# coding: utf-8 from __future__ import unicode_literals from ...vectors import Vectors from ...tokenizer import Tokenizer from ...strings import hash_string from ..util import add_vecs_to_vocab, get_doc import numpy import pytest @pytest.fixture def strings(): return ["apple", "orange"] @pytest.fixture def vectors(): return [ ("apple", [1, 2, 3]), ("orange", [-1, -2, -3]), ('and', [-1, -1, -1]), ('juice', [5, 5, 10]), ('pie', [7, 6.3, 8.9])] @pytest.fixture def data(): return numpy.asarray([[0.0, 1.0, 2.0], [3.0, -2.0, 4.0]], dtype='f') @pytest.fixture def resize_data(): return numpy.asarray([[0.0, 1.0], [2.0, 3.0]], dtype='f') @pytest.fixture() def vocab(en_vocab, vectors): add_vecs_to_vocab(en_vocab, vectors) return en_vocab def test_init_vectors_with_resize_shape(strings,resize_data): v = Vectors(shape=(len(strings), 3)) v.resize(shape=resize_data.shape) assert v.shape == resize_data.shape assert v.shape != (len(strings), 3) def test_init_vectors_with_resize_data(data,resize_data): v = Vectors(data=data) v.resize(shape=resize_data.shape) assert v.shape == resize_data.shape assert v.shape != data.shape def test_get_vector_resize(strings, data,resize_data): v = Vectors(data=data) v.resize(shape=resize_data.shape) strings = [hash_string(s) for s in strings] for i, string in enumerate(strings): v.add(string, row=i) assert list(v[strings[0]]) == list(resize_data[0]) assert list(v[strings[0]]) != list(resize_data[1]) assert list(v[strings[1]]) != list(resize_data[0]) assert list(v[strings[1]]) == list(resize_data[1]) def test_init_vectors_with_data(strings, data): v = Vectors(data=data) assert v.shape == data.shape def test_init_vectors_with_shape(strings): v = Vectors(shape=(len(strings), 3)) assert v.shape == (len(strings), 3) def test_get_vector(strings, data): v = Vectors(data=data) strings = [hash_string(s) for s in strings] for i, string in enumerate(strings): v.add(string, row=i) assert list(v[strings[0]]) == list(data[0]) assert list(v[strings[0]]) != list(data[1]) assert list(v[strings[1]]) != list(data[0]) def test_set_vector(strings, data): orig = data.copy() v = Vectors(data=data) strings = [hash_string(s) for s in strings] for i, string in enumerate(strings): v.add(string, row=i) assert list(v[strings[0]]) == list(orig[0]) assert list(v[strings[0]]) != list(orig[1]) v[strings[0]] = data[1] assert list(v[strings[0]]) == list(orig[1]) assert list(v[strings[0]]) != list(orig[0]) @pytest.fixture() def tokenizer_v(vocab): return Tokenizer(vocab, {}, None, None, None) @pytest.mark.parametrize('text', ["apple and orange"]) def test_vectors_token_vector(tokenizer_v, vectors, text): doc = tokenizer_v(text) assert vectors[0] == (doc[0].text, list(doc[0].vector)) assert vectors[1] == (doc[2].text, list(doc[2].vector)) @pytest.mark.parametrize('text', ["apple", "orange"]) def test_vectors_lexeme_vector(vocab, text): lex = vocab[text] assert list(lex.vector) assert lex.vector_norm @pytest.mark.parametrize('text', [["apple", "and", "orange"]]) def test_vectors_doc_vector(vocab, text): doc = get_doc(vocab, text) assert list(doc.vector) assert doc.vector_norm @pytest.mark.parametrize('text', [["apple", "and", "orange"]]) def test_vectors_span_vector(vocab, text): span = get_doc(vocab, text)[0:2] assert list(span.vector) assert span.vector_norm @pytest.mark.parametrize('text', ["apple orange"]) def test_vectors_token_token_similarity(tokenizer_v, text): doc = tokenizer_v(text) assert doc[0].similarity(doc[1]) == doc[1].similarity(doc[0]) assert -1. < doc[0].similarity(doc[1]) < 1.0 @pytest.mark.parametrize('text1,text2', [("apple", "orange")]) def test_vectors_token_lexeme_similarity(tokenizer_v, vocab, text1, text2): token = tokenizer_v(text1) lex = vocab[text2] assert token.similarity(lex) == lex.similarity(token) assert -1. < token.similarity(lex) < 1.0 @pytest.mark.parametrize('text', [["apple", "orange", "juice"]]) def test_vectors_token_span_similarity(vocab, text): doc = get_doc(vocab, text) assert doc[0].similarity(doc[1:3]) == doc[1:3].similarity(doc[0]) assert -1. < doc[0].similarity(doc[1:3]) < 1.0 @pytest.mark.parametrize('text', [["apple", "orange", "juice"]]) def test_vectors_token_doc_similarity(vocab, text): doc = get_doc(vocab, text) assert doc[0].similarity(doc) == doc.similarity(doc[0]) assert -1. < doc[0].similarity(doc) < 1.0 @pytest.mark.parametrize('text', [["apple", "orange", "juice"]]) def test_vectors_lexeme_span_similarity(vocab, text): doc = get_doc(vocab, text) lex = vocab[text[0]] assert lex.similarity(doc[1:3]) == doc[1:3].similarity(lex) assert -1. < doc.similarity(doc[1:3]) < 1.0 @pytest.mark.parametrize('text1,text2', [("apple", "orange")]) def test_vectors_lexeme_lexeme_similarity(vocab, text1, text2): lex1 = vocab[text1] lex2 = vocab[text2] assert lex1.similarity(lex2) == lex2.similarity(lex1) assert -1. < lex1.similarity(lex2) < 1.0 @pytest.mark.parametrize('text', [["apple", "orange", "juice"]]) def test_vectors_lexeme_doc_similarity(vocab, text): doc = get_doc(vocab, text) lex = vocab[text[0]] assert lex.similarity(doc) == doc.similarity(lex) assert -1. < lex.similarity(doc) < 1.0 @pytest.mark.parametrize('text', [["apple", "orange", "juice"]]) def test_vectors_span_span_similarity(vocab, text): doc = get_doc(vocab, text) assert doc[0:2].similarity(doc[1:3]) == doc[1:3].similarity(doc[0:2]) assert -1. < doc[0:2].similarity(doc[1:3]) < 1.0 @pytest.mark.parametrize('text', [["apple", "orange", "juice"]]) def test_vectors_span_doc_similarity(vocab, text): doc = get_doc(vocab, text) assert doc[0:2].similarity(doc) == doc.similarity(doc[0:2]) assert -1. < doc[0:2].similarity(doc) < 1.0 @pytest.mark.parametrize('text1,text2', [ (["apple", "and", "apple", "pie"], ["orange", "juice"])]) def test_vectors_doc_doc_similarity(vocab, text1, text2): doc1 = get_doc(vocab, text1) doc2 = get_doc(vocab, text2) assert doc1.similarity(doc2) == doc2.similarity(doc1) assert -1. < doc1.similarity(doc2) < 1.0