spaCy/spacy/lang.pyx

320 lines
12 KiB
Cython

# cython: profile=True
# cython: embedsignature=True
from __future__ import unicode_literals
import json
import random
from os import path
import re
from cython.operator cimport preincrement as preinc
from cython.operator cimport dereference as deref
from libc.stdio cimport fopen, fclose, fread, fwrite, FILE
from cymem.cymem cimport Pool
from murmurhash.mrmr cimport hash64
from preshed.maps cimport PreshMap
from .lexeme cimport Lexeme
from .lexeme cimport EMPTY_LEXEME
from .lexeme cimport init as lexeme_init
from . import util
from .util import read_lang_data
from .tokens import Tokens
from .tagger cimport Tagger
cdef class Language:
def __init__(self, name):
self.name = name
self.mem = Pool()
self._cache = PreshMap(2 ** 25)
self._specials = PreshMap(2 ** 16)
rules, prefix, suffix, infix = util.read_lang_data(name)
self._prefix_re = re.compile(prefix)
self._suffix_re = re.compile(suffix)
self._infix_re = re.compile(infix)
self.lexicon = Lexicon()
if path.exists(path.join(util.DATA_DIR, name, 'lexemes')):
self.lexicon.load(path.join(util.DATA_DIR, name, 'lexemes'))
self.lexicon.strings.load(path.join(util.DATA_DIR, name, 'strings'))
self._load_special_tokenization(rules)
if path.exists(path.join(util.DATA_DIR, name, 'pos')):
self.pos_tagger = Tagger(path.join(util.DATA_DIR, name, 'pos'))
else:
self.pos_tagger = None
cpdef Tokens tokenize(self, unicode string):
"""Tokenize a string.
The tokenization rules are defined in three places:
* The data/<lang>/tokenization table, which handles special cases like contractions;
* The data/<lang>/prefix file, used to build a regex to split off prefixes;
* The data/<lang>/suffix file, used to build a regex to split off suffixes.
Args:
string (unicode): The string to be tokenized.
Returns:
tokens (Tokens): A Tokens object, giving access to a sequence of Lexemes.
"""
cdef int length = len(string)
cdef Tokens tokens = Tokens(self.lexicon.strings, length)
if length == 0:
return tokens
cdef int i = 0
cdef int start = 0
cdef Py_UNICODE* chars = string
cdef bint in_ws = Py_UNICODE_ISSPACE(chars[0])
cdef String span
for i in range(1, length):
if Py_UNICODE_ISSPACE(chars[i]) != in_ws:
if start < i:
string_slice(&span, chars, start, i)
lexemes = <Lexeme**>self._cache.get(span.key)
if lexemes != NULL:
tokens.extend(start, lexemes, 0)
else:
self._tokenize(tokens, &span, start, i)
in_ws = not in_ws
start = i
if chars[i] == ' ':
start += 1
i += 1
if start < i:
string_slice(&span, chars, start, i)
lexemes = <Lexeme**>self._cache.get(span.key)
if lexemes != NULL:
tokens.extend(start, lexemes, 0)
else:
self._tokenize(tokens, &span, start, i)
return tokens
cdef int _tokenize(self, Tokens tokens, String* span, int start, int end) except -1:
cdef vector[Lexeme*] prefixes
cdef vector[Lexeme*] suffixes
cdef hash_t orig_key
cdef int orig_size
orig_key = span.key
orig_size = tokens.length
self._split_affixes(span, &prefixes, &suffixes)
self._attach_tokens(tokens, start, span, &prefixes, &suffixes)
self._save_cached(&tokens.lex[orig_size], orig_key, tokens.length - orig_size)
cdef String* _split_affixes(self, String* string, vector[Lexeme*] *prefixes,
vector[Lexeme*] *suffixes) except NULL:
cdef size_t i
cdef String prefix
cdef String suffix
cdef String minus_pre
cdef String minus_suf
cdef size_t last_size = 0
while string.n != 0 and string.n != last_size:
last_size = string.n
pre_len = self._find_prefix(string.chars, string.n)
if pre_len != 0:
string_slice(&prefix, string.chars, 0, pre_len)
string_slice(&minus_pre, string.chars, pre_len, string.n)
# Check whether we've hit a special-case
if minus_pre.n >= 1 and self._specials.get(minus_pre.key) != NULL:
string[0] = minus_pre
prefixes.push_back(self.lexicon.get(&prefix))
break
suf_len = self._find_suffix(string.chars, string.n)
if suf_len != 0:
string_slice(&suffix, string.chars, string.n - suf_len, string.n)
string_slice(&minus_suf, string.chars, 0, string.n - suf_len)
# Check whether we've hit a special-case
if minus_suf.n >= 1 and self._specials.get(minus_suf.key) != NULL:
string[0] = minus_suf
suffixes.push_back(self.lexicon.get(&suffix))
break
if pre_len and suf_len and (pre_len + suf_len) <= string.n:
string_slice(string, string.chars, pre_len, string.n - suf_len)
prefixes.push_back(self.lexicon.get(&prefix))
suffixes.push_back(self.lexicon.get(&suffix))
elif pre_len:
string[0] = minus_pre
prefixes.push_back(self.lexicon.get(&prefix))
elif suf_len:
string[0] = minus_suf
suffixes.push_back(self.lexicon.get(&suffix))
if self._specials.get(string.key):
break
return string
cdef int _attach_tokens(self, Tokens tokens,
int idx, String* string,
vector[Lexeme*] *prefixes,
vector[Lexeme*] *suffixes) except -1:
cdef int split
cdef Lexeme** lexemes
cdef Lexeme* lexeme
cdef String span
if prefixes.size():
idx = tokens.extend(idx, prefixes.data(), prefixes.size())
if string.n != 0:
lexemes = <Lexeme**>self._cache.get(string.key)
if lexemes != NULL:
idx = tokens.extend(idx, lexemes, 0)
else:
split = self._find_infix(string.chars, string.n)
if split == 0 or split == -1:
idx = tokens.push_back(idx, self.lexicon.get(string))
else:
string_slice(&span, string.chars, 0, split)
idx = tokens.push_back(idx, self.lexicon.get(&span))
string_slice(&span, string.chars, split, split+1)
idx = tokens.push_back(idx, self.lexicon.get(&span))
string_slice(&span, string.chars, split + 1, string.n)
idx = tokens.push_back(idx, self.lexicon.get(&span))
cdef vector[Lexeme*].reverse_iterator it = suffixes.rbegin()
while it != suffixes.rend():
idx = tokens.push_back(idx, deref(it))
preinc(it)
cdef int _save_cached(self, Lexeme** tokens, hash_t key, int n) except -1:
lexemes = <Lexeme**>self.mem.alloc(n + 1, sizeof(Lexeme**))
cdef int i
for i in range(n):
lexemes[i] = tokens[i]
lexemes[i + 1] = NULL
self._cache.set(key, lexemes)
cdef int _find_infix(self, Py_UNICODE* chars, size_t length) except -1:
cdef unicode string = chars[:length]
match = self._infix_re.search(string)
return match.start() if match is not None else 0
cdef int _find_prefix(self, Py_UNICODE* chars, size_t length) except -1:
cdef unicode string = chars[:length]
match = self._prefix_re.search(string)
return (match.end() - match.start()) if match is not None else 0
cdef int _find_suffix(self, Py_UNICODE* chars, size_t length) except -1:
cdef unicode string = chars[:length]
match = self._suffix_re.search(string)
return (match.end() - match.start()) if match is not None else 0
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.
'''
cdef Lexeme** lexemes
cdef hash_t hashed
cdef String string
for uni_string, substrings in token_rules:
lexemes = <Lexeme**>self.mem.alloc(len(substrings) + 1, sizeof(Lexeme*))
for i, substring in enumerate(substrings):
string_from_unicode(&string, substring)
lexemes[i] = <Lexeme*>self.lexicon.get(&string)
lexemes[i + 1] = NULL
string_from_unicode(&string, uni_string)
self._specials.set(string.key, lexemes)
self._cache.set(string.key, lexemes)
cdef class Lexicon:
def __init__(self):
self.mem = Pool()
self._dict = PreshMap(2 ** 20)
self.strings = StringStore()
self.lexemes.push_back(&EMPTY_LEXEME)
self.size = 1
cdef Lexeme* get(self, String* string) except NULL:
cdef Lexeme* lex
lex = <Lexeme*>self._dict.get(string.key)
if lex != NULL:
return lex
lex = <Lexeme*>self.mem.alloc(sizeof(Lexeme), 1)
lex[0] = lexeme_init(self.size, string.chars[:string.n], string.key, self.strings, {})
self._dict.set(string.key, lex)
while self.lexemes.size() < (lex.id + 1):
self.lexemes.push_back(&EMPTY_LEXEME)
self.lexemes[lex.id] = lex
self.size += 1
return lex
def __getitem__(self, id_or_string):
if type(id_or_string) == int:
return self.lexemes.at(id_or_string)[0]
cdef String string
string_from_unicode(&string, id_or_string)
cdef Lexeme* lexeme = self.get(&string)
return lexeme[0]
def __setitem__(self, unicode uni_string, dict props):
cdef String s
string_from_unicode(&s, uni_string)
cdef Lexeme* lex = self.get(&s)
lex[0] = lexeme_init(lex.id, s.chars[:s.n], s.key, self.strings, props)
def dump(self, loc):
if path.exists(loc):
assert not path.isdir(loc)
cdef bytes bytes_loc = loc.encode('utf8') if type(loc) == unicode else loc
cdef FILE* fp = fopen(<char*>bytes_loc, 'wb')
assert fp != NULL
cdef size_t st
cdef hash_t key
for i in range(self._dict.length):
key = self._dict.c_map.cells[i].key
if key == 0:
continue
lexeme = <Lexeme*>self._dict.c_map.cells[i].value
st = fwrite(&key, sizeof(key), 1, fp)
assert st == 1
st = fwrite(lexeme, sizeof(Lexeme), 1, fp)
assert st == 1
st = fclose(fp)
assert st == 0
def load(self, loc):
assert path.exists(loc)
cdef bytes bytes_loc = loc.encode('utf8') if type(loc) == unicode else loc
cdef FILE* fp = fopen(<char*>bytes_loc, 'rb')
assert fp != NULL
cdef size_t st
cdef Lexeme* lexeme
cdef hash_t key
i = 0
while True:
st = fread(&key, sizeof(key), 1, fp)
if st != 1:
break
lexeme = <Lexeme*>self.mem.alloc(sizeof(Lexeme), 1)
st = fread(lexeme, sizeof(Lexeme), 1, fp)
if st != 1:
break
self._dict.set(key, lexeme)
while self.lexemes.size() < (lexeme.id + 1):
self.lexemes.push_back(&EMPTY_LEXEME)
self.lexemes[lexeme.id] = lexeme
i += 1
self.size += 1
fclose(fp)
cdef void string_from_unicode(String* s, unicode uni):
cdef Py_UNICODE* c_uni = <Py_UNICODE*>uni
string_slice(s, c_uni, 0, len(uni))
cdef inline void string_slice(String* s, Py_UNICODE* chars, int start, int end) nogil:
s.chars = &chars[start]
s.n = end - start
s.key = hash64(s.chars, s.n * sizeof(Py_UNICODE), 0)