mirror of https://github.com/explosion/spaCy.git
672 lines
24 KiB
Cython
672 lines
24 KiB
Cython
import warnings
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from collections.abc import Iterable as IterableInstance
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import numpy
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from murmurhash.mrmr cimport hash64
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from ..tokens.doc cimport Doc
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from ..tokens.span cimport Span
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from ..attrs import IDS
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from ..errors import Errors, Warnings
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from ..pipeline._parser_internals import nonproj
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from ..tokens.span import Span
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from .alignment import Alignment
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from .iob_utils import (
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biluo_tags_to_spans,
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biluo_to_iob,
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doc_to_biluo_tags,
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offsets_to_biluo_tags,
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remove_bilu_prefix,
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)
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from ..tokens.token cimport MISSING_DEP
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from ..util import all_equal, logger, to_ternary_int
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cpdef Doc annotations_to_doc(vocab, tok_annot, doc_annot):
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""" Create a Doc from dictionaries with token and doc annotations. """
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attrs, array = _annot2array(vocab, tok_annot, doc_annot)
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output = Doc(vocab, words=tok_annot["ORTH"], spaces=tok_annot["SPACY"])
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if "entities" in doc_annot:
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_add_entities_to_doc(output, doc_annot["entities"])
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if "spans" in doc_annot:
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_add_spans_to_doc(output, doc_annot["spans"])
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if array.size:
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output = output.from_array(attrs, array)
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# links are currently added with ENT_KB_ID on the token level
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output.cats.update(doc_annot.get("cats", {}))
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return output
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def validate_examples(examples, method):
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"""Check that a batch of examples received during processing is valid.
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This function lives here to prevent circular imports.
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examples (Iterable[Examples]): A batch of examples.
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method (str): The method name to show in error messages.
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"""
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if not isinstance(examples, IterableInstance):
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err = Errors.E978.format(name=method, types=type(examples))
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raise TypeError(err)
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wrong = set([type(eg) for eg in examples if not isinstance(eg, Example)])
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if wrong:
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err = Errors.E978.format(name=method, types=wrong)
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raise TypeError(err)
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def validate_get_examples(get_examples, method):
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"""Check that a generator of a batch of examples received during processing is valid:
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the callable produces a non-empty list of Example objects.
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This function lives here to prevent circular imports.
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get_examples (Callable[[], Iterable[Example]]): A function that produces a batch of examples.
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method (str): The method name to show in error messages.
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"""
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if get_examples is None or not hasattr(get_examples, "__call__"):
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err = Errors.E930.format(method=method, obj=type(get_examples))
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raise TypeError(err)
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examples = get_examples()
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if not examples:
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err = Errors.E930.format(method=method, obj=examples)
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raise TypeError(err)
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validate_examples(examples, method)
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cdef class Example:
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def __init__(self, Doc predicted, Doc reference, *, alignment=None):
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if predicted is None:
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raise TypeError(Errors.E972.format(arg="predicted"))
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if reference is None:
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raise TypeError(Errors.E972.format(arg="reference"))
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self.predicted = predicted
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self.reference = reference
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self._cached_alignment = alignment
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def __len__(self):
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return len(self.predicted)
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property predicted:
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def __get__(self):
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return self.x
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def __set__(self, doc):
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self.x = doc
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self._cached_alignment = None
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self._cached_words_x = [t.text for t in doc]
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property reference:
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def __get__(self):
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return self.y
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def __set__(self, doc):
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self.y = doc
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self._cached_alignment = None
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self._cached_words_y = [t.text for t in doc]
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def copy(self):
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return Example(
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self.x.copy(),
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self.y.copy()
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)
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@classmethod
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def from_dict(cls, Doc predicted, dict example_dict):
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if predicted is None:
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raise ValueError(Errors.E976.format(n="first", type="Doc"))
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if example_dict is None:
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raise ValueError(Errors.E976.format(n="second", type="dict"))
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example_dict = _fix_legacy_dict_data(example_dict)
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tok_dict, doc_dict = _parse_example_dict_data(example_dict)
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if "ORTH" not in tok_dict:
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tok_dict["ORTH"] = [tok.text for tok in predicted]
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tok_dict["SPACY"] = [tok.whitespace_ for tok in predicted]
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return Example(
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predicted,
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annotations_to_doc(predicted.vocab, tok_dict, doc_dict)
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)
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@property
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def alignment(self):
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x_sig = hash64(self.x.c, sizeof(self.x.c[0]) * self.x.length, 0)
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y_sig = hash64(self.y.c, sizeof(self.y.c[0]) * self.y.length, 0)
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if self._cached_alignment is None:
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words_x = [token.text for token in self.x]
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words_y = [token.text for token in self.y]
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self._x_sig = x_sig
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self._y_sig = y_sig
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self._cached_words_x = words_x
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self._cached_words_y = words_y
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self._cached_alignment = Alignment.from_strings(words_x, words_y)
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return self._cached_alignment
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elif self._x_sig == x_sig and self._y_sig == y_sig:
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# If we have a cached alignment, check whether the cache is invalid
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# due to retokenization. To make this check fast in loops, we first
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# check a hash of the TokenC arrays.
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return self._cached_alignment
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else:
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words_x = [token.text for token in self.x]
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words_y = [token.text for token in self.y]
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if words_x == self._cached_words_x and words_y == self._cached_words_y:
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self._x_sig = x_sig
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self._y_sig = y_sig
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return self._cached_alignment
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else:
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self._cached_alignment = Alignment.from_strings(words_x, words_y)
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self._cached_words_x = words_x
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self._cached_words_y = words_y
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self._x_sig = x_sig
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self._y_sig = y_sig
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return self._cached_alignment
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def _get_aligned_vectorized(self, align, gold_values):
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# Fast path for Doc attributes/fields that are predominantly a single value,
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# i.e., TAG, POS, MORPH.
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x2y_single_toks = []
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x2y_single_toks_i = []
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x2y_multiple_toks = []
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x2y_multiple_toks_i = []
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# Gather indices of gold tokens aligned to the candidate tokens into two buckets.
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# Bucket 1: All tokens that have a one-to-one alignment.
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# Bucket 2: All tokens that have a one-to-many alignment.
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for idx, token in enumerate(self.predicted):
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aligned_gold_i = align[token.i]
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aligned_gold_len = len(aligned_gold_i)
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if aligned_gold_len == 1:
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x2y_single_toks.append(aligned_gold_i.item())
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x2y_single_toks_i.append(idx)
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elif aligned_gold_len > 1:
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x2y_multiple_toks.append(aligned_gold_i)
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x2y_multiple_toks_i.append(idx)
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# Map elements of the first bucket directly to the output array.
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output = numpy.full(len(self.predicted), None)
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output[x2y_single_toks_i] = gold_values[x2y_single_toks].squeeze()
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# Collapse many-to-one alignments into one-to-one alignments if they
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# share the same value. Map to None in all other cases.
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for i in range(len(x2y_multiple_toks)):
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aligned_gold_values = gold_values[x2y_multiple_toks[i]]
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# If all aligned tokens have the same value, use it.
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if all_equal(aligned_gold_values):
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x2y_multiple_toks[i] = aligned_gold_values[0].item()
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else:
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x2y_multiple_toks[i] = None
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output[x2y_multiple_toks_i] = x2y_multiple_toks
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return output.tolist()
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def _get_aligned_non_vectorized(self, align, gold_values):
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# Slower path for fields that return multiple values (resulting
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# in ragged arrays that cannot be vectorized trivially).
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output = [None] * len(self.predicted)
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for token in self.predicted:
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aligned_gold_i = align[token.i]
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values = gold_values[aligned_gold_i].ravel()
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if len(values) == 1:
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output[token.i] = values.item()
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elif all_equal(values):
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# If all aligned tokens have the same value, use it.
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output[token.i] = values[0].item()
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return output
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def get_aligned(self, field, as_string=False):
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"""Return an aligned array for a token attribute."""
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align = self.alignment.x2y
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gold_values = self.reference.to_array([field])
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if len(gold_values.shape) == 1:
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output = self._get_aligned_vectorized(align, gold_values)
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else:
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output = self._get_aligned_non_vectorized(align, gold_values)
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vocab = self.reference.vocab
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if as_string and field not in ["ENT_IOB", "SENT_START"]:
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output = [vocab.strings[o] if o is not None else o for o in output]
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return output
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def get_aligned_parse(self, projectivize=True):
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cand_to_gold = self.alignment.x2y
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gold_to_cand = self.alignment.y2x
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heads = [token.head.i for token in self.y]
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deps = [token.dep_ for token in self.y]
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if projectivize:
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proj_heads, proj_deps = nonproj.projectivize(heads, deps)
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has_deps = [token.has_dep() for token in self.y]
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has_heads = [token.has_head() for token in self.y]
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# ensure that missing data remains missing
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heads = [h if has_heads[i] else heads[i] for i, h in enumerate(proj_heads)]
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deps = [d if has_deps[i] else deps[i] for i, d in enumerate(proj_deps)]
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# Select all candidate tokens that are aligned to a single gold token.
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c2g_single_toks = numpy.where(cand_to_gold.lengths == 1)[0]
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# Fetch all aligned gold token incides.
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if c2g_single_toks.shape == cand_to_gold.lengths.shape:
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# This the most likely case.
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gold_i = cand_to_gold[:]
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else:
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gold_i = numpy.vectorize(lambda x: cand_to_gold[int(x)][0], otypes='i')(c2g_single_toks)
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# Fetch indices of all gold heads for the aligned gold tokens.
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heads = numpy.asarray(heads, dtype='i')
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gold_head_i = heads[gold_i]
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# Select all gold tokens that are heads of the previously selected
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# gold tokens (and are aligned to a single candidate token).
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g2c_len_heads = gold_to_cand.lengths[gold_head_i]
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g2c_len_heads = numpy.where(g2c_len_heads == 1)[0]
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g2c_i = numpy.vectorize(lambda x: gold_to_cand[int(x)][0], otypes='i')(gold_head_i[g2c_len_heads]).squeeze()
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# Update head/dep alignments with the above.
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aligned_heads = numpy.full((self.x.length), None)
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aligned_heads[c2g_single_toks[g2c_len_heads]] = g2c_i
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deps = numpy.asarray(deps)
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aligned_deps = numpy.full((self.x.length), None)
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aligned_deps[c2g_single_toks] = deps[gold_i]
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return aligned_heads.tolist(), aligned_deps.tolist()
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def get_aligned_sent_starts(self):
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"""Get list of SENT_START attributes aligned to the predicted tokenization.
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If the reference does not have sentence starts, return a list of None values.
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"""
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if self.y.has_annotation("SENT_START"):
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align = self.alignment.y2x
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sent_starts = [False] * len(self.x)
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for y_sent in self.y.sents:
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x_start = int(align[y_sent.start][0])
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sent_starts[x_start] = True
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return sent_starts
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else:
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return [None] * len(self.x)
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def get_aligned_spans_x2y(self, x_spans, allow_overlap=False):
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return self._get_aligned_spans(self.y, x_spans, self.alignment.x2y, allow_overlap)
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def get_aligned_spans_y2x(self, y_spans, allow_overlap=False):
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return self._get_aligned_spans(self.x, y_spans, self.alignment.y2x, allow_overlap)
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def _get_aligned_spans(self, doc, spans, align, allow_overlap):
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seen = set()
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output = []
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for span in spans:
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indices = align[span.start : span.end]
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if not allow_overlap:
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indices = [idx for idx in indices if idx not in seen]
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if len(indices) >= 1:
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aligned_span = Span(doc, indices[0], indices[-1] + 1, label=span.label)
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target_text = span.text.lower().strip().replace(" ", "")
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our_text = aligned_span.text.lower().strip().replace(" ", "")
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if our_text == target_text:
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output.append(aligned_span)
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seen.update(indices)
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return output
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def get_aligned_ents_and_ner(self):
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if not self.y.has_annotation("ENT_IOB"):
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return [], [None] * len(self.x)
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x_ents = self.get_aligned_spans_y2x(self.y.ents, allow_overlap=False)
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# Default to 'None' for missing values
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x_tags = offsets_to_biluo_tags(
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self.x,
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[(e.start_char, e.end_char, e.label_) for e in x_ents],
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missing=None
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)
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# Now fill the tokens we can align to O.
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O = 2 # I=1, O=2, B=3
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for i, ent_iob in enumerate(self.get_aligned("ENT_IOB")):
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if x_tags[i] is None:
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if ent_iob == O:
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x_tags[i] = "O"
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elif self.x[i].is_space:
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x_tags[i] = "O"
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return x_ents, x_tags
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def get_aligned_ner(self):
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x_ents, x_tags = self.get_aligned_ents_and_ner()
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return x_tags
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def get_matching_ents(self, check_label=True):
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"""Return entities that are shared between predicted and reference docs.
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If `check_label` is True, entities must have matching labels to be
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kept. Otherwise only the character indices need to match.
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"""
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gold = {}
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for ent in self.reference.ents:
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gold[(ent.start_char, ent.end_char)] = ent.label
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keep = []
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for ent in self.predicted.ents:
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key = (ent.start_char, ent.end_char)
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if key not in gold:
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continue
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if check_label and ent.label != gold[key]:
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continue
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keep.append(ent)
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return keep
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def to_dict(self):
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return {
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"doc_annotation": {
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"cats": dict(self.reference.cats),
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"entities": doc_to_biluo_tags(self.reference),
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"spans": self._spans_to_dict(),
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"links": self._links_to_dict()
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},
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"token_annotation": {
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"ORTH": [t.text for t in self.reference],
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"SPACY": [bool(t.whitespace_) for t in self.reference],
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"TAG": [t.tag_ for t in self.reference],
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"LEMMA": [t.lemma_ for t in self.reference],
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"POS": [t.pos_ for t in self.reference],
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"MORPH": [str(t.morph) for t in self.reference],
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"HEAD": [t.head.i for t in self.reference],
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"DEP": [t.dep_ for t in self.reference],
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"SENT_START": [int(bool(t.is_sent_start)) for t in self.reference]
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}
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}
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def _spans_to_dict(self):
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span_dict = {}
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for key in self.reference.spans:
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span_tuples = []
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for span in self.reference.spans[key]:
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span_tuple = (span.start_char, span.end_char, span.label_, span.kb_id_)
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span_tuples.append(span_tuple)
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span_dict[key] = span_tuples
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return span_dict
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def _links_to_dict(self):
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links = {}
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for ent in self.reference.ents:
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if ent.kb_id_:
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links[(ent.start_char, ent.end_char)] = {ent.kb_id_: 1.0}
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return links
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def split_sents(self):
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""" Split the token annotations into multiple Examples based on
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sent_starts and return a list of the new Examples"""
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if not self.reference.has_annotation("SENT_START"):
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return [self]
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align = self.alignment.y2x
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seen_indices = set()
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output = []
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for y_sent in self.reference.sents:
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indices = align[y_sent.start : y_sent.end]
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indices = [idx for idx in indices if idx not in seen_indices]
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if indices:
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x_sent = self.predicted[indices[0] : indices[-1] + 1]
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output.append(Example(x_sent.as_doc(), y_sent.as_doc()))
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seen_indices.update(indices)
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return output
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property text:
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def __get__(self):
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return self.x.text
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def __str__(self):
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return str(self.to_dict())
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def __repr__(self):
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return str(self.to_dict())
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def _annot2array(vocab, tok_annot, doc_annot):
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attrs = []
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values = []
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for key, value in doc_annot.items():
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if value:
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if key in ["entities", "cats", "spans"]:
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pass
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elif key == "links":
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ent_kb_ids = _parse_links(vocab, tok_annot["ORTH"], tok_annot["SPACY"], value)
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tok_annot["ENT_KB_ID"] = ent_kb_ids
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else:
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raise ValueError(Errors.E974.format(obj="doc", key=key))
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for key, value in tok_annot.items():
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if key not in IDS:
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raise ValueError(Errors.E974.format(obj="token", key=key))
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elif key in ["ORTH", "SPACY"]:
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continue
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elif key == "HEAD":
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attrs.append(key)
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row = [h-i if h is not None else 0 for i, h in enumerate(value)]
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elif key == "DEP":
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attrs.append(key)
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row = [vocab.strings.add(h) if h is not None else MISSING_DEP for h in value]
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elif key == "SENT_START":
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attrs.append(key)
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row = [to_ternary_int(v) for v in value]
|
|
elif key == "MORPH":
|
|
attrs.append(key)
|
|
row = [vocab.morphology.add(v) for v in value]
|
|
else:
|
|
attrs.append(key)
|
|
if not all(isinstance(v, str) for v in value):
|
|
types = set([type(v) for v in value])
|
|
raise TypeError(Errors.E969.format(field=key, types=types)) from None
|
|
row = [vocab.strings.add(v) for v in value]
|
|
values.append([numpy.array(v, dtype=numpy.int32).astype(numpy.uint64) if v < 0 else v for v in row])
|
|
array = numpy.array(values, dtype=numpy.uint64)
|
|
return attrs, array.T
|
|
|
|
|
|
def _add_spans_to_doc(doc, spans_data):
|
|
if not isinstance(spans_data, dict):
|
|
raise ValueError(Errors.E879)
|
|
for key, span_list in spans_data.items():
|
|
spans = []
|
|
if not isinstance(span_list, list):
|
|
raise ValueError(Errors.E879)
|
|
for span_tuple in span_list:
|
|
if not isinstance(span_tuple, (list, tuple)) or len(span_tuple) < 2:
|
|
raise ValueError(Errors.E879)
|
|
start_char = span_tuple[0]
|
|
end_char = span_tuple[1]
|
|
label = 0
|
|
kb_id = 0
|
|
if len(span_tuple) > 2:
|
|
label = span_tuple[2]
|
|
if len(span_tuple) > 3:
|
|
kb_id = span_tuple[3]
|
|
span = doc.char_span(start_char, end_char, label=label, kb_id=kb_id)
|
|
spans.append(span)
|
|
doc.spans[key] = spans
|
|
|
|
|
|
def _add_entities_to_doc(doc, ner_data):
|
|
if ner_data is None:
|
|
return
|
|
elif ner_data == []:
|
|
doc.ents = []
|
|
elif not isinstance(ner_data, (list, tuple)):
|
|
raise ValueError(Errors.E973)
|
|
elif isinstance(ner_data[0], (list, tuple)):
|
|
return _add_entities_to_doc(
|
|
doc,
|
|
offsets_to_biluo_tags(doc, ner_data)
|
|
)
|
|
elif isinstance(ner_data[0], str) or ner_data[0] is None:
|
|
return _add_entities_to_doc(
|
|
doc,
|
|
biluo_tags_to_spans(doc, ner_data)
|
|
)
|
|
elif isinstance(ner_data[0], Span):
|
|
entities = []
|
|
missing = []
|
|
for span in ner_data:
|
|
if span.label:
|
|
entities.append(span)
|
|
else:
|
|
missing.append(span)
|
|
doc.set_ents(entities, missing=missing)
|
|
else:
|
|
raise ValueError(Errors.E973)
|
|
|
|
|
|
def _parse_example_dict_data(example_dict):
|
|
return (
|
|
example_dict["token_annotation"],
|
|
example_dict["doc_annotation"]
|
|
)
|
|
|
|
|
|
def _fix_legacy_dict_data(example_dict):
|
|
token_dict = example_dict.get("token_annotation", {})
|
|
doc_dict = example_dict.get("doc_annotation", {})
|
|
for key, value in example_dict.items():
|
|
if value is not None:
|
|
if key in ("token_annotation", "doc_annotation"):
|
|
pass
|
|
elif key == "ids":
|
|
pass
|
|
elif key in ("cats", "links", "spans"):
|
|
doc_dict[key] = value
|
|
elif key in ("ner", "entities"):
|
|
doc_dict["entities"] = value
|
|
else:
|
|
token_dict[key] = value
|
|
# Remap keys
|
|
remapping = {
|
|
"words": "ORTH",
|
|
"tags": "TAG",
|
|
"pos": "POS",
|
|
"lemmas": "LEMMA",
|
|
"deps": "DEP",
|
|
"heads": "HEAD",
|
|
"sent_starts": "SENT_START",
|
|
"morphs": "MORPH",
|
|
"spaces": "SPACY",
|
|
}
|
|
old_token_dict = token_dict
|
|
token_dict = {}
|
|
for key, value in old_token_dict.items():
|
|
if key in ("text", "ids", "brackets"):
|
|
pass
|
|
elif key in remapping.values():
|
|
token_dict[key] = value
|
|
elif key.lower() in remapping:
|
|
token_dict[remapping[key.lower()]] = value
|
|
else:
|
|
all_keys = set(remapping.values())
|
|
all_keys.update(remapping.keys())
|
|
raise KeyError(Errors.E983.format(key=key, dict="token_annotation", keys=all_keys))
|
|
text = example_dict.get("text", example_dict.get("raw"))
|
|
if _has_field(token_dict, "ORTH") and not _has_field(token_dict, "SPACY"):
|
|
token_dict["SPACY"] = _guess_spaces(text, token_dict["ORTH"])
|
|
if "HEAD" in token_dict and "SENT_START" in token_dict:
|
|
# If heads are set, we don't also redundantly specify SENT_START.
|
|
token_dict.pop("SENT_START")
|
|
logger.debug(Warnings.W092)
|
|
return {
|
|
"token_annotation": token_dict,
|
|
"doc_annotation": doc_dict
|
|
}
|
|
|
|
def _has_field(annot, field):
|
|
if field not in annot:
|
|
return False
|
|
elif annot[field] is None:
|
|
return False
|
|
elif len(annot[field]) == 0:
|
|
return False
|
|
elif all([value is None for value in annot[field]]):
|
|
return False
|
|
else:
|
|
return True
|
|
|
|
|
|
def _parse_ner_tags(biluo_or_offsets, vocab, words, spaces):
|
|
if isinstance(biluo_or_offsets[0], (list, tuple)):
|
|
# Convert to biluo if necessary
|
|
# This is annoying but to convert the offsets we need a Doc
|
|
# that has the target tokenization.
|
|
reference = Doc(vocab, words=words, spaces=spaces)
|
|
biluo = offsets_to_biluo_tags(reference, biluo_or_offsets)
|
|
else:
|
|
biluo = biluo_or_offsets
|
|
ent_iobs = []
|
|
ent_types = []
|
|
for iob_tag in biluo_to_iob(biluo):
|
|
if iob_tag in (None, "-"):
|
|
ent_iobs.append("")
|
|
ent_types.append("")
|
|
else:
|
|
ent_iobs.append(iob_tag.split("-")[0])
|
|
if iob_tag.startswith("I") or iob_tag.startswith("B"):
|
|
ent_types.append(remove_bilu_prefix(iob_tag))
|
|
else:
|
|
ent_types.append("")
|
|
return ent_iobs, ent_types
|
|
|
|
def _parse_links(vocab, words, spaces, links):
|
|
reference = Doc(vocab, words=words, spaces=spaces)
|
|
starts = {token.idx: token.i for token in reference}
|
|
ends = {token.idx + len(token): token.i for token in reference}
|
|
ent_kb_ids = ["" for _ in reference]
|
|
|
|
for index, annot_dict in links.items():
|
|
true_kb_ids = []
|
|
for key, value in annot_dict.items():
|
|
if value == 1.0:
|
|
true_kb_ids.append(key)
|
|
if len(true_kb_ids) > 1:
|
|
raise ValueError(Errors.E980)
|
|
|
|
if len(true_kb_ids) == 1:
|
|
start_char, end_char = index
|
|
start_token = starts.get(start_char)
|
|
end_token = ends.get(end_char)
|
|
if start_token is None or end_token is None:
|
|
raise ValueError(Errors.E981)
|
|
for i in range(start_token, end_token+1):
|
|
ent_kb_ids[i] = true_kb_ids[0]
|
|
|
|
return ent_kb_ids
|
|
|
|
|
|
def _guess_spaces(text, words):
|
|
if text is None:
|
|
return None
|
|
spaces = []
|
|
text_pos = 0
|
|
# align words with text
|
|
for word in words:
|
|
try:
|
|
word_start = text[text_pos:].index(word)
|
|
except ValueError:
|
|
spaces.append(True)
|
|
continue
|
|
text_pos += word_start + len(word)
|
|
if text_pos < len(text) and text[text_pos] == " ":
|
|
spaces.append(True)
|
|
else:
|
|
spaces.append(False)
|
|
return spaces
|