+++ /dev/null
-/*=========================================================================
-
- Program: clitk
- Language: C++
-
- Copyright (c) CREATIS (Centre de Recherche et d'Applications en Traitement de
- l'Image). All rights reserved. See Doc/License.txt or
- http://www.creatis.insa-lyon.fr/Public/Gdcm/License.html for details.
-
- This software is distributed WITHOUT ANY WARRANTY; without even
- the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
- PURPOSE. See the above copyright notices for more information.
-
-=========================================================================*/
-
-#ifndef CLITKSIGNALFILTER_CXX
-#define CLITKSIGNALFILTER_CXX
-/**
- =================================================
- * @file clitkSignalFilter.cxx
- * @author Jef Vandemeulebroucke <jefvdmb@gmail.com>
- * @date 23 April 2008
- *
- * @brief "Apply a filter to the signal"
- =================================================*/
-
-// clitk include
-#include "clitkSignalFilter_ggo.h"
-#include "clitkSignal.h"
-#include "clitkIO.h"
-#include "clitkImageCommon.h"
-
-int main(int argc, char * argv[]) {
-
- // Init command line
- GGO(clitkSignalFilter, args_info);
- CLITK_INIT;
-
- //input
- clitk::Signal input;
- input.Read (args_info.input_arg);
- clitk::Signal input2;
- if (args_info.input2_given) input2.Read(args_info.input2_arg);
-
- double p1 = args_info.p1_arg;
- double p2 = args_info.p2_arg;
-
- //process
-
- if( args_info.multiply_flag) input*=input2;
- if( args_info.divide_flag) input/=input2;
- if( args_info.norm_flag) input=input.Normalize (p1, p2);
- //if( args_info.highPass_flag) input=input.HighPassFilter(p1,p2);
- //if( args_info.lowPass_flag) input=input.LowPassFilter(p1,p2);
- if( args_info.detect_flag) input=input.DetectLocalExtrema(static_cast<unsigned int >(p1));
- if( args_info.limPhase_flag) input=input.LimPhase();
- if( args_info.monPhase_flag) input=input.MonPhase();
- if( args_info.monPhaseDE_flag) input=input.MonPhaseDE(p1,p2);
- if( args_info.average_flag) input=input.MovingAverageFilter(static_cast<unsigned int> (p1));
- if( args_info.ssd_flag) std::cout<<"The sqrt of the mean SSD is "<< input.SSD(input2)<<std::endl;
- if (args_info.gauss_flag)input=input.GaussLikeFilter();
- if (args_info.rescale_flag)input=input.NormalizeMeanStdDev(p1, p2);
- if (args_info.interp_flag)input=input.LinearlyInterpolateScatteredValues();
- // if( args_info.approx_flag) input=input.ApproximateScatteredValuesWithBSplines(static_cast<unsigned int>(p1),static_cast<unsigned int>(p2));
- if( args_info.limit_flag) input=input.LimitSignalRange();
-// if( args_info._flag) input=input;
-// if( args_info._flag) input=input;
-// if( args_info._flag) input=input;
-// if( args_info._flag) input=input;
- // if( args_info._flag) input=input;
- // if( args_info._flag) input=input;
- // if( args_info._flag) input=input;
-
- if (args_info.output_given) input.Write(args_info.output_arg);
-
- return EXIT_SUCCESS;
-
-}
-
-#endif