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* Add messy Break transitions, carefully following the scheme of Dd Zhang et al (2013)

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This commit is contained in:
Matthew Honnibal 2015-01-28 03:09:45 +11:00
parent f9ee5d9934
commit a2d6b195db
1 changed files with 98 additions and 3 deletions
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101
spacy/syntax/arc_eager.pyx
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@ -8,7 +8,9 @@ from ._state cimport head_in_stack, children_in_stack
from ..structs cimport TokenC from ..structs cimport TokenC
DEF NON_MONOTONIC = True DEF NON_MONOTONIC = True
DEF USE_BREAK = True
cdef enum: cdef enum:
@ -16,6 +18,8 @@ cdef enum:
REDUCE REDUCE
LEFT LEFT
RIGHT RIGHT
BREAK_SHIFT
BREAK_RIGHT
N_MOVES N_MOVES
@ -41,6 +45,43 @@ cdef inline bint _can_reduce(const State* s) nogil:
return s.stack_len >= 2 and has_head(get_s0(s)) return s.stack_len >= 2 and has_head(get_s0(s))
cdef inline bint _can_break_shift(const State* s) nogil:
cdef int i
if not USE_BREAK:
return False
elif not _can_shift(s):
return False
else:
# P. 757
# In UPP, if Shift(F) or RightArc(F) fail to result in a single parsing
# tree, they cannot be performed as well.
seen_headless = False
for i in range(s.stack_len):
if s.sent[s.stack[i]].head == 0:
return False
return True
cdef inline bint _can_break_right(const State* s) nogil:
cdef int i
if not USE_BREAK:
return False
elif not _can_right(s):
return False
else:
# P. 757
# In UPP, if Shift(F) or RightArc(F) fail to result in a single parsing
# tree, they cannot be performed as well.
seen_headless = False
for i in range(s.stack_len):
if s.sent[s.stack[i]].head == 0:
if seen_headless:
return False
else:
seen_headless = True
return True
cdef int _shift_cost(const State* s, const int* gold) except -1: cdef int _shift_cost(const State* s, const int* gold) except -1:
assert not at_eol(s) assert not at_eol(s)
cost = 0 cost = 0
@ -85,6 +126,28 @@ cdef int _reduce_cost(const State* s, const int* gold) except -1:
return cost return cost
cdef int _break_shift_cost(const State* s, const int* gold) except -1:
cdef int cost = _shift_cost(s, gold)
# When we break, we Reduce all of the words on the stack. So, the Break
# cost is the sum of the Reduce costs
for i in range(s.stack_len):
cost += children_in_buffer(s, s.stack[i], gold)
if NON_MONOTONIC:
cost += head_in_buffer(s, s.stack[i], gold)
return cost
cdef int _break_right_cost(const State* s, const int* gold) except -1:
cdef int cost = _right_cost(s, gold)
# When we break, we Reduce all of the words on the stack. So, the Break
# cost is the sum of the Reduce costs
for i in range(s.stack_len):
cost += children_in_buffer(s, s.stack[i], gold)
if NON_MONOTONIC:
cost += head_in_buffer(s, s.stack[i], gold)
return cost
cdef class TransitionSystem: cdef class TransitionSystem:
def __init__(self, list left_labels, list right_labels): def __init__(self, list left_labels, list right_labels):
self.mem = Pool() self.mem = Pool()
@ -94,7 +157,7 @@ cdef class TransitionSystem:
right_labels.pop(right_labels.index('ROOT')) right_labels.pop(right_labels.index('ROOT'))
if 'ROOT' in left_labels: if 'ROOT' in left_labels:
left_labels.pop(left_labels.index('ROOT')) left_labels.pop(left_labels.index('ROOT'))
self.n_moves = 2 + len(left_labels) + len(right_labels) self.n_moves = 3 + len(left_labels) + len(right_labels) + len(right_labels)
moves = <Transition*>self.mem.alloc(self.n_moves, sizeof(Transition)) moves = <Transition*>self.mem.alloc(self.n_moves, sizeof(Transition))
cdef int i = 0 cdef int i = 0
moves[i].move = SHIFT moves[i].move = SHIFT
@ -121,6 +184,17 @@ cdef class TransitionSystem:
moves[i].label = label_id moves[i].label = label_id
moves[i].clas = i moves[i].clas = i
i += 1 i += 1
moves[i].move = BREAK_SHIFT
moves[i].label = 0
moves[i].clas = i
i += 1
for label_str in right_labels:
label_str = unicode(label_str)
label_id = self.label_ids.setdefault(label_str, len(self.label_ids))
moves[i].move = BREAK_RIGHT
moves[i].label = label_id
moves[i].clas = i
i += 1
self._moves = moves self._moves = moves
cdef int transition(self, State *s, const Transition* t) except -1: cdef int transition(self, State *s, const Transition* t) except -1:
@ -138,6 +212,23 @@ cdef class TransitionSystem:
elif t.move == REDUCE: elif t.move == REDUCE:
add_dep(s, s.stack[-1], s.stack[0], get_s0(s).dep) add_dep(s, s.stack[-1], s.stack[0], get_s0(s).dep)
pop_stack(s) pop_stack(s)
elif t.move == BREAK_RIGHT:
add_dep(s, s.stack[0], s.i, t.label)
push_stack(s)
while s.stack_len != 0:
if not has_head(get_s0(s)):
get_s0(s).dep = 0
s.stack -= 1
s.stack_len -= 1
if not at_eol(s):
push_stack(s)
elif t.move == BREAK_SHIFT:
push_stack(s)
get_s0(s).dep = 0
s.stack -= s.stack_len
s.stack_len = 0
if not at_eol(s):
push_stack(s)
else: else:
raise Exception(t.move) raise Exception(t.move)
@ -147,6 +238,8 @@ cdef class TransitionSystem:
valid[LEFT] = _can_left(s) valid[LEFT] = _can_left(s)
valid[RIGHT] = _can_right(s) valid[RIGHT] = _can_right(s)
valid[REDUCE] = _can_reduce(s) valid[REDUCE] = _can_reduce(s)
valid[BREAK_SHIFT] = _can_break_shift(s)
valid[BREAK_RIGHT] = _can_break_right(s)
cdef int best = -1 cdef int best = -1
cdef weight_t score = 0 cdef weight_t score = 0
@ -175,6 +268,8 @@ cdef class TransitionSystem:
unl_costs[LEFT] = _left_cost(s, gold_heads) if _can_left(s) else -1 unl_costs[LEFT] = _left_cost(s, gold_heads) if _can_left(s) else -1
unl_costs[RIGHT] = _right_cost(s, gold_heads) if _can_right(s) else -1 unl_costs[RIGHT] = _right_cost(s, gold_heads) if _can_right(s) else -1
unl_costs[REDUCE] = _reduce_cost(s, gold_heads) if _can_reduce(s) else -1 unl_costs[REDUCE] = _reduce_cost(s, gold_heads) if _can_reduce(s) else -1
unl_costs[BREAK_SHIFT] = _break_shift_cost(s, gold_heads) if _can_break_shift(s) else -1
unl_costs[BREAK_RIGHT] = _break_right_cost(s, gold_heads) if _can_break_right(s) else -1
guess.cost = unl_costs[guess.move] guess.cost = unl_costs[guess.move]
cdef Transition t cdef Transition t
@ -190,11 +285,11 @@ cdef class TransitionSystem:
return t return t
elif gold_heads[s.i] == s.stack[0]: elif gold_heads[s.i] == s.stack[0]:
target_label = gold_labels[s.i] target_label = gold_labels[s.i]
if guess.move == RIGHT: if guess.move == RIGHT or guess.move == BREAK_RIGHT:
guess.cost += guess.label != target_label guess.cost += guess.label != target_label
for i in range(self.n_moves): for i in range(self.n_moves):
t = self._moves[i] t = self._moves[i]
if t.move == RIGHT and t.label == target_label: if (t.move == RIGHT or t.move == BREAK_RIGHT) and t.label == target_label:
return t return t
cdef int best = -1 cdef int best = -1