mirror of
https://github.com/explosion/spaCy.git
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4155a59d47
Co-authored-by: explosion-bot <explosion-bot@users.noreply.github.com>
829 lines
28 KiB
Python
829 lines
28 KiB
Python
import random
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import pytest
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from numpy.testing import assert_equal
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from spacy.attrs import ENT_IOB
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from spacy import util, registry
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from spacy.lang.en import English
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from spacy.lang.it import Italian
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from spacy.language import Language
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from spacy.lookups import Lookups
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from spacy.pipeline._parser_internals.ner import BiluoPushDown
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from spacy.training import Example, iob_to_biluo, split_bilu_label
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from spacy.tokens import Doc, Span
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from spacy.vocab import Vocab
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import logging
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from ..util import make_tempdir
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from ...pipeline import EntityRecognizer
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from ...pipeline.ner import DEFAULT_NER_MODEL
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TRAIN_DATA = [
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("Who is Shaka Khan?", {"entities": [(7, 17, "PERSON")]}),
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("I like London and Berlin.", {"entities": [(7, 13, "LOC"), (18, 24, "LOC")]}),
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]
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@pytest.fixture
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def neg_key():
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return "non_entities"
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@pytest.fixture
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def vocab():
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return Vocab()
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@pytest.fixture
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def doc(vocab):
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return Doc(vocab, words=["Casey", "went", "to", "New", "York", "."])
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@pytest.fixture
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def entity_annots(doc):
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casey = doc[0:1]
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ny = doc[3:5]
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return [
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(casey.start_char, casey.end_char, "PERSON"),
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(ny.start_char, ny.end_char, "GPE"),
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]
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@pytest.fixture
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def entity_types(entity_annots):
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return sorted(set([label for (s, e, label) in entity_annots]))
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@pytest.fixture
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def tsys(vocab, entity_types):
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actions = BiluoPushDown.get_actions(entity_types=entity_types)
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return BiluoPushDown(vocab.strings, actions)
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@pytest.mark.parametrize("label", ["U-JOB-NAME"])
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@pytest.mark.issue(1967)
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def test_issue1967(label):
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nlp = Language()
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config = {}
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ner = nlp.create_pipe("ner", config=config)
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example = Example.from_dict(
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Doc(ner.vocab, words=["word"]),
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{
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"ids": [0],
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"words": ["word"],
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"tags": ["tag"],
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"heads": [0],
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"deps": ["dep"],
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"entities": [label],
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},
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)
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assert "JOB-NAME" in ner.moves.get_actions(examples=[example])[1]
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@pytest.mark.issue(2179)
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def test_issue2179():
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"""Test that spurious 'extra_labels' aren't created when initializing NER."""
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nlp = Italian()
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ner = nlp.add_pipe("ner")
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ner.add_label("CITIZENSHIP")
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nlp.initialize()
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nlp2 = Italian()
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nlp2.add_pipe("ner")
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assert len(nlp2.get_pipe("ner").labels) == 0
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model = nlp2.get_pipe("ner").model
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model.attrs["resize_output"](model, nlp.get_pipe("ner").moves.n_moves)
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nlp2.from_bytes(nlp.to_bytes())
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assert "extra_labels" not in nlp2.get_pipe("ner").cfg
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assert nlp2.get_pipe("ner").labels == ("CITIZENSHIP",)
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@pytest.mark.issue(2385)
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def test_issue2385():
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"""Test that IOB tags are correctly converted to BILUO tags."""
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# fix bug in labels with a 'b' character
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tags1 = ("B-BRAWLER", "I-BRAWLER", "I-BRAWLER")
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assert iob_to_biluo(tags1) == ["B-BRAWLER", "I-BRAWLER", "L-BRAWLER"]
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# maintain support for iob1 format
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tags2 = ("I-ORG", "I-ORG", "B-ORG")
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assert iob_to_biluo(tags2) == ["B-ORG", "L-ORG", "U-ORG"]
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# maintain support for iob2 format
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tags3 = ("B-PERSON", "I-PERSON", "B-PERSON")
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assert iob_to_biluo(tags3) == ["B-PERSON", "L-PERSON", "U-PERSON"]
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# ensure it works with hyphens in the name
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tags4 = ("B-MULTI-PERSON", "I-MULTI-PERSON", "B-MULTI-PERSON")
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assert iob_to_biluo(tags4) == ["B-MULTI-PERSON", "L-MULTI-PERSON", "U-MULTI-PERSON"]
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@pytest.mark.issue(2800)
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def test_issue2800():
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"""Test issue that arises when too many labels are added to NER model.
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Used to cause segfault.
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"""
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nlp = English()
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train_data = []
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train_data.extend(
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[Example.from_dict(nlp.make_doc("One sentence"), {"entities": []})]
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)
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entity_types = [str(i) for i in range(1000)]
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ner = nlp.add_pipe("ner")
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for entity_type in list(entity_types):
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ner.add_label(entity_type)
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optimizer = nlp.initialize()
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for i in range(20):
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losses = {}
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random.shuffle(train_data)
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for example in train_data:
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nlp.update([example], sgd=optimizer, losses=losses, drop=0.5)
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@pytest.mark.issue(3209)
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def test_issue3209():
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"""Test issue that occurred in spaCy nightly where NER labels were being
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mapped to classes incorrectly after loading the model, when the labels
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were added using ner.add_label().
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"""
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nlp = English()
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ner = nlp.add_pipe("ner")
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ner.add_label("ANIMAL")
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nlp.initialize()
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move_names = ["O", "B-ANIMAL", "I-ANIMAL", "L-ANIMAL", "U-ANIMAL"]
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assert ner.move_names == move_names
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nlp2 = English()
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ner2 = nlp2.add_pipe("ner")
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model = ner2.model
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model.attrs["resize_output"](model, ner.moves.n_moves)
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nlp2.from_bytes(nlp.to_bytes())
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assert ner2.move_names == move_names
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def test_labels_from_BILUO():
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"""Test that labels are inferred correctly when there's a - in label."""
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nlp = English()
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ner = nlp.add_pipe("ner")
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ner.add_label("LARGE-ANIMAL")
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nlp.initialize()
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move_names = [
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"O",
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"B-LARGE-ANIMAL",
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"I-LARGE-ANIMAL",
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"L-LARGE-ANIMAL",
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"U-LARGE-ANIMAL",
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]
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labels = {"LARGE-ANIMAL"}
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assert ner.move_names == move_names
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assert set(ner.labels) == labels
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@pytest.mark.issue(4267)
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def test_issue4267():
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"""Test that running an entity_ruler after ner gives consistent results"""
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nlp = English()
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ner = nlp.add_pipe("ner")
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ner.add_label("PEOPLE")
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nlp.initialize()
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assert "ner" in nlp.pipe_names
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# assert that we have correct IOB annotations
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doc1 = nlp("hi")
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assert doc1.has_annotation("ENT_IOB")
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for token in doc1:
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assert token.ent_iob == 2
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# add entity ruler and run again
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patterns = [{"label": "SOFTWARE", "pattern": "spacy"}]
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ruler = nlp.add_pipe("entity_ruler")
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ruler.add_patterns(patterns)
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assert "entity_ruler" in nlp.pipe_names
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assert "ner" in nlp.pipe_names
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# assert that we still have correct IOB annotations
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doc2 = nlp("hi")
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assert doc2.has_annotation("ENT_IOB")
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for token in doc2:
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assert token.ent_iob == 2
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@pytest.mark.issue(4313)
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def test_issue4313():
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"""This should not crash or exit with some strange error code"""
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beam_width = 16
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beam_density = 0.0001
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nlp = English()
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config = {
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"beam_width": beam_width,
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"beam_density": beam_density,
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}
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ner = nlp.add_pipe("beam_ner", config=config)
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ner.add_label("SOME_LABEL")
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nlp.initialize()
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# add a new label to the doc
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doc = nlp("What do you think about Apple ?")
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assert len(ner.labels) == 1
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assert "SOME_LABEL" in ner.labels
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apple_ent = Span(doc, 5, 6, label="MY_ORG")
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doc.ents = list(doc.ents) + [apple_ent]
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# ensure the beam_parse still works with the new label
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docs = [doc]
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ner.beam_parse(docs, drop=0.0, beam_width=beam_width, beam_density=beam_density)
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assert len(ner.labels) == 2
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assert "MY_ORG" in ner.labels
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def test_get_oracle_moves(tsys, doc, entity_annots):
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example = Example.from_dict(doc, {"entities": entity_annots})
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act_classes = tsys.get_oracle_sequence(example, _debug=False)
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names = [tsys.get_class_name(act) for act in act_classes]
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assert names == ["U-PERSON", "O", "O", "B-GPE", "L-GPE", "O"]
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def test_negative_samples_two_word_input(tsys, vocab, neg_key):
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"""Test that we don't get stuck in a two word input when we have a negative
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span. This could happen if we don't have the right check on the B action.
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"""
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tsys.cfg["neg_key"] = neg_key
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doc = Doc(vocab, words=["A", "B"])
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entity_annots = [None, None]
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example = Example.from_dict(doc, {"entities": entity_annots})
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# These mean that the oracle sequence shouldn't have O for the first
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# word, and it shouldn't analyse it as B-PERSON, L-PERSON
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example.y.spans[neg_key] = [
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Span(example.y, 0, 1, label="O"),
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Span(example.y, 0, 2, label="PERSON"),
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]
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act_classes = tsys.get_oracle_sequence(example)
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names = [tsys.get_class_name(act) for act in act_classes]
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assert names
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assert names[0] != "O"
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assert names[0] != "B-PERSON"
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assert names[1] != "L-PERSON"
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def test_negative_samples_three_word_input(tsys, vocab, neg_key):
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"""Test that we exclude a 2-word entity correctly using a negative example."""
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tsys.cfg["neg_key"] = neg_key
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doc = Doc(vocab, words=["A", "B", "C"])
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entity_annots = [None, None, None]
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example = Example.from_dict(doc, {"entities": entity_annots})
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# These mean that the oracle sequence shouldn't have O for the first
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# word, and it shouldn't analyse it as B-PERSON, L-PERSON
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example.y.spans[neg_key] = [
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Span(example.y, 0, 1, label="O"),
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Span(example.y, 0, 2, label="PERSON"),
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]
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act_classes = tsys.get_oracle_sequence(example)
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names = [tsys.get_class_name(act) for act in act_classes]
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assert names
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assert names[0] != "O"
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assert names[1] != "B-PERSON"
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def test_negative_samples_U_entity(tsys, vocab, neg_key):
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"""Test that we exclude a 2-word entity correctly using a negative example."""
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tsys.cfg["neg_key"] = neg_key
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doc = Doc(vocab, words=["A"])
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entity_annots = [None]
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example = Example.from_dict(doc, {"entities": entity_annots})
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# These mean that the oracle sequence shouldn't have O for the first
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# word, and it shouldn't analyse it as B-PERSON, L-PERSON
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example.y.spans[neg_key] = [
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Span(example.y, 0, 1, label="O"),
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Span(example.y, 0, 1, label="PERSON"),
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]
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act_classes = tsys.get_oracle_sequence(example)
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names = [tsys.get_class_name(act) for act in act_classes]
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assert names
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assert names[0] != "O"
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assert names[0] != "U-PERSON"
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def test_negative_sample_key_is_in_config(vocab, entity_types):
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actions = BiluoPushDown.get_actions(entity_types=entity_types)
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tsys = BiluoPushDown(vocab.strings, actions, incorrect_spans_key="non_entities")
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assert tsys.cfg["neg_key"] == "non_entities"
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# We can't easily represent this on a Doc object. Not sure what the best solution
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# would be, but I don't think it's an important use case?
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@pytest.mark.skip(reason="No longer supported")
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def test_oracle_moves_missing_B(en_vocab):
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words = ["B", "52", "Bomber"]
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biluo_tags = [None, None, "L-PRODUCT"]
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doc = Doc(en_vocab, words=words)
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example = Example.from_dict(doc, {"words": words, "entities": biluo_tags})
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moves = BiluoPushDown(en_vocab.strings)
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move_types = ("M", "B", "I", "L", "U", "O")
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for tag in biluo_tags:
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if tag is None:
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continue
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elif tag == "O":
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moves.add_action(move_types.index("O"), "")
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else:
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action, label = split_bilu_label(tag)
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moves.add_action(move_types.index("B"), label)
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moves.add_action(move_types.index("I"), label)
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moves.add_action(move_types.index("L"), label)
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moves.add_action(move_types.index("U"), label)
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moves.get_oracle_sequence(example)
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# We can't easily represent this on a Doc object. Not sure what the best solution
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# would be, but I don't think it's an important use case?
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@pytest.mark.skip(reason="No longer supported")
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def test_oracle_moves_whitespace(en_vocab):
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words = ["production", "\n", "of", "Northrop", "\n", "Corp.", "\n", "'s", "radar"]
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biluo_tags = ["O", "O", "O", "B-ORG", None, "I-ORG", "L-ORG", "O", "O"]
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doc = Doc(en_vocab, words=words)
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example = Example.from_dict(doc, {"entities": biluo_tags})
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moves = BiluoPushDown(en_vocab.strings)
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move_types = ("M", "B", "I", "L", "U", "O")
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for tag in biluo_tags:
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if tag is None:
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continue
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elif tag == "O":
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moves.add_action(move_types.index("O"), "")
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else:
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action, label = split_bilu_label(tag)
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moves.add_action(move_types.index(action), label)
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moves.get_oracle_sequence(example)
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def test_accept_blocked_token():
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"""Test succesful blocking of tokens to be in an entity."""
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# 1. test normal behaviour
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nlp1 = English()
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doc1 = nlp1("I live in New York")
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config = {}
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ner1 = nlp1.create_pipe("ner", config=config)
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assert [token.ent_iob_ for token in doc1] == ["", "", "", "", ""]
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assert [token.ent_type_ for token in doc1] == ["", "", "", "", ""]
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# Add the OUT action
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ner1.moves.add_action(5, "")
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ner1.add_label("GPE")
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# Get into the state just before "New"
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state1 = ner1.moves.init_batch([doc1])[0]
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ner1.moves.apply_transition(state1, "O")
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ner1.moves.apply_transition(state1, "O")
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ner1.moves.apply_transition(state1, "O")
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# Check that B-GPE is valid.
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assert ner1.moves.is_valid(state1, "B-GPE")
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# 2. test blocking behaviour
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nlp2 = English()
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doc2 = nlp2("I live in New York")
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config = {}
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ner2 = nlp2.create_pipe("ner", config=config)
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# set "New York" to a blocked entity
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doc2.set_ents([], blocked=[doc2[3:5]], default="unmodified")
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assert [token.ent_iob_ for token in doc2] == ["", "", "", "B", "B"]
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assert [token.ent_type_ for token in doc2] == ["", "", "", "", ""]
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# Check that B-GPE is now invalid.
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ner2.moves.add_action(4, "")
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ner2.moves.add_action(5, "")
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ner2.add_label("GPE")
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state2 = ner2.moves.init_batch([doc2])[0]
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ner2.moves.apply_transition(state2, "O")
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ner2.moves.apply_transition(state2, "O")
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ner2.moves.apply_transition(state2, "O")
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# we can only use U- for "New"
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assert not ner2.moves.is_valid(state2, "B-GPE")
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assert ner2.moves.is_valid(state2, "U-")
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ner2.moves.apply_transition(state2, "U-")
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# we can only use U- for "York"
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assert not ner2.moves.is_valid(state2, "B-GPE")
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assert ner2.moves.is_valid(state2, "U-")
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def test_train_empty():
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"""Test that training an empty text does not throw errors."""
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train_data = [
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("Who is Shaka Khan?", {"entities": [(7, 17, "PERSON")]}),
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("", {"entities": []}),
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]
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nlp = English()
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train_examples = []
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for t in train_data:
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train_examples.append(Example.from_dict(nlp.make_doc(t[0]), t[1]))
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ner = nlp.add_pipe("ner", last=True)
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ner.add_label("PERSON")
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nlp.initialize()
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for itn in range(2):
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losses = {}
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batches = util.minibatch(train_examples, size=8)
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for batch in batches:
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nlp.update(batch, losses=losses)
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def test_train_negative_deprecated():
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"""Test that the deprecated negative entity format raises a custom error."""
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train_data = [
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("Who is Shaka Khan?", {"entities": [(7, 17, "!PERSON")]}),
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]
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nlp = English()
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train_examples = []
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for t in train_data:
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train_examples.append(Example.from_dict(nlp.make_doc(t[0]), t[1]))
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ner = nlp.add_pipe("ner", last=True)
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ner.add_label("PERSON")
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nlp.initialize()
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for itn in range(2):
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losses = {}
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batches = util.minibatch(train_examples, size=8)
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for batch in batches:
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with pytest.raises(ValueError):
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nlp.update(batch, losses=losses)
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def test_overwrite_token():
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nlp = English()
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nlp.add_pipe("ner")
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nlp.initialize()
|
|
# The untrained NER will predict O for each token
|
|
doc = nlp("I live in New York")
|
|
assert [token.ent_iob_ for token in doc] == ["O", "O", "O", "O", "O"]
|
|
assert [token.ent_type_ for token in doc] == ["", "", "", "", ""]
|
|
# Check that a new ner can overwrite O
|
|
config = {}
|
|
ner2 = nlp.create_pipe("ner", config=config)
|
|
ner2.moves.add_action(5, "")
|
|
ner2.add_label("GPE")
|
|
state = ner2.moves.init_batch([doc])[0]
|
|
assert ner2.moves.is_valid(state, "B-GPE")
|
|
assert ner2.moves.is_valid(state, "U-GPE")
|
|
ner2.moves.apply_transition(state, "B-GPE")
|
|
assert ner2.moves.is_valid(state, "I-GPE")
|
|
assert ner2.moves.is_valid(state, "L-GPE")
|
|
|
|
|
|
def test_empty_ner():
|
|
nlp = English()
|
|
ner = nlp.add_pipe("ner")
|
|
ner.add_label("MY_LABEL")
|
|
nlp.initialize()
|
|
doc = nlp("John is watching the news about Croatia's elections")
|
|
# if this goes wrong, the initialization of the parser's upper layer is probably broken
|
|
result = ["O", "O", "O", "O", "O", "O", "O", "O", "O"]
|
|
assert [token.ent_iob_ for token in doc] == result
|
|
|
|
|
|
def test_ruler_before_ner():
|
|
"""Test that an NER works after an entity_ruler: the second can add annotations"""
|
|
nlp = English()
|
|
|
|
# 1 : Entity Ruler - should set "this" to B and everything else to empty
|
|
patterns = [{"label": "THING", "pattern": "This"}]
|
|
ruler = nlp.add_pipe("entity_ruler")
|
|
|
|
# 2: untrained NER - should set everything else to O
|
|
untrained_ner = nlp.add_pipe("ner")
|
|
untrained_ner.add_label("MY_LABEL")
|
|
nlp.initialize()
|
|
ruler.add_patterns(patterns)
|
|
doc = nlp("This is Antti Korhonen speaking in Finland")
|
|
expected_iobs = ["B", "O", "O", "O", "O", "O", "O"]
|
|
expected_types = ["THING", "", "", "", "", "", ""]
|
|
assert [token.ent_iob_ for token in doc] == expected_iobs
|
|
assert [token.ent_type_ for token in doc] == expected_types
|
|
|
|
|
|
def test_ner_constructor(en_vocab):
|
|
config = {
|
|
"update_with_oracle_cut_size": 100,
|
|
}
|
|
cfg = {"model": DEFAULT_NER_MODEL}
|
|
model = registry.resolve(cfg, validate=True)["model"]
|
|
EntityRecognizer(en_vocab, model, **config)
|
|
EntityRecognizer(en_vocab, model)
|
|
|
|
|
|
def test_ner_before_ruler():
|
|
"""Test that an entity_ruler works after an NER: the second can overwrite O annotations"""
|
|
nlp = English()
|
|
|
|
# 1: untrained NER - should set everything to O
|
|
untrained_ner = nlp.add_pipe("ner", name="uner")
|
|
untrained_ner.add_label("MY_LABEL")
|
|
nlp.initialize()
|
|
|
|
# 2 : Entity Ruler - should set "this" to B and keep everything else O
|
|
patterns = [{"label": "THING", "pattern": "This"}]
|
|
ruler = nlp.add_pipe("entity_ruler")
|
|
ruler.add_patterns(patterns)
|
|
|
|
doc = nlp("This is Antti Korhonen speaking in Finland")
|
|
expected_iobs = ["B", "O", "O", "O", "O", "O", "O"]
|
|
expected_types = ["THING", "", "", "", "", "", ""]
|
|
assert [token.ent_iob_ for token in doc] == expected_iobs
|
|
assert [token.ent_type_ for token in doc] == expected_types
|
|
|
|
|
|
def test_block_ner():
|
|
"""Test functionality for blocking tokens so they can't be in a named entity"""
|
|
# block "Antti L Korhonen" from being a named entity
|
|
nlp = English()
|
|
nlp.add_pipe("blocker", config={"start": 2, "end": 5})
|
|
untrained_ner = nlp.add_pipe("ner")
|
|
untrained_ner.add_label("MY_LABEL")
|
|
nlp.initialize()
|
|
doc = nlp("This is Antti L Korhonen speaking in Finland")
|
|
expected_iobs = ["O", "O", "B", "B", "B", "O", "O", "O"]
|
|
expected_types = ["", "", "", "", "", "", "", ""]
|
|
assert [token.ent_iob_ for token in doc] == expected_iobs
|
|
assert [token.ent_type_ for token in doc] == expected_types
|
|
|
|
|
|
@pytest.mark.parametrize("use_upper", [True, False])
|
|
def test_overfitting_IO(use_upper):
|
|
# Simple test to try and quickly overfit the NER component
|
|
nlp = English()
|
|
ner = nlp.add_pipe("ner", config={"model": {"use_upper": use_upper}})
|
|
train_examples = []
|
|
for text, annotations in TRAIN_DATA:
|
|
train_examples.append(Example.from_dict(nlp.make_doc(text), annotations))
|
|
for ent in annotations.get("entities"):
|
|
ner.add_label(ent[2])
|
|
optimizer = nlp.initialize()
|
|
|
|
for i in range(50):
|
|
losses = {}
|
|
nlp.update(train_examples, sgd=optimizer, losses=losses)
|
|
assert losses["ner"] < 0.00001
|
|
|
|
# test the trained model
|
|
test_text = "I like London."
|
|
doc = nlp(test_text)
|
|
ents = doc.ents
|
|
assert len(ents) == 1
|
|
assert ents[0].text == "London"
|
|
assert ents[0].label_ == "LOC"
|
|
|
|
# Also test the results are still the same after IO
|
|
with make_tempdir() as tmp_dir:
|
|
nlp.to_disk(tmp_dir)
|
|
nlp2 = util.load_model_from_path(tmp_dir)
|
|
doc2 = nlp2(test_text)
|
|
ents2 = doc2.ents
|
|
assert len(ents2) == 1
|
|
assert ents2[0].text == "London"
|
|
assert ents2[0].label_ == "LOC"
|
|
# Ensure that the predictions are still the same, even after adding a new label
|
|
ner2 = nlp2.get_pipe("ner")
|
|
assert ner2.model.attrs["has_upper"] == use_upper
|
|
ner2.add_label("RANDOM_NEW_LABEL")
|
|
doc3 = nlp2(test_text)
|
|
ents3 = doc3.ents
|
|
assert len(ents3) == 1
|
|
assert ents3[0].text == "London"
|
|
assert ents3[0].label_ == "LOC"
|
|
|
|
# Make sure that running pipe twice, or comparing to call, always amounts to the same predictions
|
|
texts = [
|
|
"Just a sentence.",
|
|
"Then one more sentence about London.",
|
|
"Here is another one.",
|
|
"I like London.",
|
|
]
|
|
batch_deps_1 = [doc.to_array([ENT_IOB]) for doc in nlp.pipe(texts)]
|
|
batch_deps_2 = [doc.to_array([ENT_IOB]) for doc in nlp.pipe(texts)]
|
|
no_batch_deps = [doc.to_array([ENT_IOB]) for doc in [nlp(text) for text in texts]]
|
|
assert_equal(batch_deps_1, batch_deps_2)
|
|
assert_equal(batch_deps_1, no_batch_deps)
|
|
|
|
# test that kb_id is preserved
|
|
test_text = "I like London and London."
|
|
doc = nlp.make_doc(test_text)
|
|
doc.ents = [Span(doc, 2, 3, label="LOC", kb_id=1234)]
|
|
ents = doc.ents
|
|
assert len(ents) == 1
|
|
assert ents[0].text == "London"
|
|
assert ents[0].label_ == "LOC"
|
|
assert ents[0].kb_id == 1234
|
|
doc = nlp.get_pipe("ner")(doc)
|
|
ents = doc.ents
|
|
assert len(ents) == 2
|
|
assert ents[0].text == "London"
|
|
assert ents[0].label_ == "LOC"
|
|
assert ents[0].kb_id == 1234
|
|
# ent added by ner has kb_id == 0
|
|
assert ents[1].text == "London"
|
|
assert ents[1].label_ == "LOC"
|
|
assert ents[1].kb_id == 0
|
|
|
|
|
|
def test_beam_ner_scores():
|
|
# Test that we can get confidence values out of the beam_ner pipe
|
|
beam_width = 16
|
|
beam_density = 0.0001
|
|
nlp = English()
|
|
config = {
|
|
"beam_width": beam_width,
|
|
"beam_density": beam_density,
|
|
}
|
|
ner = nlp.add_pipe("beam_ner", config=config)
|
|
train_examples = []
|
|
for text, annotations in TRAIN_DATA:
|
|
train_examples.append(Example.from_dict(nlp.make_doc(text), annotations))
|
|
for ent in annotations.get("entities"):
|
|
ner.add_label(ent[2])
|
|
optimizer = nlp.initialize()
|
|
|
|
# update once
|
|
losses = {}
|
|
nlp.update(train_examples, sgd=optimizer, losses=losses)
|
|
|
|
# test the scores from the beam
|
|
test_text = "I like London."
|
|
doc = nlp.make_doc(test_text)
|
|
docs = [doc]
|
|
beams = ner.predict(docs)
|
|
entity_scores = ner.scored_ents(beams)[0]
|
|
|
|
for j in range(len(doc)):
|
|
for label in ner.labels:
|
|
score = entity_scores[(j, j + 1, label)]
|
|
eps = 0.00001
|
|
assert 0 - eps <= score <= 1 + eps
|
|
|
|
|
|
def test_beam_overfitting_IO(neg_key):
|
|
# Simple test to try and quickly overfit the Beam NER component
|
|
nlp = English()
|
|
beam_width = 16
|
|
beam_density = 0.0001
|
|
config = {
|
|
"beam_width": beam_width,
|
|
"beam_density": beam_density,
|
|
"incorrect_spans_key": neg_key,
|
|
}
|
|
ner = nlp.add_pipe("beam_ner", config=config)
|
|
train_examples = []
|
|
for text, annotations in TRAIN_DATA:
|
|
train_examples.append(Example.from_dict(nlp.make_doc(text), annotations))
|
|
for ent in annotations.get("entities"):
|
|
ner.add_label(ent[2])
|
|
optimizer = nlp.initialize()
|
|
|
|
# run overfitting
|
|
for i in range(50):
|
|
losses = {}
|
|
nlp.update(train_examples, sgd=optimizer, losses=losses)
|
|
assert losses["beam_ner"] < 0.0001
|
|
|
|
# test the scores from the beam
|
|
test_text = "I like London"
|
|
docs = [nlp.make_doc(test_text)]
|
|
beams = ner.predict(docs)
|
|
entity_scores = ner.scored_ents(beams)[0]
|
|
assert entity_scores[(2, 3, "LOC")] == 1.0
|
|
assert entity_scores[(2, 3, "PERSON")] == 0.0
|
|
assert len(nlp(test_text).ents) == 1
|
|
|
|
# Also test the results are still the same after IO
|
|
with make_tempdir() as tmp_dir:
|
|
nlp.to_disk(tmp_dir)
|
|
nlp2 = util.load_model_from_path(tmp_dir)
|
|
docs2 = [nlp2.make_doc(test_text)]
|
|
ner2 = nlp2.get_pipe("beam_ner")
|
|
beams2 = ner2.predict(docs2)
|
|
entity_scores2 = ner2.scored_ents(beams2)[0]
|
|
assert entity_scores2[(2, 3, "LOC")] == 1.0
|
|
assert entity_scores2[(2, 3, "PERSON")] == 0.0
|
|
|
|
# Try to unlearn the entity by using negative annotations
|
|
neg_doc = nlp.make_doc(test_text)
|
|
neg_ex = Example(neg_doc, neg_doc)
|
|
neg_ex.reference.spans[neg_key] = [Span(neg_doc, 2, 3, "LOC")]
|
|
neg_train_examples = [neg_ex]
|
|
|
|
for i in range(20):
|
|
losses = {}
|
|
nlp.update(neg_train_examples, sgd=optimizer, losses=losses)
|
|
|
|
# test the "untrained" model
|
|
assert len(nlp(test_text).ents) == 0
|
|
|
|
|
|
def test_neg_annotation(neg_key):
|
|
"""Check that the NER update works with a negative annotation that is a different label of the correct one,
|
|
or partly overlapping, etc"""
|
|
nlp = English()
|
|
beam_width = 16
|
|
beam_density = 0.0001
|
|
config = {
|
|
"beam_width": beam_width,
|
|
"beam_density": beam_density,
|
|
"incorrect_spans_key": neg_key,
|
|
}
|
|
ner = nlp.add_pipe("beam_ner", config=config)
|
|
train_text = "Who is Shaka Khan?"
|
|
neg_doc = nlp.make_doc(train_text)
|
|
ner.add_label("PERSON")
|
|
ner.add_label("ORG")
|
|
example = Example.from_dict(neg_doc, {"entities": [(7, 17, "PERSON")]})
|
|
example.reference.spans[neg_key] = [
|
|
Span(neg_doc, 2, 4, "ORG"),
|
|
Span(neg_doc, 2, 3, "PERSON"),
|
|
Span(neg_doc, 1, 4, "PERSON"),
|
|
]
|
|
|
|
optimizer = nlp.initialize()
|
|
for i in range(2):
|
|
losses = {}
|
|
nlp.update([example], sgd=optimizer, losses=losses)
|
|
|
|
|
|
def test_neg_annotation_conflict(neg_key):
|
|
# Check that NER raises for a negative annotation that is THE SAME as a correct one
|
|
nlp = English()
|
|
beam_width = 16
|
|
beam_density = 0.0001
|
|
config = {
|
|
"beam_width": beam_width,
|
|
"beam_density": beam_density,
|
|
"incorrect_spans_key": neg_key,
|
|
}
|
|
ner = nlp.add_pipe("beam_ner", config=config)
|
|
train_text = "Who is Shaka Khan?"
|
|
neg_doc = nlp.make_doc(train_text)
|
|
ner.add_label("PERSON")
|
|
ner.add_label("LOC")
|
|
example = Example.from_dict(neg_doc, {"entities": [(7, 17, "PERSON")]})
|
|
example.reference.spans[neg_key] = [Span(neg_doc, 2, 4, "PERSON")]
|
|
assert len(example.reference.ents) == 1
|
|
assert example.reference.ents[0].text == "Shaka Khan"
|
|
assert example.reference.ents[0].label_ == "PERSON"
|
|
assert len(example.reference.spans[neg_key]) == 1
|
|
assert example.reference.spans[neg_key][0].text == "Shaka Khan"
|
|
assert example.reference.spans[neg_key][0].label_ == "PERSON"
|
|
|
|
optimizer = nlp.initialize()
|
|
for i in range(2):
|
|
losses = {}
|
|
with pytest.raises(ValueError):
|
|
nlp.update([example], sgd=optimizer, losses=losses)
|
|
|
|
|
|
def test_beam_valid_parse(neg_key):
|
|
"""Regression test for previously flakey behaviour"""
|
|
nlp = English()
|
|
beam_width = 16
|
|
beam_density = 0.0001
|
|
config = {
|
|
"beam_width": beam_width,
|
|
"beam_density": beam_density,
|
|
"incorrect_spans_key": neg_key,
|
|
}
|
|
nlp.add_pipe("beam_ner", config=config)
|
|
# fmt: off
|
|
tokens = ['FEDERAL', 'NATIONAL', 'MORTGAGE', 'ASSOCIATION', '(', 'Fannie', 'Mae', '):', 'Posted', 'yields', 'on', '30', 'year', 'mortgage', 'commitments', 'for', 'delivery', 'within', '30', 'days', '(', 'priced', 'at', 'par', ')', '9.75', '%', ',', 'standard', 'conventional', 'fixed', '-', 'rate', 'mortgages', ';', '8.70', '%', ',', '6/2', 'rate', 'capped', 'one', '-', 'year', 'adjustable', 'rate', 'mortgages', '.', 'Source', ':', 'Telerate', 'Systems', 'Inc.']
|
|
iob = ['B-ORG', 'I-ORG', 'I-ORG', 'L-ORG', 'O', 'B-ORG', 'L-ORG', 'O', 'O', 'O', 'O', 'B-DATE', 'L-DATE', 'O', 'O', 'O', 'O', 'O', 'B-DATE', 'L-DATE', 'O', 'O', 'O', 'O', 'O', 'B-PERCENT', 'L-PERCENT', 'O', 'O', 'O', 'O', 'O', 'O', 'O', 'O', 'B-PERCENT', 'L-PERCENT', 'O', 'U-CARDINAL', 'O', 'O', 'B-DATE', 'I-DATE', 'L-DATE', 'O', 'O', 'O', 'O', 'O', 'O', 'O', 'O', 'O']
|
|
# fmt: on
|
|
|
|
doc = Doc(nlp.vocab, words=tokens)
|
|
example = Example.from_dict(doc, {"ner": iob})
|
|
neg_span = Span(doc, 50, 53, "ORG")
|
|
example.reference.spans[neg_key] = [neg_span]
|
|
|
|
optimizer = nlp.initialize()
|
|
|
|
for i in range(5):
|
|
losses = {}
|
|
nlp.update([example], sgd=optimizer, losses=losses)
|
|
assert "beam_ner" in losses
|
|
|
|
|
|
def test_ner_warns_no_lookups(caplog):
|
|
nlp = English()
|
|
assert nlp.lang in util.LEXEME_NORM_LANGS
|
|
nlp.vocab.lookups = Lookups()
|
|
assert not len(nlp.vocab.lookups)
|
|
nlp.add_pipe("ner")
|
|
with caplog.at_level(logging.DEBUG):
|
|
nlp.initialize()
|
|
assert "W033" in caplog.text
|
|
caplog.clear()
|
|
nlp.vocab.lookups.add_table("lexeme_norm")
|
|
nlp.vocab.lookups.get_table("lexeme_norm")["a"] = "A"
|
|
with caplog.at_level(logging.DEBUG):
|
|
nlp.initialize()
|
|
assert "W033" not in caplog.text
|
|
|
|
|
|
@Language.factory("blocker")
|
|
class BlockerComponent1:
|
|
def __init__(self, nlp, start, end, name="my_blocker"):
|
|
self.start = start
|
|
self.end = end
|
|
self.name = name
|
|
|
|
def __call__(self, doc):
|
|
doc.set_ents([], blocked=[doc[self.start : self.end]], default="unmodified")
|
|
return doc
|