/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVTestUnstructuredPieces(String [] argv) { //Prefix Content is: "" math = new vtkMath(); vtkMath.RandomSeed((int)22); pf = new vtkParallelFactory(); vtkParallelFactory.RegisterFactory((vtkObjectFactory)pf); 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); dst = new vtkDataSetTriangleFilter(); dst.SetInputData((vtkDataSet)pl3d.GetOutput().GetBlock(0)); extract = new vtkExtractUnstructuredGridPiece(); extract.SetInputConnection((vtkAlgorithmOutput)dst.GetOutputPort()); cf = new vtkContourFilter(); cf.SetInputConnection((vtkAlgorithmOutput)extract.GetOutputPort()); cf.SetValue((int)0, (double)0.24); pdn = new vtkPolyDataNormals(); pdn.SetInputConnection((vtkAlgorithmOutput)cf.GetOutputPort()); ps = new vtkPieceScalars(); ps.SetInputConnection((vtkAlgorithmOutput)pdn.GetOutputPort()); mapper = vtkPolyDataMapper.New(); mapper.SetInputConnection((vtkAlgorithmOutput)ps.GetOutputPort()); mapper.SetNumberOfPieces((int)3); actor = new vtkActor(); actor.SetMapper((vtkMapper)mapper); ren = vtkRenderer.New(); ren.AddActor((vtkProp)actor); ren.ResetCamera(); camera = ren.GetActiveCamera(); //$camera SetPosition 68.1939 -23.4323 12.6465[] //$camera SetViewUp 0.46563 0.882375 0.0678508 [] //$camera SetFocalPoint 3.65707 11.4552 1.83509 [] //$camera SetClippingRange 59.2626 101.825 [] renWin = vtkRenderWindow.New(); renWin.AddRenderer((vtkRenderer)ren); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); iren.Initialize(); //deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVTestUnstructuredPieces(String [] argv) { //Prefix Content is: "" math = new vtkMath(); vtkMath.RandomSeed((int)22); pf = new vtkParallelFactory(); vtkParallelFactory.RegisterFactory((vtkObjectFactory)pf); 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); dst = new vtkDataSetTriangleFilter(); dst.SetInputData((vtkDataSet)pl3d.GetOutput().GetBlock(0)); extract = new vtkExtractUnstructuredGridPiece(); extract.SetInputConnection((vtkAlgorithmOutput)dst.GetOutputPort()); cf = new vtkContourFilter(); cf.SetInputConnection((vtkAlgorithmOutput)extract.GetOutputPort()); cf.SetValue((int)0,(double)0.24); pdn = new vtkPolyDataNormals(); pdn.SetInputConnection((vtkAlgorithmOutput)cf.GetOutputPort()); ps = new vtkPieceScalars(); ps.SetInputConnection((vtkAlgorithmOutput)pdn.GetOutputPort()); mapper = vtkPolyDataMapper.New(); mapper.SetInputConnection((vtkAlgorithmOutput)ps.GetOutputPort()); mapper.SetNumberOfPieces((int)3); actor = new vtkActor(); actor.SetMapper((vtkMapper)mapper); ren = vtkRenderer.New(); ren.AddActor((vtkProp)actor); ren.ResetCamera(); camera = ren.GetActiveCamera(); //$camera SetPosition 68.1939 -23.4323 12.6465[] //$camera SetViewUp 0.46563 0.882375 0.0678508 [] //$camera SetFocalPoint 3.65707 11.4552 1.83509 [] //$camera SetClippingRange 59.2626 101.825 [] renWin = vtkRenderWindow.New(); renWin.AddRenderer((vtkRenderer)ren); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); iren.Initialize(); //deleteAllVTKObjects(); }
///<summary> A Set Method for Static Variables </summary> public static void Setmath(vtkMath toSet) { math = toSet; }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVTestPolyDataPieces(String [] argv) { //Prefix Content is: "" math = new vtkMath(); vtkMath.RandomSeed((int)22); pf = new vtkParallelFactory(); vtkParallelFactory.RegisterFactory((vtkObjectFactory)pf); sphere = new vtkSphereSource(); sphere.SetPhiResolution((int)32); sphere.SetThetaResolution((int)32); extract = new vtkExtractPolyDataPiece(); extract.SetInputConnection((vtkAlgorithmOutput)sphere.GetOutputPort()); normals = new vtkPolyDataNormals(); normals.SetInputConnection((vtkAlgorithmOutput)extract.GetOutputPort()); ps = new vtkPieceScalars(); ps.SetInputConnection((vtkAlgorithmOutput)normals.GetOutputPort()); mapper = vtkPolyDataMapper.New(); mapper.SetInputConnection((vtkAlgorithmOutput)ps.GetOutputPort()); mapper.SetNumberOfPieces((int)2); actor = new vtkActor(); actor.SetMapper((vtkMapper)mapper); sphere2 = new vtkSphereSource(); sphere2.SetPhiResolution((int)32); sphere2.SetThetaResolution((int)32); extract2 = new vtkExtractPolyDataPiece(); extract2.SetInputConnection((vtkAlgorithmOutput)sphere2.GetOutputPort()); mapper2 = vtkPolyDataMapper.New(); mapper2.SetInputConnection((vtkAlgorithmOutput)extract2.GetOutputPort()); mapper2.SetNumberOfPieces((int)2); mapper2.SetPiece((int)1); mapper2.SetScalarRange((double)0, (double)4); mapper2.SetScalarModeToUseCellFieldData(); mapper2.SetColorModeToMapScalars(); mapper2.ColorByArrayComponent((string)"vtkGhostLevels", (int)0); mapper2.SetGhostLevel((int)4); // check the pipeline size[] extract2.UpdateInformation(); psize = new vtkPipelineSize(); if ((psize.GetEstimatedSize((vtkAlgorithm)extract2, (int)0, (int)0)) > 100) { //puts skipedputs ['stderr', '"ERROR: Pipeline Size increased"'] } if ((psize.GetNumberOfSubPieces((uint)10, (vtkPolyDataMapper)mapper2)) != 2) { //puts skipedputs ['stderr', '"ERROR: Number of sub pieces changed"'] } actor2 = new vtkActor(); actor2.SetMapper((vtkMapper)mapper2); actor2.SetPosition((double)1.5, (double)0, (double)0); sphere3 = new vtkSphereSource(); sphere3.SetPhiResolution((int)32); sphere3.SetThetaResolution((int)32); extract3 = new vtkExtractPolyDataPiece(); extract3.SetInputConnection((vtkAlgorithmOutput)sphere3.GetOutputPort()); ps3 = new vtkPieceScalars(); ps3.SetInputConnection((vtkAlgorithmOutput)extract3.GetOutputPort()); mapper3 = vtkPolyDataMapper.New(); mapper3.SetInputConnection((vtkAlgorithmOutput)ps3.GetOutputPort()); mapper3.SetNumberOfSubPieces((int)8); mapper3.SetScalarRange((double)0, (double)8); actor3 = new vtkActor(); actor3.SetMapper((vtkMapper)mapper3); actor3.SetPosition((double)0, (double)-1.5, (double)0); sphere4 = new vtkSphereSource(); sphere4.SetPhiResolution((int)32); sphere4.SetThetaResolution((int)32); extract4 = new vtkExtractPolyDataPiece(); extract4.SetInputConnection((vtkAlgorithmOutput)sphere4.GetOutputPort()); ps4 = new vtkPieceScalars(); ps4.RandomModeOn(); ps4.SetScalarModeToCellData(); ps4.SetInputConnection((vtkAlgorithmOutput)extract4.GetOutputPort()); mapper4 = vtkPolyDataMapper.New(); mapper4.SetInputConnection((vtkAlgorithmOutput)ps4.GetOutputPort()); mapper4.SetNumberOfSubPieces((int)8); mapper4.SetScalarRange((double)0, (double)8); actor4 = new vtkActor(); actor4.SetMapper((vtkMapper)mapper4); actor4.SetPosition((double)1.5, (double)-1.5, (double)0); ren = vtkRenderer.New(); ren.AddActor((vtkProp)actor); ren.AddActor((vtkProp)actor2); ren.AddActor((vtkProp)actor3); ren.AddActor((vtkProp)actor4); renWin = vtkRenderWindow.New(); renWin.AddRenderer((vtkRenderer)ren); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); iren.Initialize(); //deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVTestPolyDataPieces(String [] argv) { //Prefix Content is: "" math = new vtkMath(); vtkMath.RandomSeed((int)22); pf = new vtkParallelFactory(); vtkParallelFactory.RegisterFactory((vtkObjectFactory)pf); sphere = new vtkSphereSource(); sphere.SetPhiResolution((int)32); sphere.SetThetaResolution((int)32); extract = new vtkExtractPolyDataPiece(); extract.SetInputConnection((vtkAlgorithmOutput)sphere.GetOutputPort()); normals = new vtkPolyDataNormals(); normals.SetInputConnection((vtkAlgorithmOutput)extract.GetOutputPort()); ps = new vtkPieceScalars(); ps.SetInputConnection((vtkAlgorithmOutput)normals.GetOutputPort()); mapper = vtkPolyDataMapper.New(); mapper.SetInputConnection((vtkAlgorithmOutput)ps.GetOutputPort()); mapper.SetNumberOfPieces((int)2); actor = new vtkActor(); actor.SetMapper((vtkMapper)mapper); sphere2 = new vtkSphereSource(); sphere2.SetPhiResolution((int)32); sphere2.SetThetaResolution((int)32); extract2 = new vtkExtractPolyDataPiece(); extract2.SetInputConnection((vtkAlgorithmOutput)sphere2.GetOutputPort()); mapper2 = vtkPolyDataMapper.New(); mapper2.SetInputConnection((vtkAlgorithmOutput)extract2.GetOutputPort()); mapper2.SetNumberOfPieces((int)2); mapper2.SetPiece((int)1); mapper2.SetScalarRange((double)0,(double)4); mapper2.SetScalarModeToUseCellFieldData(); mapper2.SetColorModeToMapScalars(); mapper2.ColorByArrayComponent((string)"vtkGhostLevels",(int)0); mapper2.SetGhostLevel((int)4); // check the pipeline size[] extract2.UpdateInformation(); psize = new vtkPipelineSize(); if ((psize.GetEstimatedSize((vtkAlgorithm)extract2,(int)0,(int)0)) > 100) { //puts skipedputs ['stderr', '"ERROR: Pipeline Size increased"'] } if ((psize.GetNumberOfSubPieces((uint)10,(vtkPolyDataMapper)mapper2)) != 2) { //puts skipedputs ['stderr', '"ERROR: Number of sub pieces changed"'] } actor2 = new vtkActor(); actor2.SetMapper((vtkMapper)mapper2); actor2.SetPosition((double)1.5,(double)0,(double)0); sphere3 = new vtkSphereSource(); sphere3.SetPhiResolution((int)32); sphere3.SetThetaResolution((int)32); extract3 = new vtkExtractPolyDataPiece(); extract3.SetInputConnection((vtkAlgorithmOutput)sphere3.GetOutputPort()); ps3 = new vtkPieceScalars(); ps3.SetInputConnection((vtkAlgorithmOutput)extract3.GetOutputPort()); mapper3 = vtkPolyDataMapper.New(); mapper3.SetInputConnection((vtkAlgorithmOutput)ps3.GetOutputPort()); mapper3.SetNumberOfSubPieces((int)8); mapper3.SetScalarRange((double)0,(double)8); actor3 = new vtkActor(); actor3.SetMapper((vtkMapper)mapper3); actor3.SetPosition((double)0,(double)-1.5,(double)0); sphere4 = new vtkSphereSource(); sphere4.SetPhiResolution((int)32); sphere4.SetThetaResolution((int)32); extract4 = new vtkExtractPolyDataPiece(); extract4.SetInputConnection((vtkAlgorithmOutput)sphere4.GetOutputPort()); ps4 = new vtkPieceScalars(); ps4.RandomModeOn(); ps4.SetScalarModeToCellData(); ps4.SetInputConnection((vtkAlgorithmOutput)extract4.GetOutputPort()); mapper4 = vtkPolyDataMapper.New(); mapper4.SetInputConnection((vtkAlgorithmOutput)ps4.GetOutputPort()); mapper4.SetNumberOfSubPieces((int)8); mapper4.SetScalarRange((double)0,(double)8); actor4 = new vtkActor(); actor4.SetMapper((vtkMapper)mapper4); actor4.SetPosition((double)1.5,(double)-1.5,(double)0); ren = vtkRenderer.New(); ren.AddActor((vtkProp)actor); ren.AddActor((vtkProp)actor2); ren.AddActor((vtkProp)actor3); ren.AddActor((vtkProp)actor4); renWin = vtkRenderWindow.New(); renWin.AddRenderer((vtkRenderer)ren); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); iren.Initialize(); //deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVPlot3DScalars(String[] argv) { //Prefix Content is: "" //[] // All Plot3D scalar functions[] //[] // Create the RenderWindow, Renderer and both Actors[] //[] renWin = vtkRenderWindow.New(); renWin.SetMultiSamples(0); iren = new vtkRenderWindowInteractor(); iren.SetRenderWindow((vtkRenderWindow)renWin); scalarLabels = "Density Pressure Temperature Enthalpy Internal_Energy Kinetic_Energy Velocity_Magnitude Stagnation_Energy Entropy Swirl"; scalarFunctions = "100 110 120 130 140 144 153 163 170 184"; camera = new vtkCamera(); light = new vtkLight(); math = new vtkMath(); // All text actors will share the same text prop[] textProp = new vtkTextProperty(); textProp.SetFontSize((int)10); textProp.SetFontFamilyToArial(); textProp.SetColor((double)0, (double)0, (double)0); i = 0; foreach (string scalarFunction in scalarFunctions.Split(new char[] { ' ' })) { pl3d[getArrayIndex(scalarFunction)] = new vtkMultiBlockPLOT3DReader(); pl3d[getArrayIndex(scalarFunction)].SetXYZFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/bluntfinxyz.bin"); pl3d[getArrayIndex(scalarFunction)].SetQFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/bluntfinq.bin"); pl3d[getArrayIndex(scalarFunction)].SetScalarFunctionNumber((int)(int)(Int32.Parse(scalarFunction))); pl3d[getArrayIndex(scalarFunction)].Update(); plane[getArrayIndex(scalarFunction)] = new vtkStructuredGridGeometryFilter(); plane[getArrayIndex(scalarFunction)].SetInputData((vtkDataSet)pl3d[getArrayIndex(scalarFunction)].GetOutput().GetBlock(0)); plane[getArrayIndex(scalarFunction)].SetExtent((int)25, (int)25, (int)0, (int)100, (int)0, (int)100); mapper[getArrayIndex(scalarFunction)] = vtkPolyDataMapper.New(); mapper[getArrayIndex(scalarFunction)].SetInputConnection((vtkAlgorithmOutput)plane[getArrayIndex(scalarFunction)].GetOutputPort()); mapper[getArrayIndex(scalarFunction)].SetScalarRange((double)((vtkDataSet)pl3d[getArrayIndex(scalarFunction)].GetOutput().GetBlock(0)).GetPointData().GetScalars().GetRange()[0], (double)((vtkDataSet)pl3d[getArrayIndex(scalarFunction)].GetOutput().GetBlock(0)).GetPointData().GetScalars().GetRange()[1]); actor[getArrayIndex(scalarFunction)] = new vtkActor(); actor[getArrayIndex(scalarFunction)].SetMapper((vtkMapper)mapper[getArrayIndex(scalarFunction)]); ren[getArrayIndex(scalarFunction)] = vtkRenderer.New(); ren[getArrayIndex(scalarFunction)].SetBackground((double)0, (double)0, (double).5); ren[getArrayIndex(scalarFunction)].SetActiveCamera((vtkCamera)camera); ren[getArrayIndex(scalarFunction)].AddLight((vtkLight)light); renWin.AddRenderer(ren[getArrayIndex(scalarFunction)]); ren[getArrayIndex(scalarFunction)].SetBackground((double)vtkMath.Random((double).5, (double)1), (double)vtkMath.Random((double).5, (double)1), (double)vtkMath.Random((double).5, (double)1)); ren[getArrayIndex(scalarFunction)].AddActor((vtkProp)actor[getArrayIndex(scalarFunction)]); textMapper[getArrayIndex(scalarFunction)] = new vtkTextMapper(); textMapper[getArrayIndex(scalarFunction)].SetInput(scalarLabels.Split(new char[] { ' ' })[i]); textMapper[getArrayIndex(scalarFunction)].SetTextProperty((vtkTextProperty)textProp); text[getArrayIndex(scalarFunction)] = new vtkActor2D(); text[getArrayIndex(scalarFunction)].SetMapper((vtkMapper2D)textMapper[getArrayIndex(scalarFunction)]); text[getArrayIndex(scalarFunction)].SetPosition((double)2, (double)3); ren[getArrayIndex(scalarFunction)].AddActor2D(text[getArrayIndex(scalarFunction)]); i = i + 1; } //[] // now layout renderers[] column = 1; row = 1; deltaX = 1.0 / 5.0; deltaY = 1.0 / 2.0; foreach (string scalarFunction in scalarFunctions.Split(new char[] { ' ' })) { ren[getArrayIndex(scalarFunction)].SetViewport((double)(column - 1) * deltaX, (double)(row - 1) * deltaY, (double)column * deltaX, (double)row * deltaY); column = column + 1; if ((column) > 5) { column = 1; row = row + 1; } } camera.SetViewUp((double)0, (double)1, (double)0); camera.SetFocalPoint((double)0, (double)0, (double)0); camera.SetPosition((double)1, (double)0, (double)0); ren[100].ResetCamera(); camera.Dolly((double)1.25); ren[100].ResetCameraClippingRange(); ren[110].ResetCameraClippingRange(); ren[120].ResetCameraClippingRange(); ren[130].ResetCameraClippingRange(); ren[140].ResetCameraClippingRange(); ren[144].ResetCameraClippingRange(); ren[153].ResetCameraClippingRange(); ren[163].ResetCameraClippingRange(); ren[170].ResetCameraClippingRange(); ren[184].ResetCameraClippingRange(); light.SetPosition(camera.GetPosition()[0], camera.GetPosition()[1], camera.GetPosition()[2]); light.SetFocalPoint(camera.GetFocalPoint()[0], camera.GetFocalPoint()[1], camera.GetFocalPoint()[2]); renWin.SetSize(600, 180); renWin.Render(); iren.Initialize(); // render the image[] //[] // 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(); }
/// <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(); }
/// <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); balls.Update(); glyphPoints = new vtkGlyph3D(); glyphPoints.SetInputData((vtkDataObject)inputData); glyphPoints.SetSourceData((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.SetInputData((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.SetInputData((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(); }