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planner_server.cpp
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planner_server.cpp
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// Copyright (c) 2018 Intel Corporation
// Copyright (c) 2019 Samsung Research America
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include <chrono>
#include <cmath>
#include <iomanip>
#include <iostream>
#include <limits>
#include <iterator>
#include <memory>
#include <string>
#include <vector>
#include <utility>
#include "builtin_interfaces/msg/duration.hpp"
#include "lifecycle_msgs/msg/state.hpp"
#include "nav2_util/costmap.hpp"
#include "nav2_util/node_utils.hpp"
#include "nav2_util/geometry_utils.hpp"
#include "nav2_costmap_2d/cost_values.hpp"
#include "nav2_planner/planner_server.hpp"
using namespace std::chrono_literals;
using rcl_interfaces::msg::ParameterType;
using std::placeholders::_1;
namespace nav2_planner
{
PlannerServer::PlannerServer(const rclcpp::NodeOptions & options)
: nav2_util::LifecycleNode("planner_server", "", options),
gp_loader_("nav2_core", "nav2_core::GlobalPlanner"),
default_ids_{"GridBased"},
default_types_{"nav2_navfn_planner/NavfnPlanner"},
costmap_(nullptr)
{
RCLCPP_INFO(get_logger(), "Creating");
// Declare this node's parameters
declare_parameter("planner_plugins", default_ids_);
declare_parameter("expected_planner_frequency", 1.0);
declare_parameter("action_server_result_timeout", 10.0);
get_parameter("planner_plugins", planner_ids_);
if (planner_ids_ == default_ids_) {
for (size_t i = 0; i < default_ids_.size(); ++i) {
declare_parameter(default_ids_[i] + ".plugin", default_types_[i]);
}
}
// Setup the global costmap
costmap_ros_ = std::make_shared<nav2_costmap_2d::Costmap2DROS>(
"global_costmap", std::string{get_namespace()}, "global_costmap",
get_parameter("use_sim_time").as_bool());
}
PlannerServer::~PlannerServer()
{
/*
* Backstop ensuring this state is destroyed, even if deactivate/cleanup are
* never called.
*/
planners_.clear();
costmap_thread_.reset();
}
nav2_util::CallbackReturn
PlannerServer::on_configure(const rclcpp_lifecycle::State & /*state*/)
{
RCLCPP_INFO(get_logger(), "Configuring");
costmap_ros_->configure();
costmap_ = costmap_ros_->getCostmap();
// Launch a thread to run the costmap node
costmap_thread_ = std::make_unique<nav2_util::NodeThread>(costmap_ros_);
RCLCPP_DEBUG(
get_logger(), "Costmap size: %d,%d",
costmap_->getSizeInCellsX(), costmap_->getSizeInCellsY());
tf_ = costmap_ros_->getTfBuffer();
planner_types_.resize(planner_ids_.size());
auto node = shared_from_this();
for (size_t i = 0; i != planner_ids_.size(); i++) {
try {
planner_types_[i] = nav2_util::get_plugin_type_param(
node, planner_ids_[i]);
nav2_core::GlobalPlanner::Ptr planner =
gp_loader_.createUniqueInstance(planner_types_[i]);
RCLCPP_INFO(
get_logger(), "Created global planner plugin %s of type %s",
planner_ids_[i].c_str(), planner_types_[i].c_str());
planner->configure(node, planner_ids_[i], tf_, costmap_ros_);
planners_.insert({planner_ids_[i], planner});
} catch (const std::exception & ex) {
RCLCPP_FATAL(
get_logger(), "Failed to create global planner. Exception: %s",
ex.what());
return nav2_util::CallbackReturn::FAILURE;
}
}
for (size_t i = 0; i != planner_ids_.size(); i++) {
planner_ids_concat_ += planner_ids_[i] + std::string(" ");
}
RCLCPP_INFO(
get_logger(),
"Planner Server has %s planners available.", planner_ids_concat_.c_str());
double expected_planner_frequency;
get_parameter("expected_planner_frequency", expected_planner_frequency);
if (expected_planner_frequency > 0) {
max_planner_duration_ = 1 / expected_planner_frequency;
} else {
RCLCPP_WARN(
get_logger(),
"The expected planner frequency parameter is %.4f Hz. The value should to be greater"
" than 0.0 to turn on duration overrrun warning messages", expected_planner_frequency);
max_planner_duration_ = 0.0;
}
// Initialize pubs & subs
plan_publisher_ = create_publisher<nav_msgs::msg::Path>("plan", 1);
double action_server_result_timeout;
get_parameter("action_server_result_timeout", action_server_result_timeout);
rcl_action_server_options_t server_options = rcl_action_server_get_default_options();
server_options.result_timeout.nanoseconds = RCL_S_TO_NS(action_server_result_timeout);
// Create the action servers for path planning to a pose and through poses
action_server_pose_ = std::make_unique<ActionServerToPose>(
shared_from_this(),
"compute_path_to_pose",
std::bind(&PlannerServer::computePlan, this),
nullptr,
std::chrono::milliseconds(500),
true, server_options);
action_server_poses_ = std::make_unique<ActionServerThroughPoses>(
shared_from_this(),
"compute_path_through_poses",
std::bind(&PlannerServer::computePlanThroughPoses, this),
nullptr,
std::chrono::milliseconds(500),
true, server_options);
return nav2_util::CallbackReturn::SUCCESS;
}
nav2_util::CallbackReturn
PlannerServer::on_activate(const rclcpp_lifecycle::State & /*state*/)
{
RCLCPP_INFO(get_logger(), "Activating");
plan_publisher_->on_activate();
action_server_pose_->activate();
action_server_poses_->activate();
const auto costmap_ros_state = costmap_ros_->activate();
if (costmap_ros_state.id() != lifecycle_msgs::msg::State::PRIMARY_STATE_ACTIVE) {
return nav2_util::CallbackReturn::FAILURE;
}
PlannerMap::iterator it;
for (it = planners_.begin(); it != planners_.end(); ++it) {
it->second->activate();
}
auto node = shared_from_this();
is_path_valid_service_ = node->create_service<nav2_msgs::srv::IsPathValid>(
"is_path_valid",
std::bind(
&PlannerServer::isPathValid, this,
std::placeholders::_1, std::placeholders::_2));
// Add callback for dynamic parameters
dyn_params_handler_ = node->add_on_set_parameters_callback(
std::bind(&PlannerServer::dynamicParametersCallback, this, _1));
// create bond connection
createBond();
return nav2_util::CallbackReturn::SUCCESS;
}
nav2_util::CallbackReturn
PlannerServer::on_deactivate(const rclcpp_lifecycle::State & /*state*/)
{
RCLCPP_INFO(get_logger(), "Deactivating");
action_server_pose_->deactivate();
action_server_poses_->deactivate();
plan_publisher_->on_deactivate();
/*
* The costmap is also a lifecycle node, so it may have already fired on_deactivate
* via rcl preshutdown cb. Despite the rclcpp docs saying on_shutdown callbacks fire
* in the order added, the preshutdown callbacks clearly don't per se, due to using an
* unordered_set iteration. Once this issue is resolved, we can maybe make a stronger
* ordering assumption: https://github.com/ros2/rclcpp/issues/2096
*/
if (costmap_ros_->get_current_state().id() ==
lifecycle_msgs::msg::State::PRIMARY_STATE_ACTIVE)
{
costmap_ros_->deactivate();
}
PlannerMap::iterator it;
for (it = planners_.begin(); it != planners_.end(); ++it) {
it->second->deactivate();
}
dyn_params_handler_.reset();
// destroy bond connection
destroyBond();
return nav2_util::CallbackReturn::SUCCESS;
}
nav2_util::CallbackReturn
PlannerServer::on_cleanup(const rclcpp_lifecycle::State & /*state*/)
{
RCLCPP_INFO(get_logger(), "Cleaning up");
action_server_pose_.reset();
action_server_poses_.reset();
plan_publisher_.reset();
tf_.reset();
/*
* Double check whether something else transitioned it to INACTIVE
* already, e.g. the rcl preshutdown callback.
*/
if (costmap_ros_->get_current_state().id() ==
lifecycle_msgs::msg::State::PRIMARY_STATE_INACTIVE)
{
costmap_ros_->cleanup();
}
PlannerMap::iterator it;
for (it = planners_.begin(); it != planners_.end(); ++it) {
it->second->cleanup();
}
planners_.clear();
costmap_thread_.reset();
costmap_ = nullptr;
return nav2_util::CallbackReturn::SUCCESS;
}
nav2_util::CallbackReturn
PlannerServer::on_shutdown(const rclcpp_lifecycle::State &)
{
RCLCPP_INFO(get_logger(), "Shutting down");
return nav2_util::CallbackReturn::SUCCESS;
}
template<typename T>
bool PlannerServer::isServerInactive(
std::unique_ptr<nav2_util::SimpleActionServer<T>> & action_server)
{
if (action_server == nullptr || !action_server->is_server_active()) {
RCLCPP_DEBUG(get_logger(), "Action server unavailable or inactive. Stopping.");
return true;
}
return false;
}
void PlannerServer::waitForCostmap()
{
// Don't compute a plan until costmap is valid (after clear costmap)
rclcpp::Rate r(100);
while (!costmap_ros_->isCurrent()) {
r.sleep();
}
}
template<typename T>
bool PlannerServer::isCancelRequested(
std::unique_ptr<nav2_util::SimpleActionServer<T>> & action_server)
{
if (action_server->is_cancel_requested()) {
RCLCPP_INFO(get_logger(), "Goal was canceled. Canceling planning action.");
action_server->terminate_all();
return true;
}
return false;
}
template<typename T>
void PlannerServer::getPreemptedGoalIfRequested(
std::unique_ptr<nav2_util::SimpleActionServer<T>> & action_server,
typename std::shared_ptr<const typename T::Goal> goal)
{
if (action_server->is_preempt_requested()) {
goal = action_server->accept_pending_goal();
}
}
template<typename T>
bool PlannerServer::getStartPose(
typename std::shared_ptr<const typename T::Goal> goal,
geometry_msgs::msg::PoseStamped & start)
{
if (goal->use_start) {
start = goal->start;
} else if (!costmap_ros_->getRobotPose(start)) {
return false;
}
return true;
}
bool PlannerServer::transformPosesToGlobalFrame(
geometry_msgs::msg::PoseStamped & curr_start,
geometry_msgs::msg::PoseStamped & curr_goal)
{
if (!costmap_ros_->transformPoseToGlobalFrame(curr_start, curr_start) ||
!costmap_ros_->transformPoseToGlobalFrame(curr_goal, curr_goal))
{
return false;
}
return true;
}
template<typename T>
bool PlannerServer::validatePath(
const geometry_msgs::msg::PoseStamped & goal,
const nav_msgs::msg::Path & path,
const std::string & planner_id)
{
if (path.poses.empty()) {
RCLCPP_WARN(
get_logger(), "Planning algorithm %s failed to generate a valid"
" path to (%.2f, %.2f)", planner_id.c_str(),
goal.pose.position.x, goal.pose.position.y);
return false;
}
RCLCPP_DEBUG(
get_logger(),
"Found valid path of size %zu to (%.2f, %.2f)",
path.poses.size(), goal.pose.position.x,
goal.pose.position.y);
return true;
}
void PlannerServer::computePlanThroughPoses()
{
std::lock_guard<std::mutex> lock(dynamic_params_lock_);
auto start_time = steady_clock_.now();
// Initialize the ComputePathThroughPoses goal and result
auto goal = action_server_poses_->get_current_goal();
auto result = std::make_shared<ActionThroughPoses::Result>();
nav_msgs::msg::Path concat_path;
geometry_msgs::msg::PoseStamped curr_start, curr_goal;
try {
if (isServerInactive(action_server_poses_) || isCancelRequested(action_server_poses_)) {
return;
}
waitForCostmap();
getPreemptedGoalIfRequested(action_server_poses_, goal);
if (goal->goals.empty()) {
throw nav2_core::NoViapointsGiven("No viapoints given");
}
// Use start pose if provided otherwise use current robot pose
geometry_msgs::msg::PoseStamped start;
if (!getStartPose<ActionThroughPoses>(goal, start)) {
throw nav2_core::PlannerTFError("Unable to get start pose");
}
// Get consecutive paths through these points
for (unsigned int i = 0; i != goal->goals.size(); i++) {
// Get starting point
if (i == 0) {
curr_start = start;
} else {
curr_start = goal->goals[i - 1];
}
curr_goal = goal->goals[i];
// Transform them into the global frame
if (!transformPosesToGlobalFrame(curr_start, curr_goal)) {
throw nav2_core::PlannerTFError("Unable to transform poses to global frame");
}
// Get plan from start -> goal
nav_msgs::msg::Path curr_path = getPlan(curr_start, curr_goal, goal->planner_id);
if (!validatePath<ActionThroughPoses>(curr_goal, curr_path, goal->planner_id)) {
throw nav2_core::NoValidPathCouldBeFound(goal->planner_id + " generated a empty path");
}
// Concatenate paths together
concat_path.poses.insert(
concat_path.poses.end(), curr_path.poses.begin(), curr_path.poses.end());
concat_path.header = curr_path.header;
}
// Publish the plan for visualization purposes
result->path = concat_path;
publishPlan(result->path);
auto cycle_duration = steady_clock_.now() - start_time;
result->planning_time = cycle_duration;
if (max_planner_duration_ && cycle_duration.seconds() > max_planner_duration_) {
RCLCPP_WARN(
get_logger(),
"Planner loop missed its desired rate of %.4f Hz. Current loop rate is %.4f Hz",
1 / max_planner_duration_, 1 / cycle_duration.seconds());
}
action_server_poses_->succeeded_current(result);
} catch (nav2_core::InvalidPlanner & ex) {
exceptionWarning(curr_start, curr_goal, goal->planner_id, ex);
result->error_code = ActionThroughPosesResult::INVALID_PLANNER;
action_server_poses_->terminate_current(result);
} catch (nav2_core::StartOccupied & ex) {
exceptionWarning(curr_start, curr_goal, goal->planner_id, ex);
result->error_code = ActionThroughPosesResult::START_OCCUPIED;
action_server_poses_->terminate_current(result);
} catch (nav2_core::GoalOccupied & ex) {
exceptionWarning(curr_start, curr_goal, goal->planner_id, ex);
result->error_code = ActionThroughPosesResult::GOAL_OCCUPIED;
action_server_poses_->terminate_current(result);
} catch (nav2_core::NoValidPathCouldBeFound & ex) {
exceptionWarning(curr_start, curr_goal, goal->planner_id, ex);
result->error_code = ActionThroughPosesResult::NO_VALID_PATH;
action_server_poses_->terminate_current(result);
} catch (nav2_core::PlannerTimedOut & ex) {
exceptionWarning(curr_start, curr_goal, goal->planner_id, ex);
result->error_code = ActionThroughPosesResult::TIMEOUT;
action_server_poses_->terminate_current(result);
} catch (nav2_core::StartOutsideMapBounds & ex) {
exceptionWarning(curr_start, curr_goal, goal->planner_id, ex);
result->error_code = ActionThroughPosesResult::START_OUTSIDE_MAP;
action_server_poses_->terminate_current(result);
} catch (nav2_core::GoalOutsideMapBounds & ex) {
exceptionWarning(curr_start, curr_goal, goal->planner_id, ex);
result->error_code = ActionThroughPosesResult::GOAL_OUTSIDE_MAP;
action_server_poses_->terminate_current(result);
} catch (nav2_core::PlannerTFError & ex) {
exceptionWarning(curr_start, curr_goal, goal->planner_id, ex);
result->error_code = ActionThroughPosesResult::TF_ERROR;
action_server_poses_->terminate_current(result);
} catch (nav2_core::NoViapointsGiven & ex) {
exceptionWarning(curr_start, curr_goal, goal->planner_id, ex);
result->error_code = ActionThroughPosesResult::NO_VIAPOINTS_GIVEN;
action_server_poses_->terminate_current(result);
} catch (std::exception & ex) {
exceptionWarning(curr_start, curr_goal, goal->planner_id, ex);
result->error_code = ActionThroughPosesResult::UNKNOWN;
action_server_poses_->terminate_current(result);
}
}
void
PlannerServer::computePlan()
{
std::lock_guard<std::mutex> lock(dynamic_params_lock_);
auto start_time = steady_clock_.now();
// Initialize the ComputePathToPose goal and result
auto goal = action_server_pose_->get_current_goal();
auto result = std::make_shared<ActionToPose::Result>();
geometry_msgs::msg::PoseStamped start;
try {
if (isServerInactive(action_server_pose_) || isCancelRequested(action_server_pose_)) {
return;
}
waitForCostmap();
getPreemptedGoalIfRequested(action_server_pose_, goal);
// Use start pose if provided otherwise use current robot pose
if (!getStartPose<ActionToPose>(goal, start)) {
throw nav2_core::PlannerTFError("Unable to get start pose");
}
// Transform them into the global frame
geometry_msgs::msg::PoseStamped goal_pose = goal->goal;
if (!transformPosesToGlobalFrame(start, goal_pose)) {
throw nav2_core::PlannerTFError("Unable to transform poses to global frame");
}
result->path = getPlan(start, goal_pose, goal->planner_id);
if (!validatePath<ActionThroughPoses>(goal_pose, result->path, goal->planner_id)) {
throw nav2_core::NoValidPathCouldBeFound(goal->planner_id + " generated a empty path");
}
// Publish the plan for visualization purposes
publishPlan(result->path);
auto cycle_duration = steady_clock_.now() - start_time;
result->planning_time = cycle_duration;
if (max_planner_duration_ && cycle_duration.seconds() > max_planner_duration_) {
RCLCPP_WARN(
get_logger(),
"Planner loop missed its desired rate of %.4f Hz. Current loop rate is %.4f Hz",
1 / max_planner_duration_, 1 / cycle_duration.seconds());
}
action_server_pose_->succeeded_current(result);
} catch (nav2_core::InvalidPlanner & ex) {
exceptionWarning(start, goal->goal, goal->planner_id, ex);
result->error_code = ActionToPoseResult::INVALID_PLANNER;
action_server_pose_->terminate_current(result);
} catch (nav2_core::StartOccupied & ex) {
exceptionWarning(start, goal->goal, goal->planner_id, ex);
result->error_code = ActionToPoseResult::START_OCCUPIED;
action_server_pose_->terminate_current(result);
} catch (nav2_core::GoalOccupied & ex) {
exceptionWarning(start, goal->goal, goal->planner_id, ex);
result->error_code = ActionToPoseResult::GOAL_OCCUPIED;
action_server_pose_->terminate_current(result);
} catch (nav2_core::NoValidPathCouldBeFound & ex) {
exceptionWarning(start, goal->goal, goal->planner_id, ex);
result->error_code = ActionToPoseResult::NO_VALID_PATH;
action_server_pose_->terminate_current(result);
} catch (nav2_core::PlannerTimedOut & ex) {
exceptionWarning(start, goal->goal, goal->planner_id, ex);
result->error_code = ActionToPoseResult::TIMEOUT;
action_server_pose_->terminate_current(result);
} catch (nav2_core::StartOutsideMapBounds & ex) {
exceptionWarning(start, goal->goal, goal->planner_id, ex);
result->error_code = ActionToPoseResult::START_OUTSIDE_MAP;
action_server_pose_->terminate_current(result);
} catch (nav2_core::GoalOutsideMapBounds & ex) {
exceptionWarning(start, goal->goal, goal->planner_id, ex);
result->error_code = ActionToPoseResult::GOAL_OUTSIDE_MAP;
action_server_pose_->terminate_current(result);
} catch (nav2_core::PlannerTFError & ex) {
exceptionWarning(start, goal->goal, goal->planner_id, ex);
result->error_code = ActionToPoseResult::TF_ERROR;
action_server_pose_->terminate_current(result);
} catch (std::exception & ex) {
exceptionWarning(start, goal->goal, goal->planner_id, ex);
result->error_code = ActionToPoseResult::UNKNOWN;
action_server_pose_->terminate_current(result);
}
}
nav_msgs::msg::Path
PlannerServer::getPlan(
const geometry_msgs::msg::PoseStamped & start,
const geometry_msgs::msg::PoseStamped & goal,
const std::string & planner_id)
{
RCLCPP_DEBUG(
get_logger(), "Attempting to a find path from (%.2f, %.2f) to "
"(%.2f, %.2f).", start.pose.position.x, start.pose.position.y,
goal.pose.position.x, goal.pose.position.y);
if (planners_.find(planner_id) != planners_.end()) {
return planners_[planner_id]->createPlan(start, goal);
} else {
if (planners_.size() == 1 && planner_id.empty()) {
RCLCPP_WARN_ONCE(
get_logger(), "No planners specified in action call. "
"Server will use only plugin %s in server."
" This warning will appear once.", planner_ids_concat_.c_str());
return planners_[planners_.begin()->first]->createPlan(start, goal);
} else {
RCLCPP_ERROR(
get_logger(), "planner %s is not a valid planner. "
"Planner names are: %s", planner_id.c_str(),
planner_ids_concat_.c_str());
throw nav2_core::InvalidPlanner("Planner id " + planner_id + " is invalid");
}
}
return nav_msgs::msg::Path();
}
void
PlannerServer::publishPlan(const nav_msgs::msg::Path & path)
{
auto msg = std::make_unique<nav_msgs::msg::Path>(path);
if (plan_publisher_->is_activated() && plan_publisher_->get_subscription_count() > 0) {
plan_publisher_->publish(std::move(msg));
}
}
void PlannerServer::isPathValid(
const std::shared_ptr<nav2_msgs::srv::IsPathValid::Request> request,
std::shared_ptr<nav2_msgs::srv::IsPathValid::Response> response)
{
response->is_valid = true;
if (request->path.poses.empty()) {
response->is_valid = false;
return;
}
geometry_msgs::msg::PoseStamped current_pose;
unsigned int closest_point_index = 0;
if (costmap_ros_->getRobotPose(current_pose)) {
float current_distance = std::numeric_limits<float>::max();
float closest_distance = current_distance;
geometry_msgs::msg::Point current_point = current_pose.pose.position;
for (unsigned int i = 0; i < request->path.poses.size(); ++i) {
geometry_msgs::msg::Point path_point = request->path.poses[i].pose.position;
current_distance = nav2_util::geometry_utils::euclidean_distance(
current_point,
path_point);
if (current_distance < closest_distance) {
closest_point_index = i;
closest_distance = current_distance;
}
}
/**
* The lethal check starts at the closest point to avoid points that have already been passed
* and may have become occupied
*/
std::unique_lock<nav2_costmap_2d::Costmap2D::mutex_t> lock(*(costmap_->getMutex()));
unsigned int mx = 0;
unsigned int my = 0;
for (unsigned int i = closest_point_index; i < request->path.poses.size(); ++i) {
costmap_->worldToMap(
request->path.poses[i].pose.position.x,
request->path.poses[i].pose.position.y, mx, my);
unsigned int cost = costmap_->getCost(mx, my);
if (cost == nav2_costmap_2d::LETHAL_OBSTACLE ||
cost == nav2_costmap_2d::INSCRIBED_INFLATED_OBSTACLE)
{
response->is_valid = false;
}
}
}
}
rcl_interfaces::msg::SetParametersResult
PlannerServer::dynamicParametersCallback(std::vector<rclcpp::Parameter> parameters)
{
std::lock_guard<std::mutex> lock(dynamic_params_lock_);
rcl_interfaces::msg::SetParametersResult result;
for (auto parameter : parameters) {
const auto & type = parameter.get_type();
const auto & name = parameter.get_name();
if (type == ParameterType::PARAMETER_DOUBLE) {
if (name == "expected_planner_frequency") {
if (parameter.as_double() > 0) {
max_planner_duration_ = 1 / parameter.as_double();
} else {
RCLCPP_WARN(
get_logger(),
"The expected planner frequency parameter is %.4f Hz. The value should to be greater"
" than 0.0 to turn on duration overrrun warning messages", parameter.as_double());
max_planner_duration_ = 0.0;
}
}
}
}
result.successful = true;
return result;
}
void PlannerServer::exceptionWarning(
const geometry_msgs::msg::PoseStamped & start,
const geometry_msgs::msg::PoseStamped & goal,
const std::string & planner_id,
const std::exception & ex)
{
RCLCPP_WARN(
get_logger(), "%s plugin failed to plan from (%.2f, %.2f) to (%0.2f, %.2f): \"%s\"",
planner_id.c_str(),
start.pose.position.x, start.pose.position.y,
goal.pose.position.x, goal.pose.position.y,
ex.what());
}
} // namespace nav2_planner
#include "rclcpp_components/register_node_macro.hpp"
// Register the component with class_loader.
// This acts as a sort of entry point, allowing the component to be discoverable when its library
// is being loaded into a running process.
RCLCPP_COMPONENTS_REGISTER_NODE(nav2_planner::PlannerServer)