def test_sample_ranking_with_no_exceptions(self):
     """
     Test if ranking is built without any exception.
     """
     sample1 = Indexable(1, "this is an indexable metadata")
     sample2 = Indexable(2, "this is an indexable super metadata")
     sample3 = Indexable(3, "this is another indexable metadata")
     self.rank.build_rank([sample1, sample2, sample3])
Esempio n. 2
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 def __init__(self,
              docid,
              indexable_data,
              original_data,
              highlighted_data=None):
     Indexable.__init__(self, docid, indexable_data)
     self.original_data = original_data
     self.highlighted_data = highlighted_data
    def test_sample_indexing_and_validate_items(self):
        sample1 = Indexable(1, "this is an indexable metadata")
        sample2 = Indexable(2, "this is an indexable super metadata")
        sample3 = Indexable(3, "this is another indexable metadata")

        self.index.build_index([sample1, sample2, sample3])

        expected_term_index = defaultdict(int)
        expected_term_index['indexable'] = [0, 1, 2]

        self.assertItemsEqual(self.index.term_index['indexable'], expected_term_index['indexable'])
    def test_one_term_search(self):
        """
        Test if the search for one term returns expected results.
        """
        sample1 = Indexable(1, "this is an indexable metadata")
        sample2 = Indexable(2, "this is an indexable super metadata")
        sample3 = Indexable(3, "this is another indexable super metadata")

        expected_indices = [1, 2]

        self.index.build_index([sample1, sample2, sample3])
        search_results = self.index.search_terms(["super"])

        self.assertItemsEqual(search_results, expected_indices)
    def test_mixed_valid_invalid_term_search(self):
        """
        Test if the search returns when there are valid and invalid terms mixed.
        """
        sample1 = Indexable(1, "this is an indexable simple metadata")
        sample2 = Indexable(2, "this is an indexable super metadata")
        sample3 = Indexable(3, "this is another indexable metadata")

        expected_indices = []

        self.index.build_index([sample1, sample2, sample3])
        search_results = self.index.search_terms(["not_valid_term", "super"])

        self.assertItemsEqual(search_results, expected_indices)
    def test_three_terms_search_with_stop_words(self):
        """
        Test if the search for stop words returns expected results.
        """
        sample1 = Indexable(1, "this is an indexable simple metadata")
        sample2 = Indexable(2, "this is an indexable super metadata")
        sample3 = Indexable(3, "this is another indexable super metadata")

        expected_indices = [0, 1, 2]

        self.index.build_index([sample1, sample2, sample3])
        search_results = self.index.search_terms(["this", "is", "metadata"])

        self.assertItemsEqual(search_results, expected_indices)        
    def test_stop_word_search(self):
        """
        Test if stop words are correctly ignored.
        """
        sample1 = Indexable(1, "this is an indexable metadata")
        sample2 = Indexable(2, "this is an indexable super metadata")
        sample3 = Indexable(3, "this is another indexable super metadata")

        expected_indices = []

        self.index.build_index([sample1, sample2, sample3])
        search_results = self.index.search_terms(["this"])

        self.assertItemsEqual(search_results, expected_indices)
    def test_doc_frequency_matrix_with_sample2(self):
        """
        Test if document frequency matrix is correctly built.
        """
        sample1 = Indexable(1, "the sky is blue")
        sample2 = Indexable(2, "the sun is bright")
        self.rank.build_rank([sample1, sample2])

        expected_vocab_indices = {'blue': 0, 'sun': 2, 'bright': 3, 'sky': 1}

        expected_tf = np.array([[1, 1, 0, 0], [0, 0, 1, 1]])

        self.assertEqual(self.rank.vocabulary, expected_vocab_indices)
        np.testing.assert_array_equal(self.rank.ft_matrix.todense(),
                                      expected_tf)
    def test_doc_inverse_term_frequency_vector2(self):
        """
        Test if document inverse term frequency vector is correctly built.
        """
        sample1 = Indexable(1, "the sky is blue")
        sample2 = Indexable(2, "the sun is bright")
        self.rank.build_rank([sample1, sample2])

        expected_idf = [1.40546511, 1.40546511, 1.40546511, 1.40546511]
        expected_tf_idf = [[0.70710678, 0.70710678, 0, 0],
                           [0, 0, 0.70710678, 0.70710678]]

        np.testing.assert_almost_equal(self.rank.ifd_diag_matrix.diagonal(),
                                       expected_idf, 4)

        np.testing.assert_almost_equal(self.rank.tf_idf_matrix.todense(),
                                       expected_tf_idf, 4)
Esempio n. 10
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 def __init__(self,
              docid,
              indexable_data,
              original_data,
              url,
              user_id,
              time_of_visit,
              relevance,
              keywords,
              highlighted_data=None):
     Indexable.__init__(self, docid, indexable_data)
     self.original_data = original_data
     self.highlighted_data = highlighted_data
     self.url = url
     self.user_id = user_id
     self.time_of_visit = time_of_visit
     self.relevance = relevance
     self.keywords = keywords
Esempio n. 11
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    def test_doc_inverse_term_frequency_vector1(self):
        """
        Test if document inverse term frequency vector is correctly built.
        """
        sample1 = Indexable(1, "this is an indexable metadata")
        sample2 = Indexable(2, "this is an indexable super metadata")
        sample3 = Indexable(3, "this is another indexable metadata")
        self.rank.build_rank([sample1, sample2, sample3])

        expected_idf = [1., 1., 1.28768207, 1.69314718, 1.69314718]
        expected_tf_idf = [[0.52284231, 0.52284231, 0.67325467, 0, 0],
                           [0.39148397, 0.39148397, 0.50410689, 0.66283998, 0],
                           [0.45329466, 0.45329466, 0, 0, 0.76749457]]

        np.testing.assert_almost_equal(self.rank.ifd_diag_matrix.diagonal(),
                                       expected_idf, 4)

        np.testing.assert_almost_equal(self.rank.tf_idf_matrix.todense(),
                                       expected_tf_idf, 4)
Esempio n. 12
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    def test_score_computation(self):
        """
        Test if document score is correctly calculated.
        """
        sample1 = Indexable(1, "the sky is blue")
        self.rank.build_rank([sample1])

        np.testing.assert_almost_equal(self.rank.compute_rank(0, ["blue"]),
                                       0.707106, 5)
        np.testing.assert_almost_equal(self.rank.compute_rank(0, ["sky"]),
                                       0.7071067, 5)
        np.testing.assert_almost_equal(
            self.rank.compute_rank(0, ["blue", "sky"]), 1.414213, 5)
Esempio n. 13
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    def test_doc_frequency_matrix_with_sample1(self):
        """
        Test if document frequency matrix is correctly built.
        """
        sample1 = Indexable(1, "this is an indexable metadata")
        sample2 = Indexable(2, "this is an indexable super metadata")
        sample3 = Indexable(3, "this is another indexable metadata")
        self.rank.build_rank([sample1, sample2, sample3])

        expected_vocab_indices = {
            'an': 2,
            'super': 3,
            'indexable': 1,
            'metadata': 0,
            'another': 4
        }

        expected_tf = np.array([[1, 1, 1, 0, 0], [1, 1, 1, 1, 0],
                                [1, 1, 0, 0, 1]])

        self.assertEqual(self.rank.vocabulary, expected_vocab_indices)
        np.testing.assert_array_equal(self.rank.ft_matrix.todense(),
                                      expected_tf)
    def test_sample_index_words_count(self):
        sample = Indexable(1, "this is an indexable metadata, that is an indexable super metadata")

        expected_words_count = defaultdict(int)
        expected_words_count['this'] = 1
        expected_words_count['that'] = 1
        expected_words_count['super'] = 1
        expected_words_count['is'] = 2
        expected_words_count['metadata,'] = 1 # Exact terms are not yet processed.
        expected_words_count['metadata'] = 1
        expected_words_count['indexable'] = 2
        expected_words_count['an'] = 2

        self.assertItemsEqual(sample.words_count, expected_words_count)
Esempio n. 15
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 def __init__(self, docid, indexable_data, original_data, highlighted_data = None):
     Indexable.__init__(self, docid, indexable_data)
     self.original_data = original_data
     self.highlighted_data = highlighted_data