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241 lines
7.3 KiB
Python
241 lines
7.3 KiB
Python
import pytest
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from thinc.api import Config
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from spacy import util
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from spacy.lang.en import English
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from spacy.language import Language
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from spacy.pipeline.span_finder import span_finder_default_config
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from spacy.tokens import Doc
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from spacy.training import Example
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from spacy.util import fix_random_seed, make_tempdir, registry
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SPANS_KEY = "pytest"
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TRAIN_DATA = [
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("Who is Shaka Khan?", {"spans": {SPANS_KEY: [(7, 17)]}}),
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(
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"I like London and Berlin.",
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{"spans": {SPANS_KEY: [(7, 13), (18, 24)]}},
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),
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]
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TRAIN_DATA_OVERLAPPING = [
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("Who is Shaka Khan?", {"spans": {SPANS_KEY: [(7, 17)]}}),
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(
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"I like London and Berlin",
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{"spans": {SPANS_KEY: [(7, 13), (18, 24), (7, 24)]}},
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),
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("", {"spans": {SPANS_KEY: []}}),
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]
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def make_examples(nlp, data=TRAIN_DATA):
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train_examples = []
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for t in data:
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eg = Example.from_dict(nlp.make_doc(t[0]), t[1])
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train_examples.append(eg)
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return train_examples
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@pytest.mark.parametrize(
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"tokens_predicted, tokens_reference, reference_truths",
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[
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(
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["Mon", ".", "-", "June", "16"],
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["Mon.", "-", "June", "16"],
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[(0, 0), (0, 0), (0, 0), (1, 1), (0, 0)],
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),
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(
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["Mon.", "-", "J", "une", "16"],
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["Mon.", "-", "June", "16"],
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[(0, 0), (0, 0), (1, 0), (0, 1), (0, 0)],
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),
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(
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["Mon", ".", "-", "June", "16"],
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["Mon.", "-", "June", "1", "6"],
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[(0, 0), (0, 0), (0, 0), (1, 1), (0, 0)],
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),
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(
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["Mon.", "-J", "un", "e 16"],
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["Mon.", "-", "June", "16"],
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[(0, 0), (0, 0), (0, 0), (0, 0)],
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),
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pytest.param(
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["Mon.-June", "16"],
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["Mon.", "-", "June", "16"],
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[(0, 1), (0, 0)],
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),
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pytest.param(
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["Mon.-", "June", "16"],
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["Mon.", "-", "J", "une", "16"],
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[(0, 0), (1, 1), (0, 0)],
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),
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pytest.param(
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["Mon.-", "June 16"],
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["Mon.", "-", "June", "16"],
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[(0, 0), (1, 0)],
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),
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],
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)
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def test_loss_alignment_example(tokens_predicted, tokens_reference, reference_truths):
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nlp = Language()
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predicted = Doc(
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nlp.vocab, words=tokens_predicted, spaces=[False] * len(tokens_predicted)
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)
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reference = Doc(
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nlp.vocab, words=tokens_reference, spaces=[False] * len(tokens_reference)
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)
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example = Example(predicted, reference)
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example.reference.spans[SPANS_KEY] = [example.reference.char_span(5, 9)]
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span_finder = nlp.add_pipe("span_finder", config={"spans_key": SPANS_KEY})
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nlp.initialize()
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ops = span_finder.model.ops
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if predicted.text != reference.text:
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with pytest.raises(
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ValueError, match="must match between reference and predicted"
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):
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span_finder._get_aligned_truth_scores([example], ops)
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return
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truth_scores, masks = span_finder._get_aligned_truth_scores([example], ops)
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assert len(truth_scores) == len(tokens_predicted)
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ops.xp.testing.assert_array_equal(truth_scores, ops.xp.asarray(reference_truths))
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def test_span_finder_model():
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nlp = Language()
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docs = [nlp("This is an example."), nlp("This is the second example.")]
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docs[0].spans[SPANS_KEY] = [docs[0][3:4]]
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docs[1].spans[SPANS_KEY] = [docs[1][3:5]]
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total_tokens = 0
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for doc in docs:
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total_tokens += len(doc)
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config = Config().from_str(span_finder_default_config).interpolate()
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model = registry.resolve(config)["model"]
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model.initialize(X=docs)
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predictions = model.predict(docs)
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assert len(predictions) == total_tokens
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assert len(predictions[0]) == 2
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def test_span_finder_component():
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nlp = Language()
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docs = [nlp("This is an example."), nlp("This is the second example.")]
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docs[0].spans[SPANS_KEY] = [docs[0][3:4]]
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docs[1].spans[SPANS_KEY] = [docs[1][3:5]]
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span_finder = nlp.add_pipe("span_finder", config={"spans_key": SPANS_KEY})
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nlp.initialize()
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docs = list(span_finder.pipe(docs))
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assert SPANS_KEY in docs[0].spans
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@pytest.mark.parametrize(
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"min_length, max_length, span_count",
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[(0, 0, 0), (None, None, 8), (2, None, 6), (None, 1, 2), (2, 3, 2)],
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)
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def test_set_annotations_span_lengths(min_length, max_length, span_count):
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nlp = Language()
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doc = nlp("Me and Jenny goes together like peas and carrots.")
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if min_length == 0 and max_length == 0:
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with pytest.raises(ValueError, match="Both 'min_length' and 'max_length'"):
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span_finder = nlp.add_pipe(
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"span_finder",
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config={
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"max_length": max_length,
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"min_length": min_length,
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"spans_key": SPANS_KEY,
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},
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)
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return
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span_finder = nlp.add_pipe(
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"span_finder",
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config={
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"max_length": max_length,
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"min_length": min_length,
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"spans_key": SPANS_KEY,
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},
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)
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nlp.initialize()
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# Starts [Me, Jenny, peas]
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# Ends [Jenny, peas, carrots]
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scores = [
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(1, 0),
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(0, 0),
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(1, 1),
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(0, 0),
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(0, 0),
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(0, 0),
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(1, 1),
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(0, 0),
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(0, 1),
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(0, 0),
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]
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span_finder.set_annotations([doc], scores)
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assert doc.spans[SPANS_KEY]
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assert len(doc.spans[SPANS_KEY]) == span_count
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# Assert below will fail when max_length is set to 0
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if max_length is None:
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max_length = float("inf")
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if min_length is None:
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min_length = 1
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assert all(min_length <= len(span) <= max_length for span in doc.spans[SPANS_KEY])
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def test_overfitting_IO():
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# Simple test to try and quickly overfit the span_finder component - ensuring the ML models work correctly
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fix_random_seed(0)
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nlp = English()
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span_finder = nlp.add_pipe("span_finder", config={"spans_key": SPANS_KEY})
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train_examples = make_examples(nlp)
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optimizer = nlp.initialize(get_examples=lambda: train_examples)
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assert span_finder.model.get_dim("nO") == 2
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for i in range(50):
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losses = {}
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nlp.update(train_examples, sgd=optimizer, losses=losses)
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assert losses["span_finder"] < 0.001
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# test the trained model
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test_text = "I like London and Berlin"
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doc = nlp(test_text)
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spans = doc.spans[SPANS_KEY]
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assert len(spans) == 3
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assert set([span.text for span in spans]) == {
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"London",
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"Berlin",
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"London and Berlin",
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}
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# Also test the results are still the same after IO
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with make_tempdir() as tmp_dir:
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nlp.to_disk(tmp_dir)
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nlp2 = util.load_model_from_path(tmp_dir)
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doc2 = nlp2(test_text)
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spans2 = doc2.spans[SPANS_KEY]
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assert len(spans2) == 3
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assert set([span.text for span in spans2]) == {
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"London",
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"Berlin",
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"London and Berlin",
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}
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# Test scoring
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scores = nlp.evaluate(train_examples)
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assert f"spans_{SPANS_KEY}_f" in scores
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# It's not perfect 1.0 F1 because it's designed to overgenerate for now.
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assert scores[f"spans_{SPANS_KEY}_p"] == 0.75
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assert scores[f"spans_{SPANS_KEY}_r"] == 1.0
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# also test that the spancat works for just a single entity in a sentence
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doc = nlp("London")
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assert len(doc.spans[SPANS_KEY]) == 1
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