mirror of
https://github.com/explosion/spaCy.git
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489 lines
17 KiB
Cython
489 lines
17 KiB
Cython
# cython: infer_types=True, profile=True
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from typing import List
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from collections import defaultdict
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from itertools import product
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import warnings
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from .matcher cimport Matcher
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from ..vocab cimport Vocab
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from ..tokens.doc cimport Doc
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from ..errors import Errors, Warnings
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from ..tokens import Span
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DELIMITER = "||"
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INDEX_HEAD = 1
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INDEX_RELOP = 0
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cdef class DependencyMatcher:
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"""Match dependency parse tree based on pattern rules."""
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cdef readonly Vocab vocab
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cdef readonly Matcher _matcher
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cdef public object _patterns
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cdef public object _raw_patterns
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cdef public object _tokens_to_key
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cdef public object _root
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cdef public object _callbacks
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cdef public object _tree
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cdef public object _ops
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def __init__(self, vocab, *, validate=False):
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"""Create the DependencyMatcher.
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vocab (Vocab): The vocabulary object, which must be shared with the
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documents the matcher will operate on.
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validate (bool): Whether patterns should be validated, passed to
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Matcher as `validate`
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"""
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self._matcher = Matcher(vocab, validate=validate)
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# Associates each key to the raw patterns list added by the user
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# e.g. {'key': [[{'RIGHT_ID': ..., 'RIGHT_ATTRS': ... }, ... ], ... ], ... }
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self._raw_patterns = defaultdict(list)
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# Associates each key to a list of lists of 'RIGHT_ATTRS'
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# e.g. {'key': [[{'POS': ... }, ... ], ... ], ... }
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self._patterns = defaultdict(list)
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# Associates each key to a list of lists where each list associates
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# a token position within the pattern to the key used by the internal matcher)
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# e.g. {'key': [ ['token_key', ... ], ... ], ... }
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self._tokens_to_key = defaultdict(list)
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# Associates each key to a list of ints where each int corresponds
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# to the position of the root token within the pattern
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# e.g. {'key': [3, 1, 4, ... ], ... }
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self._root = defaultdict(list)
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# Associates each key to a list of dicts where each dict describes all
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# branches from a token (identifed by its position) to other tokens as
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# a list of tuples: ('REL_OP', 'LEFT_ID')
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# e.g. {'key': [{2: [('<', 'left_id'), ...] ...}, ... ], ...}
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self._tree = defaultdict(list)
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# Associates each key to its on_match callback
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# e.g. {'key': on_match_callback, ...}
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self._callbacks = {}
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self.vocab = vocab
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self._ops = {
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"<": self._dep,
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">": self._gov,
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"<<": self._dep_chain,
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">>": self._gov_chain,
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".": self._imm_precede,
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".*": self._precede,
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";": self._imm_follow,
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";*": self._follow,
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"$+": self._imm_right_sib,
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"$-": self._imm_left_sib,
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"$++": self._right_sib,
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"$--": self._left_sib,
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">+": self._imm_right_child,
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">-": self._imm_left_child,
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">++": self._right_child,
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">--": self._left_child,
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"<+": self._imm_right_parent,
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"<-": self._imm_left_parent,
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"<++": self._right_parent,
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"<--": self._left_parent,
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}
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def __reduce__(self):
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data = (self.vocab, self._raw_patterns, self._callbacks)
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return (unpickle_matcher, data, None, None)
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def __len__(self):
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"""Get the number of rules, which are edges, added to the dependency
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tree matcher.
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RETURNS (int): The number of rules.
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"""
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return len(self._patterns)
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def __contains__(self, key):
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"""Check whether the matcher contains rules for a match ID.
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key (str): The match ID.
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RETURNS (bool): Whether the matcher contains rules for this match ID.
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"""
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return self.has_key(key)
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def _validate_input(self, pattern, key):
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idx = 0
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visited_nodes = {}
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for relation in pattern:
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if not isinstance(relation, dict):
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raise ValueError(Errors.E1008)
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if "RIGHT_ATTRS" not in relation and "RIGHT_ID" not in relation:
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raise ValueError(Errors.E098.format(key=key))
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if idx == 0:
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if not(
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"RIGHT_ID" in relation
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and "REL_OP" not in relation
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and "LEFT_ID" not in relation
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):
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raise ValueError(Errors.E099.format(key=key))
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visited_nodes[relation["RIGHT_ID"]] = True
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else:
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required_keys = {"RIGHT_ID", "RIGHT_ATTRS", "REL_OP", "LEFT_ID"}
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relation_keys = set(relation.keys())
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missing = required_keys - relation_keys
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if missing:
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missing_txt = ", ".join(list(missing))
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raise ValueError(Errors.E100.format(
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required=required_keys,
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missing=missing_txt
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))
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if (
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relation["RIGHT_ID"] in visited_nodes
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or relation["LEFT_ID"] not in visited_nodes
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):
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raise ValueError(Errors.E101.format(key=key))
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if relation["REL_OP"] not in self._ops:
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raise ValueError(Errors.E1007.format(op=relation["REL_OP"]))
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visited_nodes[relation["RIGHT_ID"]] = True
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visited_nodes[relation["LEFT_ID"]] = True
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if relation["RIGHT_ATTRS"].get("OP", "") in ("?", "*", "+"):
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raise ValueError(Errors.E1016.format(node=relation))
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idx = idx + 1
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def _get_matcher_key(self, key, pattern_idx, token_idx):
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"""
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Creates a token key to be used by the matcher
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"""
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return self._normalize_key(
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str(key) + DELIMITER +
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str(pattern_idx) + DELIMITER +
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str(token_idx)
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)
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def add(self, key, patterns, *, on_match=None):
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"""Add a new matcher rule to the matcher.
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key (str): The match ID.
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patterns (list): The patterns to add for the given key.
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on_match (callable): Optional callback executed on match.
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"""
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if on_match is not None and not hasattr(on_match, "__call__"):
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raise ValueError(Errors.E171.format(name="DependencyMatcher", arg_type=type(on_match)))
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if patterns is None or not isinstance(patterns, List):
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raise ValueError(Errors.E948.format(name="DependencyMatcher", arg_type=type(patterns)))
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for pattern in patterns:
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if len(pattern) == 0:
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raise ValueError(Errors.E012.format(key=key))
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self._validate_input(pattern, key)
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key = self._normalize_key(key)
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# Save raw patterns and on_match callback
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self._raw_patterns[key].extend(patterns)
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self._callbacks[key] = on_match
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# Add 'RIGHT_ATTRS' to self._patterns[key]
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_patterns = [[[pat["RIGHT_ATTRS"]] for pat in pattern] for pattern in patterns]
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pattern_offset = len(self._patterns[key])
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self._patterns[key].extend(_patterns)
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# Add each node pattern of all the input patterns individually to the
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# matcher. This enables only a single instance of Matcher to be used.
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# Multiple adds are required to track each node pattern.
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tokens_to_key_list = []
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for i, current_patterns in enumerate(_patterns, start=pattern_offset):
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# Preallocate list space
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tokens_to_key = [None] * len(current_patterns)
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# TODO: Better ways to hash edges in pattern?
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for j, _pattern in enumerate(current_patterns):
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k = self._get_matcher_key(key, i, j)
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self._matcher.add(k, [_pattern])
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tokens_to_key[j] = k
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tokens_to_key_list.append(tokens_to_key)
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self._tokens_to_key[key].extend(tokens_to_key_list)
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# Create an object tree to traverse later on. This data structure
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# enables easy tree pattern match. Doc-Token based tree cannot be
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# reused since it is memory-heavy and tightly coupled with the Doc.
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self._retrieve_tree(patterns, key)
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def _retrieve_tree(self, patterns, key):
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# New trees belonging to this key
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tree_list = []
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# List of indices to the root nodes
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root_list = []
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# Group token id to create trees
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for i, pattern in enumerate(patterns):
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tree = defaultdict(list)
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root = -1
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right_id_to_token = {}
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for j, token in enumerate(pattern):
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right_id_to_token[token["RIGHT_ID"]] = j
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for j, token in enumerate(pattern):
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if "REL_OP" in token:
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# Add tree branch
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tree[right_id_to_token[token["LEFT_ID"]]].append(
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(token["REL_OP"], j),
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)
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else:
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# No 'REL_OP', this is the root
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root = j
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tree_list.append(tree)
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root_list.append(root)
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self._tree[key].extend(tree_list)
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self._root[key].extend(root_list)
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def has_key(self, key):
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"""Check whether the matcher has a rule with a given key.
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key (string or int): The key to check.
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RETURNS (bool): Whether the matcher has the rule.
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"""
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return self._normalize_key(key) in self._patterns
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def get(self, key, default=None):
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"""Retrieve the pattern stored for a key.
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key (str / int): The key to retrieve.
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RETURNS (tuple): The rule, as an (on_match, patterns) tuple.
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"""
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key = self._normalize_key(key)
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if key not in self._raw_patterns:
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return default
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return (self._callbacks[key], self._raw_patterns[key])
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def remove(self, key):
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key = self._normalize_key(key)
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if not key in self._patterns:
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raise ValueError(Errors.E175.format(key=key))
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self._patterns.pop(key)
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self._raw_patterns.pop(key)
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self._tree.pop(key)
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self._root.pop(key)
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for mklist in self._tokens_to_key.pop(key):
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for mkey in mklist:
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self._matcher.remove(mkey)
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def _get_keys_to_position_maps(self, doc):
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"""
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Processes the doc and groups all matches by their root and match id.
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Returns a dict mapping each (root, match id) pair to the list of
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tokens indices which are descendants of root and match the token
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pattern identified by the given match id.
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e.g. keys_to_position_maps[root_index][match_id] = [...]
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"""
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keys_to_position_maps = defaultdict(lambda: defaultdict(list))
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for match_id, start, end in self._matcher(doc):
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if start + 1 != end:
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warnings.warn(Warnings.W110.format(tokens=[t.text for t in doc[start:end]], pattern=self._matcher.get(match_id)[1][0][0]))
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token = doc[start]
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root = ([token] + list(token.ancestors))[-1]
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keys_to_position_maps[root.i][match_id].append(start)
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return keys_to_position_maps
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def __call__(self, object doclike):
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"""Find all token sequences matching the supplied pattern.
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doclike (Doc or Span): The document to match over.
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RETURNS (list): A list of `(key, start, end)` tuples,
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describing the matches. A match tuple describes a span
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`doc[start:end]`. The `label_id` and `key` are both integers.
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"""
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if isinstance(doclike, Doc):
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doc = doclike
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elif isinstance(doclike, Span):
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doc = doclike.as_doc(copy_user_data=True)
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else:
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raise ValueError(Errors.E195.format(good="Doc or Span", got=type(doclike).__name__))
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matched_key_trees = []
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keys_to_position_maps = self._get_keys_to_position_maps(doc)
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cache = {}
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for key in self._patterns.keys():
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for root, tree, tokens_to_key in zip(
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self._root[key],
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self._tree[key],
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self._tokens_to_key[key],
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):
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for keys_to_position in keys_to_position_maps.values():
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for matched_tree in self._get_matches(cache, doc, tree, tokens_to_key, keys_to_position):
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matched_key_trees.append((key, matched_tree))
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for i, (match_id, nodes) in enumerate(matched_key_trees):
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on_match = self._callbacks.get(match_id)
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if on_match is not None:
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on_match(self, doc, i, matched_key_trees)
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return matched_key_trees
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def _get_matches(self, cache, doc, tree, tokens_to_key, keys_to_position):
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cdef bint is_valid
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all_positions = [keys_to_position[key] for key in tokens_to_key]
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# Generate all potential matches by computing the cartesian product of all
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# position of the matched tokens
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for candidate_match in product(*all_positions):
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# A potential match is a valid match if all relationships between the
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# matched tokens are satisfied.
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is_valid = True
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for left_idx in range(len(candidate_match)):
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is_valid = self._check_relationships(cache, doc, candidate_match, left_idx, tree)
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if not is_valid:
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break
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if is_valid:
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yield list(candidate_match)
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def _check_relationships(self, cache, doc, candidate_match, left_idx, tree):
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# Position of the left operand within the document
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left_pos = candidate_match[left_idx]
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for relop, right_idx in tree[left_idx]:
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# Position of the left operand within the document
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right_pos = candidate_match[right_idx]
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# List of valid right matches
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valid_right_matches = self._resolve_node_operator(cache, doc, left_pos, relop)
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# If the proposed right token is not within the valid ones, fail
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if right_pos not in valid_right_matches:
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return False
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return True
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def _resolve_node_operator(self, cache, doc, node, operator):
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"""
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Given a doc, a node (as a index in the doc) and a REL_OP operator
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returns the list of nodes from the doc that belong to node+operator.
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"""
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key = (node, operator)
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if key not in cache:
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cache[key] = [token.i for token in self._ops[operator](doc, node)]
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return cache[key]
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def _dep(self, doc, node):
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if doc[node].head == doc[node]:
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return []
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return [doc[node].head]
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def _gov(self,doc,node):
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return list(doc[node].children)
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def _dep_chain(self, doc, node):
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return list(doc[node].ancestors)
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def _gov_chain(self, doc, node):
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return [t for t in doc[node].subtree if t != doc[node]]
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def _imm_precede(self, doc, node):
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sent = self._get_sent(doc[node])
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if node < len(doc) - 1 and doc[node + 1] in sent:
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return [doc[node + 1]]
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return []
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def _precede(self, doc, node):
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sent = self._get_sent(doc[node])
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return [doc[i] for i in range(node + 1, sent.end)]
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def _imm_follow(self, doc, node):
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sent = self._get_sent(doc[node])
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if node > 0 and doc[node - 1] in sent:
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return [doc[node - 1]]
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return []
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def _follow(self, doc, node):
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sent = self._get_sent(doc[node])
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return [doc[i] for i in range(sent.start, node)]
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def _imm_right_sib(self, doc, node):
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for child in list(doc[node].head.children):
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if child.i == node + 1:
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return [doc[child.i]]
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return []
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def _imm_left_sib(self, doc, node):
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for child in list(doc[node].head.children):
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if child.i == node - 1:
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return [doc[child.i]]
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return []
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def _right_sib(self, doc, node):
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return [doc[child.i] for child in doc[node].head.children if child.i > node]
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def _left_sib(self, doc, node):
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return [doc[child.i] for child in doc[node].head.children if child.i < node]
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def _imm_right_child(self, doc, node):
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for child in doc[node].rights:
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if child.i == node + 1:
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return [doc[child.i]]
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return []
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def _imm_left_child(self, doc, node):
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for child in doc[node].lefts:
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if child.i == node - 1:
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return [doc[child.i]]
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return []
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def _right_child(self, doc, node):
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return [child for child in doc[node].rights]
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def _left_child(self, doc, node):
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return [child for child in doc[node].lefts]
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def _imm_right_parent(self, doc, node):
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if doc[node].head.i == node + 1:
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return [doc[node].head]
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return []
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def _imm_left_parent(self, doc, node):
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if doc[node].head.i == node - 1:
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return [doc[node].head]
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return []
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def _right_parent(self, doc, node):
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if doc[node].head.i > node:
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return [doc[node].head]
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return []
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def _left_parent(self, doc, node):
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if doc[node].head.i < node:
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return [doc[node].head]
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return []
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def _normalize_key(self, key):
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if isinstance(key, str):
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return self.vocab.strings.add(key)
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else:
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return key
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def _get_sent(self, token):
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root = (list(token.ancestors) or [token])[-1]
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return token.doc[root.left_edge.i:root.right_edge.i + 1]
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def unpickle_matcher(vocab, patterns, callbacks):
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matcher = DependencyMatcher(vocab)
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for key, pattern in patterns.items():
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callback = callbacks.get(key, None)
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matcher.add(key, pattern, on_match=callback)
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return matcher
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