# coding: utf8 from __future__ import unicode_literals import pytest from spacy.tokens import Span from spacy.language import Language from spacy.pipeline import EntityRuler from spacy.errors import MatchPatternError @pytest.fixture def nlp(): return Language() @pytest.fixture 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"}, ] @pytest.fixture def add_ent(): def add_ent_component(doc): doc.ents = [Span(doc, 0, 3, label=doc.vocab.strings["ORG"])] return doc return add_ent_component def test_entity_ruler_init(nlp, patterns): ruler = EntityRuler(nlp, patterns=patterns) assert len(ruler) == len(patterns) assert len(ruler.labels) == 4 assert "HELLO" in ruler assert "BYE" in ruler nlp.add_pipe(ruler) doc = nlp("hello world bye bye") assert len(doc.ents) == 2 assert doc.ents[0].label_ == "HELLO" assert doc.ents[1].label_ == "BYE" def test_entity_ruler_existing(nlp, patterns, add_ent): ruler = EntityRuler(nlp, patterns=patterns) nlp.add_pipe(add_ent) nlp.add_pipe(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" def test_entity_ruler_existing_overwrite(nlp, patterns, add_ent): ruler = EntityRuler(nlp, patterns=patterns, overwrite_ents=True) nlp.add_pipe(add_ent) nlp.add_pipe(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" def test_entity_ruler_existing_complex(nlp, patterns, add_ent): ruler = EntityRuler(nlp, patterns=patterns, overwrite_ents=True) nlp.add_pipe(add_ent) nlp.add_pipe(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 def test_entity_ruler_entity_id(nlp, patterns): ruler = EntityRuler(nlp, patterns=patterns, overwrite_ents=True) nlp.add_pipe(ruler) 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" def test_entity_ruler_cfg_ent_id_sep(nlp, patterns): ruler = EntityRuler(nlp, patterns=patterns, overwrite_ents=True, ent_id_sep="**") assert "TECH_ORG**a1" in ruler.phrase_patterns nlp.add_pipe(ruler) 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" def test_entity_ruler_serialize_bytes(nlp, patterns): 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) def test_entity_ruler_serialize_phrase_matcher_attr_bytes(nlp, patterns): 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" def test_entity_ruler_validate(nlp): ruler = EntityRuler(nlp) 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]) def test_entity_ruler_properties(nlp, patterns): 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"] def test_entity_ruler_overlapping_spans(nlp): ruler = EntityRuler(nlp) patterns = [ {"label": "FOOBAR", "pattern": "foo bar"}, {"label": "BARBAZ", "pattern": "bar baz"}, ] ruler.add_patterns(patterns) doc = ruler(nlp.make_doc("foo bar baz")) assert len(doc.ents) == 1 assert doc.ents[0].label_ == "FOOBAR" @pytest.mark.parametrize("n_process", [1, 2]) def test_entity_ruler_multiprocessing(nlp, n_process): ruler = EntityRuler(nlp) texts = [ "I enjoy eating Pizza Hut pizza." ] patterns = [ {"label": "FASTFOOD", "pattern": "Pizza Hut", "id": "1234"} ] ruler.add_patterns(patterns) nlp.add_pipe(ruler) for doc in nlp.pipe(texts, n_process=2): for ent in doc.ents: assert ent.ent_id_ == "1234"