|
public static Serialize ( ISerializableData serializableData, string dataID, |
||
| serializableData | ISerializableData | |
| dataID | string | |
| config | ||
| return | void | |
public void OnSaveData()
{
FastList <byte> data = new FastList <byte>();
// Debug.Log("OnSaveData() 1");
GenerateUniqueID();
byte[] uniqueIdBytes = BitConverter.GetBytes(uniqueID);
foreach (byte uniqueIdByte in uniqueIdBytes)
{
data.Add(uniqueIdByte);
}
// Debug.Log("OnSaveData() 2");
byte[] dataToSave = data.ToArray();
SerializableData.SaveData(dataID, dataToSave);
// Debug.Log("OnSaveData() 3");
var filepath = Path.Combine(Application.dataPath, "trafficManagerSave_" + uniqueID + ".xml");
// Debug.Log("OnSaveData()");
var configuration = new Configuration();
// Debug.Log("OnSaveData() 4");
configuration.laneFlags = "";
configuration.nodeCrosswalk = "";
configuration.nodeTrafficLights = "";
for (var i = 0; i < 32768; i++)
{
if (TrafficPriority.prioritySegments.ContainsKey(i))
{
if (TrafficPriority.prioritySegments[i].node_1 != 0)
{
configuration.prioritySegments.Add(new int[3] {
TrafficPriority.prioritySegments[i].node_1,
i,
(int)TrafficPriority.prioritySegments[i].instance_1.type
});
}
//Debug.Log("OnSaveData() 5");
if (TrafficPriority.prioritySegments[i].node_2 != 0)
{
configuration.prioritySegments.Add(new int[3] {
TrafficPriority.prioritySegments[i].node_2,
i,
(int)TrafficPriority.prioritySegments[i].instance_2.type
});
}
}
//Debug.Log("OnSaveData() 6");
if (CustomRoadAI.nodeDictionary.ContainsKey((ushort)i))
{
var nodeDict = CustomRoadAI.nodeDictionary[(ushort)i];
configuration.nodeDictionary.Add(new int[4] {
nodeDict.NodeId,
Convert.ToInt32(nodeDict._manualTrafficLights),
Convert.ToInt32(nodeDict._timedTrafficLights),
Convert.ToInt32(nodeDict.TimedTrafficLightsActive)
});
}
// Debug.Log("OnSaveData() 7");
if (TrafficLightsManual.ManualSegments.ContainsKey(i))
{
if (TrafficLightsManual.ManualSegments[i].node_1 != 0)
{
var manualSegment = TrafficLightsManual.ManualSegments[i].instance_1;
configuration.manualSegments.Add(new int[10] {
(int)manualSegment.node,
manualSegment.segment,
(int)manualSegment.currentMode,
(int)manualSegment.lightLeft,
(int)manualSegment.lightMain,
(int)manualSegment.lightRight,
(int)manualSegment.lightPedestrian,
(int)manualSegment.lastChange,
(int)manualSegment.lastChangeFrame,
Convert.ToInt32(manualSegment.pedestrianEnabled)
});
}
//Debug.Log("OnSaveData() 8");
if (TrafficLightsManual.ManualSegments[i].node_2 != 0)
{
var manualSegment = TrafficLightsManual.ManualSegments[i].instance_2;
//Debug.Log("OnSaveData() 9");
configuration.manualSegments.Add(new int[10] {
(int)manualSegment.node,
manualSegment.segment,
(int)manualSegment.currentMode,
(int)manualSegment.lightLeft,
(int)manualSegment.lightMain,
(int)manualSegment.lightRight,
(int)manualSegment.lightPedestrian,
(int)manualSegment.lastChange,
(int)manualSegment.lastChangeFrame,
Convert.ToInt32(manualSegment.pedestrianEnabled)
});
}
}
// Debug.Log("OnSaveData() 10");
if (TrafficLightsTimed.timedScripts.ContainsKey((ushort)i))
{
var timedNode = TrafficLightsTimed.GetTimedLight((ushort)i);
configuration.timedNodes.Add(new int[4] {
timedNode.nodeID,
timedNode.currentStep,
timedNode.NumSteps(),
Convert.ToInt32(timedNode.isStarted())
});
var nodeGroup = new ushort[timedNode.nodeGroup.Count];
for (var j = 0; j < timedNode.nodeGroup.Count; j++)
{
nodeGroup[j] = timedNode.nodeGroup[j];
}
configuration.timedNodeGroups.Add(nodeGroup);
for (var j = 0; j < timedNode.NumSteps(); j++)
{
configuration.timedNodeSteps.Add(new int[2] {
timedNode.steps[j].numSteps,
timedNode.steps[j].segments.Count
});
for (var k = 0; k < timedNode.steps[j].segments.Count; k++)
{
configuration.timedNodeStepSegments.Add(new int[4] {
(int)timedNode.steps[j].lightLeft[k],
(int)timedNode.steps[j].lightMain[k],
(int)timedNode.steps[j].lightRight[k],
(int)timedNode.steps[j].lightPedestrian[k],
});
}
}
}
}
//Debug.Log("OnSaveData() 11");
for (var i = 0; i < Singleton <NetManager> .instance.m_nodes.m_buffer.Length; i++)
{
var nodeFlags = Singleton <NetManager> .instance.m_nodes.m_buffer[i].m_flags;
if (nodeFlags != 0)
{
if (Singleton <NetManager> .instance.m_nodes.m_buffer[i].Info.m_class.m_service ==
ItemClass.Service.Road)
{
configuration.nodeTrafficLights +=
Convert.ToInt16((nodeFlags & NetNode.Flags.TrafficLights) != NetNode.Flags.None);
configuration.nodeCrosswalk +=
Convert.ToInt16((nodeFlags & NetNode.Flags.Junction) != NetNode.Flags.None);
}
}
}
//Debug.Log("OnSaveData() 12");
var laneCount = 0;
for (var i = 0; i < Singleton <NetManager> .instance.m_lanes.m_buffer.Length; i++)
{
var laneSegment = Singleton <NetManager> .instance.m_lanes.m_buffer[i].m_segment;
if (TrafficPriority.prioritySegments.ContainsKey(laneSegment))
{
configuration.laneFlags += i + ":" + Singleton <NetManager> .instance.m_lanes.m_buffer[i].m_flags + ",";
laneCount++;
}
}
if (configuration.laneFlags != null && configuration.laneFlags.Length > 0)
{
configuration.laneFlags = configuration.laneFlags.TrimEnd(',');
}
configuration.aiConfig.congestionCostFactor = CustomPathFind.congestionCostFactor;
configuration.aiConfig.minLaneSpace = CustomPathFind.minLaneSpace;
configuration.aiConfig.lookaheadLanes = CustomPathFind.lookaheadLanes;
configuration.aiConfig.congestedLaneThreshold = CustomPathFind.congestedLaneThreshold;
configuration.aiConfig.obeyTMLaneFlags = CustomPathFind.obeyTMLaneFlags;
for (var i = 0; i < CSL_Traffic.RoadManager.sm_lanes.Length; i++)
{
var lane = CSL_Traffic.RoadManager.sm_lanes[i];
if (lane != null && lane.ConnectionCount() > 0)
{
configuration.laneMarkers.Add(lane);
}
}
Configuration.Serialize(filepath, configuration);
}
