private void RenderRaw() { // Read the file vtkParticleReader reader = vtkParticleReader.New(); reader.SetFileName(m_FileName); reader.SetDataByteOrderToBigEndian(); reader.Update(); //MessageBox.Show("NumberOfPieces: " + reader.GetOutput().GetNumberOfPieces()); // Visualize vtkPolyDataMapper mapper = vtkPolyDataMapper.New(); mapper.SetInputConnection(reader.GetOutputPort()); mapper.SetScalarRange(4, 9); mapper.SetPiece(1); vtkActor actor = vtkActor.New(); actor.SetMapper(mapper); actor.GetProperty().SetPointSize(4); actor.GetProperty().SetColor(1, 0, 0); // add our actor to the renderer m_Renderer.AddActor(actor); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVTestExtrudePiece(String [] argv) { //Prefix Content is: "" disk = new vtkDiskSource(); disk.SetRadialResolution((int)2); disk.SetCircumferentialResolution((int)9); clean = new vtkCleanPolyData(); clean.SetInputConnection((vtkAlgorithmOutput)disk.GetOutputPort()); clean.SetTolerance((double)0.01); piece = new vtkExtractPolyDataPiece(); piece.SetInputConnection((vtkAlgorithmOutput)clean.GetOutputPort()); extrude = new vtkPLinearExtrusionFilter(); extrude.SetInputConnection((vtkAlgorithmOutput)piece.GetOutputPort()); extrude.PieceInvariantOn(); // Create the RenderWindow, Renderer and both Actors[] //[] ren1 = vtkRenderer.New(); renWin = vtkRenderWindow.New(); renWin.AddRenderer((vtkRenderer)ren1); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); mapper = vtkPolyDataMapper.New(); mapper.SetInputConnection((vtkAlgorithmOutput)extrude.GetOutputPort()); mapper.SetNumberOfPieces((int)2); mapper.SetPiece((int)1); bf = new vtkProperty(); bf.SetColor((double)1,(double)0,(double)0); actor = new vtkActor(); actor.SetMapper((vtkMapper)mapper); actor.GetProperty().SetColor((double)1,(double)1,(double)0.8); actor.SetBackfaceProperty((vtkProperty)bf); // Add the actors to the renderer, set the background and size[] //[] ren1.AddActor((vtkProp)actor); ren1.SetBackground((double)0.1,(double)0.2,(double)0.4); renWin.SetSize((int)300,(int)300); // render the image[] //[] cam1 = ren1.GetActiveCamera(); cam1.Azimuth((double)20); cam1.Elevation((double)40); ren1.ResetCamera(); cam1.Zoom((double)1.2); iren.Initialize(); // prevent the tk window from showing up then start the event loop[] //deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVRectOutline(String [] argv) { //Prefix Content is: "" // create pipeline[] //[] reader = new vtkDataSetReader(); reader.SetFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/RectGrid2.vtk"); reader.Update(); // here to force exact extent[] elev = new vtkElevationFilter(); elev.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); outline = new vtkRectilinearGridOutlineFilter(); outline.SetInput((vtkDataObject)elev.GetRectilinearGridOutput()); outlineMapper = vtkPolyDataMapper.New(); outlineMapper.SetInputConnection((vtkAlgorithmOutput)outline.GetOutputPort()); outlineMapper.SetNumberOfPieces((int)2); outlineMapper.SetPiece((int)1); outlineActor = new vtkActor(); outlineActor.SetMapper((vtkMapper)outlineMapper); outlineActor.GetProperty().SetColor((double) 0.0000, 0.0000, 0.0000 ); // Graphics stuff[] // Create the RenderWindow, Renderer and both Actors[] //[] ren1 = vtkRenderer.New(); renWin = vtkRenderWindow.New(); renWin.AddRenderer((vtkRenderer)ren1); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); // Add the actors to the renderer, set the background and size[] //[] ren1.AddActor((vtkProp)outlineActor); ren1.SetBackground((double)1,(double)1,(double)1); renWin.SetSize((int)400,(int)400); cam1 = ren1.GetActiveCamera(); cam1.SetClippingRange((double)3.76213,(double)10.712); cam1.SetFocalPoint((double)-0.0842503,(double)-0.136905,(double)0.610234); cam1.SetPosition((double)2.53813,(double)2.2678,(double)-5.22172); cam1.SetViewUp((double)-0.241047,(double)0.930635,(double)0.275343); iren.Initialize(); // render the image[] //[] // prevent the tk window from showing up then start the event loop[] //deleteAllVTKObjects(); }
private void ParticleReader() { // Path to vtk data must be set as an environment variable // VTK_DATA_ROOT = "C:\VTK\vtkdata-5.8.0" vtkTesting test = vtkTesting.New(); string root = test.GetDataRoot(); string filePath = System.IO.Path.Combine(root, @"Data\Particles.raw"); // Read the file vtkParticleReader reader = vtkParticleReader.New(); reader.SetFileName(filePath); reader.SetDataByteOrderToBigEndian(); reader.Update(); Debug.WriteLine("NumberOfPieces: " + reader.GetOutput().GetNumberOfPieces()); // Visualize vtkPolyDataMapper mapper = vtkPolyDataMapper.New(); mapper.SetInputConnection(reader.GetOutputPort()); mapper.SetScalarRange(4, 9); mapper.SetPiece(1); vtkActor actor = vtkActor.New(); actor.SetMapper(mapper); actor.GetProperty().SetPointSize(4); actor.GetProperty().SetColor(1, 0, 0); // get a reference to the renderwindow of our renderWindowControl1 vtkRenderWindow renderWindow = renderWindowControl1.RenderWindow; // renderer vtkRenderer renderer = renderWindow.GetRenderers().GetFirstRenderer(); // set background color renderer.SetBackground(0.2, 0.3, 0.4); // add our actor to the renderer renderer.AddActor(actor); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVTestPolyDataPieces(String [] argv) { //Prefix Content is: "" math = new vtkMath(); vtkMath.RandomSeed((int)22); pf = new vtkParallelFactory(); vtkParallelFactory.RegisterFactory((vtkObjectFactory)pf); sphere = new vtkSphereSource(); sphere.SetPhiResolution((int)32); sphere.SetThetaResolution((int)32); extract = new vtkExtractPolyDataPiece(); extract.SetInputConnection((vtkAlgorithmOutput)sphere.GetOutputPort()); normals = new vtkPolyDataNormals(); normals.SetInputConnection((vtkAlgorithmOutput)extract.GetOutputPort()); ps = new vtkPieceScalars(); ps.SetInputConnection((vtkAlgorithmOutput)normals.GetOutputPort()); mapper = vtkPolyDataMapper.New(); mapper.SetInputConnection((vtkAlgorithmOutput)ps.GetOutputPort()); mapper.SetNumberOfPieces((int)2); actor = new vtkActor(); actor.SetMapper((vtkMapper)mapper); sphere2 = new vtkSphereSource(); sphere2.SetPhiResolution((int)32); sphere2.SetThetaResolution((int)32); extract2 = new vtkExtractPolyDataPiece(); extract2.SetInputConnection((vtkAlgorithmOutput)sphere2.GetOutputPort()); mapper2 = vtkPolyDataMapper.New(); mapper2.SetInputConnection((vtkAlgorithmOutput)extract2.GetOutputPort()); mapper2.SetNumberOfPieces((int)2); mapper2.SetPiece((int)1); mapper2.SetScalarRange((double)0,(double)4); mapper2.SetScalarModeToUseCellFieldData(); mapper2.SetColorModeToMapScalars(); mapper2.ColorByArrayComponent((string)"vtkGhostLevels",(int)0); mapper2.SetGhostLevel((int)4); // check the pipeline size[] extract2.UpdateInformation(); psize = new vtkPipelineSize(); if ((psize.GetEstimatedSize((vtkAlgorithm)extract2,(int)0,(int)0)) > 100) { //puts skipedputs ['stderr', '"ERROR: Pipeline Size increased"'] } if ((psize.GetNumberOfSubPieces((uint)10,(vtkPolyDataMapper)mapper2)) != 2) { //puts skipedputs ['stderr', '"ERROR: Number of sub pieces changed"'] } actor2 = new vtkActor(); actor2.SetMapper((vtkMapper)mapper2); actor2.SetPosition((double)1.5,(double)0,(double)0); sphere3 = new vtkSphereSource(); sphere3.SetPhiResolution((int)32); sphere3.SetThetaResolution((int)32); extract3 = new vtkExtractPolyDataPiece(); extract3.SetInputConnection((vtkAlgorithmOutput)sphere3.GetOutputPort()); ps3 = new vtkPieceScalars(); ps3.SetInputConnection((vtkAlgorithmOutput)extract3.GetOutputPort()); mapper3 = vtkPolyDataMapper.New(); mapper3.SetInputConnection((vtkAlgorithmOutput)ps3.GetOutputPort()); mapper3.SetNumberOfSubPieces((int)8); mapper3.SetScalarRange((double)0,(double)8); actor3 = new vtkActor(); actor3.SetMapper((vtkMapper)mapper3); actor3.SetPosition((double)0,(double)-1.5,(double)0); sphere4 = new vtkSphereSource(); sphere4.SetPhiResolution((int)32); sphere4.SetThetaResolution((int)32); extract4 = new vtkExtractPolyDataPiece(); extract4.SetInputConnection((vtkAlgorithmOutput)sphere4.GetOutputPort()); ps4 = new vtkPieceScalars(); ps4.RandomModeOn(); ps4.SetScalarModeToCellData(); ps4.SetInputConnection((vtkAlgorithmOutput)extract4.GetOutputPort()); mapper4 = vtkPolyDataMapper.New(); mapper4.SetInputConnection((vtkAlgorithmOutput)ps4.GetOutputPort()); mapper4.SetNumberOfSubPieces((int)8); mapper4.SetScalarRange((double)0,(double)8); actor4 = new vtkActor(); actor4.SetMapper((vtkMapper)mapper4); actor4.SetPosition((double)1.5,(double)-1.5,(double)0); ren = vtkRenderer.New(); ren.AddActor((vtkProp)actor); ren.AddActor((vtkProp)actor2); ren.AddActor((vtkProp)actor3); ren.AddActor((vtkProp)actor4); renWin = vtkRenderWindow.New(); renWin.AddRenderer((vtkRenderer)ren); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); iren.Initialize(); //deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVTestBranchExtentTranslator(String [] argv) { //Prefix Content is: "" gauss = new vtkImageGaussianSource(); gauss.SetWholeExtent((int)0,(int)30,(int)0,(int)30,(int)0,(int)2); gauss.SetCenter((double)18,(double)12,(double)0); gauss.SetMaximum((double)1.0); gauss.SetStandardDeviation((double)6.0); gauss.Update(); translator = new vtkBranchExtentTranslator(); translator.SetOriginalSource((vtkImageData)gauss.GetOutput()); gauss.GetOutput().SetExtentTranslator((vtkExtentTranslator)translator); clip1 = new vtkImageClip(); clip1.SetOutputWholeExtent((int)7,(int)28,(int)0,(int)15,(int)1,(int)1); clip1.SetInputConnection((vtkAlgorithmOutput)gauss.GetOutputPort()); surf1 = new vtkDataSetSurfaceFilter(); surf1.SetInputConnection((vtkAlgorithmOutput)clip1.GetOutputPort()); tf1 = new vtkTriangleFilter(); tf1.SetInputConnection((vtkAlgorithmOutput)surf1.GetOutputPort()); mapper1 = vtkPolyDataMapper.New(); mapper1.SetInputConnection((vtkAlgorithmOutput)tf1.GetOutputPort()); mapper1.SetScalarRange((double)0,(double)1); mapper1.SetNumberOfPieces((int)4); mapper1.SetPiece((int)1); actor1 = new vtkActor(); actor1.SetMapper((vtkMapper)mapper1); actor1.SetPosition((double)0,(double)0,(double)0); // For coverage, a case where all four sides get clipped by the whole extent.[] clip2 = new vtkImageClip(); clip2.SetOutputWholeExtent((int)16,(int)18,(int)3,(int)10,(int)0,(int)0); clip2.SetInputConnection((vtkAlgorithmOutput)gauss.GetOutputPort()); surf2 = new vtkDataSetSurfaceFilter(); surf2.SetInputConnection((vtkAlgorithmOutput)clip2.GetOutputPort()); tf2 = new vtkTriangleFilter(); tf2.SetInputConnection((vtkAlgorithmOutput)surf2.GetOutputPort()); mapper2 = vtkPolyDataMapper.New(); mapper2.SetInputConnection((vtkAlgorithmOutput)tf2.GetOutputPort()); mapper2.SetScalarRange((double)0,(double)1); mapper2.SetNumberOfPieces((int)4); mapper2.SetPiece((int)1); actor2 = new vtkActor(); actor2.SetMapper((vtkMapper)mapper2); actor2.SetPosition((double)15,(double)0,(double)0); // nothing in intersection (empty case)[] clip3 = new vtkImageClip(); clip3.SetOutputWholeExtent((int)1,(int)10,(int)0,(int)15,(int)0,(int)2); clip3.SetInputConnection((vtkAlgorithmOutput)gauss.GetOutputPort()); surf3 = new vtkDataSetSurfaceFilter(); surf3.SetInputConnection((vtkAlgorithmOutput)clip3.GetOutputPort()); tf3 = new vtkTriangleFilter(); tf3.SetInputConnection((vtkAlgorithmOutput)surf3.GetOutputPort()); mapper3 = vtkPolyDataMapper.New(); mapper3.SetInputConnection((vtkAlgorithmOutput)tf3.GetOutputPort()); mapper3.SetScalarRange((double)0,(double)1); mapper3.SetNumberOfPieces((int)4); mapper3.SetPiece((int)1); actor3 = new vtkActor(); actor3.SetMapper((vtkMapper)mapper3); actor3.SetPosition((double)30,(double)0,(double)0); ren = vtkRenderer.New(); ren.AddActor((vtkProp)actor1); ren.AddActor((vtkProp)actor2); ren.AddActor((vtkProp)actor3); renWin = vtkRenderWindow.New(); renWin.AddRenderer((vtkRenderer)ren); //set cam [ren GetActiveCamera][] //ren ResetCamera[] iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); iren.Initialize(); renWin.Render(); // break loop to avoid a memory leak.[] translator.SetOriginalSource(null); //deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVStreamPolyData(String [] argv) { //Prefix Content is: "" NUMBER_OF_PIECES = 5; // Generate implicit model of a sphere[] //[] // Create renderer stuff[] //[] ren1 = vtkRenderer.New(); renWin = vtkRenderWindow.New(); renWin.AddRenderer((vtkRenderer)ren1); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); // create pipeline that handles ghost cells[] sphere = new vtkSphereSource(); sphere.SetRadius((double)3); sphere.SetPhiResolution((int)100); sphere.SetThetaResolution((int)150); // sphere AddObserver StartEvent {tk_messageBox -message "Executing with piece [[sphere GetOutput] GetUpdatePiece]"}[] // Just playing with an alternative that is not currently used.[] //method moved // Just playing with an alternative that is not currently used.[] deci = new vtkDecimatePro(); deci.SetInputConnection((vtkAlgorithmOutput)sphere.GetOutputPort()); // this did not remove seams as I thought it would[] deci.BoundaryVertexDeletionOff(); //deci PreserveTopologyOn[] // Since quadric Clustering does not handle borders properly yet,[] // the pieces will have dramatic "eams"[] q = new vtkQuadricClustering(); q.SetInputConnection((vtkAlgorithmOutput)sphere.GetOutputPort()); q.SetNumberOfXDivisions((int)5); q.SetNumberOfYDivisions((int)5); q.SetNumberOfZDivisions((int)10); q.UseInputPointsOn(); streamer = new vtkPolyDataStreamer(); //streamer SetInputConnection [deci GetOutputPort][] streamer.SetInputConnection((vtkAlgorithmOutput)q.GetOutputPort()); //streamer SetInputConnection [pdn GetOutputPort][] streamer.SetNumberOfStreamDivisions((int)NUMBER_OF_PIECES); mapper = vtkPolyDataMapper.New(); mapper.SetInputConnection((vtkAlgorithmOutput)streamer.GetOutputPort()); mapper.ScalarVisibilityOff(); mapper.SetPiece((int)0); mapper.SetNumberOfPieces((int)2); mapper.ImmediateModeRenderingOn(); actor = new vtkActor(); actor.SetMapper((vtkMapper)mapper); actor.GetProperty().SetColor((double) 0.8300, 0.2400, 0.1000 ); // Add the actors to the renderer, set the background and size[] //[] ren1.GetActiveCamera().SetPosition((double)5,(double)5,(double)10); ren1.GetActiveCamera().SetFocalPoint((double)0,(double)0,(double)0); ren1.AddActor((vtkProp)actor); ren1.SetBackground((double)1,(double)1,(double)1); renWin.SetSize((int)300,(int)300); iren.Initialize(); // render the image[] //[] // prevent the tk window from showing up then start the event loop[] //deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVTestPDataSetReaderGrid(String [] argv) { //Prefix Content is: "" // Create the RenderWindow, Renderer and both Actors[] //[] ren1 = vtkRenderer.New(); renWin = vtkRenderWindow.New(); renWin.AddRenderer((vtkRenderer)ren1); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); //[] // If the current directory is writable, then test the witers[] //[] try { channel = new StreamWriter("test.tmp"); tryCatchError = "NOERROR"; } catch(Exception) { tryCatchError = "ERROR"; } if(tryCatchError.Equals("NOERROR")) { channel.Close(); File.Delete("test.tmp"); // ====== Structured Grid ======[] // First save out a grid in parallel form.[] reader = new vtkMultiBlockPLOT3DReader(); reader.SetXYZFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/combxyz.bin"); reader.SetQFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/combq.bin"); writer = new vtkPDataSetWriter(); writer.SetFileName((string)"comb.pvtk"); writer.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); writer.SetNumberOfPieces((int)4); writer.Write(); pReader = new vtkPDataSetReader(); pReader.SetFileName((string)"comb.pvtk"); surface = new vtkDataSetSurfaceFilter(); surface.SetInputConnection((vtkAlgorithmOutput)pReader.GetOutputPort()); mapper = vtkPolyDataMapper.New(); mapper.SetInputConnection((vtkAlgorithmOutput)surface.GetOutputPort()); mapper.SetNumberOfPieces((int)2); mapper.SetPiece((int)0); mapper.SetGhostLevel((int)1); mapper.Update(); File.Delete("comb.pvtk"); File.Delete("comb.0.vtk"); File.Delete("comb.1.vtk"); File.Delete("comb.2.vtk"); File.Delete("comb.3.vtk"); actor = new vtkActor(); actor.SetMapper((vtkMapper)mapper); actor.SetPosition((double)-5,(double)0,(double)-29); // Add the actors to the renderer, set the background and size[] //[] ren1.AddActor((vtkProp)actor); // ====== ImageData ======[] // First save out a grid in parallel form.[] fractal = new vtkImageMandelbrotSource(); fractal.SetWholeExtent((int)0,(int)9,(int)0,(int)9,(int)0,(int)9); fractal.SetSampleCX((double)0.1,(double)0.1,(double)0.1,(double)0.1); fractal.SetMaximumNumberOfIterations((ushort)10); writer2 = new vtkPDataSetWriter(); writer.SetFileName((string)"fractal.pvtk"); writer.SetInputConnection((vtkAlgorithmOutput)fractal.GetOutputPort()); writer.SetNumberOfPieces((int)4); writer.Write(); pReader2 = new vtkPDataSetReader(); pReader2.SetFileName((string)"fractal.pvtk"); iso = new vtkContourFilter(); iso.SetInputConnection((vtkAlgorithmOutput)pReader2.GetOutputPort()); iso.SetValue((int)0,(double)4); mapper2 = vtkPolyDataMapper.New(); mapper2.SetInputConnection((vtkAlgorithmOutput)iso.GetOutputPort()); mapper2.SetNumberOfPieces((int)3); mapper2.SetPiece((int)0); mapper2.SetGhostLevel((int)0); mapper2.Update(); File.Delete("fractal.pvtk"); File.Delete("fractal.0.vtk"); File.Delete("fractal.1.vtk"); File.Delete("fractal.2.vtk"); File.Delete("fractal.3.vtk"); actor2 = new vtkActor(); actor2.SetMapper((vtkMapper)mapper2); actor2.SetScale((double)5,(double)5,(double)5); actor2.SetPosition((double)6,(double)6,(double)6); // Add the actors to the renderer, set the background and size[] //[] ren1.AddActor((vtkProp)actor2); // ====== PolyData ======[] // First save out a grid in parallel form.[] sphere = new vtkSphereSource(); sphere.SetRadius((double)2); writer3 = new vtkPDataSetWriter(); writer3.SetFileName((string)"sphere.pvtk"); writer3.SetInputConnection((vtkAlgorithmOutput)sphere.GetOutputPort()); writer3.SetNumberOfPieces((int)4); writer3.Write(); pReader3 = new vtkPDataSetReader(); pReader3.SetFileName((string)"sphere.pvtk"); mapper3 = vtkPolyDataMapper.New(); mapper3.SetInputConnection((vtkAlgorithmOutput)pReader3.GetOutputPort()); mapper3.SetNumberOfPieces((int)2); mapper3.SetPiece((int)0); mapper3.SetGhostLevel((int)1); mapper3.Update(); File.Delete("sphere.pvtk"); File.Delete("sphere.0.vtk"); File.Delete("sphere.1.vtk"); File.Delete("sphere.2.vtk"); File.Delete("sphere.3.vtk"); actor3 = new vtkActor(); actor3.SetMapper((vtkMapper)mapper3); actor3.SetPosition((double)6,(double)6,(double)6); // Add the actors to the renderer, set the background and size[] //[] ren1.AddActor((vtkProp)actor3); } ren1.SetBackground((double)0.1,(double)0.2,(double)0.4); renWin.SetSize((int)300,(int)300); // render the image[] //[] cam1 = ren1.GetActiveCamera(); cam1.Azimuth((double)20); cam1.Elevation((double)40); ren1.ResetCamera(); cam1.Zoom((double)1.2); iren.Initialize(); // prevent the tk window from showing up then start the event loop[] //deleteAllVTKObjects(); }