ITK  4.9.0
Insight Segmentation and Registration Toolkit
WikiExamples/Iterators/ShapedNeighborhoodIteratorManual.cxx
#include "itkImage.h"
// Notice that char type pixel values will not appear
// properly on the command prompt therefore for the
// demonstration purposes it is best to use the int
// type, however in real applications iterators have
// no problems with char type images.
//typedef itk::Image<unsigned char, 2> ImageType;
typedef itk::Image<unsigned int, 2> ImageType;
void CreateImage(ImageType::Pointer image);
int main(int, char*[])
{
ImageType::Pointer image = ImageType::New();
CreateImage(image);
itk::Size<2> radius;
radius.Fill(1);
IteratorType iterator(radius, image, image->GetLargestPossibleRegion());
std::cout << "By default there are " << iterator.GetActiveIndexListSize() << " active indices." << std::endl;
IteratorType::OffsetType top = {{0,-1}};
iterator.ActivateOffset(top);
IteratorType::OffsetType bottom = {{0,1}};
iterator.ActivateOffset(bottom);
std::cout << "Now there are " << iterator.GetActiveIndexListSize() << " active indices." << std::endl;
IteratorType::IndexListType indexList = iterator.GetActiveIndexList();
IteratorType::IndexListType::const_iterator listIterator = indexList.begin();
while (listIterator != indexList.end())
{
std::cout << *listIterator << " ";
++listIterator;
}
std::cout << std::endl;
// Note that ZeroFluxNeumannBoundaryCondition is used by default so even
// pixels outside of the image will have valid values (equivalent to their neighbors just inside the image)
for(iterator.GoToBegin(); !iterator.IsAtEnd(); ++iterator)
{
std::cout << "New position: " << std::endl;
IteratorType::ConstIterator ci = iterator.Begin();
while (! ci.IsAtEnd())
{
std::cout << "Centered at " << iterator.GetIndex() << std::endl;
std::cout << "Neighborhood index " << ci.GetNeighborhoodIndex()
<< " is offset " << ci.GetNeighborhoodOffset()
<< " and has value " << ci.Get()
<< " The real index is " << iterator.GetIndex() + ci.GetNeighborhoodOffset() << std::endl;
ci++;
}
}
std::cout << std::endl;
return EXIT_SUCCESS;
}
void CreateImage(ImageType::Pointer image)
{
ImageType::IndexType start;
start.Fill(0);
ImageType::SizeType size;
size.Fill(10);
ImageType::RegionType region(start,size);
image->SetRegions(region);
image->Allocate();
image->FillBuffer(0);
}