+
+ // Change interface according to number of dimension
+ mExtentSize = 2*slicer->GetDimension();
+ // if (slicer->GetDimension()<4) {
+ // mTLabel1->setHidden(true);
+ // mTLabel2->setHidden(true);
+ // tminSlider->setHidden(true);
+ // tmaxSlider->setHidden(true);
+ // spin_tmin->setHidden(true);
+ // spin_tmax->setHidden(true);
+ // }
+ if (slicer->GetDimension()<3) {
+ mZLabel1->setHidden(true);
+ mZLabel2->setHidden(true);
+ zminSlider->setHidden(true);
+ zmaxSlider->setHidden(true);
+ spin_zmin->setHidden(true);
+ spin_zmax->setHidden(true);
+ }
+
+ // Record initial extend
+ mReducedExtent = new int[mExtentSize];
+ mInitialExtent = new int[mExtentSize];
+ mReducedExtent = mCurrentSlicerManager->GetImage()->GetFirstVTKImageData()->GetWholeExtent();
+ for(int i=0; i<6; i++) mInitialExtent[i] = mReducedExtent[i];
+ for(int i=0; i<mCurrentSlicerManager->NumberOfSlicers(); i++) {
+ mCurrentSlicerManager->GetSlicer(i)->EnableReducedExtent(true);
+ }
+
+ // Not now ....
+ // mIntensitySlider->SetImage(mCurrentImage);
+ //mIntensitySlider->setEnabled(false);
+
+ // Set initial sliders values
+ std::vector<int> imsize = mCurrentSlicerManager->GetImage()->GetSize();
+ xminSlider->setMaximum(imsize[0]-1);
+ xmaxSlider->setMaximum(imsize[0]-1);
+ xmaxSlider->setValue(imsize[0]-1);
+
+ yminSlider->setMaximum(imsize[1]-1);
+ ymaxSlider->setMaximum(imsize[1]-1);
+ ymaxSlider->setValue(imsize[1]-1);
+
+ if (slicer->GetDimension() >2) {
+ zminSlider->setMaximum(imsize[2]-1);
+ zmaxSlider->setMaximum(imsize[2]-1);
+ zmaxSlider->setValue(imsize[2]-1);
+ }
+
+ // if (slicer->GetDimension() >3) {
+ // tminSlider->setMaximum(imsize[3]-1);
+ // tmaxSlider->setMaximum(imsize[3]-1);
+ // tmaxSlider->setValue(imsize[3]-1);
+ // }
+
+ spin_xmin->setMaximum(imsize[0]-1);
+ spin_xmax->setMaximum(imsize[0]-1);
+ spin_xmax->setValue(imsize[0]-1);
+
+ spin_ymin->setMaximum(imsize[1]-1);
+ spin_ymax->setMaximum(imsize[1]-1);
+ spin_ymax->setValue(imsize[1]-1);
+
+ if (slicer->GetDimension() >2) {
+ spin_zmin->setMaximum(imsize[2]-1);
+ spin_zmax->setMaximum(imsize[2]-1);
+ spin_zmax->setValue(imsize[2]-1);
+ }
+
+ // if (slicer->GetDimension() >3) {
+ // spin_tmin->setMaximum(imsize[3]-1);
+ // spin_tmax->setMaximum(imsize[3]-1);
+ // spin_tmax->setValue(imsize[3]-1);
+ // }
+
+ // Connect
+ connect(xminSlider, SIGNAL(valueChanged(int)), this, SLOT(sliderXMinValueChanged(int)));
+ connect(xmaxSlider, SIGNAL(valueChanged(int)), this, SLOT(sliderXMaxValueChanged(int)));
+ connect(yminSlider, SIGNAL(valueChanged(int)), this, SLOT(sliderYMinValueChanged(int)));
+ connect(ymaxSlider, SIGNAL(valueChanged(int)), this, SLOT(sliderYMaxValueChanged(int)));
+ connect(zminSlider, SIGNAL(valueChanged(int)), this, SLOT(sliderZMinValueChanged(int)));
+ connect(zmaxSlider, SIGNAL(valueChanged(int)), this, SLOT(sliderZMaxValueChanged(int)));
+ // connect(tminSlider, SIGNAL(valueChanged(int)), this, SLOT(sliderTMinValueChanged(int)));
+ // connect(tmaxSlider, SIGNAL(valueChanged(int)), this, SLOT(sliderTMaxValueChanged(int)));
+
+ // connect(mIntensitySlider, SIGNAL(valueChanged(double)), this, SLOT(autoCropValueChanged(double)));
+}
+//------------------------------------------------------------------------------
+
+
+//------------------------------------------------------------------------------
+void vvToolCropImage::autoCropValueChanged(double v) {
+ // DD(v);
+ // vvImageToITKImageVector -> TODO a generic method
+ // then sliceriterator on each dimension from in to max
+ // ==> make a clitkGenericFilter even for the regular apply ...