/usr/include/ITK-4.5/itkUpdateMalcolmSparseLevelSet.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 __itkUpdateMalcolmSparseLevelSet_hxx
#define __itkUpdateMalcolmSparseLevelSet_hxx
#include "itkUpdateMalcolmSparseLevelSet.h"
namespace itk
{
template< unsigned int VDimension, typename TEquationContainer >
UpdateMalcolmSparseLevelSet< VDimension, TEquationContainer >
::UpdateMalcolmSparseLevelSet() :
m_CurrentLevelSetId( NumericTraits< IdentifierType >::Zero ),
m_RMSChangeAccumulator( NumericTraits< LevelSetOutputRealType >::Zero ),
m_IsUsingUnPhasedPropagation( true )
{
this->m_Offset.Fill( 0 );
this->m_OutputLevelSet = LevelSetType::New();
}
template< unsigned int VDimension, typename TEquationContainer >
UpdateMalcolmSparseLevelSet< VDimension, TEquationContainer >
::~UpdateMalcolmSparseLevelSet()
{}
template< unsigned int VDimension, typename TEquationContainer >
void
UpdateMalcolmSparseLevelSet< VDimension, TEquationContainer >
::Update()
{
if( this->m_InputLevelSet.IsNull() )
{
itkGenericExceptionMacro( <<"m_InputLevelSet is NULL" );
}
this->m_Offset = this->m_InputLevelSet->GetDomainOffset();
this->m_OutputLevelSet->SetLayer( LevelSetType::ZeroLayer(), this->m_InputLevelSet->GetLayer( LevelSetType::ZeroLayer() ) );
this->m_OutputLevelSet->SetLabelMap( this->m_InputLevelSet->GetModifiableLabelMap() );
this->m_OutputLevelSet->SetDomainOffset( this->m_Offset );
typedef LabelMapToLabelImageFilter<LevelSetLabelMapType, LabelImageType> LabelMapToLabelImageFilterType;
typename LabelMapToLabelImageFilterType::Pointer labelMapToLabelImageFilter = LabelMapToLabelImageFilterType::New();
labelMapToLabelImageFilter->SetInput( this->m_InputLevelSet->GetLabelMap() );
labelMapToLabelImageFilter->Update();
this->m_InternalImage = labelMapToLabelImageFilter->GetOutput();
this->m_InternalImage->DisconnectPipeline();
this->FillUpdateContainer();
if( this->m_IsUsingUnPhasedPropagation )
{
EvolveWithUnPhasedPropagation();
CompactLayersToSinglePixelThickness();
}
else
{
LevelSetLayerType& listZero = this->m_OutputLevelSet->GetLayer( LevelSetType::ZeroLayer() );
LevelSetLayerType listPos;
LevelSetLayerType updatePos;
LevelSetLayerType listNeg;
LevelSetLayerType updateNeg;
LevelSetLayerIterator nodeIt = listZero.begin();
LevelSetLayerIterator nodeEnd = listZero.end();
LevelSetLayerIterator upIt = this->m_Update.begin();
while( nodeIt != nodeEnd )
{
itkAssertInDebugAndIgnoreInReleaseMacro( nodeIt->first == upIt->first );
const LevelSetInputType currentIdx = nodeIt->first;
const LevelSetOutputType update = upIt->second;
if( update > 0 )
{
listPos.insert( NodePairType( currentIdx, LevelSetType::ZeroLayer() ) );
updatePos.insert( NodePairType( currentIdx, LevelSetType::PlusOneLayer() ) );
}
else
{
listNeg.insert( NodePairType( currentIdx, LevelSetType::ZeroLayer() ) );
updateNeg.insert( NodePairType( currentIdx, LevelSetType::MinusOneLayer() ) );
}
++nodeIt;
++upIt;
}
// contraction
this->EvolveWithPhasedPropagation( listPos, updatePos, true );
this->CompactLayersToSinglePixelThickness();
// dilation
this->EvolveWithPhasedPropagation( listNeg, updateNeg, false );
this->CompactLayersToSinglePixelThickness();
}
typedef LabelImageToLabelMapFilter< LabelImageType, LevelSetLabelMapType> LabelImageToLabelMapFilterType;
typename LabelImageToLabelMapFilterType::Pointer labelImageToLabelMapFilter = LabelImageToLabelMapFilterType::New();
labelImageToLabelMapFilter->SetInput( this->m_InternalImage );
labelImageToLabelMapFilter->SetBackgroundValue( LevelSetType::PlusOneLayer() );
labelImageToLabelMapFilter->Update();
LevelSetLabelMapPointer outputLabelMap = this->m_OutputLevelSet->GetModifiableLabelMap( );
outputLabelMap->Graft( labelImageToLabelMapFilter->GetOutput() );
}
template< unsigned int VDimension,
typename TEquationContainer >
void
UpdateMalcolmSparseLevelSet< VDimension, TEquationContainer >
::FillUpdateContainer()
{
LevelSetLayerType levelZero = this->m_OutputLevelSet->GetLayer( LevelSetType::ZeroLayer() );
LevelSetLayerIterator nodeIt = levelZero.begin();
LevelSetLayerIterator nodeEnd = levelZero.end();
TermContainerPointer termContainer = this->m_EquationContainer->GetEquation( this->m_CurrentLevelSetId );
LevelSetInputType inputIndex;
while( nodeIt != nodeEnd )
{
const LevelSetInputType currentIndex = nodeIt->first;
inputIndex = currentIndex + this->m_Offset;
const LevelSetOutputRealType update = termContainer->Evaluate( inputIndex );
LevelSetOutputType value = NumericTraits< LevelSetOutputType >::Zero;
if( update > NumericTraits< LevelSetOutputRealType >::Zero )
{
value = NumericTraits< LevelSetOutputType >::One;
}
if( update < NumericTraits< LevelSetOutputRealType >::Zero )
{
value = - NumericTraits< LevelSetOutputType >::One;
}
this->m_Update.insert( NodePairType( currentIndex, value ) );
++nodeIt;
}
}
template< unsigned int VDimension,
typename TEquationContainer >
void
UpdateMalcolmSparseLevelSet< VDimension, TEquationContainer >
::EvolveWithUnPhasedPropagation()
{
LevelSetOutputType oldValue;
LevelSetOutputType newValue;
LevelSetLayerType & levelZero = this->m_OutputLevelSet->GetLayer( LevelSetType::ZeroLayer() );
// neighborhood iterator
ZeroFluxNeumannBoundaryCondition< LabelImageType > sp_nbc;
typename NeighborhoodIteratorType::RadiusType radius;
radius.Fill( 1 );
NeighborhoodIteratorType neighIt( radius,
this->m_InternalImage,
this->m_InternalImage->GetLargestPossibleRegion() );
neighIt.OverrideBoundaryCondition( &sp_nbc );
typename NeighborhoodIteratorType::OffsetType sparse_offset;
sparse_offset.Fill( 0 );
for( unsigned int dim = 0; dim < ImageDimension; dim++ )
{
sparse_offset[dim] = -1;
neighIt.ActivateOffset( sparse_offset );
sparse_offset[dim] = 1;
neighIt.ActivateOffset( sparse_offset );
sparse_offset[dim] = 0;
}
TermContainerPointer termContainer = this->m_EquationContainer->GetEquation( this->m_CurrentLevelSetId );
LevelSetLayerType insertList;
LevelSetLayerIterator nodeIt = levelZero.begin();
LevelSetLayerIterator nodeEnd = levelZero.end();
LevelSetLayerIterator upIt = this->m_Update.begin();
LevelSetInputType inputIndex;
while( nodeIt != nodeEnd )
{
const LevelSetInputType currentIdx = nodeIt->first;
inputIndex = currentIdx + this->m_Offset;
itkAssertInDebugAndIgnoreInReleaseMacro( currentIdx == upIt->first );
const LevelSetOutputType update = upIt->second;
if( update != NumericTraits< LevelSetOutputType >::Zero )
{
oldValue = LevelSetType::ZeroLayer();
if( update > NumericTraits< LevelSetOutputType >::Zero )
{
newValue = LevelSetType::PlusOneLayer();
}
else
{
newValue = LevelSetType::MinusOneLayer();
}
LevelSetLayerIterator tempIt = nodeIt;
++nodeIt;
++upIt;
levelZero.erase( tempIt );
this->m_InternalImage->SetPixel( currentIdx, newValue );
termContainer->UpdatePixel( inputIndex, oldValue, newValue );
neighIt.SetLocation( currentIdx );
for( typename NeighborhoodIteratorType::Iterator
i = neighIt.Begin();
!i.IsAtEnd(); ++i )
{
LevelSetOutputType tempValue = i.Get();
if( tempValue * newValue == -1 )
{
LevelSetInputType tempIndex =
neighIt.GetIndex( i.GetNeighborhoodOffset() );
insertList.insert( NodePairType( tempIndex, tempValue ) );
}
}
}
else
{
++nodeIt;
++upIt;
}
}
nodeIt = insertList.begin();
nodeEnd = insertList.end();
while( nodeIt != nodeEnd )
{
levelZero.insert( NodePairType( nodeIt->first, LevelSetType::ZeroLayer() ) );
this->m_InternalImage->SetPixel( nodeIt->first, LevelSetType::ZeroLayer() );
termContainer->UpdatePixel( nodeIt->first + this->m_Offset, nodeIt->second, LevelSetType::ZeroLayer() );
++nodeIt;
}
}
template< unsigned int VDimension,
typename TEquationContainer >
void
UpdateMalcolmSparseLevelSet< VDimension, TEquationContainer >
::EvolveWithPhasedPropagation( LevelSetLayerType& ioList,
LevelSetLayerType& ioUpdate,
const bool& iContraction )
{
itkAssertInDebugAndIgnoreInReleaseMacro( ioList.size() == ioUpdate.size() );
ZeroFluxNeumannBoundaryCondition< LabelImageType > sp_nbc;
typename NeighborhoodIteratorType::RadiusType radius;
radius.Fill( 1 );
NeighborhoodIteratorType neighIt( radius,
this->m_InternalImage,
this->m_InternalImage->GetLargestPossibleRegion() );
neighIt.OverrideBoundaryCondition( &sp_nbc );
typename NeighborhoodIteratorType::OffsetType sparse_offset;
sparse_offset.Fill( 0 );
for( unsigned int dim = 0; dim < ImageDimension; dim++ )
{
sparse_offset[dim] = -1;
neighIt.ActivateOffset( sparse_offset );
sparse_offset[dim] = 1;
neighIt.ActivateOffset( sparse_offset );
sparse_offset[dim] = 0;
}
TermContainerPointer termContainer = this->m_EquationContainer->GetEquation( this->m_CurrentLevelSetId );
LevelSetLayerType insertList;
LevelSetLayerIterator nodeIt = ioList.begin();
LevelSetLayerIterator nodeEnd = ioList.end();
LevelSetLayerIterator upIt = ioUpdate.begin();
LevelSetLayerType outputLayerZero = this->m_OutputLevelSet->GetLayer( LevelSetType::ZeroLayer() );
while( nodeIt != nodeEnd )
{
itkAssertInDebugAndIgnoreInReleaseMacro( nodeIt->first == upIt->first );
LevelSetOutputType oldValue = LevelSetType::ZeroLayer();
LevelSetOutputType newValue;
LevelSetOutputType update = upIt->second;
LevelSetInputType currentIdx = nodeIt->first;
LevelSetInputType inputIndex = currentIdx + this->m_Offset;
if( update != NumericTraits< LevelSetOutputRealType >::Zero )
{
// only allow positiveUpdate forces
if( iContraction )
{
newValue = LevelSetType::PlusOneLayer();
}
else
{
newValue = LevelSetType::MinusOneLayer();
}
LevelSetLayerIterator tempIt = nodeIt;
++nodeIt;
++upIt;
ioList.erase( tempIt );
outputLayerZero.erase( currentIdx );
this->m_InternalImage->SetPixel( currentIdx, newValue );
termContainer->UpdatePixel( inputIndex, oldValue , newValue );
neighIt.SetLocation( currentIdx );
for( typename NeighborhoodIteratorType::Iterator
i = neighIt.Begin();
!i.IsAtEnd(); ++i )
{
LevelSetOutputType tempValue = i.Get();
if( tempValue * newValue == -1 )
{
LevelSetInputType tempIdx =
neighIt.GetIndex( i.GetNeighborhoodOffset() );
insertList.insert( NodePairType( tempIdx, tempValue ) );
}
}
}
else
{
++nodeIt;
++upIt;
}
}
nodeIt = insertList.begin();
nodeEnd = insertList.end();
while( nodeIt != nodeEnd )
{
outputLayerZero.insert( NodePairType( nodeIt->first, LevelSetType::ZeroLayer() ) );
termContainer->UpdatePixel( nodeIt->first + this->m_Offset, nodeIt->second, LevelSetType::ZeroLayer() );
this->m_InternalImage->SetPixel( nodeIt->first, LevelSetType::ZeroLayer() );
++nodeIt;
}
}
template< unsigned int VDimension,
typename TEquationContainer >
void
UpdateMalcolmSparseLevelSet< VDimension, TEquationContainer >
::CompactLayersToSinglePixelThickness()
{
LevelSetLayerType & listZero = this->m_OutputLevelSet->GetLayer( LevelSetType::ZeroLayer() );
ZeroFluxNeumannBoundaryCondition< LabelImageType > sp_nbc;
typename NeighborhoodIteratorType::RadiusType radius;
radius.Fill( 1 );
NeighborhoodIteratorType neighIt( radius,
this->m_InternalImage,
this->m_InternalImage->GetLargestPossibleRegion() );
neighIt.OverrideBoundaryCondition( &sp_nbc );
typename NeighborhoodIteratorType::OffsetType sparse_offset;
sparse_offset.Fill( 0 );
for( unsigned int dim = 0; dim < ImageDimension; dim++ )
{
sparse_offset[dim] = -1;
neighIt.ActivateOffset( sparse_offset );
sparse_offset[dim] = 1;
neighIt.ActivateOffset( sparse_offset );
sparse_offset[dim] = 0;
}
LevelSetLayerIterator nodeIt = listZero.begin();
LevelSetLayerIterator nodeEnd = listZero.end();
TermContainerPointer termContainer = this->m_EquationContainer->GetEquation( this->m_CurrentLevelSetId );
LevelSetInputType inputIndex;
while( nodeIt != nodeEnd )
{
LevelSetInputType currentIdx = nodeIt->first;
inputIndex = currentIdx + this->m_Offset;
neighIt.SetLocation( currentIdx );
bool positiveUpdate = false;
bool negativeUpdate = false;
LevelSetOutputRealType oldValue = LevelSetType::ZeroLayer();
for( typename NeighborhoodIteratorType::Iterator
i = neighIt.Begin();
!i.IsAtEnd(); ++i )
{
LevelSetOutputType tempValue = i.Get();
if( tempValue == LevelSetType::MinusOneLayer() )
{
negativeUpdate = true;
}
if ( tempValue == LevelSetType::PlusOneLayer() )
{
positiveUpdate = true;
}
}
if( negativeUpdate && !positiveUpdate )
{
const LevelSetOutputRealType newValue = LevelSetType::MinusOneLayer();
LevelSetLayerIterator tempIt = nodeIt;
++nodeIt;
listZero.erase( tempIt );
this->m_InternalImage->SetPixel( currentIdx, static_cast<typename LabelImageType::PixelType>(newValue) );
termContainer->UpdatePixel( inputIndex, oldValue , newValue );
}
else
{
if( positiveUpdate && !negativeUpdate )
{
const LevelSetOutputRealType newValue = LevelSetType::PlusOneLayer();
LevelSetLayerIterator tempIt = nodeIt;
++nodeIt;
listZero.erase( tempIt );
this->m_InternalImage->SetPixel( currentIdx, static_cast<typename LabelImageType::PixelType>(newValue) );
termContainer->UpdatePixel( inputIndex, oldValue , newValue );
}
else
{
++nodeIt;
}
}
}
}
}
#endif // __itkUpdateMalcolmSparseLevelSet_hxx
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