 / dv;
for(i = 0; i < len; i++) out[i] = inc;
}
return out;
}
function binsToCalc(r2c, bins) {
return {
start: r2c(bins.start),
end: r2c(bins.end),
size: bins.size
};
}
function getRanges(edges, uniqueVals, gapLow, gapHigh, ax, calendar) {
var i;
var len = edges.length - 1;
var out = new Array(len);
if(uniqueVals) {
for(i = 0; i < len; i++) out[i] = [uniqueVals[i], uniqueVals[i]];
}
else {
var roundFn = getBinSpanLabelRound(gapLow, gapHigh, edges, ax, calendar);
for(i = 0; i < len; i++) out[i] = [roundFn(edges[i]), roundFn(edges[i + 1], true)];
}
return out;
}
},{"../../lib":693,"../../plots/cartesian/axes":742,"../histogram/average":962,"../histogram/bin_functions":964,"../histogram/bin_label_vals":965,"../histogram/clean_bins":967,"../histogram/norm_functions":972}],975:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var handleSampleDefaults = _dereq_('./sample_defaults');
var handleStyleDefaults = _dereq_('../heatmap/style_defaults');
var colorscaleDefaults = _dereq_('../../components/colorscale/defaults');
var attributes = _dereq_('./attributes');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
handleSampleDefaults(traceIn, traceOut, coerce, layout);
if(traceOut.visible === false) return;
handleStyleDefaults(traceIn, traceOut, coerce, layout);
colorscaleDefaults(
traceIn, traceOut, layout, coerce, {prefix: '', cLetter: 'z'}
);
};
},{"../../components/colorscale/defaults":577,"../../lib":693,"../heatmap/style_defaults":956,"./attributes":973,"./sample_defaults":978}],976:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var heatmapHover = _dereq_('../heatmap/hover');
var hoverLabelText = _dereq_('../../plots/cartesian/axes').hoverLabelText;
module.exports = function hoverPoints(pointData, xval, yval, hovermode, hoverLayer, contour) {
var pts = heatmapHover(pointData, xval, yval, hovermode, hoverLayer, contour);
if(!pts) return;
pointData = pts[0];
var indices = pointData.index;
var ny = indices[0];
var nx = indices[1];
var cd0 = pointData.cd[0];
var xRange = cd0.xRanges[nx];
var yRange = cd0.yRanges[ny];
pointData.xLabel = hoverLabelText(pointData.xa, xRange[0], xRange[1]);
pointData.yLabel = hoverLabelText(pointData.ya, yRange[0], yRange[1]);
return pts;
};
},{"../../plots/cartesian/axes":742,"../heatmap/hover":949}],977:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Histogram2D = {};
Histogram2D.attributes = _dereq_('./attributes');
Histogram2D.supplyDefaults = _dereq_('./defaults');
Histogram2D.calc = _dereq_('../heatmap/calc');
Histogram2D.plot = _dereq_('../heatmap/plot');
Histogram2D.layerName = 'heatmaplayer';
Histogram2D.colorbar = _dereq_('../heatmap/colorbar');
Histogram2D.style = _dereq_('../heatmap/style');
Histogram2D.hoverPoints = _dereq_('./hover');
Histogram2D.eventData = _dereq_('../histogram/event_data');
Histogram2D.moduleType = 'trace';
Histogram2D.name = 'histogram2d';
Histogram2D.basePlotModule = _dereq_('../../plots/cartesian');
Histogram2D.categories = ['cartesian', 'svg', '2dMap', 'histogram'];
Histogram2D.meta = {
};
module.exports = Histogram2D;
},{"../../plots/cartesian":753,"../heatmap/calc":943,"../heatmap/colorbar":945,"../heatmap/plot":954,"../heatmap/style":955,"../histogram/event_data":969,"./attributes":973,"./defaults":975,"./hover":976}],978:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
var handleBinDefaults = _dereq_('../histogram/bin_defaults');
module.exports = function handleSampleDefaults(traceIn, traceOut, coerce, layout) {
var x = coerce('x');
var y = coerce('y');
// we could try to accept x0 and dx, etc...
// but that's a pretty weird use case.
// for now require both x and y explicitly specified.
if(!(x && x.length && y && y.length)) {
traceOut.visible = false;
return;
}
traceOut._length = Math.min(x.length, y.length);
var handleCalendarDefaults = Registry.getComponentMethod('calendars', 'handleTraceDefaults');
handleCalendarDefaults(traceIn, traceOut, ['x', 'y'], layout);
// if marker.color is an array, we can use it in aggregation instead of z
var hasAggregationData = coerce('z') || coerce('marker.color');
if(hasAggregationData) coerce('histfunc');
var binDirections = ['x', 'y'];
handleBinDefaults(traceIn, traceOut, coerce, binDirections);
};
},{"../../registry":825,"../histogram/bin_defaults":963}],979:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var histogram2dAttrs = _dereq_('../histogram2d/attributes');
var contourAttrs = _dereq_('../contour/attributes');
var colorscaleAttrs = _dereq_('../../components/colorscale/attributes');
var colorbarAttrs = _dereq_('../../components/colorbar/attributes');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
module.exports = extendFlat({
x: histogram2dAttrs.x,
y: histogram2dAttrs.y,
z: histogram2dAttrs.z,
marker: histogram2dAttrs.marker,
histnorm: histogram2dAttrs.histnorm,
histfunc: histogram2dAttrs.histfunc,
autobinx: histogram2dAttrs.autobinx,
nbinsx: histogram2dAttrs.nbinsx,
xbins: histogram2dAttrs.xbins,
autobiny: histogram2dAttrs.autobiny,
nbinsy: histogram2dAttrs.nbinsy,
ybins: histogram2dAttrs.ybins,
autocontour: contourAttrs.autocontour,
ncontours: contourAttrs.ncontours,
contours: contourAttrs.contours,
line: contourAttrs.line,
zhoverformat: histogram2dAttrs.zhoverformat
},
colorscaleAttrs('', {
cLetter: 'z',
editTypeOverride: 'calc'
}),
{ colorbar: colorbarAttrs }
);
},{"../../components/colorbar/attributes":568,"../../components/colorscale/attributes":574,"../../lib/extend":682,"../contour/attributes":913,"../histogram2d/attributes":973}],980:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var handleSampleDefaults = _dereq_('../histogram2d/sample_defaults');
var handleContoursDefaults = _dereq_('../contour/contours_defaults');
var handleStyleDefaults = _dereq_('../contour/style_defaults');
var attributes = _dereq_('./attributes');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
function coerce2(attr) {
return Lib.coerce2(traceIn, traceOut, attributes, attr);
}
handleSampleDefaults(traceIn, traceOut, coerce, layout);
if(traceOut.visible === false) return;
handleContoursDefaults(traceIn, traceOut, coerce, coerce2);
handleStyleDefaults(traceIn, traceOut, coerce, layout);
};
},{"../../lib":693,"../contour/contours_defaults":920,"../contour/style_defaults":934,"../histogram2d/sample_defaults":978,"./attributes":979}],981:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Histogram2dContour = {};
Histogram2dContour.attributes = _dereq_('./attributes');
Histogram2dContour.supplyDefaults = _dereq_('./defaults');
Histogram2dContour.calc = _dereq_('../contour/calc');
Histogram2dContour.plot = _dereq_('../contour/plot').plot;
Histogram2dContour.layerName = 'contourlayer';
Histogram2dContour.style = _dereq_('../contour/style');
Histogram2dContour.colorbar = _dereq_('../contour/colorbar');
Histogram2dContour.hoverPoints = _dereq_('../contour/hover');
Histogram2dContour.moduleType = 'trace';
Histogram2dContour.name = 'histogram2dcontour';
Histogram2dContour.basePlotModule = _dereq_('../../plots/cartesian');
Histogram2dContour.categories = ['cartesian', 'svg', '2dMap', 'contour', 'histogram', 'showLegend'];
Histogram2dContour.meta = {
};
module.exports = Histogram2dContour;
},{"../../plots/cartesian":753,"../contour/calc":914,"../contour/colorbar":916,"../contour/hover":926,"../contour/plot":931,"../contour/style":933,"./attributes":979,"./defaults":980}],982:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var colorscaleAttrs = _dereq_('../../components/colorscale/attributes');
var colorbarAttrs = _dereq_('../../components/colorbar/attributes');
var surfaceAtts = _dereq_('../surface/attributes');
var baseAttrs = _dereq_('../../plots/attributes');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
module.exports = extendFlat({
x: {
valType: 'data_array',
editType: 'calc+clearAxisTypes',
},
y: {
valType: 'data_array',
editType: 'calc+clearAxisTypes',
},
z: {
valType: 'data_array',
editType: 'calc+clearAxisTypes',
},
i: {
valType: 'data_array',
editType: 'calc',
},
j: {
valType: 'data_array',
editType: 'calc',
},
k: {
valType: 'data_array',
editType: 'calc',
},
text: {
valType: 'string',
dflt: '',
arrayOk: true,
editType: 'calc',
},
delaunayaxis: {
valType: 'enumerated',
values: [ 'x', 'y', 'z' ],
dflt: 'z',
editType: 'calc',
},
alphahull: {
valType: 'number',
dflt: -1,
editType: 'calc',
},
intensity: {
valType: 'data_array',
editType: 'calc',
},
// Color field
color: {
valType: 'color',
editType: 'calc',
},
vertexcolor: {
valType: 'data_array',
editType: 'calc',
},
facecolor: {
valType: 'data_array',
editType: 'calc',
},
},
colorscaleAttrs('', {
colorAttr: '`intensity`',
showScaleDflt: true,
editTypeOverride: 'calc'
}), {
colorbar: colorbarAttrs,
opacity: surfaceAtts.opacity,
// Flat shaded mode
flatshading: {
valType: 'boolean',
dflt: false,
editType: 'calc',
},
contour: {
show: extendFlat({}, surfaceAtts.contours.x.show, {
}),
color: surfaceAtts.contours.x.color,
width: surfaceAtts.contours.x.width,
editType: 'calc'
},
lightposition: {
x: extendFlat({}, surfaceAtts.lightposition.x, {dflt: 1e5}),
y: extendFlat({}, surfaceAtts.lightposition.y, {dflt: 1e5}),
z: extendFlat({}, surfaceAtts.lightposition.z, {dflt: 0}),
editType: 'calc'
},
lighting: extendFlat({
vertexnormalsepsilon: {
valType: 'number',
min: 0.00,
max: 1,
dflt: 1e-12, // otherwise finely tessellated things eg. the brain will have no specular light reflection
editType: 'calc',
},
facenormalsepsilon: {
valType: 'number',
min: 0.00,
max: 1,
dflt: 1e-6, // even the brain model doesn't appear to need finer than this
editType: 'calc',
},
editType: 'calc'
}, surfaceAtts.lighting),
hoverinfo: extendFlat({}, baseAttrs.hoverinfo, {editType: 'calc'})
});
},{"../../components/colorbar/attributes":568,"../../components/colorscale/attributes":574,"../../lib/extend":682,"../../plots/attributes":739,"../surface/attributes":1119}],983:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var colorscaleCalc = _dereq_('../../components/colorscale/calc');
module.exports = function calc(gd, trace) {
if(trace.intensity) {
colorscaleCalc(trace, trace.intensity, '', 'c');
}
};
},{"../../components/colorscale/calc":575}],984:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var createMesh = _dereq_('gl-mesh3d');
var triangulate = _dereq_('delaunay-triangulate');
var alphaShape = _dereq_('alpha-shape');
var convexHull = _dereq_('convex-hull');
var parseColorScale = _dereq_('../../lib/gl_format_color').parseColorScale;
var str2RgbaArray = _dereq_('../../lib/str2rgbarray');
var zip3 = _dereq_('../../plots/gl3d/zip3');
function Mesh3DTrace(scene, mesh, uid) {
this.scene = scene;
this.uid = uid;
this.mesh = mesh;
this.name = '';
this.color = '#fff';
this.data = null;
this.showContour = false;
}
var proto = Mesh3DTrace.prototype;
proto.handlePick = function(selection) {
if(selection.object === this.mesh) {
var selectIndex = selection.index = selection.data.index;
selection.traceCoordinate = [
this.data.x[selectIndex],
this.data.y[selectIndex],
this.data.z[selectIndex]
];
var text = this.data.text;
if(Array.isArray(text) && text[selectIndex] !== undefined) {
selection.textLabel = text[selectIndex];
} else if(text) {
selection.textLabel = text;
}
return true;
}
};
function parseColorArray(colors) {
return colors.map(str2RgbaArray);
}
proto.update = function(data) {
var scene = this.scene,
layout = scene.fullSceneLayout;
this.data = data;
// Unpack position data
function toDataCoords(axis, coord, scale, calendar) {
return coord.map(function(x) {
return axis.d2l(x, 0, calendar) * scale;
});
}
var positions = zip3(
toDataCoords(layout.xaxis, data.x, scene.dataScale[0], data.xcalendar),
toDataCoords(layout.yaxis, data.y, scene.dataScale[1], data.ycalendar),
toDataCoords(layout.zaxis, data.z, scene.dataScale[2], data.zcalendar));
var cells;
if(data.i && data.j && data.k) {
cells = zip3(data.i, data.j, data.k);
}
else if(data.alphahull === 0) {
cells = convexHull(positions);
}
else if(data.alphahull > 0) {
cells = alphaShape(data.alphahull, positions);
}
else {
var d = ['x', 'y', 'z'].indexOf(data.delaunayaxis);
cells = triangulate(positions.map(function(c) {
return [c[(d + 1) % 3], c[(d + 2) % 3]];
}));
}
var config = {
positions: positions,
cells: cells,
lightPosition: [data.lightposition.x, data.lightposition.y, data.lightposition.z],
ambient: data.lighting.ambient,
diffuse: data.lighting.diffuse,
specular: data.lighting.specular,
roughness: data.lighting.roughness,
fresnel: data.lighting.fresnel,
vertexNormalsEpsilon: data.lighting.vertexnormalsepsilon,
faceNormalsEpsilon: data.lighting.facenormalsepsilon,
opacity: data.opacity,
contourEnable: data.contour.show,
contourColor: str2RgbaArray(data.contour.color).slice(0, 3),
contourWidth: data.contour.width,
useFacetNormals: data.flatshading
};
if(data.intensity) {
this.color = '#fff';
config.vertexIntensity = data.intensity;
config.vertexIntensityBounds = [data.cmin, data.cmax];
config.colormap = parseColorScale(data.colorscale);
}
else if(data.vertexcolor) {
this.color = data.vertexcolor[0];
config.vertexColors = parseColorArray(data.vertexcolor);
}
else if(data.facecolor) {
this.color = data.facecolor[0];
config.cellColors = parseColorArray(data.facecolor);
}
else {
this.color = data.color;
config.meshColor = str2RgbaArray(data.color);
}
// Update mesh
this.mesh.update(config);
};
proto.dispose = function() {
this.scene.glplot.remove(this.mesh);
this.mesh.dispose();
};
function createMesh3DTrace(scene, data) {
var gl = scene.glplot.gl;
var mesh = createMesh({gl: gl});
var result = new Mesh3DTrace(scene, mesh, data.uid);
mesh._trace = result;
result.update(data);
scene.glplot.add(mesh);
return result;
}
module.exports = createMesh3DTrace;
},{"../../lib/gl_format_color":689,"../../lib/str2rgbarray":717,"../../plots/gl3d/zip3":795,"alpha-shape":51,"convex-hull":117,"delaunay-triangulate":149,"gl-mesh3d":267}],985:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var colorscaleDefaults = _dereq_('../../components/colorscale/defaults');
var attributes = _dereq_('./attributes');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
// read in face/vertex properties
function readComponents(array) {
var ret = array.map(function(attr) {
var result = coerce(attr);
if(result && Lib.isArrayOrTypedArray(result)) return result;
return null;
});
return ret.every(function(x) {
return x && x.length === ret[0].length;
}) && ret;
}
var coords = readComponents(['x', 'y', 'z']);
var indices = readComponents(['i', 'j', 'k']);
if(!coords) {
traceOut.visible = false;
return;
}
if(indices) {
// otherwise, convert all face indices to ints
indices.forEach(function(index) {
for(var i = 0; i < index.length; ++i) index[i] |= 0;
});
}
var handleCalendarDefaults = Registry.getComponentMethod('calendars', 'handleTraceDefaults');
handleCalendarDefaults(traceIn, traceOut, ['x', 'y', 'z'], layout);
// Coerce remaining properties
[
'lighting.ambient',
'lighting.diffuse',
'lighting.specular',
'lighting.roughness',
'lighting.fresnel',
'lighting.vertexnormalsepsilon',
'lighting.facenormalsepsilon',
'lightposition.x',
'lightposition.y',
'lightposition.z',
'contour.show',
'contour.color',
'contour.width',
'colorscale',
'reversescale',
'flatshading',
'alphahull',
'delaunayaxis',
'opacity'
].forEach(function(x) { coerce(x); });
if('intensity' in traceIn) {
coerce('intensity');
colorscaleDefaults(traceIn, traceOut, layout, coerce, {prefix: '', cLetter: 'c'});
} else {
traceOut.showscale = false;
if('facecolor' in traceIn) coerce('facecolor');
else if('vertexcolor' in traceIn) coerce('vertexcolor');
else coerce('color', defaultColor);
}
coerce('text');
// disable 1D transforms
// x/y/z should match lengths, and i/j/k should match as well, but
// the two sets have different lengths so transforms wouldn't work.
traceOut._length = null;
};
},{"../../components/colorscale/defaults":577,"../../lib":693,"../../registry":825,"./attributes":982}],986:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Mesh3D = {};
Mesh3D.attributes = _dereq_('./attributes');
Mesh3D.supplyDefaults = _dereq_('./defaults');
Mesh3D.calc = _dereq_('./calc');
Mesh3D.colorbar = {
min: 'cmin',
max: 'cmax'
};
Mesh3D.plot = _dereq_('./convert');
Mesh3D.moduleType = 'trace';
Mesh3D.name = 'mesh3d',
Mesh3D.basePlotModule = _dereq_('../../plots/gl3d');
Mesh3D.categories = ['gl3d'];
Mesh3D.meta = {
};
module.exports = Mesh3D;
},{"../../plots/gl3d":784,"./attributes":982,"./calc":983,"./convert":984,"./defaults":985}],987:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var extendFlat = _dereq_('../../lib').extendFlat;
var scatterAttrs = _dereq_('../scatter/attributes');
var dash = _dereq_('../../components/drawing/attributes').dash;
var INCREASING_COLOR = '#3D9970';
var DECREASING_COLOR = '#FF4136';
var lineAttrs = scatterAttrs.line;
function directionAttrs(lineColorDefault) {
return {
line: {
color: extendFlat({}, lineAttrs.color, {dflt: lineColorDefault}),
width: lineAttrs.width,
dash: dash,
editType: 'style'
},
editType: 'style'
};
}
module.exports = {
x: {
valType: 'data_array',
editType: 'calc+clearAxisTypes',
},
open: {
valType: 'data_array',
editType: 'calc',
},
high: {
valType: 'data_array',
editType: 'calc',
},
low: {
valType: 'data_array',
editType: 'calc',
},
close: {
valType: 'data_array',
editType: 'calc',
},
line: {
width: extendFlat({}, lineAttrs.width, {
}),
dash: extendFlat({}, dash, {
}),
editType: 'style'
},
increasing: directionAttrs(INCREASING_COLOR),
decreasing: directionAttrs(DECREASING_COLOR),
text: {
valType: 'string',
dflt: '',
arrayOk: true,
editType: 'calc',
},
tickwidth: {
valType: 'number',
min: 0,
max: 0.5,
dflt: 0.3,
editType: 'calc',
}
};
},{"../../components/drawing/attributes":591,"../../lib":693,"../scatter/attributes":1032}],988:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var _ = Lib._;
var Axes = _dereq_('../../plots/cartesian/axes');
var BADNUM = _dereq_('../../constants/numerical').BADNUM;
function calc(gd, trace) {
var xa = Axes.getFromId(gd, trace.xaxis);
var ya = Axes.getFromId(gd, trace.yaxis);
var tickLen = convertTickWidth(gd, xa, trace);
var minDiff = trace._minDiff;
trace._minDiff = null;
var x = trace._xcalc;
trace._xcalc = null;
var cd = calcCommon(gd, trace, x, ya, ptFunc);
trace._extremes[xa._id] = Axes.findExtremes(xa, x, {vpad: minDiff / 2});
if(cd.length) {
Lib.extendFlat(cd[0].t, {
wHover: minDiff / 2,
tickLen: tickLen
});
return cd;
} else {
return [{t: {empty: true}}];
}
}
function ptFunc(o, h, l, c) {
return {
o: o,
h: h,
l: l,
c: c
};
}
// shared between OHLC and candlestick
// ptFunc makes a calcdata point specific to each trace type, from oi, hi, li, ci
function calcCommon(gd, trace, x, ya, ptFunc) {
var o = ya.makeCalcdata(trace, 'open');
var h = ya.makeCalcdata(trace, 'high');
var l = ya.makeCalcdata(trace, 'low');
var c = ya.makeCalcdata(trace, 'close');
var hasTextArray = Array.isArray(trace.text);
// we're optimists - before we have any changing data, assume increasing
var increasing = true;
var cPrev = null;
var cd = [];
for(var i = 0; i < x.length; i++) {
var xi = x[i];
var oi = o[i];
var hi = h[i];
var li = l[i];
var ci = c[i];
if(xi !== BADNUM && oi !== BADNUM && hi !== BADNUM && li !== BADNUM && ci !== BADNUM) {
if(ci === oi) {
// if open == close, look for a change from the previous close
if(cPrev !== null && ci !== cPrev) increasing = ci > cPrev;
// else (c === cPrev or cPrev is null) no change
}
else increasing = ci > oi;
cPrev = ci;
var pt = ptFunc(oi, hi, li, ci);
pt.pos = xi;
pt.yc = (oi + ci) / 2;
pt.i = i;
pt.dir = increasing ? 'increasing' : 'decreasing';
if(hasTextArray) pt.tx = trace.text[i];
cd.push(pt);
}
}
trace._extremes[ya._id] = Axes.findExtremes(ya, l.concat(h), {padded: true});
if(cd.length) {
cd[0].t = {
labels: {
open: _(gd, 'open:') + ' ',
high: _(gd, 'high:') + ' ',
low: _(gd, 'low:') + ' ',
close: _(gd, 'close:') + ' '
}
};
}
return cd;
}
/*
* find min x-coordinates difference of all traces
* attached to this x-axis and stash the result in _minDiff
* in all traces; when a trace uses this in its
* calc step it deletes _minDiff, so that next calc this is
* done again in case the data changed.
* also since we need it here, stash _xcalc on the trace
*/
function convertTickWidth(gd, xa, trace) {
var minDiff = trace._minDiff;
if(!minDiff) {
var fullData = gd._fullData,
ohlcTracesOnThisXaxis = [];
minDiff = Infinity;
var i;
for(i = 0; i < fullData.length; i++) {
var tracei = fullData[i];
if(tracei.type === 'ohlc' &&
tracei.visible === true &&
tracei.xaxis === xa._id
) {
ohlcTracesOnThisXaxis.push(tracei);
var xcalc = xa.makeCalcdata(tracei, 'x');
tracei._xcalc = xcalc;
var _minDiff = Lib.distinctVals(xcalc).minDiff;
if(_minDiff && isFinite(_minDiff)) {
minDiff = Math.min(minDiff, _minDiff);
}
}
}
// if minDiff is still Infinity here, set it to 1
if(minDiff === Infinity) minDiff = 1;
for(i = 0; i < ohlcTracesOnThisXaxis.length; i++) {
ohlcTracesOnThisXaxis[i]._minDiff = minDiff;
}
}
return minDiff * trace.tickwidth;
}
module.exports = {
calc: calc,
calcCommon: calcCommon
};
},{"../../constants/numerical":670,"../../lib":693,"../../plots/cartesian/axes":742}],989:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var handleOHLC = _dereq_('./ohlc_defaults');
var attributes = _dereq_('./attributes');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
var len = handleOHLC(traceIn, traceOut, coerce, layout);
if(!len) {
traceOut.visible = false;
return;
}
coerce('line.width');
coerce('line.dash');
handleDirection(traceIn, traceOut, coerce, 'increasing');
handleDirection(traceIn, traceOut, coerce, 'decreasing');
coerce('text');
coerce('tickwidth');
layout._requestRangeslider[traceOut.xaxis] = true;
};
function handleDirection(traceIn, traceOut, coerce, direction) {
coerce(direction + '.line.color');
coerce(direction + '.line.width', traceOut.line.width);
coerce(direction + '.line.dash', traceOut.line.dash);
}
},{"../../lib":693,"./attributes":987,"./ohlc_defaults":992}],990:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Axes = _dereq_('../../plots/cartesian/axes');
var Fx = _dereq_('../../components/fx');
var Color = _dereq_('../../components/color');
var fillHoverText = _dereq_('../scatter/fill_hover_text');
var DIRSYMBOL = {
increasing: '▲',
decreasing: '▼'
};
module.exports = function hoverPoints(pointData, xval, yval, hovermode) {
var cd = pointData.cd;
var xa = pointData.xa;
var ya = pointData.ya;
var trace = cd[0].trace;
var t = cd[0].t;
var type = trace.type;
var minAttr = type === 'ohlc' ? 'l' : 'min';
var maxAttr = type === 'ohlc' ? 'h' : 'max';
// potentially shift xval for grouped candlesticks
var centerShift = t.bPos || 0;
var x0 = xval - centerShift;
// ohlc and candlestick call displayHalfWidth different things...
var displayHalfWidth = t.bdPos || t.tickLen;
var hoverHalfWidth = t.wHover;
// if two items are overlaying, let the narrowest one win
var pseudoDistance = Math.min(1, displayHalfWidth / Math.abs(xa.r2c(xa.range[1]) - xa.r2c(xa.range[0])));
var hoverPseudoDistance = pointData.maxHoverDistance - pseudoDistance;
var spikePseudoDistance = pointData.maxSpikeDistance - pseudoDistance;
function dx(di) {
var pos = di.pos - x0;
return Fx.inbox(pos - hoverHalfWidth, pos + hoverHalfWidth, hoverPseudoDistance);
}
function dy(di) {
return Fx.inbox(di[minAttr] - yval, di[maxAttr] - yval, hoverPseudoDistance);
}
function dxy(di) { return (dx(di) + dy(di)) / 2; }
var distfn = Fx.getDistanceFunction(hovermode, dx, dy, dxy);
Fx.getClosest(cd, distfn, pointData);
// skip the rest (for this trace) if we didn't find a close point
if(pointData.index === false) return [];
// we don't make a calcdata point if we're missing any piece (x/o/h/l/c)
// so we need to fix the index here to point to the data arrays
var cdIndex = pointData.index;
var di = cd[cdIndex];
var i = pointData.index = di.i;
var dir = di.dir;
var container = trace[dir];
var lc = container.line.color;
if(Color.opacity(lc) && container.line.width) pointData.color = lc;
else pointData.color = container.fillcolor;
pointData.x0 = xa.c2p(di.pos + centerShift - displayHalfWidth, true);
pointData.x1 = xa.c2p(di.pos + centerShift + displayHalfWidth, true);
pointData.xLabelVal = di.pos;
pointData.spikeDistance = dxy(di) * spikePseudoDistance / hoverPseudoDistance;
pointData.xSpike = xa.c2p(di.pos, true);
function getLabelLine(attr) {
return t.labels[attr] + Axes.hoverLabelText(ya, trace[attr][i]);
}
var hoverinfo = trace.hoverinfo;
var hoverParts = hoverinfo.split('+');
var isAll = hoverinfo === 'all';
var hasY = isAll || hoverParts.indexOf('y') !== -1;
var hasText = isAll || hoverParts.indexOf('text') !== -1;
var textParts = hasY ? [
getLabelLine('open'),
getLabelLine('high'),
getLabelLine('low'),
getLabelLine('close') + ' ' + DIRSYMBOL[dir]
] : [];
if(hasText) fillHoverText(di, trace, textParts);
// don't make .yLabelVal or .text, since we're managing hoverinfo
// put it all in .extraText
pointData.extraText = textParts.join('<br>');
// this puts the label *and the spike* at the midpoint of the box, ie
// halfway between open and close, not between high and low.
pointData.y0 = pointData.y1 = ya.c2p(di.yc, true);
return [pointData];
};
},{"../../components/color":567,"../../components/fx":609,"../../plots/cartesian/axes":742,"../scatter/fill_hover_text":1040}],991:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
moduleType: 'trace',
name: 'ohlc',
basePlotModule: _dereq_('../../plots/cartesian'),
categories: ['cartesian', 'svg', 'showLegend'],
meta: {
},
attributes: _dereq_('./attributes'),
supplyDefaults: _dereq_('./defaults'),
calc: _dereq_('./calc').calc,
plot: _dereq_('./plot'),
style: _dereq_('./style'),
hoverPoints: _dereq_('./hover'),
selectPoints: _dereq_('./select')
};
},{"../../plots/cartesian":753,"./attributes":987,"./calc":988,"./defaults":989,"./hover":990,"./plot":993,"./select":994,"./style":995}],992:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
module.exports = function handleOHLC(traceIn, traceOut, coerce, layout) {
var x = coerce('x');
var open = coerce('open');
var high = coerce('high');
var low = coerce('low');
var close = coerce('close');
var handleCalendarDefaults = Registry.getComponentMethod('calendars', 'handleTraceDefaults');
handleCalendarDefaults(traceIn, traceOut, ['x'], layout);
if(!(open && high && low && close)) return;
var len = Math.min(open.length, high.length, low.length, close.length);
if(x) len = Math.min(len, x.length);
traceOut._length = len;
return len;
};
},{"../../registry":825}],993:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Lib = _dereq_('../../lib');
module.exports = function plot(gd, plotinfo, cdOHLC, ohlcLayer) {
var xa = plotinfo.xaxis;
var ya = plotinfo.yaxis;
Lib.makeTraceGroups(ohlcLayer, cdOHLC, 'trace ohlc').each(function(cd) {
var plotGroup = d3.select(this);
var cd0 = cd[0];
var t = cd0.t;
var trace = cd0.trace;
if(!plotinfo.isRangePlot) cd0.node3 = plotGroup;
if(trace.visible !== true || t.empty) {
plotGroup.remove();
return;
}
var tickLen = t.tickLen;
var paths = plotGroup.selectAll('path').data(Lib.identity);
paths.enter().append('path');
paths.exit().remove();
paths.attr('d', function(d) {
var x = xa.c2p(d.pos, true);
var xo = xa.c2p(d.pos - tickLen, true);
var xc = xa.c2p(d.pos + tickLen, true);
var yo = ya.c2p(d.o, true);
var yh = ya.c2p(d.h, true);
var yl = ya.c2p(d.l, true);
var yc = ya.c2p(d.c, true);
return 'M' + xo + ',' + yo + 'H' + x +
'M' + x + ',' + yh + 'V' + yl +
'M' + xc + ',' + yc + 'H' + x;
});
});
};
},{"../../lib":693,"d3":147}],994:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function selectPoints(searchInfo, selectionTester) {
var cd = searchInfo.cd;
var xa = searchInfo.xaxis;
var ya = searchInfo.yaxis;
var selection = [];
var i;
// for (potentially grouped) candlesticks
var posOffset = cd[0].t.bPos || 0;
if(selectionTester === false) {
// clear selection
for(i = 0; i < cd.length; i++) {
cd[i].selected = 0;
}
} else {
for(i = 0; i < cd.length; i++) {
var di = cd[i];
if(selectionTester.contains([xa.c2p(di.pos + posOffset), ya.c2p(di.yc)], null, di.i, searchInfo)) {
selection.push({
pointNumber: di.i,
x: xa.c2d(di.pos),
y: ya.c2d(di.yc)
});
di.selected = 1;
} else {
di.selected = 0;
}
}
}
return selection;
};
},{}],995:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Drawing = _dereq_('../../components/drawing');
var Color = _dereq_('../../components/color');
module.exports = function style(gd, cd) {
var s = cd ? cd[0].node3 : d3.select(gd).selectAll('g.ohlclayer').selectAll('g.trace');
s.style('opacity', function(d) {
return d[0].trace.opacity;
});
s.each(function(d) {
var trace = d[0].trace;
d3.select(this).selectAll('path').each(function(di) {
var dirLine = trace[di.dir].line;
d3.select(this)
.style('fill', 'none')
.call(Color.stroke, dirLine.color)
.call(Drawing.dashLine, dirLine.dash, dirLine.width)
// TODO: custom selection style for OHLC
.style('opacity', trace.selectedpoints && !di.selected ? 0.3 : 1);
});
});
};
},{"../../components/color":567,"../../components/drawing":592,"d3":147}],996:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var colorAttributes = _dereq_('../../components/colorscale/attributes');
var colorbarAttrs = _dereq_('../../components/colorbar/attributes');
var axesAttrs = _dereq_('../../plots/cartesian/layout_attributes');
var fontAttrs = _dereq_('../../plots/font_attributes');
var domainAttrs = _dereq_('../../plots/domain').attributes;
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var templatedArray = _dereq_('../../plot_api/plot_template').templatedArray;
module.exports = {
domain: domainAttrs({name: 'parcoords', trace: true, editType: 'calc'}),
labelfont: fontAttrs({
editType: 'calc',
}),
tickfont: fontAttrs({
editType: 'calc',
}),
rangefont: fontAttrs({
editType: 'calc',
}),
dimensions: templatedArray('dimension', {
label: {
valType: 'string',
editType: 'calc',
},
// TODO: better way to determine ordinal vs continuous axes,
// so users can use tickvals/ticktext with a continuous axis.
tickvals: extendFlat({}, axesAttrs.tickvals, {editType: 'calc'}),
ticktext: extendFlat({}, axesAttrs.ticktext, {editType: 'calc'}),
tickformat: {
valType: 'string',
dflt: '3s',
editType: 'calc',
},
visible: {
valType: 'boolean',
dflt: true,
editType: 'calc',
},
range: {
valType: 'info_array',
items: [
{valType: 'number', editType: 'calc'},
{valType: 'number', editType: 'calc'}
],
editType: 'calc',
},
constraintrange: {
valType: 'info_array',
freeLength: true,
dimensions: '1-2',
items: [
{valType: 'number', editType: 'calc'},
{valType: 'number', editType: 'calc'}
],
editType: 'calc',
},
multiselect: {
valType: 'boolean',
dflt: true,
editType: 'calc',
},
values: {
valType: 'data_array',
editType: 'calc',
},
editType: 'calc',
}),
line: extendFlat(
colorAttributes('line', {
// the default autocolorscale isn't quite usable for parcoords due to context ambiguity around 0 (grey, off-white)
// autocolorscale therefore defaults to false too, to avoid being overridden by the blue-white-red autocolor palette
colorscaleDflt: 'Viridis',
autoColorDflt: false,
editTypeOverride: 'calc'
}), {
colorbar: colorbarAttrs,
editType: 'calc'
})
};
},{"../../components/colorbar/attributes":568,"../../components/colorscale/attributes":574,"../../lib/extend":682,"../../plot_api/plot_template":732,"../../plots/cartesian/layout_attributes":754,"../../plots/domain":767,"../../plots/font_attributes":768}],997:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var c = _dereq_('./constants');
var d3 = _dereq_('d3');
var keyFun = _dereq_('../../lib/gup').keyFun;
var repeat = _dereq_('../../lib/gup').repeat;
var sortAsc = _dereq_('../../lib').sorterAsc;
var snapRatio = c.bar.snapRatio;
function snapOvershoot(v, vAdjacent) { return v * (1 - snapRatio) + vAdjacent * snapRatio; }
var snapClose = c.bar.snapClose;
function closeToCovering(v, vAdjacent) { return v * (1 - snapClose) + vAdjacent * snapClose; }
// snap for the low end of a range on an ordinal scale
// on an ordinal scale, always show some overshoot from the exact value,
// so it's clear we're covering it
// find the interval we're in, and snap to 1/4 the distance to the next
// these two could be unified at a slight loss of readability / perf
function ordinalScaleSnapLo(a, v, existingRanges) {
if(overlappingExisting(v, existingRanges)) return v;
var aPrev = a[0];
var aPrevPrev = aPrev;
for(var i = 1; i < a.length; i++) {
var aNext = a[i];
// very close to the previous - snap down to it
if(v < closeToCovering(aPrev, aNext)) return snapOvershoot(aPrev, aPrevPrev);
if(v < aNext || i === a.length - 1) return snapOvershoot(aNext, aPrev);
aPrevPrev = aPrev;
aPrev = aNext;
}
}
function ordinalScaleSnapHi(a, v, existingRanges) {
if(overlappingExisting(v, existingRanges)) return v;
var aPrev = a[a.length - 1];
var aPrevPrev = aPrev;
for(var i = a.length - 2; i >= 0; i--) {
var aNext = a[i];
// very close to the previous - snap down to it
if(v > closeToCovering(aPrev, aNext)) return snapOvershoot(aPrev, aPrevPrev);
if(v > aNext || i === a.length - 1) return snapOvershoot(aNext, aPrev);
aPrevPrev = aPrev;
aPrev = aNext;
}
}
function overlappingExisting(v, existingRanges) {
for(var i = 0; i < existingRanges.length; i++) {
if(v >= existingRanges[i][0] && v <= existingRanges[i][1]) return true;
}
return false;
}
function barHorizontalSetup(selection) {
selection
.attr('x', -c.bar.captureWidth / 2)
.attr('width', c.bar.captureWidth);
}
function backgroundBarHorizontalSetup(selection) {
selection
.attr('visibility', 'visible')
.style('visibility', 'visible')
.attr('fill', 'yellow')
.attr('opacity', 0);
}
function setHighlight(d) {
if(!d.brush.filterSpecified) {
return '0,' + d.height;
}
var pixelRanges = unitToPx(d.brush.filter.getConsolidated(), d.height);
var dashArray = [0]; // we start with a 0 length selection as filter ranges are inclusive, not exclusive
var p, sectionHeight, iNext;
var currentGap = pixelRanges.length ? pixelRanges[0][0] : null;
for(var i = 0; i < pixelRanges.length; i++) {
p = pixelRanges[i];
sectionHeight = p[1] - p[0];
dashArray.push(currentGap);
dashArray.push(sectionHeight);
iNext = i + 1;
if(iNext < pixelRanges.length) {
currentGap = pixelRanges[iNext][0] - p[1];
}
}
dashArray.push(d.height);
// d.height is added at the end to ensure that (1) we have an even number of dasharray points, MDN page says
// "If an odd number of values is provided, then the list of values is repeated to yield an even number of values."
// and (2) it's _at least_ as long as the full height (even if range is minuscule and at the bottom) though this
// may not be necessary, maybe duplicating the last point would do too. But no harm in a longer dasharray than line.
return dashArray;
}
function unitToPx(unitRanges, height) {
return unitRanges.map(function(pr) {
return pr.map(function(v) { return v * height; }).sort(sortAsc);
});
}
// is the cursor over the north, middle, or south of a bar?
// the end handles extend over the last 10% of the bar
function getRegion(fPix, y) {
var pad = c.bar.handleHeight;
if(y > fPix[1] + pad || y < fPix[0] - pad) return;
if(y >= 0.9 * fPix[1] + 0.1 * fPix[0]) return 'n';
if(y <= 0.9 * fPix[0] + 0.1 * fPix[1]) return 's';
return 'ns';
}
function clearCursor() {
d3.select(document.body)
.style('cursor', null);
}
function styleHighlight(selection) {
// stroke-dasharray is used to minimize the number of created DOM nodes, because the requirement calls for up to
// 1000 individual selections on an axis, and there can be 60 axes per parcoords, and multiple parcoords per
// dashboard. The technique is similar to https://codepen.io/monfera/pen/rLYqWR and using a `polyline` with
// multiple sections, or a `path` element via its `d` attribute would also be DOM-sparing alternatives.
selection.attr('stroke-dasharray', setHighlight);
}
function renderHighlight(root, tweenCallback) {
var bar = d3.select(root).selectAll('.highlight, .highlight-shadow');
var barToStyle = tweenCallback ? bar.transition().duration(c.bar.snapDuration).each('end', tweenCallback) : bar;
styleHighlight(barToStyle);
}
function getInterval(d, y) {
var b = d.brush;
var active = b.filterSpecified;
var closestInterval = NaN;
var out = {};
var i;
if(active) {
var height = d.height;
var intervals = b.filter.getConsolidated();
var pixIntervals = unitToPx(intervals, height);
var hoveredInterval = NaN;
var previousInterval = NaN;
var nextInterval = NaN;
for(i = 0; i <= pixIntervals.length; i++) {
var p = pixIntervals[i];
if(p && p[0] <= y && y <= p[1]) {
// over a bar
hoveredInterval = i;
break;
} else {
// between bars, or before/after the first/last bar
previousInterval = i ? i - 1 : NaN;
if(p && p[0] > y) {
nextInterval = i;
break; // no point continuing as intervals are non-overlapping and sorted; could use log search
}
}
}
closestInterval = hoveredInterval;
if(isNaN(closestInterval)) {
if(isNaN(previousInterval) || isNaN(nextInterval)) {
closestInterval = isNaN(previousInterval) ? nextInterval : previousInterval;
}
else {
closestInterval = (y - pixIntervals[previousInterval][1] < pixIntervals[nextInterval][0] - y) ?
previousInterval : nextInterval;
}
}
if(!isNaN(closestInterval)) {
var fPix = pixIntervals[closestInterval];
var region = getRegion(fPix, y);
if(region) {
out.interval = intervals[closestInterval];
out.intervalPix = fPix;
out.region = region;
}
}
}
if(d.ordinal && !out.region) {
var a = d.unitTickvals;
var unitLocation = d.unitToPaddedPx.invert(y);
for(i = 0; i < a.length; i++) {
var rangei = [
a[Math.max(i - 1, 0)] * 0.25 + a[i] * 0.75,
a[Math.min(i + 1, a.length - 1)] * 0.25 + a[i] * 0.75
];
if(unitLocation >= rangei[0] && unitLocation <= rangei[1]) {
out.clickableOrdinalRange = rangei;
break;
}
}
}
return out;
}
function attachDragBehavior(selection) {
// There's some fiddling with pointer cursor styling so that the cursor preserves its shape while dragging a brush
// even if the cursor strays from the interacting bar, which is bound to happen as bars are thin and the user
// will inevitably leave the hotspot strip. In this regard, it does something similar to what the D3 brush would do.
selection
.on('mousemove', function(d) {
d3.event.preventDefault();
if(!d.parent.inBrushDrag) {
var y = d.height - d3.mouse(this)[1] - 2 * c.verticalPadding;
var interval = getInterval(d, y);
var cursor = 'crosshair';
if(interval.clickableOrdinalRange) cursor = 'pointer';
else if(interval.region) cursor = interval.region + '-resize';
d3.select(document.body)
.style('cursor', cursor);
}
})
.on('mouseleave', function(d) {
if(!d.parent.inBrushDrag) clearCursor();
})
.call(d3.behavior.drag()
.on('dragstart', function(d) {
d3.event.sourceEvent.stopPropagation();
var y = d.height - d3.mouse(this)[1] - 2 * c.verticalPadding;
var unitLocation = d.unitToPaddedPx.invert(y);
var b = d.brush;
var interval = getInterval(d, y);
var unitRange = interval.interval;
var s = b.svgBrush;
s.wasDragged = false; // we start assuming there won't be a drag - useful for reset
s.grabbingBar = interval.region === 'ns';
if(s.grabbingBar) {
var pixelRange = unitRange.map(d.unitToPaddedPx);
s.grabPoint = y - pixelRange[0] - c.verticalPadding;
s.barLength = pixelRange[1] - pixelRange[0];
}
s.clickableOrdinalRange = interval.clickableOrdinalRange;
s.stayingIntervals = (d.multiselect && b.filterSpecified) ? b.filter.getConsolidated() : [];
if(unitRange) {
s.stayingIntervals = s.stayingIntervals.filter(function(int2) {
return int2[0] !== unitRange[0] && int2[1] !== unitRange[1];
});
}
s.startExtent = interval.region ? unitRange[interval.region === 's' ? 1 : 0] : unitLocation;
d.parent.inBrushDrag = true;
s.brushStartCallback();
})
.on('drag', function(d) {
d3.event.sourceEvent.stopPropagation();
var y = d.height - d3.mouse(this)[1] - 2 * c.verticalPadding;
var s = d.brush.svgBrush;
s.wasDragged = true;
if(s.grabbingBar) { // moving the bar
s.newExtent = [y - s.grabPoint, y + s.barLength - s.grabPoint].map(d.unitToPaddedPx.invert);
} else { // south/north drag or new bar creation
s.newExtent = [s.startExtent, d.unitToPaddedPx.invert(y)].sort(sortAsc);
}
// take care of the parcoords axis height constraint: bar can't breach it
var bottomViolation = Math.max(0, -s.newExtent[0]);
var topViolation = Math.max(0, s.newExtent[1] - 1);
s.newExtent[0] += bottomViolation;
s.newExtent[1] -= topViolation;
if(s.grabbingBar) {
// in case of bar dragging (non-resizing interaction, unlike north/south resize or new bar creation)
// the constraint adjustment must apply to the other end of the bar as well, otherwise it'd
// shorten or lengthen
s.newExtent[1] += bottomViolation;
s.newExtent[0] -= topViolation;
}
d.brush.filterSpecified = true;
s.extent = s.stayingIntervals.concat([s.newExtent]);
s.brushCallback(d);
renderHighlight(this.parentNode);
})
.on('dragend', function(d) {
var e = d3.event;
e.sourceEvent.stopPropagation();
var brush = d.brush;
var filter = brush.filter;
var s = brush.svgBrush;
var grabbingBar = s.grabbingBar;
s.grabbingBar = false;
s.grabLocation = undefined;
d.parent.inBrushDrag = false;
clearCursor(); // instead of clearing, a nicer thing would be to set it according to current location
if(!s.wasDragged) { // a click+release on the same spot (ie. w/o dragging) means a bar or full reset
s.wasDragged = undefined; // logic-wise unneeded, just shows `wasDragged` has no longer a meaning
if(s.clickableOrdinalRange) {
if(brush.filterSpecified && d.multiselect) {
s.extent.push(s.clickableOrdinalRange);
}
else {
s.extent = [s.clickableOrdinalRange];
brush.filterSpecified = true;
}
}
else if(grabbingBar) {
s.extent = s.stayingIntervals;
if(s.extent.length === 0) {
brushClear(brush);
}
} else {
brushClear(brush);
}
s.brushCallback(d);
renderHighlight(this.parentNode);
s.brushEndCallback(brush.filterSpecified ? filter.getConsolidated() : []);
return; // no need to fuse intervals or snap to ordinals, so we can bail early
}
var mergeIntervals = function() {
// Key piece of logic: once the button is released, possibly overlapping intervals will be fused:
// Here it's done immediately on click release while on ordinal snap transition it's done at the end
filter.set(filter.getConsolidated());
};
if(d.ordinal) {
var a = d.unitTickvals;
if(a[a.length - 1] < a[0]) a.reverse();
s.newExtent = [
ordinalScaleSnapLo(a, s.newExtent[0], s.stayingIntervals),
ordinalScaleSnapHi(a, s.newExtent[1], s.stayingIntervals)
];
var hasNewExtent = s.newExtent[1] > s.newExtent[0];
s.extent = s.stayingIntervals.concat(hasNewExtent ? [s.newExtent] : []);
if(!s.extent.length) {
brushClear(brush);
}
s.brushCallback(d);
if(hasNewExtent) {
// merging intervals post the snap tween
renderHighlight(this.parentNode, mergeIntervals);
}
else {
// if no new interval, don't animate, just redraw the highlight immediately
mergeIntervals();
renderHighlight(this.parentNode);
}
} else {
mergeIntervals(); // merging intervals immediately
}
s.brushEndCallback(brush.filterSpecified ? filter.getConsolidated() : []);
})
);
}
function startAsc(a, b) { return a[0] - b[0]; }
function renderAxisBrush(axisBrush) {
var background = axisBrush.selectAll('.background').data(repeat);
background.enter()
.append('rect')
.classed('background', true)
.call(barHorizontalSetup)
.call(backgroundBarHorizontalSetup)
.style('pointer-events', 'auto') // parent pointer events are disabled; we must have it to register events
.attr('transform', 'translate(0 ' + c.verticalPadding + ')');
background
.call(attachDragBehavior)
.attr('height', function(d) {
return d.height - c.verticalPadding;
});
var highlightShadow = axisBrush.selectAll('.highlight-shadow').data(repeat); // we have a set here, can't call it `extent`
highlightShadow.enter()
.append('line')
.classed('highlight-shadow', true)
.attr('x', -c.bar.width / 2)
.attr('stroke-width', c.bar.width + c.bar.strokeWidth)
.attr('stroke', c.bar.strokeColor)
.attr('opacity', c.bar.strokeOpacity)
.attr('stroke-linecap', 'butt');
highlightShadow
.attr('y1', function(d) { return d.height; })
.call(styleHighlight);
var highlight = axisBrush.selectAll('.highlight').data(repeat); // we have a set here, can't call it `extent`
highlight.enter()
.append('line')
.classed('highlight', true)
.attr('x', -c.bar.width / 2)
.attr('stroke-width', c.bar.width - c.bar.strokeWidth)
.attr('stroke', c.bar.fillColor)
.attr('opacity', c.bar.fillOpacity)
.attr('stroke-linecap', 'butt');
highlight
.attr('y1', function(d) { return d.height; })
.call(styleHighlight);
}
function ensureAxisBrush(axisOverlays) {
var axisBrush = axisOverlays.selectAll('.' + c.cn.axisBrush)
.data(repeat, keyFun);
axisBrush.enter()
.append('g')
.classed(c.cn.axisBrush, true);
renderAxisBrush(axisBrush);
}
function getBrushExtent(brush) {
return brush.svgBrush.extent.map(function(e) {return e.slice();});
}
function brushClear(brush) {
brush.filterSpecified = false;
brush.svgBrush.extent = [[0, 1]];
}
function axisBrushMoved(callback) {
return function axisBrushMoved(dimension) {
var brush = dimension.brush;
var extent = getBrushExtent(brush);
var newExtent = extent.slice();
brush.filter.set(newExtent);
callback();
};
}
function dedupeRealRanges(intervals) {
// Fuses elements of intervals if they overlap, yielding discontiguous intervals, results.length <= intervals.length
// Currently uses closed intervals, ie. dedupeRealRanges([[400, 800], [300, 400]]) -> [300, 800]
var queue = intervals.slice();
var result = [];
var currentInterval;
var current = queue.shift();
while(current) { // [].shift === undefined, so we don't descend into an empty array
currentInterval = current.slice();
while((current = queue.shift()) && current[0] <= /* right-open interval would need `<` */ currentInterval[1]) {
currentInterval[1] = Math.max(currentInterval[1], current[1]);
}
result.push(currentInterval);
}
return result;
}
function makeFilter() {
var filter = [];
var consolidated;
var bounds;
return {
set: function(a) {
filter = a
.map(function(d) { return d.slice().sort(sortAsc); })
.sort(startAsc);
consolidated = dedupeRealRanges(filter);
bounds = filter.reduce(function(p, n) {
return [Math.min(p[0], n[0]), Math.max(p[1], n[1])];
}, [Infinity, -Infinity]);
},
get: function() { return filter.slice(); },
getConsolidated: function() { return consolidated; },
getBounds: function() { return bounds; }
};
}
function makeBrush(state, rangeSpecified, initialRange, brushStartCallback, brushCallback, brushEndCallback) {
var filter = makeFilter();
filter.set(initialRange);
return {
filter: filter,
filterSpecified: rangeSpecified, // there's a difference between not filtering and filtering a non-proper subset
svgBrush: {
extent: [], // this is where the svgBrush writes contents into
brushStartCallback: brushStartCallback,
brushCallback: axisBrushMoved(brushCallback),
brushEndCallback: brushEndCallback
}
};
}
// for use by supplyDefaults, but it needed tons of pieces from here so
// seemed to make more sense just to put the whole routine here
function cleanRanges(ranges, dimension) {
if(Array.isArray(ranges[0])) {
ranges = ranges.map(function(ri) { return ri.sort(sortAsc); });
if(!dimension.multiselect) ranges = [ranges[0]];
else ranges = dedupeRealRanges(ranges.sort(startAsc));
}
else ranges = [ranges.sort(sortAsc)];
// ordinal snapping
if(dimension.tickvals) {
var sortedTickVals = dimension.tickvals.slice().sort(sortAsc);
ranges = ranges.map(function(ri) {
var rSnapped = [
ordinalScaleSnapLo(sortedTickVals, ri[0], []),
ordinalScaleSnapHi(sortedTickVals, ri[1], [])
];
if(rSnapped[1] > rSnapped[0]) return rSnapped;
})
.filter(function(ri) { return ri; });
if(!ranges.length) return;
}
return ranges.length > 1 ? ranges : ranges[0];
}
module.exports = {
makeBrush: makeBrush,
ensureAxisBrush: ensureAxisBrush,
cleanRanges: cleanRanges
};
},{"../../lib":693,"../../lib/gup":690,"./constants":1000,"d3":147}],998:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var getModuleCalcData = _dereq_('../../plots/get_data').getModuleCalcData;
var parcoordsPlot = _dereq_('./plot');
var xmlnsNamespaces = _dereq_('../../constants/xmlns_namespaces');
var PARCOORDS = 'parcoords';
exports.name = PARCOORDS;
exports.plot = function(gd) {
var calcData = getModuleCalcData(gd.calcdata, PARCOORDS)[0];
if(calcData.length) parcoordsPlot(gd, calcData);
};
exports.clean = function(newFullData, newFullLayout, oldFullData, oldFullLayout) {
var hadParcoords = (oldFullLayout._has && oldFullLayout._has(PARCOORDS));
var hasParcoords = (newFullLayout._has && newFullLayout._has(PARCOORDS));
if(hadParcoords && !hasParcoords) {
oldFullLayout._paperdiv.selectAll('.parcoords').remove();
oldFullLayout._glimages.selectAll('*').remove();
}
};
exports.toSVG = function(gd) {
var imageRoot = gd._fullLayout._glimages;
var root = d3.select(gd).selectAll('.svg-container');
var canvases = root.filter(function(d, i) {return i === root.size() - 1;})
.selectAll('.gl-canvas-context, .gl-canvas-focus');
function canvasToImage() {
var canvas = this;
var imageData = canvas.toDataURL('image/png');
var image = imageRoot.append('svg:image');
image.attr({
xmlns: xmlnsNamespaces.svg,
'xlink:href': imageData,
preserveAspectRatio: 'none',
x: 0,
y: 0,
width: canvas.width,
height: canvas.height
});
}
canvases.each(canvasToImage);
// Chrome / Safari bug workaround - browser apparently loses connection to the defined pattern
// Without the workaround, these browsers 'lose' the filter brush styling (color etc.) after a snapshot
// on a subsequent interaction.
// Firefox works fine without this workaround
window.setTimeout(function() {
d3.selectAll('#filterBarPattern')
.attr('id', 'filterBarPattern');
}, 60);
};
},{"../../constants/xmlns_namespaces":671,"../../plots/get_data":778,"./plot":1006,"d3":147}],999:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var hasColorscale = _dereq_('../../components/colorscale/has_colorscale');
var calcColorscale = _dereq_('../../components/colorscale/calc');
var Lib = _dereq_('../../lib');
var wrap = _dereq_('../../lib/gup').wrap;
module.exports = function calc(gd, trace) {
var cs = !!trace.line.colorscale && Lib.isArrayOrTypedArray(trace.line.color);
var color = cs ? trace.line.color : constHalf(trace._length);
var cscale = cs ? trace.line.colorscale : [[0, trace.line.color], [1, trace.line.color]];
if(hasColorscale(trace, 'line')) {
calcColorscale(trace, color, 'line', 'c');
}
return wrap({
lineColor: color,
cscale: cscale
});
};
function constHalf(len) {
var out = new Array(len);
for(var i = 0; i < len; i++) {
out[i] = 0.5;
}
return out;
}
},{"../../components/colorscale/calc":575,"../../components/colorscale/has_colorscale":581,"../../lib":693,"../../lib/gup":690}],1000:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
maxDimensionCount: 60, // this cannot be increased without WebGL code refactoring
overdrag: 45,
verticalPadding: 2, // otherwise, horizontal lines on top or bottom are of lower width
tickDistance: 50,
canvasPixelRatio: 1,
blockLineCount: 5000,
layers: ['contextLineLayer', 'focusLineLayer', 'pickLineLayer'],
axisTitleOffset: 28,
axisExtentOffset: 10,
bar: {
width: 4, // Visible width of the filter bar
captureWidth: 10, // Mouse-sensitive width for interaction (Fitts law)
fillColor: 'magenta', // Color of the filter bar fill
fillOpacity: 1, // Filter bar fill opacity
snapDuration: 150, // tween duration in ms for brush snap for ordinal axes
snapRatio: 0.25, // ratio of bar extension relative to the distance between two adjacent ordinal values
snapClose: 0.01, // fraction of inter-value distance to snap to the closer one, even if you're not over it
strokeColor: 'white', // Color of the filter bar side lines
strokeOpacity: 1, // Filter bar side stroke opacity
strokeWidth: 1, // Filter bar side stroke width in pixels
handleHeight: 8, // Height of the filter bar vertical resize areas on top and bottom
handleOpacity: 1, // Opacity of the filter bar vertical resize areas on top and bottom
handleOverlap: 0 // A larger than 0 value causes overlaps with the filter bar, represented as pixels
},
cn: {
axisExtentText: 'axis-extent-text',
parcoordsLineLayers: 'parcoords-line-layers',
parcoordsLineLayer: 'parcoords-lines',
parcoords: 'parcoords',
parcoordsControlView: 'parcoords-control-view',
yAxis: 'y-axis',
axisOverlays: 'axis-overlays',
axis: 'axis',
axisHeading: 'axis-heading',
axisTitle: 'axis-title',
axisExtent: 'axis-extent',
axisExtentTop: 'axis-extent-top',
axisExtentTopText: 'axis-extent-top-text',
axisExtentBottom: 'axis-extent-bottom',
axisExtentBottomText: 'axis-extent-bottom-text',
axisBrush: 'axis-brush'
},
id: {
filterBarPattern: 'filter-bar-pattern'
}
};
},{}],1001:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var hasColorscale = _dereq_('../../components/colorscale/has_colorscale');
var colorscaleDefaults = _dereq_('../../components/colorscale/defaults');
var handleDomainDefaults = _dereq_('../../plots/domain').defaults;
var handleArrayContainerDefaults = _dereq_('../../plots/array_container_defaults');
var attributes = _dereq_('./attributes');
var axisBrush = _dereq_('./axisbrush');
var maxDimensionCount = _dereq_('./constants').maxDimensionCount;
var mergeLength = _dereq_('./merge_length');
function handleLineDefaults(traceIn, traceOut, defaultColor, layout, coerce) {
var lineColor = coerce('line.color', defaultColor);
if(hasColorscale(traceIn, 'line') && Lib.isArrayOrTypedArray(lineColor)) {
if(lineColor.length) {
coerce('line.colorscale');
colorscaleDefaults(traceIn, traceOut, layout, coerce, {prefix: 'line.', cLetter: 'c'});
// TODO: I think it would be better to keep showing lines beyond the last line color
// but I'm not sure what color to give these lines - probably black or white
// depending on the background color?
return lineColor.length;
}
else {
traceOut.line.color = defaultColor;
}
}
return Infinity;
}
function dimensionDefaults(dimensionIn, dimensionOut) {
function coerce(attr, dflt) {
return Lib.coerce(dimensionIn, dimensionOut, attributes.dimensions, attr, dflt);
}
var values = coerce('values');
var visible = coerce('visible');
if(!(values && values.length)) {
visible = dimensionOut.visible = false;
}
if(visible) {
coerce('label');
coerce('tickvals');
coerce('ticktext');
coerce('tickformat');
coerce('range');
coerce('multiselect');
var constraintRange = coerce('constraintrange');
if(constraintRange) {
dimensionOut.constraintrange = axisBrush.cleanRanges(constraintRange, dimensionOut);
}
}
}
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
var dimensionsIn = traceIn.dimensions;
if(Array.isArray(dimensionsIn) && dimensionsIn.length > maxDimensionCount) {
Lib.log('parcoords traces support up to ' + maxDimensionCount + ' dimensions at the moment');
dimensionsIn.splice(maxDimensionCount);
}
var dimensions = handleArrayContainerDefaults(traceIn, traceOut, {
name: 'dimensions',
handleItemDefaults: dimensionDefaults
});
var len = handleLineDefaults(traceIn, traceOut, defaultColor, layout, coerce);
handleDomainDefaults(traceOut, layout, coerce);
if(!Array.isArray(dimensions) || !dimensions.length) {
traceOut.visible = false;
}
mergeLength(traceOut, dimensions, 'values', len);
// make default font size 10px (default is 12),
// scale linearly with global font size
var fontDflt = {
family: layout.font.family,
size: Math.round(layout.font.size / 1.2),
color: layout.font.color
};
Lib.coerceFont(coerce, 'labelfont', fontDflt);
Lib.coerceFont(coerce, 'tickfont', fontDflt);
Lib.coerceFont(coerce, 'rangefont', fontDflt);
};
},{"../../components/colorscale/defaults":577,"../../components/colorscale/has_colorscale":581,"../../lib":693,"../../plots/array_container_defaults":738,"../../plots/domain":767,"./attributes":996,"./axisbrush":997,"./constants":1000,"./merge_length":1004}],1002:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Parcoords = {};
Parcoords.attributes = _dereq_('./attributes');
Parcoords.supplyDefaults = _dereq_('./defaults');
Parcoords.calc = _dereq_('./calc');
Parcoords.plot = _dereq_('./plot');
Parcoords.colorbar = {
container: 'line',
min: 'cmin',
max: 'cmax'
};
Parcoords.moduleType = 'trace';
Parcoords.name = 'parcoords';
Parcoords.basePlotModule = _dereq_('./base_plot');
Parcoords.categories = ['gl', 'regl', 'noOpacity'];
Parcoords.meta = {
};
module.exports = Parcoords;
},{"./attributes":996,"./base_plot":998,"./calc":999,"./defaults":1001,"./plot":1006}],1003:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var glslify = _dereq_('glslify');
var vertexShaderSource = glslify(["precision highp float;\n#define GLSLIFY 1\n\nattribute vec4 p0, p1, p2, p3,\n p4, p5, p6, p7,\n p8, p9, pa, pb,\n pc, pd, pe;\n\nattribute vec4 pf;\n\nuniform mat4 dim1A, dim2A, dim1B, dim2B, dim1C, dim2C, dim1D, dim2D,\n loA, hiA, loB, hiB, loC, hiC, loD, hiD;\n\nuniform vec2 resolution,\n viewBoxPosition,\n viewBoxSize;\n\nuniform sampler2D palette;\nuniform sampler2D mask;\nuniform float maskHeight;\n\nuniform vec2 colorClamp;\n\nvarying vec4 fragColor;\n\nvec4 unit_1 = vec4(1, 1, 1, 1);\n\nfloat val(mat4 p, mat4 v) {\n return dot(matrixCompMult(p, v) * unit_1, unit_1);\n}\n\nfloat axisY(\n float x,\n mat4 d[4],\n mat4 dim1A, mat4 dim2A, mat4 dim1B, mat4 dim2B, mat4 dim1C, mat4 dim2C, mat4 dim1D, mat4 dim2D\n ) {\n\n float y1 = val(d[0], dim1A) + val(d[1], dim1B) + val(d[2], dim1C) + val(d[3], dim1D);\n float y2 = val(d[0], dim2A) + val(d[1], dim2B) + val(d[2], dim2C) + val(d[3], dim2D);\n return y1 * (1.0 - x) + y2 * x;\n}\n\nconst int bitsPerByte = 8;\n\nint mod2(int a) {\n return a - 2 * (a / 2);\n}\n\nint mod8(int a) {\n return a - 8 * (a / 8);\n}\n\nvec4 zero = vec4(0, 0, 0, 0);\nvec4 unit_0 = vec4(1, 1, 1, 1);\nvec2 xyProjection = vec2(1, 1);\n\nmat4 mclamp(mat4 m, mat4 lo, mat4 hi) {\n return mat4(clamp(m[0], lo[0], hi[0]),\n clamp(m[1], lo[1], hi[1]),\n clamp(m[2], lo[2], hi[2]),\n clamp(m[3], lo[3], hi[3]));\n}\n\nbool mshow(mat4 p, mat4 lo, mat4 hi) {\n return mclamp(p, lo, hi) == p;\n}\n\nbool withinBoundingBox(\n mat4 d[4],\n mat4 loA, mat4 hiA, mat4 loB, mat4 hiB, mat4 loC, mat4 hiC, mat4 loD, mat4 hiD\n ) {\n\n return mshow(d[0], loA, hiA) &&\n mshow(d[1], loB, hiB) &&\n mshow(d[2], loC, hiC) &&\n mshow(d[3], loD, hiD);\n}\n\nbool withinRasterMask(mat4 d[4], sampler2D mask, float height) {\n bool result = true;\n int bitInByteStepper;\n float valY, valueY, scaleX;\n int hit, bitmask, valX;\n for(int i = 0; i < 4; i++) {\n for(int j = 0; j < 4; j++) {\n for(int k = 0; k < 4; k++) {\n bitInByteStepper = mod8(j * 4 + k);\n valX = i * 2 + j / 2;\n valY = d[i][j][k];\n valueY = valY * (height - 1.0) + 0.5;\n scaleX = (float(valX) + 0.5) / 8.0;\n hit = int(texture2D(mask, vec2(scaleX, (valueY + 0.5) / height))[3] * 255.0) / int(pow(2.0, float(bitInByteStepper)));\n result = result && mod2(hit) == 1;\n }\n }\n }\n return result;\n}\n\nvec4 position(\n float depth,\n vec2 resolution, vec2 viewBoxPosition, vec2 viewBoxSize,\n mat4 dims[4],\n float signum,\n mat4 dim1A, mat4 dim2A, mat4 dim1B, mat4 dim2B, mat4 dim1C, mat4 dim2C, mat4 dim1D, mat4 dim2D,\n mat4 loA, mat4 hiA, mat4 loB, mat4 hiB, mat4 loC, mat4 hiC, mat4 loD, mat4 hiD,\n sampler2D mask, float maskHeight\n ) {\n\n float x = 0.5 * signum + 0.5;\n float y = axisY(x, dims, dim1A, dim2A, dim1B, dim2B, dim1C, dim2C, dim1D, dim2D);\n\n float show = float(\n withinBoundingBox(dims, loA, hiA, loB, hiB, loC, hiC, loD, hiD)\n && withinRasterMask(dims, mask, maskHeight)\n );\n\n vec2 viewBoxXY = viewBoxPosition + viewBoxSize * vec2(x, y);\n float depthOrHide = depth + 2.0 * (1.0 - show);\n\n return vec4(\n xyProjection * (2.0 * viewBoxXY / resolution - 1.0),\n depthOrHide,\n 1.0\n );\n}\n\nvoid main() {\n\n float prominence = abs(pf[3]);\n\n mat4 p[4];\n p[0] = mat4(p0, p1, p2, p3);\n p[1] = mat4(p4, p5, p6, p7);\n p[2] = mat4(p8, p9, pa, pb);\n p[3] = mat4(pc, pd, pe, abs(pf));\n\n gl_Position = position(\n 1.0 - prominence,\n resolution, viewBoxPosition, viewBoxSize,\n p,\n sign(pf[3]),\n dim1A, dim2A, dim1B, dim2B, dim1C, dim2C, dim1D, dim2D,\n loA, hiA, loB, hiB, loC, hiC, loD, hiD,\n mask, maskHeight\n );\n\n float clampedColorIndex = clamp((prominence - colorClamp[0]) / (colorClamp[1] - colorClamp[0]), 0.0, 1.0);\n fragColor = texture2D(palette, vec2((clampedColorIndex * 255.0 + 0.5) / 256.0, 0.5));\n}\n"]);
var contextShaderSource = glslify(["precision highp float;\n#define GLSLIFY 1\n\nattribute vec4 p0, p1, p2, p3,\n p4, p5, p6, p7,\n p8, p9, pa, pb,\n pc, pd, pe;\n\nattribute vec4 pf;\n\nuniform mat4 dim1A, dim2A, dim1B, dim2B, dim1C, dim2C, dim1D, dim2D;\n\nuniform vec2 resolution,\n viewBoxPosition,\n viewBoxSize;\n\nuniform sampler2D palette;\n\nuniform vec2 colorClamp;\n\nvarying vec4 fragColor;\n\nvec2 xyProjection = vec2(1, 1);\n\nvec4 unit = vec4(1, 1, 1, 1);\n\nfloat val(mat4 p, mat4 v) {\n return dot(matrixCompMult(p, v) * unit, unit);\n}\n\nfloat axisY(\n float x,\n mat4 d[4],\n mat4 dim1A, mat4 dim2A, mat4 dim1B, mat4 dim2B, mat4 dim1C, mat4 dim2C, mat4 dim1D, mat4 dim2D\n ) {\n\n float y1 = val(d[0], dim1A) + val(d[1], dim1B) + val(d[2], dim1C) + val(d[3], dim1D);\n float y2 = val(d[0], dim2A) + val(d[1], dim2B) + val(d[2], dim2C) + val(d[3], dim2D);\n return y1 * (1.0 - x) + y2 * x;\n}\n\nvec4 position(\n float depth,\n vec2 resolution, vec2 viewBoxPosition, vec2 viewBoxSize,\n mat4 dims[4],\n float signum,\n mat4 dim1A, mat4 dim2A, mat4 dim1B, mat4 dim2B, mat4 dim1C, mat4 dim2C, mat4 dim1D, mat4 dim2D\n ) {\n\n float x = 0.5 * signum + 0.5;\n float y = axisY(x, dims, dim1A, dim2A, dim1B, dim2B, dim1C, dim2C, dim1D, dim2D);\n\n vec2 viewBoxXY = viewBoxPosition + viewBoxSize * vec2(x, y);\n\n return vec4(\n xyProjection * (2.0 * viewBoxXY / resolution - 1.0),\n depth,\n 1.0\n );\n}\n\nvoid main() {\n\n float prominence = abs(pf[3]);\n\n mat4 p[4];\n p[0] = mat4(p0, p1, p2, p3);\n p[1] = mat4(p4, p5, p6, p7);\n p[2] = mat4(p8, p9, pa, pb);\n p[3] = mat4(pc, pd, pe, abs(pf));\n\n gl_Position = position(\n 1.0 - prominence,\n resolution, viewBoxPosition, viewBoxSize,\n p,\n sign(pf[3]),\n dim1A, dim2A, dim1B, dim2B, dim1C, dim2C, dim1D, dim2D\n );\n\n float clampedColorIndex = clamp((prominence - colorClamp[0]) / (colorClamp[1] - colorClamp[0]), 0.0, 1.0);\n fragColor = texture2D(palette, vec2((clampedColorIndex * 255.0 + 0.5) / 256.0, 0.5));\n}\n"]);
var pickVertexShaderSource = glslify(["precision highp float;\n#define GLSLIFY 1\n\nattribute vec4 p0, p1, p2, p3,\n p4, p5, p6, p7,\n p8, p9, pa, pb,\n pc, pd, pe;\n\nattribute vec4 pf;\n\nuniform mat4 dim1A, dim2A, dim1B, dim2B, dim1C, dim2C, dim1D, dim2D,\n loA, hiA, loB, hiB, loC, hiC, loD, hiD;\n\nuniform vec2 resolution,\n viewBoxPosition,\n viewBoxSize;\n\nuniform sampler2D mask;\nuniform float maskHeight;\n\nuniform vec2 colorClamp;\n\nvarying vec4 fragColor;\n\nvec4 unit_1 = vec4(1, 1, 1, 1);\n\nfloat val(mat4 p, mat4 v) {\n return dot(matrixCompMult(p, v) * unit_1, unit_1);\n}\n\nfloat axisY(\n float x,\n mat4 d[4],\n mat4 dim1A, mat4 dim2A, mat4 dim1B, mat4 dim2B, mat4 dim1C, mat4 dim2C, mat4 dim1D, mat4 dim2D\n ) {\n\n float y1 = val(d[0], dim1A) + val(d[1], dim1B) + val(d[2], dim1C) + val(d[3], dim1D);\n float y2 = val(d[0], dim2A) + val(d[1], dim2B) + val(d[2], dim2C) + val(d[3], dim2D);\n return y1 * (1.0 - x) + y2 * x;\n}\n\nconst int bitsPerByte = 8;\n\nint mod2(int a) {\n return a - 2 * (a / 2);\n}\n\nint mod8(int a) {\n return a - 8 * (a / 8);\n}\n\nvec4 zero = vec4(0, 0, 0, 0);\nvec4 unit_0 = vec4(1, 1, 1, 1);\nvec2 xyProjection = vec2(1, 1);\n\nmat4 mclamp(mat4 m, mat4 lo, mat4 hi) {\n return mat4(clamp(m[0], lo[0], hi[0]),\n clamp(m[1], lo[1], hi[1]),\n clamp(m[2], lo[2], hi[2]),\n clamp(m[3], lo[3], hi[3]));\n}\n\nbool mshow(mat4 p, mat4 lo, mat4 hi) {\n return mclamp(p, lo, hi) == p;\n}\n\nbool withinBoundingBox(\n mat4 d[4],\n mat4 loA, mat4 hiA, mat4 loB, mat4 hiB, mat4 loC, mat4 hiC, mat4 loD, mat4 hiD\n ) {\n\n return mshow(d[0], loA, hiA) &&\n mshow(d[1], loB, hiB) &&\n mshow(d[2], loC, hiC) &&\n mshow(d[3], loD, hiD);\n}\n\nbool withinRasterMask(mat4 d[4], sampler2D mask, float height) {\n bool result = true;\n int bitInByteStepper;\n float valY, valueY, scaleX;\n int hit, bitmask, valX;\n for(int i = 0; i < 4; i++) {\n for(int j = 0; j < 4; j++) {\n for(int k = 0; k < 4; k++) {\n bitInByteStepper = mod8(j * 4 + k);\n valX = i * 2 + j / 2;\n valY = d[i][j][k];\n valueY = valY * (height - 1.0) + 0.5;\n scaleX = (float(valX) + 0.5) / 8.0;\n hit = int(texture2D(mask, vec2(scaleX, (valueY + 0.5) / height))[3] * 255.0) / int(pow(2.0, float(bitInByteStepper)));\n result = result && mod2(hit) == 1;\n }\n }\n }\n return result;\n}\n\nvec4 position(\n float depth,\n vec2 resolution, vec2 viewBoxPosition, vec2 viewBoxSize,\n mat4 dims[4],\n float signum,\n mat4 dim1A, mat4 dim2A, mat4 dim1B, mat4 dim2B, mat4 dim1C, mat4 dim2C, mat4 dim1D, mat4 dim2D,\n mat4 loA, mat4 hiA, mat4 loB, mat4 hiB, mat4 loC, mat4 hiC, mat4 loD, mat4 hiD,\n sampler2D mask, float maskHeight\n ) {\n\n float x = 0.5 * signum + 0.5;\n float y = axisY(x, dims, dim1A, dim2A, dim1B, dim2B, dim1C, dim2C, dim1D, dim2D);\n\n float show = float(\n withinBoundingBox(dims, loA, hiA, loB, hiB, loC, hiC, loD, hiD)\n && withinRasterMask(dims, mask, maskHeight)\n );\n\n vec2 viewBoxXY = viewBoxPosition + viewBoxSize * vec2(x, y);\n float depthOrHide = depth + 2.0 * (1.0 - show);\n\n return vec4(\n xyProjection * (2.0 * viewBoxXY / resolution - 1.0),\n depthOrHide,\n 1.0\n );\n}\n\nvoid main() {\n\n float prominence = abs(pf[3]);\n\n mat4 p[4];\n p[0] = mat4(p0, p1, p2, p3);\n p[1] = mat4(p4, p5, p6, p7);\n p[2] = mat4(p8, p9, pa, pb);\n p[3] = mat4(pc, pd, pe, abs(pf));\n\n gl_Position = position(\n 1.0 - prominence,\n resolution, viewBoxPosition, viewBoxSize,\n p,\n sign(pf[3]),\n dim1A, dim2A, dim1B, dim2B, dim1C, dim2C, dim1D, dim2D,\n loA, hiA, loB, hiB, loC, hiC, loD, hiD,\n mask, maskHeight\n );\n\n fragColor = vec4(pf.rgb, 1.0);\n}\n"]);
var fragmentShaderSource = glslify(["precision lowp float;\n#define GLSLIFY 1\n\nvarying vec4 fragColor;\n\nvoid main() {\n gl_FragColor = fragColor;\n}\n"]);
var Lib = _dereq_('../../lib');
// don't change; otherwise near/far plane lines are lost
var depthLimitEpsilon = 1e-6;
// just enough buffer for an extra bit at single-precision floating point
// which on [0, 1] is 6e-8 (1/2^24)
var filterEpsilon = 1e-7;
// precision of multiselect is the full range divided into this many parts
var maskHeight = 2048;
var gpuDimensionCount = 64;
var sectionVertexCount = 2;
var vec4NumberCount = 4;
var bitsPerByte = 8;
var channelCount = gpuDimensionCount / bitsPerByte; // == 8 bytes needed to have 64 bits
var contextColor = [119, 119, 119]; // middle gray to not drawn the focus; looks good on a black or white background
var dummyPixel = new Uint8Array(4);
var pickPixel = new Uint8Array(4);
var paletteTextureConfig = {
shape: [256, 1],
format: 'rgba',
type: 'uint8',
mag: 'nearest',
min: 'nearest'
};
function ensureDraw(regl) {
regl.read({
x: 0,
y: 0,
width: 1,
height: 1,
data: dummyPixel
});
}
function clear(regl, x, y, width, height) {
var gl = regl._gl;
gl.enable(gl.SCISSOR_TEST);
gl.scissor(x, y, width, height);
regl.clear({color: [0, 0, 0, 0], depth: 1}); // clearing is done in scissored panel only
}
function renderBlock(regl, glAes, renderState, blockLineCount, sampleCount, item) {
var rafKey = item.key;
function render(blockNumber) {
var count;
count = Math.min(blockLineCount, sampleCount - blockNumber * blockLineCount);
item.offset = sectionVertexCount * blockNumber * blockLineCount;
item.count = sectionVertexCount * count;
if(blockNumber === 0) {
// stop drawing possibly stale glyphs before clearing
window.cancelAnimationFrame(renderState.currentRafs[rafKey]);
delete renderState.currentRafs[rafKey];
clear(regl, item.scissorX, item.scissorY, item.scissorWidth, item.viewBoxSize[1]);
}
if(renderState.clearOnly) {
return;
}
glAes(item);
if(blockNumber * blockLineCount + count < sampleCount) {
renderState.currentRafs[rafKey] = window.requestAnimationFrame(function() {
render(blockNumber + 1);
});
}
renderState.drawCompleted = false;
}
if(!renderState.drawCompleted) {
ensureDraw(regl);
renderState.drawCompleted = true;
}
// start with rendering item 0; recursion handles the rest
render(0);
}
function adjustDepth(d) {
// WebGL matrix operations use floats with limited precision, potentially causing a number near a border of [0, 1]
// to end up slightly outside the border. With an epsilon, we reduce the chance that a line gets clipped by the
// near or the far plane.
return Math.max(depthLimitEpsilon, Math.min(1 - depthLimitEpsilon, d));
}
function palette(unitToColor, context, opacity) {
var result = [];
for(var j = 0; j < 256; j++) {
var c = unitToColor(j / 255);
result.push((context ? contextColor : c).concat(opacity));
}
return result;
}
// Maps the sample index [0...sampleCount - 1] to a range of [0, 1] as the shader expects colors in the [0, 1] range.
// but first it shifts the sample index by 0, 8 or 16 bits depending on rgbIndex [0..2]
// with the end result that each line will be of a unique color, making it possible for the pick handler
// to uniquely identify which line is hovered over (bijective mapping).
// The inverse, i.e. readPixel is invoked from 'parcoords.js'
function calcPickColor(j, rgbIndex) {
return (j >>> 8 * rgbIndex) % 256 / 255;
}
function makePoints(sampleCount, dimensions, color) {
var dimensionCount = dimensions.length;
var points = [];
for(var j = 0; j < sampleCount; j++) {
for(var i = 0; i < gpuDimensionCount; i++) {
points.push(i < dimensionCount ?
dimensions[i].paddedUnitValues[j] :
i === (gpuDimensionCount - 1) ?
adjustDepth(color[j]) :
i >= gpuDimensionCount - 4 ?
calcPickColor(j, gpuDimensionCount - 2 - i) :
0.5);
}
}
return points;
}
function makeVecAttr(sampleCount, points, vecIndex) {
var i, j, k;
var pointPairs = [];
for(j = 0; j < sampleCount; j++) {
for(k = 0; k < sectionVertexCount; k++) {
for(i = 0; i < vec4NumberCount; i++) {
pointPairs.push(points[j * gpuDimensionCount + vecIndex * vec4NumberCount + i]);
if(vecIndex * vec4NumberCount + i === gpuDimensionCount - 1 && k % 2 === 0) {
pointPairs[pointPairs.length - 1] *= -1;
}
}
}
}
return pointPairs;
}
function setAttributes(attributes, sampleCount, points) {
for(var i = 0; i < 16; i++) {
attributes['p' + i.toString(16)](makeVecAttr(sampleCount, points, i));
}
}
function emptyAttributes(regl) {
var attributes = {};
for(var i = 0; i < 16; i++) {
attributes['p' + i.toString(16)] = regl.buffer({usage: 'dynamic', type: 'float', data: new Uint8Array(0)});
}
return attributes;
}
module.exports = function(canvasGL, d) {
// context & pick describe which canvas we're talking about - won't change with new data
var context = d.context;
var pick = d.pick;
var regl = d.regl;
var renderState = {
currentRafs: {},
drawCompleted: true,
clearOnly: false
};
// state to be set by update and used later
var model;
var vm;
var initialDims;
var sampleCount;
var attributes = emptyAttributes(regl);
var maskTexture;
var paletteTexture = regl.texture(paletteTextureConfig);
update(d);
var glAes = regl({
profile: false,
blend: {
enable: context,
func: {
srcRGB: 'src alpha',
dstRGB: 'one minus src alpha',
srcAlpha: 1,
dstAlpha: 1 // 'one minus src alpha'
},
equation: {
rgb: 'add',
alpha: 'add'
},
color: [0, 0, 0, 0]
},
depth: {
enable: !context,
mask: true,
func: 'less',
range: [0, 1]
},
// for polygons
cull: {
enable: true,
face: 'back'
},
scissor: {
enable: true,
box: {
x: regl.prop('scissorX'),
y: regl.prop('scissorY'),
width: regl.prop('scissorWidth'),
height: regl.prop('scissorHeight')
}
},
viewport: {
x: regl.prop('viewportX'),
y: regl.prop('viewportY'),
width: regl.prop('viewportWidth'),
height: regl.prop('viewportHeight')
},
dither: false,
vert: pick ? pickVertexShaderSource : context ? contextShaderSource : vertexShaderSource,
frag: fragmentShaderSource,
primitive: 'lines',
lineWidth: 1,
attributes: attributes,
uniforms: {
resolution: regl.prop('resolution'),
viewBoxPosition: regl.prop('viewBoxPosition'),
viewBoxSize: regl.prop('viewBoxSize'),
dim1A: regl.prop('dim1A'),
dim2A: regl.prop('dim2A'),
dim1B: regl.prop('dim1B'),
dim2B: regl.prop('dim2B'),
dim1C: regl.prop('dim1C'),
dim2C: regl.prop('dim2C'),
dim1D: regl.prop('dim1D'),
dim2D: regl.prop('dim2D'),
loA: regl.prop('loA'),
hiA: regl.prop('hiA'),
loB: regl.prop('loB'),
hiB: regl.prop('hiB'),
loC: regl.prop('loC'),
hiC: regl.prop('hiC'),
loD: regl.prop('loD'),
hiD: regl.prop('hiD'),
palette: paletteTexture,
mask: regl.prop('maskTexture'),
maskHeight: regl.prop('maskHeight'),
colorClamp: regl.prop('colorClamp')
},
offset: regl.prop('offset'),
count: regl.prop('count')
});
function update(dNew) {
model = dNew.model;
vm = dNew.viewModel;
initialDims = vm.dimensions.slice();
sampleCount = initialDims[0] ? initialDims[0].values.length : 0;
var lines = model.lines;
var color = pick ? lines.color.map(function(_, i) {return i / lines.color.length;}) : lines.color;
var contextOpacity = Math.max(1 / 255, Math.pow(1 / color.length, 1 / 3));
var points = makePoints(sampleCount, initialDims, color);
setAttributes(attributes, sampleCount, points);
paletteTexture = regl.texture(Lib.extendFlat({
data: palette(model.unitToColor, context, Math.round((context ? contextOpacity : 1) * 255))
}, paletteTextureConfig));
}
var colorClamp = [0, 1];
function setColorDomain(unitDomain) {
colorClamp[0] = unitDomain[0];
colorClamp[1] = unitDomain[1];
}
var previousAxisOrder = [];
function makeItem(i, ii, x, y, panelSizeX, canvasPanelSizeY, crossfilterDimensionIndex, I, leftmost, rightmost, constraints) {
var loHi, abcd, d, index;
var leftRight = [i, ii];
var dims = [0, 1].map(function() {return [0, 1, 2, 3].map(function() {return new Float32Array(16);});});
for(loHi = 0; loHi < 2; loHi++) {
index = leftRight[loHi];
for(abcd = 0; abcd < 4; abcd++) {
for(d = 0; d < 16; d++) {
dims[loHi][abcd][d] = d + 16 * abcd === index ? 1 : 0;
}
}
}
var overdrag = model.lines.canvasOverdrag;
var domain = model.domain;
var canvasWidth = model.canvasWidth;
var canvasHeight = model.canvasHeight;
var itemModel = Lib.extendFlat({
key: crossfilterDimensionIndex,
resolution: [canvasWidth, canvasHeight],
viewBoxPosition: [x + overdrag, y],
viewBoxSize: [panelSizeX, canvasPanelSizeY],
i: i,
ii: ii,
dim1A: dims[0][0],
dim1B: dims[0][1],
dim1C: dims[0][2],
dim1D: dims[0][3],
dim2A: dims[1][0],
dim2B: dims[1][1],
dim2C: dims[1][2],
dim2D: dims[1][3],
colorClamp: colorClamp,
scissorX: (I === leftmost ? 0 : x + overdrag) + (model.pad.l - overdrag) + model.layoutWidth * domain.x[0],
scissorWidth: (I === rightmost ? canvasWidth - x + overdrag : panelSizeX + 0.5) + (I === leftmost ? x + overdrag : 0),
scissorY: y + model.pad.b + model.layoutHeight * domain.y[0],
scissorHeight: canvasPanelSizeY,
viewportX: model.pad.l - overdrag + model.layoutWidth * domain.x[0],
viewportY: model.pad.b + model.layoutHeight * domain.y[0],
viewportWidth: canvasWidth,
viewportHeight: canvasHeight
}, constraints);
return itemModel;
}
function makeConstraints() {
var loHi, abcd, d;
var lims = [0, 1].map(function() {return [0, 1, 2, 3].map(function() {return new Float32Array(16);});});
for(loHi = 0; loHi < 2; loHi++) {
for(abcd = 0; abcd < 4; abcd++) {
for(d = 0; d < 16; d++) {
var dimP = d + 16 * abcd;
var lim;
if(dimP < initialDims.length) {
lim = initialDims[dimP].brush.filter.getBounds()[loHi];
}
else lim = loHi;
lims[loHi][abcd][d] = lim + (2 * loHi - 1) * filterEpsilon;
}
}
}
function expandedPixelRange(dim, bounds) {
var maskHMinus = maskHeight - 1;
return [
Math.max(0, Math.floor(bounds[0] * maskHMinus)),
Math.min(maskHMinus, Math.ceil(bounds[1] * maskHMinus))
];
}
var mask = Array.apply(null, new Array(maskHeight * channelCount)).map(function() {
return 255;
});
for(var dimIndex = 0; dimIndex < initialDims.length; dimIndex++) {
var bitIndex = dimIndex % bitsPerByte;
var byteIndex = (dimIndex - bitIndex) / bitsPerByte;
var bitMask = Math.pow(2, bitIndex);
var dim = initialDims[dimIndex];
var ranges = dim.brush.filter.get();
if(ranges.length < 2) continue; // bail if the bounding box based filter is sufficient
var prevEnd = expandedPixelRange(dim, ranges[0])[1];
for(var ri = 1; ri < ranges.length; ri++) {
var nextRange = expandedPixelRange(dim, ranges[ri]);
for(var pi = prevEnd + 1; pi < nextRange[0]; pi++) {
mask[pi * channelCount + byteIndex] &= ~bitMask;
}
prevEnd = Math.max(prevEnd, nextRange[1]);
}
}
var textureData = {
// 8 units x 8 bits = 64 bits, just sufficient for the almost 64 dimensions we support
shape: [channelCount, maskHeight],
format: 'alpha',
type: 'uint8',
mag: 'nearest',
min: 'nearest',
data: mask
};
if(maskTexture) maskTexture(textureData);
else maskTexture = regl.texture(textureData);
return {
maskTexture: maskTexture,
maskHeight: maskHeight,
loA: lims[0][0],
loB: lims[0][1],
loC: lims[0][2],
loD: lims[0][3],
hiA: lims[1][0],
hiB: lims[1][1],
hiC: lims[1][2],
hiD: lims[1][3]
};
}
function renderGLParcoords(panels, setChanged, clearOnly) {
var panelCount = panels.length;
var I;
var leftmost, rightmost, lowestX = Infinity, highestX = -Infinity;
for(I = 0; I < panelCount; I++) {
if(panels[I].dim2.canvasX > highestX) {
highestX = panels[I].dim2.canvasX;
rightmost = I;
}
if(panels[I].dim1.canvasX < lowestX) {
lowestX = panels[I].dim1.canvasX;
leftmost = I;
}
}
if(panelCount === 0) {
// clear canvas here, as the panel iteration below will not enter the loop body
clear(regl, 0, 0, model.canvasWidth, model.canvasHeight);
}
var constraints = context ? {} : makeConstraints();
for(I = 0; I < panelCount; I++) {
var panel = panels[I];
var dim1 = panel.dim1;
var i = dim1.crossfilterDimensionIndex;
var x = panel.canvasX;
var y = panel.canvasY;
var dim2 = panel.dim2;
var ii = dim2.crossfilterDimensionIndex;
var panelSizeX = panel.panelSizeX;
var panelSizeY = panel.panelSizeY;
var xTo = x + panelSizeX;
if(setChanged || !previousAxisOrder[i] || previousAxisOrder[i][0] !== x || previousAxisOrder[i][1] !== xTo) {
previousAxisOrder[i] = [x, xTo];
var item = makeItem(i, ii, x, y, panelSizeX, panelSizeY, dim1.crossfilterDimensionIndex, I, leftmost, rightmost, constraints);
renderState.clearOnly = clearOnly;
renderBlock(regl, glAes, renderState, setChanged ? model.lines.blockLineCount : sampleCount, sampleCount, item);
}
}
}
function readPixel(canvasX, canvasY) {
regl.read({
x: canvasX,
y: canvasY,
width: 1,
height: 1,
data: pickPixel
});
return pickPixel;
}
function readPixels(canvasX, canvasY, width, height) {
var pixelArray = new Uint8Array(4 * width * height);
regl.read({
x: canvasX,
y: canvasY,
width: width,
height: height,
data: pixelArray
});
return pixelArray;
}
function destroy() {
canvasGL.style['pointer-events'] = 'none';
paletteTexture.destroy();
if(maskTexture) maskTexture.destroy();
for(var k in attributes) attributes[k].destroy();
}
return {
setColorDomain: setColorDomain,
render: renderGLParcoords,
readPixel: readPixel,
readPixels: readPixels,
destroy: destroy,
update: update
};
};
},{"../../lib":693,"glslify":390}],1004:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
/**
* mergeLength: set trace length as the minimum of all dimension data lengths
* and propagates this length into each dimension
*
* @param {object} traceOut: the fullData trace
* @param {Array(object)} dimensions: array of dimension objects
* @param {string} dataAttr: the attribute of each dimension containing the data
* @param {integer} len: an already-existing length from other attributes
*/
module.exports = function(traceOut, dimensions, dataAttr, len) {
if(!len) len = Infinity;
var i, dimi;
for(i = 0; i < dimensions.length; i++) {
dimi = dimensions[i];
if(dimi.visible) len = Math.min(len, dimi[dataAttr].length);
}
if(len === Infinity) len = 0;
traceOut._length = len;
for(i = 0; i < dimensions.length; i++) {
dimi = dimensions[i];
if(dimi.visible) dimi._length = len;
}
return len;
};
},{}],1005:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var lineLayerMaker = _dereq_('./lines');
var c = _dereq_('./constants');
var Lib = _dereq_('../../lib');
var d3 = _dereq_('d3');
var Drawing = _dereq_('../../components/drawing');
var gup = _dereq_('../../lib/gup');
var keyFun = gup.keyFun;
var repeat = gup.repeat;
var unwrap = gup.unwrap;
var brush = _dereq_('./axisbrush');
function visible(dimension) { return !('visible' in dimension) || dimension.visible; }
function dimensionExtent(dimension) {
var lo = dimension.range ? dimension.range[0] : Lib.aggNums(Math.min, null, dimension.values, dimension._length);
var hi = dimension.range ? dimension.range[1] : Lib.aggNums(Math.max, null, dimension.values, dimension._length);
if(isNaN(lo) || !isFinite(lo)) {
lo = 0;
}
if(isNaN(hi) || !isFinite(hi)) {
hi = 0;
}
// avoid a degenerate (zero-width) domain
if(lo === hi) {
if(lo === 0) {
// no use to multiplying zero, so add/subtract in this case
lo -= 1;
hi += 1;
} else {
// this keeps the range in the order of magnitude of the data
lo *= 0.9;
hi *= 1.1;
}
}
return [lo, hi];
}
function toText(formatter, texts) {
if(texts) {
return function(v, i) {
var text = texts[i];
if(text === null || text === undefined) return formatter(v);
return text;
};
}
return formatter;
}
function domainScale(height, padding, dimension, tickvals, ticktext) {
var extent = dimensionExtent(dimension);
if(tickvals) {
return d3.scale.ordinal()
.domain(tickvals.map(toText(d3.format(dimension.tickformat), ticktext)))
.range(tickvals
.map(function(d) {
var unitVal = (d - extent[0]) / (extent[1] - extent[0]);
return (height - padding + unitVal * (2 * padding - height));
})
);
}
return d3.scale.linear()
.domain(extent)
.range([height - padding, padding]);
}
function unitToPaddedPx(height, padding) { return d3.scale.linear().range([padding, height - padding]); }
function domainToPaddedUnitScale(dimension, padFraction) {
return d3.scale.linear()
.domain(dimensionExtent(dimension))
.range([padFraction, 1 - padFraction]);
}
function ordinalScale(dimension) {
if(!dimension.tickvals) return;
var extent = dimensionExtent(dimension);
return d3.scale.ordinal()
.domain(dimension.tickvals)
.range(dimension.tickvals.map(function(d) {
return (d - extent[0]) / (extent[1] - extent[0]);
}));
}
function unitToColorScale(cscale) {
var colorStops = cscale.map(function(d) { return d[0]; });
var colorTuples = cscale.map(function(d) { return d3.rgb(d[1]); });
var prop = function(n) { return function(o) { return o[n]; }; };
// We can't use d3 color interpolation as we may have non-uniform color palette raster
// (various color stop distances).
var polylinearUnitScales = 'rgb'.split('').map(function(key) {
return d3.scale.linear()
.clamp(true)
.domain(colorStops)
.range(colorTuples.map(prop(key)));
});
return function(d) {
return polylinearUnitScales.map(function(s) {
return s(d);
});
};
}
function someFiltersActive(view) {
return view.dimensions.some(function(p) {
return p.brush.filterSpecified;
});
}
function model(layout, d, i) {
var cd0 = unwrap(d),
trace = cd0.trace,
lineColor = cd0.lineColor,
cscale = cd0.cscale,
line = trace.line,
domain = trace.domain,
dimensions = trace.dimensions,
width = layout.width,
labelFont = trace.labelfont,
tickFont = trace.tickfont,
rangeFont = trace.rangefont;
var lines = Lib.extendDeepNoArrays({}, line, {
color: lineColor.map(d3.scale.linear().domain(dimensionExtent({
values: lineColor,
range: [line.cmin, line.cmax],
_length: trace._length
}))),
blockLineCount: c.blockLineCount,
canvasOverdrag: c.overdrag * c.canvasPixelRatio
});
var groupWidth = Math.floor(width * (domain.x[1] - domain.x[0]));
var groupHeight = Math.floor(layout.height * (domain.y[1] - domain.y[0]));
var pad = layout.margin || {l: 80, r: 80, t: 100, b: 80};
var rowContentWidth = groupWidth;
var rowHeight = groupHeight;
return {
key: i,
colCount: dimensions.filter(visible).length,
dimensions: dimensions,
tickDistance: c.tickDistance,
unitToColor: unitToColorScale(cscale),
lines: lines,
labelFont: labelFont,
tickFont: tickFont,
rangeFont: rangeFont,
layoutWidth: width,
layoutHeight: layout.height,
domain: domain,
translateX: domain.x[0] * width,
translateY: layout.height - domain.y[1] * layout.height,
pad: pad,
canvasWidth: rowContentWidth * c.canvasPixelRatio + 2 * lines.canvasOverdrag,
canvasHeight: rowHeight * c.canvasPixelRatio,
width: rowContentWidth,
height: rowHeight,
canvasPixelRatio: c.canvasPixelRatio
};
}
function viewModel(state, callbacks, model) {
var width = model.width;
var height = model.height;
var dimensions = model.dimensions;
var canvasPixelRatio = model.canvasPixelRatio;
var xScale = function(d) {return width * d / Math.max(1, model.colCount - 1);};
var unitPad = c.verticalPadding / height;
var _unitToPaddedPx = unitToPaddedPx(height, c.verticalPadding);
var viewModel = {
key: model.key,
xScale: xScale,
model: model,
inBrushDrag: false // consider factoring it out and putting it in a centralized global-ish gesture state object
};
var uniqueKeys = {};
viewModel.dimensions = dimensions.filter(visible).map(function(dimension, i) {
var domainToPaddedUnit = domainToPaddedUnitScale(dimension, unitPad);
var foundKey = uniqueKeys[dimension.label];
uniqueKeys[dimension.label] = (foundKey || 0) + 1;
var key = dimension.label + (foundKey ? '__' + foundKey : '');
var specifiedConstraint = dimension.constraintrange;
var filterRangeSpecified = specifiedConstraint && specifiedConstraint.length;
if(filterRangeSpecified && !Array.isArray(specifiedConstraint[0])) {
specifiedConstraint = [specifiedConstraint];
}
var filterRange = filterRangeSpecified ?
specifiedConstraint.map(function(d) { return d.map(domainToPaddedUnit); }) :
[[0, 1]];
var brushMove = function() {
var p = viewModel;
p.focusLayer && p.focusLayer.render(p.panels, true);
var filtersActive = someFiltersActive(p);
if(!state.contextShown() && filtersActive) {
p.contextLayer && p.contextLayer.render(p.panels, true);
state.contextShown(true);
} else if(state.contextShown() && !filtersActive) {
p.contextLayer && p.contextLayer.render(p.panels, true, true);
state.contextShown(false);
}
};
var truncatedValues = dimension.values;
if(truncatedValues.length > dimension._length) {
truncatedValues = truncatedValues.slice(0, dimension._length);
}
var tickvals = dimension.tickvals;
var ticktext;
function makeTickItem(v, i) { return {val: v, text: ticktext[i]}; }
function sortTickItem(a, b) { return a.val - b.val; }
if(Array.isArray(tickvals) && tickvals.length) {
ticktext = dimension.ticktext;
// ensure ticktext and tickvals have same length
if(!Array.isArray(ticktext) || !ticktext.length) {
ticktext = tickvals.map(d3.format(dimension.tickformat));
}
else if(ticktext.length > tickvals.length) {
ticktext = ticktext.slice(0, tickvals.length);
}
else if(tickvals.length > ticktext.length) {
tickvals = tickvals.slice(0, ticktext.length);
}
// check if we need to sort tickvals/ticktext
for(var j = 1; j < tickvals.length; j++) {
if(tickvals[j] < tickvals[j - 1]) {
var tickItems = tickvals.map(makeTickItem).sort(sortTickItem);
for(var k = 0; k < tickvals.length; k++) {
tickvals[k] = tickItems[k].val;
ticktext[k] = tickItems[k].text;
}
break;
}
}
}
else tickvals = undefined;
return {
key: key,
label: dimension.label,
tickFormat: dimension.tickformat,
tickvals: tickvals,
ticktext: ticktext,
ordinal: !!tickvals,
multiselect: dimension.multiselect,
xIndex: i,
crossfilterDimensionIndex: i,
visibleIndex: dimension._index,
height: height,
values: truncatedValues,
paddedUnitValues: truncatedValues.map(domainToPaddedUnit),
unitTickvals: tickvals && tickvals.map(domainToPaddedUnit),
xScale: xScale,
x: xScale(i),
canvasX: xScale(i) * canvasPixelRatio,
unitToPaddedPx: _unitToPaddedPx,
domainScale: domainScale(height, c.verticalPadding, dimension, tickvals, ticktext),
ordinalScale: ordinalScale(dimension),
parent: viewModel,
model: model,
brush: brush.makeBrush(
state,
filterRangeSpecified,
filterRange,
function() {
state.linePickActive(false);
},
brushMove,
function(f) {
var p = viewModel;
p.focusLayer.render(p.panels, true);
p.pickLayer && p.pickLayer.render(p.panels, true);
state.linePickActive(true);
if(callbacks && callbacks.filterChanged) {
var invScale = domainToPaddedUnit.invert;
// update gd.data as if a Plotly.restyle were fired
var newRanges = f.map(function(r) {
return r.map(invScale).sort(Lib.sorterAsc);
}).sort(function(a, b) { return a[0] - b[0]; });
callbacks.filterChanged(p.key, dimension._index, newRanges);
}
}
)
};
});
return viewModel;
}
function styleExtentTexts(selection) {
selection
.classed(c.cn.axisExtentText, true)
.attr('text-anchor', 'middle')
.style('cursor', 'default')
.style('user-select', 'none');
}
function parcoordsInteractionState() {
var linePickActive = true;
var contextShown = false;
return {
linePickActive: function(val) {return arguments.length ? linePickActive = !!val : linePickActive;},
contextShown: function(val) {return arguments.length ? contextShown = !!val : contextShown;}
};
}
module.exports = function(root, svg, parcoordsLineLayers, styledData, layout, callbacks) {
var state = parcoordsInteractionState();
var vm = styledData
.filter(function(d) { return unwrap(d).trace.visible; })
.map(model.bind(0, layout))
.map(viewModel.bind(0, state, callbacks));
parcoordsLineLayers.each(function(d, i) {
return Lib.extendFlat(d, vm[i]);
});
var parcoordsLineLayer = parcoordsLineLayers.selectAll('.gl-canvas')
.each(function(d) {
// FIXME: figure out how to handle multiple instances
d.viewModel = vm[0];
d.model = d.viewModel ? d.viewModel.model : null;
});
var lastHovered = null;
var pickLayer = parcoordsLineLayer.filter(function(d) {return d.pick;});
// emit hover / unhover event
pickLayer
.style('pointer-events', 'auto')
.on('mousemove', function(d) {
if(state.linePickActive() && d.lineLayer && callbacks && callbacks.hover) {
var event = d3.event;
var cw = this.width;
var ch = this.height;
var pointer = d3.mouse(this);
var x = pointer[0];
var y = pointer[1];
if(x < 0 || y < 0 || x >= cw || y >= ch) {
return;
}
var pixel = d.lineLayer.readPixel(x, ch - 1 - y);
var found = pixel[3] !== 0;
// inverse of the calcPickColor in `lines.js`; detailed comment there
var curveNumber = found ? pixel[2] + 256 * (pixel[1] + 256 * pixel[0]) : null;
var eventData = {
x: x,
y: y,
clientX: event.clientX,
clientY: event.clientY,
dataIndex: d.model.key,
curveNumber: curveNumber
};
if(curveNumber !== lastHovered) { // don't unnecessarily repeat the same hit (or miss)
if(found) {
callbacks.hover(eventData);
} else if(callbacks.unhover) {
callbacks.unhover(eventData);
}
lastHovered = curveNumber;
}
}
});
parcoordsLineLayer
.style('opacity', function(d) {return d.pick ? 0.01 : 1;});
svg.style('background', 'rgba(255, 255, 255, 0)');
var parcoordsControlOverlay = svg.selectAll('.' + c.cn.parcoords)
.data(vm, keyFun);
parcoordsControlOverlay.exit().remove();
parcoordsControlOverlay.enter()
.append('g')
.classed(c.cn.parcoords, true)
.style('shape-rendering', 'crispEdges')
.style('pointer-events', 'none');
parcoordsControlOverlay.attr('transform', function(d) {
return 'translate(' + d.model.translateX + ',' + d.model.translateY + ')';
});
var parcoordsControlView = parcoordsControlOverlay.selectAll('.' + c.cn.parcoordsControlView)
.data(repeat, keyFun);
parcoordsControlView.enter()
.append('g')
.classed(c.cn.parcoordsControlView, true);
parcoordsControlView.attr('transform', function(d) {
return 'translate(' + d.model.pad.l + ',' + d.model.pad.t + ')';
});
var yAxis = parcoordsControlView.selectAll('.' + c.cn.yAxis)
.data(function(vm) { return vm.dimensions; }, keyFun);
function updatePanelLayout(yAxis, vm) {
var panels = vm.panels || (vm.panels = []);
var dimData = yAxis.data();
var panelCount = dimData.length - 1;
for(var p = 0; p < panelCount; p++) {
var panel = panels[p] || (panels[p] = {});
var dim1 = dimData[p];
var dim2 = dimData[p + 1];
panel.dim1 = dim1;
panel.dim2 = dim2;
panel.canvasX = dim1.canvasX;
panel.panelSizeX = dim2.canvasX - dim1.canvasX;
panel.panelSizeY = vm.model.canvasHeight;
panel.y = 0;
panel.canvasY = 0;
}
}
yAxis.enter()
.append('g')
.classed(c.cn.yAxis, true);
parcoordsControlView.each(function(vm) {
updatePanelLayout(yAxis, vm);
});
parcoordsLineLayer
.each(function(d) {
if(d.viewModel) {
if(d.lineLayer) d.lineLayer.update(d);
else d.lineLayer = lineLayerMaker(this, d);
d.viewModel[d.key] = d.lineLayer;
d.lineLayer.render(d.viewModel.panels, !d.context);
}
});
yAxis.attr('transform', function(d) {
return 'translate(' + d.xScale(d.xIndex) + ', 0)';
});
// drag column for reordering columns
yAxis.call(d3.behavior.drag()
.origin(function(d) { return d; })
.on('drag', function(d) {
var p = d.parent;
state.linePickActive(false);
d.x = Math.max(-c.overdrag, Math.min(d.model.width + c.overdrag, d3.event.x));
d.canvasX = d.x * d.model.canvasPixelRatio;
yAxis
.sort(function(a, b) { return a.x - b.x; })
.each(function(dd, i) {
dd.xIndex = i;
dd.x = d === dd ? dd.x : dd.xScale(dd.xIndex);
dd.canvasX = dd.x * dd.model.canvasPixelRatio;
});
updatePanelLayout(yAxis, p);
yAxis.filter(function(dd) { return Math.abs(d.xIndex - dd.xIndex) !== 0; })
.attr('transform', function(d) { return 'translate(' + d.xScale(d.xIndex) + ', 0)'; });
d3.select(this).attr('transform', 'translate(' + d.x + ', 0)');
yAxis.each(function(dd, i, ii) { if(ii === d.parent.key) p.dimensions[i] = dd; });
p.contextLayer && p.contextLayer.render(p.panels, false, !someFiltersActive(p));
p.focusLayer.render && p.focusLayer.render(p.panels);
})
.on('dragend', function(d) {
var p = d.parent;
d.x = d.xScale(d.xIndex);
d.canvasX = d.x * d.model.canvasPixelRatio;
updatePanelLayout(yAxis, p);
d3.select(this)
.attr('transform', function(d) { return 'translate(' + d.x + ', 0)'; });
p.contextLayer && p.contextLayer.render(p.panels, false, !someFiltersActive(p));
p.focusLayer && p.focusLayer.render(p.panels);
p.pickLayer && p.pickLayer.render(p.panels, true);
state.linePickActive(true);
if(callbacks && callbacks.axesMoved) {
callbacks.axesMoved(p.key, p.dimensions.map(function(dd) {return dd.crossfilterDimensionIndex;}));
}
})
);
yAxis.exit()
.remove();
var axisOverlays = yAxis.selectAll('.' + c.cn.axisOverlays)
.data(repeat, keyFun);
axisOverlays.enter()
.append('g')
.classed(c.cn.axisOverlays, true);
axisOverlays.selectAll('.' + c.cn.axis).remove();
var axis = axisOverlays.selectAll('.' + c.cn.axis)
.data(repeat, keyFun);
axis.enter()
.append('g')
.classed(c.cn.axis, true);
axis
.each(function(d) {
var wantedTickCount = d.model.height / d.model.tickDistance;
var scale = d.domainScale;
var sdom = scale.domain();
d3.select(this)
.call(d3.svg.axis()
.orient('left')
.tickSize(4)
.outerTickSize(2)
.ticks(wantedTickCount, d.tickFormat) // works for continuous scales only...
.tickValues(d.ordinal ? // and this works for ordinal scales
sdom :
null)
.tickFormat(d.ordinal ? function(d) { return d; } : null)
.scale(scale));
Drawing.font(axis.selectAll('text'), d.model.tickFont);
});
axis.selectAll('.domain, .tick>line')
.attr('fill', 'none')
.attr('stroke', 'black')
.attr('stroke-opacity', 0.25)
.attr('stroke-width', '1px');
axis.selectAll('text')
.style('text-shadow', '1px 1px 1px #fff, -1px -1px 1px #fff, 1px -1px 1px #fff, -1px 1px 1px #fff')
.style('cursor', 'default')
.style('user-select', 'none');
var axisHeading = axisOverlays.selectAll('.' + c.cn.axisHeading)
.data(repeat, keyFun);
axisHeading.enter()
.append('g')
.classed(c.cn.axisHeading, true);
var axisTitle = axisHeading.selectAll('.' + c.cn.axisTitle)
.data(repeat, keyFun);
axisTitle.enter()
.append('text')
.classed(c.cn.axisTitle, true)
.attr('text-anchor', 'middle')
.style('cursor', 'ew-resize')
.style('user-select', 'none')
.style('pointer-events', 'auto');
axisTitle
.attr('transform', 'translate(0,' + -c.axisTitleOffset + ')')
.text(function(d) { return d.label; })
.each(function(d) { Drawing.font(d3.select(this), d.model.labelFont); });
var axisExtent = axisOverlays.selectAll('.' + c.cn.axisExtent)
.data(repeat, keyFun);
axisExtent.enter()
.append('g')
.classed(c.cn.axisExtent, true);
var axisExtentTop = axisExtent.selectAll('.' + c.cn.axisExtentTop)
.data(repeat, keyFun);
axisExtentTop.enter()
.append('g')
.classed(c.cn.axisExtentTop, true);
axisExtentTop
.attr('transform', 'translate(' + 0 + ',' + -c.axisExtentOffset + ')');
var axisExtentTopText = axisExtentTop.selectAll('.' + c.cn.axisExtentTopText)
.data(repeat, keyFun);
function extremeText(d, isTop) {
if(d.ordinal) return '';
var domain = d.domainScale.domain();
return d3.format(d.tickFormat)(domain[isTop ? domain.length - 1 : 0]);
}
axisExtentTopText.enter()
.append('text')
.classed(c.cn.axisExtentTopText, true)
.call(styleExtentTexts);
axisExtentTopText
.text(function(d) { return extremeText(d, true); })
.each(function(d) { Drawing.font(d3.select(this), d.model.rangeFont); });
var axisExtentBottom = axisExtent.selectAll('.' + c.cn.axisExtentBottom)
.data(repeat, keyFun);
axisExtentBottom.enter()
.append('g')
.classed(c.cn.axisExtentBottom, true);
axisExtentBottom
.attr('transform', function(d) {
return 'translate(' + 0 + ',' + (d.model.height + c.axisExtentOffset) + ')';
});
var axisExtentBottomText = axisExtentBottom.selectAll('.' + c.cn.axisExtentBottomText)
.data(repeat, keyFun);
axisExtentBottomText.enter()
.append('text')
.classed(c.cn.axisExtentBottomText, true)
.attr('dy', '0.75em')
.call(styleExtentTexts);
axisExtentBottomText
.text(function(d) { return extremeText(d); })
.each(function(d) { Drawing.font(d3.select(this), d.model.rangeFont); });
brush.ensureAxisBrush(axisOverlays);
};
},{"../../components/drawing":592,"../../lib":693,"../../lib/gup":690,"./axisbrush":997,"./constants":1000,"./lines":1003,"d3":147}],1006:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var parcoords = _dereq_('./parcoords');
var prepareRegl = _dereq_('../../lib/prepare_regl');
module.exports = function plot(gd, cdparcoords) {
var fullLayout = gd._fullLayout;
var svg = fullLayout._toppaper;
var root = fullLayout._paperdiv;
var container = fullLayout._glcontainer;
var success = prepareRegl(gd);
if(!success) return;
var gdDimensions = {};
var gdDimensionsOriginalOrder = {};
var size = fullLayout._size;
cdparcoords.forEach(function(d, i) {
gdDimensions[i] = gd.data[i].dimensions;
gdDimensionsOriginalOrder[i] = gd.data[i].dimensions.slice();
});
var filterChanged = function(i, originalDimensionIndex, newRanges) {
// Have updated `constraintrange` data on `gd.data` and raise `Plotly.restyle` event
// without having to incur heavy UI blocking due to an actual `Plotly.restyle` call
var gdDimension = gdDimensionsOriginalOrder[i][originalDimensionIndex];
var newConstraints = newRanges.map(function(r) { return r.slice(); });
if(!newConstraints.length) {
delete gdDimension.constraintrange;
newConstraints = null;
}
else {
if(newConstraints.length === 1) newConstraints = newConstraints[0];
gdDimension.constraintrange = newConstraints;
// wrap in another array for restyle event data
newConstraints = [newConstraints];
}
var restyleData = {};
var aStr = 'dimensions[' + originalDimensionIndex + '].constraintrange';
restyleData[aStr] = newConstraints;
gd.emit('plotly_restyle', [restyleData, [i]]);
};
var hover = function(eventData) {
gd.emit('plotly_hover', eventData);
};
var unhover = function(eventData) {
gd.emit('plotly_unhover', eventData);
};
var axesMoved = function(i, visibleIndices) {
// Have updated order data on `gd.data` and raise `Plotly.restyle` event
// without having to incur heavy UI blocking due to an actual `Plotly.restyle` call
function visible(dimension) {return !('visible' in dimension) || dimension.visible;}
function newIdx(visibleIndices, orig, dim) {
var origIndex = orig.indexOf(dim);
var currentIndex = visibleIndices.indexOf(origIndex);
if(currentIndex === -1) {
// invisible dimensions initially go to the end
currentIndex += orig.length;
}
return currentIndex;
}
function sorter(orig) {
return function sorter(d1, d2) {
var i1 = newIdx(visibleIndices, orig, d1);
var i2 = newIdx(visibleIndices, orig, d2);
return i1 - i2;
};
}
// drag&drop sorting of the visible dimensions
var orig = sorter(gdDimensionsOriginalOrder[i].filter(visible));
gdDimensions[i].sort(orig);
// invisible dimensions are not interpreted in the context of drag&drop sorting as an invisible dimension
// cannot be dragged; they're interspersed into their original positions by this subsequent merging step
gdDimensionsOriginalOrder[i].filter(function(d) {return !visible(d);})
.sort(function(d) {
// subsequent splicing to be done left to right, otherwise indices may be incorrect
return gdDimensionsOriginalOrder[i].indexOf(d);
})
.forEach(function(d) {
gdDimensions[i].splice(gdDimensions[i].indexOf(d), 1); // remove from the end
gdDimensions[i].splice(gdDimensionsOriginalOrder[i].indexOf(d), 0, d); // insert at original index
});
gd.emit('plotly_restyle');
};
parcoords(
root,
svg,
container,
cdparcoords,
{
width: size.w,
height: size.h,
margin: {
t: size.t,
r: size.r,
b: size.b,
l: size.l
}
},
{
filterChanged: filterChanged,
hover: hover,
unhover: unhover,
axesMoved: axesMoved
});
};
},{"../../lib/prepare_regl":707,"./parcoords":1005}],1007:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var colorAttrs = _dereq_('../../components/color/attributes');
var fontAttrs = _dereq_('../../plots/font_attributes');
var plotAttrs = _dereq_('../../plots/attributes');
var domainAttrs = _dereq_('../../plots/domain').attributes;
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var textFontAttrs = fontAttrs({
editType: 'calc',
colorEditType: 'style',
});
module.exports = {
labels: {
valType: 'data_array',
editType: 'calc',
},
// equivalent of x0 and dx, if label is missing
label0: {
valType: 'number',
dflt: 0,
editType: 'calc',
},
dlabel: {
valType: 'number',
dflt: 1,
editType: 'calc',
},
values: {
valType: 'data_array',
editType: 'calc',
},
marker: {
colors: {
valType: 'data_array', // TODO 'color_array' ?
editType: 'calc',
},
line: {
color: {
valType: 'color',
dflt: colorAttrs.defaultLine,
arrayOk: true,
editType: 'style',
},
width: {
valType: 'number',
min: 0,
dflt: 0,
arrayOk: true,
editType: 'style',
},
editType: 'calc'
},
editType: 'calc'
},
text: {
valType: 'data_array',
editType: 'calc',
},
hovertext: {
valType: 'string',
dflt: '',
arrayOk: true,
editType: 'style',
},
// 'see eg:'
// 'https://www.e-education.psu.edu/natureofgeoinfo/sites/www.e-education.psu.edu.natureofgeoinfo/files/image/hisp_pies.gif',
// '(this example involves a map too - may someday be a whole trace type',
// 'of its own. but the point is the size of the whole pie is important.)'
scalegroup: {
valType: 'string',
dflt: '',
editType: 'calc',
},
// labels (legend is handled by plots.attributes.showlegend and layout.hiddenlabels)
textinfo: {
valType: 'flaglist',
flags: ['label', 'text', 'value', 'percent'],
extras: ['none'],
editType: 'calc',
},
hoverinfo: extendFlat({}, plotAttrs.hoverinfo, {
flags: ['label', 'text', 'value', 'percent', 'name']
}),
textposition: {
valType: 'enumerated',
values: ['inside', 'outside', 'auto', 'none'],
dflt: 'auto',
arrayOk: true,
editType: 'calc',
},
// TODO make those arrayOk?
textfont: extendFlat({}, textFontAttrs, {
}),
insidetextfont: extendFlat({}, textFontAttrs, {
}),
outsidetextfont: extendFlat({}, textFontAttrs, {
}),
// position and shape
domain: domainAttrs({name: 'pie', trace: true, editType: 'calc'}),
hole: {
valType: 'number',
min: 0,
max: 1,
dflt: 0,
editType: 'calc',
},
// ordering and direction
sort: {
valType: 'boolean',
dflt: true,
editType: 'calc',
},
direction: {
/**
* there are two common conventions, both of which place the first
* (largest, if sorted) slice with its left edge at 12 o'clock but
* succeeding slices follow either cw or ccw from there.
*
* see http://visage.co/data-visualization-101-pie-charts/
*/
valType: 'enumerated',
values: ['clockwise', 'counterclockwise'],
dflt: 'counterclockwise',
editType: 'calc',
},
rotation: {
valType: 'number',
min: -360,
max: 360,
dflt: 0,
editType: 'calc',
},
pull: {
valType: 'number',
min: 0,
max: 1,
dflt: 0,
arrayOk: true,
editType: 'calc',
}
};
},{"../../components/color/attributes":566,"../../lib/extend":682,"../../plots/attributes":739,"../../plots/domain":767,"../../plots/font_attributes":768}],1008:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
var getModuleCalcData = _dereq_('../../plots/get_data').getModuleCalcData;
exports.name = 'pie';
exports.plot = function(gd) {
var Pie = Registry.getModule('pie');
var cdPie = getModuleCalcData(gd.calcdata, Pie)[0];
if(cdPie.length) Pie.plot(gd, cdPie);
};
exports.clean = function(newFullData, newFullLayout, oldFullData, oldFullLayout) {
var hadPie = (oldFullLayout._has && oldFullLayout._has('pie'));
var hasPie = (newFullLayout._has && newFullLayout._has('pie'));
if(hadPie && !hasPie) {
oldFullLayout._pielayer.selectAll('g.trace').remove();
}
};
},{"../../plots/get_data":778,"../../registry":825}],1009:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var isArrayOrTypedArray = _dereq_('../../lib').isArrayOrTypedArray;
var tinycolor = _dereq_('tinycolor2');
var Color = _dereq_('../../components/color');
var helpers = _dereq_('./helpers');
exports.calc = function calc(gd, trace) {
var vals = trace.values;
var hasVals = isArrayOrTypedArray(vals) && vals.length;
var labels = trace.labels;
var colors = trace.marker.colors || [];
var cd = [];
var fullLayout = gd._fullLayout;
var colorMap = fullLayout._piecolormap;
var allThisTraceLabels = {};
var vTotal = 0;
var hiddenLabels = fullLayout.hiddenlabels || [];
var i, v, label, hidden, pt;
if(trace.dlabel) {
labels = new Array(vals.length);
for(i = 0; i < vals.length; i++) {
labels[i] = String(trace.label0 + i * trace.dlabel);
}
}
function pullColor(color, label) {
if(!color) return false;
color = tinycolor(color);
if(!color.isValid()) return false;
color = Color.addOpacity(color, color.getAlpha());
if(!colorMap[label]) colorMap[label] = color;
return color;
}
var seriesLen = (hasVals ? vals : labels).length;
for(i = 0; i < seriesLen; i++) {
if(hasVals) {
v = vals[i];
if(!isNumeric(v)) continue;
v = +v;
if(v < 0) continue;
}
else v = 1;
label = labels[i];
if(label === undefined || label === '') label = i;
label = String(label);
var thisLabelIndex = allThisTraceLabels[label];
if(thisLabelIndex === undefined) {
allThisTraceLabels[label] = cd.length;
hidden = hiddenLabels.indexOf(label) !== -1;
if(!hidden) vTotal += v;
cd.push({
v: v,
label: label,
color: pullColor(colors[i], label),
i: i,
pts: [i],
hidden: hidden
});
}
else {
pt = cd[thisLabelIndex];
pt.v += v;
pt.pts.push(i);
if(!pt.hidden) vTotal += v;
if(pt.color === false && colors[i]) {
pt.color = pullColor(colors[i], label);
}
}
}
if(trace.sort) cd.sort(function(a, b) { return b.v - a.v; });
// include the sum of all values in the first point
if(cd[0]) cd[0].vTotal = vTotal;
// now insert text
if(trace.textinfo && trace.textinfo !== 'none') {
var hasLabel = trace.textinfo.indexOf('label') !== -1;
var hasText = trace.textinfo.indexOf('text') !== -1;
var hasValue = trace.textinfo.indexOf('value') !== -1;
var hasPercent = trace.textinfo.indexOf('percent') !== -1;
var separators = fullLayout.separators;
var thisText;
for(i = 0; i < cd.length; i++) {
pt = cd[i];
thisText = hasLabel ? [pt.label] : [];
if(hasText) {
var texti = helpers.getFirstFilled(trace.text, pt.pts);
if(texti) thisText.push(texti);
}
if(hasValue) thisText.push(helpers.formatPieValue(pt.v, separators));
if(hasPercent) thisText.push(helpers.formatPiePercent(pt.v / vTotal, separators));
pt.text = thisText.join('<br>');
}
}
return cd;
};
/*
* `calc` filled in (and collated) explicit colors.
* Now we need to propagate these explicit colors to other traces,
* and fill in default colors.
* This is done after sorting, so we pick defaults
* in the order slices will be displayed
*/
exports.crossTraceCalc = function(gd) {
var fullLayout = gd._fullLayout;
var calcdata = gd.calcdata;
var pieColorWay = fullLayout.piecolorway;
var colorMap = fullLayout._piecolormap;
if(fullLayout.extendpiecolors) {
pieColorWay = generateExtendedColors(pieColorWay);
}
var dfltColorCount = 0;
var i, j, cd, pt;
for(i = 0; i < calcdata.length; i++) {
cd = calcdata[i];
if(cd[0].trace.type !== 'pie') continue;
for(j = 0; j < cd.length; j++) {
pt = cd[j];
if(pt.color === false) {
// have we seen this label and assigned a color to it in a previous trace?
if(colorMap[pt.label]) {
pt.color = colorMap[pt.label];
}
else {
colorMap[pt.label] = pt.color = pieColorWay[dfltColorCount % pieColorWay.length];
dfltColorCount++;
}
}
}
}
};
/**
* pick a default color from the main default set, augmented by
* itself lighter then darker before repeating
*/
var extendedColorWays = {};
function generateExtendedColors(colorList) {
var i;
var colorString = JSON.stringify(colorList);
var pieColors = extendedColorWays[colorString];
if(!pieColors) {
pieColors = colorList.slice();
for(i = 0; i < colorList.length; i++) {
pieColors.push(tinycolor(colorList[i]).lighten(20).toHexString());
}
for(i = 0; i < colorList.length; i++) {
pieColors.push(tinycolor(colorList[i]).darken(20).toHexString());
}
extendedColorWays[colorString] = pieColors;
}
return pieColors;
}
},{"../../components/color":567,"../../lib":693,"./helpers":1012,"fast-isnumeric":213,"tinycolor2":511}],1010:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var attributes = _dereq_('./attributes');
var handleDomainDefaults = _dereq_('../../plots/domain').defaults;
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
var coerceFont = Lib.coerceFont;
var len;
var vals = coerce('values');
var hasVals = Lib.isArrayOrTypedArray(vals);
var labels = coerce('labels');
if(Array.isArray(labels)) {
len = labels.length;
if(hasVals) len = Math.min(len, vals.length);
}
else if(hasVals) {
len = vals.length;
coerce('label0');
coerce('dlabel');
}
if(!len) {
traceOut.visible = false;
return;
}
traceOut._length = len;
var lineWidth = coerce('marker.line.width');
if(lineWidth) coerce('marker.line.color');
coerce('marker.colors');
coerce('scalegroup');
// TODO: hole needs to be coerced to the same value within a scaleegroup
var textData = coerce('text');
var textInfo = coerce('textinfo', Array.isArray(textData) ? 'text+percent' : 'percent');
coerce('hovertext');
if(textInfo && textInfo !== 'none') {
var textPosition = coerce('textposition'),
hasBoth = Array.isArray(textPosition) || textPosition === 'auto',
hasInside = hasBoth || textPosition === 'inside',
hasOutside = hasBoth || textPosition === 'outside';
if(hasInside || hasOutside) {
var dfltFont = coerceFont(coerce, 'textfont', layout.font);
if(hasInside) coerceFont(coerce, 'insidetextfont', dfltFont);
if(hasOutside) coerceFont(coerce, 'outsidetextfont', dfltFont);
}
}
handleDomainDefaults(traceOut, layout, coerce);
coerce('hole');
coerce('sort');
coerce('direction');
coerce('rotation');
coerce('pull');
};
},{"../../lib":693,"../../plots/domain":767,"./attributes":1007}],1011:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var appendArrayMultiPointValues = _dereq_('../../components/fx/helpers').appendArrayMultiPointValues;
// Note: like other eventData routines, this creates the data for hover/unhover/click events
// but it has a different API and goes through a totally different pathway.
// So to ensure it doesn't get misused, it's not attached to the Pie module.
module.exports = function eventData(pt, trace) {
var out = {
curveNumber: trace.index,
pointNumbers: pt.pts,
data: trace._input,
fullData: trace,
label: pt.label,
color: pt.color,
value: pt.v,
// pt.v (and pt.i below) for backward compatibility
v: pt.v
};
// Only include pointNumber if it's unambiguous
if(pt.pts.length === 1) out.pointNumber = out.i = pt.pts[0];
// Add extra data arrays to the output
// notice that this is the multi-point version ('s' on the end!)
// so added data will be arrays matching the pointNumbers array.
appendArrayMultiPointValues(out, trace, pt.pts);
return out;
};
},{"../../components/fx/helpers":606}],1012:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
exports.formatPiePercent = function formatPiePercent(v, separators) {
var vRounded = (v * 100).toPrecision(3);
if(vRounded.lastIndexOf('.') !== -1) {
vRounded = vRounded.replace(/[.]?0+$/, '');
}
return Lib.numSeparate(vRounded, separators) + '%';
};
exports.formatPieValue = function formatPieValue(v, separators) {
var vRounded = v.toPrecision(10);
if(vRounded.lastIndexOf('.') !== -1) {
vRounded = vRounded.replace(/[.]?0+$/, '');
}
return Lib.numSeparate(vRounded, separators);
};
exports.getFirstFilled = function getFirstFilled(array, indices) {
if(!Array.isArray(array)) return;
for(var i = 0; i < indices.length; i++) {
var v = array[indices[i]];
if(v || v === 0) return v;
}
};
exports.castOption = function castOption(item, indices) {
if(Array.isArray(item)) return exports.getFirstFilled(item, indices);
else if(item) return item;
};
},{"../../lib":693}],1013:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Pie = {};
Pie.attributes = _dereq_('./attributes');
Pie.supplyDefaults = _dereq_('./defaults');
Pie.supplyLayoutDefaults = _dereq_('./layout_defaults');
Pie.layoutAttributes = _dereq_('./layout_attributes');
var calcModule = _dereq_('./calc');
Pie.calc = calcModule.calc;
Pie.crossTraceCalc = calcModule.crossTraceCalc;
Pie.plot = _dereq_('./plot');
Pie.style = _dereq_('./style');
Pie.styleOne = _dereq_('./style_one');
Pie.moduleType = 'trace';
Pie.name = 'pie';
Pie.basePlotModule = _dereq_('./base_plot');
Pie.categories = ['pie', 'showLegend'];
Pie.meta = {
};
module.exports = Pie;
},{"./attributes":1007,"./base_plot":1008,"./calc":1009,"./defaults":1010,"./layout_attributes":1014,"./layout_defaults":1015,"./plot":1016,"./style":1017,"./style_one":1018}],1014:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
/**
* hiddenlabels is the pie chart analog of visible:'legendonly'
* but it can contain many labels, and can hide slices
* from several pies simultaneously
*/
hiddenlabels: {
valType: 'data_array',
editType: 'calc'
},
piecolorway: {
valType: 'colorlist',
editType: 'calc',
},
extendpiecolors: {
valType: 'boolean',
dflt: true,
editType: 'calc',
}
};
},{}],1015:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var layoutAttributes = _dereq_('./layout_attributes');
module.exports = function supplyLayoutDefaults(layoutIn, layoutOut) {
function coerce(attr, dflt) {
return Lib.coerce(layoutIn, layoutOut, layoutAttributes, attr, dflt);
}
coerce('hiddenlabels');
coerce('piecolorway', layoutOut.colorway);
coerce('extendpiecolors');
};
},{"../../lib":693,"./layout_attributes":1014}],1016:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Fx = _dereq_('../../components/fx');
var Color = _dereq_('../../components/color');
var Drawing = _dereq_('../../components/drawing');
var Lib = _dereq_('../../lib');
var svgTextUtils = _dereq_('../../lib/svg_text_utils');
var helpers = _dereq_('./helpers');
var eventData = _dereq_('./event_data');
module.exports = function plot(gd, cdpie) {
var fullLayout = gd._fullLayout;
scalePies(cdpie, fullLayout._size);
var pieGroups = Lib.makeTraceGroups(fullLayout._pielayer, cdpie, 'trace').each(function(cd) {
var pieGroup = d3.select(this);
var cd0 = cd[0];
var trace = cd0.trace;
setCoords(cd);
// TODO: miter might look better but can sometimes cause problems
// maybe miter with a small-ish stroke-miterlimit?
pieGroup.attr('stroke-linejoin', 'round');
pieGroup.each(function() {
var slices = d3.select(this).selectAll('g.slice').data(cd);
slices.enter().append('g')
.classed('slice', true);
slices.exit().remove();
var quadrants = [
[[], []], // y<0: x<0, x>=0
[[], []] // y>=0: x<0, x>=0
];
var hasOutsideText = false;
slices.each(function(pt) {
if(pt.hidden) {
d3.select(this).selectAll('path,g').remove();
return;
}
// to have consistent event data compared to other traces
pt.pointNumber = pt.i;
pt.curveNumber = trace.index;
quadrants[pt.pxmid[1] < 0 ? 0 : 1][pt.pxmid[0] < 0 ? 0 : 1].push(pt);
var cx = cd0.cx;
var cy = cd0.cy;
var sliceTop = d3.select(this);
var slicePath = sliceTop.selectAll('path.surface').data([pt]);
// hover state vars
// have we drawn a hover label, so it should be cleared later
var hasHoverLabel = false;
// have we emitted a hover event, so later an unhover event should be emitted
// note that click events do not depend on this - you can still get them
// with hovermode: false or if you were earlier dragging, then clicked
// in the same slice that you moused up in
var hasHoverEvent = false;
function handleMouseOver() {
// in case fullLayout or fullData has changed without a replot
var fullLayout2 = gd._fullLayout;
var trace2 = gd._fullData[trace.index];
if(gd._dragging || fullLayout2.hovermode === false) return;
var hoverinfo = trace2.hoverinfo;
if(Array.isArray(hoverinfo)) {
// super hacky: we need to pull out the *first* hoverinfo from
// pt.pts, then put it back into an array in a dummy trace
// and call castHoverinfo on that.
// TODO: do we want to have Fx.castHoverinfo somehow handle this?
// it already takes an array for index, for 2D, so this seems tricky.
hoverinfo = Fx.castHoverinfo({
hoverinfo: [helpers.castOption(hoverinfo, pt.pts)],
_module: trace._module
}, fullLayout2, 0);
}
if(hoverinfo === 'all') hoverinfo = 'label+text+value+percent+name';
// in case we dragged over the pie from another subplot,
// or if hover is turned off
if(hoverinfo !== 'none' && hoverinfo !== 'skip' && hoverinfo) {
var rInscribed = getInscribedRadiusFraction(pt, cd0);
var hoverCenterX = cx + pt.pxmid[0] * (1 - rInscribed);
var hoverCenterY = cy + pt.pxmid[1] * (1 - rInscribed);
var separators = fullLayout.separators;
var thisText = [];
if(hoverinfo.indexOf('label') !== -1) thisText.push(pt.label);
if(hoverinfo.indexOf('text') !== -1) {
var texti = helpers.castOption(trace2.hovertext || trace2.text, pt.pts);
if(texti) thisText.push(texti);
}
if(hoverinfo.indexOf('value') !== -1) thisText.push(helpers.formatPieValue(pt.v, separators));
if(hoverinfo.indexOf('percent') !== -1) thisText.push(helpers.formatPiePercent(pt.v / cd0.vTotal, separators));
var hoverLabel = trace.hoverlabel;
var hoverFont = hoverLabel.font;
Fx.loneHover({
x0: hoverCenterX - rInscribed * cd0.r,
x1: hoverCenterX + rInscribed * cd0.r,
y: hoverCenterY,
text: thisText.join('<br>'),
name: hoverinfo.indexOf('name') !== -1 ? trace2.name : undefined,
idealAlign: pt.pxmid[0] < 0 ? 'left' : 'right',
color: helpers.castOption(hoverLabel.bgcolor, pt.pts) || pt.color,
borderColor: helpers.castOption(hoverLabel.bordercolor, pt.pts),
fontFamily: helpers.castOption(hoverFont.family, pt.pts),
fontSize: helpers.castOption(hoverFont.size, pt.pts),
fontColor: helpers.castOption(hoverFont.color, pt.pts)
}, {
container: fullLayout2._hoverlayer.node(),
outerContainer: fullLayout2._paper.node(),
gd: gd
});
hasHoverLabel = true;
}
gd.emit('plotly_hover', {
points: [eventData(pt, trace2)],
event: d3.event
});
hasHoverEvent = true;
}
function handleMouseOut(evt) {
var fullLayout2 = gd._fullLayout;
var trace2 = gd._fullData[trace.index];
if(hasHoverEvent) {
evt.originalEvent = d3.event;
gd.emit('plotly_unhover', {
points: [eventData(pt, trace2)],
event: d3.event
});
hasHoverEvent = false;
}
if(hasHoverLabel) {
Fx.loneUnhover(fullLayout2._hoverlayer.node());
hasHoverLabel = false;
}
}
function handleClick() {
// TODO: this does not support right-click. If we want to support it, we
// would likely need to change pie to use dragElement instead of straight
// mapbox event binding. Or perhaps better, make a simple wrapper with the
// right mousedown, mousemove, and mouseup handlers just for a left/right click
// mapbox would use this too.
var fullLayout2 = gd._fullLayout;
var trace2 = gd._fullData[trace.index];
if(gd._dragging || fullLayout2.hovermode === false) return;
gd._hoverdata = [eventData(pt, trace2)];
Fx.click(gd, d3.event);
}
slicePath.enter().append('path')
.classed('surface', true)
.style({'pointer-events': 'all'});
sliceTop.select('path.textline').remove();
sliceTop
.on('mouseover', handleMouseOver)
.on('mouseout', handleMouseOut)
.on('click', handleClick);
if(trace.pull) {
var pull = +helpers.castOption(trace.pull, pt.pts) || 0;
if(pull > 0) {
cx += pull * pt.pxmid[0];
cy += pull * pt.pxmid[1];
}
}
pt.cxFinal = cx;
pt.cyFinal = cy;
function arc(start, finish, cw, scale) {
return 'a' + (scale * cd0.r) + ',' + (scale * cd0.r) + ' 0 ' +
pt.largeArc + (cw ? ' 1 ' : ' 0 ') +
(scale * (finish[0] - start[0])) + ',' + (scale * (finish[1] - start[1]));
}
var hole = trace.hole;
if(pt.v === cd0.vTotal) { // 100% fails bcs arc start and end are identical
var outerCircle = 'M' + (cx + pt.px0[0]) + ',' + (cy + pt.px0[1]) +
arc(pt.px0, pt.pxmid, true, 1) +
arc(pt.pxmid, pt.px0, true, 1) + 'Z';
if(hole) {
slicePath.attr('d',
'M' + (cx + hole * pt.px0[0]) + ',' + (cy + hole * pt.px0[1]) +
arc(pt.px0, pt.pxmid, false, hole) +
arc(pt.pxmid, pt.px0, false, hole) +
'Z' + outerCircle);
}
else slicePath.attr('d', outerCircle);
} else {
var outerArc = arc(pt.px0, pt.px1, true, 1);
if(hole) {
var rim = 1 - hole;
slicePath.attr('d',
'M' + (cx + hole * pt.px1[0]) + ',' + (cy + hole * pt.px1[1]) +
arc(pt.px1, pt.px0, false, hole) +
'l' + (rim * pt.px0[0]) + ',' + (rim * pt.px0[1]) +
outerArc +
'Z');
} else {
slicePath.attr('d',
'M' + cx + ',' + cy +
'l' + pt.px0[0] + ',' + pt.px0[1] +
outerArc +
'Z');
}
}
// add text
var textPosition = helpers.castOption(trace.textposition, pt.pts);
var sliceTextGroup = sliceTop.selectAll('g.slicetext')
.data(pt.text && (textPosition !== 'none') ? [0] : []);
sliceTextGroup.enter().append('g')
.classed('slicetext', true);
sliceTextGroup.exit().remove();
sliceTextGroup.each(function() {
var sliceText = Lib.ensureSingle(d3.select(this), 'text', '', function(s) {
// prohibit tex interpretation until we can handle
// tex and regular text together
s.attr('data-notex', 1);
});
sliceText.text(pt.text)
.attr({
'class': 'slicetext',
transform: '',
'text-anchor': 'middle'
})
.call(Drawing.font, textPosition === 'outside' ?
trace.outsidetextfont : trace.insidetextfont)
.call(svgTextUtils.convertToTspans, gd);
// position the text relative to the slice
var textBB = Drawing.bBox(sliceText.node());
var transform;
if(textPosition === 'outside') {
transform = transformOutsideText(textBB, pt);
} else {
transform = transformInsideText(textBB, pt, cd0);
if(textPosition === 'auto' && transform.scale < 1) {
sliceText.call(Drawing.font, trace.outsidetextfont);
if(trace.outsidetextfont.family !== trace.insidetextfont.family ||
trace.outsidetextfont.size !== trace.insidetextfont.size) {
textBB = Drawing.bBox(sliceText.node());
}
transform = transformOutsideText(textBB, pt);
}
}
var translateX = cx + pt.pxmid[0] * transform.rCenter + (transform.x || 0);
var translateY = cy + pt.pxmid[1] * transform.rCenter + (transform.y || 0);
// save some stuff to use later ensure no labels overlap
if(transform.outside) {
pt.yLabelMin = translateY - textBB.height / 2;
pt.yLabelMid = translateY;
pt.yLabelMax = translateY + textBB.height / 2;
pt.labelExtraX = 0;
pt.labelExtraY = 0;
hasOutsideText = true;
}
sliceText.attr('transform',
'translate(' + translateX + ',' + translateY + ')' +
(transform.scale < 1 ? ('scale(' + transform.scale + ')') : '') +
(transform.rotate ? ('rotate(' + transform.rotate + ')') : '') +
'translate(' +
(-(textBB.left + textBB.right) / 2) + ',' +
(-(textBB.top + textBB.bottom) / 2) +
')');
});
});
// now make sure no labels overlap (at least within one pie)
if(hasOutsideText) scootLabels(quadrants, trace);
slices.each(function(pt) {
if(pt.labelExtraX || pt.labelExtraY) {
// first move the text to its new location
var sliceTop = d3.select(this);
var sliceText = sliceTop.select('g.slicetext text');
sliceText.attr('transform', 'translate(' + pt.labelExtraX + ',' + pt.labelExtraY + ')' +
sliceText.attr('transform'));
// then add a line to the new location
var lineStartX = pt.cxFinal + pt.pxmid[0];
var lineStartY = pt.cyFinal + pt.pxmid[1];
var textLinePath = 'M' + lineStartX + ',' + lineStartY;
var finalX = (pt.yLabelMax - pt.yLabelMin) * (pt.pxmid[0] < 0 ? -1 : 1) / 4;
if(pt.labelExtraX) {
var yFromX = pt.labelExtraX * pt.pxmid[1] / pt.pxmid[0];
var yNet = pt.yLabelMid + pt.labelExtraY - (pt.cyFinal + pt.pxmid[1]);
if(Math.abs(yFromX) > Math.abs(yNet)) {
textLinePath +=
'l' + (yNet * pt.pxmid[0] / pt.pxmid[1]) + ',' + yNet +
'H' + (lineStartX + pt.labelExtraX + finalX);
} else {
textLinePath += 'l' + pt.labelExtraX + ',' + yFromX +
'v' + (yNet - yFromX) +
'h' + finalX;
}
} else {
textLinePath +=
'V' + (pt.yLabelMid + pt.labelExtraY) +
'h' + finalX;
}
sliceTop.append('path')
.classed('textline', true)
.call(Color.stroke, trace.outsidetextfont.color)
.attr({
'stroke-width': Math.min(2, trace.outsidetextfont.size / 8),
d: textLinePath,
fill: 'none'
});
}
});
});
});
// This is for a bug in Chrome (as of 2015-07-22, and does not affect FF)
// if insidetextfont and outsidetextfont are different sizes, sometimes the size
// of an "em" gets taken from the wrong element at first so lines are
// spaced wrong. You just have to tell it to try again later and it gets fixed.
// I have no idea why we haven't seen this in other contexts. Also, sometimes
// it gets the initial draw correct but on redraw it gets confused.
setTimeout(function() {
pieGroups.selectAll('tspan').each(function() {
var s = d3.select(this);
if(s.attr('dy')) s.attr('dy', s.attr('dy'));
});
}, 0);
};
function transformInsideText(textBB, pt, cd0) {
var textDiameter = Math.sqrt(textBB.width * textBB.width + textBB.height * textBB.height);
var textAspect = textBB.width / textBB.height;
var halfAngle = Math.PI * Math.min(pt.v / cd0.vTotal, 0.5);
var ring = 1 - cd0.trace.hole;
var rInscribed = getInscribedRadiusFraction(pt, cd0),
// max size text can be inserted inside without rotating it
// this inscribes the text rectangle in a circle, which is then inscribed
// in the slice, so it will be an underestimate, which some day we may want
// to improve so this case can get more use
transform = {
scale: rInscribed * cd0.r * 2 / textDiameter,
// and the center position and rotation in this case
rCenter: 1 - rInscribed,
rotate: 0
};
if(transform.scale >= 1) return transform;
// max size if text is rotated radially
var Qr = textAspect + 1 / (2 * Math.tan(halfAngle));
var maxHalfHeightRotRadial = cd0.r * Math.min(
1 / (Math.sqrt(Qr * Qr + 0.5) + Qr),
ring / (Math.sqrt(textAspect * textAspect + ring / 2) + textAspect)
);
var radialTransform = {
scale: maxHalfHeightRotRadial * 2 / textBB.height,
rCenter: Math.cos(maxHalfHeightRotRadial / cd0.r) -
maxHalfHeightRotRadial * textAspect / cd0.r,
rotate: (180 / Math.PI * pt.midangle + 720) % 180 - 90
};
// max size if text is rotated tangentially
var aspectInv = 1 / textAspect;
var Qt = aspectInv + 1 / (2 * Math.tan(halfAngle));
var maxHalfWidthTangential = cd0.r * Math.min(
1 / (Math.sqrt(Qt * Qt + 0.5) + Qt),
ring / (Math.sqrt(aspectInv * aspectInv + ring / 2) + aspectInv)
);
var tangentialTransform = {
scale: maxHalfWidthTangential * 2 / textBB.width,
rCenter: Math.cos(maxHalfWidthTangential / cd0.r) -
maxHalfWidthTangential / textAspect / cd0.r,
rotate: (180 / Math.PI * pt.midangle + 810) % 180 - 90
};
// if we need a rotated transform, pick the biggest one
// even if both are bigger than 1
var rotatedTransform = tangentialTransform.scale > radialTransform.scale ?
tangentialTransform : radialTransform;
if(transform.scale < 1 && rotatedTransform.scale > transform.scale) return rotatedTransform;
return transform;
}
function getInscribedRadiusFraction(pt, cd0) {
if(pt.v === cd0.vTotal && !cd0.trace.hole) return 1;// special case of 100% with no hole
var halfAngle = Math.PI * Math.min(pt.v / cd0.vTotal, 0.5);
return Math.min(1 / (1 + 1 / Math.sin(halfAngle)), (1 - cd0.trace.hole) / 2);
}
function transformOutsideText(textBB, pt) {
var x = pt.pxmid[0];
var y = pt.pxmid[1];
var dx = textBB.width / 2;
var dy = textBB.height / 2;
if(x < 0) dx *= -1;
if(y < 0) dy *= -1;
return {
scale: 1,
rCenter: 1,
rotate: 0,
x: dx + Math.abs(dy) * (dx > 0 ? 1 : -1) / 2,
y: dy / (1 + x * x / (y * y)),
outside: true
};
}
function scootLabels(quadrants, trace) {
var xHalf, yHalf, equatorFirst, farthestX, farthestY,
xDiffSign, yDiffSign, thisQuad, oppositeQuad,
wholeSide, i, thisQuadOutside, firstOppositeOutsidePt;
function topFirst(a, b) { return a.pxmid[1] - b.pxmid[1]; }
function bottomFirst(a, b) { return b.pxmid[1] - a.pxmid[1]; }
function scootOneLabel(thisPt, prevPt) {
if(!prevPt) prevPt = {};
var prevOuterY = prevPt.labelExtraY + (yHalf ? prevPt.yLabelMax : prevPt.yLabelMin);
var thisInnerY = yHalf ? thisPt.yLabelMin : thisPt.yLabelMax;
var thisOuterY = yHalf ? thisPt.yLabelMax : thisPt.yLabelMin;
var thisSliceOuterY = thisPt.cyFinal + farthestY(thisPt.px0[1], thisPt.px1[1]);
var newExtraY = prevOuterY - thisInnerY;
var xBuffer, i, otherPt, otherOuterY, otherOuterX, newExtraX;
// make sure this label doesn't overlap other labels
// this *only* has us move these labels vertically
if(newExtraY * yDiffSign > 0) thisPt.labelExtraY = newExtraY;
// make sure this label doesn't overlap any slices
if(!Array.isArray(trace.pull)) return; // this can only happen with array pulls
for(i = 0; i < wholeSide.length; i++) {
otherPt = wholeSide[i];
// overlap can only happen if the other point is pulled more than this one
if(otherPt === thisPt || (
(helpers.castOption(trace.pull, thisPt.pts) || 0) >=
(helpers.castOption(trace.pull, otherPt.pts) || 0))
) {
continue;
}
if((thisPt.pxmid[1] - otherPt.pxmid[1]) * yDiffSign > 0) {
// closer to the equator - by construction all of these happen first
// move the text vertically to get away from these slices
otherOuterY = otherPt.cyFinal + farthestY(otherPt.px0[1], otherPt.px1[1]);
newExtraY = otherOuterY - thisInnerY - thisPt.labelExtraY;
if(newExtraY * yDiffSign > 0) thisPt.labelExtraY += newExtraY;
} else if((thisOuterY + thisPt.labelExtraY - thisSliceOuterY) * yDiffSign > 0) {
// farther from the equator - happens after we've done all the
// vertical moving we're going to do
// move horizontally to get away from these more polar slices
// if we're moving horz. based on a slice that's several slices away from this one
// then we need some extra space for the lines to labels between them
xBuffer = 3 * xDiffSign * Math.abs(i - wholeSide.indexOf(thisPt));
otherOuterX = otherPt.cxFinal + farthestX(otherPt.px0[0], otherPt.px1[0]);
newExtraX = otherOuterX + xBuffer - (thisPt.cxFinal + thisPt.pxmid[0]) - thisPt.labelExtraX;
if(newExtraX * xDiffSign > 0) thisPt.labelExtraX += newExtraX;
}
}
}
for(yHalf = 0; yHalf < 2; yHalf++) {
equatorFirst = yHalf ? topFirst : bottomFirst;
farthestY = yHalf ? Math.max : Math.min;
yDiffSign = yHalf ? 1 : -1;
for(xHalf = 0; xHalf < 2; xHalf++) {
farthestX = xHalf ? Math.max : Math.min;
xDiffSign = xHalf ? 1 : -1;
// first sort the array
// note this is a copy of cd, so cd itself doesn't get sorted
// but we can still modify points in place.
thisQuad = quadrants[yHalf][xHalf];
thisQuad.sort(equatorFirst);
oppositeQuad = quadrants[1 - yHalf][xHalf];
wholeSide = oppositeQuad.concat(thisQuad);
thisQuadOutside = [];
for(i = 0; i < thisQuad.length; i++) {
if(thisQuad[i].yLabelMid !== undefined) thisQuadOutside.push(thisQuad[i]);
}
firstOppositeOutsidePt = false;
for(i = 0; yHalf && i < oppositeQuad.length; i++) {
if(oppositeQuad[i].yLabelMid !== undefined) {
firstOppositeOutsidePt = oppositeQuad[i];
break;
}
}
// each needs to avoid the previous
for(i = 0; i < thisQuadOutside.length; i++) {
var prevPt = i && thisQuadOutside[i - 1];
// bottom half needs to avoid the first label of the top half
// top half we still need to call scootOneLabel on the first slice
// so we can avoid other slices, but we don't pass a prevPt
if(firstOppositeOutsidePt && !i) prevPt = firstOppositeOutsidePt;
scootOneLabel(thisQuadOutside[i], prevPt);
}
}
}
}
function scalePies(cdpie, plotSize) {
var scaleGroups = [];
var pieBoxWidth, pieBoxHeight, i, j, cd0, trace,
maxPull, scaleGroup, minPxPerValUnit;
// first figure out the center and maximum radius for each pie
for(i = 0; i < cdpie.length; i++) {
cd0 = cdpie[i][0];
trace = cd0.trace;
pieBoxWidth = plotSize.w * (trace.domain.x[1] - trace.domain.x[0]);
pieBoxHeight = plotSize.h * (trace.domain.y[1] - trace.domain.y[0]);
maxPull = trace.pull;
if(Array.isArray(maxPull)) {
maxPull = 0;
for(j = 0; j < trace.pull.length; j++) {
if(trace.pull[j] > maxPull) maxPull = trace.pull[j];
}
}
cd0.r = Math.min(pieBoxWidth, pieBoxHeight) / (2 + 2 * maxPull);
cd0.cx = plotSize.l + plotSize.w * (trace.domain.x[1] + trace.domain.x[0]) / 2;
cd0.cy = plotSize.t + plotSize.h * (2 - trace.domain.y[1] - trace.domain.y[0]) / 2;
if(trace.scalegroup && scaleGroups.indexOf(trace.scalegroup) === -1) {
scaleGroups.push(trace.scalegroup);
}
}
// Then scale any pies that are grouped
for(j = 0; j < scaleGroups.length; j++) {
minPxPerValUnit = Infinity;
scaleGroup = scaleGroups[j];
for(i = 0; i < cdpie.length; i++) {
cd0 = cdpie[i][0];
if(cd0.trace.scalegroup === scaleGroup) {
minPxPerValUnit = Math.min(minPxPerValUnit,
cd0.r * cd0.r / cd0.vTotal);
}
}
for(i = 0; i < cdpie.length; i++) {
cd0 = cdpie[i][0];
if(cd0.trace.scalegroup === scaleGroup) {
cd0.r = Math.sqrt(minPxPerValUnit * cd0.vTotal);
}
}
}
}
function setCoords(cd) {
var cd0 = cd[0];
var trace = cd0.trace;
var currentAngle = trace.rotation * Math.PI / 180;
var angleFactor = 2 * Math.PI / cd0.vTotal;
var firstPt = 'px0';
var lastPt = 'px1';
var i, cdi, currentCoords;
if(trace.direction === 'counterclockwise') {
for(i = 0; i < cd.length; i++) {
if(!cd[i].hidden) break; // find the first non-hidden slice
}
if(i === cd.length) return; // all slices hidden
currentAngle += angleFactor * cd[i].v;
angleFactor *= -1;
firstPt = 'px1';
lastPt = 'px0';
}
function getCoords(angle) {
return [cd0.r * Math.sin(angle), -cd0.r * Math.cos(angle)];
}
currentCoords = getCoords(currentAngle);
for(i = 0; i < cd.length; i++) {
cdi = cd[i];
if(cdi.hidden) continue;
cdi[firstPt] = currentCoords;
currentAngle += angleFactor * cdi.v / 2;
cdi.pxmid = getCoords(currentAngle);
cdi.midangle = currentAngle;
currentAngle += angleFactor * cdi.v / 2;
currentCoords = getCoords(currentAngle);
cdi[lastPt] = currentCoords;
cdi.largeArc = (cdi.v > cd0.vTotal / 2) ? 1 : 0;
}
}
},{"../../components/color":567,"../../components/drawing":592,"../../components/fx":609,"../../lib":693,"../../lib/svg_text_utils":718,"./event_data":1011,"./helpers":1012,"d3":147}],1017:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var styleOne = _dereq_('./style_one');
module.exports = function style(gd) {
gd._fullLayout._pielayer.selectAll('.trace').each(function(cd) {
var cd0 = cd[0];
var trace = cd0.trace;
var traceSelection = d3.select(this);
traceSelection.style({opacity: trace.opacity});
traceSelection.selectAll('path.surface').each(function(pt) {
d3.select(this).call(styleOne, pt, trace);
});
});
};
},{"./style_one":1018,"d3":147}],1018:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Color = _dereq_('../../components/color');
var castOption = _dereq_('./helpers').castOption;
module.exports = function styleOne(s, pt, trace) {
var line = trace.marker.line;
var lineColor = castOption(line.color, pt.pts) || Color.defaultLine;
var lineWidth = castOption(line.width, pt.pts) || 0;
s.style({'stroke-width': lineWidth})
.call(Color.fill, pt.color)
.call(Color.stroke, lineColor);
};
},{"../../components/color":567,"./helpers":1012}],1019:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var scatterglAttrs = _dereq_('../scatter/attributes');
module.exports = {
x: scatterglAttrs.x,
y: scatterglAttrs.y,
xy: {
valType: 'data_array',
editType: 'calc',
},
indices: {
valType: 'data_array',
editType: 'calc',
},
xbounds: {
valType: 'data_array',
editType: 'calc',
},
ybounds: {
valType: 'data_array',
editType: 'calc',
},
text: scatterglAttrs.text,
marker: {
color: {
valType: 'color',
arrayOk: false,
editType: 'calc',
},
opacity: {
valType: 'number',
min: 0,
max: 1,
dflt: 1,
arrayOk: false,
editType: 'calc',
},
blend: {
valType: 'boolean',
dflt: null,
editType: 'calc',
},
sizemin: {
valType: 'number',
min: 0.1,
max: 2,
dflt: 0.5,
editType: 'calc',
},
sizemax: {
valType: 'number',
min: 0.1,
dflt: 20,
editType: 'calc',
},
border: {
color: {
valType: 'color',
arrayOk: false,
editType: 'calc',
},
arearatio: {
valType: 'number',
min: 0,
max: 1,
dflt: 0,
editType: 'calc',
},
editType: 'calc'
},
editType: 'calc'
}
};
},{"../scatter/attributes":1032}],1020:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var createPointCloudRenderer = _dereq_('gl-pointcloud2d');
var str2RGBArray = _dereq_('../../lib/str2rgbarray');
var findExtremes = _dereq_('../../plots/cartesian/autorange').findExtremes;
var getTraceColor = _dereq_('../scatter/get_trace_color');
function Pointcloud(scene, uid) {
this.scene = scene;
this.uid = uid;
this.type = 'pointcloud';
this.pickXData = [];
this.pickYData = [];
this.xData = [];
this.yData = [];
this.textLabels = [];
this.color = 'rgb(0, 0, 0)';
this.name = '';
this.hoverinfo = 'all';
this.idToIndex = new Int32Array(0);
this.bounds = [0, 0, 0, 0];
this.pointcloudOptions = {
positions: new Float32Array(0),
idToIndex: this.idToIndex,
sizemin: 0.5,
sizemax: 12,
color: [0, 0, 0, 1],
areaRatio: 1,
borderColor: [0, 0, 0, 1]
};
this.pointcloud = createPointCloudRenderer(scene.glplot, this.pointcloudOptions);
this.pointcloud._trace = this; // scene2d requires this prop
}
var proto = Pointcloud.prototype;
proto.handlePick = function(pickResult) {
var index = this.idToIndex[pickResult.pointId];
// prefer the readout from XY, if present
return {
trace: this,
dataCoord: pickResult.dataCoord,
traceCoord: this.pickXYData ?
[this.pickXYData[index * 2], this.pickXYData[index * 2 + 1]] :
[this.pickXData[index], this.pickYData[index]],
textLabel: Array.isArray(this.textLabels) ?
this.textLabels[index] :
this.textLabels,
color: this.color,
name: this.name,
pointIndex: index,
hoverinfo: this.hoverinfo
};
};
proto.update = function(options) {
this.index = options.index;
this.textLabels = options.text;
this.name = options.name;
this.hoverinfo = options.hoverinfo;
this.bounds = [Infinity, Infinity, -Infinity, -Infinity];
this.updateFast(options);
this.color = getTraceColor(options, {});
};
proto.updateFast = function(options) {
var x = this.xData = this.pickXData = options.x;
var y = this.yData = this.pickYData = options.y;
var xy = this.pickXYData = options.xy;
var userBounds = options.xbounds && options.ybounds;
var index = options.indices;
var len,
idToIndex,
positions,
bounds = this.bounds;
var xx, yy, i;
if(xy) {
positions = xy;
// dividing xy.length by 2 and truncating to integer if xy.length was not even
len = xy.length >>> 1;
if(userBounds) {
bounds[0] = options.xbounds[0];
bounds[2] = options.xbounds[1];
bounds[1] = options.ybounds[0];
bounds[3] = options.ybounds[1];
} else {
for(i = 0; i < len; i++) {
xx = positions[i * 2];
yy = positions[i * 2 + 1];
if(xx < bounds[0]) bounds[0] = xx;
if(xx > bounds[2]) bounds[2] = xx;
if(yy < bounds[1]) bounds[1] = yy;
if(yy > bounds[3]) bounds[3] = yy;
}
}
if(index) {
idToIndex = index;
} else {
idToIndex = new Int32Array(len);
for(i = 0; i < len; i++) {
idToIndex[i] = i;
}
}
} else {
len = x.length;
positions = new Float32Array(2 * len);
idToIndex = new Int32Array(len);
for(i = 0; i < len; i++) {
xx = x[i];
yy = y[i];
idToIndex[i] = i;
positions[i * 2] = xx;
positions[i * 2 + 1] = yy;
if(xx < bounds[0]) bounds[0] = xx;
if(xx > bounds[2]) bounds[2] = xx;
if(yy < bounds[1]) bounds[1] = yy;
if(yy > bounds[3]) bounds[3] = yy;
}
}
this.idToIndex = idToIndex;
this.pointcloudOptions.idToIndex = idToIndex;
this.pointcloudOptions.positions = positions;
var markerColor = str2RGBArray(options.marker.color),
borderColor = str2RGBArray(options.marker.border.color),
opacity = options.opacity * options.marker.opacity;
markerColor[3] *= opacity;
this.pointcloudOptions.color = markerColor;
// detect blending from the number of points, if undefined
// because large data with blending hits performance
var blend = options.marker.blend;
if(blend === null) {
var maxPoints = 100;
blend = x.length < maxPoints || y.length < maxPoints;
}
this.pointcloudOptions.blend = blend;
borderColor[3] *= opacity;
this.pointcloudOptions.borderColor = borderColor;
var markerSizeMin = options.marker.sizemin;
var markerSizeMax = Math.max(options.marker.sizemax, options.marker.sizemin);
this.pointcloudOptions.sizeMin = markerSizeMin;
this.pointcloudOptions.sizeMax = markerSizeMax;
this.pointcloudOptions.areaRatio = options.marker.border.arearatio;
this.pointcloud.update(this.pointcloudOptions);
// add item for autorange routine
var xa = this.scene.xaxis;
var ya = this.scene.yaxis;
var pad = markerSizeMax / 2 || 0.5;
options._extremes[xa._id] = findExtremes(xa, [bounds[0], bounds[2]], {ppad: pad});
options._extremes[ya._id] = findExtremes(ya, [bounds[1], bounds[3]], {ppad: pad});
};
proto.dispose = function() {
this.pointcloud.dispose();
};
function createPointcloud(scene, data) {
var plot = new Pointcloud(scene, data.uid);
plot.update(data);
return plot;
}
module.exports = createPointcloud;
},{"../../lib/str2rgbarray":717,"../../plots/cartesian/autorange":741,"../scatter/get_trace_color":1042,"gl-pointcloud2d":278}],1021:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var attributes = _dereq_('./attributes');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
coerce('x');
coerce('y');
coerce('xbounds');
coerce('ybounds');
if(traceIn.xy && traceIn.xy instanceof Float32Array) {
traceOut.xy = traceIn.xy;
}
if(traceIn.indices && traceIn.indices instanceof Int32Array) {
traceOut.indices = traceIn.indices;
}
coerce('text');
coerce('marker.color', defaultColor);
coerce('marker.opacity');
coerce('marker.blend');
coerce('marker.sizemin');
coerce('marker.sizemax');
coerce('marker.border.color', defaultColor);
coerce('marker.border.arearatio');
// disable 1D transforms - that would defeat the purpose of this trace type, performance!
traceOut._length = null;
};
},{"../../lib":693,"./attributes":1019}],1022:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var pointcloud = {};
pointcloud.attributes = _dereq_('./attributes');
pointcloud.supplyDefaults = _dereq_('./defaults');
// reuse the Scatter3D 'dummy' calc step so that legends know what to do
pointcloud.calc = _dereq_('../scatter3d/calc');
pointcloud.plot = _dereq_('./convert');
pointcloud.moduleType = 'trace';
pointcloud.name = 'pointcloud';
pointcloud.basePlotModule = _dereq_('../../plots/gl2d');
pointcloud.categories = ['gl', 'gl2d', 'showLegend'];
pointcloud.meta = {
};
module.exports = pointcloud;
},{"../../plots/gl2d":781,"../scatter3d/calc":1060,"./attributes":1019,"./convert":1020,"./defaults":1021}],1023:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var fontAttrs = _dereq_('../../plots/font_attributes');
var plotAttrs = _dereq_('../../plots/attributes');
var colorAttrs = _dereq_('../../components/color/attributes');
var fxAttrs = _dereq_('../../components/fx/attributes');
var domainAttrs = _dereq_('../../plots/domain').attributes;
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll;
module.exports = overrideAll({
hoverinfo: extendFlat({}, plotAttrs.hoverinfo, {
flags: ['label', 'text', 'value', 'percent', 'name'],
}),
hoverlabel: fxAttrs.hoverlabel, // needs editType override
domain: domainAttrs({name: 'sankey', trace: true}),
orientation: {
valType: 'enumerated',
values: ['v', 'h'],
dflt: 'h',
},
valueformat: {
valType: 'string',
dflt: '.3s',
},
valuesuffix: {
valType: 'string',
dflt: '',
},
arrangement: {
valType: 'enumerated',
values: ['snap', 'perpendicular', 'freeform', 'fixed'],
dflt: 'snap',
},
textfont: fontAttrs({
}),
node: {
label: {
valType: 'data_array',
dflt: [],
},
color: {
valType: 'color',
arrayOk: true,
},
line: {
color: {
valType: 'color',
dflt: colorAttrs.defaultLine,
arrayOk: true,
},
width: {
valType: 'number',
min: 0,
dflt: 0.5,
arrayOk: true,
}
},
pad: {
valType: 'number',
arrayOk: false,
min: 0,
dflt: 20,
},
thickness: {
valType: 'number',
arrayOk: false,
min: 1,
dflt: 20,
},
},
link: {
label: {
valType: 'data_array',
dflt: [],
},
color: {
valType: 'color',
arrayOk: true,
},
line: {
color: {
valType: 'color',
dflt: colorAttrs.defaultLine,
arrayOk: true,
},
width: {
valType: 'number',
min: 0,
dflt: 0,
arrayOk: true,
}
},
source: {
valType: 'data_array',
dflt: [],
},
target: {
valType: 'data_array',
dflt: [],
},
value: {
valType: 'data_array',
dflt: [],
},
}
}, 'calc', 'nested');
},{"../../components/color/attributes":566,"../../components/fx/attributes":601,"../../lib/extend":682,"../../plot_api/edit_types":725,"../../plots/attributes":739,"../../plots/domain":767,"../../plots/font_attributes":768}],1024:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll;
var getModuleCalcData = _dereq_('../../plots/get_data').getModuleCalcData;
var plot = _dereq_('./plot');
var fxAttrs = _dereq_('../../components/fx/layout_attributes');
var SANKEY = 'sankey';
exports.name = SANKEY;
exports.baseLayoutAttrOverrides = overrideAll({
hoverlabel: fxAttrs.hoverlabel
}, 'plot', 'nested');
exports.plot = function(gd) {
var calcData = getModuleCalcData(gd.calcdata, SANKEY)[0];
plot(gd, calcData);
};
exports.clean = function(newFullData, newFullLayout, oldFullData, oldFullLayout) {
var hadPlot = (oldFullLayout._has && oldFullLayout._has(SANKEY));
var hasPlot = (newFullLayout._has && newFullLayout._has(SANKEY));
if(hadPlot && !hasPlot) {
oldFullLayout._paperdiv.selectAll('.sankey').remove();
}
};
},{"../../components/fx/layout_attributes":610,"../../plot_api/edit_types":725,"../../plots/get_data":778,"./plot":1029}],1025:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var tarjan = _dereq_('strongly-connected-components');
var Lib = _dereq_('../../lib');
var wrap = _dereq_('../../lib/gup').wrap;
function circularityPresent(nodeList, sources, targets) {
var nodeLen = nodeList.length;
var nodes = Lib.init2dArray(nodeLen, 0);
for(var i = 0; i < Math.min(sources.length, targets.length); i++) {
if(Lib.isIndex(sources[i], nodeLen) && Lib.isIndex(targets[i], nodeLen)) {
if(sources[i] === targets[i]) {
return true; // self-link which is also a scc of one
}
nodes[sources[i]].push(targets[i]);
}
}
var scc = tarjan(nodes);
// Tarján's strongly connected components algorithm coded by Mikola Lysenko
// returns at least one non-singular component if there's circularity in the graph
return scc.components.some(function(c) {
return c.length > 1;
});
}
module.exports = function calc(gd, trace) {
if(circularityPresent(trace.node.label, trace.link.source, trace.link.target)) {
Lib.error('Circularity is present in the Sankey data. Removing all nodes and links.');
trace.link.label = [];
trace.link.source = [];
trace.link.target = [];
trace.link.value = [];
trace.link.color = [];
trace.node.label = [];
trace.node.color = [];
}
return wrap({
link: trace.link,
node: trace.node
});
};
},{"../../lib":693,"../../lib/gup":690,"strongly-connected-components":503}],1026:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
nodeTextOffsetHorizontal: 4,
nodeTextOffsetVertical: 3,
nodePadAcross: 10,
sankeyIterations: 50,
forceIterations: 5,
forceTicksPerFrame: 10,
duration: 500,
ease: 'cubic-in-out',
cn: {
sankey: 'sankey',
sankeyLinks: 'sankey-links',
sankeyLink: 'sankey-link',
sankeyNodeSet: 'sankey-node-set',
sankeyNode: 'sankey-node',
nodeRect: 'node-rect',
nodeCapture: 'node-capture',
nodeCentered: 'node-entered',
nodeLabelGuide: 'node-label-guide',
nodeLabel: 'node-label',
nodeLabelTextPath: 'node-label-text-path'
}
};
},{}],1027:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var attributes = _dereq_('./attributes');
var Color = _dereq_('../../components/color');
var tinycolor = _dereq_('tinycolor2');
var handleDomainDefaults = _dereq_('../../plots/domain').defaults;
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
coerce('node.label');
coerce('node.pad');
coerce('node.thickness');
coerce('node.line.color');
coerce('node.line.width');
var colors = layout.colorway;
var defaultNodePalette = function(i) {return colors[i % colors.length];};
coerce('node.color', traceOut.node.label.map(function(d, i) {
return Color.addOpacity(defaultNodePalette(i), 0.8);
}));
coerce('link.label');
coerce('link.source');
coerce('link.target');
coerce('link.value');
coerce('link.line.color');
coerce('link.line.width');
coerce('link.color', traceOut.link.value.map(function() {
return tinycolor(layout.paper_bgcolor).getLuminance() < 0.333 ?
'rgba(255, 255, 255, 0.6)' :
'rgba(0, 0, 0, 0.2)';
}));
handleDomainDefaults(traceOut, layout, coerce);
coerce('orientation');
coerce('valueformat');
coerce('valuesuffix');
coerce('arrangement');
Lib.coerceFont(coerce, 'textfont', Lib.extendFlat({}, layout.font));
// disable 1D transforms - arrays here are 1D but their lengths/meanings
// don't match, between nodes and links
traceOut._length = null;
};
},{"../../components/color":567,"../../lib":693,"../../plots/domain":767,"./attributes":1023,"tinycolor2":511}],1028:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Plot = {};
Plot.attributes = _dereq_('./attributes');
Plot.supplyDefaults = _dereq_('./defaults');
Plot.calc = _dereq_('./calc');
Plot.plot = _dereq_('./plot');
Plot.moduleType = 'trace';
Plot.name = 'sankey';
Plot.basePlotModule = _dereq_('./base_plot');
Plot.categories = ['noOpacity'];
Plot.meta = {
};
module.exports = Plot;
},{"./attributes":1023,"./base_plot":1024,"./calc":1025,"./defaults":1027,"./plot":1029}],1029:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var render = _dereq_('./render');
var Fx = _dereq_('../../components/fx');
var Color = _dereq_('../../components/color');
var Lib = _dereq_('../../lib');
var cn = _dereq_('./constants').cn;
var _ = Lib._;
function renderableValuePresent(d) {return d !== '';}
function ownTrace(selection, d) {
return selection.filter(function(s) {return s.key === d.traceId;});
}
function makeTranslucent(element, alpha) {
d3.select(element)
.select('path')
.style('fill-opacity', alpha);
d3.select(element)
.select('rect')
.style('fill-opacity', alpha);
}
function makeTextContrasty(element) {
d3.select(element)
.select('text.name')
.style('fill', 'black');
}
function relatedLinks(d) {
return function(l) {
return d.node.sourceLinks.indexOf(l.link) !== -1 || d.node.targetLinks.indexOf(l.link) !== -1;
};
}
function relatedNodes(l) {
return function(d) {
return d.node.sourceLinks.indexOf(l.link) !== -1 || d.node.targetLinks.indexOf(l.link) !== -1;
};
}
function nodeHoveredStyle(sankeyNode, d, sankey) {
if(d && sankey) {
ownTrace(sankey, d)
.selectAll('.' + cn.sankeyLink)
.filter(relatedLinks(d))
.call(linkHoveredStyle.bind(0, d, sankey, false));
}
}
function nodeNonHoveredStyle(sankeyNode, d, sankey) {
if(d && sankey) {
ownTrace(sankey, d)
.selectAll('.' + cn.sankeyLink)
.filter(relatedLinks(d))
.call(linkNonHoveredStyle.bind(0, d, sankey, false));
}
}
function linkHoveredStyle(d, sankey, visitNodes, sankeyLink) {
var label = sankeyLink.datum().link.label;
sankeyLink.style('fill-opacity', 0.4);
if(label) {
ownTrace(sankey, d)
.selectAll('.' + cn.sankeyLink)
.filter(function(l) {return l.link.label === label;})
.style('fill-opacity', 0.4);
}
if(visitNodes) {
ownTrace(sankey, d)
.selectAll('.' + cn.sankeyNode)
.filter(relatedNodes(d))
.call(nodeHoveredStyle);
}
}
function linkNonHoveredStyle(d, sankey, visitNodes, sankeyLink) {
var label = sankeyLink.datum().link.label;
sankeyLink.style('fill-opacity', function(d) {return d.tinyColorAlpha;});
if(label) {
ownTrace(sankey, d)
.selectAll('.' + cn.sankeyLink)
.filter(function(l) {return l.link.label === label;})
.style('fill-opacity', function(d) {return d.tinyColorAlpha;});
}
if(visitNodes) {
ownTrace(sankey, d)
.selectAll(cn.sankeyNode)
.filter(relatedNodes(d))
.call(nodeNonHoveredStyle);
}
}
// does not support array values for now
function castHoverOption(trace, attr) {
var labelOpts = trace.hoverlabel || {};
var val = Lib.nestedProperty(labelOpts, attr).get();
return Array.isArray(val) ? false : val;
}
module.exports = function plot(gd, calcData) {
var fullLayout = gd._fullLayout;
var svg = fullLayout._paper;
var size = fullLayout._size;
var linkSelect = function(element, d) {
var evt = d.link;
evt.originalEvent = d3.event;
gd._hoverdata = [evt];
Fx.click(gd, { target: true });
};
var linkHover = function(element, d, sankey) {
if(gd._fullLayout.hovermode === false) return;
d3.select(element).call(linkHoveredStyle.bind(0, d, sankey, true));
gd.emit('plotly_hover', {
event: d3.event,
points: [d.link]
});
};
var sourceLabel = _(gd, 'source:') + ' ';
var targetLabel = _(gd, 'target:') + ' ';
var incomingLabel = _(gd, 'incoming flow count:') + ' ';
var outgoingLabel = _(gd, 'outgoing flow count:') + ' ';
var linkHoverFollow = function(element, d) {
if(gd._fullLayout.hovermode === false) return;
var trace = d.link.trace;
var rootBBox = gd._fullLayout._paperdiv.node().getBoundingClientRect();
var boundingBox = element.getBoundingClientRect();
var hoverCenterX = boundingBox.left + boundingBox.width / 2;
var hoverCenterY = boundingBox.top + boundingBox.height / 2;
var tooltip = Fx.loneHover({
x: hoverCenterX - rootBBox.left,
y: hoverCenterY - rootBBox.top,
name: d3.format(d.valueFormat)(d.link.value) + d.valueSuffix,
text: [
d.link.label || '',
sourceLabel + d.link.source.label,
targetLabel + d.link.target.label
].filter(renderableValuePresent).join('<br>'),
color: castHoverOption(trace, 'bgcolor') || Color.addOpacity(d.tinyColorHue, 1),
borderColor: castHoverOption(trace, 'bordercolor'),
fontFamily: castHoverOption(trace, 'font.family'),
fontSize: castHoverOption(trace, 'font.size'),
fontColor: castHoverOption(trace, 'font.color'),
idealAlign: d3.event.x < hoverCenterX ? 'right' : 'left'
}, {
container: fullLayout._hoverlayer.node(),
outerContainer: fullLayout._paper.node(),
gd: gd
});
makeTranslucent(tooltip, 0.65);
makeTextContrasty(tooltip);
};
var linkUnhover = function(element, d, sankey) {
if(gd._fullLayout.hovermode === false) return;
d3.select(element).call(linkNonHoveredStyle.bind(0, d, sankey, true));
gd.emit('plotly_unhover', {
event: d3.event,
points: [d.link]
});
Fx.loneUnhover(fullLayout._hoverlayer.node());
};
var nodeSelect = function(element, d, sankey) {
var evt = d.node;
evt.originalEvent = d3.event;
gd._hoverdata = [evt];
d3.select(element).call(nodeNonHoveredStyle, d, sankey);
Fx.click(gd, { target: true });
};
var nodeHover = function(element, d, sankey) {
if(gd._fullLayout.hovermode === false) return;
d3.select(element).call(nodeHoveredStyle, d, sankey);
gd.emit('plotly_hover', {
event: d3.event,
points: [d.node]
});
};
var nodeHoverFollow = function(element, d) {
if(gd._fullLayout.hovermode === false) return;
var trace = d.node.trace;
var nodeRect = d3.select(element).select('.' + cn.nodeRect);
var rootBBox = gd._fullLayout._paperdiv.node().getBoundingClientRect();
var boundingBox = nodeRect.node().getBoundingClientRect();
var hoverCenterX0 = boundingBox.left - 2 - rootBBox.left;
var hoverCenterX1 = boundingBox.right + 2 - rootBBox.left;
var hoverCenterY = boundingBox.top + boundingBox.height / 4 - rootBBox.top;
var tooltip = Fx.loneHover({
x0: hoverCenterX0,
x1: hoverCenterX1,
y: hoverCenterY,
name: d3.format(d.valueFormat)(d.node.value) + d.valueSuffix,
text: [
d.node.label,
incomingLabel + d.node.targetLinks.length,
outgoingLabel + d.node.sourceLinks.length
].filter(renderableValuePresent).join('<br>'),
color: castHoverOption(trace, 'bgcolor') || d.tinyColorHue,
borderColor: castHoverOption(trace, 'bordercolor'),
fontFamily: castHoverOption(trace, 'font.family'),
fontSize: castHoverOption(trace, 'font.size'),
fontColor: castHoverOption(trace, 'font.color'),
idealAlign: 'left'
}, {
container: fullLayout._hoverlayer.node(),
outerContainer: fullLayout._paper.node(),
gd: gd
});
makeTranslucent(tooltip, 0.85);
makeTextContrasty(tooltip);
};
var nodeUnhover = function(element, d, sankey) {
if(gd._fullLayout.hovermode === false) return;
d3.select(element).call(nodeNonHoveredStyle, d, sankey);
gd.emit('plotly_unhover', {
event: d3.event,
points: [d.node]
});
Fx.loneUnhover(fullLayout._hoverlayer.node());
};
render(
svg,
calcData,
{
width: size.w,
height: size.h,
margin: {
t: size.t,
r: size.r,
b: size.b,
l: size.l
}
},
{
linkEvents: {
hover: linkHover,
follow: linkHoverFollow,
unhover: linkUnhover,
select: linkSelect
},
nodeEvents: {
hover: nodeHover,
follow: nodeHoverFollow,
unhover: nodeUnhover,
select: nodeSelect
}
}
);
};
},{"../../components/color":567,"../../components/fx":609,"../../lib":693,"./constants":1026,"./render":1030,"d3":147}],1030:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var c = _dereq_('./constants');
var d3 = _dereq_('d3');
var tinycolor = _dereq_('tinycolor2');
var Color = _dereq_('../../components/color');
var Drawing = _dereq_('../../components/drawing');
var d3sankey = _dereq_('@plotly/d3-sankey').sankey;
var d3Force = _dereq_('d3-force');
var Lib = _dereq_('../../lib');
var isArrayOrTypedArray = Lib.isArrayOrTypedArray;
var isIndex = Lib.isIndex;
var gup = _dereq_('../../lib/gup');
var keyFun = gup.keyFun;
var repeat = gup.repeat;
var unwrap = gup.unwrap;
// basic data utilities
function persistOriginalPlace(nodes) {
var i, distinctLayerPositions = [];
for(i = 0; i < nodes.length; i++) {
nodes[i].originalX = nodes[i].x;
nodes[i].originalY = nodes[i].y;
if(distinctLayerPositions.indexOf(nodes[i].x) === -1) {
distinctLayerPositions.push(nodes[i].x);
}
}
distinctLayerPositions.sort(function(a, b) {return a - b;});
for(i = 0; i < nodes.length; i++) {
nodes[i].originalLayerIndex = distinctLayerPositions.indexOf(nodes[i].originalX);
nodes[i].originalLayer = nodes[i].originalLayerIndex / (distinctLayerPositions.length - 1);
}
}
function saveCurrentDragPosition(d) {
d.lastDraggedX = d.x;
d.lastDraggedY = d.y;
}
function sameLayer(d) {
return function(n) {return n.node.originalX === d.node.originalX;};
}
function switchToForceFormat(nodes) {
// force uses x, y as centers
for(var i = 0; i < nodes.length; i++) {
nodes[i].y = nodes[i].y + nodes[i].dy / 2;
}
}
function switchToSankeyFormat(nodes) {
// sankey uses x, y as top left
for(var i = 0; i < nodes.length; i++) {
nodes[i].y = nodes[i].y - nodes[i].dy / 2;
}
}
// view models
function sankeyModel(layout, d, traceIndex) {
var trace = unwrap(d).trace;
var domain = trace.domain;
var nodeSpec = trace.node;
var linkSpec = trace.link;
var arrangement = trace.arrangement;
var horizontal = trace.orientation === 'h';
var nodePad = trace.node.pad;
var nodeThickness = trace.node.thickness;
var nodeLineColor = trace.node.line.color;
var nodeLineWidth = trace.node.line.width;
var linkLineColor = trace.link.line.color;
var linkLineWidth = trace.link.line.width;
var valueFormat = trace.valueformat;
var valueSuffix = trace.valuesuffix;
var textFont = trace.textfont;
var width = layout.width * (domain.x[1] - domain.x[0]);
var height = layout.height * (domain.y[1] - domain.y[0]);
var links = [];
var hasLinkColorArray = isArrayOrTypedArray(linkSpec.color);
var linkedNodes = {};
var nodeCount = nodeSpec.label.length;
var i;
for(i = 0; i < linkSpec.value.length; i++) {
var val = linkSpec.value[i];
// remove negative values, but keep zeros with special treatment
var source = linkSpec.source[i];
var target = linkSpec.target[i];
if(!(val > 0 && isIndex(source, nodeCount) && isIndex(target, nodeCount))) {
continue;
}
source = +source;
target = +target;
linkedNodes[source] = linkedNodes[target] = true;
links.push({
pointNumber: i,
label: linkSpec.label[i],
color: hasLinkColorArray ? linkSpec.color[i] : linkSpec.color,
source: source,
target: target,
value: +val
});
}
var hasNodeColorArray = isArrayOrTypedArray(nodeSpec.color);
var nodes = [];
var removedNodes = false;
var nodeIndices = {};
for(i = 0; i < nodeCount; i++) {
if(linkedNodes[i]) {
var l = nodeSpec.label[i];
nodeIndices[i] = nodes.length;
nodes.push({
pointNumber: i,
label: l,
color: hasNodeColorArray ? nodeSpec.color[i] : nodeSpec.color
});
}
else removedNodes = true;
}
// need to re-index links now, since we didn't put all the nodes in
if(removedNodes) {
for(i = 0; i < links.length; i++) {
links[i].source = nodeIndices[links[i].source];
links[i].target = nodeIndices[links[i].target];
}
}
var sankey = d3sankey()
.size(horizontal ? [width, height] : [height, width])
.nodeWidth(nodeThickness)
.nodePadding(nodePad)
.nodes(nodes)
.links(links)
.layout(c.sankeyIterations);
var node, sankeyNodes = sankey.nodes();
for(var n = 0; n < sankeyNodes.length; n++) {
node = sankeyNodes[n];
node.width = width;
node.height = height;
}
switchToForceFormat(nodes);
return {
key: traceIndex,
trace: trace,
guid: Math.floor(1e12 * (1 + Math.random())),
horizontal: horizontal,
width: width,
height: height,
nodePad: nodePad,
nodeLineColor: nodeLineColor,
nodeLineWidth: nodeLineWidth,
linkLineColor: linkLineColor,
linkLineWidth: linkLineWidth,
valueFormat: valueFormat,
valueSuffix: valueSuffix,
textFont: textFont,
translateX: domain.x[0] * layout.width + layout.margin.l,
translateY: layout.height - domain.y[1] * layout.height + layout.margin.t,
dragParallel: horizontal ? height : width,
dragPerpendicular: horizontal ? width : height,
nodes: nodes,
links: links,
arrangement: arrangement,
sankey: sankey,
forceLayouts: {},
interactionState: {
dragInProgress: false,
hovered: false
}
};
}
function linkModel(uniqueKeys, d, l) {
var tc = tinycolor(l.color);
var basicKey = l.source.label + '|' + l.target.label;
var foundKey = uniqueKeys[basicKey];
uniqueKeys[basicKey] = (foundKey || 0) + 1;
var key = basicKey + '__' + uniqueKeys[basicKey];
// for event data
l.trace = d.trace;
l.curveNumber = d.trace.index;
return {
key: key,
traceId: d.key,
link: l,
tinyColorHue: Color.tinyRGB(tc),
tinyColorAlpha: tc.getAlpha(),
linkLineColor: d.linkLineColor,
linkLineWidth: d.linkLineWidth,
valueFormat: d.valueFormat,
valueSuffix: d.valueSuffix,
sankey: d.sankey,
interactionState: d.interactionState
};
}
function nodeModel(uniqueKeys, d, n) {
var tc = tinycolor(n.color),
zoneThicknessPad = c.nodePadAcross,
zoneLengthPad = d.nodePad / 2,
visibleThickness = n.dx,
visibleLength = Math.max(0.5, n.dy);
var basicKey = n.label;
var foundKey = uniqueKeys[basicKey];
uniqueKeys[basicKey] = (foundKey || 0) + 1;
var key = basicKey + '__' + uniqueKeys[basicKey];
// for event data
n.trace = d.trace;
n.curveNumber = d.trace.index;
return {
key: key,
traceId: d.key,
node: n,
nodePad: d.nodePad,
nodeLineColor: d.nodeLineColor,
nodeLineWidth: d.nodeLineWidth,
textFont: d.textFont,
size: d.horizontal ? d.height : d.width,
visibleWidth: Math.ceil(visibleThickness),
visibleHeight: visibleLength,
zoneX: -zoneThicknessPad,
zoneY: -zoneLengthPad,
zoneWidth: visibleThickness + 2 * zoneThicknessPad,
zoneHeight: visibleLength + 2 * zoneLengthPad,
labelY: d.horizontal ? n.dy / 2 + 1 : n.dx / 2 + 1,
left: n.originalLayer === 1,
sizeAcross: d.width,
forceLayouts: d.forceLayouts,
horizontal: d.horizontal,
darkBackground: tc.getBrightness() <= 128,
tinyColorHue: Color.tinyRGB(tc),
tinyColorAlpha: tc.getAlpha(),
valueFormat: d.valueFormat,
valueSuffix: d.valueSuffix,
sankey: d.sankey,
arrangement: d.arrangement,
uniqueNodeLabelPathId: [d.guid, d.key, key].join(' '),
interactionState: d.interactionState
};
}
// rendering snippets
function updateNodePositions(sankeyNode) {
sankeyNode
.attr('transform', function(d) {
return 'translate(' + d.node.x.toFixed(3) + ', ' + (d.node.y - d.node.dy / 2).toFixed(3) + ')';
});
}
function linkPath(d) {
var nodes = d.sankey.nodes();
switchToSankeyFormat(nodes);
var result = d.sankey.link()(d.link);
switchToForceFormat(nodes);
return result;
}
function updateNodeShapes(sankeyNode) {
sankeyNode.call(updateNodePositions);
}
function updateShapes(sankeyNode, sankeyLink) {
sankeyNode.call(updateNodeShapes);
sankeyLink.attr('d', linkPath);
}
function sizeNode(rect) {
rect.attr('width', function(d) {return d.visibleWidth;})
.attr('height', function(d) {return d.visibleHeight;});
}
function salientEnough(d) {return d.link.dy > 1 || d.linkLineWidth > 0;}
function sankeyTransform(d) {
var offset = 'translate(' + d.translateX + ',' + d.translateY + ')';
return offset + (d.horizontal ? 'matrix(1 0 0 1 0 0)' : 'matrix(0 1 1 0 0 0)');
}
function nodeCentering(d) {
return 'translate(' + (d.horizontal ? 0 : d.labelY) + ' ' + (d.horizontal ? d.labelY : 0) + ')';
}
function textGuidePath(d) {
return d3.svg.line()([
[d.horizontal ? (d.left ? -d.sizeAcross : d.visibleWidth + c.nodeTextOffsetHorizontal) : c.nodeTextOffsetHorizontal, 0],
[d.horizontal ? (d.left ? - c.nodeTextOffsetHorizontal : d.sizeAcross) : d.visibleHeight - c.nodeTextOffsetHorizontal, 0]
]);}
function sankeyInverseTransform(d) {return d.horizontal ? 'matrix(1 0 0 1 0 0)' : 'matrix(0 1 1 0 0 0)';}
function textFlip(d) {return d.horizontal ? 'scale(1 1)' : 'scale(-1 1)';}
function nodeTextColor(d) {return d.darkBackground && !d.horizontal ? 'rgb(255,255,255)' : 'rgb(0,0,0)';}
function nodeTextOffset(d) {return d.horizontal && d.left ? '100%' : '0%';}
// event handling
function attachPointerEvents(selection, sankey, eventSet) {
selection
.on('.basic', null) // remove any preexisting handlers
.on('mouseover.basic', function(d) {
if(!d.interactionState.dragInProgress) {
eventSet.hover(this, d, sankey);
d.interactionState.hovered = [this, d];
}
})
.on('mousemove.basic', function(d) {
if(!d.interactionState.dragInProgress) {
eventSet.follow(this, d);
d.interactionState.hovered = [this, d];
}
})
.on('mouseout.basic', function(d) {
if(!d.interactionState.dragInProgress) {
eventSet.unhover(this, d, sankey);
d.interactionState.hovered = false;
}
})
.on('click.basic', function(d) {
if(d.interactionState.hovered) {
eventSet.unhover(this, d, sankey);
d.interactionState.hovered = false;
}
if(!d.interactionState.dragInProgress) {
eventSet.select(this, d, sankey);
}
});
}
function attachDragHandler(sankeyNode, sankeyLink, callbacks) {
var dragBehavior = d3.behavior.drag()
.origin(function(d) {return d.node;})
.on('dragstart', function(d) {
if(d.arrangement === 'fixed') return;
Lib.raiseToTop(this);
d.interactionState.dragInProgress = d.node;
saveCurrentDragPosition(d.node);
if(d.interactionState.hovered) {
callbacks.nodeEvents.unhover.apply(0, d.interactionState.hovered);
d.interactionState.hovered = false;
}
if(d.arrangement === 'snap') {
var forceKey = d.traceId + '|' + Math.floor(d.node.originalX);
if(d.forceLayouts[forceKey]) {
d.forceLayouts[forceKey].alpha(1);
} else { // make a forceLayout iff needed
attachForce(sankeyNode, forceKey, d);
}
startForce(sankeyNode, sankeyLink, d, forceKey);
}
})
.on('drag', function(d) {
if(d.arrangement === 'fixed') return;
var x = d3.event.x;
var y = d3.event.y;
if(d.arrangement === 'snap') {
d.node.x = x;
d.node.y = y;
} else {
if(d.arrangement === 'freeform') {
d.node.x = x;
}
d.node.y = Math.max(d.node.dy / 2, Math.min(d.size - d.node.dy / 2, y));
}
saveCurrentDragPosition(d.node);
if(d.arrangement !== 'snap') {
d.sankey.relayout();
updateShapes(sankeyNode.filter(sameLayer(d)), sankeyLink);
}
})
.on('dragend', function(d) {
d.interactionState.dragInProgress = false;
});
sankeyNode
.on('.drag', null) // remove possible previous handlers
.call(dragBehavior);
}
function attachForce(sankeyNode, forceKey, d) {
var nodes = d.sankey.nodes().filter(function(n) {return n.originalX === d.node.originalX;});
d.forceLayouts[forceKey] = d3Force.forceSimulation(nodes)
.alphaDecay(0)
.force('collide', d3Force.forceCollide()
.radius(function(n) {return n.dy / 2 + d.nodePad / 2;})
.strength(1)
.iterations(c.forceIterations))
.force('constrain', snappingForce(sankeyNode, forceKey, nodes, d))
.stop();
}
function startForce(sankeyNode, sankeyLink, d, forceKey) {
window.requestAnimationFrame(function faster() {
for(var i = 0; i < c.forceTicksPerFrame; i++) {
d.forceLayouts[forceKey].tick();
}
d.sankey.relayout();
updateShapes(sankeyNode.filter(sameLayer(d)), sankeyLink);
if(d.forceLayouts[forceKey].alpha() > 0) {
window.requestAnimationFrame(faster);
}
});
}
function snappingForce(sankeyNode, forceKey, nodes, d) {
return function _snappingForce() {
var maxVelocity = 0;
for(var i = 0; i < nodes.length; i++) {
var n = nodes[i];
if(n === d.interactionState.dragInProgress) { // constrain node position to the dragging pointer
n.x = n.lastDraggedX;
n.y = n.lastDraggedY;
} else {
n.vx = (n.originalX - n.x) / c.forceTicksPerFrame; // snap to layer
n.y = Math.min(d.size - n.dy / 2, Math.max(n.dy / 2, n.y)); // constrain to extent
}
maxVelocity = Math.max(maxVelocity, Math.abs(n.vx), Math.abs(n.vy));
}
if(!d.interactionState.dragInProgress && maxVelocity < 0.1 && d.forceLayouts[forceKey].alpha() > 0) {
d.forceLayouts[forceKey].alpha(0);
}
};
}
// scene graph
module.exports = function(svg, styledData, layout, callbacks) {
var sankey = svg.selectAll('.' + c.cn.sankey)
.data(styledData
.filter(function(d) {return unwrap(d).trace.visible;})
.map(sankeyModel.bind(null, layout)),
keyFun);
sankey.exit()
.remove();
sankey.enter()
.append('g')
.classed(c.cn.sankey, true)
.style('box-sizing', 'content-box')
.style('position', 'absolute')
.style('left', 0)
.style('shape-rendering', 'geometricPrecision')
.style('pointer-events', 'auto')
.attr('transform', sankeyTransform);
sankey.transition()
.ease(c.ease).duration(c.duration)
.attr('transform', sankeyTransform);
var sankeyLinks = sankey.selectAll('.' + c.cn.sankeyLinks)
.data(repeat, keyFun);
sankeyLinks.enter()
.append('g')
.classed(c.cn.sankeyLinks, true)
.style('fill', 'none');
var sankeyLink = sankeyLinks.selectAll('.' + c.cn.sankeyLink)
.data(function(d) {
var uniqueKeys = {};
return d.sankey.links()
.filter(function(l) {return l.value;})
.map(linkModel.bind(null, uniqueKeys, d));
}, keyFun);
sankeyLink.enter()
.append('path')
.classed(c.cn.sankeyLink, true)
.attr('d', linkPath)
.call(attachPointerEvents, sankey, callbacks.linkEvents);
sankeyLink
.style('stroke', function(d) {
return salientEnough(d) ? Color.tinyRGB(tinycolor(d.linkLineColor)) : d.tinyColorHue;
})
.style('stroke-opacity', function(d) {
return salientEnough(d) ? Color.opacity(d.linkLineColor) : d.tinyColorAlpha;
})
.style('stroke-width', function(d) {return salientEnough(d) ? d.linkLineWidth : 1;})
.style('fill', function(d) {return d.tinyColorHue;})
.style('fill-opacity', function(d) {return d.tinyColorAlpha;});
sankeyLink.transition()
.ease(c.ease).duration(c.duration)
.attr('d', linkPath);
sankeyLink.exit().transition()
.ease(c.ease).duration(c.duration)
.style('opacity', 0)
.remove();
var sankeyNodeSet = sankey.selectAll('.' + c.cn.sankeyNodeSet)
.data(repeat, keyFun);
sankeyNodeSet.enter()
.append('g')
.classed(c.cn.sankeyNodeSet, true);
sankeyNodeSet
.style('cursor', function(d) {
switch(d.arrangement) {
case 'fixed': return 'default';
case 'perpendicular': return 'ns-resize';
default: return 'move';
}
});
var sankeyNode = sankeyNodeSet.selectAll('.' + c.cn.sankeyNode)
.data(function(d) {
var nodes = d.sankey.nodes();
var uniqueKeys = {};
persistOriginalPlace(nodes);
return nodes
.filter(function(n) {return n.value;})
.map(nodeModel.bind(null, uniqueKeys, d));
}, keyFun);
sankeyNode.enter()
.append('g')
.classed(c.cn.sankeyNode, true)
.call(updateNodePositions)
.call(attachPointerEvents, sankey, callbacks.nodeEvents);
sankeyNode
.call(attachDragHandler, sankeyLink, callbacks); // has to be here as it binds sankeyLink
sankeyNode.transition()
.ease(c.ease).duration(c.duration)
.call(updateNodePositions);
sankeyNode.exit().transition()
.ease(c.ease).duration(c.duration)
.style('opacity', 0)
.remove();
var nodeRect = sankeyNode.selectAll('.' + c.cn.nodeRect)
.data(repeat);
nodeRect.enter()
.append('rect')
.classed(c.cn.nodeRect, true)
.call(sizeNode);
nodeRect
.style('stroke-width', function(d) {return d.nodeLineWidth;})
.style('stroke', function(d) {return Color.tinyRGB(tinycolor(d.nodeLineColor));})
.style('stroke-opacity', function(d) {return Color.opacity(d.nodeLineColor);})
.style('fill', function(d) {return d.tinyColorHue;})
.style('fill-opacity', function(d) {return d.tinyColorAlpha;});
nodeRect.transition()
.ease(c.ease).duration(c.duration)
.call(sizeNode);
var nodeCapture = sankeyNode.selectAll('.' + c.cn.nodeCapture)
.data(repeat);
nodeCapture.enter()
.append('rect')
.classed(c.cn.nodeCapture, true)
.style('fill-opacity', 0);
nodeCapture
.attr('x', function(d) {return d.zoneX;})
.attr('y', function(d) {return d.zoneY;})
.attr('width', function(d) {return d.zoneWidth;})
.attr('height', function(d) {return d.zoneHeight;});
var nodeCentered = sankeyNode.selectAll('.' + c.cn.nodeCentered)
.data(repeat);
nodeCentered.enter()
.append('g')
.classed(c.cn.nodeCentered, true)
.attr('transform', nodeCentering);
nodeCentered
.transition()
.ease(c.ease).duration(c.duration)
.attr('transform', nodeCentering);
var nodeLabelGuide = nodeCentered.selectAll('.' + c.cn.nodeLabelGuide)
.data(repeat);
nodeLabelGuide.enter()
.append('path')
.classed(c.cn.nodeLabelGuide, true)
.attr('id', function(d) {return d.uniqueNodeLabelPathId;})
.attr('d', textGuidePath)
.attr('transform', sankeyInverseTransform);
nodeLabelGuide
.transition()
.ease(c.ease).duration(c.duration)
.attr('d', textGuidePath)
.attr('transform', sankeyInverseTransform);
var nodeLabel = nodeCentered.selectAll('.' + c.cn.nodeLabel)
.data(repeat);
nodeLabel.enter()
.append('text')
.classed(c.cn.nodeLabel, true)
.attr('transform', textFlip)
.style('user-select', 'none')
.style('cursor', 'default')
.style('fill', 'black');
nodeLabel
.style('text-shadow', function(d) {
return d.horizontal ? '-1px 1px 1px #fff, 1px 1px 1px #fff, 1px -1px 1px #fff, -1px -1px 1px #fff' : 'none';
})
.each(function(d) {Drawing.font(nodeLabel, d.textFont);});
nodeLabel
.transition()
.ease(c.ease).duration(c.duration)
.attr('transform', textFlip);
var nodeLabelTextPath = nodeLabel.selectAll('.' + c.cn.nodeLabelTextPath)
.data(repeat);
nodeLabelTextPath.enter()
.append('textPath')
.classed(c.cn.nodeLabelTextPath, true)
.attr('alignment-baseline', 'middle')
.attr('xlink:href', function(d) {return '#' + d.uniqueNodeLabelPathId;})
.attr('startOffset', nodeTextOffset)
.style('fill', nodeTextColor);
nodeLabelTextPath
.text(function(d) {return d.horizontal || d.node.dy > 5 ? d.node.label : '';})
.attr('text-anchor', function(d) {return d.horizontal && d.left ? 'end' : 'start';});
nodeLabelTextPath
.transition()
.ease(c.ease).duration(c.duration)
.attr('startOffset', nodeTextOffset)
.style('fill', nodeTextColor);
};
},{"../../components/color":567,"../../components/drawing":592,"../../lib":693,"../../lib/gup":690,"./constants":1026,"@plotly/d3-sankey":45,"d3":147,"d3-force":143,"tinycolor2":511}],1031:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
// arrayOk attributes, merge them into calcdata array
module.exports = function arraysToCalcdata(cd, trace) {
// so each point knows which index it originally came from
for(var i = 0; i < cd.length; i++) cd[i].i = i;
Lib.mergeArray(trace.text, cd, 'tx');
Lib.mergeArray(trace.hovertext, cd, 'htx');
Lib.mergeArray(trace.customdata, cd, 'data');
Lib.mergeArray(trace.textposition, cd, 'tp');
if(trace.textfont) {
Lib.mergeArray(trace.textfont.size, cd, 'ts');
Lib.mergeArray(trace.textfont.color, cd, 'tc');
Lib.mergeArray(trace.textfont.family, cd, 'tf');
}
var marker = trace.marker;
if(marker) {
Lib.mergeArray(marker.size, cd, 'ms');
Lib.mergeArray(marker.opacity, cd, 'mo');
Lib.mergeArray(marker.symbol, cd, 'mx');
Lib.mergeArray(marker.color, cd, 'mc');
var markerLine = marker.line;
if(marker.line) {
Lib.mergeArray(markerLine.color, cd, 'mlc');
Lib.mergeArray(markerLine.width, cd, 'mlw');
}
var markerGradient = marker.gradient;
if(markerGradient && markerGradient.type !== 'none') {
Lib.mergeArray(markerGradient.type, cd, 'mgt');
Lib.mergeArray(markerGradient.color, cd, 'mgc');
}
}
};
},{"../../lib":693}],1032:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var colorAttributes = _dereq_('../../components/colorscale/attributes');
var colorbarAttrs = _dereq_('../../components/colorbar/attributes');
var fontAttrs = _dereq_('../../plots/font_attributes');
var dash = _dereq_('../../components/drawing/attributes').dash;
var Drawing = _dereq_('../../components/drawing');
var constants = _dereq_('./constants');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
module.exports = {
x: {
valType: 'data_array',
editType: 'calc+clearAxisTypes',
},
x0: {
valType: 'any',
dflt: 0,
editType: 'calc+clearAxisTypes',
},
dx: {
valType: 'number',
dflt: 1,
editType: 'calc',
},
y: {
valType: 'data_array',
editType: 'calc+clearAxisTypes',
},
y0: {
valType: 'any',
dflt: 0,
editType: 'calc+clearAxisTypes',
},
dy: {
valType: 'number',
dflt: 1,
editType: 'calc',
},
stackgroup: {
valType: 'string',
dflt: '',
editType: 'calc',
},
orientation: {
valType: 'enumerated',
values: ['v', 'h'],
editType: 'calc',
},
groupnorm: {
valType: 'enumerated',
values: ['', 'fraction', 'percent'],
dflt: '',
editType: 'calc',
},
stackgaps: {
valType: 'enumerated',
values: ['infer zero', 'interpolate'],
dflt: 'infer zero',
editType: 'calc',
},
text: {
valType: 'string',
dflt: '',
arrayOk: true,
editType: 'calc',
},
hovertext: {
valType: 'string',
dflt: '',
arrayOk: true,
editType: 'style',
},
mode: {
valType: 'flaglist',
flags: ['lines', 'markers', 'text'],
extras: ['none'],
editType: 'calc',
},
hoveron: {
valType: 'flaglist',
flags: ['points', 'fills'],
editType: 'style',
},
line: {
color: {
valType: 'color',
editType: 'style',
},
width: {
valType: 'number',
min: 0,
dflt: 2,
editType: 'style',
},
shape: {
valType: 'enumerated',
values: ['linear', 'spline', 'hv', 'vh', 'hvh', 'vhv'],
dflt: 'linear',
editType: 'plot',
},
smoothing: {
valType: 'number',
min: 0,
max: 1.3,
dflt: 1,
editType: 'plot',
},
dash: extendFlat({}, dash, {editType: 'style'}),
simplify: {
valType: 'boolean',
dflt: true,
editType: 'plot',
},
editType: 'plot'
},
connectgaps: {
valType: 'boolean',
dflt: false,
editType: 'calc',
},
cliponaxis: {
valType: 'boolean',
dflt: true,
editType: 'plot',
},
fill: {
valType: 'enumerated',
values: ['none', 'tozeroy', 'tozerox', 'tonexty', 'tonextx', 'toself', 'tonext'],
editType: 'calc',
},
fillcolor: {
valType: 'color',
editType: 'style',
},
marker: extendFlat({
symbol: {
valType: 'enumerated',
values: Drawing.symbolList,
dflt: 'circle',
arrayOk: true,
editType: 'style',
},
opacity: {
valType: 'number',
min: 0,
max: 1,
arrayOk: true,
editType: 'style',
},
size: {
valType: 'number',
min: 0,
dflt: 6,
arrayOk: true,
editType: 'calc',
},
maxdisplayed: {
valType: 'number',
min: 0,
dflt: 0,
editType: 'plot',
},
sizeref: {
valType: 'number',
dflt: 1,
editType: 'calc',
},
sizemin: {
valType: 'number',
min: 0,
dflt: 0,
editType: 'calc',
},
sizemode: {
valType: 'enumerated',
values: ['diameter', 'area'],
dflt: 'diameter',
editType: 'calc',
},
colorbar: colorbarAttrs,
line: extendFlat({
width: {
valType: 'number',
min: 0,
arrayOk: true,
editType: 'style',
},
editType: 'calc'
},
colorAttributes('marker.line')
),
gradient: {
type: {
valType: 'enumerated',
values: ['radial', 'horizontal', 'vertical', 'none'],
arrayOk: true,
dflt: 'none',
editType: 'calc',
},
color: {
valType: 'color',
arrayOk: true,
editType: 'calc',
},
editType: 'calc'
},
editType: 'calc'
},
colorAttributes('marker')
),
selected: {
marker: {
opacity: {
valType: 'number',
min: 0,
max: 1,
editType: 'style',
},
color: {
valType: 'color',
editType: 'style',
},
size: {
valType: 'number',
min: 0,
editType: 'style',
},
editType: 'style'
},
textfont: {
color: {
valType: 'color',
editType: 'style',
},
editType: 'style'
},
editType: 'style'
},
unselected: {
marker: {
opacity: {
valType: 'number',
min: 0,
max: 1,
editType: 'style',
},
color: {
valType: 'color',
editType: 'style',
},
size: {
valType: 'number',
min: 0,
editType: 'style',
},
editType: 'style'
},
textfont: {
color: {
valType: 'color',
editType: 'style',
},
editType: 'style'
},
editType: 'style'
},
textposition: {
valType: 'enumerated',
values: [
'top left', 'top center', 'top right',
'middle left', 'middle center', 'middle right',
'bottom left', 'bottom center', 'bottom right'
],
dflt: 'middle center',
arrayOk: true,
editType: 'calc',
},
textfont: fontAttrs({
editType: 'calc',
colorEditType: 'style',
arrayOk: true,
}),
r: {
valType: 'data_array',
editType: 'calc',
},
t: {
valType: 'data_array',
editType: 'calc',
}
};
},{"../../components/colorbar/attributes":568,"../../components/colorscale/attributes":574,"../../components/drawing":592,"../../components/drawing/attributes":591,"../../lib/extend":682,"../../plots/font_attributes":768,"./constants":1037}],1033:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var Lib = _dereq_('../../lib');
var Axes = _dereq_('../../plots/cartesian/axes');
var BADNUM = _dereq_('../../constants/numerical').BADNUM;
var subTypes = _dereq_('./subtypes');
var calcColorscale = _dereq_('./colorscale_calc');
var arraysToCalcdata = _dereq_('./arrays_to_calcdata');
var calcSelection = _dereq_('./calc_selection');
function calc(gd, trace) {
var fullLayout = gd._fullLayout;
var xa = Axes.getFromId(gd, trace.xaxis || 'x');
var ya = Axes.getFromId(gd, trace.yaxis || 'y');
var x = xa.makeCalcdata(trace, 'x');
var y = ya.makeCalcdata(trace, 'y');
var serieslen = trace._length;
var cd = new Array(serieslen);
var ids = trace.ids;
var stackGroupOpts = getStackOpts(trace, fullLayout, xa, ya);
var interpolateGaps = false;
var isV, i, j, k, interpolate, vali;
setFirstScatter(fullLayout, trace);
var xAttr = 'x';
var yAttr = 'y';
var posAttr;
if(stackGroupOpts) {
stackGroupOpts.traceIndices.push(trace.index);
isV = stackGroupOpts.orientation === 'v';
// size, like we use for bar
if(isV) {
yAttr = 's';
posAttr = 'x';
}
else {
xAttr = 's';
posAttr = 'y';
}
interpolate = stackGroupOpts.stackgaps === 'interpolate';
}
else {
var ppad = calcMarkerSize(trace, serieslen);
calcAxisExpansion(gd, trace, xa, ya, x, y, ppad);
}
for(i = 0; i < serieslen; i++) {
var cdi = cd[i] = {};
var xValid = isNumeric(x[i]);
var yValid = isNumeric(y[i]);
if(xValid && yValid) {
cdi[xAttr] = x[i];
cdi[yAttr] = y[i];
}
// if we're stacking we need to hold on to all valid positions
// even with invalid sizes
else if(stackGroupOpts && (isV ? xValid : yValid)) {
cdi[posAttr] = isV ? x[i] : y[i];
cdi.gap = true;
if(interpolate) {
cdi.s = BADNUM;
interpolateGaps = true;
}
else {
cdi.s = 0;
}
}
else {
cdi[xAttr] = cdi[yAttr] = BADNUM;
}
if(ids) {
cdi.id = String(ids[i]);
}
}
arraysToCalcdata(cd, trace);
calcColorscale(trace);
calcSelection(cd, trace);
if(stackGroupOpts) {
// remove bad positions and sort
// note that original indices get added to cd in arraysToCalcdata
i = 0;
while(i < cd.length) {
if(cd[i][posAttr] === BADNUM) {
cd.splice(i, 1);
}
else i++;
}
Lib.sort(cd, function(a, b) {
return (a[posAttr] - b[posAttr]) || (a.i - b.i);
});
if(interpolateGaps) {
// first fill the beginning with constant from the first point
i = 0;
while(i < cd.length - 1 && cd[i].gap) {
i++;
}
vali = cd[i].s;
if(!vali) vali = cd[i].s = 0; // in case of no data AT ALL in this trace - use 0
for(j = 0; j < i; j++) {
cd[j].s = vali;
}
// then fill the end with constant from the last point
k = cd.length - 1;
while(k > i && cd[k].gap) {
k--;
}
vali = cd[k].s;
for(j = cd.length - 1; j > k; j--) {
cd[j].s = vali;
}
// now interpolate internal gaps linearly
while(i < k) {
i++;
if(cd[i].gap) {
j = i + 1;
while(cd[j].gap) {
j++;
}
var pos0 = cd[i - 1][posAttr];
var size0 = cd[i - 1].s;
var m = (cd[j].s - size0) / (cd[j][posAttr] - pos0);
while(i < j) {
cd[i].s = size0 + (cd[i][posAttr] - pos0) * m;
i++;
}
}
}
}
}
return cd;
}
function calcAxisExpansion(gd, trace, xa, ya, x, y, ppad) {
var serieslen = trace._length;
var fullLayout = gd._fullLayout;
var xId = xa._id;
var yId = ya._id;
var firstScatter = fullLayout._firstScatter[firstScatterGroup(trace)] === trace.uid;
var stackOrientation = (getStackOpts(trace, fullLayout, xa, ya) || {}).orientation;
var fill = trace.fill;
// cancel minimum tick spacings (only applies to bars and boxes)
xa._minDtick = 0;
ya._minDtick = 0;
// check whether bounds should be tight, padded, extended to zero...
// most cases both should be padded on both ends, so start with that.
var xOptions = {padded: true};
var yOptions = {padded: true};
if(ppad) {
xOptions.ppad = yOptions.ppad = ppad;
}
// TODO: text size
var openEnded = serieslen < 2 || (x[0] !== x[serieslen - 1]) || (y[0] !== y[serieslen - 1]);
// include zero (tight) and extremes (padded) if fill to zero
// (unless the shape is closed, then it's just filling the shape regardless)
if(openEnded && (
(fill === 'tozerox') ||
((fill === 'tonextx') && (firstScatter || stackOrientation === 'h'))
)) {
xOptions.tozero = true;
}
// if no error bars, markers or text, or fill to y=0 remove x padding
else if(!(trace.error_y || {}).visible && (
(fill === 'tonexty' || fill === 'tozeroy') ||
(!subTypes.hasMarkers(trace) && !subTypes.hasText(trace))
)) {
xOptions.padded = false;
xOptions.ppad = 0;
}
// now check for y - rather different logic, though still mostly padded both ends
// include zero (tight) and extremes (padded) if fill to zero
// (unless the shape is closed, then it's just filling the shape regardless)
if(openEnded && (
(fill === 'tozeroy') ||
((fill === 'tonexty') && (firstScatter || stackOrientation === 'v'))
)) {
yOptions.tozero = true;
}
// tight y: any x fill
else if(fill === 'tonextx' || fill === 'tozerox') {
yOptions.padded = false;
}
// N.B. asymmetric splom traces call this with blank {} xa or ya
if(xId) trace._extremes[xId] = Axes.findExtremes(xa, x, xOptions);
if(yId) trace._extremes[yId] = Axes.findExtremes(ya, y, yOptions);
}
function calcMarkerSize(trace, serieslen) {
if(!subTypes.hasMarkers(trace)) return;
// Treat size like x or y arrays --- Run d2c
// this needs to go before ppad computation
var marker = trace.marker;
var sizeref = 1.6 * (trace.marker.sizeref || 1);
var markerTrans;
if(trace.marker.sizemode === 'area') {
markerTrans = function(v) {
return Math.max(Math.sqrt((v || 0) / sizeref), 3);
};
} else {
markerTrans = function(v) {
return Math.max((v || 0) / sizeref, 3);
};
}
if(Lib.isArrayOrTypedArray(marker.size)) {
// I tried auto-type but category and dates dont make much sense.
var ax = {type: 'linear'};
Axes.setConvert(ax);
var s = ax.makeCalcdata(trace.marker, 'size');
var sizeOut = new Array(serieslen);
for(var i = 0; i < serieslen; i++) {
sizeOut[i] = markerTrans(s[i]);
}
return sizeOut;
} else {
return markerTrans(marker.size);
}
}
/**
* mark the first scatter trace for each subplot
* note that scatter and scattergl each get their own first trace
* note also that I'm doing this during calc rather than supplyDefaults
* so I don't need to worry about transforms, but if we ever do
* per-trace calc this will get confused.
*/
function setFirstScatter(fullLayout, trace) {
var group = firstScatterGroup(trace);
var firstScatter = fullLayout._firstScatter;
if(!firstScatter[group]) firstScatter[group] = trace.uid;
}
function firstScatterGroup(trace) {
var stackGroup = trace.stackgroup;
return trace.xaxis + trace.yaxis + trace.type +
(stackGroup ? '-' + stackGroup : '');
}
function getStackOpts(trace, fullLayout, xa, ya) {
var stackGroup = trace.stackgroup;
if(!stackGroup) return;
var stackOpts = fullLayout._scatterStackOpts[xa._id + ya._id][stackGroup];
var stackAx = stackOpts.orientation === 'v' ? ya : xa;
// Allow stacking only on numeric axes
// calc is a little late to be figuring this out, but during supplyDefaults
// we don't know the axis type yet
if(stackAx.type === 'linear' || stackAx.type === 'log') return stackOpts;
}
module.exports = {
calc: calc,
calcMarkerSize: calcMarkerSize,
calcAxisExpansion: calcAxisExpansion,
setFirstScatter: setFirstScatter,
getStackOpts: getStackOpts
};
},{"../../constants/numerical":670,"../../lib":693,"../../plots/cartesian/axes":742,"./arrays_to_calcdata":1031,"./calc_selection":1034,"./colorscale_calc":1036,"./subtypes":1056,"fast-isnumeric":213}],1034:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
module.exports = function calcSelection(cd, trace) {
if(Lib.isArrayOrTypedArray(trace.selectedpoints)) {
Lib.tagSelected(cd, trace);
}
};
},{"../../lib":693}],1035:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
// remove opacity for any trace that has a fill or is filled to
module.exports = function cleanData(fullData) {
for(var i = 0; i < fullData.length; i++) {
var tracei = fullData[i];
if(tracei.type !== 'scatter') continue;
var filli = tracei.fill;
if(filli === 'none' || filli === 'toself') continue;
tracei.opacity = undefined;
if(filli === 'tonexty' || filli === 'tonextx') {
for(var j = i - 1; j >= 0; j--) {
var tracej = fullData[j];
if((tracej.type === 'scatter') &&
(tracej.xaxis === tracei.xaxis) &&
(tracej.yaxis === tracei.yaxis)) {
tracej.opacity = undefined;
break;
}
}
}
}
};
},{}],1036:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var hasColorscale = _dereq_('../../components/colorscale/has_colorscale');
var calcColorscale = _dereq_('../../components/colorscale/calc');
var subTypes = _dereq_('./subtypes');
module.exports = function calcMarkerColorscale(trace) {
if(subTypes.hasLines(trace) && hasColorscale(trace, 'line')) {
calcColorscale(trace, trace.line.color, 'line', 'c');
}
if(subTypes.hasMarkers(trace)) {
if(hasColorscale(trace, 'marker')) {
calcColorscale(trace, trace.marker.color, 'marker', 'c');
}
if(hasColorscale(trace, 'marker.line')) {
calcColorscale(trace, trace.marker.line.color, 'marker.line', 'c');
}
}
};
},{"../../components/colorscale/calc":575,"../../components/colorscale/has_colorscale":581,"./subtypes":1056}],1037:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
PTS_LINESONLY: 20,
// fixed parameters of clustering and clipping algorithms
// fraction of clustering tolerance "so close we don't even consider it a new point"
minTolerance: 0.2,
// how fast does clustering tolerance increase as you get away from the visible region
toleranceGrowth: 10,
// number of viewport sizes away from the visible region
// at which we clip all lines to the perimeter
maxScreensAway: 20
};
},{}],1038:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var calc = _dereq_('./calc');
/*
* Scatter stacking & normalization calculations
* runs per subplot, and can handle multiple stacking groups
*/
module.exports = function crossTraceCalc(gd, plotinfo) {
var xa = plotinfo.xaxis;
var ya = plotinfo.yaxis;
var subplot = xa._id + ya._id;
var subplotStackOpts = gd._fullLayout._scatterStackOpts[subplot];
if(!subplotStackOpts) return;
var calcTraces = gd.calcdata;
var i, j, k, i2, cd, cd0, posj, sumj, norm;
var groupOpts, interpolate, groupnorm, posAttr, valAttr;
var hasAnyBlanks;
for(var stackGroup in subplotStackOpts) {
groupOpts = subplotStackOpts[stackGroup];
var indices = groupOpts.traceIndices;
// can get here with no indices if the stack axis is non-numeric
if(!indices.length) continue;
interpolate = groupOpts.stackgaps === 'interpolate';
groupnorm = groupOpts.groupnorm;
if(groupOpts.orientation === 'v') {
posAttr = 'x';
valAttr = 'y';
}
else {
posAttr = 'y';
valAttr = 'x';
}
hasAnyBlanks = new Array(indices.length);
for(i = 0; i < hasAnyBlanks.length; i++) {
hasAnyBlanks[i] = false;
}
// Collect the complete set of all positions across ALL traces.
// Start with the first trace, then interleave items from later traces
// as needed.
// Fill in mising items as we go.
cd0 = calcTraces[indices[0]];
var allPositions = new Array(cd0.length);
for(i = 0; i < cd0.length; i++) {
allPositions[i] = cd0[i][posAttr];
}
for(i = 1; i < indices.length; i++) {
cd = calcTraces[indices[i]];
for(j = k = 0; j < cd.length; j++) {
posj = cd[j][posAttr];
for(; posj > allPositions[k] && k < allPositions.length; k++) {
// the current trace is missing a position from some previous trace(s)
insertBlank(cd, j, allPositions[k], i, hasAnyBlanks, interpolate, posAttr);
j++;
}
if(posj !== allPositions[k]) {
// previous trace(s) are missing a position from the current trace
for(i2 = 0; i2 < i; i2++) {
insertBlank(calcTraces[indices[i2]], k, posj, i2, hasAnyBlanks, interpolate, posAttr);
}
allPositions.splice(k, 0, posj);
}
k++;
}
for(; k < allPositions.length; k++) {
insertBlank(cd, j, allPositions[k], i, hasAnyBlanks, interpolate, posAttr);
j++;
}
}
var serieslen = allPositions.length;
// stack (and normalize)!
for(j = 0; j < cd0.length; j++) {
sumj = cd0[j][valAttr] = cd0[j].s;
for(i = 1; i < indices.length; i++) {
cd = calcTraces[indices[i]];
cd[0].trace._rawLength = cd[0].trace._length;
cd[0].trace._length = serieslen;
sumj += cd[j].s;
cd[j][valAttr] = sumj;
}
if(groupnorm) {
norm = ((groupnorm === 'fraction') ? sumj : (sumj / 100)) || 1;
for(i = 0; i < indices.length; i++) {
var cdj = calcTraces[indices[i]][j];
cdj[valAttr] /= norm;
cdj.sNorm = cdj.s / norm;
}
}
}
// autorange
for(i = 0; i < indices.length; i++) {
cd = calcTraces[indices[i]];
var trace = cd[0].trace;
var ppad = calc.calcMarkerSize(trace, trace._rawLength);
var arrayPad = Array.isArray(ppad);
if((ppad && hasAnyBlanks[i]) || arrayPad) {
var ppadRaw = ppad;
ppad = new Array(serieslen);
for(j = 0; j < serieslen; j++) {
ppad[j] = cd[j].gap ? 0 : (arrayPad ? ppadRaw[cd[j].i] : ppadRaw);
}
}
var x = new Array(serieslen);
var y = new Array(serieslen);
for(j = 0; j < serieslen; j++) {
x[j] = cd[j].x;
y[j] = cd[j].y;
}
calc.calcAxisExpansion(gd, trace, xa, ya, x, y, ppad);
// while we're here (in a loop over all traces in the stack)
// record the orientation, so hover can find it easily
cd[0].t.orientation = groupOpts.orientation;
}
}
};
function insertBlank(calcTrace, index, position, traceIndex, hasAnyBlanks, interpolate, posAttr) {
hasAnyBlanks[traceIndex] = true;
var newEntry = {
i: null,
gap: true,
s: 0
};
newEntry[posAttr] = position;
calcTrace.splice(index, 0, newEntry);
// Even if we're not interpolating, if one trace has multiple
// values at the same position and this trace only has one value there,
// we just duplicate that one value rather than insert a zero.
// We also make it look like a real point - because it's ambiguous which
// one really is the real one!
if(index && position === calcTrace[index - 1][posAttr]) {
var prevEntry = calcTrace[index - 1];
newEntry.s = prevEntry.s;
// TODO is it going to cause any problems to have multiple
// calcdata points with the same index?
newEntry.i = prevEntry.i;
newEntry.gap = prevEntry.gap;
}
else if(interpolate) {
newEntry.s = getInterp(calcTrace, index, position, posAttr);
}
if(!index) {
// t and trace need to stay on the first cd entry
calcTrace[0].t = calcTrace[1].t;
calcTrace[0].trace = calcTrace[1].trace;
delete calcTrace[1].t;
delete calcTrace[1].trace;
}
}
function getInterp(calcTrace, index, position, posAttr) {
var pt0 = calcTrace[index - 1];
var pt1 = calcTrace[index + 1];
if(!pt1) return pt0.s;
if(!pt0) return pt1.s;
return pt0.s + (pt1.s - pt0.s) * (position - pt0[posAttr]) / (pt1[posAttr] - pt0[posAttr]);
}
},{"./calc":1033}],1039:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Registry = _dereq_('../../registry');
var attributes = _dereq_('./attributes');
var constants = _dereq_('./constants');
var subTypes = _dereq_('./subtypes');
var handleXYDefaults = _dereq_('./xy_defaults');
var handleStackDefaults = _dereq_('./stack_defaults');
var handleMarkerDefaults = _dereq_('./marker_defaults');
var handleLineDefaults = _dereq_('./line_defaults');
var handleLineShapeDefaults = _dereq_('./line_shape_defaults');
var handleTextDefaults = _dereq_('./text_defaults');
var handleFillColorDefaults = _dereq_('./fillcolor_defaults');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
var len = handleXYDefaults(traceIn, traceOut, layout, coerce);
if(!len) traceOut.visible = false;
if(!traceOut.visible) return;
var stackGroupOpts = handleStackDefaults(traceIn, traceOut, layout, coerce);
var defaultMode = !stackGroupOpts && (len < constants.PTS_LINESONLY) ?
'lines+markers' : 'lines';
coerce('text');
coerce('hovertext');
coerce('mode', defaultMode);
if(subTypes.hasLines(traceOut)) {
handleLineDefaults(traceIn, traceOut, defaultColor, layout, coerce);
handleLineShapeDefaults(traceIn, traceOut, coerce);
coerce('connectgaps');
coerce('line.simplify');
}
if(subTypes.hasMarkers(traceOut)) {
handleMarkerDefaults(traceIn, traceOut, defaultColor, layout, coerce, {gradient: true});
}
if(subTypes.hasText(traceOut)) {
handleTextDefaults(traceIn, traceOut, layout, coerce);
}
var dfltHoverOn = [];
if(subTypes.hasMarkers(traceOut) || subTypes.hasText(traceOut)) {
coerce('cliponaxis');
coerce('marker.maxdisplayed');
dfltHoverOn.push('points');
}
// It's possible for this default to be changed by a later trace.
// We handle that case in some hacky code inside handleStackDefaults.
coerce('fill', stackGroupOpts ? stackGroupOpts.fillDflt : 'none');
if(traceOut.fill !== 'none') {
handleFillColorDefaults(traceIn, traceOut, defaultColor, coerce);
if(!subTypes.hasLines(traceOut)) handleLineShapeDefaults(traceIn, traceOut, coerce);
}
if(traceOut.fill === 'tonext' || traceOut.fill === 'toself') {
dfltHoverOn.push('fills');
}
coerce('hoveron', dfltHoverOn.join('+') || 'points');
var errorBarsSupplyDefaults = Registry.getComponentMethod('errorbars', 'supplyDefaults');
errorBarsSupplyDefaults(traceIn, traceOut, defaultColor, {axis: 'y'});
errorBarsSupplyDefaults(traceIn, traceOut, defaultColor, {axis: 'x', inherit: 'y'});
Lib.coerceSelectionMarkerOpacity(traceOut, coerce);
};
},{"../../lib":693,"../../registry":825,"./attributes":1032,"./constants":1037,"./fillcolor_defaults":1041,"./line_defaults":1045,"./line_shape_defaults":1047,"./marker_defaults":1051,"./stack_defaults":1054,"./subtypes":1056,"./text_defaults":1057,"./xy_defaults":1058}],1040:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
/** Fill hover 'pointData' container with 'correct' hover text value
*
* - If trace hoverinfo contains a 'text' flag and hovertext is not set,
* the text elements will be seen in the hover labels.
*
* - If trace hoverinfo contains a 'text' flag and hovertext is set,
* hovertext takes precedence over text
* i.e. the hoverinfo elements will be seen in the hover labels
*
* @param {object} calcPt
* @param {object} trace
* @param {object || array} contOut (mutated here)
*/
module.exports = function fillHoverText(calcPt, trace, contOut) {
var fill = Array.isArray(contOut) ?
function(v) { contOut.push(v); } :
function(v) { contOut.text = v; };
var htx = Lib.extractOption(calcPt, trace, 'htx', 'hovertext');
if(isValid(htx)) return fill(htx);
var tx = Lib.extractOption(calcPt, trace, 'tx', 'text');
if(isValid(tx)) return fill(tx);
};
// accept all truthy values and 0 (which gets cast to '0' in the hover labels)
function isValid(v) {
return v || v === 0;
}
},{"../../lib":693}],1041:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Color = _dereq_('../../components/color');
var isArrayOrTypedArray = _dereq_('../../lib').isArrayOrTypedArray;
module.exports = function fillColorDefaults(traceIn, traceOut, defaultColor, coerce) {
var inheritColorFromMarker = false;
if(traceOut.marker) {
// don't try to inherit a color array
var markerColor = traceOut.marker.color,
markerLineColor = (traceOut.marker.line || {}).color;
if(markerColor && !isArrayOrTypedArray(markerColor)) {
inheritColorFromMarker = markerColor;
}
else if(markerLineColor && !isArrayOrTypedArray(markerLineColor)) {
inheritColorFromMarker = markerLineColor;
}
}
coerce('fillcolor', Color.addOpacity(
(traceOut.line || {}).color ||
inheritColorFromMarker ||
defaultColor, 0.5
));
};
},{"../../components/color":567,"../../lib":693}],1042:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Color = _dereq_('../../components/color');
var subtypes = _dereq_('./subtypes');
module.exports = function getTraceColor(trace, di) {
var lc, tc;
// TODO: text modes
if(trace.mode === 'lines') {
lc = trace.line.color;
return (lc && Color.opacity(lc)) ?
lc : trace.fillcolor;
}
else if(trace.mode === 'none') {
return trace.fill ? trace.fillcolor : '';
}
else {
var mc = di.mcc || (trace.marker || {}).color,
mlc = di.mlcc || ((trace.marker || {}).line || {}).color;
tc = (mc && Color.opacity(mc)) ? mc :
(mlc && Color.opacity(mlc) &&
(di.mlw || ((trace.marker || {}).line || {}).width)) ? mlc : '';
if(tc) {
// make sure the points aren't TOO transparent
if(Color.opacity(tc) < 0.3) {
return Color.addOpacity(tc, 0.3);
}
else return tc;
}
else {
lc = (trace.line || {}).color;
return (lc && Color.opacity(lc) &&
subtypes.hasLines(trace) && trace.line.width) ?
lc : trace.fillcolor;
}
}
};
},{"../../components/color":567,"./subtypes":1056}],1043:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Fx = _dereq_('../../components/fx');
var Registry = _dereq_('../../registry');
var getTraceColor = _dereq_('./get_trace_color');
var Color = _dereq_('../../components/color');
var fillHoverText = _dereq_('./fill_hover_text');
module.exports = function hoverPoints(pointData, xval, yval, hovermode) {
var cd = pointData.cd;
var trace = cd[0].trace;
var xa = pointData.xa;
var ya = pointData.ya;
var xpx = xa.c2p(xval);
var ypx = ya.c2p(yval);
var pt = [xpx, ypx];
var hoveron = trace.hoveron || '';
var minRad = (trace.mode.indexOf('markers') !== -1) ? 3 : 0.5;
// look for points to hover on first, then take fills only if we
// didn't find a point
if(hoveron.indexOf('points') !== -1) {
var dx = function(di) {
// dx and dy are used in compare modes - here we want to always
// prioritize the closest data point, at least as long as markers are
// the same size or nonexistent, but still try to prioritize small markers too.
var rad = Math.max(3, di.mrc || 0);
var kink = 1 - 1 / rad;
var dxRaw = Math.abs(xa.c2p(di.x) - xpx);
var d = (dxRaw < rad) ? (kink * dxRaw / rad) : (dxRaw - rad + kink);
return d;
};
var dy = function(di) {
var rad = Math.max(3, di.mrc || 0);
var kink = 1 - 1 / rad;
var dyRaw = Math.abs(ya.c2p(di.y) - ypx);
return (dyRaw < rad) ? (kink * dyRaw / rad) : (dyRaw - rad + kink);
};
var dxy = function(di) {
// scatter points: d.mrc is the calculated marker radius
// adjust the distance so if you're inside the marker it
// always will show up regardless of point size, but
// prioritize smaller points
var rad = Math.max(minRad, di.mrc || 0);
var dx = xa.c2p(di.x) - xpx;
var dy = ya.c2p(di.y) - ypx;
return Math.max(Math.sqrt(dx * dx + dy * dy) - rad, 1 - minRad / rad);
};
var distfn = Fx.getDistanceFunction(hovermode, dx, dy, dxy);
Fx.getClosest(cd, distfn, pointData);
// skip the rest (for this trace) if we didn't find a close point
if(pointData.index !== false) {
// the closest data point
var di = cd[pointData.index];
var xc = xa.c2p(di.x, true);
var yc = ya.c2p(di.y, true);
var rad = di.mrc || 1;
// now we're done using the whole `calcdata` array, replace the
// index with the original index (in case of inserted point from
// stacked area)
pointData.index = di.i;
var orientation = cd[0].t.orientation;
// TODO: for scatter and bar, option to show (sub)totals and
// raw data? Currently stacked and/or normalized bars just show
// the normalized individual sizes, so that's what I'm doing here
// for now.
var sizeVal = orientation && (di.sNorm || di.s);
var xLabelVal = (orientation === 'h') ? sizeVal : di.x;
var yLabelVal = (orientation === 'v') ? sizeVal : di.y;
Lib.extendFlat(pointData, {
color: getTraceColor(trace, di),
x0: xc - rad,
x1: xc + rad,
xLabelVal: xLabelVal,
y0: yc - rad,
y1: yc + rad,
yLabelVal: yLabelVal,
spikeDistance: dxy(di)
});
fillHoverText(di, trace, pointData);
Registry.getComponentMethod('errorbars', 'hoverInfo')(di, trace, pointData);
return [pointData];
}
}
// even if hoveron is 'fills', only use it if we have polygons too
if(hoveron.indexOf('fills') !== -1 && trace._polygons) {
var polygons = trace._polygons;
var polygonsIn = [];
var inside = false;
var xmin = Infinity;
var xmax = -Infinity;
var ymin = Infinity;
var ymax = -Infinity;
var i, j, polygon, pts, xCross, x0, x1, y0, y1;
for(i = 0; i < polygons.length; i++) {
polygon = polygons[i];
// TODO: this is not going to work right for curved edges, it will
// act as though they're straight. That's probably going to need
// the elements themselves to capture the events. Worth it?
if(polygon.contains(pt)) {
inside = !inside;
// TODO: need better than just the overall bounding box
polygonsIn.push(polygon);
ymin = Math.min(ymin, polygon.ymin);
ymax = Math.max(ymax, polygon.ymax);
}
}
if(inside) {
// constrain ymin/max to the visible plot, so the label goes
// at the middle of the piece you can see
ymin = Math.max(ymin, 0);
ymax = Math.min(ymax, ya._length);
// find the overall left-most and right-most points of the
// polygon(s) we're inside at their combined vertical midpoint.
// This is where we will draw the hover label.
// Note that this might not be the vertical midpoint of the
// whole trace, if it's disjoint.
var yAvg = (ymin + ymax) / 2;
for(i = 0; i < polygonsIn.length; i++) {
pts = polygonsIn[i].pts;
for(j = 1; j < pts.length; j++) {
y0 = pts[j - 1][1];
y1 = pts[j][1];
if((y0 > yAvg) !== (y1 >= yAvg)) {
x0 = pts[j - 1][0];
x1 = pts[j][0];
if(y1 - y0) {
xCross = x0 + (x1 - x0) * (yAvg - y0) / (y1 - y0);
xmin = Math.min(xmin, xCross);
xmax = Math.max(xmax, xCross);
}
}
}
}
// constrain xmin/max to the visible plot now too
xmin = Math.max(xmin, 0);
xmax = Math.min(xmax, xa._length);
// get only fill or line color for the hover color
var color = Color.defaultLine;
if(Color.opacity(trace.fillcolor)) color = trace.fillcolor;
else if(Color.opacity((trace.line || {}).color)) {
color = trace.line.color;
}
Lib.extendFlat(pointData, {
// never let a 2D override 1D type as closest point
// also: no spikeDistance, it's not allowed for fills
distance: pointData.maxHoverDistance,
x0: xmin,
x1: xmax,
y0: yAvg,
y1: yAvg,
color: color
});
delete pointData.index;
if(trace.text && !Array.isArray(trace.text)) {
pointData.text = String(trace.text);
}
else pointData.text = trace.name;
return [pointData];
}
}
};
},{"../../components/color":567,"../../components/fx":609,"../../lib":693,"../../registry":825,"./fill_hover_text":1040,"./get_trace_color":1042}],1044:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Scatter = {};
var subtypes = _dereq_('./subtypes');
Scatter.hasLines = subtypes.hasLines;
Scatter.hasMarkers = subtypes.hasMarkers;
Scatter.hasText = subtypes.hasText;
Scatter.isBubble = subtypes.isBubble;
Scatter.attributes = _dereq_('./attributes');
Scatter.supplyDefaults = _dereq_('./defaults');
Scatter.cleanData = _dereq_('./clean_data');
Scatter.calc = _dereq_('./calc').calc;
Scatter.crossTraceCalc = _dereq_('./cross_trace_calc');
Scatter.arraysToCalcdata = _dereq_('./arrays_to_calcdata');
Scatter.plot = _dereq_('./plot');
Scatter.colorbar = _dereq_('./marker_colorbar');
Scatter.style = _dereq_('./style').style;
Scatter.styleOnSelect = _dereq_('./style').styleOnSelect;
Scatter.hoverPoints = _dereq_('./hover');
Scatter.selectPoints = _dereq_('./select');
Scatter.animatable = true;
Scatter.moduleType = 'trace';
Scatter.name = 'scatter';
Scatter.basePlotModule = _dereq_('../../plots/cartesian');
Scatter.categories = [
'cartesian', 'svg', 'symbols', 'errorBarsOK', 'showLegend', 'scatter-like',
'zoomScale'
];
Scatter.meta = {
};
module.exports = Scatter;
},{"../../plots/cartesian":753,"./arrays_to_calcdata":1031,"./attributes":1032,"./calc":1033,"./clean_data":1035,"./cross_trace_calc":1038,"./defaults":1039,"./hover":1043,"./marker_colorbar":1050,"./plot":1052,"./select":1053,"./style":1055,"./subtypes":1056}],1045:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isArrayOrTypedArray = _dereq_('../../lib').isArrayOrTypedArray;
var hasColorscale = _dereq_('../../components/colorscale/has_colorscale');
var colorscaleDefaults = _dereq_('../../components/colorscale/defaults');
module.exports = function lineDefaults(traceIn, traceOut, defaultColor, layout, coerce, opts) {
var markerColor = (traceIn.marker || {}).color;
coerce('line.color', defaultColor);
if(hasColorscale(traceIn, 'line')) {
colorscaleDefaults(traceIn, traceOut, layout, coerce, {prefix: 'line.', cLetter: 'c', noScale: true});
} else {
var lineColorDflt = (isArrayOrTypedArray(markerColor) ? false : markerColor) || defaultColor;
coerce('line.color', lineColorDflt);
}
coerce('line.width');
if(!(opts || {}).noDash) coerce('line.dash');
};
},{"../../components/colorscale/defaults":577,"../../components/colorscale/has_colorscale":581,"../../lib":693}],1046:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var numConstants = _dereq_('../../constants/numerical');
var BADNUM = numConstants.BADNUM;
var LOG_CLIP = numConstants.LOG_CLIP;
var LOG_CLIP_PLUS = LOG_CLIP + 0.5;
var LOG_CLIP_MINUS = LOG_CLIP - 0.5;
var Lib = _dereq_('../../lib');
var segmentsIntersect = Lib.segmentsIntersect;
var constrain = Lib.constrain;
var constants = _dereq_('./constants');
module.exports = function linePoints(d, opts) {
var xa = opts.xaxis;
var ya = opts.yaxis;
var xLog = xa.type === 'log';
var yLog = ya.type === 'log';
var xLen = xa._length;
var yLen = ya._length;
var connectGaps = opts.connectGaps;
var baseTolerance = opts.baseTolerance;
var shape = opts.shape;
var linear = shape === 'linear';
var segments = [];
var minTolerance = constants.minTolerance;
var pts = new Array(d.length);
var pti = 0;
var i;
// pt variables are pixel coordinates [x,y] of one point
// these four are the outputs of clustering on a line
var clusterStartPt, clusterEndPt, clusterHighPt, clusterLowPt;
// "this" is the next point we're considering adding to the cluster
var thisPt;
// did we encounter the high point first, then a low point, or vice versa?
var clusterHighFirst;
// the first two points in the cluster determine its unit vector
// so the second is always in the "High" direction
var clusterUnitVector;
// the pixel delta from clusterStartPt
var thisVector;
// val variables are (signed) pixel distances along the cluster vector
var clusterRefDist, clusterHighVal, clusterLowVal, thisVal;
// deviation variables are (signed) pixel distances normal to the cluster vector
var clusterMinDeviation, clusterMaxDeviation, thisDeviation;
// turn one calcdata point into pixel coordinates
function getPt(index) {
var di = d[index];
if(!di) return false;
var x = xa.c2p(di.x);
var y = ya.c2p(di.y);
// if non-positive log values, set them VERY far off-screen
// so the line looks essentially straight from the previous point.
if(x === BADNUM) {
if(xLog) x = xa.c2p(di.x, true);
if(x === BADNUM) return false;
// If BOTH were bad log values, make the line follow a constant
// exponent rather than a constant slope
if(yLog && y === BADNUM) {
x *= Math.abs(xa._m * yLen * (xa._m > 0 ? LOG_CLIP_PLUS : LOG_CLIP_MINUS) /
(ya._m * xLen * (ya._m > 0 ? LOG_CLIP_PLUS : LOG_CLIP_MINUS)));
}
x *= 1000;
}
if(y === BADNUM) {
if(yLog) y = ya.c2p(di.y, true);
if(y === BADNUM) return false;
y *= 1000;
}
return [x, y];
}
function crossesViewport(xFrac0, yFrac0, xFrac1, yFrac1) {
var dx = xFrac1 - xFrac0;
var dy = yFrac1 - yFrac0;
var dx0 = 0.5 - xFrac0;
var dy0 = 0.5 - yFrac0;
var norm2 = dx * dx + dy * dy;
var dot = dx * dx0 + dy * dy0;
if(dot > 0 && dot < norm2) {
var cross = dx0 * dy - dy0 * dx;
if(cross * cross < norm2) return true;
}
}
var latestXFrac, latestYFrac;
// if we're off-screen, increase tolerance over baseTolerance
function getTolerance(pt, nextPt) {
var xFrac = pt[0] / xLen;
var yFrac = pt[1] / yLen;
var offScreenFraction = Math.max(0, -xFrac, xFrac - 1, -yFrac, yFrac - 1);
if(offScreenFraction && (latestXFrac !== undefined) &&
crossesViewport(xFrac, yFrac, latestXFrac, latestYFrac)
) {
offScreenFraction = 0;
}
if(offScreenFraction && nextPt &&
crossesViewport(xFrac, yFrac, nextPt[0] / xLen, nextPt[1] / yLen)
) {
offScreenFraction = 0;
}
return (1 + constants.toleranceGrowth * offScreenFraction) * baseTolerance;
}
function ptDist(pt1, pt2) {
var dx = pt1[0] - pt2[0];
var dy = pt1[1] - pt2[1];
return Math.sqrt(dx * dx + dy * dy);
}
// last bit of filtering: clip paths that are VERY far off-screen
// so we don't get near the browser's hard limit (+/- 2^29 px in Chrome and FF)
var maxScreensAway = constants.maxScreensAway;
// find the intersections between the segment from pt1 to pt2
// and the large rectangle maxScreensAway around the viewport
// if one of pt1 and pt2 is inside and the other outside, there
// will be only one intersection.
// if both are outside there will be 0 or 2 intersections
// (or 1 if it's right at a corner - we'll treat that like 0)
// returns an array of intersection pts
var xEdge0 = -xLen * maxScreensAway;
var xEdge1 = xLen * (1 + maxScreensAway);
var yEdge0 = -yLen * maxScreensAway;
var yEdge1 = yLen * (1 + maxScreensAway);
var edges = [
[xEdge0, yEdge0, xEdge1, yEdge0],
[xEdge1, yEdge0, xEdge1, yEdge1],
[xEdge1, yEdge1, xEdge0, yEdge1],
[xEdge0, yEdge1, xEdge0, yEdge0]
];
var xEdge, yEdge, lastXEdge, lastYEdge, lastFarPt, edgePt;
// for linear line shape, edge intersections should be linearly interpolated
// spline uses this too, which isn't precisely correct but is actually pretty
// good, because Catmull-Rom weights far-away points less in creating the curvature
function getLinearEdgeIntersections(pt1, pt2) {
var out = [];
var ptCount = 0;
for(var i = 0; i < 4; i++) {
var edge = edges[i];
var ptInt = segmentsIntersect(pt1[0], pt1[1], pt2[0], pt2[1],
edge[0], edge[1], edge[2], edge[3]);
if(ptInt && (!ptCount ||
Math.abs(ptInt.x - out[0][0]) > 1 ||
Math.abs(ptInt.y - out[0][1]) > 1
)) {
ptInt = [ptInt.x, ptInt.y];
// if we have 2 intersections, make sure the closest one to pt1 comes first
if(ptCount && ptDist(ptInt, pt1) < ptDist(out[0], pt1)) out.unshift(ptInt);
else out.push(ptInt);
ptCount++;
}
}
return out;
}
function onlyConstrainedPoint(pt) {
if(pt[0] < xEdge0 || pt[0] > xEdge1 || pt[1] < yEdge0 || pt[1] > yEdge1) {
return [constrain(pt[0], xEdge0, xEdge1), constrain(pt[1], yEdge0, yEdge1)];
}
}
function sameEdge(pt1, pt2) {
if(pt1[0] === pt2[0] && (pt1[0] === xEdge0 || pt1[0] === xEdge1)) return true;
if(pt1[1] === pt2[1] && (pt1[1] === yEdge0 || pt1[1] === yEdge1)) return true;
}
// for line shapes hv and vh, movement in the two dimensions is decoupled,
// so all we need to do is constrain each dimension independently
function getHVEdgeIntersections(pt1, pt2) {
var out = [];
var ptInt1 = onlyConstrainedPoint(pt1);
var ptInt2 = onlyConstrainedPoint(pt2);
if(ptInt1 && ptInt2 && sameEdge(ptInt1, ptInt2)) return out;
if(ptInt1) out.push(ptInt1);
if(ptInt2) out.push(ptInt2);
return out;
}
// hvh and vhv we sometimes have to move one of the intersection points
// out BEYOND the clipping rect, by a maximum of a factor of 2, so that
// the midpoint line is drawn in the right place
function getABAEdgeIntersections(dim, limit0, limit1) {
return function(pt1, pt2) {
var ptInt1 = onlyConstrainedPoint(pt1);
var ptInt2 = onlyConstrainedPoint(pt2);
var out = [];
if(ptInt1 && ptInt2 && sameEdge(ptInt1, ptInt2)) return out;
if(ptInt1) out.push(ptInt1);
if(ptInt2) out.push(ptInt2);
var midShift = 2 * Lib.constrain((pt1[dim] + pt2[dim]) / 2, limit0, limit1) -
((ptInt1 || pt1)[dim] + (ptInt2 || pt2)[dim]);
if(midShift) {
var ptToAlter;
if(ptInt1 && ptInt2) {
ptToAlter = (midShift > 0 === ptInt1[dim] > ptInt2[dim]) ? ptInt1 : ptInt2;
}
else ptToAlter = ptInt1 || ptInt2;
ptToAlter[dim] += midShift;
}
return out;
};
}
var getEdgeIntersections;
if(shape === 'linear' || shape === 'spline') {
getEdgeIntersections = getLinearEdgeIntersections;
}
else if(shape === 'hv' || shape === 'vh') {
getEdgeIntersections = getHVEdgeIntersections;
}
else if(shape === 'hvh') getEdgeIntersections = getABAEdgeIntersections(0, xEdge0, xEdge1);
else if(shape === 'vhv') getEdgeIntersections = getABAEdgeIntersections(1, yEdge0, yEdge1);
// a segment pt1->pt2 entirely outside the nearby region:
// find the corner it gets closest to touching
function getClosestCorner(pt1, pt2) {
var dx = pt2[0] - pt1[0];
var m = (pt2[1] - pt1[1]) / dx;
var b = (pt1[1] * pt2[0] - pt2[1] * pt1[0]) / dx;
if(b > 0) return [m > 0 ? xEdge0 : xEdge1, yEdge1];
else return [m > 0 ? xEdge1 : xEdge0, yEdge0];
}
function updateEdge(pt) {
var x = pt[0];
var y = pt[1];
var xSame = x === pts[pti - 1][0];
var ySame = y === pts[pti - 1][1];
// duplicate point?
if(xSame && ySame) return;
if(pti > 1) {
// backtracking along an edge?
var xSame2 = x === pts[pti - 2][0];
var ySame2 = y === pts[pti - 2][1];
if(xSame && (x === xEdge0 || x === xEdge1) && xSame2) {
if(ySame2) pti--; // backtracking exactly - drop prev pt and don't add
else pts[pti - 1] = pt; // not exact: replace the prev pt
}
else if(ySame && (y === yEdge0 || y === yEdge1) && ySame2) {
if(xSame2) pti--;
else pts[pti - 1] = pt;
}
else pts[pti++] = pt;
}
else pts[pti++] = pt;
}
function updateEdgesForReentry(pt) {
// if we're outside the nearby region and going back in,
// we may need to loop around a corner point
if(pts[pti - 1][0] !== pt[0] && pts[pti - 1][1] !== pt[1]) {
updateEdge([lastXEdge, lastYEdge]);
}
updateEdge(pt);
lastFarPt = null;
lastXEdge = lastYEdge = 0;
}
function addPt(pt) {
latestXFrac = pt[0] / xLen;
latestYFrac = pt[1] / yLen;
// Are we more than maxScreensAway off-screen any direction?
// if so, clip to this box, but in such a way that on-screen
// drawing is unchanged
xEdge = (pt[0] < xEdge0) ? xEdge0 : (pt[0] > xEdge1) ? xEdge1 : 0;
yEdge = (pt[1] < yEdge0) ? yEdge0 : (pt[1] > yEdge1) ? yEdge1 : 0;
if(xEdge || yEdge) {
// to get fills right - if first point is far, push it toward the
// screen in whichever direction(s) are far
if(!pti) {
pts[pti++] = [xEdge || pt[0], yEdge || pt[1]];
}
else if(lastFarPt) {
// both this point and the last are outside the nearby region
// check if we're crossing the nearby region
var intersections = getEdgeIntersections(lastFarPt, pt);
if(intersections.length > 1) {
updateEdgesForReentry(intersections[0]);
pts[pti++] = intersections[1];
}
}
// we're leaving the nearby region - add the point where we left it
else {
edgePt = getEdgeIntersections(pts[pti - 1], pt)[0];
pts[pti++] = edgePt;
}
var lastPt = pts[pti - 1];
if(xEdge && yEdge && (lastPt[0] !== xEdge || lastPt[1] !== yEdge)) {
// we've gone out beyond a new corner: add the corner too
// so that the next point will take the right winding
if(lastFarPt) {
if(lastXEdge !== xEdge && lastYEdge !== yEdge) {
if(lastXEdge && lastYEdge) {
// we've gone around to an opposite corner - we
// need to add the correct extra corner
// in order to get the right winding
updateEdge(getClosestCorner(lastFarPt, pt));
}
else {
// we're coming from a far edge - the extra corner
// we need is determined uniquely by the sectors
updateEdge([lastXEdge || xEdge, lastYEdge || yEdge]);
}
}
else if(lastXEdge && lastYEdge) {
updateEdge([lastXEdge, lastYEdge]);
}
}
updateEdge([xEdge, yEdge]);
}
else if((lastXEdge - xEdge) && (lastYEdge - yEdge)) {
// we're coming from an edge or far corner to an edge - again the
// extra corner we need is uniquely determined by the sectors
updateEdge([xEdge || lastXEdge, yEdge || lastYEdge]);
}
lastFarPt = pt;
lastXEdge = xEdge;
lastYEdge = yEdge;
}
else {
if(lastFarPt) {
// this point is in range but the previous wasn't: add its entry pt first
updateEdgesForReentry(getEdgeIntersections(lastFarPt, pt)[0]);
}
pts[pti++] = pt;
}
}
// loop over ALL points in this trace
for(i = 0; i < d.length; i++) {
clusterStartPt = getPt(i);
if(!clusterStartPt) continue;
pti = 0;
lastFarPt = null;
addPt(clusterStartPt);
// loop over one segment of the trace
for(i++; i < d.length; i++) {
clusterHighPt = getPt(i);
if(!clusterHighPt) {
if(connectGaps) continue;
else break;
}
// can't decimate if nonlinear line shape
// TODO: we *could* decimate [hv]{2,3} shapes if we restricted clusters to horz or vert again
// but spline would be verrry awkward to decimate
if(!linear || !opts.simplify) {
addPt(clusterHighPt);
continue;
}
var nextPt = getPt(i + 1);
clusterRefDist = ptDist(clusterHighPt, clusterStartPt);
if(clusterRefDist < getTolerance(clusterHighPt, nextPt) * minTolerance) continue;
clusterUnitVector = [
(clusterHighPt[0] - clusterStartPt[0]) / clusterRefDist,
(clusterHighPt[1] - clusterStartPt[1]) / clusterRefDist
];
clusterLowPt = clusterStartPt;
clusterHighVal = clusterRefDist;
clusterLowVal = clusterMinDeviation = clusterMaxDeviation = 0;
clusterHighFirst = false;
clusterEndPt = clusterHighPt;
// loop over one cluster of points that collapse onto one line
for(i++; i < d.length; i++) {
thisPt = nextPt;
nextPt = getPt(i + 1);
if(!thisPt) {
if(connectGaps) continue;
else break;
}
thisVector = [
thisPt[0] - clusterStartPt[0],
thisPt[1] - clusterStartPt[1]
];
// cross product (or dot with normal to the cluster vector)
thisDeviation = thisVector[0] * clusterUnitVector[1] - thisVector[1] * clusterUnitVector[0];
clusterMinDeviation = Math.min(clusterMinDeviation, thisDeviation);
clusterMaxDeviation = Math.max(clusterMaxDeviation, thisDeviation);
if(clusterMaxDeviation - clusterMinDeviation > getTolerance(thisPt, nextPt)) break;
clusterEndPt = thisPt;
thisVal = thisVector[0] * clusterUnitVector[0] + thisVector[1] * clusterUnitVector[1];
if(thisVal > clusterHighVal) {
clusterHighVal = thisVal;
clusterHighPt = thisPt;
clusterHighFirst = false;
} else if(thisVal < clusterLowVal) {
clusterLowVal = thisVal;
clusterLowPt = thisPt;
clusterHighFirst = true;
}
}
// insert this cluster into pts
// we've already inserted the start pt, now check if we have high and low pts
if(clusterHighFirst) {
addPt(clusterHighPt);
if(clusterEndPt !== clusterLowPt) addPt(clusterLowPt);
} else {
if(clusterLowPt !== clusterStartPt) addPt(clusterLowPt);
if(clusterEndPt !== clusterHighPt) addPt(clusterHighPt);
}
// and finally insert the end pt
addPt(clusterEndPt);
// have we reached the end of this segment?
if(i >= d.length || !thisPt) break;
// otherwise we have an out-of-cluster point to insert as next clusterStartPt
addPt(thisPt);
clusterStartPt = thisPt;
}
// to get fills right - repeat what we did at the start
if(lastFarPt) updateEdge([lastXEdge || lastFarPt[0], lastYEdge || lastFarPt[1]]);
segments.push(pts.slice(0, pti));
}
return segments;
};
},{"../../constants/numerical":670,"../../lib":693,"./constants":1037}],1047:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
// common to 'scatter' and 'scatterternary'
module.exports = function handleLineShapeDefaults(traceIn, traceOut, coerce) {
var shape = coerce('line.shape');
if(shape === 'spline') coerce('line.smoothing');
};
},{}],1048:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var LINKEDFILLS = {tonextx: 1, tonexty: 1, tonext: 1};
module.exports = function linkTraces(gd, plotinfo, cdscatter) {
var trace, i, group, prevtrace, groupIndex;
// first sort traces to keep stacks & filled-together groups together
var groupIndices = {};
var needsSort = false;
var prevGroupIndex = -1;
var nextGroupIndex = 0;
var prevUnstackedGroupIndex = -1;
for(i = 0; i < cdscatter.length; i++) {
trace = cdscatter[i][0].trace;
group = trace.stackgroup || '';
if(group) {
if(group in groupIndices) {
groupIndex = groupIndices[group];
}
else {
groupIndex = groupIndices[group] = nextGroupIndex;
nextGroupIndex++;
}
}
else if(trace.fill in LINKEDFILLS && prevUnstackedGroupIndex >= 0) {
groupIndex = prevUnstackedGroupIndex;
}
else {
groupIndex = prevUnstackedGroupIndex = nextGroupIndex;
nextGroupIndex++;
}
if(groupIndex < prevGroupIndex) needsSort = true;
trace._groupIndex = prevGroupIndex = groupIndex;
}
var cdscatterSorted = cdscatter.slice();
if(needsSort) {
cdscatterSorted.sort(function(a, b) {
var traceA = a[0].trace;
var traceB = b[0].trace;
return (traceA._groupIndex - traceB._groupIndex) ||
(traceA.index - traceB.index);
});
}
// now link traces to each other
var prevtraces = {};
for(i = 0; i < cdscatterSorted.length; i++) {
trace = cdscatterSorted[i][0].trace;
group = trace.stackgroup || '';
// Note: The check which ensures all cdscatter here are for the same axis and
// are either cartesian or scatterternary has been removed. This code assumes
// the passed scattertraces have been filtered to the proper plot types and
// the proper subplots.
if(trace.visible === true) {
trace._nexttrace = null;
if(trace.fill in LINKEDFILLS) {
prevtrace = prevtraces[group];
trace._prevtrace = prevtrace || null;
if(prevtrace) {
prevtrace._nexttrace = trace;
}
}
prevtraces[group] = trace;
} else {
trace._prevtrace = trace._nexttrace = null;
}
}
return cdscatterSorted;
};
},{}],1049:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
// used in the drawing step for 'scatter' and 'scattegeo' and
// in the convert step for 'scatter3d'
module.exports = function makeBubbleSizeFn(trace) {
var marker = trace.marker,
sizeRef = marker.sizeref || 1,
sizeMin = marker.sizemin || 0;
// for bubble charts, allow scaling the provided value linearly
// and by area or diameter.
// Note this only applies to the array-value sizes
var baseFn = (marker.sizemode === 'area') ?
function(v) { return Math.sqrt(v / sizeRef); } :
function(v) { return v / sizeRef; };
// TODO add support for position/negative bubbles?
// TODO add 'sizeoffset' attribute?
return function(v) {
var baseSize = baseFn(v / 2);
// don't show non-numeric and negative sizes
return (isNumeric(baseSize) && (baseSize > 0)) ?
Math.max(baseSize, sizeMin) :
0;
};
};
},{"fast-isnumeric":213}],1050:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
container: 'marker',
min: 'cmin',
max: 'cmax'
};
},{}],1051:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Color = _dereq_('../../components/color');
var hasColorscale = _dereq_('../../components/colorscale/has_colorscale');
var colorscaleDefaults = _dereq_('../../components/colorscale/defaults');
var subTypes = _dereq_('./subtypes');
/*
* opts: object of flags to control features not all marker users support
* noLine: caller does not support marker lines
* gradient: caller supports gradients
* noSelect: caller does not support selected/unselected attribute containers
*/
module.exports = function markerDefaults(traceIn, traceOut, defaultColor, layout, coerce, opts) {
var isBubble = subTypes.isBubble(traceIn),
lineColor = (traceIn.line || {}).color,
defaultMLC;
opts = opts || {};
// marker.color inherit from line.color (even if line.color is an array)
if(lineColor) defaultColor = lineColor;
coerce('marker.symbol');
coerce('marker.opacity', isBubble ? 0.7 : 1);
coerce('marker.size');
coerce('marker.color', defaultColor);
if(hasColorscale(traceIn, 'marker')) {
colorscaleDefaults(traceIn, traceOut, layout, coerce, {prefix: 'marker.', cLetter: 'c'});
}
if(!opts.noSelect) {
coerce('selected.marker.color');
coerce('unselected.marker.color');
coerce('selected.marker.size');
coerce('unselected.marker.size');
}
if(!opts.noLine) {
// if there's a line with a different color than the marker, use
// that line color as the default marker line color
// (except when it's an array)
// mostly this is for transparent markers to behave nicely
if(lineColor && !Array.isArray(lineColor) && (traceOut.marker.color !== lineColor)) {
defaultMLC = lineColor;
}
else if(isBubble) defaultMLC = Color.background;
else defaultMLC = Color.defaultLine;
coerce('marker.line.color', defaultMLC);
if(hasColorscale(traceIn, 'marker.line')) {
colorscaleDefaults(traceIn, traceOut, layout, coerce, {prefix: 'marker.line.', cLetter: 'c'});
}
coerce('marker.line.width', isBubble ? 1 : 0);
}
if(isBubble) {
coerce('marker.sizeref');
coerce('marker.sizemin');
coerce('marker.sizemode');
}
if(opts.gradient) {
var gradientType = coerce('marker.gradient.type');
if(gradientType !== 'none') {
coerce('marker.gradient.color');
}
}
};
},{"../../components/color":567,"../../components/colorscale/defaults":577,"../../components/colorscale/has_colorscale":581,"./subtypes":1056}],1052:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var ensureSingle = Lib.ensureSingle;
var identity = Lib.identity;
var Drawing = _dereq_('../../components/drawing');
var subTypes = _dereq_('./subtypes');
var linePoints = _dereq_('./line_points');
var linkTraces = _dereq_('./link_traces');
var polygonTester = _dereq_('../../lib/polygon').tester;
module.exports = function plot(gd, plotinfo, cdscatter, scatterLayer, transitionOpts, makeOnCompleteCallback) {
var join, onComplete;
// If transition config is provided, then it is only a partial replot and traces not
// updated are removed.
var isFullReplot = !transitionOpts;
var hasTransition = !!transitionOpts && transitionOpts.duration > 0;
// Link traces so the z-order of fill layers is correct
var cdscatterSorted = linkTraces(gd, plotinfo, cdscatter);
join = scatterLayer.selectAll('g.trace')
.data(cdscatterSorted, function(d) { return d[0].trace.uid; });
// Append new traces:
join.enter().append('g')
.attr('class', function(d) {
return 'trace scatter trace' + d[0].trace.uid;
})
.style('stroke-miterlimit', 2);
join.order();
createFills(gd, join, plotinfo);
if(hasTransition) {
if(makeOnCompleteCallback) {
// If it was passed a callback to register completion, make a callback. If
// this is created, then it must be executed on completion, otherwise the
// pos-transition redraw will not execute:
onComplete = makeOnCompleteCallback();
}
var transition = d3.transition()
.duration(transitionOpts.duration)
.ease(transitionOpts.easing)
.each('end', function() {
onComplete && onComplete();
})
.each('interrupt', function() {
onComplete && onComplete();
});
transition.each(function() {
// Must run the selection again since otherwise enters/updates get grouped together
// and these get executed out of order. Except we need them in order!
scatterLayer.selectAll('g.trace').each(function(d, i) {
plotOne(gd, i, plotinfo, d, cdscatterSorted, this, transitionOpts);
});
});
} else {
join.each(function(d, i) {
plotOne(gd, i, plotinfo, d, cdscatterSorted, this, transitionOpts);
});
}
if(isFullReplot) {
join.exit().remove();
}
// remove paths that didn't get used
scatterLayer.selectAll('path:not([d])').remove();
};
function createFills(gd, traceJoin, plotinfo) {
traceJoin.each(function(d) {
var fills = ensureSingle(d3.select(this), 'g', 'fills');
Drawing.setClipUrl(fills, plotinfo.layerClipId);
var trace = d[0].trace;
var fillData = [];
if(trace.fill && (trace.fill.substr(0, 6) === 'tozero' || trace.fill === 'toself' ||
(trace.fill.substr(0, 2) === 'to' && !trace._prevtrace))
) {
fillData = ['_ownFill'];
}
if(trace._nexttrace) {
// make the fill-to-next path now for the NEXT trace, so it shows
// behind both lines.
fillData.push('_nextFill');
}
var fillJoin = fills.selectAll('g')
.data(fillData, identity);
fillJoin.enter().append('g');
fillJoin.exit()
.each(function(d) { trace[d] = null; })
.remove();
fillJoin.order().each(function(d) {
// make a path element inside the fill group, just so
// we can give it its own data later on and the group can
// keep its simple '_*Fill' data
trace[d] = ensureSingle(d3.select(this), 'path', 'js-fill');
});
});
}
function plotOne(gd, idx, plotinfo, cdscatter, cdscatterAll, element, transitionOpts) {
var i;
// Since this has been reorganized and we're executing this on individual traces,
// we need to pass it the full list of cdscatter as well as this trace's index (idx)
// since it does an internal n^2 loop over comparisons with other traces:
selectMarkers(gd, idx, plotinfo, cdscatter, cdscatterAll);
var hasTransition = !!transitionOpts && transitionOpts.duration > 0;
function transition(selection) {
return hasTransition ? selection.transition() : selection;
}
var xa = plotinfo.xaxis,
ya = plotinfo.yaxis;
var trace = cdscatter[0].trace;
var line = trace.line;
var tr = d3.select(element);
var errorBarGroup = ensureSingle(tr, 'g', 'errorbars');
var lines = ensureSingle(tr, 'g', 'lines');
var points = ensureSingle(tr, 'g', 'points');
var text = ensureSingle(tr, 'g', 'text');
// error bars are at the bottom
Registry.getComponentMethod('errorbars', 'plot')(errorBarGroup, plotinfo, transitionOpts);
if(trace.visible !== true) return;
transition(tr).style('opacity', trace.opacity);
// BUILD LINES AND FILLS
var ownFillEl3, tonext;
var ownFillDir = trace.fill.charAt(trace.fill.length - 1);
if(ownFillDir !== 'x' && ownFillDir !== 'y') ownFillDir = '';
// store node for tweaking by selectPoints
if(!plotinfo.isRangePlot) cdscatter[0].node3 = tr;
var prevRevpath = '';
var prevPolygons = [];
var prevtrace = trace._prevtrace;
if(prevtrace) {
prevRevpath = prevtrace._prevRevpath || '';
tonext = prevtrace._nextFill;
prevPolygons = prevtrace._polygons;
}
var thispath,
thisrevpath,
// fullpath is all paths for this curve, joined together straight
// across gaps, for filling
fullpath = '',
// revpath is fullpath reversed, for fill-to-next
revpath = '',
// functions for converting a point array to a path
pathfn, revpathbase, revpathfn,
// variables used before and after the data join
pt0, lastSegment, pt1, thisPolygons;
// initialize line join data / method
var segments = [],
makeUpdate = Lib.noop;
ownFillEl3 = trace._ownFill;
if(subTypes.hasLines(trace) || trace.fill !== 'none') {
if(tonext) {
// This tells .style which trace to use for fill information:
tonext.datum(cdscatter);
}
if(['hv', 'vh', 'hvh', 'vhv'].indexOf(line.shape) !== -1) {
pathfn = Drawing.steps(line.shape);
revpathbase = Drawing.steps(
line.shape.split('').reverse().join('')
);
}
else if(line.shape === 'spline') {
pathfn = revpathbase = function(pts) {
var pLast = pts[pts.length - 1];
if(pts.length > 1 && pts[0][0] === pLast[0] && pts[0][1] === pLast[1]) {
// identical start and end points: treat it as a
// closed curve so we don't get a kink
return Drawing.smoothclosed(pts.slice(1), line.smoothing);
}
else {
return Drawing.smoothopen(pts, line.smoothing);
}
};
}
else {
pathfn = revpathbase = function(pts) {
return 'M' + pts.join('L');
};
}
revpathfn = function(pts) {
// note: this is destructive (reverses pts in place) so can't use pts after this
return revpathbase(pts.reverse());
};
segments = linePoints(cdscatter, {
xaxis: xa,
yaxis: ya,
connectGaps: trace.connectgaps,
baseTolerance: Math.max(line.width || 1, 3) / 4,
shape: line.shape,
simplify: line.simplify
});
// since we already have the pixel segments here, use them to make
// polygons for hover on fill
// TODO: can we skip this if hoveron!=fills? That would mean we
// need to redraw when you change hoveron...
thisPolygons = trace._polygons = new Array(segments.length);
for(i = 0; i < segments.length; i++) {
trace._polygons[i] = polygonTester(segments[i]);
}
if(segments.length) {
pt0 = segments[0][0];
lastSegment = segments[segments.length - 1];
pt1 = lastSegment[lastSegment.length - 1];
}
makeUpdate = function(isEnter) {
return function(pts) {
thispath = pathfn(pts);
thisrevpath = revpathfn(pts);
if(!fullpath) {
fullpath = thispath;
revpath = thisrevpath;
}
else if(ownFillDir) {
fullpath += 'L' + thispath.substr(1);
revpath = thisrevpath + ('L' + revpath.substr(1));
}
else {
fullpath += 'Z' + thispath;
revpath = thisrevpath + 'Z' + revpath;
}
if(subTypes.hasLines(trace) && pts.length > 1) {
var el = d3.select(this);
// This makes the coloring work correctly:
el.datum(cdscatter);
if(isEnter) {
transition(el.style('opacity', 0)
.attr('d', thispath)
.call(Drawing.lineGroupStyle))
.style('opacity', 1);
} else {
var sel = transition(el);
sel.attr('d', thispath);
Drawing.singleLineStyle(cdscatter, sel);
}
}
};
};
}
var lineJoin = lines.selectAll('.js-line').data(segments);
transition(lineJoin.exit())
.style('opacity', 0)
.remove();
lineJoin.each(makeUpdate(false));
lineJoin.enter().append('path')
.classed('js-line', true)
.style('vector-effect', 'non-scaling-stroke')
.call(Drawing.lineGroupStyle)
.each(makeUpdate(true));
Drawing.setClipUrl(lineJoin, plotinfo.layerClipId);
function clearFill(selection) {
transition(selection).attr('d', 'M0,0Z');
}
if(segments.length) {
if(ownFillEl3) {
ownFillEl3.datum(cdscatter);
if(pt0 && pt1) {
if(ownFillDir) {
if(ownFillDir === 'y') {
pt0[1] = pt1[1] = ya.c2p(0, true);
}
else if(ownFillDir === 'x') {
pt0[0] = pt1[0] = xa.c2p(0, true);
}
// fill to zero: full trace path, plus extension of
// the endpoints to the appropriate axis
// For the sake of animations, wrap the points around so that
// the points on the axes are the first two points. Otherwise
// animations get a little crazy if the number of points changes.
transition(ownFillEl3).attr('d', 'M' + pt1 + 'L' + pt0 + 'L' + fullpath.substr(1))
.call(Drawing.singleFillStyle);
} else {
// fill to self: just join the path to itself
transition(ownFillEl3).attr('d', fullpath + 'Z')
.call(Drawing.singleFillStyle);
}
}
}
else if(tonext) {
if(trace.fill.substr(0, 6) === 'tonext' && fullpath && prevRevpath) {
// fill to next: full trace path, plus the previous path reversed
if(trace.fill === 'tonext') {
// tonext: for use by concentric shapes, like manually constructed
// contours, we just add the two paths closed on themselves.
// This makes strange results if one path is *not* entirely
// inside the other, but then that is a strange usage.
transition(tonext).attr('d', fullpath + 'Z' + prevRevpath + 'Z')
.call(Drawing.singleFillStyle);
}
else {
// tonextx/y: for now just connect endpoints with lines. This is
// the correct behavior if the endpoints are at the same value of
// y/x, but if they *aren't*, we should ideally do more complicated
// things depending on whether the new endpoint projects onto the
// existing curve or off the end of it
transition(tonext).attr('d', fullpath + 'L' + prevRevpath.substr(1) + 'Z')
.call(Drawing.singleFillStyle);
}
trace._polygons = trace._polygons.concat(prevPolygons);
}
else {
clearFill(tonext);
trace._polygons = null;
}
}
trace._prevRevpath = revpath;
trace._prevPolygons = thisPolygons;
}
else {
if(ownFillEl3) clearFill(ownFillEl3);
else if(tonext) clearFill(tonext);
trace._polygons = trace._prevRevpath = trace._prevPolygons = null;
}
function visFilter(d) {
return d.filter(function(v) { return !v.gap && v.vis; });
}
function visFilterWithGaps(d) {
return d.filter(function(v) { return v.vis; });
}
function gapFilter(d) {
return d.filter(function(v) { return !v.gap; });
}
function keyFunc(d) {
return d.id;
}
// Returns a function if the trace is keyed, otherwise returns undefined
function getKeyFunc(trace) {
if(trace.ids) {
return keyFunc;
}
}
function hideFilter() {
return false;
}
function makePoints(points, text, cdscatter) {
var join, selection, hasNode;
var trace = cdscatter[0].trace;
var showMarkers = subTypes.hasMarkers(trace);
var showText = subTypes.hasText(trace);
var keyFunc = getKeyFunc(trace);
var markerFilter = hideFilter;
var textFilter = hideFilter;
if(showMarkers || showText) {
var showFilter = identity;
// if we're stacking, "infer zero" gap mode gets markers in the
// gap points - because we've inferred a zero there - but other
// modes (currently "interpolate", later "interrupt" hopefully)
// we don't draw generated markers
var stackGroup = trace.stackgroup;
var isInferZero = stackGroup && (
gd._fullLayout._scatterStackOpts[xa._id + ya._id][stackGroup].stackgaps === 'infer zero');
if(trace.marker.maxdisplayed || trace._needsCull) {
showFilter = isInferZero ? visFilterWithGaps : visFilter;
}
else if(stackGroup && !isInferZero) {
showFilter = gapFilter;
}
if(showMarkers) markerFilter = showFilter;
if(showText) textFilter = showFilter;
}
// marker points
selection = points.selectAll('path.point');
join = selection.data(markerFilter, keyFunc);
var enter = join.enter().append('path')
.classed('point', true);
if(hasTransition) {
enter
.call(Drawing.pointStyle, trace, gd)
.call(Drawing.translatePoints, xa, ya)
.style('opacity', 0)
.transition()
.style('opacity', 1);
}
join.order();
var styleFns;
if(showMarkers) {
styleFns = Drawing.makePointStyleFns(trace);
}
join.each(function(d) {
var el = d3.select(this);
var sel = transition(el);
hasNode = Drawing.translatePoint(d, sel, xa, ya);
if(hasNode) {
Drawing.singlePointStyle(d, sel, trace, styleFns, gd);
if(plotinfo.layerClipId) {
Drawing.hideOutsideRangePoint(d, sel, xa, ya, trace.xcalendar, trace.ycalendar);
}
if(trace.customdata) {
el.classed('plotly-customdata', d.data !== null && d.data !== undefined);
}
} else {
sel.remove();
}
});
if(hasTransition) {
join.exit().transition()
.style('opacity', 0)
.remove();
} else {
join.exit().remove();
}
// text points
selection = text.selectAll('g');
join = selection.data(textFilter, keyFunc);
// each text needs to go in its own 'g' in case
// it gets converted to mathjax
join.enter().append('g').classed('textpoint', true).append('text');
join.order();
join.each(function(d) {
var g = d3.select(this);
var sel = transition(g.select('text'));
hasNode = Drawing.translatePoint(d, sel, xa, ya);
if(hasNode) {
if(plotinfo.layerClipId) {
Drawing.hideOutsideRangePoint(d, g, xa, ya, trace.xcalendar, trace.ycalendar);
}
} else {
g.remove();
}
});
join.selectAll('text')
.call(Drawing.textPointStyle, trace, gd)
.each(function(d) {
// This just *has* to be totally custom becuase of SVG text positioning :(
// It's obviously copied from translatePoint; we just can't use that
var x = xa.c2p(d.x);
var y = ya.c2p(d.y);
d3.select(this).selectAll('tspan.line').each(function() {
transition(d3.select(this)).attr({x: x, y: y});
});
});
join.exit().remove();
}
points.datum(cdscatter);
text.datum(cdscatter);
makePoints(points, text, cdscatter);
// lastly, clip points groups of `cliponaxis !== false` traces
// on `plotinfo._hasClipOnAxisFalse === true` subplots
var hasClipOnAxisFalse = trace.cliponaxis === false;
var clipUrl = hasClipOnAxisFalse ? null : plotinfo.layerClipId;
Drawing.setClipUrl(points, clipUrl);
Drawing.setClipUrl(text, clipUrl);
}
function selectMarkers(gd, idx, plotinfo, cdscatter, cdscatterAll) {
var xa = plotinfo.xaxis,
ya = plotinfo.yaxis,
xr = d3.extent(Lib.simpleMap(xa.range, xa.r2c)),
yr = d3.extent(Lib.simpleMap(ya.range, ya.r2c));
var trace = cdscatter[0].trace;
if(!subTypes.hasMarkers(trace)) return;
// if marker.maxdisplayed is used, select a maximum of
// mnum markers to show, from the set that are in the viewport
var mnum = trace.marker.maxdisplayed;
// TODO: remove some as we get away from the viewport?
if(mnum === 0) return;
var cd = cdscatter.filter(function(v) {
return v.x >= xr[0] && v.x <= xr[1] && v.y >= yr[0] && v.y <= yr[1];
}),
inc = Math.ceil(cd.length / mnum),
tnum = 0;
cdscatterAll.forEach(function(cdj, j) {
var tracei = cdj[0].trace;
if(subTypes.hasMarkers(tracei) &&
tracei.marker.maxdisplayed > 0 && j < idx) {
tnum++;
}
});
// if multiple traces use maxdisplayed, stagger which markers we
// display this formula offsets successive traces by 1/3 of the
// increment, adding an extra small amount after each triplet so
// it's not quite periodic
var i0 = Math.round(tnum * inc / 3 + Math.floor(tnum / 3) * inc / 7.1);
// for error bars: save in cd which markers to show
// so we don't have to repeat this
cdscatter.forEach(function(v) { delete v.vis; });
cd.forEach(function(v, i) {
if(Math.round((i + i0) % inc) === 0) v.vis = true;
});
}
},{"../../components/drawing":592,"../../lib":693,"../../lib/polygon":706,"../../registry":825,"./line_points":1046,"./link_traces":1048,"./subtypes":1056,"d3":147}],1053:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var subtypes = _dereq_('./subtypes');
module.exports = function selectPoints(searchInfo, selectionTester) {
var cd = searchInfo.cd,
xa = searchInfo.xaxis,
ya = searchInfo.yaxis,
selection = [],
trace = cd[0].trace,
i,
di,
x,
y;
var hasOnlyLines = (!subtypes.hasMarkers(trace) && !subtypes.hasText(trace));
if(hasOnlyLines) return [];
if(selectionTester === false) { // clear selection
for(i = 0; i < cd.length; i++) {
cd[i].selected = 0;
}
}
else {
for(i = 0; i < cd.length; i++) {
di = cd[i];
x = xa.c2p(di.x);
y = ya.c2p(di.y);
if((di.i !== null) && selectionTester.contains([x, y], false, i, searchInfo)) {
selection.push({
pointNumber: di.i,
x: xa.c2d(di.x),
y: ya.c2d(di.y)
});
di.selected = 1;
} else {
di.selected = 0;
}
}
}
return selection;
};
},{"./subtypes":1056}],1054:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var perStackAttrs = ['orientation', 'groupnorm', 'stackgaps'];
module.exports = function handleStackDefaults(traceIn, traceOut, layout, coerce) {
var stackOpts = layout._scatterStackOpts;
var stackGroup = coerce('stackgroup');
if(stackGroup) {
// use independent stacking options per subplot
var subplot = traceOut.xaxis + traceOut.yaxis;
var subplotStackOpts = stackOpts[subplot];
if(!subplotStackOpts) subplotStackOpts = stackOpts[subplot] = {};
var groupOpts = subplotStackOpts[stackGroup];
var firstTrace = false;
if(groupOpts) {
groupOpts.traces.push(traceOut);
}
else {
groupOpts = subplotStackOpts[stackGroup] = {
// keep track of trace indices for use during stacking calculations
// this will be filled in during `calc` and used during `crossTraceCalc`
// so it's OK if we don't recreate it during a non-calc edit
traceIndices: [],
// Hold on to the whole set of prior traces
// First one is most important, so we can clear defaults
// there if we find explicit values only in later traces.
// We're only going to *use* the values stored in groupOpts,
// but for the editor and validate we want things self-consistent
// The full set of traces is used only to fix `fill` default if
// we find `orientation: 'h'` beyond the first trace
traces: [traceOut]
};
firstTrace = true;
}
// TODO: how is this going to work with groupby transforms?
// in principle it should be OK I guess, as long as explicit group styles
// don't override explicit base-trace styles?
var dflts = {
orientation: (traceOut.x && !traceOut.y) ? 'h' : 'v'
};
for(var i = 0; i < perStackAttrs.length; i++) {
var attr = perStackAttrs[i];
var attrFound = attr + 'Found';
if(!groupOpts[attrFound]) {
var traceHasAttr = traceIn[attr] !== undefined;
var isOrientation = attr === 'orientation';
if(traceHasAttr || firstTrace) {
groupOpts[attr] = coerce(attr, dflts[attr]);
if(isOrientation) {
groupOpts.fillDflt = groupOpts[attr] === 'h' ?
'tonextx' : 'tonexty';
}
if(traceHasAttr) {
// Note: this will show a value here even if it's invalid
// in which case it will revert to default.
groupOpts[attrFound] = true;
// Note: only one trace in the stack will get a _fullData
// entry for a given stack-wide attribute. If no traces
// (or the first trace) specify that attribute, the
// first trace will get it. If the first trace does NOT
// specify it but some later trace does, then it gets
// removed from the first trace and only included in the
// one that specified it. This is mostly important for
// editors (that want to see the full values to know
// what settings are available) and Plotly.react diffing.
// Editors may want to use fullLayout._scatterStackOpts
// directly and make these settings available from all
// traces in the stack... then set the new value into
// the first trace, and clear all later traces.
if(!firstTrace) {
delete groupOpts.traces[0][attr];
// orientation can affect default fill of previous traces
if(isOrientation) {
for(var j = 0; j < groupOpts.traces.length - 1; j++) {
var trace2 = groupOpts.traces[j];
if(trace2._input.fill !== trace2.fill) {
trace2.fill = groupOpts.fillDflt;
}
}
}
}
}
}
}
}
return groupOpts;
}
};
},{}],1055:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Drawing = _dereq_('../../components/drawing');
var Registry = _dereq_('../../registry');
function style(gd, cd) {
var s = cd ? cd[0].node3 : d3.select(gd).selectAll('g.trace.scatter');
s.style('opacity', function(d) {
return d[0].trace.opacity;
});
s.selectAll('g.points').each(function(d) {
var sel = d3.select(this);
var trace = d.trace || d[0].trace;
stylePoints(sel, trace, gd);
});
s.selectAll('g.text').each(function(d) {
var sel = d3.select(this);
var trace = d.trace || d[0].trace;
styleText(sel, trace, gd);
});
s.selectAll('g.trace path.js-line')
.call(Drawing.lineGroupStyle);
s.selectAll('g.trace path.js-fill')
.call(Drawing.fillGroupStyle);
Registry.getComponentMethod('errorbars', 'style')(s);
}
function stylePoints(sel, trace, gd) {
Drawing.pointStyle(sel.selectAll('path.point'), trace, gd);
}
function styleText(sel, trace, gd) {
Drawing.textPointStyle(sel.selectAll('text'), trace, gd);
}
function styleOnSelect(gd, cd) {
var s = cd[0].node3;
var trace = cd[0].trace;
if(trace.selectedpoints) {
Drawing.selectedPointStyle(s.selectAll('path.point'), trace);
Drawing.selectedTextStyle(s.selectAll('text'), trace);
} else {
stylePoints(s, trace, gd);
styleText(s, trace, gd);
}
}
module.exports = {
style: style,
stylePoints: stylePoints,
styleText: styleText,
styleOnSelect: styleOnSelect
};
},{"../../components/drawing":592,"../../registry":825,"d3":147}],1056:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
module.exports = {
hasLines: function(trace) {
return trace.visible && trace.mode &&
trace.mode.indexOf('lines') !== -1;
},
hasMarkers: function(trace) {
return trace.visible && (
(trace.mode && trace.mode.indexOf('markers') !== -1) ||
// until splom implements 'mode'
trace.type === 'splom'
);
},
hasText: function(trace) {
return trace.visible && trace.mode &&
trace.mode.indexOf('text') !== -1;
},
isBubble: function(trace) {
return Lib.isPlainObject(trace.marker) &&
Lib.isArrayOrTypedArray(trace.marker.size);
}
};
},{"../../lib":693}],1057:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
/*
* opts: object of flags to control features not all text users support
* noSelect: caller does not support selected/unselected attribute containers
*/
module.exports = function(traceIn, traceOut, layout, coerce, opts) {
opts = opts || {};
coerce('textposition');
Lib.coerceFont(coerce, 'textfont', layout.font);
if(!opts.noSelect) {
coerce('selected.textfont.color');
coerce('unselected.textfont.color');
}
};
},{"../../lib":693}],1058:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
module.exports = function handleXYDefaults(traceIn, traceOut, layout, coerce) {
var len,
x = coerce('x'),
y = coerce('y');
var handleCalendarDefaults = Registry.getComponentMethod('calendars', 'handleTraceDefaults');
handleCalendarDefaults(traceIn, traceOut, ['x', 'y'], layout);
if(x) {
if(y) {
len = Math.min(x.length, y.length);
}
else {
len = x.length;
coerce('y0');
coerce('dy');
}
}
else {
if(!y) return 0;
len = traceOut.y.length;
coerce('x0');
coerce('dx');
}
traceOut._length = len;
return len;
};
},{"../../registry":825}],1059:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var scatterAttrs = _dereq_('../scatter/attributes');
var colorAttributes = _dereq_('../../components/colorscale/attributes');
var baseAttrs = _dereq_('../../plots/attributes');
var DASHES = _dereq_('../../constants/gl3d_dashes');
var MARKER_SYMBOLS = _dereq_('../../constants/gl3d_markers');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll;
var scatterLineAttrs = scatterAttrs.line;
var scatterMarkerAttrs = scatterAttrs.marker;
var scatterMarkerLineAttrs = scatterMarkerAttrs.line;
var lineAttrs = extendFlat({
width: scatterLineAttrs.width,
dash: {
valType: 'enumerated',
values: Object.keys(DASHES),
dflt: 'solid',
}
}, colorAttributes('line'));
// not yet implemented
delete lineAttrs.showscale;
delete lineAttrs.colorbar;
function makeProjectionAttr(axLetter) {
return {
show: {
valType: 'boolean',
dflt: false,
},
opacity: {
valType: 'number',
min: 0,
max: 1,
dflt: 1,
},
scale: {
valType: 'number',
min: 0,
max: 10,
dflt: 2 / 3,
}
};
}
var attrs = module.exports = overrideAll({
x: scatterAttrs.x,
y: scatterAttrs.y,
z: {
valType: 'data_array',
},
text: extendFlat({}, scatterAttrs.text, {
}),
hovertext: extendFlat({}, scatterAttrs.hovertext, {
}),
mode: extendFlat({}, scatterAttrs.mode, // shouldn't this be on-par with 2D?
{dflt: 'lines+markers'}),
surfaceaxis: {
valType: 'enumerated',
values: [-1, 0, 1, 2],
dflt: -1,
},
surfacecolor: {
valType: 'color',
},
projection: {
x: makeProjectionAttr('x'),
y: makeProjectionAttr('y'),
z: makeProjectionAttr('z')
},
connectgaps: scatterAttrs.connectgaps,
line: lineAttrs,
marker: extendFlat({ // Parity with scatter.js?
symbol: {
valType: 'enumerated',
values: Object.keys(MARKER_SYMBOLS),
dflt: 'circle',
arrayOk: true,
},
size: extendFlat({}, scatterMarkerAttrs.size, {dflt: 8}),
sizeref: scatterMarkerAttrs.sizeref,
sizemin: scatterMarkerAttrs.sizemin,
sizemode: scatterMarkerAttrs.sizemode,
opacity: extendFlat({}, scatterMarkerAttrs.opacity, {
arrayOk: false,
}),
colorbar: scatterMarkerAttrs.colorbar,
line: extendFlat({
width: extendFlat({}, scatterMarkerLineAttrs.width, {arrayOk: false})
},
colorAttributes('marker.line')
)
},
colorAttributes('marker')
),
textposition: extendFlat({}, scatterAttrs.textposition, {dflt: 'top center', arrayOk: false}),
textfont: {
color: scatterAttrs.textfont.color,
size: scatterAttrs.textfont.size,
family: extendFlat({}, scatterAttrs.textfont.family, {arrayOk: false})
},
hoverinfo: extendFlat({}, baseAttrs.hoverinfo)
}, 'calc', 'nested');
attrs.x.editType = attrs.y.editType = attrs.z.editType = 'calc+clearAxisTypes';
},{"../../components/colorscale/attributes":574,"../../constants/gl3d_dashes":667,"../../constants/gl3d_markers":668,"../../lib/extend":682,"../../plot_api/edit_types":725,"../../plots/attributes":739,"../scatter/attributes":1032}],1060:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var arraysToCalcdata = _dereq_('../scatter/arrays_to_calcdata');
var calcColorscales = _dereq_('../scatter/colorscale_calc');
/**
* This is a kludge to put the array attributes into
* calcdata the way Scatter.plot does, so that legends and
* popovers know what to do with them.
*/
module.exports = function calc(gd, trace) {
var cd = [{x: false, y: false, trace: trace, t: {}}];
arraysToCalcdata(cd, trace);
calcColorscales(trace);
return cd;
};
},{"../scatter/arrays_to_calcdata":1031,"../scatter/colorscale_calc":1036}],1061:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
function calculateAxisErrors(data, params, scaleFactor, axis) {
if(!params || !params.visible) return null;
var computeError = Registry.getComponentMethod('errorbars', 'makeComputeError')(params);
var result = new Array(data.length);
for(var i = 0; i < data.length; i++) {
var errors = computeError(+data[i], i);
if(axis.type === 'log') {
var point = axis.c2l(data[i]);
var min = data[i] - errors[0],
max = data[i] + errors[1];
result[i] = [
(axis.c2l(min, true) - point) * scaleFactor,
(axis.c2l(max, true) - point) * scaleFactor
];
// Keep track of the lower error bound which isn't negative!
if(min > 0) {
var lower = axis.c2l(min);
if(!axis._lowerLogErrorBound) axis._lowerLogErrorBound = lower;
axis._lowerErrorBound = Math.min(axis._lowerLogErrorBound, lower);
}
} else {
result[i] = [
-errors[0] * scaleFactor,
errors[1] * scaleFactor
];
}
}
return result;
}
function dataLength(array) {
for(var i = 0; i < array.length; i++) {
if(array[i]) return array[i].length;
}
return 0;
}
function calculateErrors(data, scaleFactor, sceneLayout) {
var errors = [
calculateAxisErrors(data.x, data.error_x, scaleFactor[0], sceneLayout.xaxis),
calculateAxisErrors(data.y, data.error_y, scaleFactor[1], sceneLayout.yaxis),
calculateAxisErrors(data.z, data.error_z, scaleFactor[2], sceneLayout.zaxis)
];
var n = dataLength(errors);
if(n === 0) return null;
var errorBounds = new Array(n);
for(var i = 0; i < n; i++) {
var bound = [[0, 0, 0], [0, 0, 0]];
for(var j = 0; j < 3; j++) {
if(errors[j]) {
for(var k = 0; k < 2; k++) {
bound[k][j] = errors[j][i][k];
}
}
}
errorBounds[i] = bound;
}
return errorBounds;
}
module.exports = calculateErrors;
},{"../../registry":825}],1062:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var createLinePlot = _dereq_('gl-line3d');
var createScatterPlot = _dereq_('gl-scatter3d');
var createErrorBars = _dereq_('gl-error3d');
var createMesh = _dereq_('gl-mesh3d');
var triangulate = _dereq_('delaunay-triangulate');
var Lib = _dereq_('../../lib');
var str2RgbaArray = _dereq_('../../lib/str2rgbarray');
var formatColor = _dereq_('../../lib/gl_format_color').formatColor;
var makeBubbleSizeFn = _dereq_('../scatter/make_bubble_size_func');
var DASH_PATTERNS = _dereq_('../../constants/gl3d_dashes');
var MARKER_SYMBOLS = _dereq_('../../constants/gl3d_markers');
var calculateError = _dereq_('./calc_errors');
function LineWithMarkers(scene, uid) {
this.scene = scene;
this.uid = uid;
this.linePlot = null;
this.scatterPlot = null;
this.errorBars = null;
this.textMarkers = null;
this.delaunayMesh = null;
this.color = null;
this.mode = '';
this.dataPoints = [];
this.axesBounds = [
[-Infinity, -Infinity, -Infinity],
[Infinity, Infinity, Infinity]
];
this.textLabels = null;
this.data = null;
}
var proto = LineWithMarkers.prototype;
proto.handlePick = function(selection) {
if(selection.object &&
(selection.object === this.linePlot ||
selection.object === this.delaunayMesh ||
selection.object === this.textMarkers ||
selection.object === this.scatterPlot)
) {
var ind = selection.index = selection.data.index;
if(selection.object.highlight) {
selection.object.highlight(null);
}
if(this.scatterPlot) {
selection.object = this.scatterPlot;
this.scatterPlot.highlight(selection.data);
}
selection.textLabel = '';
if(this.textLabels) {
if(Array.isArray(this.textLabels)) {
if(this.textLabels[ind] || this.textLabels[ind] === 0) {
selection.textLabel = this.textLabels[ind];
}
} else {
selection.textLabel = this.textLabels;
}
}
selection.traceCoordinate = [
this.data.x[ind],
this.data.y[ind],
this.data.z[ind]
];
return true;
}
};
function constructDelaunay(points, color, axis) {
var u = (axis + 1) % 3;
var v = (axis + 2) % 3;
var filteredPoints = [];
var filteredIds = [];
var i;
for(i = 0; i < points.length; ++i) {
var p = points[i];
if(isNaN(p[u]) || !isFinite(p[u]) ||
isNaN(p[v]) || !isFinite(p[v])) {
continue;
}
filteredPoints.push([p[u], p[v]]);
filteredIds.push(i);
}
var cells = triangulate(filteredPoints);
for(i = 0; i < cells.length; ++i) {
var c = cells[i];
for(var j = 0; j < c.length; ++j) {
c[j] = filteredIds[c[j]];
}
}
return {
positions: points,
cells: cells,
meshColor: color
};
}
function calculateErrorParams(errors) {
var capSize = [0.0, 0.0, 0.0],
color = [[0, 0, 0], [0, 0, 0], [0, 0, 0]],
lineWidth = [1.0, 1.0, 1.0];
for(var i = 0; i < 3; i++) {
var e = errors[i];
if(e && e.copy_zstyle !== false && errors[2].visible !== false) e = errors[2];
if(!e || !e.visible) continue;
capSize[i] = e.width / 2; // ballpark rescaling
color[i] = str2RgbaArray(e.color);
lineWidth[i] = e.thickness;
}
return {capSize: capSize, color: color, lineWidth: lineWidth};
}
function calculateTextOffset(tp) {
// Read out text properties
var textOffset = [0, 0];
if(Array.isArray(tp)) return [0, -1];
if(tp.indexOf('bottom') >= 0) textOffset[1] += 1;
if(tp.indexOf('top') >= 0) textOffset[1] -= 1;
if(tp.indexOf('left') >= 0) textOffset[0] -= 1;
if(tp.indexOf('right') >= 0) textOffset[0] += 1;
return textOffset;
}
function calculateSize(sizeIn, sizeFn) {
// rough parity with Plotly 2D markers
return sizeFn(sizeIn * 4);
}
function calculateSymbol(symbolIn) {
return MARKER_SYMBOLS[symbolIn];
}
function formatParam(paramIn, len, calculate, dflt, extraFn) {
var paramOut = null;
if(Lib.isArrayOrTypedArray(paramIn)) {
paramOut = [];
for(var i = 0; i < len; i++) {
if(paramIn[i] === undefined) paramOut[i] = dflt;
else paramOut[i] = calculate(paramIn[i], extraFn);
}
}
else paramOut = calculate(paramIn, Lib.identity);
return paramOut;
}
function convertPlotlyOptions(scene, data) {
var params, i,
points = [],
sceneLayout = scene.fullSceneLayout,
scaleFactor = scene.dataScale,
xaxis = sceneLayout.xaxis,
yaxis = sceneLayout.yaxis,
zaxis = sceneLayout.zaxis,
marker = data.marker,
line = data.line,
xc, x = data.x || [],
yc, y = data.y || [],
zc, z = data.z || [],
len = x.length,
xcalendar = data.xcalendar,
ycalendar = data.ycalendar,
zcalendar = data.zcalendar,
text;
// Convert points
for(i = 0; i < len; i++) {
// sanitize numbers and apply transforms based on axes.type
xc = xaxis.d2l(x[i], 0, xcalendar) * scaleFactor[0];
yc = yaxis.d2l(y[i], 0, ycalendar) * scaleFactor[1];
zc = zaxis.d2l(z[i], 0, zcalendar) * scaleFactor[2];
points[i] = [xc, yc, zc];
}
// convert text
if(Array.isArray(data.text)) text = data.text;
else if(data.text !== undefined) {
text = new Array(len);
for(i = 0; i < len; i++) text[i] = data.text;
}
// Build object parameters
params = {
position: points,
mode: data.mode,
text: text
};
if('line' in data) {
params.lineColor = formatColor(line, 1, len);
params.lineWidth = line.width;
params.lineDashes = line.dash;
}
if('marker' in data) {
var sizeFn = makeBubbleSizeFn(data);
params.scatterColor = formatColor(marker, 1, len);
params.scatterSize = formatParam(marker.size, len, calculateSize, 20, sizeFn);
params.scatterMarker = formatParam(marker.symbol, len, calculateSymbol, '●');
params.scatterLineWidth = marker.line.width; // arrayOk === false
params.scatterLineColor = formatColor(marker.line, 1, len);
params.scatterAngle = 0;
}
if('textposition' in data) {
params.textOffset = calculateTextOffset(data.textposition); // arrayOk === false
params.textColor = formatColor(data.textfont, 1, len);
params.textSize = formatParam(data.textfont.size, len, Lib.identity, 12);
params.textFont = data.textfont.family; // arrayOk === false
params.textAngle = 0;
}
var dims = ['x', 'y', 'z'];
params.project = [false, false, false];
params.projectScale = [1, 1, 1];
params.projectOpacity = [1, 1, 1];
for(i = 0; i < 3; ++i) {
var projection = data.projection[dims[i]];
if((params.project[i] = projection.show)) {
params.projectOpacity[i] = projection.opacity;
params.projectScale[i] = projection.scale;
}
}
params.errorBounds = calculateError(data, scaleFactor, sceneLayout);
var errorParams = calculateErrorParams([data.error_x, data.error_y, data.error_z]);
params.errorColor = errorParams.color;
params.errorLineWidth = errorParams.lineWidth;
params.errorCapSize = errorParams.capSize;
params.delaunayAxis = data.surfaceaxis;
params.delaunayColor = str2RgbaArray(data.surfacecolor);
return params;
}
function arrayToColor(color) {
if(Array.isArray(color)) {
var c = color[0];
if(Array.isArray(c)) color = c;
return 'rgb(' + color.slice(0, 3).map(function(x) {
return Math.round(x * 255);
}) + ')';
}
return null;
}
proto.update = function(data) {
var gl = this.scene.glplot.gl,
lineOptions,
scatterOptions,
errorOptions,
textOptions,
dashPattern = DASH_PATTERNS.solid;
// Save data
this.data = data;
// Run data conversion
var options = convertPlotlyOptions(this.scene, data);
if('mode' in options) {
this.mode = options.mode;
}
if('lineDashes' in options) {
if(options.lineDashes in DASH_PATTERNS) {
dashPattern = DASH_PATTERNS[options.lineDashes];
}
}
this.color = arrayToColor(options.scatterColor) ||
arrayToColor(options.lineColor);
// Save data points
this.dataPoints = options.position;
lineOptions = {
gl: gl,
position: options.position,
color: options.lineColor,
lineWidth: options.lineWidth || 1,
dashes: dashPattern[0],
dashScale: dashPattern[1],
opacity: data.opacity,
connectGaps: data.connectgaps
};
if(this.mode.indexOf('lines') !== -1) {
if(this.linePlot) this.linePlot.update(lineOptions);
else {
this.linePlot = createLinePlot(lineOptions);
this.linePlot._trace = this;
this.scene.glplot.add(this.linePlot);
}
} else if(this.linePlot) {
this.scene.glplot.remove(this.linePlot);
this.linePlot.dispose();
this.linePlot = null;
}
// N.B. marker.opacity must be a scalar for performance
var scatterOpacity = data.opacity;
if(data.marker && data.marker.opacity) scatterOpacity *= data.marker.opacity;
scatterOptions = {
gl: gl,
position: options.position,
color: options.scatterColor,
size: options.scatterSize,
glyph: options.scatterMarker,
opacity: scatterOpacity,
orthographic: true,
lineWidth: options.scatterLineWidth,
lineColor: options.scatterLineColor,
project: options.project,
projectScale: options.projectScale,
projectOpacity: options.projectOpacity
};
if(this.mode.indexOf('markers') !== -1) {
if(this.scatterPlot) this.scatterPlot.update(scatterOptions);
else {
this.scatterPlot = createScatterPlot(scatterOptions);
this.scatterPlot._trace = this;
this.scatterPlot.highlightScale = 1;
this.scene.glplot.add(this.scatterPlot);
}
} else if(this.scatterPlot) {
this.scene.glplot.remove(this.scatterPlot);
this.scatterPlot.dispose();
this.scatterPlot = null;
}
textOptions = {
gl: gl,
position: options.position,
glyph: options.text,
color: options.textColor,
size: options.textSize,
angle: options.textAngle,
alignment: options.textOffset,
font: options.textFont,
orthographic: true,
lineWidth: 0,
project: false,
opacity: data.opacity
};
this.textLabels = data.hovertext || data.text;
if(this.mode.indexOf('text') !== -1) {
if(this.textMarkers) this.textMarkers.update(textOptions);
else {
this.textMarkers = createScatterPlot(textOptions);
this.textMarkers._trace = this;
this.textMarkers.highlightScale = 1;
this.scene.glplot.add(this.textMarkers);
}
} else if(this.textMarkers) {
this.scene.glplot.remove(this.textMarkers);
this.textMarkers.dispose();
this.textMarkers = null;
}
errorOptions = {
gl: gl,
position: options.position,
color: options.errorColor,
error: options.errorBounds,
lineWidth: options.errorLineWidth,
capSize: options.errorCapSize,
opacity: data.opacity
};
if(this.errorBars) {
if(options.errorBounds) {
this.errorBars.update(errorOptions);
} else {
this.scene.glplot.remove(this.errorBars);
this.errorBars.dispose();
this.errorBars = null;
}
} else if(options.errorBounds) {
this.errorBars = createErrorBars(errorOptions);
this.errorBars._trace = this;
this.scene.glplot.add(this.errorBars);
}
if(options.delaunayAxis >= 0) {
var delaunayOptions = constructDelaunay(
options.position,
options.delaunayColor,
options.delaunayAxis
);
delaunayOptions.opacity = data.opacity;
if(this.delaunayMesh) {
this.delaunayMesh.update(delaunayOptions);
} else {
delaunayOptions.gl = gl;
this.delaunayMesh = createMesh(delaunayOptions);
this.delaunayMesh._trace = this;
this.scene.glplot.add(this.delaunayMesh);
}
} else if(this.delaunayMesh) {
this.scene.glplot.remove(this.delaunayMesh);
this.delaunayMesh.dispose();
this.delaunayMesh = null;
}
};
proto.dispose = function() {
if(this.linePlot) {
this.scene.glplot.remove(this.linePlot);
this.linePlot.dispose();
}
if(this.scatterPlot) {
this.scene.glplot.remove(this.scatterPlot);
this.scatterPlot.dispose();
}
if(this.errorBars) {
this.scene.glplot.remove(this.errorBars);
this.errorBars.dispose();
}
if(this.textMarkers) {
this.scene.glplot.remove(this.textMarkers);
this.textMarkers.dispose();
}
if(this.delaunayMesh) {
this.scene.glplot.remove(this.delaunayMesh);
this.delaunayMesh.dispose();
}
};
function createLineWithMarkers(scene, data) {
var plot = new LineWithMarkers(scene, data.uid);
plot.update(data);
return plot;
}
module.exports = createLineWithMarkers;
},{"../../constants/gl3d_dashes":667,"../../constants/gl3d_markers":668,"../../lib":693,"../../lib/gl_format_color":689,"../../lib/str2rgbarray":717,"../scatter/make_bubble_size_func":1049,"./calc_errors":1061,"delaunay-triangulate":149,"gl-error3d":236,"gl-line3d":244,"gl-mesh3d":267,"gl-scatter3d":282}],1063:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var subTypes = _dereq_('../scatter/subtypes');
var handleMarkerDefaults = _dereq_('../scatter/marker_defaults');
var handleLineDefaults = _dereq_('../scatter/line_defaults');
var handleTextDefaults = _dereq_('../scatter/text_defaults');
var attributes = _dereq_('./attributes');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
var len = handleXYZDefaults(traceIn, traceOut, coerce, layout);
if(!len) {
traceOut.visible = false;
return;
}
coerce('text');
coerce('hovertext');
coerce('mode');
if(subTypes.hasLines(traceOut)) {
coerce('connectgaps');
handleLineDefaults(traceIn, traceOut, defaultColor, layout, coerce);
}
if(subTypes.hasMarkers(traceOut)) {
handleMarkerDefaults(traceIn, traceOut, defaultColor, layout, coerce, {noSelect: true});
}
if(subTypes.hasText(traceOut)) {
handleTextDefaults(traceIn, traceOut, layout, coerce, {noSelect: true});
}
var lineColor = (traceOut.line || {}).color,
markerColor = (traceOut.marker || {}).color;
if(coerce('surfaceaxis') >= 0) coerce('surfacecolor', lineColor || markerColor);
var dims = ['x', 'y', 'z'];
for(var i = 0; i < 3; ++i) {
var projection = 'projection.' + dims[i];
if(coerce(projection + '.show')) {
coerce(projection + '.opacity');
coerce(projection + '.scale');
}
}
var errorBarsSupplyDefaults = Registry.getComponentMethod('errorbars', 'supplyDefaults');
errorBarsSupplyDefaults(traceIn, traceOut, defaultColor, {axis: 'z'});
errorBarsSupplyDefaults(traceIn, traceOut, defaultColor, {axis: 'y', inherit: 'z'});
errorBarsSupplyDefaults(traceIn, traceOut, defaultColor, {axis: 'x', inherit: 'z'});
};
function handleXYZDefaults(traceIn, traceOut, coerce, layout) {
var len = 0,
x = coerce('x'),
y = coerce('y'),
z = coerce('z');
var handleCalendarDefaults = Registry.getComponentMethod('calendars', 'handleTraceDefaults');
handleCalendarDefaults(traceIn, traceOut, ['x', 'y', 'z'], layout);
if(x && y && z) {
// TODO: what happens if one is missing?
len = Math.min(x.length, y.length, z.length);
traceOut._length = traceOut._xlength = traceOut._ylength = traceOut._zlength = len;
}
return len;
}
},{"../../lib":693,"../../registry":825,"../scatter/line_defaults":1045,"../scatter/marker_defaults":1051,"../scatter/subtypes":1056,"../scatter/text_defaults":1057,"./attributes":1059}],1064:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Scatter3D = {};
Scatter3D.plot = _dereq_('./convert');
Scatter3D.attributes = _dereq_('./attributes');
Scatter3D.markerSymbols = _dereq_('../../constants/gl3d_markers');
Scatter3D.supplyDefaults = _dereq_('./defaults');
Scatter3D.colorbar = _dereq_('../scatter/marker_colorbar');
Scatter3D.calc = _dereq_('./calc');
Scatter3D.moduleType = 'trace';
Scatter3D.name = 'scatter3d';
Scatter3D.basePlotModule = _dereq_('../../plots/gl3d');
Scatter3D.categories = ['gl3d', 'symbols', 'showLegend'];
Scatter3D.meta = {
};
module.exports = Scatter3D;
},{"../../constants/gl3d_markers":668,"../../plots/gl3d":784,"../scatter/marker_colorbar":1050,"./attributes":1059,"./calc":1060,"./convert":1062,"./defaults":1063}],1065:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var scatterAttrs = _dereq_('../scatter/attributes');
var plotAttrs = _dereq_('../../plots/attributes');
var colorAttributes = _dereq_('../../components/colorscale/attributes');
var colorbarAttrs = _dereq_('../../components/colorbar/attributes');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var scatterMarkerAttrs = scatterAttrs.marker,
scatterLineAttrs = scatterAttrs.line,
scatterMarkerLineAttrs = scatterMarkerAttrs.line;
module.exports = {
carpet: {
valType: 'string',
editType: 'calc',
},
a: {
valType: 'data_array',
editType: 'calc',
},
b: {
valType: 'data_array',
editType: 'calc',
},
mode: extendFlat({}, scatterAttrs.mode, {dflt: 'markers'}),
text: extendFlat({}, scatterAttrs.text, {
}),
line: {
color: scatterLineAttrs.color,
width: scatterLineAttrs.width,
dash: scatterLineAttrs.dash,
shape: extendFlat({}, scatterLineAttrs.shape,
{values: ['linear', 'spline']}),
smoothing: scatterLineAttrs.smoothing,
editType: 'calc'
},
connectgaps: scatterAttrs.connectgaps,
fill: extendFlat({}, scatterAttrs.fill, {
values: ['none', 'toself', 'tonext'],
dflt: 'none',
}),
fillcolor: scatterAttrs.fillcolor,
marker: extendFlat({
symbol: scatterMarkerAttrs.symbol,
opacity: scatterMarkerAttrs.opacity,
maxdisplayed: scatterMarkerAttrs.maxdisplayed,
size: scatterMarkerAttrs.size,
sizeref: scatterMarkerAttrs.sizeref,
sizemin: scatterMarkerAttrs.sizemin,
sizemode: scatterMarkerAttrs.sizemode,
line: extendFlat({
width: scatterMarkerLineAttrs.width,
editType: 'calc'
},
colorAttributes('marker.line')
),
gradient: scatterMarkerAttrs.gradient,
editType: 'calc'
}, colorAttributes('marker'), {
colorbar: colorbarAttrs
}),
textfont: scatterAttrs.textfont,
textposition: scatterAttrs.textposition,
selected: scatterAttrs.selected,
unselected: scatterAttrs.unselected,
hoverinfo: extendFlat({}, plotAttrs.hoverinfo, {
flags: ['a', 'b', 'text', 'name']
}),
hoveron: scatterAttrs.hoveron,
};
},{"../../components/colorbar/attributes":568,"../../components/colorscale/attributes":574,"../../lib/extend":682,"../../plots/attributes":739,"../scatter/attributes":1032}],1066:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var calcColorscale = _dereq_('../scatter/colorscale_calc');
var arraysToCalcdata = _dereq_('../scatter/arrays_to_calcdata');
var calcSelection = _dereq_('../scatter/calc_selection');
var calcMarkerSize = _dereq_('../scatter/calc').calcMarkerSize;
var lookupCarpet = _dereq_('../carpet/lookup_carpetid');
module.exports = function calc(gd, trace) {
var carpet = trace._carpetTrace = lookupCarpet(gd, trace);
if(!carpet || !carpet.visible || carpet.visible === 'legendonly') return;
var i;
// Transfer this over from carpet before plotting since this is a necessary
// condition in order for cartesian to actually plot this trace:
trace.xaxis = carpet.xaxis;
trace.yaxis = carpet.yaxis;
// make the calcdata array
var serieslen = trace._length;
var cd = new Array(serieslen);
var a, b;
var needsCull = false;
for(i = 0; i < serieslen; i++) {
a = trace.a[i];
b = trace.b[i];
if(isNumeric(a) && isNumeric(b)) {
var xy = carpet.ab2xy(+a, +b, true);
var visible = carpet.isVisible(+a, +b);
if(!visible) needsCull = true;
cd[i] = {x: xy[0], y: xy[1], a: a, b: b, vis: visible};
}
else cd[i] = {x: false, y: false};
}
trace._needsCull = needsCull;
cd[0].carpet = carpet;
cd[0].trace = trace;
calcMarkerSize(trace, serieslen);
calcColorscale(trace);
arraysToCalcdata(cd, trace);
calcSelection(cd, trace);
return cd;
};
},{"../carpet/lookup_carpetid":891,"../scatter/arrays_to_calcdata":1031,"../scatter/calc":1033,"../scatter/calc_selection":1034,"../scatter/colorscale_calc":1036,"fast-isnumeric":213}],1067:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var constants = _dereq_('../scatter/constants');
var subTypes = _dereq_('../scatter/subtypes');
var handleMarkerDefaults = _dereq_('../scatter/marker_defaults');
var handleLineDefaults = _dereq_('../scatter/line_defaults');
var handleLineShapeDefaults = _dereq_('../scatter/line_shape_defaults');
var handleTextDefaults = _dereq_('../scatter/text_defaults');
var handleFillColorDefaults = _dereq_('../scatter/fillcolor_defaults');
var attributes = _dereq_('./attributes');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
coerce('carpet');
// XXX: Don't hard code this
traceOut.xaxis = 'x';
traceOut.yaxis = 'y';
var a = coerce('a');
var b = coerce('b');
var len = Math.min(a.length, b.length);
if(!len) {
traceOut.visible = false;
return;
}
traceOut._length = len;
coerce('text');
var defaultMode = len < constants.PTS_LINESONLY ? 'lines+markers' : 'lines';
coerce('mode', defaultMode);
if(subTypes.hasLines(traceOut)) {
handleLineDefaults(traceIn, traceOut, defaultColor, layout, coerce);
handleLineShapeDefaults(traceIn, traceOut, coerce);
coerce('connectgaps');
}
if(subTypes.hasMarkers(traceOut)) {
handleMarkerDefaults(traceIn, traceOut, defaultColor, layout, coerce, {gradient: true});
}
if(subTypes.hasText(traceOut)) {
handleTextDefaults(traceIn, traceOut, layout, coerce);
}
var dfltHoverOn = [];
if(subTypes.hasMarkers(traceOut) || subTypes.hasText(traceOut)) {
coerce('marker.maxdisplayed');
dfltHoverOn.push('points');
}
coerce('fill');
if(traceOut.fill !== 'none') {
handleFillColorDefaults(traceIn, traceOut, defaultColor, coerce);
if(!subTypes.hasLines(traceOut)) handleLineShapeDefaults(traceIn, traceOut, coerce);
}
if(traceOut.fill === 'tonext' || traceOut.fill === 'toself') {
dfltHoverOn.push('fills');
}
coerce('hoveron', dfltHoverOn.join('+') || 'points');
Lib.coerceSelectionMarkerOpacity(traceOut, coerce);
};
},{"../../lib":693,"../scatter/constants":1037,"../scatter/fillcolor_defaults":1041,"../scatter/line_defaults":1045,"../scatter/line_shape_defaults":1047,"../scatter/marker_defaults":1051,"../scatter/subtypes":1056,"../scatter/text_defaults":1057,"./attributes":1065}],1068:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function eventData(out, pt, trace, cd, pointNumber) {
var cdi = cd[pointNumber];
out.a = cdi.a;
out.b = cdi.b;
return out;
};
},{}],1069:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var scatterHover = _dereq_('../scatter/hover');
module.exports = function hoverPoints(pointData, xval, yval, hovermode) {
var scatterPointData = scatterHover(pointData, xval, yval, hovermode);
if(!scatterPointData || scatterPointData[0].index === false) return;
var newPointData = scatterPointData[0];
// if hovering on a fill, we don't show any point data so the label is
// unchanged from what scatter gives us - except that it needs to
// be constrained to the trianglular plot area, not just the rectangular
// area defined by the synthetic x and y axes
// TODO: in some cases the vertical middle of the shape is not within
// the triangular viewport at all, so the label can become disconnected
// from the shape entirely. But calculating what portion of the shape
// is actually visible, as constrained by the diagonal axis lines, is not
// so easy and anyway we lost the information we would have needed to do
// this inside scatterHover.
if(newPointData.index === undefined) {
var yFracUp = 1 - (newPointData.y0 / pointData.ya._length),
xLen = pointData.xa._length,
xMin = xLen * yFracUp / 2,
xMax = xLen - xMin;
newPointData.x0 = Math.max(Math.min(newPointData.x0, xMax), xMin);
newPointData.x1 = Math.max(Math.min(newPointData.x1, xMax), xMin);
return scatterPointData;
}
var cdi = newPointData.cd[newPointData.index];
newPointData.a = cdi.a;
newPointData.b = cdi.b;
newPointData.xLabelVal = undefined;
newPointData.yLabelVal = undefined;
// TODO: nice formatting, and label by axis title, for a, b, and c?
var trace = newPointData.trace;
var carpet = trace._carpet;
var hoverinfo = cdi.hi || trace.hoverinfo;
var parts = hoverinfo.split('+');
var text = [];
function textPart(ax, val) {
var prefix;
if(ax.labelprefix && ax.labelprefix.length > 0) {
prefix = ax.labelprefix.replace(/ = $/, '');
} else {
prefix = ax._hovertitle;
}
text.push(prefix + ': ' + val.toFixed(3) + ax.labelsuffix);
}
if(parts.indexOf('all') !== -1) parts = ['a', 'b'];
if(parts.indexOf('a') !== -1) textPart(carpet.aaxis, cdi.a);
if(parts.indexOf('b') !== -1) textPart(carpet.baxis, cdi.b);
var ij = carpet.ab2ij([cdi.a, cdi.b]);
var i0 = Math.floor(ij[0]);
var ti = ij[0] - i0;
var j0 = Math.floor(ij[1]);
var tj = ij[1] - j0;
var xy = carpet.evalxy([], i0, j0, ti, tj);
text.push('y: ' + xy[1].toFixed(3));
newPointData.extraText = text.join('<br>');
return scatterPointData;
};
},{"../scatter/hover":1043}],1070:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var ScatterCarpet = {};
ScatterCarpet.attributes = _dereq_('./attributes');
ScatterCarpet.supplyDefaults = _dereq_('./defaults');
ScatterCarpet.colorbar = _dereq_('../scatter/marker_colorbar');
ScatterCarpet.calc = _dereq_('./calc');
ScatterCarpet.plot = _dereq_('./plot');
ScatterCarpet.style = _dereq_('../scatter/style').style;
ScatterCarpet.styleOnSelect = _dereq_('../scatter/style').styleOnSelect;
ScatterCarpet.hoverPoints = _dereq_('./hover');
ScatterCarpet.selectPoints = _dereq_('../scatter/select');
ScatterCarpet.eventData = _dereq_('./event_data');
ScatterCarpet.moduleType = 'trace';
ScatterCarpet.name = 'scattercarpet';
ScatterCarpet.basePlotModule = _dereq_('../../plots/cartesian');
ScatterCarpet.categories = ['svg', 'carpet', 'symbols', 'showLegend', 'carpetDependent', 'zoomScale'];
ScatterCarpet.meta = {
};
module.exports = ScatterCarpet;
},{"../../plots/cartesian":753,"../scatter/marker_colorbar":1050,"../scatter/select":1053,"../scatter/style":1055,"./attributes":1065,"./calc":1066,"./defaults":1067,"./event_data":1068,"./hover":1069,"./plot":1071}],1071:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var scatterPlot = _dereq_('../scatter/plot');
var Axes = _dereq_('../../plots/cartesian/axes');
var Drawing = _dereq_('../../components/drawing');
module.exports = function plot(gd, plotinfoproxy, data, layer) {
var i, trace, node;
var carpet = data[0][0].carpet;
// mimic cartesian plotinfo
var plotinfo = {
xaxis: Axes.getFromId(gd, carpet.xaxis || 'x'),
yaxis: Axes.getFromId(gd, carpet.yaxis || 'y'),
plot: plotinfoproxy.plot,
};
scatterPlot(gd, plotinfo, data, layer);
for(i = 0; i < data.length; i++) {
trace = data[i][0].trace;
// Note: .select is adequate but seems to mutate the node data,
// which is at least a bit suprising and causes problems elsewhere
node = layer.selectAll('g.trace' + trace.uid + ' .js-line');
// Note: it would be more efficient if this didn't need to be applied
// separately to all scattercarpet traces, but that would require
// lots of reorganization of scatter traces that is otherwise not
// necessary. That makes this a potential optimization.
Drawing.setClipUrl(node, carpet._clipPathId);
}
};
},{"../../components/drawing":592,"../../plots/cartesian/axes":742,"../scatter/plot":1052}],1072:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var scatterAttrs = _dereq_('../scatter/attributes');
var plotAttrs = _dereq_('../../plots/attributes');
var colorAttributes = _dereq_('../../components/colorscale/attributes');
var dash = _dereq_('../../components/drawing/attributes').dash;
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll;
var scatterMarkerAttrs = scatterAttrs.marker,
scatterLineAttrs = scatterAttrs.line,
scatterMarkerLineAttrs = scatterMarkerAttrs.line;
module.exports = overrideAll({
lon: {
valType: 'data_array',
},
lat: {
valType: 'data_array',
},
locations: {
valType: 'data_array',
},
locationmode: {
valType: 'enumerated',
values: ['ISO-3', 'USA-states', 'country names'],
dflt: 'ISO-3',
},
mode: extendFlat({}, scatterAttrs.mode, {dflt: 'markers'}),
text: extendFlat({}, scatterAttrs.text, {
}),
hovertext: extendFlat({}, scatterAttrs.hovertext, {
}),
textfont: scatterAttrs.textfont,
textposition: scatterAttrs.textposition,
line: {
color: scatterLineAttrs.color,
width: scatterLineAttrs.width,
dash: dash
},
connectgaps: scatterAttrs.connectgaps,
marker: extendFlat({
symbol: scatterMarkerAttrs.symbol,
opacity: scatterMarkerAttrs.opacity,
size: scatterMarkerAttrs.size,
sizeref: scatterMarkerAttrs.sizeref,
sizemin: scatterMarkerAttrs.sizemin,
sizemode: scatterMarkerAttrs.sizemode,
colorbar: scatterMarkerAttrs.colorbar,
line: extendFlat({
width: scatterMarkerLineAttrs.width
},
colorAttributes('marker.line')
),
gradient: scatterMarkerAttrs.gradient
},
colorAttributes('marker')
),
fill: {
valType: 'enumerated',
values: ['none', 'toself'],
dflt: 'none',
},
fillcolor: scatterAttrs.fillcolor,
selected: scatterAttrs.selected,
unselected: scatterAttrs.unselected,
hoverinfo: extendFlat({}, plotAttrs.hoverinfo, {
flags: ['lon', 'lat', 'location', 'text', 'name']
})
}, 'calc', 'nested');
},{"../../components/colorscale/attributes":574,"../../components/drawing/attributes":591,"../../lib/extend":682,"../../plot_api/edit_types":725,"../../plots/attributes":739,"../scatter/attributes":1032}],1073:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var BADNUM = _dereq_('../../constants/numerical').BADNUM;
var calcMarkerColorscale = _dereq_('../scatter/colorscale_calc');
var arraysToCalcdata = _dereq_('../scatter/arrays_to_calcdata');
var calcSelection = _dereq_('../scatter/calc_selection');
var _ = _dereq_('../../lib')._;
module.exports = function calc(gd, trace) {
var hasLocationData = Array.isArray(trace.locations);
var len = hasLocationData ? trace.locations.length : trace._length;
var calcTrace = new Array(len);
for(var i = 0; i < len; i++) {
var calcPt = calcTrace[i] = {};
if(hasLocationData) {
var loc = trace.locations[i];
calcPt.loc = typeof loc === 'string' ? loc : null;
} else {
var lon = trace.lon[i];
var lat = trace.lat[i];
if(isNumeric(lon) && isNumeric(lat)) calcPt.lonlat = [+lon, +lat];
else calcPt.lonlat = [BADNUM, BADNUM];
}
}
arraysToCalcdata(calcTrace, trace);
calcMarkerColorscale(trace);
calcSelection(calcTrace, trace);
if(len) {
calcTrace[0].t = {
labels: {
lat: _(gd, 'lat:') + ' ',
lon: _(gd, 'lon:') + ' '
}
};
}
return calcTrace;
};
},{"../../constants/numerical":670,"../../lib":693,"../scatter/arrays_to_calcdata":1031,"../scatter/calc_selection":1034,"../scatter/colorscale_calc":1036,"fast-isnumeric":213}],1074:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var subTypes = _dereq_('../scatter/subtypes');
var handleMarkerDefaults = _dereq_('../scatter/marker_defaults');
var handleLineDefaults = _dereq_('../scatter/line_defaults');
var handleTextDefaults = _dereq_('../scatter/text_defaults');
var handleFillColorDefaults = _dereq_('../scatter/fillcolor_defaults');
var attributes = _dereq_('./attributes');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
var len = handleLonLatLocDefaults(traceIn, traceOut, coerce);
if(!len) {
traceOut.visible = false;
return;
}
coerce('text');
coerce('hovertext');
coerce('mode');
if(subTypes.hasLines(traceOut)) {
handleLineDefaults(traceIn, traceOut, defaultColor, layout, coerce);
coerce('connectgaps');
}
if(subTypes.hasMarkers(traceOut)) {
handleMarkerDefaults(traceIn, traceOut, defaultColor, layout, coerce, {gradient: true});
}
if(subTypes.hasText(traceOut)) {
handleTextDefaults(traceIn, traceOut, layout, coerce);
}
coerce('fill');
if(traceOut.fill !== 'none') {
handleFillColorDefaults(traceIn, traceOut, defaultColor, coerce);
}
Lib.coerceSelectionMarkerOpacity(traceOut, coerce);
};
function handleLonLatLocDefaults(traceIn, traceOut, coerce) {
var len = 0,
locations = coerce('locations');
var lon, lat;
if(locations) {
coerce('locationmode');
len = locations.length;
return len;
}
lon = coerce('lon') || [];
lat = coerce('lat') || [];
len = Math.min(lon.length, lat.length);
traceOut._length = len;
return len;
}
},{"../../lib":693,"../scatter/fillcolor_defaults":1041,"../scatter/line_defaults":1045,"../scatter/marker_defaults":1051,"../scatter/subtypes":1056,"../scatter/text_defaults":1057,"./attributes":1072}],1075:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function eventData(out, pt) {
out.lon = pt.lon;
out.lat = pt.lat;
out.location = pt.loc ? pt.loc : null;
return out;
};
},{}],1076:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Fx = _dereq_('../../components/fx');
var Axes = _dereq_('../../plots/cartesian/axes');
var BADNUM = _dereq_('../../constants/numerical').BADNUM;
var getTraceColor = _dereq_('../scatter/get_trace_color');
var fillHoverText = _dereq_('../scatter/fill_hover_text');
var attributes = _dereq_('./attributes');
module.exports = function hoverPoints(pointData, xval, yval) {
var cd = pointData.cd;
var trace = cd[0].trace;
var xa = pointData.xa;
var ya = pointData.ya;
var geo = pointData.subplot;
var isLonLatOverEdges = geo.projection.isLonLatOverEdges;
var project = geo.project;
function distFn(d) {
var lonlat = d.lonlat;
if(lonlat[0] === BADNUM) return Infinity;
if(isLonLatOverEdges(lonlat)) return Infinity;
var pt = project(lonlat);
var px = project([xval, yval]);
var dx = Math.abs(pt[0] - px[0]);
var dy = Math.abs(pt[1] - px[1]);
var rad = Math.max(3, d.mrc || 0);
// N.B. d.mrc is the calculated marker radius
// which is only set for trace with 'markers' mode.
return Math.max(Math.sqrt(dx * dx + dy * dy) - rad, 1 - 3 / rad);
}
Fx.getClosest(cd, distFn, pointData);
// skip the rest (for this trace) if we didn't find a close point
if(pointData.index === false) return;
var di = cd[pointData.index];
var lonlat = di.lonlat;
var pos = [xa.c2p(lonlat), ya.c2p(lonlat)];
var rad = di.mrc || 1;
pointData.x0 = pos[0] - rad;
pointData.x1 = pos[0] + rad;
pointData.y0 = pos[1] - rad;
pointData.y1 = pos[1] + rad;
pointData.loc = di.loc;
pointData.lon = lonlat[0];
pointData.lat = lonlat[1];
pointData.color = getTraceColor(trace, di);
pointData.extraText = getExtraText(trace, di, geo.mockAxis, cd[0].t.labels);
return [pointData];
};
function getExtraText(trace, pt, axis, labels) {
var hoverinfo = pt.hi || trace.hoverinfo;
var parts = hoverinfo === 'all' ?
attributes.hoverinfo.flags :
hoverinfo.split('+');
var hasLocation = parts.indexOf('location') !== -1 && Array.isArray(trace.locations);
var hasLon = (parts.indexOf('lon') !== -1);
var hasLat = (parts.indexOf('lat') !== -1);
var hasText = (parts.indexOf('text') !== -1);
var text = [];
function format(val) {
return Axes.tickText(axis, axis.c2l(val), 'hover').text + '\u00B0';
}
if(hasLocation) {
text.push(pt.loc);
} else if(hasLon && hasLat) {
text.push('(' + format(pt.lonlat[0]) + ', ' + format(pt.lonlat[1]) + ')');
} else if(hasLon) {
text.push(labels.lon + format(pt.lonlat[0]));
} else if(hasLat) {
text.push(labels.lat + format(pt.lonlat[1]));
}
if(hasText) {
fillHoverText(pt, trace, text);
}
return text.join('<br>');
}
},{"../../components/fx":609,"../../constants/numerical":670,"../../plots/cartesian/axes":742,"../scatter/fill_hover_text":1040,"../scatter/get_trace_color":1042,"./attributes":1072}],1077:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var ScatterGeo = {};
ScatterGeo.attributes = _dereq_('./attributes');
ScatterGeo.supplyDefaults = _dereq_('./defaults');
ScatterGeo.colorbar = _dereq_('../scatter/marker_colorbar');
ScatterGeo.calc = _dereq_('./calc');
ScatterGeo.plot = _dereq_('./plot');
ScatterGeo.style = _dereq_('./style');
ScatterGeo.styleOnSelect = _dereq_('../scatter/style').styleOnSelect;
ScatterGeo.hoverPoints = _dereq_('./hover');
ScatterGeo.eventData = _dereq_('./event_data');
ScatterGeo.selectPoints = _dereq_('./select');
ScatterGeo.moduleType = 'trace';
ScatterGeo.name = 'scattergeo';
ScatterGeo.basePlotModule = _dereq_('../../plots/geo');
ScatterGeo.categories = ['geo', 'symbols', 'showLegend', 'scatter-like'];
ScatterGeo.meta = {
};
module.exports = ScatterGeo;
},{"../../plots/geo":772,"../scatter/marker_colorbar":1050,"../scatter/style":1055,"./attributes":1072,"./calc":1073,"./defaults":1074,"./event_data":1075,"./hover":1076,"./plot":1078,"./select":1079,"./style":1080}],1078:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Lib = _dereq_('../../lib');
var BADNUM = _dereq_('../../constants/numerical').BADNUM;
var getTopojsonFeatures = _dereq_('../../lib/topojson_utils').getTopojsonFeatures;
var locationToFeature = _dereq_('../../lib/geo_location_utils').locationToFeature;
var geoJsonUtils = _dereq_('../../lib/geojson_utils');
var subTypes = _dereq_('../scatter/subtypes');
var style = _dereq_('./style');
module.exports = function plot(gd, geo, calcData) {
for(var i = 0; i < calcData.length; i++) {
calcGeoJSON(calcData[i], geo.topojson);
}
function removeBADNUM(d, node) {
if(d.lonlat[0] === BADNUM) {
d3.select(node).remove();
}
}
var scatterLayer = geo.layers.frontplot.select('.scatterlayer');
var gTraces = Lib.makeTraceGroups(scatterLayer, calcData, 'trace scattergeo');
// TODO find a way to order the inner nodes on update
gTraces.selectAll('*').remove();
gTraces.each(function(calcTrace) {
var s = calcTrace[0].node3 = d3.select(this);
var trace = calcTrace[0].trace;
if(subTypes.hasLines(trace) || trace.fill !== 'none') {
var lineCoords = geoJsonUtils.calcTraceToLineCoords(calcTrace);
var lineData = (trace.fill !== 'none') ?
geoJsonUtils.makePolygon(lineCoords) :
geoJsonUtils.makeLine(lineCoords);
s.selectAll('path.js-line')
.data([{geojson: lineData, trace: trace}])
.enter().append('path')
.classed('js-line', true)
.style('stroke-miterlimit', 2);
}
if(subTypes.hasMarkers(trace)) {
s.selectAll('path.point')
.data(Lib.identity)
.enter().append('path')
.classed('point', true)
.each(function(calcPt) { removeBADNUM(calcPt, this); });
}
if(subTypes.hasText(trace)) {
s.selectAll('g')
.data(Lib.identity)
.enter().append('g')
.append('text')
.each(function(calcPt) { removeBADNUM(calcPt, this); });
}
// call style here within topojson request callback
style(gd, calcTrace);
});
};
function calcGeoJSON(calcTrace, topojson) {
var trace = calcTrace[0].trace;
if(!Array.isArray(trace.locations)) return;
var features = getTopojsonFeatures(trace, topojson);
var locationmode = trace.locationmode;
for(var i = 0; i < calcTrace.length; i++) {
var calcPt = calcTrace[i];
var feature = locationToFeature(locationmode, calcPt.loc, features);
calcPt.lonlat = feature ? feature.properties.ct : [BADNUM, BADNUM];
}
}
},{"../../constants/numerical":670,"../../lib":693,"../../lib/geo_location_utils":685,"../../lib/geojson_utils":686,"../../lib/topojson_utils":721,"../scatter/subtypes":1056,"./style":1080,"d3":147}],1079:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var subtypes = _dereq_('../scatter/subtypes');
var BADNUM = _dereq_('../../constants/numerical').BADNUM;
module.exports = function selectPoints(searchInfo, selectionTester) {
var cd = searchInfo.cd;
var xa = searchInfo.xaxis;
var ya = searchInfo.yaxis;
var selection = [];
var trace = cd[0].trace;
var di, lonlat, x, y, i;
var hasOnlyLines = (!subtypes.hasMarkers(trace) && !subtypes.hasText(trace));
if(hasOnlyLines) return [];
if(selectionTester === false) {
for(i = 0; i < cd.length; i++) {
cd[i].selected = 0;
}
} else {
for(i = 0; i < cd.length; i++) {
di = cd[i];
lonlat = di.lonlat;
// some projection types can't handle BADNUMs
if(lonlat[0] === BADNUM) continue;
x = xa.c2p(lonlat);
y = ya.c2p(lonlat);
if(selectionTester.contains([x, y], null, i, searchInfo)) {
selection.push({
pointNumber: i,
lon: lonlat[0],
lat: lonlat[1]
});
di.selected = 1;
} else {
di.selected = 0;
}
}
}
return selection;
};
},{"../../constants/numerical":670,"../scatter/subtypes":1056}],1080:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Drawing = _dereq_('../../components/drawing');
var Color = _dereq_('../../components/color');
var scatterStyle = _dereq_('../scatter/style');
var stylePoints = scatterStyle.stylePoints;
var styleText = scatterStyle.styleText;
module.exports = function style(gd, calcTrace) {
if(calcTrace) styleTrace(gd, calcTrace);
};
function styleTrace(gd, calcTrace) {
var trace = calcTrace[0].trace;
var s = calcTrace[0].node3;
s.style('opacity', calcTrace[0].trace.opacity);
stylePoints(s, trace, gd);
styleText(s, trace, gd);
// this part is incompatible with Drawing.lineGroupStyle
s.selectAll('path.js-line')
.style('fill', 'none')
.each(function(d) {
var path = d3.select(this);
var trace = d.trace;
var line = trace.line || {};
path.call(Color.stroke, line.color)
.call(Drawing.dashLine, line.dash || '', line.width || 0);
if(trace.fill !== 'none') {
path.call(Color.fill, trace.fillcolor);
}
});
}
},{"../../components/color":567,"../../components/drawing":592,"../scatter/style":1055,"d3":147}],1081:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var plotAttrs = _dereq_('../../plots/attributes');
var scatterAttrs = _dereq_('../scatter/attributes');
var colorAttrs = _dereq_('../../components/colorscale/attributes');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll;
var DASHES = _dereq_('./constants').DASHES;
var scatterLineAttrs = scatterAttrs.line;
var scatterMarkerAttrs = scatterAttrs.marker;
var scatterMarkerLineAttrs = scatterMarkerAttrs.line;
var attrs = module.exports = overrideAll({
x: scatterAttrs.x,
x0: scatterAttrs.x0,
dx: scatterAttrs.dx,
y: scatterAttrs.y,
y0: scatterAttrs.y0,
dy: scatterAttrs.dy,
text: extendFlat({}, scatterAttrs.text, {
}),
hovertext: scatterAttrs.hovertext,
textposition: scatterAttrs.textposition,
textfont: scatterAttrs.textfont,
mode: {
valType: 'flaglist',
flags: ['lines', 'markers', 'text'],
extras: ['none'],
},
line: {
color: scatterLineAttrs.color,
width: scatterLineAttrs.width,
dash: {
valType: 'enumerated',
values: Object.keys(DASHES),
dflt: 'solid',
}
},
marker: extendFlat({}, colorAttrs('marker'), {
symbol: scatterMarkerAttrs.symbol,
size: scatterMarkerAttrs.size,
sizeref: scatterMarkerAttrs.sizeref,
sizemin: scatterMarkerAttrs.sizemin,
sizemode: scatterMarkerAttrs.sizemode,
opacity: scatterMarkerAttrs.opacity,
colorbar: scatterMarkerAttrs.colorbar,
line: extendFlat({}, colorAttrs('marker.line'), {
width: scatterMarkerLineAttrs.width
})
}),
connectgaps: scatterAttrs.connectgaps,
fill: extendFlat({}, scatterAttrs.fill, {dflt: 'none'}),
fillcolor: scatterAttrs.fillcolor,
// no hoveron
selected: {
marker: scatterAttrs.selected.marker,
textfont: scatterAttrs.selected.textfont
},
unselected: {
marker: scatterAttrs.unselected.marker,
textfont: scatterAttrs.unselected.textfont
},
opacity: plotAttrs.opacity
}, 'calc', 'nested');
attrs.x.editType = attrs.y.editType = attrs.x0.editType = attrs.y0.editType = 'calc+clearAxisTypes';
},{"../../components/colorscale/attributes":574,"../../lib/extend":682,"../../plot_api/edit_types":725,"../../plots/attributes":739,"../scatter/attributes":1032,"./constants":1082}],1082:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var SYMBOL_SIZE = 20;
module.exports = {
TOO_MANY_POINTS: 1e5,
SYMBOL_SDF_SIZE: 200,
SYMBOL_SIZE: SYMBOL_SIZE,
SYMBOL_STROKE: SYMBOL_SIZE / 20,
DOT_RE: /-dot/,
OPEN_RE: /-open/,
DASHES: {
solid: [1],
dot: [1, 1],
dash: [4, 1],
longdash: [8, 1],
dashdot: [4, 1, 1, 1],
longdashdot: [8, 1, 1, 1]
}
};
},{}],1083:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var svgSdf = _dereq_('svg-path-sdf');
var rgba = _dereq_('color-normalize');
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var Drawing = _dereq_('../../components/drawing');
var AxisIDs = _dereq_('../../plots/cartesian/axis_ids');
var formatColor = _dereq_('../../lib/gl_format_color').formatColor;
var subTypes = _dereq_('../scatter/subtypes');
var makeBubbleSizeFn = _dereq_('../scatter/make_bubble_size_func');
var constants = _dereq_('./constants');
var DESELECTDIM = _dereq_('../../constants/interactions').DESELECTDIM;
var TEXTOFFSETSIGN = {
start: 1, left: 1, end: -1, right: -1, middle: 0, center: 0, bottom: 1, top: -1
};
function convertStyle(gd, trace) {
var i;
var opts = {
marker: undefined,
markerSel: undefined,
markerUnsel: undefined,
line: undefined,
fill: undefined,
errorX: undefined,
errorY: undefined,
text: undefined,
textSel: undefined,
textUnsel: undefined
};
if(trace.visible !== true) return opts;
if(subTypes.hasText(trace)) {
opts.text = convertTextStyle(trace);
opts.textSel = convertTextSelection(trace, trace.selected);
opts.textUnsel = convertTextSelection(trace, trace.unselected);
}
if(subTypes.hasMarkers(trace)) {
opts.marker = convertMarkerStyle(trace);
opts.markerSel = convertMarkerSelection(trace, trace.selected);
opts.markerUnsel = convertMarkerSelection(trace, trace.unselected);
if(!trace.unselected && Array.isArray(trace.marker.opacity)) {
var mo = trace.marker.opacity;
opts.markerUnsel.opacity = new Array(mo.length);
for(i = 0; i < mo.length; i++) {
opts.markerUnsel.opacity[i] = DESELECTDIM * mo[i];
}
}
}
if(subTypes.hasLines(trace)) {
opts.line = {
overlay: true,
thickness: trace.line.width,
color: trace.line.color,
opacity: trace.opacity
};
var dashes = (constants.DASHES[trace.line.dash] || [1]).slice();
for(i = 0; i < dashes.length; ++i) {
dashes[i] *= trace.line.width;
}
opts.line.dashes = dashes;
}
if(trace.error_x && trace.error_x.visible) {
opts.errorX = convertErrorBarStyle(trace, trace.error_x);
}
if(trace.error_y && trace.error_y.visible) {
opts.errorY = convertErrorBarStyle(trace, trace.error_y);
}
if(!!trace.fill && trace.fill !== 'none') {
opts.fill = {
closed: true,
fill: trace.fillcolor,
thickness: 0
};
}
return opts;
}
function convertTextStyle(trace) {
var count = trace._length;
var textfontIn = trace.textfont;
var textpositionIn = trace.textposition;
var textPos = Array.isArray(textpositionIn) ? textpositionIn : [textpositionIn];
var tfc = textfontIn.color;
var tfs = textfontIn.size;
var tff = textfontIn.family;
var optsOut = {};
var i;
optsOut.text = trace.text;
optsOut.opacity = trace.opacity;
optsOut.font = {};
optsOut.align = [];
optsOut.baseline = [];
for(i = 0; i < textPos.length; i++) {
var tp = textPos[i].split(/\s+/);
switch(tp[1]) {
case 'left':
optsOut.align.push('right');
break;
case 'right':
optsOut.align.push('left');
break;
default:
optsOut.align.push(tp[1]);
}
switch(tp[0]) {
case 'top':
optsOut.baseline.push('bottom');
break;
case 'bottom':
optsOut.baseline.push('top');
break;
default:
optsOut.baseline.push(tp[0]);
}
}
if(Array.isArray(tfc)) {
optsOut.color = new Array(count);
for(i = 0; i < count; i++) {
optsOut.color[i] = tfc[i];
}
} else {
optsOut.color = tfc;
}
if(Array.isArray(tfs) || Array.isArray(tff)) {
// if any textfont param is array - make render a batch
optsOut.font = new Array(count);
for(i = 0; i < count; i++) {
var fonti = optsOut.font[i] = {};
fonti.size = Array.isArray(tfs) ?
(isNumeric(tfs[i]) ? tfs[i] : 0) :
tfs;
fonti.family = Array.isArray(tff) ? tff[i] : tff;
}
} else {
// if both are single values, make render fast single-value
optsOut.font = {size: tfs, family: tff};
}
return optsOut;
}
function convertMarkerStyle(trace) {
var count = trace._length;
var optsIn = trace.marker;
var optsOut = {};
var i;
var multiSymbol = Array.isArray(optsIn.symbol);
var multiColor = Lib.isArrayOrTypedArray(optsIn.color);
var multiLineColor = Lib.isArrayOrTypedArray(optsIn.line.color);
var multiOpacity = Lib.isArrayOrTypedArray(optsIn.opacity);
var multiSize = Lib.isArrayOrTypedArray(optsIn.size);
var multiLineWidth = Lib.isArrayOrTypedArray(optsIn.line.width);
var isOpen;
if(!multiSymbol) isOpen = constants.OPEN_RE.test(optsIn.symbol);
// prepare colors
if(multiSymbol || multiColor || multiLineColor || multiOpacity) {
optsOut.colors = new Array(count);
optsOut.borderColors = new Array(count);
var colors = formatColor(optsIn, optsIn.opacity, count);
var borderColors = formatColor(optsIn.line, optsIn.opacity, count);
if(!Array.isArray(borderColors[0])) {
var borderColor = borderColors;
borderColors = Array(count);
for(i = 0; i < count; i++) {
borderColors[i] = borderColor;
}
}
if(!Array.isArray(colors[0])) {
var color = colors;
colors = Array(count);
for(i = 0; i < count; i++) {
colors[i] = color;
}
}
optsOut.colors = colors;
optsOut.borderColors = borderColors;
for(i = 0; i < count; i++) {
if(multiSymbol) {
var symbol = optsIn.symbol[i];
isOpen = constants.OPEN_RE.test(symbol);
}
if(isOpen) {
borderColors[i] = colors[i].slice();
colors[i] = colors[i].slice();
colors[i][3] = 0;
}
}
optsOut.opacity = trace.opacity;
} else {
if(isOpen) {
optsOut.color = rgba(optsIn.color, 'uint8');
optsOut.color[3] = 0;
optsOut.borderColor = rgba(optsIn.color, 'uint8');
} else {
optsOut.color = rgba(optsIn.color, 'uint8');
optsOut.borderColor = rgba(optsIn.line.color, 'uint8');
}
optsOut.opacity = trace.opacity * optsIn.opacity;
}
// prepare symbols
if(multiSymbol) {
optsOut.markers = new Array(count);
for(i = 0; i < count; i++) {
optsOut.markers[i] = getSymbolSdf(optsIn.symbol[i]);
}
} else {
optsOut.marker = getSymbolSdf(optsIn.symbol);
}
// prepare sizes
var markerSizeFunc = makeBubbleSizeFn(trace);
var s;
if(multiSize || multiLineWidth) {
var sizes = optsOut.sizes = new Array(count);
var borderSizes = optsOut.borderSizes = new Array(count);
var sizeTotal = 0;
var sizeAvg;
if(multiSize) {
for(i = 0; i < count; i++) {
sizes[i] = markerSizeFunc(optsIn.size[i]);
sizeTotal += sizes[i];
}
sizeAvg = sizeTotal / count;
} else {
s = markerSizeFunc(optsIn.size);
for(i = 0; i < count; i++) {
sizes[i] = s;
}
}
// See https://github.com/plotly/plotly.js/pull/1781#discussion_r121820798
if(multiLineWidth) {
for(i = 0; i < count; i++) {
borderSizes[i] = optsIn.line.width[i] / 2;
}
} else {
s = optsIn.line.width / 2;
for(i = 0; i < count; i++) {
borderSizes[i] = s;
}
}
optsOut.sizeAvg = sizeAvg;
} else {
optsOut.size = markerSizeFunc(optsIn && optsIn.size || 10);
optsOut.borderSizes = markerSizeFunc(optsIn.line.width);
}
return optsOut;
}
function convertMarkerSelection(trace, target) {
var optsIn = trace.marker;
var optsOut = {};
if(!target) return optsOut;
if(target.marker && target.marker.symbol) {
optsOut = convertMarkerStyle(Lib.extendFlat({}, optsIn, target.marker));
} else if(target.marker) {
if(target.marker.size) optsOut.size = target.marker.size / 2;
if(target.marker.color) optsOut.colors = target.marker.color;
if(target.marker.opacity !== undefined) optsOut.opacity = target.marker.opacity;
}
return optsOut;
}
function convertTextSelection(trace, target) {
var optsOut = {};
if(!target) return optsOut;
if(target.textfont) {
var optsIn = {
opacity: 1,
text: trace.text,
textposition: trace.textposition,
textfont: Lib.extendFlat({}, trace.textfont)
};
if(target.textfont) {
Lib.extendFlat(optsIn.textfont, target.textfont);
}
optsOut = convertTextStyle(optsIn);
}
return optsOut;
}
function convertErrorBarStyle(trace, target) {
var optsOut = {
capSize: target.width * 2,
lineWidth: target.thickness,
color: target.color
};
if(target.copy_ystyle) {
optsOut = trace.error_y;
}
return optsOut;
}
var SYMBOL_SDF_SIZE = constants.SYMBOL_SDF_SIZE;
var SYMBOL_SIZE = constants.SYMBOL_SIZE;
var SYMBOL_STROKE = constants.SYMBOL_STROKE;
var SYMBOL_SDF = {};
var SYMBOL_SVG_CIRCLE = Drawing.symbolFuncs[0](SYMBOL_SIZE * 0.05);
function getSymbolSdf(symbol) {
if(symbol === 'circle') return null;
var symbolPath, symbolSdf;
var symbolNumber = Drawing.symbolNumber(symbol);
var symbolFunc = Drawing.symbolFuncs[symbolNumber % 100];
var symbolNoDot = !!Drawing.symbolNoDot[symbolNumber % 100];
var symbolNoFill = !!Drawing.symbolNoFill[symbolNumber % 100];
var isDot = constants.DOT_RE.test(symbol);
// get symbol sdf from cache or generate it
if(SYMBOL_SDF[symbol]) return SYMBOL_SDF[symbol];
if(isDot && !symbolNoDot) {
symbolPath = symbolFunc(SYMBOL_SIZE * 1.1) + SYMBOL_SVG_CIRCLE;
}
else {
symbolPath = symbolFunc(SYMBOL_SIZE);
}
symbolSdf = svgSdf(symbolPath, {
w: SYMBOL_SDF_SIZE,
h: SYMBOL_SDF_SIZE,
viewBox: [-SYMBOL_SIZE, -SYMBOL_SIZE, SYMBOL_SIZE, SYMBOL_SIZE],
stroke: symbolNoFill ? SYMBOL_STROKE : -SYMBOL_STROKE
});
SYMBOL_SDF[symbol] = symbolSdf;
return symbolSdf || null;
}
function convertLinePositions(gd, trace, positions) {
var count = positions.length / 2;
var linePositions;
var i;
if(subTypes.hasLines(trace) && count) {
if(trace.line.shape === 'hv') {
linePositions = [];
for(i = 0; i < count - 1; i++) {
if(isNaN(positions[i * 2]) || isNaN(positions[i * 2 + 1])) {
linePositions.push(NaN);
linePositions.push(NaN);
linePositions.push(NaN);
linePositions.push(NaN);
}
else {
linePositions.push(positions[i * 2]);
linePositions.push(positions[i * 2 + 1]);
linePositions.push(positions[i * 2 + 2]);
linePositions.push(positions[i * 2 + 1]);
}
}
linePositions.push(positions[positions.length - 2]);
linePositions.push(positions[positions.length - 1]);
} else if(trace.line.shape === 'vh') {
linePositions = [];
for(i = 0; i < count - 1; i++) {
if(isNaN(positions[i * 2]) || isNaN(positions[i * 2 + 1])) {
linePositions.push(NaN);
linePositions.push(NaN);
linePositions.push(NaN);
linePositions.push(NaN);
}
else {
linePositions.push(positions[i * 2]);
linePositions.push(positions[i * 2 + 1]);
linePositions.push(positions[i * 2]);
linePositions.push(positions[i * 2 + 3]);
}
}
linePositions.push(positions[positions.length - 2]);
linePositions.push(positions[positions.length - 1]);
} else {
linePositions = positions;
}
}
// If we have data with gaps, we ought to use rect joins
// FIXME: get rid of this
var hasNaN = false;
for(i = 0; i < linePositions.length; i++) {
if(isNaN(linePositions[i])) {
hasNaN = true;
break;
}
}
var join = (hasNaN || linePositions.length > constants.TOO_MANY_POINTS) ? 'rect' :
subTypes.hasMarkers(trace) ? 'rect' : 'round';
// fill gaps
if(hasNaN && trace.connectgaps) {
var lastX = linePositions[0];
var lastY = linePositions[1];
for(i = 0; i < linePositions.length; i += 2) {
if(isNaN(linePositions[i]) || isNaN(linePositions[i + 1])) {
linePositions[i] = lastX;
linePositions[i + 1] = lastY;
}
else {
lastX = linePositions[i];
lastY = linePositions[i + 1];
}
}
}
return {
join: join,
positions: linePositions
};
}
function convertErrorBarPositions(gd, trace, positions, x, y) {
var makeComputeError = Registry.getComponentMethod('errorbars', 'makeComputeError');
var xa = AxisIDs.getFromId(gd, trace.xaxis);
var ya = AxisIDs.getFromId(gd, trace.yaxis);
var count = positions.length / 2;
var out = {};
function convertOneAxis(coords, ax) {
var axLetter = ax._id.charAt(0);
var opts = trace['error_' + axLetter];
if(opts && opts.visible && (ax.type === 'linear' || ax.type === 'log')) {
var computeError = makeComputeError(opts);
var pOffset = {x: 0, y: 1}[axLetter];
var eOffset = {x: [0, 1, 2, 3], y: [2, 3, 0, 1]}[axLetter];
var errors = new Float64Array(4 * count);
var minShoe = Infinity;
var maxHat = -Infinity;
for(var i = 0, j = 0; i < count; i++, j += 4) {
var dc = coords[i];
if(isNumeric(dc)) {
var dl = positions[i * 2 + pOffset];
var vals = computeError(dc, i);
var lv = vals[0];
var hv = vals[1];
if(isNumeric(lv) && isNumeric(hv)) {
var shoe = dc - lv;
var hat = dc + hv;
errors[j + eOffset[0]] = dl - ax.c2l(shoe);
errors[j + eOffset[1]] = ax.c2l(hat) - dl;
errors[j + eOffset[2]] = 0;
errors[j + eOffset[3]] = 0;
minShoe = Math.min(minShoe, dc - lv);
maxHat = Math.max(maxHat, dc + hv);
}
}
}
out[axLetter] = {
positions: positions,
errors: errors,
_bnds: [minShoe, maxHat]
};
}
}
convertOneAxis(x, xa);
convertOneAxis(y, ya);
return out;
}
function convertTextPosition(gd, trace, textOpts, markerOpts) {
var count = trace._length;
var out = {};
var i;
// corresponds to textPointPosition from component.drawing
if(subTypes.hasMarkers(trace)) {
var fontOpts = textOpts.font;
var align = textOpts.align;
var baseline = textOpts.baseline;
out.offset = new Array(count);
for(i = 0; i < count; i++) {
var ms = markerOpts.sizes ? markerOpts.sizes[i] : markerOpts.size;
var fs = Array.isArray(fontOpts) ? fontOpts[i].size : fontOpts.size;
var a = Array.isArray(align) ?
(align.length > 1 ? align[i] : align[0]) :
align;
var b = Array.isArray(baseline) ?
(baseline.length > 1 ? baseline[i] : baseline[0]) :
baseline;
var hSign = TEXTOFFSETSIGN[a];
var vSign = TEXTOFFSETSIGN[b];
var xPad = ms ? ms / 0.8 + 1 : 0;
var yPad = -vSign * xPad - vSign * 0.5;
out.offset[i] = [hSign * xPad / fs, yPad / fs];
}
}
return out;
}
module.exports = {
style: convertStyle,
markerStyle: convertMarkerStyle,
markerSelection: convertMarkerSelection,
linePositions: convertLinePositions,
errorBarPositions: convertErrorBarPositions,
textPosition: convertTextPosition
};
},{"../../components/drawing":592,"../../constants/interactions":669,"../../lib":693,"../../lib/gl_format_color":689,"../../plots/cartesian/axis_ids":745,"../../registry":825,"../scatter/make_bubble_size_func":1049,"../scatter/subtypes":1056,"./constants":1082,"color-normalize":107,"fast-isnumeric":213,"svg-path-sdf":509}],1084:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Registry = _dereq_('../../registry');
var attributes = _dereq_('./attributes');
var constants = _dereq_('../scatter/constants');
var subTypes = _dereq_('../scatter/subtypes');
var handleXYDefaults = _dereq_('../scatter/xy_defaults');
var handleMarkerDefaults = _dereq_('../scatter/marker_defaults');
var handleLineDefaults = _dereq_('../scatter/line_defaults');
var handleFillColorDefaults = _dereq_('../scatter/fillcolor_defaults');
var handleTextDefaults = _dereq_('../scatter/text_defaults');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
var isOpen = traceIn.marker ? /-open/.test(traceIn.marker.symbol) : false;
var isBubble = subTypes.isBubble(traceIn);
var len = handleXYDefaults(traceIn, traceOut, layout, coerce);
if(!len) {
traceOut.visible = false;
return;
}
var defaultMode = len < constants.PTS_LINESONLY ? 'lines+markers' : 'lines';
coerce('text');
coerce('hovertext');
coerce('mode', defaultMode);
if(subTypes.hasLines(traceOut)) {
coerce('connectgaps');
handleLineDefaults(traceIn, traceOut, defaultColor, layout, coerce);
}
if(subTypes.hasMarkers(traceOut)) {
handleMarkerDefaults(traceIn, traceOut, defaultColor, layout, coerce);
coerce('marker.line.width', isOpen || isBubble ? 1 : 0);
}
if(subTypes.hasText(traceOut)) {
handleTextDefaults(traceIn, traceOut, layout, coerce);
}
coerce('fill');
if(traceOut.fill !== 'none') {
handleFillColorDefaults(traceIn, traceOut, defaultColor, coerce);
}
var errorBarsSupplyDefaults = Registry.getComponentMethod('errorbars', 'supplyDefaults');
errorBarsSupplyDefaults(traceIn, traceOut, defaultColor, {axis: 'y'});
errorBarsSupplyDefaults(traceIn, traceOut, defaultColor, {axis: 'x', inherit: 'y'});
Lib.coerceSelectionMarkerOpacity(traceOut, coerce);
};
},{"../../lib":693,"../../registry":825,"../scatter/constants":1037,"../scatter/fillcolor_defaults":1041,"../scatter/line_defaults":1045,"../scatter/marker_defaults":1051,"../scatter/subtypes":1056,"../scatter/text_defaults":1057,"../scatter/xy_defaults":1058,"./attributes":1081}],1085:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var createScatter = _dereq_('regl-scatter2d');
var createLine = _dereq_('regl-line2d');
var createError = _dereq_('regl-error2d');
var cluster = _dereq_('point-cluster');
var arrayRange = _dereq_('array-range');
var Text = _dereq_('gl-text');
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var prepareRegl = _dereq_('../../lib/prepare_regl');
var AxisIDs = _dereq_('../../plots/cartesian/axis_ids');
var findExtremes = _dereq_('../../plots/cartesian/autorange').findExtremes;
var Color = _dereq_('../../components/color');
var subTypes = _dereq_('../scatter/subtypes');
var scatterCalc = _dereq_('../scatter/calc');
var calcMarkerSize = scatterCalc.calcMarkerSize;
var calcAxisExpansion = scatterCalc.calcAxisExpansion;
var setFirstScatter = scatterCalc.setFirstScatter;
var calcColorscales = _dereq_('../scatter/colorscale_calc');
var linkTraces = _dereq_('../scatter/link_traces');
var getTraceColor = _dereq_('../scatter/get_trace_color');
var fillHoverText = _dereq_('../scatter/fill_hover_text');
var convert = _dereq_('./convert');
var BADNUM = _dereq_('../../constants/numerical').BADNUM;
var TOO_MANY_POINTS = _dereq_('./constants').TOO_MANY_POINTS;
var DESELECTDIM = _dereq_('../../constants/interactions').DESELECTDIM;
function calc(gd, trace) {
var fullLayout = gd._fullLayout;
var xa = AxisIDs.getFromId(gd, trace.xaxis);
var ya = AxisIDs.getFromId(gd, trace.yaxis);
var subplot = fullLayout._plots[trace.xaxis + trace.yaxis];
var count = trace._length;
var count2 = count * 2;
var stash = {};
var i, xx, yy;
var x = xa.makeCalcdata(trace, 'x');
var y = ya.makeCalcdata(trace, 'y');
// we need hi-precision for scatter2d,
// regl-scatter2d uses NaNs for bad/missing values
var positions = new Array(count2);
for(i = 0; i < count; i++) {
xx = x[i];
yy = y[i];
positions[i * 2] = xx === BADNUM ? NaN : xx;
positions[i * 2 + 1] = yy === BADNUM ? NaN : yy;
}
if(xa.type === 'log') {
for(i = 0; i < count2; i += 2) {
positions[i] = xa.c2l(positions[i]);
}
}
if(ya.type === 'log') {
for(i = 1; i < count2; i += 2) {
positions[i] = ya.c2l(positions[i]);
}
}
// we don't build a tree for log axes since it takes long to convert log2px
// and it is also
if(xa.type !== 'log' && ya.type !== 'log') {
// FIXME: delegate this to webworker
stash.tree = cluster(positions);
} else {
var ids = stash.ids = new Array(count);
for(i = 0; i < count; i++) {
ids[i] = i;
}
}
// create scene options and scene
calcColorscales(trace);
var opts = sceneOptions(gd, subplot, trace, positions, x, y);
var scene = sceneUpdate(gd, subplot);
// Reuse SVG scatter axis expansion routine.
// For graphs with very large number of points and array marker.size,
// use average marker size instead to speed things up.
setFirstScatter(fullLayout, trace);
var ppad;
if(count < TOO_MANY_POINTS) {
ppad = calcMarkerSize(trace, count);
} else if(opts.marker) {
ppad = 2 * (opts.marker.sizeAvg || Math.max(opts.marker.size, 3));
}
calcAxisExpansion(gd, trace, xa, ya, x, y, ppad);
if(opts.errorX) expandForErrorBars(trace, xa, opts.errorX);
if(opts.errorY) expandForErrorBars(trace, ya, opts.errorY);
// set flags to create scene renderers
if(opts.fill && !scene.fill2d) scene.fill2d = true;
if(opts.marker && !scene.scatter2d) scene.scatter2d = true;
if(opts.line && !scene.line2d) scene.line2d = true;
if((opts.errorX || opts.errorY) && !scene.error2d) scene.error2d = true;
if(opts.text && !scene.glText) scene.glText = true;
// FIXME: organize it in a more appropriate manner, probably in sceneOptions
// put point-cluster instance for optimized regl calc
if(opts.marker && count >= TOO_MANY_POINTS) {
opts.marker.cluster = stash.tree;
}
// save scene opts batch
scene.lineOptions.push(opts.line);
scene.errorXOptions.push(opts.errorX);
scene.errorYOptions.push(opts.errorY);
scene.fillOptions.push(opts.fill);
scene.markerOptions.push(opts.marker);
scene.markerSelectedOptions.push(opts.markerSel);
scene.markerUnselectedOptions.push(opts.markerUnsel);
scene.textOptions.push(opts.text);
scene.textSelectedOptions.push(opts.textSel);
scene.textUnselectedOptions.push(opts.textUnsel);
// stash scene ref
stash._scene = scene;
stash.index = scene.count;
stash.x = x;
stash.y = y;
stash.positions = positions;
stash.count = count;
scene.count++;
return [{x: false, y: false, t: stash, trace: trace}];
}
function expandForErrorBars(trace, ax, opts) {
var extremes = trace._extremes[ax._id];
var errExt = findExtremes(ax, opts._bnds, {padded: true});
extremes.min = extremes.min.concat(errExt.min);
extremes.max = extremes.max.concat(errExt.max);
}
// create scene options
function sceneOptions(gd, subplot, trace, positions, x, y) {
var opts = convert.style(gd, trace);
if(opts.marker) {
opts.marker.positions = positions;
}
if(opts.line && positions.length > 1) {
Lib.extendFlat(
opts.line,
convert.linePositions(gd, trace, positions)
);
}
if(opts.errorX || opts.errorY) {
var errors = convert.errorBarPositions(gd, trace, positions, x, y);
if(opts.errorX) {
Lib.extendFlat(opts.errorX, errors.x);
}
if(opts.errorY) {
Lib.extendFlat(opts.errorY, errors.y);
}
}
if(opts.text) {
Lib.extendFlat(
opts.text,
{positions: positions},
convert.textPosition(gd, trace, opts.text, opts.marker)
);
Lib.extendFlat(
opts.textSel,
{positions: positions},
convert.textPosition(gd, trace, opts.text, opts.markerSel)
);
Lib.extendFlat(
opts.textUnsel,
{positions: positions},
convert.textPosition(gd, trace, opts.text, opts.markerUnsel)
);
}
return opts;
}
// make sure scene exists on subplot, return it
function sceneUpdate(gd, subplot) {
var scene = subplot._scene;
var resetOpts = {
// number of traces in subplot, since scene:subplot → 1:1
count: 0,
// whether scene requires init hook in plot call (dirty plot call)
dirty: true,
// last used options
lineOptions: [],
fillOptions: [],
markerOptions: [],
markerSelectedOptions: [],
markerUnselectedOptions: [],
errorXOptions: [],
errorYOptions: [],
textOptions: [],
textSelectedOptions: [],
textUnselectedOptions: []
};
var initOpts = {
selectBatch: null,
unselectBatch: null,
// regl- component stubs, initialized in dirty plot call
fill2d: false,
scatter2d: false,
error2d: false,
line2d: false,
glText: false,
select2d: null
};
if(!subplot._scene) {
scene = subplot._scene = {};
scene.init = function init() {
Lib.extendFlat(scene, initOpts, resetOpts);
};
scene.init();
// apply new option to all regl components (used on drag)
scene.update = function update(opt) {
var opts = Lib.repeat(opt, scene.count);
if(scene.fill2d) scene.fill2d.update(opts);
if(scene.scatter2d) scene.scatter2d.update(opts);
if(scene.line2d) scene.line2d.update(opts);
if(scene.error2d) scene.error2d.update(opts.concat(opts));
if(scene.select2d) scene.select2d.update(opts);
if(scene.glText) {
for(var i = 0; i < scene.count; i++) {
scene.glText[i].update(opt);
}
}
scene.draw();
};
// draw traces in proper order
scene.draw = function draw() {
var i;
for(i = 0; i < scene.count; i++) {
if(scene.fill2d && scene.fillOptions[i]) {
// must do all fills first
scene.fill2d.draw(i);
}
}
for(i = 0; i < scene.count; i++) {
if(scene.line2d && scene.lineOptions[i]) {
scene.line2d.draw(i);
}
if(scene.error2d && scene.errorXOptions[i]) {
scene.error2d.draw(i);
}
if(scene.error2d && scene.errorYOptions[i]) {
scene.error2d.draw(i + scene.count);
}
if(scene.scatter2d && scene.markerOptions[i] && (!scene.selectBatch || !scene.selectBatch[i])) {
// traces in no-selection mode
scene.scatter2d.draw(i);
}
}
// draw traces in selection mode
if(scene.scatter2d && scene.select2d && scene.selectBatch) {
scene.select2d.draw(scene.selectBatch);
scene.scatter2d.draw(scene.unselectBatch);
}
for(i = 0; i < scene.count; i++) {
if(scene.glText[i] && scene.textOptions[i]) {
scene.glText[i].render();
}
}
scene.dirty = false;
};
scene.clear = function clear() {
var vp = getViewport(gd._fullLayout, subplot.xaxis, subplot.yaxis);
if(scene.select2d) {
clearViewport(scene.select2d, vp);
}
var anyComponent = scene.scatter2d || scene.line2d ||
(scene.glText || [])[0] || scene.fill2d || scene.error2d;
if(anyComponent) clearViewport(anyComponent, vp);
};
// remove scene resources
scene.destroy = function destroy() {
if(scene.fill2d) scene.fill2d.destroy();
if(scene.scatter2d) scene.scatter2d.destroy();
if(scene.error2d) scene.error2d.destroy();
if(scene.line2d) scene.line2d.destroy();
if(scene.select2d) scene.select2d.destroy();
if(scene.glText) {
scene.glText.forEach(function(text) { text.destroy(); });
}
scene.lineOptions = null;
scene.fillOptions = null;
scene.markerOptions = null;
scene.markerSelectedOptions = null;
scene.markerUnselectedOptions = null;
scene.errorXOptions = null;
scene.errorYOptions = null;
scene.textOptions = null;
scene.textSelectedOptions = null;
scene.textUnselectedOptions = null;
scene.selectBatch = null;
scene.unselectBatch = null;
// we can't just delete _scene, because `destroy` is called in the
// middle of supplyDefaults, before relinkPrivateKeys which will put it back.
subplot._scene = null;
};
}
// In case if we have scene from the last calc - reset data
if(!scene.dirty) {
Lib.extendFlat(scene, resetOpts);
}
return scene;
}
function getViewport(fullLayout, xaxis, yaxis) {
var gs = fullLayout._size;
var width = fullLayout.width;
var height = fullLayout.height;
return [
gs.l + xaxis.domain[0] * gs.w,
gs.b + yaxis.domain[0] * gs.h,
(width - gs.r) - (1 - xaxis.domain[1]) * gs.w,
(height - gs.t) - (1 - yaxis.domain[1]) * gs.h
];
}
function clearViewport(comp, vp) {
var gl = comp.regl._gl;
gl.enable(gl.SCISSOR_TEST);
gl.scissor(vp[0], vp[1], vp[2] - vp[0], vp[3] - vp[1]);
gl.clearColor(0, 0, 0, 0);
gl.clear(gl.COLOR_BUFFER_BIT);
}
function plot(gd, subplot, cdata) {
if(!cdata.length) return;
var fullLayout = gd._fullLayout;
var scene = subplot._scene;
var xaxis = subplot.xaxis;
var yaxis = subplot.yaxis;
var i, j;
// we may have more subplots than initialized data due to Axes.getSubplots method
if(!scene) return;
var success = prepareRegl(gd, ['ANGLE_instanced_arrays', 'OES_element_index_uint']);
if(!success) {
scene.init();
return;
}
var regl = fullLayout._glcanvas.data()[0].regl;
// that is needed for fills
linkTraces(gd, subplot, cdata);
if(scene.dirty) {
// make sure scenes are created
if(scene.error2d === true) {
scene.error2d = createError(regl);
}
if(scene.line2d === true) {
scene.line2d = createLine(regl);
}
if(scene.scatter2d === true) {
scene.scatter2d = createScatter(regl);
}
if(scene.fill2d === true) {
scene.fill2d = createLine(regl);
}
if(scene.glText === true) {
scene.glText = new Array(scene.count);
for(i = 0; i < scene.count; i++) {
scene.glText[i] = new Text(regl);
}
}
// update main marker options
if(scene.glText) {
for(i = 0; i < scene.count; i++) {
scene.glText[i].update(scene.textOptions[i]);
}
}
if(scene.line2d) {
scene.line2d.update(scene.lineOptions);
}
if(scene.error2d) {
var errorBatch = (scene.errorXOptions || []).concat(scene.errorYOptions || []);
scene.error2d.update(errorBatch);
}
if(scene.scatter2d) {
scene.scatter2d.update(scene.markerOptions);
}
// fill requires linked traces, so we generate it's positions here
if(scene.fill2d) {
scene.fillOptions = scene.fillOptions.map(function(fillOptions, i) {
var cdscatter = cdata[i];
if(!fillOptions || !cdscatter || !cdscatter[0] || !cdscatter[0].trace) return;
var cd = cdscatter[0];
var trace = cd.trace;
var stash = cd.t;
var lineOptions = scene.lineOptions[i];
var last, j;
var pos = [], srcPos = (lineOptions && lineOptions.positions) || stash.positions;
if(trace.fill === 'tozeroy') {
pos = [srcPos[0], 0];
pos = pos.concat(srcPos);
pos.push(srcPos[srcPos.length - 2]);
pos.push(0);
}
else if(trace.fill === 'tozerox') {
pos = [0, srcPos[1]];
pos = pos.concat(srcPos);
pos.push(0);
pos.push(srcPos[srcPos.length - 1]);
}
else if(trace.fill === 'toself' || trace.fill === 'tonext') {
pos = [];
last = 0;
for(j = 0; j < srcPos.length; j += 2) {
if(isNaN(srcPos[j]) || isNaN(srcPos[j + 1])) {
pos = pos.concat(srcPos.slice(last, j));
pos.push(srcPos[last], srcPos[last + 1]);
last = j + 2;
}
}
pos = pos.concat(srcPos.slice(last));
if(last) {
pos.push(srcPos[last], srcPos[last + 1]);
}
}
else {
var nextTrace = trace._nexttrace;
if(nextTrace) {
var nextOptions = scene.lineOptions[i + 1];
if(nextOptions) {
var nextPos = nextOptions.positions;
if(trace.fill === 'tonexty') {
pos = srcPos.slice();
for(i = Math.floor(nextPos.length / 2); i--;) {
var xx = nextPos[i * 2], yy = nextPos[i * 2 + 1];
if(isNaN(xx) || isNaN(yy)) continue;
pos.push(xx);
pos.push(yy);
}
fillOptions.fill = nextTrace.fillcolor;
}
}
}
}
// detect prev trace positions to exclude from current fill
if(trace._prevtrace && trace._prevtrace.fill === 'tonext') {
var prevLinePos = scene.lineOptions[i - 1].positions;
// FIXME: likely this logic should be tested better
var offset = pos.length / 2;
last = offset;
var hole = [last];
for(j = 0; j < prevLinePos.length; j += 2) {
if(isNaN(prevLinePos[j]) || isNaN(prevLinePos[j + 1])) {
hole.push(j / 2 + offset + 1);
last = j + 2;
}
}
pos = pos.concat(prevLinePos);
fillOptions.hole = hole;
}
fillOptions.opacity = trace.opacity;
fillOptions.positions = pos;
return fillOptions;
});
scene.fill2d.update(scene.fillOptions);
}
}
// form batch arrays, and check for selected points
scene.selectBatch = null;
scene.unselectBatch = null;
var dragmode = fullLayout.dragmode;
var selectMode = dragmode === 'lasso' || dragmode === 'select';
var clickSelectEnabled = fullLayout.clickmode.indexOf('select') > -1;
for(i = 0; i < cdata.length; i++) {
var cd0 = cdata[i][0];
var trace = cd0.trace;
var stash = cd0.t;
var index = stash.index;
var x = stash.x;
var y = stash.y;
if(trace.selectedpoints || selectMode || clickSelectEnabled) {
if(!selectMode) selectMode = true;
if(!scene.selectBatch) {
scene.selectBatch = [];
scene.unselectBatch = [];
}
// regenerate scene batch, if traces number changed during selection
if(trace.selectedpoints) {
var selPts = scene.selectBatch[index] = Lib.selIndices2selPoints(trace);
var selDict = {};
for(j = 0; j < selPts.length; j++) {
selDict[selPts[j]] = 1;
}
var unselPts = [];
for(j = 0; j < stash.count; j++) {
if(!selDict[j]) unselPts.push(j);
}
scene.unselectBatch[index] = unselPts;
}
// precalculate px coords since we are not going to pan during select
// TODO, could do better here e.g.
// - spin that in a webworker
// - compute selection from polygons in data coordinates
// (maybe just for linear axes)
var xpx = stash.xpx = new Array(stash.count);
var ypx = stash.ypx = new Array(stash.count);
for(j = 0; j < stash.count; j++) {
xpx[j] = xaxis.c2p(x[j]);
ypx[j] = yaxis.c2p(y[j]);
}
} else {
stash.xpx = stash.ypx = null;
}
}
if(selectMode) {
// create select2d
if(!scene.select2d) {
// create scatter instance by cloning scatter2d
scene.select2d = createScatter(fullLayout._glcanvas.data()[1].regl);
}
if(scene.scatter2d && scene.selectBatch && scene.selectBatch.length) {
// update only traces with selection
scene.scatter2d.update(scene.markerUnselectedOptions.map(function(opts, i) {
return scene.selectBatch[i] ? opts : null;
}));
}
if(scene.select2d) {
scene.select2d.update(scene.markerOptions);
scene.select2d.update(scene.markerSelectedOptions);
}
if(scene.glText) {
cdata.forEach(function(cdscatter) {
if(cdscatter && cdscatter[0] && cdscatter[0].trace) {
styleTextSelection(cdscatter);
}
});
}
} else {
if(scene.scatter2d) {
// reset scatter2d opts to base opts,
// thus unsetting markerUnselectedOptions from selection
scene.scatter2d.update(scene.markerOptions);
}
}
// provide viewport and range
var vpRange0 = {
viewport: getViewport(fullLayout, xaxis, yaxis),
// TODO do we need those fallbacks?
range: [
(xaxis._rl || xaxis.range)[0],
(yaxis._rl || yaxis.range)[0],
(xaxis._rl || xaxis.range)[1],
(yaxis._rl || yaxis.range)[1]
]
};
var vpRange = Lib.repeat(vpRange0, scene.count);
// upload viewport/range data to GPU
if(scene.fill2d) {
scene.fill2d.update(vpRange);
}
if(scene.line2d) {
scene.line2d.update(vpRange);
}
if(scene.error2d) {
scene.error2d.update(vpRange.concat(vpRange));
}
if(scene.scatter2d) {
scene.scatter2d.update(vpRange);
}
if(scene.select2d) {
scene.select2d.update(vpRange);
}
if(scene.glText) {
scene.glText.forEach(function(text) { text.update(vpRange0); });
}
scene.draw();
}
function hoverPoints(pointData, xval, yval, hovermode) {
var cd = pointData.cd;
var stash = cd[0].t;
var trace = cd[0].trace;
var xa = pointData.xa;
var ya = pointData.ya;
var x = stash.x;
var y = stash.y;
var xpx = xa.c2p(xval);
var ypx = ya.c2p(yval);
var maxDistance = pointData.distance;
var ids;
// FIXME: make sure this is a proper way to calc search radius
if(stash.tree) {
var xl = xa.p2c(xpx - maxDistance);
var xr = xa.p2c(xpx + maxDistance);
var yl = ya.p2c(ypx - maxDistance);
var yr = ya.p2c(ypx + maxDistance);
if(hovermode === 'x') {
ids = stash.tree.range(
Math.min(xl, xr), Math.min(ya._rl[0], ya._rl[1]),
Math.max(xl, xr), Math.max(ya._rl[0], ya._rl[1])
);
}
else {
ids = stash.tree.range(
Math.min(xl, xr), Math.min(yl, yr),
Math.max(xl, xr), Math.max(yl, yr)
);
}
}
else if(stash.ids) {
ids = stash.ids;
}
else return [pointData];
// pick the id closest to the point
// note that point possibly may not be found
var id, ptx, pty, i, dx, dy, dist, dxy;
var minDist = maxDistance;
if(hovermode === 'x') {
for(i = 0; i < ids.length; i++) {
ptx = x[ids[i]];
dx = Math.abs(xa.c2p(ptx) - xpx);
if(dx < minDist) {
minDist = dx;
dy = ya.c2p(y[ids[i]]) - ypx;
dxy = Math.sqrt(dx * dx + dy * dy);
id = ids[i];
}
}
}
else {
for(i = 0; i < ids.length; i++) {
ptx = x[ids[i]];
pty = y[ids[i]];
dx = xa.c2p(ptx) - xpx;
dy = ya.c2p(pty) - ypx;
dist = Math.sqrt(dx * dx + dy * dy);
if(dist < minDist) {
minDist = dxy = dist;
id = ids[i];
}
}
}
pointData.index = id;
pointData.distance = minDist;
pointData.dxy = dxy;
if(id === undefined) return [pointData];
calcHover(pointData, x, y, trace);
return [pointData];
}
function calcHover(pointData, x, y, trace) {
var xa = pointData.xa;
var ya = pointData.ya;
var minDist = pointData.distance;
var dxy = pointData.dxy;
var id = pointData.index;
// the closest data point
var di = {
pointNumber: id,
x: x[id],
y: y[id]
};
// that is single-item arrays_to_calcdata excerpt, since we are doing it for a single point and we don't have to do it beforehead for 1e6 points
di.tx = Array.isArray(trace.text) ? trace.text[id] : trace.text;
di.htx = Array.isArray(trace.hovertext) ? trace.hovertext[id] : trace.hovertext;
di.data = Array.isArray(trace.customdata) ? trace.customdata[id] : trace.customdata;
di.tp = Array.isArray(trace.textposition) ? trace.textposition[id] : trace.textposition;
var font = trace.textfont;
if(font) {
di.ts = Array.isArray(font.size) ? font.size[id] : font.size;
di.tc = Array.isArray(font.color) ? font.color[id] : font.color;
di.tf = Array.isArray(font.family) ? font.family[id] : font.family;
}
var marker = trace.marker;
if(marker) {
di.ms = Lib.isArrayOrTypedArray(marker.size) ? marker.size[id] : marker.size;
di.mo = Lib.isArrayOrTypedArray(marker.opacity) ? marker.opacity[id] : marker.opacity;
di.mx = Array.isArray(marker.symbol) ? marker.symbol[id] : marker.symbol;
di.mc = Lib.isArrayOrTypedArray(marker.color) ? marker.color[id] : marker.color;
}
var line = marker && marker.line;
if(line) {
di.mlc = Array.isArray(line.color) ? line.color[id] : line.color;
di.mlw = Lib.isArrayOrTypedArray(line.width) ? line.width[id] : line.width;
}
var grad = marker && marker.gradient;
if(grad && grad.type !== 'none') {
di.mgt = Array.isArray(grad.type) ? grad.type[id] : grad.type;
di.mgc = Array.isArray(grad.color) ? grad.color[id] : grad.color;
}
var xp = xa.c2p(di.x, true);
var yp = ya.c2p(di.y, true);
var rad = di.mrc || 1;
var hoverlabel = trace.hoverlabel;
if(hoverlabel) {
di.hbg = Array.isArray(hoverlabel.bgcolor) ? hoverlabel.bgcolor[id] : hoverlabel.bgcolor;
di.hbc = Array.isArray(hoverlabel.bordercolor) ? hoverlabel.bordercolor[id] : hoverlabel.bordercolor;
di.hts = Array.isArray(hoverlabel.font.size) ? hoverlabel.font.size[id] : hoverlabel.font.size;
di.htc = Array.isArray(hoverlabel.font.color) ? hoverlabel.font.color[id] : hoverlabel.font.color;
di.htf = Array.isArray(hoverlabel.font.family) ? hoverlabel.font.family[id] : hoverlabel.font.family;
di.hnl = Array.isArray(hoverlabel.namelength) ? hoverlabel.namelength[id] : hoverlabel.namelength;
}
var hoverinfo = trace.hoverinfo;
if(hoverinfo) {
di.hi = Array.isArray(hoverinfo) ? hoverinfo[id] : hoverinfo;
}
var fakeCd = {};
fakeCd[pointData.index] = di;
Lib.extendFlat(pointData, {
color: getTraceColor(trace, di),
x0: xp - rad,
x1: xp + rad,
xLabelVal: di.x,
y0: yp - rad,
y1: yp + rad,
yLabelVal: di.y,
cd: fakeCd,
distance: minDist,
spikeDistance: dxy
});
if(di.htx) pointData.text = di.htx;
else if(di.tx) pointData.text = di.tx;
else if(trace.text) pointData.text = trace.text;
fillHoverText(di, trace, pointData);
Registry.getComponentMethod('errorbars', 'hoverInfo')(di, trace, pointData);
return pointData;
}
function selectPoints(searchInfo, selectionTester) {
var cd = searchInfo.cd;
var selection = [];
var trace = cd[0].trace;
var stash = cd[0].t;
var x = stash.x;
var y = stash.y;
var scene = stash._scene;
if(!scene) return selection;
var hasText = subTypes.hasText(trace);
var hasMarkers = subTypes.hasMarkers(trace);
var hasOnlyLines = !hasMarkers && !hasText;
if(trace.visible !== true || hasOnlyLines) return selection;
// degenerate polygon does not enable selection
// filter out points by visible scatter ones
var els = null;
var unels = null;
// FIXME: clearing selection does not work here
var i;
if(selectionTester !== false && !selectionTester.degenerate) {
els = [], unels = [];
for(i = 0; i < stash.count; i++) {
if(selectionTester.contains([stash.xpx[i], stash.ypx[i]], false, i, searchInfo)) {
els.push(i);
selection.push({
pointNumber: i,
x: x[i],
y: y[i]
});
}
else {
unels.push(i);
}
}
} else {
unels = arrayRange(stash.count);
}
// make sure selectBatch is created
if(!scene.selectBatch) {
scene.selectBatch = [];
scene.unselectBatch = [];
}
if(!scene.selectBatch[stash.index]) {
// enter every trace select mode
for(i = 0; i < scene.count; i++) {
scene.selectBatch[i] = [];
scene.unselectBatch[i] = [];
}
// we should turn scatter2d into unselected once we have any points selected
if(hasMarkers) {
scene.scatter2d.update(scene.markerUnselectedOptions);
}
}
scene.selectBatch[stash.index] = els;
scene.unselectBatch[stash.index] = unels;
// update text options
if(hasText) {
styleTextSelection(cd);
}
return selection;
}
function style(gd, cds) {
if(!cds) return;
var stash = cds[0][0].t;
var scene = stash._scene;
// don't clear the subplot if there are splom traces
// on the graph
if(!gd._fullLayout._has('splom')) {
scene.clear();
}
scene.draw();
}
function styleTextSelection(cd) {
var cd0 = cd[0];
var stash = cd0.t;
var scene = stash._scene;
var index = stash.index;
var els = scene.selectBatch[index];
var unels = scene.unselectBatch[index];
var baseOpts = scene.textOptions[index];
var selOpts = scene.textSelectedOptions[index] || {};
var unselOpts = scene.textUnselectedOptions[index] || {};
var opts = Lib.extendFlat({}, baseOpts);
var i, j;
if(els && unels) {
var stc = selOpts.color;
var utc = unselOpts.color;
var base = baseOpts.color;
var hasArrayBase = Array.isArray(base);
opts.color = new Array(stash.count);
for(i = 0; i < els.length; i++) {
j = els[i];
opts.color[j] = stc || (hasArrayBase ? base[j] : base);
}
for(i = 0; i < unels.length; i++) {
j = unels[i];
var basej = hasArrayBase ? base[j] : base;
opts.color[j] = utc ? utc :
stc ? basej : Color.addOpacity(basej, DESELECTDIM);
}
}
scene.glText[index].update(opts);
}
module.exports = {
moduleType: 'trace',
name: 'scattergl',
basePlotModule: _dereq_('../../plots/cartesian'),
categories: ['gl', 'regl', 'cartesian', 'symbols', 'errorBarsOK', 'showLegend', 'scatter-like'],
attributes: _dereq_('./attributes'),
supplyDefaults: _dereq_('./defaults'),
cleanData: _dereq_('../scatter/clean_data'),
colorbar: _dereq_('../scatter/marker_colorbar'),
calc: calc,
plot: plot,
hoverPoints: hoverPoints,
style: style,
selectPoints: selectPoints,
sceneOptions: sceneOptions,
sceneUpdate: sceneUpdate,
calcHover: calcHover,
meta: {
}
};
},{"../../components/color":567,"../../constants/interactions":669,"../../constants/numerical":670,"../../lib":693,"../../lib/prepare_regl":707,"../../plots/cartesian":753,"../../plots/cartesian/autorange":741,"../../plots/cartesian/axis_ids":745,"../../registry":825,"../scatter/calc":1033,"../scatter/clean_data":1035,"../scatter/colorscale_calc":1036,"../scatter/fill_hover_text":1040,"../scatter/get_trace_color":1042,"../scatter/link_traces":1048,"../scatter/marker_colorbar":1050,"../scatter/subtypes":1056,"./attributes":1081,"./constants":1082,"./convert":1083,"./defaults":1084,"array-range":54,"gl-text":302,"point-cluster":449,"regl-error2d":470,"regl-line2d":471,"regl-scatter2d":472}],1086:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var scatterGeoAttrs = _dereq_('../scattergeo/attributes');
var scatterAttrs = _dereq_('../scatter/attributes');
var mapboxAttrs = _dereq_('../../plots/mapbox/layout_attributes');
var plotAttrs = _dereq_('../../plots/attributes');
var colorbarAttrs = _dereq_('../../components/colorbar/attributes');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll;
var lineAttrs = scatterGeoAttrs.line;
var markerAttrs = scatterGeoAttrs.marker;
module.exports = overrideAll({
lon: scatterGeoAttrs.lon,
lat: scatterGeoAttrs.lat,
// locations
// locationmode
mode: extendFlat({}, scatterAttrs.mode, {
dflt: 'markers',
}),
text: extendFlat({}, scatterAttrs.text, {
}),
hovertext: extendFlat({}, scatterAttrs.hovertext, {
}),
line: {
color: lineAttrs.color,
width: lineAttrs.width
// TODO
// dash: dash
},
connectgaps: scatterAttrs.connectgaps,
marker: {
symbol: {
valType: 'string',
dflt: 'circle',
arrayOk: true,
},
opacity: markerAttrs.opacity,
size: markerAttrs.size,
sizeref: markerAttrs.sizeref,
sizemin: markerAttrs.sizemin,
sizemode: markerAttrs.sizemode,
color: markerAttrs.color,
colorscale: markerAttrs.colorscale,
cauto: markerAttrs.cauto,
cmax: markerAttrs.cmax,
cmin: markerAttrs.cmin,
autocolorscale: markerAttrs.autocolorscale,
reversescale: markerAttrs.reversescale,
showscale: markerAttrs.showscale,
colorbar: colorbarAttrs,
// line
},
fill: scatterGeoAttrs.fill,
fillcolor: scatterAttrs.fillcolor,
textfont: mapboxAttrs.layers.symbol.textfont,
textposition: mapboxAttrs.layers.symbol.textposition,
selected: {
marker: scatterAttrs.selected.marker
},
unselected: {
marker: scatterAttrs.unselected.marker
},
hoverinfo: extendFlat({}, plotAttrs.hoverinfo, {
flags: ['lon', 'lat', 'text', 'name']
})
}, 'calc', 'nested');
},{"../../components/colorbar/attributes":568,"../../lib/extend":682,"../../plot_api/edit_types":725,"../../plots/attributes":739,"../../plots/mapbox/layout_attributes":801,"../scatter/attributes":1032,"../scattergeo/attributes":1072}],1087:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var Lib = _dereq_('../../lib');
var BADNUM = _dereq_('../../constants/numerical').BADNUM;
var geoJsonUtils = _dereq_('../../lib/geojson_utils');
var Colorscale = _dereq_('../../components/colorscale');
var Drawing = _dereq_('../../components/drawing');
var makeBubbleSizeFn = _dereq_('../scatter/make_bubble_size_func');
var subTypes = _dereq_('../scatter/subtypes');
var convertTextOpts = _dereq_('../../plots/mapbox/convert_text_opts');
module.exports = function convert(calcTrace) {
var trace = calcTrace[0].trace;
var isVisible = (trace.visible === true);
var hasFill = (trace.fill !== 'none');
var hasLines = subTypes.hasLines(trace);
var hasMarkers = subTypes.hasMarkers(trace);
var hasText = subTypes.hasText(trace);
var hasCircles = (hasMarkers && trace.marker.symbol === 'circle');
var hasSymbols = (hasMarkers && trace.marker.symbol !== 'circle');
var fill = initContainer();
var line = initContainer();
var circle = initContainer();
var symbol = initContainer();
var opts = {
fill: fill,
line: line,
circle: circle,
symbol: symbol
};
// early return if not visible or placeholder
if(!isVisible) return opts;
// fill layer and line layer use the same coords
var lineCoords;
if(hasFill || hasLines) {
lineCoords = geoJsonUtils.calcTraceToLineCoords(calcTrace);
}
if(hasFill) {
fill.geojson = geoJsonUtils.makePolygon(lineCoords);
fill.layout.visibility = 'visible';
Lib.extendFlat(fill.paint, {
'fill-color': trace.fillcolor
});
}
if(hasLines) {
line.geojson = geoJsonUtils.makeLine(lineCoords);
line.layout.visibility = 'visible';
Lib.extendFlat(line.paint, {
'line-width': trace.line.width,
'line-color': trace.line.color,
'line-opacity': trace.opacity
});
// TODO convert line.dash into line-dasharray
}
if(hasCircles) {
var circleOpts = makeCircleOpts(calcTrace);
circle.geojson = circleOpts.geojson;
circle.layout.visibility = 'visible';
Lib.extendFlat(circle.paint, {
'circle-color': circleOpts.mcc,
'circle-radius': circleOpts.mrc,
'circle-opacity': circleOpts.mo
});
}
if(hasSymbols || hasText) {
symbol.geojson = makeSymbolGeoJSON(calcTrace);
Lib.extendFlat(symbol.layout, {
visibility: 'visible',
'icon-image': '{symbol}-15',
'text-field': '{text}'
});
if(hasSymbols) {
Lib.extendFlat(symbol.layout, {
'icon-size': trace.marker.size / 10
});
Lib.extendFlat(symbol.paint, {
'icon-opacity': trace.opacity * trace.marker.opacity,
// TODO does not work ??
'icon-color': trace.marker.color
});
}
if(hasText) {
var iconSize = (trace.marker || {}).size,
textOpts = convertTextOpts(trace.textposition, iconSize);
// all data-driven below !!
Lib.extendFlat(symbol.layout, {
'text-size': trace.textfont.size,
'text-anchor': textOpts.anchor,
'text-offset': textOpts.offset
// TODO font family
// 'text-font': symbol.textfont.family.split(', '),
});
Lib.extendFlat(symbol.paint, {
'text-color': trace.textfont.color,
'text-opacity': trace.opacity
});
}
}
return opts;
};
function initContainer() {
return {
geojson: geoJsonUtils.makeBlank(),
layout: { visibility: 'none' },
paint: {}
};
}
function makeCircleOpts(calcTrace) {
var trace = calcTrace[0].trace;
var marker = trace.marker;
var selectedpoints = trace.selectedpoints;
var arrayColor = Lib.isArrayOrTypedArray(marker.color);
var arraySize = Lib.isArrayOrTypedArray(marker.size);
var arrayOpacity = Lib.isArrayOrTypedArray(marker.opacity);
var i;
function addTraceOpacity(o) { return trace.opacity * o; }
function size2radius(s) { return s / 2; }
var colorFn;
if(arrayColor) {
if(Colorscale.hasColorscale(trace, 'marker')) {
colorFn = Colorscale.makeColorScaleFunc(
Colorscale.extractScale(marker.colorscale, marker.cmin, marker.cmax)
);
} else {
colorFn = Lib.identity;
}
}
var sizeFn;
if(arraySize) {
sizeFn = makeBubbleSizeFn(trace);
}
var opacityFn;
if(arrayOpacity) {
opacityFn = function(mo) {
var mo2 = isNumeric(mo) ? +Lib.constrain(mo, 0, 1) : 0;
return addTraceOpacity(mo2);
};
}
var features = [];
for(i = 0; i < calcTrace.length; i++) {
var calcPt = calcTrace[i];
var lonlat = calcPt.lonlat;
if(isBADNUM(lonlat)) continue;
var props = {};
if(colorFn) props.mcc = calcPt.mcc = colorFn(calcPt.mc);
if(sizeFn) props.mrc = calcPt.mrc = sizeFn(calcPt.ms);
if(opacityFn) props.mo = opacityFn(calcPt.mo);
if(selectedpoints) props.selected = calcPt.selected || 0;
features.push({
type: 'Feature',
geometry: {type: 'Point', coordinates: lonlat},
properties: props
});
}
var fns;
if(selectedpoints) {
fns = Drawing.makeSelectedPointStyleFns(trace);
for(i = 0; i < features.length; i++) {
var d = features[i].properties;
if(fns.selectedOpacityFn) {
d.mo = addTraceOpacity(fns.selectedOpacityFn(d));
}
if(fns.selectedColorFn) {
d.mcc = fns.selectedColorFn(d);
}
if(fns.selectedSizeFn) {
d.mrc = fns.selectedSizeFn(d);
}
}
}
return {
geojson: {type: 'FeatureCollection', features: features},
mcc: arrayColor || (fns && fns.selectedColorFn) ?
{type: 'identity', property: 'mcc'} :
marker.color,
mrc: arraySize || (fns && fns.selectedSizeFn) ?
{type: 'identity', property: 'mrc'} :
size2radius(marker.size),
mo: arrayOpacity || (fns && fns.selectedOpacityFn) ?
{type: 'identity', property: 'mo'} :
addTraceOpacity(marker.opacity)
};
}
function makeSymbolGeoJSON(calcTrace) {
var trace = calcTrace[0].trace;
var marker = trace.marker || {},
symbol = marker.symbol,
text = trace.text;
var fillSymbol = (symbol !== 'circle') ?
getFillFunc(symbol) :
blankFillFunc;
var fillText = subTypes.hasText(trace) ?
getFillFunc(text) :
blankFillFunc;
var features = [];
for(var i = 0; i < calcTrace.length; i++) {
var calcPt = calcTrace[i];
if(isBADNUM(calcPt.lonlat)) continue;
features.push({
type: 'Feature',
geometry: {
type: 'Point',
coordinates: calcPt.lonlat
},
properties: {
symbol: fillSymbol(calcPt.mx),
text: fillText(calcPt.tx)
}
});
}
return {
type: 'FeatureCollection',
features: features
};
}
function getFillFunc(attr) {
if(Lib.isArrayOrTypedArray(attr)) {
return function(v) { return v; };
}
else if(attr) {
return function() { return attr; };
}
else {
return blankFillFunc;
}
}
function blankFillFunc() { return ''; }
// only need to check lon (OR lat)
function isBADNUM(lonlat) {
return lonlat[0] === BADNUM;
}
},{"../../components/colorscale":582,"../../components/drawing":592,"../../constants/numerical":670,"../../lib":693,"../../lib/geojson_utils":686,"../../plots/mapbox/convert_text_opts":798,"../scatter/make_bubble_size_func":1049,"../scatter/subtypes":1056,"fast-isnumeric":213}],1088:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var subTypes = _dereq_('../scatter/subtypes');
var handleMarkerDefaults = _dereq_('../scatter/marker_defaults');
var handleLineDefaults = _dereq_('../scatter/line_defaults');
var handleTextDefaults = _dereq_('../scatter/text_defaults');
var handleFillColorDefaults = _dereq_('../scatter/fillcolor_defaults');
var attributes = _dereq_('./attributes');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
var len = handleLonLatDefaults(traceIn, traceOut, coerce);
if(!len) {
traceOut.visible = false;
return;
}
coerce('text');
coerce('hovertext');
coerce('mode');
if(subTypes.hasLines(traceOut)) {
handleLineDefaults(traceIn, traceOut, defaultColor, layout, coerce, {noDash: true});
coerce('connectgaps');
}
if(subTypes.hasMarkers(traceOut)) {
handleMarkerDefaults(traceIn, traceOut, defaultColor, layout, coerce, {noLine: true});
// array marker.size and marker.color are only supported with circles
var marker = traceOut.marker;
if(marker.symbol !== 'circle') {
if(Lib.isArrayOrTypedArray(marker.size)) marker.size = marker.size[0];
if(Lib.isArrayOrTypedArray(marker.color)) marker.color = marker.color[0];
}
}
if(subTypes.hasText(traceOut)) {
handleTextDefaults(traceIn, traceOut, layout, coerce, {noSelect: true});
}
coerce('fill');
if(traceOut.fill !== 'none') {
handleFillColorDefaults(traceIn, traceOut, defaultColor, coerce);
}
Lib.coerceSelectionMarkerOpacity(traceOut, coerce);
};
function handleLonLatDefaults(traceIn, traceOut, coerce) {
var lon = coerce('lon') || [];
var lat = coerce('lat') || [];
var len = Math.min(lon.length, lat.length);
traceOut._length = len;
return len;
}
},{"../../lib":693,"../scatter/fillcolor_defaults":1041,"../scatter/line_defaults":1045,"../scatter/marker_defaults":1051,"../scatter/subtypes":1056,"../scatter/text_defaults":1057,"./attributes":1086}],1089:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function eventData(out, pt) {
out.lon = pt.lon;
out.lat = pt.lat;
return out;
};
},{}],1090:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Fx = _dereq_('../../components/fx');
var Lib = _dereq_('../../lib');
var getTraceColor = _dereq_('../scatter/get_trace_color');
var fillHoverText = _dereq_('../scatter/fill_hover_text');
var BADNUM = _dereq_('../../constants/numerical').BADNUM;
module.exports = function hoverPoints(pointData, xval, yval) {
var cd = pointData.cd;
var trace = cd[0].trace;
var xa = pointData.xa;
var ya = pointData.ya;
var subplot = pointData.subplot;
// compute winding number about [-180, 180] globe
var winding = (xval >= 0) ?
Math.floor((xval + 180) / 360) :
Math.ceil((xval - 180) / 360);
// shift longitude to [-180, 180] to determine closest point
var lonShift = winding * 360;
var xval2 = xval - lonShift;
function distFn(d) {
var lonlat = d.lonlat;
if(lonlat[0] === BADNUM) return Infinity;
var lon = Lib.modHalf(lonlat[0], 360);
var lat = lonlat[1];
var pt = subplot.project([lon, lat]);
var dx = pt.x - xa.c2p([xval2, lat]);
var dy = pt.y - ya.c2p([lon, yval]);
var rad = Math.max(3, d.mrc || 0);
return Math.max(Math.sqrt(dx * dx + dy * dy) - rad, 1 - 3 / rad);
}
Fx.getClosest(cd, distFn, pointData);
// skip the rest (for this trace) if we didn't find a close point
if(pointData.index === false) return;
var di = cd[pointData.index];
var lonlat = di.lonlat;
var lonlatShifted = [Lib.modHalf(lonlat[0], 360) + lonShift, lonlat[1]];
// shift labels back to original winded globe
var xc = xa.c2p(lonlatShifted);
var yc = ya.c2p(lonlatShifted);
var rad = di.mrc || 1;
pointData.x0 = xc - rad;
pointData.x1 = xc + rad;
pointData.y0 = yc - rad;
pointData.y1 = yc + rad;
pointData.color = getTraceColor(trace, di);
pointData.extraText = getExtraText(trace, di, cd[0].t.labels);
return [pointData];
};
function getExtraText(trace, di, labels) {
var hoverinfo = di.hi || trace.hoverinfo;
var parts = hoverinfo.split('+');
var isAll = parts.indexOf('all') !== -1;
var hasLon = parts.indexOf('lon') !== -1;
var hasLat = parts.indexOf('lat') !== -1;
var lonlat = di.lonlat;
var text = [];
// TODO should we use a mock axis to format hover?
// If so, we'll need to make precision be zoom-level dependent
function format(v) {
return v + '\u00B0';
}
if(isAll || (hasLon && hasLat)) {
text.push('(' + format(lonlat[0]) + ', ' + format(lonlat[1]) + ')');
} else if(hasLon) {
text.push(labels.lon + format(lonlat[0]));
} else if(hasLat) {
text.push(labels.lat + format(lonlat[1]));
}
if(isAll || parts.indexOf('text') !== -1) {
fillHoverText(di, trace, text);
}
return text.join('<br>');
}
},{"../../components/fx":609,"../../constants/numerical":670,"../../lib":693,"../scatter/fill_hover_text":1040,"../scatter/get_trace_color":1042}],1091:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var ScatterMapbox = {};
ScatterMapbox.attributes = _dereq_('./attributes');
ScatterMapbox.supplyDefaults = _dereq_('./defaults');
ScatterMapbox.colorbar = _dereq_('../scatter/marker_colorbar');
ScatterMapbox.calc = _dereq_('../scattergeo/calc');
ScatterMapbox.plot = _dereq_('./plot');
ScatterMapbox.hoverPoints = _dereq_('./hover');
ScatterMapbox.eventData = _dereq_('./event_data');
ScatterMapbox.selectPoints = _dereq_('./select');
ScatterMapbox.style = function(_, cd) {
if(cd) {
var trace = cd[0].trace;
trace._glTrace.update(cd);
}
};
ScatterMapbox.moduleType = 'trace';
ScatterMapbox.name = 'scattermapbox';
ScatterMapbox.basePlotModule = _dereq_('../../plots/mapbox');
ScatterMapbox.categories = ['mapbox', 'gl', 'symbols', 'showLegend', 'scatterlike'];
ScatterMapbox.meta = {
};
module.exports = ScatterMapbox;
},{"../../plots/mapbox":799,"../scatter/marker_colorbar":1050,"../scattergeo/calc":1073,"./attributes":1086,"./defaults":1088,"./event_data":1089,"./hover":1090,"./plot":1092,"./select":1093}],1092:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var convert = _dereq_('./convert');
function ScatterMapbox(subplot, uid) {
this.subplot = subplot;
this.uid = uid;
this.sourceIds = {
fill: uid + '-source-fill',
line: uid + '-source-line',
circle: uid + '-source-circle',
symbol: uid + '-source-symbol'
};
this.layerIds = {
fill: uid + '-layer-fill',
line: uid + '-layer-line',
circle: uid + '-layer-circle',
symbol: uid + '-layer-symbol'
};
this.order = ['fill', 'line', 'circle', 'symbol'];
// We could merge the 'fill' source with the 'line' source and
// the 'circle' source with the 'symbol' source if ever having
// for up-to 4 sources per 'scattermapbox' traces becomes a problem.
}
var proto = ScatterMapbox.prototype;
proto.addSource = function(k, opts) {
this.subplot.map.addSource(this.sourceIds[k], {
type: 'geojson',
data: opts.geojson
});
};
proto.setSourceData = function(k, opts) {
this.subplot.map
.getSource(this.sourceIds[k])
.setData(opts.geojson);
};
proto.addLayer = function(k, opts) {
this.subplot.map.addLayer({
type: k,
id: this.layerIds[k],
source: this.sourceIds[k],
layout: opts.layout,
paint: opts.paint
});
};
proto.update = function update(calcTrace) {
var subplot = this.subplot;
var optsAll = convert(calcTrace);
for(var i = 0; i < this.order.length; i++) {
var k = this.order[i];
var opts = optsAll[k];
subplot.setOptions(this.layerIds[k], 'setLayoutProperty', opts.layout);
if(opts.layout.visibility === 'visible') {
this.setSourceData(k, opts);
subplot.setOptions(this.layerIds[k], 'setPaintProperty', opts.paint);
}
}
// link ref for quick update during selections
calcTrace[0].trace._glTrace = this;
};
proto.dispose = function dispose() {
var map = this.subplot.map;
for(var i = 0; i < this.order.length; i++) {
var k = this.order[i];
map.removeLayer(this.layerIds[k]);
map.removeSource(this.sourceIds[k]);
}
};
module.exports = function createScatterMapbox(subplot, calcTrace) {
var trace = calcTrace[0].trace;
var scatterMapbox = new ScatterMapbox(subplot, trace.uid);
var optsAll = convert(calcTrace);
for(var i = 0; i < scatterMapbox.order.length; i++) {
var k = scatterMapbox.order[i];
var opts = optsAll[k];
scatterMapbox.addSource(k, opts);
scatterMapbox.addLayer(k, opts);
}
// link ref for quick update during selections
calcTrace[0].trace._glTrace = scatterMapbox;
return scatterMapbox;
};
},{"./convert":1087}],1093:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var subtypes = _dereq_('../scatter/subtypes');
var BADNUM = _dereq_('../../constants/numerical').BADNUM;
module.exports = function selectPoints(searchInfo, selectionTester) {
var cd = searchInfo.cd;
var xa = searchInfo.xaxis;
var ya = searchInfo.yaxis;
var selection = [];
var trace = cd[0].trace;
var i;
if(!subtypes.hasMarkers(trace)) return [];
if(selectionTester === false) {
for(i = 0; i < cd.length; i++) {
cd[i].selected = 0;
}
} else {
for(i = 0; i < cd.length; i++) {
var di = cd[i];
var lonlat = di.lonlat;
if(lonlat[0] !== BADNUM) {
var lonlat2 = [Lib.modHalf(lonlat[0], 360), lonlat[1]];
var xy = [xa.c2p(lonlat2), ya.c2p(lonlat2)];
if(selectionTester.contains(xy, null, i, searchInfo)) {
selection.push({
pointNumber: i,
lon: lonlat[0],
lat: lonlat[1]
});
di.selected = 1;
} else {
di.selected = 0;
}
}
}
}
return selection;
};
},{"../../constants/numerical":670,"../../lib":693,"../scatter/subtypes":1056}],1094:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var scatterAttrs = _dereq_('../scatter/attributes');
var plotAttrs = _dereq_('../../plots/attributes');
var lineAttrs = scatterAttrs.line;
module.exports = {
mode: scatterAttrs.mode,
r: {
valType: 'data_array',
editType: 'calc+clearAxisTypes',
},
theta: {
valType: 'data_array',
editType: 'calc+clearAxisTypes',
},
r0: {
valType: 'any',
dflt: 0,
editType: 'calc+clearAxisTypes',
},
dr: {
valType: 'number',
dflt: 1,
editType: 'calc',
},
theta0: {
valType: 'any',
dflt: 0,
editType: 'calc+clearAxisTypes',
},
dtheta: {
valType: 'number',
editType: 'calc',
},
thetaunit: {
valType: 'enumerated',
values: ['radians', 'degrees', 'gradians'],
dflt: 'degrees',
editType: 'calc+clearAxisTypes',
},
text: scatterAttrs.text,
hovertext: scatterAttrs.hovertext,
line: {
color: lineAttrs.color,
width: lineAttrs.width,
dash: lineAttrs.dash,
shape: extendFlat({}, lineAttrs.shape, {
values: ['linear', 'spline']
}),
smoothing: lineAttrs.smoothing,
editType: 'calc'
},
connectgaps: scatterAttrs.connectgaps,
marker: scatterAttrs.marker,
cliponaxis: extendFlat({}, scatterAttrs.cliponaxis, {dflt: false}),
textposition: scatterAttrs.textposition,
textfont: scatterAttrs.textfont,
fill: extendFlat({}, scatterAttrs.fill, {
values: ['none', 'toself', 'tonext'],
dflt: 'none',
}),
fillcolor: scatterAttrs.fillcolor,
// TODO error bars
// https://stackoverflow.com/a/26597487/4068492
// error_x (error_r, error_theta)
// error_y
hoverinfo: extendFlat({}, plotAttrs.hoverinfo, {
flags: ['r', 'theta', 'text', 'name']
}),
hoveron: scatterAttrs.hoveron,
selected: scatterAttrs.selected,
unselected: scatterAttrs.unselected
};
},{"../../lib/extend":682,"../../plots/attributes":739,"../scatter/attributes":1032}],1095:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var BADNUM = _dereq_('../../constants/numerical').BADNUM;
var Axes = _dereq_('../../plots/cartesian/axes');
var calcColorscale = _dereq_('../scatter/colorscale_calc');
var arraysToCalcdata = _dereq_('../scatter/arrays_to_calcdata');
var calcSelection = _dereq_('../scatter/calc_selection');
var calcMarkerSize = _dereq_('../scatter/calc').calcMarkerSize;
module.exports = function calc(gd, trace) {
var fullLayout = gd._fullLayout;
var subplotId = trace.subplot;
var radialAxis = fullLayout[subplotId].radialaxis;
var angularAxis = fullLayout[subplotId].angularaxis;
var rArray = radialAxis.makeCalcdata(trace, 'r');
var thetaArray = angularAxis.makeCalcdata(trace, 'theta');
var len = trace._length;
var cd = new Array(len);
for(var i = 0; i < len; i++) {
var r = rArray[i];
var theta = thetaArray[i];
var cdi = cd[i] = {};
if(isNumeric(r) && isNumeric(theta)) {
cdi.r = r;
cdi.theta = theta;
} else {
cdi.r = BADNUM;
}
}
var ppad = calcMarkerSize(trace, len);
trace._extremes.x = Axes.findExtremes(radialAxis, rArray, {ppad: ppad});
calcColorscale(trace);
arraysToCalcdata(cd, trace);
calcSelection(cd, trace);
return cd;
};
},{"../../constants/numerical":670,"../../plots/cartesian/axes":742,"../scatter/arrays_to_calcdata":1031,"../scatter/calc":1033,"../scatter/calc_selection":1034,"../scatter/colorscale_calc":1036,"fast-isnumeric":213}],1096:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var subTypes = _dereq_('../scatter/subtypes');
var handleMarkerDefaults = _dereq_('../scatter/marker_defaults');
var handleLineDefaults = _dereq_('../scatter/line_defaults');
var handleLineShapeDefaults = _dereq_('../scatter/line_shape_defaults');
var handleTextDefaults = _dereq_('../scatter/text_defaults');
var handleFillColorDefaults = _dereq_('../scatter/fillcolor_defaults');
var PTS_LINESONLY = _dereq_('../scatter/constants').PTS_LINESONLY;
var attributes = _dereq_('./attributes');
function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
var len = handleRThetaDefaults(traceIn, traceOut, layout, coerce);
if(!len) {
traceOut.visible = false;
return;
}
coerce('thetaunit');
coerce('mode', len < PTS_LINESONLY ? 'lines+markers' : 'lines');
coerce('text');
coerce('hovertext');
if(subTypes.hasLines(traceOut)) {
handleLineDefaults(traceIn, traceOut, defaultColor, layout, coerce);
handleLineShapeDefaults(traceIn, traceOut, coerce);
coerce('connectgaps');
}
if(subTypes.hasMarkers(traceOut)) {
handleMarkerDefaults(traceIn, traceOut, defaultColor, layout, coerce, {gradient: true});
}
if(subTypes.hasText(traceOut)) {
handleTextDefaults(traceIn, traceOut, layout, coerce);
}
var dfltHoverOn = [];
if(subTypes.hasMarkers(traceOut) || subTypes.hasText(traceOut)) {
coerce('cliponaxis');
coerce('marker.maxdisplayed');
dfltHoverOn.push('points');
}
coerce('fill');
if(traceOut.fill !== 'none') {
handleFillColorDefaults(traceIn, traceOut, defaultColor, coerce);
if(!subTypes.hasLines(traceOut)) handleLineShapeDefaults(traceIn, traceOut, coerce);
}
if(traceOut.fill === 'tonext' || traceOut.fill === 'toself') {
dfltHoverOn.push('fills');
}
coerce('hoveron', dfltHoverOn.join('+') || 'points');
Lib.coerceSelectionMarkerOpacity(traceOut, coerce);
}
function handleRThetaDefaults(traceIn, traceOut, layout, coerce) {
var r = coerce('r');
var theta = coerce('theta');
var len;
if(r) {
if(theta) {
len = Math.min(r.length, theta.length);
} else {
len = r.length;
coerce('theta0');
coerce('dtheta');
}
} else {
if(!theta) return 0;
len = traceOut.theta.length;
coerce('r0');
coerce('dr');
}
traceOut._length = len;
return len;
}
module.exports = {
handleRThetaDefaults: handleRThetaDefaults,
supplyDefaults: supplyDefaults
};
},{"../../lib":693,"../scatter/constants":1037,"../scatter/fillcolor_defaults":1041,"../scatter/line_defaults":1045,"../scatter/line_shape_defaults":1047,"../scatter/marker_defaults":1051,"../scatter/subtypes":1056,"../scatter/text_defaults":1057,"./attributes":1094}],1097:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var scatterHover = _dereq_('../scatter/hover');
var Axes = _dereq_('../../plots/cartesian/axes');
var Lib = _dereq_('../../lib');
function hoverPoints(pointData, xval, yval, hovermode) {
var scatterPointData = scatterHover(pointData, xval, yval, hovermode);
if(!scatterPointData || scatterPointData[0].index === false) return;
var newPointData = scatterPointData[0];
// hovering on fill case
if(newPointData.index === undefined) {
return scatterPointData;
}
var subplot = pointData.subplot;
var cdi = newPointData.cd[newPointData.index];
var trace = newPointData.trace;
if(!subplot.isPtInside(cdi)) return;
newPointData.xLabelVal = undefined;
newPointData.yLabelVal = undefined;
makeHoverPointText(cdi, trace, subplot, newPointData);
return scatterPointData;
}
function makeHoverPointText(cdi, trace, subplot, pointData) {
var radialAxis = subplot.radialAxis;
var angularAxis = subplot.angularAxis;
var hoverinfo = cdi.hi || trace.hoverinfo;
var parts = hoverinfo.split('+');
var text = [];
radialAxis._hovertitle = 'r';
angularAxis._hovertitle = 'θ';
function textPart(ax, val) {
text.push(ax._hovertitle + ': ' + Axes.tickText(ax, val, 'hover').text);
}
if(parts.indexOf('all') !== -1) parts = ['r', 'theta', 'text'];
if(parts.indexOf('r') !== -1) {
textPart(radialAxis, radialAxis.c2l(cdi.r));
}
if(parts.indexOf('theta') !== -1) {
var theta = cdi.theta;
textPart(
angularAxis,
angularAxis.thetaunit === 'degrees' ? Lib.rad2deg(theta) : theta
);
}
if(parts.indexOf('text') !== -1 && pointData.text) {
text.push(pointData.text);
delete pointData.text;
}
pointData.extraText = text.join('<br>');
}
module.exports = {
hoverPoints: hoverPoints,
makeHoverPointText: makeHoverPointText
};
},{"../../lib":693,"../../plots/cartesian/axes":742,"../scatter/hover":1043}],1098:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
moduleType: 'trace',
name: 'scatterpolar',
basePlotModule: _dereq_('../../plots/polar'),
categories: ['polar', 'symbols', 'showLegend', 'scatter-like'],
attributes: _dereq_('./attributes'),
supplyDefaults: _dereq_('./defaults').supplyDefaults,
colorbar: _dereq_('../scatter/marker_colorbar'),
calc: _dereq_('./calc'),
plot: _dereq_('./plot'),
style: _dereq_('../scatter/style').style,
hoverPoints: _dereq_('./hover').hoverPoints,
selectPoints: _dereq_('../scatter/select'),
meta: {
}
};
},{"../../plots/polar":808,"../scatter/marker_colorbar":1050,"../scatter/select":1053,"../scatter/style":1055,"./attributes":1094,"./calc":1095,"./defaults":1096,"./hover":1097,"./plot":1099}],1099:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var scatterPlot = _dereq_('../scatter/plot');
var BADNUM = _dereq_('../../constants/numerical').BADNUM;
module.exports = function plot(gd, subplot, moduleCalcData) {
var mlayer = subplot.layers.frontplot.select('g.scatterlayer');
var plotinfo = {
xaxis: subplot.xaxis,
yaxis: subplot.yaxis,
plot: subplot.framework,
layerClipId: subplot._hasClipOnAxisFalse ? subplot.clipIds.forTraces : null
};
var radialAxis = subplot.radialAxis;
var angularAxis = subplot.angularAxis;
// convert:
// 'c' (r,theta) -> 'geometric' (r,theta) -> (x,y)
for(var i = 0; i < moduleCalcData.length; i++) {
var cdi = moduleCalcData[i];
for(var j = 0; j < cdi.length; j++) {
var cd = cdi[j];
var r = cd.r;
if(r === BADNUM) {
cd.x = cd.y = BADNUM;
} else {
var rg = radialAxis.c2g(r);
var thetag = angularAxis.c2g(cd.theta);
cd.x = rg * Math.cos(thetag);
cd.y = rg * Math.sin(thetag);
}
}
}
scatterPlot(gd, plotinfo, moduleCalcData, mlayer);
};
},{"../../constants/numerical":670,"../scatter/plot":1052}],1100:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var scatterPolarAttrs = _dereq_('../scatterpolar/attributes');
var scatterGlAttrs = _dereq_('../scattergl/attributes');
module.exports = {
mode: scatterPolarAttrs.mode,
r: scatterPolarAttrs.r,
theta: scatterPolarAttrs.theta,
r0: scatterPolarAttrs.r0,
dr: scatterPolarAttrs.dr,
theta0: scatterPolarAttrs.theta0,
dtheta: scatterPolarAttrs.dtheta,
thetaunit: scatterPolarAttrs.thetaunit,
text: scatterPolarAttrs.text,
hovertext: scatterPolarAttrs.hovertext,
line: scatterGlAttrs.line,
connectgaps: scatterGlAttrs.connectgaps,
marker: scatterGlAttrs.marker,
// no cliponaxis
fill: scatterGlAttrs.fill,
fillcolor: scatterGlAttrs.fillcolor,
textposition: scatterGlAttrs.textposition,
textfont: scatterGlAttrs.textfont,
hoverinfo: scatterPolarAttrs.hoverinfo,
// no hoveron
selected: scatterPolarAttrs.selected,
unselected: scatterPolarAttrs.unselected
};
},{"../scattergl/attributes":1081,"../scatterpolar/attributes":1094}],1101:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var subTypes = _dereq_('../scatter/subtypes');
var handleRThetaDefaults = _dereq_('../scatterpolar/defaults').handleRThetaDefaults;
var handleMarkerDefaults = _dereq_('../scatter/marker_defaults');
var handleLineDefaults = _dereq_('../scatter/line_defaults');
var handleTextDefaults = _dereq_('../scatter/text_defaults');
var handleFillColorDefaults = _dereq_('../scatter/fillcolor_defaults');
var PTS_LINESONLY = _dereq_('../scatter/constants').PTS_LINESONLY;
var attributes = _dereq_('./attributes');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
var len = handleRThetaDefaults(traceIn, traceOut, layout, coerce);
if(!len) {
traceOut.visible = false;
return;
}
coerce('thetaunit');
coerce('mode', len < PTS_LINESONLY ? 'lines+markers' : 'lines');
coerce('text');
coerce('hovertext');
if(subTypes.hasLines(traceOut)) {
handleLineDefaults(traceIn, traceOut, defaultColor, layout, coerce);
coerce('connectgaps');
}
if(subTypes.hasMarkers(traceOut)) {
handleMarkerDefaults(traceIn, traceOut, defaultColor, layout, coerce);
}
if(subTypes.hasText(traceOut)) {
handleTextDefaults(traceIn, traceOut, layout, coerce);
}
coerce('fill');
if(traceOut.fill !== 'none') {
handleFillColorDefaults(traceIn, traceOut, defaultColor, coerce);
}
Lib.coerceSelectionMarkerOpacity(traceOut, coerce);
};
},{"../../lib":693,"../scatter/constants":1037,"../scatter/fillcolor_defaults":1041,"../scatter/line_defaults":1045,"../scatter/marker_defaults":1051,"../scatter/subtypes":1056,"../scatter/text_defaults":1057,"../scatterpolar/defaults":1096,"./attributes":1100}],1102:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var cluster = _dereq_('point-cluster');
var isNumeric = _dereq_('fast-isnumeric');
var ScatterGl = _dereq_('../scattergl');
var calcColorscales = _dereq_('../scatter/colorscale_calc');
var Axes = _dereq_('../../plots/cartesian/axes');
var makeHoverPointText = _dereq_('../scatterpolar/hover').makeHoverPointText;
var subTypes = _dereq_('../scatter/subtypes');
var TOO_MANY_POINTS = _dereq_('../scattergl/constants').TOO_MANY_POINTS;
function calc(container, trace) {
var layout = container._fullLayout;
var subplotId = trace.subplot;
var radialAxis = layout[subplotId].radialaxis;
var angularAxis = layout[subplotId].angularaxis;
var rArray = radialAxis.makeCalcdata(trace, 'r');
var thetaArray = angularAxis.makeCalcdata(trace, 'theta');
var stash = {};
if(trace._length < rArray.length) rArray = rArray.slice(0, trace._length);
if(trace._length < thetaArray.length) thetaArray = thetaArray.slice(0, trace._length);
calcColorscales(trace);
stash.r = rArray;
stash.theta = thetaArray;
trace._extremes.x = Axes.findExtremes(radialAxis, rArray, {tozero: true});
return [{x: false, y: false, t: stash, trace: trace}];
}
function plot(container, subplot, cdata) {
var radialAxis = subplot.radialAxis;
var angularAxis = subplot.angularAxis;
var scene = ScatterGl.sceneUpdate(container, subplot);
cdata.forEach(function(cdscatter, traceIndex) {
if(!cdscatter || !cdscatter[0] || !cdscatter[0].trace) return;
var cd = cdscatter[0];
var trace = cd.trace;
var stash = cd.t;
var rArray = stash.r;
var thetaArray = stash.theta;
var i;
var subRArray = rArray.slice();
var subThetaArray = thetaArray.slice();
// filter out by range
for(i = 0; i < rArray.length; i++) {
if(!subplot.isPtInside({r: rArray[i], theta: thetaArray[i]})) {
subRArray[i] = NaN;
subThetaArray[i] = NaN;
}
}
var count = rArray.length;
var positions = new Array(count * 2);
var x = Array(count);
var y = Array(count);
for(i = 0; i < count; i++) {
var r = subRArray[i];
var xx, yy;
if(isNumeric(r)) {
var rg = radialAxis.c2g(r);
var thetag = angularAxis.c2g(subThetaArray[i], trace.thetaunit);
xx = rg * Math.cos(thetag);
yy = rg * Math.sin(thetag);
} else {
xx = yy = NaN;
}
x[i] = positions[i * 2] = xx;
y[i] = positions[i * 2 + 1] = yy;
}
var options = ScatterGl.sceneOptions(container, subplot, trace, positions);
// set flags to create scene renderers
if(options.fill && !scene.fill2d) scene.fill2d = true;
if(options.marker && !scene.scatter2d) scene.scatter2d = true;
if(options.line && !scene.line2d) scene.line2d = true;
if((options.errorX || options.errorY) && !scene.error2d) scene.error2d = true;
if(options.text && !scene.glText) scene.glText = true;
stash.tree = cluster(positions);
// FIXME: see scattergl.js#109
if(options.marker && count >= TOO_MANY_POINTS) {
options.marker.cluster = stash.tree;
}
// bring positions to selected/unselected options
if(subTypes.hasMarkers(trace)) {
options.markerSel.positions = options.markerUnsel.positions = options.marker.positions;
}
// save scene options batch
scene.lineOptions.push(options.line);
scene.errorXOptions.push(options.errorX);
scene.errorYOptions.push(options.errorY);
scene.fillOptions.push(options.fill);
scene.markerOptions.push(options.marker);
scene.markerSelectedOptions.push(options.markerSel);
scene.markerUnselectedOptions.push(options.markerUnsel);
scene.textOptions.push(options.text);
scene.textSelectedOptions.push(options.textSel);
scene.textUnselectedOptions.push(options.textUnsel);
scene.count = cdata.length;
// stash scene ref
stash._scene = scene;
stash.index = traceIndex;
stash.x = x;
stash.y = y;
stash.rawx = x;
stash.rawy = y;
stash.r = rArray;
stash.theta = thetaArray;
stash.positions = positions;
stash.count = count;
});
return ScatterGl.plot(container, subplot, cdata);
}
function hoverPoints(pointData, xval, yval, hovermode) {
var cd = pointData.cd;
var stash = cd[0].t;
var rArray = stash.r;
var thetaArray = stash.theta;
var scatterPointData = ScatterGl.hoverPoints(pointData, xval, yval, hovermode);
if(!scatterPointData || scatterPointData[0].index === false) return;
var newPointData = scatterPointData[0];
if(newPointData.index === undefined) {
return scatterPointData;
}
var subplot = pointData.subplot;
var cdi = newPointData.cd[newPointData.index];
var trace = newPointData.trace;
// augment pointData with r/theta param
cdi.r = rArray[newPointData.index];
cdi.theta = thetaArray[newPointData.index];
if(!subplot.isPtInside(cdi)) return;
newPointData.xLabelVal = undefined;
newPointData.yLabelVal = undefined;
makeHoverPointText(cdi, trace, subplot, newPointData);
return scatterPointData;
}
module.exports = {
moduleType: 'trace',
name: 'scatterpolargl',
basePlotModule: _dereq_('../../plots/polar'),
categories: ['gl', 'regl', 'polar', 'symbols', 'showLegend', 'scatter-like'],
attributes: _dereq_('./attributes'),
supplyDefaults: _dereq_('./defaults'),
colorbar: _dereq_('../scatter/marker_colorbar'),
calc: calc,
plot: plot,
hoverPoints: hoverPoints,
style: ScatterGl.style,
selectPoints: ScatterGl.selectPoints,
meta: {
}
};
},{"../../plots/cartesian/axes":742,"../../plots/polar":808,"../scatter/colorscale_calc":1036,"../scatter/marker_colorbar":1050,"../scatter/subtypes":1056,"../scattergl":1085,"../scattergl/constants":1082,"../scatterpolar/hover":1097,"./attributes":1100,"./defaults":1101,"fast-isnumeric":213,"point-cluster":449}],1103:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var scatterAttrs = _dereq_('../scatter/attributes');
var plotAttrs = _dereq_('../../plots/attributes');
var colorAttributes = _dereq_('../../components/colorscale/attributes');
var colorbarAttrs = _dereq_('../../components/colorbar/attributes');
var dash = _dereq_('../../components/drawing/attributes').dash;
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var scatterMarkerAttrs = scatterAttrs.marker,
scatterLineAttrs = scatterAttrs.line,
scatterMarkerLineAttrs = scatterMarkerAttrs.line;
module.exports = {
a: {
valType: 'data_array',
editType: 'calc',
},
b: {
valType: 'data_array',
editType: 'calc',
},
c: {
valType: 'data_array',
editType: 'calc',
},
sum: {
valType: 'number',
dflt: 0,
min: 0,
editType: 'calc',
},
mode: extendFlat({}, scatterAttrs.mode, {dflt: 'markers'}),
text: extendFlat({}, scatterAttrs.text, {
}),
hovertext: extendFlat({}, scatterAttrs.hovertext, {
}),
line: {
color: scatterLineAttrs.color,
width: scatterLineAttrs.width,
dash: dash,
shape: extendFlat({}, scatterLineAttrs.shape,
{values: ['linear', 'spline']}),
smoothing: scatterLineAttrs.smoothing,
editType: 'calc'
},
connectgaps: scatterAttrs.connectgaps,
cliponaxis: scatterAttrs.cliponaxis,
fill: extendFlat({}, scatterAttrs.fill, {
values: ['none', 'toself', 'tonext'],
dflt: 'none',
}),
fillcolor: scatterAttrs.fillcolor,
marker: extendFlat({
symbol: scatterMarkerAttrs.symbol,
opacity: scatterMarkerAttrs.opacity,
maxdisplayed: scatterMarkerAttrs.maxdisplayed,
size: scatterMarkerAttrs.size,
sizeref: scatterMarkerAttrs.sizeref,
sizemin: scatterMarkerAttrs.sizemin,
sizemode: scatterMarkerAttrs.sizemode,
line: extendFlat({
width: scatterMarkerLineAttrs.width,
editType: 'calc'
},
colorAttributes('marker.line')
),
gradient: scatterMarkerAttrs.gradient,
editType: 'calc'
}, colorAttributes('marker'), {
colorbar: colorbarAttrs
}),
textfont: scatterAttrs.textfont,
textposition: scatterAttrs.textposition,
selected: scatterAttrs.selected,
unselected: scatterAttrs.unselected,
hoverinfo: extendFlat({}, plotAttrs.hoverinfo, {
flags: ['a', 'b', 'c', 'text', 'name']
}),
hoveron: scatterAttrs.hoveron,
};
},{"../../components/colorbar/attributes":568,"../../components/colorscale/attributes":574,"../../components/drawing/attributes":591,"../../lib/extend":682,"../../plots/attributes":739,"../scatter/attributes":1032}],1104:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var isNumeric = _dereq_('fast-isnumeric');
var calcColorscale = _dereq_('../scatter/colorscale_calc');
var arraysToCalcdata = _dereq_('../scatter/arrays_to_calcdata');
var calcSelection = _dereq_('../scatter/calc_selection');
var calcMarkerSize = _dereq_('../scatter/calc').calcMarkerSize;
var dataArrays = ['a', 'b', 'c'];
var arraysToFill = {a: ['b', 'c'], b: ['a', 'c'], c: ['a', 'b']};
module.exports = function calc(gd, trace) {
var ternary = gd._fullLayout[trace.subplot];
var displaySum = ternary.sum;
var normSum = trace.sum || displaySum;
var arrays = {a: trace.a, b: trace.b, c: trace.c};
var i, j, dataArray, newArray, fillArray1, fillArray2;
// fill in one missing component
for(i = 0; i < dataArrays.length; i++) {
dataArray = dataArrays[i];
if(arrays[dataArray]) continue;
fillArray1 = arrays[arraysToFill[dataArray][0]];
fillArray2 = arrays[arraysToFill[dataArray][1]];
newArray = new Array(fillArray1.length);
for(j = 0; j < fillArray1.length; j++) {
newArray[j] = normSum - fillArray1[j] - fillArray2[j];
}
arrays[dataArray] = newArray;
}
// make the calcdata array
var serieslen = trace._length;
var cd = new Array(serieslen);
var a, b, c, norm, x, y;
for(i = 0; i < serieslen; i++) {
a = arrays.a[i];
b = arrays.b[i];
c = arrays.c[i];
if(isNumeric(a) && isNumeric(b) && isNumeric(c)) {
a = +a;
b = +b;
c = +c;
norm = displaySum / (a + b + c);
if(norm !== 1) {
a *= norm;
b *= norm;
c *= norm;
}
// map a, b, c onto x and y where the full scale of y
// is [0, sum], and x is [-sum, sum]
// TODO: this makes `a` always the top, `b` the bottom left,
// and `c` the bottom right. Do we want options to rearrange
// these?
y = a;
x = c - b;
cd[i] = {x: x, y: y, a: a, b: b, c: c};
}
else cd[i] = {x: false, y: false};
}
calcMarkerSize(trace, serieslen);
calcColorscale(trace);
arraysToCalcdata(cd, trace);
calcSelection(cd, trace);
return cd;
};
},{"../scatter/arrays_to_calcdata":1031,"../scatter/calc":1033,"../scatter/calc_selection":1034,"../scatter/colorscale_calc":1036,"fast-isnumeric":213}],1105:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var constants = _dereq_('../scatter/constants');
var subTypes = _dereq_('../scatter/subtypes');
var handleMarkerDefaults = _dereq_('../scatter/marker_defaults');
var handleLineDefaults = _dereq_('../scatter/line_defaults');
var handleLineShapeDefaults = _dereq_('../scatter/line_shape_defaults');
var handleTextDefaults = _dereq_('../scatter/text_defaults');
var handleFillColorDefaults = _dereq_('../scatter/fillcolor_defaults');
var attributes = _dereq_('./attributes');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
var a = coerce('a'),
b = coerce('b'),
c = coerce('c'),
len;
// allow any one array to be missing, len is the minimum length of those
// present. Note that after coerce data_array's are either Arrays (which
// are truthy even if empty) or undefined. As in scatter, an empty array
// is different from undefined, because it can signify that this data is
// not known yet but expected in the future
if(a) {
len = a.length;
if(b) {
len = Math.min(len, b.length);
if(c) len = Math.min(len, c.length);
}
else if(c) len = Math.min(len, c.length);
else len = 0;
}
else if(b && c) {
len = Math.min(b.length, c.length);
}
if(!len) {
traceOut.visible = false;
return;
}
traceOut._length = len;
coerce('sum');
coerce('text');
coerce('hovertext');
var defaultMode = len < constants.PTS_LINESONLY ? 'lines+markers' : 'lines';
coerce('mode', defaultMode);
if(subTypes.hasLines(traceOut)) {
handleLineDefaults(traceIn, traceOut, defaultColor, layout, coerce);
handleLineShapeDefaults(traceIn, traceOut, coerce);
coerce('connectgaps');
}
if(subTypes.hasMarkers(traceOut)) {
handleMarkerDefaults(traceIn, traceOut, defaultColor, layout, coerce, {gradient: true});
}
if(subTypes.hasText(traceOut)) {
handleTextDefaults(traceIn, traceOut, layout, coerce);
}
var dfltHoverOn = [];
if(subTypes.hasMarkers(traceOut) || subTypes.hasText(traceOut)) {
coerce('cliponaxis');
coerce('marker.maxdisplayed');
dfltHoverOn.push('points');
}
coerce('fill');
if(traceOut.fill !== 'none') {
handleFillColorDefaults(traceIn, traceOut, defaultColor, coerce);
if(!subTypes.hasLines(traceOut)) handleLineShapeDefaults(traceIn, traceOut, coerce);
}
if(traceOut.fill === 'tonext' || traceOut.fill === 'toself') {
dfltHoverOn.push('fills');
}
coerce('hoveron', dfltHoverOn.join('+') || 'points');
Lib.coerceSelectionMarkerOpacity(traceOut, coerce);
};
},{"../../lib":693,"../scatter/constants":1037,"../scatter/fillcolor_defaults":1041,"../scatter/line_defaults":1045,"../scatter/line_shape_defaults":1047,"../scatter/marker_defaults":1051,"../scatter/subtypes":1056,"../scatter/text_defaults":1057,"./attributes":1103}],1106:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = function eventData(out, pt, trace, cd, pointNumber) {
if(pt.xa) out.xaxis = pt.xa;
if(pt.ya) out.yaxis = pt.ya;
if(cd[pointNumber]) {
var cdi = cd[pointNumber];
// N.B. These are the normalized coordinates.
out.a = cdi.a;
out.b = cdi.b;
out.c = cdi.c;
} else {
// for fill-hover only
out.a = pt.a;
out.b = pt.b;
out.c = pt.c;
}
return out;
};
},{}],1107:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var scatterHover = _dereq_('../scatter/hover');
var Axes = _dereq_('../../plots/cartesian/axes');
module.exports = function hoverPoints(pointData, xval, yval, hovermode) {
var scatterPointData = scatterHover(pointData, xval, yval, hovermode);
if(!scatterPointData || scatterPointData[0].index === false) return;
var newPointData = scatterPointData[0];
// if hovering on a fill, we don't show any point data so the label is
// unchanged from what scatter gives us - except that it needs to
// be constrained to the trianglular plot area, not just the rectangular
// area defined by the synthetic x and y axes
// TODO: in some cases the vertical middle of the shape is not within
// the triangular viewport at all, so the label can become disconnected
// from the shape entirely. But calculating what portion of the shape
// is actually visible, as constrained by the diagonal axis lines, is not
// so easy and anyway we lost the information we would have needed to do
// this inside scatterHover.
if(newPointData.index === undefined) {
var yFracUp = 1 - (newPointData.y0 / pointData.ya._length),
xLen = pointData.xa._length,
xMin = xLen * yFracUp / 2,
xMax = xLen - xMin;
newPointData.x0 = Math.max(Math.min(newPointData.x0, xMax), xMin);
newPointData.x1 = Math.max(Math.min(newPointData.x1, xMax), xMin);
return scatterPointData;
}
var cdi = newPointData.cd[newPointData.index];
newPointData.a = cdi.a;
newPointData.b = cdi.b;
newPointData.c = cdi.c;
newPointData.xLabelVal = undefined;
newPointData.yLabelVal = undefined;
// TODO: nice formatting, and label by axis title, for a, b, and c?
var trace = newPointData.trace;
var ternary = newPointData.subplot;
var hoverinfo = cdi.hi || trace.hoverinfo;
var parts = hoverinfo.split('+');
var text = [];
function textPart(ax, val) {
text.push(ax._hovertitle + ': ' + Axes.tickText(ax, val, 'hover').text);
}
if(parts.indexOf('all') !== -1) parts = ['a', 'b', 'c'];
if(parts.indexOf('a') !== -1) textPart(ternary.aaxis, cdi.a);
if(parts.indexOf('b') !== -1) textPart(ternary.baxis, cdi.b);
if(parts.indexOf('c') !== -1) textPart(ternary.caxis, cdi.c);
newPointData.extraText = text.join('<br>');
return scatterPointData;
};
},{"../../plots/cartesian/axes":742,"../scatter/hover":1043}],1108:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var ScatterTernary = {};
ScatterTernary.attributes = _dereq_('./attributes');
ScatterTernary.supplyDefaults = _dereq_('./defaults');
ScatterTernary.colorbar = _dereq_('../scatter/marker_colorbar');
ScatterTernary.calc = _dereq_('./calc');
ScatterTernary.plot = _dereq_('./plot');
ScatterTernary.style = _dereq_('../scatter/style').style;
ScatterTernary.styleOnSelect = _dereq_('../scatter/style').styleOnSelect;
ScatterTernary.hoverPoints = _dereq_('./hover');
ScatterTernary.selectPoints = _dereq_('../scatter/select');
ScatterTernary.eventData = _dereq_('./event_data');
ScatterTernary.moduleType = 'trace';
ScatterTernary.name = 'scatterternary';
ScatterTernary.basePlotModule = _dereq_('../../plots/ternary');
ScatterTernary.categories = ['ternary', 'symbols', 'showLegend', 'scatter-like'];
ScatterTernary.meta = {
};
module.exports = ScatterTernary;
},{"../../plots/ternary":821,"../scatter/marker_colorbar":1050,"../scatter/select":1053,"../scatter/style":1055,"./attributes":1103,"./calc":1104,"./defaults":1105,"./event_data":1106,"./hover":1107,"./plot":1109}],1109:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var scatterPlot = _dereq_('../scatter/plot');
module.exports = function plot(gd, ternary, moduleCalcData) {
var plotContainer = ternary.plotContainer;
// remove all nodes inside the scatter layer
plotContainer.select('.scatterlayer').selectAll('*').remove();
// mimic cartesian plotinfo
var plotinfo = {
xaxis: ternary.xaxis,
yaxis: ternary.yaxis,
plot: plotContainer,
layerClipId: ternary._hasClipOnAxisFalse ? ternary.clipIdRelative : null
};
var scatterLayer = ternary.layers.frontplot.select('g.scatterlayer');
scatterPlot(gd, plotinfo, moduleCalcData, scatterLayer);
};
},{"../scatter/plot":1052}],1110:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var scatterGlAttrs = _dereq_('../scattergl/attributes');
var cartesianIdRegex = _dereq_('../../plots/cartesian/constants').idRegex;
var templatedArray = _dereq_('../../plot_api/plot_template').templatedArray;
function makeAxesValObject(axLetter) {
return {
valType: 'info_array',
freeLength: true,
editType: 'calc',
items: {
valType: 'subplotid',
regex: cartesianIdRegex[axLetter],
editType: 'plot'
},
};
}
module.exports = {
dimensions: templatedArray('dimension', {
visible: {
valType: 'boolean',
dflt: true,
editType: 'calc',
},
label: {
valType: 'string',
editType: 'calc',
},
values: {
valType: 'data_array',
editType: 'calc+clearAxisTypes',
},
axis: {
type: {
valType: 'enumerated',
values: ['linear', 'log', 'date', 'category'],
editType: 'calc+clearAxisTypes',
},
editType: 'calc+clearAxisTypes'
},
// TODO should add an attribute to pin down x only vars and y only vars
// like https://seaborn.pydata.org/generated/seaborn.pairplot.html
// x_vars and y_vars
// maybe more axis defaulting option e.g. `showgrid: false`
editType: 'calc+clearAxisTypes'
}),
// mode: {}, (only 'markers' for now)
text: scatterGlAttrs.text,
marker: scatterGlAttrs.marker,
xaxes: makeAxesValObject('x'),
yaxes: makeAxesValObject('y'),
diagonal: {
visible: {
valType: 'boolean',
dflt: true,
editType: 'calc',
},
// type: 'scattergl' | 'histogram' | 'box' | 'violin'
// ...
// more options
editType: 'calc'
},
showupperhalf: {
valType: 'boolean',
dflt: true,
editType: 'calc',
},
showlowerhalf: {
valType: 'boolean',
dflt: true,
editType: 'calc',
},
selected: {
marker: scatterGlAttrs.selected.marker,
editType: 'calc'
},
unselected: {
marker: scatterGlAttrs.unselected.marker,
editType: 'calc'
},
opacity: scatterGlAttrs.opacity
};
},{"../../plot_api/plot_template":732,"../../plots/cartesian/constants":747,"../scattergl/attributes":1081}],1111:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var createLine = _dereq_('regl-line2d');
var Registry = _dereq_('../../registry');
var prepareRegl = _dereq_('../../lib/prepare_regl');
var getModuleCalcData = _dereq_('../../plots/get_data').getModuleCalcData;
var Cartesian = _dereq_('../../plots/cartesian');
var getFromId = _dereq_('../../plots/cartesian/axis_ids').getFromId;
var shouldShowZeroLine = _dereq_('../../plots/cartesian/axes').shouldShowZeroLine;
var SPLOM = 'splom';
function plot(gd) {
var fullLayout = gd._fullLayout;
var _module = Registry.getModule(SPLOM);
var splomCalcData = getModuleCalcData(gd.calcdata, _module)[0];
var success = prepareRegl(gd, ['ANGLE_instanced_arrays', 'OES_element_index_uint']);
if(!success) return;
if(fullLayout._hasOnlyLargeSploms) {
drawGrid(gd);
}
_module.plot(gd, {}, splomCalcData);
}
function drag(gd) {
var cd = gd.calcdata;
var fullLayout = gd._fullLayout;
if(fullLayout._hasOnlyLargeSploms) {
drawGrid(gd);
}
for(var i = 0; i < cd.length; i++) {
var cd0 = cd[i][0];
var trace = cd0.trace;
var stash = cd0.t;
var scene = stash._scene;
if(trace.type === 'splom' && scene && scene.matrix) {
dragOne(gd, trace, stash, scene);
}
}
}
function dragOne(gd, trace, stash, scene) {
var visibleLength = scene.matrixOptions.data.length;
var visibleDims = stash.visibleDims;
var ranges = new Array(visibleLength);
for(var k = 0; k < visibleDims.length; k++) {
var i = visibleDims[k];
var rng = ranges[k] = new Array(4);
var xa = getFromId(gd, trace._diag[i][0]);
if(xa) {
rng[0] = xa.r2l(xa.range[0]);
rng[2] = xa.r2l(xa.range[1]);
}
var ya = getFromId(gd, trace._diag[i][1]);
if(ya) {
rng[1] = ya.r2l(ya.range[0]);
rng[3] = ya.r2l(ya.range[1]);
}
}
if(scene.selectBatch) {
scene.matrix.update({ranges: ranges}, {ranges: ranges});
scene.matrix.draw(scene.unselectBatch, scene.selectBatch);
} else {
scene.matrix.update({ranges: ranges});
scene.matrix.draw();
}
}
function drawGrid(gd) {
var fullLayout = gd._fullLayout;
var regl = fullLayout._glcanvas.data()[0].regl;
var splomGrid = fullLayout._splomGrid;
if(!splomGrid) {
splomGrid = fullLayout._splomGrid = createLine(regl);
}
splomGrid.update(makeGridData(gd));
splomGrid.draw();
}
function makeGridData(gd) {
var fullLayout = gd._fullLayout;
var gs = fullLayout._size;
var fullView = [0, 0, fullLayout.width, fullLayout.height];
var lookup = {};
var k;
function push(prefix, ax, x0, x1, y0, y1) {
var lcolor = ax[prefix + 'color'];
var lwidth = ax[prefix + 'width'];
var key = String(lcolor + lwidth);
if(key in lookup) {
lookup[key].data.push(NaN, NaN, x0, x1, y0, y1);
} else {
lookup[key] = {
data: [x0, x1, y0, y1],
join: 'rect',
thickness: lwidth,
color: lcolor,
viewport: fullView,
range: fullView,
overlay: false
};
}
}
for(k in fullLayout._splomSubplots) {
var sp = fullLayout._plots[k];
var xa = sp.xaxis;
var ya = sp.yaxis;
var xVals = xa._vals;
var yVals = ya._vals;
// ya.l2p assumes top-to-bottom coordinate system (a la SVG),
// we need to compute bottom-to-top offsets and slopes:
var yOffset = gs.b + ya.domain[0] * gs.h;
var ym = -ya._m;
var yb = -ym * ya.r2l(ya.range[0], ya.calendar);
var x, y;
if(xa.showgrid) {
for(k = 0; k < xVals.length; k++) {
x = xa._offset + xa.l2p(xVals[k].x);
push('grid', xa, x, yOffset, x, yOffset + ya._length);
}
}
if(ya.showgrid) {
for(k = 0; k < yVals.length; k++) {
y = yOffset + yb + ym * yVals[k].x;
push('grid', ya, xa._offset, y, xa._offset + xa._length, y);
}
}
if(shouldShowZeroLine(gd, xa, ya)) {
x = xa._offset + xa.l2p(0);
push('zeroline', xa, x, yOffset, x, yOffset + ya._length);
}
if(shouldShowZeroLine(gd, ya, xa)) {
y = yOffset + yb + 0;
push('zeroline', ya, xa._offset, y, xa._offset + xa._length, y);
}
}
var gridBatches = [];
for(k in lookup) {
gridBatches.push(lookup[k]);
}
return gridBatches;
}
function clean(newFullData, newFullLayout, oldFullData, oldFullLayout, oldCalcdata) {
var oldModules = oldFullLayout._modules || [];
var newModules = newFullLayout._modules || [];
var hadSplom, hasSplom;
var i;
for(i = 0; i < oldModules.length; i++) {
if(oldModules[i].name === 'splom') {
hadSplom = true;
break;
}
}
for(i = 0; i < newModules.length; i++) {
if(newModules[i].name === 'splom') {
hasSplom = true;
break;
}
}
if(hadSplom && !hasSplom) {
for(i = 0; i < oldCalcdata.length; i++) {
var cd0 = oldCalcdata[i][0];
var trace = cd0.trace;
var scene = cd0.t._scene;
if(
trace.type === 'splom' &&
scene && scene.matrix && scene.matrix.destroy
) {
scene.matrix.destroy();
cd0.t._scene = null;
}
}
}
if(oldFullLayout._splomGrid &&
(!newFullLayout._hasOnlyLargeSploms && oldFullLayout._hasOnlyLargeSploms)) {
oldFullLayout._splomGrid.destroy();
oldFullLayout._splomGrid = null;
}
Cartesian.clean(newFullData, newFullLayout, oldFullData, oldFullLayout);
}
function updateFx(gd) {
Cartesian.updateFx(gd);
var fullLayout = gd._fullLayout;
var dragmode = fullLayout.dragmode;
// unset selection styles when coming out of a selection mode
if(dragmode === 'zoom' || dragmode === 'pan') {
var cd = gd.calcdata;
for(var i = 0; i < cd.length; i++) {
var cd0 = cd[i][0];
var trace = cd0.trace;
if(trace.type === 'splom') {
var scene = cd0.t._scene;
if(scene.selectBatch === null) {
scene.matrix.update(scene.matrixOptions, null);
}
}
}
}
}
module.exports = {
name: SPLOM,
attr: Cartesian.attr,
attrRegex: Cartesian.attrRegex,
layoutAttributes: Cartesian.layoutAttributes,
supplyLayoutDefaults: Cartesian.supplyLayoutDefaults,
drawFramework: Cartesian.drawFramework,
plot: plot,
drag: drag,
clean: clean,
updateFx: updateFx,
toSVG: Cartesian.toSVG
};
},{"../../lib/prepare_regl":707,"../../plots/cartesian":753,"../../plots/cartesian/axes":742,"../../plots/cartesian/axis_ids":745,"../../plots/get_data":778,"../../registry":825,"regl-line2d":471}],1112:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var handleArrayContainerDefaults = _dereq_('../../plots/array_container_defaults');
var attributes = _dereq_('./attributes');
var subTypes = _dereq_('../scatter/subtypes');
var handleMarkerDefaults = _dereq_('../scatter/marker_defaults');
var mergeLength = _dereq_('../parcoords/merge_length');
var OPEN_RE = /-open/;
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
var dimensions = handleArrayContainerDefaults(traceIn, traceOut, {
name: 'dimensions',
handleItemDefaults: dimensionDefaults
});
var showDiag = coerce('diagonal.visible');
var showUpper = coerce('showupperhalf');
var showLower = coerce('showlowerhalf');
var dimLength = mergeLength(traceOut, dimensions, 'values');
if(!dimLength || (!showDiag && !showUpper && !showLower)) {
traceOut.visible = false;
return;
}
coerce('text');
handleMarkerDefaults(traceIn, traceOut, defaultColor, layout, coerce);
var isOpen = OPEN_RE.test(traceOut.marker.symbol);
var isBubble = subTypes.isBubble(traceOut);
coerce('marker.line.width', isOpen || isBubble ? 1 : 0);
handleAxisDefaults(traceIn, traceOut, layout, coerce);
Lib.coerceSelectionMarkerOpacity(traceOut, coerce);
};
function dimensionDefaults(dimIn, dimOut) {
function coerce(attr, dflt) {
return Lib.coerce(dimIn, dimOut, attributes.dimensions, attr, dflt);
}
coerce('label');
var values = coerce('values');
if(!(values && values.length)) dimOut.visible = false;
else coerce('visible');
coerce('axis.type');
}
function handleAxisDefaults(traceIn, traceOut, layout, coerce) {
var dimensions = traceOut.dimensions;
var dimLength = dimensions.length;
var showUpper = traceOut.showupperhalf;
var showLower = traceOut.showlowerhalf;
var showDiag = traceOut.diagonal.visible;
var i, j;
// N.B. one less x axis AND one less y axis when hiding one half and the diagonal
var axDfltLength = !showDiag && (!showUpper || !showLower) ? dimLength - 1 : dimLength;
var xaxes = coerce('xaxes', fillAxisIdArray('x', axDfltLength));
var yaxes = coerce('yaxes', fillAxisIdArray('y', axDfltLength));
// to avoid costly indexOf
traceOut._xaxes = arrayToHashObject(xaxes);
traceOut._yaxes = arrayToHashObject(yaxes);
// allow users to under-specify number of axes
var axLength = Math.min(axDfltLength, xaxes.length, yaxes.length);
// fill in splom subplot keys
for(i = 0; i < axLength; i++) {
for(j = 0; j < axLength; j++) {
var id = xaxes[i] + yaxes[j];
if(i > j && showUpper) {
layout._splomSubplots[id] = 1;
} else if(i < j && showLower) {
layout._splomSubplots[id] = 1;
} else if(i === j && (showDiag || !showLower || !showUpper)) {
// need to include diagonal subplots when
// hiding one half and the diagonal
layout._splomSubplots[id] = 1;
}
}
}
// build list of [x,y] axis corresponding to each dimensions[i],
// very useful for passing options to regl-splom
var diag = traceOut._diag = new Array(dimLength);
// cases where showDiag and showLower or showUpper are false
// no special treatment as the xaxes and yaxes items no longer match
// the dimensions items 1-to-1
var xShift = !showDiag && !showLower ? -1 : 0;
var yShift = !showDiag && !showUpper ? -1 : 0;
for(i = 0; i < dimLength; i++) {
var dim = dimensions[i];
var xaId = xaxes[i + xShift];
var yaId = yaxes[i + yShift];
fillAxisStash(layout, xaId, dim);
fillAxisStash(layout, yaId, dim);
// note that some the entries here may be undefined
diag[i] = [xaId, yaId];
}
// when lower half is omitted, override grid default
// to make sure axes remain on the left/bottom of the plot area
if(!showLower) {
layout._splomGridDflt.xside = 'bottom';
layout._splomGridDflt.yside = 'left';
}
}
function fillAxisIdArray(axLetter, len) {
var out = new Array(len);
for(var i = 0; i < len; i++) {
out[i] = axLetter + (i ? i + 1 : '');
}
return out;
}
function fillAxisStash(layout, axId, dim) {
if(!axId) return;
var axLetter = axId.charAt(0);
var stash = layout._splomAxes[axLetter];
if(!(axId in stash)) {
var s = stash[axId] = {};
if(dim) {
s.label = dim.label || '';
if(dim.visible && dim.axis) {
s.type = dim.axis.type;
}
}
}
}
function arrayToHashObject(arr) {
var obj = {};
for(var i = 0; i < arr.length; i++) {
obj[arr[i]] = 1;
}
return obj;
}
},{"../../lib":693,"../../plots/array_container_defaults":738,"../parcoords/merge_length":1004,"../scatter/marker_defaults":1051,"../scatter/subtypes":1056,"./attributes":1110}],1113:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var createMatrix = _dereq_('regl-splom');
var arrayRange = _dereq_('array-range');
var Registry = _dereq_('../../registry');
var Grid = _dereq_('../../components/grid');
var Lib = _dereq_('../../lib');
var AxisIDs = _dereq_('../../plots/cartesian/axis_ids');
var subTypes = _dereq_('../scatter/subtypes');
var calcMarkerSize = _dereq_('../scatter/calc').calcMarkerSize;
var calcAxisExpansion = _dereq_('../scatter/calc').calcAxisExpansion;
var calcColorscales = _dereq_('../scatter/colorscale_calc');
var convertMarkerSelection = _dereq_('../scattergl/convert').markerSelection;
var convertMarkerStyle = _dereq_('../scattergl/convert').markerStyle;
var calcHover = _dereq_('../scattergl').calcHover;
var BADNUM = _dereq_('../../constants/numerical').BADNUM;
var TOO_MANY_POINTS = _dereq_('../scattergl/constants').TOO_MANY_POINTS;
function calc(gd, trace) {
var dimensions = trace.dimensions;
var commonLength = trace._length;
var stash = {};
var opts = {};
// 'c' for calculated, 'l' for linear,
// only differ here for log axes, pass ldata to createMatrix as 'data'
var cdata = opts.cdata = [];
var ldata = opts.data = [];
// keep track of visible dimensions
var visibleDims = stash.visibleDims = [];
var i, k, dim, xa, ya;
function makeCalcdata(ax, dim) {
// call makeCalcdata with fake input
var ccol = ax.makeCalcdata({
v: dim.values,
vcalendar: trace.calendar
}, 'v');
for(var j = 0; j < ccol.length; j++) {
ccol[j] = ccol[j] === BADNUM ? NaN : ccol[j];
}
cdata.push(ccol);
ldata.push(ax.type === 'log' ? Lib.simpleMap(ccol, ax.c2l) : ccol);
}
for(i = 0; i < dimensions.length; i++) {
dim = dimensions[i];
if(dim.visible) {
xa = AxisIDs.getFromId(gd, trace._diag[i][0]);
ya = AxisIDs.getFromId(gd, trace._diag[i][1]);
// if corresponding x & y axes don't have matching types, skip dim
if(xa && ya && xa.type !== ya.type) {
Lib.log('Skipping splom dimension ' + i + ' with conflicting axis types');
continue;
}
if(xa) {
makeCalcdata(xa, dim);
if(ya && ya.type === 'category') {
ya._categories = xa._categories.slice();
}
} else {
// should not make it here, if both xa and ya undefined
makeCalcdata(ya, dim);
}
visibleDims.push(i);
}
}
calcColorscales(trace);
Lib.extendFlat(opts, convertMarkerStyle(trace));
var visibleLength = cdata.length;
var hasTooManyPoints = (visibleLength * commonLength) > TOO_MANY_POINTS;
for(k = 0; k < visibleDims.length; k++) {
i = visibleDims[k];
dim = dimensions[i];
xa = AxisIDs.getFromId(gd, trace._diag[i][0]) || {};
ya = AxisIDs.getFromId(gd, trace._diag[i][1]) || {};
// Reuse SVG scatter axis expansion routine.
// For graphs with very large number of points and array marker.size,
// use average marker size instead to speed things up.
var ppad;
if(hasTooManyPoints) {
ppad = 2 * (opts.sizeAvg || Math.max(opts.size, 3));
} else {
ppad = calcMarkerSize(trace, commonLength);
}
calcAxisExpansion(gd, trace, xa, ya, cdata[k], cdata[k], ppad);
}
var scene = stash._scene = sceneUpdate(gd, stash);
if(!scene.matrix) scene.matrix = true;
scene.matrixOptions = opts;
scene.selectedOptions = convertMarkerSelection(trace, trace.selected);
scene.unselectedOptions = convertMarkerSelection(trace, trace.unselected);
return [{x: false, y: false, t: stash, trace: trace}];
}
function sceneUpdate(gd, stash) {
var scene = stash._scene;
var reset = {
dirty: true
};
var first = {
selectBatch: null,
unselectBatch: null,
matrix: false,
select: null
};
if(!scene) {
scene = stash._scene = Lib.extendFlat({}, reset, first);
scene.draw = function draw() {
// draw traces in selection mode
if(scene.matrix && scene.selectBatch) {
scene.matrix.draw(scene.unselectBatch, scene.selectBatch);
} else if(scene.matrix) {
scene.matrix.draw();
}
scene.dirty = false;
};
// remove scene resources
scene.destroy = function destroy() {
if(scene.matrix) scene.matrix.destroy();
scene.matrixOptions = null;
scene.selectBatch = null;
scene.unselectBatch = null;
stash._scene = null;
};
}
// In case if we have scene from the last calc - reset data
if(!scene.dirty) {
Lib.extendFlat(scene, reset);
}
return scene;
}
function plot(gd, _, splomCalcData) {
if(!splomCalcData.length) return;
for(var i = 0; i < splomCalcData.length; i++) {
plotOne(gd, splomCalcData[i][0]);
}
}
function plotOne(gd, cd0) {
var fullLayout = gd._fullLayout;
var gs = fullLayout._size;
var trace = cd0.trace;
var stash = cd0.t;
var scene = stash._scene;
var matrixOpts = scene.matrixOptions;
var cdata = matrixOpts.cdata;
var regl = fullLayout._glcanvas.data()[0].regl;
var dragmode = fullLayout.dragmode;
var xa, ya;
var i, j, k;
if(cdata.length === 0) return;
// augment options with proper upper/lower halves
// regl-splom's default grid starts from bottom-left
matrixOpts.lower = trace.showupperhalf;
matrixOpts.upper = trace.showlowerhalf;
matrixOpts.diagonal = trace.diagonal.visible;
var visibleDims = stash.visibleDims;
var visibleLength = cdata.length;
var viewOpts = {};
viewOpts.ranges = new Array(visibleLength);
viewOpts.domains = new Array(visibleLength);
for(k = 0; k < visibleDims.length; k++) {
i = visibleDims[k];
var rng = viewOpts.ranges[k] = new Array(4);
var dmn = viewOpts.domains[k] = new Array(4);
xa = AxisIDs.getFromId(gd, trace._diag[i][0]);
if(xa) {
rng[0] = xa._rl[0];
rng[2] = xa._rl[1];
dmn[0] = xa.domain[0];
dmn[2] = xa.domain[1];
}
ya = AxisIDs.getFromId(gd, trace._diag[i][1]);
if(ya) {
rng[1] = ya._rl[0];
rng[3] = ya._rl[1];
dmn[1] = ya.domain[0];
dmn[3] = ya.domain[1];
}
}
viewOpts.viewport = [gs.l, gs.b, gs.w + gs.l, gs.h + gs.b];
if(scene.matrix === true) {
scene.matrix = createMatrix(regl);
}
var clickSelectEnabled = fullLayout.clickmode.indexOf('select') > -1;
var selectMode = dragmode === 'lasso' || dragmode === 'select' ||
!!trace.selectedpoints || clickSelectEnabled;
scene.selectBatch = null;
scene.unselectBatch = null;
if(selectMode) {
var commonLength = trace._length;
if(!scene.selectBatch) {
scene.selectBatch = [];
scene.unselectBatch = [];
}
// regenerate scene batch, if traces number changed during selection
if(trace.selectedpoints) {
scene.selectBatch = trace.selectedpoints;
var selPts = trace.selectedpoints;
var selDict = {};
for(i = 0; i < selPts.length; i++) {
selDict[selPts[i]] = true;
}
var unselPts = [];
for(i = 0; i < commonLength; i++) {
if(!selDict[i]) unselPts.push(i);
}
scene.unselectBatch = unselPts;
}
// precalculate px coords since we are not going to pan during select
var xpx = stash.xpx = new Array(visibleLength);
var ypx = stash.ypx = new Array(visibleLength);
for(k = 0; k < visibleDims.length; k++) {
i = visibleDims[k];
xa = AxisIDs.getFromId(gd, trace._diag[i][0]);
if(xa) {
xpx[k] = new Array(commonLength);
for(j = 0; j < commonLength; j++) {
xpx[k][j] = xa.c2p(cdata[k][j]);
}
}
ya = AxisIDs.getFromId(gd, trace._diag[i][1]);
if(ya) {
ypx[k] = new Array(commonLength);
for(j = 0; j < commonLength; j++) {
ypx[k][j] = ya.c2p(cdata[k][j]);
}
}
}
if(scene.selectBatch) {
scene.matrix.update(matrixOpts, matrixOpts);
scene.matrix.update(scene.unselectedOptions, scene.selectedOptions);
scene.matrix.update(viewOpts, viewOpts);
}
else {
// delete selection pass
scene.matrix.update(viewOpts, null);
}
}
else {
scene.matrix.update(matrixOpts, null);
scene.matrix.update(viewOpts, null);
stash.xpx = stash.ypx = null;
}
scene.draw();
}
function hoverPoints(pointData, xval, yval) {
var cd = pointData.cd;
var trace = cd[0].trace;
var stash = cd[0].t;
var scene = stash._scene;
var cdata = scene.matrixOptions.cdata;
var xa = pointData.xa;
var ya = pointData.ya;
var xpx = xa.c2p(xval);
var ypx = ya.c2p(yval);
var maxDistance = pointData.distance;
var xi = getDimIndex(trace, stash, xa);
var yi = getDimIndex(trace, stash, ya);
if(xi === false || yi === false) return [pointData];
var x = cdata[xi];
var y = cdata[yi];
var id, dxy;
var minDist = maxDistance;
for(var i = 0; i < x.length; i++) {
var ptx = x[i];
var pty = y[i];
var dx = xa.c2p(ptx) - xpx;
var dy = ya.c2p(pty) - ypx;
var dist = Math.sqrt(dx * dx + dy * dy);
if(dist < minDist) {
minDist = dxy = dist;
id = i;
}
}
pointData.index = id;
pointData.distance = minDist;
pointData.dxy = dxy;
if(id === undefined) return [pointData];
calcHover(pointData, x, y, trace);
return [pointData];
}
function selectPoints(searchInfo, selectionTester) {
var cd = searchInfo.cd;
var trace = cd[0].trace;
var stash = cd[0].t;
var scene = stash._scene;
var cdata = scene.matrixOptions.cdata;
var xa = searchInfo.xaxis;
var ya = searchInfo.yaxis;
var selection = [];
var i;
if(!scene) return selection;
var hasOnlyLines = (!subTypes.hasMarkers(trace) && !subTypes.hasText(trace));
if(trace.visible !== true || hasOnlyLines) return selection;
var xi = getDimIndex(trace, stash, xa);
var yi = getDimIndex(trace, stash, ya);
if(xi === false || yi === false) return selection;
var xpx = stash.xpx[xi];
var ypx = stash.ypx[yi];
var x = cdata[xi];
var y = cdata[yi];
// degenerate polygon does not enable selection
// filter out points by visible scatter ones
var els = null;
var unels = null;
if(selectionTester !== false && !selectionTester.degenerate) {
els = [], unels = [];
for(i = 0; i < x.length; i++) {
if(selectionTester.contains([xpx[i], ypx[i]], null, i, searchInfo)) {
els.push(i);
selection.push({
pointNumber: i,
x: x[i],
y: y[i]
});
}
else {
unels.push(i);
}
}
} else {
unels = arrayRange(stash.count);
}
// make sure selectBatch is created
if(!scene.selectBatch) {
scene.selectBatch = [];
scene.unselectBatch = [];
}
if(!scene.selectBatch) {
// enter every trace select mode
for(i = 0; i < scene.count; i++) {
scene.selectBatch = [];
scene.unselectBatch = [];
}
// we should turn scatter2d into unselected once we have any points selected
scene.matrix.update(scene.unselectedOptions, scene.selectedOptions);
}
scene.selectBatch = els;
scene.unselectBatch = unels;
return selection;
}
function style(gd, cds) {
if(!cds) return;
var fullLayout = gd._fullLayout;
var cd0 = cds[0];
var scene0 = cd0[0].t._scene;
scene0.matrix.regl.clear({color: true, depth: true});
if(fullLayout._splomGrid) {
fullLayout._splomGrid.draw();
}
for(var i = 0; i < cds.length; i++) {
var scene = cds[i][0].t._scene;
scene.draw();
}
// redraw all subplot with scattergl traces,
// as we cleared the whole canvas above
if(fullLayout._has('cartesian')) {
for(var k in fullLayout._plots) {
var sp = fullLayout._plots[k];
if(sp._scene) sp._scene.draw();
}
}
}
function getDimIndex(trace, stash, ax) {
var axId = ax._id;
var axLetter = axId.charAt(0);
var ind = {x: 0, y: 1}[axLetter];
var visibleDims = stash.visibleDims;
for(var k = 0; k < visibleDims.length; k++) {
var i = visibleDims[k];
if(trace._diag[i][ind] === axId) return k;
}
return false;
}
module.exports = {
moduleType: 'trace',
name: 'splom',
basePlotModule: _dereq_('./base_plot'),
categories: ['gl', 'regl', 'cartesian', 'symbols', 'showLegend', 'scatter-like'],
attributes: _dereq_('./attributes'),
supplyDefaults: _dereq_('./defaults'),
colorbar: _dereq_('../scatter/marker_colorbar'),
calc: calc,
plot: plot,
hoverPoints: hoverPoints,
selectPoints: selectPoints,
style: style,
meta: {
}
};
// splom traces use the 'grid' component to generate their axes,
// register it here
Registry.register(Grid);
},{"../../components/grid":613,"../../constants/numerical":670,"../../lib":693,"../../plots/cartesian/axis_ids":745,"../../registry":825,"../scatter/calc":1033,"../scatter/colorscale_calc":1036,"../scatter/marker_colorbar":1050,"../scatter/subtypes":1056,"../scattergl":1085,"../scattergl/constants":1082,"../scattergl/convert":1083,"./attributes":1110,"./base_plot":1111,"./defaults":1112,"array-range":54,"regl-splom":474}],1114:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var colorscaleAttrs = _dereq_('../../components/colorscale/attributes');
var colorbarAttrs = _dereq_('../../components/colorbar/attributes');
var mesh3dAttrs = _dereq_('../mesh3d/attributes');
var baseAttrs = _dereq_('../../plots/attributes');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var attrs = {
x: {
valType: 'data_array',
editType: 'calc+clearAxisTypes',
},
y: {
valType: 'data_array',
editType: 'calc+clearAxisTypes',
},
z: {
valType: 'data_array',
editType: 'calc+clearAxisTypes',
},
u: {
valType: 'data_array',
editType: 'calc',
},
v: {
valType: 'data_array',
editType: 'calc',
},
w: {
valType: 'data_array',
editType: 'calc',
},
starts: {
x: {
valType: 'data_array',
editType: 'calc',
},
y: {
valType: 'data_array',
editType: 'calc',
},
z: {
valType: 'data_array',
editType: 'calc',
},
editType: 'calc'
},
maxdisplayed: {
valType: 'integer',
min: 0,
dflt: 1000,
editType: 'calc',
},
// TODO
//
// Should add 'absolute' (like cone traces have), but currently gl-streamtube3d's
// `absoluteTubeSize` doesn't behave well enough for our needs.
//
// 'fixed' would be a nice addition to plot stream 'lines', see
// https://github.com/plotly/plotly.js/commit/812be20750e21e0a1831975001c248d365850f73#r29129877
//
// sizemode: {
// valType: 'enumerated',
// values: ['scaled', 'absolute', 'fixed'],
// dflt: 'scaled',
//
// editType: 'calc',
//
// },
sizeref: {
valType: 'number',
editType: 'calc',
min: 0,
dflt: 1,
},
text: {
valType: 'string',
dflt: '',
editType: 'calc',
}
};
extendFlat(attrs, colorscaleAttrs('', {
colorAttr: 'u/v/w norm',
showScaleDflt: true,
editTypeOverride: 'calc'
}), {
colorbar: colorbarAttrs
});
var fromMesh3d = ['opacity', 'lightposition', 'lighting'];
fromMesh3d.forEach(function(k) {
attrs[k] = mesh3dAttrs[k];
});
attrs.hoverinfo = extendFlat({}, baseAttrs.hoverinfo, {
editType: 'calc',
flags: ['x', 'y', 'z', 'u', 'v', 'w', 'norm', 'divergence', 'text', 'name'],
dflt: 'x+y+z+norm+text+name'
});
module.exports = attrs;
},{"../../components/colorbar/attributes":568,"../../components/colorscale/attributes":574,"../../lib/extend":682,"../../plots/attributes":739,"../mesh3d/attributes":982}],1115:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var colorscaleCalc = _dereq_('../../components/colorscale/calc');
module.exports = function calc(gd, trace) {
var i;
var u = trace.u;
var v = trace.v;
var w = trace.w;
var x = trace.x;
var y = trace.y;
var z = trace.z;
var len = Math.min(x.length, y.length, z.length, u.length, v.length, w.length);
var slen = 0;
var startx, starty, startz;
if(trace.starts) {
startx = trace.starts.x || [];
starty = trace.starts.y || [];
startz = trace.starts.z || [];
slen = Math.min(startx.length, starty.length, startz.length);
}
var normMax = 0;
var normMin = Infinity;
for(i = 0; i < len; i++) {
var uu = u[i];
var vv = v[i];
var ww = w[i];
var norm = Math.sqrt(uu * uu + vv * vv + ww * ww);
normMax = Math.max(normMax, norm);
normMin = Math.min(normMin, norm);
}
colorscaleCalc(trace, [normMin, normMax], '', 'c');
var xMax = -Infinity;
var xMin = Infinity;
var yMax = -Infinity;
var yMin = Infinity;
var zMax = -Infinity;
var zMin = Infinity;
for(i = 0; i < len; i++) {
var xx = x[i];
xMax = Math.max(xMax, xx);
xMin = Math.min(xMin, xx);
var yy = y[i];
yMax = Math.max(yMax, yy);
yMin = Math.min(yMin, yy);
var zz = z[i];
zMax = Math.max(zMax, zz);
zMin = Math.min(zMin, zz);
}
for(i = 0; i < slen; i++) {
var sx = startx[i];
xMax = Math.max(xMax, sx);
xMin = Math.min(xMin, sx);
var sy = starty[i];
yMax = Math.max(yMax, sy);
yMin = Math.min(yMin, sy);
var sz = startz[i];
zMax = Math.max(zMax, sz);
zMin = Math.min(zMin, sz);
}
trace._len = len;
trace._slen = slen;
trace._normMax = normMax;
trace._xbnds = [xMin, xMax];
trace._ybnds = [yMin, yMax];
trace._zbnds = [zMin, zMax];
};
},{"../../components/colorscale/calc":575}],1116:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var tube2mesh = _dereq_('gl-streamtube3d');
var createTubeMesh = tube2mesh.createTubeMesh;
var Lib = _dereq_('../../lib');
var parseColorScale = _dereq_('../../lib/gl_format_color').parseColorScale;
var zip3 = _dereq_('../../plots/gl3d/zip3');
var axisName2scaleIndex = {xaxis: 0, yaxis: 1, zaxis: 2};
function Streamtube(scene, uid) {
this.scene = scene;
this.uid = uid;
this.mesh = null;
this.data = null;
}
var proto = Streamtube.prototype;
proto.handlePick = function(selection) {
var sceneLayout = this.scene.fullSceneLayout;
var dataScale = this.scene.dataScale;
function fromDataScale(v, axisName) {
var ax = sceneLayout[axisName];
var scale = dataScale[axisName2scaleIndex[axisName]];
return ax.l2c(v) / scale;
}
if(selection.object === this.mesh) {
var pos = selection.data.position;
var uvx = selection.data.velocity;
selection.traceCoordinate = [
fromDataScale(pos[0], 'xaxis'),
fromDataScale(pos[1], 'yaxis'),
fromDataScale(pos[2], 'zaxis'),
fromDataScale(uvx[0], 'xaxis'),
fromDataScale(uvx[1], 'yaxis'),
fromDataScale(uvx[2], 'zaxis'),
// u/v/w norm
selection.data.intensity * this.data._normMax,
// divergence
selection.data.divergence
];
selection.textLabel = this.data.text;
return true;
}
};
function distinctVals(col) {
return Lib.distinctVals(col).vals;
}
function getDfltStartingPositions(vec) {
var len = vec.length;
var s;
if(len > 2) {
s = vec.slice(1, len - 1);
} else if(len === 2) {
s = [(vec[0] + vec[1]) / 2];
} else {
s = vec;
}
return s;
}
function getBoundPads(vec) {
var len = vec.length;
if(len === 1) {
return [0.5, 0.5];
} else {
return [vec[1] - vec[0], vec[len - 1] - vec[len - 2]];
}
}
function convert(scene, trace) {
var sceneLayout = scene.fullSceneLayout;
var dataScale = scene.dataScale;
var len = trace._len;
var tubeOpts = {};
function toDataCoords(arr, axisName) {
var ax = sceneLayout[axisName];
var scale = dataScale[axisName2scaleIndex[axisName]];
return Lib.simpleMap(arr, function(v) { return ax.d2l(v) * scale; });
}
tubeOpts.vectors = zip3(
toDataCoords(trace.u, 'xaxis'),
toDataCoords(trace.v, 'yaxis'),
toDataCoords(trace.w, 'zaxis'),
len
);
var valsx = distinctVals(trace.x.slice(0, len));
var valsy = distinctVals(trace.y.slice(0, len));
var valsz = distinctVals(trace.z.slice(0, len));
// Over-specified mesh case, this would error in tube2mesh
if(valsx.length * valsy.length * valsz.length > len) {
return {positions: [], cells: []};
}
var meshx = toDataCoords(valsx, 'xaxis');
var meshy = toDataCoords(valsy, 'yaxis');
var meshz = toDataCoords(valsz, 'zaxis');
tubeOpts.meshgrid = [meshx, meshy, meshz];
if(trace.starts) {
var slen = trace._slen;
tubeOpts.startingPositions = zip3(
toDataCoords(trace.starts.x.slice(0, slen), 'xaxis'),
toDataCoords(trace.starts.y.slice(0, slen), 'yaxis'),
toDataCoords(trace.starts.z.slice(0, slen), 'zaxis')
);
} else {
// Default starting positions:
//
// if len>2, cut xz plane at min-y,
// takes all x/y/z pts on that plane except those on the edges
// to generate "well-defined" tubes,
//
// if len=2, take position halfway between two the pts,
//
// if len=1, take that pt
var sy0 = meshy[0];
var sx = getDfltStartingPositions(meshx);
var sz = getDfltStartingPositions(meshz);
var startingPositions = new Array(sx.length * sz.length);
var m = 0;
for(var i = 0; i < sx.length; i++) {
for(var k = 0; k < sz.length; k++) {
startingPositions[m++] = [sx[i], sy0, sz[k]];
}
}
tubeOpts.startingPositions = startingPositions;
}
tubeOpts.colormap = parseColorScale(trace.colorscale);
tubeOpts.tubeSize = trace.sizeref;
tubeOpts.maxLength = trace.maxdisplayed;
// add some padding around the bounds
// to e.g. allow tubes starting from a slice of the x/y/z mesh
// to go beyond bounds a little bit w/o getting clipped
var xbnds = toDataCoords(trace._xbnds, 'xaxis');
var ybnds = toDataCoords(trace._ybnds, 'yaxis');
var zbnds = toDataCoords(trace._zbnds, 'zaxis');
var xpads = getBoundPads(meshx);
var ypads = getBoundPads(meshy);
var zpads = getBoundPads(meshz);
var bounds = [
[xbnds[0] - xpads[0], ybnds[0] - ypads[0], zbnds[0] - zpads[0]],
[xbnds[1] + xpads[1], ybnds[1] + ypads[1], zbnds[1] + zpads[1]]
];
var meshData = tube2mesh(tubeOpts, bounds);
// N.B. cmin/cmax correspond to the min/max vector norm
// in the u/v/w arrays, which in general is NOT equal to max
// intensity that colors the tubes.
meshData.vertexIntensityBounds = [trace.cmin / trace._normMax, trace.cmax / trace._normMax];
// pass gl-mesh3d lighting attributes
var lp = trace.lightposition;
meshData.lightPosition = [lp.x, lp.y, lp.z];
meshData.ambient = trace.lighting.ambient;
meshData.diffuse = trace.lighting.diffuse;
meshData.specular = trace.lighting.specular;
meshData.roughness = trace.lighting.roughness;
meshData.fresnel = trace.lighting.fresnel;
meshData.opacity = trace.opacity;
// stash autorange pad value
trace._pad = meshData.tubeScale * trace.sizeref * 2;
return meshData;
}
proto.update = function(data) {
this.data = data;
var meshData = convert(this.scene, data);
this.mesh.update(meshData);
};
proto.dispose = function() {
this.scene.glplot.remove(this.mesh);
this.mesh.dispose();
};
function createStreamtubeTrace(scene, data) {
var gl = scene.glplot.gl;
var meshData = convert(scene, data);
var mesh = createTubeMesh(gl, meshData);
var streamtube = new Streamtube(scene, data.uid);
streamtube.mesh = mesh;
streamtube.data = data;
mesh._trace = streamtube;
scene.glplot.add(mesh);
return streamtube;
}
module.exports = createStreamtubeTrace;
},{"../../lib":693,"../../lib/gl_format_color":689,"../../plots/gl3d/zip3":795,"gl-streamtube3d":299}],1117:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var colorscaleDefaults = _dereq_('../../components/colorscale/defaults');
var attributes = _dereq_('./attributes');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
var u = coerce('u');
var v = coerce('v');
var w = coerce('w');
var x = coerce('x');
var y = coerce('y');
var z = coerce('z');
if(
!u || !u.length || !v || !v.length || !w || !w.length ||
!x || !x.length || !y || !y.length || !z || !z.length
) {
traceOut.visible = false;
return;
}
coerce('starts.x');
coerce('starts.y');
coerce('starts.z');
coerce('maxdisplayed');
coerce('sizeref');
coerce('lighting.ambient');
coerce('lighting.diffuse');
coerce('lighting.specular');
coerce('lighting.roughness');
coerce('lighting.fresnel');
coerce('lightposition.x');
coerce('lightposition.y');
coerce('lightposition.z');
colorscaleDefaults(traceIn, traceOut, layout, coerce, {prefix: '', cLetter: 'c'});
coerce('text');
// disable 1D transforms (for now)
// x/y/z and u/v/w have matching lengths,
// but they don't have to match with starts.(x|y|z)
traceOut._length = null;
};
},{"../../components/colorscale/defaults":577,"../../lib":693,"./attributes":1114}],1118:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
moduleType: 'trace',
name: 'streamtube',
basePlotModule: _dereq_('../../plots/gl3d'),
categories: ['gl3d'],
attributes: _dereq_('./attributes'),
supplyDefaults: _dereq_('./defaults'),
colorbar: {
min: 'cmin',
max: 'cmax'
},
calc: _dereq_('./calc'),
plot: _dereq_('./convert'),
eventData: function(out, pt) {
out.tubex = out.x;
out.tubey = out.y;
out.tubez = out.z;
out.tubeu = pt.traceCoordinate[3];
out.tubev = pt.traceCoordinate[4];
out.tubew = pt.traceCoordinate[5];
out.norm = pt.traceCoordinate[6];
out.divergence = pt.traceCoordinate[7];
// Does not correspond to input x/y/z, so delete them
delete out.x;
delete out.y;
delete out.z;
return out;
},
meta: {
}
};
},{"../../plots/gl3d":784,"./attributes":1114,"./calc":1115,"./convert":1116,"./defaults":1117}],1119:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Color = _dereq_('../../components/color');
var colorscaleAttrs = _dereq_('../../components/colorscale/attributes');
var colorbarAttrs = _dereq_('../../components/colorbar/attributes');
var baseAttrs = _dereq_('../../plots/attributes');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll;
function makeContourProjAttr(axLetter) {
return {
valType: 'boolean',
dflt: false,
};
}
function makeContourAttr(axLetter) {
return {
show: {
valType: 'boolean',
dflt: false,
},
project: {
x: makeContourProjAttr('x'),
y: makeContourProjAttr('y'),
z: makeContourProjAttr('z')
},
color: {
valType: 'color',
dflt: Color.defaultLine,
},
usecolormap: {
valType: 'boolean',
dflt: false,
},
width: {
valType: 'number',
min: 1,
max: 16,
dflt: 2,
},
highlight: {
valType: 'boolean',
dflt: true,
},
highlightcolor: {
valType: 'color',
dflt: Color.defaultLine,
},
highlightwidth: {
valType: 'number',
min: 1,
max: 16,
dflt: 2,
}
};
}
var attrs = module.exports = overrideAll(extendFlat({
z: {
valType: 'data_array',
},
x: {
valType: 'data_array',
},
y: {
valType: 'data_array',
},
text: {
valType: 'string',
dflt: '',
arrayOk: true,
},
surfacecolor: {
valType: 'data_array',
},
},
colorscaleAttrs('', {
colorAttr: 'z or surfacecolor',
showScaleDflt: true,
autoColorDflt: false,
editTypeOverride: 'calc'
}), {
colorbar: colorbarAttrs,
contours: {
x: makeContourAttr('x'),
y: makeContourAttr('y'),
z: makeContourAttr('z')
},
hidesurface: {
valType: 'boolean',
dflt: false,
},
lightposition: {
x: {
valType: 'number',
min: -1e5,
max: 1e5,
dflt: 10,
},
y: {
valType: 'number',
min: -1e5,
max: 1e5,
dflt: 1e4,
},
z: {
valType: 'number',
min: -1e5,
max: 1e5,
dflt: 0,
}
},
lighting: {
ambient: {
valType: 'number',
min: 0.00,
max: 1.0,
dflt: 0.8,
},
diffuse: {
valType: 'number',
min: 0.00,
max: 1.00,
dflt: 0.8,
},
specular: {
valType: 'number',
min: 0.00,
max: 2.00,
dflt: 0.05,
},
roughness: {
valType: 'number',
min: 0.00,
max: 1.00,
dflt: 0.5,
},
fresnel: {
valType: 'number',
min: 0.00,
max: 5.00,
dflt: 0.2,
}
},
opacity: {
valType: 'number',
min: 0,
max: 1,
dflt: 1,
},
_deprecated: {
zauto: extendFlat({}, colorscaleAttrs.zauto, {
}),
zmin: extendFlat({}, colorscaleAttrs.zmin, {
}),
zmax: extendFlat({}, colorscaleAttrs.zmax, {
})
},
hoverinfo: extendFlat({}, baseAttrs.hoverinfo)
}), 'calc', 'nested');
attrs.x.editType = attrs.y.editType = attrs.z.editType = 'calc+clearAxisTypes';
},{"../../components/color":567,"../../components/colorbar/attributes":568,"../../components/colorscale/attributes":574,"../../lib/extend":682,"../../plot_api/edit_types":725,"../../plots/attributes":739}],1120:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var colorscaleCalc = _dereq_('../../components/colorscale/calc');
// Compute auto-z and autocolorscale if applicable
module.exports = function calc(gd, trace) {
if(trace.surfacecolor) {
colorscaleCalc(trace, trace.surfacecolor, '', 'c');
} else {
colorscaleCalc(trace, trace.z, '', 'c');
}
};
},{"../../components/colorscale/calc":575}],1121:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var createSurface = _dereq_('gl-surface3d');
var ndarray = _dereq_('ndarray');
var homography = _dereq_('ndarray-homography');
var fill = _dereq_('ndarray-fill');
var ops = _dereq_('ndarray-ops');
var isArrayOrTypedArray = _dereq_('../../lib').isArrayOrTypedArray;
var parseColorScale = _dereq_('../../lib/gl_format_color').parseColorScale;
var str2RgbaArray = _dereq_('../../lib/str2rgbarray');
var MIN_RESOLUTION = 128;
function SurfaceTrace(scene, surface, uid) {
this.scene = scene;
this.uid = uid;
this.surface = surface;
this.data = null;
this.showContour = [false, false, false];
this.dataScale = 1.0;
}
var proto = SurfaceTrace.prototype;
proto.handlePick = function(selection) {
if(selection.object === this.surface) {
var selectIndex = selection.index = [
Math.min(
Math.round(selection.data.index[0] / this.dataScale - 1)|0,
this.data.z[0].length - 1
),
Math.min(
Math.round(selection.data.index[1] / this.dataScale - 1)|0,
this.data.z.length - 1
)
];
var traceCoordinate = [0, 0, 0];
if(!isArrayOrTypedArray(this.data.x)) {
traceCoordinate[0] = selectIndex[0];
} else if(isArrayOrTypedArray(this.data.x[0])) {
traceCoordinate[0] = this.data.x[selectIndex[1]][selectIndex[0]];
} else {
traceCoordinate[0] = this.data.x[selectIndex[0]];
}
if(!isArrayOrTypedArray(this.data.y)) {
traceCoordinate[1] = selectIndex[1];
} else if(isArrayOrTypedArray(this.data.y[0])) {
traceCoordinate[1] = this.data.y[selectIndex[1]][selectIndex[0]];
} else {
traceCoordinate[1] = this.data.y[selectIndex[1]];
}
traceCoordinate[2] = this.data.z[selectIndex[1]][selectIndex[0]];
selection.traceCoordinate = traceCoordinate;
var sceneLayout = this.scene.fullSceneLayout;
selection.dataCoordinate = [
sceneLayout.xaxis.d2l(traceCoordinate[0], 0, this.data.xcalendar) * this.scene.dataScale[0],
sceneLayout.yaxis.d2l(traceCoordinate[1], 0, this.data.ycalendar) * this.scene.dataScale[1],
sceneLayout.zaxis.d2l(traceCoordinate[2], 0, this.data.zcalendar) * this.scene.dataScale[2]
];
var text = this.data.text;
if(Array.isArray(text) && text[selectIndex[1]] && text[selectIndex[1]][selectIndex[0]] !== undefined) {
selection.textLabel = text[selectIndex[1]][selectIndex[0]];
} else if(text) {
selection.textLabel = text;
} else {
selection.textLabel = '';
}
selection.data.dataCoordinate = selection.dataCoordinate.slice();
this.surface.highlight(selection.data);
// Snap spikes to data coordinate
this.scene.glplot.spikes.position = selection.dataCoordinate;
return true;
}
};
function isColormapCircular(colormap) {
var first = colormap[0].rgb,
last = colormap[colormap.length - 1].rgb;
return (
first[0] === last[0] &&
first[1] === last[1] &&
first[2] === last[2] &&
first[3] === last[3]
);
}
// Pad coords by +1
function padField(field) {
var shape = field.shape;
var nshape = [shape[0] + 2, shape[1] + 2];
var nfield = ndarray(new Float32Array(nshape[0] * nshape[1]), nshape);
// Center
ops.assign(nfield.lo(1, 1).hi(shape[0], shape[1]), field);
// Edges
ops.assign(nfield.lo(1).hi(shape[0], 1),
field.hi(shape[0], 1));
ops.assign(nfield.lo(1, nshape[1] - 1).hi(shape[0], 1),
field.lo(0, shape[1] - 1).hi(shape[0], 1));
ops.assign(nfield.lo(0, 1).hi(1, shape[1]),
field.hi(1));
ops.assign(nfield.lo(nshape[0] - 1, 1).hi(1, shape[1]),
field.lo(shape[0] - 1));
// Corners
nfield.set(0, 0, field.get(0, 0));
nfield.set(0, nshape[1] - 1, field.get(0, shape[1] - 1));
nfield.set(nshape[0] - 1, 0, field.get(shape[0] - 1, 0));
nfield.set(nshape[0] - 1, nshape[1] - 1, field.get(shape[0] - 1, shape[1] - 1));
return nfield;
}
function refine(coords) {
var minScale = Math.max(coords[0].shape[0], coords[0].shape[1]);
if(minScale < MIN_RESOLUTION) {
var scaleF = MIN_RESOLUTION / minScale;
var nshape = [
Math.floor((coords[0].shape[0]) * scaleF + 1)|0,
Math.floor((coords[0].shape[1]) * scaleF + 1)|0 ];
var nsize = nshape[0] * nshape[1];
for(var i = 0; i < coords.length; ++i) {
var padImg = padField(coords[i]);
var scaledImg = ndarray(new Float32Array(nsize), nshape);
homography(scaledImg, padImg, [scaleF, 0, 0,
0, scaleF, 0,
0, 0, 1]);
coords[i] = scaledImg;
}
return scaleF;
}
return 1.0;
}
proto.setContourLevels = function() {
var nlevels = [[], [], []];
var needsUpdate = false;
for(var i = 0; i < 3; ++i) {
if(this.showContour[i]) {
needsUpdate = true;
nlevels[i] = this.scene.contourLevels[i];
}
}
if(needsUpdate) {
this.surface.update({ levels: nlevels });
}
};
proto.update = function(data) {
var i,
scene = this.scene,
sceneLayout = scene.fullSceneLayout,
surface = this.surface,
alpha = data.opacity,
colormap = parseColorScale(data.colorscale, alpha),
z = data.z,
x = data.x,
y = data.y,
xaxis = sceneLayout.xaxis,
yaxis = sceneLayout.yaxis,
zaxis = sceneLayout.zaxis,
scaleFactor = scene.dataScale,
xlen = z[0].length,
ylen = data._ylength,
coords = [
ndarray(new Float32Array(xlen * ylen), [xlen, ylen]),
ndarray(new Float32Array(xlen * ylen), [xlen, ylen]),
ndarray(new Float32Array(xlen * ylen), [xlen, ylen])
],
xc = coords[0],
yc = coords[1],
contourLevels = scene.contourLevels;
// Save data
this.data = data;
/*
* Fill and transpose zdata.
* Consistent with 'heatmap' and 'contour', plotly 'surface'
* 'z' are such that sub-arrays correspond to y-coords
* and that the sub-array entries correspond to a x-coords,
* which is the transpose of 'gl-surface-plot'.
*/
var xcalendar = data.xcalendar,
ycalendar = data.ycalendar,
zcalendar = data.zcalendar;
fill(coords[2], function(row, col) {
return zaxis.d2l(z[col][row], 0, zcalendar) * scaleFactor[2];
});
// coords x
if(!isArrayOrTypedArray(x)) {
fill(xc, function(row) {
return xaxis.d2l(row, 0, xcalendar) * scaleFactor[0];
});
} else if(isArrayOrTypedArray(x[0])) {
fill(xc, function(row, col) {
return xaxis.d2l(x[col][row], 0, xcalendar) * scaleFactor[0];
});
} else {
// ticks x
fill(xc, function(row) {
return xaxis.d2l(x[row], 0, xcalendar) * scaleFactor[0];
});
}
// coords y
if(!isArrayOrTypedArray(x)) {
fill(yc, function(row, col) {
return yaxis.d2l(col, 0, xcalendar) * scaleFactor[1];
});
} else if(isArrayOrTypedArray(y[0])) {
fill(yc, function(row, col) {
return yaxis.d2l(y[col][row], 0, ycalendar) * scaleFactor[1];
});
} else {
// ticks y
fill(yc, function(row, col) {
return yaxis.d2l(y[col], 0, ycalendar) * scaleFactor[1];
});
}
var params = {
colormap: colormap,
levels: [[], [], []],
showContour: [true, true, true],
showSurface: !data.hidesurface,
contourProject: [
[false, false, false],
[false, false, false],
[false, false, false]
],
contourWidth: [1, 1, 1],
contourColor: [[1, 1, 1, 1], [1, 1, 1, 1], [1, 1, 1, 1]],
contourTint: [1, 1, 1],
dynamicColor: [[1, 1, 1, 1], [1, 1, 1, 1], [1, 1, 1, 1]],
dynamicWidth: [1, 1, 1],
dynamicTint: [1, 1, 1],
opacity: data.opacity
};
params.intensityBounds = [data.cmin, data.cmax];
// Refine if necessary
if(data.surfacecolor) {
var intensity = ndarray(new Float32Array(xlen * ylen), [xlen, ylen]);
fill(intensity, function(row, col) {
return data.surfacecolor[col][row];
});
coords.push(intensity);
}
else {
// when 'z' is used as 'intensity',
// we must scale its value
params.intensityBounds[0] *= scaleFactor[2];
params.intensityBounds[1] *= scaleFactor[2];
}
this.dataScale = refine(coords);
if(data.surfacecolor) {
params.intensity = coords.pop();
}
var highlightEnable = [true, true, true];
var axis = ['x', 'y', 'z'];
for(i = 0; i < 3; ++i) {
var contourParams = data.contours[axis[i]];
highlightEnable[i] = contourParams.highlight;
params.showContour[i] = contourParams.show || contourParams.highlight;
if(!params.showContour[i]) continue;
params.contourProject[i] = [
contourParams.project.x,
contourParams.project.y,
contourParams.project.z
];
if(contourParams.show) {
this.showContour[i] = true;
params.levels[i] = contourLevels[i];
surface.highlightColor[i] = params.contourColor[i] = str2RgbaArray(contourParams.color);
if(contourParams.usecolormap) {
surface.highlightTint[i] = params.contourTint[i] = 0;
}
else {
surface.highlightTint[i] = params.contourTint[i] = 1;
}
params.contourWidth[i] = contourParams.width;
} else {
this.showContour[i] = false;
}
if(contourParams.highlight) {
params.dynamicColor[i] = str2RgbaArray(contourParams.highlightcolor);
params.dynamicWidth[i] = contourParams.highlightwidth;
}
}
// see https://github.com/plotly/plotly.js/issues/940
if(isColormapCircular(colormap)) {
params.vertexColor = true;
}
params.coords = coords;
surface.update(params);
surface.visible = data.visible;
surface.enableDynamic = highlightEnable;
surface.enableHighlight = highlightEnable;
surface.snapToData = true;
if('lighting' in data) {
surface.ambientLight = data.lighting.ambient;
surface.diffuseLight = data.lighting.diffuse;
surface.specularLight = data.lighting.specular;
surface.roughness = data.lighting.roughness;
surface.fresnel = data.lighting.fresnel;
}
if('lightposition' in data) {
surface.lightPosition = [data.lightposition.x, data.lightposition.y, data.lightposition.z];
}
if(alpha && alpha < 1) {
surface.supportsTransparency = true;
}
};
proto.dispose = function() {
this.scene.glplot.remove(this.surface);
this.surface.dispose();
};
function createSurfaceTrace(scene, data) {
var gl = scene.glplot.gl;
var surface = createSurface({ gl: gl });
var result = new SurfaceTrace(scene, surface, data.uid);
surface._trace = result;
result.update(data);
scene.glplot.add(surface);
return result;
}
module.exports = createSurfaceTrace;
},{"../../lib":693,"../../lib/gl_format_color":689,"../../lib/str2rgbarray":717,"gl-surface3d":301,"ndarray":430,"ndarray-fill":420,"ndarray-homography":422,"ndarray-ops":424}],1122:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Registry = _dereq_('../../registry');
var Lib = _dereq_('../../lib');
var colorscaleDefaults = _dereq_('../../components/colorscale/defaults');
var attributes = _dereq_('./attributes');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
var i, j;
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
var z = coerce('z');
if(!z) {
traceOut.visible = false;
return;
}
var x = coerce('x');
coerce('y');
traceOut._xlength = (Array.isArray(x) && Lib.isArrayOrTypedArray(x[0])) ? z.length : z[0].length;
traceOut._ylength = z.length;
var handleCalendarDefaults = Registry.getComponentMethod('calendars', 'handleTraceDefaults');
handleCalendarDefaults(traceIn, traceOut, ['x', 'y', 'z'], layout);
coerce('text');
// Coerce remaining properties
[
'lighting.ambient',
'lighting.diffuse',
'lighting.specular',
'lighting.roughness',
'lighting.fresnel',
'lightposition.x',
'lightposition.y',
'lightposition.z',
'hidesurface',
'opacity'
].forEach(function(x) { coerce(x); });
var surfaceColor = coerce('surfacecolor');
coerce('colorscale');
var dims = ['x', 'y', 'z'];
for(i = 0; i < 3; ++i) {
var contourDim = 'contours.' + dims[i];
var show = coerce(contourDim + '.show');
var highlight = coerce(contourDim + '.highlight');
if(show || highlight) {
for(j = 0; j < 3; ++j) {
coerce(contourDim + '.project.' + dims[j]);
}
}
if(show) {
coerce(contourDim + '.color');
coerce(contourDim + '.width');
coerce(contourDim + '.usecolormap');
}
if(highlight) {
coerce(contourDim + '.highlightcolor');
coerce(contourDim + '.highlightwidth');
}
}
// backward compatibility block
if(!surfaceColor) {
mapLegacy(traceIn, 'zmin', 'cmin');
mapLegacy(traceIn, 'zmax', 'cmax');
mapLegacy(traceIn, 'zauto', 'cauto');
}
// TODO if contours.?.usecolormap are false and hidesurface is true
// the colorbar shouldn't be shown by default
colorscaleDefaults(
traceIn, traceOut, layout, coerce, {prefix: '', cLetter: 'c'}
);
// disable 1D transforms - currently surface does NOT support column data like heatmap does
// you can use mesh3d for this use case, but not surface
traceOut._length = null;
};
function mapLegacy(traceIn, oldAttr, newAttr) {
if(oldAttr in traceIn && !(newAttr in traceIn)) {
traceIn[newAttr] = traceIn[oldAttr];
}
}
},{"../../components/colorscale/defaults":577,"../../lib":693,"../../registry":825,"./attributes":1119}],1123:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Surface = {};
Surface.attributes = _dereq_('./attributes');
Surface.supplyDefaults = _dereq_('./defaults');
Surface.colorbar = {
min: 'cmin',
max: 'cmax'
};
Surface.calc = _dereq_('./calc');
Surface.plot = _dereq_('./convert');
Surface.moduleType = 'trace';
Surface.name = 'surface';
Surface.basePlotModule = _dereq_('../../plots/gl3d');
Surface.categories = ['gl3d', '2dMap', 'noOpacity'];
Surface.meta = {
};
module.exports = Surface;
},{"../../plots/gl3d":784,"./attributes":1119,"./calc":1120,"./convert":1121,"./defaults":1122}],1124:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var annAttrs = _dereq_('../../components/annotations/attributes');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll;
var fontAttrs = _dereq_('../../plots/font_attributes');
var domainAttrs = _dereq_('../../plots/domain').attributes;
module.exports = overrideAll({
domain: domainAttrs({name: 'table', trace: true}),
columnwidth: {
valType: 'number',
arrayOk: true,
dflt: null,
},
columnorder: {
valType: 'data_array',
},
header: {
values: {
valType: 'data_array',
dflt: [],
},
format: {
valType: 'data_array',
dflt: [],
},
prefix: {
valType: 'string',
arrayOk: true,
dflt: null,
},
suffix: {
valType: 'string',
arrayOk: true,
dflt: null,
},
height: {
valType: 'number',
dflt: 28,
},
align: extendFlat({}, annAttrs.align, {arrayOk: true}),
line: {
width: {
valType: 'number',
arrayOk: true,
dflt: 1,
},
color: {
valType: 'color',
arrayOk: true,
dflt: 'grey',
}
},
fill: {
color: {
valType: 'color',
arrayOk: true,
dflt: 'white',
}
},
font: extendFlat({}, fontAttrs({arrayOk: true}))
},
cells: {
values: {
valType: 'data_array',
dflt: [],
},
format: {
valType: 'data_array',
dflt: [],
},
prefix: {
valType: 'string',
arrayOk: true,
dflt: null,
},
suffix: {
valType: 'string',
arrayOk: true,
dflt: null,
},
height: {
valType: 'number',
dflt: 20,
},
align: extendFlat({}, annAttrs.align, {arrayOk: true}),
line: {
width: {
valType: 'number',
arrayOk: true,
dflt: 1,
},
color: {
valType: 'color',
arrayOk: true,
dflt: 'grey',
}
},
fill: {
color: {
valType: 'color',
arrayOk: true,
dflt: 'white',
}
},
font: extendFlat({}, fontAttrs({arrayOk: true}))
}
}, 'calc', 'from-root');
},{"../../components/annotations/attributes":550,"../../lib/extend":682,"../../plot_api/edit_types":725,"../../plots/domain":767,"../../plots/font_attributes":768}],1125:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var getModuleCalcData = _dereq_('../../plots/get_data').getModuleCalcData;
var tablePlot = _dereq_('./plot');
var TABLE = 'table';
exports.name = TABLE;
exports.plot = function(gd) {
var calcData = getModuleCalcData(gd.calcdata, TABLE)[0];
if(calcData.length) tablePlot(gd, calcData);
};
exports.clean = function(newFullData, newFullLayout, oldFullData, oldFullLayout) {
var hadTable = (oldFullLayout._has && oldFullLayout._has(TABLE));
var hasTable = (newFullLayout._has && newFullLayout._has(TABLE));
if(hadTable && !hasTable) {
oldFullLayout._paperdiv.selectAll('.table').remove();
}
};
},{"../../plots/get_data":778,"./plot":1132}],1126:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var wrap = _dereq_('../../lib/gup').wrap;
module.exports = function calc() {
// we don't actually need to include the trace here, since that will be added
// by Plots.doCalcdata, and that's all we actually need later.
return wrap({});
};
},{"../../lib/gup":690}],1127:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
cellPad: 8,
columnExtentOffset: 10,
columnTitleOffset: 28,
emptyHeaderHeight: 16,
latexCheck: /^\$.*\$$/,
goldenRatio: 1.618,
lineBreaker: '<br>',
maxDimensionCount: 60,
overdrag: 45,
releaseTransitionDuration: 120,
releaseTransitionEase: 'cubic-out',
scrollbarCaptureWidth: 18,
scrollbarHideDelay: 1000,
scrollbarHideDuration: 1000,
scrollbarOffset: 5,
scrollbarWidth: 8,
transitionDuration: 100,
transitionEase: 'cubic-out',
uplift: 5,
wrapSpacer: ' ',
wrapSplitCharacter: ' ',
cn: {
// general class names
table: 'table',
tableControlView: 'table-control-view',
scrollBackground: 'scroll-background',
yColumn: 'y-column',
columnBlock: 'column-block',
scrollAreaClip: 'scroll-area-clip',
scrollAreaClipRect: 'scroll-area-clip-rect',
columnBoundary: 'column-boundary',
columnBoundaryClippath: 'column-boundary-clippath',
columnBoundaryRect: 'column-boundary-rect',
columnCells: 'column-cells',
columnCell: 'column-cell',
cellRect: 'cell-rect',
cellText: 'cell-text',
cellTextHolder: 'cell-text-holder',
// scroll related class names
scrollbarKit: 'scrollbar-kit',
scrollbar: 'scrollbar',
scrollbarSlider: 'scrollbar-slider',
scrollbarGlyph: 'scrollbar-glyph',
scrollbarCaptureZone: 'scrollbar-capture-zone'
}
};
},{}],1128:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var c = _dereq_('./constants');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
var isNumeric = _dereq_('fast-isnumeric');
// pure functions, don't alter but passes on `gd` and parts of `trace` without deep copying
module.exports = function calc(gd, trace) {
var cellsValues = squareStringMatrix(trace.cells.values);
var slicer = function(a) {
return a.slice(trace.header.values.length, a.length);
};
var headerValuesIn = squareStringMatrix(trace.header.values);
if(headerValuesIn.length && !headerValuesIn[0].length) {
headerValuesIn[0] = [''];
headerValuesIn = squareStringMatrix(headerValuesIn);
}
var headerValues = headerValuesIn
.concat(slicer(cellsValues).map(function() {
return emptyStrings((headerValuesIn[0] || ['']).length);
}));
var domain = trace.domain;
var groupWidth = Math.floor(gd._fullLayout._size.w * (domain.x[1] - domain.x[0]));
var groupHeight = Math.floor(gd._fullLayout._size.h * (domain.y[1] - domain.y[0]));
var headerRowHeights = trace.header.values.length ?
headerValues[0].map(function() { return trace.header.height; }) :
[c.emptyHeaderHeight];
var rowHeights = cellsValues.length ? cellsValues[0].map(function() { return trace.cells.height; }) : [];
var headerHeight = headerRowHeights.reduce(sum, 0);
var scrollHeight = groupHeight - headerHeight;
var minimumFillHeight = scrollHeight + c.uplift;
var anchorToRowBlock = makeAnchorToRowBlock(rowHeights, minimumFillHeight);
var anchorToHeaderRowBlock = makeAnchorToRowBlock(headerRowHeights, headerHeight);
var headerRowBlocks = makeRowBlock(anchorToHeaderRowBlock, []);
var rowBlocks = makeRowBlock(anchorToRowBlock, headerRowBlocks);
var uniqueKeys = {};
var columnOrder = trace._fullInput.columnorder.concat(slicer(cellsValues.map(function(d, i) {return i;})));
var columnWidths = headerValues.map(function(d, i) {
var value = Array.isArray(trace.columnwidth) ?
trace.columnwidth[Math.min(i, trace.columnwidth.length - 1)] :
trace.columnwidth;
return isNumeric(value) ? Number(value) : 1;
});
var totalColumnWidths = columnWidths.reduce(sum, 0);
// fit columns in the available vertical space as there's no vertical scrolling now
columnWidths = columnWidths.map(function(d) { return d / totalColumnWidths * groupWidth; });
var maxLineWidth = Math.max(arrayMax(trace.header.line.width), arrayMax(trace.cells.line.width));
var calcdata = {
key: trace.index,
translateX: domain.x[0] * gd._fullLayout._size.w,
translateY: gd._fullLayout._size.h * (1 - domain.y[1]),
size: gd._fullLayout._size,
width: groupWidth,
maxLineWidth: maxLineWidth,
height: groupHeight,
columnOrder: columnOrder, // will be mutated on column move, todo use in callback
groupHeight: groupHeight,
rowBlocks: rowBlocks,
headerRowBlocks: headerRowBlocks,
scrollY: 0, // will be mutated on scroll
cells: extendFlat({}, trace.cells, {values: cellsValues}),
headerCells: extendFlat({}, trace.header, {values: headerValues}),
gdColumns: headerValues.map(function(d) {return d[0];}),
gdColumnsOriginalOrder: headerValues.map(function(d) {return d[0];}),
prevPages: [0, 0],
scrollbarState: {scrollbarScrollInProgress: false},
columns: headerValues.map(function(label, i) {
var foundKey = uniqueKeys[label];
uniqueKeys[label] = (foundKey || 0) + 1;
var key = label + '__' + uniqueKeys[label];
return {
key: key,
label: label,
specIndex: i,
xIndex: columnOrder[i],
xScale: xScale,
x: undefined, // initialized below
calcdata: undefined, // initialized below
columnWidth: columnWidths[i]
};
})
};
calcdata.columns.forEach(function(col) {
col.calcdata = calcdata;
col.x = xScale(col);
});
return calcdata;
};
function arrayMax(maybeArray) {
if(Array.isArray(maybeArray)) {
var max = 0;
for(var i = 0; i < maybeArray.length; i++) {
max = Math.max(max, arrayMax(maybeArray[i]));
}
return max;
}
return maybeArray;
}
function sum(a, b) { return a + b; }
// fill matrix in place to equal lengths
// and ensure it's uniformly 2D
function squareStringMatrix(matrixIn) {
var matrix = matrixIn.slice();
var minLen = Infinity;
var maxLen = 0;
var i;
for(i = 0; i < matrix.length; i++) {
if(!Array.isArray(matrix[i])) matrix[i] = [matrix[i]];
minLen = Math.min(minLen, matrix[i].length);
maxLen = Math.max(maxLen, matrix[i].length);
}
if(minLen !== maxLen) {
for(i = 0; i < matrix.length; i++) {
var padLen = maxLen - matrix[i].length;
if(padLen) matrix[i] = matrix[i].concat(emptyStrings(padLen));
}
}
return matrix;
}
function emptyStrings(len) {
var padArray = new Array(len);
for(var j = 0; j < len; j++) padArray[j] = '';
return padArray;
}
function xScale(d) {
return d.calcdata.columns.reduce(function(prev, next) {
return next.xIndex < d.xIndex ? prev + next.columnWidth : prev;
}, 0);
}
function makeRowBlock(anchorToRowBlock, auxiliary) {
var blockAnchorKeys = Object.keys(anchorToRowBlock);
return blockAnchorKeys.map(function(k) {return extendFlat({}, anchorToRowBlock[k], {auxiliaryBlocks: auxiliary});});
}
function makeAnchorToRowBlock(rowHeights, minimumFillHeight) {
var anchorToRowBlock = {};
var currentRowHeight;
var currentAnchor = 0;
var currentBlockHeight = 0;
var currentBlock = makeIdentity();
var currentFirstRowIndex = 0;
var blockCounter = 0;
for(var i = 0; i < rowHeights.length; i++) {
currentRowHeight = rowHeights[i];
currentBlock.rows.push({
rowIndex: i,
rowHeight: currentRowHeight
});
currentBlockHeight += currentRowHeight;
if(currentBlockHeight >= minimumFillHeight || i === rowHeights.length - 1) {
anchorToRowBlock[currentAnchor] = currentBlock;
currentBlock.key = blockCounter++;
currentBlock.firstRowIndex = currentFirstRowIndex;
currentBlock.lastRowIndex = i;
currentBlock = makeIdentity();
currentAnchor += currentBlockHeight;
currentFirstRowIndex = i + 1;
currentBlockHeight = 0;
}
}
return anchorToRowBlock;
}
function makeIdentity() {
return {
firstRowIndex: null,
lastRowIndex: null,
rows: []
};
}
},{"../../lib/extend":682,"./constants":1127,"fast-isnumeric":213}],1129:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var extendFlat = _dereq_('../../lib/extend').extendFlat;
// pure functions, don't alter but passes on `gd` and parts of `trace` without deep copying
exports.splitToPanels = function(d) {
var prevPages = [0, 0];
var headerPanel = extendFlat({}, d, {
key: 'header',
type: 'header',
page: 0,
prevPages: prevPages,
currentRepaint: [null, null],
dragHandle: true,
values: d.calcdata.headerCells.values[d.specIndex],
rowBlocks: d.calcdata.headerRowBlocks,
calcdata: extendFlat({}, d.calcdata, {cells: d.calcdata.headerCells})
});
var revolverPanel1 = extendFlat({}, d, {
key: 'cells1',
type: 'cells',
page: 0,
prevPages: prevPages,
currentRepaint: [null, null],
dragHandle: false,
values: d.calcdata.cells.values[d.specIndex],
rowBlocks: d.calcdata.rowBlocks
});
var revolverPanel2 = extendFlat({}, d, {
key: 'cells2',
type: 'cells',
page: 1,
prevPages: prevPages,
currentRepaint: [null, null],
dragHandle: false,
values: d.calcdata.cells.values[d.specIndex],
rowBlocks: d.calcdata.rowBlocks
});
// order due to SVG using painter's algo:
return [revolverPanel1, revolverPanel2, headerPanel];
};
exports.splitToCells = function(d) {
var fromTo = rowFromTo(d);
return (d.values || []).slice(fromTo[0], fromTo[1]).map(function(v, i) {
// By keeping identical key, a DOM node removal, creation and addition is spared, important when visible
// grid has a lot of elements (quadratic with xcol/ycol count).
// But it has to be busted when `svgUtil.convertToTspans` is used as it reshapes cell subtrees asynchronously,
// and by that time the user may have scrolled away, resulting in stale overwrites. The real solution will be
// to turn `svgUtil.convertToTspans` into a cancelable request, in which case no key busting is needed.
var buster = (typeof v === 'string') && v.match(/[<$&> ]/) ? '_keybuster_' + Math.random() : '';
return {
// keyWithinBlock: /*fromTo[0] + */i, // optimized future version - no busting
// keyWithinBlock: fromTo[0] + i, // initial always-unoptimized version - janky scrolling with 5+ columns
keyWithinBlock: i + buster, // current compromise: regular content is very fast; async content is possible
key: fromTo[0] + i,
column: d,
calcdata: d.calcdata,
page: d.page,
rowBlocks: d.rowBlocks,
value: v
};
});
};
function rowFromTo(d) {
var rowBlock = d.rowBlocks[d.page];
// fixme rowBlock truthiness check is due to ugly hack of placing 2nd panel as d.page = -1
var rowFrom = rowBlock ? rowBlock.rows[0].rowIndex : 0;
var rowTo = rowBlock ? rowFrom + rowBlock.rows.length : 0;
return [rowFrom, rowTo];
}
},{"../../lib/extend":682}],1130:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var attributes = _dereq_('./attributes');
var handleDomainDefaults = _dereq_('../../plots/domain').defaults;
function defaultColumnOrder(traceOut, coerce) {
var specifiedColumnOrder = traceOut.columnorder || [];
var commonLength = traceOut.header.values.length;
var truncated = specifiedColumnOrder.slice(0, commonLength);
var sorted = truncated.slice().sort(function(a, b) {return a - b;});
var oneStepped = truncated.map(function(d) {return sorted.indexOf(d);});
for(var i = oneStepped.length; i < commonLength; i++) {
oneStepped.push(i);
}
coerce('columnorder', oneStepped);
}
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
handleDomainDefaults(traceOut, layout, coerce);
coerce('columnwidth');
coerce('header.values');
coerce('header.format');
coerce('header.align');
coerce('header.prefix');
coerce('header.suffix');
coerce('header.height');
coerce('header.line.width');
coerce('header.line.color');
coerce('header.fill.color');
Lib.coerceFont(coerce, 'header.font', Lib.extendFlat({}, layout.font));
defaultColumnOrder(traceOut, coerce);
coerce('cells.values');
coerce('cells.format');
coerce('cells.align');
coerce('cells.prefix');
coerce('cells.suffix');
coerce('cells.height');
coerce('cells.line.width');
coerce('cells.line.color');
coerce('cells.fill.color');
Lib.coerceFont(coerce, 'cells.font', Lib.extendFlat({}, layout.font));
// disable 1D transforms
traceOut._length = null;
};
},{"../../lib":693,"../../plots/domain":767,"./attributes":1124}],1131:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Table = {};
Table.attributes = _dereq_('./attributes');
Table.supplyDefaults = _dereq_('./defaults');
Table.calc = _dereq_('./calc');
Table.plot = _dereq_('./plot');
Table.moduleType = 'trace';
Table.name = 'table';
Table.basePlotModule = _dereq_('./base_plot');
Table.categories = ['noOpacity'];
Table.meta = {
};
module.exports = Table;
},{"./attributes":1124,"./base_plot":1125,"./calc":1126,"./defaults":1130,"./plot":1132}],1132:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var c = _dereq_('./constants');
var d3 = _dereq_('d3');
var gup = _dereq_('../../lib/gup');
var Drawing = _dereq_('../../components/drawing');
var svgUtil = _dereq_('../../lib/svg_text_utils');
var raiseToTop = _dereq_('../../lib').raiseToTop;
var cancelEeaseColumn = _dereq_('../../lib').cancelTransition;
var prepareData = _dereq_('./data_preparation_helper');
var splitData = _dereq_('./data_split_helpers');
var Color = _dereq_('../../components/color');
module.exports = function plot(gd, wrappedTraceHolders) {
var table = gd._fullLayout._paper.selectAll('.' + c.cn.table)
.data(wrappedTraceHolders.map(function(wrappedTraceHolder) {
var traceHolder = gup.unwrap(wrappedTraceHolder);
var trace = traceHolder.trace;
return prepareData(gd, trace);
}), gup.keyFun);
table.exit().remove();
table.enter()
.append('g')
.classed(c.cn.table, true)
.attr('overflow', 'visible')
.style('box-sizing', 'content-box')
.style('position', 'absolute')
.style('left', 0)
.style('overflow', 'visible')
.style('shape-rendering', 'crispEdges')
.style('pointer-events', 'all');
table
.attr('width', function(d) {return d.width + d.size.l + d.size.r;})
.attr('height', function(d) {return d.height + d.size.t + d.size.b;})
.attr('transform', function(d) {
return 'translate(' + d.translateX + ',' + d.translateY + ')';
});
var tableControlView = table.selectAll('.' + c.cn.tableControlView)
.data(gup.repeat, gup.keyFun);
tableControlView.enter()
.append('g')
.classed(c.cn.tableControlView, true)
.style('box-sizing', 'content-box')
.on('mousemove', function(d) {tableControlView.filter(function(dd) {return d === dd;}).call(renderScrollbarKit, gd);})
.on('mousewheel', function(d) {
if(d.scrollbarState.wheeling) return;
d.scrollbarState.wheeling = true;
d3.event.stopPropagation();
d3.event.preventDefault();
makeDragRow(gd, tableControlView, null, d.scrollY + d3.event.deltaY)(d);
d.scrollbarState.wheeling = false;
})
.call(renderScrollbarKit, gd, true);
tableControlView
.attr('transform', function(d) {return 'translate(' + d.size.l + ' ' + d.size.t + ')';});
// scrollBackground merely ensures that mouse events are captured even on crazy fast scrollwheeling
// otherwise rendering glitches may occur
var scrollBackground = tableControlView.selectAll('.' + c.cn.scrollBackground)
.data(gup.repeat, gup.keyFun);
scrollBackground.enter()
.append('rect')
.classed(c.cn.scrollBackground, true)
.attr('fill', 'none');
scrollBackground
.attr('width', function(d) {return d.width;})
.attr('height', function(d) {return d.height;});
tableControlView
.each(function(d) {Drawing.setClipUrl(d3.select(this), scrollAreaBottomClipKey(gd, d));});
var yColumn = tableControlView.selectAll('.' + c.cn.yColumn)
.data(function(vm) {return vm.columns;}, gup.keyFun);
yColumn.enter()
.append('g')
.classed(c.cn.yColumn, true);
yColumn.exit().remove();
yColumn
.attr('transform', function(d) {return 'translate(' + d.x + ' 0)';})
.call(d3.behavior.drag()
.origin(function(d) {
var movedColumn = d3.select(this);
easeColumn(movedColumn, d, -c.uplift);
raiseToTop(this);
d.calcdata.columnDragInProgress = true;
renderScrollbarKit(tableControlView.filter(function(dd) {return d.calcdata.key === dd.key;}), gd);
return d;
})
.on('drag', function(d) {
var movedColumn = d3.select(this);
var getter = function(dd) {return (d === dd ? d3.event.x : dd.x) + dd.columnWidth / 2;};
d.x = Math.max(-c.overdrag, Math.min(d.calcdata.width + c.overdrag - d.columnWidth, d3.event.x));
var sortableColumns = flatData(yColumn).filter(function(dd) {return dd.calcdata.key === d.calcdata.key;});
var newOrder = sortableColumns.sort(function(a, b) {return getter(a) - getter(b);});
newOrder.forEach(function(dd, i) {
dd.xIndex = i;
dd.x = d === dd ? dd.x : dd.xScale(dd);
});
yColumn.filter(function(dd) {return d !== dd;})
.transition()
.ease(c.transitionEase)
.duration(c.transitionDuration)
.attr('transform', function(d) {return 'translate(' + d.x + ' 0)';});
movedColumn
.call(cancelEeaseColumn)
.attr('transform', 'translate(' + d.x + ' -' + c.uplift + ' )');
})
.on('dragend', function(d) {
var movedColumn = d3.select(this);
var p = d.calcdata;
d.x = d.xScale(d);
d.calcdata.columnDragInProgress = false;
easeColumn(movedColumn, d, 0);
columnMoved(gd, p, p.columns.map(function(dd) {return dd.xIndex;}));
})
);
yColumn.each(function(d) {Drawing.setClipUrl(d3.select(this), columnBoundaryClipKey(gd, d));});
var columnBlock = yColumn.selectAll('.' + c.cn.columnBlock)
.data(splitData.splitToPanels, gup.keyFun);
columnBlock.enter()
.append('g')
.classed(c.cn.columnBlock, true)
.attr('id', function(d) {return d.key;});
columnBlock
.style('cursor', function(d) {
return d.dragHandle ? 'ew-resize' : d.calcdata.scrollbarState.barWiggleRoom ? 'ns-resize' : 'default';
});
var headerColumnBlock = columnBlock.filter(headerBlock);
var cellsColumnBlock = columnBlock.filter(cellsBlock);
cellsColumnBlock
.call(d3.behavior.drag()
.origin(function(d) {
d3.event.stopPropagation();
return d;
})
.on('drag', makeDragRow(gd, tableControlView, -1))
.on('dragend', function() {
// fixme emit plotly notification
})
);
// initial rendering: header is rendered first, as it may may have async LaTeX (show header first)
// but blocks are _entered_ the way they are due to painter's algo (header on top)
renderColumnCellTree(gd, tableControlView, headerColumnBlock, columnBlock);
renderColumnCellTree(gd, tableControlView, cellsColumnBlock, columnBlock);
var scrollAreaClip = tableControlView.selectAll('.' + c.cn.scrollAreaClip)
.data(gup.repeat, gup.keyFun);
scrollAreaClip.enter()
.append('clipPath')
.classed(c.cn.scrollAreaClip, true)
.attr('id', function(d) {return scrollAreaBottomClipKey(gd, d);});
var scrollAreaClipRect = scrollAreaClip.selectAll('.' + c.cn.scrollAreaClipRect)
.data(gup.repeat, gup.keyFun);
scrollAreaClipRect.enter()
.append('rect')
.classed(c.cn.scrollAreaClipRect, true)
.attr('x', -c.overdrag)
.attr('y', -c.uplift)
.attr('fill', 'none');
scrollAreaClipRect
.attr('width', function(d) {return d.width + 2 * c.overdrag;})
.attr('height', function(d) {return d.height + c.uplift;});
var columnBoundary = yColumn.selectAll('.' + c.cn.columnBoundary)
.data(gup.repeat, gup.keyFun);
columnBoundary.enter()
.append('g')
.classed(c.cn.columnBoundary, true);
var columnBoundaryClippath = yColumn.selectAll('.' + c.cn.columnBoundaryClippath)
.data(gup.repeat, gup.keyFun);
// SVG spec doesn't mandate wrapping into a <defs> and doesn't seem to cause a speed difference
columnBoundaryClippath.enter()
.append('clipPath')
.classed(c.cn.columnBoundaryClippath, true);
columnBoundaryClippath
.attr('id', function(d) {return columnBoundaryClipKey(gd, d);});
var columnBoundaryRect = columnBoundaryClippath.selectAll('.' + c.cn.columnBoundaryRect)
.data(gup.repeat, gup.keyFun);
columnBoundaryRect.enter()
.append('rect')
.classed(c.cn.columnBoundaryRect, true)
.attr('fill', 'none');
columnBoundaryRect
.attr('width', function(d) { return d.columnWidth + 2 * roundHalfWidth(d); })
.attr('height', function(d) {return d.calcdata.height + 2 * roundHalfWidth(d) + c.uplift;})
.attr('x', function(d) { return -roundHalfWidth(d); })
.attr('y', function(d) { return -roundHalfWidth(d); });
updateBlockYPosition(null, cellsColumnBlock, tableControlView);
};
function roundHalfWidth(d) {
return Math.ceil(d.calcdata.maxLineWidth / 2);
}
function scrollAreaBottomClipKey(gd, d) {
return 'clip' + gd._fullLayout._uid + '_scrollAreaBottomClip_' + d.key;
}
function columnBoundaryClipKey(gd, d) {
return 'clip' + gd._fullLayout._uid + '_columnBoundaryClippath_' + d.calcdata.key + '_' + d.specIndex;
}
function flatData(selection) {
return [].concat.apply([], selection.map(function(g) {return g;}))
.map(function(g) {return g.__data__;});
}
function renderScrollbarKit(tableControlView, gd, bypassVisibleBar) {
function calcTotalHeight(d) {
var blocks = d.rowBlocks;
return firstRowAnchor(blocks, blocks.length - 1) + (blocks.length ? rowsHeight(blocks[blocks.length - 1], Infinity) : 1);
}
var scrollbarKit = tableControlView.selectAll('.' + c.cn.scrollbarKit)
.data(gup.repeat, gup.keyFun);
scrollbarKit.enter()
.append('g')
.classed(c.cn.scrollbarKit, true)
.style('shape-rendering', 'geometricPrecision');
scrollbarKit
.each(function(d) {
var s = d.scrollbarState;
s.totalHeight = calcTotalHeight(d);
s.scrollableAreaHeight = d.groupHeight - headerHeight(d);
s.currentlyVisibleHeight = Math.min(s.totalHeight, s.scrollableAreaHeight);
s.ratio = s.currentlyVisibleHeight / s.totalHeight;
s.barLength = Math.max(s.ratio * s.currentlyVisibleHeight, c.goldenRatio * c.scrollbarWidth);
s.barWiggleRoom = s.currentlyVisibleHeight - s.barLength;
s.wiggleRoom = Math.max(0, s.totalHeight - s.scrollableAreaHeight);
s.topY = s.barWiggleRoom === 0 ? 0 : (d.scrollY / s.wiggleRoom) * s.barWiggleRoom;
s.bottomY = s.topY + s.barLength;
s.dragMultiplier = s.wiggleRoom / s.barWiggleRoom;
})
.attr('transform', function(d) {
var xPosition = d.width + c.scrollbarWidth / 2 + c.scrollbarOffset;
return 'translate(' + xPosition + ' ' + headerHeight(d) + ')';
});
var scrollbar = scrollbarKit.selectAll('.' + c.cn.scrollbar)
.data(gup.repeat, gup.keyFun);
scrollbar.enter()
.append('g')
.classed(c.cn.scrollbar, true);
var scrollbarSlider = scrollbar.selectAll('.' + c.cn.scrollbarSlider)
.data(gup.repeat, gup.keyFun);
scrollbarSlider.enter()
.append('g')
.classed(c.cn.scrollbarSlider, true);
scrollbarSlider
.attr('transform', function(d) {
return 'translate(0 ' + (d.scrollbarState.topY || 0) + ')';
});
var scrollbarGlyph = scrollbarSlider.selectAll('.' + c.cn.scrollbarGlyph)
.data(gup.repeat, gup.keyFun);
scrollbarGlyph.enter()
.append('line')
.classed(c.cn.scrollbarGlyph, true)
.attr('stroke', 'black')
.attr('stroke-width', c.scrollbarWidth)
.attr('stroke-linecap', 'round')
.attr('y1', c.scrollbarWidth / 2);
scrollbarGlyph
.attr('y2', function(d) {
return d.scrollbarState.barLength - c.scrollbarWidth / 2;
})
.attr('stroke-opacity', function(d) {
return d.columnDragInProgress || !d.scrollbarState.barWiggleRoom || bypassVisibleBar ? 0 : 0.4;
});
// cancel transition: possible pending (also, delayed) transition
scrollbarGlyph
.transition().delay(0).duration(0);
scrollbarGlyph
.transition().delay(c.scrollbarHideDelay).duration(c.scrollbarHideDuration)
.attr('stroke-opacity', 0);
var scrollbarCaptureZone = scrollbar.selectAll('.' + c.cn.scrollbarCaptureZone)
.data(gup.repeat, gup.keyFun);
scrollbarCaptureZone.enter()
.append('line')
.classed(c.cn.scrollbarCaptureZone, true)
.attr('stroke', 'white')
.attr('stroke-opacity', 0.01) // some browser might get rid of a 0 opacity element
.attr('stroke-width', c.scrollbarCaptureWidth)
.attr('stroke-linecap', 'butt')
.attr('y1', 0)
.on('mousedown', function(d) {
var y = d3.event.y;
var bbox = this.getBoundingClientRect();
var s = d.scrollbarState;
var pixelVal = y - bbox.top;
var inverseScale = d3.scale.linear().domain([0, s.scrollableAreaHeight]).range([0, s.totalHeight]).clamp(true);
if(!(s.topY <= pixelVal && pixelVal <= s.bottomY)) {
makeDragRow(gd, tableControlView, null, inverseScale(pixelVal - s.barLength / 2))(d);
}
})
.call(d3.behavior.drag()
.origin(function(d) {
d3.event.stopPropagation();
d.scrollbarState.scrollbarScrollInProgress = true;
return d;
})
.on('drag', makeDragRow(gd, tableControlView))
.on('dragend', function() {
// fixme emit Plotly event
})
);
scrollbarCaptureZone
.attr('y2', function(d) {
return d.scrollbarState.scrollableAreaHeight;
});
}
function renderColumnCellTree(gd, tableControlView, columnBlock, allColumnBlock) {
// fixme this perf hotspot
// this is performance critical code as scrolling calls it on every revolver switch
// it appears sufficiently fast but there are plenty of low-hanging fruits for performance optimization
var columnCells = renderColumnCells(columnBlock);
var columnCell = renderColumnCell(columnCells);
supplyStylingValues(columnCell);
var cellRect = renderCellRect(columnCell);
sizeAndStyleRect(cellRect);
var cellTextHolder = renderCellTextHolder(columnCell);
var cellText = renderCellText(cellTextHolder);
setFont(cellText);
populateCellText(cellText, tableControlView, allColumnBlock, gd);
// doing this at the end when text, and text stlying are set
setCellHeightAndPositionY(columnCell);
}
function renderColumnCells(columnBlock) {
var columnCells = columnBlock.selectAll('.' + c.cn.columnCells)
.data(gup.repeat, gup.keyFun);
columnCells.enter()
.append('g')
.classed(c.cn.columnCells, true);
columnCells.exit()
.remove();
return columnCells;
}
function renderColumnCell(columnCells) {
var columnCell = columnCells.selectAll('.' + c.cn.columnCell)
.data(splitData.splitToCells, function(d) {return d.keyWithinBlock;});
columnCell.enter()
.append('g')
.classed(c.cn.columnCell, true);
columnCell.exit()
.remove();
return columnCell;
}
function renderCellRect(columnCell) {
var cellRect = columnCell.selectAll('.' + c.cn.cellRect)
.data(gup.repeat, function(d) {return d.keyWithinBlock;});
cellRect.enter()
.append('rect')
.classed(c.cn.cellRect, true);
return cellRect;
}
function renderCellText(cellTextHolder) {
var cellText = cellTextHolder.selectAll('.' + c.cn.cellText)
.data(gup.repeat, function(d) {return d.keyWithinBlock;});
cellText.enter()
.append('text')
.classed(c.cn.cellText, true)
.style('cursor', function() {return 'auto';})
.on('mousedown', function() {d3.event.stopPropagation();});
return cellText;
}
function renderCellTextHolder(columnCell) {
var cellTextHolder = columnCell.selectAll('.' + c.cn.cellTextHolder)
.data(gup.repeat, function(d) {return d.keyWithinBlock;});
cellTextHolder.enter()
.append('g')
.classed(c.cn.cellTextHolder, true)
.style('shape-rendering', 'geometricPrecision');
return cellTextHolder;
}
function supplyStylingValues(columnCell) {
columnCell
.each(function(d, i) {
var spec = d.calcdata.cells.font;
var col = d.column.specIndex;
var font = {
size: gridPick(spec.size, col, i),
color: gridPick(spec.color, col, i),
family: gridPick(spec.family, col, i)
};
d.rowNumber = d.key;
d.align = gridPick(d.calcdata.cells.align, col, i);
d.cellBorderWidth = gridPick(d.calcdata.cells.line.width, col, i);
d.font = font;
});
}
function setFont(cellText) {
cellText
.each(function(d) {
Drawing.font(d3.select(this), d.font);
});
}
function sizeAndStyleRect(cellRect) {
cellRect
.attr('width', function(d) {return d.column.columnWidth;})
.attr('stroke-width', function(d) {return d.cellBorderWidth;})
.each(function(d) {
var atomicSelection = d3.select(this);
Color.stroke(atomicSelection, gridPick(d.calcdata.cells.line.color, d.column.specIndex, d.rowNumber));
Color.fill(atomicSelection, gridPick(d.calcdata.cells.fill.color, d.column.specIndex, d.rowNumber));
});
}
function populateCellText(cellText, tableControlView, allColumnBlock, gd) {
cellText
.text(function(d) {
var col = d.column.specIndex;
var row = d.rowNumber;
var userSuppliedContent = d.value;
var stringSupplied = (typeof userSuppliedContent === 'string');
var hasBreaks = stringSupplied && userSuppliedContent.match(/<br>/i);
var userBrokenText = !stringSupplied || hasBreaks;
d.mayHaveMarkup = stringSupplied && userSuppliedContent.match(/[<&>]/);
var latex = isLatex(userSuppliedContent);
d.latex = latex;
var prefix = latex ? '' : gridPick(d.calcdata.cells.prefix, col, row) || '';
var suffix = latex ? '' : gridPick(d.calcdata.cells.suffix, col, row) || '';
var format = latex ? null : gridPick(d.calcdata.cells.format, col, row) || null;
var prefixSuffixedText = prefix + (format ? d3.format(format)(d.value) : d.value) + suffix;
var hasWrapSplitCharacter;
d.wrappingNeeded = !d.wrapped && !userBrokenText && !latex && (hasWrapSplitCharacter = hasWrapCharacter(prefixSuffixedText));
d.cellHeightMayIncrease = hasBreaks || latex || d.mayHaveMarkup || (hasWrapSplitCharacter === void(0) ? hasWrapCharacter(prefixSuffixedText) : hasWrapSplitCharacter);
d.needsConvertToTspans = d.mayHaveMarkup || d.wrappingNeeded || d.latex;
var textToRender;
if(d.wrappingNeeded) {
var hrefPreservedText = c.wrapSplitCharacter === ' ' ? prefixSuffixedText.replace(/<a href=/ig, '<a_href=') : prefixSuffixedText;
var fragments = hrefPreservedText.split(c.wrapSplitCharacter);
var hrefRestoredFragments = c.wrapSplitCharacter === ' ' ? fragments.map(function(frag) {return frag.replace(/<a_href=/ig, '<a href=');}) : fragments;
d.fragments = hrefRestoredFragments.map(function(f) {return {text: f, width: null};});
d.fragments.push({fragment: c.wrapSpacer, width: null});
textToRender = hrefRestoredFragments.join(c.lineBreaker) + c.lineBreaker + c.wrapSpacer;
} else {
delete d.fragments;
textToRender = prefixSuffixedText;
}
return textToRender;
})
.attr('dy', function(d) {
return d.needsConvertToTspans ? 0 : '0.75em';
})
.each(function(d) {
var element = this;
var selection = d3.select(element);
// finalize what's in the DOM
var renderCallback = d.wrappingNeeded ? wrapTextMaker : updateYPositionMaker;
if(d.needsConvertToTspans) {
svgUtil.convertToTspans(selection, gd, renderCallback(allColumnBlock, element, tableControlView, gd, d));
} else {
d3.select(element.parentNode)
// basic cell adjustment - compliance with `cellPad`
.attr('transform', function(d) {return 'translate(' + xPosition(d) + ' ' + c.cellPad + ')';})
.attr('text-anchor', function(d) {
return ({
left: 'start',
center: 'middle',
right: 'end'
})[d.align];
});
}
});
}
function isLatex(content) {
return typeof content === 'string' && content.match(c.latexCheck);
}
function hasWrapCharacter(text) {return text.indexOf(c.wrapSplitCharacter) !== -1;}
function columnMoved(gd, calcdata, indices) {
var o = calcdata.gdColumnsOriginalOrder;
calcdata.gdColumns.sort(function(a, b) {
return indices[o.indexOf(a)] - indices[o.indexOf(b)];
});
calcdata.columnorder = indices;
gd.emit('plotly_restyle');
}
function gridPick(spec, col, row) {
if(Array.isArray(spec)) {
var column = spec[Math.min(col, spec.length - 1)];
if(Array.isArray(column)) {
return column[Math.min(row, column.length - 1)];
} else {
return column;
}
} else {
return spec;
}
}
function easeColumn(selection, d, y) {
selection
.transition()
.ease(c.releaseTransitionEase)
.duration(c.releaseTransitionDuration)
.attr('transform', 'translate(' + d.x + ' ' + y + ')');
}
function cellsBlock(d) {return d.type === 'cells';}
function headerBlock(d) {return d.type === 'header';}
/**
* Revolver panel and cell contents layouting
*/
function headerHeight(d) {
var headerBlocks = d.rowBlocks.length ? d.rowBlocks[0].auxiliaryBlocks : [];
return headerBlocks.reduce(function(p, n) {return p + rowsHeight(n, Infinity);}, 0);
}
function findPagesAndCacheHeights(blocks, scrollY, scrollHeight) {
var pages = [];
var pTop = 0;
for(var blockIndex = 0; blockIndex < blocks.length; blockIndex++) {
var block = blocks[blockIndex];
var blockRows = block.rows;
var rowsHeight = 0;
for(var i = 0; i < blockRows.length; i++) {
rowsHeight += blockRows[i].rowHeight;
}
// caching allRowsHeight on the block - it's safe as this function is always called from within the code part
// that handles increases to row heights
block.allRowsHeight = rowsHeight;
var pBottom = pTop + rowsHeight;
var windowTop = scrollY;
var windowBottom = windowTop + scrollHeight;
if(windowTop < pBottom && windowBottom > pTop) {
pages.push(blockIndex);
}
pTop += rowsHeight;
// consider this nice final optimization; put it in `for` condition - caveat, currently the
// block.allRowsHeight relies on being invalidated, so enabling this opt may not be safe
// if(pages.length > 1) break;
}
return pages;
}
function updateBlockYPosition(gd, cellsColumnBlock, tableControlView) {
var d = flatData(cellsColumnBlock)[0];
if(d === undefined) return;
var blocks = d.rowBlocks;
var calcdata = d.calcdata;
var bottom = firstRowAnchor(blocks, blocks.length);
var scrollHeight = d.calcdata.groupHeight - headerHeight(d);
var scrollY = calcdata.scrollY = Math.max(0, Math.min(bottom - scrollHeight, calcdata.scrollY));
var pages = findPagesAndCacheHeights(blocks, scrollY, scrollHeight);
if(pages.length === 1) {
if(pages[0] === blocks.length - 1) {
pages.unshift(pages[0] - 1);
} else {
pages.push(pages[0] + 1);
}
}
// make phased out page jump by 2 while leaving stationary page intact
if(pages[0] % 2) {
pages.reverse();
}
cellsColumnBlock
.each(function(d, i) {
// these values will also be needed when a block is translated again due to growing cell height
d.page = pages[i];
d.scrollY = scrollY;
});
cellsColumnBlock
.attr('transform', function(d) {
var yTranslate = firstRowAnchor(d.rowBlocks, d.page) - d.scrollY;
return 'translate(0 ' + yTranslate + ')';
});
// conditionally rerendering panel 0 and 1
if(gd) {
conditionalPanelRerender(gd, tableControlView, cellsColumnBlock, pages, d.prevPages, d, 0);
conditionalPanelRerender(gd, tableControlView, cellsColumnBlock, pages, d.prevPages, d, 1);
renderScrollbarKit(tableControlView, gd);
}
}
function makeDragRow(gd, allTableControlView, optionalMultiplier, optionalPosition) {
return function dragRow(eventD) {
// may come from whicever DOM event target: drag, wheel, bar... eventD corresponds to event target
var d = eventD.calcdata ? eventD.calcdata : eventD;
var tableControlView = allTableControlView.filter(function(dd) {return d.key === dd.key;});
var multiplier = optionalMultiplier || d.scrollbarState.dragMultiplier;
d.scrollY = optionalPosition === void(0) ? d.scrollY + multiplier * d3.event.dy : optionalPosition;
var cellsColumnBlock = tableControlView.selectAll('.' + c.cn.yColumn).selectAll('.' + c.cn.columnBlock).filter(cellsBlock);
updateBlockYPosition(gd, cellsColumnBlock, tableControlView);
};
}
function conditionalPanelRerender(gd, tableControlView, cellsColumnBlock, pages, prevPages, d, revolverIndex) {
var shouldComponentUpdate = pages[revolverIndex] !== prevPages[revolverIndex];
if(shouldComponentUpdate) {
clearTimeout(d.currentRepaint[revolverIndex]);
d.currentRepaint[revolverIndex] = setTimeout(function() {
// setTimeout might lag rendering but yields a smoother scroll, because fast scrolling makes
// some repaints invisible ie. wasteful (DOM work blocks the main thread)
var toRerender = cellsColumnBlock.filter(function(d, i) {return i === revolverIndex && pages[i] !== prevPages[i];});
renderColumnCellTree(gd, tableControlView, toRerender, cellsColumnBlock);
prevPages[revolverIndex] = pages[revolverIndex];
});
}
}
function wrapTextMaker(columnBlock, element, tableControlView) {
return function wrapText() {
var cellTextHolder = d3.select(element.parentNode);
cellTextHolder
.each(function(d) {
var fragments = d.fragments;
cellTextHolder.selectAll('tspan.line').each(function(dd, i) {
fragments[i].width = this.getComputedTextLength();
});
// last element is only for measuring the separator character, so it's ignored:
var separatorLength = fragments[fragments.length - 1].width;
var rest = fragments.slice(0, -1);
var currentRow = [];
var currentAddition, currentAdditionLength;
var currentRowLength = 0;
var rowLengthLimit = d.column.columnWidth - 2 * c.cellPad;
d.value = '';
while(rest.length) {
currentAddition = rest.shift();
currentAdditionLength = currentAddition.width + separatorLength;
if(currentRowLength + currentAdditionLength > rowLengthLimit) {
d.value += currentRow.join(c.wrapSpacer) + c.lineBreaker;
currentRow = [];
currentRowLength = 0;
}
currentRow.push(currentAddition.text);
currentRowLength += currentAdditionLength;
}
if(currentRowLength) {
d.value += currentRow.join(c.wrapSpacer);
}
d.wrapped = true;
});
// the pre-wrapped text was rendered only for the text measurements
cellTextHolder.selectAll('tspan.line').remove();
// resupply text, now wrapped
populateCellText(cellTextHolder.select('.' + c.cn.cellText), tableControlView, columnBlock);
d3.select(element.parentNode.parentNode).call(setCellHeightAndPositionY);
};
}
function updateYPositionMaker(columnBlock, element, tableControlView, gd, d) {
return function updateYPosition() {
if(d.settledY) return;
var cellTextHolder = d3.select(element.parentNode);
var l = getBlock(d);
var rowIndex = d.key - l.firstRowIndex;
var declaredRowHeight = l.rows[rowIndex].rowHeight;
var requiredHeight = d.cellHeightMayIncrease ? element.parentNode.getBoundingClientRect().height + 2 * c.cellPad : declaredRowHeight;
var finalHeight = Math.max(requiredHeight, declaredRowHeight);
var increase = finalHeight - l.rows[rowIndex].rowHeight;
if(increase) {
// current row height increased
l.rows[rowIndex].rowHeight = finalHeight;
columnBlock
.selectAll('.' + c.cn.columnCell)
.call(setCellHeightAndPositionY);
updateBlockYPosition(null, columnBlock.filter(cellsBlock), 0);
// if d.column.type === 'header', then the scrollbar has to be pushed downward to the scrollable area
// if d.column.type === 'cells', it can still be relevant if total scrolling content height is less than the
// scrollable window, as increases to row heights may need scrollbar updates
renderScrollbarKit(tableControlView, gd, true);
}
cellTextHolder
.attr('transform', function() {
// this code block is only invoked for items where d.cellHeightMayIncrease is truthy
var element = this;
var columnCellElement = element.parentNode;
var box = columnCellElement.getBoundingClientRect();
var rectBox = d3.select(element.parentNode).select('.' + c.cn.cellRect).node().getBoundingClientRect();
var currentTransform = element.transform.baseVal.consolidate();
var yPosition = rectBox.top - box.top + (currentTransform ? currentTransform.matrix.f : c.cellPad);
return 'translate(' + xPosition(d, d3.select(element.parentNode).select('.' + c.cn.cellTextHolder).node().getBoundingClientRect().width) + ' ' + yPosition + ')';
});
d.settledY = true;
};
}
function xPosition(d, optionalWidth) {
switch(d.align) {
case 'left': return c.cellPad;
case 'right': return d.column.columnWidth - (optionalWidth || 0) - c.cellPad;
case 'center': return (d.column.columnWidth - (optionalWidth || 0)) / 2;
default: return c.cellPad;
}
}
function setCellHeightAndPositionY(columnCell) {
columnCell
.attr('transform', function(d) {
var headerHeight = d.rowBlocks[0].auxiliaryBlocks.reduce(function(p, n) {return p + rowsHeight(n, Infinity);}, 0);
var l = getBlock(d);
var rowAnchor = rowsHeight(l, d.key);
var yOffset = rowAnchor + headerHeight;
return 'translate(0 ' + yOffset + ')';
})
.selectAll('.' + c.cn.cellRect)
.attr('height', function(d) {return getRow(getBlock(d), d.key).rowHeight;});
}
function firstRowAnchor(blocks, page) {
var total = 0;
for(var i = page - 1; i >= 0; i--) {
total += allRowsHeight(blocks[i]);
}
return total;
}
function rowsHeight(rowBlock, key) {
var total = 0;
for(var i = 0; i < rowBlock.rows.length && rowBlock.rows[i].rowIndex < key; i++) {
total += rowBlock.rows[i].rowHeight;
}
return total;
}
function allRowsHeight(rowBlock) {
var cached = rowBlock.allRowsHeight;
if(cached !== void(0)) {
return cached;
}
var total = 0;
for(var i = 0; i < rowBlock.rows.length; i++) {
total += rowBlock.rows[i].rowHeight;
}
rowBlock.allRowsHeight = total;
return total;
}
function getBlock(d) {return d.rowBlocks[d.page];}
function getRow(l, i) {return l.rows[i - l.firstRowIndex];}
},{"../../components/color":567,"../../components/drawing":592,"../../lib":693,"../../lib/gup":690,"../../lib/svg_text_utils":718,"./constants":1127,"./data_preparation_helper":1128,"./data_split_helpers":1129,"d3":147}],1133:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var boxAttrs = _dereq_('../box/attributes');
var extendFlat = _dereq_('../../lib/extend').extendFlat;
module.exports = {
y: boxAttrs.y,
x: boxAttrs.x,
x0: boxAttrs.x0,
y0: boxAttrs.y0,
name: boxAttrs.name,
orientation: extendFlat({}, boxAttrs.orientation, {
}),
bandwidth: {
valType: 'number',
min: 0,
editType: 'calc',
},
scalegroup: {
valType: 'string',
dflt: '',
editType: 'calc',
},
scalemode: {
valType: 'enumerated',
values: ['width', 'count'],
dflt: 'width',
editType: 'calc',
},
spanmode: {
valType: 'enumerated',
values: ['soft', 'hard', 'manual'],
dflt: 'soft',
editType: 'calc',
},
span: {
valType: 'info_array',
items: [
{valType: 'any', editType: 'calc'},
{valType: 'any', editType: 'calc'}
],
editType: 'calc',
},
line: {
color: {
valType: 'color',
editType: 'style',
},
width: {
valType: 'number',
min: 0,
dflt: 2,
editType: 'style',
},
editType: 'plot'
},
fillcolor: boxAttrs.fillcolor,
points: extendFlat({}, boxAttrs.boxpoints, {
}),
jitter: extendFlat({}, boxAttrs.jitter, {
}),
pointpos: extendFlat({}, boxAttrs.pointpos, {
}),
marker: boxAttrs.marker,
text: boxAttrs.text,
box: {
visible: {
valType: 'boolean',
dflt: false,
editType: 'plot',
},
width: {
valType: 'number',
min: 0,
max: 1,
dflt: 0.25,
editType: 'plot',
},
fillcolor: {
valType: 'color',
editType: 'style',
},
line: {
color: {
valType: 'color',
editType: 'style',
},
width: {
valType: 'number',
min: 0,
editType: 'style',
},
editType: 'style'
},
editType: 'plot'
},
meanline: {
visible: {
valType: 'boolean',
dflt: false,
editType: 'plot',
},
color: {
valType: 'color',
editType: 'style',
},
width: {
valType: 'number',
min: 0,
editType: 'style',
},
editType: 'plot'
},
side: {
valType: 'enumerated',
values: ['both', 'positive', 'negative'],
dflt: 'both',
editType: 'plot',
},
selected: boxAttrs.selected,
unselected: boxAttrs.unselected,
hoveron: {
valType: 'flaglist',
flags: ['violins', 'points', 'kde'],
dflt: 'violins+points+kde',
extras: ['all'],
editType: 'style',
}
};
},{"../../lib/extend":682,"../box/attributes":856}],1134:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Axes = _dereq_('../../plots/cartesian/axes');
var boxCalc = _dereq_('../box/calc');
var helpers = _dereq_('./helpers');
var BADNUM = _dereq_('../../constants/numerical').BADNUM;
module.exports = function calc(gd, trace) {
var cd = boxCalc(gd, trace);
if(cd[0].t.empty) return cd;
var fullLayout = gd._fullLayout;
var valAxis = Axes.getFromId(
gd,
trace[trace.orientation === 'h' ? 'xaxis' : 'yaxis']
);
var violinScaleGroupStats = fullLayout._violinScaleGroupStats;
var scaleGroup = trace.scalegroup;
var groupStats = violinScaleGroupStats[scaleGroup];
if(!groupStats) {
groupStats = violinScaleGroupStats[scaleGroup] = {
maxWidth: 0,
maxCount: 0
};
}
var spanMin = Infinity;
var spanMax = -Infinity;
for(var i = 0; i < cd.length; i++) {
var cdi = cd[i];
var vals = cdi.pts.map(helpers.extractVal);
var bandwidth = cdi.bandwidth = calcBandwidth(trace, cdi, vals);
var span = cdi.span = calcSpan(trace, cdi, valAxis, bandwidth);
// step that well covers the bandwidth and is multiple of span distance
var dist = span[1] - span[0];
var n = Math.ceil(dist / (bandwidth / 3));
var step = dist / n;
if(!isFinite(step) || !isFinite(n)) {
Lib.error('Something went wrong with computing the violin span');
cd[0].t.empty = true;
return cd;
}
var kde = helpers.makeKDE(cdi, trace, vals);
cdi.density = new Array(n);
for(var k = 0, t = span[0]; t < (span[1] + step / 2); k++, t += step) {
var v = kde(t);
groupStats.maxWidth = Math.max(groupStats.maxWidth, v);
cdi.density[k] = {v: v, t: t};
}
groupStats.maxCount = Math.max(groupStats.maxCount, vals.length);
spanMin = Math.min(spanMin, span[0]);
spanMax = Math.max(spanMax, span[1]);
}
var extremes = Axes.findExtremes(valAxis, [spanMin, spanMax], {padded: true});
trace._extremes[valAxis._id] = extremes;
cd[0].t.labels.kde = Lib._(gd, 'kde:');
return cd;
};
// Default to Silveman's rule of thumb
// - https://stats.stackexchange.com/a/6671
// - https://en.wikipedia.org/wiki/Kernel_density_estimation#A_rule-of-thumb_bandwidth_estimator
// - https://github.com/statsmodels/statsmodels/blob/master/statsmodels/nonparametric/bandwidths.py
function silvermanRule(len, ssd, iqr) {
var a = Math.min(ssd, iqr / 1.349);
return 1.059 * a * Math.pow(len, -0.2);
}
function calcBandwidth(trace, cdi, vals) {
var span = cdi.max - cdi.min;
// plot single-value violin with bandwidth of 1
if(!span) return 1;
// Limit how small the bandwidth can be.
//
// Silverman's rule of thumb can be "very" small
// when IQR does a poor job at describing the spread
// of the distribution.
// We also want to limit custom bandwidths
// to not blow up kde computations.
if(trace.bandwidth) {
return Math.max(trace.bandwidth, span / 1e4);
} else {
var len = vals.length;
var ssd = Lib.stdev(vals, len - 1, cdi.mean);
return Math.max(
silvermanRule(len, ssd, cdi.q3 - cdi.q1),
span / 100
);
}
}
function calcSpan(trace, cdi, valAxis, bandwidth) {
var spanmode = trace.spanmode;
var spanIn = trace.span || [];
var spanTight = [cdi.min, cdi.max];
var spanLoose = [cdi.min - 2 * bandwidth, cdi.max + 2 * bandwidth];
var spanOut;
function calcSpanItem(index) {
var s = spanIn[index];
var sc = valAxis.d2c(s, 0, trace[cdi.valLetter + 'calendar']);
return sc === BADNUM ? spanLoose[index] : sc;
}
if(spanmode === 'soft') {
spanOut = spanLoose;
} else if(spanmode === 'hard') {
spanOut = spanTight;
} else {
spanOut = [calcSpanItem(0), calcSpanItem(1)];
}
// to reuse the equal-range-item block
var dummyAx = {
type: 'linear',
range: spanOut
};
Axes.setConvert(dummyAx);
dummyAx.cleanRange();
return spanOut;
}
},{"../../constants/numerical":670,"../../lib":693,"../../plots/cartesian/axes":742,"../box/calc":857,"./helpers":1137}],1135:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var setPositionOffset = _dereq_('../box/cross_trace_calc').setPositionOffset;
var orientations = ['v', 'h'];
module.exports = function crossTraceCalc(gd, plotinfo) {
var calcdata = gd.calcdata;
var xa = plotinfo.xaxis;
var ya = plotinfo.yaxis;
for(var i = 0; i < orientations.length; i++) {
var orientation = orientations[i];
var posAxis = orientation === 'h' ? ya : xa;
var violinList = [];
var minPad = 0;
var maxPad = 0;
for(var j = 0; j < calcdata.length; j++) {
var cd = calcdata[j];
var t = cd[0].t;
var trace = cd[0].trace;
if(trace.visible === true && trace.type === 'violin' &&
!t.empty &&
trace.orientation === orientation &&
trace.xaxis === xa._id &&
trace.yaxis === ya._id
) {
violinList.push(j);
if(trace.points !== false) {
minPad = Math.max(minPad, trace.jitter - trace.pointpos - 1);
maxPad = Math.max(maxPad, trace.jitter + trace.pointpos - 1);
}
}
}
setPositionOffset('violin', gd, violinList, posAxis, [minPad, maxPad]);
}
};
},{"../box/cross_trace_calc":858}],1136:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Color = _dereq_('../../components/color');
var boxDefaults = _dereq_('../box/defaults');
var attributes = _dereq_('./attributes');
module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) {
function coerce(attr, dflt) {
return Lib.coerce(traceIn, traceOut, attributes, attr, dflt);
}
function coerce2(attr, dflt) {
return Lib.coerce2(traceIn, traceOut, attributes, attr, dflt);
}
boxDefaults.handleSampleDefaults(traceIn, traceOut, coerce, layout);
if(traceOut.visible === false) return;
coerce('bandwidth');
coerce('scalegroup', traceOut.name);
coerce('scalemode');
coerce('side');
var span = coerce('span');
var spanmodeDflt;
if(Array.isArray(span)) spanmodeDflt = 'manual';
coerce('spanmode', spanmodeDflt);
var lineColor = coerce('line.color', (traceIn.marker || {}).color || defaultColor);
var lineWidth = coerce('line.width');
var fillColor = coerce('fillcolor', Color.addOpacity(traceOut.line.color, 0.5));
boxDefaults.handlePointsDefaults(traceIn, traceOut, coerce, {prefix: ''});
var boxWidth = coerce2('box.width');
var boxFillColor = coerce2('box.fillcolor', fillColor);
var boxLineColor = coerce2('box.line.color', lineColor);
var boxLineWidth = coerce2('box.line.width', lineWidth);
var boxVisible = coerce('box.visible', Boolean(boxWidth || boxFillColor || boxLineColor || boxLineWidth));
if(!boxVisible) traceOut.box = {visible: false};
var meanLineColor = coerce2('meanline.color', lineColor);
var meanLineWidth = coerce2('meanline.width', lineWidth);
var meanLineVisible = coerce('meanline.visible', Boolean(meanLineColor || meanLineWidth));
if(!meanLineVisible) traceOut.meanline = {visible: false};
};
},{"../../components/color":567,"../../lib":693,"../box/defaults":859,"./attributes":1133}],1137:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
// Maybe add kernels more down the road,
// but note that the default `spanmode: 'soft'` bounds might have
// to become kernel-dependent
var kernels = {
gaussian: function(v) {
return (1 / Math.sqrt(2 * Math.PI)) * Math.exp(-0.5 * v * v);
}
};
exports.makeKDE = function(calcItem, trace, vals) {
var len = vals.length;
var kernel = kernels.gaussian;
var bandwidth = calcItem.bandwidth;
var factor = 1 / (len * bandwidth);
// don't use Lib.aggNums to skip isNumeric checks
return function(x) {
var sum = 0;
for(var i = 0; i < len; i++) {
sum += kernel((x - vals[i]) / bandwidth);
}
return factor * sum;
};
};
exports.getPositionOnKdePath = function(calcItem, trace, valuePx) {
var posLetter, valLetter;
if(trace.orientation === 'h') {
posLetter = 'y';
valLetter = 'x';
} else {
posLetter = 'x';
valLetter = 'y';
}
var pointOnPath = Lib.findPointOnPath(
calcItem.path,
valuePx,
valLetter,
{pathLength: calcItem.pathLength}
);
var posCenterPx = calcItem.posCenterPx;
var posOnPath0 = pointOnPath[posLetter];
var posOnPath1 = trace.side === 'both' ?
2 * posCenterPx - posOnPath0 :
posCenterPx;
return [posOnPath0, posOnPath1];
};
exports.getKdeValue = function(calcItem, trace, valueDist) {
var vals = calcItem.pts.map(exports.extractVal);
var kde = exports.makeKDE(calcItem, trace, vals);
return kde(valueDist) / calcItem.posDensityScale;
};
exports.extractVal = function(o) { return o.v; };
},{"../../lib":693}],1138:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var Axes = _dereq_('../../plots/cartesian/axes');
var boxHoverPoints = _dereq_('../box/hover');
var helpers = _dereq_('./helpers');
module.exports = function hoverPoints(pointData, xval, yval, hovermode, hoverLayer) {
var cd = pointData.cd;
var trace = cd[0].trace;
var hoveron = trace.hoveron;
var hasHoveronViolins = hoveron.indexOf('violins') !== -1;
var hasHoveronKDE = hoveron.indexOf('kde') !== -1;
var closeData = [];
var closePtData;
var violinLineAttrs;
if(hasHoveronViolins || hasHoveronKDE) {
var closeBoxData = boxHoverPoints.hoverOnBoxes(pointData, xval, yval, hovermode);
if(hasHoveronViolins) {
closeData = closeData.concat(closeBoxData);
}
if(hasHoveronKDE && closeBoxData.length > 0) {
var xa = pointData.xa;
var ya = pointData.ya;
var pLetter, vLetter, pAxis, vAxis, vVal;
if(trace.orientation === 'h') {
vVal = xval;
pLetter = 'y';
pAxis = ya;
vLetter = 'x';
vAxis = xa;
} else {
vVal = yval;
pLetter = 'x';
pAxis = xa;
vLetter = 'y';
vAxis = ya;
}
var di = cd[pointData.index];
if(vVal >= di.span[0] && vVal <= di.span[1]) {
var kdePointData = Lib.extendFlat({}, pointData);
var vValPx = vAxis.c2p(vVal, true);
var kdeVal = helpers.getKdeValue(di, trace, vVal);
var pOnPath = helpers.getPositionOnKdePath(di, trace, vValPx);
var paOffset = pAxis._offset;
var paLength = pAxis._length;
kdePointData[pLetter + '0'] = pOnPath[0];
kdePointData[pLetter + '1'] = pOnPath[1];
kdePointData[vLetter + '0'] = kdePointData[vLetter + '1'] = vValPx;
kdePointData[vLetter + 'Label'] = vLetter + ': ' + Axes.hoverLabelText(vAxis, vVal) + ', ' + cd[0].t.labels.kde + ' ' + kdeVal.toFixed(3);
// move the spike to the KDE point
kdePointData.spikeDistance = closeBoxData[0].spikeDistance;
var spikePosAttr = pLetter + 'Spike';
kdePointData[spikePosAttr] = closeBoxData[0][spikePosAttr];
closeBoxData[0].spikeDistance = undefined;
closeBoxData[0][spikePosAttr] = undefined;
closeData.push(kdePointData);
violinLineAttrs = {stroke: pointData.color};
violinLineAttrs[pLetter + '1'] = Lib.constrain(paOffset + pOnPath[0], paOffset, paOffset + paLength);
violinLineAttrs[pLetter + '2'] = Lib.constrain(paOffset + pOnPath[1], paOffset, paOffset + paLength);
violinLineAttrs[vLetter + '1'] = violinLineAttrs[vLetter + '2'] = vAxis._offset + vValPx;
}
}
}
if(hoveron.indexOf('points') !== -1) {
closePtData = boxHoverPoints.hoverOnPoints(pointData, xval, yval);
}
// update violin line (if any)
var violinLine = hoverLayer.selectAll('.violinline-' + trace.uid)
.data(violinLineAttrs ? [0] : []);
violinLine.enter().append('line')
.classed('violinline-' + trace.uid, true)
.attr('stroke-width', 1.5);
violinLine.exit().remove();
violinLine.attr(violinLineAttrs);
// same combine logic as box hoverPoints
if(hovermode === 'closest') {
if(closePtData) return [closePtData];
return closeData;
}
if(closePtData) {
closeData.push(closePtData);
return closeData;
}
return closeData;
};
},{"../../lib":693,"../../plots/cartesian/axes":742,"../box/hover":861,"./helpers":1137}],1139:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
module.exports = {
attributes: _dereq_('./attributes'),
layoutAttributes: _dereq_('./layout_attributes'),
supplyDefaults: _dereq_('./defaults'),
supplyLayoutDefaults: _dereq_('./layout_defaults'),
calc: _dereq_('./calc'),
crossTraceCalc: _dereq_('./cross_trace_calc'),
plot: _dereq_('./plot'),
style: _dereq_('./style'),
styleOnSelect: _dereq_('../scatter/style').styleOnSelect,
hoverPoints: _dereq_('./hover'),
selectPoints: _dereq_('../box/select'),
moduleType: 'trace',
name: 'violin',
basePlotModule: _dereq_('../../plots/cartesian'),
categories: ['cartesian', 'svg', 'symbols', 'oriented', 'box-violin', 'showLegend', 'violinLayout', 'zoomScale'],
meta: {
}
};
},{"../../plots/cartesian":753,"../box/select":866,"../scatter/style":1055,"./attributes":1133,"./calc":1134,"./cross_trace_calc":1135,"./defaults":1136,"./hover":1138,"./layout_attributes":1140,"./layout_defaults":1141,"./plot":1142,"./style":1143}],1140:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var boxLayoutAttrs = _dereq_('../box/layout_attributes');
var extendFlat = _dereq_('../../lib').extendFlat;
module.exports = {
violinmode: extendFlat({}, boxLayoutAttrs.boxmode, {
}),
violingap: extendFlat({}, boxLayoutAttrs.boxgap, {
}),
violingroupgap: extendFlat({}, boxLayoutAttrs.boxgroupgap, {
})
};
},{"../../lib":693,"../box/layout_attributes":863}],1141:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../../lib');
var layoutAttributes = _dereq_('./layout_attributes');
var boxLayoutDefaults = _dereq_('../box/layout_defaults');
module.exports = function supplyLayoutDefaults(layoutIn, layoutOut, fullData) {
function coerce(attr, dflt) {
return Lib.coerce(layoutIn, layoutOut, layoutAttributes, attr, dflt);
}
boxLayoutDefaults._supply(layoutIn, layoutOut, fullData, coerce, 'violin');
};
},{"../../lib":693,"../box/layout_defaults":864,"./layout_attributes":1140}],1142:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Lib = _dereq_('../../lib');
var Drawing = _dereq_('../../components/drawing');
var boxPlot = _dereq_('../box/plot');
var linePoints = _dereq_('../scatter/line_points');
var helpers = _dereq_('./helpers');
module.exports = function plot(gd, plotinfo, cdViolins, violinLayer) {
var fullLayout = gd._fullLayout;
var xa = plotinfo.xaxis;
var ya = plotinfo.yaxis;
function makePath(pts) {
var segments = linePoints(pts, {
xaxis: xa,
yaxis: ya,
connectGaps: true,
baseTolerance: 0.75,
shape: 'spline',
simplify: true
});
return Drawing.smoothopen(segments[0], 1);
}
Lib.makeTraceGroups(violinLayer, cdViolins, 'trace violins').each(function(cd) {
var plotGroup = d3.select(this);
var cd0 = cd[0];
var t = cd0.t;
var trace = cd0.trace;
if(!plotinfo.isRangePlot) cd0.node3 = plotGroup;
var numViolins = fullLayout._numViolins;
var group = (fullLayout.violinmode === 'group' && numViolins > 1);
var groupFraction = 1 - fullLayout.violingap;
// violin max half width
var bdPos = t.bdPos = t.dPos * groupFraction * (1 - fullLayout.violingroupgap) / (group ? numViolins : 1);
// violin center offset
var bPos = t.bPos = group ? 2 * t.dPos * (-0.5 + (t.num + 0.5) / numViolins) * groupFraction : 0;
// half-width within which to accept hover for this violin
// always split the distance to the closest violin
t.wHover = t.dPos * (group ? groupFraction / numViolins : 1);
if(trace.visible !== true || t.empty) {
plotGroup.remove();
return;
}
var valAxis = plotinfo[t.valLetter + 'axis'];
var posAxis = plotinfo[t.posLetter + 'axis'];
var hasBothSides = trace.side === 'both';
var hasPositiveSide = hasBothSides || trace.side === 'positive';
var hasNegativeSide = hasBothSides || trace.side === 'negative';
var groupStats = fullLayout._violinScaleGroupStats[trace.scalegroup];
var violins = plotGroup.selectAll('path.violin').data(Lib.identity);
violins.enter().append('path')
.style('vector-effect', 'non-scaling-stroke')
.attr('class', 'violin');
violins.exit().remove();
violins.each(function(d) {
var pathSel = d3.select(this);
var density = d.density;
var len = density.length;
var posCenter = d.pos + bPos;
var posCenterPx = posAxis.c2p(posCenter);
var scale;
switch(trace.scalemode) {
case 'width':
scale = groupStats.maxWidth / bdPos;
break;
case 'count':
scale = (groupStats.maxWidth / bdPos) * (groupStats.maxCount / d.pts.length);
break;
}
var pathPos, pathNeg, path;
var i, k, pts, pt;
if(hasPositiveSide) {
pts = new Array(len);
for(i = 0; i < len; i++) {
pt = pts[i] = {};
pt[t.posLetter] = posCenter + (density[i].v / scale);
pt[t.valLetter] = density[i].t;
}
pathPos = makePath(pts);
}
if(hasNegativeSide) {
pts = new Array(len);
for(k = 0, i = len - 1; k < len; k++, i--) {
pt = pts[k] = {};
pt[t.posLetter] = posCenter - (density[i].v / scale);
pt[t.valLetter] = density[i].t;
}
pathNeg = makePath(pts);
}
if(hasBothSides) {
path = pathPos + 'L' + pathNeg.substr(1) + 'Z';
}
else {
var startPt = [posCenterPx, valAxis.c2p(density[0].t)];
var endPt = [posCenterPx, valAxis.c2p(density[len - 1].t)];
if(trace.orientation === 'h') {
startPt.reverse();
endPt.reverse();
}
if(hasPositiveSide) {
path = 'M' + startPt + 'L' + pathPos.substr(1) + 'L' + endPt;
} else {
path = 'M' + endPt + 'L' + pathNeg.substr(1) + 'L' + startPt;
}
}
pathSel.attr('d', path);
// save a few things used in getPositionOnKdePath, getKdeValue
// on hover and for meanline draw block below
d.posCenterPx = posCenterPx;
d.posDensityScale = scale * bdPos;
d.path = pathSel.node();
d.pathLength = d.path.getTotalLength() / (hasBothSides ? 2 : 1);
});
var boxAttrs = trace.box;
var boxWidth = boxAttrs.width;
var boxLineWidth = (boxAttrs.line || {}).width;
var bdPosScaled;
var bPosPxOffset;
if(hasBothSides) {
bdPosScaled = bdPos * boxWidth;
bPosPxOffset = 0;
} else if(hasPositiveSide) {
bdPosScaled = [0, bdPos * boxWidth / 2];
bPosPxOffset = -boxLineWidth;
} else {
bdPosScaled = [bdPos * boxWidth / 2, 0];
bPosPxOffset = boxLineWidth;
}
// inner box
boxPlot.plotBoxAndWhiskers(plotGroup, {pos: posAxis, val: valAxis}, trace, {
bPos: bPos,
bdPos: bdPosScaled,
bPosPxOffset: bPosPxOffset
});
// meanline insider box
boxPlot.plotBoxMean(plotGroup, {pos: posAxis, val: valAxis}, trace, {
bPos: bPos,
bdPos: bdPosScaled,
bPosPxOffset: bPosPxOffset
});
var fn;
if(!trace.box.visible && trace.meanline.visible) {
fn = Lib.identity;
}
// N.B. use different class name than boxPlot.plotBoxMean,
// to avoid selectAll conflict
var meanPaths = plotGroup.selectAll('path.meanline').data(fn || []);
meanPaths.enter().append('path')
.attr('class', 'meanline')
.style('fill', 'none')
.style('vector-effect', 'non-scaling-stroke');
meanPaths.exit().remove();
meanPaths.each(function(d) {
var v = valAxis.c2p(d.mean, true);
var p = helpers.getPositionOnKdePath(d, trace, v);
d3.select(this).attr('d',
trace.orientation === 'h' ?
'M' + v + ',' + p[0] + 'V' + p[1] :
'M' + p[0] + ',' + v + 'H' + p[1]
);
});
boxPlot.plotPoints(plotGroup, {x: xa, y: ya}, trace, t);
});
};
},{"../../components/drawing":592,"../../lib":693,"../box/plot":865,"../scatter/line_points":1046,"./helpers":1137,"d3":147}],1143:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var d3 = _dereq_('d3');
var Color = _dereq_('../../components/color');
var stylePoints = _dereq_('../scatter/style').stylePoints;
module.exports = function style(gd, cd) {
var s = cd ? cd[0].node3 : d3.select(gd).selectAll('g.trace.violins');
s.style('opacity', function(d) { return d[0].trace.opacity; });
s.each(function(d) {
var trace = d[0].trace;
var sel = d3.select(this);
var box = trace.box || {};
var boxLine = box.line || {};
var meanline = trace.meanline || {};
var meanLineWidth = meanline.width;
sel.selectAll('path.violin')
.style('stroke-width', trace.line.width + 'px')
.call(Color.stroke, trace.line.color)
.call(Color.fill, trace.fillcolor);
sel.selectAll('path.box')
.style('stroke-width', boxLine.width + 'px')
.call(Color.stroke, boxLine.color)
.call(Color.fill, box.fillcolor);
var meanLineStyle = {
'stroke-width': meanLineWidth + 'px',
'stroke-dasharray': (2 * meanLineWidth) + 'px,' + meanLineWidth + 'px'
};
sel.selectAll('path.mean')
.style(meanLineStyle)
.call(Color.stroke, meanline.color);
sel.selectAll('path.meanline')
.style(meanLineStyle)
.call(Color.stroke, meanline.color);
stylePoints(sel, trace, gd);
});
};
},{"../../components/color":567,"../scatter/style":1055,"d3":147}],1144:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Axes = _dereq_('../plots/cartesian/axes');
var Lib = _dereq_('../lib');
var PlotSchema = _dereq_('../plot_api/plot_schema');
var pointsAccessorFunction = _dereq_('./helpers').pointsAccessorFunction;
var BADNUM = _dereq_('../constants/numerical').BADNUM;
exports.moduleType = 'transform';
exports.name = 'aggregate';
var attrs = exports.attributes = {
enabled: {
valType: 'boolean',
dflt: true,
editType: 'calc',
},
groups: {
// TODO: groupby should support string or array grouping this way too
// currently groupby only allows a grouping array
valType: 'string',
strict: true,
noBlank: true,
arrayOk: true,
dflt: 'x',
editType: 'calc',
},
aggregations: {
_isLinkedToArray: 'aggregation',
target: {
valType: 'string',
editType: 'calc',
},
func: {
valType: 'enumerated',
values: ['count', 'sum', 'avg', 'median', 'mode', 'rms', 'stddev', 'min', 'max', 'first', 'last', 'change', 'range'],
dflt: 'first',
editType: 'calc',
},
funcmode: {
valType: 'enumerated',
values: ['sample', 'population'],
dflt: 'sample',
editType: 'calc',
},
enabled: {
valType: 'boolean',
dflt: true,
editType: 'calc',
},
editType: 'calc'
},
editType: 'calc'
};
var aggAttrs = attrs.aggregations;
/**
* Supply transform attributes defaults
*
* @param {object} transformIn
* object linked to trace.transforms[i] with 'func' set to exports.name
* @param {object} traceOut
* the _fullData trace this transform applies to
* @param {object} layout
* the plot's (not-so-full) layout
* @param {object} traceIn
* the input data trace this transform applies to
*
* @return {object} transformOut
* copy of transformIn that contains attribute defaults
*/
exports.supplyDefaults = function(transformIn, traceOut) {
var transformOut = {};
var i;
function coerce(attr, dflt) {
return Lib.coerce(transformIn, transformOut, attrs, attr, dflt);
}
var enabled = coerce('enabled');
if(!enabled) return transformOut;
/*
* Normally _arrayAttrs is calculated during doCalc, but that comes later.
* Anyway this can change due to *count* aggregations (see below) so it's not
* necessarily the same set.
*
* For performance we turn it into an object of truthy values
* we'll use 1 for arrays we haven't aggregated yet, 0 for finished arrays,
* as distinct from undefined which means this array isn't present in the input
* missing arrays can still be aggregate outputs for *count* aggregations.
*/
var arrayAttrArray = PlotSchema.findArrayAttributes(traceOut);
var arrayAttrs = {};
for(i = 0; i < arrayAttrArray.length; i++) arrayAttrs[arrayAttrArray[i]] = 1;
var groups = coerce('groups');
if(!Array.isArray(groups)) {
if(!arrayAttrs[groups]) {
transformOut.enabled = false;
return;
}
arrayAttrs[groups] = 0;
}
var aggregationsIn = transformIn.aggregations || [];
var aggregationsOut = transformOut.aggregations = new Array(aggregationsIn.length);
var aggregationOut;
function coercei(attr, dflt) {
return Lib.coerce(aggregationsIn[i], aggregationOut, aggAttrs, attr, dflt);
}
for(i = 0; i < aggregationsIn.length; i++) {
aggregationOut = {_index: i};
var target = coercei('target');
var func = coercei('func');
var enabledi = coercei('enabled');
// add this aggregation to the output only if it's the first instance
// of a valid target attribute - or an unused target attribute with "count"
if(enabledi && target && (arrayAttrs[target] || (func === 'count' && arrayAttrs[target] === undefined))) {
if(func === 'stddev') coercei('funcmode');
arrayAttrs[target] = 0;
aggregationsOut[i] = aggregationOut;
}
else aggregationsOut[i] = {enabled: false, _index: i};
}
// any array attributes we haven't yet covered, fill them with the default aggregation
for(i = 0; i < arrayAttrArray.length; i++) {
if(arrayAttrs[arrayAttrArray[i]]) {
aggregationsOut.push({
target: arrayAttrArray[i],
func: aggAttrs.func.dflt,
enabled: true,
_index: -1
});
}
}
return transformOut;
};
exports.calcTransform = function(gd, trace, opts) {
if(!opts.enabled) return;
var groups = opts.groups;
var groupArray = Lib.getTargetArray(trace, {target: groups});
if(!groupArray) return;
var i, vi, groupIndex, newGrouping;
var groupIndices = {};
var indexToPoints = {};
var groupings = [];
var originalPointsAccessor = pointsAccessorFunction(trace.transforms, opts);
var len = groupArray.length;
if(trace._length) len = Math.min(len, trace._length);
for(i = 0; i < len; i++) {
vi = groupArray[i];
groupIndex = groupIndices[vi];
if(groupIndex === undefined) {
groupIndices[vi] = groupings.length;
newGrouping = [i];
groupings.push(newGrouping);
indexToPoints[groupIndices[vi]] = originalPointsAccessor(i);
}
else {
groupings[groupIndex].push(i);
indexToPoints[groupIndices[vi]] = (indexToPoints[groupIndices[vi]] || []).concat(originalPointsAccessor(i));
}
}
opts._indexToPoints = indexToPoints;
var aggregations = opts.aggregations;
for(i = 0; i < aggregations.length; i++) {
aggregateOneArray(gd, trace, groupings, aggregations[i]);
}
if(typeof groups === 'string') {
aggregateOneArray(gd, trace, groupings, {
target: groups,
func: 'first',
enabled: true
});
}
trace._length = groupings.length;
};
function aggregateOneArray(gd, trace, groupings, aggregation) {
if(!aggregation.enabled) return;
var attr = aggregation.target;
var targetNP = Lib.nestedProperty(trace, attr);
var arrayIn = targetNP.get();
var conversions = Axes.getDataConversions(gd, trace, attr, arrayIn);
var func = getAggregateFunction(aggregation, conversions);
var arrayOut = new Array(groupings.length);
for(var i = 0; i < groupings.length; i++) {
arrayOut[i] = func(arrayIn, groupings[i]);
}
targetNP.set(arrayOut);
if(aggregation.func === 'count') {
// count does not depend on an input array, so it's likely not part of _arrayAttrs yet
// but after this transform it most definitely *is* an array attribute.
Lib.pushUnique(trace._arrayAttrs, attr);
}
}
function getAggregateFunction(opts, conversions) {
var func = opts.func;
var d2c = conversions.d2c;
var c2d = conversions.c2d;
switch(func) {
// count, first, and last don't depend on anything about the data
// point back to pure functions for performance
case 'count':
return count;
case 'first':
return first;
case 'last':
return last;
case 'sum':
// This will produce output in all cases even though it's nonsensical
// for date or category data.
return function(array, indices) {
var total = 0;
for(var i = 0; i < indices.length; i++) {
var vi = d2c(array[indices[i]]);
if(vi !== BADNUM) total += vi;
}
return c2d(total);
};
case 'avg':
// Generally meaningless for category data but it still does something.
return function(array, indices) {
var total = 0;
var cnt = 0;
for(var i = 0; i < indices.length; i++) {
var vi = d2c(array[indices[i]]);
if(vi !== BADNUM) {
total += vi;
cnt++;
}
}
return cnt ? c2d(total / cnt) : BADNUM;
};
case 'min':
return function(array, indices) {
var out = Infinity;
for(var i = 0; i < indices.length; i++) {
var vi = d2c(array[indices[i]]);
if(vi !== BADNUM) out = Math.min(out, vi);
}
return (out === Infinity) ? BADNUM : c2d(out);
};
case 'max':
return function(array, indices) {
var out = -Infinity;
for(var i = 0; i < indices.length; i++) {
var vi = d2c(array[indices[i]]);
if(vi !== BADNUM) out = Math.max(out, vi);
}
return (out === -Infinity) ? BADNUM : c2d(out);
};
case 'range':
return function(array, indices) {
var min = Infinity;
var max = -Infinity;
for(var i = 0; i < indices.length; i++) {
var vi = d2c(array[indices[i]]);
if(vi !== BADNUM) {
min = Math.min(min, vi);
max = Math.max(max, vi);
}
}
return (max === -Infinity || min === Infinity) ? BADNUM : c2d(max - min);
};
case 'change':
return function(array, indices) {
var first = d2c(array[indices[0]]);
var last = d2c(array[indices[indices.length - 1]]);
return (first === BADNUM || last === BADNUM) ? BADNUM : c2d(last - first);
};
case 'median':
return function(array, indices) {
var sortCalc = [];
for(var i = 0; i < indices.length; i++) {
var vi = d2c(array[indices[i]]);
if(vi !== BADNUM) sortCalc.push(vi);
}
if(!sortCalc.length) return BADNUM;
sortCalc.sort();
var mid = (sortCalc.length - 1) / 2;
return c2d((sortCalc[Math.floor(mid)] + sortCalc[Math.ceil(mid)]) / 2);
};
case 'mode':
return function(array, indices) {
var counts = {};
var maxCnt = 0;
var out = BADNUM;
for(var i = 0; i < indices.length; i++) {
var vi = d2c(array[indices[i]]);
if(vi !== BADNUM) {
var counti = counts[vi] = (counts[vi] || 0) + 1;
if(counti > maxCnt) {
maxCnt = counti;
out = vi;
}
}
}
return maxCnt ? c2d(out) : BADNUM;
};
case 'rms':
return function(array, indices) {
var total = 0;
var cnt = 0;
for(var i = 0; i < indices.length; i++) {
var vi = d2c(array[indices[i]]);
if(vi !== BADNUM) {
total += vi * vi;
cnt++;
}
}
return cnt ? c2d(Math.sqrt(total / cnt)) : BADNUM;
};
case 'stddev':
return function(array, indices) {
// balance numerical stability with performance:
// so that we call d2c once per element but don't need to
// store them, reference all to the first element
var total = 0;
var total2 = 0;
var cnt = 1;
var v0 = BADNUM;
var i;
for(i = 0; i < indices.length && v0 === BADNUM; i++) {
v0 = d2c(array[indices[i]]);
}
if(v0 === BADNUM) return BADNUM;
for(; i < indices.length; i++) {
var vi = d2c(array[indices[i]]);
if(vi !== BADNUM) {
var dv = vi - v0;
total += dv;
total2 += dv * dv;
cnt++;
}
}
// This is population std dev, if we want sample std dev
// we would need (...) / (cnt - 1)
// Also note there's no c2d here - that means for dates the result
// is a number of milliseconds, and for categories it's a number
// of category differences, which is not generically meaningful but
// as in other cases we don't forbid it.
var norm = (opts.funcmode === 'sample') ? (cnt - 1) : cnt;
// this is debatable: should a count of 1 return sample stddev of
// 0 or undefined?
if(!norm) return 0;
return Math.sqrt((total2 - (total * total / cnt)) / norm);
};
}
}
function count(array, indices) {
return indices.length;
}
function first(array, indices) {
return array[indices[0]];
}
function last(array, indices) {
return array[indices[indices.length - 1]];
}
},{"../constants/numerical":670,"../lib":693,"../plot_api/plot_schema":731,"../plots/cartesian/axes":742,"./helpers":1147}],1145:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../lib');
var Registry = _dereq_('../registry');
var Axes = _dereq_('../plots/cartesian/axes');
var pointsAccessorFunction = _dereq_('./helpers').pointsAccessorFunction;
var filterOps = _dereq_('../constants/filter_ops');
var COMPARISON_OPS = filterOps.COMPARISON_OPS;
var INTERVAL_OPS = filterOps.INTERVAL_OPS;
var SET_OPS = filterOps.SET_OPS;
exports.moduleType = 'transform';
exports.name = 'filter';
exports.attributes = {
enabled: {
valType: 'boolean',
dflt: true,
editType: 'calc',
},
target: {
valType: 'string',
strict: true,
noBlank: true,
arrayOk: true,
dflt: 'x',
editType: 'calc',
},
operation: {
valType: 'enumerated',
values: []
.concat(COMPARISON_OPS)
.concat(INTERVAL_OPS)
.concat(SET_OPS),
dflt: '=',
editType: 'calc',
},
value: {
valType: 'any',
dflt: 0,
editType: 'calc',
},
preservegaps: {
valType: 'boolean',
dflt: false,
editType: 'calc',
},
editType: 'calc'
};
exports.supplyDefaults = function(transformIn) {
var transformOut = {};
function coerce(attr, dflt) {
return Lib.coerce(transformIn, transformOut, exports.attributes, attr, dflt);
}
var enabled = coerce('enabled');
if(enabled) {
coerce('preservegaps');
coerce('operation');
coerce('value');
coerce('target');
var handleCalendarDefaults = Registry.getComponentMethod('calendars', 'handleDefaults');
handleCalendarDefaults(transformIn, transformOut, 'valuecalendar', null);
handleCalendarDefaults(transformIn, transformOut, 'targetcalendar', null);
}
return transformOut;
};
exports.calcTransform = function(gd, trace, opts) {
if(!opts.enabled) return;
var targetArray = Lib.getTargetArray(trace, opts);
if(!targetArray) return;
var target = opts.target;
var len = targetArray.length;
if(trace._length) len = Math.min(len, trace._length);
var targetCalendar = opts.targetcalendar;
var arrayAttrs = trace._arrayAttrs;
var preservegaps = opts.preservegaps;
// even if you provide targetcalendar, if target is a string and there
// is a calendar attribute matching target it will get used instead.
if(typeof target === 'string') {
var attrTargetCalendar = Lib.nestedProperty(trace, target + 'calendar').get();
if(attrTargetCalendar) targetCalendar = attrTargetCalendar;
}
var d2c = Axes.getDataToCoordFunc(gd, trace, target, targetArray);
var filterFunc = getFilterFunc(opts, d2c, targetCalendar);
var originalArrays = {};
var indexToPoints = {};
var index = 0;
function forAllAttrs(fn, index) {
for(var j = 0; j < arrayAttrs.length; j++) {
var np = Lib.nestedProperty(trace, arrayAttrs[j]);
fn(np, index);
}
}
var initFn;
var fillFn;
if(preservegaps) {
initFn = function(np) {
originalArrays[np.astr] = Lib.extendDeep([], np.get());
np.set(new Array(len));
};
fillFn = function(np, index) {
var val = originalArrays[np.astr][index];
np.get()[index] = val;
};
} else {
initFn = function(np) {
originalArrays[np.astr] = Lib.extendDeep([], np.get());
np.set([]);
};
fillFn = function(np, index) {
var val = originalArrays[np.astr][index];
np.get().push(val);
};
}
// copy all original array attribute values, and clear arrays in trace
forAllAttrs(initFn);
var originalPointsAccessor = pointsAccessorFunction(trace.transforms, opts);
// loop through filter array, fill trace arrays if passed
for(var i = 0; i < len; i++) {
var passed = filterFunc(targetArray[i]);
if(passed) {
forAllAttrs(fillFn, i);
indexToPoints[index++] = originalPointsAccessor(i);
}
else if(preservegaps) index++;
}
opts._indexToPoints = indexToPoints;
trace._length = index;
};
function getFilterFunc(opts, d2c, targetCalendar) {
var operation = opts.operation,
value = opts.value,
hasArrayValue = Array.isArray(value);
function isOperationIn(array) {
return array.indexOf(operation) !== -1;
}
var d2cValue = function(v) { return d2c(v, 0, opts.valuecalendar); },
d2cTarget = function(v) { return d2c(v, 0, targetCalendar); };
var coercedValue;
if(isOperationIn(COMPARISON_OPS)) {
coercedValue = hasArrayValue ? d2cValue(value[0]) : d2cValue(value);
}
else if(isOperationIn(INTERVAL_OPS)) {
coercedValue = hasArrayValue ?
[d2cValue(value[0]), d2cValue(value[1])] :
[d2cValue(value), d2cValue(value)];
}
else if(isOperationIn(SET_OPS)) {
coercedValue = hasArrayValue ? value.map(d2cValue) : [d2cValue(value)];
}
switch(operation) {
case '=':
return function(v) { return d2cTarget(v) === coercedValue; };
case '!=':
return function(v) { return d2cTarget(v) !== coercedValue; };
case '<':
return function(v) { return d2cTarget(v) < coercedValue; };
case '<=':
return function(v) { return d2cTarget(v) <= coercedValue; };
case '>':
return function(v) { return d2cTarget(v) > coercedValue; };
case '>=':
return function(v) { return d2cTarget(v) >= coercedValue; };
case '[]':
return function(v) {
var cv = d2cTarget(v);
return cv >= coercedValue[0] && cv <= coercedValue[1];
};
case '()':
return function(v) {
var cv = d2cTarget(v);
return cv > coercedValue[0] && cv < coercedValue[1];
};
case '[)':
return function(v) {
var cv = d2cTarget(v);
return cv >= coercedValue[0] && cv < coercedValue[1];
};
case '(]':
return function(v) {
var cv = d2cTarget(v);
return cv > coercedValue[0] && cv <= coercedValue[1];
};
case '][':
return function(v) {
var cv = d2cTarget(v);
return cv <= coercedValue[0] || cv >= coercedValue[1];
};
case ')(':
return function(v) {
var cv = d2cTarget(v);
return cv < coercedValue[0] || cv > coercedValue[1];
};
case '](':
return function(v) {
var cv = d2cTarget(v);
return cv <= coercedValue[0] || cv > coercedValue[1];
};
case ')[':
return function(v) {
var cv = d2cTarget(v);
return cv < coercedValue[0] || cv >= coercedValue[1];
};
case '{}':
return function(v) {
return coercedValue.indexOf(d2cTarget(v)) !== -1;
};
case '}{':
return function(v) {
return coercedValue.indexOf(d2cTarget(v)) === -1;
};
}
}
},{"../constants/filter_ops":666,"../lib":693,"../plots/cartesian/axes":742,"../registry":825,"./helpers":1147}],1146:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../lib');
var PlotSchema = _dereq_('../plot_api/plot_schema');
var Plots = _dereq_('../plots/plots');
var pointsAccessorFunction = _dereq_('./helpers').pointsAccessorFunction;
exports.moduleType = 'transform';
exports.name = 'groupby';
exports.attributes = {
enabled: {
valType: 'boolean',
dflt: true,
editType: 'calc',
},
groups: {
valType: 'data_array',
dflt: [],
editType: 'calc',
},
nameformat: {
valType: 'string',
editType: 'calc',
},
styles: {
_isLinkedToArray: 'style',
target: {
valType: 'string',
editType: 'calc',
},
value: {
valType: 'any',
dflt: {},
editType: 'calc',
_compareAsJSON: true
},
editType: 'calc'
},
editType: 'calc'
};
/**
* Supply transform attributes defaults
*
* @param {object} transformIn
* object linked to trace.transforms[i] with 'type' set to exports.name
* @param {object} traceOut
* the _fullData trace this transform applies to
* @param {object} layout
* the plot's (not-so-full) layout
* @param {object} traceIn
* the input data trace this transform applies to
*
* @return {object} transformOut
* copy of transformIn that contains attribute defaults
*/
exports.supplyDefaults = function(transformIn, traceOut, layout) {
var i;
var transformOut = {};
function coerce(attr, dflt) {
return Lib.coerce(transformIn, transformOut, exports.attributes, attr, dflt);
}
var enabled = coerce('enabled');
if(!enabled) return transformOut;
coerce('groups');
coerce('nameformat', layout._dataLength > 1 ? '%{group} (%{trace})' : '%{group}');
var styleIn = transformIn.styles;
var styleOut = transformOut.styles = [];
if(styleIn) {
for(i = 0; i < styleIn.length; i++) {
var thisStyle = styleOut[i] = {};
Lib.coerce(styleIn[i], styleOut[i], exports.attributes.styles, 'target');
var value = Lib.coerce(styleIn[i], styleOut[i], exports.attributes.styles, 'value');
// so that you can edit value in place and have Plotly.react notice it, or
// rebuild it every time and have Plotly.react NOT think it changed:
// use _compareAsJSON to say we should diff the _JSON_value
if(Lib.isPlainObject(value)) thisStyle.value = Lib.extendDeep({}, value);
else if(value) delete thisStyle.value;
}
}
return transformOut;
};
/**
* Apply transform !!!
*
* @param {array} data
* array of transformed traces (is [fullTrace] upon first transform)
*
* @param {object} state
* state object which includes:
* - transform {object} full transform attributes
* - fullTrace {object} full trace object which is being transformed
* - fullData {array} full pre-transform(s) data array
* - layout {object} the plot's (not-so-full) layout
*
* @return {object} newData
* array of transformed traces
*/
exports.transform = function(data, state) {
var newTraces, i, j;
var newData = [];
for(i = 0; i < data.length; i++) {
newTraces = transformOne(data[i], state);
for(j = 0; j < newTraces.length; j++) {
newData.push(newTraces[j]);
}
}
return newData;
};
function transformOne(trace, state) {
var i, j, k, attr, srcArray, groupName, newTrace, transforms, arrayLookup;
var groupNameObj;
var opts = state.transform;
var transformIndex = state.transformIndex;
var groups = trace.transforms[transformIndex].groups;
var originalPointsAccessor = pointsAccessorFunction(trace.transforms, opts);
if(!(Array.isArray(groups)) || groups.length === 0) {
return [trace];
}
var groupNames = Lib.filterUnique(groups),
newData = new Array(groupNames.length),
len = groups.length;
var arrayAttrs = PlotSchema.findArrayAttributes(trace);
var styles = opts.styles || [];
var styleLookup = {};
for(i = 0; i < styles.length; i++) {
styleLookup[styles[i].target] = styles[i].value;
}
if(opts.styles) {
groupNameObj = Lib.keyedContainer(opts, 'styles', 'target', 'value.name');
}
// An index to map group name --> expanded trace index
var indexLookup = {};
var indexCnts = {};
for(i = 0; i < groupNames.length; i++) {
groupName = groupNames[i];
indexLookup[groupName] = i;
indexCnts[groupName] = 0;
// Start with a deep extend that just copies array references.
newTrace = newData[i] = Lib.extendDeepNoArrays({}, trace);
newTrace._group = groupName;
// helper function for when we need to push updates back to the input,
// outside of the normal restyle/relayout pathway, like filling in auto values
newTrace.updateStyle = styleUpdater(groupName, transformIndex);
newTrace.transforms[transformIndex]._indexToPoints = {};
var suppliedName = null;
if(groupNameObj) {
suppliedName = groupNameObj.get(groupName);
}
if(suppliedName || suppliedName === '') {
newTrace.name = suppliedName;
} else {
newTrace.name = Lib.templateString(opts.nameformat, {
trace: trace.name,
group: groupName
});
}
// In order for groups to apply correctly to other transform data (e.g.
// a filter transform), we have to break the connection and clone the
// transforms so that each group writes grouped values into a different
// destination. This function does not break the array reference
// connection between the split transforms it creates. That's handled in
// initialize, which creates a new empty array for each arrayAttr.
transforms = newTrace.transforms;
newTrace.transforms = [];
for(j = 0; j < transforms.length; j++) {
newTrace.transforms[j] = Lib.extendDeepNoArrays({}, transforms[j]);
}
// Initialize empty arrays for the arrayAttrs, to be split in the next step
for(j = 0; j < arrayAttrs.length; j++) {
Lib.nestedProperty(newTrace, arrayAttrs[j]).set([]);
}
}
// For each array attribute including those nested inside this and other
// transforms (small note that we technically only need to do this for
// transforms that have not yet been applied):
for(k = 0; k < arrayAttrs.length; k++) {
attr = arrayAttrs[k];
// Cache all the arrays to which we'll push:
for(j = 0, arrayLookup = []; j < groupNames.length; j++) {
arrayLookup[j] = Lib.nestedProperty(newData[j], attr).get();
}
// Get the input data:
srcArray = Lib.nestedProperty(trace, attr).get();
// Send each data point to the appropriate expanded trace:
for(j = 0; j < len; j++) {
// Map group data --> trace index --> array and push data onto it
arrayLookup[indexLookup[groups[j]]].push(srcArray[j]);
}
}
for(j = 0; j < len; j++) {
newTrace = newData[indexLookup[groups[j]]];
var indexToPoints = newTrace.transforms[transformIndex]._indexToPoints;
indexToPoints[indexCnts[groups[j]]] = originalPointsAccessor(j);
indexCnts[groups[j]]++;
}
for(i = 0; i < groupNames.length; i++) {
groupName = groupNames[i];
newTrace = newData[i];
Plots.clearExpandedTraceDefaultColors(newTrace);
// there's no need to coerce styleLookup[groupName] here
// as another round of supplyDefaults is done on the transformed traces
newTrace = Lib.extendDeepNoArrays(newTrace, styleLookup[groupName] || {});
}
return newData;
}
function styleUpdater(groupName, transformIndex) {
return function(trace, attr, value) {
Lib.keyedContainer(
trace,
'transforms[' + transformIndex + '].styles',
'target',
'value.' + attr
).set(String(groupName), value);
};
}
},{"../lib":693,"../plot_api/plot_schema":731,"../plots/plots":805,"./helpers":1147}],1147:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
exports.pointsAccessorFunction = function(transforms, opts) {
var tr;
var prevIndexToPoints;
for(var i = 0; i < transforms.length; i++) {
tr = transforms[i];
if(tr === opts) break;
if(!tr._indexToPoints || tr.enabled === false) continue;
prevIndexToPoints = tr._indexToPoints;
}
var originalPointsAccessor = prevIndexToPoints ?
function(i) {return prevIndexToPoints[i];} :
function(i) {return [i];};
return originalPointsAccessor;
};
},{}],1148:[function(_dereq_,module,exports){
/**
* Copyright 2012-2018, Plotly, Inc.
* All rights reserved.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
'use strict';
var Lib = _dereq_('../lib');
var Axes = _dereq_('../plots/cartesian/axes');
var pointsAccessorFunction = _dereq_('./helpers').pointsAccessorFunction;
exports.moduleType = 'transform';
exports.name = 'sort';
exports.attributes = {
enabled: {
valType: 'boolean',
dflt: true,
editType: 'calc',
},
target: {
valType: 'string',
strict: true,
noBlank: true,
arrayOk: true,
dflt: 'x',
editType: 'calc',
},
order: {
valType: 'enumerated',
values: ['ascending', 'descending'],
dflt: 'ascending',
editType: 'calc',
},
editType: 'calc'
};
exports.supplyDefaults = function(transformIn) {
var transformOut = {};
function coerce(attr, dflt) {
return Lib.coerce(transformIn, transformOut, exports.attributes, attr, dflt);
}
var enabled = coerce('enabled');
if(enabled) {
coerce('target');
coerce('order');
}
return transformOut;
};
exports.calcTransform = function(gd, trace, opts) {
if(!opts.enabled) return;
var targetArray = Lib.getTargetArray(trace, opts);
if(!targetArray) return;
var target = opts.target;
var len = targetArray.length;
if(trace._length) len = Math.min(len, trace._length);
var arrayAttrs = trace._arrayAttrs;
var d2c = Axes.getDataToCoordFunc(gd, trace, target, targetArray);
var indices = getIndices(opts, targetArray, d2c, len);
var originalPointsAccessor = pointsAccessorFunction(trace.transforms, opts);
var indexToPoints = {};
var i, j;
for(i = 0; i < arrayAttrs.length; i++) {
var np = Lib.nestedProperty(trace, arrayAttrs[i]);
var arrayOld = np.get();
var arrayNew = new Array(len);
for(j = 0; j < len; j++) {
arrayNew[j] = arrayOld[indices[j]];
}
np.set(arrayNew);
}
for(j = 0; j < len; j++) {
indexToPoints[j] = originalPointsAccessor(indices[j]);
}
opts._indexToPoints = indexToPoints;
trace._length = len;
};
function getIndices(opts, targetArray, d2c, len) {
var sortedArray = new Array(len);
var indices = new Array(len);
var i;
for(i = 0; i < len; i++) {
sortedArray[i] = {v: targetArray[i], i: i};
}
sortedArray.sort(getSortFunc(opts, d2c));
for(i = 0; i < len; i++) {
indices[i] = sortedArray[i].i;
}
return indices;
}
function getSortFunc(opts, d2c) {
switch(opts.order) {
case 'ascending':
return function(a, b) { return d2c(a.v) - d2c(b.v); };
case 'descending':
return function(a, b) { return d2c(b.v) - d2c(a.v); };
}
}
},{"../lib":693,"../plots/cartesian/axes":742,"./helpers":1147}]},{},[22])(22)
});