Beispiel #1
0
def test_crop_bracket(plot=False):
    ucurrent = np.array([0.39676747, 0.53881673])
    v = np.array([-0.79619985, -0.60503372])
    ellipsoid_center = np.array([0.23556461, 0.49899689])
    ellipsoid_inv_axes = np.array([[-3.28755896, 0.70136518],
                                   [1.33333377, 1.72933397]])
    enlarge = 26.66439694551674
    ellipsoid_invcov = np.array([[11.29995701, -3.17051875],
                                 [-3.17051875, 4.76837493]])
    #enlarge = 1.0
    #ellipsoid_inv_axes = np.array([[1.0, 0.], [0., 1]])

    eleft, eright = ellipsoid_bracket(ucurrent, v, ellipsoid_center,
                                      ellipsoid_inv_axes, enlarge)
    if plot:
        us = np.random.uniform(-2, +2, size=(10000, 2))
        d = us - ellipsoid_center
        r = np.einsum('ij,jk,ik->i', d, ellipsoid_invcov, d)
        mask_inside = r <= enlarge

        import matplotlib.pyplot as plt
        plt.plot(us[mask_inside, 0], us[mask_inside, 1], '+', ms=2)
        plt.plot(ucurrent[0], ucurrent[1], 'o ', ms=2)
        plt.plot([ucurrent[0] + eleft * v[0], ucurrent[0] + eright * v[0]],
                 [ucurrent[1] + eleft * v[1], ucurrent[1] + eright * v[1]],
                 '-s',
                 ms=8)
        plt.savefig('test_crop_bracket.pdf', bbox_inches='tight')
    print("left:", eleft, ucurrent + v * eleft)
    assert eleft <= 0, eleft
    assert_point_touches_ellipsoid(ucurrent, v, eleft, ellipsoid_center,
                                   ellipsoid_invcov, enlarge)
    print("right:", eright, ucurrent + v * eright)
    assert eright >= 0, eright
    assert_point_touches_ellipsoid(ucurrent, v, eright, ellipsoid_center,
                                   ellipsoid_invcov, enlarge)

    left, right, cropleft, cropright = crop_bracket_at_unit_cube(
        ucurrent, v, eleft, eright)
    if plot:
        plt.plot([ucurrent[0] + left * v[0], ucurrent[0] + right * v[0]],
                 [ucurrent[1] + left * v[1], ucurrent[1] + right * v[1]],
                 's--',
                 ms=8)
        plt.savefig('test_crop_bracket.pdf', bbox_inches='tight')
        plt.close()
    assert cropleft
    assert cropright
    assert (ucurrent + v * left <= 1).all(), (ucurrent, v, ellipsoid_center,
                                              ellipsoid_inv_axes, enlarge)
    assert (ucurrent + v * right <= 1).all(), (ucurrent, v, ellipsoid_center,
                                               ellipsoid_inv_axes, enlarge)
    assert (ucurrent + v * left >= 0).all(), (ucurrent, v, ellipsoid_center,
                                              ellipsoid_inv_axes, enlarge)
    assert (ucurrent + v * right >= 0).all(), (ucurrent, v, ellipsoid_center,
                                               ellipsoid_inv_axes, enlarge)
Beispiel #2
0
def test_ellipsoid_bracket(plot=False):
    for seed in range(20):
        print("seed:", seed)
        np.random.seed(seed)
        if seed % 2 == 0:
            us = np.random.normal(size=(2**np.random.randint(3, 10), 2))
            us /= ((us**2).sum(axis=1)**0.5).reshape((-1, 1))
            us = us * 0.1 + 0.5
        else:
            us = np.random.uniform(size=(2**np.random.randint(3, 10), 2))

        if plot:
            import matplotlib.pyplot as plt
            plt.plot(us[:, 0], us[:, 1], 'o ', ms=2)

        transformLayer = ScalingLayer()
        region = MLFriends(us, transformLayer)
        try:
            region.maxradiussq, region.enlarge = region.compute_enlargement()
            region.create_ellipsoid()
        except ValueError:
            continue

        print(region.ellipsoid_center)
        print(region.enlarge)
        print(region.ellipsoid_cov)
        print(region.ellipsoid_invcov)
        print(region.ellipsoid_axes)
        print(region.ellipsoid_inv_axes)

        ucurrent = np.array([2**0.5 * 0.1 / 2 + 0.5, 2**0.5 * 0.1 / 2 + 0.5])
        ucurrent = np.array([0.4, 0.525])
        v = np.array([1., 0])
        if plot: plt.plot(ucurrent[0], ucurrent[1], 'o')
        print("from", ucurrent, "in direction", v)
        left, right = ellipsoid_bracket(ucurrent, v, region.ellipsoid_center,
                                        region.ellipsoid_inv_axes,
                                        region.enlarge)
        uleft = ucurrent + v * left
        uright = ucurrent + v * right

        if plot:
            plt.plot([uleft[0], uright[0]], [uleft[1], uright[1]], 'x-')

            plt.savefig('test_ellipsoid_bracket.pdf', bbox_inches='tight')
            plt.close()
        print("ellipsoid bracket:", left, right)
        assert left <= 0, left
        assert right >= 0, right

        assert_point_touches_ellipsoid(ucurrent, v, left,
                                       region.ellipsoid_center,
                                       region.ellipsoid_invcov, region.enlarge)
        assert_point_touches_ellipsoid(ucurrent, v, right,
                                       region.ellipsoid_center,
                                       region.ellipsoid_invcov, region.enlarge)