narf_keypoint_extraction.cpp
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00001 /* \author Bastian Steder */
00002 
00003 #include <iostream>
00004 
00005 #include <boost/thread/thread.hpp>
00006 #include <pcl/range_image/range_image.h>
00007 #include <pcl/io/pcd_io.h>
00008 #include <pcl/visualization/range_image_visualizer.h>
00009 #include <pcl/visualization/pcl_visualizer.h>
00010 #include <pcl/features/range_image_border_extractor.h>
00011 #include <pcl/keypoints/narf_keypoint.h>
00012 #include <pcl/console/parse.h>
00013 
00014 typedef pcl::PointXYZ PointType;
00015 
00016 // --------------------
00017 // -----Parameters-----
00018 // --------------------
00019 float angular_resolution = 0.5f;
00020 float support_size = 0.2f;
00021 pcl::RangeImage::CoordinateFrame coordinate_frame = pcl::RangeImage::CAMERA_FRAME;
00022 bool setUnseenToMaxRange = false;
00023 
00024 // --------------
00025 // -----Help-----
00026 // --------------
00027 void 
00028 printUsage (const char* progName)
00029 {
00030   std::cout << "\n\nUsage: "<<progName<<" [options] <scene.pcd>\n\n"
00031             << "Options:\n"
00032             << "-------------------------------------------\n"
00033             << "-r <float>   angular resolution in degrees (default "<<angular_resolution<<")\n"
00034             << "-c <int>     coordinate frame (default "<< (int)coordinate_frame<<")\n"
00035             << "-m           Treat all unseen points as maximum range readings\n"
00036             << "-s <float>   support size for the interest points (diameter of the used sphere - "
00037             <<                                                     "default "<<support_size<<")\n"
00038             << "-h           this help\n"
00039             << "\n\n";
00040 }
00041 
00042 void 
00043 setViewerPose (pcl::visualization::PCLVisualizer& viewer, const Eigen::Affine3f& viewer_pose)
00044 {
00045   Eigen::Vector3f pos_vector = viewer_pose * Eigen::Vector3f (0, 0, 0);
00046   Eigen::Vector3f look_at_vector = viewer_pose.rotation () * Eigen::Vector3f (0, 0, 1) + pos_vector;
00047   Eigen::Vector3f up_vector = viewer_pose.rotation () * Eigen::Vector3f (0, -1, 0);
00048   viewer.camera_.pos[0] = pos_vector[0];
00049   viewer.camera_.pos[1] = pos_vector[1];
00050   viewer.camera_.pos[2] = pos_vector[2];
00051   viewer.camera_.focal[0] = look_at_vector[0];
00052   viewer.camera_.focal[1] = look_at_vector[1];
00053   viewer.camera_.focal[2] = look_at_vector[2];
00054   viewer.camera_.view[0] = up_vector[0];
00055   viewer.camera_.view[1] = up_vector[1];
00056   viewer.camera_.view[2] = up_vector[2];
00057   viewer.updateCamera ();
00058 }
00059 
00060 // --------------
00061 // -----Main-----
00062 // --------------
00063 int 
00064 main (int argc, char** argv)
00065 {
00066   // --------------------------------------
00067   // -----Parse Command Line Arguments-----
00068   // --------------------------------------
00069   if (pcl::console::find_argument (argc, argv, "-h") >= 0)
00070   {
00071     printUsage (argv[0]);
00072     return 0;
00073   }
00074   if (pcl::console::find_argument (argc, argv, "-m") >= 0)
00075   {
00076     setUnseenToMaxRange = true;
00077     cout << "Setting unseen values in range image to maximum range readings.\n";
00078   }
00079   int tmp_coordinate_frame;
00080   if (pcl::console::parse (argc, argv, "-c", tmp_coordinate_frame) >= 0)
00081   {
00082     coordinate_frame = pcl::RangeImage::CoordinateFrame (tmp_coordinate_frame);
00083     cout << "Using coordinate frame "<< (int)coordinate_frame<<".\n";
00084   }
00085   if (pcl::console::parse (argc, argv, "-s", support_size) >= 0)
00086     cout << "Setting support size to "<<support_size<<".\n";
00087   if (pcl::console::parse (argc, argv, "-r", angular_resolution) >= 0)
00088     cout << "Setting angular resolution to "<<angular_resolution<<"deg.\n";
00089   angular_resolution = pcl::deg2rad (angular_resolution);
00090   
00091   // ------------------------------------------------------------------
00092   // -----Read pcd file or create example point cloud if not given-----
00093   // ------------------------------------------------------------------
00094   pcl::PointCloud<PointType>::Ptr point_cloud_ptr (new pcl::PointCloud<PointType>);
00095   pcl::PointCloud<PointType>& point_cloud = *point_cloud_ptr;
00096   pcl::PointCloud<pcl::PointWithViewpoint> far_ranges;
00097   Eigen::Affine3f scene_sensor_pose (Eigen::Affine3f::Identity ());
00098   std::vector<int> pcd_filename_indices = pcl::console::parse_file_extension_argument (argc, argv, "pcd");
00099   if (!pcd_filename_indices.empty ())
00100   {
00101     std::string filename = argv[pcd_filename_indices[0]];
00102     if (pcl::io::loadPCDFile (filename, point_cloud) == -1)
00103     {
00104       cerr << "Was not able to open file \""<<filename<<"\".\n";
00105       printUsage (argv[0]);
00106       return 0;
00107     }
00108     scene_sensor_pose = Eigen::Affine3f (Eigen::Translation3f (point_cloud.sensor_origin_[0],
00109                                                                point_cloud.sensor_origin_[1],
00110                                                                point_cloud.sensor_origin_[2])) *
00111                         Eigen::Affine3f (point_cloud.sensor_orientation_);
00112     std::string far_ranges_filename = pcl::getFilenameWithoutExtension (filename)+"_far_ranges.pcd";
00113     if (pcl::io::loadPCDFile (far_ranges_filename.c_str (), far_ranges) == -1)
00114       std::cout << "Far ranges file \""<<far_ranges_filename<<"\" does not exists.\n";
00115   }
00116   else
00117   {
00118     setUnseenToMaxRange = true;
00119     cout << "\nNo *.pcd file given => Genarating example point cloud.\n\n";
00120     for (float x=-0.5f; x<=0.5f; x+=0.01f)
00121     {
00122       for (float y=-0.5f; y<=0.5f; y+=0.01f)
00123       {
00124         PointType point;  point.x = x;  point.y = y;  point.z = 2.0f - y;
00125         point_cloud.points.push_back (point);
00126       }
00127     }
00128     point_cloud.width = (int) point_cloud.points.size ();  point_cloud.height = 1;
00129   }
00130   
00131   // -----------------------------------------------
00132   // -----Create RangeImage from the PointCloud-----
00133   // -----------------------------------------------
00134   float noise_level = 0.0;
00135   float min_range = 0.0f;
00136   int border_size = 1;
00137   boost::shared_ptr<pcl::RangeImage> range_image_ptr (new pcl::RangeImage);
00138   pcl::RangeImage& range_image = *range_image_ptr;   
00139   range_image.createFromPointCloud (point_cloud, angular_resolution, pcl::deg2rad (360.0f), pcl::deg2rad (180.0f),
00140                                    scene_sensor_pose, coordinate_frame, noise_level, min_range, border_size);
00141   range_image.integrateFarRanges (far_ranges);
00142   if (setUnseenToMaxRange)
00143     range_image.setUnseenToMaxRange ();
00144   
00145   // --------------------------------------------
00146   // -----Open 3D viewer and add point cloud-----
00147   // --------------------------------------------
00148   pcl::visualization::PCLVisualizer viewer ("3D Viewer");
00149   viewer.setBackgroundColor (1, 1, 1);
00150   pcl::visualization::PointCloudColorHandlerCustom<pcl::PointWithRange> range_image_color_handler (range_image_ptr, 0, 0, 0);
00151   viewer.addPointCloud (range_image_ptr, range_image_color_handler, "range image");
00152   viewer.setPointCloudRenderingProperties (pcl::visualization::PCL_VISUALIZER_POINT_SIZE, 1, "range image");
00153   //viewer.addCoordinateSystem (1.0f);
00154   //PointCloudColorHandlerCustom<PointType> point_cloud_color_handler (point_cloud_ptr, 150, 150, 150);
00155   //viewer.addPointCloud (point_cloud_ptr, point_cloud_color_handler, "original point cloud");
00156   viewer.initCameraParameters ();
00157   setViewerPose (viewer, range_image.getTransformationToWorldSystem ());
00158   
00159   // --------------------------
00160   // -----Show range image-----
00161   // --------------------------
00162   pcl::visualization::RangeImageVisualizer range_image_widget ("Range image");
00163   range_image_widget.showRangeImage (range_image);
00164   
00165   // --------------------------------
00166   // -----Extract NARF keypoints-----
00167   // --------------------------------
00168   pcl::RangeImageBorderExtractor range_image_border_extractor;
00169   pcl::NarfKeypoint narf_keypoint_detector (&range_image_border_extractor);
00170   narf_keypoint_detector.setRangeImage (&range_image);
00171   narf_keypoint_detector.getParameters ().support_size = support_size;
00172   //narf_keypoint_detector.getParameters ().add_points_on_straight_edges = true;
00173   //narf_keypoint_detector.getParameters ().distance_for_additional_points = 0.5;
00174   
00175   pcl::PointCloud<int> keypoint_indices;
00176   narf_keypoint_detector.compute (keypoint_indices);
00177   std::cout << "Found "<<keypoint_indices.points.size ()<<" key points.\n";
00178 
00179   // ----------------------------------------------
00180   // -----Show keypoints in range image widget-----
00181   // ----------------------------------------------
00182   //for (size_t i=0; i<keypoint_indices.points.size (); ++i)
00183     //range_image_widget.markPoint (keypoint_indices.points[i]%range_image.width,
00184                                   //keypoint_indices.points[i]/range_image.width);
00185   
00186   // -------------------------------------
00187   // -----Show keypoints in 3D viewer-----
00188   // -------------------------------------
00189   pcl::PointCloud<pcl::PointXYZ>::Ptr keypoints_ptr (new pcl::PointCloud<pcl::PointXYZ>);
00190   pcl::PointCloud<pcl::PointXYZ>& keypoints = *keypoints_ptr;
00191   keypoints.points.resize (keypoint_indices.points.size ());
00192   for (size_t i=0; i<keypoint_indices.points.size (); ++i)
00193     keypoints.points[i].getVector3fMap () = range_image.points[keypoint_indices.points[i]].getVector3fMap ();
00194 
00195   pcl::visualization::PointCloudColorHandlerCustom<pcl::PointXYZ> keypoints_color_handler (keypoints_ptr, 0, 255, 0);
00196   viewer.addPointCloud<pcl::PointXYZ> (keypoints_ptr, keypoints_color_handler, "keypoints");
00197   viewer.setPointCloudRenderingProperties (pcl::visualization::PCL_VISUALIZER_POINT_SIZE, 7, "keypoints");
00198   
00199   //--------------------
00200   // -----Main loop-----
00201   //--------------------
00202   while (!viewer.wasStopped ())
00203   {
00204     range_image_widget.spinOnce ();  // process GUI events
00205     viewer.spinOnce ();
00206     pcl_sleep(0.01);
00207   }
00208 }


pcl
Author(s): Open Perception
autogenerated on Mon Oct 6 2014 03:15:47