/usr/include/ITK-4.5/itkMultiResolutionImageRegistrationMethod.hxx is in libinsighttoolkit4-dev 4.5.0-3.
This file is owned by root:root, with mode 0o644.
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*
* Copyright Insight Software Consortium
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0.txt
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
*=========================================================================*/
#ifndef __itkMultiResolutionImageRegistrationMethod_hxx
#define __itkMultiResolutionImageRegistrationMethod_hxx
#include "itkMultiResolutionImageRegistrationMethod.h"
#include "itkRecursiveMultiResolutionPyramidImageFilter.h"
namespace itk
{
/**
* Constructor
*/
template< typename TFixedImage, typename TMovingImage >
MultiResolutionImageRegistrationMethod< TFixedImage, TMovingImage >
::MultiResolutionImageRegistrationMethod()
{
this->SetNumberOfRequiredOutputs(1); // for the Transform
m_FixedImage = 0; // has to be provided by the user.
m_MovingImage = 0; // has to be provided by the user.
m_Transform = 0; // has to be provided by the user.
m_Interpolator = 0; // has to be provided by the user.
m_Metric = 0; // has to be provided by the user.
m_Optimizer = 0; // has to be provided by the user.
// Use MultiResolutionPyramidImageFilter as the default
// image pyramids.
m_FixedImagePyramid = FixedImagePyramidType::New();
m_MovingImagePyramid = MovingImagePyramidType::New();
m_NumberOfLevels = 1;
m_CurrentLevel = 0;
m_Stop = false;
m_ScheduleSpecified = false;
m_NumberOfLevelsSpecified = false;
m_InitialTransformParameters = ParametersType(1);
m_InitialTransformParametersOfNextLevel = ParametersType(1);
m_LastTransformParameters = ParametersType(1);
m_InitialTransformParameters.Fill(0.0f);
m_InitialTransformParametersOfNextLevel.Fill(0.0f);
m_LastTransformParameters.Fill(0.0f);
TransformOutputPointer transformDecorator =
itkDynamicCastInDebugMode< TransformOutputType * >( this->MakeOutput(0).GetPointer() );
this->ProcessObject::SetNthOutput( 0, transformDecorator.GetPointer() );
}
/*
* Initialize by setting the interconnects between components.
*/
template< typename TFixedImage, typename TMovingImage >
void
MultiResolutionImageRegistrationMethod< TFixedImage, TMovingImage >
::Initialize()
throw ( ExceptionObject )
{
// Sanity checks
if ( !m_Metric )
{
itkExceptionMacro(<< "Metric is not present");
}
if ( !m_Optimizer )
{
itkExceptionMacro(<< "Optimizer is not present");
}
if ( !m_Transform )
{
itkExceptionMacro(<< "Transform is not present");
}
if ( !m_Interpolator )
{
itkExceptionMacro(<< "Interpolator is not present");
}
// Setup the metric
m_Metric->SetMovingImage( m_MovingImagePyramid->GetOutput(m_CurrentLevel) );
m_Metric->SetFixedImage( m_FixedImagePyramid->GetOutput(m_CurrentLevel) );
m_Metric->SetTransform(m_Transform);
m_Metric->SetInterpolator(m_Interpolator);
m_Metric->SetFixedImageRegion(m_FixedImageRegionPyramid[m_CurrentLevel]);
m_Metric->Initialize();
// Setup the optimizer
m_Optimizer->SetCostFunction(m_Metric);
m_Optimizer->SetInitialPosition(m_InitialTransformParametersOfNextLevel);
//
// Connect the transform to the Decorator.
//
TransformOutputType *transformOutput =
static_cast< TransformOutputType * >( this->ProcessObject::GetOutput(0) );
transformOutput->Set( m_Transform.GetPointer() );
}
/*
* Stop the Registration Process
*/
template< typename TFixedImage, typename TMovingImage >
void
MultiResolutionImageRegistrationMethod< TFixedImage, TMovingImage >
::StopRegistration(void)
{
m_Stop = true;
}
/**
* Set the schedules for the fixed and moving image pyramid
*/
template< typename TFixedImage, typename TMovingImage >
void
MultiResolutionImageRegistrationMethod< TFixedImage, TMovingImage >
::SetSchedules(const ScheduleType & fixedImagePyramidSchedule,
const ScheduleType & movingImagePyramidSchedule)
{
if ( m_NumberOfLevelsSpecified )
{
itkExceptionMacro("SetSchedules should not be used "
<< "if numberOfLevelves are specified using SetNumberOfLevels");
}
m_FixedImagePyramidSchedule = fixedImagePyramidSchedule;
m_MovingImagePyramidSchedule = movingImagePyramidSchedule;
m_ScheduleSpecified = true;
//Set the number of levels based on the pyramid schedule specified
if ( m_FixedImagePyramidSchedule.rows() !=
m_MovingImagePyramidSchedule.rows() )
{
itkExceptionMacro("The specified schedules contain unequal number of levels");
}
else
{
m_NumberOfLevels = m_FixedImagePyramidSchedule.rows();
}
this->Modified();
}
/**
* Set the number of levels
*/
template< typename TFixedImage, typename TMovingImage >
void
MultiResolutionImageRegistrationMethod< TFixedImage, TMovingImage >
::SetNumberOfLevels(SizeValueType numberOfLevels)
{
if ( m_ScheduleSpecified )
{
itkExceptionMacro("SetNumberOfLevels should not be used "
<< "if schedules have been specified using SetSchedules method ");
}
m_NumberOfLevels = numberOfLevels;
m_NumberOfLevelsSpecified = true;
this->Modified();
}
/**
* Stop the Registration Process
*/
template< typename TFixedImage, typename TMovingImage >
void
MultiResolutionImageRegistrationMethod< TFixedImage, TMovingImage >
::PreparePyramids(void)
{
if ( !m_Transform )
{
itkExceptionMacro(<< "Transform is not present");
}
m_InitialTransformParametersOfNextLevel = m_InitialTransformParameters;
if ( m_InitialTransformParametersOfNextLevel.Size() !=
m_Transform->GetNumberOfParameters() )
{
itkExceptionMacro(<< "Size mismatch between initial parameter and transform");
}
// Sanity checks
if ( !m_FixedImage )
{
itkExceptionMacro(<< "FixedImage is not present");
}
if ( !m_MovingImage )
{
itkExceptionMacro(<< "MovingImage is not present");
}
if ( !m_FixedImagePyramid )
{
itkExceptionMacro(<< "Fixed image pyramid is not present");
}
if ( !m_MovingImagePyramid )
{
itkExceptionMacro(<< "Moving image pyramid is not present");
}
// Setup the fixed and moving image pyramid
if ( m_NumberOfLevelsSpecified )
{
m_FixedImagePyramid->SetNumberOfLevels(m_NumberOfLevels);
m_MovingImagePyramid->SetNumberOfLevels(m_NumberOfLevels);
}
if ( m_ScheduleSpecified )
{
m_FixedImagePyramid->SetNumberOfLevels( m_FixedImagePyramidSchedule.rows() );
m_FixedImagePyramid->SetSchedule(m_FixedImagePyramidSchedule);
m_MovingImagePyramid->SetNumberOfLevels( m_MovingImagePyramidSchedule.rows() );
m_MovingImagePyramid->SetSchedule(m_MovingImagePyramidSchedule);
}
m_FixedImagePyramid->SetInput(m_FixedImage);
m_FixedImagePyramid->UpdateLargestPossibleRegion();
// Setup the moving image pyramid
m_MovingImagePyramid->SetInput(m_MovingImage);
m_MovingImagePyramid->UpdateLargestPossibleRegion();
typedef typename FixedImageRegionType::SizeType SizeType;
typedef typename FixedImageRegionType::IndexType IndexType;
ScheduleType schedule = m_FixedImagePyramid->GetSchedule();
itkDebugMacro (<< "FixedImage schedule: " << schedule);
ScheduleType movingschedule = m_MovingImagePyramid->GetSchedule();
itkDebugMacro (<< "MovingImage schedule: " << movingschedule);
SizeType inputSize = m_FixedImageRegion.GetSize();
IndexType inputStart = m_FixedImageRegion.GetIndex();
const SizeValueType numberOfLevels =
m_FixedImagePyramid->GetNumberOfLevels();
m_FixedImageRegionPyramid.reserve(numberOfLevels);
m_FixedImageRegionPyramid.resize(numberOfLevels);
// Compute the FixedImageRegion corresponding to each level of the
// pyramid. This uses the same algorithm of the ShrinkImageFilter
// since the regions should be compatible.
for ( unsigned int level = 0; level < numberOfLevels; level++ )
{
SizeType size;
IndexType start;
for ( unsigned int dim = 0; dim < TFixedImage::ImageDimension; dim++ )
{
const float scaleFactor = static_cast< float >( schedule[level][dim] );
size[dim] = static_cast< typename SizeType::SizeValueType >(
vcl_floor(static_cast< float >( inputSize[dim] ) / scaleFactor) );
if ( size[dim] < 1 )
{
size[dim] = 1;
}
start[dim] = static_cast< typename IndexType::IndexValueType >(
vcl_ceil(static_cast< float >( inputStart[dim] ) / scaleFactor) );
}
m_FixedImageRegionPyramid[level].SetSize(size);
m_FixedImageRegionPyramid[level].SetIndex(start);
}
}
/*
* PrintSelf
*/
template< typename TFixedImage, typename TMovingImage >
void
MultiResolutionImageRegistrationMethod< TFixedImage, TMovingImage >
::PrintSelf(std::ostream & os, Indent indent) const
{
Superclass::PrintSelf(os, indent);
os << indent << "Metric: " << m_Metric.GetPointer() << std::endl;
os << indent << "Optimizer: " << m_Optimizer.GetPointer() << std::endl;
os << indent << "Transform: " << m_Transform.GetPointer() << std::endl;
os << indent << "Interpolator: " << m_Interpolator.GetPointer() << std::endl;
os << indent << "FixedImage: " << m_FixedImage.GetPointer() << std::endl;
os << indent << "MovingImage: " << m_MovingImage.GetPointer() << std::endl;
os << indent << "FixedImagePyramid: ";
os << m_FixedImagePyramid.GetPointer() << std::endl;
os << indent << "MovingImagePyramid: ";
os << m_MovingImagePyramid.GetPointer() << std::endl;
os << indent << "NumberOfLevels: ";
os << m_NumberOfLevels << std::endl;
os << indent << "CurrentLevel: ";
os << m_CurrentLevel << std::endl;
os << indent << "InitialTransformParameters: ";
os << m_InitialTransformParameters << std::endl;
os << indent << "InitialTransformParametersOfNextLevel: ";
os << m_InitialTransformParametersOfNextLevel << std::endl;
os << indent << "LastTransformParameters: ";
os << m_LastTransformParameters << std::endl;
os << indent << "FixedImageRegion: ";
os << m_FixedImageRegion << std::endl;
for ( unsigned int level = 0; level < m_FixedImageRegionPyramid.size(); level++ )
{
os << indent << "FixedImageRegion at level " << level << ": ";
os << m_FixedImageRegionPyramid[level] << std::endl;
}
os << indent << "FixedImagePyramidSchedule : " << std::endl;
os << m_FixedImagePyramidSchedule << std::endl;
os << indent << "MovingImagePyramidSchedule : " << std::endl;
os << m_MovingImagePyramidSchedule << std::endl;
}
/*
* Generate Data
*/
template< typename TFixedImage, typename TMovingImage >
void
MultiResolutionImageRegistrationMethod< TFixedImage, TMovingImage >
::GenerateData()
{
m_Stop = false;
this->PreparePyramids();
for ( m_CurrentLevel = 0; m_CurrentLevel < m_NumberOfLevels;
m_CurrentLevel++ )
{
// Invoke an iteration event.
// This allows a UI to reset any of the components between
// resolution level.
this->InvokeEvent( IterationEvent() );
// Check if there has been a stop request
if ( m_Stop )
{
break;
}
try
{
// initialize the interconnects between components
this->Initialize();
}
catch ( ExceptionObject & err )
{
m_LastTransformParameters = ParametersType(1);
m_LastTransformParameters.Fill(0.0f);
// pass exception to caller
throw err;
}
try
{
// do the optimization
m_Optimizer->StartOptimization();
}
catch ( ExceptionObject & err )
{
// An error has occurred in the optimization.
// Update the parameters
m_LastTransformParameters = m_Optimizer->GetCurrentPosition();
// Pass exception to caller
throw err;
}
// get the results
m_LastTransformParameters = m_Optimizer->GetCurrentPosition();
m_Transform->SetParameters(m_LastTransformParameters);
// setup the initial parameters for next level
if ( m_CurrentLevel < m_NumberOfLevels - 1 )
{
m_InitialTransformParametersOfNextLevel =
m_LastTransformParameters;
}
}
}
template< typename TFixedImage, typename TMovingImage >
ModifiedTimeType
MultiResolutionImageRegistrationMethod< TFixedImage, TMovingImage >
::GetMTime() const
{
ModifiedTimeType mtime = Superclass::GetMTime();
ModifiedTimeType m;
// Some of the following should be removed once ivars are put in the
// input and output lists
if ( m_Transform )
{
m = m_Transform->GetMTime();
mtime = ( m > mtime ? m : mtime );
}
if ( m_Interpolator )
{
m = m_Interpolator->GetMTime();
mtime = ( m > mtime ? m : mtime );
}
if ( m_Metric )
{
m = m_Metric->GetMTime();
mtime = ( m > mtime ? m : mtime );
}
if ( m_Optimizer )
{
m = m_Optimizer->GetMTime();
mtime = ( m > mtime ? m : mtime );
}
if ( m_FixedImage )
{
m = m_FixedImage->GetMTime();
mtime = ( m > mtime ? m : mtime );
}
if ( m_MovingImage )
{
m = m_MovingImage->GetMTime();
mtime = ( m > mtime ? m : mtime );
}
return mtime;
}
/*
* Get Output
*/
template< typename TFixedImage, typename TMovingImage >
const typename MultiResolutionImageRegistrationMethod< TFixedImage, TMovingImage >::TransformOutputType *
MultiResolutionImageRegistrationMethod< TFixedImage, TMovingImage >
::GetOutput() const
{
return static_cast< const TransformOutputType * >( this->ProcessObject::GetOutput(0) );
}
template< typename TFixedImage, typename TMovingImage >
DataObject::Pointer
MultiResolutionImageRegistrationMethod< TFixedImage, TMovingImage >
::MakeOutput(DataObjectPointerArraySizeType output)
{
switch ( output )
{
case 0:
return TransformOutputType::New().GetPointer();
break;
default:
itkExceptionMacro("MakeOutput request for an output number larger than the expected number of outputs");
return 0;
}
}
} // end namespace itk
#endif
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