Exemplo n.º 1
0
  /* \brief Extracts all the points of depth = level from the octree
   *
   */
  void extractPointsAtLevel(int depth)
  {
    displayCloud->points.clear();

    pcl::octree::OctreePointCloudVoxelCentroid<pcl::PointXYZ>::Iterator tree_it;
    pcl::octree::OctreePointCloudVoxelCentroid<pcl::PointXYZ>::Iterator tree_it_end = octree.end();

    pcl::PointXYZ pt;
    std::cout << "===== Extracting data at depth " << depth << "... " << std::flush;
    double start = pcl::getTime ();

    for (tree_it = octree.begin(depth); tree_it!=tree_it_end; ++tree_it)
    {
      Eigen::Vector3f voxel_min, voxel_max;
      octree.getVoxelBounds(tree_it, voxel_min, voxel_max);

      pt.x = (voxel_min.x() + voxel_max.x()) / 2.0f;
      pt.y = (voxel_min.y() + voxel_max.y()) / 2.0f;
      pt.z = (voxel_min.z() + voxel_max.z()) / 2.0f;
      displayCloud->points.push_back(pt);
    }

    double end = pcl::getTime ();
    printf("%lu pts, %.4gs. %.4gs./pt. =====\n", displayCloud->points.size (), end - start,
           (end - start) / static_cast<double> (displayCloud->points.size ()));

    update();
  }
Exemplo n.º 2
0
  /* \brief Visual update. Create visualizations and add them to the viewer
   *
   */
  void update()
  {
    //remove existing shapes from visualizer
    clearView();

    //prevent the display of too many cubes
    bool displayCubeLegend = displayCubes && static_cast<int> (displayCloud->points.size ()) <= MAX_DISPLAYED_CUBES;

    showLegend(displayCubeLegend);

    if (displayCubeLegend)
    {
      //show octree as cubes
      showCubes(sqrt(octree.getVoxelSquaredSideLen(displayedDepth)));
      if (showPointsWithCubes)
      {
        //add original cloud in visualizer
        pcl::visualization::PointCloudColorHandlerGenericField<pcl::PointXYZ> color_handler(cloud, "z");
        viz.addPointCloud(cloud, color_handler, "cloud");
      }
    }
    else
    {
      //add current cloud in visualizer
      pcl::visualization::PointCloudColorHandlerGenericField<pcl::PointXYZ> color_handler(displayCloud,"z");
      viz.addPointCloud(displayCloud, color_handler, "cloud");
    }
  }
Exemplo n.º 3
0
  /* \brief Extracts all the points of depth = level from the octree
   *
   */
  void extractPointsAtLevel(int depth)
  {
    displayCloud->points.clear();

    pcl::octree::OctreePointCloudVoxelCentroid<pcl::PointXYZ>::Iterator tree_it(octree);

    pcl::PointXYZ pt;
    std::cout << "===== Extracting data at depth " << depth << "... " << std::flush;
    double start = pcl::getTime ();
    while (*tree_it++)
    {
      if (static_cast<int> (tree_it.getCurrentOctreeDepth ()) != depth)
        continue;

      Eigen::Vector3f voxel_min, voxel_max;
      octree.getVoxelBounds(tree_it, voxel_min, voxel_max);

      pt.x = (voxel_min.x() + voxel_max.x()) / 2.0f;
      pt.y = (voxel_min.y() + voxel_max.y()) / 2.0f;
      pt.z = (voxel_min.z() + voxel_max.z()) / 2.0f;
      displayCloud->points.push_back(pt);

      //we are already the desired depth, there is no reason to go deeper.
      tree_it.skipChildVoxels();
    }

    double end = pcl::getTime ();
    printf("%zu pts, %.4gs. %.4gs./pt. =====\n", displayCloud->points.size (), end - start,
           (end - start) / static_cast<double> (displayCloud->points.size ()));

    update();
  }
Exemplo n.º 4
0
 /* \brief Helper function to increase the octree display level by one
  *
  */
 bool IncrementLevel()
 {
   if (displayedDepth < static_cast<int> (octree.getTreeDepth ()))
   {
     displayedDepth++;
     extractPointsAtLevel(displayedDepth);
     return true;
   }
   else
     return false;
 }
Exemplo n.º 5
0
  /* \brief Helper function that draw info for the user on the viewer
   *
   */
  void showLegend(bool showCubes)
  {
    char dataDisplay[256];
    sprintf(dataDisplay, "Displaying data as %s", (showCubes) ? ("CUBES") : ("POINTS"));
    viz.removeShape("disp_t");
    viz.addText(dataDisplay, 0, 60, 1.0, 0.0, 0.0, "disp_t");

    char level[256];
    sprintf(level, "Displayed depth is %d on %d", displayedDepth, octree.getTreeDepth());
    viz.removeShape("level_t1");
    viz.addText(level, 0, 45, 1.0, 0.0, 0.0, "level_t1");

    viz.removeShape("level_t2");
    sprintf(level, "Voxel size: %.4fm [%lu voxels]", sqrt(octree.getVoxelSquaredSideLen(displayedDepth)),
            displayCloud->points.size());
    viz.addText(level, 0, 30, 1.0, 0.0, 0.0, "level_t2");

    viz.removeShape("org_t");
    if (showPointsWithCubes)
      viz.addText("Displaying original cloud", 0, 15, 1.0, 0.0, 0.0, "org_t");
  }
Exemplo n.º 6
0
  /* \brief Helper function that read a pointcloud file (returns false if pbl)
   *  Also initialize the octree
   *
   */
  bool loadCloud(std::string &filename)
  {
    std::cout << "Loading file " << filename.c_str() << std::endl;
    //read cloud
    if (pcl::io::loadPCDFile(filename, *cloud))
    {
      std::cerr << "ERROR: Cannot open file " << filename << "! Aborting..." << std::endl;
      return false;
    }

    //remove NaN Points
    std::vector<int> nanIndexes;
    pcl::removeNaNFromPointCloud(*cloud, *cloud, nanIndexes);
    std::cout << "Loaded " << cloud->points.size() << " points" << std::endl;

    //create octree structure
    octree.setInputCloud(cloud);
    //update bounding box automatically
    octree.defineBoundingBox();
    //add points in the tree
    octree.addPointsFromInputCloud();
    return true;
  }