#!/usr/bin/env python """This test ensures that the mapper does not change the LookupTable that may be shared among different mappers. Specifically, the vtkMapper and vtkScalarsToColorsPainter classes use the LookupTable to map scalars to colors. When they do this they set the LookupTable's Alpha ivar. They should do it in a manner that the LUT's original value is reset. If this is not done strange errors show up. For example if you use an ImagePlaneWidget and share its LUT with another mapper that has either a different opacity, then the image plane widget will pick up the wrong opacity leading to subtle errors. This test ensures that this does not happen by testing MapScalars explicitly and also by creating an ImagePlaneWidget. """ import os import os.path import vtk from vtk.test import Testing from vtk.util.misc import vtkGetDataRoot VTK_DATA_ROOT = vtkGetDataRoot() class TestMapperLUT(Testing.vtkTest): def testMapScalars(self): """Test if the mapper sets the Alpha of the LUT.""" # Create dummy data. p = vtk.vtkPolyData() pts = vtk.vtkPoints() pts.InsertNextPoint((0,0,0)) sc = vtk.vtkFloatArray() sc.InsertNextValue(10.0) p.SetPoints(pts) p.GetPointData().SetScalars(sc) l = vtk.vtkLookupTable() m = vtk.vtkPolyDataMapper() m.SetInputData(p) m.SetScalarRange(0.0, 10.0) m.SetLookupTable(l) ret = m.MapScalars(0.5) self.assertEqual(l.GetAlpha(), 1.0) def testImagePlaneWidget(self): "A more rigorous test using the image plane widget." # This test is largely copied from # Widgets/Python/TestImagePlaneWidget.py # Load some data. v16 = vtk.vtkVolume16Reader() v16.SetDataDimensions(64, 64) v16.SetDataByteOrderToLittleEndian() v16.SetFilePrefix(os.path.join(VTK_DATA_ROOT, "Data", "headsq", "quarter")) v16.SetImageRange(1, 93) v16.SetDataSpacing(3.2, 3.2, 1.5) v16.Update() xMin, xMax, yMin, yMax, zMin, zMax = v16.GetExecutive().GetWholeExtent(v16.GetOutputInformation(0)) img_data = v16.GetOutput() spacing = img_data.GetSpacing() sx, sy, sz = spacing origin = img_data.GetOrigin() ox, oy, oz = origin # An outline is shown for context. outline = vtk.vtkOutlineFilter() outline.SetInputData(img_data) outlineMapper = vtk.vtkPolyDataMapper() outlineMapper.SetInputConnection(outline.GetOutputPort()) outlineActor = vtk.vtkActor() outlineActor.SetMapper(outlineMapper) # The shared picker enables us to use 3 planes at one time # and gets the picking order right picker = vtk.vtkCellPicker() picker.SetTolerance(0.005) # The 3 image plane widgets are used to probe the dataset. planeWidgetX = vtk.vtkImagePlaneWidget() planeWidgetX.DisplayTextOn() planeWidgetX.SetInputData(img_data) planeWidgetX.SetPlaneOrientationToXAxes() planeWidgetX.SetSliceIndex(32) planeWidgetX.SetPicker(picker) planeWidgetX.SetKeyPressActivationValue("x") prop1 = planeWidgetX.GetPlaneProperty() prop1.SetColor(1, 0, 0) planeWidgetY = vtk.vtkImagePlaneWidget() planeWidgetY.DisplayTextOn() planeWidgetY.SetInputData(img_data) planeWidgetY.SetPlaneOrientationToYAxes() planeWidgetY.SetSliceIndex(32) planeWidgetY.SetPicker(picker) planeWidgetY.SetKeyPressActivationValue("y") prop2 = planeWidgetY.GetPlaneProperty() prop2.SetColor(1, 1, 0) planeWidgetY.SetLookupTable(planeWidgetX.GetLookupTable()) # for the z-slice, turn off texture interpolation: # interpolation is now nearest neighbour, to demonstrate # cross-hair cursor snapping to pixel centers planeWidgetZ = vtk.vtkImagePlaneWidget() planeWidgetZ.DisplayTextOn() planeWidgetZ.SetInputData(img_data) planeWidgetZ.SetPlaneOrientationToZAxes() planeWidgetZ.SetSliceIndex(46) planeWidgetZ.SetPicker(picker) planeWidgetZ.SetKeyPressActivationValue("z") prop3 = planeWidgetZ.GetPlaneProperty() prop3.SetColor(0, 0, 1) planeWidgetZ.SetLookupTable(planeWidgetX.GetLookupTable()) # Now create another actor with an opacity < 1 and with some # scalars. p = vtk.vtkPolyData() pts = vtk.vtkPoints() pts.InsertNextPoint((0,0,0)) sc = vtk.vtkFloatArray() sc.InsertNextValue(1.0) p.SetPoints(pts) p.GetPointData().SetScalars(sc) m = vtk.vtkPolyDataMapper() m.SetInputData(p) # Share the lookup table of the widgets. m.SetLookupTable(planeWidgetX.GetLookupTable()) m.UseLookupTableScalarRangeOn() dummyActor = vtk.vtkActor() dummyActor.SetMapper(m) dummyActor.GetProperty().SetOpacity(0.0) # Create the RenderWindow and Renderer ren = vtk.vtkRenderer() renWin = vtk.vtkRenderWindow() renWin.SetMultiSamples(0) renWin.AddRenderer(ren) # Add the dummy actor. ren.AddActor(dummyActor) # Add the outline actor to the renderer, set the background # color and size ren.AddActor(outlineActor) renWin.SetSize(600, 600) ren.SetBackground(0.1, 0.1, 0.2) current_widget = planeWidgetZ mode_widget = planeWidgetZ # Set the interactor for the widgets iact = vtk.vtkRenderWindowInteractor() iact.SetRenderWindow(renWin) planeWidgetX.SetInteractor(iact) planeWidgetX.On() planeWidgetY.SetInteractor(iact) planeWidgetY.On() planeWidgetZ.SetInteractor(iact) planeWidgetZ.On() # Create an initial interesting view ren.ResetCamera(); cam1 = ren.GetActiveCamera() cam1.Elevation(110) cam1.SetViewUp(0, 0, -1) cam1.Azimuth(45) ren.ResetCameraClippingRange() iact.Initialize() renWin.Render() if __name__ == "__main__": Testing.main([(TestMapperLUT, 'test')])