From: srit Date: Wed, 2 Mar 2011 18:32:36 +0000 (+0000) Subject: Use transform for vvImage objects X-Git-Tag: v1.2.0~222 X-Git-Url: https://git.creatis.insa-lyon.fr/pubgit/?a=commitdiff_plain;h=8d91d8216bb84975264a9297c0768a96366b2f4b;p=clitk.git Use transform for vvImage objects --- diff --git a/vv/vvSlicer.cxx b/vv/vvSlicer.cxx index 65cb59e..c070d60 100644 --- a/vv/vvSlicer.cxx +++ b/vv/vvSlicer.cxx @@ -290,28 +290,24 @@ void vvSlicer::SetImage(vvImage::Pointer image) { if (image->GetVTKImages().size()) { mImage = image; - this->Superclass::SetInput(image->GetVTKImages()[0]); + this->Superclass::SetInput(image->GetTransformedVTKImages()[0]); - // Prevent crash when reload -> change slice if outside extent int extent[6]; this->GetInput()->GetWholeExtent(extent); - if (SliceOrientation == 0) { - if (Slice >= extent[1]) { - Slice = (extent[1]-extent[0])/2.0; - } - } - if (SliceOrientation == 1) { - if (Slice >= extent[3]) { - Slice = (extent[3]-extent[2])/2.0; - } - } - if (SliceOrientation == 2) { - if (Slice >= extent[5]) { - Slice = (extent[5]-extent[4])/2.0; - } + + // Prevent crash when reload -> change slice if outside extent + if (Slice < extent[SliceOrientation*2] || Slice>=extent[SliceOrientation*2+1]) { + Slice = (extent[SliceOrientation*2+1]-extent[SliceOrientation*2])/2.0; } + // Make sure that the required part image has been computed + extent[SliceOrientation*2] = Slice; + extent[SliceOrientation*2+1] = Slice; + image->GetTransformedVTKImages()[0]->SetUpdateExtent(extent); + image->GetTransformedVTKImages()[0]->Update(); + this->UpdateDisplayExtent(); + mCurrentTSlice = 0; ca->SetText(0,mFileName.c_str()); } @@ -327,7 +323,7 @@ void vvSlicer::SetOverlay(vvImage::Pointer overlay) if (!mOverlayMapper) mOverlayMapper = vtkSmartPointer::New(); - mOverlayMapper->SetInput(overlay->GetVTKImages()[0]); + mOverlayMapper->SetInput(overlay->GetTransformedVTKImages()[0]); if (!mOverlayActor) { mOverlayActor = vtkSmartPointer::New(); @@ -361,7 +357,7 @@ void vvSlicer::SetFusion(vvImage::Pointer fusion) if (!mFusionMapper) mFusionMapper = vtkSmartPointer::New(); - mFusionMapper->SetInput(fusion->GetVTKImages()[0]); + mFusionMapper->SetInput(fusion->GetTransformedVTKImages()[0]); if (!mFusionActor) { mFusionActor = vtkSmartPointer::New(); @@ -410,7 +406,7 @@ void vvSlicer::SetVF(vvImage::Pointer vf) mVOIFilter = vtkSmartPointer::New(); mVOIFilter->SetSampleRate(mSubSampling,mSubSampling,mSubSampling); } - mVOIFilter->SetInput(vf->GetVTKImages()[0]); + mVOIFilter->SetInput(vf->GetTransformedVTKImages()[0]); mAAFilter->SetInput(mVOIFilter->GetOutput()); ///This tells VTK to use the scalar (pixel) data of the image to draw the little arrows mAAFilter->Assign(vtkDataSetAttributes::SCALARS, vtkDataSetAttributes::VECTORS, vtkAssignAttribute::POINT_DATA); @@ -596,18 +592,18 @@ void vvSlicer::SetTSlice(int t) if (mCurrentTSlice == t) return; mCurrentTSlice = t; - this->SetInput(mImage->GetVTKImages()[t]); + this->SetInput(mImage->GetTransformedVTKImages()[t]); if (mVF && mVFActor->GetVisibility()) { if (mVF->GetVTKImages().size() > (unsigned int)mCurrentTSlice) - mVOIFilter->SetInput(mVF->GetVTKImages()[mCurrentTSlice]); + mVOIFilter->SetInput(mVF->GetTransformedVTKImages()[mCurrentTSlice]); } if (mOverlay && mOverlayActor->GetVisibility()) { - if (mOverlay->GetVTKImages().size() > (unsigned int)mCurrentTSlice) - mOverlayMapper->SetInput(mOverlay->GetVTKImages()[mCurrentTSlice]); + if (mOverlay->GetTransformedVTKImages().size() > (unsigned int)mCurrentTSlice) + mOverlayMapper->SetInput(mOverlay->GetTransformedVTKImages()[mCurrentTSlice]); } if (mFusion && mFusionActor->GetVisibility()) { if (mFusion->GetVTKImages().size() > (unsigned int)mCurrentTSlice) - mFusionMapper->SetInput(mFusion->GetVTKImages()[mCurrentTSlice]); + mFusionMapper->SetInput(mFusion->GetTransformedVTKImages()[mCurrentTSlice]); } if (mSurfaceCutActors.size() > 0) for (std::vector::iterator i=mSurfaceCutActors.begin(); @@ -1265,17 +1261,20 @@ void vvSlicer::Render() Y <= this->GetInput()->GetWholeExtent()[3] && Z >= this->GetInput()->GetWholeExtent()[4] && Z <= this->GetInput()->GetWholeExtent()[5]) { + int ix = lrint(X); + int iy = lrint(Y); + int iz = lrint(Z); std::stringstream pixel1; std::stringstream pixel2; std::stringstream pixel3; std::stringstream temps; - pixel1 << (int)X; - pixel2 << (int)Y; - pixel3 << (int)Z; + pixel1 << ix; + pixel2 << iy; + pixel3 << iz; temps << mCurrentTSlice; - double value = this->GetInput()->GetScalarComponentAsDouble(lrint(X), - lrint(Y), - lrint(Z),0); + this->GetInput()->SetUpdateExtent(ix, ix, iy, iy, iz, iz); + this->GetInput()->Update(); + double value = this->GetInput()->GetScalarComponentAsDouble(ix, iy, iz, 0); std::stringstream val; val << value; @@ -1290,6 +1289,8 @@ void vvSlicer::Render() if (mOverlay && mOverlayActor->GetVisibility()) { mOverlayMapper->SetWindow(this->GetColorWindow()); mOverlayMapper->SetLevel(this->GetColorLevel()); + mOverlayMapper->GetOutput()->SetUpdateExtent(mOverlayActor->GetDisplayExtent()); + mOverlayMapper->GetOutput()->Update(); mOverlayMapper->Update(); } if (mLandMapper)