from wordfreq import ( word_frequency, available_languages, cB_to_freq, top_n_list, random_words, random_ascii_words, tokenize, lossy_tokenize ) import pytest def test_freq_examples(): # Stopwords are most common in the correct language assert word_frequency('the', 'en') > word_frequency('de', 'en') assert word_frequency('de', 'es') > word_frequency('the', 'es') # We get word frequencies from the 'large' list when available assert word_frequency('infrequency', 'en') > 0. def test_languages(): # Make sure we get all the languages when looking for the default # 'best' wordlist avail = available_languages() assert len(avail) >= 34 # 'small' covers the same languages, but with some different lists avail_small = available_languages('small') assert len(avail_small) == len(avail) assert avail_small != avail # 'combined' is the same as 'small' avail_old_name = available_languages('combined') assert avail_old_name == avail_small # 'large' covers fewer languages avail_large = available_languages('large') assert len(avail_large) >= 14 assert len(avail) > len(avail_large) # Look up the digit '2' in the main word list for each language for lang in avail: assert word_frequency('2', lang) > 0 # Make up a weirdly verbose language code and make sure # we still get it new_lang_code = '%s-001-x-fake-extension' % lang.upper() assert word_frequency('2', new_lang_code) > 0 def test_minimums(): assert word_frequency('esquivalience', 'en') == 0 assert word_frequency('esquivalience', 'en', minimum=1e-6) == 1e-6 assert word_frequency('the', 'en', minimum=1) == 1 def test_most_common_words(): # If something causes the most common words in well-supported languages to # change, we should know. def get_most_common(lang): """ Return the single most common word in the language. """ return top_n_list(lang, 1)[0] assert get_most_common('ar') == 'في' assert get_most_common('bg') == 'на' assert get_most_common('bn') == 'না' assert get_most_common('ca') == 'de' assert get_most_common('cs') == 'a' assert get_most_common('da') == 'i' assert get_most_common('el') == 'και' assert get_most_common('de') == 'die' assert get_most_common('en') == 'the' assert get_most_common('es') == 'de' assert get_most_common('fi') == 'ja' assert get_most_common('fil') == 'sa' assert get_most_common('fr') == 'de' assert get_most_common('he') == 'את' assert get_most_common('hi') == 'के' assert get_most_common('hu') == 'a' assert get_most_common('id') == 'yang' assert get_most_common('is') == 'og' assert get_most_common('it') == 'di' assert get_most_common('ja') == 'の' assert get_most_common('ko') == '이' assert get_most_common('lt') == 'ir' assert get_most_common('lv') == 'un' assert get_most_common('mk') == 'на' assert get_most_common('ms') == 'yang' assert get_most_common('nb') == 'i' assert get_most_common('nl') == 'de' assert get_most_common('pl') == 'w' assert get_most_common('pt') == 'de' assert get_most_common('ro') == 'de' assert get_most_common('ru') == 'в' assert get_most_common('sh') == 'je' assert get_most_common('sk') == 'a' assert get_most_common('sl') == 'je' assert get_most_common('sv') == 'är' assert get_most_common('ta') == 'ஒரு' assert get_most_common('tr') == 've' assert get_most_common('uk') == 'в' assert get_most_common('ur') == 'کے' assert get_most_common('vi') == 'là' assert get_most_common('zh') == '的' def test_language_matching(): freq = word_frequency('的', 'zh') assert word_frequency('的', 'zh-TW') == freq assert word_frequency('的', 'zh-CN') == freq assert word_frequency('的', 'zh-Hant') == freq assert word_frequency('的', 'zh-Hans') == freq assert word_frequency('的', 'yue-HK') == freq assert word_frequency('的', 'cmn') == freq def test_cB_conversion(): assert cB_to_freq(0) == 1. assert cB_to_freq(-100) == pytest.approx(0.1) assert cB_to_freq(-600) == pytest.approx(1e-6) def test_failed_cB_conversion(): with pytest.raises(ValueError): cB_to_freq(1) def test_tokenization(): # We preserve apostrophes within words, so "can't" is a single word in the # data assert ( tokenize("I don't split at apostrophes, you see.", 'en') == ['i', "don't", 'split', 'at', 'apostrophes', 'you', 'see'] ) assert ( tokenize("I don't split at apostrophes, you see.", 'en', include_punctuation=True) == ['i', "don't", 'split', 'at', 'apostrophes', ',', 'you', 'see', '.'] ) # Certain punctuation does not inherently split a word. assert ( tokenize("Anything is possible at zombo.com", 'en') == ['anything', 'is', 'possible', 'at', 'zombo.com'] ) # Splits occur after symbols, and at splitting punctuation such as hyphens. assert tokenize('😂test', 'en') == ['😂', 'test'] assert tokenize("flip-flop", 'en') == ['flip', 'flop'] assert ( tokenize('this text has... punctuation :)', 'en', include_punctuation=True) == ['this', 'text', 'has', '...', 'punctuation', ':)'] ) # Multi-codepoint emoji sequences such as 'medium-skinned woman with headscarf' # and 'David Bowie' stay together, because our Unicode segmentation algorithm # is up to date assert tokenize('emoji test 🧕🏽', 'en') == ['emoji', 'test', '🧕🏽'] assert ( tokenize("👨‍🎤 Planet Earth is blue, and there's nothing I can do 🌎🚀", 'en') == ['👨‍🎤', 'planet', 'earth', 'is', 'blue', 'and', "there's", 'nothing', 'i', 'can', 'do', '🌎', '🚀'] ) # Water wave, surfer, flag of California (indicates ridiculously complete support # for Unicode 10 and Emoji 5.0) assert tokenize("Surf's up 🌊🏄🏴󠁵󠁳󠁣󠁡󠁿'",'en') == ["surf's", "up", "🌊", "🏄", "🏴󠁵󠁳󠁣󠁡󠁿"] def test_casefolding(): assert tokenize('WEISS', 'de') == ['weiss'] assert tokenize('weiß', 'de') == ['weiss'] assert tokenize('İstanbul', 'tr') == ['istanbul'] assert tokenize('SIKISINCA', 'tr') == ['sıkısınca'] def test_number_smashing(): assert tokenize('"715 - CRΣΣKS" by Bon Iver', 'en') == ['715', 'crσσks', 'by', 'bon', 'iver'] assert lossy_tokenize('"715 - CRΣΣKS" by Bon Iver', 'en') == ['000', 'crσσks', 'by', 'bon', 'iver'] assert ( lossy_tokenize('"715 - CRΣΣKS" by Bon Iver', 'en', include_punctuation=True) == ['"', '000', '-', 'crσσks', '"', 'by', 'bon', 'iver'] ) assert lossy_tokenize('1', 'en') == ['1'] assert lossy_tokenize('3.14', 'en') == ['0.00'] assert lossy_tokenize('24601', 'en') == ['00000'] assert word_frequency('24601', 'en') == word_frequency('90210', 'en') def test_phrase_freq(): ff = word_frequency("flip-flop", 'en') assert ff > 0 phrase_freq = 1.0 / word_frequency('flip', 'en') + 1.0 / word_frequency('flop', 'en') assert 1.0 / ff == pytest.approx(phrase_freq, rel=0.01) def test_not_really_random(): # If your xkcd-style password comes out like this, maybe you shouldn't # use it assert random_words(nwords=4, lang='en', bits_per_word=0) == 'the the the the' # This not only tests random_ascii_words, it makes sure we didn't end # up with 'eos' as a very common Japanese word assert random_ascii_words(nwords=4, lang='ja', bits_per_word=0) == '00 00 00 00' def test_not_enough_ascii(): with pytest.raises(ValueError): random_ascii_words(lang='zh', bits_per_word=16) def test_arabic(): # Remove tatweels assert tokenize('متــــــــعب', 'ar') == ['متعب'] # Remove combining marks assert tokenize('حَرَكَات', 'ar') == ['حركات'] # An Arabic ligature that is affected by NFKC normalization assert tokenize('\ufefb', 'ar') == ['\u0644\u0627'] def test_ideographic_fallback(): # Try tokenizing Chinese text as English -- it should remain stuck together. # # More complex examples like this, involving the multiple scripts of Japanese, # are in test_japanese.py. assert tokenize('中国文字', 'en') == ['中国文字'] def test_other_languages(): # Test that we leave Thai letters stuck together. If we had better Thai support, # we would actually split this into a three-word phrase. assert tokenize('การเล่นดนตรี', 'th') == ['การเล่นดนตรี'] assert tokenize('"การเล่นดนตรี" means "playing music"', 'en') == ['การเล่นดนตรี', 'means', 'playing', 'music'] # Test Khmer, a script similar to Thai assert tokenize('សូមស្វាគមន៍', 'km') == ['សូមស្វាគមន៍'] # Test Hindi -- tokens split where there are spaces, and not where there aren't assert tokenize('हिन्दी विक्षनरी', 'hi') == ['हिन्दी', 'विक्षनरी'] # Remove vowel points in Hebrew assert tokenize('דֻּגְמָה', 'he') == ['דגמה'] # Deal with commas, cedillas, and I's in Turkish assert tokenize('kișinin', 'tr') == ['kişinin'] assert tokenize('KİȘİNİN', 'tr') == ['kişinin'] # Deal with cedillas that should be commas-below in Romanian assert tokenize('acelaşi', 'ro') == ['același'] assert tokenize('ACELAŞI', 'ro') == ['același']