Exemplo n.º 1
0
    def test_get_correct_words(self):
        args = [
            '-w', 'first', 'second', '-f', 'frequency', '-s', 'source', '-clr'
        ]
        configurator = Configurator(args)

        # -w flag should cover the -s flag
        self.assertEqual(configurator.get_words(), ['first', 'second'])
Exemplo n.º 2
0
    def build(configurator: cfg.Configurator):
        analyzer = WordAnalyzer()
        analyzer.words = configurator.get_words(verbose=True)
        analyzer.frequency_words = configurator.get_frequency_words(
            verbose=True)
        analyzer.splitter = TextSplitter(analyzer.frequency_words)
        analyzer.tree = configurator.get_tree()
        analyzer.mode = configurator.get_mode()
        analyzer.verbose = configurator.get_verbose()

        # This flag specifies that's need add extra information with a word when analyzing words
        analyzer.verbose_file = False

        # If the word isn't in the dictionary, then its cost is default_cost
        analyzer.default_cost = 1000

        # How many similar words will be returned by get_similar_words method
        analyzer.number_similar_words = configurator.get_configuration_values(
        )['similar_words']
        # What distance will be used to search for similar words
        analyzer.distance = configurator.get_configuration_values()['distance']
        # How many parts will be spliced in the get_correct_words method
        analyzer.threshold = configurator.get_configuration_values(
        )['threshold']
        # How many words will be returned by get_correct_words method
        analyzer.number_of_corrected_words = configurator.get_configuration_values(
        )['number_corrected']

        analyzer.max_len = max(len(x) for x in analyzer.words)
        # Define dictionary with values like (number: list_of_divisors).
        # There are defined all numbers from 1 to max length of all words.
        # It's necessary to improve efficiency, because divisors won't calculated again for same number
        analyzer.divisors = dict((number, factorize(number))
                                 for number in range(1, analyzer.max_len + 1))

        return analyzer
Exemplo n.º 3
0
class ConfiguratorTest(unittest.TestCase):
    def setUp(self):
        self.args = ['-s', 'source', '-f', 'frequency', '-clr']
        self.args_tree = self.args + ['-t', 'tree']
        self.source_file = 'source'
        self.tree_file = 'tree'
        self.frequency_file = 'frequency'
        self.configurator = Configurator(self.args)

        with open(self.source_file, 'w') as self.source:
            self.source.write('teststring')
        with open(self.frequency_file, 'w') as self.frequency:
            self.frequency.write('teststring')

    def tearDown(self):
        os.remove(self.source_file)
        os.remove(self.frequency_file)

        if os.path.isfile(self.tree_file):
            os.remove(self.tree_file)

    @unittest.mock.patch("sys.stderr", new_callable=io.StringIO)
    def test_empty_input_words(self, error):
        args = []
        with self.assertRaises(SystemExit):
            configurator = Configurator(args)

        # Check that this error is what we expected
        self.assertTrue("No action requested, add -s/--source or -w/--words" in
                        error.getvalue())

    @unittest.mock.patch("sys.stderr", new_callable=io.StringIO)
    def test_empty_frequency_words(self, error):
        args = ['-w' 'word']
        with self.assertRaises(SystemExit):
            configurator = Configurator(args)

        # Check that this error is what we expected
        self.assertTrue(
            "you must specify a file containing a list of frequency words" in
            error.getvalue())

    @unittest.mock.patch("sys.stderr", new_callable=io.StringIO)
    def test_no_mode_specified(self, error):
        args = ['-w' 'word', '-f', 'frequency']
        with self.assertRaises(SystemExit):
            configurator = Configurator(args)

        self.assertTrue(
            'No mode specified, add -correct/--correct or(and) -cost/--total-cost or(and) '
            '-clr/--clear-word or(and) -basic/--base-words' in
            error.getvalue())

    def test_default_values(self):
        args = [
            '-w', 'first', 'second', '-f', 'frequency', '-clr', '-cost',
            'cost.txt', '-correct', '-basic', 'base.txt'
        ]
        configurator = Configurator(args)
        parameters = configurator._get_parameters(args)

        # These parameters have no default value
        self.assertIsNone(parameters.count)
        self.assertIsNone(parameters.tree)
        self.assertIsNone(parameters.source)

        # These parameters are flags and are false by default
        self.assertFalse(parameters.verbose)

        # This are specified modes
        self.assertEqual(parameters.clear_word, 'STDOUT')
        self.assertEqual(parameters.total_cost, 'cost.txt')
        self.assertEqual(parameters.correct, 'STDOUT')
        self.assertEqual(parameters.base_words, 'base.txt')

        # These parameters have a default value
        self.assertEqual(parameters.encoding, 'utf-8')
        self.assertEqual(parameters.number_corrected, 2)
        self.assertEqual(parameters.threshold, 2)
        self.assertEqual(parameters.distance, 1)
        self.assertEqual(parameters.similar_words, 4)

    def test_input_words(self):
        args = ['-w', 'first', 'second', '-f', 'frequency', '-correct']
        parameters = Configurator(args)._parameters

        self.assertEqual(parameters.words, ['first', 'second'])
        self.assertEqual(parameters.frequency, 'frequency')
        self.assertEqual(parameters.correct, 'STDOUT')

    def test_get_correct_words(self):
        args = [
            '-w', 'first', 'second', '-f', 'frequency', '-s', 'source', '-clr'
        ]
        configurator = Configurator(args)

        # -w flag should cover the -s flag
        self.assertEqual(configurator.get_words(), ['first', 'second'])

    @unittest.mock.patch('sys.stderr', new_callable=io.StringIO)
    def test_get_frequency_words_wrong(self, error):
        args = ['-s' 'source', '-f' 'test', '-clr']
        with self.assertRaises(SystemExit):
            Configurator(args).get_frequency_words()
        self.assertEqual(error.getvalue(),
                         f"Error: this file: \"{'test'}\" doesn't exist!\n")

    @unittest.mock.patch('sys.stdout', open(os.devnull, 'w'))
    def test_get_frequency_words_correct(self):
        self.assertEqual(self.configurator.get_frequency_words(),
                         ['teststring'])

    @unittest.mock.patch('sys.stderr', new_callable=io.StringIO)
    def test_get_words_sourcefile_wrong(self, error):
        args = ['-s' 'test', '-f' 'test', '-basic']
        with self.assertRaises(SystemExit):
            Configurator(args).get_words()
        self.assertEqual(error.getvalue(),
                         f"Error: this file: \"{'test'}\" doesn't exist!\n")

    @unittest.mock.patch('sys.stdout', open(os.devnull, 'w'))
    def test_get_words_sourcefile_correct(self):
        self.assertEqual(self.configurator.get_words(), ['teststring'])

    @unittest.mock.patch("sys.stdout", new_callable=io.StringIO)
    def test_get_tree_without_filename(self, output):
        configurator = Configurator(self.args)
        tree = configurator.get_tree()

        output_msg = output.getvalue()
        self.assertEqual(
            output_msg, "The bk-tree is building...\n"
            "The bk-tree built successfully\n")
        self.assertEqual(
            tree.tree,
            BKTree(distance, configurator.get_frequency_words()).tree)

    @unittest.mock.patch("sys.stdout", new_callable=io.StringIO)
    def test_get_tree_without_existing_file_correct_tree(self, output):
        configurator = Configurator(self.args_tree)
        tree = configurator.get_tree()

        output_msg = output.getvalue()
        self.assertEqual(
            output_msg, "The bk-tree is building...\n"
            "The bk-tree built successfully\n"
            f"The bk-tree is saving to {self.tree_file}...\n"
            "The bk-tree saved successfully\n")

        self.assertTrue(os.path.isfile(self.tree_file))
        self.assertEqual(
            BKTree(distance, configurator.get_frequency_words()).tree,
            tree.tree)
        self.assertNotEqual(BKTree(distance, ['abcdrasdsf']).tree, tree.tree)

    @unittest.mock.patch("sys.stderr", new_callable=io.StringIO)
    @unittest.mock.patch("sys.stdout", new_callable=io.StringIO)
    def test_get_tree_with_existing_empty_file(self, output, err):
        configurator = Configurator(self.args_tree)
        file = open(self.tree_file, 'w').close()
        tree = configurator.get_tree()

        output = output.getvalue()
        err = err.getvalue()
        self.assertEqual(
            output, f"The bk-tree is loading from {self.tree_file}...\n"
            "The bk-tree is building...\n"
            "The bk-tree built successfully\n")
        self.assertEqual(
            err,
            "Error: The bk-tree file you specified is empty and can't be loaded\n"
        )
        self.assertEqual(
            BKTree(distance, configurator.get_frequency_words()).tree,
            tree.tree)
        self.assertNotEqual(BKTree(distance, ['abcdrasdsf']).tree, tree.tree)

    @unittest.mock.patch("sys.stderr", new_callable=io.StringIO)
    @unittest.mock.patch("sys.stdout", new_callable=io.StringIO)
    def test_get_tree_with_existing_not_unpickling_file(self, output, err):
        configurator = Configurator(self.args_tree)
        with open(self.tree_file, 'w') as file:
            file.write("teststring")
        tree = configurator.get_tree()

        output = output.getvalue()
        err = err.getvalue()
        self.assertEqual(
            output, f"The bk-tree is loading from {self.tree_file}...\n"
            "The bk-tree is building...\n"
            "The bk-tree built successfully\n")
        self.assertEqual(
            err,
            "Error: This file of the bk-tree structure doesn't contain any bk-tree structure actually\n"
        )
        self.assertEqual(
            BKTree(distance, configurator.get_frequency_words()).tree,
            tree.tree)
        self.assertNotEqual(BKTree(distance, ['abcdrasdsf']).tree, tree.tree)

    @unittest.mock.patch("sys.stderr", new_callable=io.StringIO)
    @unittest.mock.patch("sys.stdout", new_callable=io.StringIO)
    def test_get_tree_with_existing_wrong_pickling_file(self, output, err):
        configurator = Configurator(self.args_tree)
        with open(self.tree_file, 'wb') as file:
            pickle.dump("teststring", file)
        tree = configurator.get_tree()

        output = output.getvalue()
        err = err.getvalue()
        self.assertEqual(
            output, f"The bk-tree is loading from {self.tree_file}...\n"
            "The bk-tree is building...\n"
            "The bk-tree built successfully\n")
        self.assertEqual(
            err,
            "Error: You're trying to load from the file not a BK-tree object\n"
        )
        self.assertEqual(
            BKTree(distance, configurator.get_frequency_words()).tree,
            tree.tree)
        self.assertNotEqual(BKTree(distance, ['abcdrasdsf']).tree, tree.tree)

    @unittest.mock.patch("sys.stdout", new_callable=io.StringIO)
    def test_get_tree_correct_load(self, output):
        configurator = Configurator(self.args_tree)
        tree1 = bk.BuildBKTree.build_tree(["teststring"])
        with open(self.tree_file, 'wb') as file:
            pickle.dump(tree1, file)

        tree2 = configurator.get_tree()

        output = output.getvalue()
        self.assertEqual(
            output, f"The bk-tree is loading from {self.tree_file}...\n"
            "The bk-tree loaded successfully\n")

        self.assertEqual(tree1.tree, tree2.tree)
        self.assertNotEqual(BKTree(distance, ['abcdrasdsf']).tree, tree1.tree)

    def test_get_configuration_values(self):
        values = self.configurator.get_configuration_values()
        self.assertEqual(values['similar_words'], 4)
        self.assertEqual(values['distance'], 1)
        self.assertEqual(values['threshold'], 2)
        self.assertEqual(values['number_corrected'], 2)

    def test_get_mode(self):
        args = [
            '-w', 'word', '-f', 'frequency', '-clr', '-cost', 'cost.txt',
            '-basic'
        ]
        configurator = Configurator(args)
        mode = configurator.get_mode()

        self.assertEqual(mode.get(cfg.MODE_CLEAR), 'STDOUT')
        self.assertEqual(mode.get(cfg.MODE_COST), 'cost.txt')
        self.assertEqual(mode.get(cfg.MODE_BASIC), 'STDOUT')
        self.assertIsNone(mode.get(cfg.MODE_CORRECT))