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# ismn.py - functions for handling ISMNs
#
# Copyright (C) 2010-2017 Arthur de Jong
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
#
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
# 02110-1301 USA
"""ISMN (International Standard Music Number).
The ISMN (International Standard Music Number) is used to identify sheet
music. This module handles both numbers in the 10-digit 13-digit format.
>>> validate('979-0-3452-4680-5')
'9790345246805'
>>> validate('9790060115615')
'9790060115615'
>>> ismn_type(' M-2306-7118-7')
'ISMN10'
>>> validate('9790060115614')
Traceback (most recent call last):
...
InvalidChecksum: ...
>>> compact(' 979-0-3452-4680-5')
'9790345246805'
>>> format('9790060115615')
'979-0-060-11561-5'
>>> format('M230671187')
'979-0-2306-7118-7'
>>> to_ismn13('M230671187')
'9790230671187'
"""
from stdnum import ean
from stdnum.exceptions import *
from stdnum.util import clean
def compact(number):
"""Convert the ISMN to the minimal representation. This strips the number
of any valid ISMN separators and removes surrounding whitespace."""
return clean(number, ' -.').strip().upper()
def validate(number):
"""Check if the number provided is a valid ISMN (either a legacy 10-digit
one or a 13-digit one). This checks the length and the check bit but does
not check if the publisher is known."""
number = compact(number)
if len(number) == 10:
if number[0] != 'M':
raise InvalidFormat()
ean.validate('9790' + number[1:])
elif len(number) == 13:
if not number.startswith('9790'):
raise InvalidComponent()
ean.validate(number)
else:
raise InvalidLength()
return number
def ismn_type(number):
"""Check the type of ISMN number passed and return 'ISMN13', 'ISMN10'
or None (for invalid)."""
try:
number = validate(number)
except ValidationError:
return None
if len(number) == 10:
return 'ISMN10'
else: # len(number) == 13:
return 'ISMN13'
def is_valid(number):
"""Check if the number provided is a valid ISMN (either a legacy 10-digit
one or a 13-digit one). This checks the length and the check bit but does
not check if the publisher is known."""
try:
return bool(validate(number))
except ValidationError:
return False
def to_ismn13(number):
"""Convert the number to ISMN13 (EAN) format."""
number = number.strip()
min_number = compact(number)
if len(min_number) == 13:
return number # nothing to do, already 13 digit format
# add prefix and strip the M
if ' ' in number:
return '979 0' + number[1:]
elif '-' in number:
return '979-0' + number[1:]
else:
return '9790' + number[1:]
# these are the ranges allocated to publisher codes
_ranges = (
(3, '000', '099'), (4, '1000', '3999'), (5, '40000', '69999'),
(6, '700000', '899999'), (7, '9000000', '9999999'))
def split(number):
"""Split the specified ISMN into a bookland prefix (979), an ISMN
prefix (0), a publisher element (3 to 7 digits), an item element (2 to
6 digits) and a check digit."""
# clean up number
number = to_ismn13(compact(number))
# find the correct range and split the number
for length, low, high in _ranges: # pragma: no branch (all ranges covered)
if low <= number[4:4 + length] <= high:
return (number[:3], number[3], number[4:4 + length],
number[4 + length:-1], number[-1])
def format(number, separator='-'):
"""Reformat the number to the standard presentation format with the
prefixes, the publisher element, the item element and the check-digit
separated by the specified separator. The number is converted to the
13-digit format silently."""
return separator.join(x for x in split(number) if x)
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