spaCy/spacy/tokens/spans.pyx

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from __future__ import unicode_literals
from collections import defaultdict
import numpy
import numpy.linalg
cimport numpy as np
import math
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from ..structs cimport TokenC, LexemeC
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from ..typedefs cimport flags_t, attr_t
from ..attrs cimport attr_id_t
from ..parts_of_speech cimport univ_pos_t
from ..util import normalize_slice
cdef class Span:
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"""A slice from a Doc object."""
def __cinit__(self, Doc tokens, int start, int end, int label=0, vector=None,
vector_norm=None):
if not (0 <= start <= end <= len(tokens)):
raise IndexError
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self.doc = tokens
self.start = start
self.end = end
self.label = label
self._vector = vector
self._vector_norm = vector_norm
def __richcmp__(self, Span other, int op):
# Eq
if op == 0:
return self.start < other.start
elif op == 1:
return self.start <= other.start
elif op == 2:
return self.start == other.start and self.end == other.end
elif op == 3:
return self.start != other.start or self.end != other.end
elif op == 4:
return self.start > other.start
elif op == 5:
return self.start >= other.start
def __len__(self):
if self.end < self.start:
return 0
return self.end - self.start
def __repr__(self):
text = self.text_with_ws
if self[-1].whitespace_:
text = text[:-1]
return text
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def __getitem__(self, object i):
if isinstance(i, slice):
start, end = normalize_slice(len(self), i.start, i.stop, i.step)
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start += self.start
end += self.start
return Span(self.doc, start, end)
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if i < 0:
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return self.doc[self.end + i]
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else:
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return self.doc[self.start + i]
def __iter__(self):
for i in range(self.start, self.end):
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yield self.doc[i]
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def merge(self, unicode tag, unicode lemma, unicode ent_type):
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self.doc.merge(self[0].idx, self[-1].idx + len(self[-1]), tag, lemma, ent_type)
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def similarity(self, other):
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if self.vector_norm == 0.0 or other.vector_norm == 0.0:
return 0.0
return numpy.dot(self.vector, other.vector) / (self.vector_norm * other.vector_norm)
property vector:
def __get__(self):
if self._vector is None:
self._vector = sum(t.vector for t in self) / len(self)
return self._vector
property vector_norm:
def __get__(self):
cdef float value
if self._vector_norm is None:
self._vector_norm = 1e-20
for value in self.vector:
self._vector_norm += value * value
self._vector_norm = math.sqrt(self._vector_norm)
return self._vector_norm
property text:
def __get__(self):
text = self.text_with_ws
if self[-1].whitespace_:
text = text[:-1]
return text
property text_with_ws:
def __get__(self):
return u''.join([t.text_with_ws for t in self])
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property root:
"""The first ancestor of the first word of the span that has its head
outside the span.
For example:
>>> toks = nlp(u'I like New York in Autumn.')
Let's name the indices --- easier than writing "toks[4]" etc.
>>> i, like, new, york, in_, autumn, dot = range(len(toks))
The head of 'new' is 'York', and the head of 'York' is 'like'
>>> toks[new].head.orth_
'York'
>>> toks[york].head.orth_
'like'
Create a span for "New York". Its root is "York".
>>> new_york = toks[new:york+1]
>>> new_york.root.orth_
'York'
When there are multiple words with external dependencies, we take the first:
>>> toks[autumn].head.orth_, toks[dot].head.orth_
('in', like')
>>> autumn_dot = toks[autumn:]
>>> autumn_dot.root.orth_
'Autumn'
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"""
def __get__(self):
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# This should probably be called 'head', and the other one called
# 'gov'. But we went with 'head' elsehwhere, and now we're stuck =/
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cdef const TokenC* start = &self.doc.data[self.start]
cdef const TokenC* end = &self.doc.data[self.end]
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head = start
while start <= (head + head.head) < end and head.head != 0:
head += head.head
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return self.doc[head - self.doc.data]
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property lefts:
"""Tokens that are to the left of the Span, whose head is within the Span."""
def __get__(self):
for token in reversed(self): # Reverse, so we get the tokens in order
for left in token.lefts:
if left.i < self.start:
yield left
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property rights:
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"""Tokens that are to the right of the Span, whose head is within the Span."""
def __get__(self):
for token in self:
for right in token.rights:
if right.i >= self.end:
yield right
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property subtree:
def __get__(self):
for word in self.lefts:
yield from word.subtree
yield from self
for word in self.rights:
yield from word.subtree
property orth_:
def __get__(self):
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return ''.join([t.string for t in self]).strip()
property lemma_:
def __get__(self):
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return ' '.join([t.lemma_ for t in self]).strip()
property string:
def __get__(self):
return ''.join([t.string for t in self])
property label_:
def __get__(self):
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return self.doc.vocab.strings[self.label]