Exemple #1
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def ex(x: Union[int, float]) -> float:
    """
    Calculate value of e^x with Taylor series

    :param x: x value
    :return: e^x value
    """
    e_x = 1
    for i in range(1, 10):
        e_x += x**i / factorial_iterative(i)
    return e_x
Exemple #2
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def sinx(x: Union[int, float]) -> float:
    """
    Calculate sin(x) with Taylor series

    :param x: x value
    :return: sin(x) value
    """
    sin_x = x
    for n in range(1, 10):
        sin_x += (-1)**n * x**(2*n+1)/factorial_iterative(2*n+1)
    return sin_x
def sinx(x: Union[int, float]) -> float:
    """
	Calculate sin(x) with Taylor series

	:param x: x value
	:return: sin(x) value
	"""
    if x == 0:
        return 1
    counter = 0
    res = x
    while counter < 50:
        counter += 1
        if not counter % 2:
            e = (x**(2 * counter + 1)) / factorial_iterative(2 * counter + 1)
            res += e
        if counter % 2:
            e = (x**(2 * counter + 1)) / factorial_iterative(2 * counter + 1)
            res -= e
    return res
def ex(x: Union[int, float]) -> float:
    """
	Calculate value of e^x with Taylor series

	:param x: x value
	:return: e^x value
	"""
    if x == 0:
        return 1
    counter = 0
    res = 1
    while counter < 50:
        counter += 1
        e = (x**counter) / factorial_iterative(counter)
        res += e
    return res
Exemple #5
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 def test_fact_iterative(self):
     self.assertEqual(math.factorial(12), fact.factorial_iterative(12), msg="I think there's a mistake :)")
Exemple #6
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 def test_fact_iter_exc(self):
     with self.assertRaises(ValueError, msg="ValueError should be here..."):
         fact.factorial_iterative(-1121)
Exemple #7
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 def test_fact_iter_zero(self):
     self.assertEqual(1,
                      fact.factorial_iterative(0),
                      msg="I think there's a mistake :)")