private void SetEditLine(ushort line, bool forceRefresh)
 {
     if (line != this.m_lastEditLine || forceRefresh)
     {
         TransportManager instance = Singleton <TransportManager> .instance;
         if (this.m_lastEditLine != 0)
         {
             TransportLine[] expr_39_cp_0 = instance.m_lines.m_buffer;
             ushort          expr_39_cp_1 = this.m_lastEditLine;
             expr_39_cp_0[(int)expr_39_cp_1].m_flags = (expr_39_cp_0[(int)expr_39_cp_1].m_flags & ~(TransportLine.Flags.Hidden | TransportLine.Flags.Selected));
         }
         this.m_lastEditLine  = line;
         this.m_lastMoveIndex = -2;
         this.m_lastAddIndex  = -2;
         this.m_lastMovePos   = Vector3.zero;
         this.m_lastAddPos    = Vector3.zero;
         if (this.m_lastEditLine != 0)
         {
             TransportLine[] expr_95_cp_0 = instance.m_lines.m_buffer;
             ushort          expr_95_cp_1 = this.m_lastEditLine;
             expr_95_cp_0[(int)expr_95_cp_1].m_flags = (expr_95_cp_0[(int)expr_95_cp_1].m_flags | (TransportLine.Flags.Hidden | TransportLine.Flags.Selected));
         }
         if (this.m_tempLine != 0)
         {
             instance.m_lines.m_buffer[(int)this.m_tempLine].CloneLine(this.m_tempLine, this.m_lastEditLine);
             BusTransportLineAI.UpdateMeshData(ref instance.m_lines.m_buffer[(int)this.m_tempLine], this.m_tempLine);
         }
     }
 }
Esempio n. 2
0
        public new static bool UpdatePath(ushort segmentID, ref NetSegment data, ItemClass.Service netService, VehicleInfo.VehicleType vehicleType, bool skipQueue)
        {
            if (data.m_path == 0u)
            {
                return(BusTransportLineAI.StartPathFind(segmentID, ref data, netService, vehicleType, skipQueue));
            }
            if ((data.m_flags & NetSegment.Flags.WaitingPath) == NetSegment.Flags.None)
            {
                return(true);
            }
            PathManager instance      = Singleton <PathManager> .instance;
            NetManager  instance2     = Singleton <NetManager> .instance;
            byte        pathFindFlags = instance.m_pathUnits.m_buffer[(int)((UIntPtr)data.m_path)].m_pathFindFlags;

            if ((pathFindFlags & 4) != 0)
            {
                bool flag = false;
                PathUnit.Position pathPos;
                if (instance.m_pathUnits.m_buffer[(int)((UIntPtr)data.m_path)].GetPosition(0, out pathPos))
                {
                    flag = TransportLineAI.CheckNodePosition(data.m_startNode, pathPos);
                }
                if (instance.m_pathUnits.m_buffer[(int)((UIntPtr)data.m_path)].GetLastPosition(out pathPos))
                {
                    TransportLineAI.CheckNodePosition(data.m_endNode, pathPos);
                }
                float length = instance.m_pathUnits.m_buffer[(int)((UIntPtr)data.m_path)].m_length;
                if (length != data.m_averageLength)
                {
                    data.m_averageLength = length;
                    ushort transportLine = instance2.m_nodes.m_buffer[(int)data.m_startNode].m_transportLine;
                    if (transportLine != 0)
                    {
                        Singleton <TransportManager> .instance.UpdateLine(transportLine);
                    }
                }
                if (data.m_lanes != 0u)
                {
                    instance2.m_lanes.m_buffer[(int)((UIntPtr)data.m_lanes)].m_length = data.m_averageLength * ((!flag) ? 1f : 0.75f);
                }
                data.m_flags &= ~NetSegment.Flags.WaitingPath;
                data.m_flags &= ~NetSegment.Flags.PathFailed;
                return(true);
            }
            if ((pathFindFlags & 8) != 0)
            {
                if (data.m_averageLength == 0f)
                {
                    Vector3 position  = instance2.m_nodes.m_buffer[(int)data.m_startNode].m_position;
                    Vector3 position2 = instance2.m_nodes.m_buffer[(int)data.m_endNode].m_position;
                    data.m_averageLength = Vector3.Distance(position, position2);
                }
                data.m_flags &= ~NetSegment.Flags.WaitingPath;
                data.m_flags |= NetSegment.Flags.PathFailed;
                return(true);
            }
            return(false);
        }
Esempio n. 3
0
        public override void SimulationStep(ushort segmentID, ref NetSegment data)
        {
            NetManager instance = Singleton <NetManager> .instance;

            if ((instance.m_nodes.m_buffer[(int)data.m_startNode].m_flags & NetNode.Flags.Temporary) == NetNode.Flags.None)
            {
                if (data.m_path == 0u || (ulong)(Singleton <SimulationManager> .instance.m_currentFrameIndex >> 8 & 15u) == (ulong)((long)(segmentID & 15)))
                {
                    BusTransportLineAI.StartPathFind(segmentID, ref data, this.m_netService, this.m_vehicleType, false);
                }
                else
                {
                    BusTransportLineAI.UpdatePath(segmentID, ref data, this.m_netService, this.m_vehicleType, false);
                }
            }
        }
Esempio n. 4
0
        public static bool UpdatePaths(ref TransportLine transportLine, ushort lineID)
        {
            bool       flag     = true;
            NetManager instance = Singleton <NetManager> .instance;
            ushort     stops    = transportLine.m_stops;
            ushort     num      = stops;
            int        num2     = 0;

            while (num != 0)
            {
                ushort num3 = 0;
                for (int i = 0; i < 8; i++)
                {
                    ushort segment = instance.m_nodes.m_buffer[(int)num].GetSegment(i);
                    if (segment != 0 && instance.m_segments.m_buffer[(int)segment].m_startNode == num)
                    {
                        TransportInfo info = transportLine.Info;
                        if (!BusTransportLineAI.UpdatePath(segment, ref instance.m_segments.m_buffer[(int)segment], info.m_netService, info.m_vehicleType, (transportLine.m_flags & TransportLine.Flags.Temporary) != TransportLine.Flags.None))
                        {
                            flag = false;
                        }
                        num3 = instance.m_segments.m_buffer[(int)segment].m_endNode;
                        break;
                    }
                }
                num = num3;
                if (num == stops)
                {
                    break;
                }
                if (!flag)
                {
                    break;
                }
                if (++num2 >= 32768)
                {
                    CODebugBase <LogChannel> .Error(LogChannel.Core, "Invalid list detected!\n" + Environment.StackTrace);

                    break;
                }
            }
            return(flag);
        }
Esempio n. 5
0
        public new static bool StartPathFind(ushort segmentID, ref NetSegment data, ItemClass.Service netService, VehicleInfo.VehicleType vehicleType, bool skipQueue)
        {
            if (data.m_path != 0u)
            {
                Singleton <PathManager> .instance.ReleasePath(data.m_path);

                data.m_path = 0u;
            }
            NetManager instance = Singleton <NetManager> .instance;

            if ((instance.m_nodes.m_buffer[(int)data.m_startNode].m_flags & NetNode.Flags.Ambiguous) != NetNode.Flags.None)
            {
                for (int i = 0; i < 8; i++)
                {
                    ushort segment = instance.m_nodes.m_buffer[(int)data.m_startNode].GetSegment(i);
                    if (segment != 0 && segment != segmentID && instance.m_segments.m_buffer[(int)segment].m_path != 0u)
                    {
                        return(true);
                    }
                }
            }
            if ((instance.m_nodes.m_buffer[(int)data.m_endNode].m_flags & NetNode.Flags.Ambiguous) != NetNode.Flags.None)
            {
                for (int j = 0; j < 8; j++)
                {
                    ushort segment2 = instance.m_nodes.m_buffer[(int)data.m_endNode].GetSegment(j);
                    if (segment2 != 0 && segment2 != segmentID && instance.m_segments.m_buffer[(int)segment2].m_path != 0u)
                    {
                        return(true);
                    }
                }
            }
            Vector3 position  = instance.m_nodes.m_buffer[(int)data.m_startNode].m_position;
            Vector3 position2 = instance.m_nodes.m_buffer[(int)data.m_endNode].m_position;

            PathUnit.Position startPosA;
            PathUnit.Position startPosB;
            float             num;
            float             num2;

            if (!PathManager.FindPathPosition(position, netService, NetInfo.LaneType.Pedestrian, VehicleInfo.VehicleType.None, true, false, 32f, out startPosA, out startPosB, out num, out num2))
            {
                return(true);
            }
            PathUnit.Position endPosA;
            PathUnit.Position endPosB;
            float             num3;
            float             num4;

            if (!PathManager.FindPathPosition(position2, netService, NetInfo.LaneType.Pedestrian, VehicleInfo.VehicleType.None, true, false, 32f, out endPosA, out endPosB, out num3, out num4))
            {
                return(true);
            }
            if ((instance.m_nodes.m_buffer[(int)data.m_startNode].m_flags & NetNode.Flags.Fixed) != NetNode.Flags.None)
            {
                startPosB = default(PathUnit.Position);
            }
            if ((instance.m_nodes.m_buffer[(int)data.m_endNode].m_flags & NetNode.Flags.Fixed) != NetNode.Flags.None)
            {
                endPosB = default(PathUnit.Position);
            }
            startPosA.m_offset = 128;
            startPosB.m_offset = 128;
            endPosA.m_offset   = 128;
            endPosB.m_offset   = 128;
            bool stopLane  = BusTransportLineAI.GetStopLane(ref startPosA, vehicleType);
            bool stopLane2 = BusTransportLineAI.GetStopLane(ref startPosB, vehicleType);
            bool stopLane3 = BusTransportLineAI.GetStopLane(ref endPosA, vehicleType);
            bool stopLane4 = BusTransportLineAI.GetStopLane(ref endPosB, vehicleType);

            if ((!stopLane && !stopLane2) || (!stopLane3 && !stopLane4))
            {
                return(true);
            }
            uint path;
            bool createPathResult;
            CustomPathManager customPathManager = Singleton <PathManager> .instance as CustomPathManager;

            if (customPathManager != null)
            {
                createPathResult = customPathManager.CreatePath(out path, ref Singleton <SimulationManager> .instance.m_randomizer, Singleton <SimulationManager> .instance.m_currentBuildIndex, startPosA, startPosB, endPosA, endPosB, NetInfo.LaneType.Vehicle, vehicleType, 20000f, false, true, true, skipQueue, RoadManager.VehicleType.Bus);
            }
            else
            {
                createPathResult = Singleton <PathManager> .instance.CreatePath(out path, ref Singleton <SimulationManager> .instance.m_randomizer, Singleton <SimulationManager> .instance.m_currentBuildIndex, startPosA, startPosB, endPosA, endPosB, NetInfo.LaneType.Vehicle, vehicleType, 20000f, false, true, true, skipQueue);
            }
            if (createPathResult)
            {
                if (startPosA.m_segment != 0 && startPosB.m_segment != 0)
                {
                    NetNode[] expr_2D9_cp_0 = instance.m_nodes.m_buffer;
                    ushort    expr_2D9_cp_1 = data.m_startNode;
                    expr_2D9_cp_0[(int)expr_2D9_cp_1].m_flags = (expr_2D9_cp_0[(int)expr_2D9_cp_1].m_flags | NetNode.Flags.Ambiguous);
                }
                else
                {
                    NetNode[] expr_305_cp_0 = instance.m_nodes.m_buffer;
                    ushort    expr_305_cp_1 = data.m_startNode;
                    expr_305_cp_0[(int)expr_305_cp_1].m_flags = (expr_305_cp_0[(int)expr_305_cp_1].m_flags & ~NetNode.Flags.Ambiguous);
                }
                if (endPosA.m_segment != 0 && endPosB.m_segment != 0)
                {
                    NetNode[] expr_344_cp_0 = instance.m_nodes.m_buffer;
                    ushort    expr_344_cp_1 = data.m_endNode;
                    expr_344_cp_0[(int)expr_344_cp_1].m_flags = (expr_344_cp_0[(int)expr_344_cp_1].m_flags | NetNode.Flags.Ambiguous);
                }
                else
                {
                    NetNode[] expr_370_cp_0 = instance.m_nodes.m_buffer;
                    ushort    expr_370_cp_1 = data.m_endNode;
                    expr_370_cp_0[(int)expr_370_cp_1].m_flags = (expr_370_cp_0[(int)expr_370_cp_1].m_flags & ~NetNode.Flags.Ambiguous);
                }
                data.m_path   = path;
                data.m_flags |= NetSegment.Flags.WaitingPath;
                return(false);
            }
            return(true);
        }
Esempio n. 6
0
        // from TransportLine

        public static bool UpdateMeshData(ref TransportLine transportLine, ushort lineID)
        {
            //return transportLine.UpdateMeshData(lineID);
            bool             flag      = true;
            int              num       = 0;
            int              num2      = 0;
            int              num3      = 0;
            float            num4      = 0f;
            TransportManager instance  = Singleton <TransportManager> .instance;
            NetManager       instance2 = Singleton <NetManager> .instance;
            PathManager      instance3 = Singleton <PathManager> .instance;
            ushort           stops     = transportLine.m_stops;
            ushort           num5      = stops;
            int              num6      = 0;

            while (num5 != 0)
            {
                ushort num7 = 0;
                for (int i = 0; i < 8; i++)
                {
                    ushort segment = instance2.m_nodes.m_buffer[(int)num5].GetSegment(i);
                    if (segment != 0 && instance2.m_segments.m_buffer[(int)segment].m_startNode == num5)
                    {
                        uint path = instance2.m_segments.m_buffer[(int)segment].m_path;
                        if (path != 0u)
                        {
                            byte pathFindFlags = instance3.m_pathUnits.m_buffer[(int)((UIntPtr)path)].m_pathFindFlags;
                            if ((pathFindFlags & 4) != 0)
                            {
                                if (!TransportLine.CalculatePathSegmentCount(path, ref num2, ref num3, ref num4))
                                {
                                    TransportInfo info = transportLine.Info;
                                    BusTransportLineAI.StartPathFind(segment, ref instance2.m_segments.m_buffer[(int)segment], info.m_netService, info.m_vehicleType, (transportLine.m_flags & TransportLine.Flags.Temporary) != TransportLine.Flags.None);
                                    flag = false;
                                }
                            }
                            else if ((pathFindFlags & 8) == 0)
                            {
                                flag = false;
                            }
                        }
                        num7 = instance2.m_segments.m_buffer[(int)segment].m_endNode;
                        break;
                    }
                }
                num++;
                num2++;
                num5 = num7;
                if (num5 == stops)
                {
                    break;
                }
                if (!flag)
                {
                    break;
                }
                if (++num6 >= 32768)
                {
                    CODebugBase <LogChannel> .Error(LogChannel.Core, "Invalid list detected!\n" + Environment.StackTrace);

                    break;
                }
            }
            if (!flag)
            {
                return(flag);
            }
            RenderGroup.MeshData meshData = new RenderGroup.MeshData();
            meshData.m_vertices  = new Vector3[num2 * 8];
            meshData.m_normals   = new Vector3[num2 * 8];
            meshData.m_tangents  = new Vector4[num2 * 8];
            meshData.m_uvs       = new Vector2[num2 * 8];
            meshData.m_uvs1      = new Vector2[num2 * 8];
            meshData.m_colors    = new Color32[num2 * 8];
            meshData.m_triangles = new int[num2 * 30];
            TransportManager.LineSegment[] array = new TransportManager.LineSegment[num];
            Bezier3[] array2      = new Bezier3[num3];
            int       num8        = 0;
            int       num9        = 0;
            int       num10       = 0;
            float     lengthScale = Mathf.Ceil(num4 / 64f) / num4;
            float     num11       = 0f;

            num5 = stops;
            Vector3 vector  = new Vector3(100000f, 100000f, 100000f);
            Vector3 vector2 = new Vector3(-100000f, -100000f, -100000f);

            num6 = 0;
            while (num5 != 0)
            {
                ushort num12 = 0;
                for (int j = 0; j < 8; j++)
                {
                    ushort segment2 = instance2.m_nodes.m_buffer[(int)num5].GetSegment(j);
                    if (segment2 != 0 && instance2.m_segments.m_buffer[(int)segment2].m_startNode == num5)
                    {
                        uint path2 = instance2.m_segments.m_buffer[(int)segment2].m_path;
                        if (path2 != 0u && (instance3.m_pathUnits.m_buffer[(int)((UIntPtr)path2)].m_pathFindFlags & 4) != 0)
                        {
                            array[num8].m_curveStart = num10;
                            Vector3 vector3;
                            Vector3 vector4;
                            TransportLine.FillPathSegments(path2, meshData, array2, ref num9, ref num10, ref num11, lengthScale, out vector3, out vector4);
                            vector  = Vector3.Min(vector, vector3);
                            vector2 = Vector3.Max(vector2, vector4);
                            array[num8].m_bounds.SetMinMax(vector3, vector4);
                            array[num8].m_curveEnd = num10;
                        }
                        num12 = instance2.m_segments.m_buffer[(int)segment2].m_endNode;
                        break;
                    }
                }
                TransportLine.FillPathNode(instance2.m_nodes.m_buffer[(int)num5].m_position, meshData, num9);
                num8++;
                num9++;
                num5 = num12;
                if (num5 == stops)
                {
                    break;
                }
                if (++num6 >= 32768)
                {
                    CODebugBase <LogChannel> .Error(LogChannel.Core, "Invalid list detected!\n" + Environment.StackTrace);

                    break;
                }
            }
            while (!Monitor.TryEnter(instance.m_lineMeshData, SimulationManager.SYNCHRONIZE_TIMEOUT))
            {
            }
            try
            {
                instance.m_lineMeshData[(int)lineID] = meshData;
                instance.m_lineSegments[(int)lineID] = array;
                instance.m_lineCurves[(int)lineID]   = array2;
                transportLine.m_bounds.SetMinMax(vector, vector2);
            }
            finally
            {
                Monitor.Exit(instance.m_lineMeshData);
            }

            return(flag);
        }
Esempio n. 7
0
        protected override void SimulationStepImpl(int subStep)
        {
            if (this.m_linesUpdated)
            {
                this.m_linesUpdated = false;
                int num = this.m_updatedLines.Length;
                for (int i = 0; i < num; i++)
                {
                    ulong num2 = this.m_updatedLines[i];
                    if (num2 != 0uL)
                    {
                        for (int j = 0; j < 64; j++)
                        {
                            if ((num2 & 1uL << j) != 0uL)
                            {
                                ushort num3 = (ushort)(i << 6 | j);
                                if (this.m_lines.m_buffer[(int)num3].m_flags != TransportLine.Flags.None)
                                {
                                    if (BusTransportLineAI.UpdatePaths(ref this.m_lines.m_buffer[(int)num3], num3) && BusTransportLineAI.UpdateMeshData(ref this.m_lines.m_buffer[(int)num3], num3))
                                    //if (this.m_lines.m_buffer[(int)num3].UpdatePaths(num3) && this.m_lines.m_buffer[(int)num3].UpdateMeshData(num3))
                                    {
                                        num2 &= ~(1uL << j);
                                    }
                                }
                                else
                                {
                                    num2 &= ~(1uL << j);
                                }
                            }
                        }
                        this.m_updatedLines[i] = num2;
                        if (num2 != 0uL)
                        {
                            this.m_linesUpdated = true;
                        }
                    }
                }
            }
            if (this.m_patchesDirty)
            {
                this.m_patchesDirty = false;
                int num4 = this.m_patches.Length;
                for (int k = 0; k < num4; k++)
                {
                    TransportPatch transportPatch = this.m_patches[k];
                    int            num5           = 0;
                    while (transportPatch != null)
                    {
                        if (transportPatch.m_isDirty)
                        {
                            transportPatch.UpdateMeshData();
                        }
                        transportPatch = transportPatch.m_nextPatch;
                        if (++num5 >= 100)
                        {
                            CODebugBase <LogChannel> .Error(LogChannel.Core, "Invalid list detected!\n" + Environment.StackTrace);

                            break;
                        }
                    }
                }
            }
            if (subStep != 0)
            {
                int num6 = (int)(Singleton <SimulationManager> .instance.m_currentFrameIndex & 255u);
                int num7 = num6 * 1;
                int num8 = (num6 + 1) * 1 - 1;
                for (int l = num7; l <= num8; l++)
                {
                    TransportLine.Flags flags = this.m_lines.m_buffer[l].m_flags;
                    if ((flags & (TransportLine.Flags.Created | TransportLine.Flags.Temporary)) == TransportLine.Flags.Created)
                    {
                        this.m_lines.m_buffer[l].SimulationStep((ushort)l);
                    }
                }
                if ((Singleton <SimulationManager> .instance.m_currentFrameIndex & 4095u) == 0u)
                {
                    StatisticsManager instance      = Singleton <StatisticsManager> .instance;
                    StatisticBase     statisticBase = instance.Acquire <StatisticArray>(StatisticType.AveragePassengers);
                    for (int m = 0; m < 5; m++)
                    {
                        this.m_passengers[m].Update();
                        this.m_passengers[m].Reset();
                        statisticBase.Acquire <StatisticInt32>(m, 5).Set((int)(this.m_passengers[m].m_residentPassengers.m_averageCount + this.m_passengers[m].m_touristPassengers.m_averageCount));
                    }
                }
            }
            if (subStep <= 1)
            {
                int num9  = (int)(Singleton <SimulationManager> .instance.m_currentTickIndex & 1023u);
                int num10 = num9 * PrefabCollection <TransportInfo> .PrefabCount() >> 10;

                int num11 = ((num9 + 1) * PrefabCollection <TransportInfo> .PrefabCount() >> 10) - 1;
                for (int n = num10; n <= num11; n++)
                {
                    TransportInfo prefab = PrefabCollection <TransportInfo> .GetPrefab((uint)n);

                    if (prefab != null)
                    {
                        MilestoneInfo unlockMilestone = prefab.m_UnlockMilestone;
                        if (unlockMilestone != null)
                        {
                            Singleton <UnlockManager> .instance.CheckMilestone(unlockMilestone, false, false);
                        }
                    }
                }
            }
        }
Esempio n. 8
0
        /*
         * In here I'm changing the prefabs to have my classes. This way, every time the game instantiates
         * a prefab that I've changed, that object will run my code.
         * The prefabs aren't available at the moment of creation of this class, that's why I keep trying to
         * run it on update. I want to make sure I make the switch as soon as they exist to prevent the game
         * from instantianting objects without my code.
         */
        void TryReplacePrefabs()
        {
            NetCollection       beautificationNetCollection        = null;
            NetCollection       roadsNetCollection                 = null;
            NetCollection       publicTansportNetCollection        = null;
            VehicleCollection   garbageVehicleCollection           = null;
            VehicleCollection   policeVehicleCollection            = null;
            VehicleCollection   publicTansportVehicleCollection    = null;
            VehicleCollection   healthCareVehicleCollection        = null;
            VehicleCollection   fireDepartmentVehicleCollection    = null;
            VehicleCollection   industrialVehicleCollection        = null;
            TransportCollection publicTransportTransportCollection = null;
            ToolController      toolController = null;

            try
            {
                // NetCollections
                beautificationNetCollection = TryGetComponent <NetCollection>("Beautification");
                if (beautificationNetCollection == null)
                {
                    return;
                }

                roadsNetCollection = TryGetComponent <NetCollection>("Road");
                if (roadsNetCollection == null)
                {
                    return;
                }

                publicTansportNetCollection = TryGetComponent <NetCollection>("Public Transport");
                if (publicTansportNetCollection == null)
                {
                    return;
                }

                // VehicleCollections
                garbageVehicleCollection = TryGetComponent <VehicleCollection>("Garbage");
                if (garbageVehicleCollection == null)
                {
                    return;
                }

                policeVehicleCollection = TryGetComponent <VehicleCollection>("Police Department");
                if (policeVehicleCollection == null)
                {
                    return;
                }

                publicTansportVehicleCollection = TryGetComponent <VehicleCollection>("Public Transport");
                if (publicTansportVehicleCollection == null)
                {
                    return;
                }

                healthCareVehicleCollection = TryGetComponent <VehicleCollection>("Health Care");
                if (healthCareVehicleCollection == null)
                {
                    return;
                }

                fireDepartmentVehicleCollection = TryGetComponent <VehicleCollection>("Fire Department");
                if (fireDepartmentVehicleCollection == null)
                {
                    return;
                }

                industrialVehicleCollection = TryGetComponent <VehicleCollection>("Industrial");
                if (industrialVehicleCollection == null)
                {
                    return;
                }

                // Transports
                publicTransportTransportCollection = TryGetComponent <TransportCollection>("Public Transport");
                if (publicTransportTransportCollection == null)
                {
                    return;
                }

                // Tools
                toolController = TryGetComponent <ToolController>("Tool Controller");
                if (toolController == null)
                {
                    return;
                }
            }
            catch (Exception e)
            {
                Debug.Log("Traffic++: Unexpected " + e.GetType().Name + " getting required components: " + e.Message + "\n" + e.StackTrace + "\n");
                return;
            }

            Debug.Log("Traffic++: Queueing prefabs for loading...");

            Singleton <LoadingManager> .instance.QueueLoadingAction(ActionWrapper(() =>
            {
                try
                {
                    // roads
                    ZonablePedestrianPathAI.Initialize(beautificationNetCollection, transform);
                    ZonablePedestrianBridgeAI.Initialize(beautificationNetCollection, transform);
                    LargeRoadWithBusLanesAI.Initialize(roadsNetCollection, transform);
                    LargeRoadWithBusLanesBridgeAI.Initialize(roadsNetCollection, transform);

                    if ((CSLTraffic.Options & OptionsManager.ModOptions.GhostMode) != OptionsManager.ModOptions.GhostMode)
                    {
                        // Transports
                        BusTransportLineAI.Initialize(publicTansportNetCollection, publicTansportVehicleCollection, publicTransportTransportCollection, transform);

                        // vehicles
                        CustomAmbulanceAI.Initialize(healthCareVehicleCollection, transform);
                        CustomBusAI.Initialize(publicTansportVehicleCollection, transform);
                        CustomCargoTruckAI.Initialize(industrialVehicleCollection, transform);
                        CustomFireTruckAI.Initialize(fireDepartmentVehicleCollection, transform);
                        CustomGarbageTruckAI.Initialize(garbageVehicleCollection, transform);
                        CustomHearseAI.Initialize(healthCareVehicleCollection, transform);
                        CustomPoliceCarAI.Initialize(policeVehicleCollection, transform);

                        //Tools
                        CustomTransportTool.Initialize(toolController);
                    }

                    // Localization
                    UpdateLocalization();

                    AddQueuedActionsToLoadingQueue();
                }
                catch (KeyNotFoundException knf)
                {
                    Debug.Log("Traffic++: Error initializing a prefab: " + knf.Message + "\n" + knf.StackTrace + "\n");
                }
                catch (Exception e)
                {
                    Debug.Log("Traffic++: Unexpected " + e.GetType().Name + " initializing prefabs: " + e.Message + "\n" + e.StackTrace + "\n");
                }
            }));

            m_initialized = true;

            Debug.Log("Traffic++: Prefabs queued for loading.");
        }