using Aitex.Core.RT.DataCenter;
using Aitex.Core.RT.Device;
using Aitex.Core.RT.Fsm;
using Aitex.Core.RT.Log;
using Aitex.Core.RT.OperationCenter;
using Aitex.Core.Util;
using Aitex.Core.Utilities;
using MECF.Framework.Common.Equipment;
using MECF.Framework.Common.SubstrateTrackings;
using MECF.Framework.Common.WaferHolder;
using CyberX8_Core;
using CyberX8_RT.Devices.Rinse;
using System;
using System.Collections.Generic;
using System.Linq;
using MECF.Framework.Common.Persistent.Rinse;
using MECF.Framework.Common.RecipeCenter;
using Aitex.Core.RT.RecipeCenter;
using CyberX8_RT.Devices.Safety;
using Aitex.Core.RT.SCCore;
using MECF.Framework.Common.Alarm;
using MECF.Framework.Common.CommonData;
using CyberX8_RT.Schedulers;
using CyberX8_RT.Modules.Dryer;
using MECF.Framework.Common.ProcessCell;
namespace CyberX8_RT.Modules.Rinse
{
public class RinseEntity : Entity, IEntity, IModuleEntity
{
#region 常量
private const string AUTO = "Auto";
private const string MANUAL = "Manual";
private const string DISABLED = "Disabled";
private const string ENGINEERING = "Engineering";
private const string PRODUCTION = "Production";
#endregion
#region 内部变量
///
/// Rinse设备
///
private RinseDevice _rinseDevice;
///
/// Cycle次数
///
private int _cycle = 0;
///
/// 已经完成的Cycle次数
///
private int _achievedCycle = 0;
///
/// Manual模式下Cycle run
///
private RinseCycleManualProcessRecipeRoutine _cycleManualProcessRoutine;
///
/// Keepwet Routine
///
private RinseKeepwetRoutine _keepwetRoutine;
///
/// Recipe时长
///
private Dictionary _dictRecipeTime = new Dictionary();
///
/// 持久性对象
///
private RinsePersistentValue _persistentValue;
///
/// 当前Recipe
///
private QdrRecipe _currentRecipe;
///
/// Recipe时长
///
private int _recipeTime;
///
/// Runrecipe已经运行的时间
///
private int _runrecipeElapsedTime = 0;
///
/// run recipe start time
///
private DateTime _runRecipeStartTime;
///
/// run recipe complete time
///
private DateTime _runRecipeCompleteTime;
///
/// 是否Retry
///
private bool _isRetry = false;
#region 计算recipe运行时间相关的配置文件参数
///
/// Concurrent Fill Time Seconds
///
private int _concurrentFillTimeSeconds;
///
/// 开始注水的偏差
///
private double _fillingStartedDelta;
///
/// 注满数值
///
private int _sensorReadingFull;
///
/// 液位为空数值
///
private int _sensorReadingEmpty;
///
/// 从开始排水到检测是否排空的间隔时间
///
private int _normalDrainTimeSeconds;
///
/// 开始注水后检测是否正常注水间隔
///
private int _checkIsFillingTimeSeconds;
///
/// 开始注水后检测是否注满间隔
///
private int _checkIsFullTimeSeconds;
///
/// Clamp Cycle开关次数
///
private int _numberClampCyclesToComplete;
///
/// Clamp开关等待时间
///
private double _clampCycleTimeSeconds;
#endregion
#endregion
#region 属性
///
/// 模块名称
///
public ModuleName Module { get; private set; }
///
/// 初始化状态
///
public bool IsInit
{
get { return fsm.State == (int)RinseState.Init; }
}
///
/// 是否完成初始化
///
public bool IsInitialized
{
get { return fsm.State >= (int)RinseState.Initialized; }
}
///
/// 空闲状态
///
public bool IsIdle
{
get
{
return fsm.State == (int)RinseState.Idle;
}
}
///
/// 是否发生错误
///
public bool IsError
{
get { return fsm.State == (int)RinseState.Error; }
}
///
/// 是否正在作业
///
public bool IsBusy { get { return fsm.State > (int)RinseState.Idle; } }
///
/// WaferHolder信息
///
public WaferHolderInfo WaferHolderInfo { get { return WaferHolderManager.Instance.GetWaferHolder(Module.ToString()); } }
///
/// 已完成的RunRecipeCycle次数
///
public int AchievedCycle { get { return _achievedCycle; } }
///
/// 当前状态机状态
///
public int State { get { return fsm.State; } }
///
/// Recipe时长
///
public int RecipeTime
{
get { return _recipeTime; }
}
///
/// 剩余时间
///
public override int TimeToReady
{
get
{
if (_currentRecipe == null)
{
return base.TimeToReady;
}
switch (fsm.State)
{
case (int)RinseState.RunReciping:
return Math.Max(_recipeTime - fsm.ElapsedTime / 1000, 0);
default:
return base.TimeToReady;
}
}
}
///
/// 是否禁用
///
public bool IsDisable { get { return _persistentValue == null || _persistentValue.OperatingMode == DISABLED; } }
///
/// 自动模式
///
public bool IsAuto { get { return _persistentValue != null && _persistentValue.OperatingMode == AUTO; } }
///
/// 自动模式
///
public bool IsManual { get { return _persistentValue != null && _persistentValue.OperatingMode == MANUAL; } }
///
/// 是否为工程模式
///
public bool IsEngineering { get { return _persistentValue != null && _persistentValue.RecipeOperatingMode == ENGINEERING; } }
///
/// 是否为产品模式
///
public bool IsProduction { get { return _persistentValue != null && _persistentValue.RecipeOperatingMode == PRODUCTION; } }
#endregion
///
/// 构造函数
///
///
public RinseEntity(ModuleName module)
{
Module = module;
_rinseDevice=DEVICE.GetDevice(Module.ToString());
WaferManager.Instance.SubscribeLocation(Module, 2);
//相关配置文件
InitialFsm();
}
///
/// 初始化
///
///
protected override bool Init()
{
InitializeParameter();
InitializeDATA();
InitializeRoutine();
InitializeOperation();
InitializeRoutine();
return true;
}
///
/// 初始化状态机
///
private void InitialFsm()
{
fsm = new StateMachine(Module.ToString(), (int)RinseState.Init, 20);
fsm.EnableRepeatedMsg(true);
AnyStateTransition(RinseMsg.Error, ErrorSolution, RinseState.Error);
Transition(RinseState.Error, RinseMsg.ResumeError, (param) => { return true; }, RinseState.Init);
//Initialized
AnyStateTransition(RinseMsg.Initialize, InitializeAll, RinseState.Initialized);
//直接进入Idle
Transition(RinseState.Initialized, FSM_MSG.TIMER, NullFunc, RinseState.Idle);
//CycleRunRecipe
Transition(RinseState.Idle, RinseMsg.CycleProcessRecipe, RunRecipeProcess, RinseState.CycleManualProcessing);
Transition(RinseState.CycleManualProcessing, FSM_MSG.TIMER, RunRecipeMonitor, RinseState.Idle);
Transition(RinseState.CycleManualProcessing,RinseMsg.Abort,RunRecipeAbort, RinseState.Idle);
//RunRecipe
Transition(RinseState.Idle, RinseMsg.RunRecipe, RunRecipeProcess, RinseState.RunReciping);
Transition(RinseState.RunReciping, FSM_MSG.TIMER, RunRecipeMonitor, RinseState.RunRecipeComplete);
Transition(RinseState.RunRecipeComplete, RinseMsg.RecipeComplete, NullFunc, RinseState.Idle);
Transition(RinseState.RunReciping, RinseMsg.Abort, RunRecipeAbort, RinseState.Abort);
//KeepWet
Transition(RinseState.RunRecipeComplete, RinseMsg.Keepwet, Keepwet, RinseState.KeepWeting);
Transition(RinseState.KeepWetComplete, RinseMsg.Keepwet, Keepwet, RinseState.KeepWeting);
Transition(RinseState.KeepWeting, FSM_MSG.TIMER, KeepwetMonitor, RinseState.KeepWetComplete);
Transition(RinseState.KeepWeting, RinseMsg.RecipeComplete, KeepwetingComplete, RinseState.Idle);
//Enter Init
Transition(RinseState.Idle, RinseMsg.Init, NullFunc, RinseState.Init);
//Retry
Transition(RinseState.Error, RinseMsg.Retry, NullFunc, RinseState.Retrying);
Transition(RinseState.Retrying, FSM_MSG.TIMER, RinseRetry, RinseState.Retrying);
Transition(RinseState.Retrying, RinseMsg.RunRecipe, RetryRunRecipe, RinseState.RunReciping);
EnumLoop.ForEach((item) => { fsm.MapState((int)item, item.ToString()); });
EnumLoop.ForEach((item) => { fsm.MapMessage((int)item, item.ToString()); });
}
///
/// 初始化参数
///
private void InitializeParameter()
{
_persistentValue = RinsePersistentManager.Instance.GetRinsePersistentValue(Module.ToString());
if (_persistentValue == null)
{
LOG.WriteLog(eEvent.ERR_RESERVOIR, Module.ToString(), "Persistent Value Object is not exist");
}
}
///
/// 初始化DATA
///
private void InitializeDATA()
{
InitializeSvid();
DATA.Subscribe($"{Module}.FsmState", () => ((RinseState)fsm.State).ToString(), SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe($"{Module}.WaferHolder", () => WaferHolderInfo, SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe($"{Module}.IsInit", () => IsInit, SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe($"{Module}.IsIdle", () => IsIdle, SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe($"{Module}.IsError", () => IsError, SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe($"{Module}.IsBusy", () => IsBusy, SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe($"{Module}.IsDisable", () => IsDisable, SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe($"{Module}.AchievedCycle", () => AchievedCycle, SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe($"{Module}.CurrentRecipe", () => _currentRecipe != null ? _currentRecipe.Ppid : "", SubscriptionAttribute.FLAG.IgnoreSaveDB);
}
///
/// 初始化SVID
///
private void InitializeSvid()
{
DATA.Subscribe($"{Module}.State", () => ((RinseState)fsm.State).ToString(), SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe($"{Module}.LotID", () => (WaferHolderInfo!=null?WaferHolderInfo.LotId:""), SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe($"{Module}.WSID", () => (WaferHolderInfo != null ? WaferHolderInfo.Id : ""), SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe($"{Module}.LSAID", () => (WaferHolderInfo != null ? WaferHolderInfo.CrsAId : ""), SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe($"{Module}.LSBID", () => (WaferHolderInfo != null ? WaferHolderInfo.CrsBId : ""), SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe($"{Module}.ModuleRecipe", () => (_currentRecipe != null ? _currentRecipe.Ppid : ""), SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe($"{Module}.SequenceRecipe", () => (WaferHolderInfo != null ? WaferHolderInfo.SequenceId : ""), SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe($"{Module}.WaferAID", () => (WaferHolderInfo != null ? WaferHolderInfo.WaferAId : ""), SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe($"{Module}.WaferBID", () => (WaferHolderInfo != null ? WaferHolderInfo.WaferBId : ""), SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe($"{Module}.TotalTime", () => _recipeTime, SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe($"{Module}.TimeRemain", () => _recipeTime != 0 ? (_recipeTime - Math.Round((double)_cycleManualProcessRoutine.ElapsedMilliseconds / 1000, 0)) : 0, SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe($"{Module}.Task", () => WaferHolderInfo != null ? WaferHolderInfo.CurrentControlJobId : "", SubscriptionAttribute.FLAG.IgnoreSaveDB);
DATA.Subscribe($"{Module}.OperatingMode", () => _persistentValue != null ? _persistentValue.OperatingMode : "None", SubscriptionAttribute.FLAG.IgnoreSaveDB);
}
///
/// 初始化Routine
///
private void InitializeRoutine()
{
_cycleManualProcessRoutine = new RinseCycleManualProcessRecipeRoutine(Module.ToString());
_keepwetRoutine = new RinseKeepwetRoutine(Module.ToString());
}
///
/// 初始化操作
///
private void InitializeOperation()
{
OP.Subscribe($"{Module}.InitializeAll", (cmd, args) => { return CheckToPostMessage(eEvent.ERR_RINSE, Module.ToString(), (int)RinseMsg.Initialize); });
OP.Subscribe($"{Module}.CycleManualProcessRecipe", (cmd, args) =>
{
QdrRecipe recipe = RecipeFileManager.Instance.LoadGenericityRecipe(args[0].ToString());
if (recipe == null)
{
LOG.WriteLog(eEvent.ERR_RINSE, Module.ToString(), $"{args[0]} recipe is null");
return false;
}
object[] objects = new object[args.Length];
objects[0] = recipe;
for (int i = 1; i < args.Length; i++)
{
objects[i] = args[i];
}
return CheckToPostMessage(eEvent.ERR_RINSE, Module.ToString(), (int)RinseMsg.CycleProcessRecipe, objects);
});
OP.Subscribe($"{Module}.Abort", (cmd, args) => { return CheckToPostMessage(Aitex.Core.RT.Log.eEvent.ERR_RINSE, Module.ToString(), (int)RinseMsg.Abort); });
}
///
/// EnterInit
///
public void EnterInit()
{
if ((RinseState)fsm.State != RinseState.Idle) return;
else
{
CheckToPostMessage(eEvent.ERR_RINSE, Module.ToString(), (int)RinseMsg.Init);
}
}
#region Initialized
///
/// Initialize
///
///
///
private bool InitializeAll(object[] param)
{
if (fsm.State == (int)RinseState.Initializing)
{
LOG.WriteLog(eEvent.WARN_RINSE, Module.ToString(), "state is Initializing,cannot do initialize");
return false;
}
_rinseDevice.UpdateStateMachine("Idle");
_rinseDevice.UpdateStatus("Idle");
if (!CheckSafety())
{
return false;
}
if (!_rinseDevice.IOInitialized)
{
return false;
}
return _rinseDevice.IOInitialized;
}
///
/// 检验Safety
///
///
private bool CheckSafety()
{
SafetyDevice safetyDevice = DEVICE.GetDevice("Safety");
if (safetyDevice != null)
{
bool result= safetyDevice.SafetyData.TwincatState == 8;
if (!result)
{
LOG.WriteLog(eEvent.ERR_RINSE, Module.ToString(), "Twincat Status is not OP status");
return false;
}
}
return true;
}
#endregion
private bool ErrorSolution(object[] param)
{
bool result = _rinseDevice.FillValveOff();
if (!result)
{
LOG.WriteLog(eEvent.ERR_RINSE, "Close Fill Valve error");
}
result = _rinseDevice.N2ValveOff();
if (!result)
{
LOG.WriteLog(eEvent.ERR_RINSE, "Close N2 Valve error");
}
return true;
}
#region RunRecipe
///
/// Run Recipe
///
///
///
private bool RunRecipeProcess(object[] param)
{
_concurrentFillTimeSeconds = SC.GetValue("QDR.ConcurrentFillTimeSeconds");
_fillingStartedDelta = SC.GetValue("QDR.FillingStartedDelta");
_sensorReadingFull = SC.GetValue("QDR.SensorReadingFull");
_sensorReadingEmpty = SC.GetValue("QDR.SensorReadingEmpty");
_normalDrainTimeSeconds = SC.GetValue("QDR.NominalDrainTimeSeconds");
_checkIsFillingTimeSeconds = SC.GetValue("QDR.NominalCheckFillWaterTimeSeconds");
_checkIsFullTimeSeconds = SC.GetValue("QDR.NominalCheckFillFullTimeSeconds");
_numberClampCyclesToComplete = SC.GetValue("QDR.NumberClampCyclesToComplete");
_clampCycleTimeSeconds = SC.GetValue("QDR.ClampCycleTimeSeconds");
_cycle = (int)param[1];
QdrRecipe recipe = param[0] as QdrRecipe;
bool result = _cycleManualProcessRoutine.Start(param) == RState.Running;
_runrecipeElapsedTime = 0;
if (result)
{
//_recipeTime = 0;
_isRetry = false;
_recipeTime = CalculateRunRecipeTime(recipe, _cycle);
_currentRecipe = recipe;
_runRecipeStartTime = DateTime.Now;
if (WaferHolderInfo != null && _currentRecipe != null)
{
FaModuleNotifier.Instance.NotifyWaferShuttleRecipeStart(WaferHolderInfo, _currentRecipe.Ppid);
}
}
return result;
}
private int CalculateRunRecipeTime(QdrRecipe _recipe, int cycle)
{
int totaltime = 0;
Dictionary processTimeDic = new Dictionary();
processTimeDic.Add("RinseFirstStep.WaitDrianEmpty", _recipe.DumpTimeSeconds);
if (_recipe.Step1N2BubbleOn)
{
processTimeDic.Add("RinseFirstStep.N2BubbleOnDelay", _recipe.N2ChargeTimeSeconds);
}
processTimeDic.Add("RinseFirstStep.Recipe_FirstRinseCycleWaitEndFillTime", _concurrentFillTimeSeconds * _recipe.Step1NumberOfRinse);
processTimeDic.Add("RinseFirstStep.Recipe_FirstRinseCycleWaitDwell", _recipe.Step1DwellTimeSeconds * _recipe.Step1NumberOfRinse);
processTimeDic.Add("RinseFirstStep.Recipe_FirstRinseCycleWaitDrainExtraTime", _recipe.DumpTimeSeconds * _recipe.Step1NumberOfRinse);
if (!_recipe.FinalRinseDry) //没有第三步rinse
{
processTimeDic.Add("RinseSecondStep.Recipe_SecondRinseCycleWaitEndFillTime", _concurrentFillTimeSeconds * _recipe.Step2NumberOfRinse);
processTimeDic.Add("RinseSecondStep.Recipe_SecondRinseCycleWaitDwell", _recipe.Step2DwellTimeSeconds * (_recipe.Step2NumberOfRinse - 1));
processTimeDic.Add("RinseSecondStep.Recipe_SecondRinseCycleWaitDrainExtraTime", _recipe.DumpTimeSeconds * _recipe.Step2NumberOfRinse);
processTimeDic.Add("RinseSecondStep.Recipe_SecondRinseCycleWaitResistivityStart", _recipe.ResistivityStartTimeSeconds);
processTimeDic.Add("RinseSecondStep.Recipe_SecondRinseCycleResistivityAveraging", _recipe.ResistivityDurationSeconds);
}
else //有第三步rinse
{
processTimeDic.Add("RinseSecondStep.Recipe_SecondRinseCycleWaitEndFillTime", _concurrentFillTimeSeconds * _recipe.Step2NumberOfRinse);
processTimeDic.Add("RinseSecondStep.Recipe_SecondRinseCycleWaitDwell", _recipe.Step2DwellTimeSeconds * _recipe.Step2NumberOfRinse);
processTimeDic.Add("RinseSecondStep.Recipe_SecondRinseCycleWaitDrainExtraTime", _recipe.DumpTimeSeconds * _recipe.Step2NumberOfRinse);
processTimeDic.Add("RinseThirdStep.Recipe_ThirdRinseWaitEndFillTime", _concurrentFillTimeSeconds);
processTimeDic.Add("RinseThirdStep.Recipe_ThirdRinseWaitClampTime", _recipe.FinalRinsePulseClampTime);
processTimeDic.Add("RinseThirdStep.Recipe_ThirdRinseCycleWaitSlowDrainTime", _recipe.FinalRinseSlowDrainTime);
processTimeDic.Add("RinseThirdStep.Recipe_ThirdRinseCycleWaitDrainExtraTime", _recipe.DumpTimeSeconds);
}
totaltime = processTimeDic.Sum(x => x.Value);
return totaltime * cycle;
}
///
/// Retry RunRecipe
///
///
///
private bool RetryRunRecipe(object[] param)
{
int stepIndex = (int)param[0];
bool result = _cycleManualProcessRoutine.Retry(stepIndex) == RState.Running;
if (result)
{
_isRetry = true;
if (_currentRecipe != null)
{
_recipeTime = CalculateRunRecipeTime(_currentRecipe, _cycle);
}
}
return result;
}
///
/// 监控
///
///
///
private bool RunRecipeMonitor(object[] param)
{
RState state = _cycleManualProcessRoutine.Monitor();
if (Singleton.Instance.IsAutoRunning&&_runrecipeElapsedTime!=TimeToReady)
{
_runrecipeElapsedTime =TimeToReady;
LOG.WriteLog(eEvent.INFO_RINSE, Module.ToString(), $"{WaferHolderInfo?.Id} {Module} RunRecipe TimeToReady {_recipeTime-fsm.ElapsedTime/1000}s.");
}
if (state == RState.Failed || state == RState.Timeout)
{
if (Singleton.Instance.IsAutoRunning)
{
//不存在其他可用的Rinse
if (!CheckOtherRinseAvaible())
{
AlarmList alarmList = new AlarmList(Module.ToString(), ((RinseState)fsm.State).ToString(), (int)RinseMsg.RunRecipe,
_cycleManualProcessRoutine.ErrorMsg, _cycleManualProcessRoutine.ErrorStep, (int)AlarmType.Error);
AlarmListManager.Instance.AddAlarm(alarmList);
}
}
PostMsg(RinseMsg.Error);
_rinseDevice.UpdateStateMachine("Error");
_rinseDevice.UpdateStatus("Error");
_runrecipeElapsedTime = 0;
//记录LotTrack
_runRecipeCompleteTime = DateTime.Now;
_cycleManualProcessRoutine.RinseLotTrackHeaderDatas.ProcessTime = (_runRecipeCompleteTime - _runRecipeStartTime).TotalSeconds.ToString("F2");
RinseLotTrackUtil.ExportRinseLotTrack(Module.ToString(), _cycleManualProcessRoutine.RinseLotTrackDatas,
_cycleManualProcessRoutine.RinseLotTrackHeaderDatas, IsAuto, _isRetry);
if (WaferHolderInfo != null && _currentRecipe != null)
{
FaModuleNotifier.Instance.NotifyWaferShuttleRecipeFailed(WaferHolderInfo, _currentRecipe.Ppid);
}
return false;
}
_achievedCycle = _cycleManualProcessRoutine.GetAchievedCycle();
bool result = state == RState.End;
if (result)
{
_runrecipeElapsedTime = 0;
if (Singleton.Instance.IsAutoRunning)
{
AlarmListManager.Instance.CheckModuleAlamAndRemove(Module.ToString(), RinseState.RunReciping.ToString());
}
//记录LotTrack
_runRecipeCompleteTime = DateTime.Now;
int timeLength = (int)(_runRecipeCompleteTime - _runRecipeStartTime).TotalSeconds;
_cycleManualProcessRoutine.RinseLotTrackHeaderDatas.ProcessTime = (_runRecipeCompleteTime - _runRecipeStartTime).TotalSeconds.ToString("F2");
RinseLotTrackUtil.ExportRinseLotTrack(Module.ToString(), _cycleManualProcessRoutine.RinseLotTrackDatas,
_cycleManualProcessRoutine.RinseLotTrackHeaderDatas, IsAuto, _isRetry);
if (WaferHolderInfo != null && _currentRecipe != null)
{
FaModuleNotifier.Instance.NotifyWaferShuttleRecipeEnd(WaferHolderInfo, _currentRecipe.Ppid, timeLength);
}
}
return result;
}
///
/// 校验其他rinse是否可用
///
///
private bool CheckOtherRinseAvaible()
{
ModuleName metalName = WaferHolderInfo.MetalModuleName;
if (metalName!=ModuleName.Unknown)
{
return SchedulerSequenceManager.Instance.GetAvaibleModuleCell(_persistentValue.RecipeOperatingMode,ModuleType.Rinse, metalName)!=ModuleName.Unknown;
}
else
{
return false;
}
}
private bool RunRecipeAbort(object[] param)
{
_cycleManualProcessRoutine.Abort();
_rinseDevice.UpdateStateMachine("Abort");
_rinseDevice.UpdateStatus("Abort");
//记录LotTrack
_runRecipeCompleteTime = DateTime.Now;
_cycleManualProcessRoutine.RinseLotTrackHeaderDatas.ProcessTime = (_runRecipeCompleteTime - _runRecipeStartTime).TotalSeconds.ToString("F2");
RinseLotTrackUtil.ExportRinseLotTrack(Module.ToString(), _cycleManualProcessRoutine.RinseLotTrackDatas,
_cycleManualProcessRoutine.RinseLotTrackHeaderDatas, IsAuto, _isRetry);
return true;
}
#endregion
#region Keepwet
///
/// keepwet
///
///
///
private bool Keepwet(object[] param)
{
return _keepwetRoutine.Start(param) == RState.Running;
}
///
/// 停止Keepwet
///
///
///
private bool KeepwetingComplete(object[] param)
{
// _keepwetRoutine.Abort();
return true;
}
///
/// keepwet
///
///
///
private bool KeepwetMonitor(object[] param)
{
RState ret = _keepwetRoutine.Monitor();
if (ret == RState.End)
{
return true;
}
if (ret == RState.Failed || ret == RState.Timeout)
{
PostMsg(RinseMsg.Error);
}
return false;
}
#endregion
#region RinseRetry
///
/// Retry
///
///
///
private bool RinseRetry(object[] param)
{
AlarmList alarmList = AlarmListManager.Instance.GetAlarmListByModule(Module.ToString());
if (alarmList != null)
{
CheckToPostMessage(eEvent.WARN_RINSE, Module.ToString(), alarmList.ModuleCmd,
alarmList.ModuleStep);
}
return false;
}
#endregion
public bool Check(int msg, out string reason, params object[] args)
{
reason = "";
return true;
}
public bool CheckAcked(int msg)
{
return true;
}
public int Invoke(string function, params object[] args)
{
switch (function)
{
case "HomeAll":
if (IsIdle)
{
return (int)FSM_MSG.NONE;
}
if (CheckToPostMessage(eEvent.ERR_RINSE, Module.ToString(), (int)RinseMsg.Initialize))
{
return (int)RinseMsg.Initialize;
}
else
{
return (int)FSM_MSG.NONE;
}
case "Retry":
if (CheckToPostMessage(eEvent.ERR_RINSE, Module.ToString(), (int)RinseMsg.Retry))
{
return (int)RinseMsg.Retry;
}
else
{
return (int)FSM_MSG.NONE;
}
}
return (int)FSM_MSG.NONE;
}
}
public enum RinseMsg
{
Error,
Initialize,
ResumeError,
CycleProcessRecipe,
RunRecipe,
Abort,
Keepwet,
RecipeComplete,
Init,
Retry
}
}