import pytest from mock import Mock from spacy.matcher import Matcher from spacy.tokens import Doc, Span, Token from ..doc.test_underscore import clean_underscore # noqa: F401 @pytest.fixture def matcher(en_vocab): rules = { "JS": [[{"ORTH": "JavaScript"}]], "GoogleNow": [[{"ORTH": "Google"}, {"ORTH": "Now"}]], "Java": [[{"LOWER": "java"}]], } matcher = Matcher(en_vocab) for key, patterns in rules.items(): matcher.add(key, patterns) return matcher def test_matcher_from_api_docs(en_vocab): matcher = Matcher(en_vocab) pattern = [{"ORTH": "test"}] assert len(matcher) == 0 matcher.add("Rule", [pattern]) assert len(matcher) == 1 matcher.remove("Rule") assert "Rule" not in matcher matcher.add("Rule", [pattern]) assert "Rule" in matcher on_match, patterns = matcher.get("Rule") assert len(patterns[0]) def test_matcher_empty_patterns_warns(en_vocab): matcher = Matcher(en_vocab) assert len(matcher) == 0 doc = Doc(en_vocab, words=["This", "is", "quite", "something"]) with pytest.warns(UserWarning): matcher(doc) assert len(doc.ents) == 0 def test_matcher_from_usage_docs(en_vocab): text = "Wow 😀 This is really cool! 😂 😂" doc = Doc(en_vocab, words=text.split(" ")) pos_emoji = ["😀", "😃", "😂", "🤣", "😊", "😍"] pos_patterns = [[{"ORTH": emoji}] for emoji in pos_emoji] def label_sentiment(matcher, doc, i, matches): match_id, start, end = matches[i] if doc.vocab.strings[match_id] == "HAPPY": doc.sentiment += 0.1 span = doc[start:end] with doc.retokenize() as retokenizer: retokenizer.merge(span) token = doc[start] token.vocab[token.text].norm_ = "happy emoji" matcher = Matcher(en_vocab) matcher.add("HAPPY", pos_patterns, on_match=label_sentiment) matcher(doc) assert doc.sentiment != 0 assert doc[1].norm_ == "happy emoji" def test_matcher_len_contains(matcher): assert len(matcher) == 3 matcher.add("TEST", [[{"ORTH": "test"}]]) assert "TEST" in matcher assert "TEST2" not in matcher def test_matcher_add_new_api(en_vocab): doc = Doc(en_vocab, words=["a", "b"]) patterns = [[{"TEXT": "a"}], [{"TEXT": "a"}, {"TEXT": "b"}]] matcher = Matcher(en_vocab) on_match = Mock() matcher = Matcher(en_vocab) matcher.add("NEW_API", patterns) assert len(matcher(doc)) == 2 matcher = Matcher(en_vocab) on_match = Mock() matcher.add("NEW_API_CALLBACK", patterns, on_match=on_match) assert len(matcher(doc)) == 2 assert on_match.call_count == 2 def test_matcher_no_match(matcher): doc = Doc(matcher.vocab, words=["I", "like", "cheese", "."]) assert matcher(doc) == [] def test_matcher_match_start(matcher): doc = Doc(matcher.vocab, words=["JavaScript", "is", "good"]) assert matcher(doc) == [(matcher.vocab.strings["JS"], 0, 1)] def test_matcher_match_end(matcher): words = ["I", "like", "java"] doc = Doc(matcher.vocab, words=words) assert matcher(doc) == [(doc.vocab.strings["Java"], 2, 3)] def test_matcher_match_middle(matcher): words = ["I", "like", "Google", "Now", "best"] doc = Doc(matcher.vocab, words=words) assert matcher(doc) == [(doc.vocab.strings["GoogleNow"], 2, 4)] def test_matcher_match_multi(matcher): words = ["I", "like", "Google", "Now", "and", "java", "best"] doc = Doc(matcher.vocab, words=words) assert matcher(doc) == [ (doc.vocab.strings["GoogleNow"], 2, 4), (doc.vocab.strings["Java"], 5, 6), ] @pytest.mark.parametrize( "rules,match_locs", [ ( { "GoogleNow": [[{"ORTH": {"FUZZY": "Google"}}, {"ORTH": "Now"}]], }, [(2, 4)], ), ( { "Java": [[{"LOWER": {"FUZZY": "java"}}]], }, [(5, 6)], ), ( { "JS": [[{"ORTH": {"FUZZY": "JavaScript"}}]], "GoogleNow": [[{"ORTH": {"FUZZY": "Google"}}, {"ORTH": "Now"}]], "Java": [[{"LOWER": {"FUZZY": "java"}}]], }, [(2, 4), (5, 6), (8, 9)], ), # only the second pattern matches (check that predicate keys used for # caching don't collide) ( { "A": [[{"ORTH": {"FUZZY": "Javascripts"}}]], "B": [[{"ORTH": {"FUZZY5": "Javascripts"}}]], }, [(8, 9)], ), ], ) def test_matcher_match_fuzzy(en_vocab, rules, match_locs): words = ["They", "like", "Goggle", "Now", "and", "Jav", "but", "not", "JvvaScrpt"] doc = Doc(en_vocab, words=words) matcher = Matcher(en_vocab) for key, patterns in rules.items(): matcher.add(key, patterns) assert match_locs == [(start, end) for m_id, start, end in matcher(doc)] @pytest.mark.parametrize("set_op", ["IN", "NOT_IN"]) def test_matcher_match_fuzzy_set_op_longest(en_vocab, set_op): rules = { "GoogleNow": [[{"ORTH": {"FUZZY": {set_op: ["Google", "Now"]}}, "OP": "+"}]] } matcher = Matcher(en_vocab) for key, patterns in rules.items(): matcher.add(key, patterns, greedy="LONGEST") words = ["They", "like", "Goggle", "Noo"] doc = Doc(en_vocab, words=words) assert len(matcher(doc)) == 1 def test_matcher_match_fuzzy_set_multiple(en_vocab): rules = { "GoogleNow": [ [ { "ORTH": {"FUZZY": {"IN": ["Google", "Now"]}, "NOT_IN": ["Goggle"]}, "OP": "+", } ] ] } matcher = Matcher(en_vocab) for key, patterns in rules.items(): matcher.add(key, patterns, greedy="LONGEST") words = ["They", "like", "Goggle", "Noo"] doc = Doc(matcher.vocab, words=words) assert matcher(doc) == [ (doc.vocab.strings["GoogleNow"], 3, 4), ] @pytest.mark.parametrize("fuzzyn", range(1, 10)) def test_matcher_match_fuzzyn_all_insertions(en_vocab, fuzzyn): matcher = Matcher(en_vocab) matcher.add("GoogleNow", [[{"ORTH": {f"FUZZY{fuzzyn}": "GoogleNow"}}]]) # words with increasing edit distance words = ["GoogleNow" + "a" * i for i in range(0, 10)] doc = Doc(en_vocab, words) assert len(matcher(doc)) == fuzzyn + 1 @pytest.mark.parametrize("fuzzyn", range(1, 6)) def test_matcher_match_fuzzyn_various_edits(en_vocab, fuzzyn): matcher = Matcher(en_vocab) matcher.add("GoogleNow", [[{"ORTH": {f"FUZZY{fuzzyn}": "GoogleNow"}}]]) # words with increasing edit distance of different edit types words = [ "GoogleNow", "GoogleNuw", "GoogleNuew", "GoogleNoweee", "GiggleNuw3", "gouggle5New", ] doc = Doc(en_vocab, words) assert len(matcher(doc)) == fuzzyn + 1 @pytest.mark.parametrize("greedy", ["FIRST", "LONGEST"]) @pytest.mark.parametrize("set_op", ["IN", "NOT_IN"]) def test_matcher_match_fuzzyn_set_op_longest(en_vocab, greedy, set_op): rules = { "GoogleNow": [[{"ORTH": {"FUZZY2": {set_op: ["Google", "Now"]}}, "OP": "+"}]] } matcher = Matcher(en_vocab) for key, patterns in rules.items(): matcher.add(key, patterns, greedy=greedy) words = ["They", "like", "Goggle", "Noo"] doc = Doc(matcher.vocab, words=words) spans = matcher(doc, as_spans=True) assert len(spans) == 1 if set_op == "IN": assert spans[0].text == "Goggle Noo" else: assert spans[0].text == "They like" def test_matcher_match_fuzzyn_set_multiple(en_vocab): rules = { "GoogleNow": [ [ { "ORTH": {"FUZZY1": {"IN": ["Google", "Now"]}, "NOT_IN": ["Goggle"]}, "OP": "+", } ] ] } matcher = Matcher(en_vocab) for key, patterns in rules.items(): matcher.add(key, patterns, greedy="LONGEST") words = ["They", "like", "Goggle", "Noo"] doc = Doc(matcher.vocab, words=words) assert matcher(doc) == [ (doc.vocab.strings["GoogleNow"], 3, 4), ] def test_matcher_empty_dict(en_vocab): """Test matcher allows empty token specs, meaning match on any token.""" matcher = Matcher(en_vocab) doc = Doc(matcher.vocab, words=["a", "b", "c"]) matcher.add("A.C", [[{"ORTH": "a"}, {}, {"ORTH": "c"}]]) matches = matcher(doc) assert len(matches) == 1 assert matches[0][1:] == (0, 3) matcher = Matcher(en_vocab) matcher.add("A.", [[{"ORTH": "a"}, {}]]) matches = matcher(doc) assert matches[0][1:] == (0, 2) def test_matcher_operator_shadow(en_vocab): matcher = Matcher(en_vocab) doc = Doc(matcher.vocab, words=["a", "b", "c"]) pattern = [{"ORTH": "a"}, {"IS_ALPHA": True, "OP": "+"}, {"ORTH": "c"}] matcher.add("A.C", [pattern]) matches = matcher(doc) assert len(matches) == 1 assert matches[0][1:] == (0, 3) def test_matcher_match_zero(matcher): words1 = 'He said , " some words " ...'.split() words2 = 'He said , " some three words " ...'.split() pattern1 = [ {"ORTH": '"'}, {"OP": "!", "IS_PUNCT": True}, {"OP": "!", "IS_PUNCT": True}, {"ORTH": '"'}, ] pattern2 = [ {"ORTH": '"'}, {"IS_PUNCT": True}, {"IS_PUNCT": True}, {"IS_PUNCT": True}, {"ORTH": '"'}, ] matcher.add("Quote", [pattern1]) doc = Doc(matcher.vocab, words=words1) assert len(matcher(doc)) == 1 doc = Doc(matcher.vocab, words=words2) assert len(matcher(doc)) == 0 matcher.add("Quote", [pattern2]) assert len(matcher(doc)) == 0 def test_matcher_match_zero_plus(matcher): words = 'He said , " some words " ...'.split() pattern = [{"ORTH": '"'}, {"OP": "*", "IS_PUNCT": False}, {"ORTH": '"'}] matcher = Matcher(matcher.vocab) matcher.add("Quote", [pattern]) doc = Doc(matcher.vocab, words=words) assert len(matcher(doc)) == 1 def test_matcher_match_one_plus(matcher): control = Matcher(matcher.vocab) control.add("BasicPhilippe", [[{"ORTH": "Philippe"}]]) doc = Doc(control.vocab, words=["Philippe", "Philippe"]) m = control(doc) assert len(m) == 2 pattern = [{"ORTH": "Philippe"}, {"ORTH": "Philippe", "OP": "+"}] matcher.add("KleenePhilippe", [pattern]) m = matcher(doc) assert len(m) == 1 def test_matcher_any_token_operator(en_vocab): """Test that patterns with "any token" {} work with operators.""" matcher = Matcher(en_vocab) matcher.add("TEST", [[{"ORTH": "test"}, {"OP": "*"}]]) doc = Doc(en_vocab, words=["test", "hello", "world"]) matches = [doc[start:end].text for _, start, end in matcher(doc)] assert len(matches) == 3 assert matches[0] == "test" assert matches[1] == "test hello" assert matches[2] == "test hello world" @pytest.mark.usefixtures("clean_underscore") def test_matcher_extension_attribute(en_vocab): matcher = Matcher(en_vocab) get_is_fruit = lambda token: token.text in ("apple", "banana") Token.set_extension("is_fruit", getter=get_is_fruit, force=True) pattern = [{"ORTH": "an"}, {"_": {"is_fruit": True}}] matcher.add("HAVING_FRUIT", [pattern]) doc = Doc(en_vocab, words=["an", "apple"]) matches = matcher(doc) assert len(matches) == 1 doc = Doc(en_vocab, words=["an", "aardvark"]) matches = matcher(doc) assert len(matches) == 0 def test_matcher_set_value(en_vocab): matcher = Matcher(en_vocab) pattern = [{"ORTH": {"IN": ["an", "a"]}}] matcher.add("A_OR_AN", [pattern]) doc = Doc(en_vocab, words=["an", "a", "apple"]) matches = matcher(doc) assert len(matches) == 2 doc = Doc(en_vocab, words=["aardvark"]) matches = matcher(doc) assert len(matches) == 0 def test_matcher_set_value_operator(en_vocab): matcher = Matcher(en_vocab) pattern = [{"ORTH": {"IN": ["a", "the"]}, "OP": "?"}, {"ORTH": "house"}] matcher.add("DET_HOUSE", [pattern]) doc = Doc(en_vocab, words=["In", "a", "house"]) matches = matcher(doc) assert len(matches) == 2 doc = Doc(en_vocab, words=["my", "house"]) matches = matcher(doc) assert len(matches) == 1 def test_matcher_subset_value_operator(en_vocab): matcher = Matcher(en_vocab) pattern = [{"MORPH": {"IS_SUBSET": ["Feat=Val", "Feat2=Val2"]}}] matcher.add("M", [pattern]) doc = Doc(en_vocab, words=["a", "b", "c"]) assert len(matcher(doc)) == 3 doc[0].set_morph("Feat=Val") assert len(matcher(doc)) == 3 doc[0].set_morph("Feat=Val|Feat2=Val2") assert len(matcher(doc)) == 3 doc[0].set_morph("Feat=Val|Feat2=Val2|Feat3=Val3") assert len(matcher(doc)) == 2 doc[0].set_morph("Feat=Val|Feat2=Val2|Feat3=Val3|Feat4=Val4") assert len(matcher(doc)) == 2 # IS_SUBSET acts like "IN" for attrs other than MORPH matcher = Matcher(en_vocab) pattern = [{"TAG": {"IS_SUBSET": ["A", "B"]}}] matcher.add("M", [pattern]) doc = Doc(en_vocab, words=["a", "b", "c"]) doc[0].tag_ = "A" assert len(matcher(doc)) == 1 # IS_SUBSET with an empty list matches nothing matcher = Matcher(en_vocab) pattern = [{"TAG": {"IS_SUBSET": []}}] matcher.add("M", [pattern]) doc = Doc(en_vocab, words=["a", "b", "c"]) doc[0].tag_ = "A" assert len(matcher(doc)) == 0 # IS_SUBSET with a list value Token.set_extension("ext", default=[]) matcher = Matcher(en_vocab) pattern = [{"_": {"ext": {"IS_SUBSET": ["A", "B"]}}}] matcher.add("M", [pattern]) doc = Doc(en_vocab, words=["a", "b", "c"]) doc[0]._.ext = ["A"] doc[1]._.ext = ["C", "D"] assert len(matcher(doc)) == 2 def test_matcher_superset_value_operator(en_vocab): matcher = Matcher(en_vocab) pattern = [{"MORPH": {"IS_SUPERSET": ["Feat=Val", "Feat2=Val2", "Feat3=Val3"]}}] matcher.add("M", [pattern]) doc = Doc(en_vocab, words=["a", "b", "c"]) assert len(matcher(doc)) == 0 doc[0].set_morph("Feat=Val|Feat2=Val2") assert len(matcher(doc)) == 0 doc[0].set_morph("Feat=Val|Feat2=Val2|Feat3=Val3") assert len(matcher(doc)) == 1 doc[0].set_morph("Feat=Val|Feat2=Val2|Feat3=Val3|Feat4=Val4") assert len(matcher(doc)) == 1 # IS_SUPERSET with more than one value only matches for MORPH matcher = Matcher(en_vocab) pattern = [{"TAG": {"IS_SUPERSET": ["A", "B"]}}] matcher.add("M", [pattern]) doc = Doc(en_vocab, words=["a", "b", "c"]) doc[0].tag_ = "A" assert len(matcher(doc)) == 0 # IS_SUPERSET with one value is the same as == matcher = Matcher(en_vocab) pattern = [{"TAG": {"IS_SUPERSET": ["A"]}}] matcher.add("M", [pattern]) doc = Doc(en_vocab, words=["a", "b", "c"]) doc[0].tag_ = "A" assert len(matcher(doc)) == 1 # IS_SUPERSET with an empty value matches everything matcher = Matcher(en_vocab) pattern = [{"TAG": {"IS_SUPERSET": []}}] matcher.add("M", [pattern]) doc = Doc(en_vocab, words=["a", "b", "c"]) doc[0].tag_ = "A" assert len(matcher(doc)) == 3 # IS_SUPERSET with a list value Token.set_extension("ext", default=[]) matcher = Matcher(en_vocab) pattern = [{"_": {"ext": {"IS_SUPERSET": ["A"]}}}] matcher.add("M", [pattern]) doc = Doc(en_vocab, words=["a", "b", "c"]) doc[0]._.ext = ["A", "B"] assert len(matcher(doc)) == 1 def test_matcher_intersect_value_operator(en_vocab): matcher = Matcher(en_vocab) pattern = [{"MORPH": {"INTERSECTS": ["Feat=Val", "Feat2=Val2", "Feat3=Val3"]}}] matcher.add("M", [pattern]) doc = Doc(en_vocab, words=["a", "b", "c"]) assert len(matcher(doc)) == 0 doc[0].set_morph("Feat=Val") assert len(matcher(doc)) == 1 doc[0].set_morph("Feat=Val|Feat2=Val2") assert len(matcher(doc)) == 1 doc[0].set_morph("Feat=Val|Feat2=Val2|Feat3=Val3") assert len(matcher(doc)) == 1 doc[0].set_morph("Feat=Val|Feat2=Val2|Feat3=Val3|Feat4=Val4") assert len(matcher(doc)) == 1 # INTERSECTS with a single value is the same as IN matcher = Matcher(en_vocab) pattern = [{"TAG": {"INTERSECTS": ["A", "B"]}}] matcher.add("M", [pattern]) doc = Doc(en_vocab, words=["a", "b", "c"]) doc[0].tag_ = "A" assert len(matcher(doc)) == 1 # INTERSECTS with an empty pattern list matches nothing matcher = Matcher(en_vocab) pattern = [{"TAG": {"INTERSECTS": []}}] matcher.add("M", [pattern]) doc = Doc(en_vocab, words=["a", "b", "c"]) doc[0].tag_ = "A" assert len(matcher(doc)) == 0 # INTERSECTS with a list value Token.set_extension("ext", default=[]) matcher = Matcher(en_vocab) pattern = [{"_": {"ext": {"INTERSECTS": ["A", "C"]}}}] matcher.add("M", [pattern]) doc = Doc(en_vocab, words=["a", "b", "c"]) doc[0]._.ext = ["A", "B"] assert len(matcher(doc)) == 1 # INTERSECTS matches nothing for iterables that aren't all str or int matcher = Matcher(en_vocab) pattern = [{"_": {"ext": {"INTERSECTS": ["Abx", "C"]}}}] matcher.add("M", [pattern]) doc = Doc(en_vocab, words=["a", "b", "c"]) doc[0]._.ext = [["Abx"], "B"] assert len(matcher(doc)) == 0 doc[0]._.ext = ["Abx", "B"] assert len(matcher(doc)) == 1 # INTERSECTS with an empty pattern list matches nothing matcher = Matcher(en_vocab) pattern = [{"_": {"ext": {"INTERSECTS": []}}}] matcher.add("M", [pattern]) doc = Doc(en_vocab, words=["a", "b", "c"]) doc[0]._.ext = ["A", "B"] assert len(matcher(doc)) == 0 # INTERSECTS with an empty value matches nothing matcher = Matcher(en_vocab) pattern = [{"_": {"ext": {"INTERSECTS": ["A", "B"]}}}] matcher.add("M", [pattern]) doc = Doc(en_vocab, words=["a", "b", "c"]) doc[0]._.ext = [] assert len(matcher(doc)) == 0 def test_matcher_morph_handling(en_vocab): # order of features in pattern doesn't matter matcher = Matcher(en_vocab) pattern1 = [{"MORPH": {"IN": ["Feat1=Val1|Feat2=Val2"]}}] pattern2 = [{"MORPH": {"IN": ["Feat2=Val2|Feat1=Val1"]}}] matcher.add("M", [pattern1]) matcher.add("N", [pattern2]) doc = Doc(en_vocab, words=["a", "b", "c"]) assert len(matcher(doc)) == 0 doc[0].set_morph("Feat2=Val2|Feat1=Val1") assert len(matcher(doc)) == 2 doc[0].set_morph("Feat1=Val1|Feat2=Val2") assert len(matcher(doc)) == 2 # multiple values are split matcher = Matcher(en_vocab) pattern1 = [{"MORPH": {"IS_SUPERSET": ["Feat1=Val1", "Feat2=Val2"]}}] pattern2 = [{"MORPH": {"IS_SUPERSET": ["Feat1=Val1", "Feat1=Val3", "Feat2=Val2"]}}] matcher.add("M", [pattern1]) matcher.add("N", [pattern2]) doc = Doc(en_vocab, words=["a", "b", "c"]) assert len(matcher(doc)) == 0 doc[0].set_morph("Feat2=Val2,Val3|Feat1=Val1") assert len(matcher(doc)) == 1 doc[0].set_morph("Feat1=Val1,Val3|Feat2=Val2") assert len(matcher(doc)) == 2 def test_matcher_regex(en_vocab): matcher = Matcher(en_vocab) pattern = [{"ORTH": {"REGEX": r"(?:a|an)"}}] matcher.add("A_OR_AN", [pattern]) doc = Doc(en_vocab, words=["an", "a", "hi"]) matches = matcher(doc) assert len(matches) == 2 doc = Doc(en_vocab, words=["bye"]) matches = matcher(doc) assert len(matches) == 0 def test_matcher_regex_set_in(en_vocab): matcher = Matcher(en_vocab) pattern = [{"ORTH": {"REGEX": {"IN": [r"(?:a)", r"(?:an)"]}}}] matcher.add("A_OR_AN", [pattern]) doc = Doc(en_vocab, words=["an", "a", "hi"]) matches = matcher(doc) assert len(matches) == 2 doc = Doc(en_vocab, words=["bye"]) matches = matcher(doc) assert len(matches) == 0 def test_matcher_regex_set_not_in(en_vocab): matcher = Matcher(en_vocab) pattern = [{"ORTH": {"REGEX": {"NOT_IN": [r"(?:a)", r"(?:an)"]}}}] matcher.add("A_OR_AN", [pattern]) doc = Doc(en_vocab, words=["an", "a", "hi"]) matches = matcher(doc) assert len(matches) == 1 doc = Doc(en_vocab, words=["bye"]) matches = matcher(doc) assert len(matches) == 1 def test_matcher_regex_shape(en_vocab): matcher = Matcher(en_vocab) pattern = [{"SHAPE": {"REGEX": r"^[^x]+$"}}] matcher.add("NON_ALPHA", [pattern]) doc = Doc(en_vocab, words=["99", "problems", "!"]) matches = matcher(doc) assert len(matches) == 2 doc = Doc(en_vocab, words=["bye"]) matches = matcher(doc) assert len(matches) == 0 @pytest.mark.parametrize( "cmp, bad", [ ("==", ["a", "aaa"]), ("!=", ["aa"]), (">=", ["a"]), ("<=", ["aaa"]), (">", ["a", "aa"]), ("<", ["aa", "aaa"]), ], ) def test_matcher_compare_length(en_vocab, cmp, bad): matcher = Matcher(en_vocab) pattern = [{"LENGTH": {cmp: 2}}] matcher.add("LENGTH_COMPARE", [pattern]) doc = Doc(en_vocab, words=["a", "aa", "aaa"]) matches = matcher(doc) assert len(matches) == len(doc) - len(bad) doc = Doc(en_vocab, words=bad) matches = matcher(doc) assert len(matches) == 0 def test_matcher_extension_set_membership(en_vocab): matcher = Matcher(en_vocab) get_reversed = lambda token: "".join(reversed(token.text)) Token.set_extension("reversed", getter=get_reversed, force=True) pattern = [{"_": {"reversed": {"IN": ["eyb", "ih"]}}}] matcher.add("REVERSED", [pattern]) doc = Doc(en_vocab, words=["hi", "bye", "hello"]) matches = matcher(doc) assert len(matches) == 2 doc = Doc(en_vocab, words=["aardvark"]) matches = matcher(doc) assert len(matches) == 0 def test_matcher_extension_in_set_predicate(en_vocab): matcher = Matcher(en_vocab) Token.set_extension("ext", default=[]) pattern = [{"_": {"ext": {"IN": ["A", "C"]}}}] matcher.add("M", [pattern]) doc = Doc(en_vocab, words=["a", "b", "c"]) # The IN predicate expects an exact match between the # extension value and one of the pattern's values. doc[0]._.ext = ["A", "B"] assert len(matcher(doc)) == 0 doc[0]._.ext = ["A"] assert len(matcher(doc)) == 0 doc[0]._.ext = "A" assert len(matcher(doc)) == 1 def test_matcher_basic_check(en_vocab): matcher = Matcher(en_vocab) # Potential mistake: pass in pattern instead of list of patterns pattern = [{"TEXT": "hello"}, {"TEXT": "world"}] with pytest.raises(ValueError): matcher.add("TEST", pattern) def test_attr_pipeline_checks(en_vocab): doc1 = Doc(en_vocab, words=["Test"]) doc1[0].dep_ = "ROOT" doc2 = Doc(en_vocab, words=["Test"]) doc2[0].tag_ = "TAG" doc2[0].pos_ = "X" doc2[0].set_morph("Feat=Val") doc2[0].lemma_ = "LEMMA" doc3 = Doc(en_vocab, words=["Test"]) # DEP requires DEP matcher = Matcher(en_vocab) matcher.add("TEST", [[{"DEP": "a"}]]) matcher(doc1) with pytest.raises(ValueError): matcher(doc2) with pytest.raises(ValueError): matcher(doc3) # errors can be suppressed if desired matcher(doc2, allow_missing=True) matcher(doc3, allow_missing=True) # TAG, POS, LEMMA require those values for attr in ("TAG", "POS", "LEMMA"): matcher = Matcher(en_vocab) matcher.add("TEST", [[{attr: "a"}]]) matcher(doc2) with pytest.raises(ValueError): matcher(doc1) with pytest.raises(ValueError): matcher(doc3) # TEXT/ORTH only require tokens matcher = Matcher(en_vocab) matcher.add("TEST", [[{"ORTH": "a"}]]) matcher(doc1) matcher(doc2) matcher(doc3) matcher = Matcher(en_vocab) matcher.add("TEST", [[{"TEXT": "a"}]]) matcher(doc1) matcher(doc2) matcher(doc3) @pytest.mark.parametrize( "pattern,text", [ ([{"IS_ALPHA": True}], "a"), ([{"IS_ASCII": True}], "a"), ([{"IS_DIGIT": True}], "1"), ([{"IS_LOWER": True}], "a"), ([{"IS_UPPER": True}], "A"), ([{"IS_TITLE": True}], "Aaaa"), ([{"IS_PUNCT": True}], "."), ([{"IS_SPACE": True}], "\n"), ([{"IS_BRACKET": True}], "["), ([{"IS_QUOTE": True}], '"'), ([{"IS_LEFT_PUNCT": True}], "``"), ([{"IS_RIGHT_PUNCT": True}], "''"), ([{"IS_STOP": True}], "the"), ([{"SPACY": True}], "the"), ([{"LIKE_NUM": True}], "1"), ([{"LIKE_URL": True}], "http://example.com"), ([{"LIKE_EMAIL": True}], "mail@example.com"), ], ) def test_matcher_schema_token_attributes(en_vocab, pattern, text): matcher = Matcher(en_vocab) doc = Doc(en_vocab, words=text.split(" ")) matcher.add("Rule", [pattern]) assert len(matcher) == 1 matches = matcher(doc) assert len(matches) == 1 @pytest.mark.filterwarnings("ignore:\\[W036") def test_matcher_valid_callback(en_vocab): """Test that on_match can only be None or callable.""" matcher = Matcher(en_vocab) with pytest.raises(ValueError): matcher.add("TEST", [[{"TEXT": "test"}]], on_match=[]) matcher(Doc(en_vocab, words=["test"])) def test_matcher_callback(en_vocab): mock = Mock() matcher = Matcher(en_vocab) pattern = [{"ORTH": "test"}] matcher.add("Rule", [pattern], on_match=mock) doc = Doc(en_vocab, words=["This", "is", "a", "test", "."]) matches = matcher(doc) mock.assert_called_once_with(matcher, doc, 0, matches) def test_matcher_callback_with_alignments(en_vocab): mock = Mock() matcher = Matcher(en_vocab) pattern = [{"ORTH": "test"}] matcher.add("Rule", [pattern], on_match=mock) doc = Doc(en_vocab, words=["This", "is", "a", "test", "."]) matches = matcher(doc, with_alignments=True) mock.assert_called_once_with(matcher, doc, 0, matches) def test_matcher_span(matcher): text = "JavaScript is good but Java is better" doc = Doc(matcher.vocab, words=text.split()) span_js = doc[:3] span_java = doc[4:] assert len(matcher(doc)) == 2 assert len(matcher(span_js)) == 1 assert len(matcher(span_java)) == 1 def test_matcher_as_spans(matcher): """Test the new as_spans=True API.""" text = "JavaScript is good but Java is better" doc = Doc(matcher.vocab, words=text.split()) matches = matcher(doc, as_spans=True) assert len(matches) == 2 assert isinstance(matches[0], Span) assert matches[0].text == "JavaScript" assert matches[0].label_ == "JS" assert isinstance(matches[1], Span) assert matches[1].text == "Java" assert matches[1].label_ == "Java" matches = matcher(doc[1:], as_spans=True) assert len(matches) == 1 assert isinstance(matches[0], Span) assert matches[0].text == "Java" assert matches[0].label_ == "Java" def test_matcher_deprecated(matcher): doc = Doc(matcher.vocab, words=["hello", "world"]) with pytest.warns(DeprecationWarning) as record: for _ in matcher.pipe([doc]): pass assert record.list assert "spaCy v3.0" in str(record.list[0].message) def test_matcher_remove_zero_operator(en_vocab): matcher = Matcher(en_vocab) pattern = [{"OP": "!"}] matcher.add("Rule", [pattern]) doc = Doc(en_vocab, words=["This", "is", "a", "test", "."]) matches = matcher(doc) assert len(matches) == 0 assert "Rule" in matcher matcher.remove("Rule") assert "Rule" not in matcher def test_matcher_no_zero_length(en_vocab): doc = Doc(en_vocab, words=["a", "b"], tags=["A", "B"]) matcher = Matcher(en_vocab) matcher.add("TEST", [[{"TAG": "C", "OP": "?"}]]) assert len(matcher(doc)) == 0 def test_matcher_ent_iob_key(en_vocab): """Test that patterns with ent_iob works correctly.""" matcher = Matcher(en_vocab) matcher.add("Rule", [[{"ENT_IOB": "I"}]]) doc1 = Doc(en_vocab, words=["I", "visited", "New", "York", "and", "California"]) doc1.ents = [Span(doc1, 2, 4, label="GPE"), Span(doc1, 5, 6, label="GPE")] doc2 = Doc(en_vocab, words=["I", "visited", "my", "friend", "Alicia"]) doc2.ents = [Span(doc2, 4, 5, label="PERSON")] matches1 = [doc1[start:end].text for _, start, end in matcher(doc1)] matches2 = [doc2[start:end].text for _, start, end in matcher(doc2)] assert len(matches1) == 1 assert matches1[0] == "York" assert len(matches2) == 0 matcher = Matcher(en_vocab) # Test iob pattern with operators matcher.add("Rule", [[{"ENT_IOB": "I", "OP": "+"}]]) doc = Doc( en_vocab, words=["I", "visited", "my", "friend", "Anna", "Maria", "Esperanza"] ) doc.ents = [Span(doc, 4, 7, label="PERSON")] matches = [doc[start:end].text for _, start, end in matcher(doc)] assert len(matches) == 3 assert matches[0] == "Maria" assert matches[1] == "Maria Esperanza" assert matches[2] == "Esperanza" def test_matcher_min_max_operator(en_vocab): # Exactly n matches {n} doc = Doc( en_vocab, words=["foo", "bar", "foo", "foo", "bar", "foo", "foo", "foo", "bar", "bar"], ) matcher = Matcher(en_vocab) pattern = [{"ORTH": "foo", "OP": "{3}"}] matcher.add("TEST", [pattern]) matches1 = [doc[start:end].text for _, start, end in matcher(doc)] assert len(matches1) == 1 # At least n matches {n,} matcher = Matcher(en_vocab) pattern = [{"ORTH": "foo", "OP": "{2,}"}] matcher.add("TEST", [pattern]) matches2 = [doc[start:end].text for _, start, end in matcher(doc)] assert len(matches2) == 4 # At most m matches {,m} matcher = Matcher(en_vocab) pattern = [{"ORTH": "foo", "OP": "{,2}"}] matcher.add("TEST", [pattern]) matches3 = [doc[start:end].text for _, start, end in matcher(doc)] assert len(matches3) == 9 # At least n matches and most m matches {n,m} matcher = Matcher(en_vocab) pattern = [{"ORTH": "foo", "OP": "{2,3}"}] matcher.add("TEST", [pattern]) matches4 = [doc[start:end].text for _, start, end in matcher(doc)] assert len(matches4) == 4