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README.md
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README.md
@ -39,11 +39,18 @@ For example:
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## Usage
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wordfreq provides access to estimates of the frequency with which a word is
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used, in 18 languages (see *Supported languages* below). It loads
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efficiently-packed data structures that contain all words that appear at least
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once per million words.
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used, in 18 languages (see *Supported languages* below).
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The most useful function is:
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It provides three kinds of pre-built wordlists:
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- `'combined'` lists, containing words that appear at least once per
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million words, averaged across all data sources.
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- `'twitter'` lists, containing words that appear at least once per
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million words on Twitter alone.
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- `'large'` lists, containing words that appear at least once per 100
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million words, averaged across all data sources.
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The most straightforward function is:
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word_frequency(word, lang, wordlist='combined', minimum=0.0)
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@ -64,7 +71,37 @@ frequencies by a million (1e6) to get more readable numbers:
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>>> word_frequency('café', 'fr') * 1e6
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77.62471166286912
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The parameters are:
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`zipf_frequency` is a variation on `word_frequency` that aims to return the
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word frequency on a human-friendly logarithmic scale. The Zipf scale was
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proposed by Marc Brysbaert, who created the SUBTLEX lists. The Zipf frequency
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of a word is the base-10 logarithm of the number of times it appears per
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billion words. A word with Zipf value 6 appears once per thousand words, for
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example, and a word with Zipf value 3 appears once per million words.
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Reasonable Zipf values are between 0 and 8, but because of the cutoffs
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described above, the minimum Zipf value appearing in these lists is 1.0 for the
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'large' wordlists and 3.0 for all others. We use 0 as the default Zipf value
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for words that do not appear in the given wordlist, although it should mean
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one occurrence per billion words.
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>>> zipf_frequency('the', 'en')
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7.59
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>>> zipf_frequency('word', 'en')
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5.34
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>>> zipf_frequency('frequency', 'en')
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4.44
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>>> zipf_frequency('zipf', 'en')
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0.0
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>>> zipf_frequency('zipf', 'en', 'large')
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1.42
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The parameters to `word_frequency` and `zipf_frequency` are:
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- `word`: a Unicode string containing the word to look up. Ideally the word
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is a single token according to our tokenizer, but if not, there is still
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@ -73,21 +110,18 @@ The parameters are:
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- `lang`: the BCP 47 or ISO 639 code of the language to use, such as 'en'.
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- `wordlist`: which set of word frequencies to use. Current options are
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'combined', which combines up to five different sources, and
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'twitter', which returns frequencies observed on Twitter alone.
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'combined', 'twitter', and 'large'.
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- `minimum`: If the word is not in the list or has a frequency lower than
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`minimum`, return `minimum` instead. In some applications, you'll want
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to set `minimum=1e-6` to avoid a discontinuity where the list ends, because
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a frequency of 1e-6 (1 per million) is the threshold for being included in
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the list at all.
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`minimum`, return `minimum` instead. You may want to set this to the minimum
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value contained in the wordlist, to avoid a discontinuity where the wordlist
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ends.
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Other functions:
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`tokenize(text, lang)` splits text in the given language into words, in the same
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way that the words in wordfreq's data were counted in the first place. See
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*Tokenization*. Tokenizing Japanese requires the optional dependency `mecab-python3`
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to be installed.
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*Tokenization*.
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`top_n_list(lang, n, wordlist='combined')` returns the most common *n* words in
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the list, in descending frequency order.
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@ -168,6 +202,8 @@ it, but we have too few data sources for it so far:
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──────────────────┼───────────────────────────────────────
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Korean ko │ - - - Yes Yes
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The 'large' wordlists are available in English, Spanish, French, and Portuguese.
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[1] We've counted the frequencies from tweets in German, such as they are, but
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you should be aware that German is not a frequently-used language on Twitter.
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Germans just don't tweet that much.
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@ -179,7 +215,8 @@ wordfreq uses the Python package `regex`, which is a more advanced
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implementation of regular expressions than the standard library, to
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separate text into tokens that can be counted consistently. `regex`
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produces tokens that follow the recommendations in [Unicode
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Annex #29, Text Segmentation][uax29].
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Annex #29, Text Segmentation][uax29], including the optional rule that
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splits words between apostrophes and vowels.
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There are language-specific exceptions:
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@ -199,10 +236,10 @@ Because tokenization in the real world is far from consistent, wordfreq will
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also try to deal gracefully when you query it with texts that actually break
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into multiple tokens:
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>>> word_frequency('New York', 'en')
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0.0002315934248950231
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>>> word_frequency('北京地铁', 'zh') # "Beijing Subway"
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3.2187603965715087e-06
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>>> zipf_frequency('New York', 'en')
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5.31
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>>> zipf_frequency('北京地铁', 'zh') # "Beijing Subway"
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3.51
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The word frequencies are combined with the half-harmonic-mean function in order
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to provide an estimate of what their combined frequency would be. In Chinese,
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@ -216,8 +253,8 @@ frequencies, because that would assume they are statistically unrelated. So if
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you give it an uncommon combination of tokens, it will hugely over-estimate
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their frequency:
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>>> word_frequency('owl-flavored', 'en')
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1.3557098723512335e-06
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>>> zipf_frequency('owl-flavored', 'en')
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3.18
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## License
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wordfreq/data/large_en.msgpack.gz
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wordfreq/data/large_en.msgpack.gz
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wordfreq/data/large_es.msgpack.gz
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wordfreq/data/large_es.msgpack.gz
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wordfreq/data/large_fr.msgpack.gz
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wordfreq/data/large_fr.msgpack.gz
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wordfreq/data/large_pt.msgpack.gz
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wordfreq/data/large_pt.msgpack.gz
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@ -56,7 +56,7 @@ CONFIG = {
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'reddit': 'generated/reddit/reddit_{lang}.{ext}',
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'combined': 'generated/combined/combined_{lang}.{ext}',
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'combined-dist': 'dist/combined_{lang}.{ext}',
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'combined-dist-large': 'dist/combined-large_{lang}.{ext}',
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'combined-dist-large': 'dist/large_{lang}.{ext}',
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'twitter-dist': 'dist/twitter_{lang}.{ext}',
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'jieba-dist': 'dist/jieba_{lang}.{ext}'
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},
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