コード例 #1
0
    def world_coord_from_offset(self, lane: Lane, offset) -> np.ndarray:
        """Convert offset into lane to world coordinates

        Args:
            offset: meters into the lane
            lane: sumo network lane

        Returns:
            np.array([x, y]): coordinates in world space
        """
        lane_shape = lane.getShape(False)

        position_on_lane = sumolib.geomhelper.positionAtShapeOffset(lane_shape, offset)

        return np.array(position_on_lane)
コード例 #2
0
ファイル: lanepoints.py プロジェクト: qyshen815/SMARTS
    def _shape_lanepoints_along_lane(
        self, lane: Lane, lanepoint_by_lane_memo: dict
    ) -> Tuple[LinkedLanePoint, List[LinkedLanePoint]]:
        lane_queue = queue.Queue()
        lane_queue.put((lane, None))
        shape_lanepoints = []
        initial_lanepoint = None
        while not lane_queue.empty():
            lane, previous_lp = lane_queue.get()
            first_lanepoint = lanepoint_by_lane_memo.get(lane.getID())
            if first_lanepoint:
                if previous_lp:
                    previous_lp.nexts.append(first_lanepoint)
                continue

            lane_data = self._road_network.lane_data_for_lane(lane)
            lane_shape = [np.array(p) for p in lane.getShape(False)]

            assert len(lane_shape) >= 2, repr(lane_shape)

            heading = vec_to_radians(lane_shape[1] - lane_shape[0])
            heading = Heading(heading)

            first_lanepoint = LinkedLanePoint(
                lp=LanePoint(
                    pos=lane_shape[0],
                    heading=heading,
                    lane_width=lane.getWidth(),
                    speed_limit=lane_data.lane_speed,
                    lane_id=lane.getID(),
                    lane_index=lane.getIndex(),
                ),
                nexts=[],
                is_shape_lp=True,
            )

            if previous_lp is not None:
                previous_lp.nexts.append(first_lanepoint)

            if initial_lanepoint is None:
                initial_lanepoint = first_lanepoint

            lanepoint_by_lane_memo[lane.getID()] = first_lanepoint
            shape_lanepoints.append(first_lanepoint)
            curr_lanepoint = first_lanepoint

            for p1, p2 in zip(lane_shape[1:], lane_shape[2:]):
                heading_ = vec_to_radians(p2 - p1)
                heading_ = Heading(heading_)
                linked_lanepoint = LinkedLanePoint(
                    lp=LanePoint(
                        pos=p1,
                        heading=heading_,
                        lane_width=lane.getWidth(),
                        speed_limit=lane_data.lane_speed,
                        lane_id=lane.getID(),
                        lane_index=lane.getIndex(),
                    ),
                    nexts=[],
                    is_shape_lp=True,
                )

                shape_lanepoints.append(linked_lanepoint)
                curr_lanepoint.nexts.append(linked_lanepoint)
                curr_lanepoint = linked_lanepoint

            # Add a lanepoint for the last point of the current lane
            last_linked_lanepoint = LinkedLanePoint(
                lp=LanePoint(
                    pos=lane_shape[-1],
                    heading=curr_lanepoint.lp.heading,
                    lane_width=curr_lanepoint.lp.lane_width,
                    speed_limit=curr_lanepoint.lp.speed_limit,
                    lane_id=curr_lanepoint.lp.lane_id,
                    lane_index=curr_lanepoint.lp.lane_index,
                ),
                nexts=[],
                is_shape_lp=True,
            )

            shape_lanepoints.append(last_linked_lanepoint)
            curr_lanepoint.nexts.append(last_linked_lanepoint)
            curr_lanepoint = last_linked_lanepoint

            for out_connection in lane.getOutgoing():
                out_lane = out_connection.getToLane()

                # Use internal lanes of junctions (if we're at a junction)
                via_lane_id = out_connection.getViaLaneID()
                if via_lane_id:
                    out_lane = self._road_network.lane_by_id(via_lane_id)

                lane_queue.put((out_lane, curr_lanepoint))

        return initial_lanepoint, shape_lanepoints