# cython: profile=True """ MALT-style dependency parser """ from __future__ import unicode_literals cimport cython from libc.stdint cimport uint32_t, uint64_t from libc.string cimport memset, memcpy import random import os.path from os import path import shutil import json from cymem.cymem cimport Pool, Address from murmurhash.mrmr cimport hash64 from thinc.typedefs cimport weight_t, class_t, feat_t, atom_t from util import Config from thinc.features cimport Extractor from thinc.features cimport Feature from thinc.features cimport count_feats from thinc.learner cimport LinearModel from thinc.search cimport Beam from thinc.search cimport MaxViolation from ..tokens cimport Tokens, TokenC from ..strings cimport StringStore from .arc_eager cimport TransitionSystem, Transition from .transition_system import OracleError from ._state cimport State, new_state, copy_state, is_final, push_stack from ..gold cimport GoldParse from . import _parse_features from ._parse_features cimport fill_context, CONTEXT_SIZE DEBUG = False def set_debug(val): global DEBUG DEBUG = val cdef unicode print_state(State* s, list words): words = list(words) + ['EOL'] top = words[s.stack[0]] + '_%d' % s.sent[s.stack[0]].head second = words[s.stack[-1]] + '_%d' % s.sent[s.stack[-1]].head third = words[s.stack[-2]] + '_%d' % s.sent[s.stack[-2]].head n0 = words[s.i] if s.i < len(words) else 'EOL' n1 = words[s.i + 1] if s.i+1 < len(words) else 'EOL' if s.ents_len: ent = '%s %d-%d' % (s.ent.label, s.ent.start, s.ent.end) else: ent = '-' return ' '.join((ent, str(s.stack_len), third, second, top, '|', n0, n1)) def get_templates(name): pf = _parse_features if name == 'ner': return pf.ner elif name == 'debug': return pf.unigrams else: return (pf.unigrams + pf.s0_n0 + pf.s1_n0 + pf.s0_n1 + pf.n0_n1 + \ pf.tree_shape + pf.trigrams) cdef class Parser: def __init__(self, StringStore strings, model_dir, transition_system): assert os.path.exists(model_dir) and os.path.isdir(model_dir) self.cfg = Config.read(model_dir, 'config') self.moves = transition_system(strings, self.cfg.labels) templates = get_templates(self.cfg.features) self.model = Model(self.moves.n_moves, templates, model_dir) def __call__(self, Tokens tokens): if tokens.length == 0: return 0 if self.cfg.get('beam_width', 1) <= 1: self._greedy_parse(tokens) else: self._beam_parse(tokens) def train(self, Tokens tokens, GoldParse gold): self.moves.preprocess_gold(gold) if self.cfg.beam_width <= 1: return self._greedy_train(tokens, gold) else: return self._beam_train(tokens, gold) cdef int _greedy_parse(self, Tokens tokens) except -1: cdef atom_t[CONTEXT_SIZE] context cdef int n_feats cdef Pool mem = Pool() cdef State* state = new_state(mem, tokens.data, tokens.length) self.moves.initialize_state(state) cdef Transition guess while not is_final(state): fill_context(context, state) scores = self.model.score(context) guess = self.moves.best_valid(scores, state) guess.do(state, guess.label) self.moves.finalize_state(state) tokens.set_parse(state.sent) cdef int _beam_parse(self, Tokens tokens) except -1: cdef Beam beam = Beam(self.moves.n_moves, self.cfg.beam_width) beam.initialize(_init_state, tokens.length, tokens.data) beam.check_done(_check_final_state, NULL) while not beam.is_done: self._advance_beam(beam, None, False) state = beam.at(0) self.moves.finalize_state(state) tokens.set_parse(state.sent) def _greedy_train(self, Tokens tokens, GoldParse gold): cdef Pool mem = Pool() cdef State* state = new_state(mem, tokens.data, tokens.length) self.moves.initialize_state(state) cdef int cost cdef const Feature* feats cdef const weight_t* scores cdef Transition guess cdef Transition best cdef atom_t[CONTEXT_SIZE] context loss = 0 while not is_final(state): fill_context(context, state) scores = self.model.score(context) guess = self.moves.best_valid(scores, state) best = self.moves.best_gold(scores, state, gold) cost = guess.get_cost(state, &gold.c, guess.label) self.model.update(context, guess.clas, best.clas, cost) guess.do(state, guess.label) loss += cost return loss def _beam_train(self, Tokens tokens, GoldParse gold_parse): cdef Beam pred = Beam(self.moves.n_moves, self.cfg.beam_width) pred.initialize(_init_state, tokens.length, tokens.data) pred.check_done(_check_final_state, NULL) cdef Beam gold = Beam(self.moves.n_moves, self.cfg.beam_width) gold.initialize(_init_state, tokens.length, tokens.data) gold.check_done(_check_final_state, NULL) violn = MaxViolation() while not pred.is_done and not gold.is_done: self._advance_beam(pred, gold_parse, False) self._advance_beam(gold, gold_parse, True) violn.check(pred, gold) if pred.loss >= 1: counts = {clas: {} for clas in range(self.model.n_classes)} self._count_feats(counts, tokens, violn.g_hist, 1) self._count_feats(counts, tokens, violn.p_hist, -1) else: counts = {} self.model._model.update(counts) return pred.loss def _advance_beam(self, Beam beam, GoldParse gold, bint follow_gold): cdef atom_t[CONTEXT_SIZE] context cdef State* state cdef int i, j, cost cdef bint is_valid cdef const Transition* move for i in range(beam.size): state = beam.at(i) if not is_final(state): fill_context(context, state) self.model.set_scores(beam.scores[i], context) self.moves.set_valid(beam.is_valid[i], state) if gold is not None: for i in range(beam.size): state = beam.at(i) self.moves.set_costs(beam.costs[i], state, gold) if follow_gold: for j in range(self.moves.n_moves): beam.is_valid[i][j] *= beam.costs[i][j] == 0 beam.advance(_transition_state, self.moves.c) state = beam.at(0) beam.check_done(_check_final_state, NULL) def _count_feats(self, dict counts, Tokens tokens, list hist, int inc): cdef atom_t[CONTEXT_SIZE] context cdef Pool mem = Pool() cdef State* state = new_state(mem, tokens.data, tokens.length) self.moves.initialize_state(state) cdef class_t clas cdef int n_feats for clas in hist: fill_context(context, state) feats = self.model._extractor.get_feats(context, &n_feats) count_feats(counts[clas], feats, n_feats, inc) self.moves.c[clas].do(state, self.moves.c[clas].label) # These are passed as callbacks to thinc.search.Beam cdef int _transition_state(void* _dest, void* _src, class_t clas, void* _moves) except -1: dest = _dest src = _src moves = _moves copy_state(dest, src) moves[clas].do(dest, moves[clas].label) cdef void* _init_state(Pool mem, int length, void* tokens) except NULL: state = new_state(mem, tokens, length) push_stack(state) return state cdef int _check_final_state(void* state, void* extra_args) except -1: return is_final(state)