public static int Main(string[] args) { string filename = args[0]; vtkGDCMImageReader reader = new vtkGDCMImageReader(); vtkStringArray array = vtkStringArray.New(); array.InsertNextValue(filename); reader.SetFileNames(array); reader.Update(); //System.Console.Write(reader.GetOutput()); vtkRenderWindowInteractor iren = vtkRenderWindowInteractor.New(); vtkImageViewer viewer = vtkImageViewer.New(); viewer.SetInput(reader.GetOutput()); viewer.SetupInteractor(iren); viewer.SetSize(600, 600); viewer.Render(); iren.Initialize(); iren.Start(); return(0); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVTestTIFFReader(String [] argv) { //Prefix Content is: "" // Image pipeline[] createReader = new vtkImageReader2Factory(); reader = vtkImageReader2Factory.CreateImageReader2((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/beach.tif"); reader.SetFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/beach.tif"); // "beach.tif" image contains ORIENTATION tag which is [] // ORIENTATION_TOPLEFT (row 0 top, col 0 lhs) type. The TIFF [] // reader parses this tag and sets the internal TIFF image [] // orientation accordingly. To overwrite this orientation with a vtk[] // convention of ORIENTATION_BOTLEFT (row 0 bottom, col 0 lhs ), invoke[] // SetOrientationType method with parameter value of 4.[] ((vtkTIFFReader)reader).SetOrientationType(4); viewer = new vtkImageViewer(); viewer.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); viewer.SetColorWindow((double)256); viewer.SetColorLevel((double)127.5); //make interface[] viewer.Render(); //reader.Unregister(['UnRegister', 'viewer']) Skipped //deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVTestPImageWriter(String [] argv) { //Prefix Content is: "" // Image pipeline[] image1 = new vtkTIFFReader(); image1.SetFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/beach.tif"); // "beach.tif" image contains ORIENTATION tag which is [] // ORIENTATION_TOPLEFT (row 0 top, col 0 lhs) type. The TIFF [] // reader parses this tag and sets the internal TIFF image [] // orientation accordingly. To overwrite this orientation with a vtk[] // convention of ORIENTATION_BOTLEFT (row 0 bottom, col 0 lhs ), invoke[] // SetOrientationType method with parameter value of 4.[] image1.SetOrientationType((uint)4); image1.Update(); //[] // 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"); piw = new vtkPImageWriter(); piw.SetInputConnection((vtkAlgorithmOutput)image1.GetOutputPort()); piw.SetFileName((string)"piw.raw"); piw.SetMemoryLimit((uint)1); piw.Write(); File.Delete("piw.raw"); } viewer = new vtkImageViewer(); viewer.SetInputConnection((vtkAlgorithmOutput)image1.GetOutputPort()); viewer.SetColorWindow((double)255); viewer.SetColorLevel((double)127.5); viewer.Render(); //deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVTestPImageWriter(String [] argv) { //Prefix Content is: "" // Image pipeline[] image1 = new vtkTIFFReader(); image1.SetFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/beach.tif"); // "beach.tif" image contains ORIENTATION tag which is [] // ORIENTATION_TOPLEFT (row 0 top, col 0 lhs) type. The TIFF [] // reader parses this tag and sets the internal TIFF image [] // orientation accordingly. To overwrite this orientation with a vtk[] // convention of ORIENTATION_BOTLEFT (row 0 bottom, col 0 lhs ), invoke[] // SetOrientationType method with parameter value of 4.[] image1.SetOrientationType((uint)4); image1.Update(); //[] // 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"); piw = new vtkPImageWriter(); piw.SetInputConnection((vtkAlgorithmOutput)image1.GetOutputPort()); piw.SetFileName((string)"piw.raw"); piw.SetMemoryLimit((uint)1); piw.Write(); File.Delete("piw.raw"); } viewer = new vtkImageViewer(); viewer.SetInputConnection((vtkAlgorithmOutput)image1.GetOutputPort()); viewer.SetColorWindow((double)255); viewer.SetColorLevel((double)127.5); viewer.Render(); //deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVTestImageStreamer(String [] argv) { //Prefix Content is: "" reader = new vtkImageReader(); reader.ReleaseDataFlagOff(); reader.SetDataByteOrderToLittleEndian(); reader.SetDataExtent((int)0, (int)63, (int)0, (int)63, (int)1, (int)93); reader.SetFilePrefix((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/headsq/quarter"); reader.SetDataMask((int)0x7fff); rangeStart = 0.0; rangeEnd = 0.2; LUT = new vtkLookupTable(); LUT.SetTableRange((double)0, (double)1800); LUT.SetSaturationRange((double)1, (double)1); LUT.SetHueRange((double)rangeStart, (double)rangeEnd); LUT.SetValueRange((double)1, (double)1); LUT.SetAlphaRange((double)1, (double)1); LUT.Build(); // added these unused default arguments so that the prototype[] // matches as required in python.[] //method moved mapToRGBA = new vtkImageMapToColors(); mapToRGBA.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); mapToRGBA.SetOutputFormatToRGBA(); mapToRGBA.SetLookupTable((vtkScalarsToColors)LUT); mapToRGBA.EndEvt += new Kitware.VTK.vtkObject.vtkObjectEventHandler(changeLUT_Command.Execute); streamer = new vtkMemoryLimitImageDataStreamer(); streamer.SetInputConnection((vtkAlgorithmOutput)mapToRGBA.GetOutputPort()); streamer.SetMemoryLimit((uint)100); streamer.UpdateWholeExtent(); // set the window/level to 255.0/127.5 to view full range[] viewer = new vtkImageViewer(); viewer.SetInputConnection((vtkAlgorithmOutput)streamer.GetOutputPort()); viewer.SetColorWindow((double)255.0); viewer.SetColorLevel((double)127.5); viewer.SetZSlice((int)50); viewer.Render(); //deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVTestImageStreamer(String [] argv) { //Prefix Content is: "" reader = new vtkImageReader(); reader.ReleaseDataFlagOff(); reader.SetDataByteOrderToLittleEndian(); reader.SetDataExtent((int)0,(int)63,(int)0,(int)63,(int)1,(int)93); reader.SetFilePrefix((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/headsq/quarter"); reader.SetDataMask((int)0x7fff); rangeStart = 0.0; rangeEnd = 0.2; LUT = new vtkLookupTable(); LUT.SetTableRange((double)0,(double)1800); LUT.SetSaturationRange((double)1,(double)1); LUT.SetHueRange((double)rangeStart,(double)rangeEnd); LUT.SetValueRange((double)1,(double)1); LUT.SetAlphaRange((double)1,(double)1); LUT.Build(); // added these unused default arguments so that the prototype[] // matches as required in python.[] //method moved mapToRGBA = new vtkImageMapToColors(); mapToRGBA.SetInputConnection((vtkAlgorithmOutput)reader.GetOutputPort()); mapToRGBA.SetOutputFormatToRGBA(); mapToRGBA.SetLookupTable((vtkScalarsToColors)LUT); mapToRGBA.EndEvt += new Kitware.VTK.vtkObject.vtkObjectEventHandler(changeLUT_Command.Execute); streamer = new vtkMemoryLimitImageDataStreamer(); streamer.SetInputConnection((vtkAlgorithmOutput)mapToRGBA.GetOutputPort()); streamer.SetMemoryLimit((uint)100); streamer.UpdateWholeExtent(); // set the window/level to 255.0/127.5 to view full range[] viewer = new vtkImageViewer(); viewer.SetInputConnection((vtkAlgorithmOutput)streamer.GetOutputPort()); viewer.SetColorWindow((double)255.0); viewer.SetColorLevel((double)127.5); viewer.SetZSlice((int)50); viewer.Render(); //deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVTestImageWriters(String [] argv) { //Prefix Content is: "" // Image pipeline[] image1 = new vtkTIFFReader(); image1.SetFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/beach.tif"); // "beach.tif" image contains ORIENTATION tag which is [] // ORIENTATION_TOPLEFT (row 0 top, col 0 lhs) type. The TIFF [] // reader parses this tag and sets the internal TIFF image [] // orientation accordingly. To overwrite this orientation with a vtk[] // convention of ORIENTATION_BOTLEFT (row 0 bottom, col 0 lhs ), invoke[] // SetOrientationType method with parameter value of 4.[] image1.SetOrientationType((uint)4); image1.Update(); sp = new vtkStructuredPoints(); sp.SetDimensions(image1.GetOutput().GetDimensions()[0], image1.GetOutput().GetDimensions()[1], image1.GetOutput().GetDimensions()[2]); sp.SetExtent( image1.GetOutput().GetExtent()[0], image1.GetOutput().GetExtent()[1], image1.GetOutput().GetExtent()[2], image1.GetOutput().GetExtent()[3], image1.GetOutput().GetExtent()[4], image1.GetOutput().GetExtent()[5]); //sp.SetScalarType((int)image1.GetOutput().GetScalarType()); //sp.SetNumberOfScalarComponents((int)image1.GetOutput().GetNumberOfScalarComponents()); vtkDataObject.SetPointDataActiveScalarInfo(sp.GetInformation(), (int)image1.GetOutput().GetScalarType(), (int)image1.GetOutput().GetNumberOfScalarComponents()); sp.GetPointData().SetScalars((vtkDataArray)image1.GetOutput().GetPointData().GetScalars()); luminance = new vtkImageLuminance(); luminance.SetInputData((vtkDataObject)sp); //[] // write to the temp directory if possible, otherwise use .[] //[] dir = "."; dir = TclToCsScriptTestDriver.GetTempDirectory(); // make sure it is writeable first[] try { channel = new StreamWriter("" + (dir.ToString()) + "/test.tmp"); tryCatchError = "NOERROR"; } catch (Exception) { tryCatchError = "ERROR"; } if (tryCatchError.Equals("NOERROR")) { channel.Close(); File.Delete("" + (dir.ToString()) + "/test.tmp"); tiff1 = new vtkTIFFWriter(); tiff1.SetInputConnection((vtkAlgorithmOutput)image1.GetOutputPort()); tiff1.SetFileName((string)"" + (dir.ToString()) + "/tiff1.tif"); tiff2 = new vtkTIFFWriter(); tiff2.SetInputConnection((vtkAlgorithmOutput)luminance.GetOutputPort()); tiff2.SetFileName((string)"" + (dir.ToString()) + "/tiff2.tif"); bmp1 = new vtkBMPWriter(); bmp1.SetInputConnection((vtkAlgorithmOutput)image1.GetOutputPort()); bmp1.SetFileName((string)"" + (dir.ToString()) + "/bmp1.bmp"); bmp2 = new vtkBMPWriter(); bmp2.SetInputConnection((vtkAlgorithmOutput)luminance.GetOutputPort()); bmp2.SetFileName((string)"" + (dir.ToString()) + "/bmp2.bmp"); pnm1 = new vtkPNMWriter(); pnm1.SetInputConnection((vtkAlgorithmOutput)image1.GetOutputPort()); pnm1.SetFileName((string)"" + (dir.ToString()) + "/pnm1.pnm"); pnm2 = new vtkPNMWriter(); pnm2.SetInputConnection((vtkAlgorithmOutput)luminance.GetOutputPort()); pnm2.SetFileName((string)"" + (dir.ToString()) + "/pnm2.pnm"); psw1 = new vtkPostScriptWriter(); psw1.SetInputConnection((vtkAlgorithmOutput)image1.GetOutputPort()); psw1.SetFileName((string)"" + (dir.ToString()) + "/psw1.ps"); psw2 = new vtkPostScriptWriter(); psw2.SetInputConnection((vtkAlgorithmOutput)luminance.GetOutputPort()); psw2.SetFileName((string)"" + (dir.ToString()) + "/psw2.ps"); pngw1 = new vtkPNGWriter(); pngw1.SetInputConnection((vtkAlgorithmOutput)image1.GetOutputPort()); pngw1.SetFileName((string)"" + (dir.ToString()) + "/pngw1.png"); pngw2 = new vtkPNGWriter(); pngw2.SetInputConnection((vtkAlgorithmOutput)luminance.GetOutputPort()); pngw2.SetFileName((string)"" + (dir.ToString()) + "/pngw2.png"); jpgw1 = new vtkJPEGWriter(); jpgw1.SetInputConnection((vtkAlgorithmOutput)image1.GetOutputPort()); jpgw1.SetFileName((string)"" + (dir.ToString()) + "/jpgw1.jpg"); jpgw2 = new vtkJPEGWriter(); jpgw2.SetInputConnection((vtkAlgorithmOutput)luminance.GetOutputPort()); jpgw2.SetFileName((string)"" + (dir.ToString()) + "/jpgw2.jpg"); tiff1.Write(); tiff2.Write(); bmp1.Write(); bmp2.Write(); pnm1.Write(); pnm2.Write(); psw1.Write(); psw2.Write(); pngw1.Write(); pngw2.Write(); jpgw1.Write(); jpgw2.Write(); File.Delete("" + (dir.ToString()) + "/tiff1.tif"); File.Delete("" + (dir.ToString()) + "/tiff2.tif"); File.Delete("" + (dir.ToString()) + "/bmp1.bmp"); File.Delete("" + (dir.ToString()) + "/bmp2.bmp"); File.Delete("" + (dir.ToString()) + "/pnm1.pnm"); File.Delete("" + (dir.ToString()) + "/pnm2.pnm"); File.Delete("" + (dir.ToString()) + "/psw1.ps"); File.Delete("" + (dir.ToString()) + "/psw2.ps"); File.Delete("" + (dir.ToString()) + "/pngw1.png"); File.Delete("" + (dir.ToString()) + "/pngw2.png"); File.Delete("" + (dir.ToString()) + "/jpgw1.jpg"); File.Delete("" + (dir.ToString()) + "/jpgw2.jpg"); } viewer = new vtkImageViewer(); viewer.SetInputConnection((vtkAlgorithmOutput)luminance.GetOutputPort()); viewer.SetColorWindow((double)255); viewer.SetColorLevel((double)127.5); viewer.Render(); //deleteAllVTKObjects(); }
/// <summary> /// The main entry method called by the CSharp driver /// </summary> /// <param name="argv"></param> public static void AVTestImageWriters(String [] argv) { //Prefix Content is: "" // Image pipeline[] image1 = new vtkTIFFReader(); image1.SetFileName((string)"" + (VTK_DATA_ROOT.ToString()) + "/Data/beach.tif"); // "beach.tif" image contains ORIENTATION tag which is [] // ORIENTATION_TOPLEFT (row 0 top, col 0 lhs) type. The TIFF [] // reader parses this tag and sets the internal TIFF image [] // orientation accordingly. To overwrite this orientation with a vtk[] // convention of ORIENTATION_BOTLEFT (row 0 bottom, col 0 lhs ), invoke[] // SetOrientationType method with parameter value of 4.[] image1.SetOrientationType((uint)4); image1.Update(); sp = new vtkStructuredPoints(); sp.SetDimensions(image1.GetOutput().GetDimensions()[0],image1.GetOutput().GetDimensions()[1],image1.GetOutput().GetDimensions()[2]); sp.SetExtent( image1.GetOutput().GetExtent()[0], image1.GetOutput().GetExtent()[1], image1.GetOutput().GetExtent()[2], image1.GetOutput().GetExtent()[3], image1.GetOutput().GetExtent()[4], image1.GetOutput().GetExtent()[5]); //sp.SetScalarType((int)image1.GetOutput().GetScalarType()); //sp.SetNumberOfScalarComponents((int)image1.GetOutput().GetNumberOfScalarComponents()); vtkDataObject.SetPointDataActiveScalarInfo(sp.GetInformation(), (int)image1.GetOutput().GetScalarType(), (int)image1.GetOutput().GetNumberOfScalarComponents()); sp.GetPointData().SetScalars((vtkDataArray)image1.GetOutput().GetPointData().GetScalars()); luminance = new vtkImageLuminance(); luminance.SetInputData((vtkDataObject)sp); //[] // write to the temp directory if possible, otherwise use .[] //[] dir = "."; dir = TclToCsScriptTestDriver.GetTempDirectory(); // make sure it is writeable first[] try { channel = new StreamWriter("" + (dir.ToString()) + "/test.tmp"); tryCatchError = "NOERROR"; } catch(Exception) {tryCatchError = "ERROR";} if(tryCatchError.Equals("NOERROR")) { channel.Close(); File.Delete("" + (dir.ToString()) + "/test.tmp"); tiff1 = new vtkTIFFWriter(); tiff1.SetInputConnection((vtkAlgorithmOutput)image1.GetOutputPort()); tiff1.SetFileName((string)"" + (dir.ToString()) + "/tiff1.tif"); tiff2 = new vtkTIFFWriter(); tiff2.SetInputConnection((vtkAlgorithmOutput)luminance.GetOutputPort()); tiff2.SetFileName((string)"" + (dir.ToString()) + "/tiff2.tif"); bmp1 = new vtkBMPWriter(); bmp1.SetInputConnection((vtkAlgorithmOutput)image1.GetOutputPort()); bmp1.SetFileName((string)"" + (dir.ToString()) + "/bmp1.bmp"); bmp2 = new vtkBMPWriter(); bmp2.SetInputConnection((vtkAlgorithmOutput)luminance.GetOutputPort()); bmp2.SetFileName((string)"" + (dir.ToString()) + "/bmp2.bmp"); pnm1 = new vtkPNMWriter(); pnm1.SetInputConnection((vtkAlgorithmOutput)image1.GetOutputPort()); pnm1.SetFileName((string)"" + (dir.ToString()) + "/pnm1.pnm"); pnm2 = new vtkPNMWriter(); pnm2.SetInputConnection((vtkAlgorithmOutput)luminance.GetOutputPort()); pnm2.SetFileName((string)"" + (dir.ToString()) + "/pnm2.pnm"); psw1 = new vtkPostScriptWriter(); psw1.SetInputConnection((vtkAlgorithmOutput)image1.GetOutputPort()); psw1.SetFileName((string)"" + (dir.ToString()) + "/psw1.ps"); psw2 = new vtkPostScriptWriter(); psw2.SetInputConnection((vtkAlgorithmOutput)luminance.GetOutputPort()); psw2.SetFileName((string)"" + (dir.ToString()) + "/psw2.ps"); pngw1 = new vtkPNGWriter(); pngw1.SetInputConnection((vtkAlgorithmOutput)image1.GetOutputPort()); pngw1.SetFileName((string)"" + (dir.ToString()) + "/pngw1.png"); pngw2 = new vtkPNGWriter(); pngw2.SetInputConnection((vtkAlgorithmOutput)luminance.GetOutputPort()); pngw2.SetFileName((string)"" + (dir.ToString()) + "/pngw2.png"); jpgw1 = new vtkJPEGWriter(); jpgw1.SetInputConnection((vtkAlgorithmOutput)image1.GetOutputPort()); jpgw1.SetFileName((string)"" + (dir.ToString()) + "/jpgw1.jpg"); jpgw2 = new vtkJPEGWriter(); jpgw2.SetInputConnection((vtkAlgorithmOutput)luminance.GetOutputPort()); jpgw2.SetFileName((string)"" + (dir.ToString()) + "/jpgw2.jpg"); tiff1.Write(); tiff2.Write(); bmp1.Write(); bmp2.Write(); pnm1.Write(); pnm2.Write(); psw1.Write(); psw2.Write(); pngw1.Write(); pngw2.Write(); jpgw1.Write(); jpgw2.Write(); File.Delete("" + (dir.ToString()) + "/tiff1.tif"); File.Delete("" + (dir.ToString()) + "/tiff2.tif"); File.Delete("" + (dir.ToString()) + "/bmp1.bmp"); File.Delete("" + (dir.ToString()) + "/bmp2.bmp"); File.Delete("" + (dir.ToString()) + "/pnm1.pnm"); File.Delete("" + (dir.ToString()) + "/pnm2.pnm"); File.Delete("" + (dir.ToString()) + "/psw1.ps"); File.Delete("" + (dir.ToString()) + "/psw2.ps"); File.Delete("" + (dir.ToString()) + "/pngw1.png"); File.Delete("" + (dir.ToString()) + "/pngw2.png"); File.Delete("" + (dir.ToString()) + "/jpgw1.jpg"); File.Delete("" + (dir.ToString()) + "/jpgw2.jpg"); } viewer = new vtkImageViewer(); viewer.SetInputConnection((vtkAlgorithmOutput)luminance.GetOutputPort()); viewer.SetColorWindow((double)255); viewer.SetColorLevel((double)127.5); viewer.Render(); //deleteAllVTKObjects(); }