/// <summary>
        /// Check if two zones are equal
        /// </summary>
        /// <param name="obj"></param>
        /// <returns></returns>
        public override bool Equals(object obj)
        {
            // make sure type same
            if (obj is ArbiterWayId)
            {
                // cast
                ArbiterWayId awi = (ArbiterWayId)obj;

                // check if equal
                return(awi.Number == this.wayNumber && awi.SegmentId.Equals(this.SegmentId));
            }

            // otherwise not equal
            return(false);
        }
        public OpposingLanesState(ArbiterLane opposingLane, bool resetLaneAgent, IState previous, VehicleState vs)
        {
            this.resetLaneAgent = resetLaneAgent;
            this.OpposingLane = opposingLane;
            this.OpposingWay = opposingLane.Way.WayId;
            this.ClosestGoodLane = null;

            this.SetClosestGood(vs);

            if (previous is ChangeLanesState)
            {
                EntryParameters = ((ChangeLanesState)previous).Parameters;
            }
            else if (previous is OpposingLanesState)
            {
                EntryParameters = ((OpposingLanesState)previous).EntryParameters;
            }
            else
            {
                EntryParameters = null;
            }
        }
 /// <summary>
 /// Constructor
 /// </summary>
 /// <param name="wayId"></param>
 public ArbiterWay(ArbiterWayId wayId)
 {
     this.WayId = wayId;
     this.Lanes = new Dictionary <ArbiterLaneId, ArbiterLane>();
 }
 /// <summary>
 /// Constructor
 /// </summary>
 /// <param name="laneNumber"></param>
 /// <param name="wayId"></param>
 public ArbiterLaneId(int laneNumber, ArbiterWayId wayId)
 {
     this.laneNumber = laneNumber;
     this.WayId = wayId;
     this.SegmentId = wayId.SegmentId;
 }
        /// <summary>
        /// Generates the xySegments into segments and inputs them into the input road network
        /// </summary>
        /// <param name="arn"></param>
        /// <returns></returns>
        public ArbiterRoadNetwork GenerateSegments(ArbiterRoadNetwork arn)
        {
            foreach (SimpleSegment ss in segments)
            {
                // seg
                ArbiterSegmentId asi = new ArbiterSegmentId(int.Parse(ss.Id));
                ArbiterSegment   asg = new ArbiterSegment(asi);
                arn.ArbiterSegments.Add(asi, asg);
                asg.RoadNetwork = arn;
                asg.SpeedLimits = new ArbiterSpeedLimit();
                asg.SpeedLimits.MaximumSpeed = 13.4112;                 // 30mph max speed

                // way1
                ArbiterWayId awi1 = new ArbiterWayId(1, asi);
                ArbiterWay   aw1  = new ArbiterWay(awi1);
                aw1.Segment = asg;
                asg.Ways.Add(awi1, aw1);
                asg.Way1 = aw1;

                // way2
                ArbiterWayId awi2 = new ArbiterWayId(2, asi);
                ArbiterWay   aw2  = new ArbiterWay(awi2);
                aw2.Segment = asg;
                asg.Ways.Add(awi2, aw2);
                asg.Way2 = aw2;

                // make lanes
                foreach (SimpleLane sl in ss.Lanes)
                {
                    // lane
                    ArbiterLaneId ali;
                    ArbiterLane   al;

                    // get way of lane id
                    if (ss.Way1Lanes.Contains(sl))
                    {
                        ali = new ArbiterLaneId(GenerationTools.GetId(sl.Id)[1], awi1);
                        al  = new ArbiterLane(ali);
                        aw1.Lanes.Add(ali, al);
                        al.Way = aw1;
                    }
                    else
                    {
                        ali = new ArbiterLaneId(GenerationTools.GetId(sl.Id)[1], awi2);
                        al  = new ArbiterLane(ali);
                        aw2.Lanes.Add(ali, al);
                        al.Way = aw2;
                    }

                    // add to display
                    arn.DisplayObjects.Add(al);

                    // width
                    al.Width = sl.LaneWidth == 0 ? TahoeParams.T * 2.0 : sl.LaneWidth * 0.3048;

                    if (sl.LaneWidth == 0)
                    {
                        Console.WriteLine("lane: " + ali.ToString() + " contains no lane width, setting to 4m");
                    }

                    // lane boundaries
                    al.BoundaryLeft  = this.GenerateLaneBoundary(sl.LeftBound);
                    al.BoundaryRight = this.GenerateLaneBoundary(sl.RightBound);

                    // add lane to seg
                    asg.Lanes.Add(ali, al);

                    // waypoints
                    List <ArbiterWaypoint> waypointList = new List <ArbiterWaypoint>();

                    // generate waypoints
                    foreach (SimpleWaypoint sw in sl.Waypoints)
                    {
                        // waypoint
                        ArbiterWaypointId awi = new ArbiterWaypointId(GenerationTools.GetId(sw.ID)[2], ali);
                        ArbiterWaypoint   aw  = new ArbiterWaypoint(sw.Position, awi);
                        aw.Lane = al;

                        // stop
                        if (sl.Stops.Contains(sw.ID))
                        {
                            aw.IsStop = true;
                        }

                        // checkpoint
                        foreach (SimpleCheckpoint sc in sl.Checkpoints)
                        {
                            if (sw.ID == sc.WaypointId)
                            {
                                aw.IsCheckpoint = true;
                                aw.CheckpointId = int.Parse(sc.CheckpointId);
                                arn.Checkpoints.Add(aw.CheckpointId, aw);
                            }
                        }

                        // add
                        asg.Waypoints.Add(awi, aw);
                        arn.ArbiterWaypoints.Add(awi, aw);
                        al.Waypoints.Add(awi, aw);
                        waypointList.Add(aw);
                        arn.DisplayObjects.Add(aw);
                        arn.LegacyWaypointLookup.Add(sw.ID, aw);
                    }

                    al.WaypointList = waypointList;

                    // lane partitions
                    List <ArbiterLanePartition> alps = new List <ArbiterLanePartition>();
                    al.Partitions = alps;

                    // generate lane partitions
                    for (int i = 0; i < waypointList.Count - 1; i++)
                    {
                        // create lane partition
                        ArbiterLanePartitionId alpi = new ArbiterLanePartitionId(waypointList[i].WaypointId, waypointList[i + 1].WaypointId, ali);
                        ArbiterLanePartition   alp  = new ArbiterLanePartition(alpi, waypointList[i], waypointList[i + 1], asg);
                        alp.Lane = al;
                        waypointList[i].NextPartition         = alp;
                        waypointList[i + 1].PreviousPartition = alp;
                        alps.Add(alp);
                        arn.DisplayObjects.Add(alp);

                        // crete initial user partition
                        ArbiterUserPartitionId      aupi = new ArbiterUserPartitionId(alp.PartitionId, waypointList[i].WaypointId, waypointList[i + 1].WaypointId);
                        ArbiterUserPartition        aup  = new ArbiterUserPartition(aupi, alp, waypointList[i], waypointList[i + 1]);
                        List <ArbiterUserPartition> aups = new List <ArbiterUserPartition>();
                        aups.Add(aup);
                        alp.UserPartitions = aups;
                        alp.SetDefaultSparsePolygon();
                        arn.DisplayObjects.Add(aup);
                    }

                    // path segments of lane
                    List <IPathSegment> ips          = new List <IPathSegment>();
                    List <Coordinates>  pathSegments = new List <Coordinates>();
                    pathSegments.Add(alps[0].Initial.Position);

                    // loop
                    foreach (ArbiterLanePartition alPar in alps)
                    {
                        ips.Add(new LinePathSegment(alPar.Initial.Position, alPar.Final.Position));
                        // make new segment
                        pathSegments.Add(alPar.Final.Position);
                    }

                    // generate lane partition path
                    LinePath partitionPath = new LinePath(pathSegments);
                    al.SetLanePath(partitionPath);
                    al.PartitionPath = new Path(ips, CoordinateMode.AbsoluteProjected);

                    // safeto zones
                    foreach (ArbiterWaypoint aw in al.Waypoints.Values)
                    {
                        if (aw.IsStop)
                        {
                            LinePath.PointOnPath end = al.GetClosestPoint(aw.Position);
                            double dist = -30;
                            LinePath.PointOnPath begin = al.LanePath().AdvancePoint(end, ref dist);
                            if (dist != 0)
                            {
                                begin = al.LanePath().StartPoint;
                            }
                            ArbiterSafetyZone asz = new ArbiterSafetyZone(al, end, begin);
                            asz.isExit = true;
                            asz.Exit   = aw;
                            al.SafetyZones.Add(asz);
                            arn.DisplayObjects.Add(asz);
                            arn.ArbiterSafetyZones.Add(asz);
                        }
                    }
                }
            }

            return(arn);
        }
        /// <summary>
        /// Generates the xySegments into segments and inputs them into the input road network
        /// </summary>
        /// <param name="arn"></param>
        /// <returns></returns>
        public ArbiterRoadNetwork GenerateSegments(ArbiterRoadNetwork arn)
        {
            foreach (SimpleSegment ss in segments)
            {
                // seg
                ArbiterSegmentId asi = new ArbiterSegmentId(int.Parse(ss.Id));
                ArbiterSegment asg = new ArbiterSegment(asi);
                arn.ArbiterSegments.Add(asi, asg);
                asg.RoadNetwork = arn;
                asg.SpeedLimits = new ArbiterSpeedLimit();
                asg.SpeedLimits.MaximumSpeed = 13.4112; // 30mph max speed

                // way1
                ArbiterWayId awi1 = new ArbiterWayId(1, asi);
                ArbiterWay aw1 = new ArbiterWay(awi1);
                aw1.Segment = asg;
                asg.Ways.Add(awi1, aw1);
                asg.Way1 = aw1;

                // way2
                ArbiterWayId awi2 = new ArbiterWayId(2, asi);
                ArbiterWay aw2 = new ArbiterWay(awi2);
                aw2.Segment = asg;
                asg.Ways.Add(awi2, aw2);
                asg.Way2 = aw2;

                // make lanes
                foreach (SimpleLane sl in ss.Lanes)
                {
                    // lane
                    ArbiterLaneId ali;
                    ArbiterLane al;

                    // get way of lane id
                    if (ss.Way1Lanes.Contains(sl))
                    {
                        ali = new ArbiterLaneId(GenerationTools.GetId(sl.Id)[1], awi1);
                        al = new ArbiterLane(ali);
                        aw1.Lanes.Add(ali, al);
                        al.Way = aw1;
                    }
                    else
                    {
                        ali = new ArbiterLaneId(GenerationTools.GetId(sl.Id)[1], awi2);
                        al = new ArbiterLane(ali);
                        aw2.Lanes.Add(ali, al);
                        al.Way = aw2;
                    }

                    // add to display
                    arn.DisplayObjects.Add(al);

                    // width
                    al.Width = sl.LaneWidth == 0 ? TahoeParams.T * 2.0 : sl.LaneWidth * 0.3048;

                    if(sl.LaneWidth == 0)
                        Console.WriteLine("lane: " + ali.ToString() + " contains no lane width, setting to 4m");

                    // lane boundaries
                    al.BoundaryLeft = this.GenerateLaneBoundary(sl.LeftBound);
                    al.BoundaryRight = this.GenerateLaneBoundary(sl.RightBound);

                    // add lane to seg
                    asg.Lanes.Add(ali, al);

                    // waypoints
                    List<ArbiterWaypoint> waypointList = new List<ArbiterWaypoint>();

                    // generate waypoints
                    foreach (SimpleWaypoint sw in sl.Waypoints)
                    {
                        // waypoint
                        ArbiterWaypointId awi = new ArbiterWaypointId(GenerationTools.GetId(sw.ID)[2], ali);
                        ArbiterWaypoint aw = new ArbiterWaypoint(sw.Position, awi);
                        aw.Lane = al;

                        // stop
                        if (sl.Stops.Contains(sw.ID))
                        {
                            aw.IsStop = true;
                        }

                        // checkpoint
                        foreach (SimpleCheckpoint sc in sl.Checkpoints)
                        {
                            if (sw.ID == sc.WaypointId)
                            {
                                aw.IsCheckpoint = true;
                                aw.CheckpointId = int.Parse(sc.CheckpointId);
                                arn.Checkpoints.Add(aw.CheckpointId, aw);
                            }
                        }

                        // add
                        asg.Waypoints.Add(awi, aw);
                        arn.ArbiterWaypoints.Add(awi, aw);
                        al.Waypoints.Add(awi, aw);
                        waypointList.Add(aw);
                        arn.DisplayObjects.Add(aw);
                        arn.LegacyWaypointLookup.Add(sw.ID, aw);
                    }

                    al.WaypointList = waypointList;

                    // lane partitions
                    List<ArbiterLanePartition> alps = new List<ArbiterLanePartition>();
                    al.Partitions = alps;

                    // generate lane partitions
                    for (int i = 0; i < waypointList.Count-1; i++)
                    {
                        // create lane partition
                        ArbiterLanePartitionId alpi = new ArbiterLanePartitionId(waypointList[i].WaypointId, waypointList[i + 1].WaypointId, ali);
                        ArbiterLanePartition alp = new ArbiterLanePartition(alpi, waypointList[i], waypointList[i+1], asg);
                        alp.Lane = al;
                        waypointList[i].NextPartition = alp;
                        waypointList[i + 1].PreviousPartition = alp;
                        alps.Add(alp);
                        arn.DisplayObjects.Add(alp);

                        // crete initial user partition
                        ArbiterUserPartitionId aupi = new ArbiterUserPartitionId(alp.PartitionId, waypointList[i].WaypointId, waypointList[i + 1].WaypointId);
                        ArbiterUserPartition aup = new ArbiterUserPartition(aupi, alp, waypointList[i], waypointList[i + 1]);
                        List<ArbiterUserPartition> aups = new List<ArbiterUserPartition>();
                        aups.Add(aup);
                        alp.UserPartitions = aups;
                        alp.SetDefaultSparsePolygon();
                        arn.DisplayObjects.Add(aup);
                    }

                    // path segments of lane
                    List<IPathSegment> ips = new List<IPathSegment>();
                    List<Coordinates> pathSegments = new List<Coordinates>();
                    pathSegments.Add(alps[0].Initial.Position);

                    // loop
                    foreach(ArbiterLanePartition alPar in alps)
                    {
                        ips.Add(new LinePathSegment(alPar.Initial.Position, alPar.Final.Position));
                        // make new segment
                        pathSegments.Add(alPar.Final.Position);
                    }

                    // generate lane partition path
                    LinePath partitionPath = new LinePath(pathSegments);
                    al.SetLanePath(partitionPath);
                    al.PartitionPath = new Path(ips, CoordinateMode.AbsoluteProjected);

                    // safeto zones
                    foreach (ArbiterWaypoint aw in al.Waypoints.Values)
                    {
                        if(aw.IsStop)
                        {
                            LinePath.PointOnPath end = al.GetClosestPoint(aw.Position);
                            double dist = -30;
                            LinePath.PointOnPath begin = al.LanePath().AdvancePoint(end, ref dist);
                            if (dist != 0)
                            {
                                begin = al.LanePath().StartPoint;
                            }
                            ArbiterSafetyZone asz = new ArbiterSafetyZone(al, end, begin);
                            asz.isExit = true;
                            asz.Exit = aw;
                            al.SafetyZones.Add(asz);
                            arn.DisplayObjects.Add(asz);
                            arn.ArbiterSafetyZones.Add(asz);
                        }
                    }
                }
            }

            return arn;
        }
예제 #7
0
 /// <summary>
 /// Constructor
 /// </summary>
 /// <param name="laneNumber"></param>
 /// <param name="wayId"></param>
 public ArbiterLaneId(int laneNumber, ArbiterWayId wayId)
 {
     this.laneNumber = laneNumber;
     this.WayId      = wayId;
     this.SegmentId  = wayId.SegmentId;
 }
 /// <summary>
 /// Constructor
 /// </summary>
 /// <param name="wayId"></param>
 public ArbiterWay(ArbiterWayId wayId)
 {
     this.WayId = wayId;
     this.Lanes = new Dictionary<ArbiterLaneId, ArbiterLane>();
 }