Beispiel #1
0
def test_simpleFunc9():
    func14_val = lambda x: np.sin(x) / (3 - 2 * np.cos(x))
    func14_der = lambda x: (-2 + 3 * np.cos(x)) / (3 - 2 * np.cos(x))**2

    a14 = np.pi / 4
    x14 = ad.variable(a14)

    f14 = ad.sin(x14) / (3 - 2 * ad.cos(x14))
    assert np.isclose(f14.val, func14_val(a14))
    assert np.isclose(f14.der, func14_der(a14))
Beispiel #2
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def test_simpleFunc6():
    func11_val = lambda x: ((x**3) + 4 * x) / np.sin(3)
    func11_der = lambda x: ((3 * x**2) + 4) / np.sin(3)

    a11 = 6
    x11 = ad.variable(a11)

    f11 = ((x11**3) + 4 * x11) / ad.sin(3)
    assert f11.val == func11_val(a11)
    assert f11.der == func11_der(a11)
Beispiel #3
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def test_simpleFunc3():
    def f1(x):
        return np.sin(x) / 3 + np.cos(x) / x

    def f1_dx(x):
        return -np.sin(x) / x - np.cos(x) / x**2 + np.cos(x) / 3

    x1 = ad.variable(83)
    f = ad.sin(x1) / 3 + ad.cos(x1) / x1
    assert f.val == f1(83)
    assert f.der == f1_dx(83)
def test_sin():

    # Sine of variable:
    f1 = ad.sin(np.pi)
    assert np.isclose(f1.val, 0.0)
    assert np.isclose(f1.der, 0.0)

    # Sine of variable:
    x2 = ad.variable(np.pi)
    f2 = ad.sin(x2)
    assert np.isclose(f2.val, 0.0)
    assert np.isclose(f2.der, -1.0)

    # Sine of variable times constant:
    x3 = ad.variable(0.0)
    f3 = ad.sin(x3) * 5
    assert np.isclose(f3.val, 0.0)
    assert np.isclose(f3.der, 5.0)

    # Sine of constant times variable:
    x4 = ad.variable(np.pi)
    f4 = ad.sin(x4 * 2)
    assert np.isclose(f4.val, 0.0)
    assert np.isclose(f4.der, 2.0)
Beispiel #5
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 def func1(x):
     f1 = (ad.sin(x))**2
     return f1
Beispiel #6
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 def func5(x, y):
     f1 = x * y + ad.cos(x)
     f2 = x * y + ad.sin(y)
     return [f1, f2]
Beispiel #7
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 def root_finding(a):
     return ad.sin(a)