def __init__(self, bbox=TrajectoryBBOX()):
		self.listening = False
		self.manager = PubSubManager('trajectory_manager', anonymous=False)
		self.manager.add_publisher('goal', PoseStamped)
		self.manager.add_publisher('trajectory/viz/line', Marker, latch=True)
		self.manager.add_publisher('trajectory/viz/points', Marker, latch=True)
		self.manager.add_publisher('trajectory/viz/bbox', Marker, latch=True)

		try:
			self.manager.add_server_service('trajectory_manager/load_trajectory',
				LoadTrajectory, self.srv_load_trajectory)
			self.manager.add_server_service('trajectory_manager/start_trajectory',
				Empty, self.srv_start_trajectory)
			self.manager.add_server_service('trajectory_manager/stop_trajectory',
				Empty, self.srv_stop_trajectory)
			self.manager.add_server_service('trajectory_manager/visualize',
				VisualizeTrajectory, self.srv_visualize)
			self.manager.add_server_service('trajectory_manager/next_trajectory',
				Empty, self.srv_next_trajectory)

			self.manager.add_server_service('trajectory_manager/trajectory/config_bool',
				ConfigTrajectoryBool, self.srv_config_trajectory)
			self.manager.add_server_service('trajectory_manager/trajectory/config_float',
				ConfigTrajectoryFloat, self.srv_config_trajectory)
			self.manager.add_server_service('trajectory_manager/trajectory/config_string',
				ConfigTrajectoryString, self.srv_config_trajectory)
			self.manager.add_server_service('trajectory_manager/trajectory/config_vector',
				ConfigTrajectoryVector, self.srv_config_trajectory)

			self.manager.add_server_service('trajectory_manager/takeoff',
				Empty, self.srv_takeoff)
			self.manager.add_server_service('trajectory_manager/land',
				Empty, self.srv_land)

			self.manager.add_server_service('trajectory_manager/translate_trajectory',
				TranslateTrajectory, self.srv_translate_trajectory)
			self.manager.add_server_service('trajectory_manager/set_trajectory_translation',
				TranslateTrajectory, self.srv_set_trajectory_translation)

			self.manager.add_server_service('ready', Empty, self.srv_nop)


		except Exception as e:
			print 'ERROR WHILE CREATING SERVICES :', e

		self.manager.add_client_service('takeoff', Empty)
		self.manager.add_client_service('land', Empty)

		self.bbox = bbox
		self.trajectories = [None, None]
		self.drone_position = None

		self.trajectory_translation = (0,0,0)

		# ENUM
		self.flight_state = FLIGHT_STATES.LANDED
Exemplo n.º 2
0
    def __init__(self):
        self.manager = PubSubManager('hydra_mapper', anonymous=False)
        self.INPUT_ID = int(self.manager.get_param('~input_id', 0))

        self.positions = []

        self.COLOR = [ColorRGBA(0, 255, 0, 255), ColorRGBA(0, 0, 255, 255)]

        self.manager.add_publisher('viz', Marker)
        self.manager.add_publisher('input', GloveInput)

        self.manager.add_subscriber('/hydra_calib', Hydra, self.onHydra)

        self.last_message_sent_millis = 0
        self.framerate = 30
Exemplo n.º 3
0
    def subscribe(self, clazz):
        """
            Subscribe to a type.
            :param clazz: A type or an instance of the type to subscribe to
            :return: None
        """

        clazz = class_fullname(clazz)
        if clazz not in PubSubInterface.pubSubManagers:
            psm = PubSubManager.PubSubManager(clazz)
            PubSubInterface.pubSubManagers[clazz] = psm
        else:
            psm = PubSubInterface.pubSubManagers[clazz]
        psm.add_subscriber(self)
class TrajectoryManager(object):
	def __init__(self, bbox=TrajectoryBBOX()):
		self.listening = False
		self.manager = PubSubManager('trajectory_manager', anonymous=False)
		self.manager.add_publisher('goal', PoseStamped)
		self.manager.add_publisher('trajectory/viz/line', Marker, latch=True)
		self.manager.add_publisher('trajectory/viz/points', Marker, latch=True)
		self.manager.add_publisher('trajectory/viz/bbox', Marker, latch=True)

		try:
			self.manager.add_server_service('trajectory_manager/load_trajectory',
				LoadTrajectory, self.srv_load_trajectory)
			self.manager.add_server_service('trajectory_manager/start_trajectory',
				Empty, self.srv_start_trajectory)
			self.manager.add_server_service('trajectory_manager/stop_trajectory',
				Empty, self.srv_stop_trajectory)
			self.manager.add_server_service('trajectory_manager/visualize',
				VisualizeTrajectory, self.srv_visualize)
			self.manager.add_server_service('trajectory_manager/next_trajectory',
				Empty, self.srv_next_trajectory)

			self.manager.add_server_service('trajectory_manager/trajectory/config_bool',
				ConfigTrajectoryBool, self.srv_config_trajectory)
			self.manager.add_server_service('trajectory_manager/trajectory/config_float',
				ConfigTrajectoryFloat, self.srv_config_trajectory)
			self.manager.add_server_service('trajectory_manager/trajectory/config_string',
				ConfigTrajectoryString, self.srv_config_trajectory)
			self.manager.add_server_service('trajectory_manager/trajectory/config_vector',
				ConfigTrajectoryVector, self.srv_config_trajectory)

			self.manager.add_server_service('trajectory_manager/takeoff',
				Empty, self.srv_takeoff)
			self.manager.add_server_service('trajectory_manager/land',
				Empty, self.srv_land)

			self.manager.add_server_service('trajectory_manager/translate_trajectory',
				TranslateTrajectory, self.srv_translate_trajectory)
			self.manager.add_server_service('trajectory_manager/set_trajectory_translation',
				TranslateTrajectory, self.srv_set_trajectory_translation)

			self.manager.add_server_service('ready', Empty, self.srv_nop)


		except Exception as e:
			print 'ERROR WHILE CREATING SERVICES :', e

		self.manager.add_client_service('takeoff', Empty)
		self.manager.add_client_service('land', Empty)

		self.bbox = bbox
		self.trajectories = [None, None]
		self.drone_position = None

		self.trajectory_translation = (0,0,0)

		# ENUM
		self.flight_state = FLIGHT_STATES.LANDED

	def visualize_trajectory(self, tid=0):
		vline, vpoints = self.trajectories[tid].visualize()

		line = Marker()
		line.scale = Vector3(0.1, 0.1, 0.1)
		line.color = ColorRGBA(1, 0, 1, 1)
		line.header = std_msgs.msg.Header()
		line.header.stamp = self.manager.rospy.Time.now()
		line.header.frame_id = '/world'
		line.type = 4
		line.id = 0xF00D
		line.lifetime = self.manager.rospy.Duration(0)
		# bbox cropping
		line.points = [Point(*p) for p in self.bbox.crop_trajectory(vline)]
		line.colors = [ColorRGBA(1, 0, float(idx) / len(line.points), 1) for idx, p in enumerate(line.points)]
		self.manager.publish('trajectory/viz/line', line)

		pts = Marker()
		pts.scale = Vector3(0.1, 0.1, 0.1)
		pts.color = ColorRGBA(1, 1, 0, 1)
		pts.header = std_msgs.msg.Header()
		pts.header.stamp = self.manager.rospy.Time.now()
		pts.header.frame_id = '/world'
		pts.type = 8
		pts.id = 0xF00D + 1
		pts.lifetime = self.manager.rospy.Duration(0)
		pts.points = [Point(*p) for p in vpoints]
		pts.colors = [ColorRGBA(1, float(idx) / len(pts.points), 0, 1) for idx, p in enumerate(pts.points)]
		self.manager.publish('trajectory/viz/points', pts)

	def visualize_bbox(self):
		bbox = Marker()
		bbox.header = std_msgs.msg.Header()
		bbox.header.stamp = self.manager.rospy.Time.now()
		bbox.header.frame_id = '/world'
		bbox.type=1
		bbox.color = ColorRGBA(1, 0, 0, 0.2)

		def mean((a, b)):
			return float(a + b) / 2

		bbox.pose.position = Vector3(*map(mean, (self.bbox.x, self.bbox.y, self.bbox.z)))
		bbox.scale = Vector3(*map(lambda (a,b): min([100, b-a]), (self.bbox.x, self.bbox.y, self.bbox.z)))
		self.manager.publish('trajectory/viz/bbox', bbox)


	def load_trajectory(self, traj, tid=0):
		assert issubclass(traj.__class__, Trajectory) == True
		self.trajectories[tid] = traj


	def start(self):
		if self.listening == False:
			self.manager.add_subscriber('pose', PoseStamped, self._on_pose)
			self.listening = True


	def _on_pose(self, poseWrapper):
		self.drone_position = vec3_to_tuple(poseWrapper['data'].pose.position)

		if self.trajectories[0] and self.trajectories[0].started:
			pose = poseWrapper['data']
			ps = PoseStamped()
			ps.header = std_msgs.msg.Header()
			ps.header.stamp = self.manager.rospy.Time.now()
			ps.header.frame_id = '/world'
			ps.pose = self.trajectories[0].get_next_pose(self.drone_position)

			# bbox cropping
			ps.pose.position = Vector3(*self.bbox.crop_point(vec3_to_tuple(ps.pose.position)))
			self.manager.publish('goal', ps)

	# Services controllers

	def trajectory_start(self):
		if self.trajectories[0]:
			self.trajectories[0].start()

	def trajectory_stop(self):
		if self.trajectories[0]:
			self.trajectories[0].stop()

	def trajectory_config(self, tid, **kwargs):
		if self.trajectories[tid]:
			for k in kwargs:
				self.trajectories[tid][k] = kwargs[k]

	def takeoff(self):
		if self.flight_state == FLIGHT_STATES.LANDED:

			# if there is nothing to do for the drone, make it hover at 1.5 meters from the ground
			if self.trajectories[0] is None and self.drone_position is not None:
				self.load_trajectory(HoverTrajectory(manager=self), tid=0)
				pos = (self.drone_position[0], self.drone_position[1], 1.5)
				self.trajectory_config(tid=0, position=pos)
				self.trajectory_start()

			self.manager.call_service('takeoff')
			self.flight_state = FLIGHT_STATES.FLYING

	def land(self):
		if self.flight_state == FLIGHT_STATES.FLYING:
			self.manager.call_service('land')
			self.flight_state = FLIGHT_STATES.LANDED

	def next_trajectory(self):
		self.trajectories = self.trajectories[1:] + [None]
		if self.trajectories[0] is None:
			self.translate_trajectory([-p for p in self.trajectory_translation])

	def translate_trajectory(self, translation):
		self.trajectory_translation = tuple3_add(self.trajectory_translation, translation)

		for t in self.trajectories:
			if t is not None:
				t.set_translation(self.trajectory_translation)
		return self.trajectory_translation

	# Services views

	@service
	def srv_load_trajectory(self, req, res):
		print 'LOADING TRAJECTORY', req.payload.tid, req.payload.trajectory_type

		TRAJS = {
			'hover': HoverTrajectory,
			'bspline': BSplineTrajectory,
			'btimed': BSplineTimedTrajectory,
			'ball': BallLikeTrajectory,
			'grav': GravitationTrajectory,
			'land_at_pos': LandTrajectory,
			'juggle3D': Juggle3DTrajectory
		}

		if req.payload.trajectory_type in TRAJS:
			t = TRAJS[req.payload.trajectory_type](manager=self)
			print t.items()
			self.load_trajectory(t, req.payload.tid)
			res.result = True
		else:
			res.result = False

		return res

	@service
	def srv_start_trajectory(self, req, res):
		print 'STARTING TRAJECTORY'
		self.trajectory_start()
		return res

	@service
	def srv_stop_trajectory(self, req, res):
		print 'STOPPING TRAJECTORY'
		self.trajectory_stop()
		return res

	@service
	def srv_config_trajectory(self, req, res):
		print 'CONFIGURING TRAJECTORY', req.payload.tid, req.payload.key, '=', req.payload.value

		if self.trajectories[req.payload.tid] is not None:
			self.trajectory_config(req.payload.tid, **{req.payload.key: req.payload.value})
			res.result = True
		else:
			res.result = False

		return res

	@service
	def srv_visualize(self, req, res):
		if self.trajectories[req.payload.tid] is not None:
			self.visualize_trajectory(req.payload.tid)
			res.result = True
		else:
			res.result = False

		self.visualize_bbox()
		return res

	@service
	def srv_takeoff(self, req, res):
		self.takeoff()
		return res

	@service
	def srv_land(self, req, res):
		self.land()
		return res

	@service
	def srv_next_trajectory(self, req, res):
		self.next_trajectory()
		return res

	@service
	def srv_translate_trajectory(self, req, res):
		t = self.translate_trajectory(req.payload.translation)
		res.result = t
		return res

	@service
	def srv_set_trajectory_translation(self, req, res):
		to_translate = (
			req.payload.translation[0] - self.trajectory_translation[0],
			req.payload.translation[1] - self.trajectory_translation[1],
			req.payload.translation[2] - self.trajectory_translation[2]
		)

		t = self.translate_trajectory(to_translate)
		res.result = t
		return res

	@service
	def srv_nop(self, req, res):
		return res
Exemplo n.º 5
0
    def __init__(self, swarm_prefix='/swarm/proxy/'):
        self.swarm_prefix = swarm_prefix

        self.last_input = GloveInput()
        self.flying = False
        self.current_trajectory = None

        self.POSSIBLE_TRAJECTORIES = [
            ControlModeHover,
            ControlModeJuggle3D,
            ControlModeCircle,
            ControlModeBTimed,
        ]

        self.ball_first_pos_nparr = None

        self.manager = PubSubManager('juggling_controller',
                                     anonymous=False,
                                     log_level=rospy.DEBUG)

        self.nb_drones = int(self.manager.get_param('~nb_drones', 2))
        self.controller_id = int(self.manager.get_param('~controller_id', 0))
        self.selected_drone = min(self.controller_id, self.nb_drones - 1)

        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/load_trajectory',
            Proxy_LoadTrajectory)
        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/start_trajectory', Proxy_Empty)
        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/stop_trajectory', Proxy_Empty)
        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/visualize',
            Proxy_VisualizeTrajectory)
        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/next_trajectory', Proxy_Empty)

        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/trajectory/config_bool',
            Proxy_ConfigTrajectoryBool)
        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/trajectory/config_float',
            Proxy_ConfigTrajectoryFloat)
        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/trajectory/config_string',
            Proxy_ConfigTrajectoryString)
        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/trajectory/config_vector',
            Proxy_ConfigTrajectoryVector)

        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/takeoff', Proxy_Empty)
        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/land', Proxy_Empty)

        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/translate_trajectory',
            Proxy_TranslateTrajectory)
        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/set_trajectory_translation',
            Proxy_TranslateTrajectory)

        self.manager.add_client_service(swarm_prefix + 'emergency',
                                        Proxy_Empty)

        self.manager.add_subscriber('input', GloveInput, self._on_glove_input)
Exemplo n.º 6
0
class Controller(object):
    def __init__(self, swarm_prefix='/swarm/proxy/'):
        self.swarm_prefix = swarm_prefix

        self.last_input = GloveInput()
        self.flying = False
        self.current_trajectory = None

        self.POSSIBLE_TRAJECTORIES = [
            ControlModeHover,
            ControlModeJuggle3D,
            ControlModeCircle,
            ControlModeBTimed,
        ]

        self.ball_first_pos_nparr = None

        self.manager = PubSubManager('juggling_controller',
                                     anonymous=False,
                                     log_level=rospy.DEBUG)

        self.nb_drones = int(self.manager.get_param('~nb_drones', 2))
        self.controller_id = int(self.manager.get_param('~controller_id', 0))
        self.selected_drone = min(self.controller_id, self.nb_drones - 1)

        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/load_trajectory',
            Proxy_LoadTrajectory)
        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/start_trajectory', Proxy_Empty)
        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/stop_trajectory', Proxy_Empty)
        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/visualize',
            Proxy_VisualizeTrajectory)
        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/next_trajectory', Proxy_Empty)

        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/trajectory/config_bool',
            Proxy_ConfigTrajectoryBool)
        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/trajectory/config_float',
            Proxy_ConfigTrajectoryFloat)
        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/trajectory/config_string',
            Proxy_ConfigTrajectoryString)
        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/trajectory/config_vector',
            Proxy_ConfigTrajectoryVector)

        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/takeoff', Proxy_Empty)
        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/land', Proxy_Empty)

        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/translate_trajectory',
            Proxy_TranslateTrajectory)
        self.manager.add_client_service(
            swarm_prefix + 'trajectory_manager/set_trajectory_translation',
            Proxy_TranslateTrajectory)

        self.manager.add_client_service(swarm_prefix + 'emergency',
                                        Proxy_Empty)

        self.manager.add_subscriber('input', GloveInput, self._on_glove_input)

    def _on_glove_input(self, input_wrapper):
        glove = input_wrapper['data']

        if glove.glove_id.data != self.controller_id:
            return

        # compute differences from buttons
        button_diff = [
            int(_a) - int(_b)
            for _a, _b in zip(glove.buttons, self.last_input.buttons)
        ]

        buttons = {}

        buttons['select_button'] = button_diff[0]  # l/r 1
        buttons['action_buttons'] = button_diff[1:5]
        buttons['takeoff_land_button'] = button_diff[5]
        buttons['translate'] = button_diff[6]  # l/r 3
        buttons['emergency'] = button_diff[7]  # joystick up
        buttons['prev_drone'] = button_diff[8]  # joystick left
        buttons['next_drone'] = button_diff[9]  # joystick right

        print buttons

        if buttons['prev_drone'] == 1:
            self._prev_drone()
            print 'SELECTED DRONE :', self.selected_drone

        if buttons['next_drone'] == 1:
            self._next_drone()
            print 'SELECTED DRONE :', self.selected_drone

        if buttons['emergency'] == 1:
            self._call_service('emergency')

        # land/takeoff
        if buttons['takeoff_land_button'] == 1:
            if self.flying:
                self._do_land()
            else:
                self._do_takeoff()

        # trajectory selection
        if 1 in buttons['action_buttons']:
            print 'TRAJECTORY SELECTION'
            trajectory_selected = self.POSSIBLE_TRAJECTORIES[
                buttons['action_buttons'].index(1)]
            print self._call_service(
                'trajectory_manager/load_trajectory',
                tid=1,
                trajectory_type=trajectory_selected.get_name())
            self.current_trajectory = trajectory_selected(self)
            print 'TRAJECTORY SELECTED :', self.current_trajectory.get_name()

        if buttons['translate'] == -1:
            vel = vec3_to_tuple(glove.velocity)
            self._call_service('trajectory_manager/translate_trajectory',
                               translation=vel)
            self._call_service('trajectory_manager/visualize', tid=0)

        # trajectory configuration
        if self.current_trajectory is not None:
            self.current_trajectory.on_input(glove, buttons)

        self.last_input = glove

    def _next_trajectory(self):
        self._call_service('trajectory_manager/next_trajectory')
        self._call_service('trajectory_manager/start_trajectory')
        self.current_trajectory = None

        self.ball_first_pos_nparr = None

    def _call_service(self, service, **kwargs):
        print 'CALLING SERVICE', service, kwargs
        if len(kwargs.keys()) > 0:
            res = self.manager.call_service(self.swarm_prefix + service,
                                            drone_id=self.selected_drone,
                                            payload=objectview(kwargs))
        else:
            res = self.manager.call_service(self.swarm_prefix + service,
                                            drone_id=self.selected_drone)
        print 'SERVICE RESULT :', res
        return res

    def _do_land(self):
        if self.flying:
            self._call_service('trajectory_manager/land')
            self.flying = False

    def _do_takeoff(self):
        if not self.flying:
            self._call_service('trajectory_manager/takeoff')
            self.flying = True

    def _prev_drone(self):
        self.selected_drone = (self.selected_drone + self.nb_drones -
                               1) % self.nb_drones

    def _next_drone(self):
        self.selected_drone = (self.selected_drone + 1) % self.nb_drones
Exemplo n.º 7
0
class HydraMapper(object):
    def __init__(self):
        self.manager = PubSubManager('hydra_mapper', anonymous=False)
        self.INPUT_ID = int(self.manager.get_param('~input_id', 0))

        self.positions = []

        self.COLOR = [ColorRGBA(0, 255, 0, 255), ColorRGBA(0, 0, 255, 255)]

        self.manager.add_publisher('viz', Marker)
        self.manager.add_publisher('input', GloveInput)

        self.manager.add_subscriber('/hydra_calib', Hydra, self.onHydra)

        self.last_message_sent_millis = 0
        self.framerate = 30

    def fixed_paddle(self, paddle):
        new_paddle = copy.deepcopy(paddle)
        new_paddle.transform.translation = \
         v3_switch_x_y(paddle.transform.translation)
        new_paddle.transform.translation.x += 1.75
        new_paddle.transform.translation.y += 2.25
        new_paddle.transform.translation.z += 1.5
        return new_paddle

    def paddle_to_marker(self, paddle, color, _id):
        m = Marker()

        m.pose.position = paddle.transform.translation
        # m.pose.orientation = Vector3() #paddle.transform.rotation
        m.scale = Vector3(0.1, 0.1, 0.1)
        m.color = color
        m.header = std_msgs.msg.Header()
        m.header.stamp = self.manager.rospy.Time.now()
        m.header.frame_id = '/world'
        m.type = 1
        m.id = _id
        m.lifetime = self.manager.rospy.Duration(10)
        return m

    def create_glove(self, position, rotation, velocity, acceleration, buttons,
                     trigger, joy):
        glove = GloveInput()
        glove.glove_id = Int32(self.INPUT_ID)
        glove.position = Vector3(*position)
        glove.velocity = Vector3(*velocity)
        glove.acceleration = Vector3(*acceleration)
        glove.rotation = Quaternion(*rotation)
        glove.buttons = (
            buttons +
            # [trigger > 0.5] +
            [joy[1] > 0.75] + [joy[0] < -0.75] + [joy[0] > 0.75])
        return glove

    def onHydra(self, hydra_wrapper):
        h = hydra_wrapper['data']

        paddle = self.fixed_paddle(h.paddles[self.INPUT_ID])

        if self.last_message_sent_millis is 0:
            self.last_message_sent_millis = millis()

        # retrieve positions
        self.positions.append(
            np.array(vec3_to_tuple(paddle.transform.translation)))

        # should send a new message ?
        if millis() - self.last_message_sent_millis >= 1000.0 / self.framerate:
            delta_time = float(millis() - self.last_message_sent_millis) / 1000

            position = np.array(vec3_to_tuple(paddle.transform.translation))
            rotation = quat_to_tuple(paddle.transform.rotation)

            # computes average velocity since last message
            velocities = [
                _a - _b for _a, _b in zip(self.positions[1:], self.positions)
            ]
            if len(velocities) == 0:
                velocities.append(np.array([0, 0, 0]))
            velocities = [
                v / (delta_time / len(velocities)) for v in velocities
            ]
            velocity = sum(velocities) / len(velocities)

            accelerations = [
                _a - _b for _a, _b in zip(velocities[1:], velocities)
            ]
            if len(accelerations) == 0:
                accelerations.append(np.array([0, 0, 0]))
            accelerations = [
                a / (delta_time / len(accelerations)) for a in accelerations
            ]
            acceleration = sum(accelerations) / len(accelerations)

            self.last_message_sent_millis = millis()
            self.positions = []

            marker = self.paddle_to_marker(paddle, self.COLOR[self.INPUT_ID],
                                           0)

            self.manager.publish('viz', marker)
            self.manager.publish(
                'input',
                self.create_glove(tuple(position), rotation, tuple(velocity),
                                  tuple(acceleration), paddle.buttons,
                                  paddle.trigger, paddle.joy))
Exemplo n.º 8
0
    def __init__(self):
        self.manager = PubSubManager('swarm_manager', anonymous=False)

        self.nb_drones = int(
            self.manager.rospy.get_param('~nb_drones', default='2'))
        self.drones = self.manager.rospy.get_param(
            '~drone_prefixes')[:self.nb_drones]
        self.active_drones = []
        bases = self.manager.rospy.get_param('~bases', [])
        self.bases = [None] * len(self.drones)
        try:
            for i, b in enumerate(bases):
                self.bases[i] = b
        except:
            print 'Cannot read bases'

        self.proxy_prefix = '/swarm/proxy/'
        self.to_proxy_list = [{
            'name': 'trajectory_manager/load_trajectory',
            'from_type': Proxy_LoadTrajectory,
            'to_type': LoadTrajectory
        }, {
            'name': 'trajectory_manager/start_trajectory',
            'from_type': Proxy_Empty,
            'to_type': Empty
        }, {
            'name': 'trajectory_manager/stop_trajectory',
            'from_type': Proxy_Empty,
            'to_type': Empty
        }, {
            'name': 'trajectory_manager/visualize',
            'from_type': Proxy_VisualizeTrajectory,
            'to_type': VisualizeTrajectory
        }, {
            'name': 'trajectory_manager/next_trajectory',
            'from_type': Proxy_Empty,
            'to_type': Empty
        }, {
            'name': 'trajectory_manager/trajectory/config_bool',
            'from_type': Proxy_ConfigTrajectoryBool,
            'to_type': ConfigTrajectoryBool
        }, {
            'name': 'trajectory_manager/trajectory/config_float',
            'from_type': Proxy_ConfigTrajectoryFloat,
            'to_type': ConfigTrajectoryFloat
        }, {
            'name': 'trajectory_manager/trajectory/config_string',
            'from_type': Proxy_ConfigTrajectoryString,
            'to_type': ConfigTrajectoryString
        }, {
            'name': 'trajectory_manager/trajectory/config_vector',
            'from_type': Proxy_ConfigTrajectoryVector,
            'to_type': ConfigTrajectoryVector
        }, {
            'name': 'trajectory_manager/takeoff',
            'from_type': Proxy_Empty,
            'to_type': Empty
        }, {
            'name': 'trajectory_manager/land',
            'from_type': Proxy_Empty,
            'to_type': Empty
        }, {
            'name': 'trajectory_manager/translate_trajectory',
            'from_type': Proxy_TranslateTrajectory,
            'to_type': TranslateTrajectory
        }, {
            'name': 'trajectory_manager/set_trajectory_translation',
            'from_type': Proxy_TranslateTrajectory,
            'to_type': TranslateTrajectory
        }, {
            'name': 'emergency',
            'from_type': Proxy_Empty,
            'to_type': Empty
        }]

        self.proxies = {}

        self._get_active_drones()
        self._build_proxies()

        print self.proxies
Exemplo n.º 9
0
class SwarmManager(object):
    def __init__(self):
        self.manager = PubSubManager('swarm_manager', anonymous=False)

        self.nb_drones = int(
            self.manager.rospy.get_param('~nb_drones', default='2'))
        self.drones = self.manager.rospy.get_param(
            '~drone_prefixes')[:self.nb_drones]
        self.active_drones = []
        bases = self.manager.rospy.get_param('~bases', [])
        self.bases = [None] * len(self.drones)
        try:
            for i, b in enumerate(bases):
                self.bases[i] = b
        except:
            print 'Cannot read bases'

        self.proxy_prefix = '/swarm/proxy/'
        self.to_proxy_list = [{
            'name': 'trajectory_manager/load_trajectory',
            'from_type': Proxy_LoadTrajectory,
            'to_type': LoadTrajectory
        }, {
            'name': 'trajectory_manager/start_trajectory',
            'from_type': Proxy_Empty,
            'to_type': Empty
        }, {
            'name': 'trajectory_manager/stop_trajectory',
            'from_type': Proxy_Empty,
            'to_type': Empty
        }, {
            'name': 'trajectory_manager/visualize',
            'from_type': Proxy_VisualizeTrajectory,
            'to_type': VisualizeTrajectory
        }, {
            'name': 'trajectory_manager/next_trajectory',
            'from_type': Proxy_Empty,
            'to_type': Empty
        }, {
            'name': 'trajectory_manager/trajectory/config_bool',
            'from_type': Proxy_ConfigTrajectoryBool,
            'to_type': ConfigTrajectoryBool
        }, {
            'name': 'trajectory_manager/trajectory/config_float',
            'from_type': Proxy_ConfigTrajectoryFloat,
            'to_type': ConfigTrajectoryFloat
        }, {
            'name': 'trajectory_manager/trajectory/config_string',
            'from_type': Proxy_ConfigTrajectoryString,
            'to_type': ConfigTrajectoryString
        }, {
            'name': 'trajectory_manager/trajectory/config_vector',
            'from_type': Proxy_ConfigTrajectoryVector,
            'to_type': ConfigTrajectoryVector
        }, {
            'name': 'trajectory_manager/takeoff',
            'from_type': Proxy_Empty,
            'to_type': Empty
        }, {
            'name': 'trajectory_manager/land',
            'from_type': Proxy_Empty,
            'to_type': Empty
        }, {
            'name': 'trajectory_manager/translate_trajectory',
            'from_type': Proxy_TranslateTrajectory,
            'to_type': TranslateTrajectory
        }, {
            'name': 'trajectory_manager/set_trajectory_translation',
            'from_type': Proxy_TranslateTrajectory,
            'to_type': TranslateTrajectory
        }, {
            'name': 'emergency',
            'from_type': Proxy_Empty,
            'to_type': Empty
        }]

        self.proxies = {}

        self._get_active_drones()
        self._build_proxies()

        print self.proxies

        # self.manager.add_server_service('land_at_base', Proxy_Empty, self.srv_land_at_base)

    def _get_active_drones(self):
        self.active_drones = []
        for idx, d in enumerate(self.drones):
            try:
                self.manager.rospy.wait_for_service(d + '/ready', timeout=10)
                self.active_drones.append(idx)
            except:
                pass

    def _add_client_service(self, s_name, s_type):
        srvs = [None] * len(self.drones)
        for drone_idx in self.active_drones:
            drone = self.drones[drone_idx]

            serv_name = drone + '/' + s_name
            try:
                srvs[drone_idx] = self.manager.add_client_service(
                    serv_name, s_type)

            except self.manager.rospy.ROSException:
                print 'ERROR WHILE LOADING SERVICE', serv_name
        return srvs

    def _build_proxies(self):
        for to_proxy in self.to_proxy_list:
            self.proxies[to_proxy['name']] = self._add_client_service(
                to_proxy['name'], to_proxy['to_type'])
            self.manager.add_server_service(
                self.proxy_prefix + to_proxy['name'], to_proxy['from_type'],
                self._create_proxy_callback(to_proxy))

    def _create_proxy_callback(self, proxy_object):
        @service()
        def cb(req, res):
            print 'PROXYING', proxy_object['to_type'], 'TO DRONE', req.drone_id

            if req.drone_id not in self.active_drones:
                print 'PROXY ERROR : DRONE NOT FOUND'
                proxy_success = False
            else:
                proxied_req = proxy_object['to_type']._request_class()
                try:
                    proxied_req.payload = req.payload
                except:
                    pass

                proxy_service = self.proxies[proxy_object['name']][
                    req.drone_id]
                if proxy_service is None:
                    proxy_success = False
                    print 'PROXY ERROR : PROXY NOT FOUND'
                else:
                    proxied_res = proxy_service(proxied_req)
                    try:
                        result = proxied_res.result
                        proxy_success = True
                    except Exception as e:
                        proxy_success = False
                        print 'PROXY ERROR :', e
                        pass

            res.proxy_success = proxy_success
            try:
                res.result = result
            except:
                pass

            print 'PROXY SUCCESS :', res.proxy_success
            return res

        return cb