Exemplo n.º 1
0
        private void ExtractEdges()
        {
            vtkSphereSource sphereSource = vtkSphereSource.New();

            sphereSource.Update();

            Debug.WriteLine("Sphere" + Environment.NewLine + "----------");
            Debug.WriteLine("There are " + sphereSource.GetOutput().GetNumberOfCells() + " cells.");
            Debug.WriteLine("There are " + sphereSource.GetOutput().GetNumberOfPoints() + " points.");

            vtkExtractEdges extractEdges = vtkExtractEdges.New();

#if VTK_MAJOR_VERSION_5
            extractEdges.SetInputConnection(sphereSource.GetOutputPort());
#else
            extractEdges.SetInputData(sphereSource);
#endif
            extractEdges.Update();

            vtkCellArray lines  = extractEdges.GetOutput().GetLines();
            vtkPoints    points = extractEdges.GetOutput().GetPoints();

            Debug.WriteLine(Environment.NewLine + "Edges" + Environment.NewLine + "----------");
            Debug.WriteLine("There are " + lines.GetNumberOfCells() + " cells.");
            Debug.WriteLine("There are " + points.GetNumberOfPoints() + " points.");

            // Traverse all of the edges
            for (int i = 0; i < extractEdges.GetOutput().GetNumberOfCells(); i++)
            {
                //Debug.WriteLine("Type: " + extractEdges.GetOutput().GetCell(i).GetClassName() );
                vtkLine line = vtkLine.SafeDownCast(extractEdges.GetOutput().GetCell(i));
                Debug.WriteLine("Line " + i + " : " + line);
            }

            // Visualize the edges

            // Create a mapper and actor
            vtkPolyDataMapper mapper = vtkPolyDataMapper.New();
#if VTK_MAJOR_VERSION_5
            mapper.SetInputConnection(extractEdges.GetOutputPort());
#else
            mapper.SetInputData(extractEdges);
#endif
            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(1, 1, 1);
            // add our actor to the renderer
            renderer.AddActor(actor);
        }
Exemplo n.º 2
0
        public void ExtractEdgesVTKBuilderWithoutRunning(ref vtkActor actor, ref vtkPoints points, ref vtkCellArray polys,
                                                         ref vtkFloatArray scalars, ref vtkLookupTable Luk)
        {
            int pointsNum = 0;

            TowerModelInstance.VTKDrawModel(ref points, ref polys, ref scalars, ref pointsNum, paras);

            vtkPolyData profile = vtkPolyData.New();

            profile.SetPoints(points);
            profile.SetPolys(polys);

            vtkExtractEdges ExtProfile = new vtkExtractEdges();


            vtkPolyDataMapper mapper = vtkPolyDataMapper.New();

            if (paras.RotateAngle == 0)
            {
                profile.GetCellData().SetScalars(scalars);
                ExtProfile.SetInput(profile);
                mapper.SetInputConnection(ExtProfile.GetOutputPort());
            }
            else
            {
                vtkRotationalExtrusionFilter refilter = vtkRotationalExtrusionFilter.New();
                profile.Update();
                profile.GetCellData().SetScalars(scalars);
                //profile.GetPointData().SetScalars(scalars);
                ExtProfile.SetInput(profile);

                refilter.SetInputConnection(ExtProfile.GetOutputPort());
                refilter.SetResolution(50);
                refilter.SetAngle(paras.RotateAngle);
                refilter.SetTranslation(0);
                refilter.SetDeltaRadius(0);

                mapper.SetInputConnection(refilter.GetOutputPort());
            }
            mapper.SetScalarRange(0, 5);
            mapper.SetLookupTable(Luk);
            actor.SetMapper(mapper);

            Luk.SetNumberOfTableValues(7);
            Luk.SetTableValue(0, 0, 1, 0, 1);   //
            Luk.SetTableValue(1, 0, 0, 0.8, 1); //inner surface
            Luk.SetTableValue(2, 0, 1, 0, 1);   //
            Luk.SetTableValue(3, 0, 0, 1, 1);
            Luk.SetTableValue(4, 0, 0, 0.8, 1); //insider
            Luk.SetTableValue(5, 0, 0.8, 0, 1); //outer surface
            Luk.Build();
        }
Exemplo n.º 3
0
        /// <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);
        }
Exemplo n.º 4
0
    /// <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 AVTestRectilinearGridToTetrahedra(String[] argv)
    {
        //Prefix Content is: ""

        //## SetUp the pipeline[]
        FormMesh = new vtkRectilinearGridToTetrahedra();
        FormMesh.SetInput((double)4, (double)2, (double)2, (double)1, (double)1, (double)1, (double)0.001);
        FormMesh.RememberVoxelIdOn();
        TetraEdges = new vtkExtractEdges();
        TetraEdges.SetInputConnection((vtkAlgorithmOutput)FormMesh.GetOutputPort());
        tubes = new vtkTubeFilter();
        tubes.SetInputConnection((vtkAlgorithmOutput)TetraEdges.GetOutputPort());
        tubes.SetRadius((double)0.05);
        tubes.SetNumberOfSides((int)6);
        //## Run the pipeline 3 times, with different conversions to TetMesh[]
        Tubes[0] = new vtkPolyData();
        FormMesh.SetTetraPerCellTo5();
        tubes.Update();
        Tubes[0].DeepCopy((vtkDataObject)tubes.GetOutput());
        Tubes[1] = new vtkPolyData();
        FormMesh.SetTetraPerCellTo6();
        tubes.Update();
        Tubes[1].DeepCopy((vtkDataObject)tubes.GetOutput());
        Tubes[2] = new vtkPolyData();
        FormMesh.SetTetraPerCellTo12();
        tubes.Update();
        Tubes[2].DeepCopy((vtkDataObject)tubes.GetOutput());
        //## Run the pipeline once more, this time converting some cells to[]
        //## 5 and some data to 12 TetMesh[]
        //## Determine which cells are which[]

        DivTypes = new vtkIntArray();
        numCell = (long)((vtkDataSet)FormMesh.GetInput()).GetNumberOfCells();
        DivTypes.SetNumberOfValues((int)numCell);

        i = 0;
        while ((i) < numCell)
        {
            DivTypes.SetValue((int)i, (int)5 + (7 * (i % 4)));
            i = i + 1;
        }

        //## Finish this pipeline[]
        Tubes[3] = new vtkPolyData();
        FormMesh.SetTetraPerCellTo5And12();
        ((vtkRectilinearGrid)FormMesh.GetInput()).GetCellData().SetScalars(DivTypes);
        tubes.Update();
        Tubes[3].DeepCopy((vtkDataObject)tubes.GetOutput());
        //## Finish the 4 pipelines[]
        i = 1;
        while ((i) < 5)
        {
            mapEdges[i] = vtkPolyDataMapper.New();
            mapEdges[i].SetInputData((vtkPolyData)Tubes[i - 1]);
            edgeActor[i] = new vtkActor();
            edgeActor[i].SetMapper((vtkMapper)mapEdges[i]);
            edgeActor[i].GetProperty().SetColor((double)0.2000, 0.6300, 0.7900);
            edgeActor[i].GetProperty().SetSpecularColor((double)1, (double)1, (double)1);
            edgeActor[i].GetProperty().SetSpecular((double)0.3);
            edgeActor[i].GetProperty().SetSpecularPower((double)20);
            edgeActor[i].GetProperty().SetAmbient((double)0.2);
            edgeActor[i].GetProperty().SetDiffuse((double)0.8);
            ren[i] = vtkRenderer.New();
            ren[i].AddActor((vtkProp)edgeActor[i]);
            ren[i].SetBackground((double)0, (double)0, (double)0);
            ren[i].ResetCamera();
            ren[i].GetActiveCamera().Zoom((double)1);
            ren[i].GetActiveCamera().SetPosition((double)1.73906, (double)12.7987, (double)-0.257808);
            ren[i].GetActiveCamera().SetViewUp((double)0.992444, (double)0.00890284, (double)-0.122379);
            ren[i].GetActiveCamera().SetClippingRange((double)9.36398, (double)15.0496);
            i = i + 1;
        }

        // Create graphics objects[]
        // Create the rendering window, renderer, and interactive renderer[]
        renWin = vtkRenderWindow.New();
        renWin.AddRenderer(ren[1]);
        renWin.AddRenderer(ren[2]);
        renWin.AddRenderer(ren[3]);
        renWin.AddRenderer(ren[4]);
        renWin.SetSize(600, 300);
        iren = new vtkRenderWindowInteractor();
        iren.SetRenderWindow((vtkRenderWindow)renWin);
        // Add the actors to the renderer, set the background and size[]
        ren[1].SetViewport((double).75, (double)0, (double)1, (double)1);
        ren[2].SetViewport((double).50, (double)0, (double).75, (double)1);
        ren[3].SetViewport((double).25, (double)0, (double).50, (double)1);
        ren[4].SetViewport((double)0, (double)0, (double).25, (double)1);
        // render the image[]
        //[]
        iren.Initialize();
        // prevent the tk window from showing up then start the event loop[]

        //deleteAllVTKObjects();
    }
 ///<summary> A Set Method for Static Variables </summary>
 public static void SetTetraEdges(vtkExtractEdges toSet)
 {
     TetraEdges = toSet;
 }
    /// <summary>
    /// The main entry method called by the CSharp driver
    /// </summary>
    /// <param name="argv"></param>
    public static void AVTestPolygonWriters(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[]
          //[]
          input = new vtkPolyDataReader();
          input.SetFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/brainImageSmooth.vtk");
          //[]
          // generate vectors[]
          clean = new vtkCleanPolyData();
          clean.SetInputConnection((vtkAlgorithmOutput)input.GetOutputPort());
          smooth = new vtkWindowedSincPolyDataFilter();
          smooth.SetInputConnection((vtkAlgorithmOutput)clean.GetOutputPort());
          smooth.GenerateErrorVectorsOn();
          smooth.GenerateErrorScalarsOn();
          smooth.Update();
          mapper = vtkPolyDataMapper.New();
          mapper.SetInputConnection((vtkAlgorithmOutput)smooth.GetOutputPort());
          mapper.SetScalarRange((double)((vtkDataSet)smooth.GetOutput()).GetScalarRange()[0],
          (double)((vtkDataSet)smooth.GetOutput()).GetScalarRange()[1]);
          brain = new vtkActor();
          brain.SetMapper((vtkMapper)mapper);
          // Add the actors to the renderer, set the background and size[]
          //[]
          ren1.AddActor((vtkProp)brain);
          renWin.SetSize((int)320,(int)240);
          ren1.GetActiveCamera().SetPosition((double)149.653,(double)-65.3464,(double)96.0401);
          ren1.GetActiveCamera().SetFocalPoint((double)146.003,(double)22.3839,(double)0.260541);
          ren1.GetActiveCamera().SetViewAngle((double)30);
          ren1.GetActiveCamera().SetViewUp((double)-0.255578,(double)-0.717754,(double)-0.647695);
          ren1.GetActiveCamera().SetClippingRange((double)79.2526,(double)194.052);
          iren.Initialize();
          renWin.Render();
          // render the image[]
          //[]
          // prevent the tk window from showing up then start the event loop[]
          //[]
          // If the current directory is writable, then test the witers[]
          //[]
          try
          {
         channel = new StreamWriter("test.tmp");
          tryCatchError = "NOERROR";
          }
          catch(Exception)
          {tryCatchError = "ERROR";}

        if(tryCatchError.Equals("NOERROR"))
          {
          channel.Close();
          File.Delete("test.tmp");
          //[]
          //[]
          // test the writers[]
          dsw = new vtkDataSetWriter();
          dsw.SetInputConnection((vtkAlgorithmOutput)smooth.GetOutputPort());
          dsw.SetFileName((string)"brain.dsw");
          dsw.Write();
          File.Delete("brain.dsw");
          pdw = new vtkPolyDataWriter();
          pdw.SetInputConnection((vtkAlgorithmOutput)smooth.GetOutputPort());
          pdw.SetFileName((string)"brain.pdw");
          pdw.Write();
          File.Delete("brain.pdw");
          iv = new vtkIVWriter();
          iv.SetInputConnection((vtkAlgorithmOutput)smooth.GetOutputPort());
          iv.SetFileName((string)"brain.iv");
          iv.Write();
          File.Delete("brain.iv");

          //[]
          // the next writers only handle triangles[]
          triangles = new vtkTriangleFilter();
          triangles.SetInputConnection((vtkAlgorithmOutput)smooth.GetOutputPort());
          iv2 = new vtkIVWriter();
          iv2.SetInputConnection((vtkAlgorithmOutput)triangles.GetOutputPort());
          iv2.SetFileName((string)"brain2.iv");
          iv2.Write();
          File.Delete("brain2.iv");

          edges = new vtkExtractEdges();
          edges.SetInputConnection((vtkAlgorithmOutput)triangles.GetOutputPort());
          iv3 = new vtkIVWriter();
          iv3.SetInputConnection((vtkAlgorithmOutput)edges.GetOutputPort());
          iv3.SetFileName((string)"brain3.iv");
          iv3.Write();
          File.Delete("brain3.iv");

          byu = new vtkBYUWriter();
          byu.SetGeometryFileName((string)"brain.g");
          byu.SetScalarFileName((string)"brain.s");
          byu.SetDisplacementFileName((string)"brain.d");
          byu.SetInputConnection((vtkAlgorithmOutput)triangles.GetOutputPort());
          byu.Write();
          File.Delete("brain.g");
          File.Delete("brain.s");
          File.Delete("brain.d");
          mcubes = new vtkMCubesWriter();
          mcubes.SetInputConnection((vtkAlgorithmOutput)triangles.GetOutputPort());
          mcubes.SetFileName((string)"brain.tri");
          mcubes.SetLimitsFileName((string)"brain.lim");
          mcubes.Write();
          File.Delete("brain.lim");
          File.Delete("brain.tri");
          stl = new vtkSTLWriter();
          stl.SetInputConnection((vtkAlgorithmOutput)triangles.GetOutputPort());
          stl.SetFileName((string)"brain.stl");
          stl.Write();
          File.Delete("brain.stl");
          stlBinary = new vtkSTLWriter();
          stlBinary.SetInputConnection((vtkAlgorithmOutput)triangles.GetOutputPort());
          stlBinary.SetFileName((string)"brainBinary.stl");
          stlBinary.SetFileType((int)2);
          stlBinary.Write();
          File.Delete("brainBinary.stl");
        }

        //deleteAllVTKObjects();
    }
 ///<summary> A Set Method for Static Variables </summary>
 public static void Setedges(vtkExtractEdges toSet)
 {
     edges = toSet;
 }
Exemplo n.º 9
0
 ///<summary> A Set Method for Static Variables </summary>
 public static void Setedges(vtkExtractEdges toSet)
 {
     edges = toSet;
 }
Exemplo n.º 10
0
    /// <summary>
    /// The main entry method called by the CSharp driver
    /// </summary>
    /// <param name="argv"></param>
    public static void AVTestPolygonWriters(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[]
        //[]
        input = new vtkPolyDataReader();
        input.SetFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/brainImageSmooth.vtk");
        //[]
        // generate vectors[]
        clean = new vtkCleanPolyData();
        clean.SetInputConnection((vtkAlgorithmOutput)input.GetOutputPort());
        smooth = new vtkWindowedSincPolyDataFilter();
        smooth.SetInputConnection((vtkAlgorithmOutput)clean.GetOutputPort());
        smooth.GenerateErrorVectorsOn();
        smooth.GenerateErrorScalarsOn();
        smooth.Update();
        mapper = vtkPolyDataMapper.New();
        mapper.SetInputConnection((vtkAlgorithmOutput)smooth.GetOutputPort());
        mapper.SetScalarRange((double)((vtkDataSet)smooth.GetOutput()).GetScalarRange()[0],
                              (double)((vtkDataSet)smooth.GetOutput()).GetScalarRange()[1]);
        brain = new vtkActor();
        brain.SetMapper((vtkMapper)mapper);
        // Add the actors to the renderer, set the background and size[]
        //[]
        ren1.AddActor((vtkProp)brain);
        renWin.SetSize((int)320, (int)240);
        ren1.GetActiveCamera().SetPosition((double)149.653, (double)-65.3464, (double)96.0401);
        ren1.GetActiveCamera().SetFocalPoint((double)146.003, (double)22.3839, (double)0.260541);
        ren1.GetActiveCamera().SetViewAngle((double)30);
        ren1.GetActiveCamera().SetViewUp((double)-0.255578, (double)-0.717754, (double)-0.647695);
        ren1.GetActiveCamera().SetClippingRange((double)79.2526, (double)194.052);
        iren.Initialize();
        renWin.Render();
        // render the image[]
        //[]
        // prevent the tk window from showing up then start the event loop[]
        //[]
        // If the current directory is writable, then test the witers[]
        //[]
        try
        {
            channel       = new StreamWriter("test.tmp");
            tryCatchError = "NOERROR";
        }
        catch (Exception)
        { tryCatchError = "ERROR"; }

        if (tryCatchError.Equals("NOERROR"))
        {
            channel.Close();
            File.Delete("test.tmp");
            //[]
            //[]
            // test the writers[]
            dsw = new vtkDataSetWriter();
            dsw.SetInputConnection((vtkAlgorithmOutput)smooth.GetOutputPort());
            dsw.SetFileName((string)"brain.dsw");
            dsw.Write();
            File.Delete("brain.dsw");
            pdw = new vtkPolyDataWriter();
            pdw.SetInputConnection((vtkAlgorithmOutput)smooth.GetOutputPort());
            pdw.SetFileName((string)"brain.pdw");
            pdw.Write();
            File.Delete("brain.pdw");
            iv = new vtkIVWriter();
            iv.SetInputConnection((vtkAlgorithmOutput)smooth.GetOutputPort());
            iv.SetFileName((string)"brain.iv");
            iv.Write();
            File.Delete("brain.iv");


            //[]
            // the next writers only handle triangles[]
            triangles = new vtkTriangleFilter();
            triangles.SetInputConnection((vtkAlgorithmOutput)smooth.GetOutputPort());
            iv2 = new vtkIVWriter();
            iv2.SetInputConnection((vtkAlgorithmOutput)triangles.GetOutputPort());
            iv2.SetFileName((string)"brain2.iv");
            iv2.Write();
            File.Delete("brain2.iv");


            edges = new vtkExtractEdges();
            edges.SetInputConnection((vtkAlgorithmOutput)triangles.GetOutputPort());
            iv3 = new vtkIVWriter();
            iv3.SetInputConnection((vtkAlgorithmOutput)edges.GetOutputPort());
            iv3.SetFileName((string)"brain3.iv");
            iv3.Write();
            File.Delete("brain3.iv");


            byu = new vtkBYUWriter();
            byu.SetGeometryFileName((string)"brain.g");
            byu.SetScalarFileName((string)"brain.s");
            byu.SetDisplacementFileName((string)"brain.d");
            byu.SetInputConnection((vtkAlgorithmOutput)triangles.GetOutputPort());
            byu.Write();
            File.Delete("brain.g");
            File.Delete("brain.s");
            File.Delete("brain.d");
            mcubes = new vtkMCubesWriter();
            mcubes.SetInputConnection((vtkAlgorithmOutput)triangles.GetOutputPort());
            mcubes.SetFileName((string)"brain.tri");
            mcubes.SetLimitsFileName((string)"brain.lim");
            mcubes.Write();
            File.Delete("brain.lim");
            File.Delete("brain.tri");
            stl = new vtkSTLWriter();
            stl.SetInputConnection((vtkAlgorithmOutput)triangles.GetOutputPort());
            stl.SetFileName((string)"brain.stl");
            stl.Write();
            File.Delete("brain.stl");
            stlBinary = new vtkSTLWriter();
            stlBinary.SetInputConnection((vtkAlgorithmOutput)triangles.GetOutputPort());
            stlBinary.SetFileName((string)"brainBinary.stl");
            stlBinary.SetFileType((int)2);
            stlBinary.Write();
            File.Delete("brainBinary.stl");
        }



//deleteAllVTKObjects();
    }
Exemplo n.º 11
0
 ///<summary> A Set Method for Static Variables </summary>
 public static void SetTetraEdges(vtkExtractEdges toSet)
 {
     TetraEdges = toSet;
 }
Exemplo n.º 12
0
    /// <summary>
    /// The main entry method called by the CSharp driver
    /// </summary>
    /// <param name="argv"></param>
    public static void AVTestRectilinearGridToTetrahedra(String[] argv)
    {
        //Prefix Content is: ""

        //## SetUp the pipeline[]
        FormMesh = new vtkRectilinearGridToTetrahedra();
        FormMesh.SetInput((double)4, (double)2, (double)2, (double)1, (double)1, (double)1, (double)0.001);
        FormMesh.RememberVoxelIdOn();
        TetraEdges = new vtkExtractEdges();
        TetraEdges.SetInputConnection((vtkAlgorithmOutput)FormMesh.GetOutputPort());
        tubes = new vtkTubeFilter();
        tubes.SetInputConnection((vtkAlgorithmOutput)TetraEdges.GetOutputPort());
        tubes.SetRadius((double)0.05);
        tubes.SetNumberOfSides((int)6);
        //## Run the pipeline 3 times, with different conversions to TetMesh[]
        Tubes[0] = new vtkPolyData();
        FormMesh.SetTetraPerCellTo5();
        tubes.Update();
        Tubes[0].DeepCopy((vtkDataObject)tubes.GetOutput());
        Tubes[1] = new vtkPolyData();
        FormMesh.SetTetraPerCellTo6();
        tubes.Update();
        Tubes[1].DeepCopy((vtkDataObject)tubes.GetOutput());
        Tubes[2] = new vtkPolyData();
        FormMesh.SetTetraPerCellTo12();
        tubes.Update();
        Tubes[2].DeepCopy((vtkDataObject)tubes.GetOutput());
        //## Run the pipeline once more, this time converting some cells to[]
        //## 5 and some data to 12 TetMesh[]
        //## Determine which cells are which[]

        DivTypes = new vtkIntArray();
        numCell  = (long)((vtkDataSet)FormMesh.GetInput()).GetNumberOfCells();
        DivTypes.SetNumberOfValues((int)numCell);

        i = 0;
        while ((i) < numCell)
        {
            DivTypes.SetValue((int)i, (int)5 + (7 * (i % 4)));
            i = i + 1;
        }

        //## Finish this pipeline[]
        Tubes[3] = new vtkPolyData();
        FormMesh.SetTetraPerCellTo5And12();
        ((vtkRectilinearGrid)FormMesh.GetInput()).GetCellData().SetScalars(DivTypes);
        tubes.Update();
        Tubes[3].DeepCopy((vtkDataObject)tubes.GetOutput());
        //## Finish the 4 pipelines[]
        i = 1;
        while ((i) < 5)
        {
            mapEdges[i] = vtkPolyDataMapper.New();
            mapEdges[i].SetInputData((vtkPolyData)Tubes[i - 1]);
            edgeActor[i] = new vtkActor();
            edgeActor[i].SetMapper((vtkMapper)mapEdges[i]);
            edgeActor[i].GetProperty().SetColor((double)0.2000, 0.6300, 0.7900);
            edgeActor[i].GetProperty().SetSpecularColor((double)1, (double)1, (double)1);
            edgeActor[i].GetProperty().SetSpecular((double)0.3);
            edgeActor[i].GetProperty().SetSpecularPower((double)20);
            edgeActor[i].GetProperty().SetAmbient((double)0.2);
            edgeActor[i].GetProperty().SetDiffuse((double)0.8);
            ren[i] = vtkRenderer.New();
            ren[i].AddActor((vtkProp)edgeActor[i]);
            ren[i].SetBackground((double)0, (double)0, (double)0);
            ren[i].ResetCamera();
            ren[i].GetActiveCamera().Zoom((double)1);
            ren[i].GetActiveCamera().SetPosition((double)1.73906, (double)12.7987, (double)-0.257808);
            ren[i].GetActiveCamera().SetViewUp((double)0.992444, (double)0.00890284, (double)-0.122379);
            ren[i].GetActiveCamera().SetClippingRange((double)9.36398, (double)15.0496);
            i = i + 1;
        }

        // Create graphics objects[]
        // Create the rendering window, renderer, and interactive renderer[]
        renWin = vtkRenderWindow.New();
        renWin.AddRenderer(ren[1]);
        renWin.AddRenderer(ren[2]);
        renWin.AddRenderer(ren[3]);
        renWin.AddRenderer(ren[4]);
        renWin.SetSize(600, 300);
        iren = new vtkRenderWindowInteractor();
        iren.SetRenderWindow((vtkRenderWindow)renWin);
        // Add the actors to the renderer, set the background and size[]
        ren[1].SetViewport((double).75, (double)0, (double)1, (double)1);
        ren[2].SetViewport((double).50, (double)0, (double).75, (double)1);
        ren[3].SetViewport((double).25, (double)0, (double).50, (double)1);
        ren[4].SetViewport((double)0, (double)0, (double).25, (double)1);
        // render the image[]
        //[]
        iren.Initialize();
        // prevent the tk window from showing up then start the event loop[]

        //deleteAllVTKObjects();
    }