+ for (i=0 ; i<sizeLstNameThings ; i++)
+ {
+ kernelManager->SaveThingName( pFile, pFileData, lstNameThings[i] );
+ _theViewPanel->getSceneManager()->SaveThingName( pFile, lstNameThings[i] );
+ }// for i
+ fclose(pFile);
+ fclose(pFileData);
+}
+
+
+//EED02
+void wxContourMainFrame::readDimSpc(FILE *pFile, bool interactiveOption)
+{
+ char tmp[255];
+ int imageDim[3];
+ double imageSpac[3];
+ vtkImageData *image = _images[0];
+ image->GetDimensions(imageDim);
+ image->GetSpacing(imageSpac);
+
+ fscanf(pFile,"%s",tmp); // ImageDimensions
+ fscanf(pFile,"%s",tmp); // X
+ _tmpReadFileImageDim[0] = atoi(tmp);
+ fscanf(pFile,"%s",tmp); // Y
+ _tmpReadFileImageDim[1] = atoi(tmp);
+ fscanf(pFile,"%s",tmp); // Z
+ _tmpReadFileImageDim[2] = atoi(tmp);
+
+ fscanf(pFile,"%s",tmp); // ImageSpacing
+ fscanf(pFile,"%s",tmp); // X
+ _tmpReadFileImageSpac[0] = atof(tmp);
+ fscanf(pFile,"%s",tmp); // Y
+ _tmpReadFileImageSpac[1] = atof(tmp);
+ fscanf(pFile,"%s",tmp); // Z
+ _tmpReadFileImageSpac[2] = atof(tmp);
+
+
+ if (interactiveOption==true)
+ {
+ //Compare Spacing and Dims in X and Y (Necessary in Z?) - Just for Version 2
+ if (imageDim[0]!=_tmpReadFileImageDim[0] || imageDim[1]!=_tmpReadFileImageDim[1] || imageSpac[0]!=_tmpReadFileImageSpac[0] || imageSpac[1]!=_tmpReadFileImageSpac[1])
+ {
+ wxDialog* dial = new wxDialog (this,-1,_T("Tools"),wxDefaultPosition, wxSize(260,160));
+ wxSizer* buttonsSizer = dial->CreateSeparatedButtonSizer(wxOK|wxCANCEL);
+ wxBoxSizer *dialSizer = new wxBoxSizer(wxVERTICAL);
+
+ wxString lstOptOperation[2];
+ lstOptOperation[0]=_T("By Dimension");
+ lstOptOperation[1]=_T("By Spacing");
+ wxRadioBox * radioOpts = new wxRadioBox(dial, -1, _T("Type of Transformation"), wxDefaultPosition, wxSize(270,45), 2 , lstOptOperation, 2, wxRA_SPECIFY_COLS);
+
+ dialSizer->Add( new wxStaticText(dial,-1,_T("The image resolution is not compatible with the ")) , 0, wxGROW );
+ dialSizer->Add( new wxStaticText(dial,-1,_T("selected Roi file. Do you want to tranform it?")) , 0, wxGROW );
+ dialSizer->Add( new wxStaticText(dial,-1,_T(" ")) , 0, wxGROW );
+ dialSizer->Add(radioOpts,0,wxGROW);
+ dialSizer->Add( new wxStaticText(dial,-1,_T(" ")) , 0, wxGROW );
+ dialSizer->Add(buttonsSizer,0,wxGROW);
+ dial->SetSizer(dialSizer, true);
+ dial->Layout();
+ dial->ShowModal();
+
+ int _tmpReadFileTypeOfTransformation = -1;
+//EED bool transform = false;
+
+ if (dial->GetReturnCode() == wxID_OK)
+ {
+ _tmpReadFileTypeOfTransformation = radioOpts->GetSelection();
+ }// if wxOK
+
+ } // if dim spc
+ } // if interactiveOption
+}
+
+
+
+
+//AD:04-06-09
+void wxContourMainFrame::openContours( FILE *pFile, FILE *pFileData, bool staticContour )
+{
+
+ char tmp[255];
+
+ vtkImageData *image = _images[0];
+
+ int imageDim[3];
+ double imageSpac[3];
+ image->GetDimensions(imageDim);
+ image->GetSpacing(imageSpac);
+
+
+ fscanf(pFile,"%s",tmp); // NumberOfContours
+ fscanf(pFile,"%s",tmp); // ##
+ int numberOfContours = atoi(tmp);
+
+ std::vector<int> instantVector;
+ int typeContourModel;
+ manualBaseModel *manModelContour;
+ int typeView;
+
+/*
+ if (compatible==true)
+ {
+ int i;
+ for (i=0;i<numberOfContours;i++)
+ {
+ instantVector.clear();
+ fscanf(pFile,"%s",tmp); // Instant
+
+ fscanf(pFile,"%s",tmp); // 1
+ instantVector.push_back( atoi(tmp) );
+ fscanf(pFile,"%s",tmp); // 2
+ instantVector.push_back( atoi(tmp) );
+ fscanf(pFile,"%s",tmp); // 3
+ instantVector.push_back( atoi(tmp) );
+ fscanf(pFile,"%s",tmp); // 4
+ instantVector.push_back( atoi(tmp) );
+ fscanf(pFile,"%s",tmp); // 5
+ instantVector.push_back( atoi(tmp) );
+ fscanf(pFile,"%s",tmp); // 6
+ instantVector.push_back( atoi(tmp) );
+
+
+ fscanf(pFile,"%s",tmp); // TypeContourModel
+ fscanf(pFile,"%s",tmp); // ##
+ typeContourModel = atoi(tmp);
+
+ manModelContour = kernelManager->factoryManualContourModel(typeContourModel);
+ manModelContour->Open(pFile);
+ if(pFileData != NULL)
+ {
+ manModelContour->OpenData(pFileData);
+ }
+
+ fscanf(pFile,"%s",tmp); // TypeView
+ fscanf(pFile,"%s",tmp); // ##
+ typeView = atoi(tmp);
+
+ std::string theName;
+ theName = kernelManager->createOutline( manModelContour, instantVector );
+ bool addedModel = theName.compare("") != 0;
+ if( addedModel )
+ {
+ double spc[3];//Si no hay imagen pero hay contornos que spacing se pone por default
+ _theViewPanel->getSpacing(spc);
+ //Adding the manualContourControler to interface objects structure
+ //Adding the manualViewContour to interface objects structure
+ //_theViewPanel->getSceneManager()->setControlActiveStateOfALL( false );//This call is being done here because if the ROI is created underneath the previously created ROIS will still be active.
+ _theViewPanel->getSceneManager()->configureViewControlTo( theName, manModelContour,spc , typeView) ;
+ }
+
+ if (staticContour) //StaticContours (will appear in all slices)
+ {
+ Instant instant(&instantVector);
+ kernelManager->changeContourOfManager( theName , &instant );
+ }
+
+ }// for numberOfContours
+ }
+
+ else if (compatible==false)
+ {
+*/
+
+ int i;
+ for (i=0;i<numberOfContours;i++)
+ {
+ instantVector.clear();
+ fscanf(pFile,"%s",tmp); // Instant
+
+ fscanf(pFile,"%s",tmp); // 1
+ instantVector.push_back( atoi(tmp) );
+ fscanf(pFile,"%s",tmp); // 2
+ instantVector.push_back( atoi(tmp) );
+ fscanf(pFile,"%s",tmp); // 3
+ instantVector.push_back( atoi(tmp) );
+ fscanf(pFile,"%s",tmp); // 4
+ instantVector.push_back( atoi(tmp) );
+ fscanf(pFile,"%s",tmp); // 5
+ instantVector.push_back( atoi(tmp) );
+ fscanf(pFile,"%s",tmp); // 6
+ instantVector.push_back( atoi(tmp) );
+
+ fscanf(pFile,"%s",tmp); // TypeContourModel
+ fscanf(pFile,"%s",tmp); // ##
+ typeContourModel = atoi(tmp);
+
+ manModelContour = kernelManager->factoryManualContourModel(typeContourModel);
+ manModelContour->Open(pFile);
+ if(pFileData != NULL)
+ {
+ manModelContour->OpenData(pFileData);
+ }
+
+ if (_tmpReadFileTypeOfTransformation==-1){
+ //nothing to do..
+ } else if (_tmpReadFileTypeOfTransformation==0){
+ double transX, transY;
+ transX = (double) imageDim[0]/_tmpReadFileImageDim[0];
+ transY = (double) imageDim[1]/_tmpReadFileImageDim[1];
+ manModelContour->Transform_Ax_Plus_B(transX,0,transY,0);
+ } else if (_tmpReadFileTypeOfTransformation==1) {
+ double transX, transY;
+ transX = (double) _tmpReadFileImageSpac[0]/imageDim[0];
+ transY = (double) _tmpReadFileImageSpac[1]/imageDim[1];
+ manModelContour->Transform_Ax_Plus_B(transX,0,transY,0);
+ }
+
+ fscanf(pFile,"%s",tmp); // TypeView
+ fscanf(pFile,"%s",tmp); // ##
+ typeView = atoi(tmp);
+
+ std::string theName;
+ theName = kernelManager->createOutline( manModelContour, instantVector );
+ bool addedModel = theName.compare("") != 0;
+ if( addedModel )
+ {
+ double spc[3];//Si no hay imagen pero hay contornos que spacing se pone por default
+ _theViewPanel->getSpacing(spc);
+ //Adding the manualContourControler to interface objects structure
+ //Adding the manualViewContour to interface objects structure
+ //_theViewPanel->getSceneManager()->setControlActiveStateOfALL( false );//This call is being done here because if the ROI is created underneath the previously created ROIS will still be active.
+ _theViewPanel->getSceneManager()->configureViewControlTo( theName, manModelContour,spc , typeView) ;
+ }
+
+ if (staticContour) //StaticContours (will appear in all slices)
+ {
+ Instant instant(&instantVector);
+ kernelManager->changeContourOfManager( theName , &instant );
+ }
+ }// for numberOfContours
+
+/* } */
+
+}
+
+void wxContourMainFrame::RefreshInterface(){
+ changeInstant();
+ _theViewPanel->RefreshInterface();
+ //wxVtk2DBaseView *wxvtk2dbaseview = (wxVtk2DBaseView*)this->_theViewPanel->getWxVtkBaseView();
+ //wxvtk2dbaseview->Refresh();
+}
+
+vtkImageData* wxContourMainFrame::getImageData(){
+ return _theViewPanel->getImageData();
+}
+
+void wxContourMainFrame::onSegmentationOneSliceITK(wxString distance, wxString sigma, wxString alfa, wxString beta, wxString propagation, wxString iterations, wxString inflation)
+{
+ //JCP 20-10-08 Undo redo implementation
+ saveState();
+ //JCP 20-10-08 Undo redo implementation
+
+ wxBusyCursor wait;
+ int x = _theViewPanel->GetX();
+ int y = _theViewPanel->GetY();
+ int z = _theViewPanel->GetZ();
+ SegmentationOneSliceITK( x,y,z,distance, sigma, alfa, beta, propagation, iterations, inflation);
+ RefreshInterface();
+}
+
+void wxContourMainFrame::SegmentationOneSliceITK(int x, int y, int z, wxString distanc, wxString sigm, wxString alf, wxString bet, wxString prop, wxString iter, wxString inflation)
+{
+ int typeofcontour = 1;
+ //Image Data
+ vtkImageData *imagedata = getImageData();
+
+ //Tipo de pixeles a utilizar internamente en ITK
+ typedef float InternalPixelType;
+ const unsigned int Dimension = 2;
+ typedef itk::Image< InternalPixelType, Dimension > InternalImageType;
+
+ //Tipo de pixeles de salida 1
+ typedef unsigned char OutputPixelType;
+ typedef itk::Image< OutputPixelType, Dimension > OutputImageType;
+
+ //Tipo de pixeles de salida 2
+ typedef unsigned short OutputPixelType2;
+ typedef itk::Image< OutputPixelType2, Dimension > OutputImageType2;
+
+ //DefiniciÛn del thresholder
+ typedef itk::BinaryThresholdImageFilter<
+ InternalImageType,
+ OutputImageType > ThresholdingFilterType;
+
+ //DefiniciÛn del primer filtro de conversiÛn de pixeles
+ typedef itk::CastImageFilter<
+ OutputImageType, OutputImageType2 > CastFilterType;
+
+ //DefiniciÛn del segundo tipo de conversiÛn de pixeles
+ typedef itk::CastImageFilter<
+ OutputImageType2, InternalImageType > CastFilterType2;
+
+ //Tercer tipo de conversiÛn
+ typedef itk::RescaleIntensityImageFilter<
+ InternalImageType,
+ OutputImageType > CastFilterType3;
+
+ //Cuarto tipo de conversiÛn
+ typedef itk::RescaleIntensityImageFilter<
+ OutputImageType,
+ OutputImageType > CastFilterType4;
+
+ ThresholdingFilterType::Pointer thresholder = ThresholdingFilterType::New();
+
+ thresholder->SetLowerThreshold( 0.0 );
+ thresholder->SetUpperThreshold( 128 );
+
+ thresholder->SetOutsideValue( 255 );
+ thresholder->SetInsideValue( 0 );
+
+ //DefinciÛn de conexiÛnes entre VTK e ITK y el writer
+ typedef itk::VTKImageToImageFilter<OutputImageType2> ConnectorType;
+ typedef itk::ImageToVTKImageFilter<OutputImageType> ConnectorType2;
+ typedef itk::ImageFileWriter< OutputImageType > WriterType;
+
+ ConnectorType::Pointer connector= ConnectorType::New();
+ ConnectorType2::Pointer connector2= ConnectorType2::New();
+
+
+ CastFilterType::Pointer filter=CastFilterType::New();
+ CastFilterType2::Pointer filter2=CastFilterType2::New();
+
+ connector->SetInput( imagedata );
+ filter2->SetInput(connector->GetOutput());
+
+ typedef itk::CurvatureAnisotropicDiffusionImageFilter<
+ InternalImageType,
+ InternalImageType > SmoothingFilterType;
+
+ SmoothingFilterType::Pointer smoothing = SmoothingFilterType::New();
+
+ typedef itk::GradientMagnitudeRecursiveGaussianImageFilter<
+ InternalImageType,
+ InternalImageType > GradientFilterType;
+
+ typedef itk::SigmoidImageFilter<
+ InternalImageType,
+ InternalImageType > SigmoidFilterType;
+
+ GradientFilterType::Pointer gradientMagnitude = GradientFilterType::New();
+
+ SigmoidFilterType::Pointer sigmoid = SigmoidFilterType::New();
+
+ sigmoid->SetOutputMinimum( 0.0 );
+ sigmoid->SetOutputMaximum( 255.0 );
+
+
+ typedef itk::FastMarchingImageFilter<
+ InternalImageType,
+ InternalImageType > FastMarchingFilterType;
+
+
+ FastMarchingFilterType::Pointer fastMarching = FastMarchingFilterType::New();
+
+ typedef itk::GeodesicActiveContourLevelSetImageFilter< InternalImageType,
+ InternalImageType > GeodesicActiveContourFilterType;
+ GeodesicActiveContourFilterType::Pointer geodesicActiveContour =
+ GeodesicActiveContourFilterType::New();
+
+ typedef itk::ZeroCrossingImageFilter<
+ InternalImageType,
+ InternalImageType > ZeroCrossingFilterType;
+ ZeroCrossingFilterType::Pointer zeroCrossing =
+ ZeroCrossingFilterType::New();
+
+ const double propagationScaling = atof( crea::wx2std(prop).c_str() );
+
+ geodesicActiveContour->SetPropagationScaling( propagationScaling );
+ geodesicActiveContour->SetCurvatureScaling( 1.0 );
+ geodesicActiveContour->SetAdvectionScaling( 1.0 );
+
+ geodesicActiveContour->SetMaximumRMSError( 0.02 );
+ int it=atoi( crea::wx2std(iter).c_str() );
+ geodesicActiveContour->SetNumberOfIterations( it );
+
+ smoothing->SetInput( filter2->GetOutput() );
+ gradientMagnitude->SetInput( smoothing->GetOutput() );
+ sigmoid->SetInput( gradientMagnitude->GetOutput() );
+ fastMarching->SetInput( sigmoid->GetOutput() );
+ geodesicActiveContour->SetInput( fastMarching->GetOutput() );
+ geodesicActiveContour->SetFeatureImage( sigmoid->GetOutput() );
+
+ zeroCrossing->SetInput( geodesicActiveContour->GetOutput() );
+ //thresholder->SetInput( zeroCrossing->GetOutput() );
+ thresholder->SetInput( geodesicActiveContour->GetOutput() );
+ connector2->SetInput( thresholder->GetOutput() );
+
+
+ smoothing->SetTimeStep( 0.125 );
+ smoothing->SetNumberOfIterations( 5 );
+ smoothing->SetConductanceParameter( 9.0 );
+
+
+ const double sigma = atof( crea::wx2std(sigm).c_str() );
+ gradientMagnitude->SetSigma( sigma );
+
+ const double alpha = atof( crea::wx2std(alf).c_str() );
+ const double beta = atof( crea::wx2std(bet).c_str() );
+
+ sigmoid->SetAlpha( alpha );
+ sigmoid->SetBeta( beta );
+
+ typedef FastMarchingFilterType::NodeContainer NodeContainer;
+ typedef FastMarchingFilterType::NodeType NodeType;
+
+ NodeContainer::Pointer seeds = NodeContainer::New();
+
+ InternalImageType::IndexType seedPosition;
+ seedPosition[0] = x;
+ seedPosition[1] = y;
+
+ const double initialDistance = atof( crea::wx2std(distanc).c_str() );
+
+ NodeType node;
+
+ const double seedValue = - initialDistance;
+
+ node.SetValue( seedValue );
+ node.SetIndex( seedPosition );
+
+ seeds->Initialize();
+ seeds->InsertElement( 0, node );
+
+ fastMarching->SetTrialPoints( seeds );
+
+ fastMarching->SetSpeedConstant( 1.0 );
+
+ fastMarching->SetOutputSize(
+ connector->GetOutput()->GetBufferedRegion().GetSize() );
+
+ fastMarching->SetStoppingValue( 800 );
+ try
+ {
+
+ connector2->Update();
+ vtkImageData *idata = connector2->GetOutput();
+
+ vtkMarchingContourFilter* cntVTK = vtkMarchingContourFilter::New( );
+
+ cntVTK->SetInput( idata );
+
+ cntVTK->SetNumberOfContours( 1 );
+ cntVTK->SetValue( 0, 255 );
+ cntVTK->Update( );
+ cntVTK->UpdateInformation();
+
+ vtkCleanPolyData* cpd = vtkCleanPolyData::New( );
+ cpd->SetInput( cntVTK->GetOutput( ) );
+ cpd->Update( );
+ cpd->UpdateInformation();
+
+ vtkPolyDataConnectivityFilter* conn = vtkPolyDataConnectivityFilter::New( );
+ conn->SetExtractionModeToLargestRegion( );