import pytest from thinc.api import NumpyOps, get_current_ops from spacy import registry from spacy.errors import MatchPatternError from spacy.lang.en import English from spacy.language import Language from spacy.pipeline import EntityRecognizer, EntityRuler, SpanRuler, merge_entities from spacy.pipeline.ner import DEFAULT_NER_MODEL from spacy.tests.util import make_tempdir from spacy.tokens import Doc, Span ENTITY_RULERS = ["entity_ruler", "future_entity_ruler"] @pytest.fixture def nlp(): return Language() @pytest.fixture @registry.misc("entity_ruler_patterns") def patterns(): return [ {"label": "HELLO", "pattern": "hello world"}, {"label": "BYE", "pattern": [{"LOWER": "bye"}, {"LOWER": "bye"}]}, {"label": "HELLO", "pattern": [{"ORTH": "HELLO"}]}, {"label": "COMPLEX", "pattern": [{"ORTH": "foo", "OP": "*"}]}, {"label": "TECH_ORG", "pattern": "Apple", "id": "a1"}, {"label": "TECH_ORG", "pattern": "Microsoft", "id": "a2"}, ] @Language.component("add_ent") def add_ent_component(doc): doc.ents = [Span(doc, 0, 3, label="ORG")] return doc @pytest.mark.issue(3345) @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_issue3345(entity_ruler_factory): """Test case where preset entity crosses sentence boundary.""" nlp = English() doc = Doc(nlp.vocab, words=["I", "live", "in", "New", "York"]) doc[4].is_sent_start = True ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") ruler.add_patterns([{"label": "GPE", "pattern": "New York"}]) cfg = {"model": DEFAULT_NER_MODEL} model = registry.resolve(cfg, validate=True)["model"] ner = EntityRecognizer(doc.vocab, model) # Add the OUT action. I wouldn't have thought this would be necessary... ner.moves.add_action(5, "") ner.add_label("GPE") doc = ruler(doc) # Get into the state just before "New" state = ner.moves.init_batch([doc])[0] ner.moves.apply_transition(state, "O") ner.moves.apply_transition(state, "O") ner.moves.apply_transition(state, "O") # Check that B-GPE is valid. assert ner.moves.is_valid(state, "B-GPE") @pytest.mark.issue(4849) @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_issue4849(entity_ruler_factory): nlp = English() patterns = [ {"label": "PERSON", "pattern": "joe biden", "id": "joe-biden"}, {"label": "PERSON", "pattern": "bernie sanders", "id": "bernie-sanders"}, ] ruler = nlp.add_pipe( entity_ruler_factory, name="entity_ruler", config={"phrase_matcher_attr": "LOWER"}, ) ruler.add_patterns(patterns) text = """ The left is starting to take aim at Democratic front-runner Joe Biden. Sen. Bernie Sanders joined in her criticism: "There is no 'middle ground' when it comes to climate policy." """ # USING 1 PROCESS count_ents = 0 for doc in nlp.pipe([text], n_process=1): count_ents += len([ent for ent in doc.ents if ent.ent_id > 0]) assert count_ents == 2 # USING 2 PROCESSES if isinstance(get_current_ops, NumpyOps): count_ents = 0 for doc in nlp.pipe([text], n_process=2): count_ents += len([ent for ent in doc.ents if ent.ent_id > 0]) assert count_ents == 2 @pytest.mark.issue(5918) @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_issue5918(entity_ruler_factory): # Test edge case when merging entities. nlp = English() ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") patterns = [ {"label": "ORG", "pattern": "Digicon Inc"}, {"label": "ORG", "pattern": "Rotan Mosle Inc's"}, {"label": "ORG", "pattern": "Rotan Mosle Technology Partners Ltd"}, ] ruler.add_patterns(patterns) text = """ Digicon Inc said it has completed the previously-announced disposition of its computer systems division to an investment group led by Rotan Mosle Inc's Rotan Mosle Technology Partners Ltd affiliate. """ doc = nlp(text) assert len(doc.ents) == 3 # make it so that the third span's head is within the entity (ent_iob=I) # bug #5918 would wrongly transfer that I to the full entity, resulting in 2 instead of 3 final ents. # TODO: test for logging here # with pytest.warns(UserWarning): # doc[29].head = doc[33] doc = merge_entities(doc) assert len(doc.ents) == 3 @pytest.mark.issue(8168) @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_issue8168(entity_ruler_factory): nlp = English() ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") patterns = [ {"label": "ORG", "pattern": "Apple"}, { "label": "GPE", "pattern": [{"LOWER": "san"}, {"LOWER": "francisco"}], "id": "san-francisco", }, { "label": "GPE", "pattern": [{"LOWER": "san"}, {"LOWER": "fran"}], "id": "san-francisco", }, ] ruler.add_patterns(patterns) doc = nlp("San Francisco San Fran") assert all(t.ent_id_ == "san-francisco" for t in doc) @pytest.mark.issue(8216) @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_fix8216(nlp, patterns, entity_ruler_factory): """Test that patterns don't get added excessively.""" ruler = nlp.add_pipe( entity_ruler_factory, name="entity_ruler", config={"validate": True} ) ruler.add_patterns(patterns) pattern_count = sum(len(mm) for mm in ruler.matcher._patterns.values()) assert pattern_count > 0 ruler.add_patterns([]) after_count = sum(len(mm) for mm in ruler.matcher._patterns.values()) assert after_count == pattern_count @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_init(nlp, patterns, entity_ruler_factory): ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") ruler.add_patterns(patterns) assert len(ruler) == len(patterns) assert len(ruler.labels) == 4 assert "HELLO" in ruler assert "BYE" in ruler nlp.remove_pipe("entity_ruler") ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") ruler.add_patterns(patterns) doc = nlp("hello world bye bye") assert len(doc.ents) == 2 assert doc.ents[0].label_ == "HELLO" assert doc.ents[1].label_ == "BYE" @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_no_patterns_warns(nlp, entity_ruler_factory): ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") assert len(ruler) == 0 assert len(ruler.labels) == 0 nlp.remove_pipe("entity_ruler") nlp.add_pipe(entity_ruler_factory, name="entity_ruler") assert nlp.pipe_names == ["entity_ruler"] with pytest.warns(UserWarning): doc = nlp("hello world bye bye") assert len(doc.ents) == 0 @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_init_patterns(nlp, patterns, entity_ruler_factory): # initialize with patterns ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") assert len(ruler.labels) == 0 ruler.initialize(lambda: [], patterns=patterns) assert len(ruler.labels) == 4 doc = nlp("hello world bye bye") assert doc.ents[0].label_ == "HELLO" assert doc.ents[1].label_ == "BYE" nlp.remove_pipe("entity_ruler") # initialize with patterns from misc registry nlp.config["initialize"]["components"]["entity_ruler"] = { "patterns": {"@misc": "entity_ruler_patterns"} } ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") assert len(ruler.labels) == 0 nlp.initialize() assert len(ruler.labels) == 4 doc = nlp("hello world bye bye") assert doc.ents[0].label_ == "HELLO" assert doc.ents[1].label_ == "BYE" @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_init_clear(nlp, patterns, entity_ruler_factory): """Test that initialization clears patterns.""" ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") ruler.add_patterns(patterns) assert len(ruler.labels) == 4 ruler.initialize(lambda: []) assert len(ruler.labels) == 0 @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_clear(nlp, patterns, entity_ruler_factory): """Test that initialization clears patterns.""" ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") ruler.add_patterns(patterns) assert len(ruler.labels) == 4 doc = nlp("hello world") assert len(doc.ents) == 1 ruler.clear() assert len(ruler.labels) == 0 with pytest.warns(UserWarning): doc = nlp("hello world") assert len(doc.ents) == 0 @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_existing(nlp, patterns, entity_ruler_factory): ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") ruler.add_patterns(patterns) nlp.add_pipe("add_ent", before="entity_ruler") doc = nlp("OH HELLO WORLD bye bye") assert len(doc.ents) == 2 assert doc.ents[0].label_ == "ORG" assert doc.ents[1].label_ == "BYE" @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_existing_overwrite(nlp, patterns, entity_ruler_factory): ruler = nlp.add_pipe( entity_ruler_factory, name="entity_ruler", config={"overwrite_ents": True} ) ruler.add_patterns(patterns) nlp.add_pipe("add_ent", before="entity_ruler") doc = nlp("OH HELLO WORLD bye bye") assert len(doc.ents) == 2 assert doc.ents[0].label_ == "HELLO" assert doc.ents[0].text == "HELLO" assert doc.ents[1].label_ == "BYE" @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_existing_complex(nlp, patterns, entity_ruler_factory): ruler = nlp.add_pipe( entity_ruler_factory, name="entity_ruler", config={"overwrite_ents": True} ) ruler.add_patterns(patterns) nlp.add_pipe("add_ent", before="entity_ruler") doc = nlp("foo foo bye bye") assert len(doc.ents) == 2 assert doc.ents[0].label_ == "COMPLEX" assert doc.ents[1].label_ == "BYE" assert len(doc.ents[0]) == 2 assert len(doc.ents[1]) == 2 @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_entity_id(nlp, patterns, entity_ruler_factory): ruler = nlp.add_pipe( entity_ruler_factory, name="entity_ruler", config={"overwrite_ents": True} ) ruler.add_patterns(patterns) doc = nlp("Apple is a technology company") assert len(doc.ents) == 1 assert doc.ents[0].label_ == "TECH_ORG" assert doc.ents[0].ent_id_ == "a1" @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_cfg_ent_id_sep(nlp, patterns, entity_ruler_factory): config = {"overwrite_ents": True, "ent_id_sep": "**"} ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler", config=config) ruler.add_patterns(patterns) doc = nlp("Apple is a technology company") if isinstance(ruler, EntityRuler): assert "TECH_ORG**a1" in ruler.phrase_patterns assert len(doc.ents) == 1 assert doc.ents[0].label_ == "TECH_ORG" assert doc.ents[0].ent_id_ == "a1" @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_serialize_bytes(nlp, patterns, entity_ruler_factory): ruler = EntityRuler(nlp, patterns=patterns) assert len(ruler) == len(patterns) assert len(ruler.labels) == 4 ruler_bytes = ruler.to_bytes() new_ruler = EntityRuler(nlp) assert len(new_ruler) == 0 assert len(new_ruler.labels) == 0 new_ruler = new_ruler.from_bytes(ruler_bytes) assert len(new_ruler) == len(patterns) assert len(new_ruler.labels) == 4 assert len(new_ruler.patterns) == len(ruler.patterns) for pattern in ruler.patterns: assert pattern in new_ruler.patterns assert sorted(new_ruler.labels) == sorted(ruler.labels) @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_serialize_phrase_matcher_attr_bytes( nlp, patterns, entity_ruler_factory ): ruler = EntityRuler(nlp, phrase_matcher_attr="LOWER", patterns=patterns) assert len(ruler) == len(patterns) assert len(ruler.labels) == 4 ruler_bytes = ruler.to_bytes() new_ruler = EntityRuler(nlp) assert len(new_ruler) == 0 assert len(new_ruler.labels) == 0 assert new_ruler.phrase_matcher_attr is None new_ruler = new_ruler.from_bytes(ruler_bytes) assert len(new_ruler) == len(patterns) assert len(new_ruler.labels) == 4 assert new_ruler.phrase_matcher_attr == "LOWER" @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_validate(nlp, entity_ruler_factory): ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") validated_ruler = EntityRuler(nlp, validate=True) valid_pattern = {"label": "HELLO", "pattern": [{"LOWER": "HELLO"}]} invalid_pattern = {"label": "HELLO", "pattern": [{"ASDF": "HELLO"}]} # invalid pattern raises error without validate with pytest.raises(ValueError): ruler.add_patterns([invalid_pattern]) # valid pattern is added without errors with validate validated_ruler.add_patterns([valid_pattern]) # invalid pattern raises error with validate with pytest.raises(MatchPatternError): validated_ruler.add_patterns([invalid_pattern]) @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_properties(nlp, patterns, entity_ruler_factory): ruler = EntityRuler(nlp, patterns=patterns, overwrite_ents=True) assert sorted(ruler.labels) == sorted(["HELLO", "BYE", "COMPLEX", "TECH_ORG"]) assert sorted(ruler.ent_ids) == ["a1", "a2"] @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_overlapping_spans(nlp, entity_ruler_factory): ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") patterns = [ {"label": "FOOBAR", "pattern": "foo bar"}, {"label": "BARBAZ", "pattern": "bar baz"}, ] ruler.add_patterns(patterns) doc = nlp("foo bar baz") assert len(doc.ents) == 1 assert doc.ents[0].label_ == "FOOBAR" @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_fuzzy_pipe(nlp, entity_ruler_factory): ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") patterns = [{"label": "HELLO", "pattern": [{"LOWER": {"FUZZY": "hello"}}]}] ruler.add_patterns(patterns) doc = nlp("helloo") assert len(doc.ents) == 1 assert doc.ents[0].label_ == "HELLO" @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_fuzzy(nlp, entity_ruler_factory): ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") patterns = [{"label": "HELLO", "pattern": [{"LOWER": {"FUZZY": "hello"}}]}] ruler.add_patterns(patterns) doc = nlp("helloo") assert len(doc.ents) == 1 assert doc.ents[0].label_ == "HELLO" @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_fuzzy_disabled(nlp, entity_ruler_factory): @registry.misc("test_fuzzy_compare_disabled") def make_test_fuzzy_compare_disabled(): return lambda x, y, z: False ruler = nlp.add_pipe( entity_ruler_factory, name="entity_ruler", config={"matcher_fuzzy_compare": {"@misc": "test_fuzzy_compare_disabled"}}, ) patterns = [{"label": "HELLO", "pattern": [{"LOWER": {"FUZZY": "hello"}}]}] ruler.add_patterns(patterns) doc = nlp("helloo") assert len(doc.ents) == 0 @pytest.mark.parametrize("n_process", [1, 2]) @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_multiprocessing(nlp, n_process, entity_ruler_factory): if isinstance(get_current_ops, NumpyOps) or n_process < 2: texts = ["I enjoy eating Pizza Hut pizza."] patterns = [{"label": "FASTFOOD", "pattern": "Pizza Hut", "id": "1234"}] ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") ruler.add_patterns(patterns) for doc in nlp.pipe(texts, n_process=2): for ent in doc.ents: assert ent.ent_id_ == "1234" @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_serialize_jsonl(nlp, patterns, entity_ruler_factory): ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") ruler.add_patterns(patterns) with make_tempdir() as d: ruler.to_disk(d / "test_ruler.jsonl") ruler.from_disk(d / "test_ruler.jsonl") # read from an existing jsonl file with pytest.raises(ValueError): ruler.from_disk(d / "non_existing.jsonl") # read from a bad jsonl file @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_serialize_dir(nlp, patterns, entity_ruler_factory): ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") ruler.add_patterns(patterns) with make_tempdir() as d: ruler.to_disk(d / "test_ruler") ruler.from_disk(d / "test_ruler") # read from an existing directory with pytest.raises(ValueError): ruler.from_disk(d / "non_existing_dir") # read from a bad directory @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_remove_basic(nlp, entity_ruler_factory): ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") patterns = [ {"label": "PERSON", "pattern": "Dina", "id": "dina"}, {"label": "ORG", "pattern": "ACME", "id": "acme"}, {"label": "ORG", "pattern": "ACM"}, ] ruler.add_patterns(patterns) doc = nlp("Dina went to school") assert len(ruler.patterns) == 3 assert len(doc.ents) == 1 if isinstance(ruler, EntityRuler): assert "PERSON||dina" in ruler.phrase_matcher assert doc.ents[0].label_ == "PERSON" assert doc.ents[0].text == "Dina" if isinstance(ruler, EntityRuler): ruler.remove("dina") else: ruler.remove_by_id("dina") doc = nlp("Dina went to school") assert len(doc.ents) == 0 if isinstance(ruler, EntityRuler): assert "PERSON||dina" not in ruler.phrase_matcher assert len(ruler.patterns) == 2 @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_remove_same_id_multiple_patterns(nlp, entity_ruler_factory): ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") patterns = [ {"label": "PERSON", "pattern": "Dina", "id": "dina"}, {"label": "ORG", "pattern": "DinaCorp", "id": "dina"}, {"label": "ORG", "pattern": "ACME", "id": "acme"}, ] ruler.add_patterns(patterns) doc = nlp("Dina founded DinaCorp and ACME.") assert len(ruler.patterns) == 3 if isinstance(ruler, EntityRuler): assert "PERSON||dina" in ruler.phrase_matcher assert "ORG||dina" in ruler.phrase_matcher assert len(doc.ents) == 3 if isinstance(ruler, EntityRuler): ruler.remove("dina") else: ruler.remove_by_id("dina") doc = nlp("Dina founded DinaCorp and ACME.") assert len(ruler.patterns) == 1 if isinstance(ruler, EntityRuler): assert "PERSON||dina" not in ruler.phrase_matcher assert "ORG||dina" not in ruler.phrase_matcher assert len(doc.ents) == 1 @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_remove_nonexisting_pattern(nlp, entity_ruler_factory): ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") patterns = [ {"label": "PERSON", "pattern": "Dina", "id": "dina"}, {"label": "ORG", "pattern": "ACME", "id": "acme"}, {"label": "ORG", "pattern": "ACM"}, ] ruler.add_patterns(patterns) assert len(ruler.patterns) == 3 with pytest.raises(ValueError): ruler.remove("nepattern") if isinstance(ruler, SpanRuler): with pytest.raises(ValueError): ruler.remove_by_id("nepattern") @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_remove_several_patterns(nlp, entity_ruler_factory): ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") patterns = [ {"label": "PERSON", "pattern": "Dina", "id": "dina"}, {"label": "ORG", "pattern": "ACME", "id": "acme"}, {"label": "ORG", "pattern": "ACM"}, ] ruler.add_patterns(patterns) doc = nlp("Dina founded her company ACME.") assert len(ruler.patterns) == 3 assert len(doc.ents) == 2 assert doc.ents[0].label_ == "PERSON" assert doc.ents[0].text == "Dina" assert doc.ents[1].label_ == "ORG" assert doc.ents[1].text == "ACME" if isinstance(ruler, EntityRuler): ruler.remove("dina") else: ruler.remove_by_id("dina") doc = nlp("Dina founded her company ACME") assert len(ruler.patterns) == 2 assert len(doc.ents) == 1 assert doc.ents[0].label_ == "ORG" assert doc.ents[0].text == "ACME" if isinstance(ruler, EntityRuler): ruler.remove("acme") else: ruler.remove_by_id("acme") doc = nlp("Dina founded her company ACME") assert len(ruler.patterns) == 1 assert len(doc.ents) == 0 @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_remove_patterns_in_a_row(nlp, entity_ruler_factory): ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") patterns = [ {"label": "PERSON", "pattern": "Dina", "id": "dina"}, {"label": "ORG", "pattern": "ACME", "id": "acme"}, {"label": "DATE", "pattern": "her birthday", "id": "bday"}, {"label": "ORG", "pattern": "ACM"}, ] ruler.add_patterns(patterns) doc = nlp("Dina founded her company ACME on her birthday") assert len(doc.ents) == 3 assert doc.ents[0].label_ == "PERSON" assert doc.ents[0].text == "Dina" assert doc.ents[1].label_ == "ORG" assert doc.ents[1].text == "ACME" assert doc.ents[2].label_ == "DATE" assert doc.ents[2].text == "her birthday" if isinstance(ruler, EntityRuler): ruler.remove("dina") ruler.remove("acme") ruler.remove("bday") else: ruler.remove_by_id("dina") ruler.remove_by_id("acme") ruler.remove_by_id("bday") doc = nlp("Dina went to school") assert len(doc.ents) == 0 @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_remove_all_patterns(nlp, entity_ruler_factory): ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") patterns = [ {"label": "PERSON", "pattern": "Dina", "id": "dina"}, {"label": "ORG", "pattern": "ACME", "id": "acme"}, {"label": "DATE", "pattern": "her birthday", "id": "bday"}, ] ruler.add_patterns(patterns) assert len(ruler.patterns) == 3 if isinstance(ruler, EntityRuler): ruler.remove("dina") else: ruler.remove_by_id("dina") assert len(ruler.patterns) == 2 if isinstance(ruler, EntityRuler): ruler.remove("acme") else: ruler.remove_by_id("acme") assert len(ruler.patterns) == 1 if isinstance(ruler, EntityRuler): ruler.remove("bday") else: ruler.remove_by_id("bday") assert len(ruler.patterns) == 0 with pytest.warns(UserWarning): doc = nlp("Dina founded her company ACME on her birthday") assert len(doc.ents) == 0 @pytest.mark.parametrize("entity_ruler_factory", ENTITY_RULERS) def test_entity_ruler_remove_and_add(nlp, entity_ruler_factory): ruler = nlp.add_pipe(entity_ruler_factory, name="entity_ruler") patterns = [{"label": "DATE", "pattern": "last time"}] ruler.add_patterns(patterns) doc = ruler( nlp.make_doc("I saw him last time we met, this time he brought some flowers") ) assert len(ruler.patterns) == 1 assert len(doc.ents) == 1 assert doc.ents[0].label_ == "DATE" assert doc.ents[0].text == "last time" patterns1 = [{"label": "DATE", "pattern": "this time", "id": "ttime"}] ruler.add_patterns(patterns1) doc = ruler( nlp.make_doc("I saw him last time we met, this time he brought some flowers") ) assert len(ruler.patterns) == 2 assert len(doc.ents) == 2 assert doc.ents[0].label_ == "DATE" assert doc.ents[0].text == "last time" assert doc.ents[1].label_ == "DATE" assert doc.ents[1].text == "this time" if isinstance(ruler, EntityRuler): ruler.remove("ttime") else: ruler.remove_by_id("ttime") doc = ruler( nlp.make_doc("I saw him last time we met, this time he brought some flowers") ) assert len(ruler.patterns) == 1 assert len(doc.ents) == 1 assert doc.ents[0].label_ == "DATE" assert doc.ents[0].text == "last time" ruler.add_patterns(patterns1) doc = ruler( nlp.make_doc("I saw him last time we met, this time he brought some flowers") ) assert len(ruler.patterns) == 2 assert len(doc.ents) == 2 patterns2 = [{"label": "DATE", "pattern": "another time", "id": "ttime"}] ruler.add_patterns(patterns2) doc = ruler( nlp.make_doc( "I saw him last time we met, this time he brought some flowers, another time some chocolate." ) ) assert len(ruler.patterns) == 3 assert len(doc.ents) == 3 if isinstance(ruler, EntityRuler): ruler.remove("ttime") else: ruler.remove_by_id("ttime") doc = ruler( nlp.make_doc( "I saw him last time we met, this time he brought some flowers, another time some chocolate." ) ) assert len(ruler.patterns) == 1 assert len(doc.ents) == 1