Exemple #1
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 def execute(self, ud):
     start_time = rospy.get_time()
     rate = rospy.Rate(2.5)
     while not self.preempt_requested() and not rospy.is_shutdown():
         segmented_objs = self.segment_srv(
             only_surface=True).segmented_objects.objects
         if segmented_objs:
             table = segmented_objs[0]
             pose = geo_msgs.PoseStamped(
                 table.point_cloud.header,
                 geo_msgs.Pose(table.center, table.orientation))
             pose = TF2().transform_pose(pose, pose.header.frame_id, 'map')
             width, length = table.width, table.depth
             table_tf = to_transform(pose, 'table_frame')
             TF2().publish_transform(table_tf)
             if 'table' in ud:
                 table.name = ud['table'].name
             ud['table'] = table
             ud['table_pose'] = pose
             rospy.loginfo("Detected table of size %.1f x %.1f at %s",
                           width, length, pose2d2str(pose))
             return 'succeeded'
         elif self.timeout and rospy.get_time() - start_time > self.timeout:
             rospy.logwarn("No table detected after %g seconds",
                           rospy.get_time() - start_time)
             return 'aborted'
         try:
             rate.sleep()
         except rospy.ROSInterruptException:
             break
     rospy.logwarn(
         "Detect table has been preempted after %g seconds (timeout %g)",
         rospy.get_time() - start_time, self.timeout)
     return 'preempted'
def nav_goal_cb(msg):
    rospy.loginfo("Calling MBF's move_base action with target pose %s",
                  pose2d2str(msg))
    goal = MoveBaseGoal(target_pose=msg)
    move_base_ac.send_goal(goal, done_cb=move_done_cb)
    #  rospy.sleep(0.000005)#random.randrange(300, 800)/100.0)        hostias!!! tarda bastante, aunque pongas epsilon!!! (en sim, supongo)
    time.sleep(2.5)
    move_base_ac.cancel_goal()
    rospy.loginfo("CANCEL!!!")
Exemple #3
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def nav_goal_cb(msg):
    global target_pose
    target_pose = msg
    goal = GetPathGoal(use_start_pose=False,
                       start_pose=msg,
                       target_pose=msg,
                       planner="planner2")
    get_path_ac.send_goal(goal, done_cb=plan_done_cb)
    rospy.loginfo(
        "Relaying move_base_simple/goal %s from RViz to MBF's planner",
        pose2d2str(msg))
Exemple #4
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def nav_goal_cb(msg):
    global target_pose
    target_pose = msg
    goal = GetPathGoal(use_start_pose=False, start_pose=msg, target_pose=msg)
    get_path_ac.send_goal(goal, done_cb=plan_done_cb)
    rospy.loginfo(
        "Relaying move_base_simple/goal %s from RViz to MBF's planner",
        pose2d2str(msg))
    rospy.sleep(1)
    goal = MoveBaseGoal(target_pose=msg, controller='TEBPlanner')
    move_base_ac.send_goal(goal, done_cb=move_done_cb)
Exemple #5
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    def execute(self, ud):
        # Cut path up to current waypoint, so we don't redo it from the beginning after recovering

        # ExePath must provide this specific message at the end of the result message in case of failure
        cwp_index = ud['message'].find('current waypoint: ')
        if cwp_index >= 0:
            # TODO I must adapt this to integrate the progress tracker with the smoothed path logic (or remove entirely path follower support)   and remove 'path' key
            next_waypoint = int(ud['message'][cwp_index +
                                              len('current waypoint: '):])
            ud['path'].poses = ud['path'].poses[next_waypoint:]
        elif ud['reached_wp'] is not None:
            # TEB logic using progress tracker: very brittle, but seems to work!  hope I can do better w/ BTs
            next_waypoint = ud['reached_wp'] + 1
            ud['waypoints'] = ud['waypoints'][next_waypoint:]
        else:
            # None on 'reached_wp' normally means a failure after a recovery attempt
            rospy.logwarn(
                "No current waypoint provided; assuming we didn't reach even the first waypoint"
            )

        try:
            rb = self.recovery_behaviors[self.consecutive_failures]
            ud['recovery_behavior'] = rb
            self.consecutive_failures += 1
            rospy.loginfo(
                "Attempt recovery behavior '%s' after %d %s", rb,
                self.consecutive_failures, "consecutive failures"
                if self.consecutive_failures > 1 else "failure")
            return 'recover'
        except IndexError:
            rospy.loginfo(
                "Recovery behaviors exhausted after %d consecutive failures",
                self.consecutive_failures)
            self.consecutive_failures = 0
            if ud['waypoints']:
                next_wp_pose = ud['waypoints'][0]
                rospy.loginfo("Navigate to the next waypoint at %s",
                              pose2d2str(next_wp_pose))
                ud['next_wp'] = next_wp_pose
                return 'next_wp'

            return 'aborted'
Exemple #6
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def spawn_cats(use_preferred_locs=False):
    added_poses = []  # to check that cats are at least CATS_MIN_DIST apart from each other
    for cat in cats:
        cat_index = 0
        while cat_index < cat['count'] and not rospy.is_shutdown():
            if use_preferred_locs:
                x, y = random.choice(PREFERRED_LOCATIONS)
            else:
                x = random.uniform(min_x, max_x)
                y = random.uniform(min_y, max_y)
            theta = random.uniform(-pi, +pi)
            pose = create_2d_pose(x, y, theta)
            # we check that the distance to all previously added surfaces is below a threshold to space the surfaces
            if close_to_prev_pose(pose, added_poses, CATS_MIN_DIST):
                continue

            # check also that the surface is not too close to the robot
            if close_to_robot(pose, robot_pose, CATS_MIN_DIST):
                continue

            # and not within an obstacle
            if close_to_obstacle(x, y, theta, 0.0):
                continue

            added_poses.append(pose)
            model = cat['name']
            model_name = model + '_' + str(cat_index)
            success = spawn_model(
                name=model_name,
                model=models[model].format(name=model_name),
                pose=pose,
                frame='ground_plane::link'
            )
            if success:
                rospy.loginfo("Spawn %s at %s", model_name, pose2d2str(pose))
            cat_index += 1
Exemple #7
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def nav_goal_cb(msg):
    rospy.loginfo("Calling MBF's move_base action with target pose %s", pose2d2str(msg))
    goal = MoveBaseGoal(target_pose=msg, controller='TEBPlanner')
    move_base_ac.send_goal(goal, done_cb=nav_done_cb)
Exemple #8
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 def execute(self, ud):
     rospy.loginfo("Object '%s' moved to tray at %s", ud['object'].id,
                   pose2d2str(ud['pose_on_tray']))
     PlanningScene().move_obj_to_tray(ud['object'].id, ud['pose_on_tray'])
     return 'succeeded'
Exemple #9
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 def execute(self, ud):
     rospy.loginfo("Object '%s' pose readjusted to %s", ud['object'].id,
                   pose2d2str(ud['new_pose']))
     PlanningScene().displace_obj(ud['object'].id, ud['new_pose'])
     return 'succeeded'