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215 lines
6.3 KiB
Cython
215 lines
6.3 KiB
Cython
from __future__ import unicode_literals
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from ._state cimport State
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from ._state cimport has_head, get_idx, get_s0, get_n0
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from ._state cimport is_final, at_eol, pop_stack, push_stack, add_dep
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from ._state cimport head_in_buffer, children_in_buffer
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from ._state cimport head_in_stack, children_in_stack
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from ..structs cimport TokenC
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DEF NON_MONOTONIC = True
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DEF USE_BREAK = True
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cdef enum:
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MISSING
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BEGIN
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IN
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LAST
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UNIT
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OUT
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N_MOVES
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cdef int is_valid(ActionType act, int label, State* s) except -1:
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if act == BEGIN:
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return not entity_is_open(s)
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elif act == IN:
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return entity_is_open(s) and s.curr.label == label
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elif act == LAST:
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return entity_is_open(s) and s.curr.label == label
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elif act == UNIT:
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return not entity_is_open(s)
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elif act == OUT:
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return not entity_is_open(s)
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else:
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raise UnknownMove(act, label)
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cdef bint is_gold(ActionType act, int tag, ActionType g_act, int g_tag,
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ActionType next_act, bint is_sunk):
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if g_act == MISSING:
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return True
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if act == BEGIN:
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if g_act == BEGIN:
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# B, Gold B --> Label match
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return tag == g_tag
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else:
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# B, Gold I --> False (P)
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# B, Gold L --> False (P)
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# B, Gold O --> False (P)
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# B, Gold U --> False (P)
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return False
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elif act == IN:
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if g_act == BEGIN:
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# I, Gold B --> True (P of bad open entity sunk, R of this entity sunk)
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return True
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elif g_act == IN:
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# I, Gold I --> True (label forced by prev, if mismatch, P and R both sunk)
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return True
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elif g_act == LAST:
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# I, Gold L --> True iff this entity sunk and next tag == O
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return is_sunk and (next_act == OUT or next_act == MISSING)
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elif g_act == OUT:
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# I, Gold O --> True iff next tag == O
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return next_act == OUT or next_act == MISSING
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elif g_act == UNIT:
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# I, Gold U --> True iff next tag == O
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return next_act == OUT
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elif act == LAST:
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if g_act == BEGIN:
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# L, Gold B --> True
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return True
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elif g_act == IN:
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# L, Gold I --> True iff this entity sunk
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return is_sunk
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elif g_act == LAST:
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# L, Gold L --> True
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return True
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elif g_act == OUT:
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# L, Gold O --> True
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return True
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elif g_act == UNIT:
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# L, Gold U --> True
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return True
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elif act == OUT:
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if g_act == BEGIN:
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# O, Gold B --> False
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return False
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elif g_act == IN:
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# O, Gold I --> True
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return True
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elif g_act == LAST:
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# O, Gold L --> True
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return True
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elif g_act == OUT:
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# O, Gold O --> True
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return True
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elif g_act == UNIT:
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# O, Gold U --> False
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return False
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elif act == UNIT:
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if g_act == UNIT:
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# U, Gold U --> True iff tag match
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return tag == g_tag
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else:
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# U, Gold B --> False
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# U, Gold I --> False
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# U, Gold L --> False
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# U, Gold O --> False
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return False
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cdef bint entity_is_open(State *s) except -1:
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return s.sent[s.i - 1].ent.tag >= 1
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cdef bint entity_is_sunk(State *s, Move* golds) except -1:
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if not entity_is_open(s):
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return False
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cdef const Entity* curr = &s.sent[s.i - 1].ent
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cdef Move* gold = &golds[(s.i - 1) + curr.start]
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if gold.action != BEGIN and gold.action != UNIT:
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return True
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elif gold.label != s.curr.label:
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return True
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else:
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return False
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cdef class TransitionSystem:
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def __init__(self, list entity_type_strs):
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self.mem = Pool()
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cdef Move* m
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label_names = {'-': 0}
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for i, tag_name in enumerate(tag_names):
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m = &moves[i]
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if '-' in tag_name:
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action_str, label = tag_name.split('-')
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elif tag_name == 'O':
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action_str = 'O'
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label = '-'
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elif tag_name == 'NULL' or tag_name == 'EOL':
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action_str = '?'
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label = '-'
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else:
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raise StandardError(tag_name)
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m.action = ACTION_NAMES.index(action_str)
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m.label = label_names.setdefault(label, len(label_names))
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m.clas = i
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cdef int transition(self, State *s, Move* move) except -1:
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if move.action == BEGIN:
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s.curr.start = s.i
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s.curr.label = label
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elif move.action == IN:
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pass
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elif move.action == LAST:
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s.curr.end = s.i
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s.ents[s.j] = s.curr
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s.j += 1
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s.curr.start = 0
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s.curr.label = -1
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s.curr.end = 0
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elif move.action == UNIT:
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begin_entity(s, move.label)
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end_entity(s)
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elif move.action == OUT:
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pass
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s.tags[s.i] = move.clas
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s.i += 1
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cdef Transition best_valid(self, const weight_t* scores, const State* s) except *:
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cdef int best = -1
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cdef weight_t score = -90000
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cdef const Transition* m
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cdef int i
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for i in range(self.n_moves):
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m = &self._moves[i]
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if _is_valid(s, m.ent_move, m.ent_label) and scores[i] > score:
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best = i
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score = scores[i]
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assert best >= 0
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cdef Transition t = self._moves[best]
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t.score = score
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return t
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cdef Transition best_gold(self, Transition* guess, const weight_t* scores,
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const State* s, Move* golds) except *:
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cdef Move* g = &golds[s.i]
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cdef ActionType next_act = <ActionType>golds[s.i+1].action if s.i < s.length else OUT
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cdef bint is_sunk = entity_is_sunk(s, golds)
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cdef Move* m
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cdef int n_accept = 0
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for i in range(1, self.n_classes):
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m = &moves[i]
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if _is_valid(s, m.move, m.label) and \
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_is_gold(s, m.move, m.label, next_act, is_sunk) and \
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scores[i] > score:
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best = i
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score = scores[i]
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assert best >= 0
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return self._moves[best]
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class OracleError(Exception):
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pass
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class UnknownMove(Exception):
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pass
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