libgofigure-dev 0.9.0-3+b1 / usr / include / gofigure2 / itkViscousWatershedTransform.txx

/*=========================================================================
 Authors: The GoFigure Dev. Team.
 at Megason Lab, Systems biology, Harvard Medical school, 2009-11

 Copyright (c) 2009-11, President and Fellows of Harvard College.
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#ifndef __itkViscousWatershedTransform_txx
#define __itkViscousWatershedTransform_txx

#include "itkViscousWatershedTransform.h"

namespace itk
{
template< class TFeatureImage, class TInputImage, class TSegmentImage >
ViscousWatershedTransform< TFeatureImage, TInputImage, TSegmentImage >
::ViscousWatershedTransform()
{
  this->Superclass::SetNumberOfRequiredInputs (1);
  this->Superclass::SetNumberOfRequiredOutputs (1);

  m_InitialLevel = 0;
  m_FinalLevel = 255;
  m_Increment = 1;
  m_LargestRadius = 10;
  m_Slope = 10;

  this->Superclass::SetNthOutput ( 0, TFeatureImage::New() );
}

template< class TFeatureImage, class TInputImage, class TSegmentImage >
void
ViscousWatershedTransform< TFeatureImage, TInputImage, TSegmentImage >::GenerateData()
{
  FeatureImageConstPointer m_Input = this->GetInput();
  FeatureImageRegionType   region = m_Input->GetLargestPossibleRegion();

  FeatureImagePointer m_Output;

    {
    ThresholdFilterPointer m_threshold = ThresholdFilterType::New();
    m_threshold->SetLowerThreshold (0);
    m_threshold->SetUpperThreshold (m_InitialLevel);
    m_threshold->SetInsideValue (m_InitialLevel);
    m_threshold->SetOutsideValue (0);
    m_threshold->SetInput (m_Input);
    m_threshold->Update();
    m_Output = m_threshold->GetOutput();
    m_Output->DisconnectPipeline();
    }

  typename StructuringElementType::SizeType ballSize;
  FeatureIteratorType oIt(m_Output, region);

  unsigned int radius;
  for ( unsigned int i = m_InitialLevel + m_Increment; i <= m_FinalLevel; i = i + m_Increment )
    {
    std::cout << i << std::endl;
    // Extract levelset of the function
    ThresholdFilterPointer m_threshold = ThresholdFilterType::New();
    m_threshold->SetLowerThreshold (0);
    m_threshold->SetUpperThreshold (i);
    m_threshold->SetInsideValue (0);
    m_threshold->SetOutsideValue (1);
    m_threshold->SetInput (m_Input);
    m_threshold->Update();

    // Do closing
    if ( i > m_LargestRadius * m_Slope )
      {
      radius = 1;
      }
    else
      {
      radius = static_cast< unsigned int >(m_LargestRadius  - i / m_Slope);
      }
    ballSize.Fill(radius);

    StructuringElementType structuringElement;
    structuringElement.SetRadius(ballSize);
    structuringElement.CreateStructuringElement();

    ClosingFilterPointer close = ClosingFilterType::New();
    close->SetKernel(structuringElement);
    close->SetInput( m_threshold->GetOutput() );
    close->SetForegroundValue(1);
    close->Update();

    // Iterate over the output image
    FeatureIteratorType iIt(close->GetOutput(), region);

    iIt.GoToBegin();
    oIt.GoToBegin();
    while ( !oIt.IsAtEnd() )
      {
      if ( ( oIt.Get() == 0 ) && ( iIt.Get() == 0 ) )
        {
        oIt.Set(i);
        }
      ++oIt;
      ++iIt;
      }
    }

  this->GraftOutput(m_Output);
}

template< class TFeatureImage, class TInputImage, class TSegmentImage >
void
ViscousWatershedTransform< TFeatureImage, TInputImage, TSegmentImage >::PrintSelf(std::ostream & os,
                                                                                  Indent indent) const
{
  Superclass::PrintSelf (os, indent);
}

} /* end namespace itk */

#endif