Пример #1
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def test_sum_series():
    """Verify some simple behaviors of s.sum_series(...)"""
    for i in range(25):
        assert s.sum_series(0, i, i + 1) == i
        assert s.sum_series(1, i + 1000, i) == i
        assert s.sum_series(i, 1, 1) == s.fibonacci(i + 1)
        assert s.sum_series(i, 3, 4) == s.lucas(i + 2)
Пример #2
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def test_sum_series():
    """Verify some simple behaviors of s.sum_series(...)"""
    for i in range(25):
        assert s.sum_series(0, i, i + 1) == i
        assert s.sum_series(1, i + 1000, i) == i
        assert s.sum_series(i, 1, 1) == s.fibonacci(i + 1)
        assert s.sum_series(i, 3, 4) == s.lucas(i + 2)
Пример #3
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def test_sum_series_555():
    """Test sum_series with n of 5, first of 5, second of 5.

    Should return 25
    """
    from series import sum_series
    assert sum_series(5, 5, 5) == 25
Пример #4
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def test_sum_series_102030():
    """Test sum_series with n of 10, first of 20, second of 30.

    Should return 1410
    """
    from series import sum_series
    assert sum_series(10, 20, 30) == 1440
Пример #5
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def test_sum_series_501():
    """Test sum_series with n of 5, first of 0, second of 1.

    Should return 3
    """
    from series import sum_series
    assert sum_series(5, 0, 1) == 3
Пример #6
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def test_sum_series_521():
    """Test sum_series with n of 5, first of 2, second of 1.

    Should return 7
    """
    from series import sum_series
    assert sum_series(5, 2, 1) == 7
Пример #7
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def test_sum_series():
    assert(series.sum_series(0, 10, 20) == 10)
    assert(series.sum_series(1, 10, 20) == 20)
    assert(series.sum_series(2, 10, 20) == 30)
    assert(series.sum_series(3, 10, 20) == 50)
    assert(series.sum_series(4, 10, 20) == 80)
    assert(series.sum_series(5, 10, 20) == 130)
    assert(series.sum_series(6, 10, 20) == 210)
    assert(series.sum_series(7, 10, 20) == 340)
Пример #8
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def test_sum_series():
    assert (series.sum_series(0, 10, 20) == 10)
    assert (series.sum_series(1, 10, 20) == 20)
    assert (series.sum_series(2, 10, 20) == 30)
    assert (series.sum_series(3, 10, 20) == 50)
    assert (series.sum_series(4, 10, 20) == 80)
    assert (series.sum_series(5, 10, 20) == 130)
    assert (series.sum_series(6, 10, 20) == 210)
    assert (series.sum_series(7, 10, 20) == 340)
Пример #9
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def test_fibo_and_sumseries():
    # Fibonacci list of paired inputs and expected outputs.
    fiboInOut = [(0, 0), (1, 1), (2, 1), (3, 2), (4, 3), (5, 5), (6, 8),
                 (7, 13), (8, 21), (9, 34), (10, 55)]
    # Checking actual results with expected results from fiboInOut list
    for n, result in fiboInOut:
        assert fibonacci(n) == result
        assert sum_series(n) == result
Пример #10
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def test_lucas_and_sumseries():
    # Lucas list of paired inputs and expected outputs.
    lucasInOut = [(0, 2), (1, 1), (2, 3), (3, 4), (4, 7), (5, 11), (6, 18),
                  (7, 29), (8, 47), (9, 76), (10, 123)]

    # Checking actual results with expected results from lucasInOut list
    for n, result in lucasInOut:
        assert lucas(n) == result
        assert sum_series(n, 2, 1) == result
Пример #11
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def test_fibonacci():
    u"""
    Ensure the first 12 values returned by fibonacci() equal a known source.
    Also ensures the first 12 values returned by sum_series() with the
    default arguments matches the output.
    """
    for input_, output in fibonacci_vals:
        assert series.fibonacci(input_) == output
        assert series.sum_series(input_) == output
Пример #12
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def test_sum_series():
    # 1 point for passing the four tests below
    assert(series.sum_series(0, 10, 20) == 10)
    assert(series.sum_series(1, 10, 20) == 20)
    assert(series.sum_series(2, 10, 20) == 30)
    assert(series.sum_series(3, 10, 20) == 50)
    # 1 point for passing the four tests below
    assert(series.sum_series(4, 10, 20) == 80)
    assert(series.sum_series(5, 10, 20) == 130)
    assert(series.sum_series(6, 10, 20) == 210)
    assert(series.sum_series(7, 10, 20) == 340)
Пример #13
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def test_sum_series_fib2():
    actual = sum_series(4, 0, 1)
    expected = 2
    assert actual == expected


# def test_sum_series_fib3():
#     actual = sum_series(8, 0, 1)
#     expected = 13
#     assert actual == expected
Пример #14
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def test_lucas_vals():
    u"""
    Ensure the first 12 values returned by lucas() equal a known source.
    Also ensures the first 12 values returned by sum_series() called with
    iniital values equivalent to the first two values in lucas() matches the
    output.
    """
    for input_, output in lucas_vals:
        assert series.lucas(input_) == output
        assert series.sum_series(input_, 2, 1) == output
Пример #15
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def test_bad_inputs():
    u"""
    Verify that fibonacci(), lucas(), and sum_series() catch all inputs that
    are not non-negative integers.
    """
    for badval in [3.14, 'a', []]:
        with pytest.raises(ValueError):
            fibonacci_result = series.fibonacci(badval)
            lucas_result = series.lucas(badval)
            sum_series_result = series.sum_series(badval)
Пример #16
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def test_sum_series():
    # sum_series
    assert sum_series(1) == 1
    assert sum_series(5) == 5
    assert sum_series(6) == 8
    assert sum_series(0, 2, 1) == 2
    assert sum_series(5, 2, 1) == 11
    assert sum_series(5, 3, 4) == 29
Пример #17
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 def test_6(self):
     self.assertEqual(sum_series(2, 2, 1), 3)
Пример #18
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def test_both_n_at_1_4_9():
    actual = sum_series(1, 4, 9)
    expected = 4
    assert actual == expected
Пример #19
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def test_sum_series():
    for i in range(7):
        assert sum_series(i) == fibonacci(i)
        assert sum_series(i, 2, 1) == lucas(i)
Пример #20
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def test_sum_series_is_fib():
    """Verify that s.sum_series(n) without optional arguments is s.fibonacci(n)"""
    for i in range(25):
        assert s.sum_series(i) == s.fibonacci(i)
Пример #21
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def test_sum_series2(n, one, two, result):
    from series import sum_series
    assert sum_series(n, one, two) == result
Пример #22
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def test_sum():
    # Check sum_series function, test list using default (fibonacci) values
    for i in range(1, len(fib_values)+1):
        assert sum_series(i) == fib_values[i-1]
Пример #23
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def test_sum_series(n, result, a, b):
    """Assert nth number in fibonacci series if no optional args."""
    from series import sum_series
    assert sum_series(n, a, b) == result
Пример #24
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def test_sum_series():
    assert (series.sum_series(9) == 34)
    assert (series.sum_series(9, 2, 1) == 76)
    assert (series.sum_series(9, 2, 4) == 178)
Пример #25
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def test_sum_series(args, result):
    from series import sum_series
    assert sum_series(*args) == result
Пример #26
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def test_sum_series_fib_25():
    from series import sum_series
    assert sum_series(25) == 46368
Пример #27
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def test_sum_2_1():
    # Check sum_series function, test list using 2,1 (sum_series) values
    for i in range(1, len(lucas_values)+1):
        assert sum_series(i, 2, 1) == lucas_values[i-1]
Пример #28
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def test_sum_series1(n, result):
    from series import sum_series
    assert sum_series(n) == result
Пример #29
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def test_neg():
    # Check functions with negative n values.
    assert sum_series(-1, 2, 1) is None
    assert fibonacci(-4) is None
    assert lucas(0) is None
Пример #30
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def test_sum_series_lucas(n, result):
    """Test function `sum_series' outputs correct values for the
    Lucas sequence."""
    from series import sum_series
    assert sum_series(n, 2, 1) == result
Пример #31
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def test_both_n_at_1_0_1():
    actual = sum_series(1, 0, 1)
    expected = 0
    assert actual == expected
Пример #32
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def test_sum_series_is_lucas():
    """Verify that s.sum_series(n,2,1) with optional arguments 2, 1 is s.lucas(n)#"""
    for i in range(25):
        assert s.sum_series(i, 2, 1) == s.lucas(i)
Пример #33
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def test_both_n_at_10_0_1():
    actual = sum_series(10, 0, 1)
    expected = 34
    assert actual == expected
Пример #34
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 def test_my_series(self):
     test_vals = (3, 2, 1)
     expected = 4
     actual = sum_series(*test_vals)
     self.assertEquals(expected, actual)
Пример #35
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def test_both_n_at_6_2_1():
    actual = sum_series(6, 2, 1)
    expected = 11
    assert actual == expected
Пример #36
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def test_both_n_at_10_4_9():
    actual = sum_series(10, 4, 9)
    expected = 390
    assert actual == expected
Пример #37
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def test_fibonacci():
    # fibonacci
    assert fibonacci(0) == 0
    assert fibonacci(5) == 5
    assert sum_series(0) == 0
Пример #38
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def test_both_n_at_6_0_1():
    actual = sum_series(6, 0, 1)
    expected = 5
    assert actual == expected
Пример #39
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def test_sum(n, x, y, result):
    from series import sum_series
    assert sum_series(n, x, y) == result
Пример #40
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def test_both_n_at_1_2_1():
    actual = sum_series(1, 2, 1)
    expected = 2
    assert actual == expected
Пример #41
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def test_sum_series_other_5():
    from series import sum_series
    assert sum_series(5, 5, 3) == 19
Пример #42
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def test_both_n_at_10_2_1():
    actual = sum_series(10, 2, 1)
    expected = 76
    assert actual == expected
Пример #43
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def test_sum_series_luc_1():
    from series import sum_series
    assert sum_series(1, 2, 1) == 2
Пример #44
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 def test_5(self):
     self.assertEqual(sum_series(3), 2)
Пример #45
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def test_sum_series_fib_2():
    from series import sum_series
    assert sum_series(2) == 1
Пример #46
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def test_sum_series_other_3():
    from series import sum_series
    assert sum_series(3, 5, 3) == 8
Пример #47
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def test_sum_series_other_2():
    from series import sum_series
    assert sum_series(2, 5, 3) == 3
Пример #48
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def test_sum_series_luc_25():
    from series import sum_series
    assert sum_series(25, 2, 1) == 103682
Пример #49
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def test_sum_series_luc_3():
    from series import sum_series
    assert sum_series(3, 2, 1) == 3
Пример #50
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def test_sum_series_fib_1():
    from series import sum_series
    assert sum_series(1) == 0
Пример #51
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def test_sum_series(n, val1, val2, result):
    """Test sum_series function against Lucas, Fibonacci and custom values."""
    from series import sum_series
    assert sum_series(n, val1, val2) == result
Пример #52
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def test_sum_series_other_1():
    from series import sum_series
    assert sum_series(1, 5, 3) == 5
Пример #53
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def test_sum_series(case, x, y, result):
    """Test the sum of a series given it's 1st and 2nd cases."""
    from series import sum_series
    assert sum_series(case, x, y) == result
Пример #54
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def test_sum_series_luc_2():
    from series import sum_series
    assert sum_series(2, 2, 1) == 1
Пример #55
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def test_sum_series(n, first, second, result):
    import series
    assert series.sum_series(n, first, second) == result
Пример #56
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def test_sum_series_fib_3():
    from series import sum_series
    assert sum_series(3) == 1
Пример #57
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def test_sum_series_partial_2(n, result):
    import series
    assert series.sum_series(n, 2) == result
Пример #58
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def test_sum_series(n, num1, num2, result):
    """Test sum_series method to see which series is selected."""
    from series import sum_series
    assert sum_series(n, num1, num2) == result
Пример #59
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def test_sum_series_fibonacci(n, result):
    """Test function `sum_series' outputs correct values for the
    Fibonacci sequence (i.e., the case where optional parameters are
    not supplied)."""
    from series import sum_series
    assert sum_series(n) == result