-double MeasureTime( itk::ProcessObject* f )
-{
- std::chrono::time_point< std::chrono::high_resolution_clock > s, e;
- std::chrono::duration< double > t;
- s = std::chrono::high_resolution_clock::now( );
- f->Update( );
- e = std::chrono::high_resolution_clock::now( );
- t = e - s;
- return( t.count( ) );
-}
-
-// -------------------------------------------------------------------------
-template< class _TImagePtr >
-void ReadImage( _TImagePtr& image, const std::string& fname )
-{
- typedef typename _TImagePtr::ObjectType _TImage;
- typedef itk::ImageFileReader< _TImage > _TReader;
- typename _TReader::Pointer reader = _TReader::New( );
- reader->SetFileName( fname );
- double t = MeasureTime( reader );
- std::cout << "Read " << fname << " in " << t << " s" << std::endl;
- image = reader->GetOutput( );
- image->DisconnectPipeline( );
-}
-
-// -------------------------------------------------------------------------
-template< class _TImagePtr >
-void WriteImage( const _TImagePtr& image, const std::string& fname )
-{
- typedef typename _TImagePtr::ObjectType _TImage;
- typedef itk::ImageFileWriter< _TImage > _TWriter;
- typename _TWriter::Pointer writer = _TWriter::New( );
- writer->SetFileName( fname );
- writer->SetInput( image );
- double t = MeasureTime( writer );
- std::cout << "Wrote " << fname << " in " << t << " s" << std::endl;
-}
-
-// -------------------------------------------------------------------------
-template< class _TInputPtr, class _TOutputPtr >
-void Mori( _TOutputPtr& output, const _TInputPtr& input )
-{
- typedef typename _TInputPtr::ObjectType _TInput;
- typedef typename _TOutputPtr::ObjectType _TOutput;
- typedef fpa::Filters::Image::Mori< _TInput, _TOutput > _TMori;
-
- typename _TMori::Pointer mori = _TMori::New( );
- mori->SetInput( input );
- mori->SetSeed( global_seed );
- mori->SetInsideValue( inside_value );
- mori->SetOutsideValue( outside_value );
- mori->SetMinimumThreshold(
- TInputPixel( std::atof( Args[ "mori_minimum_threshold" ].c_str( ) ) )
- );
- mori->SetSignalKernelSize(
- std::atoi( Args[ "mori_signal_kernel_size" ].c_str( ) )
- );
- mori->SetSignalThreshold(
- std::atof( Args[ "mori_signal_threshold" ].c_str( ) )
- );
- mori->SetSignalInfluence(
- std::atof( Args[ "mori_signal_influence" ].c_str( ) )
- );
- mori->SetThresholds(
- TInputPixel( std::atof( Args[ "mori_lower_threshold" ].c_str( ) ) ),
- TInputPixel( std::atof( Args[ "mori_upper_threshold" ].c_str( ) ) ),
- TInputPixel( std::atof( Args[ "mori_delta_threshold" ].c_str( ) ) )
- );
- double t = MeasureTime( mori );
- std::cout << "Mori executed in " << t << " s" << std::endl;
- output = mori->GetOutput( );
-
- TMap::const_iterator i = Args.find( "out_mori" );
- if( i != Args.end( ) )
- WriteImage( output, i->second );
-
- i = Args.find( "out_signal" );
- if( i != Args.end( ) )
- {
- std::stringstream signal;
- unsigned long nthr = mori->GetNumberOfEvaluatedThresholds( );
- signal << "# nThr = " << nthr << std::endl;
- signal << "# Opt = " << mori->GetOptimumThreshold( ) << std::endl;
- for( unsigned long j = 0; j < nthr; ++j )
- {
- typename _TMori::TPeak p;
- double x, y;
- mori->GetSignalValues( j, x, y, p );
- signal << x << " " << y << std::endl;
-
- } // rof
-
- std::ofstream signals_str( i->second.c_str( ) );
- signals_str << signal.str( );
- signals_str.close( );
-
- } // fi
- output->DisconnectPipeline( );
-}
-
-// -------------------------------------------------------------------------
-template< class _TInputPtr, class _TOutputPtr >
-void Label( _TOutputPtr& output, const _TInputPtr& input, const _TOutputPtr& labels )
-{
- typedef typename _TInputPtr::ObjectType _TInput;
- typedef typename _TOutputPtr::ObjectType _TOutput;
- typedef CTBronchi::MoriLabelling< _TInput, _TOutput > _TLabelling;
-
- typename _TLabelling::Pointer labelling = _TLabelling::New( );
- labelling->SetInput( input );
- labelling->SetInputLabels( labels );
- labelling->SetOutsideValue( outside_label );
- labelling->SetInsideValue( inside_label );
- labelling->SetInputInsideValue( inside_value );
- labelling->SetUpperThreshold(
- TInputPixel( std::atof( Args[ "labelling_upper_threshold" ].c_str( ) ) )
- );
- double t = MeasureTime( labelling );
- std::cout << "Labelling executed in " << t << " s" << std::endl;
- output = labelling->GetOutput( );
- TMap::const_iterator i = Args.find( "out_labels" );
- if( i != Args.end( ) )
- WriteImage( output, i->second );
- output->DisconnectPipeline( );
-}
-
-// -------------------------------------------------------------------------
-template< class _TRawPtr, class _TLabelPtr >
-void RandomWalker( _TLabelPtr& output, const _TRawPtr& raw, const _TLabelPtr& labels )
-{
- typedef typename _TRawPtr::ObjectType _TRaw;
- typedef typename _TLabelPtr::ObjectType _TLabel;
-}
-
-// -------------------------------------------------------------------------
-bool ParseArgs( int argc, char* argv[] )
-{
- std::set< std::string > mandatory;
- mandatory.insert( "in" );
- mandatory.insert( "out_segmentation" );
- mandatory.insert( "seed_x" );
- mandatory.insert( "seed_y" );
- mandatory.insert( "seed_z" );
-
- Args[ "mori_minimum_threshold" ] = "-850";
- Args[ "mori_signal_kernel_size" ] = "20";
- Args[ "mori_signal_threshold" ] = "100";
- Args[ "mori_signal_influence" ] = "0.5";
- Args[ "mori_lower_threshold" ] = "-1024";
- Args[ "mori_upper_threshold" ] = "0";
- Args[ "mori_delta_threshold" ] = "1";
- Args[ "labelling_upper_threshold" ] = "-400";
-
- for( int i = 1; i < argc; i += 2 )
- Args[ argv[ i ] + 1 ] = argv[ i + 1 ];
-
- bool complete = true;
- for( std::string t: mandatory )
- complete &= ( Args.find( t ) != Args.end( ) );
-
- if( !complete )
- {
- std::cerr
- << "Usage: " << argv[ 0 ] << std::endl
- << "\t-in filename" << std::endl
- << "\t-out_segmentation filename" << std::endl
- << "\t-seed_x value -seed_y value -seed_z value" << std::endl
- << "\t[-out_mori filename]" << std::endl
- << "\t[-out_signal filename]" << std::endl
- << "\t[-out_labels filename]" << std::endl
- << "\t[-mori_minimum_threshold value]" << std::endl
- << "\t[-mori_signal_kernel_size value]" << std::endl
- << "\t[-mori_signal_threshold value]" << std::endl
- << "\t[-mori_signal_influence value]" << std::endl
- << "\t[-mori_lower_threshold value]" << std::endl
- << "\t[-mori_upper_threshold value]" << std::endl
- << "\t[-mori_delta_threshold value]" << std::endl
- << "\t[-labelling_upper_threshold value]" << std::endl;
- return( false );
-
- } // fi
- return( true );
-}
+/* TODO
+ template< class _TInputPtr, class _TOutputPtr >
+ void Label( _TOutputPtr& output, const _TInputPtr& input, const _TOutputPtr& labels )
+ {
+ typedef typename _TInputPtr::ObjectType _TInput;
+ typedef typename _TOutputPtr::ObjectType _TOutput;
+ typedef CTBronchi::MoriLabelling< _TInput, _TOutput > _TLabelling;
+
+ typename _TLabelling::Pointer labelling = _TLabelling::New( );
+ labelling->SetInput( input );
+ labelling->SetInputLabels( labels );
+ labelling->SetOutsideValue( outside_label );
+ labelling->SetInsideValue( inside_label );
+ labelling->SetInputInsideValue( inside_value );
+ labelling->SetUpperThreshold(
+ TInputPixel( std::atof( Args[ "labelling_upper_threshold" ].c_str( ) ) )
+ );
+ double t = MeasureTime( labelling );
+ std::cout << "Labelling executed in " << t << " s" << std::endl;
+ output = labelling->GetOutput( );
+ TMap::const_iterator i = Args.find( "out_labels" );
+ if( i != Args.end( ) )
+ WriteImage( output, i->second );
+ output->DisconnectPipeline( );
+ }
+
+ // -------------------------------------------------------------------------
+ template< class _TRawPtr, class _TLabelPtr >
+ void RandomWalker( _TLabelPtr& output, const _TRawPtr& raw, const _TLabelPtr& labels )
+ {
+ typedef typename _TRawPtr::ObjectType _TRaw;
+ typedef typename _TLabelPtr::ObjectType _TLabel;
+ }
+
+ // -------------------------------------------------------------------------
+ bool ParseArgs( int argc, char* argv[] )
+ {
+ std::set< std::string > mandatory;
+ mandatory.insert( "in" );
+ mandatory.insert( "out_segmentation" );
+ mandatory.insert( "seed_x" );
+ mandatory.insert( "seed_y" );
+ mandatory.insert( "seed_z" );
+
+ Args[ "mori_minimum_threshold" ] = "-850";
+ Args[ "mori_signal_kernel_size" ] = "20";
+ Args[ "mori_signal_threshold" ] = "100";
+ Args[ "mori_signal_influence" ] = "0.5";
+ Args[ "mori_lower_threshold" ] = "-1024";
+ Args[ "mori_upper_threshold" ] = "0";
+ Args[ "mori_delta_threshold" ] = "1";
+ Args[ "labelling_upper_threshold" ] = "-400";
+
+ for( int i = 1; i < argc; i += 2 )
+ Args[ argv[ i ] + 1 ] = argv[ i + 1 ];
+
+ bool complete = true;
+ for( std::string t: mandatory )
+ complete &= ( Args.find( t ) != Args.end( ) );
+
+ if( !complete )
+ {
+ std::cerr
+ << "Usage: " << argv[ 0 ] << std::endl
+ << "\t-in filename" << std::endl
+ << "\t-out_segmentation filename" << std::endl
+ << "\t-seed_x value -seed_y value -seed_z value" << std::endl
+ << "\t[-out_mori filename]" << std::endl
+ << "\t[-out_signal filename]" << std::endl
+ << "\t[-out_labels filename]" << std::endl
+ << "\t[-mori_minimum_threshold value]" << std::endl
+ << "\t[-mori_signal_kernel_size value]" << std::endl
+ << "\t[-mori_signal_threshold value]" << std::endl
+ << "\t[-mori_signal_influence value]" << std::endl
+ << "\t[-mori_lower_threshold value]" << std::endl
+ << "\t[-mori_upper_threshold value]" << std::endl
+ << "\t[-mori_delta_threshold value]" << std::endl
+ << "\t[-labelling_upper_threshold value]" << std::endl;
+ return( false );
+
+ } // fi
+ return( true );
+ }
+*/