spaCy/spacy/syntax/parser.pyx

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"""
MALT-style dependency parser
"""
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# coding: utf-8
# cython: infer_types=True
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from __future__ import unicode_literals
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from collections import Counter
import ujson
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cimport cython
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cimport cython.parallel
import numpy.random
from cpython.ref cimport PyObject, Py_INCREF, Py_XDECREF
from cpython.exc cimport PyErr_CheckSignals
from libc.stdint cimport uint32_t, uint64_t
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from libc.string cimport memset, memcpy
from libc.stdlib cimport malloc, calloc, free
from thinc.typedefs cimport weight_t, class_t, feat_t, atom_t, hash_t
from thinc.linear.avgtron cimport AveragedPerceptron
from thinc.linalg cimport VecVec
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from thinc.structs cimport SparseArrayC, FeatureC, ExampleC
from thinc.extra.eg cimport Example
from cymem.cymem cimport Pool, Address
from murmurhash.mrmr cimport hash64
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from preshed.maps cimport MapStruct
from preshed.maps cimport map_get
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from . import _parse_features
from ._parse_features cimport CONTEXT_SIZE
from ._parse_features cimport fill_context
from .stateclass cimport StateClass
from ._state cimport StateC
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from .nonproj import PseudoProjectivity
from .transition_system import OracleError
from .transition_system cimport TransitionSystem, Transition
from ..structs cimport TokenC
from ..tokens.doc cimport Doc
from ..strings cimport StringStore
from ..gold cimport GoldParse
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USE_FTRL = True
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DEBUG = False
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def set_debug(val):
global DEBUG
DEBUG = val
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def get_templates(*args, **kwargs):
return []
cdef class Parser:
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"""
Base class of the DependencyParser and EntityRecognizer.
"""
@classmethod
def load(cls, path, Vocab vocab, TransitionSystem=None, require=False, **cfg):
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"""
Load the statistical model from the supplied path.
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Arguments:
path (Path):
The path to load from.
vocab (Vocab):
The vocabulary. Must be shared by the documents to be processed.
require (bool):
Whether to raise an error if the files are not found.
Returns (Parser):
The newly constructed object.
"""
with (path / 'config.json').open() as file_:
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cfg = ujson.load(file_)
self = cls(vocab, TransitionSystem=TransitionSystem, model=None, **cfg)
if (path / 'model').exists():
self.model.load(str(path / 'model'))
elif require:
raise IOError(
"Required file %s/model not found when loading" % str(path))
return self
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def __init__(self, Vocab vocab, TransitionSystem=None, model=None, **cfg):
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"""
Create a Parser.
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Arguments:
vocab (Vocab):
The vocabulary object. Must be shared with documents to be processed.
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model (thinc Model):
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The statistical model.
Returns (Parser):
The newly constructed object.
"""
if TransitionSystem is None:
TransitionSystem = self.TransitionSystem
self.vocab = vocab
cfg['actions'] = TransitionSystem.get_actions(**cfg)
self.moves = TransitionSystem(vocab.strings, cfg['actions'])
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if model is None:
model = self.build_model(**cfg)
self.model = model
self.cfg = cfg
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def __reduce__(self):
return (Parser, (self.vocab, self.moves, self.model), None, None)
def __call__(self, Doc tokens):
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"""
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Apply the parser or entity recognizer, setting the annotations onto the Doc object.
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Arguments:
doc (Doc): The document to be processed.
Returns:
None
"""
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self.parse_batch([tokens])
self.moves.finalize_doc(tokens)
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def parse_batch(self, docs):
states = self._init_states(docs)
nr_class = self.moves.n_moves
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cdef StateClass state
cdef int guess
is_valid = self.model.ops.allocate((len(docs), nr_class), dtype='i')
todo = list(states)
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while todo:
scores = self.model.predict(todo)
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self._validate_batch(is_valid, states)
scores *= is_valid
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for state, guess in zip(todo, scores.argmax(axis=1)):
action = self.moves.c[guess]
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action.do(state.c, action.label)
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todo = [state for state in todo if not state.is_final()]
for state, doc in zip(states, docs):
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self.moves.finalize_state(state.c)
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def pipe(self, stream, int batch_size=1000, int n_threads=2):
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"""
Process a stream of documents.
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Arguments:
stream: The sequence of documents to process.
batch_size (int):
The number of documents to accumulate into a working set.
n_threads (int):
The number of threads with which to work on the buffer in parallel.
Yields (Doc): Documents, in order.
"""
cdef Pool mem = Pool()
cdef int* lengths = <int*>mem.alloc(batch_size, sizeof(int))
cdef Doc doc
cdef int i
cdef int nr_feat = self.model.nr_feat
cdef int status
queue = []
for doc in stream:
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queue.append(doc)
if len(queue) == batch_size:
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self.parse_batch(queue)
for doc in queue:
self.moves.finalize_doc(doc)
yield doc
queue = []
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if queue:
self.parse_batch(queue)
for doc in queue:
self.moves.finalize_doc(doc)
yield doc
def update(self, docs, golds, drop=0., sgd=None):
if isinstance(docs, Doc) and isinstance(golds, GoldParse):
return self.update([docs], [golds], drop=drop)
states = self._init_states(docs)
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d_tokens = [self.model.ops.allocate(d.tensor.shape) for d in docs]
nr_class = self.moves.n_moves
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costs = self.model.ops.allocate((len(docs), nr_class), dtype='f')
is_valid = self.model.ops.allocate((len(docs), nr_class), dtype='i')
todo = zip(states, golds, d_tokens)
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while states:
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states, golds, d_tokens = zip(*todo)
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scores, finish_update = self.model.begin_update(states, drop=drop)
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self._cost_batch(is_valid, costs, states, golds)
scores *= is_valid
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self._set_gradient(gradients, scores, costs)
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token_ids, batch_token_grads = finish_update(gradients, sgd=sgd)
for i, tok_i in enumerate(token_ids):
d_tokens[tok_i] += batch_token_grads[i]
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self._transition_batch(states, scores)
# Get unfinished states (and their matching gold and token gradients)
todo = zip(states, golds, d_tokens)
todo = filter(todo, lambda sp: sp[0].is_final)
gradients = gradients[:len(todo)]
costs = costs[:len(todo)]
is_valid = is_valid[:len(todo)]
gradients.fill(0)
costs.fill(0)
is_valid.fill(1)
return 0
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def _init_states(self, docs):
states = []
cdef Doc doc
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cdef StateClass state
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for i, doc in enumerate(docs):
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state = StateClass(doc)
self.moves.initialize_state(state.c)
states.append(state)
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return states
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def _validate_batch(self, int[:, ::1] is_valid, states):
cdef StateClass state
cdef int i
for i, state in enumerate(states):
self.moves.set_valid(&is_valid[i, 0], state.c)
def _cost_batch(self, weight_t[:, ::1] costs, int[:, ::1] is_valid,
states, golds):
cdef int i
cdef StateClass state
cdef GoldParse gold
for i, (state, gold) in enumerate(zip(states, golds)):
self.moves.set_costs(&is_valid[i, 0], &costs[i, 0], state, gold)
def _transition_batch(self, states, scores):
cdef StateClass state
cdef int guess
for state, guess in zip(states, scores.argmax(axis=1)):
action = self.moves.c[guess]
action.do(state.c, action.label)
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def _set_gradient(self, gradients, scores, costs):
"""Do multi-label log loss"""
cdef double Z, gZ, max_, g_max
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g_scores = scores * (costs <= 0)
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maxes = scores.max(axis=1)
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g_maxes = g_scores.max(axis=1)
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exps = (scores-maxes).exp()
g_exps = (g_scores-g_maxes).exp()
Zs = exps.sum(axis=1)
gZs = g_exps.sum(axis=1)
logprob = exps / Zs
g_logprob = g_exps / gZs
gradients[:] = logprob - g_logprob
def step_through(self, Doc doc, GoldParse gold=None):
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"""
Set up a stepwise state, to introspect and control the transition sequence.
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Arguments:
doc (Doc): The document to step through.
gold (GoldParse): Optional gold parse
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Returns (StepwiseState):
A state object, to step through the annotation process.
"""
return StepwiseState(self, doc, gold=gold)
def from_transition_sequence(self, Doc doc, sequence):
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"""Control the annotations on a document by specifying a transition sequence
to follow.
Arguments:
doc (Doc): The document to annotate.
sequence: A sequence of action names, as unicode strings.
Returns: None
"""
with self.step_through(doc) as stepwise:
for transition in sequence:
stepwise.transition(transition)
def add_label(self, label):
# Doesn't set label into serializer -- subclasses override it to do that.
for action in self.moves.action_types:
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added = self.moves.add_action(action, label)
if added:
# Important that the labels be stored as a list! We need the
# order, or the model goes out of synch
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self.cfg.setdefault('extra_labels', []).append(label)
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cdef int dropout(FeatureC* feats, int nr_feat, float prob) except -1:
if prob <= 0 or prob >= 1.:
return 0
cdef double[::1] py_probs = numpy.random.uniform(0., 1., nr_feat)
cdef double* probs = &py_probs[0]
for i in range(nr_feat):
if probs[i] >= prob:
feats[i].value /= prob
else:
feats[i].value = 0.
cdef class StepwiseState:
cdef readonly StateClass stcls
cdef readonly Example eg
cdef readonly Doc doc
cdef readonly GoldParse gold
cdef readonly Parser parser
def __init__(self, Parser parser, Doc doc, GoldParse gold=None):
self.parser = parser
self.doc = doc
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if gold is not None:
self.gold = gold
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self.parser.moves.preprocess_gold(self.gold)
else:
self.gold = GoldParse(doc)
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self.stcls = StateClass.init(doc.c, doc.length)
self.parser.moves.initialize_state(self.stcls.c)
self.eg = Example(
nr_class=self.parser.moves.n_moves,
nr_atom=CONTEXT_SIZE,
nr_feat=self.parser.model.nr_feat)
def __enter__(self):
return self
def __exit__(self, type, value, traceback):
self.finish()
@property
def is_final(self):
return self.stcls.is_final()
@property
def stack(self):
return self.stcls.stack
@property
def queue(self):
return self.stcls.queue
@property
def heads(self):
return [self.stcls.H(i) for i in range(self.stcls.c.length)]
@property
def deps(self):
return [self.doc.vocab.strings[self.stcls.c._sent[i].dep]
for i in range(self.stcls.c.length)]
@property
def costs(self):
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"""
Find the action-costs for the current state.
"""
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if not self.gold:
raise ValueError("Can't set costs: No GoldParse provided")
self.parser.moves.set_costs(self.eg.c.is_valid, self.eg.c.costs,
self.stcls, self.gold)
costs = {}
for i in range(self.parser.moves.n_moves):
if not self.eg.c.is_valid[i]:
continue
transition = self.parser.moves.c[i]
name = self.parser.moves.move_name(transition.move, transition.label)
costs[name] = self.eg.c.costs[i]
return costs
def predict(self):
self.eg.reset()
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#self.eg.c.nr_feat = self.parser.model.set_featuresC(self.eg.c.atoms, self.eg.c.features,
# self.stcls.c)
self.parser.moves.set_valid(self.eg.c.is_valid, self.stcls.c)
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#self.parser.model.set_scoresC(self.eg.c.scores,
# self.eg.c.features, self.eg.c.nr_feat)
cdef Transition action = self.parser.moves.c[self.eg.guess]
return self.parser.moves.move_name(action.move, action.label)
def transition(self, action_name=None):
if action_name is None:
action_name = self.predict()
moves = {'S': 0, 'D': 1, 'L': 2, 'R': 3}
if action_name == '_':
action_name = self.predict()
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action = self.parser.moves.lookup_transition(action_name)
elif action_name == 'L' or action_name == 'R':
self.predict()
move = moves[action_name]
clas = _arg_max_clas(self.eg.c.scores, move, self.parser.moves.c,
self.eg.c.nr_class)
action = self.parser.moves.c[clas]
else:
action = self.parser.moves.lookup_transition(action_name)
action.do(self.stcls.c, action.label)
def finish(self):
if self.stcls.is_final():
self.parser.moves.finalize_state(self.stcls.c)
self.doc.set_parse(self.stcls.c._sent)
self.parser.moves.finalize_doc(self.doc)
class ParserStateError(ValueError):
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def __init__(self, doc):
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ValueError.__init__(self,
"Error analysing doc -- no valid actions available. This should "
"never happen, so please report the error on the issue tracker. "
"Here's the thread to do so --- reopen it if it's closed:\n"
"https://github.com/spacy-io/spaCy/issues/429\n"
"Please include the text that the parser failed on, which is:\n"
"%s" % repr(doc.text))
cdef int arg_max_if_gold(const weight_t* scores, const weight_t* costs, int n) nogil:
cdef int best = -1
for i in range(n):
if costs[i] <= 0:
if best == -1 or scores[i] > scores[best]:
best = i
return best
cdef int _arg_max_clas(const weight_t* scores, int move, const Transition* actions,
int nr_class) except -1:
cdef weight_t score = 0
cdef int mode = -1
cdef int i
for i in range(nr_class):
if actions[i].move == move and (mode == -1 or scores[i] >= score):
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mode = i
score = scores[i]
return mode