More and more tests

[FrontAlgorithms.git] / appli / examples / example_ImageAlgorithmDijkstra_03.cxx

diff --git a/appli/examples/example_ImageAlgorithmDijkstra_03.cxx b/appli/examples/example_ImageAlgorithmDijkstra_03.cxx
index 11fa961e078b81c35c49dca1e94fbd2be91eb12e..0de81262791453d8f802238ce15b6ebbb3e37385 100644 (file)
--- a/appli/examples/example_ImageAlgorithmDijkstra_03.cxx
+++ b/appli/examples/example_ImageAlgorithmDijkstra_03.cxx
@@ -14,260 +14,33 @@
 #include <itkImageFileWriter.h>
 #include <itkImageToVTKImageFilter.h>
 
+#include <itkMinimumMaximumImageCalculator.h>
+#include <itkInvertIntensityImageFilter.h>
+
 #include <vtkPoints.h>
 #include <vtkCellArray.h>
+#include <vtkFloatArray.h>
 #include <vtkPolyData.h>
 #include <vtkSmartPointer.h>
+#include <vtkImageMarchingCubes.h>
 
-#include <fpa/Base/Functors/InvertCostFunction.h>
-#include <fpa/Image/Dijkstra.h>
-#include <fpa/Image/RegionGrowWithMultipleThresholds.h>
+#include <fpa/Image/DijkstraWithSphereBacktracking.h>
 #include <fpa/VTK/ImageMPR.h>
 #include <fpa/VTK/Image3DObserver.h>
 
 // -------------------------------------------------------------------------
 const unsigned int Dim = 3;
-typedef double                               TPixel;
-typedef double                               TScalar;
+typedef float                                TPixel;
+typedef float                                TScalar;
 typedef itk::Image< TPixel, Dim >            TImage;
 typedef itk::ImageToVTKImageFilter< TImage > TVTKImage;
 
 typedef itk::ImageFileReader< TImage >          TImageReader;
-typedef itk::ImageFileWriter< TImage >          TImageWriter;
-typedef fpa::Image::Dijkstra< TImage, TScalar > TBaseDijkstra;
+typedef itk::ImageFileWriter< TImage >    TImageWriter;
+typedef fpa::Image::DijkstraWithSphereBacktracking< TImage, TScalar > TDijkstra;
 
 typedef fpa::VTK::ImageMPR TMPR;
-typedef fpa::VTK::Image3DObserver< TBaseDijkstra, vtkRenderWindow > TDijkstraObs;
-
-// -------------------------------------------------------------------------
-class TDijkstra
-  : public TBaseDijkstra
-{
-public:
-  typedef TDijkstra                       Self;
-  typedef TBaseDijkstra                   Superclass;
-  typedef itk::SmartPointer< Self >       Pointer;
-  typedef itk::SmartPointer< const Self > ConstPointer;
-
-  typedef Superclass::TCost          TCost;
-  typedef Superclass::TVertex        TVertex;
-  typedef Superclass::InputImageType TImage;
-  typedef std::deque< TVertex >      TVertices;
-
-protected:
-  typedef std::pair< TCost, TVertex >     _TCandidate;
-  typedef std::multimap< TCost, TVertex > _TCandidates;
-  typedef Superclass::_TNode _TNode;
-
-public:
-  itkNewMacro( Self );
-  itkTypeMacro( TDijkstra, TBaseDijkstra );
-
-protected:
-  TDijkstra( )
-    : Superclass( )
-    { }
-  virtual ~TDijkstra( )
-    { }
-
-  virtual void _BeforeMainLoop( )
-    {
-      const TImage* img = this->GetInput( );
-
-      // Correct seeds
-      TImage::SizeType radius;
-      radius.Fill( 3 );
-      itk::ConstNeighborhoodIterator< TImage > it(
-        radius, img, img->GetRequestedRegion( )
-        );
-      for( unsigned int s = 0; s < this->m_Seeds.size( ); ++s )
-      {
-        _TNode seed = this->m_Seeds[ s ];
-        it.SetLocation( seed.Vertex );
-
-        TImage::SizeType size = it.GetSize( );
-        unsigned int nN = 1;
-        for( unsigned int d = 0; d < TImage::ImageDimension; ++d )
-          nN *= size[ d ];
-        TImage::PixelType max_value = img->GetPixel( seed.Vertex );
-        for( unsigned int i = 0; i < nN; ++i )
-        {
-          if( it.GetPixel( i ) > max_value )
-          {
-            seed.Vertex = it.GetIndex( i );
-            seed.Parent = seed.Vertex;
-            max_value = it.GetPixel( i );
-
-          } // fi
-
-        } // rof
-        this->m_Seeds[ s ] = seed;
-
-      } // rof
-
-      // End initialization
-      this->Superclass::_BeforeMainLoop( );
-      this->m_Candidates.clear( );
-    }
-
-  virtual void _AfterMainLoop( )
-    {
-      typedef itk::Image< unsigned char, TImage::ImageDimension > _TMarkImage;
-
-      this->Superclass::_AfterMainLoop( );
-      if( this->m_Candidates.size( ) == 0 )
-        return;
-
-      const TImage* input = this->GetInput( );
-      TImage::SpacingType spacing = input->GetSpacing( );
-
-      _TMarkImage::Pointer marks = _TMarkImage::New( );
-      marks->SetLargestPossibleRegion( input->GetLargestPossibleRegion( ) );
-      marks->SetRequestedRegion( input->GetRequestedRegion( ) );
-      marks->SetBufferedRegion( input->GetBufferedRegion( ) );
-      marks->SetOrigin( input->GetOrigin( ) );
-      marks->SetSpacing( spacing );
-      marks->SetDirection( input->GetDirection( ) );
-      marks->Allocate( );
-      marks->FillBuffer( 0 );
-      
-      this->m_Axes = vtkSmartPointer< vtkPolyData >::New( );
-      vtkSmartPointer< vtkPoints > points =
-        vtkSmartPointer< vtkPoints >::New( );
-      vtkSmartPointer< vtkCellArray > lines =
-        vtkSmartPointer< vtkCellArray >::New( );
-
-      _TCandidates::const_reverse_iterator cIt =
-        this->m_Candidates.rbegin( );
-
-      for( unsigned long leo = 0; leo < 50 && cIt != this->m_Candidates.rend( ); ++cIt )
-      {
-        TVertex vIt = cIt->second;
-        if( marks->GetPixel( vIt ) != 0 )
-          continue;
-
-        leo++;
-        std::cout << "Leaf: " << leo << " " << cIt->first << " " << vIt << std::endl;
-        bool start = true;
-        do
-        {
-          double dist = double( input->GetPixel( vIt ) );
-        TImage::SizeType radius;
-          for( unsigned int d = 0; d < TImage::ImageDimension; ++d )
-            radius[ d ] =
-              ( unsigned long )( dist / spacing[ d ] ) + 1;
-          itk::NeighborhoodIterator< _TMarkImage > mIt(
-            radius, marks, marks->GetRequestedRegion( )
-            );
-          mIt.GoToBegin( );
-          mIt.SetLocation( vIt );
-
-          TImage::SizeType size = mIt.GetSize( );
-          unsigned int nN = 1;
-          for( unsigned int d = 0; d < TImage::ImageDimension; ++d )
-            nN *= size[ d ];
-          for( unsigned int i = 0; i < nN; ++i )
-            if( marks->GetRequestedRegion( ).IsInside( mIt.GetIndex( i ) ) )
-              mIt.SetPixel( i, ( start )? 255: 100 );
-
-          start = false;
-
-          // Next vertex
-          vIt = this->_Parent( vIt );
-
-        } while( vIt != this->_Parent( vIt ) );
-
-        // Last vertex
-        // std::cout << vIt << " " << this->GetSeed( 0 ) << std::endl;
-
-        /* TODO
-           TVertices pS;
-           TVertex parent = this->_Parent( vIt );
-           while( parent != vIt )
-           {
-           pS.push_front( vIt );
-           vIt = parent;
-           parent = this->_Parent( vIt );
-
-           TImage::PointType pnt;
-           this->GetInput( )->TransformIndexToPhysicalPoint( vIt, pnt );
-           points->InsertNextPoint( pnt[ 0 ], pnt[ 1 ], pnt[ 2 ] );
-           if( points->GetNumberOfPoints( ) > 1 )
-           {
-           lines->InsertNextCell( 2 );
-           lines->InsertCellPoint( points->GetNumberOfPoints( ) - 2 );
-           lines->InsertCellPoint( points->GetNumberOfPoints( ) - 1 );
-
-           } // fi
-
-           } // elihw
-           pS.push_front( vIt );
-           TImage::PointType pnt;
-           this->GetInput( )->TransformIndexToPhysicalPoint( vIt, pnt );
-           points->InsertNextPoint( pnt[ 0 ], pnt[ 1 ], pnt[ 2 ] );
-           if( points->GetNumberOfPoints( ) > 1 )
-           {
-           lines->InsertNextCell( 2 );
-           lines->InsertCellPoint( points->GetNumberOfPoints( ) - 2 );
-           lines->InsertCellPoint( points->GetNumberOfPoints( ) - 1 );
-
-           } // fi
-
-           this->m_Axes->SetPoints( points );
-           this->m_Axes->SetLines( lines );
-        */
-
-      } // rof
-
-      itk::ImageFileWriter< _TMarkImage >::Pointer w =
-        itk::ImageFileWriter< _TMarkImage >::New( );
-      w->SetInput( marks );
-      w->SetFileName( "marks.mhd" );
-      w->Update( );
-
-    }
-
-  virtual bool _UpdateNeigh( _TNode& nn, const _TNode& n )
-    {
-      TCost nc = this->_Cost( nn.Vertex, n.Vertex );
-      if( TCost( 0 ) < nc )
-      {
-        nn.Cost = n.Cost + ( TCost( 1 ) / nc );
-        nn.Result = nn.Cost;
-        return( true );
-      }
-      else
-        return( false );
-    }
-
-  virtual bool _UpdateResult( _TNode& n )
-    {
-      bool ret = this->Superclass::_UpdateResult( n );
-      if( ret )
-      {
-        TCost nc = this->_Cost( n.Vertex, n.Parent );
-        TCost nc2 = nc * nc * nc * nc;
-        if( TCost( 0 ) < nc2 )
-        {
-          n.Result = n.Cost / nc2;
-          this->GetOutput( )->SetPixel( n.Vertex, n.Result );
-          this->m_Candidates.insert( _TCandidate( n.Result, n.Vertex ) );
-
-        } // fi
-
-      } // fi
-      return( ret );
-    }
-
-private:
-  TDijkstra( const Self& other );
-  Self& operator=( const Self& other );
-
-protected:
-  _TCandidates m_Candidates;
-public:
-  vtkSmartPointer< vtkPolyData > m_Axes;
-};
+typedef fpa::VTK::Image3DObserver< TDijkstra, vtkRenderWindow > TDijkstraObs;
 
 // -------------------------------------------------------------------------
 int main( int argc, char* argv[] )
@@ -283,10 +56,10 @@ int main( int argc, char* argv[] )
 
   } // fi
   std::string input_image_fn = argv[ 1 ];
-  TImage::IndexType seed_idx;
-  seed_idx[ 0 ] = std::atoi( argv[ 2 ] );
-  seed_idx[ 1 ] = std::atoi( argv[ 3 ] );
-  seed_idx[ 2 ] = std::atoi( argv[ 4 ] );
+  TImage::PointType seed_pnt;
+  seed_pnt[ 0 ] = std::atof( argv[ 2 ] );
+  seed_pnt[ 1 ] = std::atof( argv[ 3 ] );
+  seed_pnt[ 2 ] = std::atof( argv[ 4 ] );
   std::string output_image_fn = argv[ 5 ];
   bool visual_debug = false;
   if( argc > 6 )
@@ -317,20 +90,35 @@ int main( int argc, char* argv[] )
   view.SetSize( 800, 800 );
   view.SetImage( vtk_image->GetOutput( ) );
 
+  vtkSmartPointer< vtkImageMarchingCubes > mc =
+    vtkSmartPointer< vtkImageMarchingCubes >::New( );
+  mc->SetInputData( vtk_image->GetOutput( ) );
+  mc->SetValue( 0, 1e-2 );
+  mc->Update( );
+  view.AddPolyData( mc->GetOutput( ), 1, 1, 1, 0.4 );
+
   // Allow some interaction
+  view.Render( );
   view.Start( );
 
+  TImage::IndexType seed_idx;
+  input_image->TransformPhysicalPointToIndex( seed_pnt, seed_idx );
+  std::cout << seed_idx << " " << seed_pnt << std::endl;
+  seed_idx[ 0 ] = 256;
+  seed_idx[ 1 ] = 313;
+  seed_idx[ 2 ] = 381;
+
   // Extract paths
   TDijkstra::Pointer paths = TDijkstra::New( );
   paths->AddSeed( seed_idx, TScalar( 0 ) );
   paths->SetInput( input_image );
-  paths->SetNeighborhoodOrder( 1 );
+  paths->SetNeighborhoodOrder( 2 );
 
   if( visual_debug )
   {
     // Configure observer
     TDijkstraObs::Pointer obs = TDijkstraObs::New( );
-    obs->SetImage( input_image, view.GetWindow( ) );
+    obs->SetRenderWindow( view.GetWindow( ) );
     paths->AddObserver( itk::AnyEvent( ), obs );
     paths->ThrowEventsOn( );
   }
@@ -342,49 +130,60 @@ int main( int argc, char* argv[] )
   double seconds = double( end - start ) / double( CLOCKS_PER_SEC );
   std::cout << "Paths extraction time = " << seconds << std::endl;
 
-  view.AddPolyData( paths->m_Axes, 1, 0, 0 );
-  view.Start( );
+  // Create polydata
+  vtkSmartPointer< vtkPoints > points =
+    vtkSmartPointer< vtkPoints >::New( );
+  vtkSmartPointer< vtkCellArray > cells =
+    vtkSmartPointer< vtkCellArray >::New( );
+  vtkSmartPointer< vtkFloatArray > scalars =
+    vtkSmartPointer< vtkFloatArray >::New( );
+
+  const TDijkstra::TVertices& endpoints = paths->GetEndPoints( );
+  const TDijkstra::TTree& tree = paths->GetFinalTree( );
+  TDijkstra::TVertices::const_iterator epIt = endpoints.begin( );
+  for( unsigned int epId = 0; epIt != endpoints.end( ); ++epIt, ++epId )
+  {
+    double pd = double( epId ) / double( endpoints.size( ) - 1 );
 
-  TImageWriter::Pointer dijkstra_writer =
-    TImageWriter::New( );
-  dijkstra_writer->SetInput( paths->GetOutput( ) );
-  dijkstra_writer->SetFileName( "dijkstra.mhd" );
-  dijkstra_writer->Update( );
+    TDijkstra::TVertex idx = *epIt;
+    do
+    {
+      TImage::PointType pnt;
+      input_image->TransformIndexToPhysicalPoint( idx, pnt );
 
-  // Show result
-  /*
-    TVTKImage::Pointer output_image_vtk = TVTKImage::New( );
-    output_image_vtk->SetInput( segmentor->GetOutput( ) );
-    output_image_vtk->Update( );
+      points->InsertNextPoint( pnt[ 0 ], pnt[ 1 ], pnt[ 2 ] );
+      scalars->InsertNextTuple1( pd );
+      if( idx != *epIt )
+      {
+        cells->InsertNextCell( 2 );
+        cells->InsertCellPoint( points->GetNumberOfPoints( ) - 2 );
+        cells->InsertCellPoint( points->GetNumberOfPoints( ) - 1 );
 
-    vtkSmartPointer< vtkImageMarchingCubes > mc =
-    vtkSmartPointer< vtkImageMarchingCubes >::New( );
-    mc->SetInputData( output_image_vtk->GetOutput( ) );
-    mc->SetValue(
-    0,
-    double( segmentor->GetInsideValue( ) ) * double( 0.95 )
-    );
-    mc->Update( );
+      } // fi
+      idx = tree.find( idx )->second;
 
-    // Let some interaction and close program
-    view.AddPolyData( mc->GetOutput( ), 0.1, 0.6, 0.8, 0.5 );
-    view.Start( );
+    } while( idx != tree.find( idx )->second );
 
-    // Write resulting image
-    TImageWriter::Pointer output_image_writer = TImageWriter::New( );
-    output_image_writer->SetInput( segmentor->GetOutput( ) );
-    output_image_writer->SetFileName( output_image_fn );
-    try
-    {
-    output_image_writer->Update( );
-    }
-    catch( itk::ExceptionObject& err )
-    {
-    std::cerr << "Error caught: " << err << std::endl;
-    return( 1 );
+  } // rof
 
-    } // yrt
+  vtkSmartPointer< vtkPolyData > vtk_tree =
+    vtkSmartPointer< vtkPolyData >::New( );
+  vtk_tree->SetPoints( points );
+  vtk_tree->SetLines( cells );
+  vtk_tree->GetPointData( )->SetScalars( scalars );
+
+  view.AddPolyData( vtk_tree );
+  view.Render( );
+  view.Start( );
+
+  /* TODO
+     TImageWriter::Pointer dijkstra_writer =
+     TImageWriter::New( );
+     dijkstra_writer->SetInput( paths->GetOutput( ) );
+     dijkstra_writer->SetFileName( "dijkstra.mhd" );
+     dijkstra_writer->Update( );
   */
+
   return( 0 );
 }