spaCy/spacy/tests/doc/test_span.py

695 lines
23 KiB
Python

import pytest
import numpy
from numpy.testing import assert_array_equal
from spacy.attrs import ORTH, LENGTH
from spacy.lang.en import English
from spacy.tokens import Doc, Span, SpanGroup, Token
from spacy.vocab import Vocab
from spacy.util import filter_spans
from thinc.api import get_current_ops
from ..util import add_vecs_to_vocab
from .test_underscore import clean_underscore # noqa: F401
@pytest.fixture
def doc(en_tokenizer):
# fmt: off
text = "This is a sentence. This is another sentence. And a third."
heads = [1, 1, 3, 1, 1, 6, 6, 8, 6, 6, 12, 12, 12, 12]
deps = ["nsubj", "ROOT", "det", "attr", "punct", "nsubj", "ROOT", "det",
"attr", "punct", "ROOT", "det", "npadvmod", "punct"]
ents = ["O", "O", "B-ENT", "I-ENT", "I-ENT", "I-ENT", "I-ENT", "O", "O",
"O", "O", "O", "O", "O"]
# fmt: on
tokens = en_tokenizer(text)
lemmas = [t.text for t in tokens] # this is not correct, just a placeholder
spaces = [bool(t.whitespace_) for t in tokens]
return Doc(
tokens.vocab,
words=[t.text for t in tokens],
spaces=spaces,
heads=heads,
deps=deps,
ents=ents,
lemmas=lemmas,
)
@pytest.fixture
def doc_not_parsed(en_tokenizer):
text = "This is a sentence. This is another sentence. And a third."
tokens = en_tokenizer(text)
doc = Doc(tokens.vocab, words=[t.text for t in tokens])
return doc
@pytest.mark.issue(1537)
def test_issue1537():
"""Test that Span.as_doc() doesn't segfault."""
string = "The sky is blue . The man is pink . The dog is purple ."
doc = Doc(Vocab(), words=string.split())
doc[0].sent_start = True
for word in doc[1:]:
if word.nbor(-1).text == ".":
word.sent_start = True
else:
word.sent_start = False
sents = list(doc.sents)
sent0 = sents[0].as_doc()
sent1 = sents[1].as_doc()
assert isinstance(sent0, Doc)
assert isinstance(sent1, Doc)
@pytest.mark.issue(1612)
def test_issue1612(en_tokenizer):
"""Test that span.orth_ is identical to span.text"""
doc = en_tokenizer("The black cat purrs.")
span = doc[1:3]
assert span.orth_ == span.text
@pytest.mark.issue(3199)
def test_issue3199():
"""Test that Span.noun_chunks works correctly if no noun chunks iterator
is available. To make this test future-proof, we're constructing a Doc
with a new Vocab here and a parse tree to make sure the noun chunks run.
"""
words = ["This", "is", "a", "sentence"]
doc = Doc(Vocab(), words=words, heads=[0] * len(words), deps=["dep"] * len(words))
with pytest.raises(NotImplementedError):
list(doc[0:3].noun_chunks)
@pytest.mark.issue(5152)
def test_issue5152():
# Test that the comparison between a Span and a Token, goes well
# There was a bug when the number of tokens in the span equaled the number of characters in the token (!)
nlp = English()
text = nlp("Talk about being boring!")
text_var = nlp("Talk of being boring!")
y = nlp("Let")
span = text[0:3] # Talk about being
span_2 = text[0:3] # Talk about being
span_3 = text_var[0:3] # Talk of being
token = y[0] # Let
with pytest.warns(UserWarning):
assert span.similarity(token) == 0.0
assert span.similarity(span_2) == 1.0
with pytest.warns(UserWarning):
assert span_2.similarity(span_3) < 1.0
@pytest.mark.issue(6755)
def test_issue6755(en_tokenizer):
doc = en_tokenizer("This is a magnificent sentence.")
span = doc[:0]
assert span.text_with_ws == ""
assert span.text == ""
@pytest.mark.parametrize(
"sentence, start_idx,end_idx,label",
[("Welcome to Mumbai, my friend", 11, 17, "GPE")],
)
@pytest.mark.issue(6815)
def test_issue6815_1(sentence, start_idx, end_idx, label):
nlp = English()
doc = nlp(sentence)
span = doc[:].char_span(start_idx, end_idx, label=label)
assert span.label_ == label
@pytest.mark.parametrize(
"sentence, start_idx,end_idx,kb_id", [("Welcome to Mumbai, my friend", 11, 17, 5)]
)
@pytest.mark.issue(6815)
def test_issue6815_2(sentence, start_idx, end_idx, kb_id):
nlp = English()
doc = nlp(sentence)
span = doc[:].char_span(start_idx, end_idx, kb_id=kb_id)
assert span.kb_id == kb_id
@pytest.mark.parametrize(
"sentence, start_idx,end_idx,vector",
[("Welcome to Mumbai, my friend", 11, 17, numpy.array([0.1, 0.2, 0.3]))],
)
@pytest.mark.issue(6815)
def test_issue6815_3(sentence, start_idx, end_idx, vector):
nlp = English()
doc = nlp(sentence)
span = doc[:].char_span(start_idx, end_idx, vector=vector)
assert (span.vector == vector).all()
@pytest.mark.parametrize(
"i_sent,i,j,text",
[
(0, 0, len("This is a"), "This is a"),
(1, 0, len("This is another"), "This is another"),
(2, len("And "), len("And ") + len("a third"), "a third"),
(0, 1, 2, None),
],
)
def test_char_span(doc, i_sent, i, j, text):
sents = list(doc.sents)
span = sents[i_sent].char_span(i, j)
if not text:
assert not span
else:
assert span.text == text
@pytest.mark.issue(9556)
def test_modify_span_group(doc):
group = SpanGroup(doc, spans=doc.ents)
for span in group:
span.start = 0
span.label = doc.vocab.strings["TEST"]
# Span changes must be reflected in the span group
assert group[0].start == 0
assert group[0].label == doc.vocab.strings["TEST"]
def test_spans_sent_spans(doc):
sents = list(doc.sents)
assert sents[0].start == 0
assert sents[0].end == 5
assert len(sents) == 3
assert sum(len(sent) for sent in sents) == len(doc)
def test_spans_root(doc):
span = doc[2:4]
assert len(span) == 2
assert span.text == "a sentence"
assert span.root.text == "sentence"
assert span.root.head.text == "is"
def test_spans_string_fn(doc):
span = doc[0:4]
assert len(span) == 4
assert span.text == "This is a sentence"
def test_spans_root2(en_tokenizer):
text = "through North and South Carolina"
heads = [0, 4, 1, 1, 0]
deps = ["dep"] * len(heads)
tokens = en_tokenizer(text)
doc = Doc(tokens.vocab, words=[t.text for t in tokens], heads=heads, deps=deps)
assert doc[-2:].root.text == "Carolina"
def test_spans_span_sent(doc, doc_not_parsed):
"""Test span.sent property"""
assert len(list(doc.sents))
assert doc[:2].sent.root.text == "is"
assert doc[:2].sent.text == "This is a sentence."
assert doc[6:7].sent.root.left_edge.text == "This"
assert doc[0 : len(doc)].sent == list(doc.sents)[0]
assert list(doc[0 : len(doc)].sents) == list(doc.sents)
with pytest.raises(ValueError):
doc_not_parsed[:2].sent
# test on manual sbd
doc_not_parsed[0].is_sent_start = True
doc_not_parsed[5].is_sent_start = True
assert doc_not_parsed[1:3].sent == doc_not_parsed[0:5]
assert doc_not_parsed[10:14].sent == doc_not_parsed[5:]
@pytest.mark.parametrize(
"start,end,expected_sentence",
[
(0, 14, "This is"), # Entire doc
(1, 4, "This is"), # Overlapping with 2 sentences
(0, 2, "This is"), # Beginning of the Doc. Full sentence
(0, 1, "This is"), # Beginning of the Doc. Part of a sentence
(10, 14, "And a"), # End of the Doc. Overlapping with 2 senteces
(12, 14, "third."), # End of the Doc. Full sentence
(1, 1, "This is"), # Empty Span
],
)
def test_spans_span_sent_user_hooks(doc, start, end, expected_sentence):
# Doc-level sents hook
def user_hook(doc):
return [doc[ii : ii + 2] for ii in range(0, len(doc), 2)]
doc.user_hooks["sents"] = user_hook
# Make sure doc-level sents hook works
assert doc[start:end].sent.text == expected_sentence
# Span-level sent hook
doc.user_span_hooks["sent"] = lambda x: x
# Now, span=level sent hook overrides the doc-level sents hook
assert doc[start:end].sent == doc[start:end]
def test_spans_lca_matrix(en_tokenizer):
"""Test span's lca matrix generation"""
tokens = en_tokenizer("the lazy dog slept")
doc = Doc(
tokens.vocab,
words=[t.text for t in tokens],
heads=[2, 2, 3, 3],
deps=["dep"] * 4,
)
lca = doc[:2].get_lca_matrix()
assert lca.shape == (2, 2)
assert lca[0, 0] == 0 # the & the -> the
assert lca[0, 1] == -1 # the & lazy -> dog (out of span)
assert lca[1, 0] == -1 # lazy & the -> dog (out of span)
assert lca[1, 1] == 1 # lazy & lazy -> lazy
lca = doc[1:].get_lca_matrix()
assert lca.shape == (3, 3)
assert lca[0, 0] == 0 # lazy & lazy -> lazy
assert lca[0, 1] == 1 # lazy & dog -> dog
assert lca[0, 2] == 2 # lazy & slept -> slept
lca = doc[2:].get_lca_matrix()
assert lca.shape == (2, 2)
assert lca[0, 0] == 0 # dog & dog -> dog
assert lca[0, 1] == 1 # dog & slept -> slept
assert lca[1, 0] == 1 # slept & dog -> slept
assert lca[1, 1] == 1 # slept & slept -> slept
# example from Span API docs
tokens = en_tokenizer("I like New York in Autumn")
doc = Doc(
tokens.vocab,
words=[t.text for t in tokens],
heads=[1, 1, 3, 1, 3, 4],
deps=["dep"] * len(tokens),
)
lca = doc[1:4].get_lca_matrix()
assert_array_equal(lca, numpy.asarray([[0, 0, 0], [0, 1, 2], [0, 2, 2]]))
def test_span_similarity_match():
doc = Doc(Vocab(), words=["a", "b", "a", "b"])
span1 = doc[:2]
span2 = doc[2:]
with pytest.warns(UserWarning):
assert span1.similarity(span2) == 1.0
assert span1.similarity(doc) == 0.0
assert span1[:1].similarity(doc.vocab["a"]) == 1.0
def test_spans_default_sentiment(en_tokenizer):
"""Test span.sentiment property's default averaging behaviour"""
text = "good stuff bad stuff"
tokens = en_tokenizer(text)
tokens.vocab[tokens[0].text].sentiment = 3.0
tokens.vocab[tokens[2].text].sentiment = -2.0
doc = Doc(tokens.vocab, words=[t.text for t in tokens])
assert doc[:2].sentiment == 3.0 / 2
assert doc[-2:].sentiment == -2.0 / 2
assert doc[:-1].sentiment == (3.0 + -2) / 3.0
def test_spans_override_sentiment(en_tokenizer):
"""Test span.sentiment property's default averaging behaviour"""
text = "good stuff bad stuff"
tokens = en_tokenizer(text)
tokens.vocab[tokens[0].text].sentiment = 3.0
tokens.vocab[tokens[2].text].sentiment = -2.0
doc = Doc(tokens.vocab, words=[t.text for t in tokens])
doc.user_span_hooks["sentiment"] = lambda span: 10.0
assert doc[:2].sentiment == 10.0
assert doc[-2:].sentiment == 10.0
assert doc[:-1].sentiment == 10.0
def test_spans_are_hashable(en_tokenizer):
"""Test spans can be hashed."""
text = "good stuff bad stuff"
tokens = en_tokenizer(text)
span1 = tokens[:2]
span2 = tokens[2:4]
assert hash(span1) != hash(span2)
span3 = tokens[0:2]
assert hash(span3) == hash(span1)
def test_spans_by_character(doc):
span1 = doc[1:-2]
# default and specified alignment mode "strict"
span2 = doc.char_span(span1.start_char, span1.end_char, label="GPE")
assert span1.start_char == span2.start_char
assert span1.end_char == span2.end_char
assert span2.label_ == "GPE"
span2 = doc.char_span(
span1.start_char, span1.end_char, label="GPE", alignment_mode="strict"
)
assert span1.start_char == span2.start_char
assert span1.end_char == span2.end_char
assert span2.label_ == "GPE"
# alignment mode "contract"
span2 = doc.char_span(
span1.start_char - 3, span1.end_char, label="GPE", alignment_mode="contract"
)
assert span1.start_char == span2.start_char
assert span1.end_char == span2.end_char
assert span2.label_ == "GPE"
# alignment mode "expand"
span2 = doc.char_span(
span1.start_char + 1, span1.end_char, label="GPE", alignment_mode="expand"
)
assert span1.start_char == span2.start_char
assert span1.end_char == span2.end_char
assert span2.label_ == "GPE"
# unsupported alignment mode
with pytest.raises(ValueError):
span2 = doc.char_span(
span1.start_char + 1, span1.end_char, label="GPE", alignment_mode="unk"
)
def test_span_to_array(doc):
span = doc[1:-2]
arr = span.to_array([ORTH, LENGTH])
assert arr.shape == (len(span), 2)
assert arr[0, 0] == span[0].orth
assert arr[0, 1] == len(span[0])
def test_span_as_doc(doc):
span = doc[4:10]
span_doc = span.as_doc()
assert span.text == span_doc.text.strip()
assert isinstance(span_doc, doc.__class__)
assert span_doc is not doc
assert span_doc[0].idx == 0
# partial initial entity is removed
assert len(span_doc.ents) == 0
# full entity is preserved
span_doc = doc[2:10].as_doc()
assert len(span_doc.ents) == 1
# partial final entity is removed
span_doc = doc[0:5].as_doc()
assert len(span_doc.ents) == 0
@pytest.mark.usefixtures("clean_underscore")
def test_span_as_doc_user_data(doc):
"""Test that the user_data can be preserved (but not by default)."""
my_key = "my_info"
my_value = 342
doc.user_data[my_key] = my_value
Token.set_extension("is_x", default=False)
doc[7]._.is_x = True
span = doc[4:10]
span_doc_with = span.as_doc(copy_user_data=True)
span_doc_without = span.as_doc()
assert doc.user_data.get(my_key, None) is my_value
assert span_doc_with.user_data.get(my_key, None) is my_value
assert span_doc_without.user_data.get(my_key, None) is None
for i in range(len(span_doc_with)):
if i != 3:
assert span_doc_with[i]._.is_x is False
else:
assert span_doc_with[i]._.is_x is True
assert not any([t._.is_x for t in span_doc_without])
def test_span_string_label_kb_id(doc):
span = Span(doc, 0, 1, label="hello", kb_id="Q342")
assert span.label_ == "hello"
assert span.label == doc.vocab.strings["hello"]
assert span.kb_id_ == "Q342"
assert span.kb_id == doc.vocab.strings["Q342"]
def test_span_string_label_id(doc):
span = Span(doc, 0, 1, label="hello", span_id="Q342")
assert span.label_ == "hello"
assert span.label == doc.vocab.strings["hello"]
assert span.id_ == "Q342"
assert span.id == doc.vocab.strings["Q342"]
def test_span_attrs_writable(doc):
span = Span(doc, 0, 1)
span.label_ = "label"
span.kb_id_ = "kb_id"
span.id_ = "id"
def test_span_ents_property(doc):
doc.ents = [
(doc.vocab.strings["PRODUCT"], 0, 1),
(doc.vocab.strings["PRODUCT"], 7, 8),
(doc.vocab.strings["PRODUCT"], 11, 14),
]
assert len(list(doc.ents)) == 3
sentences = list(doc.sents)
assert len(sentences) == 3
assert len(sentences[0].ents) == 1
# First sentence, also tests start of sentence
assert sentences[0].ents[0].text == "This"
assert sentences[0].ents[0].label_ == "PRODUCT"
assert sentences[0].ents[0].start == 0
assert sentences[0].ents[0].end == 1
# Second sentence
assert len(sentences[1].ents) == 1
assert sentences[1].ents[0].text == "another"
assert sentences[1].ents[0].label_ == "PRODUCT"
assert sentences[1].ents[0].start == 7
assert sentences[1].ents[0].end == 8
# Third sentence ents, Also tests end of sentence
assert sentences[2].ents[0].text == "a third."
assert sentences[2].ents[0].label_ == "PRODUCT"
assert sentences[2].ents[0].start == 11
assert sentences[2].ents[0].end == 14
def test_filter_spans(doc):
# Test filtering duplicates
spans = [doc[1:4], doc[6:8], doc[1:4], doc[10:14]]
filtered = filter_spans(spans)
assert len(filtered) == 3
assert filtered[0].start == 1 and filtered[0].end == 4
assert filtered[1].start == 6 and filtered[1].end == 8
assert filtered[2].start == 10 and filtered[2].end == 14
# Test filtering overlaps with longest preference
spans = [doc[1:4], doc[1:3], doc[5:10], doc[7:9], doc[1:4]]
filtered = filter_spans(spans)
assert len(filtered) == 2
assert len(filtered[0]) == 3
assert len(filtered[1]) == 5
assert filtered[0].start == 1 and filtered[0].end == 4
assert filtered[1].start == 5 and filtered[1].end == 10
# Test filtering overlaps with earlier preference for identical length
spans = [doc[1:4], doc[2:5], doc[5:10], doc[7:9], doc[1:4]]
filtered = filter_spans(spans)
assert len(filtered) == 2
assert len(filtered[0]) == 3
assert len(filtered[1]) == 5
assert filtered[0].start == 1 and filtered[0].end == 4
assert filtered[1].start == 5 and filtered[1].end == 10
def test_span_eq_hash(doc, doc_not_parsed):
assert doc[0:2] == doc[0:2]
assert doc[0:2] != doc[1:3]
assert doc[0:2] != doc_not_parsed[0:2]
assert hash(doc[0:2]) == hash(doc[0:2])
assert hash(doc[0:2]) != hash(doc[1:3])
assert hash(doc[0:2]) != hash(doc_not_parsed[0:2])
# check that an out-of-bounds is not equivalent to the span of the full doc
assert doc[0 : len(doc)] != doc[len(doc) : len(doc) + 1]
def test_span_boundaries(doc):
start = 1
end = 5
span = doc[start:end]
for i in range(start, end):
assert span[i - start] == doc[i]
with pytest.raises(IndexError):
span[-5]
with pytest.raises(IndexError):
span[5]
empty_span_0 = doc[0:0]
assert empty_span_0.text == ""
assert empty_span_0.start == 0
assert empty_span_0.end == 0
assert empty_span_0.start_char == 0
assert empty_span_0.end_char == 0
empty_span_1 = doc[1:1]
assert empty_span_1.text == ""
assert empty_span_1.start == 1
assert empty_span_1.end == 1
assert empty_span_1.start_char == empty_span_1.end_char
oob_span_start = doc[-len(doc) - 1 : -len(doc) - 10]
assert oob_span_start.text == ""
assert oob_span_start.start == 0
assert oob_span_start.end == 0
assert oob_span_start.start_char == 0
assert oob_span_start.end_char == 0
oob_span_end = doc[len(doc) + 1 : len(doc) + 10]
assert oob_span_end.text == ""
assert oob_span_end.start == len(doc)
assert oob_span_end.end == len(doc)
assert oob_span_end.start_char == len(doc.text)
assert oob_span_end.end_char == len(doc.text)
def test_span_lemma(doc):
# span lemmas should have the same number of spaces as the span
sp = doc[1:5]
assert len(sp.text.split(" ")) == len(sp.lemma_.split(" "))
def test_sent(en_tokenizer):
doc = en_tokenizer("Check span.sent raises error if doc is not sentencized.")
span = doc[1:3]
assert not span.doc.has_annotation("SENT_START")
with pytest.raises(ValueError):
span.sent
def test_span_with_vectors(doc):
ops = get_current_ops()
prev_vectors = doc.vocab.vectors
vectors = [
("apple", ops.asarray([1, 2, 3])),
("orange", ops.asarray([-1, -2, -3])),
("And", ops.asarray([-1, -1, -1])),
("juice", ops.asarray([5, 5, 10])),
("pie", ops.asarray([7, 6.3, 8.9])),
]
add_vecs_to_vocab(doc.vocab, vectors)
# 0-length span
assert_array_equal(ops.to_numpy(doc[0:0].vector), numpy.zeros((3,)))
# longer span with no vector
assert_array_equal(ops.to_numpy(doc[0:4].vector), numpy.zeros((3,)))
# single-token span with vector
assert_array_equal(ops.to_numpy(doc[10:11].vector), [-1, -1, -1])
doc.vocab.vectors = prev_vectors
# fmt: off
def test_span_comparison(doc):
# Identical start, end, only differ in label and kb_id
assert Span(doc, 0, 3) == Span(doc, 0, 3)
assert Span(doc, 0, 3, "LABEL") == Span(doc, 0, 3, "LABEL")
assert Span(doc, 0, 3, "LABEL", kb_id="KB_ID") == Span(doc, 0, 3, "LABEL", kb_id="KB_ID")
assert Span(doc, 0, 3) != Span(doc, 0, 3, "LABEL")
assert Span(doc, 0, 3) != Span(doc, 0, 3, "LABEL", kb_id="KB_ID")
assert Span(doc, 0, 3, "LABEL") != Span(doc, 0, 3, "LABEL", kb_id="KB_ID")
assert Span(doc, 0, 3) <= Span(doc, 0, 3) and Span(doc, 0, 3) >= Span(doc, 0, 3)
assert Span(doc, 0, 3, "LABEL") <= Span(doc, 0, 3, "LABEL") and Span(doc, 0, 3, "LABEL") >= Span(doc, 0, 3, "LABEL")
assert Span(doc, 0, 3, "LABEL", kb_id="KB_ID") <= Span(doc, 0, 3, "LABEL", kb_id="KB_ID")
assert Span(doc, 0, 3, "LABEL", kb_id="KB_ID") >= Span(doc, 0, 3, "LABEL", kb_id="KB_ID")
assert (Span(doc, 0, 3) < Span(doc, 0, 3, "", kb_id="KB_ID") < Span(doc, 0, 3, "LABEL") < Span(doc, 0, 3, "LABEL", kb_id="KB_ID"))
assert (Span(doc, 0, 3) <= Span(doc, 0, 3, "", kb_id="KB_ID") <= Span(doc, 0, 3, "LABEL") <= Span(doc, 0, 3, "LABEL", kb_id="KB_ID"))
assert (Span(doc, 0, 3, "LABEL", kb_id="KB_ID") > Span(doc, 0, 3, "LABEL") > Span(doc, 0, 3, "", kb_id="KB_ID") > Span(doc, 0, 3))
assert (Span(doc, 0, 3, "LABEL", kb_id="KB_ID") >= Span(doc, 0, 3, "LABEL") >= Span(doc, 0, 3, "", kb_id="KB_ID") >= Span(doc, 0, 3))
# Different end
assert Span(doc, 0, 3, "LABEL", kb_id="KB_ID") < Span(doc, 0, 4, "LABEL", kb_id="KB_ID")
assert Span(doc, 0, 3, "LABEL", kb_id="KB_ID") < Span(doc, 0, 4)
assert Span(doc, 0, 3, "LABEL", kb_id="KB_ID") <= Span(doc, 0, 4)
assert Span(doc, 0, 4) > Span(doc, 0, 3, "LABEL", kb_id="KB_ID")
assert Span(doc, 0, 4) >= Span(doc, 0, 3, "LABEL", kb_id="KB_ID")
# Different start
assert Span(doc, 0, 3, "LABEL", kb_id="KB_ID") != Span(doc, 1, 3, "LABEL", kb_id="KB_ID")
assert Span(doc, 0, 3, "LABEL", kb_id="KB_ID") < Span(doc, 1, 3)
assert Span(doc, 0, 3, "LABEL", kb_id="KB_ID") <= Span(doc, 1, 3)
assert Span(doc, 1, 3) > Span(doc, 0, 3, "LABEL", kb_id="KB_ID")
assert Span(doc, 1, 3) >= Span(doc, 0, 3, "LABEL", kb_id="KB_ID")
# Different start & different end
assert Span(doc, 0, 4, "LABEL", kb_id="KB_ID") != Span(doc, 1, 3, "LABEL", kb_id="KB_ID")
assert Span(doc, 0, 4, "LABEL", kb_id="KB_ID") < Span(doc, 1, 3)
assert Span(doc, 0, 4, "LABEL", kb_id="KB_ID") <= Span(doc, 1, 3)
assert Span(doc, 1, 3) > Span(doc, 0, 4, "LABEL", kb_id="KB_ID")
assert Span(doc, 1, 3) >= Span(doc, 0, 4, "LABEL", kb_id="KB_ID")
# Different id
assert Span(doc, 1, 3, span_id="AAA") < Span(doc, 1, 3, span_id="BBB")
# fmt: on
@pytest.mark.parametrize(
"start,end,expected_sentences,expected_sentences_with_hook",
[
(0, 14, 3, 7), # Entire doc
(3, 6, 2, 2), # Overlapping with 2 sentences
(0, 4, 1, 2), # Beginning of the Doc. Full sentence
(0, 3, 1, 2), # Beginning of the Doc. Part of a sentence
(9, 14, 2, 3), # End of the Doc. Overlapping with 2 senteces
(10, 14, 1, 2), # End of the Doc. Full sentence
(11, 14, 1, 2), # End of the Doc. Partial sentence
(0, 0, 1, 1), # Empty Span
],
)
def test_span_sents(doc, start, end, expected_sentences, expected_sentences_with_hook):
assert len(list(doc[start:end].sents)) == expected_sentences
def user_hook(doc):
return [doc[ii : ii + 2] for ii in range(0, len(doc), 2)]
doc.user_hooks["sents"] = user_hook
assert len(list(doc[start:end].sents)) == expected_sentences_with_hook
doc.user_span_hooks["sents"] = lambda x: [x]
assert list(doc[start:end].sents)[0] == doc[start:end]
assert len(list(doc[start:end].sents)) == 1
def test_span_sents_not_parsed(doc_not_parsed):
with pytest.raises(ValueError):
list(Span(doc_not_parsed, 0, 3).sents)
def test_span_group_copy(doc):
doc.spans["test"] = [doc[0:1], doc[2:4]]
assert len(doc.spans["test"]) == 2
doc_copy = doc.copy()
# check that the spans were indeed copied
assert len(doc_copy.spans["test"]) == 2
# add a new span to the original doc
doc.spans["test"].append(doc[3:4])
assert len(doc.spans["test"]) == 3
# check that the copy spans were not modified and this is an isolated doc
assert len(doc_copy.spans["test"]) == 2