X-Git-Url: https://git.creatis.insa-lyon.fr/pubgit/?a=blobdiff_plain;f=appli%2Fexamples%2Fexample_ImageAlgorithmDijkstra_03.cxx;h=9f529f1d3966cb94a0f1865638fb71f8cab77f04;hb=8480ad8f9b3e3b556aa8f3f25ff07daf1db6dc78;hp=613378b2c1e8db3a6aa130b99334e24a9ce9fce9;hpb=52239e1c93355a6543e6f1c9357cfc86d11b9218;p=FrontAlgorithms.git

diff --git a/appli/examples/example_ImageAlgorithmDijkstra_03.cxx b/appli/examples/example_ImageAlgorithmDijkstra_03.cxx
index 613378b..9f529f1 100644
--- a/appli/examples/example_ImageAlgorithmDijkstra_03.cxx
+++ b/appli/examples/example_ImageAlgorithmDijkstra_03.cxx
@@ -1,7 +1,9 @@
 #include <cmath>
 #include <ctime>
 #include <deque>
+#include <fstream>
 #include <iostream>
+#include <iomanip>
 #include <limits>
 #include <map>
 #include <string>
@@ -44,14 +46,27 @@ typedef fpa::Image::DijkstraWithSphereBacktracking< TImage, TScalar > TDijkstra;
 typedef fpa::VTK::ImageMPR TMPR;
 typedef fpa::VTK::Image3DObserver< TDijkstra, vtkRenderWindow > TDijkstraObs;
 
+struct TBranch
+{
+  double Length;
+  TImage::PointType::VectorType V1;
+  TImage::PointType::VectorType V2;
+
+  bool operator<( const TBranch& other ) const
+    {
+      return( other.Length < this->Length );
+    }
+};
+typedef std::multiset< TBranch > TBranches;
+
 // -------------------------------------------------------------------------
 int main( int argc, char* argv[] )
 {
-  if( argc < 6 )
+  if( argc < 8 )
   {
     std::cerr
       << "Usage: " << argv[ 0 ]
-      << " input_image x y z output_image"
+      << " input_image x y z output_image output_imagej output_vtk"
       << " visual_debug"
       << std::endl;
     return( 1 );
@@ -63,9 +78,11 @@ int main( int argc, char* argv[] )
   seed_pnt[ 1 ] = std::atof( argv[ 3 ] );
   seed_pnt[ 2 ] = std::atof( argv[ 4 ] );
   std::string output_image_fn = argv[ 5 ];
+  std::string output_imagej_fn = argv[ 6 ];
+  std::string output_vtk_fn = argv[ 7 ];
   bool visual_debug = false;
-  if( argc > 6 )
-    visual_debug = ( std::atoi( argv[ 6 ] ) == 1 );
+  if( argc > 8 )
+    visual_debug = ( std::atoi( argv[ 8 ] ) == 1 );
 
   // Read image
   TImageReader::Pointer input_image_reader = TImageReader::New( );
@@ -92,23 +109,28 @@ 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 );
+  /* TODO
+     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( );
+  if( visual_debug )
+    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;
+  /* TODO
+     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( );
@@ -140,36 +162,112 @@ int main( int argc, char* argv[] )
   vtkSmartPointer< vtkFloatArray > scalars =
     vtkSmartPointer< vtkFloatArray >::New( );
 
+  TDijkstra::TMarkImage::Pointer new_marks = TDijkstra::TMarkImage::New( );
+  new_marks->SetLargestPossibleRegion( input_image->GetLargestPossibleRegion( ) );
+  new_marks->SetRequestedRegion( input_image->GetRequestedRegion( ) );
+  new_marks->SetBufferedRegion( input_image->GetBufferedRegion( ) );
+  new_marks->SetOrigin( input_image->GetOrigin( ) );
+  new_marks->SetSpacing( input_image->GetSpacing( ) );
+  new_marks->SetDirection( input_image->GetDirection( ) );
+  new_marks->Allocate( );
+  new_marks->FillBuffer( 0 );
+
   const TDijkstra::TMarkImage* marks = paths->GetOutputMarkImage( );
   TDijkstra::TMark max_mark = paths->GetNumberOfBranches( );
   const TDijkstra::TVertices& endpoints = paths->GetEndPoints( );
-  const TDijkstra::TTree& tree = paths->GetFinalTree( );
+  const TDijkstra::TVertices& bifurcations = paths->GetBifurcationPoints( );
+  const TDijkstra::TTree& tree = paths->GetFullTree( );
+  const TDijkstra::TTree& reduced_tree = paths->GetReducedTree( );
   TDijkstra::TVertices::const_iterator epIt = endpoints.begin( );
-  for( unsigned int epId = 0; epIt != endpoints.end( ); ++epIt, ++epId )
+
+  TBranches branches;
+  TImage::PointType ori = input_image->GetOrigin( );
+
+  TDijkstra::TTree::const_iterator rIt = reduced_tree.begin( );
+  for( ; rIt != reduced_tree.end( ); ++rIt )
   {
-    TDijkstra::TVertex idx = *epIt;
+    TDijkstra::TTree::const_iterator tIt = tree.find( rIt->first );
+
+    // Prepare branch "a la ImageJ"
+    TBranch branch;
+    TImage::PointType p1, p2;
+    input_image->TransformIndexToPhysicalPoint( rIt->second.first, p1 );
+    input_image->TransformIndexToPhysicalPoint( rIt->first, p2 );
+    branch.V1 = p1 - ori;
+    branch.V2 = p2 - ori;
+    branch.Length = double( 0 );
+      
+    double pd =
+      ( double( tIt->second.second ) - double( 1 ) ) /
+      ( double( max_mark ) - double( 1 ) );
+    bool start = true;
+    TImage::PointType prev;
     do
     {
+      TDijkstra::TVertex idx = tIt->first;
+      new_marks->SetPixel( idx, 255 );
       TImage::PointType pnt;
       input_image->TransformIndexToPhysicalPoint( idx, pnt );
-
-      TDijkstra::TMark mark = marks->GetPixel( idx );
-      double pd = double( mark );
-
       points->InsertNextPoint( pnt[ 0 ], pnt[ 1 ], pnt[ 2 ] );
       scalars->InsertNextTuple1( pd );
-      if( idx != *epIt )
+      if( !start )
       {
         cells->InsertNextCell( 2 );
         cells->InsertCellPoint( points->GetNumberOfPoints( ) - 2 );
         cells->InsertCellPoint( points->GetNumberOfPoints( ) - 1 );
+        branch.Length += prev.EuclideanDistanceTo( pnt );
 
       } // fi
-      idx = tree.find( idx )->second;
+      start = false;
+      prev = pnt;
+      tIt = tree.find( tIt->second.first );
+
+    } while( tIt->first != rIt->second.first );
+
+    // Last point
+    TDijkstra::TVertex idx = tIt->first;
+    new_marks->SetPixel( idx, 255 );
+    TImage::PointType pnt;
+    input_image->TransformIndexToPhysicalPoint( idx, pnt );
+    points->InsertNextPoint( pnt[ 0 ], pnt[ 1 ], pnt[ 2 ] );
+    scalars->InsertNextTuple1( pd );
+    if( !start )
+    {
+      cells->InsertNextCell( 2 );
+      cells->InsertCellPoint( points->GetNumberOfPoints( ) - 2 );
+      cells->InsertCellPoint( points->GetNumberOfPoints( ) - 1 );
+      branch.Length += prev.EuclideanDistanceTo( pnt );
+
+    } // fi
+    branches.insert( branch );
+
+  } // rof
+
+  std::ofstream bout( output_imagej_fn.c_str( ) );
+  if( !bout )
+  {
+    std::cerr << "Error: could not open " << output_imagej_fn << std::endl;
+    return( 1 );
 
-    } while( idx != tree.find( idx )->second );
+  } // fi
+  int i = 1;
+  for( TBranches::const_iterator bIt = branches.begin( ); bIt != branches.end( ); ++bIt, ++i )
+  {
+    bout
+      << std::setiosflags( std::ios::fixed) << std::setprecision( 3 )
+      << i << "\t1.000\t"
+      << bIt->Length << "\t"
+      << bIt->V1[ 0 ] << "\t"
+      << bIt->V1[ 1 ] << "\t"
+      << bIt->V1[ 2 ] << "\t"
+      << bIt->V2[ 0 ] << "\t"
+      << bIt->V2[ 1 ] << "\t"
+      << bIt->V2[ 2 ] << "\t"
+      << ( bIt->V2 - bIt->V1 ).GetNorm( )
+      << std::endl;
 
   } // rof
+  bout.close( );
 
   vtkSmartPointer< vtkPolyData > vtk_tree =
     vtkSmartPointer< vtkPolyData >::New( );
@@ -177,35 +275,28 @@ int main( int argc, char* argv[] )
   vtk_tree->SetLines( cells );
   vtk_tree->GetPointData( )->SetScalars( scalars );
 
-  vtkSmartPointer<vtkLookupTable> lut =
-    vtkSmartPointer<vtkLookupTable>::New( );
-  lut->SetNumberOfTableValues( max_mark + 1 );
-  lut->SetTableRange( 0, max_mark );
-  lut->Build( );
-
-  view.AddPolyData( vtk_tree, lut );
+  view.AddPolyData( vtk_tree );
   view.Render( );
-  view.Start( );
+  if( visual_debug )
+    view.Start( );
 
   vtkSmartPointer< vtkPolyDataWriter > writer =
     vtkSmartPointer< vtkPolyDataWriter >::New( );
   writer->SetInputData( vtk_tree );
-  writer->SetFileName( output_image_fn.c_str( ) );
+  writer->SetFileName( output_vtk_fn.c_str( ) );
   writer->Update( );
 
   itk::ImageFileWriter< TDijkstra::TMarkImage >::Pointer marks_writer =
     itk::ImageFileWriter< TDijkstra::TMarkImage >::New( );
-  marks_writer->SetInput( marks );
-  marks_writer->SetFileName( "marks.mhd" );
+  marks_writer->SetInput( new_marks );
+  marks_writer->SetFileName( output_image_fn );
   marks_writer->Update( );
 
-  /* TODO
-     TImageWriter::Pointer dijkstra_writer =
-     TImageWriter::New( );
-     dijkstra_writer->SetInput( paths->GetOutput( ) );
-     dijkstra_writer->SetFileName( "dijkstra.mhd" );
-     dijkstra_writer->Update( );
-  */
+  TImageWriter::Pointer dijkstra_writer =
+    TImageWriter::New( );
+  dijkstra_writer->SetInput( paths->GetOutput( ) );
+  dijkstra_writer->SetFileName( "dijkstra.mhd" );
+  dijkstra_writer->Update( );
 
   return( 0 );
 }