/usr/include/ITK-4.5/itkMultiTransform.hxx is in libinsighttoolkit4-dev 4.5.0-3.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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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 __itkMultiTransform_hxx
#define __itkMultiTransform_hxx
#include "itkMultiTransform.h"
namespace itk
{
/**
* Constructor
*/
template
<typename TScalar, unsigned int NDimensions, unsigned int NSubDimensions>
MultiTransform<TScalar, NDimensions, NSubDimensions>::MultiTransform() : Superclass( 0 )
{
this->m_NumberOfLocalParameters = NumericTraits< NumberOfParametersType >::Zero;
this->m_LocalParametersUpdateTime = NumericTraits< ModifiedTimeType >::Zero;
this->m_TransformQueue.clear();
}
/**
* Destructor
*/
template
<typename TScalar, unsigned int NDimensions, unsigned int NSubDimensions>
MultiTransform<TScalar, NDimensions, NSubDimensions>::
~MultiTransform()
{
}
/**
* Get transform category
*/
template
<typename TScalar, unsigned int NDimensions, unsigned int NSubDimensions>
typename MultiTransform<TScalar, NDimensions, NSubDimensions>::TransformCategoryType
MultiTransform<TScalar, NDimensions, NSubDimensions>
::GetTransformCategory() const
{
// If all sub-transforms are the same, return that type. Otherwise
// return Unknown.
TransformCategoryType result = Self::UnknownTransformCategory;
for( SizeValueType tind = 0; tind < this->GetNumberOfTransforms(); tind++ )
{
const TransformCategoryType type = this->GetNthTransformConstPointer( tind )->GetTransformCategory();
if( tind == 0 )
{
result = type;
}
else
{
if( type != result )
{
result = Self::UnknownTransformCategory;
break;
}
}
}
return result;
}
/**
* Are all the transforms linear?
*/
template
<typename TScalar, unsigned int NDimensions, unsigned int NSubDimensions>
bool
MultiTransform<TScalar, NDimensions, NSubDimensions>
::IsLinear() const
{
// If all sub-transforms are linear, return true.
for( SizeValueType tind = 0; tind < this->GetNumberOfTransforms(); tind++ )
{
if( ! this->GetNthTransformConstPointer( tind )->IsLinear() )
{
return false;
}
}
return true;
}
template
<typename TScalar, unsigned int NDimensions, unsigned int NSubDimensions>
const typename MultiTransform<TScalar, NDimensions, NSubDimensions>::ParametersType
& MultiTransform<TScalar, NDimensions, NSubDimensions>
::GetParameters() const
{
/* Resize destructively. But if it's already this size, nothing is done so
* it's efficient. */
this->m_Parameters.SetSize( this->GetNumberOfParameters() );
NumberOfParametersType offset = NumericTraits< NumberOfParametersType >::Zero;
TransformQueueType transforms = this->GetTransformQueue();
typename TransformQueueType::const_iterator it;
it = transforms.begin();
do
{
const ParametersType & subParameters = (*it)->GetParameters();
/* use vnl_vector data_block() to get data ptr */
std::copy(subParameters.data_block(),
subParameters.data_block()+subParameters.Size(),
&(this->m_Parameters.data_block() )[offset]);
offset += subParameters.Size();
++it;
}
while( it != transforms.end() );
return this->m_Parameters;
}
template
<typename TScalar, unsigned int NDimensions, unsigned int NSubDimensions>
void
MultiTransform<TScalar, NDimensions, NSubDimensions>
::SetParameters(const ParametersType & inputParameters)
{
/* We do not copy inputParameters into m_Parameters,
* to avoid unnecessary copying. */
/* We assume input params are concatenation of the parameters of the
sub-transforms, in order of the queue from begin() to end(). */
/* Verify proper input size. */
if( inputParameters.Size() != this->GetNumberOfParameters() )
{
itkExceptionMacro(<< "Input parameter list size is not expected size. " << inputParameters.Size() << " instead of " << this->GetNumberOfParameters() << ".");
}
TransformQueueType transforms = this->GetTransformQueue();
NumberOfParametersType offset = NumericTraits< NumberOfParametersType >::Zero;
typename TransformQueueType::const_iterator it;
it = transforms.begin();
do
{
/* If inputParams is same object as m_Parameters, we just pass
* each sub-transforms own m_Parameters in. This is needed to
* avoid unnecessary copying of parameters in the sub-transforms,
* while still allowing SetParameters to do any oprations on the
* parameters to update member variable states. A hack. */
ParametersType & subParameters = const_cast<ParametersType &>( (*it)->GetParameters() );
if( &inputParameters != &this->m_Parameters )
{
/* New parameter data, so copy it in */
/* Use vnl_vector data_block() to get data ptr */
std::copy(&(inputParameters.data_block() )[offset],
&(inputParameters.data_block() )[offset]+subParameters.Size(),
subParameters.data_block());
offset += subParameters.Size();
}
/* Call SetParameters explicitly to include anything extra it does */
(*it)->SetParameters(subParameters);
++it;
}
while( it != transforms.end() );
}
template
<typename TScalar, unsigned int NDimensions, unsigned int NSubDimensions>
const typename MultiTransform<TScalar, NDimensions, NSubDimensions>::ParametersType
& MultiTransform<TScalar, NDimensions, NSubDimensions>
::GetFixedParameters(void) const
{
/* Resize destructively. But if it's already this size, nothing is done so
* it's efficient. */
this->m_FixedParameters.SetSize( this->GetNumberOfFixedParameters() );
NumberOfParametersType offset = NumericTraits< NumberOfParametersType >::Zero;
typename TransformQueueType::const_iterator it;
TransformQueueType transforms = this->GetTransformQueue();
it = transforms.begin();
do
{
const ParametersType & subFixedParameters = (*it)->GetFixedParameters();
/* use vnl_vector data_block() to get data ptr */
std::copy(subFixedParameters.data_block(),
subFixedParameters.data_block()+subFixedParameters.Size(),
&(this->m_FixedParameters.data_block() )[offset]);
offset += subFixedParameters.Size();
++it;
}
while( it != transforms.end() );
return this->m_FixedParameters;
}
template
<typename TScalar, unsigned int NDimensions, unsigned int NSubDimensions>
void
MultiTransform<TScalar, NDimensions, NSubDimensions>
::SetFixedParameters(const ParametersType & inputParameters)
{
/* Verify proper input size. */
if( inputParameters.Size() != this->GetNumberOfFixedParameters() )
{
itkExceptionMacro(<< "Input parameter list size is not expected size. "
<< inputParameters.Size() << " instead of "
<< this->GetNumberOfFixedParameters() << ".");
}
/* Assumes input params are concatenation of the parameters of the
* sub transforms. */
TransformQueueType transforms = this->GetTransformQueue();
NumberOfParametersType offset = NumericTraits< NumberOfParametersType >::Zero;
typename TransformQueueType::const_iterator it;
/* Why is this done? Seems unnecessary. */
this->m_FixedParameters = inputParameters;
it = transforms.begin();
do
{
ParametersType & subFixedParameters = const_cast<ParametersType &>( (*it)->GetFixedParameters() );
/* Use vnl_vector data_block() to get data ptr */
std::copy(&(this->m_FixedParameters.data_block() )[offset],
&(this->m_FixedParameters.data_block() )[offset]+subFixedParameters.Size(),
subFixedParameters.data_block());
/* Call SetParameters explicitly to include anything extra it does */
(*it)->SetFixedParameters(subFixedParameters);
offset += subFixedParameters.Size();
++it;
}
while( it != transforms.end() );
}
template<typename TScalar, unsigned int NDimensions, unsigned int NSubDimensions>
typename MultiTransform<TScalar, NDimensions, NSubDimensions>::NumberOfParametersType
MultiTransform<TScalar, NDimensions, NSubDimensions>
::GetNumberOfParameters(void) const
{
/* Returns to total number of params in all transforms currently
* set to be used for optimized.
* NOTE: Ideally we'd optimize this to store the result and
* only re-calc when the composite object has been modified.
* However, it seems that number of parameter might change for dense
* field transfroms (deformation, bspline) during processing and
* we wouldn't know that in this class, so this is safest. */
NumberOfParametersType result = NumericTraits< NumberOfParametersType >::Zero;
for( SizeValueType tind = 0; tind < this->GetNumberOfTransforms(); tind++ )
{
/* Use raw pointer for efficiency */
const TransformType * transform = this->GetNthTransformConstPointer( tind );
result += transform->GetNumberOfParameters();
}
return result;
}
template<typename TScalar, unsigned int NDimensions, unsigned int NSubDimensions>
typename MultiTransform<TScalar, NDimensions, NSubDimensions>::NumberOfParametersType
MultiTransform<TScalar, NDimensions, NSubDimensions>
::GetNumberOfLocalParameters(void) const
{
if ( this->GetMTime() == this->m_LocalParametersUpdateTime )
{
return this->m_NumberOfLocalParameters;
}
this->m_LocalParametersUpdateTime = this->GetMTime();
/* Note that unlike in GetNumberOfParameters(), we don't expect the
* number of local parameters to possibly change, so we can cache
* the value. */
NumberOfParametersType result = NumericTraits< NumberOfParametersType >::Zero;
for( SizeValueType tind = 0; tind < this->GetNumberOfTransforms(); tind++ )
{
const TransformType * transform = this->GetNthTransformConstPointer( tind );
result += transform->GetNumberOfLocalParameters();
}
this->m_NumberOfLocalParameters = result;
return result;
}
template
<typename TScalar, unsigned int NDimensions, unsigned int NSubDimensions>
typename MultiTransform<TScalar, NDimensions, NSubDimensions>::NumberOfParametersType
MultiTransform<TScalar, NDimensions, NSubDimensions>
::GetNumberOfFixedParameters(void) const
{
NumberOfParametersType result = NumericTraits< NumberOfParametersType >::Zero;
for( SizeValueType tind = 0; tind < this->GetNumberOfTransforms(); tind++ )
{
const TransformType * transform = this->GetNthTransformConstPointer( tind );
result += transform->GetFixedParameters().Size();
}
return result;
}
template
<typename TScalar, unsigned int NDimensions, unsigned int NSubDimensions>
void
MultiTransform<TScalar, NDimensions, NSubDimensions>
::UpdateTransformParameters( const DerivativeType & update, ScalarType factor )
{
/* Update parameters within the sub-transforms. */
/* NOTE: We might want to thread this over each sub-transform, if we
* find we're working with longer lists of sub-transforms that do
* not implement any threading of their own for UpdateTransformParameters.
* Since the plan is for a UpdateTransformParameters functor that is
* user-assignable, we would need a method in the
* functor to return whether or not it does therading. If all sub-transforms
* return that they don't thread, we could do each sub-transform in its
* own thread from here. */
NumberOfParametersType numberOfParameters = this->GetNumberOfParameters();
if( update.Size() != numberOfParameters )
{
itkExceptionMacro("Parameter update size, " << update.Size() << ", must "
" be same as transform parameter size, " << numberOfParameters << std::endl);
}
NumberOfParametersType offset = NumericTraits< NumberOfParametersType >::Zero;
for( SizeValueType tind = 0; tind < this->GetNumberOfTransforms(); tind++ )
{
// HACK: The following line looks wrong. We should not need to const_cast
TransformType * subtransform = this->GetNthTransformModifiablePointer( tind );
/* The input values are in a monolithic block, so we have to point
* to the subregion corresponding to the individual subtransform.
* This simply creates an Array object with data pointer, no
* memory is allocated or copied. */
DerivativeType subUpdate( &( (update.data_block() )[offset]), subtransform->GetNumberOfParameters(), false );
/* This call will also call SetParameters, so don't need to call it
* expliclity here. */
subtransform->UpdateTransformParameters( subUpdate, factor );
offset += subtransform->GetNumberOfParameters();
}
this->Modified();
}
/**
* return an inverse transformation
*/
template
<typename TScalar, unsigned int NDimensions, unsigned int NSubDimensions>
bool
MultiTransform<TScalar, NDimensions, NSubDimensions>
::GetInverse( Self *inverse ) const
{
typename TransformQueueType::const_iterator it;
inverse->ClearTransformQueue();
for( it = this->m_TransformQueue.begin(); it != this->m_TransformQueue.end(); ++it )
{
TransformTypePointer inverseTransform = dynamic_cast<TransformType *>( ( ( *it )->GetInverseTransform() ).GetPointer() );
if( !inverseTransform )
{
inverse->ClearTransformQueue();
return false;
}
else
{
/* Add to end of queue to preserve transform order */
inverse->PushBackTransform( inverseTransform );
}
}
return true;
}
template
<typename TScalar, unsigned int NDimensions, unsigned int NSubDimensions>
void
MultiTransform<TScalar, NDimensions, NSubDimensions>
::PrintSelf( std::ostream& os, Indent indent ) const
{
Superclass::PrintSelf( os, indent );
if( this->m_TransformQueue.empty() )
{
os << indent << "Transform queue is empty." << std::endl;
return;
}
os << indent << "Transforms in queue, from begin to end:" << std::endl;
typename TransformQueueType::const_iterator cit;
for( cit = this->m_TransformQueue.begin(); cit != this->m_TransformQueue.end(); ++cit )
{
os << indent << ">>>>>>>>>" << std::endl;
(*cit)->Print( os, indent );
}
os << indent << "End of MultiTransform." << std::endl << "<<<<<<<<<<" << std::endl;
}
} // namespace itk
#endif
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