mirror of https://github.com/explosion/spaCy.git
Merge branch 'master' into german_ner
This commit is contained in:
commit
c2f76a4024
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@ -399,31 +399,34 @@ cdef class ArcEager(TransitionSystem):
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cdef TokenC* orig_head
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cdef TokenC* orig_head
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cdef int new_edge
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cdef int new_edge
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cdef int child_i
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cdef int child_i
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cdef TokenC* head_i
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cdef int head_i
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for i in range(st.length):
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for i in range(st.length):
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if st._sent[i].head == 0 and st._sent[i].dep == 0:
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if st._sent[i].head == 0 and st._sent[i].dep == 0:
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st._sent[i].dep = self.root_label
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st._sent[i].dep = self.root_label
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# If we're not using the Break transition, we segment via root-labelled
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# If we're not using the Break transition, we segment via root-labelled
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# arcs between the root words.
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# arcs between the root words.
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elif USE_ROOT_ARC_SEGMENT and st._sent[i].dep == self.root_label:
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elif USE_ROOT_ARC_SEGMENT and st._sent[i].dep == self.root_label:
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orig_head_id = st._sent[i].head
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orig_head_id = i + st._sent[i].head
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orig_head = &st._sent[orig_head_id]
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orig_head = &st._sent[orig_head_id]
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if i < orig_head_id: # i is left dependent
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if i < orig_head_id: # i is left dependent
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orig_head.l_kids -= 1
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orig_head.l_kids -= 1
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if i == orig_head.l_edge: # i is left-most child
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if i == orig_head.l_edge: # i is left-most child
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# find the second left-most child and make it the new l_edge
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# find the second left-most child and make it the new l_edge
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new_edge = orig_head_id
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new_edge = orig_head_id
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child_i = i
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child_i = i+1
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while child_i < orig_head_id:
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while child_i < orig_head_id:
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if st._sent[child_i].head == orig_head_id:
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if child_i + st._sent[child_i].head == orig_head_id:
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new_edge = child_i
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new_edge = child_i
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break
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child_i += 1
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child_i += 1
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# then walk up the path to root and update the l_edges of all ancestors
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# then walk up the path to root and update the l_edges of all ancestors
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# the logic here works because the tree is guaranteed to be projective
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# the logic here works because the tree is guaranteed to be projective
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head_i = &st._sent[orig_head.head]
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head_i = orig_head_id + orig_head.head
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while head_i.l_edge == orig_head.l_edge:
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while st._sent[head_i].l_edge == orig_head.l_edge:
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head_i.l_edge = new_edge
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st._sent[head_i].l_edge = new_edge
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head_i = &st._sent[head_i.head]
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if st._sent[head_i].head == 0:
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break
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head_i += st._sent[head_i].head
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orig_head.l_edge = new_edge
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orig_head.l_edge = new_edge
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elif i > orig_head_id: # i is right dependent
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elif i > orig_head_id: # i is right dependent
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@ -431,22 +434,27 @@ cdef class ArcEager(TransitionSystem):
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if i == orig_head.r_edge:
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if i == orig_head.r_edge:
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# find the second right-most child and make it the new r_edge
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# find the second right-most child and make it the new r_edge
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new_edge = orig_head_id
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new_edge = orig_head_id
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child_i = i
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child_i = i-1
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while child_i > orig_head_id:
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while child_i > orig_head_id:
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if st._sent[child_i].head == orig_head_id:
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if child_i + st._sent[child_i].head == orig_head_id:
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new_edge = child_i
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new_edge = child_i
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break
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child_i -= 1
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child_i -= 1
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# then walk up the path to root and update the l_edges of all ancestors
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# then walk up the path to root and update the r_edges of all ancestors
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# the logic here works because the tree is guaranteed to be projective
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# the logic here works because the tree is guaranteed to be projective
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head_i = &st._sent[orig_head.head]
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head_i = orig_head_id + orig_head.head
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while head_i.r_edge == orig_head.r_edge:
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while st._sent[head_i].r_edge == orig_head.r_edge:
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head_i.r_edge = new_edge
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st._sent[head_i].r_edge = new_edge
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head_i = &st._sent[head_i.head]
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if st._sent[head_i].head == 0:
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break
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head_i += st._sent[head_i].head
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orig_head.r_edge = new_edge
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orig_head.r_edge = new_edge
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# note that this can create non-projective trees if there are arcs
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# note that this may create non-projective trees if there are arcs
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# between nodes on both sides of the new root node
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# between nodes on both sides of the new root node
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st._sent[i].head = 0
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st._sent[i].head = 0
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st._sent[st._sent[i].l_edge].sent_start = True
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cdef int set_valid(self, int* output, const StateC* st) nogil:
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cdef int set_valid(self, int* output, const StateC* st) nogil:
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cdef bint[N_MOVES] is_valid
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cdef bint[N_MOVES] is_valid
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@ -19,3 +19,80 @@ def test_one_word_sentence(EN):
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with EN.parser.step_through(doc) as _:
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with EN.parser.step_through(doc) as _:
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pass
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pass
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assert doc[0].dep != 0
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assert doc[0].dep != 0
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def apply_transition_sequence(model, doc, sequence):
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with model.parser.step_through(doc) as stepwise:
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for transition in sequence:
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stepwise.transition(transition)
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@pytest.mark.models
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def test_arc_eager_finalize_state(EN):
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# right branching
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example = EN.tokenizer.tokens_from_list(u"a b c d e".split(' '))
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apply_transition_sequence(EN, example, ['R-nsubj','D','R-nsubj','R-nsubj','D','R-ROOT'])
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assert example[0].n_lefts == 0
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assert example[0].n_rights == 2
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assert example[0].left_edge.i == 0
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assert example[0].right_edge.i == 3
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assert example[0].head.i == 0
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assert example[1].n_lefts == 0
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assert example[1].n_rights == 0
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assert example[1].left_edge.i == 1
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assert example[1].right_edge.i == 1
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assert example[1].head.i == 0
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assert example[2].n_lefts == 0
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assert example[2].n_rights == 1
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assert example[2].left_edge.i == 2
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assert example[2].right_edge.i == 3
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assert example[2].head.i == 0
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assert example[3].n_lefts == 0
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assert example[3].n_rights == 0
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assert example[3].left_edge.i == 3
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assert example[3].right_edge.i == 3
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assert example[3].head.i == 2
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assert example[4].n_lefts == 0
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assert example[4].n_rights == 0
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assert example[4].left_edge.i == 4
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assert example[4].right_edge.i == 4
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assert example[4].head.i == 4
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# left branching
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example = EN.tokenizer.tokens_from_list(u"a b c d e".split(' '))
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apply_transition_sequence(EN, example, ['S','L-nsubj','L-ROOT','S','L-nsubj','L-nsubj'])
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assert example[0].n_lefts == 0
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assert example[0].n_rights == 0
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assert example[0].left_edge.i == 0
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assert example[0].right_edge.i == 0
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assert example[0].head.i == 0
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assert example[1].n_lefts == 0
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assert example[1].n_rights == 0
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assert example[1].left_edge.i == 1
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assert example[1].right_edge.i == 1
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assert example[1].head.i == 2
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assert example[2].n_lefts == 1
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assert example[2].n_rights == 0
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assert example[2].left_edge.i == 1
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assert example[2].right_edge.i == 2
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assert example[2].head.i == 4
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assert example[3].n_lefts == 0
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assert example[3].n_rights == 0
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assert example[3].left_edge.i == 3
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assert example[3].right_edge.i == 3
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assert example[3].head.i == 4
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assert example[4].n_lefts == 2
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assert example[4].n_rights == 0
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assert example[4].left_edge.i == 1
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assert example[4].right_edge.i == 4
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assert example[4].head.i == 4
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@ -1,7 +1,7 @@
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from __future__ import unicode_literals
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from __future__ import unicode_literals
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import pytest
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import pytest
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from spacy.tokens import Doc
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@pytest.mark.models
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@pytest.mark.models
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@ -42,7 +42,7 @@ def test_single_question(EN):
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@pytest.mark.models
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@pytest.mark.models
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def test_sentence_breaks_no_space(EN):
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def test_sentence_breaks_no_space(EN):
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doc = EN.tokenizer.tokens_from_list('This is a sentence . This is another one .'.split(' '))
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doc = EN.tokenizer.tokens_from_list(u'This is a sentence . This is another one .'.split(' '))
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EN.tagger(doc)
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EN.tagger(doc)
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with EN.parser.step_through(doc) as stepwise:
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with EN.parser.step_through(doc) as stepwise:
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# stack empty, automatic Shift (This)
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# stack empty, automatic Shift (This)
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@ -83,7 +83,7 @@ def test_sentence_breaks_no_space(EN):
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@pytest.mark.models
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@pytest.mark.models
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def test_sentence_breaks_with_space(EN):
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def test_sentence_breaks_with_space(EN):
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doc = EN.tokenizer.tokens_from_list('\t This is \n a sentence \n \n . \n \t \n This is another \t one .'.split(' '))
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doc = EN.tokenizer.tokens_from_list(u'\t This is \n a sentence \n \n . \n \t \n This is another \t one .'.split(' '))
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EN.tagger(doc)
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EN.tagger(doc)
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with EN.parser.step_through(doc) as stepwise:
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with EN.parser.step_through(doc) as stepwise:
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# stack empty, automatic Shift (This)
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# stack empty, automatic Shift (This)
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@ -120,3 +120,56 @@ def test_sentence_breaks_with_space(EN):
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for tok in doc:
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for tok in doc:
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assert tok.dep != 0 or tok.is_space
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assert tok.dep != 0 or tok.is_space
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assert [ tok.head.i for tok in doc ] == [1,2,2,2,5,2,5,5,2,8,8,8,13,13,16,14,13,13]
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assert [ tok.head.i for tok in doc ] == [1,2,2,2,5,2,5,5,2,8,8,8,13,13,16,14,13,13]
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def apply_transition_sequence(model, doc, sequence):
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with model.parser.step_through(doc) as stepwise:
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for transition in sequence:
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stepwise.transition(transition)
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@pytest.mark.models
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def test_sbd_for_root_label_dependents(EN):
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"""
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make sure that the parser properly introduces a sentence boundary without
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the break transition by checking for dependents with the root label
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"""
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example = EN.tokenizer.tokens_from_list(u"I saw a firefly It glowed".split(' '))
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EN.tagger(example)
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apply_transition_sequence(EN, example, ['L-nsubj','S','L-det','R-dobj','D','S','L-nsubj','R-ROOT'])
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assert example[1].head.i == 1
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assert example[5].head.i == 5
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sents = list(example.sents)
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assert len(sents) == 2
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assert sents[1][0].orth_ == u'It'
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@pytest.mark.models
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def test_sbd_serialization(EN):
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"""
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test that before and after serialization, the sentence boundaries are the same even
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if the parser predicted two roots for the sentence that were made into two sentences
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after parsing by arc_eager.finalize()
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This is actually an interaction between the sentence boundary prediction and doc.from_array
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The process is the following: if the parser doesn't predict a sentence boundary but attaches
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a word with the ROOT label, the second root node is made root of its own sentence after parsing.
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During serialization, sentence boundary information is lost and reintroduced when the code
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is deserialized by introducing sentence starts at every left-edge of every root node.
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BUG that is tested here: So far, the parser wasn't introducing a sentence start when
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it introduced the second root node.
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"""
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example = EN.tokenizer.tokens_from_list(u"I bought a couch from IKEA. It was n't very comfortable .".split(' '))
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EN.tagger(example)
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apply_transition_sequence(EN, example, ['L-nsubj','S','L-det','R-dobj','D','R-prep','R-pobj','D','D','S','L-nsubj','R-ROOT','R-neg','D','S','L-advmod','R-acomp','D','R-punct'])
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example_serialized = Doc(EN.vocab).from_bytes(example.to_bytes())
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assert example.to_bytes() == example_serialized.to_bytes()
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assert [s.text for s in example.sents] == [s.text for s in example_serialized.sents]
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