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Make core projectivization functions cdef nogil (#10241)
* Make core projectivization methods cdef nogil While profiling the parser, I noticed that relatively a lot of time is spent in projectivization. This change rewrites the functions in the core loops as cdef nogil for efficiency. In C++-land, we use vector in place of Python lists and absent heads are represented as -1 in place of None. * _heads_to_c: add assertion Validation should be performed by the caller, but this assertion ensures that we are not reading/writing out of bounds with incorrect input.
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@ -4,6 +4,10 @@ for doing pseudo-projective parsing implementation uses the HEAD decoration
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scheme.
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"""
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from copy import copy
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from libc.limits cimport INT_MAX
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from libc.stdlib cimport abs
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from libcpp cimport bool
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from libcpp.vector cimport vector
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from ...tokens.doc cimport Doc, set_children_from_heads
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@ -41,13 +45,18 @@ def contains_cycle(heads):
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def is_nonproj_arc(tokenid, heads):
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cdef vector[int] c_heads = _heads_to_c(heads)
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return _is_nonproj_arc(tokenid, c_heads)
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cdef bool _is_nonproj_arc(int tokenid, const vector[int]& heads) nogil:
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# definition (e.g. Havelka 2007): an arc h -> d, h < d is non-projective
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# if there is a token k, h < k < d such that h is not
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# an ancestor of k. Same for h -> d, h > d
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head = heads[tokenid]
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if head == tokenid: # root arcs cannot be non-projective
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return False
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elif head is None: # unattached tokens cannot be non-projective
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elif head < 0: # unattached tokens cannot be non-projective
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return False
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cdef int start, end
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@ -56,19 +65,29 @@ def is_nonproj_arc(tokenid, heads):
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else:
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start, end = (tokenid+1, head)
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for k in range(start, end):
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for ancestor in ancestors(k, heads):
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if ancestor is None: # for unattached tokens/subtrees
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break
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elif ancestor == head: # normal case: k dominated by h
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break
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if _has_head_as_ancestor(k, head, heads):
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continue
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else: # head not in ancestors: d -> h is non-projective
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return True
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return False
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cdef bool _has_head_as_ancestor(int tokenid, int head, const vector[int]& heads) nogil:
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ancestor = tokenid
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cnt = 0
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while cnt < heads.size():
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if heads[ancestor] == head or heads[ancestor] < 0:
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return True
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ancestor = heads[ancestor]
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cnt += 1
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return False
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def is_nonproj_tree(heads):
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cdef vector[int] c_heads = _heads_to_c(heads)
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# a tree is non-projective if at least one arc is non-projective
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return any(is_nonproj_arc(word, heads) for word in range(len(heads)))
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return any(_is_nonproj_arc(word, c_heads) for word in range(len(heads)))
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def decompose(label):
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@ -98,16 +117,31 @@ def projectivize(heads, labels):
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# tree, i.e. connected and cycle-free. Returns a new pair (heads, labels)
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# which encode a projective and decorated tree.
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proj_heads = copy(heads)
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smallest_np_arc = _get_smallest_nonproj_arc(proj_heads)
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if smallest_np_arc is None: # this sentence is already projective
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cdef int new_head
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cdef vector[int] c_proj_heads = _heads_to_c(proj_heads)
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cdef int smallest_np_arc = _get_smallest_nonproj_arc(c_proj_heads)
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if smallest_np_arc == -1: # this sentence is already projective
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return proj_heads, copy(labels)
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while smallest_np_arc is not None:
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_lift(smallest_np_arc, proj_heads)
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smallest_np_arc = _get_smallest_nonproj_arc(proj_heads)
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while smallest_np_arc != -1:
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new_head = _lift(smallest_np_arc, proj_heads)
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c_proj_heads[smallest_np_arc] = new_head
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smallest_np_arc = _get_smallest_nonproj_arc(c_proj_heads)
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deco_labels = _decorate(heads, proj_heads, labels)
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return proj_heads, deco_labels
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cdef vector[int] _heads_to_c(heads):
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cdef vector[int] c_heads;
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for head in heads:
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if head == None:
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c_heads.push_back(-1)
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else:
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assert head < len(heads)
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c_heads.push_back(head)
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return c_heads
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cpdef deprojectivize(Doc doc):
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# Reattach arcs with decorated labels (following HEAD scheme). For each
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# decorated arc X||Y, search top-down, left-to-right, breadth-first until
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@ -137,27 +171,38 @@ def _decorate(heads, proj_heads, labels):
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deco_labels.append(labels[tokenid])
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return deco_labels
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def get_smallest_nonproj_arc_slow(heads):
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cdef vector[int] c_heads = _heads_to_c(heads)
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return _get_smallest_nonproj_arc(c_heads)
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def _get_smallest_nonproj_arc(heads):
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cdef int _get_smallest_nonproj_arc(const vector[int]& heads) nogil:
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# return the smallest non-proj arc or None
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# where size is defined as the distance between dep and head
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# and ties are broken left to right
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smallest_size = float('inf')
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smallest_np_arc = None
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for tokenid, head in enumerate(heads):
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cdef int smallest_size = INT_MAX
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cdef int smallest_np_arc = -1
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cdef int size
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cdef int tokenid
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cdef int head
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for tokenid in range(heads.size()):
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head = heads[tokenid]
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size = abs(tokenid-head)
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if size < smallest_size and is_nonproj_arc(tokenid, heads):
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if size < smallest_size and _is_nonproj_arc(tokenid, heads):
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smallest_size = size
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smallest_np_arc = tokenid
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return smallest_np_arc
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def _lift(tokenid, heads):
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cpdef int _lift(tokenid, heads):
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# reattaches a word to it's grandfather
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head = heads[tokenid]
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ghead = heads[head]
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cdef int new_head = ghead if head != ghead else tokenid
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# attach to ghead if head isn't attached to root else attach to root
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heads[tokenid] = ghead if head != ghead else tokenid
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heads[tokenid] = new_head
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return new_head
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def _find_new_head(token, headlabel):
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@ -93,8 +93,8 @@ def test_parser_pseudoprojectivity(en_vocab):
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assert nonproj.is_decorated("X") is False
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nonproj._lift(0, tree)
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assert tree == [2, 2, 2]
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assert nonproj._get_smallest_nonproj_arc(nonproj_tree) == 7
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assert nonproj._get_smallest_nonproj_arc(nonproj_tree2) == 10
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assert nonproj.get_smallest_nonproj_arc_slow(nonproj_tree) == 7
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assert nonproj.get_smallest_nonproj_arc_slow(nonproj_tree2) == 10
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# fmt: off
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proj_heads, deco_labels = nonproj.projectivize(nonproj_tree, labels)
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assert proj_heads == [1, 2, 2, 4, 5, 2, 7, 5, 2]
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