Exemplo n.º 1
0
def test_multiview_tfm(use_real_grid):
    # make probe
    probe = arim.Probe.make_matrix_probe(5, 0.5e-3, 1, np.nan, 1e6)
    probe.set_reference_element("first")
    probe.reset_position()
    probe.translate([0.0, 0.0, -1e-3])

    # make frame
    tx_arr, rx_arr = arim.ut.fmc(probe.numelements)
    time = arim.Time(0.5e-6, 1 / 20e6, 100)
    # use random data but ensure reciprocity
    scanlines = np.zeros((len(tx_arr), len(time)))
    for i, (tx, rx) in enumerate(zip(tx_arr, rx_arr)):
        np.random.seed((tx * rx)**2)  # symmetric in tx and rx
        scanlines[i] = np.random.rand(len(time))
    block = arim.Material(6300, 3100)
    frame = arim.Frame(scanlines, time, tx_arr, rx_arr, probe,
                       arim.ExaminationObject(block))

    # prepare view LL-T in contact
    if use_real_grid:
        grid = arim.Grid(0.0, 0.0, 0.0, 0.0, 5e-3, 5e-3, np.nan)
        grid_interface = arim.Interface(*grid.to_oriented_points())
    else:
        grid = arim.Points(np.array([0.0, 0.0, 5e-3]), name="Grid")
        grid_interface = arim.Interface(
            *arim.geometry.default_oriented_points(grid.to_1d_points()))

    backwall = arim.geometry.points_1d_wall_z(-1e-3, 1e-3, 10e-3, 200)
    backwall_interface = arim.Interface(*backwall)
    probe_interface = arim.Interface(*probe.to_oriented_points())

    path_LL = arim.Path(
        [probe_interface, backwall_interface, grid_interface],
        [block, block],
        ["L", "L"],
    )
    path_T = arim.Path([probe_interface, grid_interface], [block], ["T"])
    view = arim.View(path_LL, path_T, "LL-T")
    arim.ray.ray_tracing([view], convert_to_fortran_order=True)

    # make TFM
    tfm = im.tfm.tfm_for_view(frame, grid, view, fillvalue=np.nan)

    # Check this value is unchanged over time!
    expected_val = 12.745499105785953
    assert tfm.res.shape == grid.shape
    if use_real_grid:
        np.testing.assert_array_almost_equal(tfm.res, [[[expected_val]]])
    else:
        np.testing.assert_allclose(tfm.res, expected_val)

    # Reverse view
    view_rev = arim.View(path_LL, path_T, "T-LL")
    tfm_rev = im.tfm.tfm_for_view(frame, grid, view_rev, fillvalue=np.nan)
    assert tfm.res.shape == grid.shape
    if use_real_grid:
        np.testing.assert_array_almost_equal(tfm_rev.res, [[[expected_val]]])
    else:
        np.testing.assert_allclose(tfm_rev.res, expected_val)
Exemplo n.º 2
0
def test_make_views():
    xmin = -5e-3
    xmax = 5e-3
    zmin = 0.0
    zmax = 7e-3
    grid = arim.Grid(xmin, xmax, 0.0, 0.0, zmin, zmax, pixel_size=1e-3)
    grid_p = grid.to_oriented_points()
    probe = arim.probes["ima_50_MHz_128_1d"]
    probe_p = probe.to_oriented_points()
    frontwall = arim.geometry.points_1d_wall_z(xmin, xmax, zmin, 11)
    backwall = arim.geometry.points_1d_wall_z(xmin, xmax, zmax, 10)
    block_material = arim.Material(6300.0, 3120.0)

    # General ExaminationObject
    examination_object = arim.ExaminationObject(block_material)
    views = bic.make_views(
        examination_object,
        probe_p,
        grid_p,
        max_number_of_reflection=0,
        tfm_unique_only=False,
    )
    assert len(views) == 4

    with pytest.raises(ValueError):
        # Undefined backwall
        views = bic.make_views(examination_object,
                               probe_p,
                               grid_p,
                               max_number_of_reflection=2)

    # BlockInContact with a backwall
    examination_object = arim.BlockInContact(block_material, backwall=backwall)
    views = bic.make_views(
        examination_object,
        probe_p,
        grid_p,
        max_number_of_reflection=1,
        tfm_unique_only=False,
    )
    assert len(views) == 36

    with pytest.raises(ValueError):
        # Undefined frontwall
        views = bic.make_views(examination_object,
                               probe_p,
                               grid_p,
                               max_number_of_reflection=2)

    # BlockInContact with a backwall and a frontwall
    examination_object = arim.BlockInContact(block_material, frontwall,
                                             backwall)
    views = bic.make_views(
        examination_object,
        probe_p,
        grid_p,
        max_number_of_reflection=2,
        tfm_unique_only=False,
    )
    assert len(views) == 196
Exemplo n.º 3
0
def test_contact_tfm(use_hmc):
    # make probe
    probe = arim.Probe.make_matrix_probe(5, 0.5e-3, 1, np.nan, 1e6)
    probe.set_reference_element("first")
    probe.reset_position()
    probe.translate([0.0, 0.0, -1e-3])

    # make frame
    if use_hmc:
        tx_arr, rx_arr = arim.ut.hmc(probe.numelements)
    else:
        tx_arr, rx_arr = arim.ut.fmc(probe.numelements)

    time = arim.Time(0.5e-6, 1 / 20e6, 100)

    # use random data but ensure reciprocity
    scanlines = np.zeros((len(tx_arr), len(time)))
    for i, (tx, rx) in enumerate(zip(tx_arr, rx_arr)):
        np.random.seed((tx * rx)**2)  # symmetric in tx and rx
        scanlines[i] = np.random.rand(len(time))

    # check reciprocity
    if not use_hmc:
        for i, (tx, rx) in enumerate(zip(tx_arr, rx_arr)):
            scanline_1 = scanlines[i]
            scanline_2 = scanlines[np.logical_and(tx_arr == rx,
                                                  rx_arr == tx)][0]
            np.testing.assert_allclose(scanline_1,
                                       scanline_2,
                                       err_msg="fmc data not symmetric")

    block = arim.Material(6300, 3100)
    frame = arim.Frame(scanlines, time, tx_arr, rx_arr, probe,
                       arim.ExaminationObject(block))

    # prepare view LL-T in contact
    grid = arim.Points(np.array([0.0, 0.0, 5e-3]), name="Grid")

    tfm = im.tfm.contact_tfm(frame,
                             grid,
                             block.longitudinal_vel,
                             fillvalue=np.nan)

    # Check this value is unchanged over time!
    expected_val = 12.49925772283528
    assert tfm.res.shape == grid.shape
    np.testing.assert_allclose(tfm.res, expected_val)