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Python transforms.translation函数代码示例

原作者: [db:作者] 来自: [db:来源] 收藏 邀请

本文整理汇总了Python中mne.transforms.translation函数的典型用法代码示例。如果您正苦于以下问题:Python translation函数的具体用法?Python translation怎么用?Python translation使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。



在下文中一共展示了translation函数的9个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的Python代码示例。

示例1: test_fit_matched_points

def test_fit_matched_points():
    """Test fit_matched_points: fitting two matching sets of points."""
    tgt_pts = np.random.RandomState(42).uniform(size=(6, 3))

    # rotation only
    trans = rotation(2, 6, 3)
    src_pts = apply_trans(trans, tgt_pts)
    trans_est = fit_matched_points(src_pts, tgt_pts, translate=False,
                                   out='trans')
    est_pts = apply_trans(trans_est, src_pts)
    assert_array_almost_equal(tgt_pts, est_pts, 2, "fit_matched_points with "
                              "rotation")

    # rotation & translation
    trans = np.dot(translation(2, -6, 3), rotation(2, 6, 3))
    src_pts = apply_trans(trans, tgt_pts)
    trans_est = fit_matched_points(src_pts, tgt_pts, out='trans')
    est_pts = apply_trans(trans_est, src_pts)
    assert_array_almost_equal(tgt_pts, est_pts, 2, "fit_matched_points with "
                              "rotation and translation.")

    # rotation & translation & scaling
    trans = reduce(np.dot, (translation(2, -6, 3), rotation(1.5, .3, 1.4),
                            scaling(.5, .5, .5)))
    src_pts = apply_trans(trans, tgt_pts)
    trans_est = fit_matched_points(src_pts, tgt_pts, scale=1, out='trans')
    est_pts = apply_trans(trans_est, src_pts)
    assert_array_almost_equal(tgt_pts, est_pts, 2, "fit_matched_points with "
                              "rotation, translation and scaling.")

    # test exceeding tolerance
    tgt_pts[0, :] += 20
    pytest.raises(RuntimeError, fit_matched_points, tgt_pts, src_pts, tol=10)
开发者ID:jhouck,项目名称:mne-python,代码行数:33,代码来源:test_coreg.py


示例2: test_fit_point_cloud

def test_fit_point_cloud():
    """Test fit_point_cloud: fitting a set of points to a point cloud"""
    # evenly spaced target points on a sphere
    u = np.linspace(0, np.pi, 150)
    v = np.linspace(0, np.pi, 150)

    x = np.outer(np.cos(u), np.sin(v)).reshape((-1, 1))
    y = np.outer(np.sin(u), np.sin(v)).reshape((-1, 1))
    z = np.outer(np.ones(np.size(u)), np.cos(v)).reshape((-1, 1)) * 3

    tgt_pts = np.hstack((x, y, z))
    tgt_pts = _decimate_points(tgt_pts, .05)

    # pick some points to fit
    some_tgt_pts = tgt_pts[::362]

    # rotation only
    trans = rotation(1.5, .3, -0.4)
    src_pts = apply_trans(trans, some_tgt_pts)
    trans_est = fit_point_cloud(src_pts, tgt_pts, rotate=True, translate=False,
                                scale=0, out='trans')
    est_pts = apply_trans(trans_est, src_pts)
    err = _point_cloud_error(est_pts, tgt_pts)
    assert_array_less(err, .1, "fit_point_cloud with rotation.")

    # rotation and translation
    trans = np.dot(rotation(0.5, .3, -0.4), translation(.3, .2, -.2))
    src_pts = apply_trans(trans, some_tgt_pts)
    trans_est = fit_point_cloud(src_pts, tgt_pts, rotate=True, translate=True,
                                scale=0, out='trans')
    est_pts = apply_trans(trans_est, src_pts)
    err = _point_cloud_error(est_pts, tgt_pts)
    assert_array_less(err, .1, "fit_point_cloud with rotation and "
                      "translation.")

    # rotation and 1 scale parameter
    trans = np.dot(rotation(0.5, .3, -0.4), scaling(1.5, 1.5, 1.5))
    src_pts = apply_trans(trans, some_tgt_pts)
    trans_est = fit_point_cloud(src_pts, tgt_pts, rotate=True, translate=False,
                                scale=1, out='trans')
    est_pts = apply_trans(trans_est, src_pts)
    err = _point_cloud_error(est_pts, tgt_pts)
    assert_array_less(err, .1, "fit_point_cloud with rotation and 1 scaling "
                      "parameter.")

    # rotation and 3 scale parameter
    trans = np.dot(rotation(0.5, .3, -0.4), scaling(1.5, 1.7, 1.1))
    src_pts = apply_trans(trans, some_tgt_pts)
    trans_est = fit_point_cloud(src_pts, tgt_pts, rotate=True, translate=False,
                                scale=3, out='trans')
    est_pts = apply_trans(trans_est, src_pts)
    err = _point_cloud_error(est_pts, tgt_pts)
    assert_array_less(err, .1, "fit_point_cloud with rotation and 3 scaling "
                      "parameters.")
开发者ID:kingjr,项目名称:decoding_challenge_cortana_2016_3rd,代码行数:54,代码来源:test_coreg.py


示例3: test_get_ras_to_neuromag_trans

def test_get_ras_to_neuromag_trans():
    """Test the coordinate transformation from ras to neuromag"""
    # create model points in neuromag-like space
    anterior = [0, 1, 0]
    left = [-1, 0, 0]
    right = [0.8, 0, 0]
    up = [0, 0, 1]
    rand_pts = np.random.uniform(-1, 1, (3, 3))
    pts = np.vstack((anterior, left, right, up, rand_pts))

    # change coord system
    rx, ry, rz, tx, ty, tz = np.random.uniform(-2 * np.pi, 2 * np.pi, 6)
    trans = np.dot(translation(tx, ty, tz), rotation(rx, ry, rz))
    pts_changed = apply_trans(trans, pts)

    # transform back into original space
    nas, lpa, rpa = pts_changed[:3]
    hsp_trans = get_ras_to_neuromag_trans(nas, lpa, rpa)
    pts_restored = apply_trans(hsp_trans, pts_changed)

    err = "Neuromag transformation failed"
    assert_array_almost_equal(pts_restored, pts, 6, err)
开发者ID:agramfort,项目名称:mne-python,代码行数:22,代码来源:test_transforms.py


示例4: test_coregister_fiducials

def test_coregister_fiducials():
    """Test coreg.coregister_fiducials()."""
    # prepare head and MRI fiducials
    trans = Transform('head', 'mri',
                      rotation(.4, .1, 0).dot(translation(.1, -.1, .1)))
    coords_orig = np.array([[-0.08061612, -0.02908875, -0.04131077],
                            [0.00146763, 0.08506715, -0.03483611],
                            [0.08436285, -0.02850276, -0.04127743]])
    coords_trans = apply_trans(trans, coords_orig)

    def make_dig(coords, cf):
        return ({'coord_frame': cf, 'ident': 1, 'kind': 1, 'r': coords[0]},
                {'coord_frame': cf, 'ident': 2, 'kind': 1, 'r': coords[1]},
                {'coord_frame': cf, 'ident': 3, 'kind': 1, 'r': coords[2]})

    mri_fiducials = make_dig(coords_trans, FIFF.FIFFV_COORD_MRI)
    info = {'dig': make_dig(coords_orig, FIFF.FIFFV_COORD_HEAD)}

    # test coregister_fiducials()
    trans_est = coregister_fiducials(info, mri_fiducials)
    assert trans_est.from_str == trans.from_str
    assert trans_est.to_str == trans.to_str
    assert_array_almost_equal(trans_est['trans'], trans['trans'])
开发者ID:jhouck,项目名称:mne-python,代码行数:23,代码来源:test_coreg.py


示例5: test_fit_sphere_to_headshape

def test_fit_sphere_to_headshape():
    """Test fitting a sphere to digitization points."""
    # Create points of various kinds
    rad = 0.09
    big_rad = 0.12
    center = np.array([0.0005, -0.01, 0.04])
    dev_trans = np.array([0., -0.005, -0.01])
    dev_center = center - dev_trans
    dig = [
        # Left auricular
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'ident': FIFF.FIFFV_POINT_LPA,
         'kind': FIFF.FIFFV_POINT_CARDINAL,
         'r': np.array([-1.0, 0.0, 0.0])},
        # Nasion
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'ident': FIFF.FIFFV_POINT_NASION,
         'kind': FIFF.FIFFV_POINT_CARDINAL,
         'r': np.array([0.0, 1.0, 0.0])},
        # Right auricular
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'ident': FIFF.FIFFV_POINT_RPA,
         'kind': FIFF.FIFFV_POINT_CARDINAL,
         'r': np.array([1.0, 0.0, 0.0])},

        # Top of the head (extra point)
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EXTRA,
         'r': np.array([0.0, 0.0, 1.0])},

        # EEG points
        # Fz
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EEG,
         'r': np.array([0, .72, .69])},
        # F3
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EEG,
         'r': np.array([-.55, .67, .50])},
        # F4
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EEG,
         'r': np.array([.55, .67, .50])},
        # Cz
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EEG,
         'r': np.array([0.0, 0.0, 1.0])},
        # Pz
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EEG,
         'r': np.array([0, -.72, .69])},
    ]
    for d in dig:
        d['r'] *= rad
        d['r'] += center

    # Device to head transformation (rotate .2 rad over X-axis)
    dev_head_t = Transform('meg', 'head', translation(*(dev_trans)))
    info = Info(dig=dig, dev_head_t=dev_head_t)

    # Degenerate conditions
    pytest.raises(ValueError, fit_sphere_to_headshape, info,
                  dig_kinds=(FIFF.FIFFV_POINT_HPI,))
    pytest.raises(ValueError, fit_sphere_to_headshape, info,
                  dig_kinds='foo', units='m')
    info['dig'][0]['coord_frame'] = FIFF.FIFFV_COORD_DEVICE
    pytest.raises(RuntimeError, fit_sphere_to_headshape, info, units='m')
    info['dig'][0]['coord_frame'] = FIFF.FIFFV_COORD_HEAD

    #  # Test with 4 points that match a perfect sphere
    dig_kinds = (FIFF.FIFFV_POINT_CARDINAL, FIFF.FIFFV_POINT_EXTRA)
    with pytest.warns(RuntimeWarning, match='Only .* head digitization'):
        r, oh, od = fit_sphere_to_headshape(info, dig_kinds=dig_kinds,
                                            units='m')
    kwargs = dict(rtol=1e-3, atol=1e-5)
    assert_allclose(r, rad, **kwargs)
    assert_allclose(oh, center, **kwargs)
    assert_allclose(od, dev_center, **kwargs)

    # Test with all points
    dig_kinds = ('cardinal', FIFF.FIFFV_POINT_EXTRA, 'eeg')
    kwargs = dict(rtol=1e-3, atol=1e-3)
    with pytest.warns(RuntimeWarning, match='Only .* head digitization'):
        r, oh, od = fit_sphere_to_headshape(info, dig_kinds=dig_kinds,
                                            units='m')
    assert_allclose(r, rad, **kwargs)
    assert_allclose(oh, center, **kwargs)
    assert_allclose(od, dev_center, **kwargs)

    # Test with some noisy EEG points only.
    dig_kinds = 'eeg'
    with pytest.warns(RuntimeWarning, match='Only .* head digitization'):
        r, oh, od = fit_sphere_to_headshape(info, dig_kinds=dig_kinds,
                                            units='m')
    kwargs = dict(rtol=1e-3, atol=1e-2)
    assert_allclose(r, rad, **kwargs)
    assert_allclose(oh, center, **kwargs)
    assert_allclose(od, center, **kwargs)

    # Test big size
#.........这里部分代码省略.........
开发者ID:Eric89GXL,项目名称:mne-python,代码行数:101,代码来源:test_bem.py


示例6: test_fit_sphere_to_headshape

def test_fit_sphere_to_headshape():
    """Test fitting a sphere to digitization points"""
    # Create points of various kinds
    rad = 90.  # mm
    big_rad = 120.
    center = np.array([0.5, -10., 40.])  # mm
    dev_trans = np.array([0., -0.005, -10.])
    dev_center = center - dev_trans
    dig = [
        # Left auricular
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'ident': FIFF.FIFFV_POINT_LPA,
         'kind': FIFF.FIFFV_POINT_CARDINAL,
         'r': np.array([-1.0, 0.0, 0.0])},
        # Nasion
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'ident': FIFF.FIFFV_POINT_NASION,
         'kind': FIFF.FIFFV_POINT_CARDINAL,
         'r': np.array([0.0, 1.0, 0.0])},
        # Right auricular
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'ident': FIFF.FIFFV_POINT_RPA,
         'kind': FIFF.FIFFV_POINT_CARDINAL,
         'r': np.array([1.0, 0.0, 0.0])},

        # Top of the head (extra point)
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EXTRA,
         'r': np.array([0.0, 0.0, 1.0])},

        # EEG points
        # Fz
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EEG,
         'r': np.array([0, .72, .69])},
        # F3
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EEG,
         'r': np.array([-.55, .67, .50])},
        # F4
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EEG,
         'r': np.array([.55, .67, .50])},
        # Cz
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EEG,
         'r': np.array([0.0, 0.0, 1.0])},
        # Pz
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EEG,
         'r': np.array([0, -.72, .69])},
    ]
    for d in dig:
        d['r'] *= rad / 1000.
        d['r'] += center / 1000.

    # Device to head transformation (rotate .2 rad over X-axis)
    dev_head_t = Transform('meg', 'head', translation(*(dev_trans / 1000.)))

    info = {'dig': dig, 'dev_head_t': dev_head_t}

    # Degenerate conditions
    assert_raises(ValueError, fit_sphere_to_headshape, info,
                  dig_kinds=(FIFF.FIFFV_POINT_HPI,))
    info['dig'][0]['coord_frame'] = FIFF.FIFFV_COORD_DEVICE
    assert_raises(RuntimeError, fit_sphere_to_headshape, info)
    info['dig'][0]['coord_frame'] = FIFF.FIFFV_COORD_HEAD

    #  # Test with 4 points that match a perfect sphere
    dig_kinds = (FIFF.FIFFV_POINT_CARDINAL, FIFF.FIFFV_POINT_EXTRA)
    r, oh, od = fit_sphere_to_headshape(info, dig_kinds=dig_kinds)
    kwargs = dict(rtol=1e-3, atol=1e-2)  # in mm
    assert_allclose(r, rad, **kwargs)
    assert_allclose(oh, center, **kwargs)
    assert_allclose(od, dev_center, **kwargs)

    # Test with all points
    dig_kinds = (FIFF.FIFFV_POINT_CARDINAL, FIFF.FIFFV_POINT_EXTRA,
                 FIFF.FIFFV_POINT_EEG)
    kwargs = dict(rtol=1e-3, atol=1.)  # in mm
    r, oh, od = fit_sphere_to_headshape(info, dig_kinds=dig_kinds)
    assert_allclose(r, rad, **kwargs)
    assert_allclose(oh, center, **kwargs)
    assert_allclose(od, dev_center, **kwargs)

    # Test with some noisy EEG points only.
    dig_kinds = (FIFF.FIFFV_POINT_EEG,)
    r, oh, od = fit_sphere_to_headshape(info, dig_kinds=dig_kinds)
    kwargs = dict(rtol=1e-3, atol=10.)  # in mm
    assert_allclose(r, rad, **kwargs)
    assert_allclose(oh, center, **kwargs)
    assert_allclose(od, center, **kwargs)

    # Test big size
    dig_kinds = (FIFF.FIFFV_POINT_CARDINAL, FIFF.FIFFV_POINT_EXTRA)
    info_big = deepcopy(info)
    for d in info_big['dig']:
        d['r'] -= center / 1000.
        d['r'] *= big_rad / rad
        d['r'] += center / 1000.
#.........这里部分代码省略.........
开发者ID:Famguy,项目名称:mne-python,代码行数:101,代码来源:test_bem.py


示例7: test_fit_sphere_to_headshape

def test_fit_sphere_to_headshape():
    """Test fitting a sphere to digitization points"""
    # Create points of various kinds
    rad = 90.0  # mm
    big_rad = 120.0
    center = np.array([0.5, -10.0, 40.0])  # mm
    dev_trans = np.array([0.0, -0.005, -10.0])
    dev_center = center - dev_trans
    dig = [
        # Left auricular
        {
            "coord_frame": FIFF.FIFFV_COORD_HEAD,
            "ident": FIFF.FIFFV_POINT_LPA,
            "kind": FIFF.FIFFV_POINT_CARDINAL,
            "r": np.array([-1.0, 0.0, 0.0]),
        },
        # Nasion
        {
            "coord_frame": FIFF.FIFFV_COORD_HEAD,
            "ident": FIFF.FIFFV_POINT_NASION,
            "kind": FIFF.FIFFV_POINT_CARDINAL,
            "r": np.array([0.0, 1.0, 0.0]),
        },
        # Right auricular
        {
            "coord_frame": FIFF.FIFFV_COORD_HEAD,
            "ident": FIFF.FIFFV_POINT_RPA,
            "kind": FIFF.FIFFV_POINT_CARDINAL,
            "r": np.array([1.0, 0.0, 0.0]),
        },
        # Top of the head (extra point)
        {"coord_frame": FIFF.FIFFV_COORD_HEAD, "kind": FIFF.FIFFV_POINT_EXTRA, "r": np.array([0.0, 0.0, 1.0])},
        # EEG points
        # Fz
        {"coord_frame": FIFF.FIFFV_COORD_HEAD, "kind": FIFF.FIFFV_POINT_EEG, "r": np.array([0, 0.72, 0.69])},
        # F3
        {"coord_frame": FIFF.FIFFV_COORD_HEAD, "kind": FIFF.FIFFV_POINT_EEG, "r": np.array([-0.55, 0.67, 0.50])},
        # F4
        {"coord_frame": FIFF.FIFFV_COORD_HEAD, "kind": FIFF.FIFFV_POINT_EEG, "r": np.array([0.55, 0.67, 0.50])},
        # Cz
        {"coord_frame": FIFF.FIFFV_COORD_HEAD, "kind": FIFF.FIFFV_POINT_EEG, "r": np.array([0.0, 0.0, 1.0])},
        # Pz
        {"coord_frame": FIFF.FIFFV_COORD_HEAD, "kind": FIFF.FIFFV_POINT_EEG, "r": np.array([0, -0.72, 0.69])},
    ]
    for d in dig:
        d["r"] *= rad / 1000.0
        d["r"] += center / 1000.0

    # Device to head transformation (rotate .2 rad over X-axis)
    dev_head_t = Transform("meg", "head", translation(*(dev_trans / 1000.0)))

    info = {"dig": dig, "dev_head_t": dev_head_t}

    # Degenerate conditions
    assert_raises(ValueError, fit_sphere_to_headshape, info, dig_kinds=(FIFF.FIFFV_POINT_HPI,))
    info["dig"][0]["coord_frame"] = FIFF.FIFFV_COORD_DEVICE
    assert_raises(RuntimeError, fit_sphere_to_headshape, info)
    info["dig"][0]["coord_frame"] = FIFF.FIFFV_COORD_HEAD

    #  # Test with 4 points that match a perfect sphere
    dig_kinds = (FIFF.FIFFV_POINT_CARDINAL, FIFF.FIFFV_POINT_EXTRA)
    r, oh, od = fit_sphere_to_headshape(info, dig_kinds=dig_kinds)
    kwargs = dict(rtol=1e-3, atol=1e-2)  # in mm
    assert_allclose(r, rad, **kwargs)
    assert_allclose(oh, center, **kwargs)
    assert_allclose(od, dev_center, **kwargs)

    # Test with all points
    dig_kinds = (FIFF.FIFFV_POINT_CARDINAL, FIFF.FIFFV_POINT_EXTRA, FIFF.FIFFV_POINT_EEG)
    kwargs = dict(rtol=1e-3, atol=1.0)  # in mm
    r, oh, od = fit_sphere_to_headshape(info, dig_kinds=dig_kinds)
    assert_allclose(r, rad, **kwargs)
    assert_allclose(oh, center, **kwargs)
    assert_allclose(od, dev_center, **kwargs)

    # Test with some noisy EEG points only.
    dig_kinds = (FIFF.FIFFV_POINT_EEG,)
    r, oh, od = fit_sphere_to_headshape(info, dig_kinds=dig_kinds)
    kwargs = dict(rtol=1e-3, atol=10.0)  # in mm
    assert_allclose(r, rad, **kwargs)
    assert_allclose(oh, center, **kwargs)
    assert_allclose(od, center, **kwargs)

    # Test big size
    dig_kinds = (FIFF.FIFFV_POINT_CARDINAL, FIFF.FIFFV_POINT_EXTRA)
    info_big = deepcopy(info)
    for d in info_big["dig"]:
        d["r"] -= center / 1000.0
        d["r"] *= big_rad / rad
        d["r"] += center / 1000.0
    with warnings.catch_warnings(record=True):  # fit
        with catch_logging() as log_file:
            r, oh, od = fit_sphere_to_headshape(info_big, dig_kinds=dig_kinds, verbose="warning")
    log_file = log_file.getvalue().strip()
    assert_equal(len(log_file.split("\n")), 1)
    assert_true(log_file.startswith("Estimated head size"))
    assert_allclose(oh, center, atol=1e-3)
    assert_allclose(r, big_rad, atol=1e-3)
    del info_big

#.........这里部分代码省略.........
开发者ID:mdclarke,项目名称:mne-python,代码行数:101,代码来源:test_bem.py


示例8: test_fit_sphere_to_headshape

def test_fit_sphere_to_headshape():
    """Test fitting a sphere to digitization points"""
    # Create points of various kinds
    rad = 0.09
    big_rad = 0.12
    center = np.array([0.0005, -0.01, 0.04])
    dev_trans = np.array([0., -0.005, -0.01])
    dev_center = center - dev_trans
    dig = [
        # Left auricular
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'ident': FIFF.FIFFV_POINT_LPA,
         'kind': FIFF.FIFFV_POINT_CARDINAL,
         'r': np.array([-1.0, 0.0, 0.0])},
        # Nasion
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'ident': FIFF.FIFFV_POINT_NASION,
         'kind': FIFF.FIFFV_POINT_CARDINAL,
         'r': np.array([0.0, 1.0, 0.0])},
        # Right auricular
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'ident': FIFF.FIFFV_POINT_RPA,
         'kind': FIFF.FIFFV_POINT_CARDINAL,
         'r': np.array([1.0, 0.0, 0.0])},

        # Top of the head (extra point)
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EXTRA,
         'r': np.array([0.0, 0.0, 1.0])},

        # EEG points
        # Fz
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EEG,
         'r': np.array([0, .72, .69])},
        # F3
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EEG,
         'r': np.array([-.55, .67, .50])},
        # F4
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EEG,
         'r': np.array([.55, .67, .50])},
        # Cz
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EEG,
         'r': np.array([0.0, 0.0, 1.0])},
        # Pz
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EEG,
         'r': np.array([0, -.72, .69])},
    ]
    for d in dig:
        d['r'] *= rad
        d['r'] += center

    # Device to head transformation (rotate .2 rad over X-axis)
    dev_head_t = Transform('meg', 'head', translation(*(dev_trans)))
    info = {'dig': dig, 'dev_head_t': dev_head_t}

    # Degenerate conditions
    with warnings.catch_warnings(record=True) as w:
        assert_raises(ValueError, fit_sphere_to_headshape, info,
                      dig_kinds=(FIFF.FIFFV_POINT_HPI,))
    assert_equal(len(w), 1)
    assert_true(w[0].category == DeprecationWarning)
    assert_raises(ValueError, fit_sphere_to_headshape, info,
                  dig_kinds='foo', units='m')
    info['dig'][0]['coord_frame'] = FIFF.FIFFV_COORD_DEVICE
    assert_raises(RuntimeError, fit_sphere_to_headshape, info, units='m')
    info['dig'][0]['coord_frame'] = FIFF.FIFFV_COORD_HEAD

    #  # Test with 4 points that match a perfect sphere
    dig_kinds = (FIFF.FIFFV_POINT_CARDINAL, FIFF.FIFFV_POINT_EXTRA)
    with warnings.catch_warnings(record=True):  # not enough points
        r, oh, od = fit_sphere_to_headshape(info, dig_kinds=dig_kinds,
                                            units='m')
    kwargs = dict(rtol=1e-3, atol=1e-5)
    assert_allclose(r, rad, **kwargs)
    assert_allclose(oh, center, **kwargs)
    assert_allclose(od, dev_center, **kwargs)

    # Test with all points
    dig_kinds = ('cardinal', FIFF.FIFFV_POINT_EXTRA, 'eeg')
    kwargs = dict(rtol=1e-3, atol=1e-3)
    with warnings.catch_warnings(record=True):  # not enough points
        r, oh, od = fit_sphere_to_headshape(info, dig_kinds=dig_kinds,
                                            units='m')
    assert_allclose(r, rad, **kwargs)
    assert_allclose(oh, center, **kwargs)
    assert_allclose(od, dev_center, **kwargs)

    # Test with some noisy EEG points only.
    dig_kinds = 'eeg'
    with warnings.catch_warnings(record=True):  # not enough points
        r, oh, od = fit_sphere_to_headshape(info, dig_kinds=dig_kinds,
                                            units='m')
    kwargs = dict(rtol=1e-3, atol=1e-2)
    assert_allclose(r, rad, **kwargs)
    assert_allclose(oh, center, **kwargs)
#.........这里部分代码省略.........
开发者ID:GrantRVD,项目名称:mne-python,代码行数:101,代码来源:test_bem.py


示例9: test_fit_sphere_to_headshape

def test_fit_sphere_to_headshape():
    """Test fitting a sphere to digitization points"""
    # Create points of various kinds
    rad = 90.  # mm
    center = np.array([0.5, -10., 40.])  # mm
    dev_trans = np.array([0., -0.005, -10.])
    dev_center = center - dev_trans
    dig = [
        # Left auricular
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'ident': FIFF.FIFFV_POINT_LPA,
         'kind': FIFF.FIFFV_POINT_CARDINAL,
         'r': np.array([-1.0, 0.0, 0.0])},
        # Nasion
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'ident': FIFF.FIFFV_POINT_NASION,
         'kind': FIFF.FIFFV_POINT_CARDINAL,
         'r': np.array([0.0, 1.0, 0.0])},
        # Right auricular
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'ident': FIFF.FIFFV_POINT_RPA,
         'kind': FIFF.FIFFV_POINT_CARDINAL,
         'r': np.array([1.0, 0.0, 0.0])},

        # Top of the head (extra point)
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EXTRA,
         'r': np.array([0.0, 0.0, 1.0])},

        # EEG points
        # Fz
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EEG,
         'r': np.array([0, .72, .69])},
        # F3
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EEG,
         'r': np.array([-.55, .67, .50])},
        # F4
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EEG,
         'r': np.array([.55, .67, .50])},
        # Cz
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EEG,
         'r': np.array([0.0, 0.0, 1.0])},
        # Pz
        {'coord_frame': FIFF.FIFFV_COORD_HEAD,
         'kind': FIFF.FIFFV_POINT_EEG,
         'r': np.array([0, -.72, .69])},
    ]
    for d in dig:
        d['r'] *= rad / 1000.
        d['r'] += center / 1000.

    # Device to head transformation (rotate .2 rad over X-axis)
    dev_head_t = Transform('meg', 'head', translation(*(dev_trans / 1000.)))

    info = {'dig': dig, 'dev_head_t': dev_head_t}

    # Degenerate conditions
    assert_raises(ValueError, fit_sphere_to_headshape, info,
                  dig_kinds=(FIFF.FIFFV_POINT_HPI,))
    info['dig'][0]['coord_frame'] = FIFF.FIFFV_COORD_DEVICE
    assert_raises(RuntimeError, fit_sphere_to_headshape, info)
    info['dig'][0]['coord_frame'] = FIFF.FIFFV_COORD_HEAD

    #  # Test with 4 points that match a perfect sphere
    dig_kinds = (FIFF.FIFFV_POINT_CARDINAL, FIFF.FIFFV_POINT_EXTRA)
    r, oh, od = fit_sphere_to_headshape(info, dig_kinds=dig_kinds)
    kwargs = dict(rtol=1e-3, atol=1e-2)  # in mm
    assert_allclose(r, rad, **kwargs)
    assert_allclose(oh, center, **kwargs)
    assert_allclose(od, dev_center, **kwargs)

    # Test with all points
    dig_kinds = (FIFF.FIFFV_POINT_CARDINAL, FIFF.FIFFV_POINT_EXTRA,
                 FIFF.FIFFV_POINT_EXTRA)
    r, oh, od = fit_sphere_to_headshape(info, dig_kinds=dig_kinds)
    assert_allclose(r, rad, **kwargs)
    assert_allclose(oh, center, **kwargs)
    assert_allclose(od, dev_center, **kwargs)

    # Test with some noisy EEG points only.
    dig_kinds = (FIFF.FIFFV_POINT_EEG,)
    r, oh, od = fit_sphere_to_headshape(info, dig_kinds=dig_kinds)
    kwargs = dict(rtol=1e-3, atol=10.)  # in mm
    assert_allclose(r, rad, **kwargs)
    assert_allclose(oh, center, **kwargs)
    assert_allclose(od, center, **kwargs)

    dig = [dict(coord_frame=FIFF.FIFFV_COORD_DEVICE, )]
开发者ID:leggitta,项目名称:mne-python,代码行数:92,代码来源:test_bem.py



注:本文中的mne.transforms.translation函数示例由纯净天空整理自Github/MSDocs等源码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。


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