def test_update_no_collisions(self):
        """
        Tests the results of different algorithms with parameters chosen so that no hash collision affects results
        """
        width = 2 ** 17
        cardinality = width // 4
        cms = CountMinSketch(width=width, depth=8, log_counting=self.log_counting)
        cms.update(generateData(cardinality))
        expected = Counter()
        expected.update(generateData(cardinality))

        bias, deviation, max_log_error, avg_log_error, max_d_error, max_error_expected = stats(cms, expected)

        self.assertAlmostEqual(
            max_log_error, 0,
            msg="Each result should be within maximum tolerance",
            delta=self.max_log_tolerance)
        self.assertAlmostEqual(
            avg_log_error, 0,
            msg="Average log deviation should be low",
            delta=self.avg_log_tolerance)
        self.assertAlmostEqual(
            bias, 0,
            msg="Total bias should be low",
            delta=self.total_bias_tolerance)
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    def test_update_with_cms(self):
        """
        Update with a dictionary and test against it using set representation
        The log variants are only precise up to 2048 (16), so we don't use larger values here
        """
        data1 = {'a': 1, 'b': 3, 'c': 2, 'd': 5}
        data2 = {'a': 15, 'b': 4, 'c': 6, 'e': 13}
        expected = {'a': 16, 'b': 7, 'c': 8, 'd': 5, 'e': 13}

        self.cms.update(data1)
        cms2 = CountMinSketch(1, log_counting=self.log_counting)
        cms2.update(data2)
        self.cms.update(cms2)

        result_set = set()
        for key, expected_value in expected.items():
            result_set.add((key, self.cms[key]))

        self.assertEqual(set(result_set), set(expected.items()))
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class CountMinSketchUpdateCommonTest(unittest.TestCase):
    def __init__(self, methodName='runTest', log_counting=None):
        self.log_counting = log_counting
        super(CountMinSketchUpdateCommonTest,
              self).__init__(methodName=methodName)

    """
    Functional tests for CountMinSketch.update method, which adds another counter, dictionary, hashtable, tuple or list
    """

    def setUp(self):
        self.cms = CountMinSketch(1, log_counting=self.log_counting)

    def test_update_numbers(self):
        """
        Negative test: calling update using numeric values as parameter yields TypeError
        """
        with self.assertRaises(TypeError):
            self.cms.update(1)

        with self.assertRaises(TypeError):
            self.cms.update(1.0)

    def test_update_string(self):
        self.cms.update("foo")
        self.assertEqual(self.cms['f'], 1)
        self.assertEqual(self.cms['o'], 2)

    def test_update_tuple(self):
        tuple = ('foo', 'bar', 'foo')
        self.cms.update(tuple)
        self.assertEqual(self.cms['foo'], 2)
        self.assertEqual(self.cms['bar'], 1)

    def test_update_bytes(self):
        tuple = (b'foo', b'bar', b'foo')
        self.cms.update(tuple)
        self.assertEqual(self.cms['foo'], 2)
        self.assertEqual(self.cms[b'foo'], 2)
        self.assertEqual(self.cms['bar'], 1)

    def test_update_unicode(self):
        tuple = ('foo', 'bar', u'foo')
        self.cms.update(tuple)
        self.assertEqual(self.cms['foo'], 2)
        self.assertEqual(self.cms[u'foo'], 2)

    def test_update_list(self):
        self.cms.update([str(i % 3) for i in range(5)])
        self.assertEqual(self.cms['0'], 2)
        self.assertEqual(self.cms['1'], 2)
        self.assertEqual(self.cms['2'], 1)

    def test_update_split(self):
        self.cms.update("This is a sentence".split())
        self.assertEqual(self.cms['is'], 1)
        self.assertEqual(self.cms['this'], 0)  # lowercase

    def test_update_twice(self):
        tuple = ('foo', 'bar', 'foo')
        self.cms.update(tuple)
        self.cms.update(('foo', 'bar', 'foo'))
        self.assertEqual(self.cms['foo'], 4)
        self.assertEqual(self.cms['bar'], 2)

    def test_update_with_dictionary(self):
        """
        Update with a dictionary and test against it using set representation
        """
        data = {'a': 1, 'b': 3, 'c': 2, 'd': 5}

        self.cms.update(data)

        self.assertEqual(self.cms['b'], 3)

        result_set = set()
        for key, expected_value in data.items():
            result_set.add((key, self.cms[key]))

        self.assertEqual(set(result_set), set(data.items()))

    def test_update_with_cms(self):
        """
        Update with a dictionary and test against it using set representation
        The log variants are only precise up to 2048 (16), so we don't use larger values here
        """
        data1 = {'a': 1, 'b': 3, 'c': 2, 'd': 5}
        data2 = {'a': 15, 'b': 4, 'c': 6, 'e': 13}
        expected = {'a': 16, 'b': 7, 'c': 8, 'd': 5, 'e': 13}

        self.cms.update(data1)
        cms2 = CountMinSketch(1, log_counting=self.log_counting)
        cms2.update(data2)
        self.cms.update(cms2)

        result_set = set()
        for key, expected_value in expected.items():
            result_set.add((key, self.cms[key]))

        self.assertEqual(set(result_set), set(expected.items()))