package pjisuv_msgs import ( "github.com/bluenviron/goroslib/v2/pkg/msg" "github.com/bluenviron/goroslib/v2/pkg/msgs/geometry_msgs" "github.com/bluenviron/goroslib/v2/pkg/msgs/sensor_msgs" "github.com/bluenviron/goroslib/v2/pkg/msgs/std_msgs" ) type AccelCmd struct { msg.Package `ros:"autoware_msgs"` Header std_msgs.Header `rosname:"header"` Accel int32 `rosname:"accel"` } type AdjustXY struct { msg.Package `ros:"autoware_msgs"` Header std_msgs.Header `rosname:"header"` X int32 `rosname:"x"` Y int32 `rosname:"y"` } type BrakeCmd struct { msg.Package `ros:"autoware_msgs"` Header std_msgs.Header `rosname:"header"` Brake int32 `rosname:"brake"` } type Centroids struct { msg.Package `ros:"autoware_msgs"` Header std_msgs.Header `rosname:"header"` Points []geometry_msgs.Point `rosname:"points"` } type CloudCluster struct { msg.Package `ros:"autoware_msgs"` Id uint32 `rosname:"id"` Label string `rosname:"label"` Score float64 `rosname:"score"` Cloud sensor_msgs.PointCloud2 `rosname:"cloud"` MinPoint geometry_msgs.PointStamped `rosname:"min_point"` MaxPoint geometry_msgs.PointStamped `rosname:"max_point"` AvgPoint geometry_msgs.PointStamped `rosname:"avg_point"` CentroidPoint geometry_msgs.PointStamped `rosname:"centroid_point"` EstimatedAngle float64 `rosname:"estimated_angle"` Dimensions geometry_msgs.Vector3 `rosname:"dimensions"` EigenValues geometry_msgs.Vector3 `rosname:"eigen_values"` EigenVectors []geometry_msgs.Vector3 `rosname:"eigen_vectors"` FpfhDescriptor std_msgs.Float32MultiArray `rosname:"fpfh_descriptor"` BoundingBox BoundingBox `rosname:"bounding_box"` ConvexHull geometry_msgs.PolygonStamped `rosname:"convex_hull"` IndicatorState uint32 `rosname:"indicator_state"` } type CloudClusterArray struct { msg.Package `ros:"autoware_msgs"` Header std_msgs.Header `rosname:"header"` Clusters []CloudCluster `rosname:"clusters"` } type ValueSet struct { msg.Package `ros:"autoware_msgs"` Center int32 `rosname:"center"` Range int32 `rosname:"range"` } type ColorSet struct { msg.Package `ros:"autoware_msgs"` Hue int32 `rosname:"Hue"` Sat int32 `rosname:"Sat"` Val int32 `rosname:"Val"` } type ControlCommand struct { msg.Package `ros:"autoware_msgs"` LinearVelocity int32 `rosname:"linear_velocity"` LinearAcceleration int32 `rosname:"linear_acceleration"` SteeringAngle int32 `rosname:"steering_angle"` } type ControlCommandStamped struct { msg.Package `ros:"autoware_msgs"` Cmd ControlCommand `rosname:"cmd"` } type DTLane struct { msg.Package `ros:"autoware_msgs"` Dist float64 `rosname:"dist"` Dir float64 `rosname:"dir"` Apara float64 `rosname:"apara"` R float64 `rosname:"r"` Slope float64 `rosname:"slope"` Cant float64 `rosname:"cant"` Lw float64 `rosname:"lw"` Rw float64 `rosname:"rw"` } type WaypointState struct { msg.Package `ros:"autoware_msgs"` Aid int32 `rosname:"aid"` NullState uint8 `rosname:"NULLSTATE"` LaneChangeState uint8 `rosname:"lanechange_state"` SteeringState uint8 `rosname:"steering_state"` StrLeft uint8 `rosname:"STR_LEFT"` StrRight uint8 `rosname:"STR_RIGHT"` StrStraight uint8 `rosname:"STR_STRAIGHT"` StrBack uint8 `rosname:"STR_BACK"` AccelState uint8 `rosname:"accel_state"` StopState uint8 `rosname:"stop_state"` TypeStopLine uint8 `rosname:"TYPE_STOPLINE"` TypeStop uint8 `rosname:"TYPE_STOP"` EventState uint8 `rosname:"event_state"` TypeEventNull uint8 `rosname:"TYPE_EVENT_NULL"` TypeEventGoal uint8 `rosname:"TYPE_EVENT_GOAL"` TypeEventMiddleGoal uint8 `rosname:"TYPE_EVENT_MIDDLE_GOAL"` TypeEventPositionStop uint8 `rosname:"TYPE_EVENT_POSITION_STOP"` TypeEventBusStop uint8 `rosname:"TYPE_EVENT_BUS_STOP"` TypeEventParking uint8 `rosname:"TYPE_EVENT_PARKING"` } type Waypoint struct { msg.Package `ros:"autoware_msgs"` Gid int32 `rosname:"gid"` Lid int32 `rosname:"lid"` Pose geometry_msgs.PoseStamped `rosname:"pose"` Twist geometry_msgs.TwistStamped `rosname:"twist"` DTLane DTLane `rosname:"dtlane"` ChangeFlag int32 `rosname:"change_flag"` WpState WaypointState `rosname:"wpstate"` LaneId uint32 `rosname:"lane_id"` LeftLaneId uint32 `rosname:"left_lane_id"` RightLaneId uint32 `rosname:"right_lane_id"` StopLineId uint32 `rosname:"stop_line_id"` Cost float32 `rosname:"cost"` TimeCost float32 `rosname:"time_cost"` Direction uint32 `rosname:"direction"` } type Lane struct { msg.Package `ros:"autoware_msgs"` Header std_msgs.Header `rosname:"header"` Increment int32 `rosname:"increment"` LaneId int32 `rosname:"lane_id"` Waypoints []Waypoint `rosname:"waypoints"` LaneIndex uint32 `rosname:"lane_index"` Cost float32 `rosname:"cost"` ClosestObjectDistance float32 `rosname:"closest_object_distance"` ClosestObjectVelocity float32 `rosname:"closest_object_velocity"` IsBlocked bool `rosname:"is_blocked"` } type LaneArray struct { msg.Package `ros:"autoware_msgs"` Id int32 `rosname:"id"` Lanes []Lane `rosname:"lanes"` } type DetectedObject struct { msg.Package `ros:"autoware_msgs"` Id uint32 `rosname:"id"` Label string `rosname:"label"` Score float32 `rosname:"score"` Color std_msgs.ColorRGBA `rosname:"color"` Valid bool `rosname:"valid"` String string `rosname:"space_frame"` Pose geometry_msgs.Pose `rosname:"pose"` Dimensions geometry_msgs.Vector3 `rosname:"dimensions"` Variance geometry_msgs.Vector3 `rosname:"variance"` Velocity geometry_msgs.Twist `rosname:"velocity"` Acceleration geometry_msgs.Twist `rosname:"acceleration"` PointCloud sensor_msgs.PointCloud2 `rosname:"pointcloud"` ConvexHull geometry_msgs.PolygonStamped `rosname:"convex_hull"` CandidateTrajectories LaneArray `rosname:"candidate_trajectories"` PoseReliable bool `rosname:"pose_reliable"` VelocityReliable bool `rosname:"velocity_reliable"` AccelerationReliable bool `rosname:"acceleration_reliable"` ImageFrame string `rosname:"image_frame"` X int32 `rosname:"x"` Y int32 `rosname:"y"` Width int32 `rosname:"width"` Height int32 `rosname:"height"` Angle float32 `rosname:"angle"` RoiImage sensor_msgs.Image `rosname:"roi_image"` IndicatorState uint8 `rosname:"indicator_state"` BehaviorState uint8 `rosname:"behavior_state"` UserDefinedInfo []string `rosname:"user_defined_info"` } type DetectedObjectArray struct { msg.Package `ros:"autoware_msgs"` Header std_msgs.Header `rosname:"header"` Objects []DetectedObject `rosname:"objects"` } type ExtractedPosition struct { msg.Package `ros:"autoware_msgs"` SignalId int32 `rosname:"signalId"` U int32 `rosname:"u"` V int32 `rosname:"v"` Radius int32 `rosname:"radius"` X float64 `rosname:"x"` Y float64 `rosname:"y"` Z float64 `rosname:"z"` Hang float64 `rosname:"hang"` Type int8 `rosname:"type"` LinkId int32 `rosname:"linkId"` PlId int32 `rosname:"plId"` } type Gear struct { msg.Package `ros:"autoware_msgs"` None uint8 `rosname:"NONE"` Park uint8 `rosname:"PARK"` Reverse uint8 `rosname:"REVERSE"` Neutral uint8 `rosname:"NEUTRAL"` Drive uint8 `rosname:"DRIVE"` Low uint8 `rosname:"LOW"` Gear uint8 `rosname:"gear"` } type GeometricRectangle struct { msg.Package `ros:"autoware_msgs"` Wl float32 `rosname:"wl"` Wr float32 `rosname:"wr"` Lf float32 `rosname:"lf"` Lb float32 `rosname:"lb"` } type ICPStat struct { msg.Package `ros:"autoware_msgs"` Header std_msgs.Header `rosname:"header"` ExeTime float32 `rosname:"exe_time"` Score float32 `rosname:"score"` Velocity float32 `rosname:"velocity"` Acceleration float32 `rosname:"acceleration"` UsePredictPose int32 `rosname:"use_predict_pose"` } type ImageLaneObjects struct { msg.Package `ros:"autoware_msgs"` Header std_msgs.Header `rosname:"header"` LaneLX1 int32 `rosname:"lane_l_x1"` LaneLY1 int32 `rosname:"lane_l_y1"` LaneLX2 int32 `rosname:"lane_l_x2"` LaneLY2 int32 `rosname:"lane_l_y2"` LaneRX1 int32 `rosname:"lane_r_x1"` LaneRY1 int32 `rosname:"lane_r_y1"` LaneRX2 int32 `rosname:"lane_r_x2"` LaneRY2 int32 `rosname:"lane_r_y2"` } type ImageRect struct { msg.Package `ros:"autoware_msgs"` X int32 `rosname:"x"` Y int32 `rosname:"y"` Height int32 `rosname:"height"` Width int32 `rosname:"width"` Score float32 `rosname:"score"` } type ImageObj struct { msg.Package `ros:"autoware_msgs"` Header std_msgs.Header `rosname:"header"` Type string `rosname:"type"` Obj []ImageRect `rosname:"obj"` } type ImageObjects struct { msg.Package `ros:"autoware_msgs"` Header std_msgs.Header `rosname:"header"` CarNum uint8 `rosname:"car_num"` CarType []int32 `rosname:"car_type"` Score []float32 `rosname:"score"` CornerPoint []int32 `rosname:"corner_point"` } type ImageRectRanged struct { msg.Package `ros:"autoware_msgs"` Rect ImageRect `rosname:"rect"` Range float32 `rosname:"range"` MinHeight float32 `rosname:"min_height"` MaxHeight float32 `rosname:"max_height"` } type ImageObjRanged struct { msg.Package `ros:"autoware_msgs"` Header std_msgs.Header `rosname:"header"` Type string `rosname:"type"` Obj []ImageRectRanged `rosname:"obj"` } type ImageObjTracked struct { msg.Package `ros:"autoware_msgs"` Header std_msgs.Header `rosname:"header"` Type string `rosname:"type"` TotalNum uint8 `rosname:"total_num"` ObjId []int32 `rosname:"obj_id"` RectRanged []ImageRectRanged `rosname:"rect_ranged"` RealData []int32 `rosname:"real_data"` Lifespan []int32 `rosname:"lifespan"` } type IndicatorCmd struct { msg.Package `ros:"autoware_msgs"` Header std_msgs.Header `rosname:"header"` L int32 `rosname:"l"` R int32 `rosname:"r"` } type LampCmd struct { msg.Package `ros:"autoware_msgs"` Header std_msgs.Header `rosname:"header"` L int32 `rosname:"l"` R int32 `rosname:"r"` } type NDTStat struct { msg.Package `ros:"autoware_msgs"` Header std_msgs.Header `rosname:"header"` ExeTime float32 `rosname:"exe_time"` Iteration int32 `rosname:"iteration"` Score float32 `rosname:"score"` Velocity float32 `rosname:"velocity"` Acceleration float32 `rosname:"acceleration"` UsePredictPose int32 `rosname:"use_predict_pose"` } type ObjLabel struct { msg.Package `ros:"autoware_msgs"` Header std_msgs.Header `rosname:"header"` Type string `rosname:"type"` ObjId []int32 `rosname:"obj_id"` ReprojectedPos []geometry_msgs.Point `rosname:"reprojected_pos"` } type ObjPose struct { msg.Package `ros:"autoware_msgs"` Header std_msgs.Header `rosname:"header"` Type string `rosname:"type"` ObjId []int32 `rosname:"obj_id"` Obj []geometry_msgs.PoseArray `rosname:"obj"` } type PointsImage struct { msg.Package `ros:"autoware_msgs"` Header std_msgs.Header `rosname:"header"` Distance []float32 `rosname:"distance"` Intensity []float32 `rosname:"intensity"` MinHeight []float32 `rosname:"min_height"` MaxHeight []float32 `rosname:"max_height"` MaxY int32 `rosname:"max_y"` MinY int32 `rosname:"min_y"` ImageHeight int32 `rosname:"image_height"` ImageWidth int32 `rosname:"image_width"` }