Пример #1
0
def fly(client: airsim.MultirotorClient, args: argparse.Namespace) -> None:
    initial_pose = client.simGetVehiclePose()
    if args.verbose:
        ff.print_pose(initial_pose, airsim.to_eularian_angles)
        ff.log(client.simGetCameraInfo(camera_name=CAPTURE_CAMERA))

    if args.flush or (args.capture_dir and not args.debug):
        client.simFlushPersistentMarkers()

    camera_poses = []
    for camera in args.trajectory:
        position = convert_uavmvs_to_airsim_position(
            camera.position, translation=args.offset, scaling=args.scale
        )
        orientation = quaternion_orientation_from_eye_to_look_at(position, LOOK_AT_TARGET)
        camera_poses.append(Pose(position, orientation))

    if args.debug:
        camera_positions = [pose.position for pose in camera_poses]
        client.simPlotPoints(camera_positions, Rgba.Blue, is_persistent=True)
        client.simPlotLineStrip(camera_positions, Rgba.Cyan, thickness=2.5, is_persistent=True)

    airsim_record = []

    def do_stuff_at_uavmvs_viewpoint(i, pose):
        nonlocal client, camera_poses, airsim_record
        log_string = f"({i}/{len(camera_poses)})"
        p, q = pose.position, pose.orientation
        if args.debug:
            log_string += f" position = {to_xyz_str(p)}"
            client.simPlotTransforms([pose], scale=100, is_persistent=True)
            # client.simPlotArrows([p], [LOOK_AT_TARGET], Rgba.White, thickness=3.0, duration=10)
        elif args.capture_dir:
            path = f"{args.prefix}pose{args.suffix}_{i:0{len(str(len(camera_poses)))}}.png"
            path = os.path.join(args.capture_dir, path)
            airsim.write_png(path, AirSimImage.get_mono(client, CAPTURE_CAMERA))
            log_string += f' saved image to "{path}"'
            record_line = AirSimRecord.make_line_string(p, q, time_stamp=str(i), image_file=path)
            airsim_record.append(record_line)
        ff.log(log_string)

    if IS_CV_MODE:
        for i, camera_pose in enumerate(camera_poses):
            client.simSetVehiclePose(camera_pose, ignore_collision=True)
            do_stuff_at_uavmvs_viewpoint(i, camera_pose)
            time.sleep(CV_SLEEP_SEC)
    else:
        client.moveToZAsync(z=-10, velocity=VELOCITY).join()  # XXX avoid colliding on take off
        client.hoverAsync().join()
        mean_position_error = 0.0

        for i, camera_pose in enumerate(camera_poses):
            client.moveToPositionAsync(
                *to_xyz_tuple(camera_pose.position),
                velocity=VELOCITY,
                drivetrain=DrivetrainType.MaxDegreeOfFreedom,
                yaw_mode=YawMode(is_rate=False, yaw_or_rate=YAW_N),
            ).join()

            with pose_at_simulation_pause(client) as real_pose:
                # NOTE when we pre-compute the viewpoint's camera orientation, we use the
                # expected drone position, which (should be close, but) is not the actual
                # drone position. Hence, we could experiment with using fake orientation:
                # quaternion_orientation_from_eye_to_look_at(real_pose.position, LOOK_AT_TARGET)
                fake_pose = Pose(real_pose.position, camera_pose.orientation)

                client.simSetVehiclePose(fake_pose, ignore_collision=True)
                client.simContinueForFrames(1)  # NOTE ensures pose change
                do_stuff_at_uavmvs_viewpoint(i, fake_pose)
                client.simSetVehiclePose(real_pose, ignore_collision=True)

                position_error = real_pose.position.distance_to(camera_pose.position)
                mean_position_error += position_error
                ff.log_debug(f"{position_error = }")

        mean_position_error /= len(camera_poses)
        ff.log_debug(f"{mean_position_error = }")

    if airsim_record:
        print_to_file = args.record_path is not None
        file = open(args.record_path, "w") if print_to_file else None
        print(AirSimRecord.make_header_string(), file=(file if print_to_file else sys.stdout))
        for line in airsim_record:
            print(line, file=(file if print_to_file else sys.stdout))
        if print_to_file:
            file.close()
            ff.log_info(f'Saved AirSim record to "{args.record_path}"')
class ImagePublisher(Node):
    def __init__(self, rate=60):
        super().__init__("airsim_images")

        # Create timer for calling publish at predefined rate
        self.create_timer(1/rate, self.publish)

        # AirSim variables
        self._airsim_client = MultirotorClient(ip=os.environ["WSL_HOST_IP"])
        # self._camera_name = "front_center"
        self._camera_name = "bottom_center"
        self._camera_frame_id = "realsense"
        self._vehicle_name = self.get_namespace().split("/")[1]

        # ROS Publishers
        # self._pub_ir = self.create_publisher(Image, "ir/image_raw", 1)
        self._pub_color = self.create_publisher(Image, "color/image_raw", 1)
        # self._pub_depth = self.create_publisher(Image, "depth/image_raw", 1)
        # self._pub_info_ir = self.create_publisher(CameraInfo, "ir/camera_info", 1)
        self._pub_info_color = self.create_publisher(CameraInfo, "color/camera_info", 1)
        # self._pub_depth = self.create_publisher(Image, "depth/image_raw", 1)

        # TF related variables
        self.br = TransformBroadcaster(self)

        # CV
        self.bridge = CvBridge()

        # Internal variables
        self._cam_info_msgs = {}
        
        self.get_logger().info("Initialized image publisher")

    def publish(self):
        """Publish images from AirSim to ROS"""
        responses = self._airsim_client.simGetImages([
            # uncompressed RGB array bytes
            ImageRequest(self._camera_name, ImageType.Scene, compress=False),
            # # infrared uncompressed image
            # ImageRequest(self._camera_name, ImageType.Infrared, compress=False),
            # # floating point uncompressed image
            # ImageRequest(self._camera_name, ImageType.DepthPlanner, pixels_as_float=True, compress=False),
        ], self._vehicle_name)
        color_response = responses[0]
        # ir_response = responses[1]
        # depth_response = responses[2]

        header = Header()
        header.stamp = self.get_clock().now().to_msg()
        # TODO: implement parameter for frame id, also decide on if each separate image type should have a different frame id
        #  This may mean we should load the ids via ros parameters
        header.frame_id = self._camera_frame_id

        # Handle cam info it has not been found yet
        if self._vehicle_name not in self._cam_info_msgs.keys():
            self._cam_info_msgs[self._vehicle_name] = {}
            cam_info = self._airsim_client.simGetCameraInfo(self._camera_name, self._vehicle_name)
            d_params = self._airsim_client.simGetDistortionParams(self._camera_name, self._vehicle_name)
            self.get_logger().info(f"{d_params}")
            self.get_logger().info(f"""
            HFOV: {cam_info.fov},
            PROJ: {cam_info.proj_mat}
            """)
            # TODO: implement multiple cameras for each lens on realsense and update this method
            self._cam_info_msgs[self._vehicle_name]["color"] = construct_info(header, cam_info, color_response.height, color_response.width)
            # self._cam_info_msgs[self._vehicle_name]["ir"] = self._cam_info_msgs[self._vehicle_name]["color"]

        image_color = construct_image(header, color_response, "bgr8")
        # image_ir = construct_image(header, ir_response, "rgb8")
        # image_depth = construct_image(header, depth_response, "rgb8")

        # TODO: use camera pose from airsim
        tfmsg = TransformStamped()
        translation = Vector3(x=0., y=0., z=0.)
        tfmsg.transform.translation = translation
        tfmsg.transform.rotation = Quaternion(x=0., y=0., z=0., w=1.)
        tfmsg.child_frame_id = self._camera_frame_id
        tf_header = Header()
        tf_header.stamp = header.stamp
        tfmsg.header = tf_header
        tfmsg.header.frame_id = "world"
        self.br.sendTransform(tfmsg)

        self._pub_color.publish(image_color)
        # self._pub_ir.publish(image_ir)
        # self._pub_depth.publish(image_depth)
        self._pub_info_color.publish(self._cam_info_msgs[self._vehicle_name]["color"])