spaCy/spacy/tokenizer.pyx

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# cython: embedsignature=True
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# cython: profile=True
# coding: utf8
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from __future__ import unicode_literals
from collections import OrderedDict
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from cython.operator cimport dereference as deref
from cython.operator cimport preincrement as preinc
from cymem.cymem cimport Pool
from preshed.maps cimport PreshMap
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import regex as re
cimport cython
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from .tokens.doc cimport Doc
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from .strings cimport hash_string
from .errors import Errors, Warnings, deprecation_warning
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from . import util
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cdef class Tokenizer:
"""Segment text, and create Doc objects with the discovered segment
boundaries.
"""
def __init__(self, Vocab vocab, rules=None, prefix_search=None,
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suffix_search=None, infix_finditer=None, token_match=None):
"""Create a `Tokenizer`, to create `Doc` objects given unicode text.
vocab (Vocab): A storage container for lexical types.
rules (dict): Exceptions and special-cases for the tokenizer.
prefix_search (callable): A function matching the signature of
`re.compile(string).search` to match prefixes.
suffix_search (callable): A function matching the signature of
`re.compile(string).search` to match suffixes.
`infix_finditer` (callable): A function matching the signature of
`re.compile(string).finditer` to find infixes.
token_match (callable): A boolean function matching strings to be
recognised as tokens.
RETURNS (Tokenizer): The newly constructed object.
EXAMPLE:
>>> tokenizer = Tokenizer(nlp.vocab)
>>> tokenizer = English().Defaults.create_tokenizer(nlp)
"""
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self.mem = Pool()
self._cache = PreshMap()
self._specials = PreshMap()
self.token_match = token_match
self.prefix_search = prefix_search
self.suffix_search = suffix_search
self.infix_finditer = infix_finditer
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self.vocab = vocab
self._rules = {}
if rules is not None:
for chunk, substrings in sorted(rules.items()):
self.add_special_case(chunk, substrings)
def __reduce__(self):
args = (self.vocab,
self._rules,
self.prefix_search,
self.suffix_search,
self.infix_finditer,
self.token_match)
return (self.__class__, args, None, None)
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cpdef Doc tokens_from_list(self, list strings):
deprecation_warning(Warnings.W002)
return Doc(self.vocab, words=strings)
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@cython.boundscheck(False)
def __call__(self, unicode string):
"""Tokenize a string.
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string (unicode): The string to tokenize.
RETURNS (Doc): A container for linguistic annotations.
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"""
if len(string) >= (2 ** 30):
raise ValueError(Errors.E025.format(length=len(string)))
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cdef int length = len(string)
cdef Doc doc = Doc(self.vocab)
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if length == 0:
return doc
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cdef int i = 0
cdef int start = 0
cdef bint cache_hit
cdef bint in_ws = string[0].isspace()
cdef unicode span
# The task here is much like string.split, but not quite
# We find spans of whitespace and non-space characters, and ignore
# spans that are exactly ' '. So, our sequences will all be separated
# by either ' ' or nothing.
for uc in string:
if uc.isspace() != in_ws:
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if start < i:
# When we want to make this fast, get the data buffer once
# with PyUnicode_AS_DATA, and then maintain a start_byte
# and end_byte, so we can call hash64 directly. That way
# we don't have to create the slice when we hit the cache.
span = string[start:i]
key = hash_string(span)
cache_hit = self._try_cache(key, doc)
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if not cache_hit:
self._tokenize(doc, span, key)
if uc == ' ':
doc.c[doc.length - 1].spacy = True
start = i + 1
else:
start = i
in_ws = not in_ws
i += 1
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if start < i:
span = string[start:]
key = hash_string(span)
cache_hit = self._try_cache(key, doc)
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if not cache_hit:
self._tokenize(doc, span, key)
doc.c[doc.length - 1].spacy = string[-1] == ' ' and not in_ws
return doc
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def pipe(self, texts, batch_size=1000, n_threads=2):
"""Tokenize a stream of texts.
texts: A sequence of unicode texts.
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batch_size (int): Number of texts to accumulate in an internal buffer.
n_threads (int): Number of threads to use, if the implementation
supports multi-threading. The default tokenizer is single-threaded.
YIELDS (Doc): A sequence of Doc objects, in order.
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"""
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for text in texts:
yield self(text)
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def _reset_cache(self, keys):
for k in keys:
del self._cache[k]
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cdef int _try_cache(self, hash_t key, Doc tokens) except -1:
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cached = <_Cached*>self._cache.get(key)
if cached == NULL:
return False
cdef int i
if cached.is_lex:
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for i in range(cached.length):
tokens.push_back(cached.data.lexemes[i], False)
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else:
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for i in range(cached.length):
tokens.push_back(&cached.data.tokens[i], False)
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return True
cdef int _tokenize(self, Doc tokens, unicode span, hash_t orig_key) except -1:
cdef vector[LexemeC*] prefixes
cdef vector[LexemeC*] suffixes
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cdef int orig_size
cdef int has_special = 0
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orig_size = tokens.length
span = self._split_affixes(tokens.mem, span, &prefixes, &suffixes,
&has_special)
self._attach_tokens(tokens, span, &prefixes, &suffixes)
self._save_cached(&tokens.c[orig_size], orig_key, has_special,
tokens.length - orig_size)
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cdef unicode _split_affixes(self, Pool mem, unicode string,
vector[const LexemeC*] *prefixes,
vector[const LexemeC*] *suffixes,
int* has_special):
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cdef size_t i
cdef unicode prefix
cdef unicode suffix
cdef unicode minus_pre
cdef unicode minus_suf
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cdef size_t last_size = 0
while string and len(string) != last_size:
if self.token_match and self.token_match(string):
break
last_size = len(string)
pre_len = self.find_prefix(string)
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if pre_len != 0:
prefix = string[:pre_len]
minus_pre = string[pre_len:]
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# Check whether we've hit a special-case
if minus_pre and self._specials.get(hash_string(minus_pre)) != NULL:
string = minus_pre
prefixes.push_back(self.vocab.get(mem, prefix))
has_special[0] = 1
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break
if self.token_match and self.token_match(string):
break
suf_len = self.find_suffix(string)
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if suf_len != 0:
suffix = string[-suf_len:]
minus_suf = string[:-suf_len]
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# Check whether we've hit a special-case
if minus_suf and (self._specials.get(hash_string(minus_suf)) != NULL):
string = minus_suf
suffixes.push_back(self.vocab.get(mem, suffix))
has_special[0] = 1
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break
if pre_len and suf_len and (pre_len + suf_len) <= len(string):
string = string[pre_len:-suf_len]
prefixes.push_back(self.vocab.get(mem, prefix))
suffixes.push_back(self.vocab.get(mem, suffix))
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elif pre_len:
string = minus_pre
prefixes.push_back(self.vocab.get(mem, prefix))
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elif suf_len:
string = minus_suf
suffixes.push_back(self.vocab.get(mem, suffix))
if string and (self._specials.get(hash_string(string)) != NULL):
has_special[0] = 1
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break
return string
cdef int _attach_tokens(self, Doc tokens, unicode string,
vector[const LexemeC*] *prefixes,
vector[const LexemeC*] *suffixes) except -1:
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cdef bint cache_hit
cdef int split, end
cdef const LexemeC* const* lexemes
cdef const LexemeC* lexeme
cdef unicode span
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cdef int i
if prefixes.size():
for i in range(prefixes.size()):
tokens.push_back(prefixes[0][i], False)
if string:
cache_hit = self._try_cache(hash_string(string), tokens)
if cache_hit:
pass
elif self.token_match and self.token_match(string):
# We're always saying 'no' to spaces here -- the caller will
# fix up the outermost one, with reference to the original.
# See Issue #859
tokens.push_back(self.vocab.get(tokens.mem, string), False)
else:
matches = self.find_infix(string)
if not matches:
tokens.push_back(self.vocab.get(tokens.mem, string), False)
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else:
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# let's say we have dyn-o-mite-dave - the regex finds the
# start and end positions of the hyphens
start = 0
start_before_infixes = start
for match in matches:
infix_start = match.start()
infix_end = match.end()
if infix_start == start_before_infixes:
continue
if infix_start != start:
span = string[start:infix_start]
tokens.push_back(self.vocab.get(tokens.mem, span), False)
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if infix_start != infix_end:
# If infix_start != infix_end, it means the infix
# token is non-empty. Empty infix tokens are useful
# for tokenization in some languages (see
# https://github.com/explosion/spaCy/issues/768)
infix_span = string[infix_start:infix_end]
tokens.push_back(self.vocab.get(tokens.mem, infix_span), False)
start = infix_end
span = string[start:]
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if span:
tokens.push_back(self.vocab.get(tokens.mem, span), False)
cdef vector[const LexemeC*].reverse_iterator it = suffixes.rbegin()
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while it != suffixes.rend():
lexeme = deref(it)
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preinc(it)
tokens.push_back(lexeme, False)
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cdef int _save_cached(self, const TokenC* tokens, hash_t key,
int has_special, int n) except -1:
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cdef int i
for i in range(n):
if self.vocab._by_orth.get(tokens[i].lex.orth) == NULL:
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return 0
# See https://github.com/explosion/spaCy/issues/1250
if has_special:
return 0
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cached = <_Cached*>self.mem.alloc(1, sizeof(_Cached))
cached.length = n
cached.is_lex = True
lexemes = <const LexemeC**>self.mem.alloc(n, sizeof(LexemeC**))
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for i in range(n):
lexemes[i] = tokens[i].lex
cached.data.lexemes = <const LexemeC* const*>lexemes
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self._cache.set(key, cached)
def find_infix(self, unicode string):
"""Find internal split points of the string, such as hyphens.
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string (unicode): The string to segment.
RETURNS (list): A list of `re.MatchObject` objects that have `.start()`
and `.end()` methods, denoting the placement of internal segment
separators, e.g. hyphens.
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"""
if self.infix_finditer is None:
return 0
return list(self.infix_finditer(string))
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def find_prefix(self, unicode string):
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"""Find the length of a prefix that should be segmented from the
string, or None if no prefix rules match.
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string (unicode): The string to segment.
RETURNS (int): The length of the prefix if present, otherwise `None`.
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"""
if self.prefix_search is None:
return 0
match = self.prefix_search(string)
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return (match.end() - match.start()) if match is not None else 0
def find_suffix(self, unicode string):
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"""Find the length of a suffix that should be segmented from the
string, or None if no suffix rules match.
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string (unicode): The string to segment.
Returns (int): The length of the suffix if present, otherwise `None`.
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"""
if self.suffix_search is None:
return 0
match = self.suffix_search(string)
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return (match.end() - match.start()) if match is not None else 0
def _load_special_tokenization(self, special_cases):
"""Add special-case tokenization rules."""
for chunk, substrings in sorted(special_cases.items()):
self.add_special_case(chunk, substrings)
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def add_special_case(self, unicode string, substrings):
"""Add a special-case tokenization rule.
string (unicode): The string to specially tokenize.
token_attrs (iterable): A sequence of dicts, where each dict describes
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a token and its attributes. The `ORTH` fields of the attributes
must exactly match the string when they are concatenated.
"""
substrings = list(substrings)
cached = <_Cached*>self.mem.alloc(1, sizeof(_Cached))
cached.length = len(substrings)
cached.is_lex = False
cached.data.tokens = self.vocab.make_fused_token(substrings)
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key = hash_string(string)
self._specials.set(key, cached)
self._cache.set(key, cached)
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self._rules[string] = substrings
def to_disk(self, path, **exclude):
"""Save the current state to a directory.
path (unicode or Path): A path to a directory, which will be created if
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it doesn't exist. Paths may be either strings or Path-like objects.
"""
with path.open('wb') as file_:
file_.write(self.to_bytes(**exclude))
def from_disk(self, path, **exclude):
"""Loads state from a directory. Modifies the object in place and
returns it.
path (unicode or Path): A path to a directory. Paths may be either
strings or `Path`-like objects.
RETURNS (Tokenizer): The modified `Tokenizer` object.
"""
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with path.open('rb') as file_:
bytes_data = file_.read()
self.from_bytes(bytes_data, **exclude)
return self
def to_bytes(self, **exclude):
"""Serialize the current state to a binary string.
**exclude: Named attributes to prevent from being serialized.
RETURNS (bytes): The serialized form of the `Tokenizer` object.
"""
serializers = OrderedDict((
('vocab', lambda: self.vocab.to_bytes()),
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('prefix_search', lambda: _get_regex_pattern(self.prefix_search)),
('suffix_search', lambda: _get_regex_pattern(self.suffix_search)),
('infix_finditer', lambda: _get_regex_pattern(self.infix_finditer)),
('token_match', lambda: _get_regex_pattern(self.token_match)),
('exceptions', lambda: OrderedDict(sorted(self._rules.items())))
))
return util.to_bytes(serializers, exclude)
def from_bytes(self, bytes_data, **exclude):
"""Load state from a binary string.
bytes_data (bytes): The data to load from.
**exclude: Named attributes to prevent from being loaded.
RETURNS (Tokenizer): The `Tokenizer` object.
"""
data = OrderedDict()
deserializers = OrderedDict((
('vocab', lambda b: self.vocab.from_bytes(b)),
('prefix_search', lambda b: data.setdefault('prefix_search', b)),
('suffix_search', lambda b: data.setdefault('suffix_search', b)),
('infix_finditer', lambda b: data.setdefault('infix_finditer', b)),
('token_match', lambda b: data.setdefault('token_match', b)),
('exceptions', lambda b: data.setdefault('rules', b))
))
msg = util.from_bytes(bytes_data, deserializers, exclude)
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if data.get('prefix_search'):
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self.prefix_search = re.compile(data['prefix_search']).search
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if data.get('suffix_search'):
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self.suffix_search = re.compile(data['suffix_search']).search
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if data.get('infix_finditer'):
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self.infix_finditer = re.compile(data['infix_finditer']).finditer
if data.get('token_match'):
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self.token_match = re.compile(data['token_match']).search
for string, substrings in data.get('rules', {}).items():
self.add_special_case(string, substrings)
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return self
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def _get_regex_pattern(regex):
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"""Get a pattern string for a regex, or None if the pattern is None."""
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return None if regex is None else regex.__self__.pattern