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898 lines
30 KiB
Cython
898 lines
30 KiB
Cython
# cython: profile=True, cdivision=True, infer_types=True
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from cymem.cymem cimport Pool, Address
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from libc.stdint cimport int32_t
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from libcpp.vector cimport vector
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from collections import defaultdict, Counter
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from ...typedefs cimport hash_t, attr_t
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from ...strings cimport hash_string
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from ...structs cimport TokenC
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from ...tokens.doc cimport Doc, set_children_from_heads
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from ...tokens.token cimport MISSING_DEP
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from ...training.example cimport Example
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from .stateclass cimport StateClass
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from ._state cimport StateC, ArcC
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from ...errors import Errors
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from thinc.extra.search cimport Beam
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cdef weight_t MIN_SCORE = -90000
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cdef attr_t SUBTOK_LABEL = hash_string(u'subtok')
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DEF NON_MONOTONIC = True
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cdef enum:
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SHIFT
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REDUCE
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LEFT
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RIGHT
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BREAK
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N_MOVES
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MOVE_NAMES = [None] * N_MOVES
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MOVE_NAMES[SHIFT] = 'S'
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MOVE_NAMES[REDUCE] = 'D'
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MOVE_NAMES[LEFT] = 'L'
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MOVE_NAMES[RIGHT] = 'R'
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MOVE_NAMES[BREAK] = 'B'
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cdef enum:
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HEAD_IN_STACK = 0
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HEAD_IN_BUFFER
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HEAD_UNKNOWN
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IS_SENT_START
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SENT_START_UNKNOWN
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cdef struct GoldParseStateC:
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char* state_bits
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int32_t* n_kids_in_buffer
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int32_t* n_kids_in_stack
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int32_t* heads
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attr_t* labels
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int32_t** kids
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int32_t* n_kids
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int32_t length
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int32_t stride
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weight_t push_cost
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weight_t pop_cost
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cdef GoldParseStateC create_gold_state(Pool mem, const StateC* state,
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heads, labels, sent_starts) except *:
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cdef GoldParseStateC gs
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gs.length = len(heads)
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gs.stride = 1
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assert gs.length > 0
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gs.labels = <attr_t*>mem.alloc(gs.length, sizeof(gs.labels[0]))
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gs.heads = <int32_t*>mem.alloc(gs.length, sizeof(gs.heads[0]))
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gs.n_kids = <int32_t*>mem.alloc(gs.length, sizeof(gs.n_kids[0]))
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gs.state_bits = <char*>mem.alloc(gs.length, sizeof(gs.state_bits[0]))
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gs.n_kids_in_buffer = <int32_t*>mem.alloc(gs.length, sizeof(gs.n_kids_in_buffer[0]))
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gs.n_kids_in_stack = <int32_t*>mem.alloc(gs.length, sizeof(gs.n_kids_in_stack[0]))
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for i, is_sent_start in enumerate(sent_starts):
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if is_sent_start == True:
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gs.state_bits[i] = set_state_flag(
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gs.state_bits[i],
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IS_SENT_START,
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1
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)
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gs.state_bits[i] = set_state_flag(
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gs.state_bits[i],
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SENT_START_UNKNOWN,
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0
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)
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elif is_sent_start is None:
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gs.state_bits[i] = set_state_flag(
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gs.state_bits[i],
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SENT_START_UNKNOWN,
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1
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)
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gs.state_bits[i] = set_state_flag(
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gs.state_bits[i],
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IS_SENT_START,
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0
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)
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else:
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gs.state_bits[i] = set_state_flag(
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gs.state_bits[i],
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SENT_START_UNKNOWN,
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0
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)
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gs.state_bits[i] = set_state_flag(
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gs.state_bits[i],
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IS_SENT_START,
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0
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)
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for i, (head, label) in enumerate(zip(heads, labels)):
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if head is not None:
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gs.heads[i] = head
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gs.labels[i] = label
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if i != head:
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gs.n_kids[head] += 1
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gs.state_bits[i] = set_state_flag(
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gs.state_bits[i],
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HEAD_UNKNOWN,
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0
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)
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else:
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gs.state_bits[i] = set_state_flag(
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gs.state_bits[i],
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HEAD_UNKNOWN,
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1
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)
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# Make an array of pointers, pointing into the gs_kids_flat array.
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assert gs.length > 0
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gs.kids = <int32_t**>mem.alloc(gs.length, sizeof(int32_t*))
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for i in range(gs.length):
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if gs.n_kids[i] != 0:
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gs.kids[i] = <int32_t*>mem.alloc(gs.n_kids[i], sizeof(int32_t))
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# This is a temporary buffer
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js_addr = Address(gs.length, sizeof(int32_t))
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js = <int32_t*>js_addr.ptr
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for i in range(gs.length):
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if not is_head_unknown(&gs, i):
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head = gs.heads[i]
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if head != i:
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gs.kids[head][js[head]] = i
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js[head] += 1
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gs.push_cost = push_cost(state, &gs)
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gs.pop_cost = pop_cost(state, &gs)
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return gs
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cdef void update_gold_state(GoldParseStateC* gs, const StateC* s) nogil:
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for i in range(gs.length):
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gs.state_bits[i] = set_state_flag(
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gs.state_bits[i],
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HEAD_IN_BUFFER,
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0
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)
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gs.state_bits[i] = set_state_flag(
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gs.state_bits[i],
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HEAD_IN_STACK,
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0
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)
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gs.n_kids_in_stack[i] = 0
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gs.n_kids_in_buffer[i] = 0
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for i in range(s.stack_depth()):
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s_i = s.S(i)
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if not is_head_unknown(gs, s_i) and gs.heads[s_i] != s_i:
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gs.n_kids_in_stack[gs.heads[s_i]] += 1
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for kid in gs.kids[s_i][:gs.n_kids[s_i]]:
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gs.state_bits[kid] = set_state_flag(
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gs.state_bits[kid],
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HEAD_IN_STACK,
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1
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)
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for i in range(s.buffer_length()):
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b_i = s.B(i)
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if s.is_sent_start(b_i):
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break
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if not is_head_unknown(gs, b_i) and gs.heads[b_i] != b_i:
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gs.n_kids_in_buffer[gs.heads[b_i]] += 1
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for kid in gs.kids[b_i][:gs.n_kids[b_i]]:
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gs.state_bits[kid] = set_state_flag(
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gs.state_bits[kid],
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HEAD_IN_BUFFER,
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1
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)
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gs.push_cost = push_cost(s, gs)
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gs.pop_cost = pop_cost(s, gs)
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cdef class ArcEagerGold:
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cdef GoldParseStateC c
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cdef Pool mem
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def __init__(self, ArcEager moves, StateClass stcls, Example example):
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self.mem = Pool()
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heads, labels = example.get_aligned_parse(projectivize=True)
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labels = [example.x.vocab.strings.add(label) if label is not None else MISSING_DEP for label in labels]
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sent_starts = _get_aligned_sent_starts(example)
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assert len(heads) == len(labels) == len(sent_starts), (len(heads), len(labels), len(sent_starts))
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self.c = create_gold_state(self.mem, stcls.c, heads, labels, sent_starts)
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def update(self, StateClass stcls):
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update_gold_state(&self.c, stcls.c)
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def _get_aligned_sent_starts(example):
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"""Get list of SENT_START attributes aligned to the predicted tokenization.
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If the reference has not sentence starts, return a list of None values.
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This function is slightly different from the one on Example, because we also
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check whether the reference sentences align across multiple sentences,
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and return missing values if they do. This prevents a problem where you have
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the start of a sentence merged onto a token that belongs to two sentences.
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"""
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if example.y.has_annotation("SENT_START"):
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align = example.alignment.y2x
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sent_starts = [False] * len(example.x)
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seen_words = set()
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for y_sent in example.y.sents:
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x_indices = list(align[y_sent.start : y_sent.end].dataXd)
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if any(x_idx in seen_words for x_idx in x_indices):
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# If there are any tokens in X that align across two sentences,
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# regard the sentence annotations as missing, as we can't
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# reliably use them.
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return [None] * len(example.x)
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seen_words.update(x_indices)
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sent_starts[x_indices[0]] = True
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return sent_starts
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else:
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return [None] * len(example.x)
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cdef int check_state_gold(char state_bits, char flag) nogil:
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cdef char one = 1
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return 1 if (state_bits & (one << flag)) else 0
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cdef int set_state_flag(char state_bits, char flag, int value) nogil:
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cdef char one = 1
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if value:
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return state_bits | (one << flag)
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else:
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return state_bits & ~(one << flag)
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cdef int is_head_in_stack(const GoldParseStateC* gold, int i) nogil:
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return check_state_gold(gold.state_bits[i], HEAD_IN_STACK)
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cdef int is_head_in_buffer(const GoldParseStateC* gold, int i) nogil:
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return check_state_gold(gold.state_bits[i], HEAD_IN_BUFFER)
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cdef int is_head_unknown(const GoldParseStateC* gold, int i) nogil:
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return check_state_gold(gold.state_bits[i], HEAD_UNKNOWN)
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cdef int is_sent_start(const GoldParseStateC* gold, int i) nogil:
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return check_state_gold(gold.state_bits[i], IS_SENT_START)
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cdef int is_sent_start_unknown(const GoldParseStateC* gold, int i) nogil:
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return check_state_gold(gold.state_bits[i], SENT_START_UNKNOWN)
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# Helper functions for the arc-eager oracle
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cdef weight_t push_cost(const StateC* state, const GoldParseStateC* gold) nogil:
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cdef weight_t cost = 0
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b0 = state.B(0)
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if b0 < 0:
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return 9000
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if is_head_in_stack(gold, b0):
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cost += 1
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cost += gold.n_kids_in_stack[b0]
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if Break.is_valid(state, 0) and is_sent_start(gold, state.B(1)):
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cost += 1
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return cost
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cdef weight_t pop_cost(const StateC* state, const GoldParseStateC* gold) nogil:
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cdef weight_t cost = 0
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s0 = state.S(0)
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if s0 < 0:
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return 9000
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if is_head_in_buffer(gold, s0):
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cost += 1
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cost += gold.n_kids_in_buffer[s0]
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return cost
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cdef bint arc_is_gold(const GoldParseStateC* gold, int head, int child) nogil:
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if is_head_unknown(gold, child):
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return True
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elif gold.heads[child] == head:
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return True
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else:
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return False
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cdef bint label_is_gold(const GoldParseStateC* gold, int child, attr_t label) nogil:
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if is_head_unknown(gold, child):
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return True
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elif label == 0:
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return True
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elif gold.labels[child] == label:
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return True
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else:
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return False
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cdef bint _is_gold_root(const GoldParseStateC* gold, int word) nogil:
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return gold.heads[word] == word or is_head_unknown(gold, word)
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cdef class Shift:
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"""Move the first word of the buffer onto the stack and mark it as "shifted"
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Validity:
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* If stack is empty
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* At least two words in sentence
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* Word has not been shifted before
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Cost: push_cost
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Action:
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* Mark B[0] as 'shifted'
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* Push stack
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* Advance buffer
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"""
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@staticmethod
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cdef bint is_valid(const StateC* st, attr_t label) nogil:
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if st.stack_depth() == 0:
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return 1
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elif st.buffer_length() < 2:
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return 0
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elif st.is_sent_start(st.B(0)):
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return 0
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elif st.is_unshiftable(st.B(0)):
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return 0
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else:
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return 1
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@staticmethod
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cdef int transition(StateC* st, attr_t label) nogil:
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st.push()
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@staticmethod
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cdef weight_t cost(const StateC* state, const void* _gold, attr_t label) nogil:
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gold = <const GoldParseStateC*>_gold
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return gold.push_cost
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cdef class Reduce:
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"""
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Pop from the stack. If it has no head and the stack isn't empty, place
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it back on the buffer.
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Validity:
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* Stack not empty
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* Buffer nt empty
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* Stack depth 1 and cannot sent start l_edge(st.B(0))
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Cost:
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* If B[0] is the start of a sentence, cost is 0
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* Arcs between stack and buffer
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* If arc has no head, we're saving arcs between S[0] and S[1:], so decrement
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cost by those arcs.
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"""
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@staticmethod
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cdef bint is_valid(const StateC* st, attr_t label) nogil:
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if st.stack_depth() == 0:
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return False
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elif st.buffer_length() == 0:
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return True
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elif st.stack_depth() == 1 and st.cannot_sent_start(st.l_edge(st.B(0))):
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return False
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else:
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return True
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@staticmethod
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cdef int transition(StateC* st, attr_t label) nogil:
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if st.has_head(st.S(0)) or st.stack_depth() == 1:
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st.pop()
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else:
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st.unshift()
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@staticmethod
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cdef weight_t cost(const StateC* state, const void* _gold, attr_t label) nogil:
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gold = <const GoldParseStateC*>_gold
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if state.is_sent_start(state.B(0)):
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return 0
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s0 = state.S(0)
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cost = gold.pop_cost
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if not state.has_head(s0):
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# Decrement cost for the arcs we save, as we'll be putting this
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# back to the buffer
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if is_head_in_stack(gold, s0):
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cost -= 1
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cost -= gold.n_kids_in_stack[s0]
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return cost
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cdef class LeftArc:
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"""Add an arc between B[0] and S[0], replacing the previous head of S[0] if
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one is set. Pop S[0] from the stack.
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Validity:
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* len(S) >= 1
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* len(B) >= 1
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* not is_sent_start(B[0])
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Cost:
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pop_cost - Arc(B[0], S[0], label) + (Arc(S[1], S[0]) if H(S[0]) else Arcs(S, S[0]))
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"""
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@staticmethod
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cdef bint is_valid(const StateC* st, attr_t label) nogil:
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if st.stack_depth() == 0:
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return 0
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elif st.buffer_length() == 0:
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return 0
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elif st.is_sent_start(st.B(0)):
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return 0
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elif label == SUBTOK_LABEL and st.S(0) != (st.B(0)-1):
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return 0
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else:
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return 1
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@staticmethod
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cdef int transition(StateC* st, attr_t label) nogil:
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st.add_arc(st.B(0), st.S(0), label)
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# If we change the stack, it's okay to remove the shifted mark, as
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# we can't get in an infinite loop this way.
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st.set_reshiftable(st.B(0))
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st.pop()
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@staticmethod
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cdef inline weight_t cost(const StateC* state, const void* _gold, attr_t label) nogil:
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gold = <const GoldParseStateC*>_gold
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cdef weight_t cost = gold.pop_cost
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s0 = state.S(0)
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s1 = state.S(1)
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b0 = state.B(0)
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if state.has_head(s0):
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# Increment cost if we're clobbering a correct arc
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cost += gold.heads[s0] == s1
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else:
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# If there's no head, we're losing arcs between S0 and S[1:].
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cost += is_head_in_stack(gold, s0)
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cost += gold.n_kids_in_stack[s0]
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if b0 != -1 and s0 != -1 and gold.heads[s0] == b0:
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cost -= 1
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cost += not label_is_gold(gold, s0, label)
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return cost
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cdef class RightArc:
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"""
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Add an arc from S[0] to B[0]. Push B[0].
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Validity:
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* len(S) >= 1
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* len(B) >= 1
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* not is_sent_start(B[0])
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Cost:
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push_cost + (not shifted[b0] and Arc(B[1:], B[0])) - Arc(S[0], B[0], label)
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"""
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@staticmethod
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cdef bint is_valid(const StateC* st, attr_t label) nogil:
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if st.stack_depth() == 0:
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return 0
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elif st.buffer_length() == 0:
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return 0
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elif st.is_sent_start(st.B(0)):
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return 0
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elif label == SUBTOK_LABEL and st.S(0) != (st.B(0)-1):
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# If there's (perhaps partial) parse pre-set, don't allow cycle.
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return 0
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else:
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return 1
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@staticmethod
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cdef int transition(StateC* st, attr_t label) nogil:
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st.add_arc(st.S(0), st.B(0), label)
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st.push()
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@staticmethod
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cdef inline weight_t cost(const StateC* state, const void* _gold, attr_t label) nogil:
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gold = <const GoldParseStateC*>_gold
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cost = gold.push_cost
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s0 = state.S(0)
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b0 = state.B(0)
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if s0 != -1 and b0 != -1 and gold.heads[b0] == s0:
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cost -= 1
|
|
cost += not label_is_gold(gold, b0, label)
|
|
elif is_head_in_buffer(gold, b0) and not state.is_unshiftable(b0):
|
|
cost += 1
|
|
return cost
|
|
|
|
|
|
cdef class Break:
|
|
"""Mark the second word of the buffer as the start of a
|
|
sentence.
|
|
|
|
Validity:
|
|
* len(buffer) >= 2
|
|
* B[1] == B[0] + 1
|
|
* not is_sent_start(B[1])
|
|
* not cannot_sent_start(B[1])
|
|
|
|
Action:
|
|
* mark_sent_start(B[1])
|
|
|
|
Cost:
|
|
* not is_sent_start(B[1])
|
|
* Arcs between B[0] and B[1:]
|
|
* Arcs between S and B[1]
|
|
"""
|
|
@staticmethod
|
|
cdef bint is_valid(const StateC* st, attr_t label) nogil:
|
|
cdef int i
|
|
if st.buffer_length() < 2:
|
|
return False
|
|
elif st.B(1) != st.B(0) + 1:
|
|
return False
|
|
elif st.is_sent_start(st.B(1)):
|
|
return False
|
|
elif st.cannot_sent_start(st.B(1)):
|
|
return False
|
|
else:
|
|
return True
|
|
|
|
@staticmethod
|
|
cdef int transition(StateC* st, attr_t label) nogil:
|
|
st.set_sent_start(st.B(1), 1)
|
|
|
|
@staticmethod
|
|
cdef weight_t cost(const StateC* state, const void* _gold, attr_t label) nogil:
|
|
gold = <const GoldParseStateC*>_gold
|
|
cdef int b0 = state.B(0)
|
|
cdef int cost = 0
|
|
cdef int si
|
|
for i in range(state.stack_depth()):
|
|
si = state.S(i)
|
|
if is_head_in_buffer(gold, si):
|
|
cost += 1
|
|
cost += gold.n_kids_in_buffer[si]
|
|
# We need to score into B[1:], so subtract deps that are at b0
|
|
if gold.heads[b0] == si:
|
|
cost -= 1
|
|
if gold.heads[si] == b0:
|
|
cost -= 1
|
|
if not is_sent_start(gold, state.B(1)) \
|
|
and not is_sent_start_unknown(gold, state.B(1)):
|
|
cost += 1
|
|
return cost
|
|
|
|
|
|
cdef void* _init_state(Pool mem, int length, void* tokens) except NULL:
|
|
st = new StateC(<const TokenC*>tokens, length)
|
|
return <void*>st
|
|
|
|
|
|
cdef int _del_state(Pool mem, void* state, void* x) except -1:
|
|
cdef StateC* st = <StateC*>state
|
|
del st
|
|
|
|
|
|
cdef class ArcEager(TransitionSystem):
|
|
def __init__(self, *args, **kwargs):
|
|
TransitionSystem.__init__(self, *args, **kwargs)
|
|
self.init_beam_state = _init_state
|
|
self.del_beam_state = _del_state
|
|
|
|
@classmethod
|
|
def get_actions(cls, **kwargs):
|
|
min_freq = kwargs.get('min_freq', None)
|
|
actions = defaultdict(lambda: Counter())
|
|
actions[SHIFT][''] = 1
|
|
actions[REDUCE][''] = 1
|
|
for label in kwargs.get('left_labels', []):
|
|
actions[LEFT][label] = 1
|
|
actions[SHIFT][label] = 1
|
|
for label in kwargs.get('right_labels', []):
|
|
actions[RIGHT][label] = 1
|
|
actions[REDUCE][label] = 1
|
|
for example in kwargs.get('examples', []):
|
|
heads, labels = example.get_aligned_parse(projectivize=True)
|
|
for child, (head, label) in enumerate(zip(heads, labels)):
|
|
if head is None or label is None:
|
|
continue
|
|
if label.upper() == 'ROOT' :
|
|
label = 'ROOT'
|
|
if head == child:
|
|
actions[BREAK][label] += 1
|
|
if head < child:
|
|
actions[RIGHT][label] += 1
|
|
actions[REDUCE][''] += 1
|
|
elif head > child:
|
|
actions[LEFT][label] += 1
|
|
actions[SHIFT][''] += 1
|
|
if min_freq is not None:
|
|
for action, label_freqs in actions.items():
|
|
for label, freq in list(label_freqs.items()):
|
|
if freq < min_freq:
|
|
label_freqs.pop(label)
|
|
# Ensure these actions are present
|
|
actions[BREAK].setdefault('ROOT', 0)
|
|
if kwargs.get("learn_tokens") is True:
|
|
actions[RIGHT].setdefault('subtok', 0)
|
|
actions[LEFT].setdefault('subtok', 0)
|
|
# Used for backoff
|
|
actions[RIGHT].setdefault('dep', 0)
|
|
actions[LEFT].setdefault('dep', 0)
|
|
return actions
|
|
|
|
@property
|
|
def builtin_labels(self):
|
|
return ["ROOT", "dep"]
|
|
|
|
@property
|
|
def action_types(self):
|
|
return (SHIFT, REDUCE, LEFT, RIGHT, BREAK)
|
|
|
|
def get_doc_labels(self, doc):
|
|
"""Get the labels required for a given Doc."""
|
|
labels = set(self.builtin_labels)
|
|
for token in doc:
|
|
if token.dep_:
|
|
labels.add(token.dep_)
|
|
return labels
|
|
|
|
def transition(self, StateClass state, action):
|
|
cdef Transition t = self.lookup_transition(action)
|
|
t.do(state.c, t.label)
|
|
return state
|
|
|
|
def is_gold_parse(self, StateClass state, ArcEagerGold gold):
|
|
for i in range(state.c.length):
|
|
token = state.c.safe_get(i)
|
|
if not arc_is_gold(&gold.c, i, i+token.head):
|
|
return False
|
|
elif not label_is_gold(&gold.c, i, token.dep):
|
|
return False
|
|
return True
|
|
|
|
def init_gold(self, StateClass state, Example example):
|
|
gold = ArcEagerGold(self, state, example)
|
|
self._replace_unseen_labels(gold)
|
|
return gold
|
|
|
|
def init_gold_batch(self, examples):
|
|
# TODO: Projectivity?
|
|
all_states = self.init_batch([eg.predicted for eg in examples])
|
|
golds = []
|
|
states = []
|
|
for state, eg in zip(all_states, examples):
|
|
if self.has_gold(eg) and not state.is_final():
|
|
golds.append(self.init_gold(state, eg))
|
|
states.append(state)
|
|
n_steps = sum([len(s.queue) for s in states])
|
|
return states, golds, n_steps
|
|
|
|
def _replace_unseen_labels(self, ArcEagerGold gold):
|
|
backoff_label = self.strings["dep"]
|
|
root_label = self.strings["ROOT"]
|
|
left_labels = self.labels[LEFT]
|
|
right_labels = self.labels[RIGHT]
|
|
break_labels = self.labels[BREAK]
|
|
for i in range(gold.c.length):
|
|
if not is_head_unknown(&gold.c, i):
|
|
head = gold.c.heads[i]
|
|
label = self.strings[gold.c.labels[i]]
|
|
if head > i and label not in left_labels:
|
|
gold.c.labels[i] = backoff_label
|
|
elif head < i and label not in right_labels:
|
|
gold.c.labels[i] = backoff_label
|
|
elif head == i and label not in break_labels:
|
|
gold.c.labels[i] = root_label
|
|
return gold
|
|
|
|
cdef Transition lookup_transition(self, object name_or_id) except *:
|
|
if isinstance(name_or_id, int):
|
|
return self.c[name_or_id]
|
|
name = name_or_id
|
|
if '-' in name:
|
|
move_str, label_str = name.split('-', 1)
|
|
label = self.strings[label_str]
|
|
else:
|
|
move_str = name
|
|
label = 0
|
|
move = MOVE_NAMES.index(move_str)
|
|
for i in range(self.n_moves):
|
|
if self.c[i].move == move and self.c[i].label == label:
|
|
return self.c[i]
|
|
raise KeyError(f"Unknown transition: {name}")
|
|
|
|
def move_name(self, int move, attr_t label):
|
|
label_str = self.strings[label]
|
|
if label_str:
|
|
return MOVE_NAMES[move] + '-' + label_str
|
|
else:
|
|
return MOVE_NAMES[move]
|
|
|
|
def class_name(self, int i):
|
|
return self.move_name(self.c[i].move, self.c[i].label)
|
|
|
|
cdef Transition init_transition(self, int clas, int move, attr_t label) except *:
|
|
# TODO: Apparent Cython bug here when we try to use the Transition()
|
|
# constructor with the function pointers
|
|
cdef Transition t
|
|
t.score = 0
|
|
t.clas = clas
|
|
t.move = move
|
|
t.label = label
|
|
if move == SHIFT:
|
|
t.is_valid = Shift.is_valid
|
|
t.do = Shift.transition
|
|
t.get_cost = Shift.cost
|
|
elif move == REDUCE:
|
|
t.is_valid = Reduce.is_valid
|
|
t.do = Reduce.transition
|
|
t.get_cost = Reduce.cost
|
|
elif move == LEFT:
|
|
t.is_valid = LeftArc.is_valid
|
|
t.do = LeftArc.transition
|
|
t.get_cost = LeftArc.cost
|
|
elif move == RIGHT:
|
|
t.is_valid = RightArc.is_valid
|
|
t.do = RightArc.transition
|
|
t.get_cost = RightArc.cost
|
|
elif move == BREAK:
|
|
t.is_valid = Break.is_valid
|
|
t.do = Break.transition
|
|
t.get_cost = Break.cost
|
|
else:
|
|
raise ValueError(Errors.E019.format(action=move, src='arc_eager'))
|
|
return t
|
|
|
|
def set_annotations(self, StateClass state, Doc doc):
|
|
for arc in state.arcs:
|
|
doc.c[arc["child"]].head = arc["head"] - arc["child"]
|
|
doc.c[arc["child"]].dep = arc["label"]
|
|
for i in range(doc.length):
|
|
if doc.c[i].head == 0:
|
|
doc.c[i].dep = self.root_label
|
|
set_children_from_heads(doc.c, 0, doc.length)
|
|
|
|
def get_beam_parses(self, Beam beam):
|
|
parses = []
|
|
probs = beam.probs
|
|
for i in range(beam.size):
|
|
state = <StateC*>beam.at(i)
|
|
if state.is_final():
|
|
prob = probs[i]
|
|
parse = []
|
|
arcs = self.get_arcs(state)
|
|
if arcs:
|
|
for arc in arcs:
|
|
dep = arc["label"]
|
|
label = self.strings[dep]
|
|
parse.append((arc["head"], arc["child"], label))
|
|
parses.append((prob, parse))
|
|
return parses
|
|
|
|
cdef get_arcs(self, StateC* state):
|
|
cdef vector[ArcC] arcs
|
|
state.get_arcs(&arcs)
|
|
return list(arcs)
|
|
|
|
def has_gold(self, Example eg, start=0, end=None):
|
|
for word in eg.y[start:end]:
|
|
if word.dep != 0:
|
|
return True
|
|
else:
|
|
return False
|
|
|
|
cdef int set_valid(self, int* output, const StateC* st) nogil:
|
|
cdef int[N_MOVES] is_valid
|
|
is_valid[SHIFT] = Shift.is_valid(st, 0)
|
|
is_valid[REDUCE] = Reduce.is_valid(st, 0)
|
|
is_valid[LEFT] = LeftArc.is_valid(st, 0)
|
|
is_valid[RIGHT] = RightArc.is_valid(st, 0)
|
|
is_valid[BREAK] = Break.is_valid(st, 0)
|
|
cdef int i
|
|
for i in range(self.n_moves):
|
|
if self.c[i].label == SUBTOK_LABEL:
|
|
output[i] = self.c[i].is_valid(st, self.c[i].label)
|
|
else:
|
|
output[i] = is_valid[self.c[i].move]
|
|
|
|
def get_cost(self, StateClass stcls, gold, int i):
|
|
if not isinstance(gold, ArcEagerGold):
|
|
raise TypeError(Errors.E909.format(name="ArcEagerGold"))
|
|
cdef ArcEagerGold gold_ = gold
|
|
gold_state = gold_.c
|
|
n_gold = 0
|
|
if self.c[i].is_valid(stcls.c, self.c[i].label):
|
|
cost = self.c[i].get_cost(stcls.c, &gold_state, self.c[i].label)
|
|
else:
|
|
cost = 9000
|
|
return cost
|
|
|
|
cdef int set_costs(self, int* is_valid, weight_t* costs,
|
|
const StateC* state, gold) except -1:
|
|
if not isinstance(gold, ArcEagerGold):
|
|
raise TypeError(Errors.E909.format(name="ArcEagerGold"))
|
|
cdef ArcEagerGold gold_ = gold
|
|
gold_state = gold_.c
|
|
update_gold_state(&gold_state, state)
|
|
self.set_valid(is_valid, state)
|
|
cdef int n_gold = 0
|
|
for i in range(self.n_moves):
|
|
if is_valid[i]:
|
|
costs[i] = self.c[i].get_cost(state, &gold_state, self.c[i].label)
|
|
if costs[i] <= 0:
|
|
n_gold += 1
|
|
else:
|
|
costs[i] = 9000
|
|
if n_gold < 1:
|
|
for i in range(self.n_moves):
|
|
print(self.get_class_name(i), is_valid[i], costs[i])
|
|
print("Gold sent starts?", is_sent_start(&gold_state, state.B(0)), is_sent_start(&gold_state, state.B(1)))
|
|
raise ValueError("Could not find gold transition - see logs above.")
|
|
|
|
def get_oracle_sequence_from_state(self, StateClass state, ArcEagerGold gold, _debug=None):
|
|
cdef int i
|
|
cdef Pool mem = Pool()
|
|
# n_moves should not be zero at this point, but make sure to avoid zero-length mem alloc
|
|
assert self.n_moves > 0
|
|
costs = <float*>mem.alloc(self.n_moves, sizeof(float))
|
|
is_valid = <int*>mem.alloc(self.n_moves, sizeof(int))
|
|
|
|
history = []
|
|
debug_log = []
|
|
failed = False
|
|
while not state.is_final():
|
|
try:
|
|
self.set_costs(is_valid, costs, state.c, gold)
|
|
except ValueError:
|
|
failed = True
|
|
break
|
|
min_cost = min(costs[i] for i in range(self.n_moves))
|
|
for i in range(self.n_moves):
|
|
if is_valid[i] and costs[i] <= min_cost:
|
|
action = self.c[i]
|
|
history.append(i)
|
|
s0 = state.S(0)
|
|
b0 = state.B(0)
|
|
if _debug:
|
|
example = _debug
|
|
debug_log.append(" ".join((
|
|
self.get_class_name(i),
|
|
state.print_state()
|
|
)))
|
|
action.do(state.c, action.label)
|
|
break
|
|
else:
|
|
failed = False
|
|
break
|
|
if failed and _debug not in (False, None):
|
|
example = _debug
|
|
print("Actions")
|
|
for i in range(self.n_moves):
|
|
print(self.get_class_name(i))
|
|
print("Gold")
|
|
for token in example.y:
|
|
print(token.i, token.text, token.dep_, token.head.text)
|
|
aligned_heads, aligned_labels = example.get_aligned_parse()
|
|
print("Aligned heads")
|
|
for i, head in enumerate(aligned_heads):
|
|
print(example.x[i], example.x[head] if head is not None else "__")
|
|
print("Aligned sent starts")
|
|
print(example.get_aligned_sent_starts())
|
|
|
|
print("Predicted tokens")
|
|
print([(w.i, w.text) for w in example.x])
|
|
s0 = state.S(0)
|
|
b0 = state.B(0)
|
|
debug_log.append(" ".join((
|
|
"?",
|
|
"S0=", (example.x[s0].text if s0 >= 0 else "-"),
|
|
"B0=", (example.x[b0].text if b0 >= 0 else "-"),
|
|
"S0 head?", str(state.has_head(state.S(0))),
|
|
)))
|
|
s0 = state.S(0)
|
|
b0 = state.B(0)
|
|
print("\n".join(debug_log))
|
|
print("Arc is gold B0, S0?", arc_is_gold(&gold.c, b0, s0))
|
|
print("Arc is gold S0, B0?", arc_is_gold(&gold.c, s0, b0))
|
|
print("is_head_unknown(s0)", is_head_unknown(&gold.c, s0))
|
|
print("is_head_unknown(b0)", is_head_unknown(&gold.c, b0))
|
|
print("b0", b0, "gold.heads[s0]", gold.c.heads[s0])
|
|
print("Stack", [example.x[i] for i in state.stack])
|
|
print("Buffer", [example.x[i] for i in state.queue])
|
|
raise ValueError(Errors.E024)
|
|
return history
|