--- title: Matcher teaser: Match sequences of tokens, based on pattern rules tag: class source: spacy/matcher/matcher.pyx --- The `Matcher` lets you find words and phrases using rules describing their token attributes. Rules can refer to token annotations (like the text or part-of-speech tags), as well as lexical attributes like `Token.is_punct`. Applying the matcher to a [`Doc`](/api/doc) gives you access to the matched tokens in context. For in-depth examples and workflows for combining rules and statistical models, see the [usage guide](/usage/rule-based-matching) on rule-based matching. ## Pattern format {#patterns} > ```json > ### Example > [ > {"LOWER": "i"}, > {"LEMMA": {"IN": ["like", "love"]}}, > {"POS": "NOUN", "OP": "+"} > ] > ``` A pattern added to the `Matcher` consists of a list of dictionaries. Each dictionary describes **one token** and its attributes. The available token pattern keys correspond to a number of [`Token` attributes](/api/token#attributes). The supported attributes for rule-based matching are: | Attribute |  Description | | ----------------------------------------------- | ------------------------------------------------------------------------------------------------------------------------- | | `ORTH` | The exact verbatim text of a token. ~~str~~ | | `TEXT` 2.1 | The exact verbatim text of a token. ~~str~~ | | `LOWER` | The lowercase form of the token text. ~~str~~ | |  `LENGTH` | The length of the token text. ~~int~~ | |  `IS_ALPHA`, `IS_ASCII`, `IS_DIGIT` | Token text consists of alphabetic characters, ASCII characters, digits. ~~bool~~ | |  `IS_LOWER`, `IS_UPPER`, `IS_TITLE` | Token text is in lowercase, uppercase, titlecase. ~~bool~~ | |  `IS_PUNCT`, `IS_SPACE`, `IS_STOP` | Token is punctuation, whitespace, stop word. ~~bool~~ | |  `LIKE_NUM`, `LIKE_URL`, `LIKE_EMAIL` | Token text resembles a number, URL, email. ~~bool~~ | |  `POS`, `TAG`, `MORPH`, `DEP`, `LEMMA`, `SHAPE` | The token's simple and extended part-of-speech tag, morphological analysis, dependency label, lemma, shape. ~~str~~ | | `ENT_TYPE` | The token's entity label. ~~str~~ | | `_` 2.1 | Properties in [custom extension attributes](/usage/processing-pipelines#custom-components-attributes). ~~Dict[str, Any]~~ | | `OP` | Operator or quantifier to determine how often to match a token pattern. ~~str~~ | Operators and quantifiers define **how often** a token pattern should be matched: > ```json > ### Example > [ > {"POS": "ADJ", "OP": "*"}, > {"POS": "NOUN", "OP": "+"} > ] > ``` | OP | Description | | --- | ---------------------------------------------------------------- | | `!` | Negate the pattern, by requiring it to match exactly 0 times. | | `?` | Make the pattern optional, by allowing it to match 0 or 1 times. | | `+` | Require the pattern to match 1 or more times. | | `*` | Allow the pattern to match zero or more times. | Token patterns can also map to a **dictionary of properties** instead of a single value to indicate whether the expected value is a member of a list or how it compares to another value. > ```json > ### Example > [ > {"LEMMA": {"IN": ["like", "love", "enjoy"]}}, > {"POS": "PROPN", "LENGTH": {">=": 10}}, > ] > ``` | Attribute | Description | | -------------------------- | ------------------------------------------------------------------------------------------------------- | | `IN` | Attribute value is member of a list. ~~Any~~ | | `NOT_IN` | Attribute value is _not_ member of a list. ~~Any~~ | | `ISSUBSET` | Attribute values (for `MORPH`) are a subset of a list. ~~Any~~ | | `ISSUPERSET` | Attribute values (for `MORPH`) are a superset of a list. ~~Any~~ | | `==`, `>=`, `<=`, `>`, `<` | Attribute value is equal, greater or equal, smaller or equal, greater or smaller. ~~Union[int, float]~~ | ## Matcher.\_\_init\_\_ {#init tag="method"} Create the rule-based `Matcher`. If `validate=True` is set, all patterns added to the matcher will be validated against a JSON schema and a `MatchPatternError` is raised if problems are found. Those can include incorrect types (e.g. a string where an integer is expected) or unexpected property names. > #### Example > > ```python > from spacy.matcher import Matcher > matcher = Matcher(nlp.vocab) > ``` | Name | Description | | --------------------------------------- | ----------------------------------------------------------------------------------------------------- | | `vocab` | The vocabulary object, which must be shared with the documents the matcher will operate on. ~~Vocab~~ | | `validate` 2.1 | Validate all patterns added to this matcher. ~~bool~~ | ## Matcher.\_\_call\_\_ {#call tag="method"} Find all token sequences matching the supplied patterns on the `Doc` or `Span`. > #### Example > > ```python > from spacy.matcher import Matcher > > matcher = Matcher(nlp.vocab) > pattern = [{"LOWER": "hello"}, {"LOWER": "world"}] > matcher.add("HelloWorld", [pattern]) > doc = nlp("hello world!") > matches = matcher(doc) > ``` | Name | Description | | ------------------------------------- | -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- | | `doclike` | The `Doc` or `Span` to match over. ~~Union[Doc, Span]~~ | | _keyword-only_ | | | `as_spans` 3 | Instead of tuples, return a list of [`Span`](/api/span) objects of the matches, with the `match_id` assigned as the span label. Defaults to `False`. ~~bool~~ | | **RETURNS** | A list of `(match_id, start, end)` tuples, describing the matches. A match tuple describes a span `doc[start:end`]. The `match_id` is the ID of the added match pattern. If `as_spans` is set to `True`, a list of `Span` objects is returned instead. ~~Union[List[Tuple[int, int, int]], List[Span]]~~ | ## Matcher.\_\_len\_\_ {#len tag="method" new="2"} Get the number of rules added to the matcher. Note that this only returns the number of rules (identical with the number of IDs), not the number of individual patterns. > #### Example > > ```python > matcher = Matcher(nlp.vocab) > assert len(matcher) == 0 > matcher.add("Rule", [[{"ORTH": "test"}]]) > assert len(matcher) == 1 > ``` | Name | Description | | ----------- | ---------------------------- | | **RETURNS** | The number of rules. ~~int~~ | ## Matcher.\_\_contains\_\_ {#contains tag="method" new="2"} Check whether the matcher contains rules for a match ID. > #### Example > > ```python > matcher = Matcher(nlp.vocab) > assert "Rule" not in matcher > matcher.add("Rule", [[{'ORTH': 'test'}]]) > assert "Rule" in matcher > ``` | Name | Description | | ----------- | -------------------------------------------------------------- | | `key` | The match ID. ~~str~~ | | **RETURNS** | Whether the matcher contains rules for this match ID. ~~bool~~ | ## Matcher.add {#add tag="method" new="2"} Add a rule to the matcher, consisting of an ID key, one or more patterns, and an optional callback function to act on the matches. The callback function will receive the arguments `matcher`, `doc`, `i` and `matches`. If a pattern already exists for the given ID, the patterns will be extended. An `on_match` callback will be overwritten. > #### Example > > ```python > def on_match(matcher, doc, id, matches): > print('Matched!', matches) > > matcher = Matcher(nlp.vocab) > patterns = [ > [{"LOWER": "hello"}, {"LOWER": "world"}], > [{"ORTH": "Google"}, {"ORTH": "Maps"}] > ] > matcher.add("TEST_PATTERNS", patterns) > doc = nlp("HELLO WORLD on Google Maps.") > matches = matcher(doc) > ``` As of spaCy v3.0, `Matcher.add` takes a list of patterns as the second argument (instead of a variable number of arguments). The `on_match` callback becomes an optional keyword argument. ```diff patterns = [[{"TEXT": "Google"}, {"TEXT": "Now"}], [{"TEXT": "GoogleNow"}]] - matcher.add("GoogleNow", on_match, *patterns) + matcher.add("GoogleNow", patterns, on_match=on_match) ``` | Name | Description | | ----------------------------------- | ---------------------------------------------------------------------------------------------------------------------------------------------------------- | | `match_id` | An ID for the thing you're matching. ~~str~~ | | `patterns` | Match pattern. A pattern consists of a list of dicts, where each dict describes a token. ~~List[List[Dict[str, Any]]]~~ | | _keyword-only_ | | | `on_match` | Callback function to act on matches. Takes the arguments `matcher`, `doc`, `i` and `matches`. ~~Optional[Callable[[Matcher, Doc, int, List[tuple], Any]]~~ | | `greedy` 3 | Optional filter for greedy matches. Can either be `"FIRST"` or `"LONGEST"`. ~~Optional[str]~~ | ## Matcher.remove {#remove tag="method" new="2"} Remove a rule from the matcher. A `KeyError` is raised if the match ID does not exist. > #### Example > > ```python > matcher.add("Rule", [[{"ORTH": "test"}]]) > assert "Rule" in matcher > matcher.remove("Rule") > assert "Rule" not in matcher > ``` | Name | Description | | ----- | --------------------------------- | | `key` | The ID of the match rule. ~~str~~ | ## Matcher.get {#get tag="method" new="2"} Retrieve the pattern stored for a key. Returns the rule as an `(on_match, patterns)` tuple containing the callback and available patterns. > #### Example > > ```python > matcher.add("Rule", [[{"ORTH": "test"}]]) > on_match, patterns = matcher.get("Rule") > ``` | Name | Description | | ----------- | --------------------------------------------------------------------------------------------- | | `key` | The ID of the match rule. ~~str~~ | | **RETURNS** | The rule, as an `(on_match, patterns)` tuple. ~~Tuple[Optional[Callable], List[List[dict]]]~~ |