示例#1
0
    def publish_goal(self, x=0, y=0, z=0, yaw=0, roll=0, pitch=0):
        # Create move_base goal
        goal = MoveBaseGoal()
        goal.target_pose.header.frame_id = rospy.get_param('~frame_id', 'map')
        goal.target_pose.pose.position.x = x
        goal.target_pose.pose.position.y = y
        goal.target_pose.pose.position.z = z
        quaternion = tf.transformations.quaternion_from_euler(roll, pitch, yaw)
        goal.target_pose.pose.orientation.x = quaternion[0]
        goal.target_pose.pose.orientation.y = quaternion[1]
        goal.target_pose.pose.orientation.z = quaternion[2]
        goal.target_pose.pose.orientation.w = quaternion[3]
        rospy.loginfo(
            'Executing move_base goal to position (x,y) %s, %s, with %s degrees yaw.'
            % (x, y, yaw))
        rospy.loginfo(
            "To cancel the goal: 'rostopic pub -1 /move_base/cancel actionlib_msgs/GoalID -- {}'"
        )

        # Send goal
        self.move_base.send_goal(goal)
        rospy.loginfo('Inital goal status: %s' %
                      GoalStatus.to_string(self.move_base.get_state()))
        status = self.move_base.get_goal_status_text()
        if status:
            rospy.loginfo(status)

        # Wait for goal result
        self.move_base.wait_for_result()
        rospy.loginfo('Final goal status: %s' %
                      GoalStatus.to_string(self.move_base.get_state()))
        status = self.move_base.get_goal_status_text()
        if status:
            rospy.loginfo(status)
示例#2
0
    def navigation_goal_to(self, x, y):
        # Create move_base goal
        goal = MoveBaseGoal()
        goal.target_pose.header.frame_id = 'map'
        goal.target_pose.pose.position.x = x
        goal.target_pose.pose.position.y = y
        goal.target_pose.pose.position.z = 0.0
        goal.target_pose.pose.orientation.x = 0.0
        goal.target_pose.pose.orientation.y = 0.0
        goal.target_pose.pose.orientation.z = 0.0
        goal.target_pose.pose.orientation.w = 1
        rospy.loginfo('Executing move_base goal to position (x,y) %s, %s.' %
                      (goal.target_pose.pose.position.x,
                       goal.target_pose.pose.position.y))
        rospy.loginfo(
            "To cancel the goal: 'rostopic pub -1 /move_base/cancel actionlib_msgs/GoalID -- {}'"
        )

        # Send goal
        self.move_base.send_goal(goal)
        rospy.loginfo('Inital goal status: %s' %
                      GoalStatus.to_string(self.move_base.get_state()))
        status = self.move_base.get_goal_status_text()
        if status:
            rospy.loginfo(status)

        # Wait for goal result
        self.move_base.wait_for_result()
        rospy.loginfo('Final goal status: %s' %
                      GoalStatus.to_string(self.move_base.get_state()))
        status = self.move_base.get_goal_status_text()
        if status:
            rospy.loginfo(status)
示例#3
0
 def start_job(self, job):
     result = TransportResult()
     try:
         goal = job.get_goal()
         color = goal.specification
         item = self.warehouse.get(color)()
         if item.available:
             rospy.loginfo( 'Call stacker for job: ' + str([item.x, item.z, goal.address, 1]) )
             self.current_gh = self.stacker.send_goal( StackerGoal([item.x, item.z, goal.address, 1]) )
             while not rospy.is_shutdown(): # wait for stacker complete its job
                 goal_status = self.current_gh.get_goal_status()
                 rospy.logdebug( 'Goal status: ' + str(goal_status) )
                 if goal_status > 2: # actionlib_msgs/GoalStatus
                     rospy.loginfo( 'Goal status: ' + str(goal_status) )
                     break
                 rospy.sleep(1)
             result.act = 'Job %s %s' % ( str(job.get_goal_id()), GoalStatus.to_string(self.current_gh.get_terminal_state()) )
             job.set_succeeded(result)
         else:
             result.act = 'Spec %s is not available' % color
             job.set_aborted(result)
             rospy.logwarn('Job aborted')
     except Exception:
         rospy.logwarn('Exception arise!')
     finally:
         rospy.loginfo('Finishing')
         self.finish()
         self.make_bids()
         self.busy = False
示例#4
0
 def done_cb(self, state, r):
     rospy.loginfo(
         gstr({
             'done state': GoalStatus.to_string(state),
             'elapsed time': time.time() - self.start,
             'loss': r.loss
         }))
     if state == GoalStatus.SUCCEEDED:
         self.queue.put(r)
示例#5
0
    def execute_policy_cb(self, goal):
        self.cancelled = False
        self.policy_mdp = self.policy_utils.generate_policy_mdp(
            goal.spec, self.closest_waypoint, rospy.Time.now())

        if self.policy_mdp is None:
            rospy.logerr("Failure to build policy for specification: " +
                         goal.spec.ltl_task)
            self.mdp_as.set_aborted()
            return

        self.publish_feedback(None, None, self.policy_mdp.get_current_action())
        if self.nav_before_action_exec:
            starting_exec = True  #used to make sure the robot executes calls topological navigation at least once before executing non-nav actions. This is too ensure the robot navigates to the exact pose of a waypoint before executing an action there
        else:
            starting_exec = False
        while (self.policy_mdp.has_action_defined()
               and not self.cancelled) or starting_exec:
            next_action = self.policy_mdp.get_current_action()
            if next_action in self.mdp.nav_actions or starting_exec:
                starting_exec = False
                current_nav_policy = self.policy_utils.generate_current_nav_policy(
                    self.policy_mdp)
                status = self.execute_nav_policy(current_nav_policy)
                rospy.loginfo(
                    "Topological navigation execute policy action server exited with status: "
                    + GoalStatus.to_string(status))
                if status != GoalStatus.SUCCEEDED:
                    self.policy_mdp.set_current_state(None)
                    break
            else:
                print("EXECUTE ACTION")
                (status, state_update) = self.action_executor.execute_action(
                    self.mdp.action_descriptions[next_action])
                executed_action = next_action
                print(executed_action)
                if not self.cancelled:
                    next_flat_state = self.policy_utils.get_next_state_from_action_outcome(
                        state_update, self.policy_mdp)
                    self.policy_mdp.set_current_state(next_flat_state)
                    if next_flat_state is None:
                        rospy.logerr(
                            "Error finding next state after action execution. Aborting..."
                        )
                        break
                    next_action = self.policy_mdp.get_current_action()
                    self.publish_feedback(executed_action, status, next_action)
        if self.cancelled:
            self.cancelled = False
            rospy.loginfo("Policy execution preempted.")
            self.mdp_as.set_preempted()
        elif self.policy_mdp.current_flat_state is None:
            rospy.loginfo("Policy execution failed.")
            self.mdp_as.set_aborted()
        else:
            rospy.loginfo("Policy execution successful.")
            self.mdp_as.set_succeeded()
示例#6
0
def main():
    rospy.init_node("autonomy")

    client = actionlib.SimpleActionClient("move_base", MoveBaseAction)
    rospy.loginfo("Waiting for robot action server")
    client.wait_for_server()
    rospy.loginfo("Server found")

    while True:
        failure = True
        while failure:
            try:
                x = float(
                    input("Enter x-coordinate of where you want to go\n"))
                y = float(
                    input("Enter y-coordinate of where you want to go\n"))
                input("Hit <Enter> when you are ready")
                failure = False
            except ValueError:
                print("Oops enter a valid value\n")
                failure = True

        rospy.loginfo("Sent")

        action_goal = MoveBaseActionGoal()

        action_goal.goal.target_pose.header.frame_id = "map"
        action_goal.goal.target_pose.pose.position.x = x
        action_goal.goal.target_pose.pose.position.y = y
        action_goal.goal.target_pose.pose.orientation.w = 1

        client.send_goal(action_goal.goal)

        input("Press <Enter> to stop robot or continue")

        if client.get_state() == GoalStatus.ACTIVE:
            rospy.loginfo("Canceling action")
            client.cancel_goal()
        try:
            print("result: ", GoalStatus.to_string(client.get_state()))
        except Exception as e:
            print(e)

    while not rospy.is_shutdown():
        rospy.spin()
示例#7
0
    def update_status(self, status_array):
        with self.mutex:
            if self.state == CommState.DONE:
                return

            status = _find_status_by_goal_id(status_array,
                                             self.action_goal.goal_id.id)

            # You mean you haven't heard of me?
            if not status:
                if self.state not in [
                        CommState.WAITING_FOR_GOAL_ACK,
                        CommState.WAITING_FOR_RESULT, CommState.DONE
                ]:
                    self._mark_as_lost()
                return

            self.latest_goal_status = status

            # Determines the next state from the lookup table
            if self.state not in _transitions:
                rospy.logerr("CommStateMachine is in a funny state: %i" %
                             self.state)
                return
            if status.status not in _transitions[self.state]:
                rospy.logerr(
                    "Got an unknown status from the ActionServer: %i" %
                    status.status)
                return
            next_state = _transitions[self.state][status.status]

            # Knowing the next state, what should we do?
            if next_state == NO_TRANSITION:
                pass
            elif next_state == INVALID_TRANSITION:
                rospy.logerr("Invalid goal status transition from %s to %s" %
                             (CommState.to_string(self.state),
                              GoalStatus.to_string(status.status)))
            else:
                if hasattr(next_state, '__getitem__'):
                    for s in next_state:
                        self.transition_to(s)
                else:
                    self.transition_to(next_state)
示例#8
0
 def start_job(self, job):
     rospy.logdebug('Storage.start_job: ' + str(job))
     result = TransportResult()
     try:
         goal = job.get_goal()
         color = goal.specification
         cell = self.warehouse.get(color)()
         if cell.available:
             self.conveyor_destination('warehouse')
             self.conveyor_load(
                 goal.address
             )  # plant must already wait for low level unload premission
             rospy.logdebug('Address: ' + str(goal.address))
             while not rospy.is_shutdown():
                 product = self.conveyor_product_ready()
                 if product.ready:
                     break
                 rospy.sleep(1)
             self.current_gh = self.stacker.send_goal(
                 StackerGoal([12, 1, cell.x,
                              cell.z]))  # [12, 1] is conveyor
             while not rospy.is_shutdown(
             ):  # wait for stacker complete its job
                 goal_status = self.current_gh.get_goal_status()
                 if goal_status > 2:  # actionlib_msgs/GoalStatus
                     break
                 rospy.logdebug('Stacker goal status: ' + str(goal_status))
                 rospy.sleep(1)
             result.act = 'Job %s %s' % (
                 str(job.get_goal_id()),
                 GoalStatus.to_string(self.current_gh.get_terminal_state()))
             job.set_succeeded(result)
         else:
             self.conveyor_destination('garbage')
             self.conveyor_load(goal.address)
             result.act = 'Place for %s is not available. Throwing to garbage.' % color
             rospy.sleep(10)  # wait until chunk throwed down
             job.set_succeeded(result)
     finally:
         self.finish()
         self.make_bids()
         self.busy = False
示例#9
0
    def _send_command(self, client, goal, blocking=False, timeout=None):
        if client not in self.clients:
            return False
        self.clients[client].send_goal(goal)
        start_time = rospy.Time.now()
        # rospy.loginfo(goal)
        rospy.sleep(0.1)
        if self.COMMAND_LOGS:
            rospy.loginfo("Command sent to %s client" % client)
        if not blocking:  # XXX why isn't this perfect?
            return None

        status = 0
        end_time = rospy.Time.now() + rospy.Duration(timeout + 0.1)
        while (not rospy.is_shutdown()) and \
                (rospy.Time.now() < end_time) and \
                (status < GoalStatus.SUCCEEDED) and \
                (type(self.clients[client].action_client.last_status_msg) != type(None)):
            status = self.clients[
                client].action_client.last_status_msg.status_list[
                    -1].status  # XXX get to 80
            self.rate.sleep()

        # It's reporting time outs that are too early
        # FIXED: See comments about rospy.Time(0)
        text = GoalStatus.to_string(status)
        if GoalStatus.SUCCEEDED <= status:
            if self.COMMAND_LOGS:
                rospy.loginfo("Goal status {} achieved. Exiting".format(text))
        else:
            if self.ERROR_LOGS:
                rospy.loginfo("Ending due to timeout {}".format(text))

        result = self.clients[client].get_result()
        elapsed_time = (rospy.Time.now() - start_time).to_sec()
        print('Executed in {:.3f} seconds. Predicted to take {:.3f} seconds.'.
              format(elapsed_time, timeout))
        #state = self.clients[client].get_state()
        #print('Goal state {}'.format(GoalStatus.to_string(state)))
        # get_goal_status_text
        return result
    def __done_callback__(self, state, result):
        """
        Callback when the execution of __goto_waypoint__ has finished

        We check if the execution was successful and trigger the next command
        """
        if state == GoalStatus.SUCCEEDED:
            # Publish stop message and reduce number of random waypoints
            rospy.loginfo('Reached waypoint')

            self.stop_pub.publish(Empty())

            # Sample was valid, so reduce count by one
            if self.random_waypoint_number > 0:
                self.random_waypoint_number -= 1

        else:
            # Execution was not successful, so abort execution and reset the simulation
            rospy.loginfo('Action returned: {}'.format(
                GoalStatus.to_string(state)))
            self.abort_pub.publish(Empty())
            self.__reset_simulation__()

            if self.random_waypoint_number > 0:
                rospy.loginfo('Resample this random waypoint')

        # Wait shortly before publishing the next command
        rospy.sleep(0.5)

        if self.random_waypoint_number > 0:
            # Their are still random waypoints to generate
            item = self.mission[self.mission_index]
            self.__goto_random__(item[1])
        else:
            # Previous command has finished, so go to the next command in the list
            self.mission_index += 1
            self.__send_next_command__()
示例#11
0
def do_gps_goal(lat, long, marker_only=False):
    rospy.init_node('gps_goal')

    # Check for degrees, minutes, seconds format and convert to decimal
    if ',' in lat:
        degrees, minutes, seconds = lat.split(',')
        degrees, minutes, seconds = float(degrees), float(minutes), float(
            seconds)
        if lat[0] == '-':  # check for negative sign
            minutes = -minutes
            seconds = -seconds
        lat = degrees + minutes / 60 + seconds / 3600
    if ',' in long:
        degrees, minutes, seconds = long.split(',')
        degrees, minutes, seconds = float(degrees), float(minutes), float(
            seconds)
        if long[0] == '-':  # check for negative sign
            minutes = -minutes
            seconds = -seconds
        long = degrees + minutes / 60 + seconds / 3600

    goal_lat = float(lat)
    goal_long = float(long)
    rospy.loginfo('Given GPS goal: lat %s, long %s.' % (goal_lat, goal_long))

    # Get the lat long coordinates of our map frame's origin which must be publshed on topic /local_xy_origin. We use this to calculate our goal within the map frame.
    origin_topic = '/local_xy_origin'
    rospy.loginfo('Listening for origin location on topic %s' % origin_topic)
    origin_pose = rospy.wait_for_message(origin_topic, PoseStamped, timeout=10)
    origin_lat = origin_pose.pose.position.y
    origin_long = origin_pose.pose.position.x
    rospy.loginfo('Received origin: lat %s, long %s.' %
                  (origin_lat, origin_long))

    # Calculate distance and azimuth between GPS points
    geod = Geodesic.WGS84  # define the WGS84 ellipsoid
    g = geod.Inverse(
        origin_lat, origin_long, goal_lat, goal_long
    )  # Compute several geodesic calculations between two GPS points
    hypotenuse = distance = g['s12']  # access distance
    rospy.loginfo(
        "The distance from the origin to the goal is {:.3f} m.".format(
            distance))
    azimuth = g['azi1']
    rospy.loginfo(
        "The azimuth from the origin to the goal is {:.3f} degrees.".format(
            azimuth))

    # Convert polar (distance and azimuth) to x,y translation in meters (needed for ROS) by finding side lenghs of a right-angle triangle
    x = adjacent = math.cos(azimuth) * hypotenuse
    y = opposite = math.sin(azimuth) * hypotenuse
    rospy.loginfo(
        "The translation from the origin to the goal is (x,y) {:.3f}, {:.3f} m."
        .format(x, y))

    # TODO(Dan): Set target yaw pose
    # import tf_conversions
    # if yaw:
    #   euler_tuple = tf_conversions.transformations.euler_from_quaternion(quaternion)
    # else:
    #   # Use azimuth as yaw

    # Publish goal as point message for visualization purposes
    marker_topic = 'point_to_marker'  # publish GPS point in ROS coordinates for visualization
    point_publisher = rospy.Publisher(marker_topic,
                                      PointStamped,
                                      queue_size=10)
    rospy.sleep(1)  # allow time for subscribers to join
    gps_point = PointStamped()
    gps_point.point.x = x
    gps_point.point.y = y
    gps_point.point.z = 0
    point_publisher.publish(gps_point)
    rospy.loginfo("Published point {:.3f}, {:.3f} on topic {}.".format(
        x, y, marker_topic))

    if marker_only:
        return

    # Create move_base goal
    rospy.loginfo("Connecting to move_base...")
    move_base = actionlib.SimpleActionClient('move_base', MoveBaseAction)
    move_base.wait_for_server()
    rospy.loginfo("Connected.")
    goal = MoveBaseGoal()
    goal.target_pose.header.frame_id = 'map'
    goal.target_pose.pose.position.x = x
    goal.target_pose.pose.position.y = y
    goal.target_pose.pose.position.z = 0.0
    goal.target_pose.pose.orientation.x = 0.0
    goal.target_pose.pose.orientation.y = 0.0
    goal.target_pose.pose.orientation.z = 0.0
    goal.target_pose.pose.orientation.w = 1
    rospy.loginfo(
        'Executing move_base goal to position (x,y) %s, %s.' %
        (goal.target_pose.pose.position.x, goal.target_pose.pose.position.y))
    rospy.loginfo(
        "To cancel the goal: 'rostopic pub -1 /move_base/cancel actionlib_msgs/GoalID -- {}'"
    )

    # Send goal
    move_base.send_goal(goal)
    rospy.loginfo('Inital goal status: %s' %
                  GoalStatus.to_string(move_base.get_state()))
    status = move_base.get_goal_status_text()
    if status:
        rospy.loginfo(status)

    # Wait for goal result
    move_base.wait_for_result()
    rospy.loginfo('Final goal status: %s' %
                  GoalStatus.to_string(move_base.get_state()))
    status = move_base.get_goal_status_text()
    if status:
        rospy.loginfo(status)
示例#12
0
def print_status(line_limit=20):

    if all_tasks_data is None or active_tasks_data is None:
        return

    active_ids = set(t.task_id for t in active_tasks_data.execution_queue)
    non_active_tasks = [
        t for t in all_tasks_data.execution_queue
        if not t.task_id in active_ids
    ]
    active_tasks = active_tasks_data.execution_queue

    line_count = 0

    rospy.loginfo("")
    rospy.loginfo("")
    rospy.loginfo(
        datetime.fromtimestamp(rospy.get_rostime().secs).replace(
            tzinfo=localtz).strftime("%H:%M:%S %d/%m/%y"))
    line_count += 1
    if len(active_tasks) > 0:

        rospy.loginfo("Current tasks:")
        line_count += 1
        for t in active_tasks:
            rospy.loginfo("   %s" % pretty(t))
            line_count += 1

        if goal_string is not None:
            rospy.loginfo("Policy:")
            rospy.loginfo('   as LTL string %s' % goal_string)
            line_count += 2
        if feedback_data is not None:
            rospy.loginfo('   executed action: %s, status %s' %
                          (feedback_data.feedback.executed_action,
                           GoalStatus.to_string(
                               feedback_data.feedback.execution_status)))
            rospy.loginfo('   next action: %s' %
                          (feedback_data.feedback.next_action))
            rospy.loginfo(
                '   policy completing with probability %d, expected time %ds' %
                (feedback_data.feedback.probability,
                 feedback_data.feedback.expected_time.to_sec()))
            line_count += 3

        rospy.loginfo("Batch started at %s", start_time(active_tasks[0]))
        line_count += 1

        rospy.loginfo("       finish by %s", end_time(active_tasks[0]))
        line_count += 1

    else:
        rospy.loginfo("No active tasks")
        line_count += 1

    if len(non_active_tasks) > 0:
        rospy.loginfo("Future tasks (in some order):")
        line_count += 1
        printed = 0
        for t in non_active_tasks:
            if line_count > line_limit - 2:
                rospy.loginfo("   ... and another %s tasks not printed" %
                              (len(non_active_tasks) - printed))
                return
            else:
                rospy.loginfo(
                    "   %s after %s" %
                    (pretty(t), rostime_to_python(
                        t.start_after,
                        tz=localtz).strftime("%H:%M:%S %d/%m/%y")))
                line_count += 1
                printed += 1
    else:
        rospy.loginfo("No additional tasks")
 def dump_result_cb(self, userdata, status, result):
     rospy.loginfo("DUMP state returned with status: " +
                   GoalStatus.to_string(status))
     userdata.direction_out = 'dig'
     userdata.sub_run += 1
     return 'succeeded'
 def dig_result_cb(self, userdata, status, result):
     rospy.loginfo("DIG state returned with status: " +
                   GoalStatus.to_string(status))
     userdata.direction_out = 'dump'
     return 'succeeded'
 def drive_result_cb(self, userdata, status, result):
     rospy.loginfo("DRIVE state returned with status: " +
                   GoalStatus.to_string(status))
     if status == GoalStatus.SUCCEEDED:
         return 'succeeded_dig' if userdata.direction_in == 'dig' else 'succeeded_dump'
    def execute_action(self, action_msg):
        self.cancelled = False
        rospy.loginfo("Executing " + action_msg.name +
                      ". Actionlib server is: " + action_msg.action_server)
        if action_msg.action_server != '':
            try:
                (action_string,
                 goal_string) = self.get_action_types(action_msg.action_server)
                action_clz = dc_util.load_class(
                    dc_util.type_to_class_string(action_string))
                goal_clz = dc_util.load_class(
                    dc_util.type_to_class_string(goal_string))

                argument_list = self.get_arguments(action_msg.arguments)
                goal = goal_clz(*argument_list)

                poll_wait = rospy.Duration(1)
                if action_msg.max_duration == rospy.Duration(0):
                    max_action_duration = self.get_max_action_duration(
                        action_msg.outcomes)
                else:
                    max_action_duration = action_msg.max_duration.to_sec()
                wiggle_room = 30
                action_client = actionlib.SimpleActionClient(
                    action_msg.action_server, action_clz)
                action_client.wait_for_server(poll_wait)
                action_client.send_goal(goal)

                action_finished = False
                timer = 0

                while (not action_finished) and (not self.cancelled):
                    timer += poll_wait.to_sec()
                    action_finished = action_client.wait_for_result(poll_wait)
                    if timer > (max_action_duration + wiggle_room):
                        if self.is_action_interruptible(
                                action_msg.action_server):
                            break
                        else:
                            rospy.logwarn(
                                'Action execution has timed out but is not interruptible, so execution continues'
                            )

                if not action_finished:
                    if self.cancelled:
                        rospy.logwarn(
                            "Policy execution has been preempted by another process"
                        )
                    else:
                        rospy.logwarn(
                            'Action %s exceeded maximum duration, preempting' %
                            action_msg.name)
                    action_client.cancel_all_goals()
                    action_finished = action_client.wait_for_result(
                        rospy.Duration(
                            60))  #give some time for action to cancel
                    if not action_finished:
                        rospy.logwarn(
                            'Action %s did not respond to preemption, carrying on regardless. This could have dangerous side effects.'
                            % action_msg.name)

                status = action_client.get_state()
                result = action_client.get_result()
                print GoalStatus.to_string(status)
                print result

            except Exception, e:
                rospy.logwarn(
                    'Caught exception when trying to execute the action: %s' %
                    e)
                status = GoalStatus.ABORTED
                result = None