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/usr/include/ITK-4.5/itkMatchCardinalityImageToImageMetric.hxx is in libinsighttoolkit4-dev 4.5.0-3.

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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 __itkMatchCardinalityImageToImageMetric_hxx
#define __itkMatchCardinalityImageToImageMetric_hxx

#include "itkMatchCardinalityImageToImageMetric.h"
#include "itkImageRegionConstIteratorWithIndex.h"

namespace itk
{
/**
 * Constructor
 */
template< typename TFixedImage, typename TMovingImage >
MatchCardinalityImageToImageMetric< TFixedImage, TMovingImage >
::MatchCardinalityImageToImageMetric()
{
  itkDebugMacro("Constructor");

  this->SetComputeGradient(false); // don't use the default gradients
  m_MeasureMatches = true;         // default to measure percentage of pixel
                                   // matches

  m_Threader = MultiThreader::New();
}

/*
 * Get the match Measure
 */
template< typename TFixedImage, typename TMovingImage >
typename MatchCardinalityImageToImageMetric< TFixedImage, TMovingImage >::MeasureType
MatchCardinalityImageToImageMetric< TFixedImage, TMovingImage >
::GetValue(const TransformParametersType & parameters) const
{
  return const_cast< Self * >( this )->GetNonconstValue(parameters);
}

/**
 * Get the match Measure (non const version. spawns threads).
 */
template< typename TFixedImage, typename TMovingImage >
typename MatchCardinalityImageToImageMetric< TFixedImage, TMovingImage >::MeasureType
MatchCardinalityImageToImageMetric< TFixedImage, TMovingImage >
::GetNonconstValue(const TransformParametersType & parameters)
{
  itkDebugMacro("GetValue( " << parameters << " ) ");

  FixedImageConstPointer fixedImage = this->m_FixedImage;
  if ( !fixedImage )
    {
    itkExceptionMacro(<< "Fixed image has not been assigned");
    }

  // Initialize some variables before spawning threads
  //
  //
  MeasureType measure = NumericTraits< MeasureType >::Zero;
  this->m_NumberOfPixelsCounted = 0;

  m_ThreadMatches.clear();
  m_ThreadCounts.clear();
  m_ThreadMatches.resize( this->GetNumberOfThreads() );
  m_ThreadCounts.resize( this->GetNumberOfThreads() );

  typename std::vector< MeasureType >::iterator mIt;
  std::vector< SizeValueType >::iterator cIt;
  for ( mIt = m_ThreadMatches.begin(), cIt = m_ThreadCounts.begin();
        mIt != m_ThreadMatches.end(); ++mIt, ++cIt )
    {
    *mIt = NumericTraits< MeasureType >::Zero;
    *cIt = 0;
    }

  // store the parameters in the transform so all threads can access them
  this->SetTransformParameters(parameters);

  // Set up the multithreaded processing
  //
  //
  ThreadStruct str;
  str.Metric = this;

  this->GetMultiThreader()->SetNumberOfThreads( this->GetNumberOfThreads() );
  this->GetMultiThreader()->SetSingleMethod(this->ThreaderCallback, &str);

  // multithread the execution
  //
  //
  this->GetMultiThreader()->SingleMethodExecute();

  // Collect the contribution to the metric for each thread
  //
  //
  for ( mIt = m_ThreadMatches.begin(), cIt = m_ThreadCounts.begin();
        mIt != m_ThreadMatches.end(); ++mIt, ++cIt )
    {
    measure += *mIt;
    this->m_NumberOfPixelsCounted += *cIt;
    }

  if ( !this->m_NumberOfPixelsCounted )
    {
    itkExceptionMacro(<< "All the points mapped to outside of the moving image");
    }
  else
    {
    measure /= this->m_NumberOfPixelsCounted;
    }

  return measure;
}

template< typename TFixedImage, typename TMovingImage >
void
MatchCardinalityImageToImageMetric< TFixedImage, TMovingImage >
::ThreadedGetValue(const FixedImageRegionType & regionForThread,
                   ThreadIdType threadId)
{
  FixedImageConstPointer fixedImage = this->GetFixedImage();

  if ( !fixedImage )
    {
    itkExceptionMacro(<< "Fixed image has not been assigned");
    }

  typedef  ImageRegionConstIteratorWithIndex< FixedImageType > FixedIteratorType;
  typename FixedImageType::IndexType index;
  FixedIteratorType ti(fixedImage, regionForThread);

  MeasureType   threadMeasure = NumericTraits< MeasureType >::Zero;
  SizeValueType threadNumberOfPixelsCounted = 0;

  while ( !ti.IsAtEnd() )
    {
    index = ti.GetIndex();

    typename Superclass::InputPointType inputPoint;
    fixedImage->TransformIndexToPhysicalPoint(index, inputPoint);

    if ( this->GetFixedImageMask() && !this->GetFixedImageMask()->IsInside(inputPoint) )
      {
      ++ti;
      continue;
      }

    typename Superclass::OutputPointType
    transformedPoint = this->GetTransform()->TransformPoint(inputPoint);

    if ( this->GetMovingImageMask() && !this->GetMovingImageMask()->IsInside(transformedPoint) )
      {
      ++ti;
      continue;
      }

    if ( this->GetInterpolator()->IsInsideBuffer(transformedPoint) )
      {
      const RealType movingValue = this->GetInterpolator()->Evaluate(transformedPoint);
      const RealType fixedValue = ti.Get();
      RealType       diff;

      threadNumberOfPixelsCounted++;

      if ( m_MeasureMatches )
        {
        diff = ( movingValue == fixedValue ); // count matches
        }
      else
        {
        diff = ( movingValue != fixedValue ); // count mismatches
        }
      threadMeasure += diff;
      }

    ++ti;
    }

  m_ThreadMatches[threadId] = threadMeasure;
  m_ThreadCounts[threadId] = threadNumberOfPixelsCounted;
}

//----------------------------------------------------------------------------
template< typename TFixedImage, typename TMovingImage >
ThreadIdType
MatchCardinalityImageToImageMetric< TFixedImage, TMovingImage >
::SplitFixedRegion(ThreadIdType i, int num, FixedImageRegionType & splitRegion)
{
  // Get the output pointer
  const typename FixedImageRegionType::SizeType & fixedRegionSize =
    this->GetFixedImageRegion().GetSize();

  int splitAxis;
  typename FixedImageRegionType::IndexType splitIndex;
  typename FixedImageRegionType::SizeType splitSize;

  // Initialize the splitRegion to the output requested region
  splitRegion = this->GetFixedImageRegion();
  splitIndex = splitRegion.GetIndex();
  splitSize = splitRegion.GetSize();

  // split on the outermost dimension available
  splitAxis = this->GetFixedImage()->GetImageDimension() - 1;
  while ( fixedRegionSize[splitAxis] == 1 )
    {
    --splitAxis;
    if ( splitAxis < 0 )
      { // cannot split
      itkDebugMacro("  Cannot Split");
      return 1;
      }
    }

  // determine the actual number of pieces that will be generated
  typename FixedImageRegionType::SizeType::SizeValueType range = fixedRegionSize[splitAxis];
  int valuesPerThread = Math::Ceil< int >(range / (double)num);
  ThreadIdType maxThreadIdUsed = Math::Ceil< int >(range / (double)valuesPerThread) - 1;

  // Split the region
  if ( i < maxThreadIdUsed )
    {
    splitIndex[splitAxis] += i * valuesPerThread;
    splitSize[splitAxis] = valuesPerThread;
    }
  if ( i == maxThreadIdUsed )
    {
    splitIndex[splitAxis] += i * valuesPerThread;
    // last thread needs to process the "rest" dimension being split
    splitSize[splitAxis] = splitSize[splitAxis] - i * valuesPerThread;
    }

  // set the split region ivars
  splitRegion.SetIndex(splitIndex);
  splitRegion.SetSize(splitSize);

  itkDebugMacro("  Split Piece: " << splitRegion);

  return maxThreadIdUsed + 1;
}

// Callback routine used by the threading library. This routine just calls
// the ThreadedGenerateData method after setting the correct region for this
// thread.
template< typename TFixedImage, typename TMovingImage >
ITK_THREAD_RETURN_TYPE
MatchCardinalityImageToImageMetric< TFixedImage, TMovingImage >
::ThreaderCallback(void *arg)
{
  ThreadStruct *str;
  ThreadIdType  total, threadId, threadCount;

  threadId = ( (MultiThreader::ThreadInfoStruct *)( arg ) )->ThreadID;
  threadCount = ( (MultiThreader::ThreadInfoStruct *)( arg ) )->NumberOfThreads;

  str = (ThreadStruct *)( ( (MultiThreader::ThreadInfoStruct *)( arg ) )->UserData );

  // execute the actual method with appropriate computation region
  // first find out how many pieces extent can be split into.
  FixedImageRegionType splitRegion;
  total = str->Metric->SplitFixedRegion(threadId, threadCount, splitRegion);

  if ( threadId < total )
    {
    str->Metric->ThreadedGetValue(splitRegion, threadId);
    }
  // else
  //   {
  //   otherwise don't use this thread. Sometimes the threads dont
  //   break up very well and it is just as efficient to leave a
  //   few threads idle.
  //   }

  return ITK_THREAD_RETURN_VALUE;
}

/**
 * PrintSelf
 */
template< typename TFixedImage, typename TMovingImage >
void
MatchCardinalityImageToImageMetric< TFixedImage, TMovingImage >
::PrintSelf(std::ostream & os, Indent indent) const
{
  Superclass::PrintSelf(os, indent);
  os << indent << "MeasureMatches: " << ( m_MeasureMatches ? "On" : "Off" )  << std::endl;
}
} // end namespace itk

#endif