Пример #1
0
def test_skybox():
    # Test scene created without skybox
    scene = window.Scene()
    npt.assert_warns(UserWarning, scene.skybox)
    # Test removing automatically shown skybox
    test_tex = Texture()
    test_tex.CubeMapOn()
    checker_arr = np.array([[1, 0], [0, 1]], dtype=np.uint8) * 255
    for i in range(6):
        vtk_img = ImageData()
        vtk_img.SetDimensions(2, 2, 1)
        img_arr = np.zeros((2, 2, 3), dtype=np.uint8)
        img_arr[:, :, i // 2] = checker_arr
        vtk_arr = numpy_support.numpy_to_vtk(img_arr.reshape((-1, 3),
                                                             order='F'))
        vtk_arr.SetName('Image')
        img_point_data = vtk_img.GetPointData()
        img_point_data.AddArray(vtk_arr)
        img_point_data.SetActiveScalars('Image')
        test_tex.SetInputDataObject(i, vtk_img)
    scene = window.Scene(skybox=test_tex)
    report = window.analyze_scene(scene)
    npt.assert_equal(report.actors, 1)
    ss = window.snapshot(scene)
    npt.assert_array_equal(ss[75, 75, :], [0, 0, 255])
    npt.assert_array_equal(ss[75, 225, :], [0, 0, 0])
    scene.yaw(90)
    ss = window.snapshot(scene)
    npt.assert_array_equal(ss[75, 75, :], [255, 0, 0])
    npt.assert_array_equal(ss[75, 225, :], [0, 0, 0])
    scene.pitch(90)
    ss = window.snapshot(scene)
    npt.assert_array_equal(ss[75, 75, :], [0, 0, 0])
    npt.assert_array_equal(ss[75, 225, :], [0, 255, 0])
    # Test skybox is not added twice
    scene.skybox()
    report = window.analyze_scene(scene)
    npt.assert_equal(report.actors, 1)
    # Test make skybox invisible
    scene.skybox(visible=False)
    report = window.analyze_scene(scene)
    npt.assert_equal(report.actors, 0)
    ss = window.snapshot(scene)
    npt.assert_array_equal(ss[75, 75, :], [0, 0, 0])
    scene.yaw(90)
    ss = window.snapshot(scene)
    npt.assert_array_equal(ss[75, 75, :], [0, 0, 0])
    scene.pitch(90)
    ss = window.snapshot(scene)
    npt.assert_array_equal(ss[75, 225, :], [0, 0, 0])
    # Test make skybox visible again
    scene.skybox(visible=True)
    report = window.analyze_scene(scene)
    npt.assert_equal(report.actors, 1)
Пример #2
0
def numpy_to_vtk_image_data(array,
                            spacing=(1.0, 1.0, 1.0),
                            origin=(0.0, 0.0, 0.0),
                            deep=True):
    """Convert numpy array to a vtk image data.

    Parameters
    ----------
    array : ndarray
        pixel coordinate and colors values.
    spacing : (float, float, float) (optional)
        sets the size of voxel (unit of space in each direction x,y,z)
    origin : (float, float, float) (optional)
        sets the origin at the given point
    deep : bool (optional)
        decides the type of copy(ie. deep or shallow)

    Returns
    -------
    vtk_image : vtkImageData

    """
    if array.ndim not in [2, 3]:
        raise IOError("only 2D (L, RGB, RGBA) or 3D image available")

    vtk_image = ImageData()
    depth = 1 if array.ndim == 2 else array.shape[2]

    vtk_image.SetDimensions(array.shape[1], array.shape[0], depth)
    vtk_image.SetExtent(0, array.shape[1] - 1, 0, array.shape[0] - 1, 0, 0)
    vtk_image.SetSpacing(spacing)
    vtk_image.SetOrigin(origin)
    temp_arr = np.flipud(array)
    temp_arr = temp_arr.reshape(array.shape[1] * array.shape[0], depth)
    temp_arr = np.ascontiguousarray(temp_arr, dtype=array.dtype)
    vtk_array_type = numpy_support.get_vtk_array_type(array.dtype)
    uchar_array = numpy_support.numpy_to_vtk(temp_arr,
                                             deep=deep,
                                             array_type=vtk_array_type)
    vtk_image.GetPointData().SetScalars(uchar_array)
    return vtk_image
Пример #3
0
def rgb_to_vtk(data):
    """RGB or RGBA images to VTK arrays.

    Parameters
    ----------
    data : ndarray
        Shape can be (X, Y, 3) or (X, Y, 4)

    Returns
    -------
    vtkImageData

    """
    grid = ImageData()
    grid.SetDimensions(data.shape[1], data.shape[0], 1)
    nd = data.shape[-1]
    vtkarr = numpy_support.numpy_to_vtk(
        np.flip(data.swapaxes(0, 1), axis=1).reshape((-1, nd), order='F'))
    vtkarr.SetName('Image')
    grid.GetPointData().AddArray(vtkarr)
    grid.GetPointData().SetActiveScalars('Image')
    grid.GetPointData().Update()
    return grid
Пример #4
0
Файл: io.py Проект: m-agour/fury
def load_image(filename, as_vtktype=False, use_pillow=True):
    """Load an image.

    Parameters
    ----------
    filename: str
        should be png, bmp, jpeg or jpg files
    as_vtktype: bool, optional
        if True, return vtk output otherwise an ndarray. Default False.
    use_pillow: bool, optional
        Use pillow python library to load the files. Default True

    Returns
    -------
    image: ndarray or vtk output
        desired image array

    """
    is_url = filename.lower().startswith('http://') \
        or filename.lower().startswith('https://')

    if is_url:
        image_name = os.path.basename(filename)

        if len(image_name.split('.')) < 2:
            raise IOError(f'{filename} is not a valid image URL')

        urlretrieve(filename, image_name)
        filename = image_name

    if use_pillow:
        with Image.open(filename) as pil_image:
            if pil_image.mode in ['RGBA', 'RGB', 'L']:
                image = np.asarray(pil_image)
            elif pil_image.mode.startswith('I;16'):
                raw = pil_image.tobytes('raw', pil_image.mode)
                dtype = '>u2' if pil_image.mode.endswith('B') else '<u2'
                image = np.frombuffer(raw, dtype=dtype)
                image.reshape(pil_image.size[::-1]).astype('=u2')
            else:
                try:
                    image = pil_image.convert('RGBA')
                except ValueError:
                    raise RuntimeError('Unknown image mode {}'.format(
                        pil_image.mode))
                image = np.asarray(pil_image)
            image = np.flipud(image)

        if as_vtktype:
            if image.ndim not in [2, 3]:
                raise IOError("only 2D (L, RGB, RGBA) or 3D image available")

            vtk_image = ImageData()
            depth = 1 if image.ndim == 2 else image.shape[2]

            # width, height
            vtk_image.SetDimensions(image.shape[1], image.shape[0], depth)
            vtk_image.SetExtent(0, image.shape[1] - 1, 0, image.shape[0] - 1,
                                0, 0)
            vtk_image.SetSpacing(1.0, 1.0, 1.0)
            vtk_image.SetOrigin(0.0, 0.0, 0.0)

            image = image.reshape(image.shape[1] * image.shape[0], depth)
            image = np.ascontiguousarray(image, dtype=image.dtype)
            vtk_array_type = numpy_support.get_vtk_array_type(image.dtype)
            uchar_array = numpy_support.numpy_to_vtk(image,
                                                     deep=True,
                                                     array_type=vtk_array_type)
            vtk_image.GetPointData().SetScalars(uchar_array)
            image = vtk_image

        if is_url:
            os.remove(filename)
        return image

    d_reader = {
        ".png": PNGReader,
        ".bmp": BMPReader,
        ".jpeg": JPEGReader,
        ".jpg": JPEGReader,
        ".tiff": TIFFReader,
        ".tif": TIFFReader
    }

    extension = os.path.splitext(os.path.basename(filename).lower())[1]

    if extension.lower() not in d_reader.keys():
        raise IOError(
            "Impossible to read the file {0}: Unknown extension {1}".format(
                filename, extension))

    reader = d_reader.get(extension)()
    reader.SetFileName(filename)
    reader.Update()
    reader.GetOutput().GetPointData().GetArray(0).SetName("original")

    if not as_vtktype:
        w, h, _ = reader.GetOutput().GetDimensions()
        vtk_array = reader.GetOutput().GetPointData().GetScalars()

        components = vtk_array.GetNumberOfComponents()
        image = numpy_support.vtk_to_numpy(vtk_array).reshape(h, w, components)

    if is_url:
        os.remove(filename)
    return reader.GetOutput() if as_vtktype else image
Пример #5
0
Файл: io.py Проект: m-agour/fury
def save_image(arr,
               filename,
               compression_quality=75,
               compression_type='deflation',
               use_pillow=True):
    """Save a 2d or 3d image.

    Expect an image with the following shape: (H, W) or (H, W, 1) or
    (H, W, 3) or (H, W, 4).

    Parameters
    ----------
    arr : ndarray
        array to save
    filename : string
        should be png, bmp, jpeg or jpg files
    compression_quality : int, optional
        compression_quality for jpeg data.
        0 = Low quality, 100 = High quality
    compression_type : str, optional
        compression type for tiff file
        select between: None, lzw, deflation (default)
    use_pillow : bool, optional
        Use imageio python library to save the files.

    """
    if arr.ndim > 3:
        raise IOError("Image Dimensions should be <=3")

    d_writer = {
        ".png": PNGWriter,
        ".bmp": BMPWriter,
        ".jpeg": JPEGWriter,
        ".jpg": JPEGWriter,
        ".tiff": TIFFWriter,
        ".tif": TIFFWriter,
    }

    extension = os.path.splitext(os.path.basename(filename).lower())[1]

    if extension.lower() not in d_writer.keys():
        raise IOError(
            "Impossible to save the file {0}: Unknown extension {1}".format(
                filename, extension))

    if use_pillow:
        arr = np.flipud(arr)
        im = Image.fromarray(arr)
        im.save(filename, quality=compression_quality)
        return

    if arr.ndim == 2:
        arr = arr[..., None]

    shape = arr.shape
    if extension.lower() in [
            '.png',
    ]:
        arr = arr.astype(np.uint8)
    arr = arr.reshape((shape[1] * shape[0], shape[2]))
    arr = np.ascontiguousarray(arr, dtype=arr.dtype)
    vtk_array_type = numpy_support.get_vtk_array_type(arr.dtype)
    vtk_array = numpy_support.numpy_to_vtk(num_array=arr,
                                           deep=True,
                                           array_type=vtk_array_type)

    # Todo, look the following link for managing png 16bit
    # https://stackoverflow.com/questions/15667947/vtkpngwriter-printing-out-black-images
    vtk_data = ImageData()
    vtk_data.SetDimensions(shape[1], shape[0], shape[2])
    vtk_data.SetExtent(0, shape[1] - 1, 0, shape[0] - 1, 0, 0)
    vtk_data.SetSpacing(1.0, 1.0, 1.0)
    vtk_data.SetOrigin(0.0, 0.0, 0.0)
    vtk_data.GetPointData().SetScalars(vtk_array)

    writer = d_writer.get(extension)()
    writer.SetFileName(filename)
    writer.SetInputData(vtk_data)
    if extension.lower() in [".jpg", ".jpeg"]:
        writer.ProgressiveOn()
        writer.SetQuality(compression_quality)
    if extension.lower() in [".tif", ".tiff"]:
        compression_type = compression_type or 'nocompression'
        l_compression = ['nocompression', 'packbits', 'jpeg', 'deflate', 'lzw']

        if compression_type.lower() in l_compression:
            comp_id = l_compression.index(compression_type.lower())
            writer.SetCompression(comp_id)
        else:
            writer.SetCompressionToDeflate()
    writer.Write()
Пример #6
0
def test_scene():
    scene = window.Scene()
    # Scene size test
    npt.assert_equal(scene.size(), (0, 0))
    # Color background test
    # Background color for scene (1, 0.5, 0). 0.001 added here to remove
    # numerical errors when moving from float to int values
    bg_float = (1, 0.501, 0)
    # That will come in the image in the 0-255 uint scale
    bg_color = tuple((np.round(255 * np.array(bg_float))).astype('uint8'))
    scene.background(bg_float)
    arr = window.snapshot(scene)
    report = window.analyze_snapshot(arr, bg_color=bg_color,
                                     colors=[bg_color, (0, 127, 0)])
    npt.assert_equal(report.objects, 0)
    npt.assert_equal(report.colors_found, [True, False])
    # Add actor to scene to test the remove actor function by analyzing a
    # snapshot
    axes = actor.axes()
    scene.add(axes)
    arr = window.snapshot(scene)
    report = window.analyze_snapshot(arr, bg_color)
    npt.assert_equal(report.objects, 1)
    # Test remove actor function by analyzing a snapshot
    scene.rm(axes)
    arr = window.snapshot(scene)
    report = window.analyze_snapshot(arr, bg_color)
    npt.assert_equal(report.objects, 0)
    # Add actor to scene to test the remove all actors function by analyzing a
    # snapshot
    scene.add(axes)
    arr = window.snapshot(scene)
    report = window.analyze_snapshot(arr, bg_color)
    npt.assert_equal(report.objects, 1)
    # Test remove all actors function by analyzing a snapshot
    scene.rm_all()
    arr = window.snapshot(scene)
    report = window.analyze_snapshot(arr, bg_color)
    npt.assert_equal(report.objects, 0)
    # Test change background color from scene by analyzing the scene
    ren2 = window.Scene(bg_float)
    ren2.background((0, 0, 0.))
    report = window.analyze_scene(ren2)
    npt.assert_equal(report.bg_color, (0, 0, 0))
    # Add actor to scene to test the remove actor function by analyzing the
    # scene
    ren2.add(axes)
    report = window.analyze_scene(ren2)
    npt.assert_equal(report.actors, 1)
    # Test remove actor function by analyzing the scene
    ren2.rm(axes)
    report = window.analyze_scene(ren2)
    npt.assert_equal(report.actors, 0)
    # Test camera information retrieving
    with captured_output() as (out, err):
        scene.camera_info()
    npt.assert_equal(out.getvalue().strip(),
                     '# Active Camera\n   '
                     'Position (0.00, 0.00, 1.00)\n   '
                     'Focal Point (0.00, 0.00, 0.00)\n   '
                     'View Up (0.00, 1.00, 0.00)')
    npt.assert_equal(err.getvalue().strip(), '')
    # Test skybox
    scene = window.Scene()
    npt.assert_equal(scene.GetUseImageBasedLighting(), False)
    npt.assert_equal(scene.GetAutomaticLightCreation(), 1)
    npt.assert_equal(scene.GetSphericalHarmonics(), None)
    npt.assert_equal(scene.GetEnvironmentTexture(), None)
    test_tex = Texture()
    scene = window.Scene(skybox=test_tex)
    npt.assert_equal(scene.GetUseImageBasedLighting(), True)
    npt.assert_equal(scene.GetAutomaticLightCreation(), 0)
    npt.assert_equal(scene.GetSphericalHarmonics(), None)
    npt.assert_equal(scene.GetEnvironmentTexture(), test_tex)
    # Test automatically shown skybox
    test_tex = Texture()
    test_tex.CubeMapOn()
    checker_arr = np.array([[1, 0], [0, 1]], dtype=np.uint8) * 255
    for i in range(6):
        vtk_img = ImageData()
        vtk_img.SetDimensions(2, 2, 1)
        img_arr = np.zeros((2, 2, 3), dtype=np.uint8)
        img_arr[:, :, i // 2] = checker_arr
        vtk_arr = numpy_support.numpy_to_vtk(img_arr.reshape((-1, 3),
                                                             order='F'))
        vtk_arr.SetName('Image')
        img_point_data = vtk_img.GetPointData()
        img_point_data.AddArray(vtk_arr)
        img_point_data.SetActiveScalars('Image')
        test_tex.SetInputDataObject(i, vtk_img)
    scene = window.Scene(skybox=test_tex)
    report = window.analyze_scene(scene)
    npt.assert_equal(report.actors, 1)
    ss = window.snapshot(scene)
    npt.assert_array_equal(ss[75, 75, :], [0, 0, 255])
    npt.assert_array_equal(ss[75, 225, :], [0, 0, 0])
    scene.yaw(90)
    ss = window.snapshot(scene)
    npt.assert_array_equal(ss[75, 75, :], [255, 0, 0])
    npt.assert_array_equal(ss[75, 225, :], [0, 0, 0])
    scene.pitch(90)
    ss = window.snapshot(scene)
    npt.assert_array_equal(ss[75, 75, :], [0, 0, 0])
    npt.assert_array_equal(ss[75, 225, :], [0, 255, 0])