======================================================================-====*/
// clitk
-#include "clitkCommon.h"
+#include "clitkDD.h"
// itk include
#include "itkImage.h"
#include "itkCommand.h"
//--------------------------------------------------------------------
-template <class TInputImage, class TOutputImage>
-clitk::ResampleImageWithOptionsFilter<TInputImage, TOutputImage>::
-ResampleImageWithOptionsFilter():itk::ImageToImageFilter<TInputImage, TOutputImage>()
+template <class InputImageType, class OutputImageType>
+clitk::ResampleImageWithOptionsFilter<InputImageType, OutputImageType>::
+ResampleImageWithOptionsFilter():itk::ImageToImageFilter<InputImageType, OutputImageType>()
{
static const unsigned int dim = InputImageType::ImageDimension;
this->SetNumberOfRequiredInputs(1);
m_GaussianSigma[i] = -1;
}
m_VerboseOptions = false;
+ SetDefaultPixelValue(0);
}
//--------------------------------------------------------------------
//--------------------------------------------------------------------
-template <class TInputImage, class TOutputImage>
+template <class InputImageType, class OutputImageType>
void
-clitk::ResampleImageWithOptionsFilter<TInputImage, TOutputImage>::
+clitk::ResampleImageWithOptionsFilter<InputImageType, OutputImageType>::
SetInput(const InputImageType * image)
{
// Process object is not const-correct so the const casting is required.
//--------------------------------------------------------------------
-template <class TInputImage, class TOutputImage>
+template <class InputImageType, class OutputImageType>
void
-clitk::ResampleImageWithOptionsFilter<TInputImage, TOutputImage>::
+clitk::ResampleImageWithOptionsFilter<InputImageType, OutputImageType>::
GenerateInputRequestedRegion()
{
// call the superclass's implementation of this method
// get pointers to the input and output
InputImagePointer inputPtr =
- const_cast< TInputImage *>( this->GetInput() );
+ const_cast< InputImageType *>( this->GetInput() );
// Request the entire input image
InputImageRegionType inputRegion;
//--------------------------------------------------------------------
-template <class TInputImage, class TOutputImage>
+template <class InputImageType, class OutputImageType>
void
-clitk::ResampleImageWithOptionsFilter<TInputImage, TOutputImage>::
+clitk::ResampleImageWithOptionsFilter<InputImageType, OutputImageType>::
GenerateOutputInformation()
{
static const unsigned int dim = InputImageType::ImageDimension;
if (m_OutputIsoSpacing != -1) { // apply isoSpacing
for(unsigned int i=0; i<dim; i++) {
m_OutputSpacing[i] = m_OutputIsoSpacing;
- m_OutputSize[i] = (int)lrint(inputSize[i]*inputSpacing[i]/m_OutputSpacing[i]);
+ // I use ceil to be sure not to miss a slice
+ m_OutputSize[i] = (int)ceil(inputSize[i]*inputSpacing[i]/m_OutputSpacing[i]);
}
} else {
if (m_OutputSpacing[0] != -1) { // apply spacing, compute size
for(unsigned int i=0; i<dim; i++) {
- m_OutputSize[i] = (int)lrint(inputSize[i]*inputSpacing[i]/m_OutputSpacing[i]);
+ m_OutputSize[i] = (int)ceil(inputSize[i]*inputSpacing[i]/m_OutputSpacing[i]);
}
} else {
if (m_OutputSize[0] != 0) { // apply size, compute spacing
outputImage->CopyInformation(input);
outputImage->SetLargestPossibleRegion(m_OutputRegion);
outputImage->SetSpacing(m_OutputSpacing);
+ outputImage->FillBuffer(GetDefaultPixelValue());
// Init Gaussian sigma
if (m_GaussianSigma[0] != -1) { // Gaussian filter set by user
//--------------------------------------------------------------------
-template <class TInputImage, class TOutputImage>
+template <class InputImageType, class OutputImageType>
void
-clitk::ResampleImageWithOptionsFilter<TInputImage, TOutputImage>::
+clitk::ResampleImageWithOptionsFilter<InputImageType, OutputImageType>::
GenerateData()
{
InputImagePointer input = dynamic_cast<InputImageType*>(itk::ProcessObject::GetInput(0));
static const unsigned int dim = InputImageType::ImageDimension;
- // Set regions and allocate
- //this->GetOutput()->SetRegions(m_OutputRegion);
- //this->GetOutput()->Allocate();
- // this->GetOutput()->FillBuffer(m_DefaultPixelValue);
-
// Create main Resample Image Filter
typedef itk::ResampleImageFilter<InputImageType,OutputImageType> FilterType;
typename FilterType::Pointer filter = FilterType::New();
filter->GraftOutput(this->GetOutput());
- // this->GetOutput()->Print(std::cout);
- // this->GetOutput()->SetBufferedRegion(this->GetOutput()->GetLargestPossibleRegion());
- // this->GetOutput()->Print(std::cout);
+ this->GetOutput()->SetBufferedRegion(this->GetOutput()->GetLargestPossibleRegion());
// Print options if needed
if (m_VerboseOptions) {
// DD("after Graft");
}
//--------------------------------------------------------------------
+
+
+//--------------------------------------------------------------------
+template<class InputImageType>
+typename InputImageType::Pointer
+clitk::ResampleImageSpacing(typename InputImageType::Pointer input,
+ typename InputImageType::SpacingType spacing,
+ int interpolationType)
+{
+ typedef clitk::ResampleImageWithOptionsFilter<InputImageType> ResampleFilterType;
+ typename ResampleFilterType::Pointer resampler = ResampleFilterType::New();
+ resampler->SetInput(input);
+ resampler->SetOutputSpacing(spacing);
+ typename ResampleFilterType::InterpolationTypeEnumeration inter=ResampleFilterType::NearestNeighbor;
+ switch(interpolationType) {
+ case 0: inter = ResampleFilterType::NearestNeighbor; break;
+ case 1: inter = ResampleFilterType::Linear; break;
+ case 2: inter = ResampleFilterType::BSpline; break;
+ case 3: inter = ResampleFilterType::B_LUT; break;
+ case 4: inter = ResampleFilterType::WSINC; break;
+ }
+ resampler->SetInterpolationType(inter);
+ resampler->SetGaussianFilteringEnabled(true);
+ resampler->Update();
+ return resampler->GetOutput();
+}
+//--------------------------------------------------------------------