X-Git-Url: https://git.creatis.insa-lyon.fr/pubgit/?a=blobdiff_plain;f=itk%2FclitkSegmentationUtils.txx;h=a57d8136becb4b919b1b1bc9360f6343c6547028;hb=f1cebc71809c5218578a58486f829980eeb29ab3;hp=8fe69a0b13cdfaad0a98819090d35d0ba765a731;hpb=8d4aeabfafe155775a520eeb1aabf330e3a9d886;p=clitk.git diff --git a/itk/clitkSegmentationUtils.txx b/itk/clitkSegmentationUtils.txx index 8fe69a0..a57d813 100644 --- a/itk/clitkSegmentationUtils.txx +++ b/itk/clitkSegmentationUtils.txx @@ -288,7 +288,7 @@ namespace clitk { sliceRelPosFilter->SetDirection(direction); sliceRelPosFilter->SetFuzzyThreshold(threshold); // sliceRelPosFilter->AddOrientationTypeString(orientation); - sliceRelPosFilter->AddAngles(angle, 0.0); + sliceRelPosFilter->AddAnglesInRad(angle, 0.0); sliceRelPosFilter->SetIntermediateSpacingFlag((spacing != -1)); sliceRelPosFilter->SetIntermediateSpacing(spacing); sliceRelPosFilter->SetUniqueConnectedComponentBySliceFlag(uniqueConnectedComponent); @@ -385,7 +385,11 @@ namespace clitk { typename ImageType::PointType p; image->TransformIndexToPhysicalPoint(image->GetLargestPossibleRegion().GetIndex()+ image->GetLargestPossibleRegion().GetSize(), p); - return CropImageAlongOneAxis(image, dim, max, p[dim], autoCrop, BG); + // Add GetSpacing because remove Lower or equal than + // DD(max); + // DD(p); + // DD(max+image->GetSpacing()[dim]); + return CropImageAlongOneAxis(image, dim, max+image->GetSpacing()[dim], p[dim], autoCrop, BG); } //-------------------------------------------------------------------- @@ -762,8 +766,7 @@ namespace clitk { { assert((mainDirection==0) || (mainDirection==1)); typedef itk::ImageSliceIteratorWithIndex SliceIteratorType; - SliceIteratorType siter = SliceIteratorType(input, - input->GetLargestPossibleRegion()); + SliceIteratorType siter = SliceIteratorType(input, input->GetLargestPossibleRegion()); siter.SetFirstDirection(0); siter.SetSecondDirection(1); siter.GoToBegin(); @@ -782,7 +785,6 @@ namespace clitk { A = lA[i]; B = lB[i]; C = A; - // Check that the line is not a point (A=B) bool p = (A[0] == B[0]) && (A[1] == B[1]); @@ -1319,11 +1321,11 @@ namespace clitk { // Compute dmap for S1 *TO PUT IN FONCTION* dmap = clitk::DistanceMap(slices_s1[i], BG); dmaps1.push_back(dmap); - writeImage(dmap, "dmap1.mha"); + //writeImage(dmap, "dmap1.mha"); // Compute dmap for S2 dmap = clitk::DistanceMap(slices_s2[i], BG); dmaps2.push_back(dmap); - writeImage(dmap, "dmap2.mha"); + //writeImage(dmap, "dmap2.mha"); // Look in S2 for the point the closest to S1 typename SliceType::PointType p = ComputeClosestPoint(slices_s1[i], dmaps2[i], BG); @@ -1369,6 +1371,7 @@ namespace clitk { iter2.GoToBegin(); double dmin = 100000.0; typename ImageType::IndexType indexmin; + indexmin.Fill(0); while (!iter1.IsAtEnd()) { if (iter1.Get() != BG) { double d = iter2.Get(); @@ -1389,6 +1392,30 @@ namespace clitk { //-------------------------------------------------------------------- + //-------------------------------------------------------------------- + template + typename ImageType::Pointer + RemoveNegativeIndexFromRegion(ImageType * input) { + typedef itk::ChangeInformationImageFilter< ImageType > InfoFilterType; + typename InfoFilterType::Pointer indexChangeFilter = InfoFilterType::New(); + indexChangeFilter->ChangeRegionOn(); + // The next line is commented because not exist in itk 3 + // typename InfoFilterType::OutputImageOffsetValueType indexShift[3]; + long indexShift[3]; + typename ImageType::IndexType index = input->GetLargestPossibleRegion().GetIndex(); + for(uint i=0;iGetOrigin()[i] - indexShift[i]*input->GetSpacing()[i]; + indexChangeFilter->SetOutputOffset( indexShift ); + indexChangeFilter->SetInput(input); + indexChangeFilter->SetOutputOrigin(origin); + indexChangeFilter->ChangeOriginOn(); + indexChangeFilter->Update(); + return indexChangeFilter->GetOutput(); + } + //-------------------------------------------------------------------- } // end of namespace