class vtkRenderer;
class vtkMatrix4x4;
class vvDicomSeriesSelector;
+class vvQPacsConnection;
class vvSlicer;
class QTreeWidget;
vvSlicerManager * AddImage(vvImage::Pointer image,std::string filename);
void AddField(QString file,int index);
void AddOverlayImage(int index, std::vector<std::string> fileNames, vvImageReader::LoadedImageType type);
- void AddFusionImage(int index, QString filename);
+ void AddFusionImage(int index, std::vector<std::string> fileNames, vvImageReader::LoadedImageType type);
void AddROI(int index, QString filename);
//Process the sequence for fusion:
void SliceImages();
void MergeImagesWithTime();
void OpenDicom();
+ void ConnectPacs();
///Open a vtkPolyData surface mesh and display it over the current image
void OpenVTKContour();
void SaveAs();
void SelectFusionImage();
//select the file(s) from the disk containing the image sequence to fuse
void SelectFusionSequence();
- void SelectFusionSequenceTemporalSignal();
+ void SelectFusionSequenceCorrespondances();
void ResetTransformationToIdentity();
vvHelpDialog *help_dialog;
vvDocumentation *documentation;
vvDicomSeriesSelector *dicomSeriesSelector;
+ vvQPacsConnection *pacsconnect;
bool viewMode;
bool playMode;