X-Git-Url: https://git.creatis.insa-lyon.fr/pubgit/?a=blobdiff_plain;f=itk%2FclitkSegmentationUtils.txx;h=afcefcf3077701a64abeb070374ece19c45ba044;hb=4fdccd07e42ee7c089cbcadf854e3a505c17bcfb;hp=4990b247c2b85dac1e342b77dc64901c80c553f6;hpb=703487ce9c727034bddad25e1b33750a835f7caf;p=clitk.git diff --git a/itk/clitkSegmentationUtils.txx b/itk/clitkSegmentationUtils.txx index 4990b24..afcefcf 100644 --- a/itk/clitkSegmentationUtils.txx +++ b/itk/clitkSegmentationUtils.txx @@ -354,6 +354,7 @@ namespace clitk { sliceRelPosFilter->SetIntermediateSpacingFlag((spacing != -1)); sliceRelPosFilter->SetIntermediateSpacing(spacing); sliceRelPosFilter->SetUniqueConnectedComponentBySlice(uniqueConnectedComponent); + sliceRelPosFilter->CCLSelectionFlagOff(); sliceRelPosFilter->SetUseASingleObjectConnectedComponentBySliceFlag(singleObjectCCL); // sliceRelPosFilter->SetInverseOrientationFlag(inverseflag); sliceRelPosFilter->SetAutoCropFlag(autocropFlag); @@ -466,7 +467,7 @@ namespace clitk { p[dim] = max; typename ImageType::IndexType end; image->TransformPhysicalPointToIndex(p, end); - size[dim] = fabs(end[dim]-start[dim]); + size[dim] = abs(end[dim]-start[dim]); region.SetIndex(start); region.SetSize(size); @@ -585,25 +586,6 @@ namespace clitk { //-------------------------------------------------------------------- - //-------------------------------------------------------------------- - template - void - ExtractSlices(const ImageType * image, int direction, - std::vector::Pointer > & slices) - { - typedef ExtractSliceFilter ExtractSliceFilterType; - typedef typename ExtractSliceFilterType::SliceType SliceType; - typename ExtractSliceFilterType::Pointer - extractSliceFilter = ExtractSliceFilterType::New(); - extractSliceFilter->SetInput(image); - extractSliceFilter->SetDirection(direction); - extractSliceFilter->Update(); - extractSliceFilter->GetOutputSlices(slices); - } - //-------------------------------------------------------------------- - - //-------------------------------------------------------------------- template void @@ -748,7 +730,8 @@ namespace clitk { dilateFilter->SetForegroundValue(FG); dilateFilter->SetBoundaryToForeground(false); dilateFilter->SetKernel(structuringElement); - dilateFilter->SetInput(output); + if (extendSupport) dilateFilter->SetInput(output); + else dilateFilter->SetInput(image); dilateFilter->Update(); return dilateFilter->GetOutput(); } @@ -849,9 +832,6 @@ namespace clitk { while ((iTransformIndexToPhysicalPoint(siter.GetIndex(), C); - // DD(C); - // DD(i); - // DD(lA[i]); if ((fabs(C[2] - lA[i][2]))>0.01) { // is !equal with a tolerance of 0.01 mm } else { @@ -859,9 +839,6 @@ namespace clitk { A = lA[i]; B = lB[i]; C = A; - // DD(A); - // DD(B); - // DD(C); // Check that the line is not a point (A=B) bool p = (A[0] == B[0]) && (A[1] == B[1]); @@ -895,6 +872,7 @@ namespace clitk { } //-------------------------------------------------------------------- + //-------------------------------------------------------------------- template void @@ -923,6 +901,34 @@ namespace clitk { //-------------------------------------------------------------------- + //-------------------------------------------------------------------- + template + void + And(ImageType * input, + const ImageType * object, + typename ImageType::PixelType BG) + { + typename ImageType::Pointer o; + bool resized=false; + if (!clitk::HaveSameSizeAndSpacing(input, object)) { + o = clitk::ResizeImageLike(object, input, BG); + resized = true; + } + + typedef clitk::BooleanOperatorLabelImageFilter BoolFilterType; + typename BoolFilterType::Pointer boolFilter = BoolFilterType::New(); + boolFilter->InPlaceOn(); + boolFilter->SetInput1(input); + if (resized) boolFilter->SetInput2(o); + else boolFilter->SetInput2(object); + boolFilter->SetBackgroundValue1(BG); + boolFilter->SetBackgroundValue2(BG); + boolFilter->SetOperationType(BoolFilterType::And); + boolFilter->Update(); + } + //-------------------------------------------------------------------- + + //-------------------------------------------------------------------- template typename ImageType::Pointer @@ -1052,7 +1058,7 @@ namespace clitk { extremaDirection, extremaOppositeFlag, p); if (found) { position2D[i] = p; - } + } } // Convert 2D points in slice into 3D points @@ -1065,8 +1071,8 @@ namespace clitk { p[lineDirection] += 10; B.push_back(p); // Margins ? - A[i][1] += margin; - B[i][1] += margin; + A[i][extremaDirection] += margin; + B[i][extremaDirection] += margin; } } @@ -1114,5 +1120,181 @@ namespace clitk { //-------------------------------------------------------------------- + //-------------------------------------------------------------------- + /* Consider an input object, start at A, for each slice (dim1): + - compute the intersection between the AB line and the current slice + - remove what is at lower or greater according to dim2 of this point + - stop at B + */ + template + typename ImageType::Pointer + SliceBySliceSetBackgroundFromSingleLine(const ImageType * input, + typename ImageType::PixelType BG, + typename ImageType::PointType & A, + typename ImageType::PointType & B, + int dim1, int dim2, bool removeLowerPartFlag) + + { + // Extract slices + typedef typename itk::Image SliceType; + typedef typename SliceType::Pointer SlicePointer; + std::vector slices; + clitk::ExtractSlices(input, dim1, slices); + + // Start at slice that contains A, and stop at B + typename ImageType::IndexType Ap; + typename ImageType::IndexType Bp; + input->TransformPhysicalPointToIndex(A, Ap); + input->TransformPhysicalPointToIndex(B, Bp); + + // Determine slice largest region + typename SliceType::RegionType region = slices[0]->GetLargestPossibleRegion(); + typename SliceType::SizeType size = region.GetSize(); + typename SliceType::IndexType index = region.GetIndex(); + + // Line slope + double a = (Bp[dim2]-Ap[dim2])/(Bp[dim1]-Ap[dim1]); + double b = Ap[dim2]; + + // Loop from slice A to slice B + for(uint i=0; i<(Bp[dim1]-Ap[dim1]); i++) { + // Compute intersection between line AB and current slice for the dim2 + double p = a*i+b; + // Change region (lower than dim2) + if (removeLowerPartFlag) { + size[dim2] = p-Ap[dim2]; + } + else { + size[dim2] = slices[0]->GetLargestPossibleRegion().GetSize()[dim2]-p; + index[dim2] = p; + } + region.SetSize(size); + region.SetIndex(index); + // Fill region with BG (simple region iterator) + FillRegionWithValue(slices[i+Ap[dim1]], BG, region); + /* + typedef itk::ImageRegionIterator IteratorType; + IteratorType iter(slices[i+Ap[dim1]], region); + iter.GoToBegin(); + while (!iter.IsAtEnd()) { + iter.Set(BG); + ++iter; + } + */ + // Loop + } + + // Merge slices + typename ImageType::Pointer output; + output = clitk::JoinSlices(slices, input, dim1); + return output; + } + //-------------------------------------------------------------------- + + //-------------------------------------------------------------------- + /* Consider an input object, slice by slice, use the point A and set + pixel to BG according to their position relatively to A + */ + template + typename ImageType::Pointer + SliceBySliceSetBackgroundFromPoints(const ImageType * input, + typename ImageType::PixelType BG, + int sliceDim, + std::vector & A, + bool removeGreaterThanXFlag, + bool removeGreaterThanYFlag) + + { + // Extract slices + typedef typename itk::Image SliceType; + typedef typename SliceType::Pointer SlicePointer; + std::vector slices; + clitk::ExtractSlices(input, sliceDim, slices); + + // Start at slice that contains A + typename ImageType::IndexType Ap; + + // Determine slice largest region + typename SliceType::RegionType region = slices[0]->GetLargestPossibleRegion(); + typename SliceType::SizeType size = region.GetSize(); + typename SliceType::IndexType index = region.GetIndex(); + + // Loop from slice A to slice B + for(uint i=0; iTransformPhysicalPointToIndex(A[i], Ap); + uint sliceIndex = Ap[2] - input->GetLargestPossibleRegion().GetIndex()[2]; + if ((sliceIndex < 0) || (sliceIndex >= slices.size())) { + continue; // do not consider this slice + } + + // Compute region for BG + if (removeGreaterThanXFlag) { + index[0] = Ap[0]; + size[0] = region.GetSize()[0]-(index[0]-region.GetIndex()[0]); + } + else { + index[0] = region.GetIndex()[0]; + size[0] = Ap[0] - index[0]; + } + + if (removeGreaterThanYFlag) { + index[1] = Ap[1]; + size[1] = region.GetSize()[1]-(index[1]-region.GetIndex()[1]); + } + else { + index[1] = region.GetIndex()[1]; + size[1] = Ap[1] - index[1]; + } + + // Set region + region.SetSize(size); + region.SetIndex(index); + + // Fill region with BG (simple region iterator) + FillRegionWithValue(slices[sliceIndex], BG, region); + // Loop + } + + // Merge slices + typename ImageType::Pointer output; + output = clitk::JoinSlices(slices, input, sliceDim); + return output; + } + //-------------------------------------------------------------------- + + + //-------------------------------------------------------------------- + template + void + FillRegionWithValue(ImageType * input, typename ImageType::PixelType value, typename ImageType::RegionType & region) + { + typedef itk::ImageRegionIterator IteratorType; + IteratorType iter(input, region); + iter.GoToBegin(); + while (!iter.IsAtEnd()) { + iter.Set(value); + ++iter; + } + } + //-------------------------------------------------------------------- + + + //-------------------------------------------------------------------- + template + void + GetMinMaxBoundary(ImageType * input, typename ImageType::PointType & min, + typename ImageType::PointType & max) + { + typedef typename ImageType::PointType PointType; + typedef typename ImageType::IndexType IndexType; + IndexType min_i, max_i; + min_i = input->GetLargestPossibleRegion().GetIndex(); + for(uint i=0; iGetLargestPossibleRegion().GetSize()[i] + min_i[i]; + input->TransformIndexToPhysicalPoint(min_i, min); + input->TransformIndexToPhysicalPoint(max_i, max); + } + //-------------------------------------------------------------------- + } // end of namespace