/// <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 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 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();
}
