internal static void ProcessAI(Object obj) { // Get the game speed int loopPause = (int)obj; if (loopPause == 0) { loopPause = 500; } Events.World.TimedEventManager.Initialize(); Events.World.TimedEventManager.LoadBasicEvents(Core.GetTickCount()); // The variables used in the loop TickCount tickCount = null; TickCount lastSpawn = Core.GetTickCount(); TickCount lastConnectionCheck = Core.GetTickCount(); Debug.InfiniteLoopDetector loopDetector = new Debug.InfiniteLoopDetector("AIProcessor"); mapGC = new MapGC(); System.Threading.Thread mapGCThread = new Thread(mapGC.Cleanup); // Start the map garbage collection thread mapGCThread.Start(); Events.World.MapGCTimedEvent mapGCTimedEvent = new Events.World.MapGCTimedEvent("MapGC", mapGC); mapGCTimedEvent.SetInterval(Core.GetTickCount(), 1 * 60 * 1000); Events.World.TimedEventManager.TimedEvents.Add(mapGCTimedEvent); do { try { if (tickCount != null) { int timePassed = Core.GetTickCount().Tick - tickCount.Tick; if (timePassed < loopPause) { loopDetector.IncrementLoopCount(); } } tickCount = Core.GetTickCount(); // Copy all active map references to a local list to prevent modification during processing IMap[] activeMaps = MapManager.ToArray(); // Now that we have a list of all active maps, lets process the AI on each one //Parallel.ForEach(activeMaps, map => //{ foreach (IMap map in activeMaps) { MapAIProcessingTask aiProcessingTask = new MapAIProcessingTask(map); aiProcessingTask.ProcessAIThreadPoolCallback(null); //ThreadPool.QueueUserWorkItem(new WaitCallback(aiProcessingTask.ProcessAIThreadPoolCallback)); } //} //); Events.World.TimedEventManager.Process(tickCount); // Pauses the loop for the time specified System.Threading.Thread.Sleep(loopPause); } catch (Exception ex) { Server.Exceptions.ErrorLogger.WriteToErrorLog(ex, "AIProcessor"); } } while (true); }
public MapGCTimedEvent(string id, MapGC mapGC) { this.id = id; this.mapGC = mapGC; }