Exemplo n.º 1
0
    def start_test(self) -> None:
        self.output_dir = f'{get_data_dir(os.environ["CODEDIR"])}/test_dir/{get_filename_without_extension(__file__)}'
        os.makedirs(self.output_dir, exist_ok=True)

        config = {
            'output_path': self.output_dir,
            'robot_name': 'turtlebot_sim',
            'gazebo': False,
            'fsm': False,
            'control_mapping': False,
            'ros_expert': False,
            'waypoint_indicator': False,
            'robot_mapping': True
        }

        # spinoff roslaunch
        self._ros_process = RosWrapper(launch_file='load_ros.launch',
                                       config=config,
                                       visible=False)

        # create publishers for all relevant sensors < sensor expert
        self._pose_topic = rospy.get_param('/robot/position_sensor/topic')
        self._pose_type = rospy.get_param('/robot/position_sensor/type')
        self._fsm_topic = '/fsm/state'
        publish_topics = [
            TopicConfig(topic_name=self._pose_topic, msg_type=self._pose_type),
            TopicConfig(topic_name=self._fsm_topic, msg_type='String')
        ]

        self.ros_topic = TestPublisherSubscriber(subscribe_topics=[],
                                                 publish_topics=publish_topics)
    def setUp(self) -> None:
        self.config = {
            'robot_name': 'test_fsm_robot',
            'fsm': True,
            'fsm_mode': 'SingleRun',
            'world_name': 'test_fsm_world',
            'control_mapping': False,
            'waypoint_indicator': False,
        }
        self.output_dir = f'{get_data_dir(os.environ["CODEDIR"])}/test_dir/{get_filename_without_extension(__file__)}'
        os.makedirs(self.output_dir, exist_ok=True)
        self.config['output_path'] = self.output_dir

        # spinoff roslaunch
        self._ros_process = RosWrapper(launch_file='load_ros.launch',
                                       config=self.config,
                                       visible=False)

        self.delay_evaluation = rospy.get_param('/world/delay_evaluation')
        self.state_topic = '/fsm/state'
        self.reward_topic = '/fsm/reward'
        self.reset_topic = '/fsm/reset'
        self.pose_topic = rospy.get_param('/robot/position_sensor/topic')
        self.depth_scan_topic = rospy.get_param('/robot/depth_sensor/topic')
        self.modified_state_topic = rospy.get_param(
            '/robot/modified_state_sensor/topic')
        # subscribe to fsm state and reward (fsm's output)
        subscribe_topics = [
            TopicConfig(topic_name=self.state_topic, msg_type="String"),
            TopicConfig(topic_name=self.reward_topic, msg_type="RosReward"),
        ]

        # create publishers for all relevant sensors < FSM
        publish_topics = [
            TopicConfig(topic_name=self.reset_topic, msg_type='Empty'),
        ]
        for sensor in SensorType:
            if rospy.has_param(f'/robot/{sensor.name}_sensor'):
                publish_topics.append(
                    TopicConfig(
                        topic_name=eval(
                            f'rospy.get_param("/robot/{sensor.name}_sensor/topic")'
                        ),
                        msg_type=eval(
                            f'rospy.get_param("/robot/{sensor.name}_sensor/type")'
                        )))

        self.ros_topic = TestPublisherSubscriber(
            subscribe_topics=subscribe_topics, publish_topics=publish_topics)
    def start_test(self) -> None:
        self.output_dir = f'{get_data_dir(os.environ["CODEDIR"])}/test_dir/{get_filename_without_extension(__file__)}'
        os.makedirs(self.output_dir, exist_ok=True)
        config = {
            'robot_name':
            'turtlebot_sim',
            'world_name':
            'test_waypoints',
            'gazebo':
            False,
            'fsm':
            False,
            'control_mapping':
            False,
            'waypoint_indicator':
            True,
            'ros_expert':
            True,
            'output_path':
            self.output_dir,
            'ros_expert_config_file_path_with_extension':
            f'src/sim/ros/config/actor/ros_expert.yml'
        }

        # spinoff roslaunch
        self._ros_process = RosWrapper(launch_file='load_ros.launch',
                                       config=config,
                                       visible=False)

        # subscribe to command control
        self.command_topic = '/actor/ros_expert/cmd_vel'
        subscribe_topics = [
            TopicConfig(topic_name=self.command_topic, msg_type="Twist"),
        ]
        # create publishers for all relevant sensors < sensor expert
        self._depth_topic = rospy.get_param('/robot/depth_sensor/topic')
        self._depth_type = rospy.get_param('/robot/depth_sensor/type')
        self._pose_topic = rospy.get_param('/robot/position_sensor/topic')
        self._pose_type = rospy.get_param('/robot/position_sensor/type')

        publish_topics = [
            TopicConfig(topic_name=self._depth_topic,
                        msg_type=self._depth_type),
            TopicConfig(topic_name=self._pose_topic, msg_type=self._pose_type)
        ]

        self.ros_topic = TestPublisherSubscriber(
            subscribe_topics=subscribe_topics, publish_topics=publish_topics)
    def test_modified_state_frame_visualizer(self):
        self.output_dir = f'{get_data_dir(os.environ["CODEDIR"])}/test_dir/{get_filename_without_extension(__file__)}'
        os.makedirs(self.output_dir, exist_ok=True)
        config = {
            'output_path': self.output_dir,
            'modified_state_publisher_mode': 'CombinedGlobalPoses',
            'modified_state_frame_visualizer': True,
        }

        # spinoff roslaunch
        self._ros_process = RosWrapper(launch_file='load_ros.launch',
                                       config=config,
                                       visible=True)

        # subscribe to modified_state_topic
        self.frame_topic = '/modified_state_frame'
        subscribe_topics = [
            TopicConfig(topic_name=self.frame_topic, msg_type='Image'),
        ]
        # create publishers for modified state
        self.modified_state_topic = '/modified_state'
        publish_topics = [
            TopicConfig(topic_name=self.modified_state_topic,
                        msg_type='CombinedGlobalPoses'),
        ]
        self.ros_topic = TestPublisherSubscriber(
            subscribe_topics=subscribe_topics, publish_topics=publish_topics)
        # test center view
        message = get_fake_combined_global_poses(0, 0, 1, 3, 1, 1, 0, 0, 0)
        rospy.sleep(2)
        self.ros_topic.publishers[self.modified_state_topic].publish(message)

        safe_wait_till_true(
            '"/modified_state_frame" in kwargs["ros_topic"].topic_values.keys()',
            True,
            3,
            0.1,
            ros_topic=self.ros_topic)
        frame = process_image(
            self.ros_topic.topic_values['/modified_state_frame'])
        plt.imshow(frame)
        plt.show()
        a = 100
    def start(self) -> None:
        self.output_dir = f'{get_data_dir(os.environ["CODEDIR"])}/test_dir/{get_filename_without_extension(__file__)}'
        os.makedirs(self.output_dir, exist_ok=True)
        config = {
            'robot_name': 'double_drone_sim',
            'gazebo': False,
            'fsm': False,
            'control_mapping': False,
            'output_path': self.output_dir,
            'modified_state_publisher': True,
            'modified_state_publisher_mode': 'CombinedGlobalPoses',
        }

        # spinoff roslaunch
        self._ros_process = RosWrapper(launch_file='load_ros.launch',
                                       config=config,
                                       visible=False)

        # subscribe to modified_state_topic
        self.modified_state_topic = rospy.get_param(
            '/robot/modified_state_sensor/topic')
        subscribe_topics = [
            TopicConfig(
                topic_name=self.modified_state_topic,
                msg_type=rospy.get_param('/robot/modified_state_sensor/type')),
        ]
        # create publishers for all topics upon which modified state publisher depends
        self.tracking_pose_topic = rospy.get_param(
            '/robot/tracking_position_sensor/topic')
        self.fleeing_pose_topic = rospy.get_param(
            '/robot/fleeing_position_sensor/topic')
        publish_topics = [
            TopicConfig(topic_name=self.tracking_pose_topic,
                        msg_type=rospy.get_param(
                            '/robot/tracking_position_sensor/type')),
            TopicConfig(topic_name=self.fleeing_pose_topic,
                        msg_type=rospy.get_param(
                            '/robot/fleeing_position_sensor/type'))
        ]
        self.ros_topic = TestPublisherSubscriber(
            subscribe_topics=subscribe_topics, publish_topics=publish_topics)
Exemplo n.º 6
0
    def start(self) -> None:
        self.output_dir = f'{get_data_dir(os.environ["CODEDIR"])}/test_dir/{get_filename_without_extension(__file__)}'
        os.makedirs(self.output_dir, exist_ok=True)
        config = {
            'robot_name': 'test_control_mapper',
            'fsm': False,
            'control_mapping': True,
            'control_mapping_config': 'test_control_mapper',
            'output_path': self.output_dir,
            'waypoint_indicator': False
        }

        # spinoff roslaunch
        self._ros_process = RosWrapper(launch_file='load_ros.launch',
                                       config=config,
                                       visible=False)
        # subscribe to robot control topics
        self.command_topics = {
            'command_a': rospy.get_param('/robot/command_a_topic'),
            'command_b': rospy.get_param('/robot/command_b_topic'),
            'command_c': rospy.get_param('/robot/command_c_topic')
        }
        subscribe_topics = [
            TopicConfig(topic_name=topic_name, msg_type="Twist") for topic_name in self.command_topics.values()
        ]
        # create publishers for all control topics < control_mapper/default.yml
        self._mapping = rospy.get_param('/control_mapping/mapping')

        publish_topics = [
            TopicConfig(topic_name='/fsm/state', msg_type='String')
        ]
        self._control_topics = [mode[key] for mode in self._mapping.values()
                                for key in mode.keys()]
        self._control_topics = set(self._control_topics)

        self.ros_topic = TestPublisherSubscriber(
            subscribe_topics=subscribe_topics,
            publish_topics=publish_topics + [TopicConfig(topic_name=name, msg_type='Twist')
                                             for name in self._control_topics]
        )
Exemplo n.º 7
0
    def load_ros_topic_with_sensors_and_control_commands(self):
        time.sleep(5)
        while not rospy.has_param('/robot/command_topic'):
            time.sleep(0.1)

        # fake command publish topics
        self.command_topic = rospy.get_param('/robot/command_topic')
        # self.supervision_topic = rospy.get_param('/control_mapping/supervision_topic')
        subscribe_topics = [
            TopicConfig(topic_name=self.command_topic, msg_type="Twist"),
            # TopicConfig(topic_name=self.supervision_topic, msg_type="Twist"),
            # TopicConfig(topic_name=rospy.get_param('/fsm/state_topic'), msg_type="String"),
            TopicConfig(topic_name='/ros_environment/state',
                        msg_type="RosState"),
        ]
        for sensor in rospy.get_param('/robot/sensors', []):
            sensor_topic = rospy.get_param(f'/robot/{sensor}_topic')
            sensor_type = rospy.get_param(f'/robot/{sensor}_type')
            subscribe_topics.append(
                TopicConfig(topic_name=sensor_topic, msg_type=sensor_type))

        # create publishers for all control topics < control_mapper/default.yml
        self._mapping = rospy.get_param('/control_mapping/mapping', {})
        publish_topics = [
            # TopicConfig(topic_name=rospy.get_param('/fsm/state_topic'), msg_type='String')
        ]
        self._control_topics = []
        for state, mode in self._mapping.items():
            if 'command' in mode.keys():
                publish_topics.append(
                    TopicConfig(topic_name=mode['command'], msg_type='Twist'))
                self._control_topics.append(mode['command'])
            if 'supervision' in mode.keys():
                publish_topics.append(
                    TopicConfig(topic_name=mode['supervision'],
                                msg_type='Twist'))
                self._control_topics.append(mode['supervision'])
        self._sensor_topics = []
        for sensor in rospy.get_param('/robot/sensors', []):
            sensor_topic = rospy.get_param(f'/robot/{sensor}_topic')
            sensor_type = rospy.get_param(f'/robot/{sensor}_type')
            publish_topics.append(
                TopicConfig(topic_name=sensor_topic, msg_type=sensor_type))
            self._sensor_topics.append((sensor_topic, sensor_type))

        self.ros_topic = TestPublisherSubscriber(
            subscribe_topics=subscribe_topics, publish_topics=publish_topics)
Exemplo n.º 8
0
 def setUp(self) -> None:
     self.output_dir = f'{get_data_dir(os.environ["CODEDIR"])}/test_dir/{get_filename_without_extension(__file__)}'
     os.makedirs(self.output_dir, exist_ok=True)
     config = {
         'random_seed': 123,
         'gazebo': 'true',
         'world_name': 'empty',
         'robot_name': 'drone_sim',
         'output_path': self.output_dir
     }
     self.ros_process = RosWrapper(launch_file='load_ros.launch',
                                   config=config,
                                   visible=False)
     subscribe_topics = [
         TopicConfig(
             topic_name=rospy.get_param(f'/robot/{sensor}_sensor/topic'),
             msg_type=rospy.get_param(f'/robot/{sensor}_sensor/type'))
         for sensor in ['camera', 'position', 'depth']
     ]
     self.ros_topic = TestPublisherSubscriber(
         subscribe_topics=subscribe_topics, publish_topics=[])
     self._unpause_client = rospy.ServiceProxy('/gazebo/unpause_physics',
                                               Emptyservice)
    def test_april_tag_detector_real_bebop(self):
        self.output_dir = f'{get_data_dir(os.environ["CODEDIR"])}/test_dir/{get_filename_without_extension(__file__)}'
        os.makedirs(self.output_dir, exist_ok=True)

        self._config = {
            'output_path': self.output_dir,
            'world_name': 'april_tag',
            'robot_name': 'bebop_real',
            'gazebo': False,
            'april_tag_detector': True,
        }

        # spinoff roslaunch
        self._ros_process = RosWrapper(launch_file='load_ros.launch',
                                       config=self._config,
                                       visible=True)

        # subscribe to command control
        subscribe_topics = [
            TopicConfig(topic_name='/reference_ground_point',
                        msg_type='PointStamped'),
        ]

        self.ros_topic = TestPublisherSubscriber(
            subscribe_topics=subscribe_topics, publish_topics=[])
        safe_wait_till_true(
            '"/reference_ground_point" in kwargs["ros_topic"].topic_values.keys()',
            True,
            25,
            0.1,
            ros_topic=self.ros_topic)
        while True:
            print(
                f'waypoint: {self.ros_topic.topic_values["/reference_ground_point"]}'
            )
            time.sleep(0.5)
Exemplo n.º 10
0
    def test_single_drone(self) -> None:
        self.output_dir = f'{get_data_dir(os.environ["CODEDIR"])}/test_dir/{get_filename_without_extension(__file__)}'
        os.makedirs(self.output_dir, exist_ok=True)

        height = 5
        self._config = {
            'output_path': self.output_dir,
            'world_name': 'empty',
            'robot_name': 'drone_sim',
            'gazebo': True,
            'fsm': True,
            'fsm_mode': 'TakeOverRun',
            'control_mapping': True,
            'control_mapping_config': 'ros_expert',
            'altitude_control': True,
            'ros_expert': True,
            'starting_height': height
        }

        # spinoff roslaunch
        self._ros_process = RosWrapper(launch_file='load_ros.launch',
                                       config=self._config,
                                       visible=True)

        # subscribe to command control
        subscribe_topics = [
            TopicConfig(topic_name=rospy.get_param('/robot/position_sensor/topic'),
                        msg_type=rospy.get_param('/robot/position_sensor/type')),
            TopicConfig(topic_name='/fsm/state',
                        msg_type='String')
        ]

        publish_topics = [
            TopicConfig(topic_name='/fsm/reset', msg_type='Empty')
        ]

        self.ros_topic = TestPublisherSubscriber(
            subscribe_topics=subscribe_topics,
            publish_topics=publish_topics
        )
        self._unpause_client = rospy.ServiceProxy('/gazebo/unpause_physics', Emptyservice)
        self._pause_client = rospy.ServiceProxy('/gazebo/pause_physics', Emptyservice)
        self._set_model_state = rospy.ServiceProxy('/gazebo/set_model_state', SetModelState)

        # unpause gazebo to receive messages
        self._unpause_client.wait_for_service()
        self._unpause_client.call()

        safe_wait_till_true('"/fsm/state" in kwargs["ros_topic"].topic_values.keys()',
                            True, 10, 0.1, ros_topic=self.ros_topic)
        self.assertEqual(self.ros_topic.topic_values['/fsm/state'].data, FsmState.Unknown.name)

        # pause again before start
        self._pause_client.wait_for_service()
        self._pause_client.call()

        self._set_model_state = rospy.ServiceProxy('/gazebo/set_model_state', SetModelState)

        for _ in range(3):
            print(f'round: {_}')

            # set gazebo model state
            model_state = ModelState()
            model_state.model_name = 'quadrotor'
            model_state.pose = Pose()
            self._set_model_state.wait_for_service()
            self._set_model_state(model_state)

            # publish reset
            self.ros_topic.publishers['/fsm/reset'].publish(Empty())

            self._unpause_client.wait_for_service()
            self._unpause_client.call()

            # gets fsm in taken over state
            safe_wait_till_true('kwargs["ros_topic"].topic_values["/fsm/state"].data',
                                FsmState.TakenOver.name, 2, 0.1, ros_topic=self.ros_topic)

            # altitude control brings drone to starting_height
            safe_wait_till_true('kwargs["ros_topic"].topic_values["/fsm/state"].data',
                                FsmState.Running.name, 45, 0.1, ros_topic=self.ros_topic)
            # check current height
            z_pos = self.ros_topic.topic_values[rospy.get_param('/robot/position_sensor/topic')].pose.pose.position.z
            print(f'final_height: {z_pos}')
            self.assertLess(abs(z_pos - height), 0.2)

            self._pause_client.wait_for_service()
            self._pause_client.call()
Exemplo n.º 11
0
    def test_double_drone(self) -> None:
        self.output_dir = f'{get_data_dir(os.environ["CODEDIR"])}/test_dir/{get_filename_without_extension(__file__)}'
        os.makedirs(self.output_dir, exist_ok=True)

        height = 5
        self._config = {
            'output_path': self.output_dir,
            'world_name': 'empty',
            'robot_name': 'double_drone_sim',
            'gazebo': True,
            'fsm': True,
            'fsm_mode': 'TakeOverRun',
            'control_mapping': False,
            'control_mapping_config': 'python_adversarial',
            'altitude_control': False,
            'ros_expert': False,
            'starting_height': height
        }

        # spinoff roslaunch
        self._ros_process = RosWrapper(launch_file='load_ros.launch',
                                       config=self._config,
                                       visible=False)

        # subscribe to command control
        subscribe_topics = [
            TopicConfig(topic_name=rospy.get_param('/robot/tracking_position_sensor/topic'),
                        msg_type=rospy.get_param('/robot/tracking_position_sensor/type')),
            TopicConfig(topic_name=rospy.get_param('/robot/fleeing_position_sensor/topic'),
                        msg_type=rospy.get_param('/robot/fleeing_position_sensor/type')),
            TopicConfig(topic_name='/fsm/state',
                        msg_type='String')
        ]

        publish_topics = [
            TopicConfig(topic_name='/fsm/reset', msg_type='Empty')
        ]

        self.ros_topic = TestPublisherSubscriber(
            subscribe_topics=subscribe_topics,
            publish_topics=publish_topics
        )
        self._unpause_client = rospy.ServiceProxy('/gazebo/unpause_physics', Emptyservice)
        self._pause_client = rospy.ServiceProxy('/gazebo/pause_physics', Emptyservice)
        self._set_model_state = rospy.ServiceProxy('/gazebo/set_model_state', SetModelState)

        # unpause gazebo to receive messages
        self._unpause_client.wait_for_service()
        self._unpause_client.call()

        safe_wait_till_true('"/fsm/state" in kwargs["ros_topic"].topic_values.keys()',
                            True, 10, 0.1, ros_topic=self.ros_topic)
        self.assertEqual(self.ros_topic.topic_values['/fsm/state'].data,
                         FsmState.Unknown.name)

        # pause again before start
        self._pause_client.wait_for_service()
        self._pause_client.call()

        self._set_model_state = rospy.ServiceProxy('/gazebo/set_model_state', SetModelState)

        def set_model_state(name: str):
            model_state = ModelState()
            model_state.pose = Pose()
            model_state.model_name = name
            model_state.pose.position.x = 0
            if 'fleeing' in name:
                model_state.pose.position.x += 3.  # fixed distance
            model_state.pose.position.y = 0
            model_state.pose.position.z = 0
            yaw = 0 if 'fleeing' not in name else 3.14
            model_state.pose.orientation.x, model_state.pose.orientation.y, model_state.pose.orientation.z, \
                model_state.pose.orientation.w = quaternion_from_euler((0, 0, yaw))
            self._set_model_state.wait_for_service()
            self._set_model_state(model_state)

        for _ in range(3):
            print(f'round: {_}')
            for model_name in rospy.get_param('/robot/model_name'):
                set_model_state(model_name)

            # publish reset
            self.ros_topic.publishers['/fsm/reset'].publish(Empty())

            self._unpause_client.wait_for_service()
            self._unpause_client.call()

            # gets fsm in taken over state
            safe_wait_till_true('kwargs["ros_topic"].topic_values["/fsm/state"].data',
                                FsmState.TakenOver.name, 2, 0.1, ros_topic=self.ros_topic)

            # altitude control brings drone to starting_height
            safe_wait_till_true('kwargs["ros_topic"].topic_values["/fsm/state"].data',
                                FsmState.Running.name, 45, 0.1, ros_topic=self.ros_topic)

            # check current height
            for agent in ['tracking', 'fleeing']:
                z_pos = self.ros_topic.topic_values[rospy.get_param(f'/robot/{agent}_position_sensor/topic')].pose.position.z
                self.assertLess(abs(z_pos - height), 0.2)
    def test_takeoff_drone_sim(self):
        config = {
            "output_path": self.output_dir,
            "random_seed": 123,
            "robot_name": "drone_sim",
            "world_name": "empty",
            "gazebo": True,
        }
        ros_process = RosWrapper(launch_file='load_ros.launch',
                                 config=config,
                                 visible=False)
        self._unpause_client = rospy.ServiceProxy('/gazebo/unpause_physics',
                                                  Emptyservice)
        self._pause_client = rospy.ServiceProxy('/gazebo/pause_physics',
                                                Emptyservice)
        self.ros_topic = TestPublisherSubscriber(
            subscribe_topics=[
                TopicConfig(
                    topic_name=rospy.get_param('/robot/position_sensor/topic'),
                    msg_type=rospy.get_param('/robot/position_sensor/type'))
            ],
            publish_topics=[
                TopicConfig(topic_name=rospy.get_param('/robot/command_topic'),
                            msg_type='Twist')
            ])
        # unpause gazebo to receive messages
        self._unpause_client.wait_for_service()
        self._unpause_client.call()

        safe_wait_till_true(
            f'\'{rospy.get_param("/robot/position_sensor/topic")}\' '
            f'in kwargs["ros_topic"].topic_values.keys()',
            True,
            5,
            0.1,
            ros_topic=self.ros_topic)

        rospy.wait_for_service('/enable_motors')
        enable_motors_service = rospy.ServiceProxy('/enable_motors',
                                                   EnableMotors)
        enable_motors_service.call(False)

        self._pause_client.wait_for_service()
        self._pause_client.call()

        self._set_model_state = rospy.ServiceProxy('/gazebo/set_model_state',
                                                   SetModelState)

        for _ in range(3):

            # set gazebo model state
            model_state = ModelState()
            model_state.model_name = 'quadrotor'
            model_state.pose = Pose()
            self._set_model_state.wait_for_service()
            self._set_model_state(model_state)

            self._unpause_client.wait_for_service()
            self._unpause_client.call()
            enable_motors_service.call(True)

            # fly up till reference height
            reference = 1.
            errors = [1]
            while np.mean(errors) > 0.05:
                position = self.ros_topic.topic_values[rospy.get_param(
                    '/robot/position_sensor/topic')].pose.pose.position
                print(position.z)
                errors.append(np.abs(reference - position.z))
                if len(errors) > 5:
                    errors.pop(0)
                twist = Twist()
                twist.linear.z = +0.5 if position.z < reference else -0.5
                self.ros_topic.publishers[rospy.get_param(
                    '/robot/command_topic')].publish(twist)
                time.sleep(0.1)
            final_error = abs(self.ros_topic.topic_values[rospy.get_param(
                '/robot/position_sensor/topic')].pose.pose.position.z -
                              reference)
            self.assertLess(final_error, 0.1)
            self._pause_client.wait_for_service()
            self._pause_client(EmptyRequest())
            enable_motors_service.call(False)
        ros_process.terminate()
    def test_takeoff_double_drone_sim(self):
        config = {
            "output_path": self.output_dir,
            "random_seed": 123,
            "robot_name": "double_drone_sim",
            "world_name": "empty",
            "gazebo": True,
        }
        ros_process = RosWrapper(launch_file='load_ros.launch',
                                 config=config,
                                 visible=False)
        self._unpause_client = rospy.ServiceProxy('/gazebo/unpause_physics',
                                                  Emptyservice)
        self._pause_client = rospy.ServiceProxy('/gazebo/pause_physics',
                                                Emptyservice)
        self.ros_topic = TestPublisherSubscriber(
            subscribe_topics=[
                TopicConfig(topic_name=rospy.get_param(
                    '/robot/tracking_position_sensor/topic'),
                            msg_type=rospy.get_param(
                                '/robot/tracking_position_sensor/type')),
                TopicConfig(topic_name=rospy.get_param(
                    '/robot/fleeing_position_sensor/topic'),
                            msg_type=rospy.get_param(
                                '/robot/fleeing_position_sensor/type'))
            ],
            publish_topics=[
                TopicConfig(topic_name=rospy.get_param(
                    '/robot/tracking_command_topic'),
                            msg_type='Twist'),
                TopicConfig(
                    topic_name=rospy.get_param('/robot/fleeing_command_topic'),
                    msg_type='Twist')
            ])
        # unpause gazebo to receive messages
        self._unpause_client.wait_for_service()
        self._unpause_client.call()

        safe_wait_till_true(
            f'\'{rospy.get_param("/robot/tracking_position_sensor/topic")}\' '
            f'in kwargs["ros_topic"].topic_values.keys()',
            True,
            5,
            0.1,
            ros_topic=self.ros_topic)

        rospy.wait_for_service('/tracking/enable_motors')
        enable_motors_service_tracking = rospy.ServiceProxy(
            '/tracking/enable_motors', EnableMotors)
        rospy.wait_for_service('/fleeing/enable_motors')
        enable_motors_service_fleeing = rospy.ServiceProxy(
            '/fleeing/enable_motors', EnableMotors)
        # set gazebo model state
        self._set_model_state = rospy.ServiceProxy('/gazebo/set_model_state',
                                                   SetModelState)

        def set_model_state(name: str):
            model_state = ModelState()
            model_state.pose = Pose()
            model_state.model_name = name
            model_state.pose.position.x = 0
            if 'fleeing' in name:
                model_state.pose.position.x += 3.  # fixed distance
            model_state.pose.position.y = 0
            model_state.pose.position.z = 0
            yaw = 0 if 'fleeing' not in name else 3.14
            model_state.pose.orientation.x, model_state.pose.orientation.y, model_state.pose.orientation.z, \
                model_state.pose.orientation.w = quaternion_from_euler((0, 0, yaw))
            self._set_model_state.wait_for_service()
            self._set_model_state(model_state)

        self._pause_client.wait_for_service()
        self._pause_client.call()

        for _ in range(3):
            for model_name in rospy.get_param('/robot/model_name'):
                set_model_state(model_name)
            self._unpause_client.wait_for_service()
            self._unpause_client.call()

            # start motors
            enable_motors_service_tracking.call(True)
            time.sleep(3)
            enable_motors_service_fleeing.call(True)

            # fly up till reference height
            reference = 1.
            errors = [1]
            while np.mean(errors) > 0.1:
                for agent in ['tracking', 'fleeing']:
                    position = self.ros_topic.topic_values[rospy.get_param(
                        f'/robot/{agent}_position_sensor/topic')].pose.position
                    print(f'{agent}: {position.z}')
                    errors.append(np.abs(reference - position.z))
                    twist = Twist()
                    twist.linear.z = +0.5 if position.z < reference else -0.5
                    self.ros_topic.publishers[rospy.get_param(
                        f'/robot/{agent}_command_topic')].publish(twist)
                while len(errors) > 10:
                    errors.pop(0)
                time.sleep(0.1)

            final_error = abs(self.ros_topic.topic_values[rospy.get_param(
                '/robot/tracking_position_sensor/topic')].pose.position.z -
                              reference)
            self.assertLess(final_error, 0.2)
            final_error = abs(self.ros_topic.topic_values[rospy.get_param(
                '/robot/fleeing_position_sensor/topic')].pose.position.z -
                              reference)
            self.assertLess(final_error, 0.2)
            self._pause_client.wait_for_service()
            self._pause_client(EmptyRequest())
            # enable_motors_service_tracking.call(False)
            # time.sleep(3)
            # enable_motors_service_fleeing.call(False)

        ros_process.terminate()
    def test_start_up_and_send_random_input(self):
        self.output_dir = f'{get_data_dir(os.environ["CODEDIR"])}/test_dir/{get_filename_without_extension(__file__)}'
        os.makedirs(self.output_dir, exist_ok=True)

        self._config = {
            'output_path': self.output_dir,
            'world_name': 'default',
            'robot_name': 'bebop_real',
            'gazebo': False,
            'fsm': False,
            'control_mapping': False,
            'waypoint_indicator': False,
            'altitude_control': False,
            'mathias_controller_with_KF': False,
            'keyboard': False,
            'robot_display': False,
        }

        # spinoff roslaunch
        self._ros_process = RosWrapper(launch_file='load_ros.launch',
                                       config=self._config,
                                       visible=True)

        # subscribe to command control
        publish_topics = [
            TopicConfig(topic_name='/fsm/reset', msg_type='Empty'),
            TopicConfig(topic_name='/fsm/state', msg_type='String'),
            TopicConfig(topic_name='/bebop/cmd_vel', msg_type='Twist'),
            TopicConfig(topic_name='/bebop/image_raw', msg_type='Image'),
            TopicConfig(topic_name='/mask', msg_type='Image'),
            TopicConfig(topic_name='/reference_pose', msg_type='PointStamped'),
            TopicConfig(topic_name=
                        '/bebop/states/common/CommonState/BatteryStateChanged',
                        msg_type='CommonCommonStateBatteryStateChanged')
        ]

        self.ros_topic = TestPublisherSubscriber(subscribe_topics=[],
                                                 publish_topics=publish_topics)

        while not rospy.is_shutdown():
            # put something random on each topic every second
            # reset
            if np.random.binomial(1, 0.2) == 1:
                self.ros_topic.publishers['/fsm/reset'].publish(Empty())
            state = np.random.choice(
                ['Unknown', 'Running', 'TakenOver', 'Terminated', 'DriveBack'])
            self.ros_topic.publishers['/fsm/state'].publish(String(state))
            battery = CommonCommonStateBatteryStateChanged()
            battery.percent = np.random.randint(0, 100, dtype=np.uint8)
            self.ros_topic.publishers[
                '/bebop/states/common/CommonState/BatteryStateChanged'].publish(
                    battery)
            self.ros_topic.publishers['/bebop/cmd_vel'].publish(
                get_random_twist())
            self.ros_topic.publishers['/bebop/image_raw'].publish(
                get_random_image((200, 200, 3)))
            self.ros_topic.publishers['/mask'].publish(
                get_random_image((200, 200, 1)))
            #            self.ros_topic.publishers['/reference_pose'].publish(get_random_reference_pose())
            self.ros_topic.publishers['/reference_pose'].publish(
                PointStamped(point=Point(x=2, y=0.5, z=0.5)))
            rospy.sleep(0.1)
    def test_drone_keyboard_gazebo_with_KF_waypoints(self):
        self.output_dir = f'{get_data_dir(os.environ["CODEDIR"])}/test_dir/{get_filename_without_extension(__file__)}'
        os.makedirs(self.output_dir, exist_ok=True)

        self._config = {
            'output_path': self.output_dir,
            'world_name': 'gate_test',
            'robot_name': 'drone_sim',
            'gazebo': True,
            'fsm': True,
            'fsm_mode': 'TakeOverRun',
            'waypoint_indicator': True,
            'control_mapping': True,
            'control_mapping_config': 'mathias_controller_keyboard',
            'altitude_control': False,
            'keyboard': True,
            'mathias_controller_with_KF': True,
            'mathias_controller_config_file_path_with_extension':
            f'{os.environ["CODEDIR"]}/src/sim/ros/config/actor/mathias_controller_with_KF.yml',
            'yaw_or': 0,
            'x_pos': 0,
            'y_pos': 0
        }

        # spinoff roslaunch
        self._ros_process = RosWrapper(launch_file='load_ros.launch',
                                       config=self._config,
                                       visible=True)

        # subscribe to command control
        self.visualisation_topic = '/actor/mathias_controller/visualisation'
        subscribe_topics = [
            TopicConfig(
                topic_name=rospy.get_param('/robot/position_sensor/topic'),
                msg_type=rospy.get_param('/robot/position_sensor/type')),
            TopicConfig(topic_name='/fsm/state', msg_type='String'),
            TopicConfig(topic_name=self.visualisation_topic, msg_type='Image')
        ]
        self._reference_topic = '/reference_pose'
        self._reference_type = 'PointStamped'
        publish_topics = [
            TopicConfig(topic_name='/fsm/reset', msg_type='Empty'),
            TopicConfig(topic_name=self._reference_topic,
                        msg_type=self._reference_type),
        ]

        self.ros_topic = TestPublisherSubscriber(
            subscribe_topics=subscribe_topics, publish_topics=publish_topics)

        self._unpause_client = rospy.ServiceProxy('/gazebo/unpause_physics',
                                                  Emptyservice)
        self._pause_client = rospy.ServiceProxy('/gazebo/pause_physics',
                                                Emptyservice)

        safe_wait_till_true(
            '"/fsm/state" in kwargs["ros_topic"].topic_values.keys()',
            True,
            30,
            0.1,
            ros_topic=self.ros_topic)

        measured_data = {}
        index = 0
        while True:
            measured_data[index] = {'x': [], 'y': [], 'z': []}

            # publish reset
            self.ros_topic.publishers['/fsm/reset'].publish(Empty())

            self._unpause_client.wait_for_service()
            self._unpause_client.call()

            # User flies drone to starting position
            while self.ros_topic.topic_values[
                    "/fsm/state"].data == FsmState.TakenOver.name:
                time.sleep(1)

            while self.ros_topic.topic_values[
                    "/fsm/state"].data == FsmState.Running.name:
                rospy.sleep(0.1)
                odom = self.ros_topic.topic_values[rospy.get_param(
                    '/robot/position_sensor/topic')]
                waypoint = self.ros_topic.topic_values[
                    '/waypoint_indicator/current_waypoint']
                measured_data[index]['x'].append(odom.pose.pose.position.x -
                                                 waypoint.data[0])
                measured_data[index]['y'].append(odom.pose.pose.position.y -
                                                 waypoint.data[1])
                measured_data[index]['z'].append(odom.pose.pose.position.z - 1)
            # see it reaches the goal state:
            # safe_wait_till_true('kwargs["ros_topic"].topic_values["/fsm/state"].data',
            #                    FsmState.Terminated.name, 20, 0.1, ros_topic=self.ros_topic)

            colors = ['C0', 'C1', 'C2', 'C3', 'C4']
            for key in measured_data.keys():
                for a in measured_data[key].keys():
                    if a == 'x':
                        style = '-'
                    elif a == 'y':
                        style = '--'
                    else:
                        style = ':'
                    plt.plot(measured_data[key][a],
                             linestyle=style,
                             color=colors[key % len(colors)],
                             label=f'{key}: {a}')
            plt.legend()
            plt.show()
            index += 1
            index %= len(colors)
    def test_drone_keyboard_gazebo_with_KF(self):
        self.output_dir = f'{get_data_dir(os.environ["CODEDIR"])}/test_dir/{get_filename_without_extension(__file__)}'
        os.makedirs(self.output_dir, exist_ok=True)

        self._config = {
            'output_path': self.output_dir,
            'world_name': 'empty',
            'robot_name': 'drone_sim',
            'gazebo': True,
            'fsm': True,
            'fsm_mode': 'TakeOverRun',
            'control_mapping': True,
            'control_mapping_config': 'mathias_controller_keyboard',
            'altitude_control': False,
            'keyboard': True,
            'mathias_controller_with_KF': True,
            'mathias_controller_config_file_path_with_extension':
            f'{os.environ["CODEDIR"]}/src/sim/ros/config/actor/mathias_controller_with_KF.yml',
            'yaw_or': 0,
            'x_pos': 0,
            'y_pos': 0
        }

        # spinoff roslaunch
        self._ros_process = RosWrapper(launch_file='load_ros.launch',
                                       config=self._config,
                                       visible=True)

        # subscribe to command control
        self.visualisation_topic = '/actor/mathias_controller/visualisation'
        subscribe_topics = [
            TopicConfig(
                topic_name=rospy.get_param('/robot/position_sensor/topic'),
                msg_type=rospy.get_param('/robot/position_sensor/type')),
            TopicConfig(topic_name='/fsm/state', msg_type='String'),
            TopicConfig(topic_name=self.visualisation_topic, msg_type='Image')
        ]
        self._reference_topic = '/reference_pose'
        self._reference_type = 'PointStamped'
        publish_topics = [
            TopicConfig(topic_name='/fsm/reset', msg_type='Empty'),
            TopicConfig(topic_name=self._reference_topic,
                        msg_type=self._reference_type),
        ]

        self.ros_topic = TestPublisherSubscriber(
            subscribe_topics=subscribe_topics, publish_topics=publish_topics)

        self._unpause_client = rospy.ServiceProxy('/gazebo/unpause_physics',
                                                  Emptyservice)
        self._pause_client = rospy.ServiceProxy('/gazebo/pause_physics',
                                                Emptyservice)

        safe_wait_till_true(
            '"/fsm/state" in kwargs["ros_topic"].topic_values.keys()',
            True,
            30,
            0.1,
            ros_topic=self.ros_topic)
        measured_data = {}
        index = 0
        while True:
            # publish reset
            self.ros_topic.publishers['/fsm/reset'].publish(Empty())

            self._unpause_client.wait_for_service()
            self._unpause_client.call()

            # index = self.tweak_combined_axis_keyboard(measured_data, index, [0, 0, 0])
            index = self.tweak_combined_axis_keyboard(measured_data, index,
                                                      [3, 1, 0])
    def test_waypoints_tracking_real_bebop_with_KF_with_keyboard(self):
        self.output_dir = f'{get_data_dir(os.environ["CODEDIR"])}/test_dir/{get_filename_without_extension(__file__)}'
        os.makedirs(self.output_dir, exist_ok=True)

        self._config = {
            'output_path':
            self.output_dir,
            'world_name':
            'hexagon',
            'robot_name':
            'bebop_real',
            'gazebo':
            False,
            'fsm':
            True,
            'fsm_mode':
            'TakeOverRun',
            'control_mapping':
            True,
            'control_mapping_config':
            'mathias_controller_keyboard',
            'waypoint_indicator':
            True,
            'altitude_control':
            False,
            'mathias_controller_with_KF':
            True,
            'starting_height':
            1.,
            'keyboard':
            True,
            'mathias_controller_config_file_path_with_extension':
            f'{os.environ["CODEDIR"]}/src/sim/ros/config/actor/mathias_controller_with_KF_real_bebop.yml',
        }

        # spinoff roslaunch
        self._ros_process = RosWrapper(launch_file='load_ros.launch',
                                       config=self._config,
                                       visible=True)

        # subscribe to command control
        self.visualisation_topic = '/actor/mathias_controller/visualisation'
        subscribe_topics = [
            TopicConfig(
                topic_name=rospy.get_param('/robot/position_sensor/topic'),
                msg_type=rospy.get_param('/robot/position_sensor/type')),
            TopicConfig(topic_name='/fsm/state', msg_type='String'),
            TopicConfig(topic_name='/waypoint_indicator/current_waypoint',
                        msg_type='Float32MultiArray'),
            TopicConfig(topic_name=self.visualisation_topic, msg_type='Image')
        ]
        publish_topics = [
            TopicConfig(topic_name='/fsm/reset', msg_type='Empty'),
        ]

        self.ros_topic = TestPublisherSubscriber(
            subscribe_topics=subscribe_topics, publish_topics=publish_topics)

        safe_wait_till_true(
            '"/fsm/state" in kwargs["ros_topic"].topic_values.keys()',
            True,
            25,
            0.1,
            ros_topic=self.ros_topic)
        self.assertEqual(self.ros_topic.topic_values['/fsm/state'].data,
                         FsmState.Unknown.name)

        while True:
            # publish reset
            self.ros_topic.publishers['/fsm/reset'].publish(Empty())

            while self.ros_topic.topic_values[
                    "/fsm/state"].data != FsmState.Running.name:
                rospy.sleep(0.1)
            safe_wait_till_true(
                '"/waypoint_indicator/current_waypoint" in kwargs["ros_topic"].topic_values.keys()',
                True,
                10,
                0.1,
                ros_topic=self.ros_topic)
            poses = []
            waypoints = []
            while self.ros_topic.topic_values["/fsm/state"].data != FsmState.Terminated.name and \
                    self.ros_topic.topic_values["/fsm/state"].data != FsmState.TakenOver.name:
                rospy.sleep(0.5)
                pose = self.get_pose()
                waypoint = self.ros_topic.topic_values[
                    '/waypoint_indicator/current_waypoint']
                poses.append(pose)
                waypoints.append(waypoint)

            plt.figure(figsize=(15, 15))
            plt.scatter([p[0] for p in poses], [p[1] for p in poses],
                        color='C0',
                        label='xy-pose')
            plt.scatter([p.data[0] for p in waypoints],
                        [p.data[1] for p in waypoints],
                        color='C1',
                        label='xy-waypoints')
            plt.legend()
            plt.xlabel("x [m]")
            plt.ylabel("y [m]")
            plt.show()
Exemplo n.º 18
0
    def test_forward_cam_drone(self) -> None:
        self.output_dir = f'{get_data_dir(os.environ["CODEDIR"])}/test_dir/{get_filename_without_extension(__file__)}'
        os.makedirs(self.output_dir, exist_ok=True)

        self._config = {
            'output_path': self.output_dir,
            'world_name': 'april_tag',
            'robot_name': 'drone_sim',
            'gazebo': True,
            'fsm': True,
            'fsm_mode': 'TakeOverRun',
            'control_mapping': True,
            'control_mapping_config': 'mathias_controller',
            'altitude_control': True,
            'waypoint_indicator': False,
            'april_tag_detector': True,
            'mathias_controller_with_KF': True,
            'mathias_controller_config_file_path_with_extension':
                f'{os.environ["CODEDIR"]}/src/sim/ros/config/actor/mathias_controller_with_KF.yml',
            'starting_height': 0.5,
        }

        # spinoff roslaunch
        self._ros_process = RosWrapper(launch_file='load_ros.launch',
                                       config=self._config,
                                       visible=True)

        # subscribe to command control
        self.image_topic = rospy.get_param(f'/robot/camera_sensor/topic')
        subscribe_topics = [
            TopicConfig(topic_name=rospy.get_param('/robot/position_sensor/topic'),
                        msg_type=rospy.get_param('/robot/position_sensor/type')),
            TopicConfig(topic_name='/reference_ground_point',
                        msg_type='PointStamped'),
            TopicConfig(topic_name='/fsm/state',
                        msg_type='String'),
            TopicConfig(topic_name=self.image_topic,
                        msg_type='Image')
        ]

        publish_topics = [
            TopicConfig(topic_name='/fsm/reset', msg_type='Empty')
        ]

        self.ros_topic = TestPublisherSubscriber(
            subscribe_topics=subscribe_topics,
            publish_topics=publish_topics
        )
        self._unpause_client = rospy.ServiceProxy('/gazebo/unpause_physics', Emptyservice)
        self._pause_client = rospy.ServiceProxy('/gazebo/pause_physics', Emptyservice)
        self._set_model_state = rospy.ServiceProxy('/gazebo/set_model_state', SetModelState)

        # unpause gazebo to receive messages
        self._unpause_client.wait_for_service()
        self._unpause_client.call()

        safe_wait_till_true('"/fsm/state" in kwargs["ros_topic"].topic_values.keys()',
                            True, 10, 0.1, ros_topic=self.ros_topic)
        self.assertEqual(self.ros_topic.topic_values['/fsm/state'].data, FsmState.Unknown.name)

        # publish reset
        self.ros_topic.publishers['/fsm/reset'].publish(Empty())

        # gets fsm in taken over state
        safe_wait_till_true('kwargs["ros_topic"].topic_values["/fsm/state"].data',
                            FsmState.TakenOver.name, 2, 0.1, ros_topic=self.ros_topic)

        # altitude control brings drone to starting_height
        safe_wait_till_true('kwargs["ros_topic"].topic_values["/fsm/state"].data',
                            FsmState.Running.name, 45, 0.1, ros_topic=self.ros_topic)

        # check pose
        pose = self.get_pose()

        self._pause_client.wait_for_service()
        self._pause_client.call()
        a = 100
    def test_drone_relative_positioning_real_bebop(self):
        self.output_dir = f'{get_data_dir(os.environ["CODEDIR"])}/test_dir/{get_filename_without_extension(__file__)}'
        os.makedirs(self.output_dir, exist_ok=True)

        self._config = {
            'output_path':
            self.output_dir,
            'world_name':
            'empty',
            'robot_name':
            'bebop_real',
            'gazebo':
            False,
            'fsm':
            True,
            'fsm_mode':
            'TakeOverRun',
            'control_mapping':
            True,
            'control_mapping_config':
            'mathias_controller_keyboard',
            'altitude_control':
            False,
            'keyboard':
            True,
            'mathias_controller':
            True,
            'mathias_controller_config_file_path_with_extension':
            f'{os.environ["CODEDIR"]}/src/sim/ros/config/actor/mathias_controller_real_bebop.yml'
        }

        # spinoff roslaunch
        self._ros_process = RosWrapper(launch_file='load_ros.launch',
                                       config=self._config,
                                       visible=True)
        self.visualisation_topic = None
        # subscribe to command control
        subscribe_topics = [
            TopicConfig(
                topic_name=rospy.get_param('/robot/position_sensor/topic'),
                msg_type=rospy.get_param('/robot/position_sensor/type')),
            TopicConfig(topic_name='/fsm/state', msg_type='String')
        ]
        self._reference_topic = '/reference_pose'
        self._reference_type = 'PointStamped'
        publish_topics = [
            TopicConfig(topic_name='/fsm/reset', msg_type='Empty'),
            TopicConfig(topic_name=self._reference_topic,
                        msg_type=self._reference_type),
        ]

        self.ros_topic = TestPublisherSubscriber(
            subscribe_topics=subscribe_topics, publish_topics=publish_topics)
        safe_wait_till_true(
            '"/fsm/state" in kwargs["ros_topic"].topic_values.keys()',
            True,
            10,
            0.1,
            ros_topic=self.ros_topic)
        measured_data = {}
        index = 0
        while True:
            # publish reset
            self.ros_topic.publishers['/fsm/reset'].publish(Empty())
            # index = self.tweak_steady_pose(measured_data, index)
            #index = self.tweak_separate_axis_keyboard(measured_data, index, axis=0)
            index = self.tweak_combined_axis_keyboard(
                measured_data, index, point_ref_drone=[0.5, 0.5, 0.5])
    def test_april_tag_detector_gazebo_KF(self):
        self.output_dir = f'{get_data_dir(os.environ["CODEDIR"])}/test_dir/{get_filename_without_extension(__file__)}'
        os.makedirs(self.output_dir, exist_ok=True)

        self._config = {
            'output_path':
            self.output_dir,
            'world_name':
            'april_tag',
            'robot_name':
            'drone_sim_down_cam',
            'gazebo':
            True,
            'fsm':
            True,
            'fsm_mode':
            'TakeOverRun',
            'control_mapping':
            True,
            'control_mapping_config':
            'mathias_controller_keyboard',
            'april_tag_detector':
            True,
            'altitude_control':
            False,
            'mathias_controller_with_KF':
            True,
            'starting_height':
            1.,
            'keyboard':
            True,
            'mathias_controller_config_file_path_with_extension':
            f'{os.environ["CODEDIR"]}/src/sim/ros/config/actor/mathias_controller_with_KF.yml',
        }

        # spinoff roslaunch
        self._ros_process = RosWrapper(launch_file='load_ros.launch',
                                       config=self._config,
                                       visible=True)

        # subscribe to command control
        self.visualisation_topic = '/actor/mathias_controller/visualisation'
        subscribe_topics = [
            TopicConfig(
                topic_name=rospy.get_param('/robot/position_sensor/topic'),
                msg_type=rospy.get_param('/robot/position_sensor/type')),
            TopicConfig(topic_name='/fsm/state', msg_type='String'),
            TopicConfig(topic_name='/reference_pose', msg_type='PointStamped'),
            TopicConfig(topic_name=self.visualisation_topic, msg_type='Image')
        ]
        publish_topics = [
            TopicConfig(topic_name='/fsm/reset', msg_type='Empty'),
        ]

        self.ros_topic = TestPublisherSubscriber(
            subscribe_topics=subscribe_topics, publish_topics=publish_topics)

        safe_wait_till_true(
            '"/fsm/state" in kwargs["ros_topic"].topic_values.keys()',
            True,
            235,
            0.1,
            ros_topic=self.ros_topic)
        self.assertEqual(self.ros_topic.topic_values['/fsm/state'].data,
                         FsmState.Unknown.name)

        index = 0
        while True:
            print(f'start loop: {index} with resetting')
            # publish reset
            self.ros_topic.publishers['/fsm/reset'].publish(Empty())
            rospy.sleep(0.5)

            print(f'waiting in overtake state')
            while self.ros_topic.topic_values[
                    "/fsm/state"].data != FsmState.Running.name:
                rospy.sleep(0.5)

            # safe_wait_till_true('"/reference_ground_point" in kwargs["ros_topic"].topic_values.keys()',
            #                    True, 10, 0.1, ros_topic=self.ros_topic)
            waypoints = []
            print(f'waiting in running state')
            while self.ros_topic.topic_values[
                    "/fsm/state"].data != FsmState.TakenOver.name:
                if '/reference_pose' in self.ros_topic.topic_values.keys() \
                        and '/bebop/odom' in self.ros_topic.topic_values.keys():
                    odom = self.ros_topic.topic_values[rospy.get_param(
                        '/robot/position_sensor/topic')]
                    point = transform(
                        [self.ros_topic.topic_values['/reference_pose'].point],
                        orientation=odom.pose.pose.orientation,
                        translation=odom.pose.pose.position)[0]
                    waypoints.append(point)
                rospy.sleep(0.5)
            if len(waypoints) != 0:
                plt.clf()
                fig = plt.figure()
                ax = fig.add_subplot(111, projection='3d')
                ax.scatter([_.x for _ in waypoints], [_.y for _ in waypoints],
                           [_.z for _ in waypoints],
                           label='waypoints')
                ax.legend()
                plt.savefig(os.path.join(self.output_dir,
                                         f'image_{index}.jpg'))
                # plt.show()
            index += 1