/usr/include/ITK-4.9/itkMultiStartOptimizerv4.hxx is in libinsighttoolkit4-dev 4.9.0-4ubuntu1.
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 itkMultiStartOptimizerv4_hxx
#define itkMultiStartOptimizerv4_hxx
#include "itkMultiStartOptimizerv4.h"
namespace itk
{
//-------------------------------------------------------------------
template<typename TInternalComputationValueType>
MultiStartOptimizerv4Template<TInternalComputationValueType>
::MultiStartOptimizerv4Template():
m_Stop(false)
{
this->m_NumberOfIterations = static_cast<SizeValueType>(0);
this->m_StopCondition = MAXIMUM_NUMBER_OF_ITERATIONS;
this->m_StopConditionDescription << this->GetNameOfClass() << ": ";
this->m_BestParametersIndex= static_cast<ParameterListSizeType>(0);
this->m_MaximumMetricValue=NumericTraits<MeasureType>::max();
this->m_MinimumMetricValue = this->m_MaximumMetricValue;
m_LocalOptimizer = ITK_NULLPTR;
}
//-------------------------------------------------------------------
template<typename TInternalComputationValueType>
MultiStartOptimizerv4Template<TInternalComputationValueType>
::~MultiStartOptimizerv4Template()
{}
//-------------------------------------------------------------------
template<typename TInternalComputationValueType>
void
MultiStartOptimizerv4Template<TInternalComputationValueType>
::PrintSelf(std::ostream & os, Indent indent) const
{
Superclass::PrintSelf(os, indent);
os << indent << "Stop condition:"<< this->m_StopCondition << std::endl;
os << indent << "Stop condition description: " << this->m_StopConditionDescription.str() << std::endl;
}
//-------------------------------------------------------------------
template<typename TInternalComputationValueType>
typename MultiStartOptimizerv4Template<TInternalComputationValueType>::ParametersListType &
MultiStartOptimizerv4Template<TInternalComputationValueType>
::GetParametersList()
{
return this->m_ParametersList;
}
/** Set the list of parameters over which to search */
template<typename TInternalComputationValueType>
void
MultiStartOptimizerv4Template<TInternalComputationValueType>
::SetParametersList(typename MultiStartOptimizerv4Template::ParametersListType & p)
{
if( p != this->m_ParametersList )
{
this->m_ParametersList = p;
this->Modified();
}
}
/** Get the list of metric values that we produced after the multi-start search. */
template<typename TInternalComputationValueType>
const typename MultiStartOptimizerv4Template<TInternalComputationValueType>::MetricValuesListType &
MultiStartOptimizerv4Template<TInternalComputationValueType>
::GetMetricValuesList() const
{
return this->m_MetricValuesList;
}
//-------------------------------------------------------------------
template<typename TInternalComputationValueType>
typename MultiStartOptimizerv4Template<TInternalComputationValueType>::ParametersType
MultiStartOptimizerv4Template<TInternalComputationValueType>
::GetBestParameters( )
{
return this->m_ParametersList[m_BestParametersIndex];
}
//-------------------------------------------------------------------
template<typename TInternalComputationValueType>
void
MultiStartOptimizerv4Template<TInternalComputationValueType>
::InstantiateLocalOptimizer()
{
LocalOptimizerPointer optimizer = LocalOptimizerType::New();
optimizer->SetLearningRate( static_cast<TInternalComputationValueType>(1.e-1) );
optimizer->SetNumberOfIterations( 25 );
this->m_LocalOptimizer=optimizer;
}
//-------------------------------------------------------------------
template<typename TInternalComputationValueType>
const typename MultiStartOptimizerv4Template<TInternalComputationValueType>::StopConditionReturnStringType
MultiStartOptimizerv4Template<TInternalComputationValueType>
::GetStopConditionDescription() const
{
return this->m_StopConditionDescription.str();
}
//-------------------------------------------------------------------
template<typename TInternalComputationValueType>
void
MultiStartOptimizerv4Template<TInternalComputationValueType>
::StopOptimization(void)
{
itkDebugMacro( "StopOptimization called with a description - "
<< this->GetStopConditionDescription() );
this->m_Stop = true;
this->m_Metric->SetParameters( this->m_ParametersList[ this->m_BestParametersIndex ] );
this->InvokeEvent( EndEvent() );
}
/**
* Start and run the optimization
*/
template<typename TInternalComputationValueType>
void
MultiStartOptimizerv4Template<TInternalComputationValueType>
::StartOptimization( bool doOnlyInitialization )
{
itkDebugMacro("StartOptimization");
this->m_NumberOfIterations=this->m_ParametersList.size();
this->m_MetricValuesList.clear();
this->m_BestParametersIndex = static_cast<ParameterListSizeType>(0);
this->m_MinimumMetricValue = this->m_MaximumMetricValue;
/* Must call the superclass version for basic validation and setup */
if ( this->m_NumberOfIterations > static_cast<SizeValueType>(0) )
{
Superclass::StartOptimization( doOnlyInitialization );
}
this->m_CurrentIteration = static_cast<SizeValueType>(0);
if( ! doOnlyInitialization )
{
if ( this->m_NumberOfIterations > static_cast<SizeValueType>(0) )
{
this->ResumeOptimization();
}
}
}
/**
* Resume optimization.
*/
template<typename TInternalComputationValueType>
void
MultiStartOptimizerv4Template<TInternalComputationValueType>
::ResumeOptimization()
{
this->m_StopConditionDescription.str("");
this->m_StopConditionDescription << this->GetNameOfClass() << ": ";
this->InvokeEvent( StartEvent() );
this->m_Stop = false;
while( ! this->m_Stop )
{
/* Compute metric value */
try
{
this->m_Metric->SetParameters( this->m_ParametersList[ this->m_CurrentIteration ] );
if ( this->m_LocalOptimizer )
{
this->m_LocalOptimizer->SetMetric( this->m_Metric );
this->m_LocalOptimizer->StartOptimization();
this->m_ParametersList[this->m_CurrentIteration] = this->m_Metric->GetParameters();
}
this->m_CurrentMetricValue = this->m_Metric->GetValue();
this->m_MetricValuesList.push_back(this->m_CurrentMetricValue);
}
catch ( ExceptionObject & )
{
/** We simply ignore this exception because it may just be a bad starting point.
* We hope that other start points are better.
*/
itkWarningMacro("An exception occurred in sub-optimization number " << this->m_CurrentIteration << ". If too many of these occur, you may need to set a different set of initial parameters.");
}
if ( this->m_CurrentMetricValue < this->m_MinimumMetricValue )
{
this->m_MinimumMetricValue=this->m_CurrentMetricValue;
this->m_BestParametersIndex = this->m_CurrentIteration;
}
/* Check if optimization has been stopped externally.
* (Presumably this could happen from a multi-threaded client app?) */
if ( this->m_Stop )
{
this->m_StopConditionDescription << "StopOptimization() called";
break;
}
this->InvokeEvent( IterationEvent() );
/* Update and check iteration count */
this->m_CurrentIteration++;
if ( this->m_CurrentIteration >= this->m_NumberOfIterations )
{
this->m_StopConditionDescription << "Maximum number of iterations ("
<< this->m_NumberOfIterations
<< ") exceeded.";
this->m_StopCondition = MAXIMUM_NUMBER_OF_ITERATIONS;
this->StopOptimization();
break;
}
} //while (!m_Stop)
}
} //namespace itk
#endif
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