Example #1
0
def test_zernike_integral0(scaling, int0, n=4):
    iterator = orthopy.s2.zernike.Eval(P, scaling)
    for k, vals in enumerate(itertools.islice(iterator, n)):
        if k == 0:
            assert _integrate_poly(vals[0]) == int0
        else:
            for val in vals:
                assert _integrate_poly(val) == 0
Example #2
0
def test_zernike2_normality(n=4):
    iterator = orthopy.s2.zernike2.Eval(P, "normal")
    for k, vals in enumerate(itertools.islice(iterator, n)):
        for val in vals:
            assert _integrate_poly(val**2) == 1
Example #3
0
def test_zernike2_orthogonality(scaling, n=4):
    evaluator = orthopy.s2.zernike2.Eval(P, scaling)
    vals = numpy.concatenate([next(evaluator) for _ in range(n + 1)])
    for f0, f1 in itertools.combinations(vals, 2):
        assert _integrate_poly(f0 * f1) == 0
Example #4
0
def test_zernike_normality(n=5):
    iterator = orthopy.s2.zernike.Eval(P, "normal")
    for vals in itertools.islice(iterator, n):
        for val in vals:
            assert _integrate_poly(val ** 2) == 1