#!/usr/bin/env python2 # -*- coding: utf-8 -*- # # GuessIt - A library for guessing information from filenames # Copyright (c) 2011 Nicolas Wack # # GuessIt is free software; you can redistribute it and/or modify it under # the terms of the Lesser GNU General Public License as published by # the Free Software Foundation; either version 3 of the License, or # (at your option) any later version. # # GuessIt 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 # Lesser GNU General Public License for more details. # # You should have received a copy of the Lesser GNU General Public License # along with this program. If not, see . # from __future__ import unicode_literals from guessit import UnicodeMixin, base_text_type, u, s from guessit.fileutils import load_file_in_same_dir from guessit.textutils import find_words from guessit.country import Country import re import logging __all__ = [ 'is_iso_language', 'is_language', 'lang_set', 'Language', 'ALL_LANGUAGES', 'ALL_LANGUAGES_NAMES', 'UNDETERMINED', 'search_language', 'guess_language' ] log = logging.getLogger(__name__) # downloaded from http://www.loc.gov/standards/iso639-2/ISO-639-2_utf-8.txt # # Description of the fields: # "An alpha-3 (bibliographic) code, an alpha-3 (terminologic) code (when given), # an alpha-2 code (when given), an English name, and a French name of a language # are all separated by pipe (|) characters." _iso639_contents = load_file_in_same_dir(__file__, 'ISO-639-2_utf-8.txt') # drop the BOM from the beginning of the file _iso639_contents = _iso639_contents[1:] language_matrix = [ l.strip().split('|') for l in _iso639_contents.strip().split('\n') ] # update information in the language matrix language_matrix += [['mol', '', 'mo', 'Moldavian', 'moldave'], ['ass', '', '', 'Assyrian', 'assyrien']] for lang in language_matrix: # remove unused languages that shadow other common ones with a non-official form if (lang[2] == 'se' or # Northern Sami shadows Swedish lang[2] == 'br'): # Breton shadows Brazilian lang[2] = '' # add missing information if lang[0] == 'und': lang[2] = 'un' if lang[0] == 'srp': lang[1] = 'scc' # from OpenSubtitles lng3 = frozenset(l[0] for l in language_matrix if l[0]) lng3term = frozenset(l[1] for l in language_matrix if l[1]) lng2 = frozenset(l[2] for l in language_matrix if l[2]) lng_en_name = frozenset(lng for l in language_matrix for lng in l[3].lower().split('; ') if lng) lng_fr_name = frozenset(lng for l in language_matrix for lng in l[4].lower().split('; ') if lng) lng_all_names = lng3 | lng3term | lng2 | lng_en_name | lng_fr_name lng3_to_lng3term = dict((l[0], l[1]) for l in language_matrix if l[1]) lng3term_to_lng3 = dict((l[1], l[0]) for l in language_matrix if l[1]) lng3_to_lng2 = dict((l[0], l[2]) for l in language_matrix if l[2]) lng2_to_lng3 = dict((l[2], l[0]) for l in language_matrix if l[2]) # we only return the first given english name, hoping it is the most used one lng3_to_lng_en_name = dict((l[0], l[3].split('; ')[0]) for l in language_matrix if l[3]) lng_en_name_to_lng3 = dict((en_name.lower(), l[0]) for l in language_matrix if l[3] for en_name in l[3].split('; ')) # we only return the first given french name, hoping it is the most used one lng3_to_lng_fr_name = dict((l[0], l[4].split('; ')[0]) for l in language_matrix if l[4]) lng_fr_name_to_lng3 = dict((fr_name.lower(), l[0]) for l in language_matrix if l[4] for fr_name in l[4].split('; ')) # contains a list of exceptions: strings that should be parsed as a language # but which are not in an ISO form lng_exceptions = { 'unknown': ('und', None), 'inconnu': ('und', None), 'unk': ('und', None), 'un': ('und', None), 'gr': ('gre', None), 'greek': ('gre', None), 'esp': ('spa', None), 'español': ('spa', None), 'se': ('swe', None), 'po': ('pt', 'br'), 'pb': ('pt', 'br'), 'pob': ('pt', 'br'), 'br': ('pt', 'br'), 'brazilian': ('pt', 'br'), 'català': ('cat', None), 'cz': ('cze', None), 'ua': ('ukr', None), 'cn': ('chi', None), 'chs': ('chi', None), 'jp': ('jpn', None), 'scr': ('hrv', None) } def is_iso_language(language): return language.lower() in lng_all_names def is_language(language): return is_iso_language(language) or language in lng_exceptions def lang_set(languages, strict=False): """Return a set of guessit.Language created from their given string representation. if strict is True, then this will raise an exception if any language could not be identified. """ return set(Language(l, strict=strict) for l in languages) class Language(UnicodeMixin): """This class represents a human language. You can initialize it with pretty much anything, as it knows conversion from ISO-639 2-letter and 3-letter codes, English and French names. You can also distinguish languages for specific countries, such as Portuguese and Brazilian Portuguese. There are various properties on the language object that give you the representation of the language for a specific usage, such as .alpha3 to get the ISO 3-letter code, or .opensubtitles to get the OpenSubtitles language code. >>> Language('fr') Language(French) >>> s(Language('eng').french_name) 'anglais' >>> s(Language('pt(br)').country.english_name) 'Brazil' >>> s(Language('Español (Latinoamérica)').country.english_name) 'Latin America' >>> Language('Spanish (Latin America)') == Language('Español (Latinoamérica)') True >>> s(Language('zz', strict=False).english_name) 'Undetermined' >>> s(Language('pt(br)').opensubtitles) 'pob' """ _with_country_regexp = re.compile(r'(.*)\((.*)\)') _with_country_regexp2 = re.compile('(.*)-(.*)') def __init__(self, language, country=None, strict=False, scheme=None): language = u(language.strip().lower()) with_country = (Language._with_country_regexp.match(language) or Language._with_country_regexp2.match(language)) if with_country: self.lang = Language(with_country.group(1)).lang self.country = Country(with_country.group(2)) return self.lang = None self.country = Country(country) if country else None # first look for scheme specific languages if scheme == 'opensubtitles': if language == 'br': self.lang = 'bre' return elif language == 'se': self.lang = 'sme' return elif scheme is not None: log.warning('Unrecognized scheme: "%s" - Proceeding with standard one' % scheme) # look for ISO language codes if len(language) == 2: self.lang = lng2_to_lng3.get(language) elif len(language) == 3: self.lang = (language if language in lng3 else lng3term_to_lng3.get(language)) else: self.lang = (lng_en_name_to_lng3.get(language) or lng_fr_name_to_lng3.get(language)) # general language exceptions if self.lang is None and language in lng_exceptions: lang, country = lng_exceptions[language] self.lang = Language(lang).alpha3 self.country = Country(country) if country else None msg = 'The given string "%s" could not be identified as a language' % language if self.lang is None and strict: raise ValueError(msg) if self.lang is None: log.debug(msg) self.lang = 'und' @property def alpha2(self): return lng3_to_lng2[self.lang] @property def alpha3(self): return self.lang @property def alpha3term(self): return lng3_to_lng3term[self.lang] @property def english_name(self): return lng3_to_lng_en_name[self.lang] @property def french_name(self): return lng3_to_lng_fr_name[self.lang] @property def opensubtitles(self): if self.lang == 'por' and self.country and self.country.alpha2 == 'br': return 'pob' elif self.lang in ['gre', 'srp']: return self.alpha3term return self.alpha3 @property def tmdb(self): if self.country: return '%s-%s' % (self.alpha2, self.country.alpha2.upper()) return self.alpha2 def __hash__(self): return hash(self.lang) def __eq__(self, other): if isinstance(other, Language): return self.lang == other.lang if isinstance(other, base_text_type): try: return self == Language(other) except ValueError: return False return False def __ne__(self, other): return not self == other def __nonzero__(self): return self.lang != 'und' def __unicode__(self): if self.country: return '%s(%s)' % (self.english_name, self.country.alpha2) else: return self.english_name def __repr__(self): if self.country: return 'Language(%s, country=%s)' % (self.english_name, self.country) else: return 'Language(%s)' % self.english_name UNDETERMINED = Language('und') ALL_LANGUAGES = frozenset(Language(lng) for lng in lng_all_names) - frozenset([UNDETERMINED]) ALL_LANGUAGES_NAMES = lng_all_names def search_language(string, lang_filter=None): """Looks for language patterns, and if found return the language object, its group span and an associated confidence. you can specify a list of allowed languages using the lang_filter argument, as in lang_filter = [ 'fr', 'eng', 'spanish' ] >>> search_language('movie [en].avi') (Language(English), (7, 9), 0.8) >>> search_language('the zen fat cat and the gay mad men got a new fan', lang_filter = ['en', 'fr', 'es']) (None, None, None) """ # list of common words which could be interpreted as languages, but which # are far too common to be able to say they represent a language in the # middle of a string (where they most likely carry their commmon meaning) lng_common_words = frozenset([ # english words 'is', 'it', 'am', 'mad', 'men', 'man', 'run', 'sin', 'st', 'to', 'no', 'non', 'war', 'min', 'new', 'car', 'day', 'bad', 'bat', 'fan', 'fry', 'cop', 'zen', 'gay', 'fat', 'cherokee', 'got', 'an', 'as', 'cat', 'her', 'be', 'hat', 'sun', 'may', 'my', 'mr', 'rum', 'pi', # french words 'bas', 'de', 'le', 'son', 'vo', 'vf', 'ne', 'ca', 'ce', 'et', 'que', 'mal', 'est', 'vol', 'or', 'mon', 'se', # spanish words 'la', 'el', 'del', 'por', 'mar', # other 'ind', 'arw', 'ts', 'ii', 'bin', 'chan', 'ss', 'san', 'oss', 'iii', 'vi', 'ben', 'da', 'lt' ]) sep = r'[](){} \._-+' if lang_filter: lang_filter = lang_set(lang_filter) slow = ' %s ' % string.lower() confidence = 1.0 # for all of them for lang in set(find_words(slow)) & lng_all_names: if lang in lng_common_words: continue pos = slow.find(lang) if pos != -1: end = pos + len(lang) # make sure our word is always surrounded by separators if slow[pos - 1] not in sep or slow[end] not in sep: continue language = Language(slow[pos:end]) if lang_filter and language not in lang_filter: continue # only allow those languages that have a 2-letter code, those that # don't are too esoteric and probably false matches if language.lang not in lng3_to_lng2: continue # confidence depends on lng2, lng3, english name, ... if len(lang) == 2: confidence = 0.8 elif len(lang) == 3: confidence = 0.9 else: # Note: we could either be really confident that we found a # language or assume that full language names are too # common words and lower their confidence accordingly confidence = 0.3 # going with the low-confidence route here return language, (pos - 1, end - 1), confidence return None, None, None def guess_language(text): """Guess the language in which a body of text is written. This uses the external guess-language python module, and will fail and return Language(Undetermined) if it is not installed. """ try: from guess_language import guessLanguage return Language(guessLanguage(text)) except ImportError: log.error('Cannot detect the language of the given text body, missing dependency: guess-language') log.error('Please install it from PyPI, by doing eg: pip install guess-language') return UNDETERMINED