public static new 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))
{
CustomTransportLineAI.CheckSegmentProblems(segmentID, ref data);
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))
{
CustomTransportLineAI.CheckSegmentProblems(segmentID, ref data);
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 = CustomTransportLineAI.GetStopLane(ref startPosA, vehicleType);
bool stopLane2 = CustomTransportLineAI.GetStopLane(ref startPosB, vehicleType);
bool stopLane3 = CustomTransportLineAI.GetStopLane(ref endPosA, vehicleType);
bool stopLane4 = CustomTransportLineAI.GetStopLane(ref endPosB, vehicleType);
if ((!stopLane && !stopLane2) || (!stopLane3 && !stopLane4))
{
CustomTransportLineAI.CheckSegmentProblems(segmentID, ref data);
return(true);
}
uint path;
bool createPathResult = Singleton <PathManager> .instance.CreatePath(ExtendedVehicleType.Bus | ExtendedVehicleType.Tram, out path, ref Singleton <SimulationManager> .instance.m_randomizer, Singleton <SimulationManager> .instance.m_currentBuildIndex, startPosA, startPosB, endPosA, endPosB, NetInfo.LaneType.Vehicle | NetInfo.LaneType.TransportVehicle, 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);
}
CustomTransportLineAI.CheckSegmentProblems(segmentID, ref data);
return(true);
}
public static new bool UpdatePath(ushort segmentID, ref NetSegment data, ItemClass.Service netService, VehicleInfo.VehicleType vehicleType, bool skipQueue)
{
if (data.m_path == 0u)
{
return(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))
{
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;
data.m_flags |= NetSegment.Flags.PathLength;
CustomTransportLineAI.CheckSegmentProblems(segmentID, ref data);
return(true);
}
if ((pathFindFlags & 8) != 0)
{
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;
float num = Vector3.Distance(position, position2);
if (num != data.m_averageLength)
{
data.m_averageLength = num;
ushort transportLine2 = instance2.m_nodes.m_buffer[(int)data.m_startNode].m_transportLine;
if (transportLine2 != 0)
{
Singleton <TransportManager> .instance.UpdateLine(transportLine2);
}
}
data.m_flags &= ~NetSegment.Flags.WaitingPath;
data.m_flags |= NetSegment.Flags.PathFailed;
data.m_flags |= NetSegment.Flags.PathLength;
CustomTransportLineAI.CheckSegmentProblems(segmentID, ref data);
return(true);
}
return(false);
}
