def check_arcsinh(): x = create_input_for_trigonometric_ops( [-np.pi / 2, -np.pi / 4, 0, np.pi / 4, np.pi / 2]) y = nd.arcsinh(x) # expected ouput for indices=(0, 1, -3, -2, -1) after applying arcsinh() expected_output = [ np.arcsinh(-np.pi / 2), np.arcsinh(-np.pi / 4), 0, np.arcsinh(np.pi / 4), np.arcsinh(np.pi / 2) ] assert_correctness_of_trigonometric_ops(y, expected_output)
def arcsinh(x): return nd.arcsinh(x)