Authors belong to:
- University of LYON http://www.universite-lyon.fr/
-- Léon Bérard cancer center http://oncora1.lyon.fnclcc.fr
+- Léon Bérard cancer center http://www.centreleonberard.fr
- CREATIS CNRS laboratory http://www.creatis.insa-lyon.fr
This software is distributed WITHOUT ANY WARRANTY; without even
- BSD See included LICENSE.txt file
- CeCILL-B http://www.cecill.info/licences/Licence_CeCILL-B_V1-en.html
-======================================================================-====*/
+===========================================================================**/
#ifndef clitkBLUTDIRGenericFilter_cxx
#define clitkBLUTDIRGenericFilter_cxx
===================================================*/
#include "clitkBLUTDIRGenericFilter.h"
+#include "clitkBLUTDIRCommandIterationUpdateDVF.h"
+#include "itkCenteredTransformInitializer.h"
+#include "itkLabelStatisticsImageFilter.h"
+#if (ITK_VERSION_MAJOR == 4) && (ITK_VERSION_MINOR < 6)
+# include "itkTransformToDisplacementFieldSource.h"
+#else
+# include "itkTransformToDisplacementFieldFilter.h"
+#endif
namespace clitk
{
{
InitializeImageType<2>();
InitializeImageType<3>();
- m_Verbose=true;
+ m_Verbose=false;
}
//=========================================================================//
}
if (m_ArgsInfo.output_given) SetOutputFilename(m_ArgsInfo.output_arg);
+
+ if (m_ArgsInfo.verbose_given) m_Verbose=true;
}
//=========================================================================//
m_CommandIterationUpdate->SetOptimizer(m_GenericOptimizer);
// Set the previous transform parameters to the registration
- // if(m_Initializer->m_Parameters!=NULL )delete m_Initializer->m_Parameters;
+ // if(m_Initializer->m_Parameters!=ITK_NULLPTR )delete m_Initializer->m_Parameters;
m_Initializer->SetInitialParameters(currentCoefficientImages, *newParameters);
registration->SetInitialTransformParametersOfNextLevel(*newParameters);
}
template<class InputImageType>
void BLUTDIRGenericFilter::UpdateWithInputImageType()
{
+ if (m_Verbose) std::cout << "BLUTDIRGenericFilter::UpdateWithInputImageType()" << std::endl;
+
//=============================================================================
//Input
//=============================================================================
// The metric region with respect to the extracted transform region:
// where should the metric be CALCULATED (depends on transform)
typename FixedImageType::RegionType metricRegion = fixedImage->GetLargestPossibleRegion();
- typename FixedImageType::RegionType::SizeType metricRegionSize=metricRegion.GetSize();
typename FixedImageType::RegionType::IndexType metricRegionIndex=metricRegion.GetIndex();
typename FixedImageType::PointType metricRegionOrigin=fixedImage->GetOrigin();
//============================================================================
typedef itk::ImageMaskSpatialObject< InputImageType::ImageDimension > MaskType;
typedef itk::Image< unsigned char, InputImageType::ImageDimension > ImageLabelType;
- typename MaskType::Pointer fixedMask = NULL;
- typename ImageLabelType::Pointer labels = NULL;
+ typename MaskType::Pointer fixedMask = ITK_NULLPTR;
+ typename ImageLabelType::Pointer labels = ITK_NULLPTR;
if (m_ArgsInfo.referenceMask_given)
{
fixedMask = MaskType::New();
fixedMask->SetImage(labels);
// Find the bounding box of the "inside" label
- typedef itk::LabelGeometryImageFilter<ImageLabelType> GeometryImageFilterType;
- typename GeometryImageFilterType::Pointer geometryImageFilter=GeometryImageFilterType::New();
- geometryImageFilter->SetInput(labels);
- geometryImageFilter->Update();
- typename GeometryImageFilterType::BoundingBoxType boundingBox = geometryImageFilter->GetBoundingBox(1);
+ typedef itk::LabelStatisticsImageFilter<ImageLabelType, ImageLabelType> StatisticsImageFilterType;
+ typename StatisticsImageFilterType::Pointer statisticsImageFilter=StatisticsImageFilterType::New();
+ statisticsImageFilter->SetInput(labels);
+ statisticsImageFilter->SetLabelInput(labels);
+ statisticsImageFilter->Update();
+ typename StatisticsImageFilterType::BoundingBoxType boundingBox = statisticsImageFilter->GetBoundingBox(1);
// Limit the transform region to the mask
for (unsigned int i=0; i<InputImageType::ImageDimension; i++)
// Crop the fixedImage to the bounding box to facilitate multi-resolution
typedef itk::ExtractImageFilter<FixedImageType,FixedImageType> ExtractImageFilterType;
typename ExtractImageFilterType::Pointer extractImageFilter=ExtractImageFilterType::New();
+ extractImageFilter->SetDirectionCollapseToSubmatrix();
extractImageFilter->SetInput(fixedImage);
extractImageFilter->SetExtractionRegion(transformRegion);
extractImageFilter->Update();
}
typedef itk::ImageMaskSpatialObject< InputImageType::ImageDimension > MaskType;
- typename MaskType::Pointer movingMask=NULL;
+ typename MaskType::Pointer movingMask=ITK_NULLPTR;
if (m_ArgsInfo.targetMask_given)
{
movingMask= MaskType::New();
// Rigid or Affine Transform
//=======================================================
typedef itk::AffineTransform <double,3> RigidTransformType;
- RigidTransformType::Pointer rigidTransform=NULL;
+ RigidTransformType::Pointer rigidTransform=ITK_NULLPTR;
if (m_ArgsInfo.initMatrix_given)
{
if(m_Verbose) std::cout<<"Reading the prior transform matrix "<< m_ArgsInfo.initMatrix_arg<<"..."<<std::endl;
itk::Vector<double,3> finalTranslation = clitk::GetTranslationPartMatrix3D(rigidTransformMatrix);
rigidTransform->SetTranslation(finalTranslation);
}
+ else if (m_ArgsInfo.centre_flag)
+ {
+ if(m_Verbose) std::cout<<"No itinial matrix given and \"centre\" flag switched on. Centering all images..."<<std::endl;
+
+ rigidTransform=RigidTransformType::New();
+
+ typedef itk::CenteredTransformInitializer<RigidTransformType, FixedImageType, MovingImageType > TransformInitializerType;
+ typename TransformInitializerType::Pointer initializer = TransformInitializerType::New();
+ initializer->SetTransform( rigidTransform );
+ initializer->SetFixedImage( fixedImage );
+ initializer->SetMovingImage( movingImage );
+ initializer->GeometryOn();
+ initializer->InitializeTransform();
+ }
//=======================================================
transform->SetParameters( parameters );
if (m_ArgsInfo.initCoeff_given) initializer->SetInitialParameters(m_ArgsInfo.initCoeff_arg, parameters);
+ //-------------------------------------------------------------------------
+ // DEBUG: use an itk BSpline instead of multilabel BLUTs
+ //-------------------------------------------------------------------------
+ typedef itk::Transform< TCoordRep, 3, 3 > RegistrationTransformType;
+ RegistrationTransformType::Pointer regTransform(transform);
+ typedef itk::BSplineDeformableTransform<TCoordRep,SpaceDimension, 3> SingleBSplineTransformType;
+ typename SingleBSplineTransformType::Pointer sTransform;
+ if(m_ArgsInfo.itkbspline_flag) {
+ if( transform->GetTransforms().size()>1)
+ itkExceptionMacro(<< "invalid --itkbspline option if there is more than 1 label")
+ sTransform = SingleBSplineTransformType::New();
+ sTransform->SetBulkTransform( transform->GetTransforms()[0]->GetBulkTransform() );
+ sTransform->SetGridSpacing( transform->GetTransforms()[0]->GetGridSpacing() );
+ sTransform->SetGridOrigin( transform->GetTransforms()[0]->GetGridOrigin() );
+ sTransform->SetGridRegion( transform->GetTransforms()[0]->GetGridRegion() );
+ sTransform->SetParameters( transform->GetTransforms()[0]->GetParameters() );
+ regTransform = sTransform;
+ transform = ITK_NULLPTR; // free memory
+ }
//=======================================================
// Interpolator
typedef itk::ImageToImageMetric< FixedImageType, MovingImageType > MetricType;
typename MetricType::Pointer metric=genericMetric->GetMetricPointer();
if (movingMask) metric->SetMovingImageMask(movingMask);
-
-#ifdef ITK_USE_OPTIMIZED_REGISTRATION_METHODS
if (threadsGiven) {
+#if ITK_VERSION_MAJOR <= 4
metric->SetNumberOfThreads( threads );
- if (m_Verbose) std::cout<< "Using " << threads << " threads." << std::endl;
- }
#else
- if (m_Verbose) std::cout<<"Not setting the number of threads (not compiled with USE_OPTIMIZED_REGISTRATION_METHODS)..."<<std::endl;
+ metric->SetNumberOfWorkUnits( threads );
#endif
-
+ if (m_Verbose) std::cout<< "Using " << threads << " threads." << std::endl;
+ }
//=======================================================
// Optimizer
GenericOptimizerType::Pointer genericOptimizer = GenericOptimizerType::New();
genericOptimizer->SetArgsInfo(m_ArgsInfo);
genericOptimizer->SetMaximize(genericMetric->GetMaximize());
- genericOptimizer->SetNumberOfParameters(transform->GetNumberOfParameters());
+ genericOptimizer->SetNumberOfParameters(regTransform->GetNumberOfParameters());
typedef itk::SingleValuedNonLinearOptimizer OptimizerType;
OptimizerType::Pointer optimizer = genericOptimizer->GetOptimizerPointer();
registration->SetMetric( metric );
registration->SetOptimizer( optimizer );
registration->SetInterpolator( interpolator );
- registration->SetTransform (transform);
+ registration->SetTransform (regTransform );
if(threadsGiven) {
+#if ITK_VERSION_MAJOR <= 4
registration->SetNumberOfThreads(threads);
+#else
+ registration->SetNumberOfWorkUnits(threads);
+#endif
if (m_Verbose) std::cout<< "Using " << threads << " threads." << std::endl;
}
registration->SetFixedImage( croppedFixedImage );
registration->SetFixedImageRegion( metricRegion );
registration->SetFixedImagePyramid( fixedImagePyramid );
registration->SetMovingImagePyramid( movingImagePyramid );
- registration->SetInitialTransformParameters( transform->GetParameters() );
+ registration->SetInitialTransformParameters( regTransform->GetParameters() );
registration->SetNumberOfLevels( m_ArgsInfo.levels_arg );
if (m_Verbose) std::cout<<"Setting the number of resolution levels to "<<m_ArgsInfo.levels_arg<<"..."<<std::endl;
command->SetMaximize(genericMetric->GetMaximize());
command->SetMetricRegion(metricRegion);
registration->AddObserver( itk::IterationEvent(), command );
+
+ if (m_ArgsInfo.coeff_given)
+ {
+ if(m_ArgsInfo.itkbspline_flag) {
+ itkExceptionMacro("--coeff and --itkbpline are incompatible");
+ }
+
+ std::cout << std::endl << "Output coefficient images every " << m_ArgsInfo.coeffEveryN_arg << " iterations." << std::endl;
+ typedef CommandIterationUpdateDVF<FixedImageType, OptimizerType, TransformType> DVFCommandType;
+ typename DVFCommandType::Pointer observerdvf = DVFCommandType::New();
+ observerdvf->SetFixedImage(fixedImage);
+ observerdvf->SetTransform(transform);
+ observerdvf->SetArgsInfo(m_ArgsInfo);
+ optimizer->AddObserver( itk::IterationEvent(), observerdvf );
+ }
}
try
{
- registration->StartRegistration();
+ registration->Update();
}
catch( itk::ExceptionObject & err )
{
// Get the result
//=======================================================
OptimizerType::ParametersType finalParameters = registration->GetLastTransformParameters();
- transform->SetParameters( finalParameters );
+ regTransform->SetParameters( finalParameters );
if (m_Verbose)
{
std::cout<<"Stop condition description: "
// Compute the DVF (only deformable transform)
//=======================================================
typedef itk::Vector< float, SpaceDimension > DisplacementType;
- typedef itk::Image< DisplacementType, InputImageType::ImageDimension > DeformationFieldType;
- typedef itk::TransformToDeformationFieldSource<DeformationFieldType, double> ConvertorType;
+ typedef itk::Image< DisplacementType, InputImageType::ImageDimension > DisplacementFieldType;
+#if (ITK_VERSION_MAJOR == 4) && (ITK_VERSION_MINOR < 6)
+ typedef itk::TransformToDisplacementFieldSource<DisplacementFieldType, double> ConvertorType;
+#else
+ typedef itk::TransformToDisplacementFieldFilter<DisplacementFieldType, double> ConvertorType;
+#endif
typename ConvertorType::Pointer filter= ConvertorType::New();
+#if ITK_VERSION_MAJOR <= 4
filter->SetNumberOfThreads(1);
- transform->SetBulkTransform(NULL);
- filter->SetTransform(transform);
+#else
+ filter->SetNumberOfWorkUnits(1);
+#endif
+ if(m_ArgsInfo.itkbspline_flag)
+ sTransform->SetBulkTransform(ITK_NULLPTR);
+ else
+ transform->SetBulkTransform(ITK_NULLPTR);
+ filter->SetTransform(regTransform);
+#if ITK_VERSION_MAJOR > 4 || (ITK_VERSION_MAJOR == 4 && ITK_VERSION_MINOR >= 6)
+ filter->SetReferenceImage(fixedImage);
+#else
filter->SetOutputParametersFromImage(fixedImage);
+#endif
filter->Update();
- typename DeformationFieldType::Pointer field = filter->GetOutput();
+ typename DisplacementFieldType::Pointer field = filter->GetOutput();
//=======================================================
// Write the DVF
//=======================================================
- typedef itk::ImageFileWriter< DeformationFieldType > FieldWriterType;
+ typedef itk::ImageFileWriter< DisplacementFieldType > FieldWriterType;
typename FieldWriterType::Pointer fieldWriter = FieldWriterType::New();
fieldWriter->SetFileName( m_ArgsInfo.vf_arg );
fieldWriter->SetInput( field );
//=======================================================
typedef itk::ResampleImageFilter< MovingImageType, FixedImageType > ResampleFilterType;
typename ResampleFilterType::Pointer resampler = ResampleFilterType::New();
- if (rigidTransform) transform->SetBulkTransform(rigidTransform);
- resampler->SetTransform( transform );
+ if (rigidTransform) {
+ if(m_ArgsInfo.itkbspline_flag)
+ sTransform->SetBulkTransform(rigidTransform);
+ else
+ transform->SetBulkTransform(rigidTransform);
+ }
+ resampler->SetTransform( regTransform );
resampler->SetInput( movingImage);
resampler->SetOutputParametersFromImage(fixedImage);
resampler->Update();