#include <itkImage.h>
#include <itkImageToVTKImageFilter.h>
-#include <itkImageFileReader.h>
-#include <itkMinimumMaximumImageCalculator.h>
-#include <itkShiftScaleImageFilter.h>
-
#include <itkSignedMaurerDistanceMapImageFilter.h>
-#include <itkImageFileWriter.h>
+#include <vtkOutlineSource.h>
-#include <fpa/Image/DijkstraWithEndPointDetection.h>
#include <fpa/Base/Functors/InvertCostFunction.h>
-#include <fpa/VTK/ImageMPR.h>
+#include <fpa/Image/DijkstraWithEndPointDetection.h>
#include <fpa/VTK/Image3DObserver.h>
+#include <fpa/IO/MinimumSpanningTreeWriter.h>
+#include <fpa/IO/UniqueValuesContainerWriter.h>
+#include <fpa/IO/MatrixValuesContainerWriter.h>
+#include <fpa/VTK/UniqueVerticesToPolyDataFilter.h>
-/*
- #include <itkMinimumMaximumImageCalculator.h>
- #include <itkInvertIntensityImageFilter.h>
- #include <itkDanielssonDistanceMapImageFilter.h>
- #include <itkImageFileWriter.h>
-
- #include <vtkCamera.h>
- #include <vtkImageActor.h>
- #include <vtkInteractorStyleImage.h>
- #include <vtkPointHandleRepresentation3D.h>
- #include <vtkProperty.h>
- #include <vtkRenderer.h>
- #include <vtkRenderWindow.h>
- #include <vtkRenderWindowInteractor.h>
- #include <vtkSeedRepresentation.h>
- #include <vtkSeedWidget.h>
- #include <vtkSmartPointer.h>
-
- #include <fpa/Image/Dijkstra.h>
-*/
+#include "fpa_Utility.h"
// -------------------------------------------------------------------------
const unsigned int Dim = 3;
typedef unsigned char TPixel;
typedef float TScalar;
-
-typedef itk::Image< TPixel, Dim > TImage;
-typedef itk::Image< TScalar, Dim > TScalarImage;
-typedef itk::ImageToVTKImageFilter< TImage > TVTKInputImage;
-
-// -------------------------------------------------------------------------
-template< class I >
-void ReadImage( typename I::Pointer& image, const std::string& filename );
-
-template< class I, class O >
-void DistanceMap(
- const typename I::Pointer& input, typename O::Pointer& output
- );
+typedef itk::Image< TPixel, Dim > TImage;
+typedef itk::Image< TScalar, Dim > TScalarImage;
// -------------------------------------------------------------------------
int main( int argc, char* argv[] )
{
- if( argc < 2 )
+ if( argc < 7 )
{
std::cerr
- << "Usage: " << argv[ 0 ]
- << " input_image"
+ << "Usage: " << argv[ 0 ] << std::endl
+ << "\tinput_image" << std::endl
+ << "\toutput_labels" << std::endl
+ << "\toutput_minimum_spanning_tree" << std::endl
+ << "\toutput_endpoints" << std::endl
+ << "\toutput_bifurcations" << std::endl
+ << "\toutput_branches" << std::endl
<< std::endl;
return( 1 );
} // fi
std::string input_image_fn = argv[ 1 ];
+ std::string output_labels_fn = argv[ 2 ];
+ std::string output_minimum_spanning_tree_fn = argv[ 3 ];
+ std::string output_endpoints_fn = argv[ 4 ];
+ std::string output_bifurcations_fn = argv[ 5 ];
+ std::string output_branches_fn = argv[ 6 ];
// Read image
TImage::Pointer input_image;
- try
- {
- ReadImage< TImage >( input_image, input_image_fn );
- }
- catch( itk::ExceptionObject& err )
+ std::string err = fpa_Utility::ReadImage( input_image, input_image_fn );
+ if( err != "" )
{
- std::cerr
- << "Error caught while reading \""
- << input_image_fn << "\": " << err
- << std::endl;
+ std::cerr << err << std::endl;
return( 1 );
- } // yrt
- TVTKInputImage::Pointer vtk_input_image = TVTKInputImage::New( );
+ } // fi
+
+ // Show image and wait for, at least, one seed
+ itk::ImageToVTKImageFilter< TImage >::Pointer vtk_input_image =
+ itk::ImageToVTKImageFilter< TImage >::New( );
vtk_input_image->SetInput( input_image );
vtk_input_image->Update( );
- // Show input image and let some interaction
- fpa::VTK::ImageMPR view;
- view.SetBackground( 0.3, 0.2, 0.8 );
- view.SetSize( 800, 800 );
- view.SetImage( vtk_input_image->GetOutput( ) );
-
- // Allow some interaction and wait for, at least, one seed
- view.Render( );
- while( view.GetNumberOfSeeds( ) == 0 )
- view.Start( );
-
- // Get seed
- double p[ 3 ];
- view.GetSeed( 0, p );
- TImage::PointType pnt;
- TImage::IndexType seed;
- pnt[ 0 ] = TImage::PointType::ValueType( p[ 0 ] );
- pnt[ 1 ] = TImage::PointType::ValueType( p[ 1 ] );
- pnt[ 2 ] = TImage::PointType::ValueType( p[ 2 ] );
- input_image->TransformPhysicalPointToIndex( pnt, seed );
+ vtkSmartPointer<vtkOutlineSource> outline =
+ vtkSmartPointer<vtkOutlineSource>::New();
+ outline->SetBounds(vtk_input_image->GetOutput( )->GetBounds());
+
+ vtkSmartPointer<vtkPolyDataMapper> mapper =
+ vtkSmartPointer<vtkPolyDataMapper>::New( );
+ mapper->SetInputConnection( outline->GetOutputPort( ) );
+
+ vtkSmartPointer<vtkActor> actor =
+ vtkSmartPointer<vtkActor>::New( );
+ actor->SetMapper( mapper );
+ vtkSmartPointer<vtkRenderer> aRenderer =
+ vtkSmartPointer<vtkRenderer>::New();
+ vtkSmartPointer<vtkRenderWindow> renWin =
+ vtkSmartPointer<vtkRenderWindow>::New();
+ renWin->AddRenderer(aRenderer);
+
+ vtkSmartPointer<vtkRenderWindowInteractor> iren =
+ vtkSmartPointer<vtkRenderWindowInteractor>::New();
+ iren->SetRenderWindow(renWin);
+
+ aRenderer->AddActor( actor );
+iren->Initialize();
+ iren->Start();
+
+ /*
+ fpa_Utility::Viewer2DWithSeeds viewer;
+ viewer.SetImage( vtk_input_image->GetOutput( ) );
+ while( viewer.GetNumberOfSeeds( ) == 0 )
+ viewer.Start( );
+ */
// Compute squared distance map
- TScalarImage::Pointer dmap;
- DistanceMap< TImage, TScalarImage >( input_image, dmap );
+ itk::SignedMaurerDistanceMapImageFilter< TImage, TScalarImage >::Pointer
+ dmap =
+ itk::SignedMaurerDistanceMapImageFilter< TImage, TScalarImage >::New( );
+ dmap->SetInput( input_image );
+ dmap->SetBackgroundValue( TPixel( 0 ) );
+ dmap->InsideIsPositiveOn( );
+ dmap->SquaredDistanceOn( );
+ dmap->UseImageSpacingOn( );
+
+ std::time_t start, end;
+ std::time( &start );
+ dmap->Update( );
+ std::time( &end );
+ std::cout
+ << "Distance map time = "
+ << std::difftime( end, start )
+ << "s." << std::endl;
// Prepare cost conversion function
- typedef fpa::Base::Functors::InvertCostFunction< TScalar > TFunction;
- TFunction::Pointer function = TFunction::New( );
+ typedef fpa::Base::Functors::InvertCostFunction< TScalar > TCostFunction;
+ TCostFunction::Pointer cost_f = TCostFunction::New( );
// Prepare Dijkstra filter
- typedef fpa::Image::DijkstraWithEndPointDetection< TScalarImage, TScalarImage > TFilter;
+ typedef fpa::Image::
+ DijkstraWithEndPointDetection< TScalarImage, TScalarImage > TFilter;
TFilter::Pointer filter = TFilter::New( );
- filter->SetInput( dmap );
- filter->SetConversionFunction( function );
+ filter->SetInput( dmap->GetOutput( ) );
+ filter->SetConversionFunction( cost_f );
filter->SetNeighborhoodOrder( 2 );
filter->StopAtOneFrontOff( );
- filter->AddSeed( seed, TScalar( 0 ) );
+
+ // Associate seed
+ TImage::PointType pnt;
+ TImage::IndexType idx;
+ /*
+ viewer.GetSeed( pnt, 0 );
+ */
+ pnt[ 0 ] = 0.879066;
+ pnt[ 1 ] = -109.36591;
+ pnt[ 2 ] = 1942.480988;
+
+ if( input_image->TransformPhysicalPointToIndex( pnt, idx ) )
+ filter->AddSeed( idx, 0 );
// Prepare graphical debugger
typedef fpa::VTK::Image3DObserver< TFilter, vtkRenderWindow > TDebugger;
TDebugger::Pointer debugger = TDebugger::New( );
- debugger->SetRenderWindow( view.GetWindow( ) );
+ debugger->SetRenderWindow( renWin );
debugger->SetRenderPercentage( 0.0001 );
filter->AddObserver( itk::AnyEvent( ), debugger );
filter->ThrowEventsOn( );
// Go!
- std::clock_t start = std::clock( );
+ std::time( &start );
filter->Update( );
- std::clock_t end = std::clock( );
+ std::time( &end );
std::cout
<< "Extraction time = "
- << ( double( end - start ) / double( CLOCKS_PER_SEC ) )
- << " s." << std::endl;
-
- /* TODO
- // Save final total cost map
- itk::ImageFileWriter< TOutputImage >::Pointer output_image_writer =
- itk::ImageFileWriter< TOutputImage >::New( );
- output_image_writer->SetFileName( output_image_fn );
- output_image_writer->SetInput( filter->GetOutput( ) );
- try
- {
- output_image_writer->Update( );
- }
- catch( itk::ExceptionObject& err )
- {
- std::cerr
- << "Error while writing image to " << output_image_fn << ": "
- << err << std::endl;
- return( 1 );
+ << std::difftime( end, start )
+ << "s." << std::endl;
+
+ // Create new actors
+ typedef vtkSmartPointer< fpa::VTK::UniqueVerticesToPolyDataFilter< TFilter::TUniqueVertices, TFilter::TInputImage > > TVertices2PD;
+
+ TVertices2PD endpoints2pd = TVertices2PD::New( );
+ endpoints2pd->SetInput( filter->GetEndPoints( ) );
+ endpoints2pd->SetImage( filter->GetInput( ) );
+ endpoints2pd->Update( );
+
+ vtkSmartPointer< vtkPolyDataMapper > endpoints_mapper =
+ vtkSmartPointer< vtkPolyDataMapper >::New( );
+ endpoints_mapper->SetInputConnection( endpoints2pd->GetOutputPort( ) );
+
+ vtkSmartPointer< vtkActor > endpoints_actor =
+ vtkSmartPointer< vtkActor >::New( );
+ endpoints_actor->SetMapper( endpoints_mapper );
+ endpoints_actor->GetProperty( )->SetColor( 0, 1, 0 );
+ endpoints_actor->GetProperty( )->SetPointSize( 5 );
+ aRenderer->AddActor( endpoints_actor );
+
+ TVertices2PD bifurcations2pd = TVertices2PD::New( );
+ bifurcations2pd->SetInput( filter->GetBifurcations( ) );
+ bifurcations2pd->SetImage( filter->GetInput( ) );
+ bifurcations2pd->Update( );
+
+ vtkSmartPointer< vtkPolyDataMapper > bifurcations_mapper =
+ vtkSmartPointer< vtkPolyDataMapper >::New( );
+ bifurcations_mapper->SetInputConnection( bifurcations2pd->GetOutputPort( ) );
+
+ vtkSmartPointer< vtkActor > bifurcations_actor =
+ vtkSmartPointer< vtkActor >::New( );
+ bifurcations_actor->SetMapper( bifurcations_mapper );
+ bifurcations_actor->GetProperty( )->SetColor( 1, 0, 0 );
+ bifurcations_actor->GetProperty( )->SetPointSize( 5 );
+ aRenderer->AddActor( bifurcations_actor );
+
+ // Some more interaction and finish
+iren->Initialize();
+ iren->Start();
+
+ // Save results
+ err = fpa_Utility::SaveImage( filter->GetLabelImage( ), output_labels_fn );
+ if( err != "" )
+ std::cerr << err << std::endl;
+
+ fpa::IO::MinimumSpanningTreeWriter< TFilter::TMinimumSpanningTree >::Pointer
+ mst_writer =
+ fpa::IO::MinimumSpanningTreeWriter< TFilter::TMinimumSpanningTree >::New( );
+ mst_writer->SetInput( filter->GetMinimumSpanningTree( ) );
+ mst_writer->SetFileName( output_minimum_spanning_tree_fn );
+ mst_writer->Update( );
+
+ fpa::IO::UniqueValuesContainerWriter< TFilter::TUniqueVertices >::Pointer
+ endpoints_writer =
+ fpa::IO::UniqueValuesContainerWriter< TFilter::TUniqueVertices >::New( );
+ endpoints_writer->SetInput( filter->GetEndPoints( ) );
+ endpoints_writer->SetFileName( output_endpoints_fn );
+ endpoints_writer->Update( );
+
+ fpa::IO::UniqueValuesContainerWriter< TFilter::TUniqueVertices >::Pointer
+ bifurcations_writer =
+ fpa::IO::UniqueValuesContainerWriter< TFilter::TUniqueVertices >::New( );
+ bifurcations_writer->SetInput( filter->GetBifurcations( ) );
+ bifurcations_writer->SetFileName( output_bifurcations_fn );
+ bifurcations_writer->Update( );
+
+ fpa::IO::MatrixValuesContainerWriter< TFilter::TBranches >::Pointer
+ branches_writer =
+ fpa::IO::MatrixValuesContainerWriter< TFilter::TBranches >::New( );
+ branches_writer->SetInput( filter->GetBranches( ) );
+ branches_writer->SetFileName( output_branches_fn );
+ branches_writer->Update( );
- } // yrt
- */
return( 0 );
}
-// -------------------------------------------------------------------------
-template< class I >
-void ReadImage( typename I::Pointer& image, const std::string& filename )
-{
- typename itk::ImageFileReader< I >::Pointer reader =
- itk::ImageFileReader< I >::New( );
- reader->SetFileName( filename );
- reader->Update( );
-
- typename itk::MinimumMaximumImageCalculator< I >::Pointer minmax =
- itk::MinimumMaximumImageCalculator< I >::New( );
- minmax->SetImage( reader->GetOutput( ) );
- minmax->Compute( );
- double vmin = double( minmax->GetMinimum( ) );
- double vmax = double( minmax->GetMaximum( ) );
-
- typename itk::ShiftScaleImageFilter< I, I >::Pointer shift =
- itk::ShiftScaleImageFilter< I, I >::New( );
- shift->SetInput( reader->GetOutput( ) );
- shift->SetScale( vmax - vmin );
- shift->SetShift( vmin / ( vmax - vmin ) );
- shift->Update( );
-
- image = shift->GetOutput( );
- image->DisconnectPipeline( );
-}
-
-// -------------------------------------------------------------------------
-template< class I, class O >
-void DistanceMap(
- const typename I::Pointer& input, typename O::Pointer& output
- )
-{
- typename itk::SignedMaurerDistanceMapImageFilter< I, O >::Pointer dmap =
- itk::SignedMaurerDistanceMapImageFilter< I, O >::New( );
- dmap->SetInput( input );
- dmap->SetBackgroundValue( ( typename I::PixelType )( 0 ) );
- dmap->InsideIsPositiveOn( );
- dmap->SquaredDistanceOn( );
- dmap->UseImageSpacingOn( );
-
- std::clock_t start = std::clock( );
- dmap->Update( );
- std::clock_t end = std::clock( );
- std::cout
- << "Distance map time = "
- << ( double( end - start ) / double( CLOCKS_PER_SEC ) )
- << " s." << std::endl;
+// eof - $RCSfile$
- output = dmap->GetOutput( );
- output->DisconnectPipeline( );
-}
+/* TODO
+ vtkSmartPointer< vtkPoints > simple_branches_points =
+ vtkSmartPointer< vtkPoints >::New( );
+ vtkSmartPointer< vtkCellArray > simple_branches_cells =
+ vtkSmartPointer< vtkCellArray >::New( );
+
+ vtkSmartPointer< vtkPoints > detailed_branches_points =
+ vtkSmartPointer< vtkPoints >::New( );
+ vtkSmartPointer< vtkCellArray > detailed_branches_cells =
+ vtkSmartPointer< vtkCellArray >::New( );
+ vtkSmartPointer< vtkFloatArray > detailed_branches_scalars =
+ vtkSmartPointer< vtkFloatArray >::New( );
+
+ TFilter::TBranches::ConstIterator brIt = branches->Begin( );
+ for( ; brIt != branches->End( ); ++brIt )
+ {
+ // Branch's first point
+ TImage::PointType first_point;
+ input_image->TransformIndexToPhysicalPoint( brIt->first, first_point );
+ unsigned long first_id = simple_branches_points->GetNumberOfPoints( );
+ simple_branches_points->InsertNextPoint(
+ first_point[ 0 ], first_point[ 1 ], first_point[ 2 ]
+ );
+
+ TFilter::TBranches::ConstRowIterator brRowIt = branches->Begin( brIt );
+ for( ; brRowIt != branches->End( brIt ); ++brRowIt )
+ {
+ // Branch's second point
+ TImage::PointType second_point;
+ input_image->
+ TransformIndexToPhysicalPoint( brRowIt->first, second_point );
+ unsigned long second_id = simple_branches_points->GetNumberOfPoints( );
+ simple_branches_points->InsertNextPoint(
+ second_point[ 0 ], second_point[ 1 ], second_point[ 2 ]
+ );
+ simple_branches_cells->InsertNextCell( 2 );
+ simple_branches_cells->InsertCellPoint( first_id );
+ simple_branches_cells->InsertCellPoint( second_id );
+
+ // Detailed path
+ double pathId = double( brRowIt->second - 1 ) / double( nBranches - 1 );
+ TFilter::TVertices path;
+ mst->GetPath( path, brIt->first, brRowIt->first );
+ TFilter::TVertices::const_iterator pIt = path.begin( );
+ for( ; pIt != path.end( ); ++pIt )
+ {
+ TImage::PointType path_point;
+ input_image->TransformIndexToPhysicalPoint( *pIt, path_point );
+ detailed_branches_points->InsertNextPoint(
+ path_point[ 0 ], path_point[ 1 ], path_point[ 2 ]
+ );
+ detailed_branches_scalars->InsertNextTuple1( pathId );
+ if( pIt != path.begin( ) )
+ {
+ unsigned long nPoints =
+ detailed_branches_points->GetNumberOfPoints( );
+ detailed_branches_cells->InsertNextCell( 2 );
+ detailed_branches_cells->InsertCellPoint( nPoints - 2 );
+ detailed_branches_cells->InsertCellPoint( nPoints - 1 );
+
+ } // fi
+
+ } // rof
+
+ } // rof
+
+ } // rof
+ vtkSmartPointer< vtkPolyData > simple_branches_polydata =
+ vtkSmartPointer< vtkPolyData >::New( );
+ simple_branches_polydata->SetPoints( simple_branches_points );
+ simple_branches_polydata->SetLines( simple_branches_cells );
+ view.AddPolyData( simple_branches_polydata, 1, 0, 1, 1 );
+
+ vtkSmartPointer< vtkPolyData > detailed_branches_polydata =
+ vtkSmartPointer< vtkPolyData >::New( );
+ detailed_branches_polydata->SetPoints( detailed_branches_points );
+ detailed_branches_polydata->SetLines( detailed_branches_cells );
+ detailed_branches_polydata->
+ GetPointData( )->SetScalars( detailed_branches_scalars );
+ view.AddPolyData( detailed_branches_polydata, 1 );
+
+ // Let some more interaction
+ view.Render( );
+ view.Start( );
+
+ return( 0 );
+ }
+*/
// eof - $RCSfile$