X-Git-Url: https://git.creatis.insa-lyon.fr/pubgit/?a=blobdiff_plain;f=vtk%2FvtkgdcmViewer.cxx;h=3f64b40b02ff95ccde180c0206b822613959b4c9;hb=05a31743c6545f03a9841531f2d54b7b1552e681;hp=ee88261794c730c7941e17ca355291bf2e80f6d4;hpb=5fcb16fce39e0e37cc978e30b02b84562276c64e;p=gdcm.git diff --git a/vtk/vtkgdcmViewer.cxx b/vtk/vtkgdcmViewer.cxx index ee882617..3f64b40b 100644 --- a/vtk/vtkgdcmViewer.cxx +++ b/vtk/vtkgdcmViewer.cxx @@ -1,30 +1,113 @@ +// This example illustrates how the vtkGdcmReader vtk class can be +// used in order to: +// * produce a simple (vtk based) Dicom image STACK VIEWER. +// * dump the stack considered as a volume in a vtkStructuredPoints +// vtk file: the vtk gdcm wrappers can be seen as a simple way to convert +// a stack of Dicom images into a native vtk volume. +// +// Usage: +// * the filenames of the Dicom images constituting the stack should be +// given as command line arguments, +// * you can navigate through the stack by hitting any character key, +// * the produced vtk file is named "foo.vtk" (in the invocation directory). +// +//---------------------------------------------------------------------------- +#include + #include #include #include #include +#include +#include +#include +#include #include "vtkGdcmReader.h" -int main(int argc, char *argv[]) +#ifndef vtkFloatingPointType +#define vtkFloatingPointType float +#endif + +//---------------------------------------------------------------------------- +// Callback for the interaction +class vtkgdcmObserver : public vtkCommand { + public: + virtual char const *GetClassName() const { return "vtkgdcmObserver";} + static vtkgdcmObserver *New() + { return new vtkgdcmObserver; } + vtkgdcmObserver() + { + this->ImageViewer = NULL; + } + virtual void Execute(vtkObject *, unsigned long event, void* ) + { + if ( this->ImageViewer ) + { + if ( event == vtkCommand::CharEvent ) + { + int max = ImageViewer->GetWholeZMax(); + int slice = (ImageViewer->GetZSlice() + 1 ) % ++max; + ImageViewer->SetZSlice( slice ); + ImageViewer->GetRenderer()->ResetCameraClippingRange(); + ImageViewer->Render(); + } + } + } + vtkImageViewer2 *ImageViewer; +}; + +int main(int argc, char *argv[]) +{ + if( argc < 2 ) + return 0; + vtkGdcmReader *reader = vtkGdcmReader::New(); - reader->SetFileName( argv[1] ); - //reader->DebugOn(); + reader->AllowLookupTableOff(); + + if( argc == 2 ) + reader->SetFileName( argv[1] ); + else + for(int i=1; i< argc; i++) + reader->AddFileName( argv[i] ); + + reader->DebugOn(); reader->Update(); //print debug info: - reader->GetOutput()->Print( std::cout ); + reader->GetOutput()->Print( cout ); vtkRenderWindowInteractor *iren = vtkRenderWindowInteractor::New(); vtkImageViewer2 *viewer = vtkImageViewer2::New(); - viewer->SetInput ( reader->GetOutput() ); + + if( reader->GetLookupTable() ) + { + //convert to color: + vtkImageMapToColors *map = vtkImageMapToColors::New (); + map->SetInput (reader->GetOutput()); + map->SetLookupTable (reader->GetLookupTable()); + map->SetOutputFormatToRGB(); + viewer->SetInput ( map->GetOutput() ); + map->Delete(); + } + else + { + viewer->SetInput ( reader->GetOutput() ); + } viewer->SetupInteractor (iren); - float *range = reader->GetOutput()->GetScalarRange(); - viewer->SetColorWindow (range[1] - range[0]); - viewer->SetColorLevel (0.5 * (range[1] + range[0])); + //vtkFloatingPointType *range = reader->GetOutput()->GetScalarRange(); + //viewer->SetColorWindow (range[1] - range[0]); + //viewer->SetColorLevel (0.5 * (range[1] + range[0])); + + // Here is where we setup the observer, + vtkgdcmObserver *obs = vtkgdcmObserver::New(); + obs->ImageViewer = viewer; + iren->AddObserver(vtkCommand::CharEvent,obs); + obs->Delete(); iren->Initialize(); iren->Start();