Ejemplo n.º 1
0
void printChanges(OcTree& tree){
  unsigned int changedOccupied = 0;
  unsigned int changedFree = 0;
  unsigned int actualOccupied = 0;
  unsigned int actualFree = 0;
  unsigned int missingChanged = 0;

  tree.expand();

  // iterate through the changed nodes
  KeyBoolMap::const_iterator it;
  for (it=tree.changedKeysBegin(); it!=tree.changedKeysEnd(); it++) {
    OcTreeNode* node = tree.search(it->first);
    if (node != NULL) {
      if (tree.isNodeOccupied(node)) {
        changedOccupied += 1;
      }
      else {
        changedFree += 1;
      }
    } else {
      missingChanged +=1;
    }
  }


  // iterate through the entire tree
  for(OcTree::tree_iterator it=tree.begin_tree(),
      end=tree.end_tree(); it!= end; ++it) {
    if (it.isLeaf()) {
      if (tree.isNodeOccupied(*it)) {
        actualOccupied += 1;
      }
      else {
        actualFree += 1;
      }
    }
  }
  
  cout << "change detection: " << changedOccupied << " occ; " << changedFree << " free; "<< missingChanged << " missing" << endl;
  cout << "actual: " << actualOccupied << " occ; " << actualFree << " free; " << endl;

  tree.prune();
}
Ejemplo n.º 2
0
int main(int argc, char** argv) {


  //##############################################################     

  string btFilename = "";
  unsigned char maxDepth = 16;


  // test timing:
  timeval start;
  timeval stop;
  const unsigned char tree_depth(16);
  const unsigned int tree_max_val(32768);
  double time_it, time_depr;

  if (argc <= 1|| argc >3 || strcmp(argv[1], "-h") == 0){
    printUsage(argv[0]);
  }

  btFilename = std::string(argv[1]);
  if (argc > 2){
    maxDepth = (unsigned char)atoi(argv[2]);
  }
  maxDepth = std::min((unsigned char)16,maxDepth);

  if (maxDepth== 0)
    maxDepth = tree_depth;

  // iterate over empty tree:
  OcTree emptyTree(0.2);
  EXPECT_EQ(emptyTree.size(), 0);
  EXPECT_EQ(emptyTree.calcNumNodes(), 0);

  size_t iteratedNodes = 0;
  OcTree::tree_iterator t_it = emptyTree.begin_tree(maxDepth);
  OcTree::tree_iterator t_end = emptyTree.end_tree();
  EXPECT_TRUE (t_it == t_end);
  for( ; t_it != t_end; ++t_it){
    iteratedNodes++;
  }
  EXPECT_EQ(iteratedNodes, 0);


  for(OcTree::leaf_iterator l_it = emptyTree.begin_leafs(maxDepth), l_end=emptyTree.end_leafs(); l_it!= l_end; ++l_it){
    iteratedNodes++;
  }
  EXPECT_EQ(iteratedNodes, 0);





  cout << "\nReading OcTree file\n===========================\n";
  OcTree* tree = new OcTree(btFilename);
  if (tree->size()<= 1){
    std::cout << "Error reading file, exiting!\n";
    return 1;
  }

  size_t count;
  std::list<OcTreeVolume> list_depr;
  std::list<OcTreeVolume> list_iterator;

  /**
   * get number of nodes:
   */
  gettimeofday(&start, NULL);  // start timer
  size_t num_leafs_recurs = tree->getNumLeafNodes();
  gettimeofday(&stop, NULL);  // stop timer
  time_depr = timediff(start, stop);

  gettimeofday(&start, NULL);  // start timer
  size_t num_leafs_it = 0;
  for(OcTree::leaf_iterator it = tree->begin(), end=tree->end(); it!= end; ++it) {
    num_leafs_it++;
  }
  gettimeofday(&stop, NULL);  // stop timer
  time_it = timediff(start, stop);
  std::cout << "Number of leafs: " << num_leafs_it << " / " << num_leafs_recurs << ", times: "
        <<time_it << " / " << time_depr << "\n========================\n\n";


  /**
   * get all occupied leafs
   */
  point3d tree_center;
  tree_center(0) = tree_center(1) = tree_center(2)
              = (float) (((double) tree_max_val) * tree->getResolution());

  gettimeofday(&start, NULL);  // start timer
  getLeafNodesRecurs(list_depr,maxDepth,tree->getRoot(), 0, tree_center, tree_center, tree, true);
  gettimeofday(&stop, NULL);  // stop timer
  time_depr = timediff(start, stop);

  gettimeofday(&start, NULL);  // start timer
  for(OcTree::iterator it = tree->begin(maxDepth), end=tree->end(); it!= end; ++it){
    if(tree->isNodeOccupied(*it))
    {
      //count ++;
     list_iterator.push_back(OcTreeVolume(it.getCoordinate(), it.getSize()));
    }

  }
  gettimeofday(&stop, NULL);  // stop timer
  time_it = timediff(start, stop);

  std::cout << "Occupied lists traversed, times: "
      <<time_it << " / " << time_depr << "\n";
  compareResults(list_iterator, list_depr);
  std::cout << "========================\n\n";


  /**
   * get all free leafs
   */
  list_iterator.clear();
  list_depr.clear();
  gettimeofday(&start, NULL);  // start timer
  for(OcTree::leaf_iterator it = tree->begin(maxDepth), end=tree->end(); it!= end; ++it) {
    if(!tree->isNodeOccupied(*it))
      list_iterator.push_back(OcTreeVolume(it.getCoordinate(), it.getSize()));
  }
  gettimeofday(&stop, NULL);  // stop timer
  time_it = timediff(start, stop);

  gettimeofday(&start, NULL);  // start timer
  getLeafNodesRecurs(list_depr,maxDepth,tree->getRoot(), 0, tree_center, tree_center, tree, false);
  gettimeofday(&stop, NULL);  // stop timer
  time_depr = timediff(start, stop);

  std::cout << "Free lists traversed, times: "
      <<time_it << " / " << time_depr << "\n";
  compareResults(list_iterator, list_depr);
    std::cout << "========================\n\n";



  /**
   * get all volumes
   */
  list_iterator.clear();
  list_depr.clear();

  gettimeofday(&start, NULL);  // start timer
  getVoxelsRecurs(list_depr,maxDepth,tree->getRoot(), 0, tree_center, tree_center, tree->getResolution());
  gettimeofday(&stop, NULL);  // stop timer
  time_depr = timediff(start, stop);

  gettimeofday(&start, NULL);  // start timers
  for(OcTree::tree_iterator it = tree->begin_tree(maxDepth), end=tree->end_tree();
      it!= end; ++it){
      //count ++;
      //std::cout << it.getDepth() << " " << " "<<it.getCoordinate()<< std::endl;
     list_iterator.push_back(OcTreeVolume(it.getCoordinate(), it.getSize()));
  }
  gettimeofday(&stop, NULL);  // stop timer
  time_it = timediff(start, stop);

  list_iterator.sort(OcTreeVolumeSortPredicate);
  list_depr.sort(OcTreeVolumeSortPredicate);

  std::cout << "All inner lists traversed, times: "
      <<time_it << " / " << time_depr << "\n";
  compareResults(list_iterator, list_depr);
    std::cout << "========================\n\n";



    // traverse all leaf nodes, timing:
    gettimeofday(&start, NULL);  // start timers
    count = 0;
    for(OcTree::iterator it = tree->begin(maxDepth), end=tree->end();
        it!= end; ++it){
      // do something:
      // std::cout << it.getDepth() << " " << " "<<it.getCoordinate()<< std::endl;
      count++;
    }

    gettimeofday(&stop, NULL);  // stop timer
    time_it = timediff(start, stop);

    std::cout << "Time to traverse all leafs at max depth " <<(unsigned int)maxDepth <<" ("<<count<<" nodes): "<< time_it << " s\n\n";




  /**
   * bounding box tests
   */
  //tree->expand();
  // test complete tree (should be equal to no bbx)
  OcTreeKey bbxMinKey, bbxMaxKey;
  double temp_x,temp_y,temp_z;
  tree->getMetricMin(temp_x,temp_y,temp_z);
  octomap::point3d bbxMin(temp_x,temp_y,temp_z);

  tree->getMetricMax(temp_x,temp_y,temp_z);
  octomap::point3d bbxMax(temp_x,temp_y,temp_z);

  EXPECT_TRUE(tree->coordToKeyChecked(bbxMin, bbxMinKey));
  EXPECT_TRUE(tree->coordToKeyChecked(bbxMax, bbxMaxKey));

  OcTree::leaf_bbx_iterator it_bbx = tree->begin_leafs_bbx(bbxMinKey,bbxMaxKey);
  EXPECT_TRUE(it_bbx == tree->begin_leafs_bbx(bbxMinKey,bbxMaxKey));
  OcTree::leaf_bbx_iterator end_bbx = tree->end_leafs_bbx();
  EXPECT_TRUE(end_bbx == tree->end_leafs_bbx());

  OcTree::leaf_iterator it = tree->begin_leafs();
  EXPECT_TRUE(it == tree->begin_leafs());
  OcTree::leaf_iterator end = tree->end_leafs();
  EXPECT_TRUE(end == tree->end_leafs());


  for( ; it!= end && it_bbx != end_bbx; ++it, ++it_bbx){
    EXPECT_TRUE(it == it_bbx);
  }
  EXPECT_TRUE(it == end && it_bbx == end_bbx);


  // now test an actual bounding box:
  tree->expand(); // (currently only works properly for expanded tree (no multires)
  bbxMin = point3d(-1, -1, - 1);
  bbxMax = point3d(3, 2, 1);
  EXPECT_TRUE(tree->coordToKeyChecked(bbxMin, bbxMinKey));
  EXPECT_TRUE(tree->coordToKeyChecked(bbxMax, bbxMaxKey));

  typedef unordered_ns::unordered_map<OcTreeKey, double, OcTreeKey::KeyHash> KeyVolumeMap;

  KeyVolumeMap bbxVoxels;

  count = 0;
  for(OcTree::leaf_bbx_iterator it = tree->begin_leafs_bbx(bbxMinKey,bbxMaxKey), end=tree->end_leafs_bbx();
      it!= end; ++it)
  {
    count++;
    OcTreeKey currentKey = it.getKey();
    // leaf is actually a leaf:
    EXPECT_FALSE(it->hasChildren());

    // leaf exists in tree:
    OcTreeNode* node = tree->search(currentKey);
    EXPECT_TRUE(node);
    EXPECT_EQ(node, &(*it));
    // all leafs are actually in the bbx:
    for (unsigned i = 0; i < 3; ++i){
//      if (!(currentKey[i] >= bbxMinKey[i] && currentKey[i] <= bbxMaxKey[i])){
//        std::cout << "Key failed: " << i << " " << currentKey[i] << " "<< bbxMinKey[i] << " "<< bbxMaxKey[i]
//             << "size: "<< it.getSize()<< std::endl;
//      }
      EXPECT_TRUE(currentKey[i] >= bbxMinKey[i] && currentKey[i] <= bbxMaxKey[i]);
    }

    bbxVoxels.insert(std::pair<OcTreeKey,double>(currentKey, it.getSize()));
  }
  EXPECT_EQ(bbxVoxels.size(), count);
  std::cout << "Bounding box traversed ("<< count << " leaf nodes)\n\n";


  // compare with manual BBX check on all leafs:
  for(OcTree::leaf_iterator it = tree->begin(), end=tree->end(); it!= end; ++it) {
    OcTreeKey key = it.getKey();
    if (    key[0] >= bbxMinKey[0] && key[0] <= bbxMaxKey[0]
         && key[1] >= bbxMinKey[1] && key[1] <= bbxMaxKey[1]
         && key[2] >= bbxMinKey[2] && key[2] <= bbxMaxKey[2])
    {
      KeyVolumeMap::iterator bbxIt = bbxVoxels.find(key);
      EXPECT_FALSE(bbxIt == bbxVoxels.end());
      EXPECT_TRUE(key == bbxIt->first);
      EXPECT_EQ(it.getSize(), bbxIt->second);
    }

  }

  // test tree with one node:
  OcTree simpleTree(0.01);
  simpleTree.updateNode(point3d(10, 10, 10), 5.0f);
  for(OcTree::leaf_iterator it = simpleTree.begin_leafs(maxDepth), end=simpleTree.end_leafs(); it!= end; ++it) {
    std::cout << it.getDepth() << " " << " "<<it.getCoordinate()<< std::endl;
  }


  std::cout << "Tests successful\n";


  return 0;
}