spaCy/spacy/tokenizer.pyx

519 lines
20 KiB
Cython

# cython: embedsignature=True
# cython: profile=True
# coding: utf8
from __future__ import unicode_literals
from cython.operator cimport dereference as deref
from cython.operator cimport preincrement as preinc
from cymem.cymem cimport Pool
from preshed.maps cimport PreshMap
cimport cython
from collections import OrderedDict
import re
from .tokens.doc cimport Doc
from .strings cimport hash_string
from .compat import unescape_unicode
from .errors import Errors, Warnings, deprecation_warning
from . import util
cdef class Tokenizer:
"""Segment text, and create Doc objects with the discovered segment
boundaries.
DOCS: https://spacy.io/api/tokenizer
"""
def __init__(self, Vocab vocab, rules=None, prefix_search=None,
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)
DOCS: https://spacy.io/api/tokenizer#init
"""
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
self.vocab = vocab
self._rules = {}
if rules is not None:
for chunk, substrings in sorted(rules.items()):
self.add_special_case(chunk, substrings)
property token_match:
def __get__(self):
return self._token_match
def __set__(self, token_match):
self._token_match = token_match
self._flush_cache()
property prefix_search:
def __get__(self):
return self._prefix_search
def __set__(self, prefix_search):
self._prefix_search = prefix_search
self._flush_cache()
property suffix_search:
def __get__(self):
return self._suffix_search
def __set__(self, suffix_search):
self._suffix_search = suffix_search
self._flush_cache()
property infix_finditer:
def __get__(self):
return self._infix_finditer
def __set__(self, infix_finditer):
self._infix_finditer = infix_finditer
self._flush_cache()
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)
cpdef Doc tokens_from_list(self, list strings):
deprecation_warning(Warnings.W002)
return Doc(self.vocab, words=strings)
@cython.boundscheck(False)
def __call__(self, unicode string):
"""Tokenize a string.
string (unicode): The string to tokenize.
RETURNS (Doc): A container for linguistic annotations.
DOCS: https://spacy.io/api/tokenizer#call
"""
if len(string) >= (2 ** 30):
raise ValueError(Errors.E025.format(length=len(string)))
cdef int length = len(string)
cdef Doc doc = Doc(self.vocab)
if length == 0:
return doc
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:
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)
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
if start < i:
span = string[start:]
key = hash_string(span)
cache_hit = self._try_cache(key, doc)
if not cache_hit:
self._tokenize(doc, span, key)
doc.c[doc.length - 1].spacy = string[-1] == " " and not in_ws
return doc
def pipe(self, texts, batch_size=1000, n_threads=-1):
"""Tokenize a stream of texts.
texts: A sequence of unicode texts.
batch_size (int): Number of texts to accumulate in an internal buffer.
Defaults to 1000.
YIELDS (Doc): A sequence of Doc objects, in order.
DOCS: https://spacy.io/api/tokenizer#pipe
"""
if n_threads != -1:
deprecation_warning(Warnings.W016)
for text in texts:
yield self(text)
def _flush_cache(self):
self._reset_cache([key for key in self._cache if not key in self._specials])
def _reset_cache(self, keys):
for k in keys:
del self._cache[k]
if not k in self._specials:
cached = <_Cached*>self._cache.get(k)
if cached is not NULL:
self.mem.free(cached)
def _reset_specials(self):
for k in self._specials:
cached = <_Cached*>self._specials.get(k)
del self._specials[k]
if cached is not NULL:
self.mem.free(cached)
cdef int _try_cache(self, hash_t key, Doc tokens) except -1:
cached = <_Cached*>self._cache.get(key)
if cached == NULL:
return False
cdef int i
if cached.is_lex:
for i in range(cached.length):
tokens.push_back(cached.data.lexemes[i], False)
else:
for i in range(cached.length):
tokens.push_back(&cached.data.tokens[i], False)
return True
cdef int _tokenize(self, Doc tokens, unicode span, hash_t orig_key) except -1:
cdef vector[LexemeC*] prefixes
cdef vector[LexemeC*] suffixes
cdef int orig_size
cdef int has_special = 0
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)
cdef unicode _split_affixes(self, Pool mem, unicode string,
vector[const LexemeC*] *prefixes,
vector[const LexemeC*] *suffixes,
int* has_special):
cdef size_t i
cdef unicode prefix
cdef unicode suffix
cdef unicode minus_pre
cdef unicode minus_suf
cdef size_t last_size = 0
while string and len(string) != last_size:
if self.token_match and self.token_match(string) \
and not self.find_prefix(string) \
and not self.find_suffix(string):
break
if self._specials.get(hash_string(string)) != NULL:
has_special[0] = 1
break
last_size = len(string)
pre_len = self.find_prefix(string)
if pre_len != 0:
prefix = string[:pre_len]
minus_pre = string[pre_len:]
# 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
break
suf_len = self.find_suffix(string)
if suf_len != 0:
suffix = string[-suf_len:]
minus_suf = string[:-suf_len]
# 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
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))
elif pre_len:
string = minus_pre
prefixes.push_back(self.vocab.get(mem, prefix))
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
break
return string
cdef int _attach_tokens(self, Doc tokens, unicode string,
vector[const LexemeC*] *prefixes,
vector[const LexemeC*] *suffixes) except -1:
cdef bint cache_hit
cdef int split, end
cdef const LexemeC* const* lexemes
cdef const LexemeC* lexeme
cdef unicode span
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)
else:
# 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)
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:]
if span:
tokens.push_back(self.vocab.get(tokens.mem, span), False)
cdef vector[const LexemeC*].reverse_iterator it = suffixes.rbegin()
while it != suffixes.rend():
lexeme = deref(it)
preinc(it)
tokens.push_back(lexeme, False)
cdef int _save_cached(self, const TokenC* tokens, hash_t key,
int has_special, int n) except -1:
cdef int i
if n <= 0:
# avoid mem alloc of zero length
return 0
for i in range(n):
if self.vocab._by_orth.get(tokens[i].lex.orth) == NULL:
return 0
# See #1250
if has_special:
return 0
cached = <_Cached*>self.mem.alloc(1, sizeof(_Cached))
cached.length = n
cached.is_lex = True
lexemes = <const LexemeC**>self.mem.alloc(n, sizeof(LexemeC**))
for i in range(n):
lexemes[i] = tokens[i].lex
cached.data.lexemes = <const LexemeC* const*>lexemes
self._cache.set(key, cached)
def find_infix(self, unicode string):
"""Find internal split points of the string, such as hyphens.
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.
DOCS: https://spacy.io/api/tokenizer#find_infix
"""
if self.infix_finditer is None:
return 0
return list(self.infix_finditer(string))
def find_prefix(self, unicode string):
"""Find the length of a prefix that should be segmented from the
string, or None if no prefix rules match.
string (unicode): The string to segment.
RETURNS (int): The length of the prefix if present, otherwise `None`.
DOCS: https://spacy.io/api/tokenizer#find_prefix
"""
if self.prefix_search is None:
return 0
match = self.prefix_search(string)
return (match.end() - match.start()) if match is not None else 0
def find_suffix(self, unicode string):
"""Find the length of a suffix that should be segmented from the
string, or None if no suffix rules match.
string (unicode): The string to segment.
Returns (int): The length of the suffix if present, otherwise `None`.
DOCS: https://spacy.io/api/tokenizer#find_suffix
"""
if self.suffix_search is None:
return 0
match = self.suffix_search(string)
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)
def add_special_case(self, unicode string, substrings):
"""Add a special-case tokenization rule.
string (unicode): The string to specially tokenize.
substrings (iterable): A sequence of dicts, where each dict describes
a token and its attributes. The `ORTH` fields of the attributes
must exactly match the string when they are concatenated.
DOCS: https://spacy.io/api/tokenizer#add_special_case
"""
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)
key = hash_string(string)
stale_special = <_Cached*>self._specials.get(key)
stale_cached = <_Cached*>self._cache.get(key)
self._flush_cache()
self._specials.set(key, cached)
self._cache.set(key, cached)
if stale_special is not NULL:
self.mem.free(stale_special)
if stale_special != stale_cached and stale_cached is not NULL:
self.mem.free(stale_cached)
self._rules[string] = substrings
def to_disk(self, path, **kwargs):
"""Save the current state to a directory.
path (unicode or Path): A path to a directory, which will be created if
it doesn't exist.
exclude (list): String names of serialization fields to exclude.
DOCS: https://spacy.io/api/tokenizer#to_disk
"""
with path.open("wb") as file_:
file_.write(self.to_bytes(**kwargs))
def from_disk(self, path, **kwargs):
"""Loads state from a directory. Modifies the object in place and
returns it.
path (unicode or Path): A path to a directory.
exclude (list): String names of serialization fields to exclude.
RETURNS (Tokenizer): The modified `Tokenizer` object.
DOCS: https://spacy.io/api/tokenizer#from_disk
"""
with path.open("rb") as file_:
bytes_data = file_.read()
self.from_bytes(bytes_data, **kwargs)
return self
def to_bytes(self, exclude=tuple(), **kwargs):
"""Serialize the current state to a binary string.
exclude (list): String names of serialization fields to exclude.
RETURNS (bytes): The serialized form of the `Tokenizer` object.
DOCS: https://spacy.io/api/tokenizer#to_bytes
"""
serializers = OrderedDict((
("vocab", lambda: self.vocab.to_bytes()),
("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())))
))
exclude = util.get_serialization_exclude(serializers, exclude, kwargs)
return util.to_bytes(serializers, exclude)
def from_bytes(self, bytes_data, exclude=tuple(), **kwargs):
"""Load state from a binary string.
bytes_data (bytes): The data to load from.
exclude (list): String names of serialization fields to exclude.
RETURNS (Tokenizer): The `Tokenizer` object.
DOCS: https://spacy.io/api/tokenizer#from_bytes
"""
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))
))
exclude = util.get_serialization_exclude(deserializers, exclude, kwargs)
msg = util.from_bytes(bytes_data, deserializers, exclude)
for key in ["prefix_search", "suffix_search", "infix_finditer"]:
if key in data:
data[key] = unescape_unicode(data[key])
if data.get("prefix_search"):
self.prefix_search = re.compile(data["prefix_search"]).search
if data.get("suffix_search"):
self.suffix_search = re.compile(data["suffix_search"]).search
if data.get("infix_finditer"):
self.infix_finditer = re.compile(data["infix_finditer"]).finditer
if data.get("token_match"):
self.token_match = re.compile(data["token_match"]).match
if data.get("rules"):
# make sure to hard reset the cache to remove data from the default exceptions
self._rules = {}
self._reset_cache([key for key in self._cache])
self._reset_specials()
self._cache = PreshMap()
self._specials = PreshMap()
for string, substrings in data.get("rules", {}).items():
self.add_special_case(string, substrings)
return self
def _get_regex_pattern(regex):
"""Get a pattern string for a regex, or None if the pattern is None."""
return None if regex is None else regex.__self__.pattern