using System;
using System.Collections;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using Aitex.Core.RT.Fsm;
using Aitex.Core.Common;
using Aitex.Core.RT.DataCenter;
using Aitex.Core.RT.Event;
using Aitex.Core.RT.OperationCenter;
using Aitex.Core.RT.Routine;
using Aitex.Core.RT.SCCore;
using Aitex.Core.Util;
using MECF.Framework.Common.Jobs;
using MECF.Framework.Common.Equipment;
using MECF.Framework.Common.SubstrateTrackings;
using Venus_Core;
using Venus_RT.Modules.PMs;
using Aitex.Core.RT.Log;
using Venus_RT.Modules.VCE;
using Venus_RT.Devices.PreAligner;
using Venus_RT.Modules.TM.VenusEntity;
using SecsGem.Core.Application;
using Aitex.Core.RT.RecipeCenter;
namespace Venus_RT.Modules
{
class RouteManager : Entity, IEntity, IEquipmentCommand
{
public enum MSG
{
MoveWafer,
ReturnWafer,
HomeUnit,
PauseAuto,
ResumeAuto,
Stop,
StartCycle,
StopCycle,
HOME,
RESET,
ABORT,
ERROR,
SetAutoMode,
SetManualMode,
ResetIdleCleanTime,
ResetIdlePurgeTime,
CreateJob,
PauseJob,
ResumeJob,
StartJob,
StopJob,
AbortJob,
JobDone,
CassetteLeave, //For unload light control off afer job done
Map,
ReturnAllWafer,
TMCycle,
SETMCycle,
StopSECycle,
CreateSEJob,
StartSEJob,
AbortSEJob,
SEMoveWafer,
SEReturnWafer,
SEAbort,
}
public PMEntity PMA { get; private set; }
public PMEntity PMB { get; private set; }
public PMEntity PMC { get; private set; }
public PMEntity PMD { get; private set; }
public TMEntity TM { get; private set; }
public LLEntity LLA { get; private set; }
public LLEntity LLB { get; private set; }
public EfemEntity EFEM { get; private set; }
public VceEntity VCE { get; private set; }
public SETMEntity seTM { get; private set; }
public string Name { get; set; }
public bool IsAutoMode
{
get
{
return fsm.State == (int)RtState.AutoRunning || fsm.State == (int)RtState.AutoIdle;
}
}
public bool IsInit
{
get { return fsm.State == (int)RtState.Init; }
}
public bool IsIdle
{
get { return fsm.State == (int)RtState.Idle || fsm.State == (int)RtState.AutoIdle; }
}
public bool IsAlarm
{
get { return fsm.State == (int)RtState.Error; }
}
public bool IsPaused
{
get { return _AutoCycle.CycleState == RState.Paused; }
}
public bool IsEntityError
{
get
{
return (EFEM?.IsError ?? false)
|| (PMA?.IsError ?? false)
|| (PMB?.IsError ?? false)
|| (PMC?.IsError ?? false)
|| (PMD?.IsError ?? false);
}
}
public bool IsRunning
{
get
{
return !IsInit && !IsAlarm && !IsIdle;
}
}
public static bool IsATMMode
{
get
{
if(_isATMMode == -1)
{
_isATMMode = SC.GetValue<bool>("System.IsATMMode") ? 1 : 0;
}
return _isATMMode == 1;
}
}
public SequenceLLInOutPath LLInOutPath => _AutoCycle.LLInOutPath;
private TMCycle _TMCycle;
private ICycle _AutoCycle;
private ManualTransfer _manualTransfer;
private ReturnAllWafer _returnWafer;
private SETMCycle _seTMCycle;
private SEManualTransfer _setransfer;
private SEReturnWafer _sereturnWafer;
private bool _isWaitUnload;
private static int _isATMMode = -1;
public RouteManager()
{
Name = "System";
if (ModuleHelper.IsInstalled(ModuleName.PMA))
PMA = new PMEntity(ModuleName.PMA);
if (ModuleHelper.IsInstalled(ModuleName.PMB))
PMB = new PMEntity(ModuleName.PMB);
if (ModuleHelper.IsInstalled(ModuleName.PMC))
PMC = new PMEntity(ModuleName.PMC);
if (ModuleHelper.IsInstalled(ModuleName.PMD))
PMD = new PMEntity(ModuleName.PMD);
if (ModuleHelper.IsInstalled(ModuleName.TM))
TM = new TMEntity();
if (ModuleHelper.IsInstalled(ModuleName.LLA))
LLA = new LLEntity(ModuleName.LLA);
if (ModuleHelper.IsInstalled(ModuleName.LLB))
LLB = new LLEntity(ModuleName.LLB);
if (ModuleHelper.IsInstalled(ModuleName.EFEM))
EFEM = new EfemEntity();
if (ModuleHelper.IsInstalled(ModuleName.VCE1))
{
//临时加 后改为配置项
VCE = new VceEntity(ModuleName.VCE1);
}
if (ModuleHelper.IsInstalled(ModuleName.SETM))
{
seTM = new SETMEntity();
}
fsm = new StateMachine<RouteManager>(Name, (int)RtState.Init, 200);
SubscribeOperation();
SubscribeDataVariable();
}
public bool Check(int msg, out string reason, params object[] args)
{
if (!fsm.FindTransition(fsm.State, msg))
{
reason = String.Format("{0} is in {1} state,can not do {2}", Name, 0, (MSG)msg);
return false;
}
if (msg == (int)MSG.StartCycle)
{
if (!IsAutoMode)
{
reason = String.Format("can not do {0}, isn't auto mode.", msg.ToString());
return false;
}
}
reason = "";
return true;
}
void SubscribeDataVariable()
{
DATA.Subscribe("Rt.Status", () => ((RtState)fsm.State).ToString(), SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe(ModuleName.System.ToString(), "AlarmEvent", EV.GetAlarmEvent, SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe("System.IsAutoMode", () => IsAutoMode, SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe("System.IsIdle", () => IsIdle || IsInit, SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe("System.IsAlarm", () => IsAlarm || IsEntityError, SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe("System.IsBusy", () => IsRunning, SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe("System.IsWaitUnload", () => _isWaitUnload && IsAutoMode, SubscriptionAttribute.FLAG.IgnoreSaveDB);
//DATA.Subscribe("System.IsConnectedWithHost", () => Singleton<SecGemApplication>.Instance., SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe("EquipmentMode", () => IsAutoMode ? 0 : 1, SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe("EquipmentStatus", () =>
{
//"0 = Uninit
//1 = Idle
//2 = Running
//3 = Error
//4 = Pause
//"
if (IsInit) return 0;
if (IsIdle) return 1;
if (IsAlarm) return 3;
if (IsPaused) return 4;
return 2;
}, SubscriptionAttribute.FLAG.IgnoreSaveDB);
}
void SubscribeOperation()
{
OP.Subscribe("CreateWafer", InvokeCreateWafer);
OP.Subscribe("DeleteWafer", InvokeDeleteWafer);
OP.Subscribe("System.Home", (cmd, args) => CheckToPostMessage((int)MSG.HOME, args));
OP.Subscribe("TMCycle.Start", (cmd, args) => CheckToPostMessage((int)MSG.TMCycle, args));
OP.Subscribe("TMCycle.Abort", (cmd, args) => CheckToPostMessage((int)MSG.StopCycle, args));
OP.Subscribe("System.StopSECycle", (cmd, args) => CheckToPostMessage((int)MSG.StopSECycle, args));
DATA.Subscribe("SYSTEM.FsmState", () => (((RtState)fsm.State).ToString()));
DATA.Subscribe("TMCycle.CycleIndex", () => (_TMCycle?.CycleIndex));
OP.Subscribe("ReturnWafer", InvokeReturnWafer);
OP.Subscribe("System.ReturnAllWafer", (string cmd, object[] args) =>
{
if (seTM != null && VCE != null)
return CheckToPostMessage((int)MSG.SEReturnWafer, args);
else
return CheckToPostMessage((int)MSG.ReturnAllWafer, args[0], args[1], args[2], args[3]);
});
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 (seTM!=null && VCE!=null)
return CheckToPostMessage((int)MSG.SEMoveWafer,
source, (int)args[1],
destination, (int)args[3],
args[4], args[5],
args[6], args[7], (string)args[8]);
else
return CheckToPostMessage((int)MSG.MoveWafer,
source, (int)args[1],
destination, (int)args[3],
args[4], args[5],
args[6], args[7], (string)args[8]);
});
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("LP1.Map", (string cmd, object[] args) =>
{
if (IsAutoMode)
{
return CheckToPostMessage((int)MSG.Map, ModuleName.LP1.ToString());
}
return EFEM.InvokeMap(ModuleName.LP1.ToString()) != (int)FSM_MSG.NONE;
});
OP.Subscribe("LP2.Map", (string cmd, object[] args) =>
{
if (IsAutoMode)
{
return CheckToPostMessage((int)MSG.Map, ModuleName.LP2.ToString());
}
return EFEM.InvokeMap(ModuleName.LP2.ToString()) != (int)FSM_MSG.NONE;
});
OP.Subscribe(RtOperation.SetConfig.ToString(), (name, args) =>
{
string sc_key = args[0] as string;
if (!string.IsNullOrWhiteSpace(sc_key) && args.Length > 1)
{
SC.SetItemValue(sc_key, args[1]);
}
return true;
});
OP.Subscribe("System.ResetIdleCleanTime", (string cmd, object[] args) =>
{
return CheckToPostMessage((int)MSG.ResetIdleCleanTime, args[0]);
});
OP.Subscribe("System.ResetIdlePurgeTime", (string cmd, object[] args) =>
{
return CheckToPostMessage((int)MSG.ResetIdlePurgeTime, args[0]);
});
OP.Subscribe("System.SetWaferSize", (string cmd, object[] args) =>
{
string module = (string)args[0];
string size = (string)args[1];
switch (size)
{
case "3":
WaferManager.Instance.UpdateWaferSize(ModuleHelper.Converter(module), 0, WaferSize.WS3);
break;
case "4":
WaferManager.Instance.UpdateWaferSize(ModuleHelper.Converter(module), 0, WaferSize.WS4);
break;
case "6":
WaferManager.Instance.UpdateWaferSize(ModuleHelper.Converter(module), 0, WaferSize.WS6);
break;
default:
EV.PostWarningLog("System", $"wafer size {size} not valid");
break;
}
return true;
});
OP.Subscribe("System.CassetteLeave", (string cmd, object[] args) =>
{
return CheckToPostMessage((int)MSG.CassetteLeave);
});
OP.Subscribe("System.IsModuleInstalled", (string cmd, object[] args) => {
return ModuleHelper.IsInstalled((ModuleName)args[0]);
});
OP.Subscribe("System.SETMCycle", (cmd, args) => CheckToPostMessage((int)MSG.SETMCycle, args));
OP.Subscribe("System.CreateSEJob", (cmd, args) => CheckToPostMessage((int)MSG.CreateSEJob, args));
OP.Subscribe("System.StartSEJob",(cmd,args)=>CheckToPostMessage((int)MSG.StartSEJob,args));
OP.Subscribe("System.ReturnAllSEWafer", (cmd, args) => CheckToPostMessage((int)MSG.SEReturnWafer, args));
OP.Subscribe("System.SEAbort", (cmd, args) => CheckToPostMessage((int)MSG.SEAbort, args));
}
public bool CheckToPostMessage(int msg, params object[] args)
{
if (!fsm.FindTransition(fsm.State, msg))
{
LOG.Write(eEvent.WARN_ROUTER, ModuleName.System, $"System is in {(RtState)fsm.State} state,can not do {(MSG)msg}");
return false;
}
Running = true;
fsm.PostMsg(msg, args);
return true;
}
public bool InvokeAbort(object[] args)
{
return CheckToPostMessage((int)MSG.ABORT, args);
}
private bool InvokeCreateWafer(string arg1, object[] args)
{
ModuleName chamber = ModuleHelper.Converter(args[0].ToString());
int slot = (int)args[1];
WaferStatus state = WaferStatus.Normal;
if (WaferManager.Instance.IsWaferSlotLocationValid(chamber, slot))
{
if (WaferManager.Instance.CheckHasWafer(chamber, slot))
{
LOG.Write(eEvent.EV_ROUTER, "System", string.Format("{0} slot {1} already has wafer.create wafer is not valid", chamber, slot));
}
else if (WaferManager.Instance.CreateWafer(chamber, slot, state) != null)
{
LOG.Write(eEvent.EV_WAFER_CREATE, ModuleName.System, chamber.ToString(), (slot + 1).ToString(), state.ToString());
}
}
else
{
LOG.Write(eEvent.WARN_ROUTER, "System", string.Format("Invalid position,{0},{1}", chamber.ToString(), slot.ToString()));
return false;
}
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
{
LOG.Write(eEvent.EV_ROUTER, "System", string.Format("No wafer at {0} {1}, delete not valid", chamber.ToString(), slot + 1));
}
}
else
{
LOG.Write(eEvent.WARN_ROUTER, "System", string.Format("Invalid position,{0},{1}", chamber.ToString(), slot.ToString()));
return false;
}
return true;
}
private bool InvokeReturnWafer(string arg1, object[] args)
{
ModuleName target = ModuleHelper.Converter(args[0].ToString());
int slot = (int)args[1];
if (seTM != null && VCE != null)
{
if (ModuleHelper.IsVCE(target))
{
LOG.Write(eEvent.WARN_ROUTER, "System", string.Format("Wafer already at vce {0} {1}, return operation is not valid", target.ToString(), slot + 1));
return false;
}
WaferInfo wafer = WaferManager.Instance.GetWafer(target,slot);
if (wafer.IsEmpty)
{
LOG.Write(eEvent.WARN_ROUTER, "System", string.Format("No wafer at {0} {1}, return operation is not valid", target.ToString(), slot + 1));
return false;
}
return CheckToPostMessage((int)MSG.SEMoveWafer,
target, slot,
(ModuleName)wafer.OriginStation, wafer.OriginSlot,
false, 0, false, 0, "Blade1");
}
else
{
if (ModuleHelper.IsLoadPort(target))
{
LOG.Write(eEvent.WARN_ROUTER, "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))
{
LOG.Write(eEvent.WARN_ROUTER, "System", string.Format("Invalid position,{0},{1}", target.ToString(), slot.ToString()));
return false;
}
WaferInfo wafer = WaferManager.Instance.GetWafer(target, slot);
if (wafer.IsEmpty)
{
LOG.Write(eEvent.WARN_ROUTER, "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, "Blade1");
}
}
public PMEntity GetPM(ModuleName mod)
{
if (ModuleHelper.IsInstalled(mod))
{
switch (mod)
{
case ModuleName.PMA:
return PMA;
case ModuleName.PMB:
return PMB;
case ModuleName.PMC:
return PMC;
case ModuleName.PMD:
return PMD;
}
}
return null;
}
public LLEntity GetLL(ModuleName mod)
{
if (ModuleHelper.IsInstalled(mod))
{
switch (mod)
{
case ModuleName.LLA:
return LLA;
case ModuleName.LLB:
return LLB;
}
}
return null;
}
public VceEntity GetVCE(ModuleName mod)
{
if (ModuleHelper.IsInstalled(mod))
{
return VCE;
}
return null;
}
public TMEntity GetTM()
{
return TM;
}
protected override bool Init()
{
PMA?.Initialize();
PMB?.Initialize();
PMC?.Initialize();
PMD?.Initialize();
TM?.Initialize();
LLA?.Initialize();
LLB?.Initialize();
EFEM?.Initialize();
VCE?.Initialize();
seTM?.Initialize();
_TMCycle = new TMCycle();
_AutoCycle = new AutoCycle();
//_AutoCycle = new SystemDispatcher();
_manualTransfer = new ManualTransfer();
_returnWafer = new ReturnAllWafer(_manualTransfer);
_seTMCycle = new SETMCycle(ModuleName.SETM);
_setransfer = new SEManualTransfer();
_sereturnWafer = new SEReturnWafer(_setransfer);
BuildTransitionTable();
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);
EnterExitTransition<RtState, FSM_MSG>(RtState.AutoRunning, FsmEnterAutoRunning, FSM_MSG.NONE, FsmExitAutoTransfer);
EnterExitTransition<RtState, FSM_MSG>(RtState.Transfer, null, FSM_MSG.NONE, FsmExitTransfer);
EnterExitTransition<RtState, FSM_MSG>(RtState.ReturnWafer, null, FSM_MSG.NONE, FsmExitReturnWafer);
AnyStateTransition(MSG.ERROR, FsmError, RtState.Error);
Transition(RtState.Idle, FSM_MSG.TIMER, FsmMonitor, RtState.Idle);
Transition(RtState.Init, FSM_MSG.TIMER, FsmMonitor, RtState.Init);
Transition(RtState.Initializing, FSM_MSG.TIMER, FsmMonitorHome, RtState.Idle);
Transition(RtState.Initializing, MSG.ERROR, FsmError, RtState.Error);
Transition(RtState.Initializing, MSG.ABORT, FsmAbort, RtState.Init);
// TM Cycle
Transition(RtState.Idle, MSG.TMCycle, FsmStartTMCycle, RtState.TMCycle);
Transition(RtState.TMCycle, FSM_MSG.TIMER, FsmMonitorTMCycle, RtState.Idle);
Transition(RtState.TMCycle, MSG.StopCycle, FsmStopTMCycle, RtState.Idle);
//Auto/manual
Transition(RtState.Idle, MSG.SetAutoMode, FsmStartAutoTransfer, RtState.AutoIdle);
Transition(RtState.AutoRunning, FSM_MSG.TIMER, FsmAutoTransfer, RtState.AutoIdle);
Transition(RtState.AutoRunning, MSG.ABORT, FsmAbortAutoTransfer, RtState.Idle);
//Transition(RtState.AutoRunning, MSG.SetManualMode, FsmStartSetManualMode, RtState.Idle);
Transition(RtState.AutoRunning, MSG.JobDone, FsmJobDone, RtState.AutoIdle);
//Transition(RtState.AutoRunning, MSG.CassetteLeave, fCassetteLeave, RtState.AutoRunning); //For unload light control off afer job done
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.MoveWafer, FsmAutoReturnWafer, RtState.AutoRunning);
Transition(RtState.AutoRunning, MSG.Map, FsmMap, RtState.AutoRunning);
Transition(RtState.AutoRunning, MSG.ResetIdleCleanTime, FsmResetIdleCleanTime, RtState.AutoRunning);
Transition(RtState.AutoRunning, MSG.ResetIdlePurgeTime, FsmResetIdlePurgeTime, 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.AutoIdle);
Transition(RtState.AutoIdle, MSG.StartJob, FsmStartJob, RtState.AutoRunning);
Transition(RtState.AutoIdle, MSG.PauseJob, FsmPauseJob, RtState.AutoIdle);
Transition(RtState.AutoIdle, MSG.ResumeJob, FsmResumeJob, RtState.AutoIdle);
Transition(RtState.AutoIdle, MSG.StopJob, FsmStopJob, RtState.AutoIdle);
Transition(RtState.AutoIdle, MSG.AbortJob, FsmAbortJob, RtState.AutoIdle);
Transition(RtState.AutoIdle, MSG.Map, FsmMap, RtState.AutoIdle);
//Transfer
Transition(RtState.Idle, MSG.MoveWafer, FsmStartTransfer, RtState.Transfer);
Transition(RtState.Transfer, FSM_MSG.TIMER, FsmMonitorTransfer, RtState.Idle);
Transition(RtState.Transfer, MSG.ABORT, FsmAbort, RtState.Idle);
//Return Wafer
Transition(RtState.Idle, MSG.ReturnAllWafer, FsmStartReturnWafer, RtState.ReturnWafer);
Transition(RtState.ReturnWafer, FSM_MSG.TIMER, FsmMonitorReturnWafer, RtState.Idle);
Transition(RtState.ReturnWafer, MSG.ABORT, FsmAbort, RtState.Idle);
// SETM Cycle
Transition(RtState.Idle, MSG.SETMCycle, FsmStartSETMCycle, RtState.SETMCycle);
Transition(RtState.SETMCycle, FSM_MSG.TIMER, FsmMonitorSETMCycle, RtState.Idle);
Transition(RtState.SETMCycle, MSG.SEAbort, SEAbort, RtState.Idle);
// SETM CreateCycle
Transition(RtState.Idle, MSG.CreateSEJob, FsmStartCreateSEJob, RtState.Idle);
// SETM StartCycle
Transition(RtState.Idle, MSG.StartSEJob, FsmStartSEJob, RtState.SERunning);
Transition(RtState.SERunning, FSM_MSG.TIMER, FsmSEJobMonitor, RtState.Idle);
Transition(RtState.SERunning, MSG.SEAbort, SEAbort, RtState.Idle);
// SE Transfer
Transition(RtState.Idle, MSG.SEMoveWafer, FsmStartSEMoveWafer, RtState.SETransfer);
Transition(RtState.SETransfer, FSM_MSG.TIMER, FsmMonitorSEMoveWafer, RtState.Idle);
Transition(RtState.SETransfer, MSG.SEAbort, SEAbort, RtState.Idle);
// SE ReturnWafer
Transition(RtState.Idle, MSG.SEReturnWafer, FsmStartSEReturnWafer, RtState.SEReturnWafer);
Transition(RtState.SEReturnWafer, FSM_MSG.TIMER, FsmMonitorSEReturnWafer, RtState.Idle);
Transition(RtState.SEReturnWafer, MSG.SEAbort, SEAbort, RtState.Idle);
}
private bool FsmMonitor(object[] objs)
{
_debugRoutine();
return true;
}
private bool FsmStartHome(object[] objs)
{
TM?.Invoke("Home");
EFEM?.Invoke("Home");
seTM?.Invoke("Home");
VCE?.Invoke("Home");
foreach(var mod in ModuleHelper.InstalledModules)
{
if(ModuleHelper.IsPm(mod))
{
if(GetPM(mod).IsInclude)
{
GetPM(mod).Invoke("Home");
}
}
else if (ModuleHelper.IsLoadLock(mod))
{
if(GetLL(mod).IsInclude)
{
GetLL(mod).Invoke("Home");
}
}
}
return true;
}
private bool FsmMonitorHome(object[] objs)
{
ModuleName notReadyModule = ModuleName.System;
foreach(var mod in ModuleHelper.InstalledModules)
{
if ((ModuleHelper.IsPm(mod)&& GetPM(mod).IsInclude && !GetPM(mod).IsIdle) ||
(ModuleHelper.IsLoadLock(mod) && GetLL(mod).IsInclude && !GetLL(mod).IsIdle) ||
(ModuleHelper.IsTM(mod) && !GetTM().IsIdle) ||
(ModuleHelper.IsVCE(mod) && !GetVCE(mod).IsIdle) ||
(ModuleHelper.IsEFEM(mod) && !EFEM.IsIdle) ||
(ModuleHelper.isSETM(mod) && !seTM.IsIdle))
{
notReadyModule = mod;
break;
}
}
if(notReadyModule != ModuleName.System)
{
if (fsm.ElapsedTime > 100 * 1000)
{
LOG.Write(eEvent.ERR_ROUTER, ModuleName.System, $"{notReadyModule} home timeout");
PostMsg(MSG.ERROR);
return true;
}
else
return false;
}
return true;
}
private bool FsmEnterAutoRunning(object[] objs)
{
return true;
}
private bool FsmExitAutoTransfer(object[] objs)
{
_AutoCycle.Clear();
return true;
}
private bool FsmExitTransfer(object[] objs)
{
_manualTransfer.Clear();
return true;
}
private bool FsmExitReturnWafer(object[] objs)
{
_returnWafer.Clear();
return true;
}
private bool FsmError(object[] objs)
{
return true;
}
private bool FsmAbort(object[] objs)
{
_manualTransfer.Clear();
_returnWafer.Clear();
_AutoCycle.Clear();
return true;
}
private bool FsmStartTMCycle(object[] objs)
{
return _TMCycle.Start(objs) == RState.Running;
}
private bool FsmMonitorTMCycle(object[] objs)
{
RState ret = _TMCycle.Monitor();
if (ret == RState.Failed || ret == RState.Timeout)
{
PostMsg(MSG.ERROR);
return false;
}
return ret == RState.End;
}
private bool FsmStopTMCycle(object[] objs)
{
_TMCycle.Abort();
return true;
}
private bool FsmStartAutoTransfer(object[] objs)
{
return _AutoCycle.Start(objs) == RState.Running;
}
private bool FsmAutoTransfer(object[] objs)
{
RState ret = _AutoCycle.Monitor();
if(ret == RState.Failed)
{
if (!CheckToPostMessage((int)MSG.ERROR))
return false;
}
if (_AutoCycle.CheckJobJustDone(out string jobInfo))
{
EV.PostPopDialogMessage(EventLevel.InformationNoDelay, "Job complete", jobInfo);
}
if (_AutoCycle.CheckAllJobDone())
{
if (!CheckToPostMessage((int)MSG.JobDone))
return false;
}
//_isWaitUnload = (bool)DATA.Poll("LP1.NotifyJobDone") || (bool)DATA.Poll("LP2.NotifyJobDone");
return ret == RState.End;
}
private bool FsmAbortAutoTransfer(object[] objs)
{
_AutoCycle.Clear();
return true;
}
private bool FsmJobDone(object[] objs)
{
_isWaitUnload = true;
return true;
}
private bool FsmCreateJob(object[] objs)
{
return _AutoCycle.CreateJob((Dictionary<string, object>)objs[0],out var reason);
}
private bool FsmStartJob(object[] objs)
{
_AutoCycle.StartJob((string)objs[0],out var reason);
return true;
}
private bool FsmPauseJob(object[] objs)
{
_AutoCycle.PauseJob((string)objs[0],out var reason);
return true;
}
private bool FsmResumeJob(object[] objs)
{
_AutoCycle.ResumeJob((string)objs[0],out var reason);
return true;
}
private bool FsmStopJob(object[] objs)
{
_AutoCycle.StopJob((string)objs[0], out var reason);
return true;
}
private bool FsmAbortJob(object[] objs)
{
_AutoCycle.AbortJob((string)objs[0],out var reason);
return true;
}
private bool FsmStartTransfer(object[] objs)
{
return _manualTransfer.Start(objs) == RState.Running;
}
private bool FsmMonitorTransfer(object[] objs)
{
RState ret = _manualTransfer.Monitor();
if (ret == RState.Failed || ret == RState.Timeout)
{
PostMsg(MSG.ERROR);
return false;
}
return ret == RState.End;
}
private bool FsmStartReturnWafer(object[] objs)
{
//return _returnWafer.Start(objs) == RState.Running;
return _AutoCycle.CheckManualReturnWafer() == RState.Running;
}
private bool FsmMonitorReturnWafer(object[] objs)
{
//RState ret = _returnWafer.Monitor();
RState ret = _AutoCycle.ReturnAllWafers();
if (ret == RState.Failed || ret == RState.Timeout)
{
PostMsg(MSG.ERROR);
return false;
}
return ret == RState.End;
}
private bool FsmMap(object[] objs)
{
return true;
}
private bool FsmResetIdleCleanTime(object[] objs)
{
return true;
}
private bool FsmResetIdlePurgeTime(object[] objs)
{
return true;
}
private bool FsmAutoReturnWafer(object[] objs)
{
return _AutoCycle.ManualReturnWafer(objs);
}
private bool FsmMonitorAutoIdle(object[] objs)
{
RState ret = _AutoCycle.Monitor();
//if (_AutoCycle.CheckAllJobDone())
//{
// if (!CheckToPostMessage((int)MSG.JobDone))
// return false;
//}
//_isWaitUnload = (bool)DATA.Poll("LP1.NotifyJobDone") || (bool)DATA.Poll("LP2.NotifyJobDone");
_debugRoutine();
return ret == RState.End;
}
private bool FsmStartSetManualMode(object[] objs)
{
if (_AutoCycle.HasJobRunning)
{
LOG.Write(eEvent.WARN_ROUTER, "System", "Can not change to manual mode, abort running job first");
return false;
}
return true;
}
private void _debugRoutine()
{
int flag = 0;
// Test Home routine
if (flag == 1)
{
PostMsg(MSG.HOME);
}
else if (flag == 2)
{
PostMsg(MSG.TMCycle);
}
else if (flag == 3)
{
PostMsg(MSG.SetAutoMode);
}
else if (flag == 4)
{
PostMsg(MSG.ReturnAllWafer);
}
else if(flag == 5)
{
PostMsg(MSG.StartJob, "CJ_Local_LP1");
}
}
private bool FsmStartSETMCycle(object[] objs)
{
return _seTMCycle.Start(objs) == RState.Running;
}
private bool FsmMonitorSETMCycle(object[] objs)
{
RState ret = _seTMCycle.Monitor();
if (ret == RState.Failed || ret == RState.Timeout)
{
PostMsg(MSG.ERROR);
return false;
}
return ret == RState.End;
}
private bool FsmStopSETMCycle(object[] objs)
{
_seTMCycle.Abort();
return true;
}
private bool FsmStartCreateSEJob(object[] objs)
{
_seTMCycle.CreateJob((Dictionary<string, object>)objs[0]);
return true;
}
private bool FsmStartSEJob(object[] objs)
{
return _seTMCycle.StartJob(objs[0].ToString()) == RState.Running;
}
private bool FsmSEJobMonitor(object[] objs)
{
RState ret = _seTMCycle.Monitor();
return ret == RState.End;
}
private bool FsmStartSEMoveWafer(object[] objs)
{
return _setransfer.Start(objs) == RState.Running;
}
private bool FsmMonitorSEMoveWafer(object[] objs)
{
RState ret = _setransfer.Monitor();
if (ret == RState.Failed || ret == RState.Timeout)
{
PostMsg(MSG.ERROR);
return false;
}
return ret == RState.End;
}
private bool FsmStartSEReturnWafer(object[] objs)
{
return _sereturnWafer.Start(objs) == RState.Running;
}
private bool FsmMonitorSEReturnWafer(object[] objs)
{
RState ret = _sereturnWafer.Monitor();
if (ret == RState.Failed || ret == RState.Timeout)
{
PostMsg(MSG.ERROR);
return false;
}
return ret == RState.End;
}
private bool SEAbort(object[] objs)
{
_seTMCycle.Abort();
_setransfer.Abort();
_sereturnWafer.Abort();
seTM.CheckToPostMessage((int)SETMEntity.MSG.Abort);
return true;
}
#region Fa接口
/// <summary>
/// 接口指令
/// </summary>
/// <param name="command"></param>
/// <param name="paras"></param>
/// <param name="reason"></param>
/// <returns></returns>
public bool ExcuteCommand(string command, object[] paras, out string reason)
{
reason = "";
switch(command)
{
case "PP-SELECT":
return FaCreateJob(paras, out reason);
case "StartJob":
return FaStartJob(paras[0].ToString(), out reason);
case "StopJob":
return FaStopJob(paras[0].ToString(), out reason);
case "AbortJob":
return FaAbortob(paras[0].ToString(), out reason);
case "PauseJob":
return FaPauseJob(paras[0].ToString(), out reason);
case "ResumeJob":
return FaResumeJob(paras[0].ToString(), out reason);
case "Load":
return FaLoad(paras[0].ToString());
case "Unload":
return FaUnLoad(paras[0].ToString());
case "ReadID":
return FaReadId(paras[0].ToString());
}
return true;
}
/// <summary>
/// Fa创建任务
/// </summary>
/// <param name="paras"></param>
/// <param name="reason"></param>
/// <returns></returns>
private bool FaCreateJob(object[] paras,out string reason)
{
if(!CheckAuto())
{
reason = "System is not in Auto,cannot create job";
return false;
}
else
{
Dictionary<string, object> createParams = new Dictionary<string, object>();
createParams["Module"] = $"LP{paras[0]}";
createParams["JobId"] = paras[1].ToString();
createParams["SlotSequence"] = (string[])paras[3];
createParams["AutoStart"] = true;
if (paras.Length >= 5)
{
createParams["PreCleanRecipeName"] = paras[4].ToString();
}
if (paras.Length >= 6)
{
createParams["PostCleabRecipeName"] = paras[5].ToString();
}
return _AutoCycle.CreateJob(createParams,out reason);
}
}
/// <summary>
/// Fa启动任务
/// </summary>
/// <param name="jobName"></param>
/// <param name="reason"></param>
/// <returns></returns>
private bool FaStartJob(string jobName,out string reason)
{
return _AutoCycle.StartJob(jobName,out reason);
}
/// <summary>
/// Fa停止任务
/// </summary>
/// <param name="jobName"></param>
/// <param name="reason"></param>
/// <returns></returns>
private bool FaStopJob(string jobName, out string reason)
{
return _AutoCycle.StopJob(jobName, out reason);
}
/// <summary>
/// Fa中止任务
/// </summary>
/// <param name="jobName"></param>
/// <param name="reason"></param>
/// <returns></returns>
private bool FaAbortob(string jobName, out string reason)
{
return _AutoCycle.AbortJob(jobName, out reason);
}
/// <summary>
/// Fa暂停任务
/// </summary>
/// <param name="jobName"></param>
/// <param name="reason"></param>
/// <returns></returns>
private bool FaPauseJob(string jobName, out string reason)
{
return _AutoCycle.PauseJob(jobName, out reason);
}
/// <summary>
/// Fa恢复任务
/// </summary>
/// <param name="jobName"></param>
/// <param name="reason"></param>
/// <returns></returns>
private bool FaResumeJob(string jobName, out string reason)
{
return _AutoCycle.ResumeJob(jobName, out reason);
}
/// <summary>
/// Fa Load
/// </summary>
/// <param name="lp"></param>
/// <returns></returns>
private bool FaLoad(string lp)
{
return EFEM.EfemDevice.Load(ModuleHelper.Converter($"LP{lp}"));
}
/// <summary>
/// 读取Id
/// </summary>
/// <param name="lp"></param>
/// <returns></returns>
private bool FaReadId(string lp)
{
return EFEM.EfemDevice.ReadCarrierId(ModuleHelper.Converter($"LP{lp}"));
}
/// <summary>
/// Fa Unload
/// </summary>
/// <param name="lp"></param>
/// <returns></returns>
private bool FaUnLoad(string lp)
{
return EFEM.EfemDevice.Unload(ModuleHelper.Converter($"LP{lp}"));
}
/// <summary>
/// 获取所有Sequence
/// </summary>
/// <returns></returns>
public string[] GetSequenceList()
{
return RecipeFileManager.Instance.GetSequenceNameList().ToArray();
}
public string GetSequenceBody(string ppid)
{
return RecipeFileManager.Instance.GetSequence(ppid, false);
}
public List<string> GetFormatedSequence(string ppid)
{
return null;
}
public bool deleteSequence(string ppid)
{
return true;
}
public bool UpdateSequence(string ppid, string body)
{
return true;
}
public void ShowTerminalMessage(string message)
{
}
public bool CreateProcessJob(string processJobId, string sequenceName, string carrierId, out string reason)
{
reason = "";
return true;
}
public void UpdateProcessJobCarrierSlot(string processJobId, string moduleName, List<int> slots)
{
}
public void CreateControlJob(string controlJobId, string carrierId, List<string> processJobs)
{
}
public bool CheckCreateControlJobCondition(List<string> modules, out string reason)
{
reason = "";
return true;
}
public bool StartControlJob(string controlJob)
{
return true;
}
public bool StopControlJob(string controlJob)
{
return true;
}
public bool AbortControlJob(string controlJob)
{
return true;
}
public bool PauseControlJob(string controlJob)
{
return true;
}
public bool ResumeControlJob(string controlJob)
{
return true;
}
public bool CheckAuto()
{
return fsm.State == (int)RtState.AutoIdle;
}
public void UpdateControlJobModule(string controlJobId, string moduleName)
{
}
#endregion
}
}