コード例 #1
0
def test_io_save_peaks_error():
    with InTemporaryDirectory():
        fname = 'test.pam5'

        pam = PeaksAndMetrics()

        npt.assert_raises(IOError, save_peaks, 'test.pam', pam)
        npt.assert_raises(ValueError, save_peaks, fname, pam)

        pam.affine = np.eye(4)
        pam.peak_dirs = np.random.rand(10, 10, 10, 5, 3)
        pam.peak_values = np.zeros((10, 10, 10, 5))
        pam.peak_indices = np.zeros((10, 10, 10, 5))
        pam.shm_coeff = np.zeros((10, 10, 10, 45))
        pam.sphere = default_sphere
        pam.B = np.zeros((45, default_sphere.vertices.shape[0]))
        pam.total_weight = 0.5
        pam.ang_thr = 60
        pam.gfa = np.zeros((10, 10, 10))
        pam.qa = np.zeros((10, 10, 10, 5))
        pam.odf = np.zeros((10, 10, 10, default_sphere.vertices.shape[0]))
コード例 #2
0
ファイル: test_io_peaks.py プロジェクト: StongeEtienne/dipy
def test_io_save_peaks_error():
    with InTemporaryDirectory():
        fname = 'test.pam5'

        pam = PeaksAndMetrics()

        npt.assert_raises(IOError, save_peaks, 'test.pam', pam)
        npt.assert_raises(ValueError, save_peaks, fname, pam)

        sphere = get_sphere('repulsion724')

        pam.affine = np.eye(4)
        pam.peak_dirs = np.random.rand(10, 10, 10, 5, 3)
        pam.peak_values = np.zeros((10, 10, 10, 5))
        pam.peak_indices = np.zeros((10, 10, 10, 5))
        pam.shm_coeff = np.zeros((10, 10, 10, 45))
        pam.sphere = sphere
        pam.B = np.zeros((45, sphere.vertices.shape[0]))
        pam.total_weight = 0.5
        pam.ang_thr = 60
        pam.gfa = np.zeros((10, 10, 10))
        pam.qa = np.zeros((10, 10, 10, 5))
        pam.odf = np.zeros((10, 10, 10, sphere.vertices.shape[0]))
コード例 #3
0
def test_io_peaks():
    with InTemporaryDirectory():
        fname = 'test.pam5'

        pam = PeaksAndMetrics()
        pam.affine = np.eye(4)
        pam.peak_dirs = np.random.rand(10, 10, 10, 5, 3)
        pam.peak_values = np.zeros((10, 10, 10, 5))
        pam.peak_indices = np.zeros((10, 10, 10, 5))
        pam.shm_coeff = np.zeros((10, 10, 10, 45))
        pam.sphere = default_sphere
        pam.B = np.zeros((45, default_sphere.vertices.shape[0]))
        pam.total_weight = 0.5
        pam.ang_thr = 60
        pam.gfa = np.zeros((10, 10, 10))
        pam.qa = np.zeros((10, 10, 10, 5))
        pam.odf = np.zeros((10, 10, 10, default_sphere.vertices.shape[0]))

        save_peaks(fname, pam)
        pam2 = load_peaks(fname, verbose=True)
        npt.assert_array_equal(pam.peak_dirs, pam2.peak_dirs)

        pam2.affine = None

        fname2 = 'test2.pam5'
        save_peaks(fname2, pam2, np.eye(4))
        pam2_res = load_peaks(fname2, verbose=True)
        npt.assert_array_equal(pam.peak_dirs, pam2_res.peak_dirs)

        pam3 = load_peaks(fname2, verbose=False)

        for attr in [
                'peak_dirs', 'peak_values', 'peak_indices', 'gfa', 'qa',
                'shm_coeff', 'B', 'odf'
        ]:
            npt.assert_array_equal(getattr(pam3, attr), getattr(pam, attr))

        npt.assert_equal(pam3.total_weight, pam.total_weight)
        npt.assert_equal(pam3.ang_thr, pam.ang_thr)
        npt.assert_array_almost_equal(pam3.sphere.vertices,
                                      pam.sphere.vertices)

        fname3 = 'test3.pam5'
        pam4 = PeaksAndMetrics()
        npt.assert_raises(ValueError, save_peaks, fname3, pam4)

        fname4 = 'test4.pam5'
        del pam.affine
        save_peaks(fname4, pam, affine=None)

        fname5 = 'test5.pkm'
        npt.assert_raises(IOError, save_peaks, fname5, pam)

        pam.affine = np.eye(4)
        fname6 = 'test6.pam5'
        save_peaks(fname6, pam, verbose=True)

        del pam.shm_coeff
        save_peaks(fname6, pam, verbose=False)

        pam.shm_coeff = np.zeros((10, 10, 10, 45))
        del pam.odf
        save_peaks(fname6, pam)
        pam_tmp = load_peaks(fname6, True)
        npt.assert_equal(pam_tmp.odf, None)

        fname7 = 'test7.paw'
        npt.assert_raises(IOError, load_peaks, fname7)

        del pam.shm_coeff
        save_peaks(fname6, pam, verbose=True)

        fname_shm = 'shm.nii.gz'
        fname_dirs = 'dirs.nii.gz'
        fname_values = 'values.nii.gz'
        fname_indices = 'indices.nii.gz'
        fname_gfa = 'gfa.nii.gz'

        pam.shm_coeff = np.ones((10, 10, 10, 45))
        peaks_to_niftis(pam,
                        fname_shm,
                        fname_dirs,
                        fname_values,
                        fname_indices,
                        fname_gfa,
                        reshape_dirs=False)

        os.path.isfile(fname_shm)
        os.path.isfile(fname_dirs)
        os.path.isfile(fname_values)
        os.path.isfile(fname_indices)
        os.path.isfile(fname_gfa)
コード例 #4
0
ファイル: peaks.py プロジェクト: zhongyi80/dipy
def load_peaks(fname, verbose=False):
    """ Load a PeaksAndMetrics HDF5 file (PAM5)

    Parameters
    ----------
    fname : string
        Filename of PAM5 file.
    verbose : bool
        Print summary information about the loaded file.

    Returns
    -------
    pam : PeaksAndMetrics object
    """

    if os.path.splitext(fname)[1].lower() != '.pam5':
        raise IOError('This function supports only PAM5 (HDF5) files')

    f = h5py.File(fname, 'r')

    pam = PeaksAndMetrics()

    pamh = f['pam']

    version = f.attrs['version']

    if version != '0.0.1':
        raise IOError('Incorrect PAM5 file version {0}'.format(version,))

    try:
        affine = pamh['affine'][:]
    except KeyError:
        affine = None

    peak_dirs = pamh['peak_dirs'][:]
    peak_values = pamh['peak_values'][:]
    peak_indices = pamh['peak_indices'][:]

    try:
        shm_coeff = pamh['shm_coeff'][:]
    except KeyError:
        shm_coeff = None

    sphere_vertices = pamh['sphere_vertices'][:]

    try:
        odf = pamh['odf'][:]
    except KeyError:
        odf = None

    pam.affine = affine
    pam.peak_dirs = peak_dirs
    pam.peak_values = peak_values
    pam.peak_indices = peak_indices
    pam.shm_coeff = shm_coeff
    pam.sphere = Sphere(xyz=sphere_vertices)
    pam.B = pamh['B'][:]
    pam.total_weight = pamh['total_weight'][:][0]
    pam.ang_thr = pamh['ang_thr'][:][0]
    pam.gfa = pamh['gfa'][:]
    pam.qa = pamh['qa'][:]
    pam.odf = odf

    f.close()

    if verbose:
        print('PAM5 version')
        print(version)
        print('Affine')
        print(pam.affine)
        print('Dirs shape')
        print(pam.peak_dirs.shape)
        print('SH shape')
        if pam.shm_coeff is not None:
            print(pam.shm_coeff.shape)
        else:
            print('None')
        print('ODF shape')
        if pam.odf is not None:
            print(pam.odf.shape)
        else:
            print('None')
        print('Total weight')
        print(pam.total_weight)
        print('Angular threshold')
        print(pam.ang_thr)
        print('Sphere vertices shape')
        print(pam.sphere.vertices.shape)

    return pam
コード例 #5
0
ファイル: test_io_peaks.py プロジェクト: StongeEtienne/dipy
def test_io_peaks():
    with InTemporaryDirectory():
        fname = 'test.pam5'

        sphere = get_sphere('repulsion724')

        pam = PeaksAndMetrics()
        pam.affine = np.eye(4)
        pam.peak_dirs = np.random.rand(10, 10, 10, 5, 3)
        pam.peak_values = np.zeros((10, 10, 10, 5))
        pam.peak_indices = np.zeros((10, 10, 10, 5))
        pam.shm_coeff = np.zeros((10, 10, 10, 45))
        pam.sphere = sphere
        pam.B = np.zeros((45, sphere.vertices.shape[0]))
        pam.total_weight = 0.5
        pam.ang_thr = 60
        pam.gfa = np.zeros((10, 10, 10))
        pam.qa = np.zeros((10, 10, 10, 5))
        pam.odf = np.zeros((10, 10, 10, sphere.vertices.shape[0]))

        save_peaks(fname, pam)
        pam2 = load_peaks(fname, verbose=True)
        npt.assert_array_equal(pam.peak_dirs, pam2.peak_dirs)

        pam2.affine = None

        fname2 = 'test2.pam5'
        save_peaks(fname2, pam2, np.eye(4))
        pam2_res = load_peaks(fname2, verbose=True)
        npt.assert_array_equal(pam.peak_dirs, pam2_res.peak_dirs)

        pam3 = load_peaks(fname2, verbose=False)

        for attr in ['peak_dirs', 'peak_values', 'peak_indices',
                     'gfa', 'qa', 'shm_coeff', 'B', 'odf']:
            npt.assert_array_equal(getattr(pam3, attr),
                                   getattr(pam, attr))

        npt.assert_equal(pam3.total_weight, pam.total_weight)
        npt.assert_equal(pam3.ang_thr, pam.ang_thr)
        npt.assert_array_almost_equal(pam3.sphere.vertices,
                                      pam.sphere.vertices)

        fname3 = 'test3.pam5'
        pam4 = PeaksAndMetrics()
        npt.assert_raises(ValueError, save_peaks, fname3, pam4)

        fname4 = 'test4.pam5'
        del pam.affine
        save_peaks(fname4, pam, affine=None)

        fname5 = 'test5.pkm'
        npt.assert_raises(IOError, save_peaks, fname5, pam)

        pam.affine = np.eye(4)
        fname6 = 'test6.pam5'
        save_peaks(fname6, pam, verbose=True)

        del pam.shm_coeff
        save_peaks(fname6, pam, verbose=False)

        pam.shm_coeff = np.zeros((10, 10, 10, 45))
        del pam.odf
        save_peaks(fname6, pam)
        pam_tmp = load_peaks(fname6, True)
        npt.assert_equal(pam_tmp.odf, None)

        fname7 = 'test7.paw'
        npt.assert_raises(IOError, load_peaks, fname7)

        del pam.shm_coeff
        save_peaks(fname6, pam, verbose=True)

        fname_shm = 'shm.nii.gz'
        fname_dirs = 'dirs.nii.gz'
        fname_values = 'values.nii.gz'
        fname_indices = 'indices.nii.gz'
        fname_gfa = 'gfa.nii.gz'

        pam.shm_coeff = np.ones((10, 10, 10, 45))
        peaks_to_niftis(pam, fname_shm, fname_dirs, fname_values,
                        fname_indices, fname_gfa, reshape_dirs=False)

        os.path.isfile(fname_shm)
        os.path.isfile(fname_dirs)
        os.path.isfile(fname_values)
        os.path.isfile(fname_indices)
        os.path.isfile(fname_gfa)
コード例 #6
0
ファイル: peaks.py プロジェクト: gauvinalexandre/dipy
def load_peaks(fname, verbose=False):
    """ Load a PeaksAndMetrics HDF5 file (PAM5)

    Parameters
    ----------
    fname : string
        Filename of PAM5 file.
    verbose : bool
        Print summary information about the loaded file.

    Returns
    -------
    pam : PeaksAndMetrics object
    """

    if os.path.splitext(fname)[1] != '.pam5':
        raise IOError('This function supports only PAM5 (HDF5) files')

    if TABLES_LESS_3_0:
        func_open_file = tables.openFile
    else:
        func_open_file = tables.open_file

    f = func_open_file(fname, 'r')

    pam = PeaksAndMetrics()

    pamh = f.root.pam

    version = f.root.version[0].decode()

    if version != '0.0.1':
        raise IOError('Incorrect PAM5 file version')

    try:
        affine = pamh.affine[:]
    except tables.NoSuchNodeError:
        affine = None

    peak_dirs = pamh.peak_dirs[:]
    peak_values = pamh.peak_values[:]
    peak_indices = pamh.peak_indices[:]

    try:
        shm_coeff = pamh.shm_coeff[:]
    except tables.NoSuchNodeError:
        shm_coeff = None

    sphere_vertices = pamh.sphere_vertices[:]

    try:
        odf = pamh.odf[:]
    except tables.NoSuchNodeError:
        odf = None

    pam.affine = affine
    pam.peak_dirs = peak_dirs
    pam.peak_values = peak_values
    pam.peak_indices = peak_indices
    pam.shm_coeff = shm_coeff
    pam.sphere = Sphere(xyz=sphere_vertices)
    pam.B = pamh.B[:]
    pam.total_weight = pamh.total_weight[:][0]
    pam.ang_thr = pamh.ang_thr[:][0]
    pam.gfa = pamh.gfa[:]
    pam.qa = pamh.qa[:]
    pam.odf = odf

    f.close()

    if verbose:
        print('PAM5 version')
        print(version)
        print('Affine')
        print(pam.affine)
        print('Dirs shape')
        print(pam.peak_dirs.shape)
        print('SH shape')
        if pam.shm_coeff is not None:
            print(pam.shm_coeff.shape)
        else:
            print('None')
        print('ODF shape')
        if pam.odf is not None:
            print(pam.odf.shape)
        else:
            print('None')
        print('Total weight')
        print(pam.total_weight)
        print('Angular threshold')
        print(pam.ang_thr)
        print('Sphere vertices shape')
        print(pam.sphere.vertices.shape)

    return pam
コード例 #7
0
def load_peaks(fname, verbose=False):
    """ Load a PeaksAndMetrics HDF5 file (PAM5)

    Parameters
    ----------
    fname : string
        Filename of PAM5 file.
    verbose : bool
        Print summary information about the loaded file.

    Returns
    -------
    pam : PeaksAndMetrics object
    """

    if os.path.splitext(fname)[1] != '.pam5':
        raise IOError('This function supports only PAM5 (HDF5) files')

    if TABLES_LESS_3_0:
        func_open_file = tables.openFile
    else:
        func_open_file = tables.open_file

    f = func_open_file(fname, 'r')

    pam = PeaksAndMetrics()

    pamh = f.root.pam

    version = f.root.version[0].decode()

    if version != '0.0.1':
        raise IOError('Incorrect PAM5 file version')

    try:
        affine = pamh.affine[:]
    except tables.NoSuchNodeError:
        affine = None

    peak_dirs = pamh.peak_dirs[:]
    peak_values = pamh.peak_values[:]
    peak_indices = pamh.peak_indices[:]

    try:
        shm_coeff = pamh.shm_coeff[:]
    except tables.NoSuchNodeError:
        shm_coeff = None

    sphere_vertices = pamh.sphere_vertices[:]

    try:
        odf = pamh.odf[:]
    except tables.NoSuchNodeError:
        odf = None

    pam.affine = affine
    pam.peak_dirs = peak_dirs
    pam.peak_values = peak_values
    pam.peak_indices = peak_indices
    pam.shm_coeff = shm_coeff
    pam.sphere = Sphere(xyz=sphere_vertices)
    pam.B = pamh.B[:]
    pam.total_weight = pamh.total_weight[:][0]
    pam.ang_thr = pamh.ang_thr[:][0]
    pam.gfa = pamh.gfa[:]
    pam.qa = pamh.qa[:]
    pam.odf = odf

    f.close()

    if verbose:
        print('PAM5 version')
        print(version)
        print('Affine')
        print(pam.affine)
        print('Dirs shape')
        print(pam.peak_dirs.shape)
        print('SH shape')
        if pam.shm_coeff is not None:
            print(pam.shm_coeff.shape)
        else:
            print('None')
        print('ODF shape')
        if pam.odf is not None:
            print(pam.odf.shape)
        else:
            print('None')
        print('Total weight')
        print(pam.total_weight)
        print('Angular threshold')
        print(pam.ang_thr)
        print('Sphere vertices shape')
        print(pam.sphere.vertices.shape)

    return pam