コード例 #1
0
ファイル: Testing.py プロジェクト: neuzhong/VTK
class vtkTest(unittest.TestCase):
    """A simple default VTK test class that defines a few useful
    blackbox tests that can be readily used.  Derive your test cases
    from this class and use the following if you'd like to.

    Note: Unittest instantiates this class (or your subclass) each
    time it tests a method.  So if you do not want that to happen when
    generating VTK pipelines you should create the pipeline in the
    class definition as done below for _blackbox.
    """

    _blackbox = BlackBox.Tester(debug=0)

    # Due to what seems to be a bug in python some objects leak.
    # Avoid the exit-with-error in vtkDebugLeaks.
    dl = vtk.vtkDebugLeaks()
    dl.SetExitError(0)
    dl = None

    def _testParse(self, obj):
        """Does a blackbox test by attempting to parse the class for
        its various methods using vtkMethodParser.  This is a useful
        test because it gets all the methods of the vtkObject, parses
        them and sorts them into different classes of objects."""
        self._blackbox.testParse(obj)

    def _testGetSet(self, obj, excluded_methods=[]):
        """Checks the Get/Set method pairs by setting the value using
        the current state and making sure that it equals the value it
        was originally.  This effectively calls _testParse
        internally. """
        self._blackbox.testGetSet(obj, excluded_methods)

    def _testBoolean(self, obj, excluded_methods=[]):
        """Checks the Boolean methods by setting the value on and off
        and making sure that the GetMethod returns the the set value.
        This effectively calls _testParse internally. """
        self._blackbox.testBoolean(obj, excluded_methods)
コード例 #2
0
ファイル: largeImageParallel.py プロジェクト: 151706061/VTK
ren.GetActiveCamera().SetPosition(0,1,0)
ren.GetActiveCamera().SetFocalPoint(0,0,0)
ren.GetActiveCamera().SetViewUp(0,0,1)
#
# let the renderer compute good position and focal point
#
ren.ResetCamera()
ren.GetActiveCamera().Zoom(1.4)
ren1.ResetCameraClippingRange()
# render the large image
#
renderLarge = vtk.vtkRenderLargeImage()
renderLarge.SetInput(ren1)
renderLarge.SetMagnification(3)
renderLarge.Update()
viewer = vtk.vtkImageViewer()
viewer.SetInputConnection(renderLarge.GetOutputPort())
viewer.SetColorWindow(255)
viewer.SetColorLevel(127.5)
viewer.Render()
# on several opengl X window unix implementations
# multiple context deletes cause errors
# so we leak the renWin1 in this test for unix
if (tcl_platform("platform") == "unix"):
    renWin1.Register(ren1)
    dl = vtk.vtkDebugLeaks()
    dl.SetExitError(0)
    del dl
    pass
# --- end of script --
コード例 #3
0
ファイル: largeImageParallel.py プロジェクト: phhoaiaan/VTK
# let the renderer compute good position and focal point
#
ren.ResetCamera()
ren.GetActiveCamera().Zoom(1.4)
ren1.ResetCameraClippingRange()

# render the large image
#
renderLarge = vtk.vtkRenderLargeImage()
renderLarge.SetInput(ren1)
renderLarge.SetMagnification(3)
renderLarge.Update()

viewer = vtk.vtkImageViewer()
viewer.SetInputConnection(renderLarge.GetOutputPort())
viewer.SetColorWindow(255)
viewer.SetColorLevel(127.5)
viewer.Render()

# on several opengl X window unix implementations
# multiple context deletes cause errors
# so we leak the renWin1 in this test for unix
if renWin1.IsA('vtkXOpenGLRenderWindow'):
    renWin1.Register(ren1)
    dl = vtk.vtkDebugLeaks()
    dl.SetExitError(0)
    del dl

# iren.Initialize()
# iren.Start()
コード例 #4
0
class vtkTest(unittest.TestCase):
    """A simple default VTK test class that defines a few useful
    blackbox tests that can be readily used.  Derive your test cases
    from this class and use the following if you'd like to.

    Note: Unittest instantiates this class (or your subclass) each
    time it tests a method.  So if you do not want that to happen when
    generating VTK pipelines you should create the pipeline in the
    class definition as done below for _blackbox.
    """

    _blackbox = BlackBox.Tester(debug=0)

    # Due to what seems to be a bug in python some objects leak.
    # Avoid the exit-with-error in vtkDebugLeaks.
    dl = vtk.vtkDebugLeaks()
    dl.SetExitError(0)
    dl = None

    def _testParse(self, obj):
        """Does a blackbox test by attempting to parse the class for
        its various methods using vtkMethodParser.  This is a useful
        test because it gets all the methods of the vtkObject, parses
        them and sorts them into different classes of objects."""
        self._blackbox.testParse(obj)

    def _testGetSet(self, obj, excluded_methods=[]):
        """Checks the Get/Set method pairs by setting the value using
        the current state and making sure that it equals the value it
        was originally.  This effectively calls _testParse
        internally. """
        self._blackbox.testGetSet(obj, excluded_methods)

    def _testBoolean(self, obj, excluded_methods=[]):
        """Checks the Boolean methods by setting the value on and off
        and making sure that the GetMethod returns the the set value.
        This effectively calls _testParse internally. """
        self._blackbox.testBoolean(obj, excluded_methods)

    def pathToData(self, filename):
        """Given a filename with no path (i.e., no leading directories
        prepended), return the full path to a file as specified on the
        command line with a '-D' option.

        As an example, if a test is run with "-D /path/to/grid.vtu"
        then calling

            self.pathToData('grid.vtu')

        in your test will return "/path/to/grid.vtu". This is
        useful in combination with ExternalData, where data may be
        staged by CTest to a user-configured directory at build time.

        In order for this method to work, you must specify
        the JUST_VALID option for your test in CMake.
        """
        global VTK_DATA_PATHS
        if not filename:
            return VTK_DATA_PATHS
        for path in VTK_DATA_PATHS:
            if filename == os.path.split(path)[-1]:
                return path
        return filename

    def pathToValidatedOutput(self, filename):
        """Given a filename with no path (i.e., no leading directories
        prepended), return the full path to a file as specified on the
        command line with a '-V' option.

        As an example, if a test is run with
        "-V /path/to/validImage.png" then calling

            self.pathToData('validImage.png')

        in your test will return "/path/to/validImage.png". This is
        useful in combination with ExternalData, where data may be
        staged by CTest to a user-configured directory at build time.

        In order for this method to work, you must specify
        the JUST_VALID option for your test in CMake.
        """
        global VTK_BASELINE_PATHS
        if not filename:
            return VTK_BASELINE_PATHS
        for path in VTK_BASELINE_PATHS:
            if filename == os.path.split(path)[-1]:
                return path
        return filename

    def prepareTestImage(self, interactor, **kwargs):
        import time
        startTime = time.time()
        events = []

        def onKeyPress(caller, eventId):
            print('key is "' + caller.GetKeySym() + '"')
            events.append((time.time() - startTime, eventId, caller.GetKeySym()))

        def onButton(caller, eventId):
            events.append((time.time() - startTime, eventId))

        def onMovement(caller, eventId):
            events.append((time.time() - startTime, eventId, caller.GetEventPosition()))

        interactor.AddObserver(vtk.vtkCommand.KeyPressEvent, onKeyPress)
        interactor.AddObserver(vtk.vtkCommand.LeftButtonPressEvent, onButton)
        interactor.AddObserver(vtk.vtkCommand.LeftButtonReleaseEvent, onButton)
        interactor.AddObserver(vtk.vtkCommand.MouseMoveEvent, onMovement)
        interactor.Start()
        rw = interactor.GetRenderWindow()
        baseline = 'baselineFilename'
        if 'filename' in kwargs:
            # Render an image and save it to the given filename
            w2if = vtk.vtkWindowToImageFilter()
            w2if.ReadFrontBufferOff()
            w2if.SetInput(rw)
            w2if.Update()
            baselineWithPath = kwargs['filename']
            baseline = os.path.split(baselineWithPath)[-1]
            pngw = vtk.vtkPNGWriter()
            pngw.SetFileName(baselineWithPath)
            pngw.SetInputConnection(w2if.GetOutputPort())
            try:
                pngw.Write()
            except RuntimeError:
                w2if.ReadFrontBufferOn()
                pngw.Write()
        rsz = rw.GetSize()
        rrc = rw.GetRenderers()
        rrs = [rrc.GetItemAsObject(i) for i in range(rrc.GetNumberOfItems())]
        eye = [0,0,1]
        aim = [0,0,0]
        up  = [0,1,0]
        if len(rrs) > 0:
            cam = rrs[0].GetActiveCamera()
            eye = cam.GetPosition()
            aim = cam.GetFocalPoint()
            up  = cam.GetViewUp()
        print("""
        Replace prepareTestImage() in your script with the following to make a test:

            camera.SetPosition({eye[0]}, {eye[1]}, {eye[2]})
            camera.SetFocalPoint({aim[0]}, {aim[1]}, {aim[2]})
            camera.SetViewUp({up[0]}, {up[1]}, {up[2]})
            renwin.SetSize({rsz[0]}, {rsz[1]})
            self.assertImageMatch(renwin, '{baseline}')

        Be sure that "renwin" and "camera" are valid variables (or rename them in the
        snippet above) referencing the vtkRenderWindow and vtkCamera, respectively.
        """.format(eye=eye, aim=aim, up=up, rsz=rsz, baseline=baseline))
        return events

    def assertImageMatch(self, renwin, baseline, **kwargs):
        """Throw an error if a rendering in the render window does not match the baseline image.

        This method accepts a threshold keyword argument (with a default of 10)
        that specifies how different a baseline may be before causing a failure.
        """
        absoluteBaseline = baseline
        try:
            open(absoluteBaseline, 'r')
        except:
            absoluteBaseline = getAbsImagePath(baseline)
        compareImage(renwin, absoluteBaseline, **kwargs)