mirror of
https://github.com/explosion/spaCy.git
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4d52d7051c
* overfitting test on non-overlapping entities * add failing overfitting test for overlapping entities * failing test for list comprehension * remove test that was put in separate PR * bugfix * cleanup
430 lines
16 KiB
Python
430 lines
16 KiB
Python
import numpy
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from typing import List, Dict, Callable, Tuple, Optional, Iterable, Any
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from thinc.api import Config, Model, get_current_ops, set_dropout_rate, Ops
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from thinc.api import Optimizer
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from thinc.types import Ragged, Ints2d, Floats2d
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from ..scorer import Scorer
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from ..language import Language
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from .trainable_pipe import TrainablePipe
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from ..tokens import Doc, SpanGroup, Span
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from ..vocab import Vocab
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from ..training import Example, validate_examples
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from ..errors import Errors
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from ..util import registry
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spancat_default_config = """
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[model]
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@architectures = "spacy.SpanCategorizer.v1"
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scorer = {"@layers": "spacy.LinearLogistic.v1"}
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[model.reducer]
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@layers = spacy.mean_max_reducer.v1
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hidden_size = 128
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[model.tok2vec]
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@architectures = "spacy.Tok2Vec.v1"
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[model.tok2vec.embed]
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@architectures = "spacy.MultiHashEmbed.v1"
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width = 96
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rows = [5000, 2000, 1000, 1000]
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attrs = ["ORTH", "PREFIX", "SUFFIX", "SHAPE"]
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include_static_vectors = false
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[model.tok2vec.encode]
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@architectures = "spacy.MaxoutWindowEncoder.v1"
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width = ${model.tok2vec.embed.width}
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window_size = 1
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maxout_pieces = 3
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depth = 4
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"""
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DEFAULT_SPANCAT_MODEL = Config().from_str(spancat_default_config)["model"]
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@registry.misc("spacy.ngram_suggester.v1")
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def build_ngram_suggester(sizes: List[int]) -> Callable[[List[Doc]], Ragged]:
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"""Suggest all spans of the given lengths. Spans are returned as a ragged
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array of integers. The array has two columns, indicating the start and end
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position."""
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def ngram_suggester(docs: List[Doc], *, ops: Optional[Ops] = None) -> Ragged:
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if ops is None:
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ops = get_current_ops()
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spans = []
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lengths = []
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for doc in docs:
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starts = ops.xp.arange(len(doc), dtype="i")
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starts = starts.reshape((-1, 1))
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length = 0
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for size in sizes:
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if size <= len(doc):
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starts_size = starts[: len(doc) - (size - 1)]
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spans.append(ops.xp.hstack((starts_size, starts_size + size)))
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length += spans[-1].shape[0]
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if spans:
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assert spans[-1].ndim == 2, spans[-1].shape
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lengths.append(length)
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if len(spans) > 0:
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output = Ragged(ops.xp.vstack(spans), ops.asarray(lengths, dtype="i"))
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else:
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output = Ragged(ops.xp.zeros((0, 0)), ops.asarray(lengths, dtype="i"))
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assert output.dataXd.ndim == 2
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return output
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return ngram_suggester
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@registry.misc("spacy.ngram_range_suggester.v1")
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def build_ngram_range_suggester(
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min_size: int, max_size: int
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) -> Callable[[List[Doc]], Ragged]:
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"""Suggest all spans of the given lengths between a given min and max value - both inclusive.
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Spans are returned as a ragged array of integers. The array has two columns,
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indicating the start and end position."""
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sizes = range(min_size, max_size + 1)
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return build_ngram_suggester(sizes)
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@Language.factory(
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"spancat",
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assigns=["doc.spans"],
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default_config={
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"threshold": 0.5,
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"spans_key": "sc",
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"max_positive": None,
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"model": DEFAULT_SPANCAT_MODEL,
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"suggester": {"@misc": "spacy.ngram_suggester.v1", "sizes": [1, 2, 3]},
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},
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default_score_weights={"spans_sc_f": 1.0, "spans_sc_p": 0.0, "spans_sc_r": 0.0},
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)
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def make_spancat(
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nlp: Language,
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name: str,
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suggester: Callable[[List[Doc]], Ragged],
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model: Model[Tuple[List[Doc], Ragged], Floats2d],
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spans_key: str,
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threshold: float = 0.5,
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max_positive: Optional[int] = None,
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) -> "SpanCategorizer":
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"""Create a SpanCategorizer component. The span categorizer consists of two
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parts: a suggester function that proposes candidate spans, and a labeller
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model that predicts one or more labels for each span.
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suggester (Callable[List[Doc], Ragged]): A function that suggests spans.
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Spans are returned as a ragged array with two integer columns, for the
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start and end positions.
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model (Model[Tuple[List[Doc], Ragged], Floats2d]): A model instance that
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is given a list of documents and (start, end) indices representing
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candidate span offsets. The model predicts a probability for each category
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for each span.
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spans_key (str): Key of the doc.spans dict to save the spans under. During
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initialization and training, the component will look for spans on the
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reference document under the same key.
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threshold (float): Minimum probability to consider a prediction positive.
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Spans with a positive prediction will be saved on the Doc. Defaults to
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0.5.
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max_positive (Optional[int]): Maximum number of labels to consider positive
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per span. Defaults to None, indicating no limit.
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"""
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return SpanCategorizer(
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nlp.vocab,
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suggester=suggester,
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model=model,
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spans_key=spans_key,
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threshold=threshold,
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max_positive=max_positive,
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name=name,
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)
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class SpanCategorizer(TrainablePipe):
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"""Pipeline component to label spans of text.
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DOCS: https://spacy.io/api/spancategorizer
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"""
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def __init__(
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self,
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vocab: Vocab,
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model: Model[Tuple[List[Doc], Ragged], Floats2d],
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suggester: Callable[[List[Doc]], Ragged],
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name: str = "spancat",
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*,
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spans_key: str = "spans",
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threshold: float = 0.5,
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max_positive: Optional[int] = None,
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) -> None:
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"""Initialize the span categorizer.
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DOCS: https://spacy.io/api/spancategorizer#init
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"""
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self.cfg = {
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"labels": [],
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"spans_key": spans_key,
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"threshold": threshold,
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"max_positive": max_positive,
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}
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self.vocab = vocab
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self.suggester = suggester
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self.model = model
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self.name = name
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@property
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def key(self) -> str:
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"""Key of the doc.spans dict to save the spans under. During
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initialization and training, the component will look for spans on the
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reference document under the same key.
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"""
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return self.cfg["spans_key"]
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def add_label(self, label: str) -> int:
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"""Add a new label to the pipe.
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label (str): The label to add.
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RETURNS (int): 0 if label is already present, otherwise 1.
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DOCS: https://spacy.io/api/spancategorizer#add_label
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"""
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if not isinstance(label, str):
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raise ValueError(Errors.E187)
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if label in self.labels:
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return 0
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self._allow_extra_label()
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self.cfg["labels"].append(label)
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self.vocab.strings.add(label)
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return 1
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@property
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def labels(self) -> Tuple[str]:
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"""RETURNS (Tuple[str]): The labels currently added to the component.
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DOCS: https://spacy.io/api/spancategorizer#labels
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"""
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return tuple(self.cfg["labels"])
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@property
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def label_data(self) -> List[str]:
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"""RETURNS (List[str]): Information about the component's labels.
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DOCS: https://spacy.io/api/spancategorizer#label_data
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"""
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return list(self.labels)
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def predict(self, docs: Iterable[Doc]):
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"""Apply the pipeline's model to a batch of docs, without modifying them.
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docs (Iterable[Doc]): The documents to predict.
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RETURNS: The models prediction for each document.
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DOCS: https://spacy.io/api/spancategorizer#predict
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"""
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indices = self.suggester(docs, ops=self.model.ops)
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scores = self.model.predict((docs, indices))
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return (indices, scores)
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def set_annotations(self, docs: Iterable[Doc], indices_scores) -> None:
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"""Modify a batch of Doc objects, using pre-computed scores.
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docs (Iterable[Doc]): The documents to modify.
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scores: The scores to set, produced by SpanCategorizer.predict.
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DOCS: https://spacy.io/api/spancategorizer#set_annotations
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"""
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labels = self.labels
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indices, scores = indices_scores
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offset = 0
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for i, doc in enumerate(docs):
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indices_i = indices[i].dataXd
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doc.spans[self.key] = self._make_span_group(
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doc, indices_i, scores[offset : offset + indices.lengths[i]], labels
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)
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offset += indices.lengths[i]
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def update(
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self,
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examples: Iterable[Example],
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*,
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drop: float = 0.0,
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sgd: Optional[Optimizer] = None,
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losses: Optional[Dict[str, float]] = None,
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) -> Dict[str, float]:
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"""Learn from a batch of documents and gold-standard information,
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updating the pipe's model. Delegates to predict and get_loss.
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examples (Iterable[Example]): A batch of Example objects.
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drop (float): The dropout rate.
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sgd (thinc.api.Optimizer): The optimizer.
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losses (Dict[str, float]): Optional record of the loss during training.
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Updated using the component name as the key.
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RETURNS (Dict[str, float]): The updated losses dictionary.
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DOCS: https://spacy.io/api/spancategorizer#update
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"""
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if losses is None:
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losses = {}
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losses.setdefault(self.name, 0.0)
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validate_examples(examples, "SpanCategorizer.update")
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self._validate_categories(examples)
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if not any(len(eg.predicted) if eg.predicted else 0 for eg in examples):
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# Handle cases where there are no tokens in any docs.
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return losses
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docs = [eg.predicted for eg in examples]
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spans = self.suggester(docs, ops=self.model.ops)
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if spans.lengths.sum() == 0:
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return losses
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set_dropout_rate(self.model, drop)
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scores, backprop_scores = self.model.begin_update((docs, spans))
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loss, d_scores = self.get_loss(examples, (spans, scores))
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backprop_scores(d_scores)
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if sgd is not None:
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self.finish_update(sgd)
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losses[self.name] += loss
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return losses
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def get_loss(
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self, examples: Iterable[Example], spans_scores: Tuple[Ragged, Ragged]
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) -> Tuple[float, float]:
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"""Find the loss and gradient of loss for the batch of documents and
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their predicted scores.
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examples (Iterable[Examples]): The batch of examples.
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spans_scores: Scores representing the model's predictions.
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RETURNS (Tuple[float, float]): The loss and the gradient.
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DOCS: https://spacy.io/api/spancategorizer#get_loss
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"""
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spans, scores = spans_scores
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spans = Ragged(
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self.model.ops.to_numpy(spans.data), self.model.ops.to_numpy(spans.lengths)
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)
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label_map = {label: i for i, label in enumerate(self.labels)}
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target = numpy.zeros(scores.shape, dtype=scores.dtype)
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offset = 0
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for i, eg in enumerate(examples):
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# Map (start, end) offset of spans to the row in the d_scores array,
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# so that we can adjust the gradient for predictions that were
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# in the gold standard.
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spans_index = {}
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spans_i = spans[i].dataXd
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for j in range(spans.lengths[i]):
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start = int(spans_i[j, 0])
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end = int(spans_i[j, 1])
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spans_index[(start, end)] = offset + j
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for gold_span in self._get_aligned_spans(eg):
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key = (gold_span.start, gold_span.end)
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if key in spans_index:
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row = spans_index[key]
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k = label_map[gold_span.label_]
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target[row, k] = 1.0
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# The target is a flat array for all docs. Track the position
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# we're at within the flat array.
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offset += spans.lengths[i]
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target = self.model.ops.asarray(target, dtype="f")
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# The target will have the values 0 (for untrue predictions) or 1
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# (for true predictions).
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# The scores should be in the range [0, 1].
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# If the prediction is 0.9 and it's true, the gradient
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# will be -0.1 (0.9 - 1.0).
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# If the prediction is 0.9 and it's false, the gradient will be
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# 0.9 (0.9 - 0.0)
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d_scores = scores - target
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loss = float((d_scores ** 2).sum())
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return loss, d_scores
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def initialize(
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self,
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get_examples: Callable[[], Iterable[Example]],
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*,
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nlp: Language = None,
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labels: Optional[List[str]] = None,
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) -> None:
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"""Initialize the pipe for training, using a representative set
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of data examples.
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get_examples (Callable[[], Iterable[Example]]): Function that
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returns a representative sample of gold-standard Example objects.
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nlp (Language): The current nlp object the component is part of.
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labels: The labels to add to the component, typically generated by the
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`init labels` command. If no labels are provided, the get_examples
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callback is used to extract the labels from the data.
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DOCS: https://spacy.io/api/spancategorizer#initialize
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"""
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subbatch = []
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if labels is not None:
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for label in labels:
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self.add_label(label)
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for eg in get_examples():
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if labels is None:
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for span in eg.reference.spans.get(self.key, []):
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self.add_label(span.label_)
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if len(subbatch) < 10:
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subbatch.append(eg)
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self._require_labels()
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if subbatch:
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docs = [eg.x for eg in subbatch]
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spans = self.suggester(docs)
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Y = self.model.ops.alloc2f(spans.dataXd.shape[0], len(self.labels))
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self.model.initialize(X=(docs, spans), Y=Y)
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else:
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self.model.initialize()
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def score(self, examples: Iterable[Example], **kwargs) -> Dict[str, Any]:
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"""Score a batch of examples.
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examples (Iterable[Example]): The examples to score.
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RETURNS (Dict[str, Any]): The scores, produced by Scorer.score_cats.
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DOCS: https://spacy.io/api/spancategorizer#score
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"""
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validate_examples(examples, "SpanCategorizer.score")
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self._validate_categories(examples)
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kwargs = dict(kwargs)
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attr_prefix = "spans_"
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kwargs.setdefault("attr", f"{attr_prefix}{self.key}")
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kwargs.setdefault("allow_overlap", True)
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kwargs.setdefault(
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"getter", lambda doc, key: doc.spans.get(key[len(attr_prefix) :], [])
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)
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kwargs.setdefault("has_annotation", lambda doc: self.key in doc.spans)
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return Scorer.score_spans(examples, **kwargs)
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def _validate_categories(self, examples):
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# TODO
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pass
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def _get_aligned_spans(self, eg: Example):
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return eg.get_aligned_spans_y2x(eg.reference.spans.get(self.key, []), allow_overlap=True)
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def _make_span_group(
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self, doc: Doc, indices: Ints2d, scores: Floats2d, labels: List[str]
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) -> SpanGroup:
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spans = SpanGroup(doc, name=self.key)
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max_positive = self.cfg["max_positive"]
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threshold = self.cfg["threshold"]
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keeps = scores >= threshold
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ranked = (scores * -1).argsort()
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if max_positive is not None:
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filter = ranked[:, max_positive:]
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for i, row in enumerate(filter):
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keeps[i, row] = False
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spans.attrs["scores"] = scores[keeps].flatten()
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indices = self.model.ops.to_numpy(indices)
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keeps = self.model.ops.to_numpy(keeps)
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for i in range(indices.shape[0]):
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start = indices[i, 0]
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end = indices[i, 1]
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for j, keep in enumerate(keeps[i]):
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if keep:
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spans.append(Span(doc, start, end, label=labels[j]))
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return spans
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