コード例 #1
0
 def initialise(self):
     """
     Get target pose from the blackboard to create an action goal
     """
     self.action_goal = mbf_msgs.GetPathGoal(
         target_pose=py_trees.blackboard.Blackboard().get("target_pose"))
     super(GetPath, self).initialise()
コード例 #2
0
def make_plan_cb(request):
    mbf_gp_ac.send_goal(mbf_msgs.GetPathGoal(start_pose=request.start, target_pose=request.goal,
                                             use_start_pose = bool(request.start.header.frame_id),
                                             tolerance=request.tolerance))
    rospy.logdebug("Relaying legacy make_plan service to mbf get_path action server")
    mbf_gp_ac.wait_for_result()

    status = mbf_gp_ac.get_state()
    result = mbf_gp_ac.get_result()

    rospy.logdebug("MBF get_path execution completed with result [%d]: %s", result.outcome, result.message)
    if result.outcome == mbf_msgs.GetPathResult.SUCCESS:
        return nav_srvs.GetPlanResponse(plan=result.path)
コード例 #3
0
def get_plan(pose):
    path_goal = mbf_msgs.GetPathGoal(target_pose=pose, tolerance=0.5)
    mbf_gp_ac.send_goal(path_goal)
    mbf_gp_ac.wait_for_result()
    return mbf_gp_ac.get_result()
コード例 #4
0
def mb_execute_cb(msg):

    max_replanning_attempts = 1
    replanning_counter = 0

    last_executed_lane_plan_length = 10000000
    min_new_plan_lengh_difference = 3  # safety distance used to avoid loops in switching between planners

    is_following_lane = True

    rospy.loginfo("New goal received by move base flex script")

    while True:
        # Stop if a new goal is received or the goal is cancelled
        if mb_as.is_new_goal_available() or mb_as.is_preempt_requested():
            mbf_ep_ac.cancel_all_goals()
            velocity_publisher.publish(Twist())
            mb_as.set_preempted()
            return

        # Try to follow the lane
        mbf_gp_ac.send_goal(
            mbf_msgs.GetPathGoal(target_pose=msg.target_pose,
                                 use_start_pose=False,
                                 planner="WaypointGlobalPlanner",
                                 concurrency_slot=1))
        mbf_gp_ac.wait_for_result()

        planning_result = mbf_gp_ac.get_result()

        new_plan_length = getPathLength(planning_result.path, 0,
                                        len(planning_result.path.poses) - 1)

        loop_detected = (not is_following_lane) and (
            new_plan_length >
            last_executed_lane_plan_length - min_new_plan_lengh_difference)

        if planning_result.outcome != mbf_msgs.GetPathResult.SUCCESS or loop_detected:
            is_following_lane = False

            # Try using SPBL to go to some of the following points on the lane
            # Get the remaining path
            mbf_gp_ac.send_goal(
                mbf_msgs.GetPathGoal(
                    target_pose=msg.target_pose,
                    use_start_pose=False,
                    planner="NoObstaclesWaypointGlobalPlanner",
                    concurrency_slot=1))
            mbf_gp_ac.wait_for_result()

            short_plan_found = False
            planning_result = mbf_gp_ac.get_result()
            if planning_result.outcome == mbf_msgs.GetPathResult.SUCCESS:
                path_poses = planning_result.path.poses
                lane_path_length = getPathLength(
                    planning_result.path, 0,
                    len(planning_result.path.poses) - 1)
                number_of_remaining_waypoints = len(path_poses)
                step_size = 10  # in number of waypoints
                first_waypoint_index = max(
                    0, min(number_of_remaining_waypoints - 1, 15))
                last_waypoint_index = max(
                    0, min(number_of_remaining_waypoints - 1, 80))
                for waypoint_index in range(first_waypoint_index,
                                            last_waypoint_index, step_size):
                    mbf_gp_ac.send_goal(
                        mbf_msgs.GetPathGoal(
                            target_pose=path_poses[waypoint_index],
                            planner="SBPLLatticePlanner",
                            concurrency_slot=2))
                    while not mbf_gp_ac.wait_for_result(
                            rospy.Duration.from_sec(0.1)):
                        if mb_as.is_new_goal_available(
                        ) or mb_as.is_preempt_requested():
                            mbf_ep_ac.cancel_all_goals()
                            mbf_gp_ac.cancel_all_goals()
                            velocity_publisher.publish(Twist())
                            mb_as.set_preempted()
                            return
                    planning_result = mbf_gp_ac.get_result()
                    if planning_result.outcome == mbf_msgs.GetPathResult.SUCCESS:
                        free_path_length = getPathLength(
                            planning_result.path, 0,
                            len(planning_result.path.poses) - 1)
                        if free_path_length > lane_path_length * 2:
                            # the robot would probably turn around the corridor, try the next waypoint
                            continue
                        short_plan_found = True
                        # Append the reamaining part of the plan
                        if waypoint_index < len(path_poses) - 1:
                            planning_result.path.poses += path_poses[
                                waypoint_index:]
                        break

            # Try to use SBPL to go to the goal
            if not short_plan_found:
                mbf_gp_ac.send_goal(
                    mbf_msgs.GetPathGoal(target_pose=msg.target_pose,
                                         planner="SBPLLatticePlanner",
                                         concurrency_slot=4))
                while not mbf_gp_ac.wait_for_result(
                        rospy.Duration.from_sec(0.1)):
                    if mb_as.is_new_goal_available(
                    ) or mb_as.is_preempt_requested():
                        mbf_ep_ac.cancel_all_goals()
                        mbf_gp_ac.cancel_all_goals()
                        velocity_publisher.publish(Twist())
                        mb_as.set_preempted()
                        return
                planning_result = mbf_gp_ac.get_result()
        else:
            last_executed_lane_plan_length = new_plan_length
            is_following_lane = True

        if planning_result.outcome != mbf_msgs.GetPathResult.SUCCESS:
            # There is nothing left to try, abort
            mbf_ep_ac.cancel_all_goals()
            velocity_publisher.publish(Twist())
            mb_as.set_aborted(mb_msgs.MoveBaseResult(),
                              planning_result.message)
            return

        # Execute the path
        rospy.loginfo("Execute the plan")
        mbf_ep_ac.send_goal(
            mbf_msgs.ExePathGoal(path=planning_result.path,
                                 concurrency_slot=3))

        # Wait a bit
        execution_completed = mbf_ep_ac.wait_for_result(
            rospy.Duration.from_sec(0.1))

        # If the execution of the global plan is completed, return
        if execution_completed:
            if mbf_ep_ac.get_result() == mbf_msgs.ExePathResult.SUCCESS:
                mb_as.set_succeeded(mb_msgs.MoveBaseResult(), "Goal reached.")
                return
            else:
                velocity_publisher.publish(Twist())
                if replanning_counter >= max_replanning_attempts:
                    mb_as.set_aborted(mb_msgs.MoveBaseResult(),
                                      mbf_ep_ac.get_result().message)
                    return
                else:
                    replanning_counter += 1
        else:
            replanning_counter = 0