Q_OBJECT
public:
+ typedef enum {WORLD_SLICING, VOXELS_SLICING} SlicingPresetType;
vvSlicerManager(int numberOfSlicers);
~vvSlicerManager();
void SetImage(vvImage::Pointer image);
bool SetImages(std::vector<std::string> filenames, vvImageReader::LoadedImageType type, int n=0);
- bool SetOverlay(std::string filename, int dim, std::string component);
+ bool SetOverlay(std::vector<std::string> filenames, int dim, std::string component, vvImageReader::LoadedImageType type);
bool SetFusion(std::string filename, int dim, std::string component);
+ bool SetFusionSequence(std::vector<std::string> filenames, int dim, std::string component, vvImageReader::LoadedImageType type);
///Set a VF by loading it from the disk
bool SetVF(std::string filename);
///Set a VF from memory
///Switch between nearest neighbor and linear interpolation
void ToggleInterpolation();
vvSlicer* GetSlicer(int i);
+ int GetSelectedSlicer() {
+ return mSelectedSlicer;
+ }
+
void UpdateSlicer(int num, bool state);
void SetSlicerWindow(int i, vtkRenderWindow* RW);
void SetInteractorStyleNavigator(int i,vtkInteractorStyle* style);
vvImage::Pointer GetVF() { return mVF; }
int GetType() { return mType; }
void SetId(std::string id) { mId = id; }
- std::string GetId() { return mId; }
+ std::string GetId() const { return mId; }
int GetDimension() {
if (mImage) return mImage->GetNumberOfDimensions();
else return -1;
void SetFilename(std::string f, int number=0);
void SetSliceOrientation(int slicer, int orientation);
- void SetTSlice(int slice);
+ int GetTSlice();
+ void SetTSlice(int slice, bool updateLinkedImages = true);
void SetNextTSlice(int originating_slicer);
void SetPreviousTSlice(int originating_slicer);
void SetTSliceInSlicer(int tslice, int slicer);
+ void SetFusionSequenceTSlice(int slice);
+
void GenerateDefaultLookupTable();
void SetColorWindow(double s);
void SetColorLevel(double s);
mFusionShowLegend = show;
}
- double GetColorWindow();
- double GetColorLevel();
+
+ //set/get fusionSequence related data
+ void SetFusionSequenceFrameIndex(int sequenceFrameIndex) { mFusionSequenceFrameIndex = sequenceFrameIndex; }
+ void SetFusionSequenceSpatialSyncFlag(bool spatialSync) { mFusionSequenceSpatialSyncFlag = spatialSync; }
+ void SetFusionSequenceLength(unsigned int fusionSequenceNbFrames) { mFusionSequenceNbFrames = fusionSequenceNbFrames; }
+ void SetFusionSequenceMainTransformMatrix(vtkSmartPointer<vtkMatrix4x4> mat) {
+ mFusionSequenceMainTransform = vtkSmartPointer<vtkMatrix4x4>::New();
+ mFusionSequenceMainTransform->DeepCopy(mat);
+ }
+ void AddFusionSequenceInitialTransformMatrices(vtkSmartPointer<vtkMatrix4x4> mat) {
+ vtkSmartPointer<vtkMatrix4x4> tmpMat = vtkSmartPointer<vtkMatrix4x4>::New();
+ tmpMat->DeepCopy(mat);
+ mFusionSequenceListInitialTransformMatrices.push_back( tmpMat );
+ }
+ void SetFusionSequenceIndexOfLinkedManager(int index) { mFusionSequenceIndexLinkedManager = index; }
+
+ int GetFusionSequenceIndexOfLinkedManager() { return mFusionSequenceIndexLinkedManager; }
+ int GetFusionSequenceFrameIndex() { return mFusionSequenceFrameIndex; }
+ bool GetFusionSequenceSpatialSyncFlag() { return mFusionSequenceSpatialSyncFlag; }
+ unsigned int GetFusionSequenceNbFrames() { return mFusionSequenceNbFrames; }
+ const vtkSmartPointer<vtkMatrix4x4>& GetFusionSequenceMainTransformMatrix() {return mFusionSequenceMainTransform;}
+ const std::vector< vtkSmartPointer<vtkMatrix4x4> >& GetFusionSequenceInitialTransformMatrices() {return mFusionSequenceListInitialTransformMatrices;}
+ const vtkSmartPointer<vtkMatrix4x4>& GetFusionSequenceInitialTransformMatrixAtFrame(unsigned i) {
+ return mFusionSequenceListInitialTransformMatrices[i];
+ }
+
+ double GetColorWindow() const;
+ double GetColorLevel() const;
double GetOverlayColorWindow() const;
double GetOverlayColorLevel() const;
bool GetLinkOverlayWindowLevel() const;
int GetColorMap() {
return mColorMap;
}
- int GetPreset() {
+ int GetPreset() const {
return mPreset;
}
+ SlicingPresetType GetSlicingPreset() {
+ return mSlicingPreset;
+ }
int GetOverlayColor() const {
return mOverlayColor;
}
return mFusionLevel;
}
+
void SetCursorAndCornerAnnotationVisibility(int s);
void UpdateViews(int current, int slicer);
void UpdateLinked(int slicer);
mLinkedId.remove(oldId);
}
+ std::list<std::string> GetLinks() const {
+ return mLinkedId;
+ }
+
bool IsLinked() {
return mLinkedId.size() > 0;
}
void Reload();
void ReloadOverlay();
void ReloadFusion();
+ void ReloadFusionSequence();
void ReloadVF();
void Activated();
void UpdateSlice(int slicer);
void UpdateTSlice(int slicer);
void UpdateSliceRange(int slicer);
+ void SetSlicingPreset(SlicingPresetType preset);
vvLandmarks *GetLandmarks();
void AddLandmark(float x,float y,float z,float t);
void UpdateVector(int display, double x, double y, double z, double value);
void UpdateOverlay(int display, double valueOver, double valueRef);
void UpdateFusion(int display, double valueFus);
+ void UpdateFusionSequence(int fusionSequenceFrameIndex, bool fusionSequenceSpatialSyncFlag, unsigned int fusionSequenceNbFrames);
void MousePositionUpdatedSignal(int slicer);
void KeyPressedSignal(std::string KeyPressed);
void UpdateOrientation(int slicer, int orientation);
protected:
std::vector< vtkSmartPointer<vvSlicer> > mSlicers;
+ int mSelectedSlicer;
vvImageReader::Pointer mReader;
vvImageReader::Pointer mOverlayReader;
vvImageReader::Pointer mFusionReader;
+ vvImageReader::Pointer mFusionSequenceReader;
vvImageReader::Pointer mVectorReader;
vvImage::Pointer mImage;
vvImage::Pointer mVF;
double mFusionLevel;
bool mFusionShowLegend;
+ //fusionSequence related data
+ int mFusionSequenceIndexLinkedManager;
+ int mFusionSequenceFrameIndex;
+ bool mFusionSequenceSpatialSyncFlag;
+ unsigned int mFusionSequenceNbFrames;
+ vtkSmartPointer<vtkMatrix4x4> mFusionSequenceMainTransform;
+ std::vector< vtkSmartPointer<vtkMatrix4x4> > mFusionSequenceListInitialTransformMatrices;
+
int mPreset;
+ SlicingPresetType mSlicingPreset;
vvImageReader::LoadedImageType mType;
std::string mVFComponent;
std::string mOverlayComponent;