Exemplo n.º 1
0
    def __init__(self, actor, args=None):
        super(NpcVehicleControl, self).__init__(actor)

        self._local_planner = LocalPlanner(  # pylint: disable=undefined-variable
            self._actor, opt_dict={
                'target_speed': self._target_speed * 3.6,
                'lateral_control_dict': self._args})

        if self._waypoints:
            self._update_plan()
Exemplo n.º 2
0
class NpcVehicleControl(BasicControl):
    """
    Controller class for vehicles derived from BasicControl.

    The controller makes use of the LocalPlanner implemented in CARLA.

    Args:
        actor (carla.Actor): Vehicle actor that should be controlled.
    """

    _args = {'K_P': 1.0, 'K_D': 0.01, 'K_I': 0.0, 'dt': 0.05}

    def __init__(self, actor, args=None):
        super(NpcVehicleControl, self).__init__(actor)

        self._local_planner = LocalPlanner(  # pylint: disable=undefined-variable
            self._actor, opt_dict={
                'target_speed': self._target_speed * 3.6,
                'lateral_control_dict': self._args})

        if self._waypoints:
            self._update_plan()

        self._brake_lights_active = False

    def _update_plan(self):
        """
        Update the plan (waypoint list) of the LocalPlanner
        """
        plan = []
        for transform in self._waypoints:
            waypoint = CarlaDataProvider.get_map().get_waypoint(
                transform.location,
                project_to_road=True,
                lane_type=carla.LaneType.Any)
            plan.append((waypoint, RoadOption.LANEFOLLOW))
        self._local_planner.set_global_plan(plan)

    def _update_offset(self):
        """
        Update the plan (waypoint list) of the LocalPlanner
        """
        self._local_planner._vehicle_controller._lat_controller._offset = self._offset  # pylint: disable=protected-access

    def reset(self):
        """
        Reset the controller
        """
        if self._actor and self._actor.is_alive:
            if self._local_planner:
                self._local_planner.reset_vehicle()
                self._local_planner = None
            self._actor = None

    def run_step(self):
        """
        Execute on tick of the controller's control loop

        Note: Negative target speeds are not yet supported.
              Try using simple_vehicle_control or vehicle_longitudinal_control.

        If _waypoints are provided, the vehicle moves towards the next waypoint
        with the given _target_speed, until reaching the final waypoint. Upon reaching
        the final waypoint, _reached_goal is set to True.

        If _waypoints is empty, the vehicle moves in its current direction with
        the given _target_speed.

        If _init_speed is True, the control command is post-processed to ensure that
        the initial actor velocity is maintained independent of physics.
        """
        self._reached_goal = False

        if self._waypoints_updated:
            self._waypoints_updated = False
            self._update_plan()

        if self._offset_updated:
            self._offset_updated = False
            self._update_offset()

        target_speed = self._target_speed
        # If target speed is negavite, raise an exception
        if target_speed < 0:
            raise NotImplementedError(
                "Negative target speeds are not yet supported")

        self._local_planner.set_speed(target_speed * 3.6)
        control = self._local_planner.run_step(debug=False)

        # Check if the actor reached the end of the plan
        if self._local_planner.done():
            self._reached_goal = True

        self._actor.apply_control(control)

        current_speed = math.sqrt(self._actor.get_velocity().x**2 +
                                  self._actor.get_velocity().y**2)

        if self._init_speed:

            # If _init_speed is set, and the PID controller is not yet up to the point to take over,
            # we manually set the vehicle to drive with the correct velocity
            if abs(target_speed - current_speed) > 3:
                yaw = self._actor.get_transform().rotation.yaw * (math.pi /
                                                                  180)
                vx = math.cos(yaw) * target_speed
                vy = math.sin(yaw) * target_speed
                self._actor.set_target_velocity(carla.Vector3D(vx, vy, 0))

        # Change Brake light state
        if (current_speed > target_speed
                or target_speed < 0.2) and not self._brake_lights_active:
            light_state = self._actor.get_light_state()
            light_state |= carla.VehicleLightState.Brake
            self._actor.set_light_state(carla.VehicleLightState(light_state))
            self._brake_lights_active = True

        if self._brake_lights_active and current_speed < target_speed:
            self._brake_lights_active = False
            light_state = self._actor.get_light_state()
            light_state &= ~carla.VehicleLightState.Brake
            self._actor.set_light_state(carla.VehicleLightState(light_state))
class NpcVehicleControl(BasicControl):
    """
    Controller class for vehicles derived from BasicControl.

    The controller makes use of the LocalPlanner implemented in CARLA.

    Args:
        actor (carla.Actor): Vehicle actor that should be controlled.
    """

    _args = {'K_P': 1.0, 'K_D': 0.01, 'K_I': 0.0, 'dt': 0.05}

    def __init__(self, actor, args=None):
        super(NpcVehicleControl, self).__init__(actor)

        self._local_planner = LocalPlanner(  # pylint: disable=undefined-variable
            self._actor, opt_dict={
                'target_speed': self._target_speed * 3.6,
                    'lateral_control_dict': self._args})

        if self._waypoints:
            self._update_plan()

    def _update_plan(self):
        """
        Update the plan (waypoint list) of the LocalPlanner
        """
        plan = []
        for transform in self._waypoints:
            waypoint = CarlaDataProvider.get_map().get_waypoint(
                transform.location,
                project_to_road=True,
                lane_type=carla.LaneType.Any)
            plan.append((waypoint, RoadOption.LANEFOLLOW))
        self._local_planner.set_global_plan(plan)

    def reset(self):
        """
        Reset the controller
        """
        if self._actor and self._actor.is_alive:
            if self._local_planner:
                self._local_planner.reset_vehicle()
                self._local_planner = None
            self._actor = None

    def run_step(self):
        """
        Execute on tick of the controller's control loop

        If _waypoints are provided, the vehicle moves towards the next waypoint
        with the given _target_speed, until reaching the final waypoint. Upon reaching
        the final waypoint, _reached_goal is set to True.

        If _waypoints is empty, the vehicle moves in its current direction with
        the given _target_speed.

        If _init_speed is True, the control command is post-processed to ensure that
        the initial actor velocity is maintained independent of physics.
        """
        self._reached_goal = False
        self._local_planner.set_speed(self._target_speed * 3.6)

        if self._waypoints_updated:
            self._waypoints_updated = False
            self._update_plan()

        control = self._local_planner.run_step(debug=False)

        # Check if the actor reached the end of the plan
        # @TODO replace access to private _waypoints_queue with public getter
        if not self._local_planner._waypoints_queue:  # pylint: disable=protected-access
            self._reached_goal = True

        self._actor.apply_control(control)

        if self._init_speed:
            current_speed = math.sqrt(self._actor.get_velocity().x**2 +
                                      self._actor.get_velocity().y**2)

            if abs(self._target_speed - current_speed) > 3:
                yaw = self._actor.get_transform().rotation.yaw * (math.pi /
                                                                  180)
                vx = math.cos(yaw) * self._target_speed
                vy = math.sin(yaw) * self._target_speed
                self._actor.set_velocity(carla.Vector3D(vx, vy, 0))