# -*- coding: utf-8 -*- from __future__ import unicode_literals from django.core.management.base import BaseCommand, CommandError from django.db import DEFAULT_DB_ALIAS, connections from django.db.migrations.loader import MigrationLoader class Command(BaseCommand): help = "Shows all available migrations for the current project" def add_arguments(self, parser): parser.add_argument('app_labels', nargs='*', help='App labels of applications to limit the output to.') parser.add_argument('--database', action='store', dest='database', default=DEFAULT_DB_ALIAS, help='Nominates a database to synchronize. Defaults to the "default" database.') formats = parser.add_mutually_exclusive_group() formats.add_argument('--list', '-l', action='store_const', dest='format', const='list', help='Shows a list of all migrations and which are applied.') formats.add_argument('--plan', '-p', action='store_const', dest='format', const='plan', help='Shows all migrations in the order they will be applied.') parser.set_defaults(format='list') def handle(self, *args, **options): self.verbosity = options.get('verbosity') # Get the database we're operating from db = options.get('database') connection = connections[db] if options['format'] == "plan": return self.show_plan(connection) else: return self.show_list(connection, options['app_labels']) def show_list(self, connection, app_names=None): """ Shows a list of all migrations on the system, or only those of some named apps. """ # Load migrations from disk/DB loader = MigrationLoader(connection, ignore_no_migrations=True) graph = loader.graph # If we were passed a list of apps, validate it if app_names: invalid_apps = [] for app_name in app_names: if app_name not in loader.migrated_apps: invalid_apps.append(app_name) if invalid_apps: raise CommandError("No migrations present for: %s" % (", ".join(invalid_apps))) # Otherwise, show all apps in alphabetic order else: app_names = sorted(loader.migrated_apps) # For each app, print its migrations in order from oldest (roots) to # newest (leaves). for app_name in app_names: self.stdout.write(app_name, self.style.MIGRATE_LABEL) shown = set() for node in graph.leaf_nodes(app_name): for plan_node in graph.forwards_plan(node): if plan_node not in shown and plan_node[0] == app_name: # Give it a nice title if it's a squashed one title = plan_node[1] if graph.nodes[plan_node].replaces: title += " (%s squashed migrations)" % len(graph.nodes[plan_node].replaces) # Mark it as applied/unapplied if plan_node in loader.applied_migrations: self.stdout.write(" [X] %s" % title) else: self.stdout.write(" [ ] %s" % title) shown.add(plan_node) # If we didn't print anything, then a small message if not shown: self.stdout.write(" (no migrations)", self.style.MIGRATE_FAILURE) def show_plan(self, connection): """ Shows all known migrations in the order they will be applied """ # Load migrations from disk/DB loader = MigrationLoader(connection) graph = loader.graph targets = graph.leaf_nodes() plan = [] seen = set() # Generate the plan for target in targets: for migration in graph.forwards_plan(target): if migration not in seen: plan.append(graph.nodes[migration]) seen.add(migration) # Output def print_deps(migration): out = [] for dep in migration.dependencies: if dep[1] == "__first__": roots = graph.root_nodes(dep[0]) dep = roots[0] if roots else (dep[0], "__first__") out.append("%s.%s" % dep) if out: return " ... (%s)" % ", ".join(out) return "" for migration in plan: deps = "" if self.verbosity >= 2: deps = print_deps(migration) if (migration.app_label, migration.name) in loader.applied_migrations: self.stdout.write("[X] %s%s" % (migration, deps)) else: self.stdout.write("[ ] %s%s" % (migration, deps))