spaCy/spacy/lang.pyx

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# cython: profile=True
# cython: embedsignature=True
"""Common classes and utilities across languages.
Provides the main implementation for the spacy tokenizer. Specific languages
subclass the Language class, over-writing the tokenization rules as necessary.
Special-case tokenization rules are read from data/<lang>/tokenization .
"""
from __future__ import unicode_literals
from libc.stdlib cimport calloc, free
import json
from os import path
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from .util import read_lang_data
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from spacy.tokens import Tokens
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cdef class Language:
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"""Base class for language-specific tokenizers.
Most subclasses will override the _split or _split_one methods, which take
a string of non-whitespace characters and output a list of strings. This
function is called by _tokenize, which sits behind a cache and turns the
list of strings into Lexeme objects via the Lexicon. Most languages will not
need to override _tokenize or tokenize.
The language is supplied a list of boolean functions, used to compute flag
features. These are passed to the language's Lexicon object.
The language's name is used to look up default data-files, found in data/<name.
"""
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def __cinit__(self, name, string_features, flag_features):
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if flag_features is None:
flag_features = []
if string_features is None:
string_features = []
self.name = name
self.cache = {}
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lang_data = read_lang_data(name)
rules, words, probs, clusters, case_stats, tag_stats = lang_data
self.lexicon = Lexicon(words, probs, clusters, case_stats, tag_stats,
string_features, flag_features)
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self._load_special_tokenization(rules)
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self.tokens_class = Tokens
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property nr_types:
def __get__(self):
"""Return the number of lexical types in the vocabulary"""
return self.lexicon.size
cpdef Lexeme lookup(self, unicode string):
"""Retrieve (or create, if not found) a Lexeme for a string, and return it.
Args:
string (unicode): The string to be looked up. Must be unicode, not bytes.
Returns:
lexeme (Lexeme): A reference to a lexical type.
"""
return self.lexicon.lookup(string)
cpdef list tokenize(self, unicode string):
"""Tokenize a string.
The tokenization rules are defined in two places:
* The data/<lang>/tokenization table, which handles special cases like contractions;
* The appropriate :py:meth:`find_split` function, which is used to split
off punctuation etc.
Args:
string (unicode): The string to be tokenized.
Returns:
tokens (Tokens): A Tokens object, giving access to a sequence of LexIDs.
"""
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assert string
cdef size_t length = len(string)
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cdef size_t start = 0
cdef size_t i = 0
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cdef Tokens tokens = self.tokens_class()
for c in string:
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if c == ' ':
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if start < i:
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self._tokenize(tokens, string[start:i])
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start = i + 1
i += 1
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if start < i:
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self._tokenize(tokens, string[start:i])
assert tokens
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return tokens.lexemes
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cdef _tokenize(self, Tokens tokens, unicode string):
cdef list lexemes
if len(string) == 1:
lexemes = [self.lookup(string)]
elif string in self.cache:
lexemes = self.cache[string]
else:
lexemes = []
substrings = self._split(string)
for i, substring in enumerate(substrings):
lexemes.append(self.lexicon.lookup(substring))
self.cache[string] = lexemes
cdef Lexeme lexeme
for lexeme in lexemes:
tokens.append(lexeme)
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cdef list _split(self, unicode string):
"""Find how to split a contiguous span of non-space characters into substrings.
This method calls find_split repeatedly. Most languages will want to
override _split_one, but it may be useful to override this instead.
Args:
chunk (unicode): The string to be split, e.g. u"Mike's!"
Returns:
substrings (list): The component substrings, e.g. [u"Mike", "'s", "!"].
"""
substrings = []
while string:
split = self._split_one(string)
if split == 0:
substrings.append(string)
break
substrings.append(string[:split])
string = string[split:]
return substrings
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cdef int _split_one(self, unicode word):
return len(word)
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def _load_special_tokenization(self, token_rules):
'''Load special-case tokenization rules.
Loads special-case tokenization rules into the Language.cache cache,
read from data/<lang>/tokenization . The special cases are loaded before
any language data is tokenized, giving these priority. For instance,
the English tokenization rules map "ain't" to ["are", "not"].
Args:
token_rules (list): A list of (chunk, tokens) pairs, where chunk is
a string and tokens is a list of strings.
'''
for string, substrings in token_rules:
lexemes = []
for i, substring in enumerate(substrings):
lexemes.append(self.lexicon.lookup(substring))
self.cache[string] = lexemes
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cdef class Lexicon:
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def __cinit__(self, words, probs, clusters, case_stats, tag_stats,
string_features, flag_features):
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self._flag_features = flag_features
self._string_features = string_features
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self._dict = {}
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self.size = 0
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cdef Lexeme word
for string in words:
word = Lexeme(string, probs.get(string, 0.0), clusters.get(string, 0),
case_stats.get(string, {}), tag_stats.get(string, {}),
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self._string_features, self._flag_features)
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self._dict[string] = word
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self.size += 1
cpdef Lexeme lookup(self, unicode string):
"""Retrieve (or create, if not found) a Lexeme for a string, and return it.
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Args
string (unicode): The string to be looked up. Must be unicode, not bytes.
Returns:
lexeme (Lexeme): A reference to a lexical type.
"""
assert len(string) != 0
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if string in self._dict:
return self._dict[string]
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cdef Lexeme word = Lexeme(string, 0, 0, {}, {}, self._string_features,
self._flag_features)
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self._dict[string] = word
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self.size += 1
return word