~HelperClass1() {};
//the actual processing
- void BeforeThreadedGenerateData();
- void ThreadedGenerateData(const OutputImageRegionType& outputRegionForThread, int threadId );
+ void BeforeThreadedGenerateData() ITK_OVERRIDE;
+ void ThreadedGenerateData(const OutputImageRegionType& outputRegionForThread, itk::ThreadIdType threadId ) ITK_OVERRIDE;
//member data
typename WeightsImageType::Pointer m_Weights;
//=========================================================================================================================
//update the output for the outputRegionForThread
template<class InputImageType, class OutputImageType>
-void HelperClass1<InputImageType, OutputImageType>::ThreadedGenerateData(const OutputImageRegionType& outputRegionForThread, int threadId )
+void HelperClass1<InputImageType, OutputImageType>::ThreadedGenerateData(const OutputImageRegionType& outputRegionForThread, itk::ThreadIdType threadId )
{
- //std::cout << "HelperClass1::ThreadedGenerateData - IN" << std::endl;
+// std::cout << "HelperClass1::ThreadedGenerateData - IN " << threadId << std::endl;
//Get pointer to the input
typename InputImageType::ConstPointer inputPtr = this->GetInput();
DisplacementType displacement;
inputIt.GoToBegin();
+ typename OutputImageType::SizeType size = outputPtr->GetLargestPossibleRegion().GetSize();
+
//define some temp variables
signed long baseIndex[ImageDimension];
double distance[ImageDimension];
for(dim = 0; dim < ImageDimension; dim++) {
// The following block is equivalent to the following line without
// having to call floor. (Only for positive inputs, we already now that is in the image)
- // baseIndex[dim] = (long) vcl_floor(contIndex[dim] );
+ // baseIndex[dim] = (long) std::floor(contIndex[dim] );
baseIndex[dim] = (long) contIndex[dim];
distance[dim] = contIndex[dim] - double( baseIndex[dim] );
overlap *= 1.0 - distance[dim];
}
upper >>= 1;
- }
+ if (neighIndex[dim] >= size[dim])
+ neighIndex[dim] = size[dim] - 1;
+ }
//Set neighbor value only if overlap is not zero
++inputIt;
}
- //std::cout << "HelperClass1::ThreadedGenerateData - OUT" << std::endl;
+// std::cout << "HelperClass1::ThreadedGenerateData - OUT " << threadId << std::endl;
}
//the actual processing
- void ThreadedGenerateData(const OutputImageRegionType& outputRegionForThread, int threadId );
-
+ void ThreadedGenerateData(const OutputImageRegionType& outputRegionForThread, itk::ThreadIdType threadId ) ITK_OVERRIDE;
//member data
typename WeightsImageType::Pointer m_Weights;
//Empty constructor
template<class InputImageType, class OutputImageType > HelperClass2<InputImageType, OutputImageType>::HelperClass2()
{
- m_EdgePaddingValue=itk::NumericTraits<PixelType>::Zero;
+ PixelType zero;
+ for(unsigned int i=0;i <PixelType::Dimension; i++) zero[i] = 0.0;
+ m_EdgePaddingValue=zero;
+ //m_EdgePaddingValue=itk::NumericTraits<PixelType>::Zero;
}
//=========================================================================================================================
//update the output for the outputRegionForThread
-template<class InputImageType, class OutputImageType > void HelperClass2<InputImageType, OutputImageType>::ThreadedGenerateData(const OutputImageRegionType& outputRegionForThread, int threadId )
+template<class InputImageType, class OutputImageType > void HelperClass2<InputImageType, OutputImageType>::ThreadedGenerateData(const OutputImageRegionType& outputRegionForThread, itk::ThreadIdType threadId )
{
- //std::cout << "HelperClass2::ThreadedGenerateData - IN" << std::endl;
-
+// std::cout << "HelperClass2::ThreadedGenerateData - IN " << threadId << std::endl;
+
//Get pointer to the input
typename InputImageType::ConstPointer inputPtr = this->GetInput();
++inputIt;
}//end while
-
- //std::cout << "HelperClass2::ThreadedGenerateData - OUT" << std::endl;
-
+
+// std::cout << "HelperClass2::ThreadedGenerateData - OUT " << threadId << std::endl;
+
}//end member
template <class InputImageType, class OutputImageType>
InvertVFFilter<InputImageType, OutputImageType>::InvertVFFilter()
{
- m_EdgePaddingValue=itk::NumericTraits<PixelType>::Zero; //no other reasonable value?
+
+ //m_EdgePaddingValue=itk::NumericTraits<PixelType>::Zero; //no other reasonable value?
+ PixelType zero;
+ for(unsigned int i=0;i <PixelType::Dimension; i++) zero[i] = 0.0;
+ m_EdgePaddingValue=zero; //no other reasonable value?
+
m_ThreadSafe=false;
m_Verbose=false;
}
//Update
template <class InputImageType, class OutputImageType> void InvertVFFilter<InputImageType, OutputImageType>::GenerateData()
{
- //std::cout << "InvertVFFilter::GenerateData - IN" << std::endl;
+ // std::cout << "InvertVFFilter::GenerateData - IN" << std::endl;
//Get the properties of the input
typename InputImageType::ConstPointer inputPtr=this->GetInput();
typename HelperClass1Type::Pointer helper1=HelperClass1Type::New();
//Set input
- if(m_NumberOfThreadsIsGiven)helper1->SetNumberOfThreads(m_NumberOfThreads);
+ if(m_NumberOfThreadsIsGiven) {
+#if ITK_VERSION_MAJOR <= 4
+ helper1->SetNumberOfThreads(m_NumberOfThreads);
+#else
+ helper1->SetNumberOfWorkUnits(m_NumberOfWorkUnits);
+#endif
+ }
helper1->SetInput(inputPtr);
helper1->SetWeights(weights);
typename HelperClass2Type::Pointer helper2=HelperClass2Type::New();
//Set temporary output as input
+ if(m_NumberOfThreadsIsGiven) {
+#if ITK_VERSION_MAJOR <= 4
+ helper2->SetNumberOfThreads(m_NumberOfThreads);
+#else
+ helper2->SetNumberOfWorkUnits(m_NumberOfWorkUnits);
+#endif
+ }
helper2->SetInput(temp);
helper2->SetWeights(weights);
helper2->SetEdgePaddingValue(m_EdgePaddingValue);
//Set the output
this->SetNthOutput(0, helper2->GetOutput());
+
+ //std::cout << "InvertVFFilter::GenerateData - OUT" << std::endl;
}
git://git.creatis.insa-lyon.fr / clitk.git / blobdiff