#include "clitkImageCommon.h"
-#include "itkApproximateSignedDistanceMapImageFilter.h"
+#include "itkSignedMaurerDistanceMapImageFilter.h"
#include "itkAddImageFilter.h"
#include <itkSquareImageFilter.h>
#include <itkDivideImageFilter.h>
-#include <itkSqrtImageFilter.h>
#include <itkMinimumMaximumImageCalculator.h>
+#include "itkImageFileWriter.h"
+
+#include "itkTranslationTransform.h"
+#include "itkResampleImageFilter.h"
+
namespace clitk
{
GammaIndex3DGenericFilter<args_info_type>::GammaIndex3DGenericFilter()
:ImageToImageGenericFilter<Self>("GammaIndex3DGenericFilter"), mDose(3), mDistance(3)
{
- InitializeImageType<2>();
+ //InitializeImageType<2>();
InitializeImageType<3>();
//InitializeImageType<4>();
}
output->Allocate();
int sizeTotal = input1->GetLargestPossibleRegion().GetSize(0)*input1->GetLargestPossibleRegion().GetSize(1)*input1->GetLargestPossibleRegion().GetSize(2);
- int sizeTemp(0);
double minSpacing(std::numeric_limits<double>::max());
for (unsigned int temp=0; temp < input1->GetSpacing().Size(); ++temp)
{
if (input1->GetSpacing()[temp] < minSpacing)
minSpacing = input1->GetSpacing()[temp];
}
+
+ //Create a region around it.Get()
+ typename ImageType::RegionType smallDistanceRegion;
+
+ typename ImageType::SizeType sizeRegion;
+ int sizeTemp = (int) mDistance/minSpacing;
+ sizeRegion.Fill(8*sizeTemp+1);
+
+ typename ImageType::IndexType startDistanceRegion;
+ startDistanceRegion.Fill(0);
+
+ smallDistanceRegion.SetIndex(startDistanceRegion);
+ smallDistanceRegion.SetSize(sizeRegion);
+
+ typename ImageType::IndexType centerDistanceRegion;
+ centerDistanceRegion.Fill((8*sizeTemp+1)/2);
+
+ //compute the distance
+ typename ImageType::Pointer distanceMap = ImageType::New();
+ distanceMap->SetRegions(smallDistanceRegion);
+ distanceMap->SetOrigin(input1->GetOrigin());
+ distanceMap->SetSpacing(input1->GetSpacing());
+ distanceMap->Allocate();
+ distanceMap->FillBuffer(0.0);
+ distanceMap->SetPixel(centerDistanceRegion,1.0);
+ typedef itk::SignedMaurerDistanceMapImageFilter< ImageType, ImageType > SignedMaurerDistanceMapImageFilterType;
+ typename SignedMaurerDistanceMapImageFilterType::Pointer distanceMapImageFilter = SignedMaurerDistanceMapImageFilterType::New();
+ distanceMapImageFilter->SetInput(distanceMap);
+ distanceMapImageFilter->SetBackgroundValue(0.0);
+ distanceMapImageFilter->GetOutput()->SetRequestedRegion(smallDistanceRegion);
+ distanceMapImageFilter->Update();
+ typename ImageType::PointType translatedImageOrigin = distanceMapImageFilter->GetOutput()->GetOrigin();
+
+ typename ImageType::OffsetType offsetRegion;
+ offsetRegion.Fill((sizeRegion[0]-1)/2);
while (!it.IsAtEnd())
{
double doseRef = it.Get();
-
+
//Create a region around it.Get()
typename ImageType::RegionType smallRegion;
typename ImageType::RegionType tempRegion;
smallRegion=input2->GetLargestPossibleRegion();
- typename ImageType::SizeType sizeRegion;
- sizeRegion.Fill(2*mDistance/minSpacing+1); //5 voxels de cote
-
- typename ImageType::OffsetType offsetRegion;
- offsetRegion.Fill((sizeRegion[0]-1)/2);
-
typename ImageType::IndexType startRegion;
startRegion=it.GetIndex();
startRegion=startRegion-offsetRegion;
addImageFilter->GetOutput()->SetRequestedRegion(smallRegion);
addImageFilter->Update();
- //compute the distance
- typename ImageType::Pointer distanceMap = ImageType::New();
- distanceMap->SetRegions(smallRegion);
- distanceMap->SetOrigin(input1->GetOrigin());
- distanceMap->SetSpacing(input1->GetSpacing());
- distanceMap->Allocate();
- distanceMap->FillBuffer(0.0);
- //distanceMap->SetPixel(it.GetIndex(),1.0);
-
- typedef itk::ApproximateSignedDistanceMapImageFilter< ImageType, ImageType > ApproximateSignedDistanceMapImageFilterType;
- typename ApproximateSignedDistanceMapImageFilterType::Pointer approximateSignedDistanceMapImageFilter = ApproximateSignedDistanceMapImageFilterType::New();
- approximateSignedDistanceMapImageFilter->SetInput(distanceMap);
- approximateSignedDistanceMapImageFilter->SetInsideValue(1.0);
- approximateSignedDistanceMapImageFilter->SetOutsideValue(0.0);
- approximateSignedDistanceMapImageFilter->GetOutput()->SetRequestedRegion(smallRegion);
- approximateSignedDistanceMapImageFilter->Update();
+ //compute the distance, ie. translate and crop the global one
+ typedef itk::TranslationTransform<double, 3> TranslationTransformType;
+ typename TranslationTransformType::Pointer transform = TranslationTransformType::New();
+ typename TranslationTransformType::OutputVectorType translation;
+ translation[0] = -startRegion[0]*input1->GetSpacing()[0];
+ translation[1] = -startRegion[1]*input1->GetSpacing()[1];
+ translation[2] = -startRegion[2]*input1->GetSpacing()[2];
+ transform->Translate(translation);
+ typedef itk::ResampleImageFilter<ImageType, ImageType> ResampleImageFilterType;
+ typename ResampleImageFilterType::Pointer resampleFilter = ResampleImageFilterType::New();
+ resampleFilter->SetTransform(transform.GetPointer());
+ resampleFilter->SetInput(distanceMapImageFilter->GetOutput());
+ resampleFilter->SetOutputOrigin(distanceMapImageFilter->GetOutput()->GetOrigin());
+ resampleFilter->SetOutputSpacing(distanceMapImageFilter->GetOutput()->GetSpacing());
+ resampleFilter->SetSize(input2->GetLargestPossibleRegion().GetSize());
+ resampleFilter->GetOutput()->SetRequestedRegion(smallRegion);
+ resampleFilter->Update();
//Square and Divide by dose & distance criteria
typedef itk::SquareImageFilter <ImageType, ImageType> SquareImageFilterType;
divideImageFilter->Update();
typename SquareImageFilterType::Pointer squareImageFilter2 = SquareImageFilterType::New();
- squareImageFilter2->SetInput(approximateSignedDistanceMapImageFilter->GetOutput());
+ squareImageFilter2->SetInput(resampleFilter->GetOutput());
squareImageFilter2->GetOutput()->SetRequestedRegion(smallRegion);
squareImageFilter2->Update();
divideImageFilter2->GetOutput()->SetRequestedRegion(smallRegion);
divideImageFilter2->Update();
- //Sum the 2 images and take the square root
+ //Sum the 2 images
typename AddImageFilterType::Pointer addImageFilter2 = AddImageFilterType::New();
addImageFilter2->SetInput1(divideImageFilter2->GetOutput());
addImageFilter2->SetInput2(divideImageFilter2->GetOutput());
addImageFilter2->GetOutput()->SetRequestedRegion(smallRegion);
addImageFilter2->Update();
- typedef itk::SqrtImageFilter<ImageType, ImageType> SqrtFilterType;
- typename SqrtFilterType::Pointer sqrtFilter = SqrtFilterType::New();
- sqrtFilter->SetInput(addImageFilter2->GetOutput());
- sqrtFilter->GetOutput()->SetRequestedRegion(smallRegion);
- sqrtFilter->Update();
-
//find min
typedef itk::MinimumMaximumImageCalculator <ImageType> ImageCalculatorFilterType;
typename ImageCalculatorFilterType::Pointer imageCalculatorFilter = ImageCalculatorFilterType::New ();
- imageCalculatorFilter->SetImage(sqrtFilter->GetOutput());
+ imageCalculatorFilter->SetImage(addImageFilter2->GetOutput());
imageCalculatorFilter->SetRegion(smallRegion);
imageCalculatorFilter->ComputeMinimum();
//Set the value
- output->SetPixel(it.GetIndex(),imageCalculatorFilter->GetMinimum());
+ output->SetPixel(it.GetIndex(),std::sqrt(imageCalculatorFilter->GetMinimum()));
++it;
-
- ++sizeTemp;
- std::cout << (double)sizeTemp / sizeTotal * 100.0 << std::endl;
}
this->template SetNextOutput<ImageType>(output);
git://git.creatis.insa-lyon.fr / clitk.git / commitdiff