test-SIFTimageMatch.C

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00001 /*! @file SIFT/test-SIFTimageMatch.C test SIFT matching of two images */
00002 
00003 // //////////////////////////////////////////////////////////////////// //
00004 // The iLab Neuromorphic Vision C++ Toolkit - Copyright (C) 2000-2005   //
00005 // by the University of Southern California (USC) and the iLab at USC.  //
00006 // See http://iLab.usc.edu for information about this project.          //
00007 // //////////////////////////////////////////////////////////////////// //
00008 // Major portions of the iLab Neuromorphic Vision Toolkit are protected //
00009 // under the U.S. patent ``Computation of Intrinsic Perceptual Saliency //
00010 // in Visual Environments, and Applications'' by Christof Koch and      //
00011 // Laurent Itti, California Institute of Technology, 2001 (patent       //
00012 // pending; application number 09/912,225 filed July 23, 2001; see      //
00013 // http://pair.uspto.gov/cgi-bin/final/home.pl for current status).     //
00014 // //////////////////////////////////////////////////////////////////// //
00015 // This file is part of the iLab Neuromorphic Vision C++ Toolkit.       //
00016 //                                                                      //
00017 // The iLab Neuromorphic Vision C++ Toolkit is free software; you can   //
00018 // redistribute it and/or modify it under the terms of the GNU General  //
00019 // Public License as published by the Free Software Foundation; either  //
00020 // version 2 of the License, or (at your option) any later version.     //
00021 //                                                                      //
00022 // The iLab Neuromorphic Vision C++ Toolkit is distributed in the hope  //
00023 // that it will be useful, but WITHOUT ANY WARRANTY; without even the   //
00024 // implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR      //
00025 // PURPOSE.  See the GNU General Public License for more details.       //
00026 //                                                                      //
00027 // You should have received a copy of the GNU General Public License    //
00028 // along with the iLab Neuromorphic Vision C++ Toolkit; if not, write   //
00029 // to the Free Software Foundation, Inc., 59 Temple Place, Suite 330,   //
00030 // Boston, MA 02111-1307 USA.                                           //
00031 // //////////////////////////////////////////////////////////////////// //
00032 //
00033 // Primary maintainer for this file: Laurent Itti <itti@usc.edu>
00034 // $HeadURL: svn://isvn.usc.edu/software/invt/trunk/saliency/src/SIFT/test-SIFTimageMatch.C $
00035 // $Id: test-SIFTimageMatch.C 13002 2010-03-11 19:05:16Z irock $
00036 //
00037 
00038 #include "Raster/Raster.H"
00039 #include "SIFT/Keypoint.H"
00040 #include "SIFT/VisualObject.H"
00041 #include "SIFT/VisualObjectMatch.H"
00042 #include <iostream>
00043 
00044 int main(const int argc, const char **argv)
00045 {
00046   MYLOGVERB = LOG_DEBUG;
00047 
00048   // check command-line args:
00049   if (argc < 5 || argc > 6)
00050     LFATAL("USAGE: test-SIFTimageMatch <Simple|KDTree|KDBBF> <image1.ppm> "
00051            "<image2.ppm> <result.ppm> [<fused.ppm>]");
00052 
00053   VisualObjectMatchAlgo voma(VOMA_SIMPLE);
00054   if (strcmp(argv[1], "KDTree") == 0) voma = VOMA_KDTREE;
00055   else if (strcmp(argv[1], "KDBBF") == 0) voma = VOMA_KDTREEBBF;
00056   else if (strcmp(argv[1], "Simple") != 0)
00057     LFATAL("Unknown matching method %s", argv[0]);
00058 
00059   // get input image:
00060   Image< PixRGB<byte> > colim1 = Raster::ReadRGB(argv[2]);
00061   Image< PixRGB<byte> > colim2 = Raster::ReadRGB(argv[3]);
00062 
00063   // create visual objects:
00064   rutz::shared_ptr<VisualObject> vo1(new VisualObject(argv[2], "", colim1));
00065   rutz::shared_ptr<VisualObject> vo2(new VisualObject(argv[3], "", colim2));
00066 
00067   // compute the matching keypoints:
00068   VisualObjectMatch match(vo1, vo2, voma);
00069 
00070   LINFO("Found %u matches between %s and %s", match.size(), argv[2], argv[3]);
00071 
00072   // let's prune the matches:
00073   uint np = match.prune();
00074   LINFO("Pruned %u outlier matches.", np);
00075 
00076   // show our final affine transform:
00077   std::cerr<<match.getSIFTaffine();
00078 
00079   LINFO("getKeypointAvgDist = %f", match.getKeypointAvgDist());
00080   LINFO("getAffineAvgDist = %f", match.getAffineAvgDist());
00081   LINFO("getScore = %f", match.getScore());
00082 
00083   if (match.checkSIFTaffine() == false)
00084     LINFO("### Affine is too weird -- BOGUS MATCH");
00085 
00086   // get an image showing the matches:
00087   Image< PixRGB<byte> > mimg = match.getMatchImage(1.0F);
00088 
00089   // save the result:
00090   Raster::WriteRGB(mimg, std::string(argv[4]));
00091 
00092   // do we want a fused image?
00093   if (argc >= 6)
00094     {
00095       Image< PixRGB<byte> > fimg = match.getFusedImage(0.25F);
00096       Raster::WriteRGB(fimg, std::string(argv[5]));
00097     }
00098 
00099   return 0;
00100 }
00101 
00102 // ######################################################################
00103 /* So things look consistent in everyone's emacs... */
00104 /* Local Variables: */
00105 /* indent-tabs-mode: nil */
00106 /* End: */