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Handle Japanese edge cases in simple_tokenize
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@ -416,9 +416,9 @@ sources:
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- Wikipedia, the free encyclopedia (http://www.wikipedia.org)
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- Wikipedia, the free encyclopedia (http://www.wikipedia.org)
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It contains data from OPUS OpenSubtitles 2016
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It contains data from OPUS OpenSubtitles 2018
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(http://opus.lingfil.uu.se/OpenSubtitles2016.php), whose data originates from
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(http://opus.nlpl.eu/OpenSubtitles.php), whose data originates from the
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the OpenSubtitles project (http://www.opensubtitles.org/).
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OpenSubtitles project (http://www.opensubtitles.org/).
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It contains data from various SUBTLEX word lists: SUBTLEX-US, SUBTLEX-UK,
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It contains data from various SUBTLEX word lists: SUBTLEX-US, SUBTLEX-UK,
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SUBTLEX-CH, SUBTLEX-DE, and SUBTLEX-NL, created by Marc Brysbaert et al.
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SUBTLEX-CH, SUBTLEX-DE, and SUBTLEX-NL, created by Marc Brysbaert et al.
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2
setup.py
2
setup.py
@ -36,7 +36,7 @@ if sys.version_info < (3, 4):
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setup(
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setup(
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name="wordfreq",
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name="wordfreq",
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version='2.0',
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version='2.0.1',
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maintainer='Luminoso Technologies, Inc.',
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maintainer='Luminoso Technologies, Inc.',
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maintainer_email='info@luminoso.com',
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maintainer_email='info@luminoso.com',
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url='http://github.com/LuminosoInsight/wordfreq/',
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url='http://github.com/LuminosoInsight/wordfreq/',
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@ -204,16 +204,11 @@ def test_arabic():
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def test_ideographic_fallback():
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def test_ideographic_fallback():
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# Try tokenizing Chinese text as English -- it should remain stuck together.
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# Try tokenizing Chinese text as English -- it should remain stuck together.
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#
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# More complex examples like this, involving the multiple scripts of Japanese,
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# are in test_japanese.py.
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eq_(tokenize('中国文字', 'en'), ['中国文字'])
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eq_(tokenize('中国文字', 'en'), ['中国文字'])
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# When Japanese is tagged with the wrong language, it will be split
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# at script boundaries.
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ja_text = 'ひらがなカタカナromaji'
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eq_(
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tokenize(ja_text, 'en'),
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['ひらがな', 'カタカナ', 'romaji']
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)
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def test_other_languages():
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def test_other_languages():
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# Test that we leave Thai letters stuck together. If we had better Thai support,
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# Test that we leave Thai letters stuck together. If we had better Thai support,
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@ -1,5 +1,5 @@
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from nose.tools import eq_, assert_almost_equal
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from nose.tools import eq_, assert_almost_equal
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from wordfreq import tokenize, word_frequency
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from wordfreq import tokenize, simple_tokenize, word_frequency
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def test_tokens():
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def test_tokens():
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@ -7,6 +7,46 @@ def test_tokens():
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['おはよう', 'ござい', 'ます'])
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['おはよう', 'ござい', 'ます'])
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def test_simple_tokenize():
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# When Japanese is run through simple_tokenize -- either because it's
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# tagged with the wrong language, or because we want to pass through
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# Japanese text without getting MeCab involved -- it will be split at
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# boundaries between Japanese and non-Japanese scripts, but all Japanese
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# scripts will be stuck together. Here the switch between hiragana
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# (ひらがな) and katakana (カタカナ) is not a boundary, but the switch
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# between katakana and romaji is.
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#
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# We used to try to infer word boundaries between hiragana and katakana,
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# but this leads to edge cases that are unsolvable without a dictionary.
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ja_text = 'ひらがなカタカナromaji'
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eq_(
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simple_tokenize(ja_text),
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['ひらがなカタカナ', 'romaji']
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)
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# An example that would be multiple tokens if tokenized as 'ja' via MeCab,
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# but sticks together in simple_tokenize
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eq_(simple_tokenize('おはようございます'), ['おはようございます'])
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# Names that use the weird possessive marker ヶ, which is technically a
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# katakana even though it's being used like a kanji, stay together as one
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# token
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eq_(simple_tokenize("犬ヶ島"), ["犬ヶ島"])
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# The word in ConceptNet that made me notice that simple_tokenize used
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# to have a problem with the character 々
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eq_(simple_tokenize("晴々しい"), ["晴々しい"])
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# Explicit word separators are still token boundaries, such as the dot
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# between "toner" and "cartridge" in "toner cartridge"
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eq_(simple_tokenize("トナー・カートリッジ"), ["トナー", "カートリッジ"])
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# This word has multiple weird characters that aren't quite kanji in it,
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# and is in the dictionary
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eq_(simple_tokenize("見ヶ〆料"), ["見ヶ〆料"])
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def test_combination():
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def test_combination():
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ohayou_freq = word_frequency('おはよう', 'ja')
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ohayou_freq = word_frequency('おはよう', 'ja')
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gozai_freq = word_frequency('ござい', 'ja')
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gozai_freq = word_frequency('ござい', 'ja')
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@ -8,11 +8,13 @@ from langcodes import Language, best_match
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# a specific tokenizer for the language or give up.
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# a specific tokenizer for the language or give up.
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SPACELESS_SCRIPTS = [
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SPACELESS_SCRIPTS = [
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# Han ideographs are spaceless, but they don't need to appear in this list
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# Han ideographs are spaceless, but they don't need to appear in this list
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# because they have their own cases in get_language_info and TOKEN_RE.
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# because _almost_ all of them, except for some exceptional Japanese
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'Hiragana',
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# characters, are covered by the \p{IsIdeo} check. Checking for
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# We omit katakana because Unicode regular expressions can already
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# Script=Hani and IsIdeo slows down our regexes with huge, redundant
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# tokenize sequences of katakana, and omitting it here means we can also
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# classes of characters. Instead, we'll list the exceptions below.
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# recognize a switch between hiragana and katakana as a token boundary.
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'Hira', # Hiragana
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'Kana', # Katakana
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'Thai', # Thai script
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'Thai', # Thai script
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'Khmr', # Khmer script
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'Khmr', # Khmer script
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'Laoo', # Lao script
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'Laoo', # Lao script
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@ -23,6 +25,26 @@ SPACELESS_SCRIPTS = [
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]
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]
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EXTRA_JAPANESE_CHARACTERS = 'ー々〻〆'
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# ー is a lengthening mark that's both hiragana and katakana. Unicode
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# segmentation handles it as a special case, but we're overriding standard
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# Unicode segmentation, so we need to have the special case too.
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#
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# 々 and 〻 are "iteration marks" that stand for the previous kanji. So they
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# act identically to kanji (ideograms) without technically _being_ kanji. That
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# technicality doesn't matter to us.
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#
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# 〆 is a Japanese abbreviation for "total", and even this can be used in the
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# middle of words. Why isn't it just considered an ideograph? I don't know, I
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# didn't come up with this language, or Unicode for that matter.
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#
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# None of this even comes up when we're trying to tokenize Chinese and
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# Japanese. It comes up when we're trying to _not_ tokenize a word because
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# it's Chinese or Japanese and the tokenization doesn't really matter, which
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# happens in ConceptNet.
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def _language_in_list(language, targets, min_score=80):
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def _language_in_list(language, targets, min_score=80):
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"""
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"""
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A helper function to determine whether this language matches one of the
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A helper function to determine whether this language matches one of the
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@ -3,7 +3,7 @@ import unicodedata
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import logging
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import logging
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import langcodes
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import langcodes
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from .language_info import get_language_info, SPACELESS_SCRIPTS
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from .language_info import get_language_info, SPACELESS_SCRIPTS, EXTRA_JAPANESE_CHARACTERS
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from .preprocess import preprocess_text, smash_numbers
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from .preprocess import preprocess_text, smash_numbers
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# Placeholders for CJK functions that we'll import on demand
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# Placeholders for CJK functions that we'll import on demand
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@ -18,7 +18,7 @@ logger = logging.getLogger(__name__)
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def _make_spaceless_expr():
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def _make_spaceless_expr():
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scripts = sorted(SPACELESS_SCRIPTS)
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scripts = sorted(SPACELESS_SCRIPTS)
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pieces = [r'\p{IsIdeo}'] + [r'\p{Script=%s}' % script_code for script_code in scripts]
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pieces = [r'\p{IsIdeo}'] + [r'\p{Script=%s}' % script_code for script_code in scripts]
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return ''.join(pieces)
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return ''.join(pieces) + EXTRA_JAPANESE_CHARACTERS
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SPACELESS_EXPR = _make_spaceless_expr()
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SPACELESS_EXPR = _make_spaceless_expr()
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