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Lu!! *********************************************************************/ #include #include #include #include #include using costmap_2d::NO_INFORMATION; using costmap_2d::LETHAL_OBSTACLE; using costmap_2d::FREE_SPACE; namespace costmap_2d { StaticLayer::StaticLayer() { threshold_ = &lethal_threshold_; } StaticLayer::~StaticLayer() {} void StaticLayer::onInitialize() { current_ = true; global_frame_ = layered_costmap_->getGlobalFrameID(); getParams(); } bool StaticLayer::getParams() { try { std::string config_file_name = "config.yaml"; std::string folder = COSTMAP_2D_DIR; std::string path_source = getSourceFile(folder,config_file_name); if(path_source != " ") { std::cout << "Path source: " << path_source << std::endl; } else { std::cout << "/cfg folder not found!" << std::endl; } YAML::Node config = YAML::LoadFile(path_source); YAML::Node layer = config["static_layer"]; bool enabled = loadParam(layer, "enabled", true); bool first_map_only = loadParam(layer, "first_map_only", false); bool subscribe_to_updates = loadParam(layer, "subscribe_to_updates", false); bool track_unknown_space = loadParam(layer, "track_unknown_space", true); bool use_maximum = loadParam(layer, "use_maximum", false); int lethal_cost_threshold = loadParam(layer, "lethal_cost_threshold", 100); int unknown_cost_value = loadParam(layer, "unknown_cost_value", -1); bool trinary_costmap = loadParam(layer, "trinary_costmap", true); std::string base_frame_id = loadParam(layer, "base_frame_id", std::string("map")); first_map_only_ = first_map_only; subscribe_to_updates_ = subscribe_to_updates; track_unknown_space_ = track_unknown_space; use_maximum_ = use_maximum; lethal_threshold_ = std::max(std::min(lethal_cost_threshold, 100), 0); unknown_cost_value_ = unknown_cost_value; trinary_costmap_ = trinary_costmap; base_frame_id_ = base_frame_id; if (enabled_ != enabled) { enabled_ = enabled; has_updated_data_ = true; x_ = y_ = 0; width_ = size_x_; height_ = size_y_; } } catch (const YAML::BadFile& e) { std::cerr << "Cannot open YAML file: " << e.what() << std::endl; return false; } return true; } void StaticLayer::matchSize() { // If we are using rolling costmap, the static map size is // unrelated to the size of the layered costmap if (!layered_costmap_->isRolling()) { Costmap2D* master = layered_costmap_->getCostmap(); resizeMap(master->getSizeInCellsX(), master->getSizeInCellsY(), master->getResolution(), master->getOriginX(), master->getOriginY()); } } unsigned char StaticLayer::interpretValue(unsigned char value) { // check if the static value is above the unknown or lethal thresholds if (track_unknown_space_ && value == unknown_cost_value_) return NO_INFORMATION; else if (!track_unknown_space_ && value == unknown_cost_value_) return FREE_SPACE; else if (value >= lethal_threshold_) return LETHAL_OBSTACLE; else if (trinary_costmap_) return FREE_SPACE; double scale = (double) value / lethal_threshold_; return scale * LETHAL_OBSTACLE; } void StaticLayer::handleImpl(const void* data, const std::type_info& type, const std::string& topic) { if (type == typeid(nav_msgs::OccupancyGrid) && topic == "map") { incomingMap(*static_cast(data)); } else if (type == typeid(map_msgs::OccupancyGridUpdate) && topic == "map_update") { incomingUpdate(*static_cast(data)); } else { std::cout << "[Plugin] Unknown type: " << type.name() << std::endl; } } void StaticLayer::incomingMap(const nav_msgs::OccupancyGrid& new_map) { if(!map_shutdown_) { std::cout << "Received new map!" << std::endl; unsigned int size_x = new_map.info.width, size_y = new_map.info.height; printf("Received a %d X %d map at %f m/pix\n", size_x, size_y, new_map.info.resolution); // resize costmap if size, resolution or origin do not match Costmap2D* master = layered_costmap_->getCostmap(); if (!layered_costmap_->isRolling() && (master->getSizeInCellsX() != size_x || master->getSizeInCellsY() != size_y || master->getResolution() != new_map.info.resolution || master->getOriginX() != new_map.info.origin.position.x || master->getOriginY() != new_map.info.origin.position.y)) { // Update the size of the layered costmap (and all layers, including this one) printf("Resizing costmap to %d X %d at %f m/pix\n", size_x, size_y, new_map.info.resolution); layered_costmap_->resizeMap(size_x, size_y, new_map.info.resolution, new_map.info.origin.position.x, new_map.info.origin.position.y, true /* set size_locked to true, prevents reconfigureCb from overriding map size*/); } else if (size_x_ != size_x || size_y_ != size_y || resolution_ != new_map.info.resolution || origin_x_ != new_map.info.origin.position.x || origin_y_ != new_map.info.origin.position.y) { // only update the size of the costmap stored locally in this layer printf("Resizing static layer to %d X %d at %f m/pix\n", size_x, size_y, new_map.info.resolution); resizeMap(size_x, size_y, new_map.info.resolution, new_map.info.origin.position.x, new_map.info.origin.position.y); } unsigned int index = 0; // initialize the costmap with static data for (unsigned int i = 0; i < size_y; ++i) { for (unsigned int j = 0; j < size_x; ++j) { unsigned char value = new_map.data[index]; costmap_[index] = interpretValue(value); ++index; } } map_frame_ = new_map.header.frame_id; // we have a new map, update full size of map x_ = y_ = 0; width_ = size_x_; height_ = size_y_; map_received_ = true; has_updated_data_ = true; } else { printf("Stop receive new map!"); } // shutdown the map subscrber if firt_map_only_ flag is on if (first_map_only_) { printf("Shutting down the map subscriber. first_map_only flag is on\n"); map_shutdown_ = true; } } void StaticLayer::incomingUpdate(const map_msgs::OccupancyGridUpdate& update) { if(!map_update_shutdown_) { std::cout << "Update new map!" << std::endl; unsigned int di = 0; for (unsigned int y = 0; y < update.height ; y++) { unsigned int index_base = (update.y + y) * size_x_; for (unsigned int x = 0; x < update.width ; x++) { unsigned int index = index_base + x + update.x; costmap_[index] = interpretValue(update.data[di++]); } } x_ = update.x; y_ = update.y; width_ = update.width; height_ = update.height; has_updated_data_ = true; } } void StaticLayer::activate() { map_shutdown_ = false; map_update_shutdown_ = false; onInitialize(); } void StaticLayer::deactivate() { map_shutdown_ = true; if (subscribe_to_updates_) map_update_shutdown_ = true; } void StaticLayer::reset() { if (first_map_only_) { map_shutdown_ = false; map_update_shutdown_ = false; has_updated_data_ = true; } else { onInitialize(); } printf("RESET MAP"); } void StaticLayer::updateBounds(double robot_x, double robot_y, double robot_yaw, double* min_x, double* min_y, double* max_x, double* max_y) { if( !layered_costmap_->isRolling() ){ if (!map_received_ || !(has_updated_data_ || has_extra_bounds_)) return; } useExtraBounds(min_x, min_y, max_x, max_y); double wx, wy; mapToWorld(x_, y_, wx, wy); *min_x = std::min(wx, *min_x); *min_y = std::min(wy, *min_y); mapToWorld(x_ + width_, y_ + height_, wx, wy); *max_x = std::max(wx, *max_x); *max_y = std::max(wy, *max_y); has_updated_data_ = false; } void StaticLayer::updateCosts(costmap_2d::Costmap2D& master_grid, int min_i, int min_j, int max_i, int max_j) { if (!map_received_) return; if (!layered_costmap_->isRolling()) { // if not rolling, the layered costmap (master_grid) has same coordinates as this layer if (!use_maximum_) updateWithOverwrite(master_grid, min_i, min_j, max_i, max_j); else updateWithMax(master_grid, min_i, min_j, max_i, max_j); } else { // If rolling window, the master_grid is unlikely to have same coordinates as this layer unsigned int mx, my; double wx, wy; // Might even be in a different frame // geometry_msgs::TransformStamped transform; tf3::TransformStampedMsg transformMsg; try { transformMsg = tf_->lookupTransform(map_frame_, global_frame_, tf3::Time::now()); } catch (tf3::TransformException ex) { printf("%s", ex.what()); return; } // Copy map data given proper transformations tf3::Transform tf3_transform; tf3_transform = data_convert::convertTotf3Transform(transformMsg.transform); // tf2::Transform tf2_transform; // tf2::convert(transform.transform, tf2_transform); for (unsigned int i = min_i; i < max_i; ++i) { for (unsigned int j = min_j; j < max_j; ++j) { // Convert master_grid coordinates (i,j) into global_frame_(wx,wy) coordinates layered_costmap_->getCostmap()->mapToWorld(i, j, wx, wy); // Transform from global_frame_ to map_frame_ tf3::Vector3 p(wx, wy, 0); p = tf3_transform*p; // Set master_grid with cell from map if (worldToMap(p.x(), p.y(), mx, my)) { if (!use_maximum_) master_grid.setCost(i, j, getCost(mx, my)); else master_grid.setCost(i, j, std::max(getCost(mx, my), master_grid.getCost(i, j))); } } } } } // Export factory function static std::shared_ptr create_static_plugin() { return std::make_shared(); } // Alias cho Boost.DLL (nếu muốn dùng boost::dll::import_alias) BOOST_DLL_ALIAS(create_static_plugin, create_static_layer) } // namespace costmap_2d