Exemple #1
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def test_nrrd_dwi_roundtrip(test_nrrd_path):
    """DWI NRRD round-trip test
    - loads and saves a NRRD file via Slicer's I/O, twice
    - checks the node values against the original file each time
    """

    import tempfile

    # load and re-save NRRD once
    storagenode1 = slicer.vtkMRMLNRRDStorageNode()
    storagenode1.SetFileName(test_nrrd_path)
    dw_node1 = slicer.vtkMRMLDiffusionWeightedVolumeNode()
    storagenode1.ReadData(dw_node1)
    __f_tmp_nrrd1 = tempfile.NamedTemporaryFile(suffix=".nhdr",
                                                dir=tmp_dir,
                                                delete=False)
    tmp_nrrd1 = __f_tmp_nrrd1.name
    storagenode1.SetFileName(tmp_nrrd1)
    storagenode1.WriteData(dw_node1)

    parsed_nrrd2, dw_node2 = test_nrrd_dwi_load(test_nrrd_path, tmp_nrrd1)

    # re-save NRRD again
    storagenode2 = slicer.vtkMRMLNRRDStorageNode()
    __f_tmp_nrrd2 = tempfile.NamedTemporaryFile(suffix=".nhdr",
                                                dir=tmp_dir,
                                                delete=False)
    tmp_nrrd2 = __f_tmp_nrrd2.name
    storagenode2.SetFileName(tmp_nrrd2)
    storagenode2.WriteData(dw_node2)

    # test twice-saved file against original NRRD
    parsed_nrrd3, dw_node3 = test_nrrd_dwi_load(test_nrrd_path, tmp_nrrd2)
def test_nrrd_dwi_roundtrip(test_nrrd_path):
    """DWI NRRD round-trip test
    - loads and saves a NRRD file via Slicer's I/O, twice
    - checks the node values against the original file each time
    """

    import tempfile

    # load and re-save NRRD once
    storagenode1 = slicer.vtkMRMLNRRDStorageNode()
    storagenode1.SetFileName(test_nrrd_path)
    dw_node1 = slicer.vtkMRMLDiffusionWeightedVolumeNode()
    storagenode1.ReadData(dw_node1)
    __f_tmp_nrrd1 = tempfile.NamedTemporaryFile(suffix=".nhdr", dir=tmp_dir, delete=False)
    tmp_nrrd1 = __f_tmp_nrrd1.name
    storagenode1.SetFileName(tmp_nrrd1)
    storagenode1.WriteData(dw_node1)

    parsed_nrrd2, dw_node2 = test_nrrd_dwi_load(test_nrrd_path, tmp_nrrd1)

    # re-save NRRD again
    storagenode2 = slicer.vtkMRMLNRRDStorageNode()
    __f_tmp_nrrd2 = tempfile.NamedTemporaryFile(suffix=".nhdr", dir=tmp_dir, delete=False)
    tmp_nrrd2 = __f_tmp_nrrd2.name
    storagenode2.SetFileName(tmp_nrrd2)
    storagenode2.WriteData(dw_node2)

    # test twice-saved file against original NRRD
    parsed_nrrd3, dw_node3 = test_nrrd_dwi_load(test_nrrd_path, tmp_nrrd2)
Exemple #3
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 def computeSingleColormap(self, inputScan, inputSegmentation, CLIname,
                           valueDict, outputName):
     parameters = dict(valueDict)
     parameters["inputVolume"] = inputScan
     parameters["inputMask"] = inputSegmentation
     volumeNode = slicer.vtkMRMLDiffusionWeightedVolumeNode()
     slicer.mrmlScene.AddNode(volumeNode)
     displayNode = slicer.vtkMRMLDiffusionWeightedVolumeDisplayNode()
     slicer.mrmlScene.AddNode(displayNode)
     colorNode = slicer.util.getNode('Rainbow')
     displayNode.SetAndObserveColorNodeID(colorNode.GetID())
     volumeNode.SetAndObserveDisplayNodeID(displayNode.GetID())
     volumeNode.SetName(outputName)
     parameters["outputVolume"] = volumeNode
     slicer.cli.run(CLIname, None, parameters, wait_for_completion=False)
Exemple #4
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    def run_extract_to_bvals(tempdata, args):
        """
    returns array of bvalues
    """
        print("ExtractDWIShell runtests, running: " + repr(args))

        proc = subprocess.Popen(args)
        proc.wait()

        if proc.returncode != 0:
            print("ExtractDWIShells failed!")
            sys.exit(-1)

        # load NRRD into Slicer
        sn = slicer.vtkMRMLNRRDStorageNode()
        sn.SetFileName(tempdata)
        dw_node = slicer.vtkMRMLDiffusionWeightedVolumeNode()
        sn.ReadData(dw_node)

        bvals = vtk.util.numpy_support.vtk_to_numpy(dw_node.GetBValues())
        return bvals
Exemple #5
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def test_nrrd_dwi_load(first_file, second_file=None):
    """
    - load a DWI NRRD file into Slicer
    - validate b values and gradient vectors against original header
        - check the values in the vtkMRMLDiffusionWeightedVolumeNode
        - check the values in the vtkMRMLDWVNode attribute dictionary
    """
    if second_file is None:
        second_file = first_file

    # load NRRD into Slicer
    storagenode = slicer.vtkMRMLNRRDStorageNode()
    storagenode.SetFileName(first_file)
    dw_node = slicer.vtkMRMLDiffusionWeightedVolumeNode()
    storagenode.ReadData(dw_node)

    slicer_grads = numpy_support.vtk_to_numpy(dw_node.GetDiffusionGradients())
    slicer_numgrads = slicer_grads.shape[0]

    # load NRRD with pure-python parser
    parsed_nrrd = parse_nhdr(second_file)

    ##################################
    # 1) check the number of gradients

    assert (len(parsed_nrrd.gradients) == slicer_numgrads)

    ##################################
    # 2) check the node b values and gradients are correct

    # Note: vtkDataArray.GetMaxNorm gives max for scalar array.
    # max b value from the node
    nose.tools.assert_equal(parsed_nrrd.bvalue,
                            dw_node.GetBValues().GetMaxNorm())

    max_parsed_grad_norm = np.max(
        np.apply_along_axis(np.linalg.norm, 1, parsed_nrrd.gradients))

    for i in range(0, slicer_numgrads):
        g_parsed_raw = parsed_nrrd.gradients[i]
        g_parsed_normed = normalize(g_parsed_raw)

        bval_parsed = parsed_nrrd.bvalue * pow(
            np.linalg.norm(g_parsed_raw) / max_parsed_grad_norm, 2)
        np.testing.assert_almost_equal(
            bval_parsed,
            dw_node.GetBValue(i),
            decimal=7,
            err_msg="MRMLNode b value does not match NRRD header")

        g_from_node = slicer_grads[i, :]

        # gradients stored in the vtkMRMLDiffusionWeightedVolumeNode must be *normalized*.
        np.testing.assert_allclose(np.linalg.norm(g_parsed_normed -
                                                  g_from_node),
                                   0.0,
                                   atol=1e-15)

    # b value from the node attribute dictionary
    np.testing.assert_equal(parsed_nrrd.bvalue,
                            float(dw_node.GetAttribute("DWMRI_b-value")))

    # 3) check gradients in the node attribute dictionary
    #    gradients must match the value on-disk.
    for i in range(0, slicer_numgrads):
        grad_key = f"DWMRI_gradient_{i:04d}"
        parsed_gradient = np.fromstring(parsed_nrrd.header[grad_key],
                                        count=3,
                                        sep=' ',
                                        dtype=np.float64)
        attr_gradient = np.fromstring(dw_node.GetAttribute(grad_key),
                                      count=3,
                                      sep=' ',
                                      dtype=np.float64)

        np.testing.assert_array_almost_equal(
            parsed_gradient,
            attr_gradient,
            decimal=12,
            err_msg=
            "NHDR gradient does not match gradient in node attribute dictionary"
        )

    return (parsed_nrrd, dw_node)
def test_nrrd_dwi_load(first_file, second_file=None):
    """
    - load a DWI NRRD file into Slicer
    - validate b values and gradient vectors against original header
        - check the values in the vtkMRMLDiffusionWeightedVolumeNode
        - check the values in the vtkMRMLDWVNode attribute dictionary
    """
    if second_file is None:
        second_file = first_file

    # load NRRD into Slicer
    storagenode = slicer.vtkMRMLNRRDStorageNode()
    storagenode.SetFileName(first_file)
    dw_node = slicer.vtkMRMLDiffusionWeightedVolumeNode()
    storagenode.ReadData(dw_node)

    slicer_grads = numpy_support.vtk_to_numpy(dw_node.GetDiffusionGradients())
    slicer_numgrads = slicer_grads.shape[0]

    # load NRRD with pure-python parser
    parsed_nrrd = parse_nhdr(second_file)

    ##################################
    # 1) check the number of gradients

    assert( len(parsed_nrrd.gradients) == slicer_numgrads )

    ##################################
    # 2) check the node b values and gradients are correct

    # Note: vtkDataArray.GetMaxNorm gives max for scalar array.
    # max b value from the node
    nose.tools.assert_equal(parsed_nrrd.bvalue, dw_node.GetBValues().GetMaxNorm())

    max_parsed_grad_norm = np.max(np.apply_along_axis(np.linalg.norm, 1, parsed_nrrd.gradients))

    for i in range(0, slicer_numgrads):
        g_parsed_raw = parsed_nrrd.gradients[i]
        g_parsed_normed = normalize(g_parsed_raw)

        bval_parsed = parsed_nrrd.bvalue * pow(np.linalg.norm(g_parsed_raw) / max_parsed_grad_norm, 2)
        np.testing.assert_almost_equal(bval_parsed, dw_node.GetBValue(i), decimal=7,
                                       err_msg="MRMLNode b value does not match NRRD header")

        g_from_node = slicer_grads[i, :]

        # gradients stored in the vtkMRMLDiffusionWeightedVolumeNode must be *normalized*.
        np.testing.assert_allclose(np.linalg.norm(g_parsed_normed - g_from_node), 0.0, atol=1e-15)

    # b value from the node attribute dictionary
    np.testing.assert_equal(parsed_nrrd.bvalue, float(dw_node.GetAttribute("DWMRI_b-value")))

    # 3) check gradients in the node attribute dictionary
    #    gradients must match the value on-disk.
    for i in range(0, slicer_numgrads):
        grad_key = "DWMRI_gradient_{:04d}".format(i)
        parsed_gradient = np.fromstring(parsed_nrrd.header[grad_key], count=3, sep=' ', dtype=np.float64)
        attr_gradient =   np.fromstring(dw_node.GetAttribute(grad_key), count=3, sep=' ', dtype=np.float64)

        np.testing.assert_array_almost_equal(parsed_gradient, attr_gradient, decimal=12,
                                             err_msg="NHDR gradient does not match gradient in node attribute dictionary")

    return (parsed_nrrd, dw_node)