import numpy import tempfile import shutil import contextlib import srsly from pathlib import Path from spacy import Errors from spacy.tokens import Doc, Span from spacy.attrs import POS, TAG, HEAD, DEP, LEMMA @contextlib.contextmanager def make_tempfile(mode="r"): f = tempfile.TemporaryFile(mode=mode) yield f f.close() @contextlib.contextmanager def make_tempdir(): d = Path(tempfile.mkdtemp()) yield d shutil.rmtree(str(d)) def get_doc( vocab, words=[], pos=None, heads=None, deps=None, tags=None, ents=None, lemmas=None ): """Create Doc object from given vocab, words and annotations.""" if deps and not heads: heads = [0] * len(deps) headings = [] values = [] annotations = [pos, heads, deps, lemmas, tags] possible_headings = [POS, HEAD, DEP, LEMMA, TAG] for a, annot in enumerate(annotations): if annot is not None: if len(annot) != len(words): raise ValueError(Errors.E189) headings.append(possible_headings[a]) if annot is not heads: values.extend(annot) for value in values: vocab.strings.add(value) doc = Doc(vocab, words=words) # if there are any other annotations, set them if headings: attrs = doc.to_array(headings) j = 0 for annot in annotations: if annot: if annot is heads: for i in range(len(words)): if attrs.ndim == 1: attrs[i] = heads[i] else: attrs[i, j] = heads[i] else: for i in range(len(words)): if attrs.ndim == 1: attrs[i] = doc.vocab.strings[annot[i]] else: attrs[i, j] = doc.vocab.strings[annot[i]] j += 1 doc.from_array(headings, attrs) # finally, set the entities if ents: doc.ents = [ Span(doc, start, end, label=doc.vocab.strings[label]) for start, end, label in ents ] return doc def apply_transition_sequence(parser, doc, sequence): """Perform a series of pre-specified transitions, to put the parser in a desired state.""" for action_name in sequence: if "-" in action_name: move, label = action_name.split("-") parser.add_label(label) with parser.step_through(doc) as stepwise: for transition in sequence: stepwise.transition(transition) def add_vecs_to_vocab(vocab, vectors): """Add list of vector tuples to given vocab. All vectors need to have the same length. Format: [("text", [1, 2, 3])]""" length = len(vectors[0][1]) vocab.reset_vectors(width=length) for word, vec in vectors: vocab.set_vector(word, vector=vec) return vocab def get_cosine(vec1, vec2): """Get cosine for two given vectors""" return numpy.dot(vec1, vec2) / (numpy.linalg.norm(vec1) * numpy.linalg.norm(vec2)) def assert_docs_equal(doc1, doc2): """Compare two Doc objects and assert that they're equal. Tests for tokens, tags, dependencies and entities.""" assert [t.orth for t in doc1] == [t.orth for t in doc2] assert [t.pos for t in doc1] == [t.pos for t in doc2] assert [t.tag for t in doc1] == [t.tag for t in doc2] assert [t.head.i for t in doc1] == [t.head.i for t in doc2] assert [t.dep for t in doc1] == [t.dep for t in doc2] assert [t.is_sent_start for t in doc1] == [t.is_sent_start for t in doc2] assert [t.ent_type for t in doc1] == [t.ent_type for t in doc2] assert [t.ent_iob for t in doc1] == [t.ent_iob for t in doc2] for ent1, ent2 in zip(doc1.ents, doc2.ents): assert ent1.start == ent2.start assert ent1.end == ent2.end assert ent1.label == ent2.label assert ent1.kb_id == ent2.kb_id def assert_packed_msg_equal(b1, b2): """Assert that two packed msgpack messages are equal.""" msg1 = srsly.msgpack_loads(b1) msg2 = srsly.msgpack_loads(b2) assert sorted(msg1.keys()) == sorted(msg2.keys()) for (k1, v1), (k2, v2) in zip(sorted(msg1.items()), sorted(msg2.items())): assert k1 == k2 assert v1 == v2