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/usr/include/ITK-4.5/itkAnchorOpenCloseLine.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 __itkAnchorOpenCloseLine_hxx
#define __itkAnchorOpenCloseLine_hxx

#include "itkAnchorOpenCloseLine.h"

namespace itk
{
template< typename TInputPix, typename TCompare >
AnchorOpenCloseLine< TInputPix, TCompare >
::AnchorOpenCloseLine()
{
  m_Size = 2;
}

template< typename TInputPix, typename TCompare >
void
AnchorOpenCloseLine< TInputPix, TCompare >
::DoLine(std::vector<InputImagePixelType> & buffer, unsigned bufflength)
{
  // TFunction1 will be >= for openings
  // TFunction2 will be <=
  // TFunction3 will be >

  // the initial version will adopt the methodology of loading a line
  // at a time into a buffer vector, carrying out the opening or
  // closing, and then copy the result to the output. Hopefully this
  // will improve cache performance when working along non raster
  // directions.
  if ( bufflength <= m_Size / 2 )
    {
    // No point doing anything fancy - just look for the extreme value
    // This is important for angled structuring elements
    InputImagePixelType Extreme = buffer[0];
    for ( unsigned i = 0; i < bufflength; i++ )
      {
      if ( Compare1(Extreme, buffer[i]) )
        {
        Extreme = buffer[i];
        }
      }

    for ( unsigned i = 0; i < bufflength; i++ )
      {
      buffer[i] = Extreme;
      }
    return;
    }

  // start the real work - everything here will be done with index
  // arithmetic rather than pointer arithmetic
  unsigned outLeftP = 0, outRightP = bufflength - 1;
  // left side
  while ( ( outLeftP < outRightP ) && Compare1(buffer[outLeftP], buffer[outLeftP + 1]) )
    {
    ++outLeftP;
    }
  while ( ( outLeftP < outRightP ) && Compare2(buffer[outRightP - 1], buffer[outRightP]) )
    {
    --outRightP;
    }
  InputImagePixelType Extreme;
  while ( StartLine(buffer, Extreme, outLeftP, outRightP) )
      {}

  FinishLine(buffer, Extreme, outLeftP, outRightP);
  // this section if to make the edge behaviour the same as the more
  // traditional approaches. It isn't part of the core anchor method.
  // Note that the index calculations include some extra factors that
  // relate to the padding at either end to allow users to set
  // borders.
  // compat
  // fix left border
  Extreme = buffer[m_Size / 2 + 1];
  for ( int i = m_Size / 2; i >= 0; i-- )
    {
    if ( Compare1(Extreme, buffer[i]) )
      {
      Extreme = buffer[i];
      }
//    std::cout << i << " " << (int)Extreme << " " << (int)buffer[i] <<
// std::endl;
    buffer[i] = Extreme;
    }
  // fix right border
  Extreme = buffer[bufflength - m_Size / 2 - 2];
  for ( int i = (int)bufflength - m_Size / 2 - 1; i < (int)bufflength; i++ )
    {
    if ( Compare1(Extreme, buffer[i]) )
      {
      Extreme = buffer[i];
      }
//    std::cout << (int)Extreme << " " << (int)buffer[i] << std::endl;
    buffer[i] = Extreme;
    }
}

template< typename TInputPix, typename TCompare >
bool
AnchorOpenCloseLine< TInputPix, TCompare >
::StartLine(std::vector<InputImagePixelType> & buffer,
            InputImagePixelType & Extreme,
            unsigned & outLeftP,
            unsigned & outRightP
            )
{
  // This returns true to indicate return to startLine label in pseudo
  // code, and false to indicate finshLine
  Extreme = buffer[outLeftP];
  unsigned currentP = outLeftP + 1;
  unsigned sentinel, endP;

  while ( ( currentP < outRightP ) && Compare2(buffer[currentP], Extreme) )
    {
    Extreme = buffer[currentP];
    ++outLeftP;
    ++currentP;
    }

  sentinel = outLeftP + m_Size;
  if ( sentinel > outRightP )
    {
    // finish
    return ( false );
    }
  ++currentP;
  // ran m_Size pixels ahead
  while ( currentP < sentinel )
    {
    if ( Compare2(buffer[currentP], Extreme) )
      {
      endP = currentP;
      for ( unsigned PP = outLeftP + 1; PP < endP; ++PP )
        {
        buffer[PP] = Extreme;
        }
      outLeftP = currentP;
      return ( true );
      }
    ++currentP;
    }
  // We didn't find a smaller (for opening) value in the segment of
  // reach of outLeftP. currentP is the first position outside the
  // reach of outLeftP
  HistogramType histo;
  if ( Compare2(buffer[currentP], Extreme) )
    {
    endP = currentP;
    for ( unsigned PP = outLeftP + 1; PP < endP; ++PP )
      {
      buffer[PP] = Extreme;
      }
    outLeftP = currentP;
    return ( true );
    }
  else
    {
    // Now we need a histogram
    // Initialise it
    outLeftP++;
    for ( unsigned aux = outLeftP; aux <= currentP; ++aux )
      {
      histo.AddPixel(buffer[aux]);
      }
    // find the minimum value. The version
    // in the paper assumes integer pixel types and initializes the
    // search to the current extreme. Hopefully the latter is an
    // optimization step.
    Extreme = histo.GetValue();
    histo.RemovePixel(buffer[outLeftP]);
    buffer[outLeftP] = Extreme;
    histo.AddPixel(Extreme);
    }

  while ( currentP < outRightP )
    {
    ++currentP;
    if ( Compare2(buffer[currentP], Extreme) )
      {
      // Found a new extrem
      endP = currentP;
      for ( unsigned PP = outLeftP + 1; PP < endP; PP++ )
        {
        buffer[PP] = Extreme;
        }
      outLeftP = currentP;
      return ( true );
      }
    else
      {
      /* histogram update */
      histo.AddPixel(buffer[currentP]);
      histo.RemovePixel(buffer[outLeftP]);
      Extreme = histo.GetValue();
      ++outLeftP;
      histo.RemovePixel(buffer[outLeftP]);
      buffer[outLeftP] = Extreme;
      histo.AddPixel(Extreme);
      }
    }
  // Finish the line
  while ( outLeftP < outRightP )
    {
    histo.RemovePixel(buffer[outLeftP]);
    Extreme = histo.GetValue();
    ++outLeftP;
    histo.RemovePixel(buffer[outLeftP]);
    buffer[outLeftP] = Extreme;
    histo.AddPixel(Extreme);
    }
  return ( false );
}

template< typename TInputPix, typename TCompare >
void
AnchorOpenCloseLine< TInputPix,  TCompare >
::FinishLine(std::vector<InputImagePixelType> & buffer,
             InputImagePixelType & Extreme,
             unsigned & outLeftP,
             unsigned & outRightP
             )
{
  while ( outLeftP < outRightP )
    {
    if ( Compare2(buffer[outLeftP], buffer[outRightP]) )
      {
      Extreme = buffer[outRightP];
      --outRightP;
      if ( !Compare2(buffer[outRightP], Extreme) )
        {
        buffer[outRightP] = Extreme;
        }
      }
    else
      {
      Extreme = buffer[outLeftP];
      ++outLeftP;
      if ( !Compare2(buffer[outLeftP], Extreme) )
        {
        buffer[outLeftP] = Extreme;
        }
      }
    }
}

template< typename TInputPix, typename TCompare >
void
AnchorOpenCloseLine< TInputPix, TCompare >
::PrintSelf(std::ostream & os, Indent indent) const
{
  os << indent << "Size: " << m_Size << std::endl;
}
} // end namespace itk

#endif