spaCy/spacy/language.py
2017-06-01 14:38:35 +02:00

476 lines
19 KiB
Python

# coding: utf8
from __future__ import absolute_import, unicode_literals
from contextlib import contextmanager
import dill
import numpy
from thinc.neural import Model
from thinc.neural.ops import NumpyOps, CupyOps
from thinc.neural.optimizers import Adam, SGD
import random
import ujson
from collections import OrderedDict
from .tokenizer import Tokenizer
from .vocab import Vocab
from .tagger import Tagger
from .lemmatizer import Lemmatizer
from .syntax.parser import get_templates
from .syntax import nonproj
from .pipeline import NeuralDependencyParser, EntityRecognizer
from .pipeline import TokenVectorEncoder, NeuralTagger, NeuralEntityRecognizer
from .pipeline import NeuralLabeller
from .compat import json_dumps
from .attrs import IS_STOP
from .lang.punctuation import TOKENIZER_PREFIXES, TOKENIZER_SUFFIXES, TOKENIZER_INFIXES
from .lang.tokenizer_exceptions import TOKEN_MATCH
from .lang.tag_map import TAG_MAP
from .lang.lex_attrs import LEX_ATTRS
from . import util
from .scorer import Scorer
class BaseDefaults(object):
@classmethod
def create_lemmatizer(cls, nlp=None):
return Lemmatizer(cls.lemma_index, cls.lemma_exc, cls.lemma_rules)
@classmethod
def create_vocab(cls, nlp=None):
lemmatizer = cls.create_lemmatizer(nlp)
lex_attr_getters = dict(cls.lex_attr_getters)
# This is messy, but it's the minimal working fix to Issue #639.
lex_attr_getters[IS_STOP] = lambda string: string.lower() in cls.stop_words
vocab = Vocab(lex_attr_getters=lex_attr_getters, tag_map=cls.tag_map,
lemmatizer=lemmatizer)
for tag_str, exc in cls.morph_rules.items():
for orth_str, attrs in exc.items():
vocab.morphology.add_special_case(tag_str, orth_str, attrs)
return vocab
@classmethod
def create_tokenizer(cls, nlp=None):
rules = cls.tokenizer_exceptions
token_match = cls.token_match
prefix_search = util.compile_prefix_regex(cls.prefixes).search \
if cls.prefixes else None
suffix_search = util.compile_suffix_regex(cls.suffixes).search \
if cls.suffixes else None
infix_finditer = util.compile_infix_regex(cls.infixes).finditer \
if cls.infixes else None
vocab = nlp.vocab if nlp is not None else cls.create_vocab(nlp)
return Tokenizer(vocab, rules=rules,
prefix_search=prefix_search, suffix_search=suffix_search,
infix_finditer=infix_finditer, token_match=token_match)
@classmethod
def create_tagger(cls, nlp=None, **cfg):
if nlp is None:
return NeuralTagger(cls.create_vocab(nlp), **cfg)
else:
return NeuralTagger(nlp.vocab, **cfg)
@classmethod
def create_parser(cls, nlp=None, **cfg):
if nlp is None:
return NeuralDependencyParser(cls.create_vocab(nlp), **cfg)
else:
return NeuralDependencyParser(nlp.vocab, **cfg)
@classmethod
def create_entity(cls, nlp=None, **cfg):
if nlp is None:
return NeuralEntityRecognizer(cls.create_vocab(nlp), **cfg)
else:
return NeuralEntityRecognizer(nlp.vocab, **cfg)
@classmethod
def create_pipeline(cls, nlp=None):
meta = nlp.meta if nlp is not None else {}
# Resolve strings, like "cnn", "lstm", etc
pipeline = []
for entry in cls.pipeline:
factory = cls.Defaults.factories[entry]
pipeline.append(factory(nlp, **meta.get(entry, {})))
return pipeline
factories = {
'make_doc': create_tokenizer,
'tensorizer': lambda nlp, **cfg: [TokenVectorEncoder(nlp.vocab, **cfg)],
'tagger': lambda nlp, **cfg: [NeuralTagger(nlp.vocab, **cfg)],
'parser': lambda nlp, **cfg: [
NeuralDependencyParser(nlp.vocab, **cfg),
nonproj.deprojectivize],
'ner': lambda nlp, **cfg: [NeuralEntityRecognizer(nlp.vocab, **cfg)],
# Temporary compatibility -- delete after pivot
'token_vectors': lambda nlp, **cfg: [TokenVectorEncoder(nlp.vocab, **cfg)],
'tags': lambda nlp, **cfg: [NeuralTagger(nlp.vocab, **cfg)],
'dependencies': lambda nlp, **cfg: [
NeuralDependencyParser(nlp.vocab, **cfg),
nonproj.deprojectivize],
'entities': lambda nlp, **cfg: [NeuralEntityRecognizer(nlp.vocab, **cfg)],
}
token_match = TOKEN_MATCH
prefixes = tuple(TOKENIZER_PREFIXES)
suffixes = tuple(TOKENIZER_SUFFIXES)
infixes = tuple(TOKENIZER_INFIXES)
tag_map = dict(TAG_MAP)
tokenizer_exceptions = {}
parser_features = get_templates('parser')
entity_features = get_templates('ner')
tagger_features = Tagger.feature_templates # TODO -- fix this
stop_words = set()
lemma_rules = {}
lemma_exc = {}
lemma_index = {}
morph_rules = {}
lex_attr_getters = LEX_ATTRS
class Language(object):
"""A text-processing pipeline. Usually you'll load this once per process,
and pass the instance around your application.
Defaults (class): Settings, data and factory methods for creating the `nlp`
object and processing pipeline.
lang (unicode): Two-letter language ID, i.e. ISO code.
"""
Defaults = BaseDefaults
lang = None
def __init__(self, vocab=True, make_doc=True, pipeline=None, meta={}, **kwargs):
"""Initialise a Language object.
vocab (Vocab): A `Vocab` object. If `True`, a vocab is created via
`Language.Defaults.create_vocab`.
make_doc (callable): A function that takes text and returns a `Doc`
object. Usually a `Tokenizer`.
pipeline (list): A list of annotation processes or IDs of annotation,
processes, e.g. a `Tagger` object, or `'tagger'`. IDs are looked
up in `Language.Defaults.factories`.
meta (dict): Custom meta data for the Language class. Is written to by
models to add model meta data.
RETURNS (Language): The newly constructed object.
"""
self.meta = dict(meta)
if vocab is True:
factory = self.Defaults.create_vocab
vocab = factory(self, **meta.get('vocab', {}))
self.vocab = vocab
if make_doc is True:
factory = self.Defaults.create_tokenizer
make_doc = factory(self, **meta.get('tokenizer', {}))
self.tokenizer = make_doc
if pipeline is True:
self.pipeline = self.Defaults.create_pipeline(self)
elif pipeline:
self.pipeline = list(pipeline)
# Resolve strings, like "cnn", "lstm", etc
for i, entry in enumerate(self.pipeline):
if entry in self.Defaults.factories:
factory = self.Defaults.factories[entry]
self.pipeline[i] = factory(self, **meta.get(entry, {}))
else:
self.pipeline = []
flat_list = []
for pipe in self.pipeline:
if isinstance(pipe, list):
flat_list.extend(pipe)
else:
flat_list.append(pipe)
self.pipeline = flat_list
def __call__(self, text, disable=[]):
"""'Apply the pipeline to some text. The text can span multiple sentences,
and can contain arbtrary whitespace. Alignment into the original string
is preserved.
text (unicode): The text to be processed.
disable (list): Names of the pipeline components to disable.
RETURNS (Doc): A container for accessing the annotations.
EXAMPLE:
>>> tokens = nlp('An example sentence. Another example sentence.')
>>> tokens[0].text, tokens[0].head.tag_
('An', 'NN')
"""
doc = self.make_doc(text)
for proc in self.pipeline:
name = getattr(proc, 'name', None)
if name in disable:
continue
doc = proc(doc)
return doc
def make_doc(self, text):
return self.tokenizer(text)
def update(self, docs, golds, drop=0., sgd=None, losses=None):
"""Update the models in the pipeline.
docs (iterable): A batch of `Doc` objects.
golds (iterable): A batch of `GoldParse` objects.
drop (float): The droput rate.
sgd (callable): An optimizer.
RETURNS (dict): Results from the update.
EXAMPLE:
>>> with nlp.begin_training(gold, use_gpu=True) as (trainer, optimizer):
>>> for epoch in trainer.epochs(gold):
>>> for docs, golds in epoch:
>>> state = nlp.update(docs, golds, sgd=optimizer)
"""
tok2vec = self.pipeline[0]
feats = tok2vec.doc2feats(docs)
grads = {}
def get_grads(W, dW, key=None):
grads[key] = (W, dW)
pipes = list(self.pipeline[1:])
random.shuffle(pipes)
for proc in pipes:
if not hasattr(proc, 'update'):
continue
tokvecses, bp_tokvecses = tok2vec.model.begin_update(feats, drop=drop)
d_tokvecses = proc.update((docs, tokvecses), golds,
drop=drop, sgd=get_grads, losses=losses)
if d_tokvecses is not None:
bp_tokvecses(d_tokvecses, sgd=sgd)
for key, (W, dW) in grads.items():
sgd(W, dW, key=key)
# Clear the tensor variable, to free GPU memory.
# If we don't do this, the memory leak gets pretty
# bad, because we may be holding part of a batch.
for doc in docs:
doc.tensor = None
def preprocess_gold(self, docs_golds):
"""Can be called before training to pre-process gold data. By default,
it handles nonprojectivity and adds missing tags to the tag map.
docs_golds (iterable): Tuples of `Doc` and `GoldParse` objects.
YIELDS (tuple): Tuples of preprocessed `Doc` and `GoldParse` objects.
"""
for proc in self.pipeline:
if hasattr(proc, 'preprocess_gold'):
docs_golds = proc.preprocess_gold(docs_golds)
for doc, gold in docs_golds:
yield doc, gold
def begin_training(self, get_gold_tuples, **cfg):
"""Allocate models, pre-process training data and acquire a trainer and
optimizer. Used as a contextmanager.
gold_tuples (iterable): Gold-standard training data.
**cfg: Config parameters.
YIELDS (tuple): A trainer and an optimizer.
EXAMPLE:
>>> with nlp.begin_training(gold, use_gpu=True) as (trainer, optimizer):
>>> for epoch in trainer.epochs(gold):
>>> for docs, golds in epoch:
>>> state = nlp.update(docs, golds, sgd=optimizer)
"""
self.pipeline.append(NeuralLabeller(self.vocab))
# Populate vocab
for _, annots_brackets in get_gold_tuples():
for annots, _ in annots_brackets:
for word in annots[1]:
_ = self.vocab[word]
contexts = []
if cfg.get('use_gpu'):
Model.ops = CupyOps()
Model.Ops = CupyOps
for proc in self.pipeline:
if hasattr(proc, 'begin_training'):
context = proc.begin_training(get_gold_tuples(),
pipeline=self.pipeline)
contexts.append(context)
learn_rate = util.env_opt('learn_rate', 0.001)
beta1 = util.env_opt('optimizer_B1', 0.9)
beta2 = util.env_opt('optimizer_B2', 0.999)
eps = util.env_opt('optimizer_eps', 1e-08)
L2 = util.env_opt('L2_penalty', 1e-6)
max_grad_norm = util.env_opt('grad_norm_clip', 1.)
optimizer = Adam(Model.ops, learn_rate, L2=L2, beta1=beta1,
beta2=beta2, eps=eps)
optimizer.max_grad_norm = max_grad_norm
return optimizer
def evaluate(self, docs_golds):
docs, golds = zip(*docs_golds)
scorer = Scorer()
for doc, gold in zip(self.pipe(docs), golds):
scorer.score(doc, gold)
doc.tensor = None
return scorer
@contextmanager
def use_params(self, params, **cfg):
"""Replace weights of models in the pipeline with those provided in the
params dictionary. Can be used as a contextmanager, in which case,
models go back to their original weights after the block.
params (dict): A dictionary of parameters keyed by model ID.
**cfg: Config parameters.
EXAMPLE:
>>> with nlp.use_params(optimizer.averages):
>>> nlp.to_disk('/tmp/checkpoint')
"""
contexts = [pipe.use_params(params) for pipe
in self.pipeline if hasattr(pipe, 'use_params')]
# TODO: Having trouble with contextlib
# Workaround: these aren't actually context managers atm.
for context in contexts:
try:
next(context)
except StopIteration:
pass
yield
for context in contexts:
try:
next(context)
except StopIteration:
pass
def pipe(self, texts, n_threads=2, batch_size=1000, disable=[]):
"""Process texts as a stream, and yield `Doc` objects in order. Supports
GIL-free multi-threading.
texts (iterator): A sequence of texts to process.
n_threads (int): The number of worker threads to use. If -1, OpenMP will
decide how many to use at run time. Default is 2.
batch_size (int): The number of texts to buffer.
disable (list): Names of the pipeline components to disable.
YIELDS (Doc): Documents in the order of the original text.
EXAMPLE:
>>> texts = [u'One document.', u'...', u'Lots of documents']
>>> for doc in nlp.pipe(texts, batch_size=50, n_threads=4):
>>> assert doc.is_parsed
"""
docs = (self.make_doc(text) for text in texts)
docs = texts
for proc in self.pipeline:
name = getattr(proc, 'name', None)
if name in disable:
continue
if hasattr(proc, 'pipe'):
docs = proc.pipe(docs, n_threads=n_threads, batch_size=batch_size)
else:
# Apply the function, but yield the doc
docs = _pipe(proc, docs)
for doc in docs:
yield doc
def to_disk(self, path, disable=tuple()):
"""Save the current state to a directory. If a model is loaded, this
will include the model.
path (unicode or Path): A path to a directory, which will be created if
it doesn't exist. Paths may be either strings or `Path`-like objects.
disable (list): Names of pipeline components to disable and prevent
from being saved.
EXAMPLE:
>>> nlp.to_disk('/path/to/models')
"""
path = util.ensure_path(path)
serializers = OrderedDict((
('vocab', lambda p: self.vocab.to_disk(p)),
('tokenizer', lambda p: self.tokenizer.to_disk(p, vocab=False)),
('meta.json', lambda p: p.open('w').write(json_dumps(self.meta)))
))
for proc in self.pipeline:
if not hasattr(proc, 'name'):
continue
if proc.name in disable:
continue
if not hasattr(proc, 'to_disk'):
continue
serializers[proc.name] = lambda p, proc=proc: proc.to_disk(p, vocab=False)
util.to_disk(path, serializers, {p: False for p in disable})
def from_disk(self, path, disable=tuple()):
"""Loads state from a directory. Modifies the object in place and
returns it. If the saved `Language` object contains a model, the
model will be loaded.
path (unicode or Path): A path to a directory. Paths may be either
strings or `Path`-like objects.
disable (list): Names of the pipeline components to disable.
RETURNS (Language): The modified `Language` object.
EXAMPLE:
>>> from spacy.language import Language
>>> nlp = Language().from_disk('/path/to/models')
"""
path = util.ensure_path(path)
deserializers = OrderedDict((
('vocab', lambda p: self.vocab.from_disk(p)),
('tokenizer', lambda p: self.tokenizer.from_disk(p, vocab=False)),
('meta.json', lambda p: p.open('w').write(json_dumps(self.meta)))
))
for proc in self.pipeline:
if not hasattr(proc, 'name'):
continue
if proc.name in disable:
continue
if not hasattr(proc, 'to_disk'):
continue
deserializers[proc.name] = lambda p, proc=proc: proc.from_disk(p, vocab=False)
exclude = {p: False for p in disable}
if not (path / 'vocab').exists():
exclude['vocab'] = True
util.from_disk(path, deserializers, exclude)
return self
def to_bytes(self, disable=[]):
"""Serialize the current state to a binary string.
disable (list): Nameds of pipeline components to disable and prevent
from being serialized.
RETURNS (bytes): The serialized form of the `Language` object.
"""
serializers = OrderedDict((
('vocab', lambda: self.vocab.to_bytes()),
('tokenizer', lambda: self.tokenizer.to_bytes(vocab=False)),
('meta', lambda: ujson.dumps(self.meta))
))
for i, proc in enumerate(self.pipeline):
if getattr(proc, 'name', None) in disable:
continue
if not hasattr(proc, 'to_bytes'):
continue
serializers[i] = lambda proc=proc: proc.to_bytes(vocab=False)
return util.to_bytes(serializers, {})
def from_bytes(self, bytes_data, disable=[]):
"""Load state from a binary string.
bytes_data (bytes): The data to load from.
disable (list): Names of the pipeline components to disable.
RETURNS (Language): The `Language` object.
"""
deserializers = OrderedDict((
('vocab', lambda b: self.vocab.from_bytes(b)),
('tokenizer', lambda b: self.tokenizer.from_bytes(b, vocab=False)),
('meta', lambda b: self.meta.update(ujson.loads(b)))
))
for i, proc in enumerate(self.pipeline):
if getattr(proc, 'name', None) in disable:
continue
if not hasattr(proc, 'from_bytes'):
continue
deserializers[i] = lambda b, proc=proc: proc.from_bytes(b, vocab=False)
msg = util.from_bytes(bytes_data, deserializers, {})
return self
def _pipe(func, docs):
for doc in docs:
func(doc)
yield doc