OxOriginalShmolliDicomReader.hxx
/*!
* \file OxOriginalShmolliDicomReader.hxx
* \author Konrad Werys
* \date 2018/08/24
*/
#ifndef Tomato_OxOriginalShmolliDicomReader_HXX
#define Tomato_OxOriginalShmolliDicomReader_HXX
#include <itkImageFileReader.h>
#include "OxOriginalShmolliDicomReader.h"
namespace Ox {
template< typename MeasureType >
int
OriginalShmolliDicomReader<MeasureType>
::readAndSort() {
// Mag
typename ReadFileListFilterType::Pointer readerMag = ReadFileListFilterType::New();
readerMag->SetFileList(_filesMag);
readerMag->Update();
typename SortInvTimesImageFilterType::Pointer sorterMag = SortInvTimesImageFilterType::New();
sorterMag->SetInvTimesNonSorted(readerMag->GetInvTimes());
sorterMag->SetInput(readerMag->GetOutput());
sorterMag->Update();
// pha
typename ReadFileListFilterType::Pointer readerPha = ReadFileListFilterType::New();
readerPha->SetFileList(_filesPha);
readerPha->Update();
typename SortInvTimesImageFilterType::Pointer sorterPha = SortInvTimesImageFilterType::New();
sorterPha->SetInvTimesNonSorted(readerPha->GetInvTimes());
sorterPha->SetInput(readerPha->GetOutput());
sorterPha->Update();
if (sorterMag->GetInvTimesSorted() == sorterPha->GetInvTimesSorted()){
vnl_vector<InputPixelType > temp = sorterMag->GetInvTimesSorted();
_nSamples = temp.size();
delete [] _invTimes;
_invTimes = new InputPixelType[_nSamples];
KWUtil::copyArrayToArray(_nSamples, _invTimes, temp.data_block());
} else {
throw std::runtime_error("Mag and Pha inv times are not equal");
}
_imageMag = sorterMag->GetOutput();
_imagePha = sorterPha->GetOutput();
if (_filesT1.size() > 0) {
typename itk::ImageFileReader<Image2dType>::Pointer reader = itk::ImageFileReader<Image2dType>::New();
reader->SetFileName(_filesT1.at(0));
reader->Update();
_imageT1color = reader->GetOutput();
}
if (_filesT1.size() > 1) {
typename itk::ImageFileReader<Image2dType>::Pointer reader = itk::ImageFileReader<Image2dType>::New();
reader->SetFileName(_filesT1.at(1));
reader->Update();
_imageT1grey = reader->GetOutput();
}
if (_filesFitparams.size() > 0) {
typename itk::ImageFileReader<Image2dType>::Pointer reader = itk::ImageFileReader<Image2dType>::New();
reader->SetFileName(_filesFitparams.at(0));
reader->Update();
_imageR2 = reader->GetOutput();
}
if (_filesFitparams.size() > 1) {
typename itk::ImageFileReader<Image2dType>::Pointer reader = itk::ImageFileReader<Image2dType>::New();
reader->SetFileName(_filesFitparams.at(1));
reader->Update();
_imageA = reader->GetOutput();
}
if (_filesFitparams.size() > 2) {
typename itk::ImageFileReader<Image2dType>::Pointer reader = itk::ImageFileReader<Image2dType>::New();
reader->SetFileName(_filesFitparams.at(2));
reader->Update();
_imageB = reader->GetOutput();
}
if (_filesFitparams.size() > 3) {
typename itk::ImageFileReader<Image2dType>::Pointer reader = itk::ImageFileReader<Image2dType>::New();
reader->SetFileName(_filesFitparams.at(3));
reader->Update();
_imageT1star = reader->GetOutput();
}
if (_filesFitparams.size() > 4) {
typename itk::ImageFileReader<Image2dType>::Pointer reader = itk::ImageFileReader<Image2dType>::New();
reader->SetFileName(_filesFitparams.at(4));
reader->Update();
_imageNShmolliSamplesUsed = reader->GetOutput();
}
if (_filesFitparams.size() > 5) {
typename itk::ImageFileReader<Image2dType>::Pointer reader = itk::ImageFileReader<Image2dType>::New();
reader->SetFileName(_filesFitparams.at(5));
reader->Update();
_imageChiSqrt = reader->GetOutput();
}
if (_filesFitparams.size() > 6) {
typename itk::ImageFileReader<Image2dType>::Pointer reader = itk::ImageFileReader<Image2dType>::New();
reader->SetFileName(_filesFitparams.at(6));
reader->Update();
_imageSnr = reader->GetOutput();
}
return 0; // EXIT_SUCCESS
}
template< typename MeasureType >
int
OriginalShmolliDicomReader<MeasureType>
::visualise(){
#ifdef USE_VTK
// visual presentation of the results
if (_visualise) {
// // see if pha is ok
// typedef itk::ExtractImageFilter< Image3dType, Image2dType > ExtractFilterType;
// ExtractFilterType::Pointer extractFilter = ExtractFilterType::New();
//
// ExtractFilterType::InputImageIndexType extrindex;
// extrindex.Fill(0);
// extrindex[2] = 6;
// ExtractFilterType::InputImageSizeType size = _imagePha->GetLargestPossibleRegion().GetSize();
// size[2] = 0;
// ExtractFilterType::InputImageRegionType region = _imagePha->GetLargestPossibleRegion();
// region.SetSize(size);
// region.SetIndex(extrindex);
// extractFilter->SetExtractionRegion(region);
// extractFilter->SetInput(_imagePha);
// extractFilter->SetDirectionCollapseToSubmatrix();
QuickView viewer;
viewer.AddImage(_imageT1color.GetPointer(), true, "T1 color");
viewer.AddImage(_imageT1grey.GetPointer(), true, "T1 grey");
viewer.AddImage(_imageR2.GetPointer(), true, "R2");
viewer.AddImage(_imageA.GetPointer(), true, "A");
viewer.AddImage(_imageB.GetPointer(), true, "B");
viewer.AddImage(_imageT1star.GetPointer(), true, "T1*");
viewer.AddImage(_imageChiSqrt.GetPointer(), true, "ChiSqrt");
viewer.AddImage(_imageSnr.GetPointer(), true, "SNR");
viewer.AddImage(_imageNShmolliSamplesUsed.GetPointer(), true, "Number of Samples used in reconstruction");
viewer.AddImage(_imageChiSqrt.GetPointer(), true, "ChiSqrt");
//viewer.SetViewPortSize(500);
viewer.Visualize();
}
#else // USE_VTK
printf("Visualisation not possible: the project was configured not to use VTK. Install VTK and reconfigure the project in CMake.");
//throw itk::ExceptionObject(__FILE__, __LINE__, "Visualisation not possible: the project was configured not to use VTK. Install VTK and reconfigure the project in CMake.");
#endif // USE_VTK
return 0; //EXIT_SUCCESS
}
template< typename MeasureType >
int
OriginalShmolliDicomReader<MeasureType>
::copyFromImage(MeasureType* array, const typename Image3dType::Pointer image, const typename Image3dType::IndexType index){
typename Image3dType::SizeType size = image->GetLargestPossibleRegion().GetSize();
typename Image3dType::IndexType tempIndex = index;
for (int i = 0; i < size[2]; ++i){
tempIndex[2] = i;
array[i] = image->GetPixel(tempIndex);
}
return 0; //EXIT_SUCCESS
}
} // namespace Ox
#endif //Tomato_OxOriginalShmolliDicomReader_H
