mirror of
https://github.com/explosion/spaCy.git
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f1d77eb140
* Improve handling of missing NER tags GoldParse can accept missing NER tags, if entities is provided in BILUO format (rather than as spans). Missing tags can be provided as None values. Fix bug that occurred when first tag was a None value. Closes #2603. * Document specification of missing NER tags.
701 lines
26 KiB
Cython
701 lines
26 KiB
Cython
# cython: profile=True
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# coding: utf8
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from __future__ import unicode_literals, print_function
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import re
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import random
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import numpy
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import tempfile
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import shutil
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from pathlib import Path
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import srsly
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from . import _align
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from .syntax import nonproj
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from .tokens import Doc, Span
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from .errors import Errors
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from . import util
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from .util import minibatch, itershuffle
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from libc.stdio cimport FILE, fopen, fclose, fread, fwrite, feof, fseek
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def tags_to_entities(tags):
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entities = []
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start = None
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for i, tag in enumerate(tags):
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if tag is None:
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continue
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if tag.startswith('O'):
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# TODO: We shouldn't be getting these malformed inputs. Fix this.
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if start is not None:
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start = None
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continue
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elif tag == '-':
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continue
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elif tag.startswith('I'):
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if start is None:
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raise ValueError(Errors.E067.format(tags=tags[:i+1]))
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continue
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if tag.startswith('U'):
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entities.append((tag[2:], i, i))
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elif tag.startswith('B'):
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start = i
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elif tag.startswith('L'):
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entities.append((tag[2:], start, i))
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start = None
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else:
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raise ValueError(Errors.E068.format(tag=tag))
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return entities
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def merge_sents(sents):
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m_deps = [[], [], [], [], [], []]
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m_brackets = []
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i = 0
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for (ids, words, tags, heads, labels, ner), brackets in sents:
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m_deps[0].extend(id_ + i for id_ in ids)
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m_deps[1].extend(words)
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m_deps[2].extend(tags)
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m_deps[3].extend(head + i for head in heads)
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m_deps[4].extend(labels)
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m_deps[5].extend(ner)
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m_brackets.extend((b['first'] + i, b['last'] + i, b['label'])
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for b in brackets)
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i += len(ids)
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return [(m_deps, m_brackets)]
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punct_re = re.compile(r'\W')
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def align(cand_words, gold_words):
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if cand_words == gold_words:
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alignment = numpy.arange(len(cand_words))
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return 0, alignment, alignment, {}, {}
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cand_words = [w.replace(' ', '').lower() for w in cand_words]
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gold_words = [w.replace(' ', '').lower() for w in gold_words]
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cost, i2j, j2i, matrix = _align.align(cand_words, gold_words)
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i2j_multi, j2i_multi = _align.multi_align(i2j, j2i, [len(w) for w in cand_words],
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[len(w) for w in gold_words])
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for i, j in list(i2j_multi.items()):
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if i2j_multi.get(i+1) != j and i2j_multi.get(i-1) != j:
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i2j[i] = j
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i2j_multi.pop(i)
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for j, i in list(j2i_multi.items()):
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if j2i_multi.get(j+1) != i and j2i_multi.get(j-1) != i:
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j2i[j] = i
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j2i_multi.pop(j)
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return cost, i2j, j2i, i2j_multi, j2i_multi
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class GoldCorpus(object):
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"""An annotated corpus, using the JSON file format. Manages
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annotations for tagging, dependency parsing and NER."""
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def __init__(self, train, dev, gold_preproc=False, limit=None):
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"""Create a GoldCorpus.
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train_path (unicode or Path): File or directory of training data.
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dev_path (unicode or Path): File or directory of development data.
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RETURNS (GoldCorpus): The newly created object.
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"""
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self.limit = limit
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if isinstance(train, str) or isinstance(train, Path):
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train = self.read_tuples(self.walk_corpus(train))
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dev = self.read_tuples(self.walk_corpus(dev))
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# Write temp directory with one doc per file, so we can shuffle
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# and stream
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self.tmp_dir = Path(tempfile.mkdtemp())
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self.write_msgpack(self.tmp_dir / 'train', train, limit=self.limit)
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self.write_msgpack(self.tmp_dir / 'dev', dev, limit=self.limit)
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def __del__(self):
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shutil.rmtree(self.tmp_dir)
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@staticmethod
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def write_msgpack(directory, doc_tuples, limit=0):
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if not directory.exists():
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directory.mkdir()
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n = 0
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for i, doc_tuple in enumerate(doc_tuples):
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srsly.write_msgpack(directory / '{}.msg'.format(i), [doc_tuple])
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n += len(doc_tuple[1])
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if limit and n >= limit:
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break
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@staticmethod
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def walk_corpus(path):
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path = util.ensure_path(path)
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if not path.is_dir():
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return [path]
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paths = [path]
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locs = []
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seen = set()
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for path in paths:
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if str(path) in seen:
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continue
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seen.add(str(path))
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if path.parts[-1].startswith('.'):
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continue
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elif path.is_dir():
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paths.extend(path.iterdir())
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elif path.parts[-1].endswith('.json'):
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locs.append(path)
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return locs
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@staticmethod
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def read_tuples(locs, limit=0):
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i = 0
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for loc in locs:
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loc = util.ensure_path(loc)
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if loc.parts[-1].endswith('json'):
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gold_tuples = read_json_file(loc)
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elif loc.parts[-1].endswith('msg'):
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gold_tuples = srsly.read_msgpack(loc)
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else:
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msg = "Cannot read from file: %s. Supported formats: .json, .msg"
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raise ValueError(msg % loc)
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for item in gold_tuples:
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yield item
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i += len(item[1])
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if limit and i >= limit:
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return
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@property
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def dev_tuples(self):
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locs = (self.tmp_dir / 'dev').iterdir()
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yield from self.read_tuples(locs, limit=self.limit)
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@property
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def train_tuples(self):
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locs = (self.tmp_dir / 'train').iterdir()
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yield from self.read_tuples(locs, limit=self.limit)
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def count_train(self):
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n = 0
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i = 0
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for raw_text, paragraph_tuples in self.train_tuples:
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for sent_tuples, brackets in paragraph_tuples:
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n += len(sent_tuples[1])
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if self.limit and i >= self.limit:
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break
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i += 1
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return n
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def train_docs(self, nlp, gold_preproc=False, max_length=None,
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noise_level=0.0):
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locs = list((self.tmp_dir / 'train').iterdir())
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random.shuffle(locs)
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train_tuples = self.read_tuples(locs, limit=self.limit)
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gold_docs = self.iter_gold_docs(nlp, train_tuples, gold_preproc,
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max_length=max_length,
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noise_level=noise_level,
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make_projective=True)
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yield from gold_docs
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def dev_docs(self, nlp, gold_preproc=False):
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gold_docs = self.iter_gold_docs(nlp, self.dev_tuples,
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gold_preproc=gold_preproc)
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yield from gold_docs
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@classmethod
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def iter_gold_docs(cls, nlp, tuples, gold_preproc, max_length=None,
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noise_level=0.0, make_projective=False):
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for raw_text, paragraph_tuples in tuples:
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if gold_preproc:
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raw_text = None
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else:
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paragraph_tuples = merge_sents(paragraph_tuples)
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docs = cls._make_docs(nlp, raw_text, paragraph_tuples,
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gold_preproc, noise_level=noise_level)
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golds = cls._make_golds(docs, paragraph_tuples, make_projective)
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for doc, gold in zip(docs, golds):
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if (not max_length) or len(doc) < max_length:
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yield doc, gold
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@classmethod
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def _make_docs(cls, nlp, raw_text, paragraph_tuples, gold_preproc,
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noise_level=0.0):
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if raw_text is not None:
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raw_text = add_noise(raw_text, noise_level)
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return [nlp.make_doc(raw_text)]
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else:
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return [Doc(nlp.vocab,
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words=add_noise(sent_tuples[1], noise_level))
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for (sent_tuples, brackets) in paragraph_tuples]
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@classmethod
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def _make_golds(cls, docs, paragraph_tuples, make_projective):
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if len(docs) != len(paragraph_tuples):
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raise ValueError(Errors.E070.format(n_docs=len(docs),
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n_annots=len(paragraph_tuples)))
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if len(docs) == 1:
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return [GoldParse.from_annot_tuples(docs[0],
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paragraph_tuples[0][0],
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make_projective=make_projective)]
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else:
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return [GoldParse.from_annot_tuples(doc, sent_tuples,
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make_projective=make_projective)
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for doc, (sent_tuples, brackets)
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in zip(docs, paragraph_tuples)]
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def add_noise(orig, noise_level):
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if random.random() >= noise_level:
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return orig
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elif type(orig) == list:
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corrupted = [_corrupt(word, noise_level) for word in orig]
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corrupted = [w for w in corrupted if w]
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return corrupted
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else:
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return ''.join(_corrupt(c, noise_level) for c in orig)
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def _corrupt(c, noise_level):
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if random.random() >= noise_level:
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return c
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elif c == ' ':
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return '\n'
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elif c == '\n':
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return ' '
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elif c in ['.', "'", "!", "?", ',']:
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return ''
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else:
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return c.lower()
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def read_json_object(json_corpus_section):
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"""Take a list of JSON-formatted documents (e.g. from an already loaded
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training data file) and yield tuples in the GoldParse format.
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json_corpus_section (list): The data.
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YIELDS (tuple): The reformatted data.
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"""
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for json_doc in json_corpus_section:
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tuple_doc = json_to_tuple(json_doc)
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for tuple_paragraph in tuple_doc:
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yield tuple_paragraph
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def json_to_tuple(doc):
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"""Convert an item in the JSON-formatted training data to the tuple format
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used by GoldParse.
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doc (dict): One entry in the training data.
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YIELDS (tuple): The reformatted data.
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"""
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paragraphs = []
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for paragraph in doc['paragraphs']:
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sents = []
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for sent in paragraph['sentences']:
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words = []
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ids = []
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tags = []
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heads = []
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labels = []
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ner = []
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for i, token in enumerate(sent['tokens']):
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words.append(token['orth'])
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ids.append(i)
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tags.append(token.get('tag', '-'))
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heads.append(token.get('head', 0) + i)
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labels.append(token.get('dep', ''))
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# Ensure ROOT label is case-insensitive
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if labels[-1].lower() == 'root':
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labels[-1] = 'ROOT'
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ner.append(token.get('ner', '-'))
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sents.append([
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[ids, words, tags, heads, labels, ner],
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sent.get('brackets', [])])
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if sents:
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yield [paragraph.get('raw', None), sents]
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def read_json_file(loc, docs_filter=None, limit=None):
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loc = util.ensure_path(loc)
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if loc.is_dir():
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for filename in loc.iterdir():
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yield from read_json_file(loc / filename, limit=limit)
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else:
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for doc in _json_iterate(loc):
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if docs_filter is not None and not docs_filter(doc):
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continue
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for json_tuple in json_to_tuple(doc):
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yield json_tuple
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def _json_iterate(loc):
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# We should've made these files jsonl...But since we didn't, parse out
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# the docs one-by-one to reduce memory usage.
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# It's okay to read in the whole file -- just don't parse it into JSON.
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cdef bytes py_raw
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loc = util.ensure_path(loc)
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with loc.open('rb') as file_:
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py_raw = file_.read()
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raw = <char*>py_raw
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cdef int square_depth = 0
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cdef int curly_depth = 0
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cdef int inside_string = 0
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cdef int escape = 0
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cdef int start = -1
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cdef char c
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cdef char quote = ord('"')
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cdef char backslash = ord('\\')
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cdef char open_square = ord('[')
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cdef char close_square = ord(']')
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cdef char open_curly = ord('{')
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cdef char close_curly = ord('}')
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for i in range(len(py_raw)):
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c = raw[i]
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if escape:
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escape = False
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continue
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if c == backslash:
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escape = True
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continue
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if c == quote:
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inside_string = not inside_string
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continue
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if inside_string:
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continue
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if c == open_square:
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square_depth += 1
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elif c == close_square:
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square_depth -= 1
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elif c == open_curly:
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if square_depth == 1 and curly_depth == 0:
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start = i
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curly_depth += 1
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elif c == close_curly:
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curly_depth -= 1
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if square_depth == 1 and curly_depth == 0:
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py_str = py_raw[start : i+1].decode('utf8')
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try:
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yield srsly.json_loads(py_str)
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except Exception:
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print(py_str)
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raise
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start = -1
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def iob_to_biluo(tags):
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out = []
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curr_label = None
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tags = list(tags)
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while tags:
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out.extend(_consume_os(tags))
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out.extend(_consume_ent(tags))
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return out
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def _consume_os(tags):
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while tags and tags[0] == 'O':
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yield tags.pop(0)
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def _consume_ent(tags):
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if not tags:
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return []
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tag = tags.pop(0)
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target_in = 'I' + tag[1:]
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target_last = 'L' + tag[1:]
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length = 1
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while tags and tags[0] in {target_in, target_last}:
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length += 1
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tags.pop(0)
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label = tag[2:]
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if length == 1:
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return ['U-' + label]
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else:
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start = 'B-' + label
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end = 'L-' + label
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middle = ['I-%s' % label for _ in range(1, length - 1)]
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return [start] + middle + [end]
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cdef class GoldParse:
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"""Collection for training annotations."""
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@classmethod
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def from_annot_tuples(cls, doc, annot_tuples, make_projective=False):
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_, words, tags, heads, deps, entities = annot_tuples
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return cls(doc, words=words, tags=tags, heads=heads, deps=deps,
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entities=entities, make_projective=make_projective)
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def __init__(self, doc, annot_tuples=None, words=None, tags=None,
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heads=None, deps=None, entities=None, make_projective=False,
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cats=None, **_):
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"""Create a GoldParse.
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doc (Doc): The document the annotations refer to.
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words (iterable): A sequence of unicode word strings.
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tags (iterable): A sequence of strings, representing tag annotations.
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heads (iterable): A sequence of integers, representing syntactic
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head offsets.
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deps (iterable): A sequence of strings, representing the syntactic
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relation types.
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entities (iterable): A sequence of named entity annotations, either as
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BILUO tag strings, or as `(start_char, end_char, label)` tuples,
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representing the entity positions.
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cats (dict): Labels for text classification. Each key in the dictionary
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may be a string or an int, or a `(start_char, end_char, label)`
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tuple, indicating that the label is applied to only part of the
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document (usually a sentence). Unlike entity annotations, label
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annotations can overlap, i.e. a single word can be covered by
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multiple labelled spans. The TextCategorizer component expects
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true examples of a label to have the value 1.0, and negative
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examples of a label to have the value 0.0. Labels not in the
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dictionary are treated as missing - the gradient for those labels
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will be zero.
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RETURNS (GoldParse): The newly constructed object.
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"""
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if words is None:
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words = [token.text for token in doc]
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if tags is None:
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tags = [None for _ in doc]
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if heads is None:
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heads = [None for token in doc]
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if deps is None:
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deps = [None for _ in doc]
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if entities is None:
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entities = ['-' for _ in doc]
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elif len(entities) == 0:
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entities = ['O' for _ in doc]
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else:
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# Translate the None values to '-', to make processing easier.
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# See Issue #2603
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entities = [(ent if ent is not None else '-') for ent in entities]
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if not isinstance(entities[0], basestring):
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# Assume we have entities specified by character offset.
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entities = biluo_tags_from_offsets(doc, entities)
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self.mem = Pool()
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self.loss = 0
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self.length = len(doc)
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# These are filled by the tagger/parser/entity recogniser
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self.c.tags = <int*>self.mem.alloc(len(doc), sizeof(int))
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self.c.heads = <int*>self.mem.alloc(len(doc), sizeof(int))
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self.c.labels = <attr_t*>self.mem.alloc(len(doc), sizeof(attr_t))
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self.c.has_dep = <int*>self.mem.alloc(len(doc), sizeof(int))
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self.c.sent_start = <int*>self.mem.alloc(len(doc), sizeof(int))
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self.c.ner = <Transition*>self.mem.alloc(len(doc), sizeof(Transition))
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self.cats = {} if cats is None else dict(cats)
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self.words = [None] * len(doc)
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self.tags = [None] * len(doc)
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self.heads = [None] * len(doc)
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self.labels = [None] * len(doc)
|
|
self.ner = [None] * len(doc)
|
|
|
|
# This needs to be done before we align the words
|
|
if make_projective and heads is not None and deps is not None:
|
|
heads, deps = nonproj.projectivize(heads, deps)
|
|
|
|
# Do many-to-one alignment for misaligned tokens.
|
|
# If we over-segment, we'll have one gold word that covers a sequence
|
|
# of predicted words
|
|
# If we under-segment, we'll have one predicted word that covers a
|
|
# sequence of gold words.
|
|
# If we "mis-segment", we'll have a sequence of predicted words covering
|
|
# a sequence of gold words. That's many-to-many -- we don't do that.
|
|
cost, i2j, j2i, i2j_multi, j2i_multi = align([t.orth_ for t in doc], words)
|
|
|
|
self.cand_to_gold = [(j if j >= 0 else None) for j in i2j]
|
|
self.gold_to_cand = [(i if i >= 0 else None) for i in j2i]
|
|
|
|
annot_tuples = (range(len(words)), words, tags, heads, deps, entities)
|
|
self.orig_annot = list(zip(*annot_tuples))
|
|
|
|
for i, gold_i in enumerate(self.cand_to_gold):
|
|
if doc[i].text.isspace():
|
|
self.words[i] = doc[i].text
|
|
self.tags[i] = '_SP'
|
|
self.heads[i] = None
|
|
self.labels[i] = None
|
|
self.ner[i] = 'O'
|
|
if gold_i is None:
|
|
if i in i2j_multi:
|
|
self.words[i] = words[i2j_multi[i]]
|
|
self.tags[i] = tags[i2j_multi[i]]
|
|
is_last = i2j_multi[i] != i2j_multi.get(i+1)
|
|
is_first = i2j_multi[i] != i2j_multi.get(i-1)
|
|
# Set next word in multi-token span as head, until last
|
|
if not is_last:
|
|
self.heads[i] = i+1
|
|
self.labels[i] = 'subtok'
|
|
else:
|
|
self.heads[i] = self.gold_to_cand[heads[i2j_multi[i]]]
|
|
self.labels[i] = deps[i2j_multi[i]]
|
|
# Now set NER...This is annoying because if we've split
|
|
# got an entity word split into two, we need to adjust the
|
|
# BILOU tags. We can't have BB or LL etc.
|
|
# Case 1: O -- easy.
|
|
ner_tag = entities[i2j_multi[i]]
|
|
if ner_tag == 'O':
|
|
self.ner[i] = 'O'
|
|
# Case 2: U. This has to become a B I* L sequence.
|
|
elif ner_tag.startswith('U-'):
|
|
if is_first:
|
|
self.ner[i] = ner_tag.replace('U-', 'B-', 1)
|
|
elif is_last:
|
|
self.ner[i] = ner_tag.replace('U-', 'L-', 1)
|
|
else:
|
|
self.ner[i] = ner_tag.replace('U-', 'I-', 1)
|
|
# Case 3: L. If not last, change to I.
|
|
elif ner_tag.startswith('L-'):
|
|
if is_last:
|
|
self.ner[i] = ner_tag
|
|
else:
|
|
self.ner[i] = ner_tag.replace('L-', 'I-', 1)
|
|
# Case 4: I. Stays correct
|
|
elif ner_tag.startswith('I-'):
|
|
self.ner[i] = ner_tag
|
|
else:
|
|
self.words[i] = words[gold_i]
|
|
self.tags[i] = tags[gold_i]
|
|
if heads[gold_i] is None:
|
|
self.heads[i] = None
|
|
else:
|
|
self.heads[i] = self.gold_to_cand[heads[gold_i]]
|
|
self.labels[i] = deps[gold_i]
|
|
self.ner[i] = entities[gold_i]
|
|
|
|
cycle = nonproj.contains_cycle(self.heads)
|
|
if cycle is not None:
|
|
raise ValueError(Errors.E069.format(cycle=cycle))
|
|
|
|
def __len__(self):
|
|
"""Get the number of gold-standard tokens.
|
|
|
|
RETURNS (int): The number of gold-standard tokens.
|
|
"""
|
|
return self.length
|
|
|
|
@property
|
|
def is_projective(self):
|
|
"""Whether the provided syntactic annotations form a projective
|
|
dependency tree.
|
|
"""
|
|
return not nonproj.is_nonproj_tree(self.heads)
|
|
|
|
property sent_starts:
|
|
def __get__(self):
|
|
return [self.c.sent_start[i] for i in range(self.length)]
|
|
|
|
def __set__(self, sent_starts):
|
|
for gold_i, is_sent_start in enumerate(sent_starts):
|
|
i = self.gold_to_cand[gold_i]
|
|
if i is not None:
|
|
if is_sent_start in (1, True):
|
|
self.c.sent_start[i] = 1
|
|
elif is_sent_start in (-1, False):
|
|
self.c.sent_start[i] = -1
|
|
else:
|
|
self.c.sent_start[i] = 0
|
|
|
|
|
|
def docs_to_json(docs, underscore=None):
|
|
"""Convert a list of Doc objects into the JSON-serializable format used by
|
|
the spacy train command.
|
|
|
|
docs (iterable / Doc): The Doc object(s) to convert.
|
|
underscore (list): Optional list of string names of custom doc._.
|
|
attributes. Attribute values need to be JSON-serializable. Values will
|
|
be added to an "_" key in the data, e.g. "_": {"foo": "bar"}.
|
|
RETURNS (list): The data in spaCy's JSON format.
|
|
"""
|
|
if isinstance(docs, Doc):
|
|
docs = [docs]
|
|
return [doc.to_json(underscore=underscore) for doc in docs]
|
|
|
|
|
|
def biluo_tags_from_offsets(doc, entities, missing='O'):
|
|
"""Encode labelled spans into per-token tags, using the
|
|
Begin/In/Last/Unit/Out scheme (BILUO).
|
|
|
|
doc (Doc): The document that the entity offsets refer to. The output tags
|
|
will refer to the token boundaries within the document.
|
|
entities (iterable): A sequence of `(start, end, label)` triples. `start`
|
|
and `end` should be character-offset integers denoting the slice into
|
|
the original string.
|
|
RETURNS (list): A list of unicode strings, describing the tags. Each tag
|
|
string will be of the form either "", "O" or "{action}-{label}", where
|
|
action is one of "B", "I", "L", "U". The string "-" is used where the
|
|
entity offsets don't align with the tokenization in the `Doc` object.
|
|
The training algorithm will view these as missing values. "O" denotes a
|
|
non-entity token. "B" denotes the beginning of a multi-token entity,
|
|
"I" the inside of an entity of three or more tokens, and "L" the end
|
|
of an entity of two or more tokens. "U" denotes a single-token entity.
|
|
|
|
EXAMPLE:
|
|
>>> text = 'I like London.'
|
|
>>> entities = [(len('I like '), len('I like London'), 'LOC')]
|
|
>>> doc = nlp.tokenizer(text)
|
|
>>> tags = biluo_tags_from_offsets(doc, entities)
|
|
>>> assert tags == ['O', 'O', 'U-LOC', 'O']
|
|
"""
|
|
starts = {token.idx: token.i for token in doc}
|
|
ends = {token.idx+len(token): token.i for token in doc}
|
|
biluo = ['-' for _ in doc]
|
|
# Handle entity cases
|
|
for start_char, end_char, label in entities:
|
|
start_token = starts.get(start_char)
|
|
end_token = ends.get(end_char)
|
|
# Only interested if the tokenization is correct
|
|
if start_token is not None and end_token is not None:
|
|
if start_token == end_token:
|
|
biluo[start_token] = 'U-%s' % label
|
|
else:
|
|
biluo[start_token] = 'B-%s' % label
|
|
for i in range(start_token+1, end_token):
|
|
biluo[i] = 'I-%s' % label
|
|
biluo[end_token] = 'L-%s' % label
|
|
# Now distinguish the O cases from ones where we miss the tokenization
|
|
entity_chars = set()
|
|
for start_char, end_char, label in entities:
|
|
for i in range(start_char, end_char):
|
|
entity_chars.add(i)
|
|
for token in doc:
|
|
for i in range(token.idx, token.idx+len(token)):
|
|
if i in entity_chars:
|
|
break
|
|
else:
|
|
biluo[token.i] = missing
|
|
return biluo
|
|
|
|
|
|
def spans_from_biluo_tags(doc, tags):
|
|
"""Encode per-token tags following the BILUO scheme into Span object, e.g.
|
|
to overwrite the doc.ents.
|
|
|
|
doc (Doc): The document that the BILUO tags refer to.
|
|
entities (iterable): A sequence of BILUO tags with each tag describing one
|
|
token. Each tags string will be of the form of either "", "O" or
|
|
"{action}-{label}", where action is one of "B", "I", "L", "U".
|
|
RETURNS (list): A sequence of Span objects.
|
|
"""
|
|
token_offsets = tags_to_entities(tags)
|
|
spans = []
|
|
for label, start_idx, end_idx in token_offsets:
|
|
span = Span(doc, start_idx, end_idx + 1, label=label)
|
|
spans.append(span)
|
|
return spans
|
|
|
|
|
|
def offsets_from_biluo_tags(doc, tags):
|
|
"""Encode per-token tags following the BILUO scheme into entity offsets.
|
|
|
|
doc (Doc): The document that the BILUO tags refer to.
|
|
entities (iterable): A sequence of BILUO tags with each tag describing one
|
|
token. Each tags string will be of the form of either "", "O" or
|
|
"{action}-{label}", where action is one of "B", "I", "L", "U".
|
|
RETURNS (list): A sequence of `(start, end, label)` triples. `start` and
|
|
`end` will be character-offset integers denoting the slice into the
|
|
original string.
|
|
"""
|
|
spans = spans_from_biluo_tags(doc, tags)
|
|
return [(span.start_char, span.end_char, span.label_) for span in spans]
|
|
|
|
|
|
def is_punct_label(label):
|
|
return label == 'P' or label.lower() == 'punct'
|