mirror of
https://github.com/explosion/spaCy.git
synced 2024-12-26 01:46:28 +03:00
77ddcf7381
* Update matcher engine for regex and extensions Add support for matching over arbitrary Python predicate functions, and arbitrary Python attribute getters. This will allow matching over regex patterns, and allow supporting extension attributes. The results of the Python predicate functions are cached, so that we don't call the same predicate function twice for the same token. The extension attributes are fetched into an array for each token in the doc. This should minimise the performance impact of the new features. We still need to wire up these features to the patterns, and test it all. * Work on wiring up extra attributes in matcher * Work on tests for extra matcher attrs * Add support for extension attrs to matcher * Test extension attribute matching * Work on implementing predicate-based match patterns * Get predicates working for set membership * Add test for set membership * Make extensions+predicates work * Test matcher extensions * Cache predicate results better in Matcher * Remove print statement in matcher test * Use srsly to get key for predicates
1346 lines
49 KiB
Cython
1346 lines
49 KiB
Cython
# cython: infer_types=True
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# cython: profile=True
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from __future__ import unicode_literals
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import re
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import srsly
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from libcpp.vector cimport vector
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from libc.stdint cimport int32_t, uint64_t, uint16_t
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from preshed.maps cimport PreshMap
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from cymem.cymem cimport Pool
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from murmurhash.mrmr cimport hash64
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from .typedefs cimport attr_t, hash_t
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from .structs cimport TokenC
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from .lexeme cimport attr_id_t
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from .vocab cimport Vocab
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from .tokens.doc cimport Doc
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from .tokens.token cimport Token
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from .tokens.doc cimport get_token_attr
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from .attrs cimport ID, attr_id_t, NULL_ATTR, ORTH
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from .errors import Errors, TempErrors, Warnings, deprecation_warning
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from .strings import get_string_id
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from .attrs import IDS
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from .attrs import FLAG61 as U_ENT
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from .attrs import FLAG60 as B2_ENT
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from .attrs import FLAG59 as B3_ENT
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from .attrs import FLAG58 as B4_ENT
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from .attrs import FLAG43 as L2_ENT
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from .attrs import FLAG42 as L3_ENT
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from .attrs import FLAG41 as L4_ENT
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from .attrs import FLAG43 as I2_ENT
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from .attrs import FLAG42 as I3_ENT
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from .attrs import FLAG41 as I4_ENT
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DELIMITER = '||'
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DELIMITER = '||'
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INDEX_HEAD = 1
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INDEX_RELOP = 0
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cdef enum action_t:
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REJECT = 0000
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MATCH = 1000
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ADVANCE = 0100
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RETRY = 0010
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RETRY_EXTEND = 0011
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RETRY_ADVANCE = 0110
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MATCH_EXTEND = 1001
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MATCH_REJECT = 2000
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cdef enum quantifier_t:
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ZERO
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ZERO_ONE
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ZERO_PLUS
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ONE
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ONE_PLUS
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cdef struct AttrValueC:
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attr_id_t attr
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attr_t value
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cdef struct IndexValueC:
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int32_t index
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attr_t value
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cdef struct TokenPatternC:
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AttrValueC* attrs
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int32_t* py_predicates
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IndexValueC* extra_attrs
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int32_t nr_attr
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int32_t nr_extra_attr
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int32_t nr_py
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quantifier_t quantifier
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hash_t key
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cdef struct PatternStateC:
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TokenPatternC* pattern
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int32_t start
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int32_t length
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cdef struct MatchC:
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attr_t pattern_id
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int32_t start
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int32_t length
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cdef find_matches(TokenPatternC** patterns, int n, Doc doc, extensions=None,
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predicates=tuple()):
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'''Find matches in a doc, with a compiled array of patterns. Matches are
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returned as a list of (id, start, end) tuples.
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To augment the compiled patterns, we optionally also take two Python lists.
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The "predicates" list contains functions that take a Python list and return a
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boolean value. It's mostly used for regular expressions.
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The "extra_getters" list contains functions that take a Python list and return
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an attr ID. It's mostly used for extension attributes.
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'''
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cdef vector[PatternStateC] states
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cdef vector[MatchC] matches
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cdef PatternStateC state
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cdef int i, j, nr_extra_attr
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cdef Pool mem = Pool()
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predicate_cache = <char*>mem.alloc(doc.length * len(predicates), sizeof(char))
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if extensions is not None and len(extensions) >= 1:
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nr_extra_attr = max(extensions.values())
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extra_attr_values = <attr_t*>mem.alloc(doc.length * nr_extra_attr, sizeof(attr_t))
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else:
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nr_extra_attr = 0
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extra_attr_values = <attr_t*>mem.alloc(doc.length, sizeof(attr_t))
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for i, token in enumerate(doc):
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for name, index in extensions.items():
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value = token._.get(name)
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if isinstance(value, basestring):
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value = token.vocab.strings[value]
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extra_attr_values[i * nr_extra_attr + index] = value
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# Main loop
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cdef int nr_predicate = len(predicates)
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for i in range(doc.length):
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for j in range(n):
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states.push_back(PatternStateC(patterns[j], i, 0))
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transition_states(states, matches, predicate_cache,
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doc[i], extra_attr_values, predicates)
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predicate_cache += nr_predicate
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extra_attr_values += nr_extra_attr
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# Handle matches that end in 0-width patterns
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finish_states(matches, states)
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output = []
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seen = set()
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for i in range(matches.size()):
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match = (
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matches[i].pattern_id,
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matches[i].start,
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matches[i].start+matches[i].length
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)
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# We need to deduplicate, because we could otherwise arrive at the same
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# match through two paths, e.g. .?.? matching 'a'. Are we matching the
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# first .?, or the second .? -- it doesn't matter, it's just one match.
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if match not in seen:
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output.append(match)
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seen.add(match)
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return output
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cdef attr_t get_ent_id(const TokenPatternC* pattern) nogil:
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# The code was originally designed to always have pattern[1].attrs.value
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# be the ent_id when we get to the end of a pattern. However, Issue #2671
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# showed this wasn't the case when we had a reject-and-continue before a
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# match. I still don't really understand what's going on here, but this
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# workaround does resolve the issue.
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while pattern.attrs.attr != ID and pattern.nr_attr > 0:
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pattern += 1
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return pattern.attrs.value
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cdef void transition_states(vector[PatternStateC]& states, vector[MatchC]& matches,
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char* cached_py_predicates,
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Token token, const attr_t* extra_attrs, py_predicates) except *:
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cdef int q = 0
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cdef vector[PatternStateC] new_states
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cdef int nr_predicate = len(py_predicates)
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for i in range(states.size()):
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if states[i].pattern.nr_py != 0:
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update_predicate_cache(cached_py_predicates,
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states[i].pattern, token, py_predicates)
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action = get_action(states[i], token.c, extra_attrs,
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cached_py_predicates, nr_predicate)
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if action == REJECT:
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continue
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state = states[i]
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states[q] = state
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while action in (RETRY, RETRY_ADVANCE, RETRY_EXTEND):
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if action == RETRY_EXTEND:
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# This handles the 'extend'
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new_states.push_back(
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PatternStateC(pattern=state.pattern, start=state.start,
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length=state.length+1))
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if action == RETRY_ADVANCE:
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# This handles the 'advance'
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new_states.push_back(
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PatternStateC(pattern=state.pattern+1, start=state.start,
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length=state.length+1))
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states[q].pattern += 1
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if states[q].pattern.nr_py != 0:
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update_predicate_cache(cached_py_predicates,
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states[q].pattern, token, py_predicates)
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action = get_action(states[q], token.c, extra_attrs,
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cached_py_predicates, nr_predicate)
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if action == REJECT:
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pass
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elif action == ADVANCE:
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states[q].pattern += 1
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states[q].length += 1
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q += 1
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else:
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ent_id = get_ent_id(&state.pattern[1])
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if action == MATCH:
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matches.push_back(
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MatchC(pattern_id=ent_id, start=state.start,
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length=state.length+1))
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elif action == MATCH_REJECT:
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matches.push_back(
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MatchC(pattern_id=ent_id, start=state.start,
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length=state.length))
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elif action == MATCH_EXTEND:
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matches.push_back(
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MatchC(pattern_id=ent_id, start=state.start,
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length=state.length))
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states[q].length += 1
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q += 1
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states.resize(q)
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for i in range(new_states.size()):
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states.push_back(new_states[i])
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cdef void update_predicate_cache(char* cache,
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const TokenPatternC* pattern, Token token, predicates):
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# If the state references any extra predicates, check whether they match.
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# These are cached, so that we don't call these potentially expensive
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# Python functions more than we need to.
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for i in range(pattern.nr_py):
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index = pattern.py_predicates[i]
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if cache[index] == 0:
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predicate = predicates[index]
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result = predicate(token)
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if result is True:
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cache[index] = 1
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elif result is False:
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cache[index] = -1
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elif result is None:
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pass
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else:
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raise ValueError("Unexpected value: %s" % result)
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cdef void finish_states(vector[MatchC]& matches, vector[PatternStateC]& states) except *:
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'''Handle states that end in zero-width patterns.'''
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cdef PatternStateC state
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for i in range(states.size()):
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state = states[i]
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while get_quantifier(state) in (ZERO_PLUS, ZERO_ONE):
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is_final = get_is_final(state)
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if is_final:
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ent_id = get_ent_id(state.pattern)
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matches.push_back(
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MatchC(pattern_id=ent_id, start=state.start, length=state.length))
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break
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else:
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state.pattern += 1
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cdef action_t get_action(PatternStateC state,
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const TokenC* token, const attr_t* extra_attrs,
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const char* predicate_matches, int nr_predicate) nogil:
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'''We need to consider:
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a) Does the token match the specification? [Yes, No]
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b) What's the quantifier? [1, 0+, ?]
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c) Is this the last specification? [final, non-final]
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We can transition in the following ways:
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a) Do we emit a match?
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b) Do we add a state with (next state, next token)?
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c) Do we add a state with (next state, same token)?
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d) Do we add a state with (same state, next token)?
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We'll code the actions as boolean strings, so 0000 means no to all 4,
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1000 means match but no states added, etc.
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1:
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Yes, final:
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1000
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Yes, non-final:
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0100
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No, final:
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0000
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No, non-final
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0000
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0+:
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Yes, final:
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1001
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Yes, non-final:
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0011
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No, final:
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1000 (note: Don't include last token!)
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No, non-final:
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0010
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?:
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Yes, final:
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1000
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Yes, non-final:
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0100
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No, final:
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1000 (note: Don't include last token!)
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No, non-final:
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0010
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Possible combinations: 1000, 0100, 0000, 1001, 0110, 0011, 0010,
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We'll name the bits "match", "advance", "retry", "extend"
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REJECT = 0000
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MATCH = 1000
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ADVANCE = 0100
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RETRY = 0010
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MATCH_EXTEND = 1001
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RETRY_ADVANCE = 0110
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RETRY_EXTEND = 0011
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MATCH_REJECT = 2000 # Match, but don't include last token
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Problem: If a quantifier is matching, we're adding a lot of open partials
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'''
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cdef char is_match
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is_match = get_is_match(state, token, extra_attrs, predicate_matches, nr_predicate)
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quantifier = get_quantifier(state)
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is_final = get_is_final(state)
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if quantifier == ZERO:
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is_match = not is_match
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quantifier = ONE
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if quantifier == ONE:
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if is_match and is_final:
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# Yes, final: 1000
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return MATCH
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elif is_match and not is_final:
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# Yes, non-final: 0100
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return ADVANCE
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elif not is_match and is_final:
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# No, final: 0000
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return REJECT
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else:
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return REJECT
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elif quantifier == ZERO_PLUS:
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if is_match and is_final:
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# Yes, final: 1001
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return MATCH_EXTEND
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elif is_match and not is_final:
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# Yes, non-final: 0011
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return RETRY_EXTEND
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elif not is_match and is_final:
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# No, final 2000 (note: Don't include last token!)
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return MATCH_REJECT
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else:
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# No, non-final 0010
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return RETRY
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elif quantifier == ZERO_ONE:
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if is_match and is_final:
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# Yes, final: 1000
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return MATCH
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elif is_match and not is_final:
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# Yes, non-final: 0110
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# We need both branches here, consider a pair like:
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# pattern: .?b string: b
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# If we 'ADVANCE' on the .?, we miss the match.
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return RETRY_ADVANCE
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elif not is_match and is_final:
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# No, final 2000 (note: Don't include last token!)
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return MATCH_REJECT
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else:
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# No, non-final 0010
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return RETRY
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cdef char get_is_match(PatternStateC state,
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const TokenC* token, const attr_t* extra_attrs,
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const char* predicate_matches, int nr_predicate) nogil:
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for i in range(nr_predicate):
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if predicate_matches[i] == -1:
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return 0
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spec = state.pattern
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for attr in spec.attrs[:spec.nr_attr]:
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if get_token_attr(token, attr.attr) != attr.value:
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return 0
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for i in range(spec.nr_extra_attr):
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if spec.extra_attrs[i].value != extra_attrs[spec.extra_attrs[i].index]:
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return 0
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return True
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cdef char get_is_final(PatternStateC state) nogil:
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if state.pattern[1].attrs[0].attr == ID and state.pattern[1].nr_attr == 0:
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return 1
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else:
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return 0
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cdef char get_quantifier(PatternStateC state) nogil:
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return state.pattern.quantifier
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DEF PADDING = 5
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cdef TokenPatternC* init_pattern(Pool mem, attr_t entity_id, object token_specs) except NULL:
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pattern = <TokenPatternC*>mem.alloc(len(token_specs) + 1, sizeof(TokenPatternC))
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cdef int i
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for i, (quantifier, spec, extensions, predicates) in enumerate(token_specs):
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pattern[i].quantifier = quantifier
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pattern[i].attrs = <AttrValueC*>mem.alloc(len(spec), sizeof(AttrValueC))
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pattern[i].nr_attr = len(spec)
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for j, (attr, value) in enumerate(spec):
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pattern[i].attrs[j].attr = attr
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pattern[i].attrs[j].value = value
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pattern[i].extra_attrs = <IndexValueC*>mem.alloc(len(extensions), sizeof(IndexValueC))
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for j, (index, value) in enumerate(extensions):
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pattern[i].extra_attrs[j].index = index
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pattern[i].extra_attrs[j].value = value
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pattern[i].nr_extra_attr = len(extensions)
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pattern[i].py_predicates = <int32_t*>mem.alloc(len(predicates), sizeof(int32_t))
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for j, index in enumerate(predicates):
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pattern[i].py_predicates[j] = index
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pattern[i].nr_py = len(predicates)
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pattern[i].key = hash64(pattern[i].attrs, pattern[i].nr_attr * sizeof(AttrValueC), 0)
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i = len(token_specs)
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pattern[i].attrs = <AttrValueC*>mem.alloc(2, sizeof(AttrValueC))
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pattern[i].attrs[0].attr = ID
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pattern[i].attrs[0].value = entity_id
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pattern[i].nr_attr = 0
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return pattern
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cdef attr_t get_pattern_key(const TokenPatternC* pattern) nogil:
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while pattern.nr_attr != 0:
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pattern += 1
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id_attr = pattern[0].attrs[0]
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if id_attr.attr != ID:
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with gil:
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raise ValueError(Errors.E074.format(attr=ID, bad_attr=id_attr.attr))
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return id_attr.value
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def _preprocess_pattern(token_specs, string_store, extensions_table, extra_predicates):
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"""This function interprets the pattern, converting the various bits of
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syntactic sugar before we compile it into a struct with init_pattern.
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We need to split the pattern up into three parts:
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* Normal attribute/value pairs, which are stored on either the token or lexeme,
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can be handled directly.
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* Extension attributes are handled specially, as we need to prefetch the
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values from Python for the doc before we begin matching.
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* Extra predicates also call Python functions, so we have to create the
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functions and store them. So we store these specially as well.
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* Extension attributes that have extra predicates are stored within the
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extra_predicates.
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"""
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tokens = []
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seen_predicates = {}
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for spec in token_specs:
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if not spec:
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# Signifier for 'any token'
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tokens.append((ONE, [(NULL_ATTR, 0)], [], []))
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continue
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ops = _get_operators(spec)
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attr_values = _get_attr_values(spec, string_store)
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extensions = _get_extensions(spec, string_store, extensions_table)
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predicates = _get_extra_predicates(spec, extra_predicates, seen_predicates)
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for op in ops:
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tokens.append((op, list(attr_values), list(extensions), list(predicates)))
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return tokens
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def _get_attr_values(spec, string_store):
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attr_values = []
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for attr, value in spec.items():
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if isinstance(attr, basestring):
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if attr == '_':
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continue
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elif attr.upper() == 'OP':
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continue
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if attr.upper() == 'TEXT':
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attr = 'ORTH'
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attr = IDS.get(attr.upper())
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if isinstance(value, basestring):
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value = string_store.add(value)
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elif isinstance(value, bool):
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value = int(value)
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elif isinstance(value, dict):
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continue
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if attr is not None:
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attr_values.append((attr, value))
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return attr_values
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# These predicate helper classes are used to match the REGEX, IN, >= etc
|
|
# extensions to the matcher introduced in #3173.
|
|
|
|
class _RegexPredicate(object):
|
|
def __init__(self, i, attr, value, predicate, is_extension=False):
|
|
self.i = i
|
|
self.attr = attr
|
|
self.value = re.compile(value)
|
|
self.predicate = predicate
|
|
self.is_extension = is_extension
|
|
assert self.predicate == 'REGEX'
|
|
|
|
def __call__(self, Token token):
|
|
if self.is_extension:
|
|
value = token._.get(self.attr)
|
|
else:
|
|
value = token.vocab.strings[get_token_attr(token.c, self.attr)]
|
|
return bool(self.value.search(value))
|
|
|
|
|
|
class _SetMemberPredicate(object):
|
|
def __init__(self, i, attr, value, predicate, is_extension=False):
|
|
self.i = i
|
|
self.attr = attr
|
|
self.value = set(get_string_id(v) for v in value)
|
|
self.predicate = predicate
|
|
self.is_extension = is_extension
|
|
assert self.predicate in ('IN', 'NOT_IN')
|
|
|
|
def __call__(self, Token token):
|
|
if self.is_extension:
|
|
value = get_string_id(token._.get(self.attr))
|
|
else:
|
|
value = get_token_attr(token.c, self.attr)
|
|
if self.predicate == 'IN':
|
|
return value in self.value
|
|
else:
|
|
return value not in self.value
|
|
|
|
|
|
class _ComparisonPredicate(object):
|
|
def __init__(self, i, attr, value, predicate, is_extension=False):
|
|
self.i = i
|
|
self.attr = attr
|
|
self.value = value
|
|
self.predicate = predicate
|
|
self.is_extension = is_extension
|
|
assert self.predicate in ('==', '!=', '>=', '<=', '>', '<')
|
|
|
|
def __call__(self, Token token):
|
|
if self.is_extension:
|
|
value = token._.get(self.attr)
|
|
else:
|
|
value = get_token_attr(token.c, self.attr)
|
|
if self.predicate == '==':
|
|
return value == self.value
|
|
if self.predicate == '!=':
|
|
return value != self.value
|
|
elif self.predicate == '>=':
|
|
return value >= self.value
|
|
elif self.predicate == '<=':
|
|
return value <= self.value
|
|
elif self.predicate == '>':
|
|
return value > self.value
|
|
elif self.predicate == '<':
|
|
return value < self.value
|
|
|
|
|
|
def _get_extra_predicates(spec, extra_predicates, seen_predicates):
|
|
predicate_types = {
|
|
'REGEX': _RegexPredicate,
|
|
'IN': _SetMemberPredicate,
|
|
'NOT_IN': _SetMemberPredicate,
|
|
'==': _ComparisonPredicate,
|
|
'>=': _ComparisonPredicate,
|
|
'<=': _ComparisonPredicate,
|
|
'>': _ComparisonPredicate,
|
|
'<': _ComparisonPredicate,
|
|
}
|
|
output = []
|
|
for attr, value in spec.items():
|
|
if isinstance(attr, basestring):
|
|
if attr == '_':
|
|
output.extend(
|
|
_get_extension_extra_predicates(
|
|
value, extra_predicates, predicate_types,
|
|
seen_predicates))
|
|
continue
|
|
elif attr.upper() == 'OP':
|
|
continue
|
|
if attr.upper() == 'TEXT':
|
|
attr = 'ORTH'
|
|
attr = IDS.get(attr.upper())
|
|
if isinstance(value, dict):
|
|
for type_, cls in predicate_types.items():
|
|
if type_ in value:
|
|
key = (attr, type_, srsly.json_dumps(value[type_], sort_keys=True))
|
|
# Don't create a redundant predicates.
|
|
# This helps with efficiency, as we're caching the results.
|
|
if key in seen_predicates:
|
|
output.append(seen_predicates[key])
|
|
else:
|
|
predicate = cls(len(extra_predicates), attr, value[type_], type_)
|
|
extra_predicates.append(predicate)
|
|
output.append(predicate.i)
|
|
seen_predicates[key] = predicate.i
|
|
return output
|
|
|
|
|
|
def _get_extension_extra_predicates(spec, extra_predicates, predicate_types,
|
|
seen_predicates):
|
|
output = []
|
|
for attr, value in spec.items():
|
|
if isinstance(value, dict):
|
|
for type_, cls in predicate_types.items():
|
|
if type_ in value:
|
|
key = (attr, type_, srsly.json_dumps(value[type_], sort_keys=True))
|
|
if key in seen_predicates:
|
|
output.append(seen_predicates[key])
|
|
else:
|
|
predicate = cls(len(extra_predicates), attr, value[type_], type_,
|
|
is_extension=True)
|
|
extra_predicates.append(predicate)
|
|
output.append(predicate.i)
|
|
seen_predicates[key] = predicate.i
|
|
return output
|
|
|
|
|
|
def _get_operators(spec):
|
|
# Support 'syntactic sugar' operator '+', as combination of ONE, ZERO_PLUS
|
|
lookup = {'*': (ZERO_PLUS,), '+': (ONE, ZERO_PLUS),
|
|
'?': (ZERO_ONE,), '1': (ONE,), '!': (ZERO,)}
|
|
# Fix casing
|
|
spec = {key.upper(): values for key, values in spec.items()
|
|
if isinstance(key, basestring)}
|
|
if 'OP' not in spec:
|
|
return (ONE,)
|
|
elif spec['OP'] in lookup:
|
|
return lookup[spec['OP']]
|
|
else:
|
|
keys = ', '.join(lookup.keys())
|
|
raise KeyError(Errors.E011.format(op=spec['OP'], opts=keys))
|
|
|
|
|
|
def _get_extensions(spec, string_store, name2index):
|
|
attr_values = []
|
|
for name, value in spec.get('_', {}).items():
|
|
if isinstance(value, dict):
|
|
# Handle predicates (e.g. "IN", in the extra_predicates, not here.
|
|
continue
|
|
if isinstance(value, basestring):
|
|
value = string_store.add(value)
|
|
if name not in name2index:
|
|
name2index[name] = len(name2index)
|
|
attr_values.append((name2index[name], value))
|
|
return attr_values
|
|
|
|
|
|
cdef class Matcher:
|
|
"""Match sequences of tokens, based on pattern rules."""
|
|
cdef Pool mem
|
|
cdef vector[TokenPatternC*] patterns
|
|
cdef readonly Vocab vocab
|
|
cdef public object _patterns
|
|
cdef public object _entities
|
|
cdef public object _callbacks
|
|
cdef public object _extensions
|
|
cdef public object _extra_predicates
|
|
|
|
def __init__(self, vocab):
|
|
"""Create the Matcher.
|
|
|
|
vocab (Vocab): The vocabulary object, which must be shared with the
|
|
documents the matcher will operate on.
|
|
RETURNS (Matcher): The newly constructed object.
|
|
"""
|
|
self._extra_predicates = []
|
|
self._patterns = {}
|
|
self._entities = {}
|
|
self._callbacks = {}
|
|
self._extensions = {}
|
|
self._extra_predicates = []
|
|
self.vocab = vocab
|
|
self.mem = Pool()
|
|
|
|
def __reduce__(self):
|
|
data = (self.vocab, self._patterns, self._callbacks)
|
|
return (unpickle_matcher, data, None, None)
|
|
|
|
def __len__(self):
|
|
"""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.
|
|
|
|
RETURNS (int): The number of rules.
|
|
"""
|
|
return len(self._patterns)
|
|
|
|
def __contains__(self, key):
|
|
"""Check whether the matcher contains rules for a match ID.
|
|
|
|
key (unicode): The match ID.
|
|
RETURNS (bool): Whether the matcher contains rules for this match ID.
|
|
"""
|
|
return self._normalize_key(key) in self._patterns
|
|
|
|
def add(self, key, on_match, *patterns):
|
|
"""Add a match-rule to the matcher. A match-rule consists of: an ID
|
|
key, an on_match callback, and one or more patterns.
|
|
|
|
If the key exists, the patterns are appended to the previous ones, and
|
|
the previous on_match callback is replaced. The `on_match` callback
|
|
will receive the arguments `(matcher, doc, i, matches)`. You can also
|
|
set `on_match` to `None` to not perform any actions.
|
|
|
|
A pattern consists of one or more `token_specs`, where a `token_spec`
|
|
is a dictionary mapping attribute IDs to values, and optionally a
|
|
quantifier operator under the key "op". The available quantifiers are:
|
|
|
|
'!': 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 zero or more times.
|
|
|
|
The + and * operators are usually interpretted "greedily", i.e. longer
|
|
matches are returned where possible. However, if you specify two '+'
|
|
and '*' patterns in a row and their matches overlap, the first
|
|
operator will behave non-greedily. This quirk in the semantics makes
|
|
the matcher more efficient, by avoiding the need for back-tracking.
|
|
|
|
key (unicode): The match ID.
|
|
on_match (callable): Callback executed on match.
|
|
*patterns (list): List of token descriptions.
|
|
"""
|
|
for pattern in patterns:
|
|
if len(pattern) == 0:
|
|
raise ValueError(Errors.E012.format(key=key))
|
|
key = self._normalize_key(key)
|
|
for pattern in patterns:
|
|
specs = _preprocess_pattern(pattern, self.vocab.strings,
|
|
self._extensions, self._extra_predicates)
|
|
self.patterns.push_back(init_pattern(self.mem, key, specs))
|
|
self._patterns.setdefault(key, [])
|
|
self._callbacks[key] = on_match
|
|
self._patterns[key].extend(patterns)
|
|
|
|
def remove(self, key):
|
|
"""Remove a rule from the matcher. A KeyError is raised if the key does
|
|
not exist.
|
|
|
|
key (unicode): The ID of the match rule.
|
|
"""
|
|
key = self._normalize_key(key)
|
|
self._patterns.pop(key)
|
|
self._callbacks.pop(key)
|
|
cdef int i = 0
|
|
while i < self.patterns.size():
|
|
pattern_key = get_pattern_key(self.patterns.at(i))
|
|
if pattern_key == key:
|
|
self.patterns.erase(self.patterns.begin()+i)
|
|
else:
|
|
i += 1
|
|
|
|
def has_key(self, key):
|
|
"""Check whether the matcher has a rule with a given key.
|
|
|
|
key (string or int): The key to check.
|
|
RETURNS (bool): Whether the matcher has the rule.
|
|
"""
|
|
key = self._normalize_key(key)
|
|
return key in self._patterns
|
|
|
|
def get(self, key, default=None):
|
|
"""Retrieve the pattern stored for a key.
|
|
|
|
key (unicode or int): The key to retrieve.
|
|
RETURNS (tuple): The rule, as an (on_match, patterns) tuple.
|
|
"""
|
|
key = self._normalize_key(key)
|
|
if key not in self._patterns:
|
|
return default
|
|
return (self._callbacks[key], self._patterns[key])
|
|
|
|
def pipe(self, docs, batch_size=1000, n_threads=2):
|
|
"""Match a stream of documents, yielding them in turn.
|
|
|
|
docs (iterable): A stream of documents.
|
|
batch_size (int): Number of documents to accumulate into a working set.
|
|
n_threads (int): The number of threads with which to work on the buffer
|
|
in parallel, if the implementation supports multi-threading.
|
|
YIELDS (Doc): Documents, in order.
|
|
"""
|
|
for doc in docs:
|
|
self(doc)
|
|
yield doc
|
|
|
|
def __call__(self, Doc doc):
|
|
"""Find all token sequences matching the supplied pattern.
|
|
|
|
doc (Doc): The document to match over.
|
|
RETURNS (list): A list of `(key, start, end)` tuples,
|
|
describing the matches. A match tuple describes a span
|
|
`doc[start:end]`. The `label_id` and `key` are both integers.
|
|
"""
|
|
matches = find_matches(&self.patterns[0], self.patterns.size(), doc,
|
|
extensions=self._extensions,
|
|
predicates=self._extra_predicates)
|
|
for i, (key, start, end) in enumerate(matches):
|
|
on_match = self._callbacks.get(key, None)
|
|
if on_match is not None:
|
|
on_match(self, doc, i, matches)
|
|
return matches
|
|
|
|
def _normalize_key(self, key):
|
|
if isinstance(key, basestring):
|
|
return self.vocab.strings.add(key)
|
|
else:
|
|
return key
|
|
|
|
|
|
def unpickle_matcher(vocab, patterns, callbacks):
|
|
matcher = Matcher(vocab)
|
|
for key, specs in patterns.items():
|
|
callback = callbacks.get(key, None)
|
|
matcher.add(key, callback, *specs)
|
|
return matcher
|
|
|
|
|
|
def _get_longest_matches(matches):
|
|
'''Filter out matches that have a longer equivalent.'''
|
|
longest_matches = {}
|
|
for pattern_id, start, end in matches:
|
|
key = (pattern_id, start)
|
|
length = end-start
|
|
if key not in longest_matches or length > longest_matches[key]:
|
|
longest_matches[key] = length
|
|
return [(pattern_id, start, start+length)
|
|
for (pattern_id, start), length in longest_matches.items()]
|
|
|
|
|
|
def get_bilou(length):
|
|
if length == 0:
|
|
raise ValueError("Length must be >= 1")
|
|
elif length == 1:
|
|
return [U_ENT]
|
|
elif length == 2:
|
|
return [B2_ENT, L2_ENT]
|
|
elif length == 3:
|
|
return [B3_ENT, I3_ENT, L3_ENT]
|
|
else:
|
|
return [B4_ENT, I4_ENT] + [I4_ENT] * (length-3) + [L4_ENT]
|
|
|
|
|
|
cdef class PhraseMatcher:
|
|
cdef Pool mem
|
|
cdef Vocab vocab
|
|
cdef Matcher matcher
|
|
cdef PreshMap phrase_ids
|
|
cdef int max_length
|
|
cdef attr_id_t attr
|
|
cdef public object _callbacks
|
|
cdef public object _patterns
|
|
|
|
def __init__(self, Vocab vocab, max_length=0, attr='ORTH'):
|
|
if max_length != 0:
|
|
deprecation_warning(Warnings.W010)
|
|
self.mem = Pool()
|
|
self.max_length = max_length
|
|
self.vocab = vocab
|
|
self.matcher = Matcher(self.vocab)
|
|
if isinstance(attr, long):
|
|
self.attr = attr
|
|
else:
|
|
self.attr = self.vocab.strings[attr]
|
|
self.phrase_ids = PreshMap()
|
|
abstract_patterns = [
|
|
[{U_ENT: True}],
|
|
[{B2_ENT: True}, {L2_ENT: True}],
|
|
[{B3_ENT: True}, {I3_ENT: True}, {L3_ENT: True}],
|
|
[{B4_ENT: True}, {I4_ENT: True}, {I4_ENT: True, "OP": "+"}, {L4_ENT: True}],
|
|
]
|
|
self.matcher.add('Candidate', None, *abstract_patterns)
|
|
self._callbacks = {}
|
|
|
|
def __len__(self):
|
|
"""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.
|
|
|
|
RETURNS (int): The number of rules.
|
|
"""
|
|
return len(self.phrase_ids)
|
|
|
|
def __contains__(self, key):
|
|
"""Check whether the matcher contains rules for a match ID.
|
|
|
|
key (unicode): The match ID.
|
|
RETURNS (bool): Whether the matcher contains rules for this match ID.
|
|
"""
|
|
cdef hash_t ent_id = self.matcher._normalize_key(key)
|
|
return ent_id in self._callbacks
|
|
|
|
def __reduce__(self):
|
|
return (self.__class__, (self.vocab,), None, None)
|
|
|
|
def add(self, key, on_match, *docs):
|
|
"""Add a match-rule to the phrase-matcher. A match-rule consists of: an ID
|
|
key, an on_match callback, and one or more patterns.
|
|
|
|
key (unicode): The match ID.
|
|
on_match (callable): Callback executed on match.
|
|
*docs (Doc): `Doc` objects representing match patterns.
|
|
"""
|
|
cdef Doc doc
|
|
cdef hash_t ent_id = self.matcher._normalize_key(key)
|
|
self._callbacks[ent_id] = on_match
|
|
cdef int length
|
|
cdef int i
|
|
cdef hash_t phrase_hash
|
|
cdef Pool mem = Pool()
|
|
for doc in docs:
|
|
length = doc.length
|
|
if length == 0:
|
|
continue
|
|
tags = get_bilou(length)
|
|
phrase_key = <attr_t*>mem.alloc(length, sizeof(attr_t))
|
|
for i, tag in enumerate(tags):
|
|
attr_value = self.get_lex_value(doc, i)
|
|
lexeme = self.vocab[attr_value]
|
|
lexeme.set_flag(tag, True)
|
|
phrase_key[i] = lexeme.orth
|
|
phrase_hash = hash64(phrase_key,
|
|
length * sizeof(attr_t), 0)
|
|
self.phrase_ids.set(phrase_hash, <void*>ent_id)
|
|
|
|
def __call__(self, Doc doc):
|
|
|
|
"""Find all sequences matching the supplied patterns on the `Doc`.
|
|
|
|
doc (Doc): The document to match over.
|
|
RETURNS (list): A list of `(key, start, end)` tuples,
|
|
describing the matches. A match tuple describes a span
|
|
`doc[start:end]`. The `label_id` and `key` are both integers.
|
|
"""
|
|
matches = []
|
|
if self.attr == ORTH:
|
|
match_doc = doc
|
|
else:
|
|
# If we're not matching on the ORTH, match_doc will be a Doc whose
|
|
# token.orth values are the attribute values we're matching on,
|
|
# e.g. Doc(nlp.vocab, words=[token.pos_ for token in doc])
|
|
words = [self.get_lex_value(doc, i) for i in range(len(doc))]
|
|
match_doc = Doc(self.vocab, words=words)
|
|
for _, start, end in self.matcher(match_doc):
|
|
ent_id = self.accept_match(match_doc, start, end)
|
|
if ent_id is not None:
|
|
matches.append((ent_id, start, end))
|
|
for i, (ent_id, start, end) in enumerate(matches):
|
|
on_match = self._callbacks.get(ent_id)
|
|
if on_match is not None:
|
|
on_match(self, doc, i, matches)
|
|
return matches
|
|
|
|
def pipe(self, stream, batch_size=1000, n_threads=1, return_matches=False,
|
|
as_tuples=False):
|
|
"""Match a stream of documents, yielding them in turn.
|
|
|
|
docs (iterable): A stream of documents.
|
|
batch_size (int): Number of documents to accumulate into a working set.
|
|
n_threads (int): The number of threads with which to work on the buffer
|
|
in parallel, if the implementation supports multi-threading.
|
|
return_matches (bool): Yield the match lists along with the docs, making
|
|
results (doc, matches) tuples.
|
|
as_tuples (bool): Interpret the input stream as (doc, context) tuples,
|
|
and yield (result, context) tuples out.
|
|
If both return_matches and as_tuples are True, the output will
|
|
be a sequence of ((doc, matches), context) tuples.
|
|
YIELDS (Doc): Documents, in order.
|
|
"""
|
|
if as_tuples:
|
|
for doc, context in stream:
|
|
matches = self(doc)
|
|
if return_matches:
|
|
yield ((doc, matches), context)
|
|
else:
|
|
yield (doc, context)
|
|
else:
|
|
for doc in stream:
|
|
matches = self(doc)
|
|
if return_matches:
|
|
yield (doc, matches)
|
|
else:
|
|
yield doc
|
|
|
|
def accept_match(self, Doc doc, int start, int end):
|
|
cdef int i, j
|
|
cdef Pool mem = Pool()
|
|
phrase_key = <attr_t*>mem.alloc(end-start, sizeof(attr_t))
|
|
for i, j in enumerate(range(start, end)):
|
|
phrase_key[i] = doc.c[j].lex.orth
|
|
cdef hash_t key = hash64(phrase_key,
|
|
(end-start) * sizeof(attr_t), 0)
|
|
ent_id = <hash_t>self.phrase_ids.get(key)
|
|
if ent_id == 0:
|
|
return None
|
|
else:
|
|
return ent_id
|
|
|
|
def get_lex_value(self, Doc doc, int i):
|
|
if self.attr == ORTH:
|
|
# Return the regular orth value of the lexeme
|
|
return doc.c[i].lex.orth
|
|
# Get the attribute value instead, e.g. token.pos
|
|
attr_value = get_token_attr(&doc.c[i], self.attr)
|
|
if attr_value in (0, 1):
|
|
# Value is boolean, convert to string
|
|
string_attr_value = str(attr_value)
|
|
else:
|
|
string_attr_value = self.vocab.strings[attr_value]
|
|
string_attr_name = self.vocab.strings[self.attr]
|
|
# Concatenate the attr name and value to not pollute lexeme space
|
|
# e.g. 'POS-VERB' instead of just 'VERB', which could otherwise
|
|
# create false positive matches
|
|
return 'matcher:{}-{}'.format(string_attr_name, string_attr_value)
|
|
|
|
|
|
cdef class DependencyTreeMatcher:
|
|
"""Match dependency parse tree based on pattern rules."""
|
|
cdef Pool mem
|
|
cdef readonly Vocab vocab
|
|
cdef readonly Matcher token_matcher
|
|
cdef public object _patterns
|
|
cdef public object _keys_to_token
|
|
cdef public object _root
|
|
cdef public object _entities
|
|
cdef public object _callbacks
|
|
cdef public object _nodes
|
|
cdef public object _tree
|
|
|
|
def __init__(self, vocab):
|
|
"""Create the DependencyTreeMatcher.
|
|
|
|
vocab (Vocab): The vocabulary object, which must be shared with the
|
|
documents the matcher will operate on.
|
|
RETURNS (DependencyTreeMatcher): The newly constructed object.
|
|
"""
|
|
size = 20
|
|
self.token_matcher = Matcher(vocab)
|
|
self._keys_to_token = {}
|
|
self._patterns = {}
|
|
self._root = {}
|
|
self._nodes = {}
|
|
self._tree = {}
|
|
self._entities = {}
|
|
self._callbacks = {}
|
|
self.vocab = vocab
|
|
self.mem = Pool()
|
|
|
|
def __reduce__(self):
|
|
data = (self.vocab, self._patterns,self._tree, self._callbacks)
|
|
return (unpickle_matcher, data, None, None)
|
|
|
|
def __len__(self):
|
|
"""Get the number of rules, which are edges ,added to the dependency tree matcher.
|
|
|
|
RETURNS (int): The number of rules.
|
|
"""
|
|
return len(self._patterns)
|
|
|
|
def __contains__(self, key):
|
|
"""Check whether the matcher contains rules for a match ID.
|
|
|
|
key (unicode): The match ID.
|
|
RETURNS (bool): Whether the matcher contains rules for this match ID.
|
|
"""
|
|
return self._normalize_key(key) in self._patterns
|
|
|
|
def validateInput(self, pattern, key):
|
|
idx = 0
|
|
visitedNodes = {}
|
|
for relation in pattern:
|
|
if 'PATTERN' not in relation or 'SPEC' not in relation:
|
|
raise ValueError(Errors.E098.format(key=key))
|
|
if idx == 0:
|
|
if not('NODE_NAME' in relation['SPEC'] and 'NBOR_RELOP' not in relation['SPEC'] and 'NBOR_NAME' not in relation['SPEC']):
|
|
raise ValueError(Errors.E099.format(key=key))
|
|
visitedNodes[relation['SPEC']['NODE_NAME']] = True
|
|
else:
|
|
if not('NODE_NAME' in relation['SPEC'] and 'NBOR_RELOP' in relation['SPEC'] and 'NBOR_NAME' in relation['SPEC']):
|
|
raise ValueError(Errors.E100.format(key=key))
|
|
if relation['SPEC']['NODE_NAME'] in visitedNodes or relation['SPEC']['NBOR_NAME'] not in visitedNodes:
|
|
raise ValueError(Errors.E101.format(key=key))
|
|
visitedNodes[relation['SPEC']['NODE_NAME']] = True
|
|
visitedNodes[relation['SPEC']['NBOR_NAME']] = True
|
|
idx = idx + 1
|
|
|
|
def add(self, key, on_match, *patterns):
|
|
for pattern in patterns:
|
|
if len(pattern) == 0:
|
|
raise ValueError(Errors.E012.format(key=key))
|
|
self.validateInput(pattern,key)
|
|
|
|
key = self._normalize_key(key)
|
|
|
|
_patterns = []
|
|
for pattern in patterns:
|
|
token_patterns = []
|
|
for i in range(len(pattern)):
|
|
token_pattern = [pattern[i]['PATTERN']]
|
|
token_patterns.append(token_pattern)
|
|
# self.patterns.append(token_patterns)
|
|
_patterns.append(token_patterns)
|
|
|
|
self._patterns.setdefault(key, [])
|
|
self._callbacks[key] = on_match
|
|
self._patterns[key].extend(_patterns)
|
|
|
|
# Add each node pattern of all the input patterns individually to the matcher.
|
|
# This enables only a single instance of Matcher to be used.
|
|
# Multiple adds are required to track each node pattern.
|
|
_keys_to_token_list = []
|
|
for i in range(len(_patterns)):
|
|
_keys_to_token = {}
|
|
# TODO : Better ways to hash edges in pattern?
|
|
for j in range(len(_patterns[i])):
|
|
k = self._normalize_key(unicode(key)+DELIMITER+unicode(i)+DELIMITER+unicode(j))
|
|
self.token_matcher.add(k,None,_patterns[i][j])
|
|
_keys_to_token[k] = j
|
|
_keys_to_token_list.append(_keys_to_token)
|
|
|
|
self._keys_to_token.setdefault(key, [])
|
|
self._keys_to_token[key].extend(_keys_to_token_list)
|
|
|
|
_nodes_list = []
|
|
for pattern in patterns:
|
|
nodes = {}
|
|
for i in range(len(pattern)):
|
|
nodes[pattern[i]['SPEC']['NODE_NAME']]=i
|
|
_nodes_list.append(nodes)
|
|
|
|
self._nodes.setdefault(key, [])
|
|
self._nodes[key].extend(_nodes_list)
|
|
|
|
# Create an object tree to traverse later on.
|
|
# This datastructure enable easy tree pattern match.
|
|
# Doc-Token based tree cannot be reused since it is memory heavy and
|
|
# tightly coupled with doc
|
|
self.retrieve_tree(patterns,_nodes_list,key)
|
|
|
|
def retrieve_tree(self,patterns,_nodes_list,key):
|
|
_heads_list = []
|
|
_root_list = []
|
|
for i in range(len(patterns)):
|
|
heads = {}
|
|
root = -1
|
|
for j in range(len(patterns[i])):
|
|
token_pattern = patterns[i][j]
|
|
if('NBOR_RELOP' not in token_pattern['SPEC']):
|
|
heads[j] = ('root',j)
|
|
root = j
|
|
else:
|
|
heads[j] = (token_pattern['SPEC']['NBOR_RELOP'],_nodes_list[i][token_pattern['SPEC']['NBOR_NAME']])
|
|
|
|
_heads_list.append(heads)
|
|
_root_list.append(root)
|
|
|
|
_tree_list = []
|
|
for i in range(len(patterns)):
|
|
tree = {}
|
|
for j in range(len(patterns[i])):
|
|
if(_heads_list[i][j][INDEX_HEAD] == j):
|
|
continue
|
|
|
|
head = _heads_list[i][j][INDEX_HEAD]
|
|
if(head not in tree):
|
|
tree[head] = []
|
|
tree[head].append( (_heads_list[i][j][INDEX_RELOP],j) )
|
|
_tree_list.append(tree)
|
|
|
|
self._tree.setdefault(key, [])
|
|
self._tree[key].extend(_tree_list)
|
|
|
|
self._root.setdefault(key, [])
|
|
self._root[key].extend(_root_list)
|
|
|
|
def has_key(self, key):
|
|
"""Check whether the matcher has a rule with a given key.
|
|
|
|
key (string or int): The key to check.
|
|
RETURNS (bool): Whether the matcher has the rule.
|
|
"""
|
|
key = self._normalize_key(key)
|
|
return key in self._patterns
|
|
|
|
def get(self, key, default=None):
|
|
"""Retrieve the pattern stored for a key.
|
|
|
|
key (unicode or int): The key to retrieve.
|
|
RETURNS (tuple): The rule, as an (on_match, patterns) tuple.
|
|
"""
|
|
key = self._normalize_key(key)
|
|
if key not in self._patterns:
|
|
return default
|
|
return (self._callbacks[key], self._patterns[key])
|
|
|
|
def __call__(self, Doc doc):
|
|
matched_trees = []
|
|
|
|
matches = self.token_matcher(doc)
|
|
for key in list(self._patterns.keys()):
|
|
_patterns_list = self._patterns[key]
|
|
_keys_to_token_list = self._keys_to_token[key]
|
|
_root_list = self._root[key]
|
|
_tree_list = self._tree[key]
|
|
_nodes_list = self._nodes[key]
|
|
length = len(_patterns_list)
|
|
for i in range(length):
|
|
_keys_to_token = _keys_to_token_list[i]
|
|
_root = _root_list[i]
|
|
_tree = _tree_list[i]
|
|
_nodes = _nodes_list[i]
|
|
id_to_position = {}
|
|
for i in range(len(_nodes)):
|
|
id_to_position[i]=[]
|
|
|
|
# This could be taken outside to improve running time..?
|
|
for match_id, start, end in matches:
|
|
if match_id in _keys_to_token:
|
|
id_to_position[_keys_to_token[match_id]].append(start)
|
|
|
|
_node_operator_map = self.get_node_operator_map(doc,_tree,id_to_position,_nodes,_root)
|
|
length = len(_nodes)
|
|
if _root in id_to_position:
|
|
candidates = id_to_position[_root]
|
|
for candidate in candidates:
|
|
isVisited = {}
|
|
self.dfs(candidate,_root,_tree,id_to_position,doc,isVisited,_node_operator_map)
|
|
# To check if the subtree pattern is completely identified. This is a heuristic.
|
|
# This is done to reduce the complexity of exponential unordered subtree matching.
|
|
# Will give approximate matches in some cases.
|
|
if(len(isVisited) == length):
|
|
matched_trees.append((key,list(isVisited)))
|
|
|
|
for i, (ent_id, nodes) in enumerate(matched_trees):
|
|
on_match = self._callbacks.get(ent_id)
|
|
if on_match is not None:
|
|
on_match(self, doc, i, matches)
|
|
|
|
return matched_trees
|
|
|
|
def dfs(self,candidate,root,tree,id_to_position,doc,isVisited,_node_operator_map):
|
|
if(root in id_to_position and candidate in id_to_position[root]):
|
|
# color the node since it is valid
|
|
isVisited[candidate] = True
|
|
if root in tree:
|
|
for root_child in tree[root]:
|
|
if candidate in _node_operator_map and root_child[INDEX_RELOP] in _node_operator_map[candidate]:
|
|
candidate_children = _node_operator_map[candidate][root_child[INDEX_RELOP]]
|
|
for candidate_child in candidate_children:
|
|
result = self.dfs(
|
|
candidate_child.i,
|
|
root_child[INDEX_HEAD],
|
|
tree,
|
|
id_to_position,
|
|
doc,
|
|
isVisited,
|
|
_node_operator_map
|
|
)
|
|
|
|
# Given a node and an edge operator, to return the list of nodes
|
|
# from the doc that belong to node+operator. This is used to store
|
|
# all the results beforehand to prevent unnecessary computation while
|
|
# pattern matching
|
|
# _node_operator_map[node][operator] = [...]
|
|
def get_node_operator_map(self,doc,tree,id_to_position,nodes,root):
|
|
_node_operator_map = {}
|
|
all_node_indices = nodes.values()
|
|
all_operators = []
|
|
for node in all_node_indices:
|
|
if node in tree:
|
|
for child in tree[node]:
|
|
all_operators.append(child[INDEX_RELOP])
|
|
all_operators = list(set(all_operators))
|
|
|
|
all_nodes = []
|
|
for node in all_node_indices:
|
|
all_nodes = all_nodes + id_to_position[node]
|
|
all_nodes = list(set(all_nodes))
|
|
|
|
for node in all_nodes:
|
|
_node_operator_map[node] = {}
|
|
for operator in all_operators:
|
|
_node_operator_map[node][operator] = []
|
|
|
|
# Used to invoke methods for each operator
|
|
switcher = {
|
|
'<':self.dep,
|
|
'>':self.gov,
|
|
'>>':self.dep_chain,
|
|
'<<':self.gov_chain,
|
|
'.':self.imm_precede,
|
|
'$+':self.imm_right_sib,
|
|
'$-':self.imm_left_sib,
|
|
'$++':self.right_sib,
|
|
'$--':self.left_sib
|
|
}
|
|
for operator in all_operators:
|
|
for node in all_nodes:
|
|
_node_operator_map[node][operator] = switcher.get(operator)(doc,node)
|
|
|
|
return _node_operator_map
|
|
|
|
def dep(self,doc,node):
|
|
return list(doc[node].head)
|
|
|
|
def gov(self,doc,node):
|
|
return list(doc[node].children)
|
|
|
|
def dep_chain(self,doc,node):
|
|
return list(doc[node].ancestors)
|
|
|
|
def gov_chain(self,doc,node):
|
|
return list(doc[node].subtree)
|
|
|
|
def imm_precede(self,doc,node):
|
|
if node>0:
|
|
return [doc[node-1]]
|
|
return []
|
|
|
|
def imm_right_sib(self,doc,node):
|
|
for idx in range(list(doc[node].head.children)):
|
|
if idx == node-1:
|
|
return [doc[idx]]
|
|
return []
|
|
|
|
def imm_left_sib(self,doc,node):
|
|
for idx in range(list(doc[node].head.children)):
|
|
if idx == node+1:
|
|
return [doc[idx]]
|
|
return []
|
|
|
|
def right_sib(self,doc,node):
|
|
candidate_children = []
|
|
for idx in range(list(doc[node].head.children)):
|
|
if idx < node:
|
|
candidate_children.append(doc[idx])
|
|
return candidate_children
|
|
|
|
def left_sib(self,doc,node):
|
|
candidate_children = []
|
|
for idx in range(list(doc[node].head.children)):
|
|
if idx > node:
|
|
candidate_children.append(doc[idx])
|
|
return candidate_children
|
|
|
|
def _normalize_key(self, key):
|
|
if isinstance(key, basestring):
|
|
return self.vocab.strings.add(key)
|
|
else:
|
|
return key
|