/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVEnSightOfficeBin(String [] argv) { //Prefix Content is: "" ren1 = vtkRenderer.New(); renWin = vtkRenderWindow.New(); renWin.AddRenderer((vtkRenderer)ren1); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); // read data[] //[] reader = new vtkGenericEnSightReader(); // Make sure all algorithms use the composite data pipeline[] cdp = new vtkCompositeDataPipeline(); vtkGenericEnSightReader.SetDefaultExecutivePrototype((vtkExecutive)cdp); reader.SetCaseFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/EnSight/office_bin.case"); reader.Update(); // to add coverage for vtkOnePieceExtentTranslator[] translator = new vtkOnePieceExtentTranslator(); vtkStreamingDemandDrivenPipeline.SetExtentTranslator(reader.GetOutputInformation(0), (vtkExtentTranslator)translator); outline = new vtkStructuredGridOutlineFilter(); // outline SetInputConnection [reader GetOutputPort][] outline.SetInputData((vtkDataObject)reader.GetOutput().GetBlock((uint)0)); mapOutline = vtkPolyDataMapper.New(); mapOutline.SetInputConnection((vtkAlgorithmOutput)outline.GetOutputPort()); outlineActor = new vtkActor(); outlineActor.SetMapper((vtkMapper)mapOutline); outlineActor.GetProperty().SetColor((double)0,(double)0,(double)0); // Create source for streamtubes[] streamer = new vtkStreamPoints(); // streamer SetInputConnection [reader GetOutputPort][] streamer.SetInputData((vtkDataObject)reader.GetOutput().GetBlock((uint)0)); streamer.SetStartPosition((double)0.1,(double)2.1,(double)0.5); streamer.SetMaximumPropagationTime((double)500); streamer.SetTimeIncrement((double)0.5); streamer.SetIntegrationDirectionToForward(); cone = new vtkConeSource(); cone.SetResolution((int)8); cones = new vtkGlyph3D(); cones.SetInputConnection((vtkAlgorithmOutput)streamer.GetOutputPort()); cones.SetSourceConnection(cone.GetOutputPort()); cones.SetScaleFactor((double)0.9); cones.SetScaleModeToScaleByVector(); mapCones = vtkPolyDataMapper.New(); mapCones.SetInputConnection((vtkAlgorithmOutput)cones.GetOutputPort()); // eval mapCones SetScalarRange [[reader GetOutput] GetScalarRange][] mapCones.SetScalarRange((double)((vtkDataSet)reader.GetOutput().GetBlock((uint)0)).GetScalarRange()[0], (double)((vtkDataSet)reader.GetOutput().GetBlock((uint)0)).GetScalarRange()[1]); conesActor = new vtkActor(); conesActor.SetMapper((vtkMapper)mapCones); ren1.AddActor((vtkProp)outlineActor); ren1.AddActor((vtkProp)conesActor); ren1.SetBackground((double)0.4,(double)0.4,(double)0.5); renWin.SetSize((int)300,(int)300); iren.Initialize(); // interact with data[] vtkGenericEnSightReader.SetDefaultExecutivePrototype(null); //deleteAllVTKObjects(); }
private void vtkPolyDataConnectivityFilter_LargestRegion() { // Small sphere vtkSphereSource sphereSource1 = vtkSphereSource.New(); sphereSource1.Update(); // Large sphere vtkSphereSource sphereSource2 = vtkSphereSource.New(); sphereSource2.SetRadius(10); sphereSource2.SetCenter(25, 0, 0); sphereSource2.SetThetaResolution(10); sphereSource2.SetPhiResolution(10); sphereSource2.Update(); vtkAppendPolyData appendFilter = vtkAppendPolyData.New(); appendFilter.AddInputConnection(sphereSource1.GetOutputPort()); appendFilter.AddInputConnection(sphereSource2.GetOutputPort()); appendFilter.Update(); vtkPolyDataConnectivityFilter connectivityFilter = vtkPolyDataConnectivityFilter.New(); connectivityFilter.SetInputConnection(appendFilter.GetOutputPort()); connectivityFilter.SetExtractionModeToLargestRegion(); connectivityFilter.Update(); // Create a mapper and actor for original data vtkPolyDataMapper originalMapper = vtkPolyDataMapper.New(); originalMapper.SetInputConnection(appendFilter.GetOutputPort()); originalMapper.Update(); vtkActor originalActor = vtkActor.New(); originalActor.SetMapper(originalMapper); // Create a mapper and actor for extracted data vtkPolyDataMapper extractedMapper = vtkPolyDataMapper.New(); extractedMapper.SetInputConnection(connectivityFilter.GetOutputPort()); extractedMapper.Update(); vtkActor extractedActor = vtkActor.New(); extractedActor.GetProperty().SetColor(1, 0, 0); extractedActor.SetMapper(extractedMapper); // 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(originalActor); renderer.AddActor(extractedActor); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVEnSightOfficeASCII(String [] argv) { //Prefix Content is: "" ren1 = vtkRenderer.New(); renWin = vtkRenderWindow.New(); renWin.AddRenderer((vtkRenderer)ren1); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); // read data[] //[] reader = new vtkGenericEnSightReader(); // Make sure all algorithms use the composite data pipeline[] cdp = new vtkCompositeDataPipeline(); vtkGenericEnSightReader.SetDefaultExecutivePrototype((vtkExecutive)cdp); reader.SetCaseFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/EnSight/office_ascii.case"); reader.Update(); // to add coverage for vtkOnePieceExtentTranslator[] translator = new vtkOnePieceExtentTranslator(); vtkStreamingDemandDrivenPipeline.SetExtentTranslator(reader.GetOutputInformation(0), (vtkExtentTranslator)translator); outline = new vtkStructuredGridOutlineFilter(); // outline SetInputConnection [reader GetOutputPort][] outline.SetInputData((vtkDataObject)reader.GetOutput().GetBlock((uint)0)); mapOutline = vtkPolyDataMapper.New(); mapOutline.SetInputConnection((vtkAlgorithmOutput)outline.GetOutputPort()); outlineActor = new vtkActor(); outlineActor.SetMapper((vtkMapper)mapOutline); outlineActor.GetProperty().SetColor((double)0, (double)0, (double)0); // Create source for streamtubes[] streamer = new vtkStreamPoints(); // streamer SetInputConnection [reader GetOutputPort][] streamer.SetInputData((vtkDataObject)reader.GetOutput().GetBlock((uint)0)); streamer.SetStartPosition((double)0.1, (double)2.1, (double)0.5); streamer.SetMaximumPropagationTime((double)500); streamer.SetTimeIncrement((double)0.5); streamer.SetIntegrationDirectionToForward(); cone = new vtkConeSource(); cone.SetResolution((int)8); cones = new vtkGlyph3D(); cones.SetInputConnection((vtkAlgorithmOutput)streamer.GetOutputPort()); cones.SetSourceConnection(cone.GetOutputPort()); cones.SetScaleFactor((double)0.9); cones.SetScaleModeToScaleByVector(); mapCones = vtkPolyDataMapper.New(); mapCones.SetInputConnection((vtkAlgorithmOutput)cones.GetOutputPort()); // eval mapCones SetScalarRange [[reader GetOutput] GetScalarRange][] mapCones.SetScalarRange((double)((vtkDataSet)reader.GetOutput().GetBlock((uint)0)).GetScalarRange()[0], (double)((vtkDataSet)reader.GetOutput().GetBlock((uint)0)).GetScalarRange()[1]); conesActor = new vtkActor(); conesActor.SetMapper((vtkMapper)mapCones); ren1.AddActor((vtkProp)outlineActor); ren1.AddActor((vtkProp)conesActor); ren1.SetBackground((double)0.4, (double)0.4, (double)0.5); renWin.SetSize((int)300, (int)300); iren.Initialize(); // interact with data[] vtkGenericEnSightReader.SetDefaultExecutivePrototype(null); //deleteAllVTKObjects(); }
void RenderSlicer() { //Create all the objects for the pipeline vtkXMLImageDataReader reader = vtkXMLImageDataReader.New(); vtkImageActor iactor = vtkImageActor.New(); vtkImageClip clip = vtkImageClip.New(); vtkContourFilter contour = vtkContourFilter.New(); vtkPolyDataMapper mapper = vtkPolyDataMapper.New(); vtkActor actor = vtkActor.New(); vtkInteractorStyleImage style = vtkInteractorStyleImage.New(); vtkRenderer renderer = renderWindowControl2.RenderWindow.GetRenderers().GetFirstRenderer(); //Read the Image reader.SetFileName(m_FileName); //Go through the visulization pipeline iactor.SetInput(reader.GetOutput()); renderer.AddActor(iactor); reader.Update(); int[] extent = reader.GetOutput().GetWholeExtent(); iactor.SetDisplayExtent(extent[0], extent[1], extent[2], extent[3], (extent[4] + extent[5]) / 2, (extent[4] + extent[5]) / 2); clip.SetInputConnection(reader.GetOutputPort()); clip.SetOutputWholeExtent(extent[0], extent[1], extent[2], extent[3], (extent[4] + extent[5]) / 2, (extent[4] + extent[5]) / 2); contour.SetInputConnection(clip.GetOutputPort()); contour.SetValue(0, 100); mapper.SetInputConnection(contour.GetOutputPort()); mapper.SetScalarVisibility(1); //Go through the graphics pipeline actor.SetMapper(mapper); actor.GetProperty().SetColor(0, 1, 0); renderer.AddActor(actor); //Give a new style to the interactor //vtkRenderWindowInteractor iren = renderWindowControl2.RenderWindow.GetInteractor(); //iren.SetInteractorStyle(style); //Update global variables this.trackBar1.Maximum = extent[5]; this.trackBar1.Minimum = extent[4]; //this.Interactor = iren; this.m_SliceRenderWindow = renderWindowControl2.RenderWindow; this.m_SliceRenderer = renderer; this.m_SliceClip = clip; this.m_SliceImageActor = iactor; renderer.ResetCamera(); }
private void DijkstraGraphGeodesicPath() { // Create a sphere vtkSphereSource sphereSource = vtkSphereSource.New(); sphereSource.Update(); vtkDijkstraGraphGeodesicPath dijkstra = vtkDijkstraGraphGeodesicPath.New(); dijkstra.SetInputConnection(sphereSource.GetOutputPort()); dijkstra.SetStartVertex(0); dijkstra.SetEndVertex(10); dijkstra.Update(); // Create a mapper and actor vtkPolyDataMapper pathMapper = vtkPolyDataMapper.New(); pathMapper.SetInputConnection(dijkstra.GetOutputPort()); vtkActor pathActor = vtkActor.New(); pathActor.SetMapper(pathMapper); pathActor.GetProperty().SetColor(1, 0, 0); // Red pathActor.GetProperty().SetLineWidth(4); // Create a mapper and actor vtkPolyDataMapper mapper = vtkPolyDataMapper.New(); mapper.SetInputConnection(sphereSource.GetOutputPort()); vtkActor actor = vtkActor.New(); actor.SetMapper(mapper); // get a reference to the renderwindow of our renderWindowControl1 vtkRenderWindow renderWindow = renderWindowControl1.RenderWindow; // renderer vtkRenderer renderer = renderWindow.GetRenderers().GetFirstRenderer(); // set background color renderer.SetBackground(0.3, 0.6, 0.3); // add our actor to the renderer renderer.AddActor(actor); renderer.AddActor(pathActor); }
static private void init() { vtkSTLReader rdr = vtkSTLReader.New(); rdr.SetFileName("BODY-EXTRUDEUR-WADE.stl"); // Créer une géométrie sphérique /*vtkSphereSource sphere = vtkSphereSource.New(); * sphere.SetRadius(1.0); * sphere.SetThetaResolution(18); * sphere.SetPhiResolution(18);*/ // Transforme la géométrie en primitives graphiques (OpenGL dans notre cas) vtkPolyDataMapper map = vtkPolyDataMapper.New(); map.SetInput(rdr.GetOutput()); // L'acteur représente l'entitée géométrique. // Il permet de définir sa position, son orientation, sa couleur, etc. vtkActor aSphere = new vtkActor(); aSphere.SetMapper(map); aSphere.GetProperty().SetColor(0.8, 0.8, 0.8); // color blue // Nous créons un renderer qui va faire le rendu de notre entitée. vtkRenderer ren1 = vtkRenderer.New(); ren1.AddActor(aSphere); ren1.SetBackground(1, 1, 1); // background color white // Nous créons une fenêtre de rendu vtkRenderWindow renWin = vtkRenderWindow.New(); renWin.AddRenderer(ren1); renWin.SetSize(300, 300); // Nous créons un interactor qui permet de bouger la caméra. vtkRenderWindowInteractor iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow(renWin); // Nous lançons le rendu et l'interaction renWin.Render(); iren.Start(); ////// CLEANUP /////// rdr.Dispose(); map.Dispose(); aSphere.Dispose(); ren1.Dispose(); renWin.Dispose(); iren.Dispose(); }
private void Hexahedron() { // Setup the coordinates of eight points // (faces must be in counter clockwise order as viewed from the outside) double[,] p = new double[, ] { { 0.0, 0.0, 0.0 }, { 1.0, 0.0, 0.0 }, { 1.0, 1.0, 0.0 }, { 0.0, 1.0, 0.0 }, { 0.0, 0.0, 1.0 }, { 1.0, 0.0, 1.0 }, { 1.0, 1.0, 1.0 }, { 0.0, 1.0, 1.0 } }; // Create the points vtkPoints points = vtkPoints.New(); for (int i = 0; i < 8; i++) { points.InsertNextPoint(p[i, 0], p[i, 1], p[i, 2]); } // Create a hexahedron from the points vtkHexahedron hex = vtkHexahedron.New(); for (int i = 0; i < 8; i++) { hex.GetPointIds().SetId(i, i); } // Add the hexahedron to a cell array vtkCellArray hexs = vtkCellArray.New(); hexs.InsertNextCell(hex); // Add the points and hexahedron to an unstructured grid vtkUnstructuredGrid uGrid = vtkUnstructuredGrid.New(); uGrid.SetPoints(points); uGrid.InsertNextCell(hex.GetCellType(), hex.GetPointIds()); // Visualize vtkDataSetMapper mapper = vtkDataSetMapper.New(); mapper.SetInput(uGrid); vtkActor actor = vtkActor.New(); actor.SetMapper(mapper); actor.GetProperty().SetLineWidth(4); vtkRenderWindow renderWindow = renderWindowControl1.RenderWindow; vtkRenderer renderer = renderWindow.GetRenderers().GetFirstRenderer(); renderer.SetBackground(0.2, 0.3, 0.4); renderer.AddActor(actor); renderer.ResetCamera(); }
private void GreedyTerrainDecimation() { // Create an image vtkImageData image = vtkImageData.New(); image.SetDimensions(3, 3, 1); image.SetNumberOfScalarComponents(1); image.SetScalarTypeToUnsignedChar(); int[] dims = image.GetDimensions(); unsafe { for (int i = 0; i < dims[0]; i++) { for (int j = 0; j < dims[1]; j++) { byte *ptr = (byte *)image.GetScalarPointer(i, j, 0); * ptr = (byte)vtkMath.Round(vtkMath.Random(0, 1)); } } } vtkGreedyTerrainDecimation decimation = vtkGreedyTerrainDecimation.New(); decimation.SetInputConnection(image.GetProducerPort()); decimation.Update(); vtkPolyDataMapper mapper = vtkPolyDataMapper.New(); mapper.SetInputConnection(decimation.GetOutputPort()); // actor vtkActor actor = vtkActor.New(); actor.SetMapper(mapper); actor.GetProperty().SetInterpolationToFlat(); actor.GetProperty().EdgeVisibilityOn(); actor.GetProperty().SetEdgeColor(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> /// Create new VTK structure of Part: /// <br> Points -> Grid -> Mapper -> Actor </br> /// </summary> public void CreatePart(Dictionary <int, Node> NodeLib, Dictionary <int, Element> ElemLib) { // Catch nodes - only used by Part Nodes = DetectPartNodes(ElemLib); // Initialize Elements - to connect vtkCells with Element IDs (and therefore scalar/result value) Elements = new List <int>(); // Initialize VTK data Points = vtkPoints.New(); Grid = vtkUnstructuredGrid.New(); Mapper = vtkDataSetMapper.New(); Actor = vtkActor.New(); Edges = vtkActor.New(); Faces = vtkPolyData.New(); Filter = vtkDataSetSurfaceFilter.New(); // Insert Points foreach (int n in Nodes.Keys) { Points.InsertNextPoint(NodeLib[n].X, NodeLib[n].Y, NodeLib[n].Z); } Grid.SetPoints(Points); // Add points to Grid CreateMesh(ElemLib); // Create Mesh grid // Add Grid to Mapper Mapper.SetInput(Grid); Mapper.SetScalarModeToUseCellData(); Mapper.ScalarVisibilityOff(); Mapper.InterpolateScalarsBeforeMappingOn(); Mapper.Update(); Actor.SetMapper(Mapper); // Add Mapper to Actor Actor.GetProperty().SetEdgeVisibility(1); // Enable wireframe display mode Actor.GetProperty().SetLineWidth((float)0.5); // Set wireframe line thickness // Set Actor default color ColorID = ID % 13; SetColor(ColorID); // Outer features ExtractFeatures(); }
public XmlPolyDataPackage(string vtpFile, vtkRenderer renderer) { //Console.WriteLine(string.Format("VTP文件 = {0}", vtpFile)); if (File.Exists(vtpFile)) { if (vtpFile.EndsWith(".vtp")) { //Console.WriteLine(string.Format("VTP文件 = {0}已存在", vtpFile)); reader = vtkXMLPolyDataReader.New(); reader.SetFileName(vtpFile); reader.Update(); PolyData = reader.GetOutput(); } else if (vtpFile.EndsWith(".stl")) { PolyData = VTKUtil.ReadSTLPolyData(vtpFile); } vtkCamera camera = vtkCamera.New(); var sortPolydata = new vtkDepthSortPolyData(); sortPolydata.SetInput(PolyData); sortPolydata.SetCamera(camera); sortPolydata.SetDirectionToFrontToBack(); sortPolydata.SetVector(1, 1, 1); sortPolydata.SetSortScalars(1); sortPolydata.Update(); _polyDataMapper = vtkPolyDataMapper.New(); _polyDataMapper.ScalarVisibilityOff(); _polyDataMapper.SetInput(sortPolydata.GetOutput()); _polyDataMapper.Update(); actor = vtkActor.New(); actor.SetMapper(_polyDataMapper); actor.GetProperty().SetColor(1, 1, 1); //marchingCubeActor.GetProperty().BackfaceCullingOn(); //marchingCubeActor.GetProperty().FrontfaceCullingOn(); //marchingCubeActor.GetProperty().BackfaceCullingOff(); // now, tell the renderer our actors renderer.AddActor(actor); this.renderer = renderer; } else { throw new Exception(string.Format("VTP文件 = {0}不存在。", vtpFile)); } //正面观(); }
private void DrawTriangle() { //创建点数据 vtkPoints points = vtkPoints.New(); points.InsertNextPoint(1.0, 0.0, 0.0); points.InsertNextPoint(0.0, 1.0, 0.0); points.InsertNextPoint(0.0, 0.0, 0.0); //每两个坐标之间分别创建一条线 //SetId()的第一个参数是线段的端点ID,第二参数是连接的的点的ID vtkLine line0 = vtkLine.New(); line0.GetPointIds().SetId(0, 0); line0.GetPointIds().SetId(1, 1); vtkLine line1 = vtkLine.New(); line1.GetPointIds().SetId(0, 1); line1.GetPointIds().SetId(1, 2); vtkLine line2 = vtkLine.New(); line2.GetPointIds().SetId(0, 2); line2.GetPointIds().SetId(1, 0); //创建单元数组,用于存储以上创建的线段 vtkCellArray lines = vtkCellArray.New(); lines.InsertNextCell(line0); lines.InsertNextCell(line1); lines.InsertNextCell(line2); //将点和线加入数据集中,前者定义数据集的几何结构,后者定义拓扑结构 //创建vtkPolyData类型的数据,是一种数据集 vtkPolyData polyData = vtkPolyData.New(); //将创建的点数据加入vtkPolyData数据里 polyData.SetPoints(points); //点数据定义了polydata数据集的几何结构。 polyData.SetLines(lines); //定义拓扑结构 //显示数据 vtkPolyDataMapper mapper = vtkPolyDataMapper.New(); mapper.SetInputData(polyData); vtkActor actor = vtkActor.New(); actor.SetMapper(mapper); actor.GetProperty().SetColor(1.0, 0.0, 0.0); vtkRenderWindow renWin = myRenderWindowControl.RenderWindow; vtkRenderer renderer = renWin.GetRenderers().GetFirstRenderer(); renderer.SetBackground(1.0, 1.0, 1.0); renderer.AddActor(actor); }
private vtkActor DrawMapBar(Stop stop, string line) { if (stop.arrivalsByLine == null) { return(null); } if (!stop.arrivalsByLine.ContainsKey(line)) { return(null); } float[] point = GetPointOnMap(stop.Location); float z = CalculateZ(stop.arrivalsByLine[line]) * 0.35f; vtkLineSource lineSource = new vtkLineSource(); lineSource.SetPoint1(point[0], point[1], 0); lineSource.SetPoint2(point[0], point[1], z); vtkTubeFilter tubeSource = new vtkTubeFilter(); tubeSource.SetInputConnection(lineSource.GetOutputPort()); tubeSource.SetRadius(0.005); tubeSource.SetNumberOfSides(4); tubeSource.Update(); vtkPolyDataMapper tubeMapper = vtkPolyDataMapper.New(); tubeMapper.SetInputConnection(tubeSource.GetOutputPort()); vtkActor actor = vtkActor.New(); actor.GetProperty().SetOpacity(1); Color color = Color.GetColorFromPalette(z, 0, 0.35f); actor.GetProperty().SetColor(color.r, color.g, color.b); actor.SetMapper(tubeMapper); return(actor); }
/// <summary> /// Crée le nécessaire pour l'affichage du volume /// </summary> private void createVolumeObjects() { _volumeMapper = vtkPolyDataMapper.New(); _volumeMapper.SetInput(_stlReader.GetOutput()); _volumeActor = vtkActor.New(); //couleur du volume double[] rgb = colorToRGB(VolumeColor); _volumeActor.GetProperty().SetColor(rgb[0], rgb[1], rgb[2]); _volumeActor.SetMapper(_volumeMapper); }
private void LongLine() { // Create five points double[,] p = new double[, ] { { 0.0, 0.0, 0.0 }, { 1.0, 0.0, 0.0 }, { 0.0, 1.0, 0.0 }, { 0.0, 1.0, 2.0 }, { 1.0, 2.0, 3.0 } }; // Create a vtkPoints object and store the points in it vtkPoints points = vtkPoints.New(); for (int i = 0; i < 5; i++) { points.InsertNextPoint(p[i, 0], p[i, 1], p[i, 2]); } // Create a cell array to store the lines in and add the lines to it vtkCellArray lines = vtkCellArray.New(); for (int i = 0; i < 4; i++) { vtkLine line = vtkLine.New(); line.GetPointIds().SetId(0, i); line.GetPointIds().SetId(1, i + 1); lines.InsertNextCell(line); } // Create a polydata to store everything in vtkPolyData linesPolyData = vtkPolyData.New(); // Add the points to the dataset linesPolyData.SetPoints(points); // Add the lines to the dataset linesPolyData.SetLines(lines); // Visualize vtkPolyDataMapper mapper = vtkPolyDataMapper.New(); mapper.SetInput(linesPolyData); vtkActor actor = vtkActor.New(); actor.SetMapper(mapper); actor.GetProperty().SetLineWidth(4); vtkRenderWindow renderWindow = renderWindowControl1.RenderWindow; vtkRenderer renderer = renderWindow.GetRenderers().GetFirstRenderer(); renderer.SetBackground(0.2, 0.3, 0.4); renderer.AddActor(actor); renderer.ResetCamera(); }
private void DrawPoint() { // Create the geometry of the points (the coordinate) vtkPoints points = vtkPoints.New(); double[,] p = new double[, ] { { 1.0, 2.0, 3.0 }, { 3.0, 1.0, 2.0 }, { 2.0, 3.0, 1.0 }, { 1.0, 3.0, 3.0 } }; // Create topology of the points (a vertex per point) vtkCellArray vertices = vtkCellArray.New(); int nPts = 4; int[] ids = new int[nPts]; for (int i = 0; i < nPts; i++) { ids[i] = (int)points.InsertNextPoint(p[i, 0], p[i, 1], p[i, 2]); } int size = Marshal.SizeOf(typeof(int)) * nPts; IntPtr pIds = Marshal.AllocHGlobal(size); Marshal.Copy(ids, 0, pIds, nPts); vertices.InsertNextCell(nPts, pIds); Marshal.FreeHGlobal(pIds); // Create a polydata object vtkPolyData pointPoly = vtkPolyData.New(); // Set the points and vertices we created as the geometry and topology of the polydata pointPoly.SetPoints(points); pointPoly.SetVerts(vertices); // Visualize vtkPolyDataMapper mapper = vtkPolyDataMapper.New(); mapper.SetInputData(pointPoly); vtkActor actor = vtkActor.New(); actor.SetMapper(mapper); actor.GetProperty().SetPointSize(10); vtkRenderWindow renderWindow = myRenderWindowControl.RenderWindow; vtkRenderer renderer = renderWindow.GetRenderers().GetFirstRenderer(); renderer.SetBackground(0.3, 0.2, 0.1); renderer.AddActor(actor); }
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> /// Crée le nécessaire pour l'affichage des arêtes /// </summary> private void createEdgeObjects() { _edgeExtractor = vtkExtractEdges.New(); _edgeExtractor.SetInput(_stlReader.GetOutput()); _edgeMapper = vtkPolyDataMapper.New(); _edgeMapper.SetInput(_edgeExtractor.GetOutput()); _edgeActor = vtkActor.New(); double[] rgb = colorToRGB(EdgeColor); //couleurs des aretes _edgeActor.GetProperty().SetColor(rgb[0], rgb[1], rgb[2]); _edgeActor.SetMapper(_edgeMapper); }
//private vtkActor DrawVehicleID(float curX, float ySign) //{ // // Create text // vtkVectorText textSource = new vtkVectorText(); // textSource.SetText("Hello"); // textSource.Update(); // // Visualize // vtkPolyDataMapper mapper = vtkPolyDataMapper.New(); // mapper.SetInputConnection(textSource.GetOutputPort()); // vtkActor textActor = vtkActor.New(); // textActor.SetScale(Constants.INDICATOR_TEXT_SIZE_X, Constants.INDICATOR_TEXT_SIZE_Y, 1); // double[] bounds = textActor.GetXRange(); // Console.WriteLine(bounds[0]); // Console.WriteLine(bounds[1]); // double halfSize = (bounds[1] - bounds[0]) / 2d; // textActor.SetPosition(curX - halfSize, Constants.INDICATOR_LINE_OFFSET * ySign, 0); // textActor.SetMapper(mapper); // textActor.GetProperty().SetColor(1, 0, 0); // return textActor; //} private vtkActor DrawLineSector(float startX, float yOffset, float size, Color color, float deltaY) { float topY = yOffset + Constants.TUBE_DEFAULT_HALFSIZE_Y; float botY = yOffset - Constants.TUBE_DEFAULT_HALFSIZE_Y; if (deltaY > 0) { topY += deltaY; } else { botY += deltaY; } vtkPoints points = new vtkPoints(); points.InsertNextPoint(startX, botY, 0.0); points.InsertNextPoint(startX + size, botY, 0.0); points.InsertNextPoint(startX + size, topY, 0.0); points.InsertNextPoint(startX, topY, 0.0); vtkPolygon rectangle = new vtkPolygon(); rectangle.GetPointIds().SetNumberOfIds(4); rectangle.GetPointIds().SetId(0, 0); rectangle.GetPointIds().SetId(1, 1); rectangle.GetPointIds().SetId(2, 2); rectangle.GetPointIds().SetId(3, 3); vtkCellArray polygons = new vtkCellArray(); polygons.InsertNextCell(rectangle); vtkPolyData polygonPolyData = new vtkPolyData(); polygonPolyData.SetPoints(points); polygonPolyData.SetPolys(polygons); // Visualize vtkPolyDataMapper mapper = vtkPolyDataMapper.New(); mapper.SetInput(polygonPolyData); vtkActor actor = vtkActor.New(); actor.SetMapper(mapper); actor.GetProperty().SetColor(color.r, color.g, color.b); return(actor); }
private void SetFlatData(float[] src) { using (var warp = vtkWarpScalar.New()) using (var mapper = vtkPolyDataMapper.New()) using (var actor = vtkActor.New()) { if (src != null) { IntPtr pIds = Marshal.AllocHGlobal(Marshal.SizeOf(typeof(float)) * Size); Marshal.Copy(src, 0, pIds, Size); var da = vtkFloatArray.New(); da.SetArray(pIds, Size, 1); pointPoly.GetPointData().SetScalars(da); } warp.SetInput(pointPoly); warp.SetScaleFactor(Scale); //var transform = vtkTransform.New(); //transform.RotateX(180); //var transformFilter = vtkTransformPolyDataFilter.New(); //transformFilter.SetTransform(transform); //transformFilter.SetInputConnection(warp.GetOutputPort()); //mapper.SetInput(transformFilter.GetOutput()); mapper.SetInput(warp.GetPolyDataOutput()); mapper.SetLookupTable(lut); //mapper.SetColorModeToMapScalars(); mapper.SetScalarRange(ScalarRangeMin, ScalarRangeMax); DataActor.SetMapper(mapper); DataActor.GetProperty().SetPointSize(PointSize); //DataActor.SetOrientation(90, 0, 0); } }
private void ExtractLargestIsoSurface(string filePath, double threshold, bool extractLargest) { // Load data vtkStructuredPointsReader reader = vtkStructuredPointsReader.New(); reader.SetFileName(filePath); // Create a 3D model using marching cubes vtkMarchingCubes mc = vtkMarchingCubes.New(); mc.SetInputConnection(reader.GetOutputPort()); mc.ComputeNormalsOn(); mc.ComputeGradientsOn(); mc.SetValue(0, threshold); // second value acts as threshold // To remain largest region vtkPolyDataConnectivityFilter confilter = vtkPolyDataConnectivityFilter.New(); confilter.SetInputConnection(mc.GetOutputPort()); confilter.SetExtractionModeToLargestRegion(); // Create a mapper vtkPolyDataMapper mapper = vtkPolyDataMapper.New(); if (extractLargest) { mapper.SetInputConnection(confilter.GetOutputPort()); } else { mapper.SetInputConnection(mc.GetOutputPort()); } mapper.ScalarVisibilityOff(); // utilize actor's property I set // Visualize vtkActor actor = vtkActor.New(); actor.GetProperty().SetColor(1, 1, 1); actor.SetMapper(mapper); // get a reference to the renderwindow of our renderWindowControl1 vtkRenderWindow renderWindow = renderWindowControl1.RenderWindow; // renderer vtkRenderer renderer = renderWindow.GetRenderers().GetFirstRenderer(); // add our actor to the renderer renderer.AddActor(actor); }
private void BoundaryEdges() { vtkDiskSource diskSource = vtkDiskSource.New(); diskSource.Update(); vtkFeatureEdges featureEdges = vtkFeatureEdges.New(); #if VTK_MAJOR_VERSION_5 featureEdges.SetInputConnection(diskSource.GetOutputPort()); #else featureEdges.SetInputData(diskSource); #endif featureEdges.BoundaryEdgesOn(); featureEdges.FeatureEdgesOff(); featureEdges.ManifoldEdgesOff(); featureEdges.NonManifoldEdgesOff(); featureEdges.Update(); // Visualize vtkPolyDataMapper edgeMapper = vtkPolyDataMapper.New(); #if VTK_MAJOR_VERSION_5 edgeMapper.SetInputConnection(featureEdges.GetOutputPort()); #else edgeMapper.SetInputData(featureEdges); #endif vtkActor edgeActor = vtkActor.New(); edgeActor.GetProperty().SetLineWidth(3); edgeActor.SetMapper(edgeMapper); vtkPolyDataMapper diskMapper = vtkPolyDataMapper.New(); #if VTK_MAJOR_VERSION_5 diskMapper.SetInputConnection(diskSource.GetOutputPort()); #else diskMapper.SetInputData(diskSource); #endif vtkActor diskActor = vtkActor.New(); diskActor.SetMapper(diskMapper); // get a reference to the renderwindow of our renderWindowControl1 vtkRenderWindow renderWindow = renderWindowControl1.RenderWindow; // renderer vtkRenderer renderer = renderWindow.GetRenderers().GetFirstRenderer(); // set background color renderer.SetBackground(0.3, 0.6, 0.3); // add our actor to the renderer renderer.AddActor(diskActor); renderer.AddActor(edgeActor); }
/// <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(); }
private void CreateSurfaceRendering() { _contourFilter = new vtk.vtkContourFilter(); _contourFilter.SetInput(_volumeGraphic.GetImageData()); _contourFilter.SetValue(0, _volumeGraphic.GetRescaledLevel()); vtkPolyDataNormals normals = new vtk.vtkPolyDataNormals(); normals.SetInputConnection(_contourFilter.GetOutputPort()); normals.SetFeatureAngle(60.0); vtkStripper stripper = new vtk.vtkStripper(); stripper.SetInputConnection(normals.GetOutputPort()); vtkPolyDataMapper mapper = new vtk.vtkPolyDataMapper(); mapper.SetInputConnection(stripper.GetOutputPort()); mapper.ScalarVisibilityOff(); _vtkActor = new vtk.vtkActor(); _vtkActor.SetMapper(mapper); _vtkActor.GetProperty().SetSpecular(.3); _vtkActor.GetProperty().SetSpecularPower(20); ApplySetting("Opacity"); ApplySetting("Level"); }
//绘制外边框 private vtkActor BuildOutlineActor(vtkImageData ImageData) { //创建Outline vtkOutlineFilter OutlineFilter = vtkOutlineFilter.New(); OutlineFilter.SetInput(ImageData); vtkPolyDataMapper OutlineMapper = vtkPolyDataMapper.New(); OutlineMapper.SetInputConnection(OutlineFilter.GetOutputPort()); vtkActor outlineActor = vtkActor.New(); outlineActor.SetMapper(OutlineMapper); outlineActor.GetProperty().SetColor(0.5, 0.5, 0.5); return(outlineActor); }
public static void Point(vtkActor actor, int[] src, int w, int h) { using (var lut = vtkLookupTable.New()) using (var points = vtkPoints.New()) using (var vertices = vtkCellArray.New()) using (var pointPoly = vtkPolyData.New()) using (var mapper = vtkPolyDataMapper.New()) { lut.SetHueRange(0.667, 0.0); lut.Build(); int[] ids = new int[w * h]; for (int y = 0; y < h; y++) { for (int x = 0; x < w; x++) { ids[x + w * y] = points.InsertNextPoint(x, y, src[x + w * y]); } } int size = Marshal.SizeOf(typeof(int)) * w * h; IntPtr pIds = Marshal.AllocHGlobal(size); Marshal.Copy(ids, 0, pIds, w * h); vertices.InsertNextCell(w * h, pIds); Marshal.FreeHGlobal(pIds); pointPoly.SetPoints(points); pointPoly.SetVerts(vertices); //fixed (int* pa = data) //{ // var da = vtkIntArray.New(); // da.SetArray((IntPtr)pa, w * h, 1); // pointPoly.GetPointData().SetScalars(da); //} mapper.SetInput(pointPoly); mapper.SetLookupTable(lut); mapper.SetScalarRange(0.0, 255.0); actor.SetMapper(mapper); actor.GetProperty().SetPointSize(2); } }
/// <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(); }
public void ReadPointIntoObject(RenderWindowControl renderWindowControl, List <nvmPointModel> listPointModel) { vtkUnsignedCharArray colors = vtkUnsignedCharArray.New(); colors.SetNumberOfComponents(3); colors.SetName("Colors"); vtkPoints points = vtkPoints.New(); foreach (var point in listPointModel) { colors.InsertNextValue(byte.Parse(point.color.X.ToString(), CultureInfo.InvariantCulture)); colors.InsertNextValue(byte.Parse(point.color.Y.ToString(), CultureInfo.InvariantCulture)); colors.InsertNextValue(byte.Parse(point.color.Z.ToString(), CultureInfo.InvariantCulture)); points.InsertNextPoint( double.Parse(point.position.X.ToString(), CultureInfo.InvariantCulture), double.Parse(point.position.Y.ToString(), CultureInfo.InvariantCulture), double.Parse(point.position.Z.ToString(), CultureInfo.InvariantCulture)); } vtkPolyData polydata = vtkPolyData.New(); polydata.SetPoints(points); polydata.GetPointData().SetScalars(colors); vtkVertexGlyphFilter glyphFilter = vtkVertexGlyphFilter.New(); glyphFilter.SetInputConnection(polydata.GetProducerPort()); // Visualize vtkPolyDataMapper mapper = vtkPolyDataMapper.New(); mapper.SetInputConnection(glyphFilter.GetOutputPort()); vtkActor actor = vtkActor.New(); actor.SetMapper(mapper); actor.GetProperty().SetPointSize(2); // get a reference to the renderwindow of our renderWindowControl1 vtkRenderWindow renderWindow = renderWindowControl.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); renderer.ResetCamera(); }
/// <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 ReadRectilinearGrid() { // 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\cth.vtr"); // reader vtkXMLRectilinearGridReader reader = vtkXMLRectilinearGridReader.New(); if (reader.CanReadFile(filePath) == 0) { MessageBox.Show("Cannot read file \"" + filePath + "\"", "Error", MessageBoxButtons.OK); return; } reader.SetFileName(filePath); reader.Update(); // here we read the file actually //vtkRectilinearGridGeometryFilter geometryFilter = vtkRectilinearGridGeometryFilter.New(); //geometryFilter.SetInputConnection(reader.GetOutputPort()); //geometryFilter.Update(); // Visualize // mapper vtkDataSetMapper mapper = vtkDataSetMapper.New(); //mapper.SetInputConnection(geometryFilter.GetOutputPort()); mapper.SetInputConnection(reader.GetOutputPort()); // actor vtkActor actor = vtkActor.New(); actor.SetMapper(mapper); actor.GetProperty().SetRepresentationToWireframe(); // 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>Entry Point</summary> static void Main(string[] args) { // Create a simple sphere. A pipeline is created. sphere = vtkSphereSource.New(); sphere.SetThetaResolution(8); sphere.SetPhiResolution(16); shrink = vtkShrinkPolyData.New(); shrink.SetInputConnection(sphere.GetOutputPort()); shrink.SetShrinkFactor(0.9); mapper = vtkPolyDataMapper.New(); mapper.SetInputConnection(shrink.GetOutputPort()); // The actor links the data pipeline to the rendering subsystem actor = vtkActor.New(); actor.SetMapper(mapper); actor.GetProperty().SetColor(1, 0, 0); // Create components of the rendering subsystem // ren1 = vtkRenderer.New(); renWin = vtkRenderWindow.New(); renWin.AddRenderer(ren1); iren = vtkRenderWindowInteractor.New(); iren.SetRenderWindow(renWin); // Add the actors to the renderer, set the window size // ren1.AddViewProp(actor); renWin.SetSize(250, 250); renWin.Render(); camera = ren1.GetActiveCamera(); camera.Zoom(1.5); // render the image and start the event loop // renWin.Render(); iren.Initialize(); iren.Start(); deleteAllVTKObjects(); }
private void button3_Click(object sender, EventArgs e) { //string path= @"d:\Staz\projekt2\Projekt2\Projekt2\dokument.pdf"; //FileStream fs = File.Create(path); //Document document = new Document(PageSize.A4, 25, 25, 30, 30); //PdfWriter writer = PdfWriter.GetInstance(document, fs); //document.AddAuthor("KatarzynaWidawka"); //document.Open(); //document.Add(new Paragraph("Hello World!")); //document.Close(); //writer.Close(); //fs.Close(); //---------------------------------------------------------------- vtkCylinderSource cylinder = vtkCylinderSource.New(); cylinder.SetResolution(8); vtkPolyDataMapper cmapper = vtkPolyDataMapper.New(); cmapper.SetInputConnection(cylinder.GetOutputPort()); vtkActor cactor = vtkActor.New(); cactor.SetMapper(cmapper); cactor.GetProperty().SetColor(1.0000, 0.3882, 0.2784); vtkSTLWriter stlwriter = vtkSTLWriter.New(); stlwriter.SetFileName("object.stl"); //stlwriter.Write(); string path = @"d:\Staz\projekt2\Projekt2\Projekt2\dokument.pdf"; FileStream fs = File.Create(path); Document document = new Document(PageSize.A4, 25, 25, 30, 30); PdfWriter writer = PdfWriter.GetInstance(document, fs); document.AddAuthor("KatarzynaWidawka"); document.Open(); System.Drawing.Rectangle rect = new System.Drawing.Rectangle(100, 400, 500, 800); document.Add(new Paragraph("Hello World!")); // document.Add(cactor); document.Close(); writer.Close(); fs.Close(); }
private void TriangleStrip() { vtkPoints points = vtkPoints.New(); points.InsertNextPoint(0, 0, 0); points.InsertNextPoint(0, 1, 0); points.InsertNextPoint(1, 0, 0); points.InsertNextPoint(1.5, 1, 0); vtkTriangleStrip triangleStrip = vtkTriangleStrip.New(); triangleStrip.GetPointIds().SetNumberOfIds(4); triangleStrip.GetPointIds().SetId(0, 0); triangleStrip.GetPointIds().SetId(1, 1); triangleStrip.GetPointIds().SetId(2, 2); triangleStrip.GetPointIds().SetId(3, 3); vtkCellArray cells = vtkCellArray.New(); cells.InsertNextCell(triangleStrip); // Create a polydata to store everything in vtkPolyData polyData = vtkPolyData.New(); // Add the points to the dataset polyData.SetPoints(points); // Add the strip to the dataset polyData.SetStrips(cells); //Create an actor and mapper vtkDataSetMapper mapper = vtkDataSetMapper.New(); mapper.SetInput(polyData); vtkActor actor = vtkActor.New(); actor.GetProperty().SetRepresentationToWireframe(); actor.SetMapper(mapper); vtkRenderWindow renderWindow = renderWindowControl1.RenderWindow; vtkRenderer renderer = renderWindow.GetRenderers().GetFirstRenderer(); renderer.SetBackground(0.2, 0.3, 0.4); renderer.AddActor(actor); }
public void SetPosition(double[] xyz1, double[] xyz2) { vtkPoints points = vtkPoints.New(); points.InsertPoint(0, xyz1[0], xyz1[1], xyz1[2]); points.InsertPoint(1, xyz2[0], xyz2[1], xyz2[2]); vtkCellArray lines = vtkCellArray.New(); lines.InsertNextCell(2); lines.InsertCellPoint(0); lines.InsertCellPoint(1); vtkPolyData profileData = new vtkPolyData(); profileData.SetPoints(points); profileData.SetLines(lines); profileData.SetVerts(lines); profileData.Update(); vtkCleanPolyData cleanFilter = new vtkCleanPolyData(); cleanFilter.SetInput(profileData); cleanFilter.Update(); vtkTubeFilter profileTubes = new vtkTubeFilter(); profileTubes.SetNumberOfSides(10); profileTubes.SetInput(cleanFilter.GetOutput()); //profileTubes.SetVaryRadiusToVaryRadiusByVector(); profileTubes.SetRadius(1); profileTubes.SetInputArrayToProcess(1, 0, 0, 0, "vectors"); //vtkPolyDataMapper profileMapper = new vtkPolyDataMapper(); //profileMapper.SetInputConnection(profileTubes.GetOutputPort()); vtkPolyDataMapper mapper = vtkPolyDataMapper.New(); mapper.SetInput(profileTubes.GetOutput()); centerLineActor.SetMapper(mapper); centerLineActor.GetProperty().SetOpacity(0.5); }
private void Plane() { // Create a plane vtkPlaneSource planeSource = vtkPlaneSource.New(); planeSource.SetCenter(1.0, 0.0, 0.0); planeSource.SetNormal(1.0, 0.0, 1.0); planeSource.Update(); // Visualize vtkPolyDataMapper mapper = vtkPolyDataMapper.New(); mapper.SetInputConnection(planeSource.GetOutputPort()); vtkActor actor = vtkActor.New(); actor.SetMapper(mapper); actor.GetProperty().SetLineWidth(4); RenderAddActor(actor); }
private void RegularPolygon() { // Create a pentagon vtkRegularPolygonSource polygonSource = vtkRegularPolygonSource.New(); //polygonSource.GeneratePolygonOff(); polygonSource.SetNumberOfSides(5); polygonSource.SetRadius(5); polygonSource.SetCenter(0, 0, 0); //polygonSource.Update(); // not necessary vtkPolyDataMapper mapper = vtkPolyDataMapper.New(); mapper.SetInputConnection(polygonSource.GetOutputPort()); vtkActor actor = vtkActor.New(); actor.GetProperty().SetLineWidth(4); actor.SetMapper(mapper); RenderAddActor(actor); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVpickCells(String [] argv) { //Prefix Content is: "" ren1 = vtkRenderer.New(); renWin = vtkRenderWindow.New(); renWin.AddRenderer((vtkRenderer)ren1); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); // create a scene with one of each cell type[] // Voxel[] voxelPoints = new vtkPoints(); voxelPoints.SetNumberOfPoints((int)8); voxelPoints.InsertPoint((int)0,(double)0,(double)0,(double)0); voxelPoints.InsertPoint((int)1,(double)1,(double)0,(double)0); voxelPoints.InsertPoint((int)2,(double)0,(double)1,(double)0); voxelPoints.InsertPoint((int)3,(double)1,(double)1,(double)0); voxelPoints.InsertPoint((int)4,(double)0,(double)0,(double)1); voxelPoints.InsertPoint((int)5,(double)1,(double)0,(double)1); voxelPoints.InsertPoint((int)6,(double)0,(double)1,(double)1); voxelPoints.InsertPoint((int)7,(double)1,(double)1,(double)1); aVoxel = new vtkVoxel(); aVoxel.GetPointIds().SetId((int)0,(int)0); aVoxel.GetPointIds().SetId((int)1,(int)1); aVoxel.GetPointIds().SetId((int)2,(int)2); aVoxel.GetPointIds().SetId((int)3,(int)3); aVoxel.GetPointIds().SetId((int)4,(int)4); aVoxel.GetPointIds().SetId((int)5,(int)5); aVoxel.GetPointIds().SetId((int)6,(int)6); aVoxel.GetPointIds().SetId((int)7,(int)7); aVoxelGrid = new vtkUnstructuredGrid(); aVoxelGrid.Allocate((int)1,(int)1); aVoxelGrid.InsertNextCell((int)aVoxel.GetCellType(),(vtkIdList)aVoxel.GetPointIds()); aVoxelGrid.SetPoints((vtkPoints)voxelPoints); aVoxelMapper = new vtkDataSetMapper(); aVoxelMapper.SetInput((vtkDataSet)aVoxelGrid); aVoxelActor = new vtkActor(); aVoxelActor.SetMapper((vtkMapper)aVoxelMapper); aVoxelActor.GetProperty().BackfaceCullingOn(); // Hexahedron[] hexahedronPoints = new vtkPoints(); hexahedronPoints.SetNumberOfPoints((int)8); hexahedronPoints.InsertPoint((int)0,(double)0,(double)0,(double)0); hexahedronPoints.InsertPoint((int)1,(double)1,(double)0,(double)0); hexahedronPoints.InsertPoint((int)2,(double)1,(double)1,(double)0); hexahedronPoints.InsertPoint((int)3,(double)0,(double)1,(double)0); hexahedronPoints.InsertPoint((int)4,(double)0,(double)0,(double)1); hexahedronPoints.InsertPoint((int)5,(double)1,(double)0,(double)1); hexahedronPoints.InsertPoint((int)6,(double)1,(double)1,(double)1); hexahedronPoints.InsertPoint((int)7,(double)0,(double)1,(double)1); aHexahedron = new vtkHexahedron(); aHexahedron.GetPointIds().SetId((int)0,(int)0); aHexahedron.GetPointIds().SetId((int)1,(int)1); aHexahedron.GetPointIds().SetId((int)2,(int)2); aHexahedron.GetPointIds().SetId((int)3,(int)3); aHexahedron.GetPointIds().SetId((int)4,(int)4); aHexahedron.GetPointIds().SetId((int)5,(int)5); aHexahedron.GetPointIds().SetId((int)6,(int)6); aHexahedron.GetPointIds().SetId((int)7,(int)7); aHexahedronGrid = new vtkUnstructuredGrid(); aHexahedronGrid.Allocate((int)1,(int)1); aHexahedronGrid.InsertNextCell((int)aHexahedron.GetCellType(),(vtkIdList)aHexahedron.GetPointIds()); aHexahedronGrid.SetPoints((vtkPoints)hexahedronPoints); aHexahedronMapper = new vtkDataSetMapper(); aHexahedronMapper.SetInput((vtkDataSet)aHexahedronGrid); aHexahedronActor = new vtkActor(); aHexahedronActor.SetMapper((vtkMapper)aHexahedronMapper); aHexahedronActor.AddPosition((double)2,(double)0,(double)0); aHexahedronActor.GetProperty().BackfaceCullingOn(); // Tetra[] tetraPoints = new vtkPoints(); tetraPoints.SetNumberOfPoints((int)4); tetraPoints.InsertPoint((int)0,(double)0,(double)0,(double)0); tetraPoints.InsertPoint((int)1,(double)1,(double)0,(double)0); tetraPoints.InsertPoint((int)2,(double).5,(double)1,(double)0); tetraPoints.InsertPoint((int)3,(double).5,(double).5,(double)1); aTetra = new vtkTetra(); aTetra.GetPointIds().SetId((int)0,(int)0); aTetra.GetPointIds().SetId((int)1,(int)1); aTetra.GetPointIds().SetId((int)2,(int)2); aTetra.GetPointIds().SetId((int)3,(int)3); aTetraGrid = new vtkUnstructuredGrid(); aTetraGrid.Allocate((int)1,(int)1); aTetraGrid.InsertNextCell((int)aTetra.GetCellType(),(vtkIdList)aTetra.GetPointIds()); aTetraGrid.SetPoints((vtkPoints)tetraPoints); aTetraMapper = new vtkDataSetMapper(); aTetraMapper.SetInput((vtkDataSet)aTetraGrid); aTetraActor = new vtkActor(); aTetraActor.SetMapper((vtkMapper)aTetraMapper); aTetraActor.AddPosition((double)4,(double)0,(double)0); aTetraActor.GetProperty().BackfaceCullingOn(); // Wedge[] wedgePoints = new vtkPoints(); wedgePoints.SetNumberOfPoints((int)6); wedgePoints.InsertPoint((int)0,(double)0,(double)1,(double)0); wedgePoints.InsertPoint((int)1,(double)0,(double)0,(double)0); wedgePoints.InsertPoint((int)2,(double)0,(double).5,(double).5); wedgePoints.InsertPoint((int)3,(double)1,(double)1,(double)0); wedgePoints.InsertPoint((int)4,(double)1,(double)0,(double)0); wedgePoints.InsertPoint((int)5,(double)1,(double).5,(double).5); aWedge = new vtkWedge(); aWedge.GetPointIds().SetId((int)0,(int)0); aWedge.GetPointIds().SetId((int)1,(int)1); aWedge.GetPointIds().SetId((int)2,(int)2); aWedge.GetPointIds().SetId((int)3,(int)3); aWedge.GetPointIds().SetId((int)4,(int)4); aWedge.GetPointIds().SetId((int)5,(int)5); aWedgeGrid = new vtkUnstructuredGrid(); aWedgeGrid.Allocate((int)1,(int)1); aWedgeGrid.InsertNextCell((int)aWedge.GetCellType(),(vtkIdList)aWedge.GetPointIds()); aWedgeGrid.SetPoints((vtkPoints)wedgePoints); aWedgeMapper = new vtkDataSetMapper(); aWedgeMapper.SetInput((vtkDataSet)aWedgeGrid); aWedgeActor = new vtkActor(); aWedgeActor.SetMapper((vtkMapper)aWedgeMapper); aWedgeActor.AddPosition((double)6,(double)0,(double)0); aWedgeActor.GetProperty().BackfaceCullingOn(); // Pyramid[] pyramidPoints = new vtkPoints(); pyramidPoints.SetNumberOfPoints((int)5); pyramidPoints.InsertPoint((int)0,(double)0,(double)0,(double)0); pyramidPoints.InsertPoint((int)1,(double)1,(double)0,(double)0); pyramidPoints.InsertPoint((int)2,(double)1,(double)1,(double)0); pyramidPoints.InsertPoint((int)3,(double)0,(double)1,(double)0); pyramidPoints.InsertPoint((int)4,(double).5,(double).5,(double)1); aPyramid = new vtkPyramid(); aPyramid.GetPointIds().SetId((int)0,(int)0); aPyramid.GetPointIds().SetId((int)1,(int)1); aPyramid.GetPointIds().SetId((int)2,(int)2); aPyramid.GetPointIds().SetId((int)3,(int)3); aPyramid.GetPointIds().SetId((int)4,(int)4); aPyramidGrid = new vtkUnstructuredGrid(); aPyramidGrid.Allocate((int)1,(int)1); aPyramidGrid.InsertNextCell((int)aPyramid.GetCellType(),(vtkIdList)aPyramid.GetPointIds()); aPyramidGrid.SetPoints((vtkPoints)pyramidPoints); aPyramidMapper = new vtkDataSetMapper(); aPyramidMapper.SetInput((vtkDataSet)aPyramidGrid); aPyramidActor = new vtkActor(); aPyramidActor.SetMapper((vtkMapper)aPyramidMapper); aPyramidActor.AddPosition((double)8,(double)0,(double)0); aPyramidActor.GetProperty().BackfaceCullingOn(); // Pixel[] pixelPoints = new vtkPoints(); pixelPoints.SetNumberOfPoints((int)4); pixelPoints.InsertPoint((int)0,(double)0,(double)0,(double)0); pixelPoints.InsertPoint((int)1,(double)1,(double)0,(double)0); pixelPoints.InsertPoint((int)2,(double)0,(double)1,(double)0); pixelPoints.InsertPoint((int)3,(double)1,(double)1,(double)0); aPixel = new vtkPixel(); aPixel.GetPointIds().SetId((int)0,(int)0); aPixel.GetPointIds().SetId((int)1,(int)1); aPixel.GetPointIds().SetId((int)2,(int)2); aPixel.GetPointIds().SetId((int)3,(int)3); aPixelGrid = new vtkUnstructuredGrid(); aPixelGrid.Allocate((int)1,(int)1); aPixelGrid.InsertNextCell((int)aPixel.GetCellType(),(vtkIdList)aPixel.GetPointIds()); aPixelGrid.SetPoints((vtkPoints)pixelPoints); aPixelMapper = new vtkDataSetMapper(); aPixelMapper.SetInput((vtkDataSet)aPixelGrid); aPixelActor = new vtkActor(); aPixelActor.SetMapper((vtkMapper)aPixelMapper); aPixelActor.AddPosition((double)0,(double)0,(double)2); aPixelActor.GetProperty().BackfaceCullingOn(); // Quad[] quadPoints = new vtkPoints(); quadPoints.SetNumberOfPoints((int)4); quadPoints.InsertPoint((int)0,(double)0,(double)0,(double)0); quadPoints.InsertPoint((int)1,(double)1,(double)0,(double)0); quadPoints.InsertPoint((int)2,(double)1,(double)1,(double)0); quadPoints.InsertPoint((int)3,(double)0,(double)1,(double)0); aQuad = new vtkQuad(); aQuad.GetPointIds().SetId((int)0,(int)0); aQuad.GetPointIds().SetId((int)1,(int)1); aQuad.GetPointIds().SetId((int)2,(int)2); aQuad.GetPointIds().SetId((int)3,(int)3); aQuadGrid = new vtkUnstructuredGrid(); aQuadGrid.Allocate((int)1,(int)1); aQuadGrid.InsertNextCell((int)aQuad.GetCellType(),(vtkIdList)aQuad.GetPointIds()); aQuadGrid.SetPoints((vtkPoints)quadPoints); aQuadMapper = new vtkDataSetMapper(); aQuadMapper.SetInput((vtkDataSet)aQuadGrid); aQuadActor = new vtkActor(); aQuadActor.SetMapper((vtkMapper)aQuadMapper); aQuadActor.AddPosition((double)2,(double)0,(double)2); aQuadActor.GetProperty().BackfaceCullingOn(); // Triangle[] trianglePoints = new vtkPoints(); trianglePoints.SetNumberOfPoints((int)3); trianglePoints.InsertPoint((int)0,(double)0,(double)0,(double)0); trianglePoints.InsertPoint((int)1,(double)1,(double)0,(double)0); trianglePoints.InsertPoint((int)2,(double).5,(double).5,(double)0); aTriangle = new vtkTriangle(); aTriangle.GetPointIds().SetId((int)0,(int)0); aTriangle.GetPointIds().SetId((int)1,(int)1); aTriangle.GetPointIds().SetId((int)2,(int)2); aTriangleGrid = new vtkUnstructuredGrid(); aTriangleGrid.Allocate((int)1,(int)1); aTriangleGrid.InsertNextCell((int)aTriangle.GetCellType(),(vtkIdList)aTriangle.GetPointIds()); aTriangleGrid.SetPoints((vtkPoints)trianglePoints); aTriangleMapper = new vtkDataSetMapper(); aTriangleMapper.SetInput((vtkDataSet)aTriangleGrid); aTriangleActor = new vtkActor(); aTriangleActor.SetMapper((vtkMapper)aTriangleMapper); aTriangleActor.AddPosition((double)4,(double)0,(double)2); aTriangleActor.GetProperty().BackfaceCullingOn(); // Polygon[] polygonPoints = new vtkPoints(); polygonPoints.SetNumberOfPoints((int)4); polygonPoints.InsertPoint((int)0,(double)0,(double)0,(double)0); polygonPoints.InsertPoint((int)1,(double)1,(double)0,(double)0); polygonPoints.InsertPoint((int)2,(double)1,(double)1,(double)0); polygonPoints.InsertPoint((int)3,(double)0,(double)1,(double)0); aPolygon = new vtkPolygon(); aPolygon.GetPointIds().SetNumberOfIds((int)4); aPolygon.GetPointIds().SetId((int)0,(int)0); aPolygon.GetPointIds().SetId((int)1,(int)1); aPolygon.GetPointIds().SetId((int)2,(int)2); aPolygon.GetPointIds().SetId((int)3,(int)3); aPolygonGrid = new vtkUnstructuredGrid(); aPolygonGrid.Allocate((int)1,(int)1); aPolygonGrid.InsertNextCell((int)aPolygon.GetCellType(),(vtkIdList)aPolygon.GetPointIds()); aPolygonGrid.SetPoints((vtkPoints)polygonPoints); aPolygonMapper = new vtkDataSetMapper(); aPolygonMapper.SetInput((vtkDataSet)aPolygonGrid); aPolygonActor = new vtkActor(); aPolygonActor.SetMapper((vtkMapper)aPolygonMapper); aPolygonActor.AddPosition((double)6,(double)0,(double)2); aPolygonActor.GetProperty().BackfaceCullingOn(); // Triangle Strip[] triangleStripPoints = new vtkPoints(); triangleStripPoints.SetNumberOfPoints((int)5); triangleStripPoints.InsertPoint((int)0,(double)0,(double)1,(double)0); triangleStripPoints.InsertPoint((int)1,(double)0,(double)0,(double)0); triangleStripPoints.InsertPoint((int)2,(double)1,(double)1,(double)0); triangleStripPoints.InsertPoint((int)3,(double)1,(double)0,(double)0); triangleStripPoints.InsertPoint((int)4,(double)2,(double)1,(double)0); aTriangleStrip = new vtkTriangleStrip(); aTriangleStrip.GetPointIds().SetNumberOfIds((int)5); aTriangleStrip.GetPointIds().SetId((int)0,(int)0); aTriangleStrip.GetPointIds().SetId((int)1,(int)1); aTriangleStrip.GetPointIds().SetId((int)2,(int)2); aTriangleStrip.GetPointIds().SetId((int)3,(int)3); aTriangleStrip.GetPointIds().SetId((int)4,(int)4); aTriangleStripGrid = new vtkUnstructuredGrid(); aTriangleStripGrid.Allocate((int)1,(int)1); aTriangleStripGrid.InsertNextCell((int)aTriangleStrip.GetCellType(),(vtkIdList)aTriangleStrip.GetPointIds()); aTriangleStripGrid.SetPoints((vtkPoints)triangleStripPoints); aTriangleStripMapper = new vtkDataSetMapper(); aTriangleStripMapper.SetInput((vtkDataSet)aTriangleStripGrid); aTriangleStripActor = new vtkActor(); aTriangleStripActor.SetMapper((vtkMapper)aTriangleStripMapper); aTriangleStripActor.AddPosition((double)8,(double)0,(double)2); aTriangleStripActor.GetProperty().BackfaceCullingOn(); // Line[] linePoints = new vtkPoints(); linePoints.SetNumberOfPoints((int)2); linePoints.InsertPoint((int)0,(double)0,(double)0,(double)0); linePoints.InsertPoint((int)1,(double)1,(double)1,(double)0); aLine = new vtkLine(); aLine.GetPointIds().SetId((int)0,(int)0); aLine.GetPointIds().SetId((int)1,(int)1); aLineGrid = new vtkUnstructuredGrid(); aLineGrid.Allocate((int)1,(int)1); aLineGrid.InsertNextCell((int)aLine.GetCellType(),(vtkIdList)aLine.GetPointIds()); aLineGrid.SetPoints((vtkPoints)linePoints); aLineMapper = new vtkDataSetMapper(); aLineMapper.SetInput((vtkDataSet)aLineGrid); aLineActor = new vtkActor(); aLineActor.SetMapper((vtkMapper)aLineMapper); aLineActor.AddPosition((double)0,(double)0,(double)4); aLineActor.GetProperty().BackfaceCullingOn(); // Poly line[] polyLinePoints = new vtkPoints(); polyLinePoints.SetNumberOfPoints((int)3); polyLinePoints.InsertPoint((int)0,(double)0,(double)0,(double)0); polyLinePoints.InsertPoint((int)1,(double)1,(double)1,(double)0); polyLinePoints.InsertPoint((int)2,(double)1,(double)0,(double)0); aPolyLine = new vtkPolyLine(); aPolyLine.GetPointIds().SetNumberOfIds((int)3); aPolyLine.GetPointIds().SetId((int)0,(int)0); aPolyLine.GetPointIds().SetId((int)1,(int)1); aPolyLine.GetPointIds().SetId((int)2,(int)2); aPolyLineGrid = new vtkUnstructuredGrid(); aPolyLineGrid.Allocate((int)1,(int)1); aPolyLineGrid.InsertNextCell((int)aPolyLine.GetCellType(),(vtkIdList)aPolyLine.GetPointIds()); aPolyLineGrid.SetPoints((vtkPoints)polyLinePoints); aPolyLineMapper = new vtkDataSetMapper(); aPolyLineMapper.SetInput((vtkDataSet)aPolyLineGrid); aPolyLineActor = new vtkActor(); aPolyLineActor.SetMapper((vtkMapper)aPolyLineMapper); aPolyLineActor.AddPosition((double)2,(double)0,(double)4); aPolyLineActor.GetProperty().BackfaceCullingOn(); // Vertex[] vertexPoints = new vtkPoints(); vertexPoints.SetNumberOfPoints((int)1); vertexPoints.InsertPoint((int)0,(double)0,(double)0,(double)0); aVertex = new vtkVertex(); aVertex.GetPointIds().SetId((int)0,(int)0); aVertexGrid = new vtkUnstructuredGrid(); aVertexGrid.Allocate((int)1,(int)1); aVertexGrid.InsertNextCell((int)aVertex.GetCellType(),(vtkIdList)aVertex.GetPointIds()); aVertexGrid.SetPoints((vtkPoints)vertexPoints); aVertexMapper = new vtkDataSetMapper(); aVertexMapper.SetInput((vtkDataSet)aVertexGrid); aVertexActor = new vtkActor(); aVertexActor.SetMapper((vtkMapper)aVertexMapper); aVertexActor.AddPosition((double)0,(double)0,(double)6); aVertexActor.GetProperty().BackfaceCullingOn(); // Poly Vertex[] polyVertexPoints = new vtkPoints(); polyVertexPoints.SetNumberOfPoints((int)3); polyVertexPoints.InsertPoint((int)0,(double)0,(double)0,(double)0); polyVertexPoints.InsertPoint((int)1,(double)1,(double)0,(double)0); polyVertexPoints.InsertPoint((int)2,(double)1,(double)1,(double)0); aPolyVertex = new vtkPolyVertex(); aPolyVertex.GetPointIds().SetNumberOfIds((int)3); aPolyVertex.GetPointIds().SetId((int)0,(int)0); aPolyVertex.GetPointIds().SetId((int)1,(int)1); aPolyVertex.GetPointIds().SetId((int)2,(int)2); aPolyVertexGrid = new vtkUnstructuredGrid(); aPolyVertexGrid.Allocate((int)1,(int)1); aPolyVertexGrid.InsertNextCell((int)aPolyVertex.GetCellType(),(vtkIdList)aPolyVertex.GetPointIds()); aPolyVertexGrid.SetPoints((vtkPoints)polyVertexPoints); aPolyVertexMapper = new vtkDataSetMapper(); aPolyVertexMapper.SetInput((vtkDataSet)aPolyVertexGrid); aPolyVertexActor = new vtkActor(); aPolyVertexActor.SetMapper((vtkMapper)aPolyVertexMapper); aPolyVertexActor.AddPosition((double)2,(double)0,(double)6); aPolyVertexActor.GetProperty().BackfaceCullingOn(); // Pentagonal prism[] pentaPoints = new vtkPoints(); pentaPoints.SetNumberOfPoints((int)10); pentaPoints.InsertPoint((int)0,(double)0.25,(double)0.0,(double)0.0); pentaPoints.InsertPoint((int)1,(double)0.75,(double)0.0,(double)0.0); pentaPoints.InsertPoint((int)2,(double)1.0,(double)0.5,(double)0.0); pentaPoints.InsertPoint((int)3,(double)0.5,(double)1.0,(double)0.0); pentaPoints.InsertPoint((int)4,(double)0.0,(double)0.5,(double)0.0); pentaPoints.InsertPoint((int)5,(double)0.25,(double)0.0,(double)1.0); pentaPoints.InsertPoint((int)6,(double)0.75,(double)0.0,(double)1.0); pentaPoints.InsertPoint((int)7,(double)1.0,(double)0.5,(double)1.0); pentaPoints.InsertPoint((int)8,(double)0.5,(double)1.0,(double)1.0); pentaPoints.InsertPoint((int)9,(double)0.0,(double)0.5,(double)1.0); aPenta = new vtkPentagonalPrism(); aPenta.GetPointIds().SetId((int)0,(int)0); aPenta.GetPointIds().SetId((int)1,(int)1); aPenta.GetPointIds().SetId((int)2,(int)2); aPenta.GetPointIds().SetId((int)3,(int)3); aPenta.GetPointIds().SetId((int)4,(int)4); aPenta.GetPointIds().SetId((int)5,(int)5); aPenta.GetPointIds().SetId((int)6,(int)6); aPenta.GetPointIds().SetId((int)7,(int)7); aPenta.GetPointIds().SetId((int)8,(int)8); aPenta.GetPointIds().SetId((int)9,(int)9); aPentaGrid = new vtkUnstructuredGrid(); aPentaGrid.Allocate((int)1,(int)1); aPentaGrid.InsertNextCell((int)aPenta.GetCellType(),(vtkIdList)aPenta.GetPointIds()); aPentaGrid.SetPoints((vtkPoints)pentaPoints); aPentaMapper = new vtkDataSetMapper(); aPentaMapper.SetInput((vtkDataSet)aPentaGrid); aPentaActor = new vtkActor(); aPentaActor.SetMapper((vtkMapper)aPentaMapper); aPentaActor.AddPosition((double)10,(double)0,(double)0); aPentaActor.GetProperty().BackfaceCullingOn(); // Hexagonal prism[] hexaPoints = new vtkPoints(); hexaPoints.SetNumberOfPoints((int)12); hexaPoints.InsertPoint((int)0,(double)0.0,(double)0.0,(double)0.0); hexaPoints.InsertPoint((int)1,(double)0.5,(double)0.0,(double)0.0); hexaPoints.InsertPoint((int)2,(double)1.0,(double)0.5,(double)0.0); hexaPoints.InsertPoint((int)3,(double)1.0,(double)1.0,(double)0.0); hexaPoints.InsertPoint((int)4,(double)0.5,(double)1.0,(double)0.0); hexaPoints.InsertPoint((int)5,(double)0.0,(double)0.5,(double)0.0); hexaPoints.InsertPoint((int)6,(double)0.0,(double)0.0,(double)1.0); hexaPoints.InsertPoint((int)7,(double)0.5,(double)0.0,(double)1.0); hexaPoints.InsertPoint((int)8,(double)1.0,(double)0.5,(double)1.0); hexaPoints.InsertPoint((int)9,(double)1.0,(double)1.0,(double)1.0); hexaPoints.InsertPoint((int)10,(double)0.5,(double)1.0,(double)1.0); hexaPoints.InsertPoint((int)11,(double)0.0,(double)0.5,(double)1.0); aHexa = new vtkHexagonalPrism(); aHexa.GetPointIds().SetId((int)0,(int)0); aHexa.GetPointIds().SetId((int)1,(int)1); aHexa.GetPointIds().SetId((int)2,(int)2); aHexa.GetPointIds().SetId((int)3,(int)3); aHexa.GetPointIds().SetId((int)4,(int)4); aHexa.GetPointIds().SetId((int)5,(int)5); aHexa.GetPointIds().SetId((int)6,(int)6); aHexa.GetPointIds().SetId((int)7,(int)7); aHexa.GetPointIds().SetId((int)8,(int)8); aHexa.GetPointIds().SetId((int)9,(int)9); aHexa.GetPointIds().SetId((int)10,(int)10); aHexa.GetPointIds().SetId((int)11,(int)11); aHexaGrid = new vtkUnstructuredGrid(); aHexaGrid.Allocate((int)1,(int)1); aHexaGrid.InsertNextCell((int)aHexa.GetCellType(),(vtkIdList)aHexa.GetPointIds()); aHexaGrid.SetPoints((vtkPoints)hexaPoints); aHexaMapper = new vtkDataSetMapper(); aHexaMapper.SetInput((vtkDataSet)aHexaGrid); aHexaActor = new vtkActor(); aHexaActor.SetMapper((vtkMapper)aHexaMapper); aHexaActor.AddPosition((double)12,(double)0,(double)0); aHexaActor.GetProperty().BackfaceCullingOn(); ren1.SetBackground((double).1,(double).2,(double).4); ren1.AddActor((vtkProp)aVoxelActor); aVoxelActor.GetProperty().SetDiffuseColor((double)1,(double)0,(double)0); ren1.AddActor((vtkProp)aHexahedronActor); aHexahedronActor.GetProperty().SetDiffuseColor((double)1,(double)1,(double)0); ren1.AddActor((vtkProp)aTetraActor); aTetraActor.GetProperty().SetDiffuseColor((double)0,(double)1,(double)0); ren1.AddActor((vtkProp)aWedgeActor); aWedgeActor.GetProperty().SetDiffuseColor((double)0,(double)1,(double)1); ren1.AddActor((vtkProp)aPyramidActor); aPyramidActor.GetProperty().SetDiffuseColor((double)1,(double)0,(double)1); ren1.AddActor((vtkProp)aPixelActor); aPixelActor.GetProperty().SetDiffuseColor((double)0,(double)1,(double)1); ren1.AddActor((vtkProp)aQuadActor); aQuadActor.GetProperty().SetDiffuseColor((double)1,(double)0,(double)1); ren1.AddActor((vtkProp)aTriangleActor); aTriangleActor.GetProperty().SetDiffuseColor((double).3,(double)1,(double).5); ren1.AddActor((vtkProp)aPolygonActor); aPolygonActor.GetProperty().SetDiffuseColor((double)1,(double).4,(double).5); ren1.AddActor((vtkProp)aTriangleStripActor); aTriangleStripActor.GetProperty().SetDiffuseColor((double).3,(double).7,(double)1); ren1.AddActor((vtkProp)aLineActor); aLineActor.GetProperty().SetDiffuseColor((double).2,(double)1,(double)1); ren1.AddActor((vtkProp)aPolyLineActor); aPolyLineActor.GetProperty().SetDiffuseColor((double)1,(double)1,(double)1); ren1.AddActor((vtkProp)aVertexActor); aVertexActor.GetProperty().SetDiffuseColor((double)1,(double)1,(double)1); ren1.AddActor((vtkProp)aPolyVertexActor); aPolyVertexActor.GetProperty().SetDiffuseColor((double)1,(double)1,(double)1); ren1.AddActor((vtkProp)aPentaActor); aPentaActor.GetProperty().SetDiffuseColor((double).2,(double).4,(double).7); ren1.AddActor((vtkProp)aHexaActor); aHexaActor.GetProperty().SetDiffuseColor((double).7,(double).5,(double)1); ren1.ResetCamera(); ren1.GetActiveCamera().Azimuth((double)30); ren1.GetActiveCamera().Elevation((double)20); ren1.GetActiveCamera().Dolly((double)1.25); ren1.ResetCameraClippingRange(); renWin.Render(); cellPicker = new vtkCellPicker(); pointPicker = new vtkPointPicker(); worldPicker = new vtkWorldPointPicker(); cellCount = 0; pointCount = 0; ren1.IsInViewport((int)0,(int)0); x = 0; while((x) <= 265) { y = 100; while((y) <= 200) { cellPicker.Pick((double)x,(double)y,(double)0,(vtkRenderer)ren1); pointPicker.Pick((double)x,(double)y,(double)0,(vtkRenderer)ren1); worldPicker.Pick((double)x,(double)y,(double)0,(vtkRenderer)ren1); if ((cellPicker.GetCellId()) != -1) { cellCount = cellCount + 1; } if ((pointPicker.GetPointId()) != -1) { pointCount = pointCount + 1; } y = y + 6; } x = x + 6; } // render the image[] //[] iren.Initialize(); //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 AVpolyConn(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); // read data[] //[] pl3d = new vtkMultiBlockPLOT3DReader(); pl3d.SetXYZFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/combxyz.bin"); pl3d.SetQFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/combq.bin"); pl3d.SetScalarFunctionNumber((int)100); pl3d.SetVectorFunctionNumber((int)202); pl3d.Update(); // planes to connect[] plane1 = new vtkStructuredGridGeometryFilter(); plane1.SetInputData((vtkDataSet)pl3d.GetOutput().GetBlock(0)); plane1.SetExtent((int)20,(int)20,(int)0,(int)100,(int)0,(int)100); conn = new vtkPolyDataConnectivityFilter(); conn.SetInputConnection((vtkAlgorithmOutput)plane1.GetOutputPort()); conn.ScalarConnectivityOn(); conn.SetScalarRange((double)0.19,(double)0.25); plane1Map = vtkPolyDataMapper.New(); plane1Map.SetInputConnection((vtkAlgorithmOutput)conn.GetOutputPort()); plane1Map.SetScalarRange((double)((vtkDataSet)pl3d.GetOutput().GetBlock(0)).GetScalarRange()[0], (double)((vtkDataSet)pl3d.GetOutput().GetBlock(0)).GetScalarRange()[1]); plane1Actor = new vtkActor(); plane1Actor.SetMapper((vtkMapper)plane1Map); plane1Actor.GetProperty().SetOpacity((double)0.999); // outline[] outline = new vtkStructuredGridOutlineFilter(); outline.SetInputData((vtkDataSet)pl3d.GetOutput().GetBlock(0)); outlineMapper = vtkPolyDataMapper.New(); outlineMapper.SetInputConnection((vtkAlgorithmOutput)outline.GetOutputPort()); outlineActor = new vtkActor(); outlineActor.SetMapper((vtkMapper)outlineMapper); outlineProp = outlineActor.GetProperty(); outlineProp.SetColor((double)0,(double)0,(double)0); // Add the actors to the renderer, set the background and size[] //[] ren1.AddActor((vtkProp)outlineActor); ren1.AddActor((vtkProp)plane1Actor); ren1.SetBackground((double)1,(double)1,(double)1); renWin.SetSize((int)300,(int)300); cam1 = new vtkCamera(); cam1.SetClippingRange((double)14.29,(double)63.53); cam1.SetFocalPoint((double)8.58522,(double)1.58266,(double)30.6486); cam1.SetPosition((double)37.6808,(double)-20.1298,(double)35.4016); cam1.SetViewAngle((double)30); cam1.SetViewUp((double)-0.0566235,(double)0.140504,(double)0.98846); ren1.SetActiveCamera((vtkCamera)cam1); 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 AVTenEllip(String [] argv) { //Prefix Content is: "" // create tensor ellipsoids[] // Create the RenderWindow, Renderer and interactive renderer[] //[] ren1 = vtkRenderer.New(); renWin = vtkRenderWindow.New(); renWin.SetMultiSamples(0); renWin.AddRenderer((vtkRenderer)ren1); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); //[] // Create tensor ellipsoids[] //[] // generate tensors[] ptLoad = new vtkPointLoad(); ptLoad.SetLoadValue((double)100.0); ptLoad.SetSampleDimensions((int)6,(int)6,(int)6); ptLoad.ComputeEffectiveStressOn(); ptLoad.SetModelBounds((double)-10,(double)10,(double)-10,(double)10,(double)-10,(double)10); // extract plane of data[] plane = new vtkImageDataGeometryFilter(); plane.SetInputConnection((vtkAlgorithmOutput)ptLoad.GetOutputPort()); plane.SetExtent((int)2,(int)2,(int)0,(int)99,(int)0,(int)99); // Generate ellipsoids[] sphere = new vtkSphereSource(); sphere.SetThetaResolution((int)8); sphere.SetPhiResolution((int)8); ellipsoids = new vtkTensorGlyph(); ellipsoids.SetInputConnection((vtkAlgorithmOutput)ptLoad.GetOutputPort()); ellipsoids.SetSourceConnection((vtkAlgorithmOutput)sphere.GetOutputPort()); ellipsoids.SetScaleFactor((double)10); ellipsoids.ClampScalingOn(); ellipNormals = new vtkPolyDataNormals(); ellipNormals.SetInputConnection((vtkAlgorithmOutput)ellipsoids.GetOutputPort()); // Map contour[] lut = new vtkLogLookupTable(); lut.SetHueRange((double).6667,(double)0.0); ellipMapper = vtkPolyDataMapper.New(); ellipMapper.SetInputConnection((vtkAlgorithmOutput)ellipNormals.GetOutputPort()); ellipMapper.SetLookupTable((vtkScalarsToColors)lut); plane.Update(); //force update for scalar range[] ellipMapper.SetScalarRange((double)((vtkDataSet)plane.GetOutput()).GetScalarRange()[0],(double)((vtkDataSet)plane.GetOutput()).GetScalarRange()[1]); ellipActor = new vtkActor(); ellipActor.SetMapper((vtkMapper)ellipMapper); //[] // Create outline around data[] //[] outline = new vtkOutlineFilter(); outline.SetInputConnection((vtkAlgorithmOutput)ptLoad.GetOutputPort()); outlineMapper = vtkPolyDataMapper.New(); outlineMapper.SetInputConnection((vtkAlgorithmOutput)outline.GetOutputPort()); outlineActor = new vtkActor(); outlineActor.SetMapper((vtkMapper)outlineMapper); outlineActor.GetProperty().SetColor((double)0,(double)0,(double)0); //[] // Create cone indicating application of load[] //[] coneSrc = new vtkConeSource(); coneSrc.SetRadius((double).5); coneSrc.SetHeight((double)2); coneMap = vtkPolyDataMapper.New(); coneMap.SetInputConnection((vtkAlgorithmOutput)coneSrc.GetOutputPort()); coneActor = new vtkActor(); coneActor.SetMapper((vtkMapper)coneMap); coneActor.SetPosition((double)0,(double)0,(double)11); coneActor.RotateY((double)90); coneActor.GetProperty().SetColor((double)1,(double)0,(double)0); camera = new vtkCamera(); camera.SetFocalPoint((double)0.113766,(double)-1.13665,(double)-1.01919); camera.SetPosition((double)-29.4886,(double)-63.1488,(double)26.5807); camera.SetViewAngle((double)24.4617); camera.SetViewUp((double)0.17138,(double)0.331163,(double)0.927879); camera.SetClippingRange((double)1,(double)100); ren1.AddActor((vtkProp)ellipActor); ren1.AddActor((vtkProp)outlineActor); ren1.AddActor((vtkProp)coneActor); ren1.SetBackground((double)1.0,(double)1.0,(double)1.0); ren1.SetActiveCamera((vtkCamera)camera); renWin.SetSize((int)400,(int)400); renWin.Render(); // 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 AVEnSightRectGridASCII(String [] argv) { //Prefix Content is: "" VTK_VARY_RADIUS_BY_VECTOR = 2; // create pipeline[] //[] reader = new vtkGenericEnSightReader(); // Make sure all algorithms use the composite data pipeline[] cdp = new vtkCompositeDataPipeline(); vtkGenericEnSightReader.SetDefaultExecutivePrototype((vtkExecutive)cdp); reader.SetCaseFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/EnSight/RectGrid_ascii.case"); reader.Update(); toRectilinearGrid = new vtkCastToConcrete(); // toRectilinearGrid SetInputConnection [reader GetOutputPort] [] toRectilinearGrid.SetInput((vtkDataObject)reader.GetOutput().GetBlock((uint)0)); plane = new vtkRectilinearGridGeometryFilter(); plane.SetInput((vtkDataObject)toRectilinearGrid.GetRectilinearGridOutput()); plane.SetExtent((int)0,(int)100,(int)0,(int)100,(int)15,(int)15); tri = new vtkTriangleFilter(); tri.SetInputConnection((vtkAlgorithmOutput)plane.GetOutputPort()); warper = new vtkWarpVector(); warper.SetInputConnection((vtkAlgorithmOutput)tri.GetOutputPort()); warper.SetScaleFactor((double)0.05); planeMapper = new vtkDataSetMapper(); planeMapper.SetInputConnection((vtkAlgorithmOutput)warper.GetOutputPort()); planeMapper.SetScalarRange((double)0.197813,(double)0.710419); planeActor = new vtkActor(); planeActor.SetMapper((vtkMapper)planeMapper); cutPlane = new vtkPlane(); // eval cutPlane SetOrigin [[reader GetOutput] GetCenter][] cutPlane.SetOrigin((double)((vtkDataSet)reader.GetOutput().GetBlock((uint)0)).GetCenter()[0], (double)((vtkDataSet)reader.GetOutput().GetBlock((uint)0)).GetCenter()[1], (double)((vtkDataSet)reader.GetOutput().GetBlock((uint)0)).GetCenter()[2]); cutPlane.SetNormal((double)1,(double)0,(double)0); planeCut = new vtkCutter(); planeCut.SetInput((vtkDataObject)toRectilinearGrid.GetRectilinearGridOutput()); planeCut.SetCutFunction((vtkImplicitFunction)cutPlane); cutMapper = new vtkDataSetMapper(); cutMapper.SetInputConnection((vtkAlgorithmOutput)planeCut.GetOutputPort()); cutMapper.SetScalarRange((double)((vtkDataSet)((vtkMultiBlockDataSet)reader.GetOutput()).GetBlock((uint)0)).GetPointData().GetScalars().GetRange()[0], (double)((vtkDataSet)((vtkMultiBlockDataSet)reader.GetOutput()).GetBlock((uint)0)).GetPointData().GetScalars().GetRange()[1]); cutActor = new vtkActor(); cutActor.SetMapper((vtkMapper)cutMapper); iso = new vtkContourFilter(); iso.SetInput((vtkDataObject)toRectilinearGrid.GetRectilinearGridOutput()); iso.SetValue((int)0,(double)0.7); normals = new vtkPolyDataNormals(); normals.SetInputConnection((vtkAlgorithmOutput)iso.GetOutputPort()); normals.SetFeatureAngle((double)45); isoMapper = vtkPolyDataMapper.New(); isoMapper.SetInputConnection((vtkAlgorithmOutput)normals.GetOutputPort()); isoMapper.ScalarVisibilityOff(); isoActor = new vtkActor(); isoActor.SetMapper((vtkMapper)isoMapper); isoActor.GetProperty().SetColor((double) 1.0000, 0.8941, 0.7686 ); isoActor.GetProperty().SetRepresentationToWireframe(); streamer = new vtkStreamLine(); // streamer SetInputConnection [reader GetOutputPort][] streamer.SetInput((vtkDataObject)reader.GetOutput().GetBlock((uint)0)); streamer.SetStartPosition((double)-1.2,(double)-0.1,(double)1.3); streamer.SetMaximumPropagationTime((double)500); streamer.SetStepLength((double)0.05); streamer.SetIntegrationStepLength((double)0.05); streamer.SetIntegrationDirectionToIntegrateBothDirections(); streamTube = new vtkTubeFilter(); streamTube.SetInputConnection((vtkAlgorithmOutput)streamer.GetOutputPort()); streamTube.SetRadius((double)0.025); streamTube.SetNumberOfSides((int)6); streamTube.SetVaryRadius((int)VTK_VARY_RADIUS_BY_VECTOR); mapStreamTube = vtkPolyDataMapper.New(); mapStreamTube.SetInputConnection((vtkAlgorithmOutput)streamTube.GetOutputPort()); mapStreamTube.SetScalarRange((double)((vtkDataSet)reader.GetOutput().GetBlock((uint)0)).GetPointData().GetScalars().GetRange()[0], (double)((vtkDataSet)reader.GetOutput().GetBlock((uint)0)).GetPointData().GetScalars().GetRange()[1]); // [[[[reader GetOutput] GetPointData] GetScalars] GetRange][] streamTubeActor = new vtkActor(); streamTubeActor.SetMapper((vtkMapper)mapStreamTube); streamTubeActor.GetProperty().BackfaceCullingOn(); outline = new vtkOutlineFilter(); outline.SetInput((vtkDataObject)toRectilinearGrid.GetRectilinearGridOutput()); outlineMapper = vtkPolyDataMapper.New(); outlineMapper.SetInputConnection((vtkAlgorithmOutput)outline.GetOutputPort()); 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.AddActor((vtkProp)planeActor); ren1.AddActor((vtkProp)cutActor); ren1.AddActor((vtkProp)isoActor); ren1.AddActor((vtkProp)streamTubeActor); 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[] vtkGenericEnSightReader.SetDefaultExecutivePrototype(null); //deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVfieldToRGrid(String [] argv) { //Prefix Content is: "" //# Generate a rectilinear grid from a field.[] //#[] // get the interactor ui[] // Create a reader and write out the field[] reader = new vtkDataSetReader(); reader.SetFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/RectGrid2.vtk"); ds2do = new vtkDataSetToDataObjectFilter(); ds2do.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); try { channel = new StreamWriter("RGridField.vtk"); tryCatchError = "NOERROR"; } catch(Exception) {tryCatchError = "ERROR";} if(tryCatchError.Equals("NOERROR")) { channel.Close(); writer = new vtkDataObjectWriter(); writer.SetInputConnection((vtkAlgorithmOutput)ds2do.GetOutputPort()); writer.SetFileName((string)"RGridField.vtk"); writer.Write(); // Read the field[] //[] dor = new vtkDataObjectReader(); dor.SetFileName((string)"RGridField.vtk"); do2ds = new vtkDataObjectToDataSetFilter(); do2ds.SetInputConnection((vtkAlgorithmOutput)dor.GetOutputPort()); do2ds.SetDataSetTypeToRectilinearGrid(); do2ds.SetDimensionsComponent((string)"Dimensions",(int)0); do2ds.SetPointComponent((int)0,(string)"XCoordinates",(int)0); do2ds.SetPointComponent((int)1,(string)"YCoordinates",(int)0); do2ds.SetPointComponent((int)2,(string)"ZCoordinates",(int)0); fd2ad = new vtkFieldDataToAttributeDataFilter(); fd2ad.SetInput((vtkDataObject)do2ds.GetRectilinearGridOutput()); fd2ad.SetInputFieldToDataObjectField(); fd2ad.SetOutputAttributeDataToPointData(); fd2ad.SetVectorComponent((int)0,(string)"vectors",(int)0); fd2ad.SetVectorComponent((int)1,(string)"vectors",(int)1); fd2ad.SetVectorComponent((int)2,(string)"vectors",(int)2); fd2ad.SetScalarComponent((int)0,(string)"scalars",(int)0); fd2ad.Update(); // create pipeline[] //[] plane = new vtkRectilinearGridGeometryFilter(); plane.SetInput((vtkDataObject)fd2ad.GetRectilinearGridOutput()); plane.SetExtent((int)0,(int)100,(int)0,(int)100,(int)15,(int)15); warper = new vtkWarpVector(); warper.SetInputConnection((vtkAlgorithmOutput)plane.GetOutputPort()); warper.SetScaleFactor((double)0.05); planeMapper = new vtkDataSetMapper(); planeMapper.SetInputConnection((vtkAlgorithmOutput)warper.GetOutputPort()); planeMapper.SetScalarRange((double)0.197813,(double)0.710419); planeActor = new vtkActor(); planeActor.SetMapper((vtkMapper)planeMapper); cutPlane = new vtkPlane(); cutPlane.SetOrigin(fd2ad.GetOutput().GetCenter()[0],fd2ad.GetOutput().GetCenter()[1],fd2ad.GetOutput().GetCenter()[2]); cutPlane.SetNormal((double)1,(double)0,(double)0); planeCut = new vtkCutter(); planeCut.SetInput((vtkDataObject)fd2ad.GetRectilinearGridOutput()); planeCut.SetCutFunction((vtkImplicitFunction)cutPlane); cutMapper = new vtkDataSetMapper(); cutMapper.SetInputConnection((vtkAlgorithmOutput)planeCut.GetOutputPort()); cutMapper.SetScalarRange( (double)((vtkDataSet)fd2ad.GetOutput()).GetPointData().GetScalars().GetRange()[0], (double)((vtkDataSet)fd2ad.GetOutput()).GetPointData().GetScalars().GetRange()[1]); cutActor = new vtkActor(); cutActor.SetMapper((vtkMapper)cutMapper); iso = new vtkContourFilter(); iso.SetInput((vtkDataObject)fd2ad.GetRectilinearGridOutput()); iso.SetValue((int)0,(double)0.7); normals = new vtkPolyDataNormals(); normals.SetInputConnection((vtkAlgorithmOutput)iso.GetOutputPort()); normals.SetFeatureAngle((double)45); isoMapper = vtkPolyDataMapper.New(); isoMapper.SetInputConnection((vtkAlgorithmOutput)normals.GetOutputPort()); isoMapper.ScalarVisibilityOff(); isoActor = new vtkActor(); isoActor.SetMapper((vtkMapper)isoMapper); isoActor.GetProperty().SetColor((double) 1.0000, 0.8941, 0.7686 ); isoActor.GetProperty().SetRepresentationToWireframe(); streamer = new vtkStreamLine(); streamer.SetInputConnection((vtkAlgorithmOutput)fd2ad.GetOutputPort()); streamer.SetStartPosition((double)-1.2,(double)-0.1,(double)1.3); streamer.SetMaximumPropagationTime((double)500); streamer.SetStepLength((double)0.05); streamer.SetIntegrationStepLength((double)0.05); streamer.SetIntegrationDirectionToIntegrateBothDirections(); streamTube = new vtkTubeFilter(); streamTube.SetInputConnection((vtkAlgorithmOutput)streamer.GetOutputPort()); streamTube.SetRadius((double)0.025); streamTube.SetNumberOfSides((int)6); streamTube.SetVaryRadiusToVaryRadiusByVector(); mapStreamTube = vtkPolyDataMapper.New(); mapStreamTube.SetInputConnection((vtkAlgorithmOutput)streamTube.GetOutputPort()); mapStreamTube.SetScalarRange( (double)((vtkDataSet)fd2ad.GetOutput()).GetPointData().GetScalars().GetRange()[0], (double)((vtkDataSet)fd2ad.GetOutput()).GetPointData().GetScalars().GetRange()[1]); streamTubeActor = new vtkActor(); streamTubeActor.SetMapper((vtkMapper)mapStreamTube); streamTubeActor.GetProperty().BackfaceCullingOn(); outline = new vtkOutlineFilter(); outline.SetInput((vtkDataObject)fd2ad.GetRectilinearGridOutput()); outlineMapper = vtkPolyDataMapper.New(); outlineMapper.SetInputConnection((vtkAlgorithmOutput)outline.GetOutputPort()); 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.AddActor((vtkProp)planeActor); ren1.AddActor((vtkProp)cutActor); ren1.AddActor((vtkProp)isoActor); ren1.AddActor((vtkProp)streamTubeActor); ren1.SetBackground((double)1,(double)1,(double)1); renWin.SetSize((int)300,(int)300); ren1.GetActiveCamera().SetPosition((double)0.0390893,(double)0.184813,(double)-3.94026); ren1.GetActiveCamera().SetFocalPoint((double)-0.00578326,(double)0,(double)0.701967); ren1.GetActiveCamera().SetViewAngle((double)30); ren1.GetActiveCamera().SetViewUp((double)0.00850257,(double)0.999169,(double)0.0398605); ren1.GetActiveCamera().SetClippingRange((double)3.08127,(double)6.62716); iren.Initialize(); // render the image[] //[] File.Delete("RGridField.vtk"); } // prevent the tk window from showing up then start the event loop[] //deleteAllVTKObjects(); }
private vtkActor LoadSTL(vtkActor actor, string path, Color color) { vtkSTLReader reader = vtkSTLReader.New(); string filePath = string.Concat(Environment.CurrentDirectory, path); reader.SetFileName(filePath); reader.Update(); vtkPolyDataMapper mapper = vtkPolyDataMapper.New(); mapper.SetInputConnection(reader.GetOutputPort()); actor = vtkActor.New(); actor.SetMapper(mapper); actor.GetProperty().SetColor((double)color.R / 255, (double)color.G / 255, (double)color.B / 255); return actor; }
/// <summary> /// An example that does not use a Windows Form /// </summary> /// <param name="argv"></param> public static void Main(String[] argv) { // This example demonstrates the use of vtkCubeAxesActor2D to indicate the // position in space that the camera is currently viewing. // The vtkCubeAxesActor2D draws axes on the bounding box of the data set and // labels the axes with x-y-z coordinates. // // First we include the VTK Tcl packages which will make available // all of the vtk commands to Tcl // // Create a vtkBYUReader and read in a data set. // fohe = vtkBYUReader.New(); fohe.SetGeometryFileName("../../../teapot.g"); // Create a vtkPolyDataNormals filter to calculate the normals of the data set. normals = vtkPolyDataNormals.New(); normals.SetInputConnection(fohe.GetOutputPort()); // Set up the associated mapper and actor. foheMapper = vtkPolyDataMapper.New(); foheMapper.SetInputConnection(normals.GetOutputPort()); foheActor = vtkLODActor.New(); foheActor.SetMapper(foheMapper); // Create a vtkOutlineFilter to draw the bounding box of the data set. Also // create the associated mapper and actor. outline = vtkOutlineFilter.New(); outline.SetInputConnection(normals.GetOutputPort()); mapOutline = vtkPolyDataMapper.New(); mapOutline.SetInputConnection(outline.GetOutputPort()); outlineActor = vtkActor.New(); outlineActor.SetMapper(mapOutline); outlineActor.GetProperty().SetColor(0, 0, 0); // Create a vtkCamera, and set the camera parameters. camera = vtkCamera.New(); camera.SetClippingRange(1.60187, 20.0842); camera.SetFocalPoint(0.21406, 1.5, 0); camera.SetPosition(8.3761, 4.94858, 4.12505); camera.SetViewUp(0.180325, 0.549245, -0.815974); // Create a vtkLight, and set the light parameters. light = vtkLight.New(); light.SetFocalPoint(0.21406, 1.5, 0); light.SetPosition(8.3761, 4.94858, 4.12505); // Create the Renderers. Assign them the appropriate viewport coordinates, // active camera, and light. ren1 = vtkRenderer.New(); ren1.SetViewport(0, 0, 0.5, 1.0); ren1.SetActiveCamera(camera); ren1.AddLight(light); ren2 = vtkRenderer.New(); ren2.SetViewport(0.5, 0, 1.0, 1.0); ren2.SetActiveCamera(camera); ren2.AddLight(light); // Create the RenderWindow and RenderWindowInteractor. renWin = vtkRenderWindow.New(); renWin.AddRenderer(ren1); renWin.AddRenderer(ren2); renWin.SetWindowName("VTK - Cube Axes"); renWin.SetSize(600, 300); iren = vtkRenderWindowInteractor.New(); iren.SetRenderWindow(renWin); // Add the actors to the renderer, and set the background. ren1.AddViewProp(foheActor); ren1.AddViewProp(outlineActor); ren2.AddViewProp(foheActor); ren2.AddViewProp(outlineActor); ren1.SetBackground(0.1, 0.2, 0.4); ren2.SetBackground(0.1, 0.2, 0.4); // Create a text property for both cube axes tprop = vtkTextProperty.New(); tprop.SetColor(1, 1, 1); tprop.ShadowOn(); // Create a vtkCubeAxesActor2D. Use the outer edges of the bounding box to // draw the axes. Add the actor to the renderer. axes = vtkCubeAxesActor2D.New(); axes.SetInput(normals.GetOutput()); axes.SetCamera(ren1.GetActiveCamera()); axes.SetLabelFormat("%6.4g"); axes.SetFlyModeToOuterEdges(); axes.SetFontFactor(0.8); axes.SetAxisTitleTextProperty(tprop); axes.SetAxisLabelTextProperty(tprop); ren1.AddViewProp(axes); // Create a vtkCubeAxesActor2D. Use the closest vertex to the camera to // determine where to draw the axes. Add the actor to the renderer. axes2 = vtkCubeAxesActor2D.New(); axes2.SetViewProp(foheActor); axes2.SetCamera(ren2.GetActiveCamera()); axes2.SetLabelFormat("%6.4g"); axes2.SetFlyModeToClosestTriad(); axes2.SetFontFactor(0.8); axes2.ScalingOff(); axes2.SetAxisTitleTextProperty(tprop); axes2.SetAxisLabelTextProperty(tprop); ren2.AddViewProp(axes2); // Render renWin.Render(); // Set the user method (bound to key 'u') iren.Initialize(); iren.Start(); // Set up a check for aborting rendering. renWin.AbortCheckEvt += new vtkObject.vtkObjectEventHandler(TkCheckAbort); //Clean Up deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVMatrixToTransform(String [] argv) { //Prefix Content is: "" // This example demonstrates how to use a matrix in place of a transfrom[] // via vtkMatrixToLinearTransform and vtkMatrixToHomogeneousTransform.[] // create a rendering window[] renWin = vtkRenderWindow.New(); renWin.SetSize((int)600,(int)300); // set up first set of polydata[] p1 = new vtkPlaneSource(); p1.SetOrigin((double)0.5,(double)0.508,(double)-0.5); p1.SetPoint1((double)-0.5,(double)0.508,(double)-0.5); p1.SetPoint2((double)0.5,(double)0.508,(double)0.5); p1.SetXResolution((int)5); p1.SetYResolution((int)5); p2 = new vtkPlaneSource(); p2.SetOrigin((double)-0.508,(double)0.5,(double)-0.5); p2.SetPoint1((double)-0.508,(double)-0.5,(double)-0.5); p2.SetPoint2((double)-0.508,(double)0.5,(double)0.5); p2.SetXResolution((int)5); p2.SetYResolution((int)5); p3 = new vtkPlaneSource(); p3.SetOrigin((double)-0.5,(double)-0.508,(double)-0.5); p3.SetPoint1((double)0.5,(double)-0.508,(double)-0.5); p3.SetPoint2((double)-0.5,(double)-0.508,(double)0.5); p3.SetXResolution((int)5); p3.SetYResolution((int)5); p4 = new vtkPlaneSource(); p4.SetOrigin((double)0.508,(double)-0.5,(double)-0.5); p4.SetPoint1((double)0.508,(double)0.5,(double)-0.5); p4.SetPoint2((double)0.508,(double)-0.5,(double)0.5); p4.SetXResolution((int)5); p4.SetYResolution((int)5); p5 = new vtkPlaneSource(); p5.SetOrigin((double)0.5,(double)0.5,(double)-0.508); p5.SetPoint1((double)0.5,(double)-0.5,(double)-0.508); p5.SetPoint2((double)-0.5,(double)0.5,(double)-0.508); p5.SetXResolution((int)5); p5.SetYResolution((int)5); p6 = new vtkPlaneSource(); p6.SetOrigin((double)0.5,(double)0.5,(double)0.508); p6.SetPoint1((double)-0.5,(double)0.5,(double)0.508); p6.SetPoint2((double)0.5,(double)-0.5,(double)0.508); p6.SetXResolution((int)5); p6.SetYResolution((int)5); // append together[] ap = new vtkAppendPolyData(); ap.AddInputConnection(p1.GetOutputPort()); ap.AddInputConnection(p2.GetOutputPort()); ap.AddInputConnection(p3.GetOutputPort()); ap.AddInputConnection(p4.GetOutputPort()); ap.AddInputConnection(p5.GetOutputPort()); ap.AddInputConnection(p6.GetOutputPort()); //--------------------------[] // linear transform matrix[] t1 = new vtkMatrixToLinearTransform(); m1 = new vtkMatrix4x4(); t1.SetInput((vtkMatrix4x4)m1); m1.SetElement((int)0,(int)0,(double)1.127631); m1.SetElement((int)0,(int)1,(double)0.205212); m1.SetElement((int)0,(int)2,(double)-0.355438); m1.SetElement((int)1,(int)0,(double)0.000000); m1.SetElement((int)1,(int)1,(double)0.692820); m1.SetElement((int)1,(int)2,(double)0.400000); m1.SetElement((int)2,(int)0,(double)0.200000); m1.SetElement((int)2,(int)1,(double)-0.469846); m1.SetElement((int)2,(int)2,(double)0.813798); f11 = new vtkTransformPolyDataFilter(); f11.SetInputConnection((vtkAlgorithmOutput)ap.GetOutputPort()); f11.SetTransform((vtkAbstractTransform)t1); m11 = new vtkDataSetMapper(); m11.SetInputConnection((vtkAlgorithmOutput)f11.GetOutputPort()); a11 = new vtkActor(); a11.SetMapper((vtkMapper)m11); a11.GetProperty().SetColor((double)1,(double)0,(double)0); a11.GetProperty().SetRepresentationToWireframe(); ren11 = vtkRenderer.New(); ren11.SetViewport((double)0.0,(double)0.5,(double)0.25,(double)1.0); ren11.ResetCamera((double)-0.5,(double)0.5,(double)-0.5,(double)0.5,(double)-1,(double)1); ren11.AddActor((vtkProp)a11); renWin.AddRenderer((vtkRenderer)ren11); // inverse identity transform[] f12 = new vtkTransformPolyDataFilter(); f12.SetInputConnection((vtkAlgorithmOutput)ap.GetOutputPort()); f12.SetTransform((vtkAbstractTransform)t1.GetInverse()); m12 = new vtkDataSetMapper(); m12.SetInputConnection((vtkAlgorithmOutput)f12.GetOutputPort()); a12 = new vtkActor(); a12.SetMapper((vtkMapper)m12); a12.GetProperty().SetColor((double)0.9,(double)0.9,(double)0); a12.GetProperty().SetRepresentationToWireframe(); ren12 = vtkRenderer.New(); ren12.SetViewport((double)0.0,(double)0.0,(double)0.25,(double)0.5); ren12.ResetCamera((double)-0.5,(double)0.5,(double)-0.5,(double)0.5,(double)-1,(double)1); ren12.AddActor((vtkProp)a12); renWin.AddRenderer((vtkRenderer)ren12); //--------------------------[] // perspective transform matrix[] m2 = new vtkMatrix4x4(); m2.SetElement((int)3,(int)0,(double)-0.11); m2.SetElement((int)3,(int)1,(double)0.3); m2.SetElement((int)3,(int)2,(double)0.2); t2 = new vtkMatrixToHomogeneousTransform(); t2.SetInput((vtkMatrix4x4)m2); f21 = new vtkTransformPolyDataFilter(); f21.SetInputConnection((vtkAlgorithmOutput)ap.GetOutputPort()); f21.SetTransform((vtkAbstractTransform)t2); m21 = new vtkDataSetMapper(); m21.SetInputConnection((vtkAlgorithmOutput)f21.GetOutputPort()); a21 = new vtkActor(); a21.SetMapper((vtkMapper)m21); a21.GetProperty().SetColor((double)1,(double)0,(double)0); a21.GetProperty().SetRepresentationToWireframe(); ren21 = vtkRenderer.New(); ren21.SetViewport((double)0.25,(double)0.5,(double)0.50,(double)1.0); ren21.ResetCamera((double)-0.5,(double)0.5,(double)-0.5,(double)0.5,(double)-1,(double)1); ren21.AddActor((vtkProp)a21); renWin.AddRenderer((vtkRenderer)ren21); // inverse linear transform[] f22 = new vtkTransformPolyDataFilter(); f22.SetInputConnection((vtkAlgorithmOutput)ap.GetOutputPort()); f22.SetTransform((vtkAbstractTransform)t2.GetInverse()); m22 = new vtkDataSetMapper(); m22.SetInputConnection((vtkAlgorithmOutput)f22.GetOutputPort()); a22 = new vtkActor(); a22.SetMapper((vtkMapper)m22); a22.GetProperty().SetColor((double)0.9,(double)0.9,(double)0); a22.GetProperty().SetRepresentationToWireframe(); ren22 = vtkRenderer.New(); ren22.SetViewport((double)0.25,(double)0.0,(double)0.50,(double)0.5); ren22.ResetCamera((double)-0.5,(double)0.5,(double)-0.5,(double)0.5,(double)-1,(double)1); ren22.AddActor((vtkProp)a22); renWin.AddRenderer((vtkRenderer)ren22); //--------------------------[] // linear concatenation - should end up with identity here[] t3 = new vtkTransform(); t3.Concatenate((vtkLinearTransform)t1); t3.Concatenate((vtkLinearTransform)t1.GetInverse()); f31 = new vtkTransformPolyDataFilter(); f31.SetInputConnection((vtkAlgorithmOutput)ap.GetOutputPort()); f31.SetTransform((vtkAbstractTransform)t3); m31 = new vtkDataSetMapper(); m31.SetInputConnection((vtkAlgorithmOutput)f31.GetOutputPort()); a31 = new vtkActor(); a31.SetMapper((vtkMapper)m31); a31.GetProperty().SetColor((double)1,(double)0,(double)0); a31.GetProperty().SetRepresentationToWireframe(); ren31 = vtkRenderer.New(); ren31.SetViewport((double)0.50,(double)0.5,(double)0.75,(double)1.0); ren31.ResetCamera((double)-0.5,(double)0.5,(double)-0.5,(double)0.5,(double)-1,(double)1); ren31.AddActor((vtkProp)a31); renWin.AddRenderer((vtkRenderer)ren31); // inverse linear transform[] f32 = new vtkTransformPolyDataFilter(); f32.SetInputConnection((vtkAlgorithmOutput)ap.GetOutputPort()); f32.SetTransform((vtkAbstractTransform)t3.GetInverse()); m32 = new vtkDataSetMapper(); m32.SetInputConnection((vtkAlgorithmOutput)f32.GetOutputPort()); a32 = new vtkActor(); a32.SetMapper((vtkMapper)m32); a32.GetProperty().SetColor((double)0.9,(double)0.9,(double)0); a32.GetProperty().SetRepresentationToWireframe(); ren32 = vtkRenderer.New(); ren32.SetViewport((double)0.5,(double)0.0,(double)0.75,(double)0.5); ren32.ResetCamera((double)-0.5,(double)0.5,(double)-0.5,(double)0.5,(double)-1,(double)1); ren32.AddActor((vtkProp)a32); renWin.AddRenderer((vtkRenderer)ren32); //--------------------------[] // perspective transform concatenation[] t4 = new vtkPerspectiveTransform(); t4.Concatenate((vtkHomogeneousTransform)t1); t4.Concatenate((vtkHomogeneousTransform)t2); t4.Concatenate((vtkHomogeneousTransform)t3); f41 = new vtkTransformPolyDataFilter(); f41.SetInputConnection((vtkAlgorithmOutput)ap.GetOutputPort()); f41.SetTransform((vtkAbstractTransform)t4); m41 = new vtkDataSetMapper(); m41.SetInputConnection((vtkAlgorithmOutput)f41.GetOutputPort()); a41 = new vtkActor(); a41.SetMapper((vtkMapper)m41); a41.GetProperty().SetColor((double)1,(double)0,(double)0); a41.GetProperty().SetRepresentationToWireframe(); ren41 = vtkRenderer.New(); ren41.SetViewport((double)0.75,(double)0.5,(double)1.0,(double)1.0); ren41.ResetCamera((double)-0.5,(double)0.5,(double)-0.5,(double)0.5,(double)-1,(double)1); ren41.AddActor((vtkProp)a41); renWin.AddRenderer((vtkRenderer)ren41); // inverse of transform concatenation[] f42 = new vtkTransformPolyDataFilter(); f42.SetInputConnection((vtkAlgorithmOutput)ap.GetOutputPort()); f42.SetTransform((vtkAbstractTransform)t4.GetInverse()); m42 = new vtkDataSetMapper(); m42.SetInputConnection((vtkAlgorithmOutput)f42.GetOutputPort()); a42 = new vtkActor(); a42.SetMapper((vtkMapper)m42); a42.GetProperty().SetColor((double)0.9,(double)0.9,(double)0); a42.GetProperty().SetRepresentationToWireframe(); ren42 = vtkRenderer.New(); ren42.SetViewport((double)0.75,(double)0.0,(double)1.0,(double)0.5); ren42.ResetCamera((double)-0.5,(double)0.5,(double)-0.5,(double)0.5,(double)-1,(double)1); ren42.AddActor((vtkProp)a42); renWin.AddRenderer((vtkRenderer)ren42); renWin.Render(); //deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVcursor3D(String [] argv) { //Prefix Content is: "" // This little example shows how a cursor can be created in [] // image viewers, and renderers. The standard TkImageViewerWidget and[] // TkRenderWidget bindings are used. There is a new binding:[] // middle button in the image viewer sets the position of the cursor. [] // First we include the VTK Tcl packages which will make available [] // all of the vtk commands to Tcl[] // Global values[] CURSOR_X = 20; CURSOR_Y = 20; CURSOR_Z = 20; IMAGE_MAG_X = 4; IMAGE_MAG_Y = 4; IMAGE_MAG_Z = 1; // Pipeline stuff[] reader = new vtkSLCReader(); reader.SetFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/neghip.slc"); // Cursor stuff[] magnify = new vtkImageMagnify(); magnify.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); magnify.SetMagnificationFactors((int)IMAGE_MAG_X,(int)IMAGE_MAG_Y,(int)IMAGE_MAG_Z); image_cursor = new vtkImageCursor3D(); image_cursor.SetInputConnection((vtkAlgorithmOutput)magnify.GetOutputPort()); image_cursor.SetCursorPosition((double)CURSOR_X*IMAGE_MAG_X,(double)CURSOR_Y*IMAGE_MAG_Y,(double)CURSOR_Z*IMAGE_MAG_Z); image_cursor.SetCursorValue((double)255); image_cursor.SetCursorRadius((int)50*IMAGE_MAG_X); axes = new vtkAxes(); axes.SymmetricOn(); axes.SetOrigin((double)CURSOR_X,(double)CURSOR_Y,(double)CURSOR_Z); axes.SetScaleFactor((double)50.0); axes_mapper = vtkPolyDataMapper.New(); axes_mapper.SetInputConnection((vtkAlgorithmOutput)axes.GetOutputPort()); axesActor = new vtkActor(); axesActor.SetMapper((vtkMapper)axes_mapper); axesActor.GetProperty().SetAmbient((double)0.5); // Image viewer stuff[] viewer = new vtkImageViewer(); viewer.SetInputConnection((vtkAlgorithmOutput)image_cursor.GetOutputPort()); viewer.SetZSlice((int)CURSOR_Z*IMAGE_MAG_Z); viewer.SetColorWindow((double)256); viewer.SetColorLevel((double)128); //method moved //method moved //method moved // Create transfer functions for opacity and color[] opacity_transfer_function = new vtkPiecewiseFunction(); opacity_transfer_function.AddPoint((double)20,(double)0.0); opacity_transfer_function.AddPoint((double)255,(double)0.2); color_transfer_function = new vtkColorTransferFunction(); color_transfer_function.AddRGBPoint((double)0,(double)0,(double)0,(double)0); color_transfer_function.AddRGBPoint((double)64,(double)1,(double)0,(double)0); color_transfer_function.AddRGBPoint((double)128,(double)0,(double)0,(double)1); color_transfer_function.AddRGBPoint((double)192,(double)0,(double)1,(double)0); color_transfer_function.AddRGBPoint((double)255,(double)0,(double).2,(double)0); // Create properties, mappers, volume actors, and ray cast function[] volume_property = new vtkVolumeProperty(); volume_property.SetColor((vtkColorTransferFunction)color_transfer_function); volume_property.SetScalarOpacity((vtkPiecewiseFunction)opacity_transfer_function); composite_function = new vtkVolumeRayCastCompositeFunction(); volume_mapper = new vtkVolumeRayCastMapper(); volume_mapper.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); volume_mapper.SetVolumeRayCastFunction((vtkVolumeRayCastFunction)composite_function); volume = new vtkVolume(); volume.SetMapper((vtkAbstractVolumeMapper)volume_mapper); volume.SetProperty((vtkVolumeProperty)volume_property); // Create outline[] outline = new vtkOutlineFilter(); outline.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); outline_mapper = vtkPolyDataMapper.New(); outline_mapper.SetInputConnection((vtkAlgorithmOutput)outline.GetOutputPort()); outlineActor = new vtkActor(); outlineActor.SetMapper((vtkMapper)outline_mapper); outlineActor.GetProperty().SetColor((double)1,(double)1,(double)1); // Create the renderer[] ren1 = vtkRenderer.New(); ren1.AddActor((vtkProp)axesActor); ren1.AddVolume((vtkProp)volume); ren1.SetBackground((double)0.1,(double)0.2,(double)0.4); renWin2 = vtkRenderWindow.New(); renWin2.AddRenderer((vtkRenderer)ren1); renWin2.SetSize((int)256,(int)256); // Create the GUI: two renderer widgets and a quit button[] //tk window skipped.. // Set the window manager (wm command) so that it registers a[] // command to handle the WM_DELETE_WINDOW protocal request. This[] // request is triggered when the widget is closed using the standard[] // window manager icons or buttons. In this case the exit callback[] // will be called and it will free up any objects we created then exit[] // the application.[] // Help label, frame and quit button[] //tk window skipped.. //tk window skipped.. //tk window skipped.. //deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVmergeFilter(String [] argv) { //Prefix Content is: "" // Create the RenderWindow, Renderer and both Actors[] //[] ren1 = vtkRenderer.New(); ren2 = vtkRenderer.New(); renWin = vtkRenderWindow.New(); renWin.AddRenderer((vtkRenderer)ren1); renWin.AddRenderer((vtkRenderer)ren2); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); // create pipeline[] //[] pl3d = new vtkPLOT3DReader(); pl3d.SetXYZFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/combxyz.bin"); pl3d.SetQFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/combq.bin"); pl3d.SetScalarFunctionNumber((int)110); pl3d.SetVectorFunctionNumber((int)202); pl3d.Update(); probeLine = new vtkLineSource(); probeLine.SetPoint1((double)1,(double)1,(double)29); probeLine.SetPoint2((double)16.5,(double)5,(double)31.7693); probeLine.SetResolution((int)500); probe = new vtkProbeFilter(); probe.SetInputConnection((vtkAlgorithmOutput)probeLine.GetOutputPort()); probe.SetSource((vtkDataObject)pl3d.GetOutput()); probeTube = new vtkTubeFilter(); probeTube.SetInput((vtkDataObject)probe.GetPolyDataOutput()); probeTube.SetNumberOfSides((int)5); probeTube.SetRadius((double).05); probeMapper = vtkPolyDataMapper.New(); probeMapper.SetInputConnection((vtkAlgorithmOutput)probeTube.GetOutputPort()); probeMapper.SetScalarRange((double)((vtkDataSet)pl3d.GetOutput()).GetScalarRange()[0], (double)((vtkDataSet)pl3d.GetOutput()).GetScalarRange()[1]); probeActor = new vtkActor(); probeActor.SetMapper((vtkMapper)probeMapper); displayLine = new vtkLineSource(); displayLine.SetPoint1((double)0,(double)0,(double)0); displayLine.SetPoint2((double)1,(double)0,(double)0); displayLine.SetResolution((int)probeLine.GetResolution()); displayMerge = new vtkMergeFilter(); displayMerge.SetGeometry((vtkDataSet)displayLine.GetOutput()); displayMerge.SetScalars((vtkDataSet)probe.GetPolyDataOutput()); displayWarp = new vtkWarpScalar(); displayWarp.SetInput((vtkDataObject)displayMerge.GetPolyDataOutput()); displayWarp.SetNormal((double)0,(double)1,(double)0); displayWarp.SetScaleFactor((double).000001); displayMapper = vtkPolyDataMapper.New(); displayMapper.SetInput((vtkPolyData)displayWarp.GetPolyDataOutput()); displayMapper.SetScalarRange((double)((vtkDataSet)pl3d.GetOutput()).GetScalarRange()[0], (double)((vtkDataSet)pl3d.GetOutput()).GetScalarRange()[1]); displayActor = new vtkActor(); displayActor.SetMapper((vtkMapper)displayMapper); outline = new vtkStructuredGridOutlineFilter(); outline.SetInputConnection((vtkAlgorithmOutput)pl3d.GetOutputPort()); outlineMapper = vtkPolyDataMapper.New(); outlineMapper.SetInputConnection((vtkAlgorithmOutput)outline.GetOutputPort()); outlineActor = new vtkActor(); outlineActor.SetMapper((vtkMapper)outlineMapper); outlineActor.GetProperty().SetColor((double)0,(double)0,(double)0); ren1.AddActor((vtkProp)outlineActor); ren1.AddActor((vtkProp)probeActor); ren1.SetBackground((double)1,(double)1,(double)1); ren1.SetViewport((double)0,(double).25,(double)1,(double)1); ren2.AddActor((vtkProp)displayActor); ren2.SetBackground((double)0,(double)0,(double)0); ren2.SetViewport((double)0,(double)0,(double)1,(double).25); renWin.SetSize((int)300,(int)300); ren1.ResetCamera(); cam1 = ren1.GetActiveCamera(); cam1.SetClippingRange((double)3.95297,(double)50); cam1.SetFocalPoint((double)8.88908,(double)0.595038,(double)29.3342); cam1.SetPosition((double)9.9,(double)-26,(double)41); cam1.SetViewUp((double)0.060772,(double)-0.319905,(double)0.945498); ren2.ResetCamera(); cam2 = ren2.GetActiveCamera(); cam2.ParallelProjectionOn(); cam2.SetParallelScale((double).15); 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 AVExtractTensors(String [] argv) { //Prefix Content is: "" // create tensor ellipsoids[] // Create the RenderWindow, Renderer and interactive renderer[] //[] ren1 = vtkRenderer.New(); renWin = vtkRenderWindow.New(); renWin.AddRenderer((vtkRenderer)ren1); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); ptLoad = new vtkPointLoad(); ptLoad.SetLoadValue((double)100.0); ptLoad.SetSampleDimensions((int)30,(int)30,(int)30); ptLoad.ComputeEffectiveStressOn(); ptLoad.SetModelBounds((double)-10,(double)10,(double)-10,(double)10,(double)-10,(double)10); extractTensor = new vtkExtractTensorComponents(); extractTensor.SetInputConnection((vtkAlgorithmOutput)ptLoad.GetOutputPort()); extractTensor.ScalarIsEffectiveStress(); extractTensor.ScalarIsComponent(); extractTensor.ExtractScalarsOn(); extractTensor.ExtractVectorsOn(); extractTensor.ExtractNormalsOff(); extractTensor.ExtractTCoordsOn(); contour = new vtkContourFilter(); contour.SetInputConnection((vtkAlgorithmOutput)extractTensor.GetOutputPort()); contour.SetValue((int)0,(double)0); probe = new vtkProbeFilter(); probe.SetInputConnection((vtkAlgorithmOutput)contour.GetOutputPort()); probe.SetSource((vtkDataObject)ptLoad.GetOutput()); su = new vtkLoopSubdivisionFilter(); su.SetInputConnection((vtkAlgorithmOutput)probe.GetOutputPort()); su.SetNumberOfSubdivisions((int)1); s1Mapper = vtkPolyDataMapper.New(); s1Mapper.SetInputConnection((vtkAlgorithmOutput)probe.GetOutputPort()); // s1Mapper SetInputConnection [su GetOutputPort][] s1Actor = new vtkActor(); s1Actor.SetMapper((vtkMapper)s1Mapper); //[] // plane for context[] //[] g = new vtkImageDataGeometryFilter(); g.SetInputConnection((vtkAlgorithmOutput)ptLoad.GetOutputPort()); g.SetExtent((int)0,(int)100,(int)0,(int)100,(int)0,(int)0); g.Update(); //for scalar range[] gm = vtkPolyDataMapper.New(); gm.SetInputConnection((vtkAlgorithmOutput)g.GetOutputPort()); gm.SetScalarRange((double)((vtkDataSet)g.GetOutput()).GetScalarRange()[0],(double)((vtkDataSet)g.GetOutput()).GetScalarRange()[1]); ga = new vtkActor(); ga.SetMapper((vtkMapper)gm); s1Mapper.SetScalarRange((double)((vtkDataSet)g.GetOutput()).GetScalarRange()[0],(double)((vtkDataSet)g.GetOutput()).GetScalarRange()[1]); //[] // Create outline around data[] //[] outline = new vtkOutlineFilter(); outline.SetInputConnection((vtkAlgorithmOutput)ptLoad.GetOutputPort()); outlineMapper = vtkPolyDataMapper.New(); outlineMapper.SetInputConnection((vtkAlgorithmOutput)outline.GetOutputPort()); outlineActor = new vtkActor(); outlineActor.SetMapper((vtkMapper)outlineMapper); outlineActor.GetProperty().SetColor((double)0,(double)0,(double)0); //[] // Create cone indicating application of load[] //[] coneSrc = new vtkConeSource(); coneSrc.SetRadius((double).5); coneSrc.SetHeight((double)2); coneMap = vtkPolyDataMapper.New(); coneMap.SetInputConnection((vtkAlgorithmOutput)coneSrc.GetOutputPort()); coneActor = new vtkActor(); coneActor.SetMapper((vtkMapper)coneMap); coneActor.SetPosition((double)0,(double)0,(double)11); coneActor.RotateY((double)90); coneActor.GetProperty().SetColor((double)1,(double)0,(double)0); camera = new vtkCamera(); camera.SetFocalPoint((double)0.113766,(double)-1.13665,(double)-1.01919); camera.SetPosition((double)-29.4886,(double)-63.1488,(double)26.5807); camera.SetViewAngle((double)24.4617); camera.SetViewUp((double)0.17138,(double)0.331163,(double)0.927879); camera.SetClippingRange((double)1,(double)100); ren1.AddActor((vtkProp)s1Actor); ren1.AddActor((vtkProp)outlineActor); ren1.AddActor((vtkProp)coneActor); ren1.AddActor((vtkProp)ga); ren1.SetBackground((double)1.0,(double)1.0,(double)1.0); ren1.SetActiveCamera((vtkCamera)camera); renWin.SetSize((int)300,(int)300); renWin.Render(); // prevent the tk window from showing up then start the event loop[] //deleteAllVTKObjects(); }
/// <summary> /// Entry Point /// </summary> /// <param name="argv"></param> public static void Main(String[] argv) { // This example demonstrates how to use 2D Delaunay triangulation. // We create a fancy image of a 2D Delaunay triangulation. Points are // randomly generated. // first we load in the standard vtk packages into tcl // Generate some random points math = vtkMath.New(); points = vtkPoints.New(); for(int i = 0; i < 50; i++) { points.InsertPoint(i, vtkMath.Random(0, 1), vtkMath.Random(0, 1), 0.0); } // Create a polydata with the points we just created. profile = vtkPolyData.New(); profile.SetPoints(points); // Perform a 2D Delaunay triangulation on them. del = vtkDelaunay2D.New(); del.SetInput(profile); del.SetTolerance(0.001); mapMesh = vtkPolyDataMapper.New(); mapMesh.SetInputConnection(del.GetOutputPort()); meshActor = vtkActor.New(); meshActor.SetMapper(mapMesh); meshActor.GetProperty().SetColor(.1, .2, .4); // We will now create a nice looking mesh by wrapping the edges in tubes, // and putting fat spheres at the points. extract = vtkExtractEdges.New(); extract.SetInputConnection(del.GetOutputPort()); tubes = vtkTubeFilter.New(); tubes.SetInputConnection(extract.GetOutputPort()); tubes.SetRadius(0.01); tubes.SetNumberOfSides(6); mapEdges = vtkPolyDataMapper.New(); mapEdges.SetInputConnection(tubes.GetOutputPort()); edgeActor = vtkActor.New(); edgeActor.SetMapper(mapEdges); edgeActor.GetProperty().SetColor(0.2000, 0.6300, 0.7900); edgeActor.GetProperty().SetSpecularColor(1, 1, 1); edgeActor.GetProperty().SetSpecular(0.3); edgeActor.GetProperty().SetSpecularPower(20); edgeActor.GetProperty().SetAmbient(0.2); edgeActor.GetProperty().SetDiffuse(0.8); ball = vtkSphereSource.New(); ball.SetRadius(0.025); ball.SetThetaResolution(12); ball.SetPhiResolution(12); balls = vtkGlyph3D.New(); balls.SetInputConnection(del.GetOutputPort()); balls.SetSourceConnection(ball.GetOutputPort()); mapBalls = vtkPolyDataMapper.New(); mapBalls.SetInputConnection(balls.GetOutputPort()); ballActor = vtkActor.New(); ballActor.SetMapper(mapBalls); ballActor.GetProperty().SetColor(1.0000, 0.4118, 0.7059); ballActor.GetProperty().SetSpecularColor(1, 1, 1); ballActor.GetProperty().SetSpecular(0.3); ballActor.GetProperty().SetSpecularPower(20); ballActor.GetProperty().SetAmbient(0.2); ballActor.GetProperty().SetDiffuse(0.8); // Create graphics objects // Create the rendering window, renderer, and interactive renderer ren1 = vtkRenderer.New(); renWin = vtkRenderWindow.New(); renWin.AddRenderer(ren1); iren = vtkRenderWindowInteractor.New(); iren.SetRenderWindow(renWin); // Add the actors to the renderer, set the background and size ren1.AddActor(ballActor); ren1.AddActor(edgeActor); ren1.SetBackground(1, 1, 1); renWin.SetSize(150, 150); // render the image ren1.ResetCamera(); ren1.GetActiveCamera().Zoom(1.5); iren.Initialize(); iren.Start(); // Clean Up deleteAllVTKObjects(); }
public cGeometric3DObject(vtkActor CurrentActor, Color NewColor) { CurrentActor.GetProperty().SetColor(NewColor.R / 255.0, NewColor.G / 255.0, NewColor.B / 255.0); vtk_Actor = CurrentActor; //vtk_Actor.SetPickable(0); ObjectType = "Geometrical"; }
public Simulation(vtkRenderWindow renderWindow) { RenderWindow = renderWindow; Renderer = renderWindow.GetRenderers().GetFirstRenderer(); //Background Renderer.GradientBackgroundOn(); Renderer.SetBackground((double)colorBackground.R / 255, (double)colorBackground.G / 255, (double)colorBackground.B / 255); Renderer.SetBackground2((double)colorBackground2.R / 255, (double)colorBackground2.G / 255, (double)colorBackground2.B / 255); //Base baseAxes.SetTotalLength(200, 200, 200); baseAxes.AxisLabelsOff(); Renderer.AddActor(baseAxes); //Floor vtkPlaneSource planeSource = vtkPlaneSource.New(); planeSource.SetOrigin(-1000.0, -1000.0, 0); planeSource.SetPoint1(-1000.0, 1000.0, 0); planeSource.SetPoint2(1000.0, -1000.0, 0); planeSource.Update(); vtkPolyDataMapper mapper = vtkPolyDataMapper.New(); vtkPolyData plane = planeSource.GetOutput(); mapper.SetInput(plane); floor = vtkActor.New(); floor.SetMapper(mapper); floor.GetProperty().SetColor(0.8, 0.8, 0.8); Renderer.AddActor(floor); //Robot1 robot1Pos = new Position(-500, 0, 0, 0, 0, 0); //Robots.Robot1.Base = new Position(-500, 0, 0, 0, 0, 0); robot1part1 = LoadSTL(robot1part1, @"\Robot\agilus_00.stl", Color.FromArgb(25, 25, 25)); robot1part2 = LoadSTL(robot1part2, @"\Robot\agilus_01.stl", Color.FromArgb(255, 110, 0)); robot1part3 = LoadSTL(robot1part3, @"\Robot\agilus_02.stl", Color.FromArgb(255, 110, 0)); robot1part4 = LoadSTL(robot1part4, @"\Robot\agilus_03.stl", Color.FromArgb(255, 110, 0)); robot1part5 = LoadSTL(robot1part5, @"\Robot\agilus_04.stl", Color.FromArgb(255, 110, 0)); robot1part6 = LoadSTL(robot1part6, @"\Robot\agilus_05.stl", Color.FromArgb(255, 110, 0)); robot1part7 = LoadSTL(robot1part6, @"\Robot\agilus_06.stl", Color.DarkGray); robot1part1.SetPosition(robot1Pos.X, robot1Pos.Y, robot1Pos.Z); Renderer.AddActor(robot1part1); Renderer.AddActor(robot1part2); Renderer.AddActor(robot1part3); Renderer.AddActor(robot1part4); Renderer.AddActor(robot1part5); Renderer.AddActor(robot1part6); Renderer.AddActor(robot1part7); robot1axes1.SetTotalLength(200, 200, 200); robot1axes1.AxisLabelsOff(); Renderer.AddActor(robot1axes1); robot1axes2.SetTotalLength(200, 200, 200); robot1axes2.AxisLabelsOff(); Renderer.AddActor(robot1axes2); robot1axes3.SetTotalLength(200, 200, 200); robot1axes3.AxisLabelsOff(); Renderer.AddActor(robot1axes3); robot1axes4.SetTotalLength(200, 200, 200); robot1axes4.AxisLabelsOff(); Renderer.AddActor(robot1axes4); robot1axes5.SetTotalLength(200, 200, 200); robot1axes5.AxisLabelsOff(); Renderer.AddActor(robot1axes5); robot1axes6.SetTotalLength(200, 200, 200); robot1axes6.AxisLabelsOff(); Renderer.AddActor(robot1axes6); //Robot2 robot2Pos = new Position(1000, 0, 0, 0, 0, 0); Robots.Robot2.Base = robot2Pos; robot2part1 = LoadSTL(robot2part1, @"\Robot\agilus_00.stl", Color.FromArgb(25, 25, 25)); robot2part2 = LoadSTL(robot2part2, @"\Robot\agilus_01.stl", Color.FromArgb(255, 110, 0)); robot2part3 = LoadSTL(robot2part3, @"\Robot\agilus_02.stl", Color.FromArgb(255, 110, 0)); robot2part4 = LoadSTL(robot2part4, @"\Robot\agilus_03.stl", Color.FromArgb(255, 110, 0)); robot2part5 = LoadSTL(robot2part5, @"\Robot\agilus_04.stl", Color.FromArgb(255, 110, 0)); robot2part6 = LoadSTL(robot2part6, @"\Robot\agilus_05.stl", Color.FromArgb(255, 110, 0)); robot2part7 = LoadSTL(robot2part6, @"\Robot\agilus_06.stl", Color.DarkGray); robot2part1.SetPosition(Robots.Robot2.Base.X, Robots.Robot2.Base.Y, Robots.Robot2.Base.Z); Renderer.AddActor(robot2part1); Renderer.AddActor(robot2part2); Renderer.AddActor(robot2part3); Renderer.AddActor(robot2part4); Renderer.AddActor(robot2part5); Renderer.AddActor(robot2part6); Renderer.AddActor(robot2part7); robot2axes1.SetTotalLength(200, 200, 200); robot2axes1.AxisLabelsOff(); Renderer.AddActor(robot2axes1); robot2axes2.SetTotalLength(200, 200, 200); robot2axes2.AxisLabelsOff(); Renderer.AddActor(robot2axes2); robot2axes3.SetTotalLength(200, 200, 200); robot2axes3.AxisLabelsOff(); Renderer.AddActor(robot2axes3); robot2axes4.SetTotalLength(200, 200, 200); robot2axes4.AxisLabelsOff(); Renderer.AddActor(robot2axes4); robot2axes5.SetTotalLength(200, 200, 200); robot2axes5.AxisLabelsOff(); Renderer.AddActor(robot2axes5); robot2axes6.SetTotalLength(200, 200, 200); robot2axes6.AxisLabelsOff(); Renderer.AddActor(robot2axes6); Renderer.AddActor(drawPointCloud()); Renderer.Render(); worker.DoWork += worker_DoWork; worker.RunWorkerAsync(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVTestMultiBlockStreamer(String [] argv) { //Prefix Content is: "" // we need to use composite data pipeline with multiblock datasets[] alg = new vtkAlgorithm(); pip = new vtkCompositeDataPipeline(); vtkAlgorithm.SetDefaultExecutivePrototype((vtkExecutive)pip); //skipping Delete pip Ren1 = vtkRenderer.New(); Ren1.SetBackground((double)0.33,(double)0.35,(double)0.43); renWin = vtkRenderWindow.New(); renWin.AddRenderer((vtkRenderer)Ren1); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); Plot3D0 = new vtkPLOT3DReader(); Plot3D0.SetFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/combxyz.bin"); Plot3D0.SetQFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/combq.bin"); Plot3D0.SetBinaryFile((int)1); Plot3D0.SetMultiGrid((int)0); Plot3D0.SetHasByteCount((int)0); Plot3D0.SetIBlanking((int)0); Plot3D0.SetTwoDimensionalGeometry((int)0); Plot3D0.SetForceRead((int)0); Plot3D0.SetByteOrder((int)0); Geometry5 = new vtkStructuredGridOutlineFilter(); Geometry5.SetInputConnection((vtkAlgorithmOutput)Plot3D0.GetOutputPort()); Mapper5 = vtkPolyDataMapper.New(); Mapper5.SetInputConnection((vtkAlgorithmOutput)Geometry5.GetOutputPort()); Mapper5.SetImmediateModeRendering((int)1); Mapper5.UseLookupTableScalarRangeOn(); Mapper5.SetScalarVisibility((int)0); Mapper5.SetScalarModeToDefault(); Actor5 = new vtkActor(); Actor5.SetMapper((vtkMapper)Mapper5); Actor5.GetProperty().SetRepresentationToSurface(); Actor5.GetProperty().SetInterpolationToGouraud(); Actor5.GetProperty().SetAmbient((double)0.15); Actor5.GetProperty().SetDiffuse((double)0.85); Actor5.GetProperty().SetSpecular((double)0.1); Actor5.GetProperty().SetSpecularPower((double)100); Actor5.GetProperty().SetSpecularColor((double)1,(double)1,(double)1); Actor5.GetProperty().SetColor((double)1,(double)1,(double)1); Ren1.AddActor((vtkProp)Actor5); ExtractGrid[0] = new vtkExtractGrid(); ExtractGrid[0].SetInputConnection((vtkAlgorithmOutput)Plot3D0.GetOutputPort()); ExtractGrid[0].SetVOI((int)0,(int)14,(int)0,(int)32,(int)0,(int)24); ExtractGrid[0].SetSampleRate((int)1,(int)1,(int)1); ExtractGrid[0].SetIncludeBoundary((int)0); ExtractGrid[1] = new vtkExtractGrid(); ExtractGrid[1].SetInputConnection((vtkAlgorithmOutput)Plot3D0.GetOutputPort()); ExtractGrid[1].SetVOI((int)14,(int)29,(int)0,(int)32,(int)0,(int)24); ExtractGrid[1].SetSampleRate((int)1,(int)1,(int)1); ExtractGrid[1].SetIncludeBoundary((int)0); ExtractGrid[2] = new vtkExtractGrid(); ExtractGrid[2].SetInputConnection((vtkAlgorithmOutput)Plot3D0.GetOutputPort()); ExtractGrid[2].SetVOI((int)29,(int)56,(int)0,(int)32,(int)0,(int)24); ExtractGrid[2].SetSampleRate((int)1,(int)1,(int)1); ExtractGrid[2].SetIncludeBoundary((int)0); LineSourceWidget0 = new vtkLineSource(); LineSourceWidget0.SetPoint1((double)3.05638,(double)-3.00497,(double)28.2211); LineSourceWidget0.SetPoint2((double)3.05638,(double)3.95916,(double)28.2211); LineSourceWidget0.SetResolution((int)20); mbds = new vtkMultiBlockDataSet(); mbds.SetNumberOfBlocks((uint)3); i = 0; while((i) < 3) { ExtractGrid[i].Update(); sg[i] = vtkStructuredGrid.New(); sg[i].ShallowCopy(ExtractGrid[i].GetOutput()); mbds.SetBlock((uint)i, sg[i]); //skipping Delete sg[i] i = i + 1; } Stream0 = new vtkStreamTracer(); Stream0.SetInput((vtkDataObject)mbds); Stream0.SetSource((vtkDataSet)LineSourceWidget0.GetOutput()); Stream0.SetIntegrationStepUnit(2); Stream0.SetMaximumPropagation((double)20); Stream0.SetInitialIntegrationStep((double)0.5); Stream0.SetIntegrationDirection((int)0); Stream0.SetIntegratorType((int)0); Stream0.SetMaximumNumberOfSteps((int)2000); Stream0.SetTerminalSpeed((double)1e-12); //skipping Delete mbds aa = new vtkAssignAttribute(); aa.SetInputConnection((vtkAlgorithmOutput)Stream0.GetOutputPort()); aa.Assign((string)"Normals",(string)"NORMALS",(string)"POINT_DATA"); Ribbon0 = new vtkRibbonFilter(); Ribbon0.SetInputConnection((vtkAlgorithmOutput)aa.GetOutputPort()); Ribbon0.SetWidth((double)0.1); Ribbon0.SetAngle((double)0); Ribbon0.SetDefaultNormal((double)0,(double)0,(double)1); Ribbon0.SetVaryWidth((int)0); LookupTable1 = new vtkLookupTable(); LookupTable1.SetNumberOfTableValues((int)256); LookupTable1.SetHueRange((double)0,(double)0.66667); LookupTable1.SetSaturationRange((double)1,(double)1); LookupTable1.SetValueRange((double)1,(double)1); LookupTable1.SetTableRange((double)0.197813,(double)0.710419); LookupTable1.SetVectorComponent((int)0); LookupTable1.Build(); Mapper10 = vtkPolyDataMapper.New(); Mapper10.SetInputConnection((vtkAlgorithmOutput)Ribbon0.GetOutputPort()); Mapper10.SetImmediateModeRendering((int)1); Mapper10.UseLookupTableScalarRangeOn(); Mapper10.SetScalarVisibility((int)1); Mapper10.SetScalarModeToUsePointFieldData(); Mapper10.SelectColorArray((string)"Density"); Mapper10.SetLookupTable((vtkScalarsToColors)LookupTable1); Actor10 = new vtkActor(); Actor10.SetMapper((vtkMapper)Mapper10); Actor10.GetProperty().SetRepresentationToSurface(); Actor10.GetProperty().SetInterpolationToGouraud(); Actor10.GetProperty().SetAmbient((double)0.15); Actor10.GetProperty().SetDiffuse((double)0.85); Actor10.GetProperty().SetSpecular((double)0); Actor10.GetProperty().SetSpecularPower((double)1); Actor10.GetProperty().SetSpecularColor((double)1,(double)1,(double)1); Ren1.AddActor((vtkProp)Actor10); // enable user interface interactor[] iren.Initialize(); // prevent the tk window from showing up then start the event loop[] vtkAlgorithm.SetDefaultExecutivePrototype(null); //skipping Delete alg //deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVLineIntersectQuadraticCells(String [] argv) { //Prefix Content is: "" // Contour every quadratic cell type[] // Create a scene with one of each cell type.[] // QuadraticEdge[] edgePoints = new vtkPoints(); edgePoints.SetNumberOfPoints((int)3); edgePoints.InsertPoint((int)0,(double)0,(double)0,(double)0); edgePoints.InsertPoint((int)1,(double)1.0,(double)0,(double)0); edgePoints.InsertPoint((int)2,(double)0.5,(double)0.25,(double)0); edgeScalars = new vtkFloatArray(); edgeScalars.SetNumberOfTuples((int)3); edgeScalars.InsertValue((int)0,(float)0.0); edgeScalars.InsertValue((int)1,(float)0.0); edgeScalars.InsertValue((int)2,(float)0.9); aEdge = new vtkQuadraticEdge(); aEdge.GetPointIds().SetId((int)0,(int)0); aEdge.GetPointIds().SetId((int)1,(int)1); aEdge.GetPointIds().SetId((int)2,(int)2); aEdgeGrid = new vtkUnstructuredGrid(); aEdgeGrid.Allocate((int)1,(int)1); aEdgeGrid.InsertNextCell((int)aEdge.GetCellType(),(vtkIdList)aEdge.GetPointIds()); aEdgeGrid.SetPoints((vtkPoints)edgePoints); aEdgeGrid.GetPointData().SetScalars((vtkDataArray)edgeScalars); aEdgeMapper = new vtkDataSetMapper(); aEdgeMapper.SetInputData((vtkDataSet)aEdgeGrid); aEdgeMapper.ScalarVisibilityOff(); aEdgeActor = new vtkActor(); aEdgeActor.SetMapper((vtkMapper)aEdgeMapper); aEdgeActor.GetProperty().SetRepresentationToWireframe(); aEdgeActor.GetProperty().SetAmbient((double)1.0); // Quadratic triangle[] triPoints = new vtkPoints(); triPoints.SetNumberOfPoints((int)6); triPoints.InsertPoint((int)0,(double)0.0,(double)0.0,(double)0.0); triPoints.InsertPoint((int)1,(double)1.0,(double)0.0,(double)0.0); triPoints.InsertPoint((int)2,(double)0.5,(double)0.8,(double)0.0); triPoints.InsertPoint((int)3,(double)0.5,(double)0.0,(double)0.0); triPoints.InsertPoint((int)4,(double)0.75,(double)0.4,(double)0.0); triPoints.InsertPoint((int)5,(double)0.25,(double)0.4,(double)0.0); triScalars = new vtkFloatArray(); triScalars.SetNumberOfTuples((int)6); triScalars.InsertValue((int)0,(float)0.0); triScalars.InsertValue((int)1,(float)0.0); triScalars.InsertValue((int)2,(float)0.0); triScalars.InsertValue((int)3,(float)1.0); triScalars.InsertValue((int)4,(float)0.0); triScalars.InsertValue((int)5,(float)0.0); aTri = new vtkQuadraticTriangle(); aTri.GetPointIds().SetId((int)0,(int)0); aTri.GetPointIds().SetId((int)1,(int)1); aTri.GetPointIds().SetId((int)2,(int)2); aTri.GetPointIds().SetId((int)3,(int)3); aTri.GetPointIds().SetId((int)4,(int)4); aTri.GetPointIds().SetId((int)5,(int)5); aTriGrid = new vtkUnstructuredGrid(); aTriGrid.Allocate((int)1,(int)1); aTriGrid.InsertNextCell((int)aTri.GetCellType(),(vtkIdList)aTri.GetPointIds()); aTriGrid.SetPoints((vtkPoints)triPoints); aTriGrid.GetPointData().SetScalars((vtkDataArray)triScalars); aTriMapper = new vtkDataSetMapper(); aTriMapper.SetInputData((vtkDataSet)aTriGrid); aTriMapper.ScalarVisibilityOff(); aTriActor = new vtkActor(); aTriActor.SetMapper((vtkMapper)aTriMapper); aTriActor.GetProperty().SetRepresentationToWireframe(); aTriActor.GetProperty().SetAmbient((double)1.0); // Quadratic quadrilateral[] quadPoints = new vtkPoints(); quadPoints.SetNumberOfPoints((int)8); quadPoints.InsertPoint((int)0,(double)0.0,(double)0.0,(double)0.0); quadPoints.InsertPoint((int)1,(double)1.0,(double)0.0,(double)0.0); quadPoints.InsertPoint((int)2,(double)1.0,(double)1.0,(double)0.0); quadPoints.InsertPoint((int)3,(double)0.0,(double)1.0,(double)0.0); quadPoints.InsertPoint((int)4,(double)0.5,(double)0.0,(double)0.0); quadPoints.InsertPoint((int)5,(double)1.0,(double)0.5,(double)0.0); quadPoints.InsertPoint((int)6,(double)0.5,(double)1.0,(double)0.0); quadPoints.InsertPoint((int)7,(double)0.0,(double)0.5,(double)0.0); quadScalars = new vtkFloatArray(); quadScalars.SetNumberOfTuples((int)8); quadScalars.InsertValue((int)0,(float)0.0); quadScalars.InsertValue((int)1,(float)0.0); quadScalars.InsertValue((int)2,(float)1.0); quadScalars.InsertValue((int)3,(float)1.0); quadScalars.InsertValue((int)4,(float)1.0); quadScalars.InsertValue((int)5,(float)0.0); quadScalars.InsertValue((int)6,(float)0.0); quadScalars.InsertValue((int)7,(float)0.0); aQuad = new vtkQuadraticQuad(); aQuad.GetPointIds().SetId((int)0,(int)0); aQuad.GetPointIds().SetId((int)1,(int)1); aQuad.GetPointIds().SetId((int)2,(int)2); aQuad.GetPointIds().SetId((int)3,(int)3); aQuad.GetPointIds().SetId((int)4,(int)4); aQuad.GetPointIds().SetId((int)5,(int)5); aQuad.GetPointIds().SetId((int)6,(int)6); aQuad.GetPointIds().SetId((int)7,(int)7); aQuadGrid = new vtkUnstructuredGrid(); aQuadGrid.Allocate((int)1,(int)1); aQuadGrid.InsertNextCell((int)aQuad.GetCellType(),(vtkIdList)aQuad.GetPointIds()); aQuadGrid.SetPoints((vtkPoints)quadPoints); aQuadGrid.GetPointData().SetScalars((vtkDataArray)quadScalars); aQuadMapper = new vtkDataSetMapper(); aQuadMapper.SetInputData((vtkDataSet)aQuadGrid); aQuadMapper.ScalarVisibilityOff(); aQuadActor = new vtkActor(); aQuadActor.SetMapper((vtkMapper)aQuadMapper); aQuadActor.GetProperty().SetRepresentationToWireframe(); aQuadActor.GetProperty().SetAmbient((double)1.0); // Quadratic tetrahedron[] tetPoints = new vtkPoints(); tetPoints.SetNumberOfPoints((int)10); tetPoints.InsertPoint((int)0,(double)0.0,(double)0.0,(double)0.0); tetPoints.InsertPoint((int)1,(double)1.0,(double)0.0,(double)0.0); tetPoints.InsertPoint((int)2,(double)0.5,(double)0.8,(double)0.0); tetPoints.InsertPoint((int)3,(double)0.5,(double)0.4,(double)1.0); tetPoints.InsertPoint((int)4,(double)0.5,(double)0.0,(double)0.0); tetPoints.InsertPoint((int)5,(double)0.75,(double)0.4,(double)0.0); tetPoints.InsertPoint((int)6,(double)0.25,(double)0.4,(double)0.0); tetPoints.InsertPoint((int)7,(double)0.25,(double)0.2,(double)0.5); tetPoints.InsertPoint((int)8,(double)0.75,(double)0.2,(double)0.5); tetPoints.InsertPoint((int)9,(double)0.50,(double)0.6,(double)0.5); tetScalars = new vtkFloatArray(); tetScalars.SetNumberOfTuples((int)10); tetScalars.InsertValue((int)0,(float)1.0); tetScalars.InsertValue((int)1,(float)1.0); tetScalars.InsertValue((int)2,(float)1.0); tetScalars.InsertValue((int)3,(float)1.0); tetScalars.InsertValue((int)4,(float)0.0); tetScalars.InsertValue((int)5,(float)0.0); tetScalars.InsertValue((int)6,(float)0.0); tetScalars.InsertValue((int)7,(float)0.0); tetScalars.InsertValue((int)8,(float)0.0); tetScalars.InsertValue((int)9,(float)0.0); aTet = new vtkQuadraticTetra(); aTet.GetPointIds().SetId((int)0,(int)0); aTet.GetPointIds().SetId((int)1,(int)1); aTet.GetPointIds().SetId((int)2,(int)2); aTet.GetPointIds().SetId((int)3,(int)3); aTet.GetPointIds().SetId((int)4,(int)4); aTet.GetPointIds().SetId((int)5,(int)5); aTet.GetPointIds().SetId((int)6,(int)6); aTet.GetPointIds().SetId((int)7,(int)7); aTet.GetPointIds().SetId((int)8,(int)8); aTet.GetPointIds().SetId((int)9,(int)9); aTetGrid = new vtkUnstructuredGrid(); aTetGrid.Allocate((int)1,(int)1); aTetGrid.InsertNextCell((int)aTet.GetCellType(),(vtkIdList)aTet.GetPointIds()); aTetGrid.SetPoints((vtkPoints)tetPoints); aTetGrid.GetPointData().SetScalars((vtkDataArray)tetScalars); aTetMapper = new vtkDataSetMapper(); aTetMapper.SetInputData((vtkDataSet)aTetGrid); aTetMapper.ScalarVisibilityOff(); aTetActor = new vtkActor(); aTetActor.SetMapper((vtkMapper)aTetMapper); aTetActor.GetProperty().SetRepresentationToWireframe(); aTetActor.GetProperty().SetAmbient((double)1.0); // Quadratic hexahedron[] hexPoints = new vtkPoints(); hexPoints.SetNumberOfPoints((int)20); hexPoints.InsertPoint((int)0,(double)0,(double)0,(double)0); hexPoints.InsertPoint((int)1,(double)1,(double)0,(double)0); hexPoints.InsertPoint((int)2,(double)1,(double)1,(double)0); hexPoints.InsertPoint((int)3,(double)0,(double)1,(double)0); hexPoints.InsertPoint((int)4,(double)0,(double)0,(double)1); hexPoints.InsertPoint((int)5,(double)1,(double)0,(double)1); hexPoints.InsertPoint((int)6,(double)1,(double)1,(double)1); hexPoints.InsertPoint((int)7,(double)0,(double)1,(double)1); hexPoints.InsertPoint((int)8,(double)0.5,(double)0,(double)0); hexPoints.InsertPoint((int)9,(double)1,(double)0.5,(double)0); hexPoints.InsertPoint((int)10,(double)0.5,(double)1,(double)0); hexPoints.InsertPoint((int)11,(double)0,(double)0.5,(double)0); hexPoints.InsertPoint((int)12,(double)0.5,(double)0,(double)1); hexPoints.InsertPoint((int)13,(double)1,(double)0.5,(double)1); hexPoints.InsertPoint((int)14,(double)0.5,(double)1,(double)1); hexPoints.InsertPoint((int)15,(double)0,(double)0.5,(double)1); hexPoints.InsertPoint((int)16,(double)0,(double)0,(double)0.5); hexPoints.InsertPoint((int)17,(double)1,(double)0,(double)0.5); hexPoints.InsertPoint((int)18,(double)1,(double)1,(double)0.5); hexPoints.InsertPoint((int)19,(double)0,(double)1,(double)0.5); hexScalars = new vtkFloatArray(); hexScalars.SetNumberOfTuples((int)20); hexScalars.InsertValue((int)0,(float)1.0); hexScalars.InsertValue((int)1,(float)1.0); hexScalars.InsertValue((int)2,(float)1.0); hexScalars.InsertValue((int)3,(float)1.0); hexScalars.InsertValue((int)4,(float)1.0); hexScalars.InsertValue((int)5,(float)1.0); hexScalars.InsertValue((int)6,(float)1.0); hexScalars.InsertValue((int)7,(float)1.0); hexScalars.InsertValue((int)8,(float)0.0); hexScalars.InsertValue((int)9,(float)0.0); hexScalars.InsertValue((int)10,(float)0.0); hexScalars.InsertValue((int)11,(float)0.0); hexScalars.InsertValue((int)12,(float)0.0); hexScalars.InsertValue((int)13,(float)0.0); hexScalars.InsertValue((int)14,(float)0.0); hexScalars.InsertValue((int)15,(float)0.0); hexScalars.InsertValue((int)16,(float)0.0); hexScalars.InsertValue((int)17,(float)0.0); hexScalars.InsertValue((int)18,(float)0.0); hexScalars.InsertValue((int)19,(float)0.0); aHex = new vtkQuadraticHexahedron(); aHex.GetPointIds().SetId((int)0,(int)0); aHex.GetPointIds().SetId((int)1,(int)1); aHex.GetPointIds().SetId((int)2,(int)2); aHex.GetPointIds().SetId((int)3,(int)3); aHex.GetPointIds().SetId((int)4,(int)4); aHex.GetPointIds().SetId((int)5,(int)5); aHex.GetPointIds().SetId((int)6,(int)6); aHex.GetPointIds().SetId((int)7,(int)7); aHex.GetPointIds().SetId((int)8,(int)8); aHex.GetPointIds().SetId((int)9,(int)9); aHex.GetPointIds().SetId((int)10,(int)10); aHex.GetPointIds().SetId((int)11,(int)11); aHex.GetPointIds().SetId((int)12,(int)12); aHex.GetPointIds().SetId((int)13,(int)13); aHex.GetPointIds().SetId((int)14,(int)14); aHex.GetPointIds().SetId((int)15,(int)15); aHex.GetPointIds().SetId((int)16,(int)16); aHex.GetPointIds().SetId((int)17,(int)17); aHex.GetPointIds().SetId((int)18,(int)18); aHex.GetPointIds().SetId((int)19,(int)19); aHexGrid = new vtkUnstructuredGrid(); aHexGrid.Allocate((int)1,(int)1); aHexGrid.InsertNextCell((int)aHex.GetCellType(),(vtkIdList)aHex.GetPointIds()); aHexGrid.SetPoints((vtkPoints)hexPoints); aHexGrid.GetPointData().SetScalars((vtkDataArray)hexScalars); aHexMapper = new vtkDataSetMapper(); aHexMapper.SetInputData((vtkDataSet)aHexGrid); aHexMapper.ScalarVisibilityOff(); aHexActor = new vtkActor(); aHexActor.SetMapper((vtkMapper)aHexMapper); aHexActor.GetProperty().SetRepresentationToWireframe(); aHexActor.GetProperty().SetAmbient((double)1.0); // Quadratic wedge[] wedgePoints = new vtkPoints(); wedgePoints.SetNumberOfPoints((int)15); wedgePoints.InsertPoint((int)0,(double)0,(double)0,(double)0); wedgePoints.InsertPoint((int)1,(double)1,(double)0,(double)0); wedgePoints.InsertPoint((int)2,(double)0,(double)1,(double)0); wedgePoints.InsertPoint((int)3,(double)0,(double)0,(double)1); wedgePoints.InsertPoint((int)4,(double)1,(double)0,(double)1); wedgePoints.InsertPoint((int)5,(double)0,(double)1,(double)1); wedgePoints.InsertPoint((int)6,(double)0.5,(double)0,(double)0); wedgePoints.InsertPoint((int)7,(double)0.5,(double)0.5,(double)0); wedgePoints.InsertPoint((int)8,(double)0,(double)0.5,(double)0); wedgePoints.InsertPoint((int)9,(double)0.5,(double)0,(double)1); wedgePoints.InsertPoint((int)10,(double)0.5,(double)0.5,(double)1); wedgePoints.InsertPoint((int)11,(double)0,(double)0.5,(double)1); wedgePoints.InsertPoint((int)12,(double)0,(double)0,(double)0.5); wedgePoints.InsertPoint((int)13,(double)1,(double)0,(double)0.5); wedgePoints.InsertPoint((int)14,(double)0,(double)1,(double)0.5); wedgeScalars = new vtkFloatArray(); wedgeScalars.SetNumberOfTuples((int)15); wedgeScalars.InsertValue((int)0,(float)1.0); wedgeScalars.InsertValue((int)1,(float)1.0); wedgeScalars.InsertValue((int)2,(float)1.0); wedgeScalars.InsertValue((int)3,(float)1.0); wedgeScalars.InsertValue((int)4,(float)1.0); wedgeScalars.InsertValue((int)5,(float)1.0); wedgeScalars.InsertValue((int)6,(float)1.0); wedgeScalars.InsertValue((int)7,(float)1.0); wedgeScalars.InsertValue((int)8,(float)0.0); wedgeScalars.InsertValue((int)9,(float)0.0); wedgeScalars.InsertValue((int)10,(float)0.0); wedgeScalars.InsertValue((int)11,(float)0.0); wedgeScalars.InsertValue((int)12,(float)0.0); wedgeScalars.InsertValue((int)13,(float)0.0); wedgeScalars.InsertValue((int)14,(float)0.0); aWedge = new vtkQuadraticWedge(); aWedge.GetPointIds().SetId((int)0,(int)0); aWedge.GetPointIds().SetId((int)1,(int)1); aWedge.GetPointIds().SetId((int)2,(int)2); aWedge.GetPointIds().SetId((int)3,(int)3); aWedge.GetPointIds().SetId((int)4,(int)4); aWedge.GetPointIds().SetId((int)5,(int)5); aWedge.GetPointIds().SetId((int)6,(int)6); aWedge.GetPointIds().SetId((int)7,(int)7); aWedge.GetPointIds().SetId((int)8,(int)8); aWedge.GetPointIds().SetId((int)9,(int)9); aWedge.GetPointIds().SetId((int)10,(int)10); aWedge.GetPointIds().SetId((int)11,(int)11); aWedge.GetPointIds().SetId((int)12,(int)12); aWedge.GetPointIds().SetId((int)13,(int)13); aWedge.GetPointIds().SetId((int)14,(int)14); aWedgeGrid = new vtkUnstructuredGrid(); aWedgeGrid.Allocate((int)1,(int)1); aWedgeGrid.InsertNextCell((int)aWedge.GetCellType(),(vtkIdList)aWedge.GetPointIds()); aWedgeGrid.SetPoints((vtkPoints)wedgePoints); aWedgeGrid.GetPointData().SetScalars((vtkDataArray)wedgeScalars); wedgeContours = new vtkClipDataSet(); wedgeContours.SetInputData((vtkDataObject)aWedgeGrid); wedgeContours.SetValue((double)0.5); aWedgeContourMapper = new vtkDataSetMapper(); aWedgeContourMapper.SetInputConnection((vtkAlgorithmOutput)wedgeContours.GetOutputPort()); aWedgeContourMapper.ScalarVisibilityOff(); aWedgeMapper = new vtkDataSetMapper(); aWedgeMapper.SetInputData((vtkDataSet)aWedgeGrid); aWedgeMapper.ScalarVisibilityOff(); aWedgeActor = new vtkActor(); aWedgeActor.SetMapper((vtkMapper)aWedgeMapper); aWedgeActor.GetProperty().SetRepresentationToWireframe(); aWedgeActor.GetProperty().SetAmbient((double)1.0); aWedgeContourActor = new vtkActor(); aWedgeContourActor.SetMapper((vtkMapper)aWedgeContourMapper); aWedgeContourActor.GetProperty().SetAmbient((double)1.0); // Quadratic pyramid[] pyraPoints = new vtkPoints(); pyraPoints.SetNumberOfPoints((int)13); pyraPoints.InsertPoint((int)0,(double)0,(double)0,(double)0); pyraPoints.InsertPoint((int)1,(double)1,(double)0,(double)0); pyraPoints.InsertPoint((int)2,(double)1,(double)1,(double)0); pyraPoints.InsertPoint((int)3,(double)0,(double)1,(double)0); pyraPoints.InsertPoint((int)4,(double)0,(double)0,(double)1); pyraPoints.InsertPoint((int)5,(double)0.5,(double)0,(double)0); pyraPoints.InsertPoint((int)6,(double)1,(double)0.5,(double)0); pyraPoints.InsertPoint((int)7,(double)0.5,(double)1,(double)0); pyraPoints.InsertPoint((int)8,(double)0,(double)0.5,(double)0); pyraPoints.InsertPoint((int)9,(double)0,(double)0,(double)0.5); pyraPoints.InsertPoint((int)10,(double)0.5,(double)0,(double)0.5); pyraPoints.InsertPoint((int)11,(double)0.5,(double)0.5,(double)0.5); pyraPoints.InsertPoint((int)12,(double)0,(double)0.5,(double)0.5); pyraScalars = new vtkFloatArray(); pyraScalars.SetNumberOfTuples((int)13); pyraScalars.InsertValue((int)0,(float)1.0); pyraScalars.InsertValue((int)1,(float)1.0); pyraScalars.InsertValue((int)2,(float)1.0); pyraScalars.InsertValue((int)3,(float)1.0); pyraScalars.InsertValue((int)4,(float)1.0); pyraScalars.InsertValue((int)5,(float)1.0); pyraScalars.InsertValue((int)6,(float)1.0); pyraScalars.InsertValue((int)7,(float)1.0); pyraScalars.InsertValue((int)8,(float)0.0); pyraScalars.InsertValue((int)9,(float)0.0); pyraScalars.InsertValue((int)10,(float)0.0); pyraScalars.InsertValue((int)11,(float)0.0); pyraScalars.InsertValue((int)12,(float)0.0); aPyramid = new vtkQuadraticPyramid(); aPyramid.GetPointIds().SetId((int)0,(int)0); aPyramid.GetPointIds().SetId((int)1,(int)1); aPyramid.GetPointIds().SetId((int)2,(int)2); aPyramid.GetPointIds().SetId((int)3,(int)3); aPyramid.GetPointIds().SetId((int)4,(int)4); aPyramid.GetPointIds().SetId((int)5,(int)5); aPyramid.GetPointIds().SetId((int)6,(int)6); aPyramid.GetPointIds().SetId((int)7,(int)7); aPyramid.GetPointIds().SetId((int)8,(int)8); aPyramid.GetPointIds().SetId((int)9,(int)9); aPyramid.GetPointIds().SetId((int)10,(int)10); aPyramid.GetPointIds().SetId((int)11,(int)11); aPyramid.GetPointIds().SetId((int)12,(int)12); aPyramidGrid = new vtkUnstructuredGrid(); aPyramidGrid.Allocate((int)1,(int)1); aPyramidGrid.InsertNextCell((int)aPyramid.GetCellType(),(vtkIdList)aPyramid.GetPointIds()); aPyramidGrid.SetPoints((vtkPoints)pyraPoints); aPyramidGrid.GetPointData().SetScalars((vtkDataArray)pyraScalars); pyraContours = new vtkClipDataSet(); pyraContours.SetInputData((vtkDataObject)aPyramidGrid); pyraContours.SetValue((double)0.5); aPyramidContourMapper = new vtkDataSetMapper(); aPyramidContourMapper.SetInputConnection((vtkAlgorithmOutput)pyraContours.GetOutputPort()); aPyramidContourMapper.ScalarVisibilityOff(); aPyramidMapper = new vtkDataSetMapper(); aPyramidMapper.SetInputData((vtkDataSet)aPyramidGrid); aPyramidMapper.ScalarVisibilityOff(); aPyramidActor = new vtkActor(); aPyramidActor.SetMapper((vtkMapper)aPyramidMapper); aPyramidActor.GetProperty().SetRepresentationToWireframe(); aPyramidActor.GetProperty().SetAmbient((double)1.0); aPyramidContourActor = new vtkActor(); aPyramidContourActor.SetMapper((vtkMapper)aPyramidContourMapper); aPyramidContourActor.GetProperty().SetAmbient((double)1.0); // Create the rendering related stuff.[] // Since some of our actors are a single vertex, we need to remove all[] // cullers so the single vertex actors will render[] ren1 = vtkRenderer.New(); ren1.GetCullers().RemoveAllItems(); renWin = vtkRenderWindow.New(); renWin.SetMultiSamples(0); renWin.AddRenderer((vtkRenderer)ren1); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); ren1.SetBackground((double).1,(double).2,(double).3); renWin.SetSize((int)400,(int)200); // specify properties[] ren1.AddActor((vtkProp)aEdgeActor); ren1.AddActor((vtkProp)aTriActor); ren1.AddActor((vtkProp)aQuadActor); ren1.AddActor((vtkProp)aTetActor); ren1.AddActor((vtkProp)aHexActor); ren1.AddActor((vtkProp)aWedgeActor); ren1.AddActor((vtkProp)aPyramidActor); // places everyone!![] aTriActor.AddPosition((double)2,(double)0,(double)0); aQuadActor.AddPosition((double)4,(double)0,(double)0); aTetActor.AddPosition((double)6,(double)0,(double)0); aHexActor.AddPosition((double)8,(double)0,(double)0); aWedgeActor.AddPosition((double)10,(double)0,(double)0); aPyramidActor.AddPosition((double)12,(double)0,(double)0); BuildBackdrop(-1, 15, -1, 4, -1, 2, .1); ren1.AddActor((vtkProp)base1); base1.GetProperty().SetDiffuseColor((double).2,(double).2,(double).2); ren1.AddActor((vtkProp)left); left.GetProperty().SetDiffuseColor((double).2,(double).2,(double).2); ren1.AddActor((vtkProp)back); back.GetProperty().SetDiffuseColor((double).2,(double).2,(double).2); ren1.ResetCamera(); ren1.GetActiveCamera().Dolly((double)2.5); ren1.ResetCameraClippingRange(); renWin.Render(); // create a little scorecard above each of the cells. These are displayed[] // if a ray cast hits the cell, otherwise they are not shown.[] pm = new vtkPlaneSource(); pm.SetXResolution((int)1); pm.SetYResolution((int)1); pmapper = vtkPolyDataMapper.New(); pmapper.SetInputConnection((vtkAlgorithmOutput)pm.GetOutputPort()); // now try intersecting rays with the cell[] cellPicker = new vtkCellPicker(); edgeCheck = new vtkActor(); edgeCheck.SetMapper((vtkMapper)pmapper); edgeCheck.AddPosition((double)0.5,(double)2.5,(double)0); cellPicker.Pick((double)87,(double)71,(double)0,(vtkRenderer)ren1); if ((cellPicker.GetCellId()) != -1) { ren1.AddActor((vtkProp)edgeCheck); } triCheck = new vtkActor(); triCheck.SetMapper((vtkMapper)pmapper); triCheck.AddPosition((double)2.5,(double)2.5,(double)0); cellPicker.Pick((double)139,(double)72,(double)0,(vtkRenderer)ren1); if ((cellPicker.GetCellId()) != -1) { ren1.AddActor((vtkProp)triCheck); } quadCheck = new vtkActor(); quadCheck.SetMapper((vtkMapper)pmapper); quadCheck.AddPosition((double)4.5,(double)2.5,(double)0); cellPicker.Pick((double)192,(double)78,(double)0,(vtkRenderer)ren1); if ((cellPicker.GetCellId()) != -1) { ren1.AddActor((vtkProp)quadCheck); } tetCheck = new vtkActor(); tetCheck.SetMapper((vtkMapper)pmapper); tetCheck.AddPosition((double)6.5,(double)2.5,(double)0); cellPicker.Pick((double)233,(double)70,(double)0,(vtkRenderer)ren1); if ((cellPicker.GetCellId()) != -1) { ren1.AddActor((vtkProp)tetCheck); } hexCheck = new vtkActor(); hexCheck.SetMapper((vtkMapper)pmapper); hexCheck.AddPosition((double)8.5,(double)2.5,(double)0); cellPicker.Pick((double)287,(double)80,(double)0,(vtkRenderer)ren1); if ((cellPicker.GetCellId()) != -1) { ren1.AddActor((vtkProp)hexCheck); } wedgeCheck = new vtkActor(); wedgeCheck.SetMapper((vtkMapper)pmapper); wedgeCheck.AddPosition((double)10.5,(double)2.5,(double)0); cellPicker.Pick((double)287,(double)80,(double)0,(vtkRenderer)ren1); if ((cellPicker.GetCellId()) != -1) { ren1.AddActor((vtkProp)wedgeCheck); } pyraCheck = new vtkActor(); pyraCheck.SetMapper((vtkMapper)pmapper); pyraCheck.AddPosition((double)12.5,(double)2.5,(double)0); cellPicker.Pick((double)287,(double)80,(double)0,(vtkRenderer)ren1); if ((cellPicker.GetCellId()) != -1) { ren1.AddActor((vtkProp)pyraCheck); } // render the image[] //[] iren.Initialize(); //deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVcombStreamers2(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); // create pipeline[] //[] pl3d = new vtkPLOT3DReader(); pl3d.SetXYZFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/combxyz.bin"); pl3d.SetQFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/combq.bin"); pl3d.SetScalarFunctionNumber((int)100); pl3d.SetVectorFunctionNumber((int)202); pl3d.Update(); ps = new vtkPlaneSource(); ps.SetXResolution((int)4); ps.SetYResolution((int)4); ps.SetOrigin((double)2,(double)-2,(double)26); ps.SetPoint1((double)2,(double)2,(double)26); ps.SetPoint2((double)2,(double)-2,(double)32); psMapper = vtkPolyDataMapper.New(); psMapper.SetInputConnection((vtkAlgorithmOutput)ps.GetOutputPort()); psActor = new vtkActor(); psActor.SetMapper((vtkMapper)psMapper); psActor.GetProperty().SetRepresentationToWireframe(); streamer = new vtkDashedStreamLine(); streamer.SetInputConnection((vtkAlgorithmOutput)pl3d.GetOutputPort()); streamer.SetSource((vtkDataSet)ps.GetOutput()); streamer.SetMaximumPropagationTime((double)100); streamer.SetIntegrationStepLength((double).2); streamer.SetStepLength((double).001); streamer.SetNumberOfThreads((int)1); streamer.SetIntegrationDirectionToForward(); streamMapper = vtkPolyDataMapper.New(); streamMapper.SetInputConnection((vtkAlgorithmOutput)streamer.GetOutputPort()); streamMapper.SetScalarRange( (double)((vtkDataSet)pl3d.GetOutput()).GetScalarRange()[0], (double)((vtkDataSet)pl3d.GetOutput()).GetScalarRange()[1]); streamline = new vtkActor(); streamline.SetMapper((vtkMapper)streamMapper); outline = new vtkStructuredGridOutlineFilter(); outline.SetInputConnection((vtkAlgorithmOutput)pl3d.GetOutputPort()); outlineMapper = vtkPolyDataMapper.New(); outlineMapper.SetInputConnection((vtkAlgorithmOutput)outline.GetOutputPort()); outlineActor = new vtkActor(); outlineActor.SetMapper((vtkMapper)outlineMapper); // Add the actors to the renderer, set the background and size[] //[] ren1.AddActor((vtkProp)psActor); ren1.AddActor((vtkProp)outlineActor); ren1.AddActor((vtkProp)streamline); ren1.SetBackground((double)1,(double)1,(double)1); renWin.SetSize((int)300,(int)300); ren1.SetBackground((double)0.1,(double)0.2,(double)0.4); cam1 = ren1.GetActiveCamera(); cam1.SetClippingRange((double)3.95297,(double)50); cam1.SetFocalPoint((double)9.71821,(double)0.458166,(double)29.3999); cam1.SetPosition((double)2.7439,(double)-37.3196,(double)38.7167); cam1.SetViewUp((double)-0.16123,(double)0.264271,(double)0.950876); // render the image[] //[] renWin.Render(); // 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 AVTestCellDerivs(String [] argv) { //Prefix Content is: "" // Demonstrates vtkCellDerivatives for all cell types[] //[] // get the interactor ui[] ren1 = vtkRenderer.New(); renWin = vtkRenderWindow.New(); renWin.AddRenderer((vtkRenderer)ren1); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); // create a scene with one of each cell type[] // Voxel[] voxelPoints = new vtkPoints(); voxelPoints.SetNumberOfPoints((int)8); voxelPoints.InsertPoint((int)0,(double)0,(double)0,(double)0); voxelPoints.InsertPoint((int)1,(double)1,(double)0,(double)0); voxelPoints.InsertPoint((int)2,(double)0,(double)1,(double)0); voxelPoints.InsertPoint((int)3,(double)1,(double)1,(double)0); voxelPoints.InsertPoint((int)4,(double)0,(double)0,(double)1); voxelPoints.InsertPoint((int)5,(double)1,(double)0,(double)1); voxelPoints.InsertPoint((int)6,(double)0,(double)1,(double)1); voxelPoints.InsertPoint((int)7,(double)1,(double)1,(double)1); aVoxel = new vtkVoxel(); aVoxel.GetPointIds().SetId((int)0,(int)0); aVoxel.GetPointIds().SetId((int)1,(int)1); aVoxel.GetPointIds().SetId((int)2,(int)2); aVoxel.GetPointIds().SetId((int)3,(int)3); aVoxel.GetPointIds().SetId((int)4,(int)4); aVoxel.GetPointIds().SetId((int)5,(int)5); aVoxel.GetPointIds().SetId((int)6,(int)6); aVoxel.GetPointIds().SetId((int)7,(int)7); aVoxelGrid = new vtkUnstructuredGrid(); aVoxelGrid.Allocate((int)1,(int)1); aVoxelGrid.InsertNextCell((int)aVoxel.GetCellType(),(vtkIdList)aVoxel.GetPointIds()); aVoxelGrid.SetPoints((vtkPoints)voxelPoints); aVoxelMapper = new vtkDataSetMapper(); aVoxelMapper.SetInput((vtkDataSet)aVoxelGrid); aVoxelActor = new vtkActor(); aVoxelActor.SetMapper((vtkMapper)aVoxelMapper); aVoxelActor.GetProperty().BackfaceCullingOn(); // Hexahedron[] hexahedronPoints = new vtkPoints(); hexahedronPoints.SetNumberOfPoints((int)8); hexahedronPoints.InsertPoint((int)0,(double)0,(double)0,(double)0); hexahedronPoints.InsertPoint((int)1,(double)1,(double)0,(double)0); hexahedronPoints.InsertPoint((int)2,(double)1,(double)1,(double)0); hexahedronPoints.InsertPoint((int)3,(double)0,(double)1,(double)0); hexahedronPoints.InsertPoint((int)4,(double)0,(double)0,(double)1); hexahedronPoints.InsertPoint((int)5,(double)1,(double)0,(double)1); hexahedronPoints.InsertPoint((int)6,(double)1,(double)1,(double)1); hexahedronPoints.InsertPoint((int)7,(double)0,(double)1,(double)1); aHexahedron = new vtkHexahedron(); aHexahedron.GetPointIds().SetId((int)0,(int)0); aHexahedron.GetPointIds().SetId((int)1,(int)1); aHexahedron.GetPointIds().SetId((int)2,(int)2); aHexahedron.GetPointIds().SetId((int)3,(int)3); aHexahedron.GetPointIds().SetId((int)4,(int)4); aHexahedron.GetPointIds().SetId((int)5,(int)5); aHexahedron.GetPointIds().SetId((int)6,(int)6); aHexahedron.GetPointIds().SetId((int)7,(int)7); aHexahedronGrid = new vtkUnstructuredGrid(); aHexahedronGrid.Allocate((int)1,(int)1); aHexahedronGrid.InsertNextCell((int)aHexahedron.GetCellType(),(vtkIdList)aHexahedron.GetPointIds()); aHexahedronGrid.SetPoints((vtkPoints)hexahedronPoints); aHexahedronMapper = new vtkDataSetMapper(); aHexahedronMapper.SetInput((vtkDataSet)aHexahedronGrid); aHexahedronActor = new vtkActor(); aHexahedronActor.SetMapper((vtkMapper)aHexahedronMapper); aHexahedronActor.AddPosition((double)2,(double)0,(double)0); aHexahedronActor.GetProperty().BackfaceCullingOn(); // Tetra[] tetraPoints = new vtkPoints(); tetraPoints.SetNumberOfPoints((int)4); tetraPoints.InsertPoint((int)0,(double)0,(double)0,(double)0); tetraPoints.InsertPoint((int)1,(double)1,(double)0,(double)0); tetraPoints.InsertPoint((int)2,(double)0,(double)1,(double)0); tetraPoints.InsertPoint((int)3,(double)1,(double)1,(double)1); aTetra = new vtkTetra(); aTetra.GetPointIds().SetId((int)0,(int)0); aTetra.GetPointIds().SetId((int)1,(int)1); aTetra.GetPointIds().SetId((int)2,(int)2); aTetra.GetPointIds().SetId((int)3,(int)3); aTetraGrid = new vtkUnstructuredGrid(); aTetraGrid.Allocate((int)1,(int)1); aTetraGrid.InsertNextCell((int)aTetra.GetCellType(),(vtkIdList)aTetra.GetPointIds()); aTetraGrid.SetPoints((vtkPoints)tetraPoints); aTetraMapper = new vtkDataSetMapper(); aTetraMapper.SetInput((vtkDataSet)aTetraGrid); aTetraActor = new vtkActor(); aTetraActor.SetMapper((vtkMapper)aTetraMapper); aTetraActor.AddPosition((double)4,(double)0,(double)0); aTetraActor.GetProperty().BackfaceCullingOn(); // Wedge[] wedgePoints = new vtkPoints(); wedgePoints.SetNumberOfPoints((int)6); wedgePoints.InsertPoint((int)0,(double)0,(double)1,(double)0); wedgePoints.InsertPoint((int)1,(double)0,(double)0,(double)0); wedgePoints.InsertPoint((int)2,(double)0,(double).5,(double).5); wedgePoints.InsertPoint((int)3,(double)1,(double)1,(double)0); wedgePoints.InsertPoint((int)4,(double)1,(double)0,(double)0); wedgePoints.InsertPoint((int)5,(double)1,(double).5,(double).5); aWedge = new vtkWedge(); aWedge.GetPointIds().SetId((int)0,(int)0); aWedge.GetPointIds().SetId((int)1,(int)1); aWedge.GetPointIds().SetId((int)2,(int)2); aWedge.GetPointIds().SetId((int)3,(int)3); aWedge.GetPointIds().SetId((int)4,(int)4); aWedge.GetPointIds().SetId((int)5,(int)5); aWedgeGrid = new vtkUnstructuredGrid(); aWedgeGrid.Allocate((int)1,(int)1); aWedgeGrid.InsertNextCell((int)aWedge.GetCellType(),(vtkIdList)aWedge.GetPointIds()); aWedgeGrid.SetPoints((vtkPoints)wedgePoints); aWedgeMapper = new vtkDataSetMapper(); aWedgeMapper.SetInput((vtkDataSet)aWedgeGrid); aWedgeActor = new vtkActor(); aWedgeActor.SetMapper((vtkMapper)aWedgeMapper); aWedgeActor.AddPosition((double)6,(double)0,(double)0); aWedgeActor.GetProperty().BackfaceCullingOn(); // Pyramid[] pyramidPoints = new vtkPoints(); pyramidPoints.SetNumberOfPoints((int)5); pyramidPoints.InsertPoint((int)0,(double)0,(double)0,(double)0); pyramidPoints.InsertPoint((int)1,(double)1,(double)0,(double)0); pyramidPoints.InsertPoint((int)2,(double)1,(double)1,(double)0); pyramidPoints.InsertPoint((int)3,(double)0,(double)1,(double)0); pyramidPoints.InsertPoint((int)4,(double).5,(double).5,(double)1); aPyramid = new vtkPyramid(); aPyramid.GetPointIds().SetId((int)0,(int)0); aPyramid.GetPointIds().SetId((int)1,(int)1); aPyramid.GetPointIds().SetId((int)2,(int)2); aPyramid.GetPointIds().SetId((int)3,(int)3); aPyramid.GetPointIds().SetId((int)4,(int)4); aPyramidGrid = new vtkUnstructuredGrid(); aPyramidGrid.Allocate((int)1,(int)1); aPyramidGrid.InsertNextCell((int)aPyramid.GetCellType(),(vtkIdList)aPyramid.GetPointIds()); aPyramidGrid.SetPoints((vtkPoints)pyramidPoints); aPyramidMapper = new vtkDataSetMapper(); aPyramidMapper.SetInput((vtkDataSet)aPyramidGrid); aPyramidActor = new vtkActor(); aPyramidActor.SetMapper((vtkMapper)aPyramidMapper); aPyramidActor.AddPosition((double)8,(double)0,(double)0); aPyramidActor.GetProperty().BackfaceCullingOn(); // Pixel[] pixelPoints = new vtkPoints(); pixelPoints.SetNumberOfPoints((int)4); pixelPoints.InsertPoint((int)0,(double)0,(double)0,(double)0); pixelPoints.InsertPoint((int)1,(double)1,(double)0,(double)0); pixelPoints.InsertPoint((int)2,(double)0,(double)1,(double)0); pixelPoints.InsertPoint((int)3,(double)1,(double)1,(double)0); aPixel = new vtkPixel(); aPixel.GetPointIds().SetId((int)0,(int)0); aPixel.GetPointIds().SetId((int)1,(int)1); aPixel.GetPointIds().SetId((int)2,(int)2); aPixel.GetPointIds().SetId((int)3,(int)3); aPixelGrid = new vtkUnstructuredGrid(); aPixelGrid.Allocate((int)1,(int)1); aPixelGrid.InsertNextCell((int)aPixel.GetCellType(),(vtkIdList)aPixel.GetPointIds()); aPixelGrid.SetPoints((vtkPoints)pixelPoints); aPixelMapper = new vtkDataSetMapper(); aPixelMapper.SetInput((vtkDataSet)aPixelGrid); aPixelActor = new vtkActor(); aPixelActor.SetMapper((vtkMapper)aPixelMapper); aPixelActor.AddPosition((double)0,(double)0,(double)2); aPixelActor.GetProperty().BackfaceCullingOn(); // Quad[] quadPoints = new vtkPoints(); quadPoints.SetNumberOfPoints((int)4); quadPoints.InsertPoint((int)0,(double)0,(double)0,(double)0); quadPoints.InsertPoint((int)1,(double)1,(double)0,(double)0); quadPoints.InsertPoint((int)2,(double)1,(double)1,(double)0); quadPoints.InsertPoint((int)3,(double)0,(double)1,(double)0); aQuad = new vtkQuad(); aQuad.GetPointIds().SetId((int)0,(int)0); aQuad.GetPointIds().SetId((int)1,(int)1); aQuad.GetPointIds().SetId((int)2,(int)2); aQuad.GetPointIds().SetId((int)3,(int)3); aQuadGrid = new vtkUnstructuredGrid(); aQuadGrid.Allocate((int)1,(int)1); aQuadGrid.InsertNextCell((int)aQuad.GetCellType(),(vtkIdList)aQuad.GetPointIds()); aQuadGrid.SetPoints((vtkPoints)quadPoints); aQuadMapper = new vtkDataSetMapper(); aQuadMapper.SetInput((vtkDataSet)aQuadGrid); aQuadActor = new vtkActor(); aQuadActor.SetMapper((vtkMapper)aQuadMapper); aQuadActor.AddPosition((double)2,(double)0,(double)2); aQuadActor.GetProperty().BackfaceCullingOn(); // Triangle[] trianglePoints = new vtkPoints(); trianglePoints.SetNumberOfPoints((int)3); trianglePoints.InsertPoint((int)0,(double)0,(double)0,(double)0); trianglePoints.InsertPoint((int)1,(double)1,(double)0,(double)0); trianglePoints.InsertPoint((int)2,(double).5,(double).5,(double)0); triangleTCoords = new vtkFloatArray(); triangleTCoords.SetNumberOfComponents((int)2); triangleTCoords.SetNumberOfTuples((int)3); triangleTCoords.InsertTuple2((int)0,(double)1,(double)1); triangleTCoords.InsertTuple2((int)1,(double)2,(double)2); triangleTCoords.InsertTuple2((int)2,(double)3,(double)3); aTriangle = new vtkTriangle(); aTriangle.GetPointIds().SetId((int)0,(int)0); aTriangle.GetPointIds().SetId((int)1,(int)1); aTriangle.GetPointIds().SetId((int)2,(int)2); aTriangleGrid = new vtkUnstructuredGrid(); aTriangleGrid.Allocate((int)1,(int)1); aTriangleGrid.InsertNextCell((int)aTriangle.GetCellType(),(vtkIdList)aTriangle.GetPointIds()); aTriangleGrid.SetPoints((vtkPoints)trianglePoints); aTriangleGrid.GetPointData().SetTCoords((vtkDataArray)triangleTCoords); aTriangleMapper = new vtkDataSetMapper(); aTriangleMapper.SetInput((vtkDataSet)aTriangleGrid); aTriangleActor = new vtkActor(); aTriangleActor.SetMapper((vtkMapper)aTriangleMapper); aTriangleActor.AddPosition((double)4,(double)0,(double)2); aTriangleActor.GetProperty().BackfaceCullingOn(); // Polygon[] polygonPoints = new vtkPoints(); polygonPoints.SetNumberOfPoints((int)4); polygonPoints.InsertPoint((int)0,(double)0,(double)0,(double)0); polygonPoints.InsertPoint((int)1,(double)1,(double)0,(double)0); polygonPoints.InsertPoint((int)2,(double)1,(double)1,(double)0); polygonPoints.InsertPoint((int)3,(double)0,(double)1,(double)0); aPolygon = new vtkPolygon(); aPolygon.GetPointIds().SetNumberOfIds((int)4); aPolygon.GetPointIds().SetId((int)0,(int)0); aPolygon.GetPointIds().SetId((int)1,(int)1); aPolygon.GetPointIds().SetId((int)2,(int)2); aPolygon.GetPointIds().SetId((int)3,(int)3); aPolygonGrid = new vtkUnstructuredGrid(); aPolygonGrid.Allocate((int)1,(int)1); aPolygonGrid.InsertNextCell((int)aPolygon.GetCellType(),(vtkIdList)aPolygon.GetPointIds()); aPolygonGrid.SetPoints((vtkPoints)polygonPoints); aPolygonMapper = new vtkDataSetMapper(); aPolygonMapper.SetInput((vtkDataSet)aPolygonGrid); aPolygonActor = new vtkActor(); aPolygonActor.SetMapper((vtkMapper)aPolygonMapper); aPolygonActor.AddPosition((double)6,(double)0,(double)2); aPolygonActor.GetProperty().BackfaceCullingOn(); // Triangle strip[] triangleStripPoints = new vtkPoints(); triangleStripPoints.SetNumberOfPoints((int)5); triangleStripPoints.InsertPoint((int)0,(double)0,(double)1,(double)0); triangleStripPoints.InsertPoint((int)1,(double)0,(double)0,(double)0); triangleStripPoints.InsertPoint((int)2,(double)1,(double)1,(double)0); triangleStripPoints.InsertPoint((int)3,(double)1,(double)0,(double)0); triangleStripPoints.InsertPoint((int)4,(double)2,(double)1,(double)0); triangleStripTCoords = new vtkFloatArray(); triangleStripTCoords.SetNumberOfComponents((int)2); triangleStripTCoords.SetNumberOfTuples((int)3); triangleStripTCoords.InsertTuple2((int)0,(double)1,(double)1); triangleStripTCoords.InsertTuple2((int)1,(double)2,(double)2); triangleStripTCoords.InsertTuple2((int)2,(double)3,(double)3); triangleStripTCoords.InsertTuple2((int)3,(double)4,(double)4); triangleStripTCoords.InsertTuple2((int)4,(double)5,(double)5); aTriangleStrip = new vtkTriangleStrip(); aTriangleStrip.GetPointIds().SetNumberOfIds((int)5); aTriangleStrip.GetPointIds().SetId((int)0,(int)0); aTriangleStrip.GetPointIds().SetId((int)1,(int)1); aTriangleStrip.GetPointIds().SetId((int)2,(int)2); aTriangleStrip.GetPointIds().SetId((int)3,(int)3); aTriangleStrip.GetPointIds().SetId((int)4,(int)4); aTriangleStripGrid = new vtkUnstructuredGrid(); aTriangleStripGrid.Allocate((int)1,(int)1); aTriangleStripGrid.InsertNextCell((int)aTriangleStrip.GetCellType(),(vtkIdList)aTriangleStrip.GetPointIds()); aTriangleStripGrid.SetPoints((vtkPoints)triangleStripPoints); aTriangleStripGrid.GetPointData().SetTCoords((vtkDataArray)triangleStripTCoords); aTriangleStripMapper = new vtkDataSetMapper(); aTriangleStripMapper.SetInput((vtkDataSet)aTriangleStripGrid); aTriangleStripActor = new vtkActor(); aTriangleStripActor.SetMapper((vtkMapper)aTriangleStripMapper); aTriangleStripActor.AddPosition((double)8,(double)0,(double)2); aTriangleStripActor.GetProperty().BackfaceCullingOn(); // Line[] linePoints = new vtkPoints(); linePoints.SetNumberOfPoints((int)2); linePoints.InsertPoint((int)0,(double)0,(double)0,(double)0); linePoints.InsertPoint((int)1,(double)1,(double)1,(double)0); aLine = new vtkLine(); aLine.GetPointIds().SetId((int)0,(int)0); aLine.GetPointIds().SetId((int)1,(int)1); aLineGrid = new vtkUnstructuredGrid(); aLineGrid.Allocate((int)1,(int)1); aLineGrid.InsertNextCell((int)aLine.GetCellType(),(vtkIdList)aLine.GetPointIds()); aLineGrid.SetPoints((vtkPoints)linePoints); aLineMapper = new vtkDataSetMapper(); aLineMapper.SetInput((vtkDataSet)aLineGrid); aLineActor = new vtkActor(); aLineActor.SetMapper((vtkMapper)aLineMapper); aLineActor.AddPosition((double)0,(double)0,(double)4); aLineActor.GetProperty().BackfaceCullingOn(); // Polyline[] polyLinePoints = new vtkPoints(); polyLinePoints.SetNumberOfPoints((int)3); polyLinePoints.InsertPoint((int)0,(double)0,(double)0,(double)0); polyLinePoints.InsertPoint((int)1,(double)1,(double)1,(double)0); polyLinePoints.InsertPoint((int)2,(double)1,(double)0,(double)0); aPolyLine = new vtkPolyLine(); aPolyLine.GetPointIds().SetNumberOfIds((int)3); aPolyLine.GetPointIds().SetId((int)0,(int)0); aPolyLine.GetPointIds().SetId((int)1,(int)1); aPolyLine.GetPointIds().SetId((int)2,(int)2); aPolyLineGrid = new vtkUnstructuredGrid(); aPolyLineGrid.Allocate((int)1,(int)1); aPolyLineGrid.InsertNextCell((int)aPolyLine.GetCellType(),(vtkIdList)aPolyLine.GetPointIds()); aPolyLineGrid.SetPoints((vtkPoints)polyLinePoints); aPolyLineMapper = new vtkDataSetMapper(); aPolyLineMapper.SetInput((vtkDataSet)aPolyLineGrid); aPolyLineActor = new vtkActor(); aPolyLineActor.SetMapper((vtkMapper)aPolyLineMapper); aPolyLineActor.AddPosition((double)2,(double)0,(double)4); aPolyLineActor.GetProperty().BackfaceCullingOn(); // Vertex[] vertexPoints = new vtkPoints(); vertexPoints.SetNumberOfPoints((int)1); vertexPoints.InsertPoint((int)0,(double)0,(double)0,(double)0); aVertex = new vtkVertex(); aVertex.GetPointIds().SetId((int)0,(int)0); aVertexGrid = new vtkUnstructuredGrid(); aVertexGrid.Allocate((int)1,(int)1); aVertexGrid.InsertNextCell((int)aVertex.GetCellType(),(vtkIdList)aVertex.GetPointIds()); aVertexGrid.SetPoints((vtkPoints)vertexPoints); aVertexMapper = new vtkDataSetMapper(); aVertexMapper.SetInput((vtkDataSet)aVertexGrid); aVertexActor = new vtkActor(); aVertexActor.SetMapper((vtkMapper)aVertexMapper); aVertexActor.AddPosition((double)0,(double)0,(double)6); aVertexActor.GetProperty().BackfaceCullingOn(); // Polyvertex[] polyVertexPoints = new vtkPoints(); polyVertexPoints.SetNumberOfPoints((int)3); polyVertexPoints.InsertPoint((int)0,(double)0,(double)0,(double)0); polyVertexPoints.InsertPoint((int)1,(double)1,(double)0,(double)0); polyVertexPoints.InsertPoint((int)2,(double)1,(double)1,(double)0); aPolyVertex = new vtkPolyVertex(); aPolyVertex.GetPointIds().SetNumberOfIds((int)3); aPolyVertex.GetPointIds().SetId((int)0,(int)0); aPolyVertex.GetPointIds().SetId((int)1,(int)1); aPolyVertex.GetPointIds().SetId((int)2,(int)2); aPolyVertexGrid = new vtkUnstructuredGrid(); aPolyVertexGrid.Allocate((int)1,(int)1); aPolyVertexGrid.InsertNextCell((int)aPolyVertex.GetCellType(),(vtkIdList)aPolyVertex.GetPointIds()); aPolyVertexGrid.SetPoints((vtkPoints)polyVertexPoints); aPolyVertexMapper = new vtkDataSetMapper(); aPolyVertexMapper.SetInput((vtkDataSet)aPolyVertexGrid); aPolyVertexActor = new vtkActor(); aPolyVertexActor.SetMapper((vtkMapper)aPolyVertexMapper); aPolyVertexActor.AddPosition((double)2,(double)0,(double)6); aPolyVertexActor.GetProperty().BackfaceCullingOn(); // Pentagonal prism[] pentaPoints = new vtkPoints(); pentaPoints.SetNumberOfPoints((int)10); pentaPoints.InsertPoint((int)0,(double)0.25,(double)0.0,(double)0.0); pentaPoints.InsertPoint((int)1,(double)0.75,(double)0.0,(double)0.0); pentaPoints.InsertPoint((int)2,(double)1.0,(double)0.5,(double)0.0); pentaPoints.InsertPoint((int)3,(double)0.5,(double)1.0,(double)0.0); pentaPoints.InsertPoint((int)4,(double)0.0,(double)0.5,(double)0.0); pentaPoints.InsertPoint((int)5,(double)0.25,(double)0.0,(double)1.0); pentaPoints.InsertPoint((int)6,(double)0.75,(double)0.0,(double)1.0); pentaPoints.InsertPoint((int)7,(double)1.0,(double)0.5,(double)1.0); pentaPoints.InsertPoint((int)8,(double)0.5,(double)1.0,(double)1.0); pentaPoints.InsertPoint((int)9,(double)0.0,(double)0.5,(double)1.0); aPenta = new vtkPentagonalPrism(); aPenta.GetPointIds().SetId((int)0,(int)0); aPenta.GetPointIds().SetId((int)1,(int)1); aPenta.GetPointIds().SetId((int)2,(int)2); aPenta.GetPointIds().SetId((int)3,(int)3); aPenta.GetPointIds().SetId((int)4,(int)4); aPenta.GetPointIds().SetId((int)5,(int)5); aPenta.GetPointIds().SetId((int)6,(int)6); aPenta.GetPointIds().SetId((int)7,(int)7); aPenta.GetPointIds().SetId((int)8,(int)8); aPenta.GetPointIds().SetId((int)9,(int)9); aPentaGrid = new vtkUnstructuredGrid(); aPentaGrid.Allocate((int)1,(int)1); aPentaGrid.InsertNextCell((int)aPenta.GetCellType(),(vtkIdList)aPenta.GetPointIds()); aPentaGrid.SetPoints((vtkPoints)pentaPoints); aPentaMapper = new vtkDataSetMapper(); aPentaMapper.SetInput((vtkDataSet)aPentaGrid); aPentaActor = new vtkActor(); aPentaActor.SetMapper((vtkMapper)aPentaMapper); aPentaActor.AddPosition((double)10,(double)0,(double)0); aPentaActor.GetProperty().BackfaceCullingOn(); // Hexagonal prism[] hexaPoints = new vtkPoints(); hexaPoints.SetNumberOfPoints((int)12); hexaPoints.InsertPoint((int)0,(double)0.0,(double)0.0,(double)0.0); hexaPoints.InsertPoint((int)1,(double)0.5,(double)0.0,(double)0.0); hexaPoints.InsertPoint((int)2,(double)1.0,(double)0.5,(double)0.0); hexaPoints.InsertPoint((int)3,(double)1.0,(double)1.0,(double)0.0); hexaPoints.InsertPoint((int)4,(double)0.5,(double)1.0,(double)0.0); hexaPoints.InsertPoint((int)5,(double)0.0,(double)0.5,(double)0.0); hexaPoints.InsertPoint((int)6,(double)0.0,(double)0.0,(double)1.0); hexaPoints.InsertPoint((int)7,(double)0.5,(double)0.0,(double)1.0); hexaPoints.InsertPoint((int)8,(double)1.0,(double)0.5,(double)1.0); hexaPoints.InsertPoint((int)9,(double)1.0,(double)1.0,(double)1.0); hexaPoints.InsertPoint((int)10,(double)0.5,(double)1.0,(double)1.0); hexaPoints.InsertPoint((int)11,(double)0.0,(double)0.5,(double)1.0); aHexa = new vtkHexagonalPrism(); aHexa.GetPointIds().SetId((int)0,(int)0); aHexa.GetPointIds().SetId((int)1,(int)1); aHexa.GetPointIds().SetId((int)2,(int)2); aHexa.GetPointIds().SetId((int)3,(int)3); aHexa.GetPointIds().SetId((int)4,(int)4); aHexa.GetPointIds().SetId((int)5,(int)5); aHexa.GetPointIds().SetId((int)6,(int)6); aHexa.GetPointIds().SetId((int)7,(int)7); aHexa.GetPointIds().SetId((int)8,(int)8); aHexa.GetPointIds().SetId((int)9,(int)9); aHexa.GetPointIds().SetId((int)10,(int)10); aHexa.GetPointIds().SetId((int)11,(int)11); aHexaGrid = new vtkUnstructuredGrid(); aHexaGrid.Allocate((int)1,(int)1); aHexaGrid.InsertNextCell((int)aHexa.GetCellType(),(vtkIdList)aHexa.GetPointIds()); aHexaGrid.SetPoints((vtkPoints)hexaPoints); aHexaMapper = new vtkDataSetMapper(); aHexaMapper.SetInput((vtkDataSet)aHexaGrid); aHexaActor = new vtkActor(); aHexaActor.SetMapper((vtkMapper)aHexaMapper); aHexaActor.AddPosition((double)12,(double)0,(double)0); aHexaActor.GetProperty().BackfaceCullingOn(); ren1.SetBackground((double)1,(double)1,(double)1); ren1.AddActor((vtkProp)aVoxelActor); aVoxelActor.GetProperty().SetDiffuseColor((double)1,(double)0,(double)0); ren1.AddActor((vtkProp)aHexahedronActor); aHexahedronActor.GetProperty().SetDiffuseColor((double)1,(double)1,(double)0); ren1.AddActor((vtkProp)aTetraActor); aTetraActor.GetProperty().SetDiffuseColor((double)0,(double)1,(double)0); ren1.AddActor((vtkProp)aWedgeActor); aWedgeActor.GetProperty().SetDiffuseColor((double)0,(double)1,(double)1); ren1.AddActor((vtkProp)aPyramidActor); aPyramidActor.GetProperty().SetDiffuseColor((double)1,(double)0,(double)1); ren1.AddActor((vtkProp)aPixelActor); aPixelActor.GetProperty().SetDiffuseColor((double)0,(double)1,(double)1); ren1.AddActor((vtkProp)aQuadActor); aQuadActor.GetProperty().SetDiffuseColor((double)1,(double)0,(double)1); ren1.AddActor((vtkProp)aTriangleActor); aTriangleActor.GetProperty().SetDiffuseColor((double).3,(double)1,(double).5); ren1.AddActor((vtkProp)aPolygonActor); aPolygonActor.GetProperty().SetDiffuseColor((double)1,(double).4,(double).5); ren1.AddActor((vtkProp)aTriangleStripActor); aTriangleStripActor.GetProperty().SetDiffuseColor((double).3,(double).7,(double)1); ren1.AddActor((vtkProp)aLineActor); aLineActor.GetProperty().SetDiffuseColor((double).2,(double)1,(double)1); ren1.AddActor((vtkProp)aPolyLineActor); aPolyLineActor.GetProperty().SetDiffuseColor((double)1,(double)1,(double)1); ren1.AddActor((vtkProp)aVertexActor); aVertexActor.GetProperty().SetDiffuseColor((double)1,(double)1,(double)1); ren1.AddActor((vtkProp)aPolyVertexActor); aPolyVertexActor.GetProperty().SetDiffuseColor((double)1,(double)1,(double)1); ren1.AddActor((vtkProp)aPentaActor); aPentaActor.GetProperty().SetDiffuseColor((double)1,(double)1,(double)0); ren1.AddActor((vtkProp)aHexaActor); aHexaActor.GetProperty().SetDiffuseColor((double)1,(double)1,(double)0); //[] // get the cell center of each type and put a glyph there[] //[] ball = new vtkSphereSource(); ball.SetRadius((double).2); bool tryWorked = false; aVoxelScalars = new vtkFloatArray(); N = aVoxelGrid.GetNumberOfPoints(); aVoxelScalar = new vtkFloatArray(); aVoxelScalar.SetNumberOfTuples((int)N); aVoxelScalar.SetNumberOfComponents(1); i = 0; while((i) < N) { aVoxelScalar.SetValue(i,0); i = i + 1; } aVoxelScalar.SetValue(0,4); aVoxelGrid.GetPointData().SetScalars(aVoxelScalar); aHexahedronScalars = new vtkFloatArray(); N = aHexahedronGrid.GetNumberOfPoints(); aHexahedronScalar = new vtkFloatArray(); aHexahedronScalar.SetNumberOfTuples((int)N); aHexahedronScalar.SetNumberOfComponents(1); i = 0; while((i) < N) { aHexahedronScalar.SetValue(i,0); i = i + 1; } aHexahedronScalar.SetValue(0,4); aHexahedronGrid.GetPointData().SetScalars(aHexahedronScalar); aWedgeScalars = new vtkFloatArray(); N = aWedgeGrid.GetNumberOfPoints(); aWedgeScalar = new vtkFloatArray(); aWedgeScalar.SetNumberOfTuples((int)N); aWedgeScalar.SetNumberOfComponents(1); i = 0; while((i) < N) { aWedgeScalar.SetValue(i,0); i = i + 1; } aWedgeScalar.SetValue(0,4); aWedgeGrid.GetPointData().SetScalars(aWedgeScalar); aPyramidScalars = new vtkFloatArray(); N = aPyramidGrid.GetNumberOfPoints(); aPyramidScalar = new vtkFloatArray(); aPyramidScalar.SetNumberOfTuples((int)N); aPyramidScalar.SetNumberOfComponents(1); i = 0; while((i) < N) { aPyramidScalar.SetValue(i,0); i = i + 1; } aPyramidScalar.SetValue(0,4); aPyramidGrid.GetPointData().SetScalars(aPyramidScalar); aTetraScalars = new vtkFloatArray(); N = aTetraGrid.GetNumberOfPoints(); aTetraScalar = new vtkFloatArray(); aTetraScalar.SetNumberOfTuples((int)N); aTetraScalar.SetNumberOfComponents(1); i = 0; while((i) < N) { aTetraScalar.SetValue(i,0); i = i + 1; } aTetraScalar.SetValue(0,4); aTetraGrid.GetPointData().SetScalars(aTetraScalar); aQuadScalars = new vtkFloatArray(); N = aQuadGrid.GetNumberOfPoints(); aQuadScalar = new vtkFloatArray(); aQuadScalar.SetNumberOfTuples((int)N); aQuadScalar.SetNumberOfComponents(1); i = 0; while((i) < N) { aQuadScalar.SetValue(i,0); i = i + 1; } aQuadScalar.SetValue(0,4); aQuadGrid.GetPointData().SetScalars(aQuadScalar); aTriangleScalars = new vtkFloatArray(); N = aTriangleGrid.GetNumberOfPoints(); aTriangleScalar = new vtkFloatArray(); aTriangleScalar.SetNumberOfTuples((int)N); aTriangleScalar.SetNumberOfComponents(1); i = 0; while((i) < N) { aTriangleScalar.SetValue(i,0); i = i + 1; } aTriangleScalar.SetValue(0,4); aTriangleGrid.GetPointData().SetScalars(aTriangleScalar); aTriangleStripScalars = new vtkFloatArray(); N = aTriangleStripGrid.GetNumberOfPoints(); aTriangleStripScalar = new vtkFloatArray(); aTriangleStripScalar.SetNumberOfTuples((int)N); aTriangleStripScalar.SetNumberOfComponents(1); i = 0; while((i) < N) { aTriangleStripScalar.SetValue(i,0); i = i + 1; } aTriangleStripScalar.SetValue(0,4); aTriangleStripGrid.GetPointData().SetScalars(aTriangleStripScalar); aLineScalars = new vtkFloatArray(); N = aLineGrid.GetNumberOfPoints(); aLineScalar = new vtkFloatArray(); aLineScalar.SetNumberOfTuples((int)N); aLineScalar.SetNumberOfComponents(1); i = 0; while((i) < N) { aLineScalar.SetValue(i,0); i = i + 1; } aLineScalar.SetValue(0,4); aLineGrid.GetPointData().SetScalars(aLineScalar); aPolyLineScalars = new vtkFloatArray(); N = aPolyLineGrid.GetNumberOfPoints(); aPolyLineScalar = new vtkFloatArray(); aPolyLineScalar.SetNumberOfTuples((int)N); aPolyLineScalar.SetNumberOfComponents(1); i = 0; while((i) < N) { aPolyLineScalar.SetValue(i,0); i = i + 1; } aPolyLineScalar.SetValue(0,4); aPolyLineGrid.GetPointData().SetScalars(aPolyLineScalar); aVertexScalars = new vtkFloatArray(); N = aVertexGrid.GetNumberOfPoints(); aVertexScalar = new vtkFloatArray(); aVertexScalar.SetNumberOfTuples((int)N); aVertexScalar.SetNumberOfComponents(1); i = 0; while((i) < N) { aVertexScalar.SetValue(i,0); i = i + 1; } aVertexScalar.SetValue(0,4); aVertexGrid.GetPointData().SetScalars(aVertexScalar); aPolyVertexScalars = new vtkFloatArray(); N = aPolyVertexGrid.GetNumberOfPoints(); aPolyVertexScalar = new vtkFloatArray(); aPolyVertexScalar.SetNumberOfTuples((int)N); aPolyVertexScalar.SetNumberOfComponents(1); i = 0; while((i) < N) { aPolyVertexScalar.SetValue(i,0); i = i + 1; } aPolyVertexScalar.SetValue(0,4); aPolyVertexGrid.GetPointData().SetScalars(aPolyVertexScalar); aPixelScalars = new vtkFloatArray(); N = aPixelGrid.GetNumberOfPoints(); aPixelScalar = new vtkFloatArray(); aPixelScalar.SetNumberOfTuples((int)N); aPixelScalar.SetNumberOfComponents(1); i = 0; while((i) < N) { aPixelScalar.SetValue(i,0); i = i + 1; } aPixelScalar.SetValue(0,4); aPixelGrid.GetPointData().SetScalars(aPixelScalar); aPolygonScalars = new vtkFloatArray(); N = aPolygonGrid.GetNumberOfPoints(); aPolygonScalar = new vtkFloatArray(); aPolygonScalar.SetNumberOfTuples((int)N); aPolygonScalar.SetNumberOfComponents(1); i = 0; while((i) < N) { aPolygonScalar.SetValue(i,0); i = i + 1; } aPolygonScalar.SetValue(0,4); aPolygonGrid.GetPointData().SetScalars(aPolygonScalar); aPentaScalars = new vtkFloatArray(); N = aPentaGrid.GetNumberOfPoints(); aPentaScalar = new vtkFloatArray(); aPentaScalar.SetNumberOfTuples((int)N); aPentaScalar.SetNumberOfComponents(1); i = 0; while((i) < N) { aPentaScalar.SetValue(i,0); i = i + 1; } aPentaScalar.SetValue(0,4); aPentaGrid.GetPointData().SetScalars(aPentaScalar); aHexaScalars = new vtkFloatArray(); N = aHexaGrid.GetNumberOfPoints(); aHexaScalar = new vtkFloatArray(); aHexaScalar.SetNumberOfTuples((int)N); aHexaScalar.SetNumberOfComponents(1); i = 0; while((i) < N) { aHexaScalar.SetValue(i,0); i = i + 1; } aHexaScalar.SetValue(0,4); aHexaGrid.GetPointData().SetScalars(aHexaScalar); // write to the temp directory if possible, otherwise use .[] dir = "."; dir = TclToCsScriptTestDriver.GetTempDirectory(); aVoxelderivs = new vtkCellDerivatives(); aVoxelderivs.SetInput(aVoxelGrid); aVoxelderivs.SetVectorModeToComputeGradient(); FileName = dir; FileName += "/aVoxel"; FileName += ".vtk"; // make sure the directory is writeable first[] tryWorked = false; try { channel = new StreamWriter("" + (dir.ToString()) + "/test.tmp"); tryWorked = true; } catch(Exception) { tryWorked = false; } if(tryWorked) { channel.Close(); File.Delete("" + (dir.ToString()) + "/test.tmp"); aVoxelWriter = new vtkUnstructuredGridWriter(); aVoxelWriter.SetInputConnection(aVoxelderivs.GetOutputPort()); aVoxelWriter.SetFileName(FileName); aVoxelWriter.Write(); // delete the file[] File.Delete("FileName"); } aVoxelCenters = new vtkCellCenters(); aVoxelCenters.SetInputConnection(aVoxelderivs.GetOutputPort()); aVoxelCenters.VertexCellsOn(); aVoxelhog = new vtkHedgeHog(); aVoxelhog.SetInputConnection(aVoxelCenters.GetOutputPort()); aVoxelmapHog = vtkPolyDataMapper.New(); aVoxelmapHog.SetInputConnection(aVoxelhog.GetOutputPort()); aVoxelmapHog.SetScalarModeToUseCellData(); aVoxelmapHog.ScalarVisibilityOff(); aVoxelhogActor = new vtkActor(); aVoxelhogActor.SetMapper(aVoxelmapHog); aVoxelhogActor.GetProperty().SetColor(0,1,0); aVoxelGlyph3D = new vtkGlyph3D(); aVoxelGlyph3D.SetInputConnection(aVoxelCenters.GetOutputPort()); aVoxelGlyph3D.SetSource(ball.GetOutput()); aVoxelCentersMapper = vtkPolyDataMapper.New(); aVoxelCentersMapper.SetInputConnection(aVoxelGlyph3D.GetOutputPort()); aVoxelCentersActor = new vtkActor(); aVoxelCentersActor.SetMapper(aVoxelCentersMapper); aVoxelhogActor.SetPosition(aVoxelActor.GetPosition()[0],aVoxelActor.GetPosition()[1],aVoxelActor.GetPosition()[2]); ren1.AddActor((vtkProp)aVoxelhogActor); aVoxelhogActor.GetProperty().SetRepresentationToWireframe(); aHexahedronderivs = new vtkCellDerivatives(); aHexahedronderivs.SetInput(aHexahedronGrid); aHexahedronderivs.SetVectorModeToComputeGradient(); FileName = dir; FileName += "/aHexahedron"; FileName += ".vtk"; // make sure the directory is writeable first[] tryWorked = false; try { channel = new StreamWriter("" + (dir.ToString()) + "/test.tmp"); tryWorked = true; } catch(Exception) { tryWorked = false; } if(tryWorked) { channel.Close(); File.Delete("" + (dir.ToString()) + "/test.tmp"); aHexahedronWriter = new vtkUnstructuredGridWriter(); aHexahedronWriter.SetInputConnection(aHexahedronderivs.GetOutputPort()); aHexahedronWriter.SetFileName(FileName); aHexahedronWriter.Write(); // delete the file[] File.Delete("FileName"); } aHexahedronCenters = new vtkCellCenters(); aHexahedronCenters.SetInputConnection(aHexahedronderivs.GetOutputPort()); aHexahedronCenters.VertexCellsOn(); aHexahedronhog = new vtkHedgeHog(); aHexahedronhog.SetInputConnection(aHexahedronCenters.GetOutputPort()); aHexahedronmapHog = vtkPolyDataMapper.New(); aHexahedronmapHog.SetInputConnection(aHexahedronhog.GetOutputPort()); aHexahedronmapHog.SetScalarModeToUseCellData(); aHexahedronmapHog.ScalarVisibilityOff(); aHexahedronhogActor = new vtkActor(); aHexahedronhogActor.SetMapper(aHexahedronmapHog); aHexahedronhogActor.GetProperty().SetColor(0,1,0); aHexahedronGlyph3D = new vtkGlyph3D(); aHexahedronGlyph3D.SetInputConnection(aHexahedronCenters.GetOutputPort()); aHexahedronGlyph3D.SetSource(ball.GetOutput()); aHexahedronCentersMapper = vtkPolyDataMapper.New(); aHexahedronCentersMapper.SetInputConnection(aHexahedronGlyph3D.GetOutputPort()); aHexahedronCentersActor = new vtkActor(); aHexahedronCentersActor.SetMapper(aHexahedronCentersMapper); aHexahedronhogActor.SetPosition(aHexahedronActor.GetPosition()[0],aHexahedronActor.GetPosition()[1],aHexahedronActor.GetPosition()[2]); ren1.AddActor((vtkProp)aHexahedronhogActor); aHexahedronhogActor.GetProperty().SetRepresentationToWireframe(); aWedgederivs = new vtkCellDerivatives(); aWedgederivs.SetInput(aWedgeGrid); aWedgederivs.SetVectorModeToComputeGradient(); FileName = dir; FileName += "/aWedge"; FileName += ".vtk"; // make sure the directory is writeable first[] tryWorked = false; try { channel = new StreamWriter("" + (dir.ToString()) + "/test.tmp"); tryWorked = true; } catch(Exception) { tryWorked = false; } if(tryWorked) { channel.Close(); File.Delete("" + (dir.ToString()) + "/test.tmp"); aWedgeWriter = new vtkUnstructuredGridWriter(); aWedgeWriter.SetInputConnection(aWedgederivs.GetOutputPort()); aWedgeWriter.SetFileName(FileName); aWedgeWriter.Write(); // delete the file[] File.Delete("FileName"); } aWedgeCenters = new vtkCellCenters(); aWedgeCenters.SetInputConnection(aWedgederivs.GetOutputPort()); aWedgeCenters.VertexCellsOn(); aWedgehog = new vtkHedgeHog(); aWedgehog.SetInputConnection(aWedgeCenters.GetOutputPort()); aWedgemapHog = vtkPolyDataMapper.New(); aWedgemapHog.SetInputConnection(aWedgehog.GetOutputPort()); aWedgemapHog.SetScalarModeToUseCellData(); aWedgemapHog.ScalarVisibilityOff(); aWedgehogActor = new vtkActor(); aWedgehogActor.SetMapper(aWedgemapHog); aWedgehogActor.GetProperty().SetColor(0,1,0); aWedgeGlyph3D = new vtkGlyph3D(); aWedgeGlyph3D.SetInputConnection(aWedgeCenters.GetOutputPort()); aWedgeGlyph3D.SetSource(ball.GetOutput()); aWedgeCentersMapper = vtkPolyDataMapper.New(); aWedgeCentersMapper.SetInputConnection(aWedgeGlyph3D.GetOutputPort()); aWedgeCentersActor = new vtkActor(); aWedgeCentersActor.SetMapper(aWedgeCentersMapper); aWedgehogActor.SetPosition(aWedgeActor.GetPosition()[0],aWedgeActor.GetPosition()[1],aWedgeActor.GetPosition()[2]); ren1.AddActor((vtkProp)aWedgehogActor); aWedgehogActor.GetProperty().SetRepresentationToWireframe(); aPyramidderivs = new vtkCellDerivatives(); aPyramidderivs.SetInput(aPyramidGrid); aPyramidderivs.SetVectorModeToComputeGradient(); FileName = dir; FileName += "/aPyramid"; FileName += ".vtk"; // make sure the directory is writeable first[] tryWorked = false; try { channel = new StreamWriter("" + (dir.ToString()) + "/test.tmp"); tryWorked = true; } catch(Exception) { tryWorked = false; } if(tryWorked) { channel.Close(); File.Delete("" + (dir.ToString()) + "/test.tmp"); aPyramidWriter = new vtkUnstructuredGridWriter(); aPyramidWriter.SetInputConnection(aPyramidderivs.GetOutputPort()); aPyramidWriter.SetFileName(FileName); aPyramidWriter.Write(); // delete the file[] File.Delete("FileName"); } aPyramidCenters = new vtkCellCenters(); aPyramidCenters.SetInputConnection(aPyramidderivs.GetOutputPort()); aPyramidCenters.VertexCellsOn(); aPyramidhog = new vtkHedgeHog(); aPyramidhog.SetInputConnection(aPyramidCenters.GetOutputPort()); aPyramidmapHog = vtkPolyDataMapper.New(); aPyramidmapHog.SetInputConnection(aPyramidhog.GetOutputPort()); aPyramidmapHog.SetScalarModeToUseCellData(); aPyramidmapHog.ScalarVisibilityOff(); aPyramidhogActor = new vtkActor(); aPyramidhogActor.SetMapper(aPyramidmapHog); aPyramidhogActor.GetProperty().SetColor(0,1,0); aPyramidGlyph3D = new vtkGlyph3D(); aPyramidGlyph3D.SetInputConnection(aPyramidCenters.GetOutputPort()); aPyramidGlyph3D.SetSource(ball.GetOutput()); aPyramidCentersMapper = vtkPolyDataMapper.New(); aPyramidCentersMapper.SetInputConnection(aPyramidGlyph3D.GetOutputPort()); aPyramidCentersActor = new vtkActor(); aPyramidCentersActor.SetMapper(aPyramidCentersMapper); aPyramidhogActor.SetPosition(aPyramidActor.GetPosition()[0],aPyramidActor.GetPosition()[1],aPyramidActor.GetPosition()[2]); ren1.AddActor((vtkProp)aPyramidhogActor); aPyramidhogActor.GetProperty().SetRepresentationToWireframe(); aTetraderivs = new vtkCellDerivatives(); aTetraderivs.SetInput(aTetraGrid); aTetraderivs.SetVectorModeToComputeGradient(); FileName = dir; FileName += "/aTetra"; FileName += ".vtk"; // make sure the directory is writeable first[] tryWorked = false; try { channel = new StreamWriter("" + (dir.ToString()) + "/test.tmp"); tryWorked = true; } catch(Exception) { tryWorked = false; } if(tryWorked) { channel.Close(); File.Delete("" + (dir.ToString()) + "/test.tmp"); aTetraWriter = new vtkUnstructuredGridWriter(); aTetraWriter.SetInputConnection(aTetraderivs.GetOutputPort()); aTetraWriter.SetFileName(FileName); aTetraWriter.Write(); // delete the file[] File.Delete("FileName"); } aTetraCenters = new vtkCellCenters(); aTetraCenters.SetInputConnection(aTetraderivs.GetOutputPort()); aTetraCenters.VertexCellsOn(); aTetrahog = new vtkHedgeHog(); aTetrahog.SetInputConnection(aTetraCenters.GetOutputPort()); aTetramapHog = vtkPolyDataMapper.New(); aTetramapHog.SetInputConnection(aTetrahog.GetOutputPort()); aTetramapHog.SetScalarModeToUseCellData(); aTetramapHog.ScalarVisibilityOff(); aTetrahogActor = new vtkActor(); aTetrahogActor.SetMapper(aTetramapHog); aTetrahogActor.GetProperty().SetColor(0,1,0); aTetraGlyph3D = new vtkGlyph3D(); aTetraGlyph3D.SetInputConnection(aTetraCenters.GetOutputPort()); aTetraGlyph3D.SetSource(ball.GetOutput()); aTetraCentersMapper = vtkPolyDataMapper.New(); aTetraCentersMapper.SetInputConnection(aTetraGlyph3D.GetOutputPort()); aTetraCentersActor = new vtkActor(); aTetraCentersActor.SetMapper(aTetraCentersMapper); aTetrahogActor.SetPosition(aTetraActor.GetPosition()[0],aTetraActor.GetPosition()[1],aTetraActor.GetPosition()[2]); ren1.AddActor((vtkProp)aTetrahogActor); aTetrahogActor.GetProperty().SetRepresentationToWireframe(); aQuadderivs = new vtkCellDerivatives(); aQuadderivs.SetInput(aQuadGrid); aQuadderivs.SetVectorModeToComputeGradient(); FileName = dir; FileName += "/aQuad"; FileName += ".vtk"; // make sure the directory is writeable first[] tryWorked = false; try { channel = new StreamWriter("" + (dir.ToString()) + "/test.tmp"); tryWorked = true; } catch(Exception) { tryWorked = false; } if(tryWorked) { channel.Close(); File.Delete("" + (dir.ToString()) + "/test.tmp"); aQuadWriter = new vtkUnstructuredGridWriter(); aQuadWriter.SetInputConnection(aQuadderivs.GetOutputPort()); aQuadWriter.SetFileName(FileName); aQuadWriter.Write(); // delete the file[] File.Delete("FileName"); } aQuadCenters = new vtkCellCenters(); aQuadCenters.SetInputConnection(aQuadderivs.GetOutputPort()); aQuadCenters.VertexCellsOn(); aQuadhog = new vtkHedgeHog(); aQuadhog.SetInputConnection(aQuadCenters.GetOutputPort()); aQuadmapHog = vtkPolyDataMapper.New(); aQuadmapHog.SetInputConnection(aQuadhog.GetOutputPort()); aQuadmapHog.SetScalarModeToUseCellData(); aQuadmapHog.ScalarVisibilityOff(); aQuadhogActor = new vtkActor(); aQuadhogActor.SetMapper(aQuadmapHog); aQuadhogActor.GetProperty().SetColor(0,1,0); aQuadGlyph3D = new vtkGlyph3D(); aQuadGlyph3D.SetInputConnection(aQuadCenters.GetOutputPort()); aQuadGlyph3D.SetSource(ball.GetOutput()); aQuadCentersMapper = vtkPolyDataMapper.New(); aQuadCentersMapper.SetInputConnection(aQuadGlyph3D.GetOutputPort()); aQuadCentersActor = new vtkActor(); aQuadCentersActor.SetMapper(aQuadCentersMapper); aQuadhogActor.SetPosition(aQuadActor.GetPosition()[0],aQuadActor.GetPosition()[1],aQuadActor.GetPosition()[2]); ren1.AddActor((vtkProp)aQuadhogActor); aQuadhogActor.GetProperty().SetRepresentationToWireframe(); aTrianglederivs = new vtkCellDerivatives(); aTrianglederivs.SetInput(aTriangleGrid); aTrianglederivs.SetVectorModeToComputeGradient(); FileName = dir; FileName += "/aTriangle"; FileName += ".vtk"; // make sure the directory is writeable first[] tryWorked = false; try { channel = new StreamWriter("" + (dir.ToString()) + "/test.tmp"); tryWorked = true; } catch(Exception) { tryWorked = false; } if(tryWorked) { channel.Close(); File.Delete("" + (dir.ToString()) + "/test.tmp"); aTriangleWriter = new vtkUnstructuredGridWriter(); aTriangleWriter.SetInputConnection(aTrianglederivs.GetOutputPort()); aTriangleWriter.SetFileName(FileName); aTriangleWriter.Write(); // delete the file[] File.Delete("FileName"); } aTriangleCenters = new vtkCellCenters(); aTriangleCenters.SetInputConnection(aTrianglederivs.GetOutputPort()); aTriangleCenters.VertexCellsOn(); aTrianglehog = new vtkHedgeHog(); aTrianglehog.SetInputConnection(aTriangleCenters.GetOutputPort()); aTrianglemapHog = vtkPolyDataMapper.New(); aTrianglemapHog.SetInputConnection(aTrianglehog.GetOutputPort()); aTrianglemapHog.SetScalarModeToUseCellData(); aTrianglemapHog.ScalarVisibilityOff(); aTrianglehogActor = new vtkActor(); aTrianglehogActor.SetMapper(aTrianglemapHog); aTrianglehogActor.GetProperty().SetColor(0,1,0); aTriangleGlyph3D = new vtkGlyph3D(); aTriangleGlyph3D.SetInputConnection(aTriangleCenters.GetOutputPort()); aTriangleGlyph3D.SetSource(ball.GetOutput()); aTriangleCentersMapper = vtkPolyDataMapper.New(); aTriangleCentersMapper.SetInputConnection(aTriangleGlyph3D.GetOutputPort()); aTriangleCentersActor = new vtkActor(); aTriangleCentersActor.SetMapper(aTriangleCentersMapper); aTrianglehogActor.SetPosition(aTriangleActor.GetPosition()[0],aTriangleActor.GetPosition()[1],aTriangleActor.GetPosition()[2]); ren1.AddActor((vtkProp)aTrianglehogActor); aTrianglehogActor.GetProperty().SetRepresentationToWireframe(); aTriangleStripderivs = new vtkCellDerivatives(); aTriangleStripderivs.SetInput(aTriangleStripGrid); aTriangleStripderivs.SetVectorModeToComputeGradient(); FileName = dir; FileName += "/aTriangleStrip"; FileName += ".vtk"; // make sure the directory is writeable first[] tryWorked = false; try { channel = new StreamWriter("" + (dir.ToString()) + "/test.tmp"); tryWorked = true; } catch(Exception) { tryWorked = false; } if(tryWorked) { channel.Close(); File.Delete("" + (dir.ToString()) + "/test.tmp"); aTriangleStripWriter = new vtkUnstructuredGridWriter(); aTriangleStripWriter.SetInputConnection(aTriangleStripderivs.GetOutputPort()); aTriangleStripWriter.SetFileName(FileName); aTriangleStripWriter.Write(); // delete the file[] File.Delete("FileName"); } aTriangleStripCenters = new vtkCellCenters(); aTriangleStripCenters.SetInputConnection(aTriangleStripderivs.GetOutputPort()); aTriangleStripCenters.VertexCellsOn(); aTriangleStriphog = new vtkHedgeHog(); aTriangleStriphog.SetInputConnection(aTriangleStripCenters.GetOutputPort()); aTriangleStripmapHog = vtkPolyDataMapper.New(); aTriangleStripmapHog.SetInputConnection(aTriangleStriphog.GetOutputPort()); aTriangleStripmapHog.SetScalarModeToUseCellData(); aTriangleStripmapHog.ScalarVisibilityOff(); aTriangleStriphogActor = new vtkActor(); aTriangleStriphogActor.SetMapper(aTriangleStripmapHog); aTriangleStriphogActor.GetProperty().SetColor(0,1,0); aTriangleStripGlyph3D = new vtkGlyph3D(); aTriangleStripGlyph3D.SetInputConnection(aTriangleStripCenters.GetOutputPort()); aTriangleStripGlyph3D.SetSource(ball.GetOutput()); aTriangleStripCentersMapper = vtkPolyDataMapper.New(); aTriangleStripCentersMapper.SetInputConnection(aTriangleStripGlyph3D.GetOutputPort()); aTriangleStripCentersActor = new vtkActor(); aTriangleStripCentersActor.SetMapper(aTriangleStripCentersMapper); aTriangleStriphogActor.SetPosition(aTriangleStripActor.GetPosition()[0],aTriangleStripActor.GetPosition()[1],aTriangleStripActor.GetPosition()[2]); ren1.AddActor((vtkProp)aTriangleStriphogActor); aTriangleStriphogActor.GetProperty().SetRepresentationToWireframe(); aLinederivs = new vtkCellDerivatives(); aLinederivs.SetInput(aLineGrid); aLinederivs.SetVectorModeToComputeGradient(); FileName = dir; FileName += "/aLine"; FileName += ".vtk"; // make sure the directory is writeable first[] tryWorked = false; try { channel = new StreamWriter("" + (dir.ToString()) + "/test.tmp"); tryWorked = true; } catch(Exception) { tryWorked = false; } if(tryWorked) { channel.Close(); File.Delete("" + (dir.ToString()) + "/test.tmp"); aLineWriter = new vtkUnstructuredGridWriter(); aLineWriter.SetInputConnection(aLinederivs.GetOutputPort()); aLineWriter.SetFileName(FileName); aLineWriter.Write(); // delete the file[] File.Delete("FileName"); } aLineCenters = new vtkCellCenters(); aLineCenters.SetInputConnection(aLinederivs.GetOutputPort()); aLineCenters.VertexCellsOn(); aLinehog = new vtkHedgeHog(); aLinehog.SetInputConnection(aLineCenters.GetOutputPort()); aLinemapHog = vtkPolyDataMapper.New(); aLinemapHog.SetInputConnection(aLinehog.GetOutputPort()); aLinemapHog.SetScalarModeToUseCellData(); aLinemapHog.ScalarVisibilityOff(); aLinehogActor = new vtkActor(); aLinehogActor.SetMapper(aLinemapHog); aLinehogActor.GetProperty().SetColor(0,1,0); aLineGlyph3D = new vtkGlyph3D(); aLineGlyph3D.SetInputConnection(aLineCenters.GetOutputPort()); aLineGlyph3D.SetSource(ball.GetOutput()); aLineCentersMapper = vtkPolyDataMapper.New(); aLineCentersMapper.SetInputConnection(aLineGlyph3D.GetOutputPort()); aLineCentersActor = new vtkActor(); aLineCentersActor.SetMapper(aLineCentersMapper); aLinehogActor.SetPosition(aLineActor.GetPosition()[0],aLineActor.GetPosition()[1],aLineActor.GetPosition()[2]); ren1.AddActor((vtkProp)aLinehogActor); aLinehogActor.GetProperty().SetRepresentationToWireframe(); aPolyLinederivs = new vtkCellDerivatives(); aPolyLinederivs.SetInput(aPolyLineGrid); aPolyLinederivs.SetVectorModeToComputeGradient(); FileName = dir; FileName += "/aPolyLine"; FileName += ".vtk"; // make sure the directory is writeable first[] tryWorked = false; try { channel = new StreamWriter("" + (dir.ToString()) + "/test.tmp"); tryWorked = true; } catch(Exception) { tryWorked = false; } if(tryWorked) { channel.Close(); File.Delete("" + (dir.ToString()) + "/test.tmp"); aPolyLineWriter = new vtkUnstructuredGridWriter(); aPolyLineWriter.SetInputConnection(aPolyLinederivs.GetOutputPort()); aPolyLineWriter.SetFileName(FileName); aPolyLineWriter.Write(); // delete the file[] File.Delete("FileName"); } aPolyLineCenters = new vtkCellCenters(); aPolyLineCenters.SetInputConnection(aPolyLinederivs.GetOutputPort()); aPolyLineCenters.VertexCellsOn(); aPolyLinehog = new vtkHedgeHog(); aPolyLinehog.SetInputConnection(aPolyLineCenters.GetOutputPort()); aPolyLinemapHog = vtkPolyDataMapper.New(); aPolyLinemapHog.SetInputConnection(aPolyLinehog.GetOutputPort()); aPolyLinemapHog.SetScalarModeToUseCellData(); aPolyLinemapHog.ScalarVisibilityOff(); aPolyLinehogActor = new vtkActor(); aPolyLinehogActor.SetMapper(aPolyLinemapHog); aPolyLinehogActor.GetProperty().SetColor(0,1,0); aPolyLineGlyph3D = new vtkGlyph3D(); aPolyLineGlyph3D.SetInputConnection(aPolyLineCenters.GetOutputPort()); aPolyLineGlyph3D.SetSource(ball.GetOutput()); aPolyLineCentersMapper = vtkPolyDataMapper.New(); aPolyLineCentersMapper.SetInputConnection(aPolyLineGlyph3D.GetOutputPort()); aPolyLineCentersActor = new vtkActor(); aPolyLineCentersActor.SetMapper(aPolyLineCentersMapper); aPolyLinehogActor.SetPosition(aPolyLineActor.GetPosition()[0],aPolyLineActor.GetPosition()[1],aPolyLineActor.GetPosition()[2]); ren1.AddActor((vtkProp)aPolyLinehogActor); aPolyLinehogActor.GetProperty().SetRepresentationToWireframe(); aVertexderivs = new vtkCellDerivatives(); aVertexderivs.SetInput(aVertexGrid); aVertexderivs.SetVectorModeToComputeGradient(); FileName = dir; FileName += "/aVertex"; FileName += ".vtk"; // make sure the directory is writeable first[] tryWorked = false; try { channel = new StreamWriter("" + (dir.ToString()) + "/test.tmp"); tryWorked = true; } catch(Exception) { tryWorked = false; } if(tryWorked) { channel.Close(); File.Delete("" + (dir.ToString()) + "/test.tmp"); aVertexWriter = new vtkUnstructuredGridWriter(); aVertexWriter.SetInputConnection(aVertexderivs.GetOutputPort()); aVertexWriter.SetFileName(FileName); aVertexWriter.Write(); // delete the file[] File.Delete("FileName"); } aVertexCenters = new vtkCellCenters(); aVertexCenters.SetInputConnection(aVertexderivs.GetOutputPort()); aVertexCenters.VertexCellsOn(); aVertexhog = new vtkHedgeHog(); aVertexhog.SetInputConnection(aVertexCenters.GetOutputPort()); aVertexmapHog = vtkPolyDataMapper.New(); aVertexmapHog.SetInputConnection(aVertexhog.GetOutputPort()); aVertexmapHog.SetScalarModeToUseCellData(); aVertexmapHog.ScalarVisibilityOff(); aVertexhogActor = new vtkActor(); aVertexhogActor.SetMapper(aVertexmapHog); aVertexhogActor.GetProperty().SetColor(0,1,0); aVertexGlyph3D = new vtkGlyph3D(); aVertexGlyph3D.SetInputConnection(aVertexCenters.GetOutputPort()); aVertexGlyph3D.SetSource(ball.GetOutput()); aVertexCentersMapper = vtkPolyDataMapper.New(); aVertexCentersMapper.SetInputConnection(aVertexGlyph3D.GetOutputPort()); aVertexCentersActor = new vtkActor(); aVertexCentersActor.SetMapper(aVertexCentersMapper); aVertexhogActor.SetPosition(aVertexActor.GetPosition()[0],aVertexActor.GetPosition()[1],aVertexActor.GetPosition()[2]); ren1.AddActor((vtkProp)aVertexhogActor); aVertexhogActor.GetProperty().SetRepresentationToWireframe(); aPolyVertexderivs = new vtkCellDerivatives(); aPolyVertexderivs.SetInput(aPolyVertexGrid); aPolyVertexderivs.SetVectorModeToComputeGradient(); FileName = dir; FileName += "/aPolyVertex"; FileName += ".vtk"; // make sure the directory is writeable first[] tryWorked = false; try { channel = new StreamWriter("" + (dir.ToString()) + "/test.tmp"); tryWorked = true; } catch(Exception) { tryWorked = false; } if(tryWorked) { channel.Close(); File.Delete("" + (dir.ToString()) + "/test.tmp"); aPolyVertexWriter = new vtkUnstructuredGridWriter(); aPolyVertexWriter.SetInputConnection(aPolyVertexderivs.GetOutputPort()); aPolyVertexWriter.SetFileName(FileName); aPolyVertexWriter.Write(); // delete the file[] File.Delete("FileName"); } aPolyVertexCenters = new vtkCellCenters(); aPolyVertexCenters.SetInputConnection(aPolyVertexderivs.GetOutputPort()); aPolyVertexCenters.VertexCellsOn(); aPolyVertexhog = new vtkHedgeHog(); aPolyVertexhog.SetInputConnection(aPolyVertexCenters.GetOutputPort()); aPolyVertexmapHog = vtkPolyDataMapper.New(); aPolyVertexmapHog.SetInputConnection(aPolyVertexhog.GetOutputPort()); aPolyVertexmapHog.SetScalarModeToUseCellData(); aPolyVertexmapHog.ScalarVisibilityOff(); aPolyVertexhogActor = new vtkActor(); aPolyVertexhogActor.SetMapper(aPolyVertexmapHog); aPolyVertexhogActor.GetProperty().SetColor(0,1,0); aPolyVertexGlyph3D = new vtkGlyph3D(); aPolyVertexGlyph3D.SetInputConnection(aPolyVertexCenters.GetOutputPort()); aPolyVertexGlyph3D.SetSource(ball.GetOutput()); aPolyVertexCentersMapper = vtkPolyDataMapper.New(); aPolyVertexCentersMapper.SetInputConnection(aPolyVertexGlyph3D.GetOutputPort()); aPolyVertexCentersActor = new vtkActor(); aPolyVertexCentersActor.SetMapper(aPolyVertexCentersMapper); aPolyVertexhogActor.SetPosition(aPolyVertexActor.GetPosition()[0],aPolyVertexActor.GetPosition()[1],aPolyVertexActor.GetPosition()[2]); ren1.AddActor((vtkProp)aPolyVertexhogActor); aPolyVertexhogActor.GetProperty().SetRepresentationToWireframe(); aPixelderivs = new vtkCellDerivatives(); aPixelderivs.SetInput(aPixelGrid); aPixelderivs.SetVectorModeToComputeGradient(); FileName = dir; FileName += "/aPixel"; FileName += ".vtk"; // make sure the directory is writeable first[] tryWorked = false; try { channel = new StreamWriter("" + (dir.ToString()) + "/test.tmp"); tryWorked = true; } catch(Exception) { tryWorked = false; } if(tryWorked) { channel.Close(); File.Delete("" + (dir.ToString()) + "/test.tmp"); aPixelWriter = new vtkUnstructuredGridWriter(); aPixelWriter.SetInputConnection(aPixelderivs.GetOutputPort()); aPixelWriter.SetFileName(FileName); aPixelWriter.Write(); // delete the file[] File.Delete("FileName"); } aPixelCenters = new vtkCellCenters(); aPixelCenters.SetInputConnection(aPixelderivs.GetOutputPort()); aPixelCenters.VertexCellsOn(); aPixelhog = new vtkHedgeHog(); aPixelhog.SetInputConnection(aPixelCenters.GetOutputPort()); aPixelmapHog = vtkPolyDataMapper.New(); aPixelmapHog.SetInputConnection(aPixelhog.GetOutputPort()); aPixelmapHog.SetScalarModeToUseCellData(); aPixelmapHog.ScalarVisibilityOff(); aPixelhogActor = new vtkActor(); aPixelhogActor.SetMapper(aPixelmapHog); aPixelhogActor.GetProperty().SetColor(0,1,0); aPixelGlyph3D = new vtkGlyph3D(); aPixelGlyph3D.SetInputConnection(aPixelCenters.GetOutputPort()); aPixelGlyph3D.SetSource(ball.GetOutput()); aPixelCentersMapper = vtkPolyDataMapper.New(); aPixelCentersMapper.SetInputConnection(aPixelGlyph3D.GetOutputPort()); aPixelCentersActor = new vtkActor(); aPixelCentersActor.SetMapper(aPixelCentersMapper); aPixelhogActor.SetPosition(aPixelActor.GetPosition()[0],aPixelActor.GetPosition()[1],aPixelActor.GetPosition()[2]); ren1.AddActor((vtkProp)aPixelhogActor); aPixelhogActor.GetProperty().SetRepresentationToWireframe(); aPolygonderivs = new vtkCellDerivatives(); aPolygonderivs.SetInput(aPolygonGrid); aPolygonderivs.SetVectorModeToComputeGradient(); FileName = dir; FileName += "/aPolygon"; FileName += ".vtk"; // make sure the directory is writeable first[] tryWorked = false; try { channel = new StreamWriter("" + (dir.ToString()) + "/test.tmp"); tryWorked = true; } catch(Exception) { tryWorked = false; } if(tryWorked) { channel.Close(); File.Delete("" + (dir.ToString()) + "/test.tmp"); aPolygonWriter = new vtkUnstructuredGridWriter(); aPolygonWriter.SetInputConnection(aPolygonderivs.GetOutputPort()); aPolygonWriter.SetFileName(FileName); aPolygonWriter.Write(); // delete the file[] File.Delete("FileName"); } aPolygonCenters = new vtkCellCenters(); aPolygonCenters.SetInputConnection(aPolygonderivs.GetOutputPort()); aPolygonCenters.VertexCellsOn(); aPolygonhog = new vtkHedgeHog(); aPolygonhog.SetInputConnection(aPolygonCenters.GetOutputPort()); aPolygonmapHog = vtkPolyDataMapper.New(); aPolygonmapHog.SetInputConnection(aPolygonhog.GetOutputPort()); aPolygonmapHog.SetScalarModeToUseCellData(); aPolygonmapHog.ScalarVisibilityOff(); aPolygonhogActor = new vtkActor(); aPolygonhogActor.SetMapper(aPolygonmapHog); aPolygonhogActor.GetProperty().SetColor(0,1,0); aPolygonGlyph3D = new vtkGlyph3D(); aPolygonGlyph3D.SetInputConnection(aPolygonCenters.GetOutputPort()); aPolygonGlyph3D.SetSource(ball.GetOutput()); aPolygonCentersMapper = vtkPolyDataMapper.New(); aPolygonCentersMapper.SetInputConnection(aPolygonGlyph3D.GetOutputPort()); aPolygonCentersActor = new vtkActor(); aPolygonCentersActor.SetMapper(aPolygonCentersMapper); aPolygonhogActor.SetPosition(aPolygonActor.GetPosition()[0],aPolygonActor.GetPosition()[1],aPolygonActor.GetPosition()[2]); ren1.AddActor((vtkProp)aPolygonhogActor); aPolygonhogActor.GetProperty().SetRepresentationToWireframe(); aPentaderivs = new vtkCellDerivatives(); aPentaderivs.SetInput(aPentaGrid); aPentaderivs.SetVectorModeToComputeGradient(); FileName = dir; FileName += "/aPenta"; FileName += ".vtk"; // make sure the directory is writeable first[] tryWorked = false; try { channel = new StreamWriter("" + (dir.ToString()) + "/test.tmp"); tryWorked = true; } catch(Exception) { tryWorked = false; } if(tryWorked) { channel.Close(); File.Delete("" + (dir.ToString()) + "/test.tmp"); aPentaWriter = new vtkUnstructuredGridWriter(); aPentaWriter.SetInputConnection(aPentaderivs.GetOutputPort()); aPentaWriter.SetFileName(FileName); aPentaWriter.Write(); // delete the file[] File.Delete("FileName"); } aPentaCenters = new vtkCellCenters(); aPentaCenters.SetInputConnection(aPentaderivs.GetOutputPort()); aPentaCenters.VertexCellsOn(); aPentahog = new vtkHedgeHog(); aPentahog.SetInputConnection(aPentaCenters.GetOutputPort()); aPentamapHog = vtkPolyDataMapper.New(); aPentamapHog.SetInputConnection(aPentahog.GetOutputPort()); aPentamapHog.SetScalarModeToUseCellData(); aPentamapHog.ScalarVisibilityOff(); aPentahogActor = new vtkActor(); aPentahogActor.SetMapper(aPentamapHog); aPentahogActor.GetProperty().SetColor(0,1,0); aPentaGlyph3D = new vtkGlyph3D(); aPentaGlyph3D.SetInputConnection(aPentaCenters.GetOutputPort()); aPentaGlyph3D.SetSource(ball.GetOutput()); aPentaCentersMapper = vtkPolyDataMapper.New(); aPentaCentersMapper.SetInputConnection(aPentaGlyph3D.GetOutputPort()); aPentaCentersActor = new vtkActor(); aPentaCentersActor.SetMapper(aPentaCentersMapper); aPentahogActor.SetPosition(aPentaActor.GetPosition()[0],aPentaActor.GetPosition()[1],aPentaActor.GetPosition()[2]); ren1.AddActor((vtkProp)aPentahogActor); aPentahogActor.GetProperty().SetRepresentationToWireframe(); aHexaderivs = new vtkCellDerivatives(); aHexaderivs.SetInput(aHexaGrid); aHexaderivs.SetVectorModeToComputeGradient(); FileName = dir; FileName += "/aHexa"; FileName += ".vtk"; // make sure the directory is writeable first[] tryWorked = false; try { channel = new StreamWriter("" + (dir.ToString()) + "/test.tmp"); tryWorked = true; } catch(Exception) { tryWorked = false; } if(tryWorked) { channel.Close(); File.Delete("" + (dir.ToString()) + "/test.tmp"); aHexaWriter = new vtkUnstructuredGridWriter(); aHexaWriter.SetInputConnection(aHexaderivs.GetOutputPort()); aHexaWriter.SetFileName(FileName); aHexaWriter.Write(); // delete the file[] File.Delete("FileName"); } aHexaCenters = new vtkCellCenters(); aHexaCenters.SetInputConnection(aHexaderivs.GetOutputPort()); aHexaCenters.VertexCellsOn(); aHexahog = new vtkHedgeHog(); aHexahog.SetInputConnection(aHexaCenters.GetOutputPort()); aHexamapHog = vtkPolyDataMapper.New(); aHexamapHog.SetInputConnection(aHexahog.GetOutputPort()); aHexamapHog.SetScalarModeToUseCellData(); aHexamapHog.ScalarVisibilityOff(); aHexahogActor = new vtkActor(); aHexahogActor.SetMapper(aHexamapHog); aHexahogActor.GetProperty().SetColor(0,1,0); aHexaGlyph3D = new vtkGlyph3D(); aHexaGlyph3D.SetInputConnection(aHexaCenters.GetOutputPort()); aHexaGlyph3D.SetSource(ball.GetOutput()); aHexaCentersMapper = vtkPolyDataMapper.New(); aHexaCentersMapper.SetInputConnection(aHexaGlyph3D.GetOutputPort()); aHexaCentersActor = new vtkActor(); aHexaCentersActor.SetMapper(aHexaCentersMapper); aHexahogActor.SetPosition(aHexaActor.GetPosition()[0],aHexaActor.GetPosition()[1],aHexaActor.GetPosition()[2]); ren1.AddActor((vtkProp)aHexahogActor); aHexahogActor.GetProperty().SetRepresentationToWireframe(); ren1.ResetCamera(); ren1.GetActiveCamera().Azimuth((double)30); ren1.GetActiveCamera().Elevation((double)20); ren1.GetActiveCamera().Dolly((double)3.0); ren1.ResetCameraClippingRange(); renWin.SetSize((int)300,(int)150); renWin.Render(); // render the image[] //[] iren.Initialize(); //deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVofficeStreamPoints(String [] argv) { //Prefix Content is: "" ren1 = vtkRenderer.New(); renWin = vtkRenderWindow.New(); renWin.AddRenderer((vtkRenderer)ren1); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); // read data[] //[] reader = new vtkStructuredGridReader(); reader.SetFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/office.binary.vtk"); reader.Update(); //force a read to occur[] // to add coverage for vtkOnePieceExtentTranslator[] translator = new vtkOnePieceExtentTranslator(); vtkStreamingDemandDrivenPipeline.SetExtentTranslator(reader.GetOutputInformation(0), (vtkExtentTranslator)translator); length = reader.GetOutput().GetLength(); maxVelocity = reader.GetOutput().GetPointData().GetVectors().GetMaxNorm(); maxTime = 35.0*length/maxVelocity; table1 = new vtkStructuredGridGeometryFilter(); table1.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); table1.SetExtent((int)11,(int)15,(int)7,(int)9,(int)8,(int)8); mapTable1 = vtkPolyDataMapper.New(); mapTable1.SetInputConnection((vtkAlgorithmOutput)table1.GetOutputPort()); mapTable1.ScalarVisibilityOff(); table1Actor = new vtkActor(); table1Actor.SetMapper((vtkMapper)mapTable1); table1Actor.GetProperty().SetColor((double).59,(double).427,(double).392); table2 = new vtkStructuredGridGeometryFilter(); table2.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); table2.SetExtent((int)11,(int)15,(int)10,(int)12,(int)8,(int)8); mapTable2 = vtkPolyDataMapper.New(); mapTable2.SetInputConnection((vtkAlgorithmOutput)table2.GetOutputPort()); mapTable2.ScalarVisibilityOff(); table2Actor = new vtkActor(); table2Actor.SetMapper((vtkMapper)mapTable2); table2Actor.GetProperty().SetColor((double).59,(double).427,(double).392); FilingCabinet1 = new vtkStructuredGridGeometryFilter(); FilingCabinet1.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); FilingCabinet1.SetExtent((int)15,(int)15,(int)7,(int)9,(int)0,(int)8); mapFilingCabinet1 = vtkPolyDataMapper.New(); mapFilingCabinet1.SetInputConnection((vtkAlgorithmOutput)FilingCabinet1.GetOutputPort()); mapFilingCabinet1.ScalarVisibilityOff(); FilingCabinet1Actor = new vtkActor(); FilingCabinet1Actor.SetMapper((vtkMapper)mapFilingCabinet1); FilingCabinet1Actor.GetProperty().SetColor((double).8,(double).8,(double).6); FilingCabinet2 = new vtkStructuredGridGeometryFilter(); FilingCabinet2.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); FilingCabinet2.SetExtent((int)15,(int)15,(int)10,(int)12,(int)0,(int)8); mapFilingCabinet2 = vtkPolyDataMapper.New(); mapFilingCabinet2.SetInputConnection((vtkAlgorithmOutput)FilingCabinet2.GetOutputPort()); mapFilingCabinet2.ScalarVisibilityOff(); FilingCabinet2Actor = new vtkActor(); FilingCabinet2Actor.SetMapper((vtkMapper)mapFilingCabinet2); FilingCabinet2Actor.GetProperty().SetColor((double).8,(double).8,(double).6); bookshelf1Top = new vtkStructuredGridGeometryFilter(); bookshelf1Top.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); bookshelf1Top.SetExtent((int)13,(int)13,(int)0,(int)4,(int)0,(int)11); mapBookshelf1Top = vtkPolyDataMapper.New(); mapBookshelf1Top.SetInputConnection((vtkAlgorithmOutput)bookshelf1Top.GetOutputPort()); mapBookshelf1Top.ScalarVisibilityOff(); bookshelf1TopActor = new vtkActor(); bookshelf1TopActor.SetMapper((vtkMapper)mapBookshelf1Top); bookshelf1TopActor.GetProperty().SetColor((double).8,(double).8,(double).6); bookshelf1Bottom = new vtkStructuredGridGeometryFilter(); bookshelf1Bottom.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); bookshelf1Bottom.SetExtent((int)20,(int)20,(int)0,(int)4,(int)0,(int)11); mapBookshelf1Bottom = vtkPolyDataMapper.New(); mapBookshelf1Bottom.SetInputConnection((vtkAlgorithmOutput)bookshelf1Bottom.GetOutputPort()); mapBookshelf1Bottom.ScalarVisibilityOff(); bookshelf1BottomActor = new vtkActor(); bookshelf1BottomActor.SetMapper((vtkMapper)mapBookshelf1Bottom); bookshelf1BottomActor.GetProperty().SetColor((double).8,(double).8,(double).6); bookshelf1Front = new vtkStructuredGridGeometryFilter(); bookshelf1Front.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); bookshelf1Front.SetExtent((int)13,(int)20,(int)0,(int)0,(int)0,(int)11); mapBookshelf1Front = vtkPolyDataMapper.New(); mapBookshelf1Front.SetInputConnection((vtkAlgorithmOutput)bookshelf1Front.GetOutputPort()); mapBookshelf1Front.ScalarVisibilityOff(); bookshelf1FrontActor = new vtkActor(); bookshelf1FrontActor.SetMapper((vtkMapper)mapBookshelf1Front); bookshelf1FrontActor.GetProperty().SetColor((double).8,(double).8,(double).6); bookshelf1Back = new vtkStructuredGridGeometryFilter(); bookshelf1Back.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); bookshelf1Back.SetExtent((int)13,(int)20,(int)4,(int)4,(int)0,(int)11); mapBookshelf1Back = vtkPolyDataMapper.New(); mapBookshelf1Back.SetInputConnection((vtkAlgorithmOutput)bookshelf1Back.GetOutputPort()); mapBookshelf1Back.ScalarVisibilityOff(); bookshelf1BackActor = new vtkActor(); bookshelf1BackActor.SetMapper((vtkMapper)mapBookshelf1Back); bookshelf1BackActor.GetProperty().SetColor((double).8,(double).8,(double).6); bookshelf1LHS = new vtkStructuredGridGeometryFilter(); bookshelf1LHS.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); bookshelf1LHS.SetExtent((int)13,(int)20,(int)0,(int)4,(int)0,(int)0); mapBookshelf1LHS = vtkPolyDataMapper.New(); mapBookshelf1LHS.SetInputConnection((vtkAlgorithmOutput)bookshelf1LHS.GetOutputPort()); mapBookshelf1LHS.ScalarVisibilityOff(); bookshelf1LHSActor = new vtkActor(); bookshelf1LHSActor.SetMapper((vtkMapper)mapBookshelf1LHS); bookshelf1LHSActor.GetProperty().SetColor((double).8,(double).8,(double).6); bookshelf1RHS = new vtkStructuredGridGeometryFilter(); bookshelf1RHS.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); bookshelf1RHS.SetExtent((int)13,(int)20,(int)0,(int)4,(int)11,(int)11); mapBookshelf1RHS = vtkPolyDataMapper.New(); mapBookshelf1RHS.SetInputConnection((vtkAlgorithmOutput)bookshelf1RHS.GetOutputPort()); mapBookshelf1RHS.ScalarVisibilityOff(); bookshelf1RHSActor = new vtkActor(); bookshelf1RHSActor.SetMapper((vtkMapper)mapBookshelf1RHS); bookshelf1RHSActor.GetProperty().SetColor((double).8,(double).8,(double).6); bookshelf2Top = new vtkStructuredGridGeometryFilter(); bookshelf2Top.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); bookshelf2Top.SetExtent((int)13,(int)13,(int)15,(int)19,(int)0,(int)11); mapBookshelf2Top = vtkPolyDataMapper.New(); mapBookshelf2Top.SetInputConnection((vtkAlgorithmOutput)bookshelf2Top.GetOutputPort()); mapBookshelf2Top.ScalarVisibilityOff(); bookshelf2TopActor = new vtkActor(); bookshelf2TopActor.SetMapper((vtkMapper)mapBookshelf2Top); bookshelf2TopActor.GetProperty().SetColor((double).8,(double).8,(double).6); bookshelf2Bottom = new vtkStructuredGridGeometryFilter(); bookshelf2Bottom.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); bookshelf2Bottom.SetExtent((int)20,(int)20,(int)15,(int)19,(int)0,(int)11); mapBookshelf2Bottom = vtkPolyDataMapper.New(); mapBookshelf2Bottom.SetInputConnection((vtkAlgorithmOutput)bookshelf2Bottom.GetOutputPort()); mapBookshelf2Bottom.ScalarVisibilityOff(); bookshelf2BottomActor = new vtkActor(); bookshelf2BottomActor.SetMapper((vtkMapper)mapBookshelf2Bottom); bookshelf2BottomActor.GetProperty().SetColor((double).8,(double).8,(double).6); bookshelf2Front = new vtkStructuredGridGeometryFilter(); bookshelf2Front.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); bookshelf2Front.SetExtent((int)13,(int)20,(int)15,(int)15,(int)0,(int)11); mapBookshelf2Front = vtkPolyDataMapper.New(); mapBookshelf2Front.SetInputConnection((vtkAlgorithmOutput)bookshelf2Front.GetOutputPort()); mapBookshelf2Front.ScalarVisibilityOff(); bookshelf2FrontActor = new vtkActor(); bookshelf2FrontActor.SetMapper((vtkMapper)mapBookshelf2Front); bookshelf2FrontActor.GetProperty().SetColor((double).8,(double).8,(double).6); bookshelf2Back = new vtkStructuredGridGeometryFilter(); bookshelf2Back.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); bookshelf2Back.SetExtent((int)13,(int)20,(int)19,(int)19,(int)0,(int)11); mapBookshelf2Back = vtkPolyDataMapper.New(); mapBookshelf2Back.SetInputConnection((vtkAlgorithmOutput)bookshelf2Back.GetOutputPort()); mapBookshelf2Back.ScalarVisibilityOff(); bookshelf2BackActor = new vtkActor(); bookshelf2BackActor.SetMapper((vtkMapper)mapBookshelf2Back); bookshelf2BackActor.GetProperty().SetColor((double).8,(double).8,(double).6); bookshelf2LHS = new vtkStructuredGridGeometryFilter(); bookshelf2LHS.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); bookshelf2LHS.SetExtent((int)13,(int)20,(int)15,(int)19,(int)0,(int)0); mapBookshelf2LHS = vtkPolyDataMapper.New(); mapBookshelf2LHS.SetInputConnection((vtkAlgorithmOutput)bookshelf2LHS.GetOutputPort()); mapBookshelf2LHS.ScalarVisibilityOff(); bookshelf2LHSActor = new vtkActor(); bookshelf2LHSActor.SetMapper((vtkMapper)mapBookshelf2LHS); bookshelf2LHSActor.GetProperty().SetColor((double).8,(double).8,(double).6); bookshelf2RHS = new vtkStructuredGridGeometryFilter(); bookshelf2RHS.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); bookshelf2RHS.SetExtent((int)13,(int)20,(int)15,(int)19,(int)11,(int)11); mapBookshelf2RHS = vtkPolyDataMapper.New(); mapBookshelf2RHS.SetInputConnection((vtkAlgorithmOutput)bookshelf2RHS.GetOutputPort()); mapBookshelf2RHS.ScalarVisibilityOff(); bookshelf2RHSActor = new vtkActor(); bookshelf2RHSActor.SetMapper((vtkMapper)mapBookshelf2RHS); bookshelf2RHSActor.GetProperty().SetColor((double).8,(double).8,(double).6); window = new vtkStructuredGridGeometryFilter(); window.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); window.SetExtent((int)20,(int)20,(int)6,(int)13,(int)10,(int)13); mapWindow = vtkPolyDataMapper.New(); mapWindow.SetInputConnection((vtkAlgorithmOutput)window.GetOutputPort()); mapWindow.ScalarVisibilityOff(); windowActor = new vtkActor(); windowActor.SetMapper((vtkMapper)mapWindow); windowActor.GetProperty().SetColor((double).3,(double).3,(double).5); outlet = new vtkStructuredGridGeometryFilter(); outlet.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); outlet.SetExtent((int)0,(int)0,(int)9,(int)10,(int)14,(int)16); mapOutlet = vtkPolyDataMapper.New(); mapOutlet.SetInputConnection((vtkAlgorithmOutput)outlet.GetOutputPort()); mapOutlet.ScalarVisibilityOff(); outletActor = new vtkActor(); outletActor.SetMapper((vtkMapper)mapOutlet); outletActor.GetProperty().SetColor((double)0,(double)0,(double)0); inlet = new vtkStructuredGridGeometryFilter(); inlet.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); inlet.SetExtent((int)0,(int)0,(int)9,(int)10,(int)0,(int)6); mapInlet = vtkPolyDataMapper.New(); mapInlet.SetInputConnection((vtkAlgorithmOutput)inlet.GetOutputPort()); mapInlet.ScalarVisibilityOff(); inletActor = new vtkActor(); inletActor.SetMapper((vtkMapper)mapInlet); inletActor.GetProperty().SetColor((double)0,(double)0,(double)0); outline = new vtkStructuredGridOutlineFilter(); outline.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); mapOutline = vtkPolyDataMapper.New(); mapOutline.SetInputConnection((vtkAlgorithmOutput)outline.GetOutputPort()); outlineActor = new vtkActor(); outlineActor.SetMapper((vtkMapper)mapOutline); outlineActor.GetProperty().SetColor((double)0,(double)0,(double)0); // Create source for streamtubes[] streamer = new vtkStreamPoints(); streamer.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); streamer.SetStartPosition((double)0.1,(double)2.1,(double)0.5); streamer.SetMaximumPropagationTime((double)500); streamer.SetTimeIncrement((double)0.5); streamer.SetIntegrationDirectionToForward(); cone = new vtkConeSource(); cone.SetResolution((int)8); cones = new vtkGlyph3D(); cones.SetInputConnection((vtkAlgorithmOutput)streamer.GetOutputPort()); cones.SetSourceConnection(cone.GetOutputPort()); cones.SetScaleFactor((double)0.5); cones.SetScaleModeToScaleByVector(); mapCones = vtkPolyDataMapper.New(); mapCones.SetInputConnection((vtkAlgorithmOutput)cones.GetOutputPort()); mapCones.SetScalarRange((double)((vtkDataSet)reader.GetOutput()).GetScalarRange()[0],(double)((vtkDataSet)reader.GetOutput()).GetScalarRange()[1]); conesActor = new vtkActor(); conesActor.SetMapper((vtkMapper)mapCones); ren1.AddActor((vtkProp)table1Actor); ren1.AddActor((vtkProp)table2Actor); ren1.AddActor((vtkProp)FilingCabinet1Actor); ren1.AddActor((vtkProp)FilingCabinet2Actor); ren1.AddActor((vtkProp)bookshelf1TopActor); ren1.AddActor((vtkProp)bookshelf1BottomActor); ren1.AddActor((vtkProp)bookshelf1FrontActor); ren1.AddActor((vtkProp)bookshelf1BackActor); ren1.AddActor((vtkProp)bookshelf1LHSActor); ren1.AddActor((vtkProp)bookshelf1RHSActor); ren1.AddActor((vtkProp)bookshelf2TopActor); ren1.AddActor((vtkProp)bookshelf2BottomActor); ren1.AddActor((vtkProp)bookshelf2FrontActor); ren1.AddActor((vtkProp)bookshelf2BackActor); ren1.AddActor((vtkProp)bookshelf2LHSActor); ren1.AddActor((vtkProp)bookshelf2RHSActor); ren1.AddActor((vtkProp)windowActor); ren1.AddActor((vtkProp)outletActor); ren1.AddActor((vtkProp)inletActor); ren1.AddActor((vtkProp)outlineActor); ren1.AddActor((vtkProp)conesActor); ren1.SetBackground((double)0.4,(double)0.4,(double)0.5); aCamera = new vtkCamera(); aCamera.SetClippingRange((double)0.7724,(double)39); aCamera.SetFocalPoint((double)1.14798,(double)3.08416,(double)2.47187); aCamera.SetPosition((double)-2.64683,(double)-3.55525,(double)3.55848); aCamera.SetViewUp((double)0.0511273,(double)0.132773,(double)0.989827); aCamera.SetViewAngle((double)15.5033); ren1.SetActiveCamera((vtkCamera)aCamera); renWin.SetSize((int)500,(int)300); iren.Initialize(); // interact with data[] //deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVstreamTracer(String [] argv) { //Prefix Content is: "" ren1 = vtkRenderer.New(); renWin = vtkRenderWindow.New(); // this test has some wireframe geometry // Make sure multisampling is disabled to avoid generating multiple // regression images // renWin SetMultiSamples 0 renWin.AddRenderer((vtkRenderer)ren1); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); // read data[] //[] reader = new vtkStructuredGridReader(); reader.SetFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/office.binary.vtk"); reader.Update(); //force a read to occur[] outline = new vtkStructuredGridOutlineFilter(); outline.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); mapOutline = vtkPolyDataMapper.New(); mapOutline.SetInputConnection((vtkAlgorithmOutput)outline.GetOutputPort()); outlineActor = new vtkActor(); outlineActor.SetMapper((vtkMapper)mapOutline); outlineActor.GetProperty().SetColor((double)0,(double)0,(double)0); rk = new vtkRungeKutta45(); // Create source for streamtubes[] streamer = new vtkStreamTracer(); streamer.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); streamer.SetStartPosition((double)0.1,(double)2.1,(double)0.5); streamer.SetMaximumPropagation((double)500); streamer.SetIntegrationStepUnit(2); streamer.SetMinimumIntegrationStep((double)0.1); streamer.SetMaximumIntegrationStep((double)1.0); streamer.SetInitialIntegrationStep((double)0.2); streamer.SetIntegrationDirection((int)0); streamer.SetIntegrator((vtkInitialValueProblemSolver)rk); streamer.SetRotationScale((double)0.5); streamer.SetMaximumError((double)1.0e-8); aa = new vtkAssignAttribute(); aa.SetInputConnection((vtkAlgorithmOutput)streamer.GetOutputPort()); aa.Assign((string)"Normals",(string)"NORMALS",(string)"POINT_DATA"); rf1 = new vtkRibbonFilter(); rf1.SetInputConnection((vtkAlgorithmOutput)aa.GetOutputPort()); rf1.SetWidth((double)0.1); rf1.VaryWidthOff(); mapStream = vtkPolyDataMapper.New(); mapStream.SetInputConnection((vtkAlgorithmOutput)rf1.GetOutputPort()); mapStream.SetScalarRange((double)((vtkDataSet)reader.GetOutput()).GetScalarRange()[0],(double)((vtkDataSet)reader.GetOutput()).GetScalarRange()[1]); streamActor = new vtkActor(); streamActor.SetMapper((vtkMapper)mapStream); ren1.AddActor((vtkProp)outlineActor); ren1.AddActor((vtkProp)streamActor); ren1.SetBackground((double)0.4,(double)0.4,(double)0.5); cam = ren1.GetActiveCamera(); cam.SetPosition((double)-2.35599,(double)-3.35001,(double)4.59236); cam.SetFocalPoint((double)2.255,(double)2.255,(double)1.28413); cam.SetViewUp((double)0.311311,(double)0.279912,(double)0.908149); cam.SetClippingRange((double)1.12294,(double)16.6226); renWin.SetSize((int)300,(int)200); iren.Initialize(); // interact with data[] //deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVtextureThreshold(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); // read data[] //[] pl3d = new vtkMultiBlockPLOT3DReader(); pl3d.SetXYZFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/bluntfinxyz.bin"); pl3d.SetQFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/bluntfinq.bin"); pl3d.SetScalarFunctionNumber((int)100); pl3d.SetVectorFunctionNumber((int)202); pl3d.Update(); // wall[] //[] wall = new vtkStructuredGridGeometryFilter(); wall.SetInputData(pl3d.GetOutput().GetBlock(0)); wall.SetExtent((int)0,(int)100,(int)0,(int)0,(int)0,(int)100); wallMap = vtkPolyDataMapper.New(); wallMap.SetInputConnection((vtkAlgorithmOutput)wall.GetOutputPort()); wallMap.ScalarVisibilityOff(); wallActor = new vtkActor(); wallActor.SetMapper((vtkMapper)wallMap); wallActor.GetProperty().SetColor((double)0.8,(double)0.8,(double)0.8); // fin[] // [] fin = new vtkStructuredGridGeometryFilter(); fin.SetInputData(pl3d.GetOutput().GetBlock(0)); fin.SetExtent((int)0,(int)100,(int)0,(int)100,(int)0,(int)0); finMap = vtkPolyDataMapper.New(); finMap.SetInputConnection((vtkAlgorithmOutput)fin.GetOutputPort()); finMap.ScalarVisibilityOff(); finActor = new vtkActor(); finActor.SetMapper((vtkMapper)finMap); finActor.GetProperty().SetColor((double)0.8,(double)0.8,(double)0.8); // planes to threshold[] tmap = new vtkStructuredPointsReader(); tmap.SetFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/texThres2.vtk"); texture = new vtkTexture(); texture.SetInputConnection((vtkAlgorithmOutput)tmap.GetOutputPort()); texture.InterpolateOff(); texture.RepeatOff(); plane1 = new vtkStructuredGridGeometryFilter(); plane1.SetInputData(pl3d.GetOutput().GetBlock(0)); plane1.SetExtent((int)10,(int)10,(int)0,(int)100,(int)0,(int)100); thresh1 = new vtkThresholdTextureCoords(); thresh1.SetInputConnection((vtkAlgorithmOutput)plane1.GetOutputPort()); thresh1.ThresholdByUpper((double)1.5); plane1Map = new vtkDataSetMapper(); plane1Map.SetInputConnection((vtkAlgorithmOutput)thresh1.GetOutputPort()); plane1Map.SetScalarRange((double)((vtkDataSet)pl3d.GetOutput().GetBlock(0)).GetScalarRange()[0], (double)((vtkDataSet)pl3d.GetOutput().GetBlock(0)).GetScalarRange()[1]); plane1Actor = new vtkActor(); plane1Actor.SetMapper((vtkMapper)plane1Map); plane1Actor.SetTexture((vtkTexture)texture); plane1Actor.GetProperty().SetOpacity((double)0.999); plane2 = new vtkStructuredGridGeometryFilter(); plane2.SetInputData(pl3d.GetOutput().GetBlock(0)); plane2.SetExtent((int)30,(int)30,(int)0,(int)100,(int)0,(int)100); thresh2 = new vtkThresholdTextureCoords(); thresh2.SetInputConnection((vtkAlgorithmOutput)plane2.GetOutputPort()); thresh2.ThresholdByLower((double)1.5); plane2Map = new vtkDataSetMapper(); plane2Map.SetInputConnection((vtkAlgorithmOutput)thresh2.GetOutputPort()); plane2Map.SetScalarRange((double)((vtkDataSet)pl3d.GetOutput().GetBlock(0)).GetScalarRange()[0], (double)((vtkDataSet)pl3d.GetOutput().GetBlock(0)).GetScalarRange()[1]); plane2Actor = new vtkActor(); plane2Actor.SetMapper((vtkMapper)plane2Map); plane2Actor.SetTexture((vtkTexture)texture); plane2Actor.GetProperty().SetOpacity((double)0.999); plane3 = new vtkStructuredGridGeometryFilter(); plane3.SetInputData(pl3d.GetOutput().GetBlock(0)); plane3.SetExtent((int)35,(int)35,(int)0,(int)100,(int)0,(int)100); thresh3 = new vtkThresholdTextureCoords(); thresh3.SetInputConnection((vtkAlgorithmOutput)plane3.GetOutputPort()); thresh3.ThresholdBetween((double)1.5,(double)1.8); plane3Map = new vtkDataSetMapper(); plane3Map.SetInputConnection((vtkAlgorithmOutput)thresh3.GetOutputPort()); plane3Map.SetScalarRange((double)((vtkDataSet)pl3d.GetOutput().GetBlock(0)).GetScalarRange()[0], (double)((vtkDataSet)pl3d.GetOutput().GetBlock(0)).GetScalarRange()[1]); plane3Actor = new vtkActor(); plane3Actor.SetMapper((vtkMapper)plane3Map); plane3Actor.SetTexture((vtkTexture)texture); plane3Actor.GetProperty().SetOpacity((double)0.999); // outline[] outline = new vtkStructuredGridOutlineFilter(); outline.SetInputData(pl3d.GetOutput().GetBlock(0)); outlineMapper = vtkPolyDataMapper.New(); outlineMapper.SetInputConnection((vtkAlgorithmOutput)outline.GetOutputPort()); outlineActor = new vtkActor(); outlineActor.SetMapper((vtkMapper)outlineMapper); outlineProp = outlineActor.GetProperty(); outlineProp.SetColor((double)0,(double)0,(double)0); // Add the actors to the renderer, set the background and size[] //[] ren1.AddActor((vtkProp)outlineActor); ren1.AddActor((vtkProp)wallActor); ren1.AddActor((vtkProp)finActor); ren1.AddActor((vtkProp)plane1Actor); ren1.AddActor((vtkProp)plane2Actor); ren1.AddActor((vtkProp)plane3Actor); ren1.SetBackground((double)1,(double)1,(double)1); renWin.SetSize((int)256,(int)256); cam1 = new vtkCamera(); cam1.SetClippingRange((double)1.51176,(double)75.5879); cam1.SetFocalPoint((double)2.33749,(double)2.96739,(double)3.61023); cam1.SetPosition((double)10.8787,(double)5.27346,(double)15.8687); cam1.SetViewAngle((double)30); cam1.SetViewUp((double)-0.0610856,(double)0.987798,(double)-0.143262); ren1.SetActiveCamera((vtkCamera)cam1); 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 AVgaussian(String [] argv) { //Prefix Content is: "" ren1 = vtkRenderer.New(); renWin = vtkRenderWindow.New(); renWin.AddRenderer((vtkRenderer)ren1); renWin.SetSize((int)300,(int)300); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); camera = new vtkCamera(); camera.ParallelProjectionOn(); camera.SetViewUp((double)0,(double)1,(double)0); camera.SetFocalPoint((double)12,(double)10.5,(double)15); camera.SetPosition((double)-70,(double)15,(double)34); camera.ComputeViewPlaneNormal(); ren1.SetActiveCamera((vtkCamera)camera); // Create the reader for the data[] //vtkStructuredPointsReader reader[] reader = new vtkGaussianCubeReader(); reader.SetFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/m4_TotalDensity.cube"); reader.SetHBScale((double)1.1); reader.SetBScale((double)10); reader.Update(); range = reader.GetGridOutput().GetPointData().GetScalars().GetRange(); min = (double)(lindex(range,0)); max = (double)(lindex(range,1)); readerSS = new vtkImageShiftScale(); readerSS.SetInput((vtkDataObject)reader.GetGridOutput()); readerSS.SetShift((double)min*-1); readerSS.SetScale((double)255/(max-min)); readerSS.SetOutputScalarTypeToUnsignedChar(); bounds = new vtkOutlineFilter(); bounds.SetInput((vtkDataObject)reader.GetGridOutput()); boundsMapper = vtkPolyDataMapper.New(); boundsMapper.SetInputConnection((vtkAlgorithmOutput)bounds.GetOutputPort()); boundsActor = new vtkActor(); boundsActor.SetMapper((vtkMapper)boundsMapper); boundsActor.GetProperty().SetColor((double)0,(double)0,(double)0); contour = new vtkContourFilter(); contour.SetInput((vtkDataObject)reader.GetGridOutput()); contour.GenerateValues((int)5,(double)0,(double).05); contourMapper = vtkPolyDataMapper.New(); contourMapper.SetInputConnection((vtkAlgorithmOutput)contour.GetOutputPort()); contourMapper.SetScalarRange((double)0,(double).1); ((vtkLookupTable)contourMapper.GetLookupTable()).SetHueRange(0.32,0); contourActor = new vtkActor(); contourActor.SetMapper((vtkMapper)contourMapper); contourActor.GetProperty().SetOpacity((double).5); // Create transfer mapping scalar value to opacity[] opacityTransferFunction = new vtkPiecewiseFunction(); opacityTransferFunction.AddPoint((double)0,(double)0.01); opacityTransferFunction.AddPoint((double)255,(double)0.35); opacityTransferFunction.ClampingOn(); // Create transfer mapping scalar value to color[] colorTransferFunction = new vtkColorTransferFunction(); colorTransferFunction.AddHSVPoint((double)0.0,(double)0.66,(double)1.0,(double)1.0); colorTransferFunction.AddHSVPoint((double)50.0,(double)0.33,(double)1.0,(double)1.0); colorTransferFunction.AddHSVPoint((double)100.0,(double)0.00,(double)1.0,(double)1.0); // The property describes how the data will look[] volumeProperty = new vtkVolumeProperty(); volumeProperty.SetColor((vtkColorTransferFunction)colorTransferFunction); volumeProperty.SetScalarOpacity((vtkPiecewiseFunction)opacityTransferFunction); volumeProperty.SetInterpolationTypeToLinear(); // The mapper / ray cast function know how to render the data[] compositeFunction = new vtkVolumeRayCastCompositeFunction(); volumeMapper = new vtkVolumeRayCastMapper(); //vtkVolumeTextureMapper2D volumeMapper[] volumeMapper.SetVolumeRayCastFunction((vtkVolumeRayCastFunction)compositeFunction); volumeMapper.SetInputConnection((vtkAlgorithmOutput)readerSS.GetOutputPort()); // The volume holds the mapper and the property and[] // can be used to position/orient the volume[] volume = new vtkVolume(); volume.SetMapper((vtkAbstractVolumeMapper)volumeMapper); volume.SetProperty((vtkVolumeProperty)volumeProperty); ren1.AddVolume((vtkProp)volume); //ren1 AddActor contourActor[] ren1.AddActor((vtkProp)boundsActor); //#####################################################################[] Sphere = new vtkSphereSource(); Sphere.SetCenter((double)0,(double)0,(double)0); Sphere.SetRadius((double)1); Sphere.SetThetaResolution((int)16); Sphere.SetStartTheta((double)0); Sphere.SetEndTheta((double)360); Sphere.SetPhiResolution((int)16); Sphere.SetStartPhi((double)0); Sphere.SetEndPhi((double)180); Glyph = new vtkGlyph3D(); Glyph.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); Glyph.SetOrient((int)1); Glyph.SetColorMode((int)1); //Glyph ScalingOn[] Glyph.SetScaleMode((int)2); Glyph.SetScaleFactor((double).6); Glyph.SetSource((vtkPolyData)Sphere.GetOutput()); AtomsMapper = vtkPolyDataMapper.New(); AtomsMapper.SetInputConnection((vtkAlgorithmOutput)Glyph.GetOutputPort()); AtomsMapper.SetImmediateModeRendering((int)1); AtomsMapper.UseLookupTableScalarRangeOff(); AtomsMapper.SetScalarVisibility((int)1); AtomsMapper.SetScalarModeToDefault(); Atoms = new vtkActor(); Atoms.SetMapper((vtkMapper)AtomsMapper); Atoms.GetProperty().SetRepresentationToSurface(); Atoms.GetProperty().SetInterpolationToGouraud(); Atoms.GetProperty().SetAmbient((double)0.15); Atoms.GetProperty().SetDiffuse((double)0.85); Atoms.GetProperty().SetSpecular((double)0.1); Atoms.GetProperty().SetSpecularPower((double)100); Atoms.GetProperty().SetSpecularColor((double)1,(double)1,(double)1); Atoms.GetProperty().SetColor((double)1,(double)1,(double)1); Tube = new vtkTubeFilter(); Tube.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); Tube.SetNumberOfSides((int)16); Tube.SetCapping((int)0); Tube.SetRadius((double)0.2); Tube.SetVaryRadius((int)0); Tube.SetRadiusFactor((double)10); BondsMapper = vtkPolyDataMapper.New(); BondsMapper.SetInputConnection((vtkAlgorithmOutput)Tube.GetOutputPort()); BondsMapper.SetImmediateModeRendering((int)1); BondsMapper.UseLookupTableScalarRangeOff(); BondsMapper.SetScalarVisibility((int)1); BondsMapper.SetScalarModeToDefault(); Bonds = new vtkActor(); Bonds.SetMapper((vtkMapper)BondsMapper); Bonds.GetProperty().SetRepresentationToSurface(); Bonds.GetProperty().SetInterpolationToGouraud(); Bonds.GetProperty().SetAmbient((double)0.15); Bonds.GetProperty().SetDiffuse((double)0.85); Bonds.GetProperty().SetSpecular((double)0.1); Bonds.GetProperty().SetSpecularPower((double)100); Bonds.GetProperty().SetSpecularColor((double)1,(double)1,(double)1); Bonds.GetProperty().SetColor((double)1,(double)1,(double)1); ren1.AddActor((vtkProp)Bonds); ren1.AddActor((vtkProp)Atoms); //###################################################[] ren1.SetBackground((double)1,(double)1,(double)1); ren1.ResetCamera(); renWin.Render(); //method moved renWin.AbortCheckEvt += new Kitware.VTK.vtkObject.vtkObjectEventHandler(TkCheckAbort_Command.Execute); iren.Initialize(); //deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVfieldToUGrid(String [] argv) { //Prefix Content is: "" // Read a field representing unstructured grid and display it (similar to blow.tcl)[] // create a reader and write out field daya[] reader = new vtkUnstructuredGridReader(); reader.SetFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/blow.vtk"); reader.SetScalarsName((string)"thickness9"); reader.SetVectorsName((string)"displacement9"); ds2do = new vtkDataSetToDataObjectFilter(); ds2do.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); // we must be able to write here[] try { channel = new StreamWriter("UGridField.vtk"); tryCatchError = "NOERROR"; } catch(Exception) {tryCatchError = "ERROR";} if (tryCatchError.Equals("NOERROR")) { channel.Close(); write = new vtkDataObjectWriter(); write.SetInputConnection((vtkAlgorithmOutput)ds2do.GetOutputPort()); write.SetFileName((string)"UGridField.vtk"); write.Write(); // Read the field and convert to unstructured grid.[] dor = new vtkDataObjectReader(); dor.SetFileName((string)"UGridField.vtk"); do2ds = new vtkDataObjectToDataSetFilter(); do2ds.SetInputConnection((vtkAlgorithmOutput)dor.GetOutputPort()); do2ds.SetDataSetTypeToUnstructuredGrid(); do2ds.SetPointComponent((int)0,(string)"Points",(int)0); do2ds.SetPointComponent((int)1,(string)"Points",(int)1); do2ds.SetPointComponent((int)2,(string)"Points",(int)2); do2ds.SetCellTypeComponent((string)"CellTypes",(int)0); do2ds.SetCellConnectivityComponent((string)"Cells",(int)0); fd2ad = new vtkFieldDataToAttributeDataFilter(); fd2ad.SetInput((vtkDataObject)do2ds.GetUnstructuredGridOutput()); fd2ad.SetInputFieldToDataObjectField(); fd2ad.SetOutputAttributeDataToPointData(); fd2ad.SetVectorComponent((int)0,(string)"displacement9",(int)0); fd2ad.SetVectorComponent((int)1,(string)"displacement9",(int)1); fd2ad.SetVectorComponent((int)2,(string)"displacement9",(int)2); fd2ad.SetScalarComponent((int)0,(string)"thickness9",(int)0); // Now start visualizing[] warp = new vtkWarpVector(); warp.SetInput((vtkDataObject)fd2ad.GetUnstructuredGridOutput()); // extract mold from mesh using connectivity[] connect = new vtkConnectivityFilter(); connect.SetInputConnection((vtkAlgorithmOutput)warp.GetOutputPort()); connect.SetExtractionModeToSpecifiedRegions(); connect.AddSpecifiedRegion((int)0); connect.AddSpecifiedRegion((int)1); moldMapper = new vtkDataSetMapper(); moldMapper.SetInputConnection((vtkAlgorithmOutput)connect.GetOutputPort()); moldMapper.ScalarVisibilityOff(); moldActor = new vtkActor(); moldActor.SetMapper((vtkMapper)moldMapper); moldActor.GetProperty().SetColor((double).2,(double).2,(double).2); moldActor.GetProperty().SetRepresentationToWireframe(); // extract parison from mesh using connectivity[] connect2 = new vtkConnectivityFilter(); connect2.SetInputConnection((vtkAlgorithmOutput)warp.GetOutputPort()); connect2.SetExtractionModeToSpecifiedRegions(); connect2.AddSpecifiedRegion((int)2); parison = new vtkGeometryFilter(); parison.SetInputConnection((vtkAlgorithmOutput)connect2.GetOutputPort()); normals2 = new vtkPolyDataNormals(); normals2.SetInputConnection((vtkAlgorithmOutput)parison.GetOutputPort()); normals2.SetFeatureAngle((double)60); lut = new vtkLookupTable(); lut.SetHueRange((double)0.0,(double)0.66667); parisonMapper = vtkPolyDataMapper.New(); parisonMapper.SetInputConnection((vtkAlgorithmOutput)normals2.GetOutputPort()); parisonMapper.SetLookupTable((vtkScalarsToColors)lut); parisonMapper.SetScalarRange((double)0.12,(double)1.0); parisonActor = new vtkActor(); parisonActor.SetMapper((vtkMapper)parisonMapper); cf = new vtkContourFilter(); cf.SetInputConnection((vtkAlgorithmOutput)connect2.GetOutputPort()); cf.SetValue((int)0,(double).5); contourMapper = vtkPolyDataMapper.New(); contourMapper.SetInputConnection((vtkAlgorithmOutput)cf.GetOutputPort()); contours = new vtkActor(); contours.SetMapper((vtkMapper)contourMapper); // Create graphics stuff[] 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)moldActor); ren1.AddActor((vtkProp)parisonActor); ren1.AddActor((vtkProp)contours); ren1.ResetCamera(); ren1.GetActiveCamera().Azimuth((double)60); ren1.GetActiveCamera().Roll((double)-90); ren1.GetActiveCamera().Dolly((double)2); ren1.ResetCameraClippingRange(); ren1.SetBackground((double)1,(double)1,(double)1); renWin.SetSize((int)375,(int)200); 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 AVclosedSplines(String [] argv) { //Prefix Content is: "" // get the interactor ui[] // Now create the RenderWindow, Renderer and Interactor[] //[] ren1 = vtkRenderer.New(); renWin = vtkRenderWindow.New(); renWin.AddRenderer((vtkRenderer)ren1); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); math = new vtkMath(); numberOfInputPoints = 30; aKSplineX = new vtkKochanekSpline(); aKSplineX.ClosedOn(); aKSplineY = new vtkKochanekSpline(); aKSplineY.ClosedOn(); aKSplineZ = new vtkKochanekSpline(); aKSplineZ.ClosedOn(); aCSplineX = new vtkCardinalSpline(); aCSplineX.ClosedOn(); aCSplineY = new vtkCardinalSpline(); aCSplineY.ClosedOn(); aCSplineZ = new vtkCardinalSpline(); aCSplineZ.ClosedOn(); // add some points[] inputPoints = new vtkPoints(); x = -1.0; y = -1.0; z = 0.0; aKSplineX.AddPoint((double)0,(double)x); aKSplineY.AddPoint((double)0,(double)y); aKSplineZ.AddPoint((double)0,(double)z); aCSplineX.AddPoint((double)0,(double)x); aCSplineY.AddPoint((double)0,(double)y); aCSplineZ.AddPoint((double)0,(double)z); inputPoints.InsertPoint((int)0,(double)x,(double)y,(double)z); x = 1.0; y = -1.0; z = 0.0; aKSplineX.AddPoint((double)1,(double)x); aKSplineY.AddPoint((double)1,(double)y); aKSplineZ.AddPoint((double)1,(double)z); aCSplineX.AddPoint((double)1,(double)x); aCSplineY.AddPoint((double)1,(double)y); aCSplineZ.AddPoint((double)1,(double)z); inputPoints.InsertPoint((int)1,(double)x,(double)y,(double)z); x = 1.0; y = 1.0; z = 0.0; aKSplineX.AddPoint((double)2,(double)x); aKSplineY.AddPoint((double)2,(double)y); aKSplineZ.AddPoint((double)2,(double)z); aCSplineX.AddPoint((double)2,(double)x); aCSplineY.AddPoint((double)2,(double)y); aCSplineZ.AddPoint((double)2,(double)z); inputPoints.InsertPoint((int)2,(double)x,(double)y,(double)z); x = -1.0; y = 1.0; z = 0.0; aKSplineX.AddPoint((double)3,(double)x); aKSplineY.AddPoint((double)3,(double)y); aKSplineZ.AddPoint((double)3,(double)z); aCSplineX.AddPoint((double)3,(double)x); aCSplineY.AddPoint((double)3,(double)y); aCSplineZ.AddPoint((double)3,(double)z); inputPoints.InsertPoint((int)3,(double)x,(double)y,(double)z); inputData = new vtkPolyData(); inputData.SetPoints((vtkPoints)inputPoints); balls = new vtkSphereSource(); balls.SetRadius((double).04); balls.SetPhiResolution((int)10); balls.SetThetaResolution((int)10); glyphPoints = new vtkGlyph3D(); glyphPoints.SetInput((vtkDataObject)inputData); glyphPoints.SetSource((vtkPolyData)balls.GetOutput()); glyphMapper = vtkPolyDataMapper.New(); glyphMapper.SetInputConnection((vtkAlgorithmOutput)glyphPoints.GetOutputPort()); glyph = new vtkActor(); glyph.SetMapper((vtkMapper)glyphMapper); glyph.GetProperty().SetDiffuseColor((double) 1.0000, 0.3882, 0.2784 ); glyph.GetProperty().SetSpecular((double).3); glyph.GetProperty().SetSpecularPower((double)30); ren1.AddActor((vtkProp)glyph); Kpoints = new vtkPoints(); Cpoints = new vtkPoints(); profileKData = new vtkPolyData(); profileCData = new vtkPolyData(); numberOfInputPoints = 5; numberOfOutputPoints = 100; offset = 1.0; //method moved fit(); lines = new vtkCellArray(); lines.InsertNextCell((int)numberOfOutputPoints); i = 0; while((i) < numberOfOutputPoints) { lines.InsertCellPoint((int)i); i = i + 1; } profileKData.SetPoints((vtkPoints)Kpoints); profileKData.SetLines((vtkCellArray)lines); profileCData.SetPoints((vtkPoints)Cpoints); profileCData.SetLines((vtkCellArray)lines); profileKTubes = new vtkTubeFilter(); profileKTubes.SetNumberOfSides((int)8); profileKTubes.SetInput((vtkDataObject)profileKData); profileKTubes.SetRadius((double).01); profileKMapper = vtkPolyDataMapper.New(); profileKMapper.SetInputConnection((vtkAlgorithmOutput)profileKTubes.GetOutputPort()); profileK = new vtkActor(); profileK.SetMapper((vtkMapper)profileKMapper); profileK.GetProperty().SetDiffuseColor((double) 0.8900, 0.8100, 0.3400 ); profileK.GetProperty().SetSpecular((double).3); profileK.GetProperty().SetSpecularPower((double)30); ren1.AddActor((vtkProp)profileK); profileCTubes = new vtkTubeFilter(); profileCTubes.SetNumberOfSides((int)8); profileCTubes.SetInput((vtkDataObject)profileCData); profileCTubes.SetRadius((double).01); profileCMapper = vtkPolyDataMapper.New(); profileCMapper.SetInputConnection((vtkAlgorithmOutput)profileCTubes.GetOutputPort()); profileC = new vtkActor(); profileC.SetMapper((vtkMapper)profileCMapper); profileC.GetProperty().SetDiffuseColor((double) 0.2000, 0.6300, 0.7900 ); profileC.GetProperty().SetSpecular((double).3); profileC.GetProperty().SetSpecularPower((double)30); ren1.AddActor((vtkProp)profileC); ren1.ResetCamera(); ren1.GetActiveCamera().Dolly((double)1.5); ren1.ResetCameraClippingRange(); renWin.SetSize((int)300,(int)300); // render the image[] //[] iren.Initialize(); // prevent the tk window from showing up then start the event loop[] //method moved //method moved //method moved //method moved //method moved //method moved //deleteAllVTKObjects(); }