Support multiple simultaneous trajectories. (#194)
parent
43c4bacde3
commit
0d1e248f5f
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@ -23,22 +23,50 @@
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namespace cartographer_ros {
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namespace cartographer_ros {
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MapBuilderBridge::MapBuilderBridge(
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MapBuilderBridge::MapBuilderBridge(const NodeOptions& options,
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const NodeOptions& options,
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const std::unordered_set<string>& expected_sensor_ids,
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tf2_ros::Buffer* const tf_buffer)
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tf2_ros::Buffer* const tf_buffer)
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: options_(options),
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: options_(options),
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map_builder_(options.map_builder_options, &constant_data_),
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map_builder_(options.map_builder_options, &constant_data_),
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expected_sensor_ids_(expected_sensor_ids),
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tf_buffer_(tf_buffer) {}
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trajectory_id_(map_builder_.AddTrajectoryBuilder(expected_sensor_ids_)),
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tf_bridge_(options_.tracking_frame, options_.lookup_transform_timeout_sec,
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int MapBuilderBridge::AddTrajectory(
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tf_buffer) {
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const std::unordered_set<string>& expected_sensor_ids,
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sensor_bridge_ = cartographer::common::make_unique<SensorBridge>(
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const string& tracking_frame) {
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&tf_bridge_, map_builder_.GetTrajectoryBuilder(trajectory_id_));
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const int trajectory_id =
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map_builder_.AddTrajectoryBuilder(expected_sensor_ids);
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LOG(INFO) << "Added trajectory with ID '" << trajectory_id << "'.";
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CHECK_EQ(tf_bridges_.count(trajectory_id), 0);
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CHECK_EQ(sensor_bridges_.count(trajectory_id), 0);
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tf_bridges_[trajectory_id] = cartographer::common::make_unique<TfBridge>(
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tracking_frame, options_.lookup_transform_timeout_sec, tf_buffer_);
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sensor_bridges_[trajectory_id] =
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cartographer::common::make_unique<SensorBridge>(
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tf_bridge(trajectory_id),
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map_builder_.GetTrajectoryBuilder(trajectory_id));
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return trajectory_id;
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}
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}
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MapBuilderBridge::~MapBuilderBridge() {
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void MapBuilderBridge::FinishTrajectory(const int trajectory_id) {
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map_builder_.FinishTrajectory(trajectory_id_);
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LOG(INFO) << "Finishing trajectory with ID '" << trajectory_id << "'...";
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CHECK_EQ(tf_bridges_.count(trajectory_id), 1);
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CHECK_EQ(sensor_bridges_.count(trajectory_id), 1);
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map_builder_.FinishTrajectory(trajectory_id);
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map_builder_.sparse_pose_graph()->RunFinalOptimization();
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tf_bridges_.erase(trajectory_id);
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sensor_bridges_.erase(trajectory_id);
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}
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void MapBuilderBridge::WriteAssets(const string& stem) {
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const auto trajectory_nodes =
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map_builder_.sparse_pose_graph()->GetTrajectoryNodes();
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if (trajectory_nodes.empty()) {
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LOG(WARNING) << "No data was collected and no assets will be written.";
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} else {
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LOG(INFO) << "Writing assets to '" << stem << "'...";
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cartographer_ros::WriteAssets(trajectory_nodes, options_, stem);
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}
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}
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}
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bool MapBuilderBridge::HandleSubmapQuery(
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bool MapBuilderBridge::HandleSubmapQuery(
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@ -63,32 +91,6 @@ bool MapBuilderBridge::HandleSubmapQuery(
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return true;
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return true;
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}
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}
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bool MapBuilderBridge::HandleFinishTrajectory(
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cartographer_ros_msgs::FinishTrajectory::Request& request,
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cartographer_ros_msgs::FinishTrajectory::Response& response) {
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LOG(INFO) << "Finishing trajectory...";
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const int previous_trajectory_id = trajectory_id_;
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trajectory_id_ = map_builder_.AddTrajectoryBuilder(expected_sensor_ids_);
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sensor_bridge_ = cartographer::common::make_unique<SensorBridge>(
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&tf_bridge_, map_builder_.GetTrajectoryBuilder(trajectory_id_));
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map_builder_.FinishTrajectory(previous_trajectory_id);
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map_builder_.sparse_pose_graph()->RunFinalOptimization();
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const auto trajectory_nodes =
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map_builder_.sparse_pose_graph()->GetTrajectoryNodes();
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if (trajectory_nodes.empty()) {
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LOG(WARNING) << "No data collected and no assets will be written.";
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} else {
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LOG(INFO) << "Writing assets...";
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WriteAssets(trajectory_nodes, options_, request.stem);
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}
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LOG(INFO) << "New trajectory started.";
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return true;
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}
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cartographer_ros_msgs::SubmapList MapBuilderBridge::GetSubmapList() {
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cartographer_ros_msgs::SubmapList MapBuilderBridge::GetSubmapList() {
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cartographer_ros_msgs::SubmapList submap_list;
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cartographer_ros_msgs::SubmapList submap_list;
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submap_list.header.stamp = ::ros::Time::now();
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submap_list.header.stamp = ::ros::Time::now();
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@ -130,4 +132,16 @@ MapBuilderBridge::BuildOccupancyGrid() {
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return occupancy_grid;
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return occupancy_grid;
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}
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}
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SensorBridge* MapBuilderBridge::sensor_bridge(const int trajectory_id) {
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return sensor_bridges_.at(trajectory_id).get();
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}
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TfBridge* MapBuilderBridge::tf_bridge(const int trajectory_id) {
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return tf_bridges_.at(trajectory_id).get();
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}
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cartographer::mapping::MapBuilder* MapBuilderBridge::map_builder() {
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return &map_builder_;
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}
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} // namespace cartographer_ros
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} // namespace cartographer_ros
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@ -19,6 +19,7 @@
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#include <memory>
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#include <memory>
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#include <unordered_set>
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#include <unordered_set>
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#include <unordered_map>
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#include "cartographer/mapping/map_builder.h"
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#include "cartographer/mapping/map_builder.h"
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#include "cartographer_ros/node_options.h"
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#include "cartographer_ros/node_options.h"
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@ -34,30 +35,26 @@ namespace cartographer_ros {
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class MapBuilderBridge {
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class MapBuilderBridge {
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public:
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public:
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MapBuilderBridge(const NodeOptions& options,
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MapBuilderBridge(const NodeOptions& options, tf2_ros::Buffer* tf_buffer);
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const std::unordered_set<string>& expected_sensor_ids,
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tf2_ros::Buffer* tf_buffer);
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~MapBuilderBridge();
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MapBuilderBridge(const MapBuilderBridge&) = delete;
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MapBuilderBridge(const MapBuilderBridge&) = delete;
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MapBuilderBridge& operator=(const MapBuilderBridge&) = delete;
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MapBuilderBridge& operator=(const MapBuilderBridge&) = delete;
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int AddTrajectory(const std::unordered_set<string>& expected_sensor_ids,
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const string& tracking_frame);
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void FinishTrajectory(int trajectory_id);
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void WriteAssets(const string& stem);
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bool HandleSubmapQuery(
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bool HandleSubmapQuery(
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cartographer_ros_msgs::SubmapQuery::Request& request,
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cartographer_ros_msgs::SubmapQuery::Request& request,
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cartographer_ros_msgs::SubmapQuery::Response& response);
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cartographer_ros_msgs::SubmapQuery::Response& response);
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bool HandleFinishTrajectory(
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cartographer_ros_msgs::FinishTrajectory::Request& request,
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cartographer_ros_msgs::FinishTrajectory::Response& response);
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cartographer_ros_msgs::SubmapList GetSubmapList();
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cartographer_ros_msgs::SubmapList GetSubmapList();
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std::unique_ptr<nav_msgs::OccupancyGrid> BuildOccupancyGrid();
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std::unique_ptr<nav_msgs::OccupancyGrid> BuildOccupancyGrid();
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SensorBridge* sensor_bridge() { return sensor_bridge_.get(); }
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SensorBridge* sensor_bridge(int trajectory_id);
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TfBridge* tf_bridge(int trajectory_id);
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// TODO(damonkohler): Remove these accessors.
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cartographer::mapping::MapBuilder* map_builder();
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int trajectory_id() const { return trajectory_id_; }
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TfBridge* tf_bridge() { return &tf_bridge_; }
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cartographer::mapping::MapBuilder* map_builder() { return &map_builder_; }
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private:
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private:
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const NodeOptions options_;
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const NodeOptions options_;
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@ -65,10 +62,9 @@ class MapBuilderBridge {
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std::deque<cartographer::mapping::TrajectoryNode::ConstantData>
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std::deque<cartographer::mapping::TrajectoryNode::ConstantData>
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constant_data_;
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constant_data_;
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cartographer::mapping::MapBuilder map_builder_;
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cartographer::mapping::MapBuilder map_builder_;
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std::unordered_set<string> expected_sensor_ids_;
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tf2_ros::Buffer* const tf_buffer_;
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int trajectory_id_ = -1;
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std::unordered_map<int, std::unique_ptr<TfBridge>> tf_bridges_;
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TfBridge tf_bridge_;
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std::unordered_map<int, std::unique_ptr<SensorBridge>> sensor_bridges_;
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std::unique_ptr<SensorBridge> sensor_bridge_;
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};
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};
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} // namespace cartographer_ros
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} // namespace cartographer_ros
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@ -64,11 +64,14 @@ constexpr char kFinishTrajectoryServiceName[] = "finish_trajectory";
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Node::Node(const NodeOptions& options)
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Node::Node(const NodeOptions& options)
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: options_(options),
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: options_(options),
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tf_buffer_(::ros::Duration(kTfBufferCacheTimeInSeconds)),
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tf_buffer_(::ros::Duration(kTfBufferCacheTimeInSeconds)),
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tf_(tf_buffer_) {}
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tf_(tf_buffer_),
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map_builder_bridge_(options_, &tf_buffer_) {}
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Node::~Node() {
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Node::~Node() {
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{
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{
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carto::common::MutexLocker lock(&mutex_);
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carto::common::MutexLocker lock(&mutex_);
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CHECK_GE(trajectory_id_, 0);
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map_builder_bridge_.FinishTrajectory(trajectory_id_);
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terminating_ = true;
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terminating_ = true;
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}
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}
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if (occupancy_grid_thread_.joinable()) {
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if (occupancy_grid_thread_.joinable()) {
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@ -78,29 +81,27 @@ Node::~Node() {
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void Node::Initialize() {
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void Node::Initialize() {
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carto::common::MutexLocker lock(&mutex_);
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carto::common::MutexLocker lock(&mutex_);
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std::unordered_set<string> expected_sensor_ids;
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// For 2D SLAM, subscribe to exactly one horizontal laser.
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// For 2D SLAM, subscribe to exactly one horizontal laser.
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if (options_.use_laser_scan) {
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if (options_.use_laser_scan) {
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horizontal_laser_scan_subscriber_ = node_handle_.subscribe(
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horizontal_laser_scan_subscriber_ = node_handle_.subscribe(
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kLaserScanTopic, kInfiniteSubscriberQueueSize,
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kLaserScanTopic, kInfiniteSubscriberQueueSize,
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boost::function<void(const sensor_msgs::LaserScan::ConstPtr&)>(
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boost::function<void(const sensor_msgs::LaserScan::ConstPtr&)>(
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[this](const sensor_msgs::LaserScan::ConstPtr& msg) {
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[this](const sensor_msgs::LaserScan::ConstPtr& msg) {
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map_builder_bridge_->sensor_bridge()->HandleLaserScanMessage(
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map_builder_bridge_.sensor_bridge(trajectory_id_)->HandleLaserScanMessage(
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kLaserScanTopic, msg);
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kLaserScanTopic, msg);
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}));
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}));
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expected_sensor_ids.insert(kLaserScanTopic);
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expected_sensor_ids_.insert(kLaserScanTopic);
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}
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}
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if (options_.use_multi_echo_laser_scan) {
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if (options_.use_multi_echo_laser_scan) {
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horizontal_laser_scan_subscriber_ = node_handle_.subscribe(
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horizontal_laser_scan_subscriber_ = node_handle_.subscribe(
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kMultiEchoLaserScanTopic, kInfiniteSubscriberQueueSize,
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kMultiEchoLaserScanTopic, kInfiniteSubscriberQueueSize,
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boost::function<void(const sensor_msgs::MultiEchoLaserScan::ConstPtr&)>(
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boost::function<void(const sensor_msgs::MultiEchoLaserScan::ConstPtr&)>(
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[this](const sensor_msgs::MultiEchoLaserScan::ConstPtr& msg) {
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[this](const sensor_msgs::MultiEchoLaserScan::ConstPtr& msg) {
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map_builder_bridge_->sensor_bridge()
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map_builder_bridge_.sensor_bridge(trajectory_id_)
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->HandleMultiEchoLaserScanMessage(kMultiEchoLaserScanTopic,
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->HandleMultiEchoLaserScanMessage(kMultiEchoLaserScanTopic,
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msg);
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msg);
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}));
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}));
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expected_sensor_ids.insert(kMultiEchoLaserScanTopic);
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expected_sensor_ids_.insert(kMultiEchoLaserScanTopic);
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}
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}
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// For 3D SLAM, subscribe to all point clouds topics.
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// For 3D SLAM, subscribe to all point clouds topics.
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topic, kInfiniteSubscriberQueueSize,
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topic, kInfiniteSubscriberQueueSize,
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boost::function<void(const sensor_msgs::PointCloud2::ConstPtr&)>(
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boost::function<void(const sensor_msgs::PointCloud2::ConstPtr&)>(
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[this, topic](const sensor_msgs::PointCloud2::ConstPtr& msg) {
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[this, topic](const sensor_msgs::PointCloud2::ConstPtr& msg) {
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map_builder_bridge_->sensor_bridge()->HandlePointCloud2Message(
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map_builder_bridge_.sensor_bridge(trajectory_id_)->HandlePointCloud2Message(
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topic, msg);
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topic, msg);
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})));
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})));
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expected_sensor_ids.insert(topic);
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expected_sensor_ids_.insert(topic);
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}
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}
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}
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}
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kImuTopic, kInfiniteSubscriberQueueSize,
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kImuTopic, kInfiniteSubscriberQueueSize,
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boost::function<void(const sensor_msgs::Imu::ConstPtr& msg)>(
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boost::function<void(const sensor_msgs::Imu::ConstPtr& msg)>(
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[this](const sensor_msgs::Imu::ConstPtr& msg) {
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[this](const sensor_msgs::Imu::ConstPtr& msg) {
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map_builder_bridge_->sensor_bridge()->HandleImuMessage(kImuTopic,
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map_builder_bridge_.sensor_bridge(trajectory_id_)->HandleImuMessage(kImuTopic,
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msg);
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msg);
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}));
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}));
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expected_sensor_ids.insert(kImuTopic);
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expected_sensor_ids_.insert(kImuTopic);
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}
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}
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if (options_.use_odometry) {
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if (options_.use_odometry) {
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kOdometryTopic, kInfiniteSubscriberQueueSize,
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kOdometryTopic, kInfiniteSubscriberQueueSize,
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boost::function<void(const nav_msgs::Odometry::ConstPtr&)>(
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boost::function<void(const nav_msgs::Odometry::ConstPtr&)>(
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[this](const nav_msgs::Odometry::ConstPtr& msg) {
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[this](const nav_msgs::Odometry::ConstPtr& msg) {
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map_builder_bridge_->sensor_bridge()->HandleOdometryMessage(
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map_builder_bridge_.sensor_bridge(trajectory_id_)->HandleOdometryMessage(
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kOdometryTopic, msg);
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kOdometryTopic, msg);
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}));
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}));
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expected_sensor_ids.insert(kOdometryTopic);
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expected_sensor_ids_.insert(kOdometryTopic);
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}
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}
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map_builder_bridge_ = carto::common::make_unique<MapBuilderBridge>(
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trajectory_id_ = map_builder_bridge_.AddTrajectory(expected_sensor_ids_,
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options_, expected_sensor_ids, &tf_buffer_);
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options_.tracking_frame);
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submap_list_publisher_ =
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submap_list_publisher_ =
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node_handle_.advertise<::cartographer_ros_msgs::SubmapList>(
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node_handle_.advertise<::cartographer_ros_msgs::SubmapList>(
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@ -185,27 +186,31 @@ bool Node::HandleSubmapQuery(
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::cartographer_ros_msgs::SubmapQuery::Request& request,
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::cartographer_ros_msgs::SubmapQuery::Request& request,
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::cartographer_ros_msgs::SubmapQuery::Response& response) {
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::cartographer_ros_msgs::SubmapQuery::Response& response) {
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carto::common::MutexLocker lock(&mutex_);
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carto::common::MutexLocker lock(&mutex_);
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return map_builder_bridge_->HandleSubmapQuery(request, response);
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return map_builder_bridge_.HandleSubmapQuery(request, response);
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}
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}
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bool Node::HandleFinishTrajectory(
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bool Node::HandleFinishTrajectory(
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::cartographer_ros_msgs::FinishTrajectory::Request& request,
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::cartographer_ros_msgs::FinishTrajectory::Request& request,
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::cartographer_ros_msgs::FinishTrajectory::Response& response) {
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::cartographer_ros_msgs::FinishTrajectory::Response&) {
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carto::common::MutexLocker lock(&mutex_);
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carto::common::MutexLocker lock(&mutex_);
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return map_builder_bridge_->HandleFinishTrajectory(request, response);
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const int previous_trajectory_id = trajectory_id_;
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trajectory_id_ = map_builder_bridge_.AddTrajectory(expected_sensor_ids_,
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options_.tracking_frame);
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map_builder_bridge_.FinishTrajectory(previous_trajectory_id);
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map_builder_bridge_.WriteAssets(request.stem);
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return true;
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}
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}
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void Node::PublishSubmapList(const ::ros::WallTimerEvent& unused_timer_event) {
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void Node::PublishSubmapList(const ::ros::WallTimerEvent& unused_timer_event) {
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carto::common::MutexLocker lock(&mutex_);
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carto::common::MutexLocker lock(&mutex_);
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submap_list_publisher_.publish(map_builder_bridge_->GetSubmapList());
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submap_list_publisher_.publish(map_builder_bridge_.GetSubmapList());
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}
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}
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void Node::PublishPoseAndScanMatchedPointCloud(
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void Node::PublishPoseAndScanMatchedPointCloud(
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const ::ros::WallTimerEvent& timer_event) {
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const ::ros::WallTimerEvent& timer_event) {
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carto::common::MutexLocker lock(&mutex_);
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carto::common::MutexLocker lock(&mutex_);
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const carto::mapping::TrajectoryBuilder* trajectory_builder =
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const carto::mapping::TrajectoryBuilder* trajectory_builder =
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map_builder_bridge_->map_builder()->GetTrajectoryBuilder(
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map_builder_bridge_.map_builder()->GetTrajectoryBuilder(trajectory_id_);
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map_builder_bridge_->trajectory_id());
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const carto::mapping::TrajectoryBuilder::PoseEstimate last_pose_estimate =
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const carto::mapping::TrajectoryBuilder::PoseEstimate last_pose_estimate =
|
||||||
trajectory_builder->pose_estimate();
|
trajectory_builder->pose_estimate();
|
||||||
if (carto::common::ToUniversal(last_pose_estimate.time) < 0) {
|
if (carto::common::ToUniversal(last_pose_estimate.time) < 0) {
|
||||||
|
@ -214,7 +219,7 @@ void Node::PublishPoseAndScanMatchedPointCloud(
|
||||||
|
|
||||||
const Rigid3d tracking_to_local = last_pose_estimate.pose;
|
const Rigid3d tracking_to_local = last_pose_estimate.pose;
|
||||||
const Rigid3d local_to_map =
|
const Rigid3d local_to_map =
|
||||||
map_builder_bridge_->map_builder()
|
map_builder_bridge_.map_builder()
|
||||||
->sparse_pose_graph()
|
->sparse_pose_graph()
|
||||||
->GetLocalToGlobalTransform(*trajectory_builder->submaps());
|
->GetLocalToGlobalTransform(*trajectory_builder->submaps());
|
||||||
const Rigid3d tracking_to_map = local_to_map * tracking_to_local;
|
const Rigid3d tracking_to_map = local_to_map * tracking_to_local;
|
||||||
|
@ -239,8 +244,8 @@ void Node::PublishPoseAndScanMatchedPointCloud(
|
||||||
}
|
}
|
||||||
|
|
||||||
const auto published_to_tracking =
|
const auto published_to_tracking =
|
||||||
map_builder_bridge_->tf_bridge()->LookupToTracking(
|
map_builder_bridge_.tf_bridge(trajectory_id_)
|
||||||
last_pose_estimate.time, options_.published_frame);
|
->LookupToTracking(last_pose_estimate.time, options_.published_frame);
|
||||||
if (published_to_tracking != nullptr) {
|
if (published_to_tracking != nullptr) {
|
||||||
if (options_.provide_odom_frame) {
|
if (options_.provide_odom_frame) {
|
||||||
std::vector<geometry_msgs::TransformStamped> stamped_transforms;
|
std::vector<geometry_msgs::TransformStamped> stamped_transforms;
|
||||||
|
@ -279,7 +284,7 @@ void Node::SpinOccupancyGridThreadForever() {
|
||||||
if (occupancy_grid_publisher_.getNumSubscribers() == 0) {
|
if (occupancy_grid_publisher_.getNumSubscribers() == 0) {
|
||||||
continue;
|
continue;
|
||||||
}
|
}
|
||||||
const auto occupancy_grid = map_builder_bridge_->BuildOccupancyGrid();
|
const auto occupancy_grid = map_builder_bridge_.BuildOccupancyGrid();
|
||||||
if (occupancy_grid != nullptr) {
|
if (occupancy_grid != nullptr) {
|
||||||
occupancy_grid_publisher_.publish(*occupancy_grid);
|
occupancy_grid_publisher_.publish(*occupancy_grid);
|
||||||
}
|
}
|
||||||
|
|
|
@ -66,7 +66,9 @@ class Node {
|
||||||
tf2_ros::TransformBroadcaster tf_broadcaster_;
|
tf2_ros::TransformBroadcaster tf_broadcaster_;
|
||||||
|
|
||||||
cartographer::common::Mutex mutex_;
|
cartographer::common::Mutex mutex_;
|
||||||
std::unique_ptr<MapBuilderBridge> map_builder_bridge_ GUARDED_BY(mutex_);
|
MapBuilderBridge map_builder_bridge_ GUARDED_BY(mutex_);
|
||||||
|
int trajectory_id_ = -1;
|
||||||
|
std::unordered_set<string> expected_sensor_ids_;
|
||||||
|
|
||||||
::ros::NodeHandle node_handle_;
|
::ros::NodeHandle node_handle_;
|
||||||
::ros::Subscriber imu_subscriber_;
|
::ros::Subscriber imu_subscriber_;
|
||||||
|
|
Loading…
Reference in New Issue