def test_arccos(less1_cls, less1_var): f1 = AD.arccos(less1_cls) f2 = AD.arccos(less1_var) assert f1.func_val == np.arccos(0.25) assert f1.partial_dict['x1'] == -1 / np.sqrt(1 - 0.25**2) assert f2 == np.arccos(0.25)
def test_invtrig(): x = np.array([0.25, 0.5]) inv_ar = AD.from_array(x, 'p') assert [ np.round(AD.arcsin(inv_ar)[0].func_val, 7), np.round(AD.arcsin(inv_ar)[1].func_val, 7) ] == [np.round(0.25268025514207865, 7), np.round(0.5235987755982989, 7)] assert np.round(AD.arcsin(inv_ar)[0].partial_dict['p_0'], 7) == np.round(1.0327955589886444, 7) assert [ np.round(AD.arccos(inv_ar)[0].func_val, 7), np.round(AD.arccos(inv_ar)[1].func_val, 7) ] == [np.round(1.318116071652818, 7), np.round(1.0471975511965979, 7)] assert np.round(AD.arccos(inv_ar)[0].partial_dict['p_0'], 7) == np.round(-1.0327955589886444, 7) assert np.round(AD.arctan(inv_ar)[1].func_val, 7) == np.round(0.4636476090008061, 7) assert AD.arctan(inv_ar)[1].partial_dict['p_1'] == 0.8