mirror of https://github.com/explosion/spaCy.git
479 lines
17 KiB
Cython
479 lines
17 KiB
Cython
# cython: infer_types=True
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# cython: profile=True
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# coding: utf8
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from __future__ import unicode_literals
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from thinc.api import chain, layerize, with_getitem
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from thinc.neural import Model, Softmax
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import numpy
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cimport numpy as np
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import cytoolz
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import util
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from collections import OrderedDict
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import ujson
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import msgpack
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from thinc.api import add, layerize, chain, clone, concatenate, with_flatten
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from thinc.neural import Model, Maxout, Softmax, Affine
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from thinc.neural._classes.hash_embed import HashEmbed
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from thinc.neural.util import to_categorical
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from thinc.neural._classes.convolution import ExtractWindow
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from thinc.neural._classes.resnet import Residual
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from thinc.neural._classes.batchnorm import BatchNorm as BN
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from .tokens.doc cimport Doc
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from .syntax.parser cimport Parser as LinearParser
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from .syntax.nn_parser cimport Parser as NeuralParser
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from .syntax.parser import get_templates as get_feature_templates
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from .syntax.beam_parser cimport BeamParser
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from .syntax.ner cimport BiluoPushDown
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from .syntax.arc_eager cimport ArcEager
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from .tagger import Tagger
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from .syntax.stateclass cimport StateClass
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from .gold cimport GoldParse
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from .morphology cimport Morphology
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from .vocab cimport Vocab
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from .syntax import nonproj
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from .compat import json_dumps
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from .attrs import ID, LOWER, PREFIX, SUFFIX, SHAPE, TAG, DEP, POS
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from ._ml import rebatch, Tok2Vec, flatten, get_col, doc2feats
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from .parts_of_speech import X
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class TokenVectorEncoder(object):
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"""Assign position-sensitive vectors to tokens, using a CNN or RNN."""
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name = 'tensorizer'
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@classmethod
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def Model(cls, width=128, embed_size=7500, **cfg):
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"""Create a new statistical model for the class.
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width (int): Output size of the model.
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embed_size (int): Number of vectors in the embedding table.
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**cfg: Config parameters.
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RETURNS (Model): A `thinc.neural.Model` or similar instance.
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"""
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width = util.env_opt('token_vector_width', width)
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embed_size = util.env_opt('embed_size', embed_size)
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return Tok2Vec(width, embed_size, preprocess=None)
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def __init__(self, vocab, model=True, **cfg):
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"""Construct a new statistical model. Weights are not allocated on
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initialisation.
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vocab (Vocab): A `Vocab` instance. The model must share the same `Vocab`
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instance with the `Doc` objects it will process.
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model (Model): A `Model` instance or `True` allocate one later.
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**cfg: Config parameters.
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EXAMPLE:
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>>> from spacy.pipeline import TokenVectorEncoder
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>>> tok2vec = TokenVectorEncoder(nlp.vocab)
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>>> tok2vec.model = tok2vec.Model(128, 5000)
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"""
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self.vocab = vocab
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self.doc2feats = doc2feats()
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self.model = model
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def __call__(self, doc):
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"""Add context-sensitive vectors to a `Doc`, e.g. from a CNN or LSTM
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model. Vectors are set to the `Doc.tensor` attribute.
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docs (Doc or iterable): One or more documents to add vectors to.
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RETURNS (dict or None): Intermediate computations.
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"""
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tokvecses = self.predict([doc])
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self.set_annotations([doc], tokvecses)
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return doc
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def pipe(self, stream, batch_size=128, n_threads=-1):
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"""Process `Doc` objects as a stream.
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stream (iterator): A sequence of `Doc` objects to process.
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batch_size (int): Number of `Doc` objects to group.
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n_threads (int): Number of threads.
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YIELDS (iterator): A sequence of `Doc` objects, in order of input.
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"""
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for docs in cytoolz.partition_all(batch_size, stream):
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docs = list(docs)
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tokvecses = self.predict(docs)
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self.set_annotations(docs, tokvecses)
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yield from docs
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def predict(self, docs):
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"""Return a single tensor for a batch of documents.
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docs (iterable): A sequence of `Doc` objects.
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RETURNS (object): Vector representations for each token in the documents.
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"""
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feats = self.doc2feats(docs)
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tokvecs = self.model(feats)
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return tokvecs
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def set_annotations(self, docs, tokvecses):
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"""Set the tensor attribute for a batch of documents.
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docs (iterable): A sequence of `Doc` objects.
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tokvecs (object): Vector representation for each token in the documents.
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"""
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for doc, tokvecs in zip(docs, tokvecses):
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assert tokvecs.shape[0] == len(doc)
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doc.tensor = tokvecs
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def update(self, docs, golds, state=None, drop=0., sgd=None, losses=None):
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"""Update the model.
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docs (iterable): A batch of `Doc` objects.
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golds (iterable): A batch of `GoldParse` objects.
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drop (float): The droput rate.
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sgd (callable): An optimizer.
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RETURNS (dict): Results from the update.
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"""
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if isinstance(docs, Doc):
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docs = [docs]
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feats = self.doc2feats(docs)
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tokvecs, bp_tokvecs = self.model.begin_update(feats, drop=drop)
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return tokvecs, bp_tokvecs
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def get_loss(self, docs, golds, scores):
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# TODO: implement
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raise NotImplementedError
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def begin_training(self, gold_tuples, pipeline=None):
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"""Allocate models, pre-process training data and acquire a trainer and
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optimizer.
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gold_tuples (iterable): Gold-standard training data.
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pipeline (list): The pipeline the model is part of.
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"""
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self.doc2feats = doc2feats()
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if self.model is True:
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self.model = self.Model()
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def use_params(self, params):
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"""Replace weights of models in the pipeline with those provided in the
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params dictionary.
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params (dict): A dictionary of parameters keyed by model ID.
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"""
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with self.model.use_params(params):
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yield
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def to_bytes(self, **exclude):
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serialize = OrderedDict((
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('model', lambda: self.model.to_bytes()),
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('vocab', lambda: self.vocab.to_bytes())
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))
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return util.to_bytes(serialize, exclude)
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def from_bytes(self, bytes_data, **exclude):
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if self.model is True:
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self.model = self.Model()
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deserialize = OrderedDict((
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('model', lambda b: self.model.from_bytes(b)),
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('vocab', lambda b: self.vocab.from_bytes(b))
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))
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util.from_bytes(bytes_data, deserialize, exclude)
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return self
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def to_disk(self, path, **exclude):
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serialize = OrderedDict((
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('model', lambda p: p.open('wb').write(self.model.to_bytes())),
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('vocab', lambda p: self.vocab.to_disk(p))
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))
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util.to_disk(path, serialize, exclude)
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def from_disk(self, path, **exclude):
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if self.model is True:
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self.model = self.Model()
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deserialize = OrderedDict((
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('model', lambda p: self.model.from_bytes(p.open('rb').read())),
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('vocab', lambda p: self.vocab.from_disk(p))
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))
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util.from_disk(path, deserialize, exclude)
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return self
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class NeuralTagger(object):
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name = 'tagger'
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def __init__(self, vocab, model=True):
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self.vocab = vocab
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self.model = model
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def __call__(self, doc):
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tags = self.predict([doc.tensor])
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self.set_annotations([doc], tags)
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return doc
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def pipe(self, stream, batch_size=128, n_threads=-1):
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for docs in cytoolz.partition_all(batch_size, stream):
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tokvecs = [d.tensor for d in docs]
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tag_ids = self.predict(tokvecs)
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self.set_annotations(docs, tag_ids)
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yield from docs
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def predict(self, tokvecs):
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scores = self.model(tokvecs)
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scores = self.model.ops.flatten(scores)
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guesses = scores.argmax(axis=1)
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if not isinstance(guesses, numpy.ndarray):
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guesses = guesses.get()
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guesses = self.model.ops.unflatten(guesses,
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[tv.shape[0] for tv in tokvecs])
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return guesses
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def set_annotations(self, docs, batch_tag_ids):
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if isinstance(docs, Doc):
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docs = [docs]
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cdef Doc doc
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cdef int idx = 0
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cdef Vocab vocab = self.vocab
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for i, doc in enumerate(docs):
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doc_tag_ids = batch_tag_ids[i]
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for j, tag_id in enumerate(doc_tag_ids):
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vocab.morphology.assign_tag_id(&doc.c[j], tag_id)
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idx += 1
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def update(self, docs_tokvecs, golds, drop=0., sgd=None, losses=None):
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docs, tokvecs = docs_tokvecs
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if self.model.nI is None:
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self.model.nI = tokvecs[0].shape[1]
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tag_scores, bp_tag_scores = self.model.begin_update(tokvecs, drop=drop)
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loss, d_tag_scores = self.get_loss(docs, golds, tag_scores)
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d_tokvecs = bp_tag_scores(d_tag_scores, sgd=sgd)
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return d_tokvecs
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def get_loss(self, docs, golds, scores):
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scores = self.model.ops.flatten(scores)
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tag_index = {tag: i for i, tag in enumerate(self.vocab.morphology.tag_names)}
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cdef int idx = 0
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correct = numpy.zeros((scores.shape[0],), dtype='i')
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guesses = scores.argmax(axis=1)
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for gold in golds:
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for tag in gold.tags:
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if tag is None:
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correct[idx] = guesses[idx]
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else:
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correct[idx] = tag_index[tag]
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idx += 1
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correct = self.model.ops.xp.array(correct, dtype='i')
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d_scores = scores - to_categorical(correct, nb_classes=scores.shape[1])
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d_scores /= d_scores.shape[0]
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loss = (d_scores**2).sum()
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d_scores = self.model.ops.unflatten(d_scores, [len(d) for d in docs])
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return float(loss), d_scores
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def begin_training(self, gold_tuples, pipeline=None):
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orig_tag_map = dict(self.vocab.morphology.tag_map)
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new_tag_map = {}
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for raw_text, annots_brackets in gold_tuples:
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for annots, brackets in annots_brackets:
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ids, words, tags, heads, deps, ents = annots
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for tag in tags:
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if tag in orig_tag_map:
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new_tag_map[tag] = orig_tag_map[tag]
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else:
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new_tag_map[tag] = {POS: X}
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cdef Vocab vocab = self.vocab
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if new_tag_map:
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vocab.morphology = Morphology(vocab.strings, new_tag_map,
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vocab.morphology.lemmatizer)
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token_vector_width = pipeline[0].model.nO
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if self.model is True:
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self.model = self.Model(self.vocab.morphology.n_tags, token_vector_width)
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@classmethod
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def Model(cls, n_tags, token_vector_width):
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return with_flatten(
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chain(Maxout(token_vector_width, token_vector_width),
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Softmax(n_tags, token_vector_width)))
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def use_params(self, params):
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with self.model.use_params(params):
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yield
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def to_bytes(self, **exclude):
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serialize = OrderedDict((
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('model', lambda: self.model.to_bytes()),
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('vocab', lambda: self.vocab.to_bytes()),
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('tag_map', lambda: msgpack.dumps(self.vocab.morphology.tag_map,
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use_bin_type=True,
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encoding='utf8'))
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))
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return util.to_bytes(serialize, exclude)
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def from_bytes(self, bytes_data, **exclude):
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def load_model(b):
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if self.model is True:
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token_vector_width = util.env_opt('token_vector_width', 128)
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self.model = self.Model(self.vocab.morphology.n_tags, token_vector_width)
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self.model.from_bytes(b)
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def load_tag_map(b):
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tag_map = msgpack.loads(b, encoding='utf8')
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self.vocab.morphology = Morphology(
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self.vocab.strings, tag_map=tag_map,
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lemmatizer=self.vocab.morphology.lemmatizer)
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deserialize = OrderedDict((
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('vocab', lambda b: self.vocab.from_bytes(b)),
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('tag_map', load_tag_map),
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('model', lambda b: load_model(b)),
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))
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util.from_bytes(bytes_data, deserialize, exclude)
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return self
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def to_disk(self, path, **exclude):
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serialize = OrderedDict((
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('vocab', lambda p: self.vocab.to_disk(p)),
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('tag_map', lambda p: p.open('wb').write(msgpack.dumps(
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self.vocab.morphology.tag_map,
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use_bin_type=True,
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encoding='utf8'))),
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('model', lambda p: p.open('wb').write(self.model.to_bytes())),
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))
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util.to_disk(path, serialize, exclude)
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def from_disk(self, path, **exclude):
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def load_model(p):
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if self.model is True:
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token_vector_width = util.env_opt('token_vector_width', 128)
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self.model = self.Model(self.vocab.morphology.n_tags, token_vector_width)
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self.model.from_bytes(p.open('rb').read())
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def load_tag_map(p):
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with p.open('rb') as file_:
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tag_map = msgpack.loads(file_.read(), encoding='utf8')
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self.vocab.morphology = Morphology(
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self.vocab.strings, tag_map=tag_map,
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lemmatizer=self.vocab.morphology.lemmatizer)
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deserialize = OrderedDict((
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('vocab', lambda p: self.vocab.from_disk(p)),
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('tag_map', load_tag_map),
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('model', load_model),
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))
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util.from_disk(path, deserialize, exclude)
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return self
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class NeuralLabeller(NeuralTagger):
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name = 'nn_labeller'
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def __init__(self, vocab, model=True):
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self.vocab = vocab
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self.model = model
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self.labels = {}
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def set_annotations(self, docs, dep_ids):
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pass
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def begin_training(self, gold_tuples, pipeline=None):
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gold_tuples = nonproj.preprocess_training_data(gold_tuples)
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for raw_text, annots_brackets in gold_tuples:
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for annots, brackets in annots_brackets:
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ids, words, tags, heads, deps, ents = annots
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for dep in deps:
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if dep not in self.labels:
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self.labels[dep] = len(self.labels)
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token_vector_width = pipeline[0].model.nO
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if self.model is True:
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self.model = self.Model(len(self.labels), token_vector_width)
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@classmethod
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def Model(cls, n_tags, token_vector_width):
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return with_flatten(
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chain(Maxout(token_vector_width, token_vector_width),
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Softmax(n_tags, token_vector_width)))
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def get_loss(self, docs, golds, scores):
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scores = self.model.ops.flatten(scores)
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cdef int idx = 0
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correct = numpy.zeros((scores.shape[0],), dtype='i')
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guesses = scores.argmax(axis=1)
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for gold in golds:
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for tag in gold.labels:
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if tag is None or tag not in self.labels:
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correct[idx] = guesses[idx]
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else:
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correct[idx] = self.labels[tag]
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idx += 1
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correct = self.model.ops.xp.array(correct, dtype='i')
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d_scores = scores - to_categorical(correct, nb_classes=scores.shape[1])
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d_scores /= d_scores.shape[0]
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loss = (d_scores**2).sum()
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d_scores = self.model.ops.unflatten(d_scores, [len(d) for d in docs])
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return float(loss), d_scores
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cdef class EntityRecognizer(LinearParser):
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"""Annotate named entities on Doc objects."""
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TransitionSystem = BiluoPushDown
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feature_templates = get_feature_templates('ner')
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def add_label(self, label):
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LinearParser.add_label(self, label)
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if isinstance(label, basestring):
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label = self.vocab.strings[label]
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cdef class BeamEntityRecognizer(BeamParser):
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"""Annotate named entities on Doc objects."""
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TransitionSystem = BiluoPushDown
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feature_templates = get_feature_templates('ner')
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def add_label(self, label):
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LinearParser.add_label(self, label)
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if isinstance(label, basestring):
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label = self.vocab.strings[label]
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cdef class DependencyParser(LinearParser):
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TransitionSystem = ArcEager
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feature_templates = get_feature_templates('basic')
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def add_label(self, label):
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LinearParser.add_label(self, label)
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if isinstance(label, basestring):
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label = self.vocab.strings[label]
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cdef class NeuralDependencyParser(NeuralParser):
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name = 'parser'
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TransitionSystem = ArcEager
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def __reduce__(self):
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return (NeuralDependencyParser, (self.vocab, self.moves, self.model), None, None)
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cdef class NeuralEntityRecognizer(NeuralParser):
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name = 'ner'
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TransitionSystem = BiluoPushDown
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nr_feature = 6
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def __reduce__(self):
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return (NeuralEntityRecognizer, (self.vocab, self.moves, self.model), None, None)
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cdef class BeamDependencyParser(BeamParser):
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TransitionSystem = ArcEager
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feature_templates = get_feature_templates('basic')
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def add_label(self, label):
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Parser.add_label(self, label)
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if isinstance(label, basestring):
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label = self.vocab.strings[label]
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__all__ = ['Tagger', 'DependencyParser', 'EntityRecognizer', 'BeamDependencyParser',
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'BeamEntityRecognizer', 'TokenVectorEnoder']
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