using System; using System.Collections.Generic; using System.IO; using System.Linq; using System.Threading.Tasks; using System.Windows.Media; using System.Xml; using Aitex.Common.Util; using Aitex.Core.Common; using Aitex.Core.RT.DataCenter; using Aitex.Core.RT.Device; using Aitex.Core.RT.Event; using Aitex.Core.RT.Fsm; using Aitex.Core.RT.Log; using Aitex.Core.RT.OperationCenter; using Aitex.Core.RT.RecipeCenter; using Aitex.Core.RT.Routine; using Aitex.Core.RT.SCCore; using Aitex.Core.Util; using Aitex.Core.Utilities; using FurnaceRT.Devices; using FurnaceRT.Equipments.CarrierRobots; using FurnaceRT.Equipments.FIMSs; using FurnaceRT.Equipments.Jobs; using FurnaceRT.Equipments.LPs; using FurnaceRT.Equipments.PMs; using FurnaceRT.Equipments.PMs.RecipeExecutions; using FurnaceRT.Equipments.Schedulers; using FurnaceRT.Equipments.Stockers; using FurnaceRT.Equipments.WaferRobots; using FurnaceRT.Instances; using MECF.Framework.Common.Alarms; using MECF.Framework.Common.DataCenter; using MECF.Framework.Common.Device.Bases; using MECF.Framework.Common.Equipment; using MECF.Framework.Common.Jobs; using MECF.Framework.Common.SCCore; using MECF.Framework.Common.SubstrateTrackings; using MECF.Framework.FA.Core.FAControl; using MECF.Framework.RT.Core.Applications; using MECF.Framework.RT.Core.IoProviders; using MECF.Framework.RT.EquipmentLibrary.HardwareUnits.PMs; using AutoTransfer = FurnaceRT.Equipments.Jobs.AutoTransfer; using ReturnAllWafer = FurnaceRT.Equipments.Jobs.ReturnAllWafer; namespace FurnaceRT.Equipments.Systems { public enum RtState { Init, Initializing, Idle, Transfer, AutoRunning, AutoIdle, ReturnAllWafer, Error, Loading, Unloading, ChargeProcessDischarging, LoadProcessStockering, LoadProcessUnloading, ReturnWafer, } public enum TransferJobState { Idle, Error, Loading, Unloading, } public enum ProcessJobState { Idle, Error, Charging, Processing, Cooling, Discharging, } public partial class EquipmentManager : FsmDevice { public enum MSG { MoveWafer, ReturnAllWafer, Stop, HOME, RESET, ABORT, ERROR, ToInit, SetAutoMode, SetManualMode, FAJobCommand, CreateJob, PauseJob, ResumeJob, StartJob, StopJob, AbortJob, JobAutoStart, JobDone, ModuleError, Map, Load, Unload, ChargeProcessDischarge, LoadProcessStocker, LoadProcessUnload, CancelUnloadingJob, ToUnloading, ToLoading, CreateTransferJob, AbortTransferJob, } public Dictionary Modules { get; set; } public bool IsAutoMode { get { return FsmState == (int)RtState.AutoRunning || FsmState == (int)RtState.AutoIdle; } } public bool IsReturnWafer { get { return FsmState == (int)RtState.ReturnAllWafer || FsmState == (int)RtState.ReturnWafer; } } public bool IsInit { get { return FsmState == (int)RtState.Init; } } public bool IsIdle { get { return FsmState == (int)RtState.Idle; } } public bool IsAlarm { get { return FsmState == (int)RtState.Error; } } public bool IsRunning { get { return !IsAlarm && !IsIdle && !IsInit && (FsmState != (int)RtState.AutoIdle); } } public bool IsReturnWaferMode { get { return FsmState == (int)RtState.ReturnAllWafer || FsmState == (int)RtState.ReturnWafer; } } public bool IsAlarmConditionBuzzerOn { get; set; } public TransferJobState TransferJobStatus { get; set; } = TransferJobState.Idle; public ProcessJobState ProcessJobStatus { get; set; } = ProcessJobState.Idle; public object JsonConvert { get; private set; } private bool _isInited; protected IRoutine _manualTransfer; private AutoTransfer _auto = null; private TransferJob _transferJob = null; protected IRoutine _homeAll; protected IRoutine _returnAll; private string _batchType; private string _processJob; private string _processRecipe; private DeviceTimer _coolTimer = new DeviceTimer(); private int _cycledCount = 0; private int _jobMSG = 0; private object[] _jobParas; private object _locker = new object(); private List _modules; private PeriodicJob _cycleJob; private RD_TRIG _plcConnectTrig = new RD_TRIG(); public List StockerNameForFATJob = new List(); public EquipmentManager() { Module = "System"; Name = "System"; Modules = new Dictionary(); _modules = new List() { "System" }; } public override bool Initialize() { InitDevices(); InitModules(); EnumLoop.ForEach((item) => { MapState((int)item, item.ToString()); }); EnumLoop.ForEach((item) => { MapMessage((int)item, item.ToString()); }); EnableFsm(50, RtState.Init); BuildTransitionTable(); SubscribeDataVariable(); SubscribeOperation(); InitRoutine(); InitAlarmDefine(); _auto = new AutoTransfer(); _transferJob = new TransferJob(); _cycleJob = new PeriodicJob(100, OnCycleTimer, Name, true); Singleton.Instance.OnAlarmEvent += Instance_OnAlarmEvent; return true; } protected void BuildModules(params ModuleFsmDevice[] modules) { if (modules != null && modules.Length > 0) { foreach (var moduleFsmDevice in modules) { Modules[ModuleHelper.Converter(moduleFsmDevice.Module)] = moduleFsmDevice; } foreach (var modulesKey in Modules.Keys) { _modules.Add(modulesKey.ToString()); } foreach (var modulesValue in Modules.Values) { modulesValue.Initialize(); } } } protected virtual void InitRoutine() { _homeAll = new HomeAll(); _returnAll = new ReturnAllWafer(); _dbCallback = new SchedulerDBCallback(); } //private PeriodicJob _job1; //Stopwatch _sw = new Stopwatch(); //private bool OnJob1() //{ // _sw.Restart(); // BufferModule buffer = Modules[ModuleName.Buffer] as BufferModule; // if (!buffer.CheckToPostMessage(BufferModule.MSG.InTransfer)) // { // System.Diagnostics.Trace.Assert(false) // System.Diagnostics.Trace.WriteLine("fail to in transfer"); // } // if (buffer.IsIdle) // { // System.Diagnostics.Trace.Assert(false); // System.Diagnostics.Trace.WriteLine("!!!==========>IsIdle"); // } // //System.Diagnostics.Trace.Assert(buffer.IsIdle, $"in {buffer.StringFsmStatus}"); // while (buffer.IsIdle) // { // Thread.Sleep(5); // } // //buffer.NoteTransferStop(ModuleName.EfemRobot, Hand.Blade1, 0, EnumTransferType.Place); // //Thread.Sleep(15); // if (!buffer.CheckToPostMessage(BufferModule.MSG.TransferComplete)) // { // System.Diagnostics.Trace.Assert(false); // System.Diagnostics.Trace.WriteLine("fail to complete"); // } // //if (!buffer.IsIdle) // //{ // // System.Diagnostics.Trace.WriteLine("not idle"); // //} // System.Diagnostics.Trace.WriteLine($" === {_sw.ElapsedMilliseconds}"); // while (!buffer.IsIdle) // { // Thread.Sleep(5); // } // return true; //} private void BuildTransitionTable() { //Init sequence Transition(RtState.Init, MSG.HOME, FsmStartHome, RtState.Initializing); Transition(RtState.Idle, MSG.HOME, FsmStartHome, RtState.Initializing); Transition(RtState.Error, MSG.HOME, FsmStartHome, RtState.Initializing); Transition(RtState.Error, MSG.ToInit, null, RtState.Init); Transition(RtState.Initializing, FSM_MSG.TIMER, FsmMonitorHome, RtState.Idle); Transition(RtState.Initializing, MSG.ERROR, fError, RtState.Error); Transition(RtState.Initializing, MSG.ABORT, FsmAbort, RtState.Init); //Reset AnyStateTransition(MSG.ERROR, fError, RtState.Error); AnyStateTransition((int)FSM_MSG.ALARM, fError, (int)RtState.Error); Transition(RtState.Error, MSG.RESET, fStartReset, RtState.Idle); Transition(RtState.Init, MSG.RESET, fStartReset, RtState.Init); Transition(RtState.Idle, MSG.RESET, fStartReset, RtState.Idle); Transition(RtState.AutoIdle, MSG.RESET, fStartReset, RtState.AutoIdle); Transition(RtState.AutoRunning, MSG.RESET, fStartReset, RtState.AutoRunning); Transition(RtState.ReturnWafer, MSG.RESET, fStartReset, RtState.ReturnWafer); //Auto/manual sequence Transition(RtState.Idle, MSG.SetAutoMode, fStartAutoTransfer, RtState.AutoIdle); Transition(RtState.AutoRunning, FSM_MSG.TIMER, fAutoTransfer, RtState.AutoRunning); Transition(RtState.AutoRunning, MSG.JobAutoStart, FsmJobAutoStart, RtState.Idle); Transition(RtState.AutoRunning, MSG.ABORT, FsmAbort, RtState.Idle); Transition(RtState.AutoRunning, MSG.JobDone, null, RtState.AutoIdle); Transition(RtState.Idle, MSG.CreateJob, FsmCreateJob, RtState.AutoRunning); Transition(RtState.Idle, MSG.LoadProcessUnload, FsmStartLoadProcessUnload, RtState.AutoRunning); Transition(RtState.Idle, MSG.LoadProcessStocker, FsmStartLoadProcessStocker, RtState.AutoRunning); Transition(RtState.AutoRunning, MSG.FAJobCommand, FsmFAJobCommand, RtState.AutoRunning); Transition(RtState.AutoRunning, MSG.CreateJob, FsmCreateJob, RtState.AutoRunning); Transition(RtState.AutoRunning, MSG.StartJob, FsmStartJob, RtState.AutoRunning); Transition(RtState.AutoRunning, MSG.PauseJob, FsmPauseJob, RtState.AutoRunning); Transition(RtState.AutoRunning, MSG.ResumeJob, FsmResumeJob, RtState.AutoRunning); Transition(RtState.AutoRunning, MSG.StopJob, FsmStopJob, RtState.AutoRunning); Transition(RtState.AutoRunning, MSG.AbortJob, FsmAbortJob, RtState.AutoRunning); Transition(RtState.AutoRunning, MSG.ModuleError, FsmModuleError, RtState.AutoRunning); Transition(RtState.AutoRunning, MSG.Load, FsmStartLoad, RtState.AutoRunning); Transition(RtState.AutoRunning, MSG.Unload, FsmStartUnload, RtState.AutoRunning); Transition(RtState.Idle, MSG.CreateTransferJob, FsmCreateTransferJob, RtState.AutoRunning); Transition(RtState.AutoRunning, MSG.CreateTransferJob, FsmCreateTransferJob, RtState.AutoRunning); Transition(RtState.AutoRunning, MSG.AbortTransferJob, FsmAbortTransferJob, RtState.AutoRunning); Transition(RtState.AutoRunning, MSG.CancelUnloadingJob, FsmCancelUnloadingJob, RtState.AutoRunning); Transition(RtState.AutoRunning, MSG.LoadProcessUnload, FsmStartLoadProcessUnload, RtState.AutoRunning); Transition(RtState.AutoRunning, MSG.LoadProcessStocker, FsmStartLoadProcessStocker, RtState.AutoRunning); Transition(RtState.AutoIdle, MSG.FAJobCommand, FsmFAJobCommand, RtState.AutoRunning); Transition(RtState.AutoIdle, FSM_MSG.TIMER, FsmMonitorAutoIdle, RtState.AutoIdle); Transition(RtState.AutoIdle, MSG.SetManualMode, FsmStartSetManualMode, RtState.Idle); Transition(RtState.AutoIdle, MSG.CreateJob, FsmCreateJob, RtState.AutoRunning); Transition(RtState.AutoIdle, MSG.StartJob, FsmStartJob, RtState.AutoRunning); Transition(RtState.AutoIdle, MSG.ABORT, FsmAbort, RtState.Idle); Transition(RtState.AutoIdle, MSG.AbortJob, FsmAbortJob, RtState.AutoIdle); Transition(RtState.AutoIdle, MSG.Load, FsmStartLoad, RtState.AutoIdle); Transition(RtState.AutoIdle, MSG.Unload, FsmStartUnload, RtState.AutoIdle); Transition(RtState.AutoIdle, MSG.CreateTransferJob, FsmCreateTransferJob, RtState.AutoRunning); Transition(RtState.AutoIdle, MSG.AbortTransferJob, FsmAbortTransferJob, RtState.AutoIdle); Transition(RtState.AutoIdle, MSG.LoadProcessUnload, FsmStartLoadProcessUnload, RtState.AutoRunning); Transition(RtState.AutoIdle, MSG.LoadProcessStocker, FsmStartLoadProcessStocker, RtState.AutoRunning); EnterExitTransition(RtState.AutoRunning, null, FSM_MSG.NONE, fExitAutoTransfer); //return all wafer //Transition(RtState.Idle, MSG.ReturnAllWafer, FsmStartReturnAllWafer, RtState.ReturnAllWafer); //Transition(RtState.ReturnAllWafer, FSM_MSG.TIMER, FsmMonitorReturnAllWafer, RtState.Idle); //Transition(RtState.ReturnAllWafer, MSG.ABORT, FsmAbortReturnAllWafer, RtState.Idle); //Return wafer Transition(RtState.Idle, MSG.ReturnAllWafer, FsmStartReturnWafer, RtState.ReturnWafer); Transition(RtState.AutoIdle, MSG.ReturnAllWafer, FsmStartReturnWafer, RtState.ReturnWafer); Transition(RtState.ReturnWafer, FSM_MSG.TIMER, FsmMonitorReturnWafer, RtState.Idle); Transition(RtState.ReturnWafer, MSG.ABORT, FsmAbort, RtState.Idle); //Transfer sequence Transition(RtState.Idle, MSG.MoveWafer, fStartTransfer, RtState.Transfer); Transition(RtState.Transfer, FSM_MSG.TIMER, fTransfer, RtState.Idle); EnterExitTransition(RtState.Transfer, null, FSM_MSG.NONE, fExitTransfer); Transition(RtState.Transfer, MSG.ABORT, FsmAbort, RtState.Idle); } void SubscribeDataVariable() { DATA.Subscribe("System.FFUKeyDict", () => GetFFUKeyDict(), SubscriptionAttribute.FLAG.IgnoreSaveDB); DATA.Subscribe("Rt.Status", () => StringFsmStatus); DATA.Subscribe("System.IsInitialized", () => _isInited); DATA.Subscribe("System.IsIdle", () => IsIdle || IsInit || (FsmState == (int)RtState.AutoIdle)); DATA.Subscribe("System.IsAlarm", () => IsAlarm); DATA.Subscribe("System.IsBusy", () => IsRunning); DATA.Subscribe("System.IsAutoRunning", () => IsRunning); DATA.Subscribe("System.IsAlarmConditionBuzzerOn", () => IsAlarmConditionBuzzerOn); DATA.Subscribe("System.Modules", () => _modules); } List GetFFUKeyDict() { List result = null; if (SC.GetStringValue("System.SetUp.ToolType") != "ELK") return null; GetXmlElement("DeviceModelPM", ref result); return result; } public void GetXmlElement(string fileName, ref List result, bool isSystem = false) { result = new List(); XmlDocument xmlDoc = new XmlDocument(); var cfDirPath = PathManager.GetCfgDir(); var path = cfDirPath + $"IO\\{SC.GetStringValue("System.SetUp.ToolType")}\\{fileName}.xml"; if (!File.Exists(path)) return; xmlDoc.Load(path); XmlNode node = xmlDoc.SelectSingleNode("DeviceModelDefine"); foreach (XmlNode item in node.ChildNodes) { if (item.NodeType != XmlNodeType.Element) continue; var element = item as XmlElement; var classType = element.GetAttribute("classType"); if (classType == null) continue; classType = classType.Split('.').LastOrDefault(); if (classType == "IoFFU") { foreach (XmlNode children in item.ChildNodes) { if (children is XmlElement childElement) { if (result.Contains(childElement.GetAttribute("id"))) continue; var key = isSystem ? $"System.{childElement.GetAttribute("id")}.DeviceData" : $"PM1.{childElement.GetAttribute("id")}.DeviceData"; result.Add(key); } } } } } void SubscribeOperation() { OP.Subscribe("CreateWafer", InvokeCreateWafer); OP.Subscribe("System.UpdateWafer", InvokeUpdateWafer); OP.Subscribe("CreateWaferFromTo", InvokeCreateWaferFromTo); OP.Subscribe("DeleteWafer", InvokeDeleteWafer); OP.Subscribe("DeleteWaferFromTo", InvokeDeleteWaferFromTo); OP.Subscribe("CreateCassetteWafer", InvokeCreateCassetteWafer); OP.Subscribe("DeleteCassetteWafer", InvokeDeleteCassetteWafer); OP.Subscribe("System.CreateCarrier", InvokeCreateCarrier); OP.Subscribe("System.DeleteCarrier", InvokeDeleteCarrier); OP.Subscribe("System.SetLotID", InvokeSetLotID); OP.Subscribe("System.DeleteAllWafer", InvokeDeleteAllWafer); OP.Subscribe("System.DeleteAllCarrier", InvokeDeleteAllCarrier); OP.Subscribe("ReturnWafer", InvokeReturnWafer); OP.Subscribe("System.SignalTower.SwitchOffBuzzer", InvokeSwitchOffBuzzer); OP.Subscribe("System.ReturnAllWafer", (string cmd, object[] args) => { return CheckToPostMessage((int)MSG.ReturnAllWafer); }); OP.Subscribe("System.MoveWafer", (string cmd, object[] args) => { if (!Enum.TryParse((string)args[0], out ModuleName source)) { EV.PostWarningLog(Name, $"Parameter source {(string)args[0]} not valid"); return false; } if (!Enum.TryParse((string)args[2], out ModuleName destination)) { EV.PostWarningLog(Name, $"Parameter destination {(string)args[1]} not valid"); return false; } if (args.Length > 8) { return CheckToPostMessage((int)MSG.MoveWafer, source, (int)args[1], destination, (int)args[3], (bool)args[4], (int)args[5], (bool)args[6], (int)args[7]); } else if (args.Length > 5) { return CheckToPostMessage((int)MSG.MoveWafer, source, (int)args[1], destination, (int)args[3], (bool)args[4]); } return CheckToPostMessage((int)MSG.MoveWafer, source, (int)args[1], destination, (int)args[3]); }); OP.Subscribe("System.HomeAll", (string cmd, object[] args) => { return CheckToPostMessage((int)MSG.HOME); }); OP.Subscribe("System.Abort", (string cmd, object[] args) => { return CheckToPostMessage((int)MSG.ABORT); }); OP.Subscribe("System.Reset", (string cmd, object[] args) => { return CheckToPostMessage((int)MSG.RESET); }); OP.Subscribe("System.SetAutoMode", (string cmd, object[] args) => { return CheckToPostMessage((int)MSG.SetAutoMode); }); OP.Subscribe("System.SetManualMode", (string cmd, object[] args) => { return CheckToPostMessage((int)MSG.SetManualMode); }); OP.Subscribe("System.CreateJob", (string cmd, object[] args) => { return CheckToPostMessage((int)MSG.CreateJob, args[0]); }); OP.Subscribe("System.StartJob", (string cmd, object[] args) => { return CheckToPostMessage((int)MSG.StartJob, args[0]); }); OP.Subscribe("System.PauseJob", (string cmd, object[] args) => { return CheckToPostMessage((int)MSG.PauseJob, args[0]); }); OP.Subscribe("System.ResumeJob", (string cmd, object[] args) => { return CheckToPostMessage((int)MSG.ResumeJob, args[0]); }); OP.Subscribe("System.StopJob", (string cmd, object[] args) => { return CheckToPostMessage((int)MSG.StopJob, args[0]); }); OP.Subscribe("System.AbortJob", (string cmd, object[] args) => { return CheckToPostMessage((int)MSG.AbortJob, args[0]); }); OP.Subscribe("System.CoolingSkip", (string cmd, object[] args) => { CoolingSkip(); return true; }); OP.Subscribe("System.ShutDown", InvokeShutDown); OP.Subscribe($"System.Load", (string cmd, object[] args) => CheckToPostJobMessage((int)MSG.CreateTransferJob, args)); OP.Subscribe($"System.Unload", (string cmd, object[] args) => CheckToPostJobMessage((int)MSG.CreateTransferJob, args)); OP.Subscribe($"System.ChargeProcessDischarge", (string cmd, object[] args) => CheckToPostJobMessage((int)MSG.CreateJob, args)); OP.Subscribe($"System.LoadProcessUnload", (string cmd, object[] args) => CheckToPostJobMessage((int)MSG.LoadProcessUnload, args)); OP.Subscribe($"System.LoadProcessStocker", (string cmd, object[] args) => CheckToPostJobMessage((int)MSG.LoadProcessStocker, args)); OP.Subscribe($"System.MonitorLoad", (string cmd, object[] args) => CheckToPostJobMessage((int)MSG.CreateTransferJob, args)); OP.Subscribe($"System.MonitorUnload", (string cmd, object[] args) => CheckToPostJobMessage((int)MSG.CreateTransferJob, args)); OP.Subscribe($"System.SDLoad", (string cmd, object[] args) => CheckToPostJobMessage((int)MSG.CreateTransferJob, args)); OP.Subscribe($"System.SDUnload", (string cmd, object[] args) => CheckToPostJobMessage((int)MSG.CreateTransferJob, args)); OP.Subscribe($"{Module}.AlarmAction", (string cmd, object[] args) => { Enum.TryParse(args[0].ToString(), out AlarmAction alarmAction); if (alarmAction == AlarmAction.ClearAll) { CheckToPostMessage((int)MSG.RESET); return true; } string eventName = null; if (args.Length > 1) eventName = args[1].ToString(); if (eventName != null) { EV.ClearAlarmEvent(eventName); var item = _triggeredAlarmList.FirstOrDefault(x => x.EventEnum == eventName); if (item != null) { item.Reset(); _triggeredAlarmList.Remove(item); } if (item != null) { switch (alarmAction) { case AlarmAction.Retry: { CheckToPostMessage((int)item.RetryMessage, item.RetryMessageParas); } break; case AlarmAction.Abort: { CheckToPostMessage((int)MSG.ABORT); } break; case AlarmAction.Clear: { int alarmCount = 0; var alarms = EV.GetAlarmEvent(); foreach (var alarm in alarms) { if (alarm.Level == EventLevel.Alarm && alarm.Source == Name) alarmCount++; } if (alarmCount == 0) CheckToPostMessage((int)MSG.RESET); } break; case AlarmAction.Continue: { int alarmCount = 0; var alarms = EV.GetAlarmEvent(); foreach (var alarm in alarms) { if (alarm.Level == EventLevel.Alarm && alarm.Source == Name) alarmCount++; } if (alarmCount == 0) CheckToPostMessage((int)MSG.RESET); } break; } } } return true; }); } private void Instance_OnAlarmEvent(EventItem item) { if (item != null && item.Level == EventLevel.Alarm && (item.Source == Name || item.Source == Module)) { DEVICE.GetDevice("System.SignalTower")?.Reset(); LOG.Write($"{item.Source} {item.EventEnum} {item.Description}\n"); PostMsg(MSG.ERROR); } } #region Init private bool FsmStartHome(object[] objs) { _isInited = false; return _homeAll.Start() == Result.RUN; } private bool FsmMonitorHome(object[] objs) { Result ret = _homeAll.Monitor(); if (ret == Result.DONE) { _isInited = true; return true; } if (ret == Result.FAIL) { PostMsg(MSG.ERROR); } return false; } private bool fError(object[] objs) { if (FsmState == (int)RtState.Transfer) { } return true; } #endregion #region job private bool FsmStartLoad(object[] param) { if (_transferJob.CreateJob(param) != Result.RUN) { return false; } return true; } private bool FsmStartUnload(object[] param) { if (_transferJob.CreateJob(param) != Result.RUN) { return false; } return true; } private bool FsmStartLoadProcessStocker(object[] param) { var paramDic = (Dictionary)param[0]; if (paramDic == null) { LoadProcessStockerStartFailedWarning.Set("Parameter not valid"); return false; } paramDic["TransferType"] = "Loading"; param[0] = paramDic; if (_transferJob.CreateJob(param) != Result.RUN) { return false; } if (_auto.CreateJob(param) != Result.RUN) { return false; } return true; } private bool FsmStartLoadProcessUnload(object[] param) { var paramDic = (Dictionary)param[0]; if (paramDic == null) { LoadProcessUnloadStartFailedWarning.Set("Parameter not valid"); return false; } paramDic["TransferType"] = "Loading"; param[0] = paramDic; if (_transferJob.CreateJob(param) != Result.RUN) { return false; } if (_auto.CreateJob(param) != Result.RUN) { return false; } paramDic["TransferType"] = "Unloading"; param[0] = paramDic; if (_transferJob.CreateJob(param) != Result.RUN) { return false; } return true; } #endregion #region AutoTransfer private bool FsmMonitorAutoIdle(object[] param) { Result ret = _transferJob.Monitor(); _auto.Monitor(); if (!_auto.CheckAllJobDone() || !_transferJob.CheckAllJobDone()) { return false; } return ret == Result.DONE; } private bool FsmStartSetManualMode(object[] objs) { if (_auto.HasJobRunning) { EV.PostWarningLog("System", "Can not change to manual mode, abort running job first"); return false; } return true; } private bool fStartAutoTransfer(object[] objs) { Result ret = _auto.Start(objs); return ret == Result.RUN; } private bool fAutoTransfer(object[] objs) { Result ret = _transferJob.Monitor(); _auto.Monitor(); if (_auto.CheckAllJobDone() && _transferJob.CheckAllJobDone()) { if (!CheckToPostMessage((int)MSG.JobDone)) return false; } return ret == Result.DONE; } private bool fExitAutoTransfer(object[] objs) { _auto.Clear(); _transferJob.Clear(); return true; } private bool fAbortAutoTransfer(object[] objs) { _auto.Clear(); _transferJob.Clear(); return true; } #endregion #region return all wafer private bool FsmAbortReturnAllWafer(object[] param) { return true; } private bool FsmMonitorReturnAllWafer(object[] param) { return _returnAll.Monitor() == Result.DONE; } private bool FsmStartReturnAllWafer(object[] param) { return _returnAll.Start() == Result.RUN; } #endregion #region Transfer private bool fStartTransfer(object[] objs) { Result ret = _manualTransfer.Start(objs); if (ret == Result.FAIL || ret == Result.DONE) return false; return ret == Result.RUN; } private bool fTransfer(object[] objs) { Result ret = _manualTransfer.Monitor(); if (ret == Result.FAIL) { PostMsg(MSG.ERROR); return false; } return ret == Result.DONE; } private bool fExitTransfer(object[] objs) { return true; } private bool fAbortTransfer(object[] objs) { return true; } #endregion #region reset private bool fStartReset(object[] objs) { EV.ClearAlarmEvent(); Singleton.Instance.PostMsg(DeviceEntity.MSG.RESET); IoProviderManager.Instance.Reset(); foreach (var modulesValue in Modules.Values) { modulesValue.Reset(); } _triggeredAlarmList.ForEach(x => x.Reset()); _triggeredAlarmList.Clear(); if (FsmState == (int)RtState.Error) { if (!_isInited) { PostMsg(MSG.ToInit); return false; } return true; } return false; } #endregion private bool FsmCreateJob(object[] param) { if (FsmState != (int)RtState.AutoRunning && CarrierManager.Instance.CheckHasCarrier(ModuleName.CarrierRobot, 0)) { EV.PostWarningLog("System", $"FOUP robot already has a FOUP, create job failed"); return false; } _auto.CreateJob((Dictionary)param[0]); return true; } private bool FsmAbortJob(object[] param) { _auto.AbortJob((string)param[0]); return true; } private bool FsmStopJob(object[] param) { _auto.StopJob((string)param[0]); Singleton.Instance.CJAbort((string)param[0]); //CheckToPostMessage((int)MSG.StopJob);// return true; } private bool FsmResumeJob(object[] param) { _auto.ResumeJob((string)param[0]); return true; } private bool FsmPauseJob(object[] param) { _auto.PauseJob((string)param[0]); return true; } private bool FsmStartJob(object[] param) { return _auto.StartJob((string)param[0]); } private bool FsmCreateTransferJob(object[] param) { if (FsmState != (int)RtState.AutoRunning && CarrierManager.Instance.CheckHasCarrier(ModuleName.CarrierRobot, 0)) { EV.PostWarningLog("System", $"FOUP robot already has a FOUP, create job failed"); return false; } _transferJob.CreateJob(param); return true; } private bool FsmAbortTransferJob(object[] param) { _transferJob.AbortJob((string)param[0]); return true; } private bool FsmCancelUnloadingJob(object[] param) { _transferJob.CancelUnloadingJob((string)param[0], (string)param[1]); return true; } private bool FsmJobAutoStart(object[] param) { _auto.PauseJob((string)param[0]); _auto.Clear(); return true; } private bool FsmAbort(object[] param) { if (FsmState == (int)RtState.Transfer) { // _manualTransfer.Clear(); } if (FsmState == (int)RtState.ChargeProcessDischarging || FsmState == (int)RtState.LoadProcessStockering || FsmState == (int)RtState.LoadProcessUnloading) { _auto.PjUpdated(); _auto.PjFinished("Job Abort"); } if (FsmState == (int)RtState.AutoRunning) { _auto.Clear(); } if (FsmState == (int)RtState.Initializing) { _homeAll.Abort(); } return true; } private bool FsmModuleError(object[] param) { //_auto.ModuleError((string)param[0]); return true; } private bool FsmStartReturnWafer(object[] objs) { Result ret = _returnAll.Start(); if (ret == Result.FAIL) { PostMsg(MSG.ERROR); return false; } return ret == Result.RUN; } private bool FsmMonitorReturnWafer(object[] objs) { Result ret = _returnAll.Monitor(); if (ret == Result.FAIL) { PostMsg(MSG.ERROR); return false; } if (ret == Result.DONE) { _batchType = ""; _processJob = ""; _processRecipe = ""; (Modules[ModuleName.CarrierRobot] as CarrierRobotModule).Home(out _); (Modules[ModuleName.WaferRobot] as WaferRobotModule).Home(out _); } return ret == Result.DONE; } private bool InvokeSwitchOffBuzzer(string arg1, object[] args) { DEVICE.GetDevice("System.SignalTower")?.SwitchOffBuzzer(true); IsAlarmConditionBuzzerOn = false; return true; } private bool InvokeReturnWafer(string arg1, object[] args) { ModuleName target = ModuleHelper.Converter(args[0].ToString()); int slot = (int)args[1]; if (ModuleHelper.IsLoadPort(target)) { EV.PostInfoLog("System", string.Format("Wafer already at LoadPort {0} {1}, return operation is not valid", target.ToString(), slot + 1)); return false; } if (!WaferManager.Instance.IsWaferSlotLocationValid(target, slot)) { EV.PostWarningLog("System", string.Format("Invalid position,{0},{1}", target.ToString(), slot.ToString())); return false; } WaferInfo wafer = WaferManager.Instance.GetWafer(target, slot); if (wafer.IsEmpty) { EV.PostInfoLog("System", string.Format("No wafer at {0} {1}, return operation is not valid", target.ToString(), slot + 1)); return false; } return CheckToPostMessage((int)MSG.MoveWafer, target, slot, (ModuleName)wafer.OriginStation, wafer.OriginSlot, false, 0, false, 0); } private bool InvokeDeleteAllWafer(string arg1, object[] args) { foreach (var item in Modules.Values) { if ((item as PMModule) != null || (item as WaferRobotModule) != null) { var wafers = WaferManager.Instance.GetWafers(ModuleHelper.Converter(item.Module)); for (int i = 0; i < wafers.Length; i++) { if (!wafers[i].IsEmpty) WaferManager.Instance.DeleteWafer(ModuleHelper.Converter(item.Module), i); } } } return true; } private bool InvokeDeleteAllCarrier(string arg1, object[] args) { foreach (var item in Modules.Values) { if ((item as LoadPortModule) != null || (item as StockerModule) != null || (item as FIMSModule) != null || (item as CarrierRobotModule) != null) { if (CarrierManager.Instance.HasCarrier(item.Module.ToString())) { CarrierManager.Instance.DeleteCarrier(item.Module.ToString()); var wafers = WaferManager.Instance.GetWafers(ModuleHelper.Converter(item.Module)); for (int i = 0; i < wafers.Length; i++) { if (!wafers[i].IsEmpty) WaferManager.Instance.DeleteWafer(ModuleHelper.Converter(item.Module), i); } } } } return true; } private bool InvokeDeleteWaferFromTo(string arg1, object[] args) { ModuleName chamber = ModuleHelper.Converter(args[0].ToString()); int slotFrom = (int)args[1]; int slotTo = (int)args[2]; for (int slot = slotTo - 1; slot >= slotFrom - 1; slot--) { if (WaferManager.Instance.IsWaferSlotLocationValid(chamber, slot)) { if (WaferManager.Instance.CheckHasWafer(chamber, slot)) { WaferManager.Instance.DeleteWafer(chamber, slot); EV.PostMessage(ModuleName.System.ToString(), EventEnum.WaferDelete, chamber.ToString(), slot + 1); } else { EV.PostInfoLog("System", string.Format("No wafer at {0} {1}, delete not valid", chamber.ToString(), slot + 1)); } } else { DeleteWaferFailedWarning.Set(string.Format("Invalid position,{0},{1}", chamber.ToString(), slot.ToString())); return false; } } var carrier = CarrierManager.Instance.GetCarrier(chamber); if (carrier != null) { CarrierManager.Instance.UpdateWaferIn(chamber, 0, false); } var wafers = WaferManager.Instance.GetWafers(chamber); if (wafers != null && carrier != null) { foreach (var wafer in wafers) { if (wafer != null && !wafer.IsEmpty) { CarrierManager.Instance.UpdateWaferIn(chamber, 0, true); break; } } } return true; } private bool InvokeDeleteWafer(string arg1, object[] args) { ModuleName chamber = ModuleHelper.Converter(args[0].ToString()); int slot = (int)args[1]; if (WaferManager.Instance.IsWaferSlotLocationValid(chamber, slot)) { if (WaferManager.Instance.CheckHasWafer(chamber, slot)) { WaferManager.Instance.DeleteWafer(chamber, slot); EV.PostMessage(ModuleName.System.ToString(), EventEnum.WaferDelete, chamber.ToString(), slot + 1); } else { EV.PostInfoLog("System", string.Format("No wafer at {0} {1}, delete not valid", chamber.ToString(), slot + 1)); } } else { DeleteWaferFailedWarning.Set(string.Format("Invalid position,{0},{1}", chamber.ToString(), slot.ToString())); return false; } var carrier = CarrierManager.Instance.GetCarrier(chamber); if (carrier != null) { CarrierManager.Instance.UpdateWaferIn(chamber, 0, false); } var wafers = WaferManager.Instance.GetWafers(chamber); if (wafers != null && carrier != null) { foreach (var wafer in wafers) { if (wafer != null && !wafer.IsEmpty) { CarrierManager.Instance.UpdateWaferIn(chamber, 0, true); break; } } } return true; } private bool InvokeCreateWaferFromTo(string arg1, object[] args) { ModuleName chamber = ModuleHelper.Converter(args[0].ToString()); ModuleName originChamber = chamber; int slotFrom = (int)args[1]; int slotTo = (int)args[2]; int originSlot = 1; WaferStatus state = WaferStatus.Normal; WaferType waferTye = WaferType.None; var strs = (string[])args[3]; Enum.TryParse(strs[0].ToString(), out waferTye); originChamber = ModuleHelper.Converter(strs[1].ToString()); originSlot = int.Parse(strs[2]); for (int slot = slotTo - 1; slot >= slotFrom - 1; slot--) { if (WaferManager.Instance.IsWaferSlotLocationValid(chamber, slot)) { if (WaferManager.Instance.CheckHasWafer(chamber, slot)) { EV.PostInfoLog("System", string.Format("{0} slot {1} already has wafer.create wafer is not valid", chamber, slot + 1)); } else { if (originChamber == chamber && WaferManager.Instance.CreateWafer(chamber, slot, state, waferTye) != null) { EV.PostMessage(ModuleName.System.ToString(), EventEnum.WaferCreate, chamber.ToString(), slot + 1, state.ToString()); } else if (originChamber != chamber && WaferManager.Instance.CreateWafer(chamber, slot, originChamber, originSlot, state, waferTye) != null) { EV.PostMessage(ModuleName.System.ToString(), EventEnum.WaferCreate, chamber.ToString(), slot + 1, state.ToString()); } } } else { EV.PostWarningLog("System", string.Format("Invalid position,{0},{1}", chamber.ToString(), slot.ToString())); return false; } } var carrier = CarrierManager.Instance.GetCarrier(chamber); if (carrier != null) { CarrierManager.Instance.UpdateWaferIn(chamber, 0, true); } return true; } private bool InvokeCreateWafer(string arg1, object[] args) { ModuleName chamber = ModuleHelper.Converter(args[0].ToString()); ModuleName originChamber = chamber; int slot = (int)args[1]; int originSlot = 1; WaferStatus state = WaferStatus.Normal; WaferType waferTye = WaferType.None; if (args.Length > 2) Enum.TryParse(args[2].ToString(), out waferTye); if (args.Length > 3) originChamber = ModuleHelper.Converter(args[3].ToString()); if (args.Length > 4) originSlot = (int)args[4]; if (ModuleHelper.IsLoadPort(chamber)) { //var lp = Modules[chamber] as LoadPortModule; //if (lp.LPDevice.CassetteState != LoadportCassetteState.Normal) //{ // EV.PostWarningLog("System", $"Can not create wafer at {chamber}.{slot + 1}, Cassette not placed."); // return false; //} } if (WaferManager.Instance.IsWaferSlotLocationValid(chamber, slot)) { if (WaferManager.Instance.CheckHasWafer(chamber, slot)) { EV.PostInfoLog("System", string.Format("{0} slot {1} already has wafer.create wafer is not valid", chamber, slot + 1)); } else { if (originChamber == chamber && WaferManager.Instance.CreateWafer(chamber, slot, state, waferTye) != null) { EV.PostMessage(ModuleName.System.ToString(), EventEnum.WaferCreate, chamber.ToString(), slot + 1, state.ToString()); } else if (originChamber != chamber && WaferManager.Instance.CreateWafer(chamber, slot, originChamber, originSlot, state, waferTye) != null) { EV.PostMessage(ModuleName.System.ToString(), EventEnum.WaferCreate, chamber.ToString(), slot + 1, state.ToString()); } } } else { EV.PostWarningLog("System", string.Format("Invalid position,{0},{1}", chamber.ToString(), slot.ToString())); return false; } var carrier = CarrierManager.Instance.GetCarrier(chamber); if (carrier != null) { CarrierManager.Instance.UpdateWaferIn(chamber, 0, true); } return true; } private bool InvokeUpdateWafer(string arg1, params object[] args) { if (args == null || args.Length == 0) return false; ModuleName chamber = ModuleHelper.Converter(args[0].ToString()); var carrier = CarrierManager.Instance.GetCarrier(chamber); if (carrier == null || carrier.IsEmpty) { EV.PostInfoLog(Module, $"{chamber} update wafer fail for carrier not exist."); return false; } if (args.Length > 3 && !carrier.CarrierType.ToString().Equals(CarrierType.None.ToString()) && !carrier.CarrierType.ToString().Equals(args[2].ToString())) { EV.PostInfoLog(Module, $"{chamber} type mismatch!"); return false; } int slot = 0; if (args.Length > 1) { int.TryParse(args[1].ToString(), out slot); slot = slot - 1; } WaferType waferTye = WaferType.None; if (args.Length > 2) { Enum.TryParse(args[2].ToString(), out waferTye); } float useCount = 0, useThick = 0, UseTime = 0; if (args.Length > 3) { float.TryParse(args[3].ToString(), out useCount); } if (args.Length > 4) { float.TryParse(args[4].ToString(), out useThick); } if (args.Length > 5) { float.TryParse(args[5].ToString(), out UseTime); } if (WaferManager.Instance.IsWaferSlotLocationValid(chamber, slot)) { if (WaferManager.Instance.CheckHasWafer(chamber, slot)) { WaferManager.Instance.UpdateWaferStatistics(chamber, slot, useCount, useThick, UseTime); } } if (carrier != null) { CarrierManager.Instance.UpdateWaferIn(chamber, 0, true); } return true; } private bool InvokeCreateCassetteWafer(string arg1, object[] args) { ModuleName chamber = ModuleHelper.Converter(args[0].ToString()); var carrier = CarrierManager.Instance.GetCarrier(chamber); if (carrier == null || carrier.IsEmpty) { EV.PostInfoLog(Module, $"{chamber} create wafer fail for carrier not exist."); return false; } if (args.Length > 3 && !carrier.CarrierType.ToString().Equals(CarrierType.None.ToString()) && !carrier.CarrierType.ToString().Equals(args[3].ToString())) { EV.PostInfoLog(Module, $"{chamber} type mismatch!"); return false; } int slotFrom = (int)args[1]; int slotTo = (int)args[2]; WaferStatus state = WaferStatus.Normal; WaferType waferTye = WaferType.None; if (args.Length > 3) Enum.TryParse(args[3].ToString(), out waferTye); for (int slot = slotTo - 1; slot >= slotFrom - 1; slot--) { if (WaferManager.Instance.IsWaferSlotLocationValid(chamber, slot)) { if (WaferManager.Instance.CheckHasWafer(chamber, slot)) { EV.PostInfoLog(Module, string.Format("{0} slot {1} already has wafer.", chamber, slot + 1)); continue; } else if (WaferManager.Instance.CreateWafer(chamber, slot, state, waferTye) == null) { CreateWaferFailedWarning.Set(string.Format($"Create slot {slot + 1} wafer failed.")); return false; } } else { CreateWaferFailedWarning.Set(string.Format("Invalid slot,{0},{1}", chamber.ToString(), (slot + 1).ToString())); return false; } } if (carrier != null) { CarrierManager.Instance.UpdateWaferIn(chamber, 0, true); } EV.PostInfoLog(Module, $"Create wafer from {slotFrom} to {slotTo} successed."); return true; } private bool InvokeDeleteCassetteWafer(string arg1, object[] args) { ModuleName chamber = ModuleHelper.Converter(args[0].ToString()); int slotFrom = (int)args[1]; int slotTo = (int)args[2]; if (WaferManager.Instance.IsWaferSlotLocationValid(chamber, slotFrom - 1) && WaferManager.Instance.IsWaferSlotLocationValid(chamber, slotTo - 1)) { WaferManager.Instance.DeleteWafer(chamber, slotFrom - 1, slotTo - slotFrom + 1); } else { DeleteWaferFailedWarning.Set(string.Format($"Invalid slot,{chamber} slot from {slotFrom}, slot to {slotTo}")); return false; } var carrier = CarrierManager.Instance.GetCarrier(chamber); if (carrier != null) { CarrierManager.Instance.UpdateWaferIn(chamber, 0, false); } var wafers = WaferManager.Instance.GetWafers(chamber); if (wafers != null && carrier != null) { foreach (var wafer in wafers) { if (wafer != null && !wafer.IsEmpty) { CarrierManager.Instance.UpdateWaferIn(chamber, 0, true); break; } } } EV.PostInfoLog(Module, $"Delete wafer from {slotFrom} to {slotTo} successed."); return true; } private CarrierType GetStockerType(string name) { var result = CarrierType.SD; var scName = name.Contains("LP") ? $"{name}Type" : $"{name}WaferType"; string configType = SC.GetStringValue($"System.Stocker.{scName}"); if (string.IsNullOrEmpty(configType)) { return result; } result = configType.StartsWith(CarrierType.P.ToString()) ? CarrierType.P : (CarrierType)Enum.Parse(typeof(CarrierType), configType); return result; } public bool InvokeCreateCarrier(string arg1, object[] args) { ModuleName chamber = ModuleHelper.Converter(args[0].ToString()); int slot = (int)args[1]; CarrierType carrierTye = GetStockerType(chamber.ToString()); if (args.Length > 2) { var inputType = args[2].ToString(); if (!carrierTye.ToString().Equals(CarrierType.None.ToString()) && !carrierTye.ToString().Equals(inputType)) { EV.PostInfoLog(Module, $"{chamber} type mismatch!"); return false; } Enum.TryParse(args[2].ToString(), out carrierTye); } if (CarrierManager.Instance.HasCarrier(args[0].ToString(), slot)) { EV.PostInfoLog("System", $"{chamber} already has carrier.create is not valid"); } else { CarrierManager.Instance.CreateCarrier(args[0].ToString(), carrierTye, args[0].ToString()); EV.PostInfoLog("System", $"{chamber} create carrier"); } var wafers = WaferManager.Instance.GetWafers(chamber); if (wafers != null) { foreach (var wafer in wafers) { if (wafer != null && !wafer.IsEmpty) { CarrierManager.Instance.UpdateWaferIn(chamber, 0, true); break; } } } return true; } private bool InvokeDeleteCarrier(string arg1, object[] args) { ModuleName chamber = ModuleHelper.Converter(args[0].ToString()); if (CarrierManager.Instance.HasCarrier(chamber.ToString())) { CarrierManager.Instance.DeleteCarrier(chamber.ToString()); EV.PostInfoLog("System", $"Carrier deleted from {chamber}"); var wafers = WaferManager.Instance.GetWafers(chamber); for (int i = 0; i < wafers.Length; i++) { if (!wafers[i].IsEmpty) WaferManager.Instance.DeleteWafer(chamber, i); } } else { EV.PostInfoLog("System", string.Format("No carrier at {0}, delete not valid", chamber.ToString())); } return true; } private bool InvokeSetLotID(string arg1, object[] args) { ModuleName chamber = ModuleHelper.Converter(args[0].ToString()); List lotIdLst = new List(); foreach (var module in Modules.Keys) { if ((Modules[module] as StockerModule) == null) continue; if (CarrierManager.Instance.HasCarrier(module.ToString())) { lotIdLst.Add(CarrierManager.Instance.GetCarrier(module.ToString()).CarrierId); } } if (lotIdLst.Any(x => x == args[1].ToString())) { SetLotIDFailedWarning.Set($"Carrier ID={args[1]} of {chamber} is already exist"); return false; } if (CarrierManager.Instance.HasCarrier(chamber.ToString())) { CarrierManager.Instance.UpdateCarrierId(chamber.ToString(), args[1].ToString()); EV.PostInfoLog("System", $"Carrier {chamber} update carrier ID {args[1]}"); } else { EV.PostInfoLog("System", string.Format("No carrier at {0}, update carrier ID not valid", chamber.ToString())); } return true; } private bool InvokeShutDown(string arg1, object[] arg2) { if (IsAlarm || IsIdle || IsInit) { EV.PostWarningLog(Module, $"System start shut down"); EV.PostKickoutMessage("ShutDown"); RtApplication.Instance.Terminate(); return true; } EV.PostWarningLog(Module, $"System in {StringFsmStatus} mode, can not shut down"); return false; } private void OnModuleError(string module) { if (FsmState == (int)RtState.AutoRunning) { ModuleName mod = ModuleHelper.Converter(module); PostMsg(MSG.ModuleError, module); } } public override void Monitor() { base.Monitor(); } private bool CheckPWaferBatch(ModuleName module, string batch) { string stockerWaferType = batch == "A" ? "P1" : "P2"; return SC.GetStringValue($"System.Stocker.{module}WaferType") == stockerWaferType; } private bool CheckMWaferBatch(ModuleName module, string batch) { string stockerWaferType = batch == "A" ? "M1" : "M2"; return SC.GetStringValue($"System.Stocker.{module}WaferType") == stockerWaferType; } private bool CheckJobPause() { return _pauseTrig.R; } private bool CheckToPostJobMessage(int msg, params object[] args) { _cycledCount = 0; //只有LoadProcessUnload和ChargeProcessDischarge有cycle模式 if (SC.GetValue("System.IsCycleMode") && (msg == (int)MSG.LoadProcessUnload || msg == (int)MSG.ChargeProcessDischarge)) { lock (_locker) { _jobMSG = msg; _jobParas = args; } } else { lock (_locker) { _jobMSG = 0; _jobParas = null; } } return CheckToPostMessage(msg, args); } private bool OnCycleTimer() { fMonitorFAJob(); if (!SC.GetValue("System.IsSimulatorMode")) { //_plcConnectTrig.CLK = !(IoProviderManager.Instance.Providers[0] as AdsPlcAdapter).IsPlcConnected; //if (_plcConnectTrig.R) //{ // PLCDisconnectAlarm.Set(); //} //if (_plcConnectTrig.T) //{ // EV.ClearAlarmEvent(PLCDisconnectAlarm.Id); // PLCDisconnectAlarm.Reset(); // PLCConnectRecoveryWarning.Set(); //} } _cassetteRobotModule.Monitor(); _waferRobotModule.Monitor(); _lp1Module.Monitor(); _lp2Module.Monitor(); _lp3Module.Monitor(); _lp4Module.Monitor(); _fims1Module.Monitor(); _fims2Module.Monitor(); _boatModule.Monitor(); foreach (var module in Modules.Keys) { if (!(Modules[module] is StockerModule)) continue; Modules[module].Monitor(); } return true; } public List GetProcessJobInfo() { return _auto.LstProcessJobs; } public List>> GetProcessingStockers() { return _auto.GetProcessingStockers(); } public List>> GetAllPJStockers() { return _auto.GetAllPJStockers(); } public List GetTransferJobStockers() { return _transferJob.GetTransferJobStockers(); } public void ResetTask(ModuleName module) { _auto.ResetTask(module); _transferJob.ResetTask(module); (_returnAll as ReturnAllWafer).ResetTask(module); } private void CoolingSkip() { _auto.CoolingSkip(); } public void SetVisibility(CarrierInfo carrierInfo, bool setValue, string moduleName = null) { if (carrierInfo == null) { return; } carrierInfo.UIExitFoup = setValue; carrierInfo.UICarrierColorVisibility = setValue; carrierInfo.UICarrierStatusVisibility = setValue; carrierInfo.UICarrierTypeVisibility = setValue; carrierInfo.UICarrierWaferCountVisibility = setValue; } public void SetUIWaferCount(CarrierInfo carrierInfo, ModuleName name, out WaferInfo[] wafers) { wafers = WaferManager.Instance.GetWafers(name); if (carrierInfo == null) { return; } var count = wafers == null ? 0 : wafers.Count(a => !a.IsEmpty); carrierInfo.UICarrierWaferCount = $"({count})"; } public string GetActivePjStatus() { return _auto.GetFirstPJStatus(); } #region FA private bool FsmFAJobCommand(object[] param) { switch ((string)param[0]) { case "CreateProcessJob": _auto.CreateProcessJob(out var pj, (Dictionary)param[1]); break; case "CreateControlJob": _auto.CreateControlJob((string)param[1], (List)param[2], out var cj); //_auto.StartJob((string)param[1]); //CheckToPostMessage((int)MSG.StartJob, (string)param[1]); break; } return true; } #endregion } }