lsgrmController.txx 16.1 KB
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#ifndef __LSGRM_CONTROLLER_TXX
#define __LSGRM_CONTROLLER_TXX
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#include "lsgrmController.h"
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namespace lsgrm
{

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template<class TSegmenter>
Controller<TSegmenter>::Controller()
{
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  m_TilingMode = LSGRM_TILING_AUTO;
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  m_Margin = 0;
  m_NumberOfIterations = 0;
  m_NumberOfFirstIterations = 0;
  m_TileHeight = 0;
  m_TileWidth = 0;
  m_NbTilesX = 0;
  m_NbTilesY = 0;
  m_Threshold = 75;
  m_Memory = 0;
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  m_Resuming = false;
  m_ResumeTileRow = 0;
  m_ResumeTileCol = 0;
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}

template<class TSegmenter>
Controller<TSegmenter>::~Controller()
{
}

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template<class TSegmenter>
void Controller<TSegmenter>::Modified()
{
  Superclass::Modified();
  m_Tiles.clear();
}

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/*
 * Run the segmentation
 * TODO: compute the correct number of iterations !
 */
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template<class TSegmenter>
void Controller<TSegmenter>::RunSegmentation()
{
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  itkDebugMacro(<< "Entering RunSegmentation()");
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  CheckMemorySize();

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  if (m_TilingMode == LSGRM_TILING_AUTO || m_TilingMode == LSGRM_TILING_USER)
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    {
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    if(m_TilingMode == LSGRM_TILING_AUTO)
      {
      this->GetAutomaticConfiguration();
      }
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    else // m_TilingMode is LSGRM_TILING_USER
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      {
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      m_NbTilesX = std::floor(m_InputImage->GetLargestPossibleRegion().GetSize()[0] / m_TileWidth);
      m_NbTilesY = std::floor(m_InputImage->GetLargestPossibleRegion().GetSize()[1] / m_TileHeight);
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      m_Margin = static_cast<unsigned int>(pow(2, m_NumberOfFirstIterations + 1) - 2);
      }

    std::cout <<
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        "--- Configuration: " <<
        "\n\tAvailable RAM: " << m_Memory <<
        "\n\tInput image dimensions: " << m_InputImage->GetLargestPossibleRegion().GetSize() <<
        "\n\tNumber of first iterations: " << m_NumberOfFirstIterations <<
        "\n\tStability margin: " << m_Margin <<
        "\n\tRegular tile size: " << m_TileWidth << " x " << m_TileHeight <<
        "\n\tTiling layout: " << m_NbTilesX << " x " << m_NbTilesY << std::endl;
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    // Compute the splitting scheme
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    m_Tiles = SplitOTBImage<ImageType>(m_InputImage, m_TileWidth, m_TileHeight, m_Margin,
        m_NbTilesX, m_NbTilesY, m_TemporaryFilesPrefix);
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    // If there is only one tile, then fallback to LSGRM_TILING_NONE case
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    if (m_Tiles.size() == 1)
      {
      std::cout << "Only one tile is needed. Fallback to tiling=none." << std::endl;
      SetTilingModeNone();
      }
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    }

  if (m_TilingMode == LSGRM_TILING_AUTO || m_TilingMode == LSGRM_TILING_USER)
    {
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    const unsigned int numberOfIterationsForPartialSegmentations = 3; // TODO: find a smart value
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    unsigned int numberOfIterationsRemaining = m_NumberOfIterations;

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    // Boolean indicating if there are remaining fusions
    bool isFusion = false;

    // Run first partial segmentation
    boost::timer t; t.restart();
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	auto accumulatedMemory = 0;
	
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    if (!m_Resuming) {
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	accumulatedMemory = RunFirstPartialSegmentation<TSegmenter>(
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        m_InputImage,
        m_SpecificParameters,
        m_Threshold,
        m_NumberOfFirstIterations,
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        numberOfIterationsForPartialSegmentations,
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        m_Tiles,
        m_NbTilesX,
        m_NbTilesY,
        m_TileWidth,
        m_TileHeight,
        isFusion);
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	} else {
		// temp. patch, maybe calculate real current memory after resuming graphs.
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		accumulatedMemory = 2 * m_Memory;
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	}
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#ifdef OTB_USE_MPI
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    GatherUsefulVariables(accumulatedMemory, isFusion);
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#endif
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    // Time monitoring
    ShowTime(t);

    while(accumulatedMemory > m_Memory && isFusion)
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      {
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      isFusion = false;
      accumulatedMemory = RunPartialSegmentation<TSegmenter>(
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          m_SpecificParameters,
          m_Threshold,
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          numberOfIterationsForPartialSegmentations,
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          m_Tiles,
          m_NbTilesX,
          m_NbTilesY,
          m_InputImage->GetLargestPossibleRegion().GetSize()[0],
          m_InputImage->GetLargestPossibleRegion().GetSize()[1],
          m_InputImage->GetNumberOfComponentsPerPixel(),
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          isFusion,
		  m_Resuming,
		  m_ResumeTileRow,
		  m_ResumeTileCol);
      
	  if (m_Resuming) StopResumingMode();
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#ifdef OTB_USE_MPI
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      GatherUsefulVariables(accumulatedMemory, isFusion);
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#endif
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      // Time monitoring
      ShowTime(t);
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      // Update number of remaining iterations
      if (numberOfIterationsRemaining < numberOfIterationsForPartialSegmentations)
        {
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        break;
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        }
      else
        {
        numberOfIterationsRemaining -= numberOfIterationsForPartialSegmentations;
        }
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      }
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#ifdef OTB_USE_MPI
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    // Only the master process is doing the next part
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    // TODO: Use the MPI process wich has the largest amount of memory
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    if (otb::MPIConfig::Instance()->GetMyRank() != 0)
      return;
#endif

    if(accumulatedMemory <= m_Memory)
      {
      // Merge all the graphs
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        m_OutputGraph = MergeAllGraphsAndAchieveSegmentation<TSegmenter>(
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          m_SpecificParameters,
          m_Threshold,
          m_Tiles,
          m_NbTilesX,
          m_NbTilesY,
          m_InputImage->GetLargestPossibleRegion().GetSize()[0],
          m_InputImage->GetLargestPossibleRegion().GetSize()[1],
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          m_InputImage->GetNumberOfComponentsPerPixel(),
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          numberOfIterationsRemaining);
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      ShowTime(t);
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      }
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    else // accumulatedMemory > m_Memory
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      {
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      // That means there are no more possible fusions but we can not store the output graph
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      // Todo do not clean up temporary directory before copying resulting graph to the output directory
      // In the output directory add an info file to give the number of tiles.
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      itkExceptionMacro(<< "No more possible fusions, but can not store the output graph");
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      }
    }
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  else if (m_TilingMode == LSGRM_TILING_NONE)// tiling_mode is none
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    {
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#ifdef OTB_USE_MPI
    // Only the master process is doing the next part
    if (otb::MPIConfig::Instance()->GetMyRank() > 0)
      return;
    else
      // Warn that there is some unused MPI processes
      if (otb::MPIConfig::Instance()->GetNbProcs() > 1)
        itkWarningMacro(<< "Only 1 MPI process will be used");
#endif
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    // Update input image
    m_InputImage->Update();

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    // Use classic grm
    TSegmenter segmenter;
    segmenter.SetParam(m_SpecificParameters);
    segmenter.SetThreshold(m_Threshold);
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    segmenter.SetDoFastSegmentation(false);
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    segmenter.SetNumberOfIterations(m_NumberOfIterations);
    segmenter.SetInput(m_InputImage);
    segmenter.Update();
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    m_OutputGraph = segmenter.m_Graph;
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    }
  else
    {
    itkExceptionMacro(<<"Unknow tiling mode!");
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    }

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  // TODO: [MPI] broadcast the graph to other nodes

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}

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/*
 * Compute the memory occupied by one node
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 * TODO: compute the exact value, e.g. on a given UNIX system,
 * experimental measures shows that
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 * for one Baatz node (+pixel) memory is about 700-730 bytes...
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 * And our estimation is about 600
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 */
template<class TSegmenter>
unsigned int Controller<TSegmenter>::GetNodeMemory()
{
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  // Create a n*n image
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  const unsigned int n = 100;
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  typename ImageType::Pointer onePixelImage = ImageType::New();
  typename ImageType::IndexType start;
  start.Fill(0);
  typename ImageType::SizeType size;
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  size.Fill(n);
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  typename ImageType::RegionType region(start, size);
  onePixelImage->SetRegions(region);
  onePixelImage->SetNumberOfComponentsPerPixel(m_InputImage->GetNumberOfComponentsPerPixel());
  onePixelImage->Allocate();
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  // Instanciate and initialize a segmenter
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  TSegmenter segmenter;
  segmenter.SetInput(onePixelImage);
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  grm::GraphOperations<TSegmenter>::InitNodes(onePixelImage,segmenter,FOUR);
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  // Get the memory occupied by the graph, normalize it by n*n
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  unsigned int memory = segmenter.GetGraphMemory() / (n*n);
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  itkDebugMacro(<<"Size of a node is " << memory);
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  // Get the memory occupied by one pixel of the image
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  unsigned int pixelMemory =  sizeof(m_InputImage->GetBufferPointer())
      * m_InputImage->GetNumberOfComponentsPerPixel();
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  itkDebugMacro(<<"Size of an image pixel is " << pixelMemory);
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  memory += pixelMemory;

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  itkDebugMacro(<<"Size of a node+pixel is " << memory);
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  return memory;
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}
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template<class TSegmenter>
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void Controller<TSegmenter>::CheckMemorySize()
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{
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  if (m_Memory == 0)
    {
    m_Memory = getMemorySize();
    assert(m_Memory > 0);
    }
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  m_Memory /= 2; // For safety and can prevent out of memory troubles
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}
/*
 * Compute the maximum number of nodes which can fit in the memory
 */
template<class TSegmenter>
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std::size_t Controller<TSegmenter>::GetMaximumNumberOfNodesInMemory()
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{
  itkDebugMacro(<< "Computing maximum number of nodes in memory");
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  return std::ceil(((float) m_Memory) / ((float) GetNodeMemory()));
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}

template<class TSegmenter>
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void Controller<TSegmenter>::ComputeMaximumStabilityMargin(unsigned int width,
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    unsigned int height, unsigned int &niter, unsigned int &margin)
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    {
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  itkDebugMacro(<< "Computing maximum stability margin");

  // Compute the stability margin. The naive strategy consider a margin value and a stable size equal.
  niter = 1;
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  unsigned int maxMargin = std::min(width, height)/2;
  unsigned int currMargin = static_cast<unsigned int>(pow(2, niter + 1) - 2);
  margin = currMargin;
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  while(currMargin < maxMargin)
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    {
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    margin = currMargin;
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    niter++;
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    currMargin = static_cast<unsigned int>(pow(2, niter + 1) - 2);
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    }
  niter--;

  itkDebugMacro(<< "Number of iterations=" << niter << " margin=" << margin);
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    }
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/*
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 * Compute a tiling layout which minimizes a criterion based on tile compactness
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 * and memory usage
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 *
 * TODO: use the lsgrmSplitter to truly compute the largest tile of a given layout
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 */
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template<class TSegmenter>
void Controller<TSegmenter>::GetAutomaticConfiguration()
{

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  itkDebugMacro(<<"Get automatic configuration");

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  // Compute the maximum number of nodes that can fit the memory
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  // TODO: Use the smallest number amongst MPI processes
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  unsigned long int maximumNumberOfNodesInMemory = GetMaximumNumberOfNodesInMemory();
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  itkDebugMacro(<<"Maximum number of nodes in memory is " << maximumNumberOfNodesInMemory);
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  // Number of nodes in the entire image
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  const std::size_t imageWidth = m_InputImage->GetLargestPossibleRegion().GetSize()[0];
  const std::size_t imageHeight = m_InputImage->GetLargestPossibleRegion().GetSize()[1];
  const std::size_t nbOfNodesInImage = imageWidth*imageHeight;
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  // Default layout: 1x1
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  m_NbTilesX = 1;
  m_NbTilesY = 1;
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  // Without margins, the number of tiles maximizing memory use
  // is equal to: nbOfNodesInImage / maximumNumberOfNodesInMemory.
  // Actually, there is tile margins. And the best scenario is to have
  // square tiles with margin = width/2, that is tiles 4x larger.
  // Hence the number of tiles maximizing memory use is 4x larger.
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  unsigned int minimumNumberOfTiles = std::ceil(4.0 * ((float) nbOfNodesInImage) / ((float) maximumNumberOfNodesInMemory));
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  itkDebugMacro(<<"Minimum number of tiles is " << minimumNumberOfTiles);

  // In the following steps, we will optimize tiling layout, starting from a number
  // of tiles equal to "minimumNumberOfTiles", up to a number of tiles equal to
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  // 4 times the number of tiles (that is double rows/cols)
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  unsigned int maximumNumberOfTiles = minimumNumberOfTiles * 4;

  // Search for layout which minimizes the criterion
  // The criterion is the ratio between compactness and memory usage
  // (i.e. tileWidth * tileHeight / maximumNumberOfNodesInMemory)
  itkDebugMacro(<<"Computing layouts properties:");
  float lowestCriterionValue = itk::NumericTraits<float>::max();
  for (unsigned int nbOfTiles = minimumNumberOfTiles ; nbOfTiles <= maximumNumberOfTiles ; nbOfTiles++)
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    {
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    // Get the multiples of k. For each one, compute the criterion of the tiling
    for (unsigned int layoutNCol = 1; layoutNCol<=nbOfTiles; layoutNCol++)
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      {
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#ifdef OTB_USE_MPI
      // We want number of tiles which is a multiple of the number of MPI processes
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      if (nbOfTiles % layoutNCol == 0 && // Is it a multiple of the nb of Tiles and nProcs?
          nbOfTiles % otb::MPIConfig::Instance()->GetNbProcs() == 0)
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#else
        if (nbOfTiles % layoutNCol == 0) // Is it a multiple of the nb of Tiles?
#endif
          {
          // Tiling layout
          unsigned int layoutNRow = nbOfTiles / layoutNCol;
          unsigned int tileWidth = imageWidth / layoutNCol;
          unsigned int tileHeight = imageHeight / layoutNRow;

          // Compute margin for regular tiles of this layout
          unsigned int maxMargin, maxIter;
          ComputeMaximumStabilityMargin(tileWidth, tileHeight, maxIter, maxMargin);
          tileWidth += 2*maxMargin;
          tileHeight += 2*maxMargin;

          // Memory use efficiency
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          float percentMemory = tileWidth * tileHeight / (float) maximumNumberOfNodesInMemory; // is > 0. Could be greater than 1 in some cases!
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          // Compactness
          float perimeter = tileWidth + tileHeight;
          float surface = tileWidth * tileHeight;
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          float compactness = perimeter / surface * (float) std::max(tileWidth,tileHeight); // [1,+inf]
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          // Update minimum criterion
          float criterion = compactness / percentMemory; // ]0, +inf]

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          itkDebugMacro(//<< std::setprecision (2) << std::fixed
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              << "Nb. tiles=" << nbOfTiles
              << " Layout: " << layoutNRow << "x" << layoutNCol
              << " Mem. use=" << percentMemory
              << " Compactness=" << compactness
              << " Criterion=" << criterion
              << " Size (no margin): " << (tileWidth-2*maxMargin)<< "x"<< (tileHeight-2*maxMargin)
              << " Size (with margin): " << tileWidth << "x" << tileHeight
              << " (margin=" << maxMargin << "/nb. iter=" << maxIter << ")" );

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          if (criterion < lowestCriterionValue && percentMemory <= 1.0)
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            {
            lowestCriterionValue = criterion;
            m_NbTilesX = layoutNCol;
            m_NbTilesY = layoutNRow;
            }
          }
      } // for each multiple of k
    }
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  // Compute the tile size
  m_TileWidth = static_cast<unsigned int>(imageWidth/m_NbTilesX);
  m_TileHeight = static_cast<unsigned int>(imageHeight/m_NbTilesY);
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  itkDebugMacro(<<"Selected layout: " << m_NbTilesX << "x" << m_NbTilesY
      << " (criterion=" << lowestCriterionValue << ")");

  // Compute the stability margin
  ComputeMaximumStabilityMargin(m_TileWidth, m_TileHeight,m_NumberOfFirstIterations, m_Margin);

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  long long unsigned int memoryUsed = GetNodeMemory();
  memoryUsed *= static_cast<long long unsigned int>(m_TileHeight + 2*m_Margin);
  memoryUsed *= static_cast<long long unsigned int>(m_TileWidth + 2*m_Margin);
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  itkDebugMacro(<< "An amount of " << memoryUsed/(1024.0*1024.0) << " Mbytes of RAM will be used for regular tiles of size "
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      << (m_TileWidth + 2*m_Margin) << "x" << (m_TileHeight + 2*m_Margin) );
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}

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template <class TSegmenter>
void Controller<TSegmenter>::SetInternalMemoryAvailable(long long unsigned int v) // expecting a value in Mbytes.
{
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  if (v<=0)
    {
    itkExceptionMacro(<<"Memory value is not valid (value=" << v << ")");
    }
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  m_Memory = v * 1024ul * 1024ul;
}

template<class TSegmenter>
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void Controller<TSegmenter>::SetInputImage(ImageType * inputImage)
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{
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  m_InputImage = inputImage;
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}

template<class TSegmenter>
void Controller<TSegmenter>::SetSpecificParameters(const SegmentationParameterType& params)
{
  m_SpecificParameters = params;
}

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//template<class TSegmenter>
//typename Controller<TSegmenter>::LabelImageType::Pointer
//Controller<TSegmenter>::GetLabeledClusteredOutput()
//{
//#ifdef OTB_USE_MPI
//  // Get the label image from the master process (the one which achieves segmentation)
//  BroadcastImage<typename TSegmenter::LabelImageType>(m_LabelImage);
//#endif
//  return m_LabelImage;
//}
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template <class TSegmenter>
std::vector<std::string> Controller<TSegmenter>::GetTemporaryFilesList()
{
  std::vector<std::string> list;
  for (unsigned int i = 0; i < m_Tiles.size(); i++)
    {
    list.push_back(m_Tiles[i].edgeFileName);
    list.push_back(m_Tiles[i].edgeMarginFileName);
    list.push_back(m_Tiles[i].nodeFileName);
    list.push_back(m_Tiles[i].nodeMarginFileName);
    }
  return list;
}

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template<class TSegmenter>
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void Controller<TSegmenter>::SetResumingMode(unsigned int rRow, unsigned int rCol)
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{
  m_Resuming = true;
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  m_ResumeTileRow = rRow;
  m_ResumeTileCol = rCol;
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}

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template<class TSegmenter>
void Controller<TSegmenter>::StopResumingMode()
{
  m_Resuming = false;
  m_ResumeTileRow = 0;
  m_ResumeTileCol = 0;
}

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} // end of namespace lsgrm
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#endif