/*=========================================================================

  Copyright (c) Kitware, Inc.
  All rights reserved.
  See Copyright.txt or http://www.kitware.com/VolViewCopyright.htm for details.

     This software is distributed WITHOUT ANY WARRANTY; without even
     the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
     PURPOSE.  See the above copyright notice for more information.

=========================================================================*/
/* perform a pixel-wise intensity transformation using a DanielssonDistanceMap function */

#include "vvITKFilterModule.h"

#include "itkDanielssonDistanceMapImageFilter.h"



template <class InputPixelType>
class DanielssonDistanceMapRunner
  {
  public:
      typedef  InputPixelType                       PixelType;
      typedef  itk::Image< PixelType, 3 >           ImageType; 
      typedef  unsigned short                       OutputPixelType;
      typedef  itk::Image< OutputPixelType, 3 >     OutputImageType; 
      typedef  itk::DanielssonDistanceMapImageFilter< ImageType,  OutputImageType >   FilterType;
      typedef  VolView::PlugIn::FilterModule< FilterType >        ModuleType;

  public:
    DanielssonDistanceMapRunner() {}
    void Execute( vtkVVPluginInfo *info, vtkVVProcessDataStruct *pds )
    {
      ModuleType  module;
      module.SetPluginInfo( info );
      module.SetUpdateMessage("Computing the Distance Map with a DanielssonDistanceMap function...");
      module.GetFilter()->InputIsBinaryOn();
      // Execute the filter
      module.ProcessData( pds  );
    }
  };




static int ProcessData(void *inf, vtkVVProcessDataStruct *pds)
{

  vtkVVPluginInfo *info = (vtkVVPluginInfo *)inf;

  try 
  {
  switch( info->InputVolumeScalarType )
  {
    case VTK_CHAR:
      {
      DanielssonDistanceMapRunner<signed char> runner;
      runner.Execute( info, pds );
      break; 
      }
    case VTK_UNSIGNED_CHAR:
      {
      DanielssonDistanceMapRunner<unsigned char> runner;
      runner.Execute( info, pds );
      break; 
      }
    case VTK_SHORT:
      {
      DanielssonDistanceMapRunner<signed short> runner;
      runner.Execute( info, pds );
      break; 
      }
    case VTK_UNSIGNED_SHORT:
      {
      DanielssonDistanceMapRunner<unsigned short> runner;
      runner.Execute( info, pds );
      break; 
      }
    case VTK_INT:
      {
      DanielssonDistanceMapRunner<signed int> runner;
      runner.Execute( info, pds );
      break; 
      }
    case VTK_UNSIGNED_INT:
      {
      DanielssonDistanceMapRunner<unsigned int> runner;
      runner.Execute( info, pds );
      break; 
      }
    case VTK_LONG:
      {
      DanielssonDistanceMapRunner<signed long> runner;
      runner.Execute( info, pds );
      break; 
      }
    case VTK_UNSIGNED_LONG:
      {
      DanielssonDistanceMapRunner<unsigned long> runner;
      runner.Execute( info, pds );
      break; 
      }
    case VTK_FLOAT:
      {
      DanielssonDistanceMapRunner<float> runner;
      runner.Execute( info, pds );
      break; 
      }
    case VTK_DOUBLE:
      {
      DanielssonDistanceMapRunner<double> runner;
      runner.Execute( info, pds );
      break; 
      }
    }
  }
  catch( itk::ExceptionObject & except )
  {
    info->SetProperty( info, VVP_ERROR, except.what() ); 
    return -1;
  }
  return 0;
}


static int UpdateGUI(void *inf)
{
  vtkVVPluginInfo *info = (vtkVVPluginInfo *)inf;

  info->SetProperty(info, VVP_REQUIRED_Z_OVERLAP, "0");
  
  info->OutputVolumeScalarType = VTK_UNSIGNED_SHORT;
  info->OutputVolumeNumberOfComponents = info->InputVolumeNumberOfComponents;

  memcpy(info->OutputVolumeDimensions,info->InputVolumeDimensions,
         3*sizeof(int));
  memcpy(info->OutputVolumeSpacing,info->InputVolumeSpacing,
         3*sizeof(float));
  memcpy(info->OutputVolumeOrigin,info->InputVolumeOrigin,
         3*sizeof(float));


  return 1;
}


extern "C" {
  
void VV_PLUGIN_EXPORT vvITKDanielssonDistanceMapInit(vtkVVPluginInfo *info)
{
  vvPluginVersionCheck();

  // setup information that never changes
  info->ProcessData = ProcessData;
  info->UpdateGUI   = UpdateGUI;
  info->SetProperty(info, VVP_NAME, "Distance Map (ITK)");
  info->SetProperty(info, VVP_GROUP, "Utility");
  info->SetProperty(info, VVP_TERSE_DOCUMENTATION,
                                "Distance Map Transform");
  info->SetProperty(info, VVP_FULL_DOCUMENTATION,
    "This filters computes a Distance map from a binary image using the Danielsson algorithm");
  info->SetProperty(info, VVP_SUPPORTS_IN_PLACE_PROCESSING, "0");
  info->SetProperty(info, VVP_SUPPORTS_PROCESSING_PIECES,   "0");
  info->SetProperty(info, VVP_NUMBER_OF_GUI_ITEMS,          "0");
  info->SetProperty(info, VVP_REQUIRED_Z_OVERLAP,           "0");
  info->SetProperty(info, VVP_PER_VOXEL_MEMORY_REQUIRED,    "2"); 
  info->SetProperty(info, VVP_REQUIRES_SERIES_INPUT,        "0");
  info->SetProperty(info, VVP_SUPPORTS_PROCESSING_SERIES_BY_VOLUMES, "0");
  info->SetProperty(info, VVP_PRODUCES_OUTPUT_SERIES, "0");
  info->SetProperty(info, VVP_PRODUCES_PLOTTING_OUTPUT, "0");

  info->OutputVolumeScalarType = VTK_UNSIGNED_SHORT;
}

}