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/*
//
// Copyright 1997-2009 Torsten Rohlfing
//
// Copyright 2004-2013 SRI International
//
// This file is part of the Computational Morphometry Toolkit.
//
// http://www.nitrc.org/projects/cmtk/
//
// The Computational Morphometry Toolkit is free software: you can
// redistribute it and/or modify it under the terms of the GNU General Public
// License as published by the Free Software Foundation, either version 3 of
// the License, or (at your option) any later version.
//
// The Computational Morphometry Toolkit is distributed in the hope that it
// will be useful, but WITHOUT ANY WARRANTY; without even the implied
// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License along
// with the Computational Morphometry Toolkit. If not, see
// <http://www.gnu.org/licenses/>.
//
// $Revision: 5436 $
//
// $LastChangedDate: 2018-12-10 19:01:20 -0800 (Mon, 10 Dec 2018) $
//
// $LastChangedBy: torstenrohlfing $
//
*/
#include <cmtkconfig.h>
#include <System/cmtkCommandLine.h>
#include <System/cmtkExitException.h>
#include <System/cmtkConsole.h>
#include <IO/cmtkVolumeIO.h>
#include <vector>
#include <string>
#include <Segmentation/cmtkLabelCombinationLocalShapeBasedAveraging.h>
int
doMain
( const int argc, const char *argv[] )
{
std::string targetImagePath;
std::vector<std::string> atlasImagesLabels;
bool detectLocalOutliers = false;
bool detectGlobalOutliers = false;
size_t patchRadius = 5;
size_t searchRadius = 0;
std::string outputImagePath = "lsbo.nii";
cmtk::Types::DataItem paddingValue = 0;
bool paddingFlag = false;
try
{
cmtk::CommandLine cl;
cl.SetProgramInfo( cmtk::CommandLine::PRG_TITLE, "Local voting." );
cl.SetProgramInfo( cmtk::CommandLine::PRG_DESCR, "This tool combines multiple multi-class segmentations from co-registered and reformatted atlases using locally-weighted Shape-Based Averaging." );
cl.SetProgramInfo( cmtk::CommandLine::PRG_SYNTX, "lsba [options] targetImage atlasIntensity1 atlasLabels1 [atlasIntensity2 atlasLabels2 [...]]" );
cl.AddParameter( &targetImagePath, "TargetImage", "Target image path. This is the image to be segmented." )->SetProperties( cmtk::CommandLine::PROPS_IMAGE );
cl.AddParameterVector( &atlasImagesLabels, "AtlasImagesLabels", "List of reformatted atlas intensity and label images. This must be an even number of paths, where the first path within each pair is the intensity channel of"
"an atlas, and the second a label map channel of the same atlas, each reformatted into the space of the target image via an appropriate registration.");
typedef cmtk::CommandLine::Key Key;
cl.BeginGroup( "input", "Input Options" );
cl.AddOption( Key( "set-padding-value" ), &paddingValue, "Set padding value for input intensity images. Pixels with this value will be ignored.", &paddingFlag );
cl.EndGroup();
cl.BeginGroup( "combine", "Label Combination Options" );
cl.AddOption( Key( "patch-radius" ), &patchRadius, "Radius of image patch (in pixels) used for local similarity computation." );
cl.AddOption( Key( "search-radius" ), &searchRadius, "Search radius for local image patch matching. The algorithm finds the best-matching patch within this radius by exhaustive search." );
cl.AddSwitch( Key( "no-local-outliers" ), &detectLocalOutliers, true, "Detect and exclude local outliers in the Shape Based Averaging procedure." );
cl.AddSwitch( Key( "no-global-outliers" ), &detectGlobalOutliers, true, "Detect and exclude global outliers by removing poorly correlated atlases prior to local SBA procedure." );
cl.EndGroup();
cl.BeginGroup( "output", "Output Options" );
cl.AddOption( Key( 'o', "output" ), &outputImagePath, "File system path for the output image." );
cl.EndGroup();
cl.Parse( argc, argv );
if ( atlasImagesLabels.size() < 2 )
{
throw cmtk::CommandLine::Exception( "List of atlas intensity and label images must have at least two entries (one image and one label map file)" );
}
if ( atlasImagesLabels.size() % 2 )
{
throw cmtk::CommandLine::Exception( "List of atlas intensity and label images must have an even number of entries (one image and one label map file per atlas)" );
}
}
catch ( const cmtk::CommandLine::Exception& e )
{
cmtk::StdErr << e << "\n";
throw cmtk::ExitException( 1 );
}
cmtk::UniformVolume::SmartPtr targetImage = cmtk::VolumeIO::Read( targetImagePath );
cmtk::LabelCombinationLocalShapeBasedAveraging lsba( targetImage );
lsba.SetPatchRadius( patchRadius );
lsba.SetSearchRadius( searchRadius );
lsba.SetDetectLocalOutliers( detectLocalOutliers );
for ( size_t atlasIdx = 0; atlasIdx < atlasImagesLabels.size(); atlasIdx += 2 )
{
cmtk::UniformVolume::SmartPtr atlasImage = cmtk::VolumeIO::Read( atlasImagesLabels[atlasIdx] );
cmtk::UniformVolume::SmartPtr atlasLabels = cmtk::VolumeIO::Read( atlasImagesLabels[atlasIdx+1] );
if ( paddingFlag )
{
atlasImage->GetData()->SetPaddingValue( paddingValue );
}
lsba.AddAtlas( atlasImage, atlasLabels );
}
if ( detectGlobalOutliers )
lsba.ExcludeGlobalOutliers();
targetImage->SetData( lsba.GetResult() );
if ( !outputImagePath.empty() )
{
cmtk::VolumeIO::Write( *targetImage, outputImagePath );
}
return 0;
}
#include "cmtkSafeMain"
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