using Aitex.Core.RT.DataCenter; using Aitex.Core.RT.Device; using Aitex.Core.RT.Event; using Aitex.Core.RT.Log; using Aitex.Core.RT.OperationCenter; using Aitex.Core.RT.SCCore; using Aitex.Core.RT.IOCore; using Aitex.Core.Util; using MECF.Framework.Common.Communications; using MECF.Framework.RT.EquipmentLibrary.HardwareUnits.Temps.Omron; using System; using System.Collections.Generic; using System.Collections; using System.Linq; using System.Reflection; using System.Text; using System.Threading; using System.Threading.Tasks; namespace MECF.Framework.RT.EquipmentLibrary.HardwareUnits.Temps.AE { public class AETemp : BaseDevice, IConnection,IDevice { private AETempConnection _connection; private bool _activeMonitorStatus; private int _errorCode; private R_TRIG _trigCommunicationError = new R_TRIG(); private R_TRIG _trigRetryConnect = new R_TRIG(); private PeriodicJob _thread; private int tempCount = 1; private LinkedList _lstHandler = new LinkedList(); private object _locker = new object(); private bool _enableLog = true; private string _scRoot; public double AETemp1 { get; set; } public double AETemp2 { get; set; } public double AETemp3 { get; set; } public string Address { get; set; } public bool IsConnected { get { return _connection != null && _connection.IsConnected; } } public bool Connect() { return true; } public bool Disconnect() { return true; } public AETemp(string module, string name, string scRoot) : base(module, name, name, name) { _scRoot = scRoot; _activeMonitorStatus = true; } ~AETemp() { _connection.Disconnect(); } //public TempOmron(string module, string name, string scRoot) : base(module, name, name, name) //{ // //tempCount = count; // _scRoot = scRoot; // _activeMonitorStatus = true; //} public void QueryTemp() { _lstHandler.AddLast(new AETempReadCommandHandler(this,"OUT","1")); } public void ResetDevice() { } public void QueryError() { EV.PostInfoLog(Module, "Query error"); } public bool Initialize() { // string portName = SC.GetStringValue($"{_scRoot}.{Module}.{Name}.Address"); string portName = SC.GetStringValue($"{Name}.Address"); Address = portName; //int address = SC.GetValue($"{_scRoot}.{Name}.DeviceAddress"); _enableLog = SC.GetValue($"{Name}.EnableLogMessage"); _connection = new AETempConnection(portName); _connection.EnableLog(_enableLog); int count = SC.ContainsItem("System.ComPortRetryCount") ? SC.GetValue("System.ComPortRetryCount") : 5; int sleep = SC.ContainsItem("System.ComPortRetryDelayTime") ? SC.GetValue("System.ComPortRetryDelayTime") : 2; if (sleep <= 0 || sleep > 10) sleep = 2; int retry = 0; do { _connection.Disconnect(); Thread.Sleep(sleep * 1000); if (_connection.Connect()) { EV.PostInfoLog(Module, $"{Name} connected"); break; } if (count > 0 && retry++ > count) { LOG.Write($"Retry connect {Module}.{Name} stop retry."); EV.PostAlarmLog(Module, $"Can't connect to {Module}.{Name}."); break; } Thread.Sleep(sleep * 1000); LOG.Write($"Retry connect {Module}.{Name} for the {retry + 1} time."); } while (true); _thread = new PeriodicJob(200, OnTimer, $"{Module}.{Name} MonitorHandler", true); DATA.Subscribe($"{Module}.{Name}.AETemp1", () => AETemp1); DATA.Subscribe($"{Module}.{Name}.AETemp2", () => AETemp2); DATA.Subscribe($"{Module}.{Name}.AETemp3", () => AETemp3); //DATA.Subscribe($"{Module}.{Name}.SettingTemp", () => SettingTemp); //OP.Subscribe($"{Module}.{Name}.WriteConfigData", SetCofig); // ConnectionManager.Instance.Subscribe($"{Name}", this); return true; } private bool OnTimer() { try { _connection.MonitorTimeout(); if (!_connection.IsConnected || _connection.IsCommunicationError) { // lock (_locker) { _lstHandler.Clear(); } _trigRetryConnect.CLK = !_connection.IsConnected; if (_trigRetryConnect.Q) { //_connection.SetPortAddress(SC.GetStringValue($"{_scRoot}.{Name}.Address")); if (!_connection.Connect()) { //qbh 20220330 //OP.DoOperation($"{Module}.PMAETemp.SetPyroCommunicationError", true); LOG.Write($"{Module}.PMAETemp.SetPyroCommunicationError"); //在Process模式和PreProcess模式下AE掉线直接Abort string moduleStatus = DATA.Poll($"{Module}.Status").ToString(); if (moduleStatus == "PreProcess" || moduleStatus == "Process") { OP.DoOperation($"{Module}.Abort"); EV.PostWarningLog(Module, $"Can not connect with {_connection.Address}, {Module}.{Name}"); } else { EV.PostAlarmLog(Module, $"Can not connect with {_connection.Address}, {Module}.{Name}"); } } else { //qbh 20220330 //OP.DoOperation($"{Module}.PMAETemp.SetPyroCommunicationError", false); LOG.Write($"{Module}.PMAETemp.SetPyroCommunicationError,reconnected."); } } _connection.ForceClear(); return true; } HandlerBase handler = null; //if (!_connection.IsBusy) //{ lock (_locker) { if (_lstHandler.Count == 0) QueryTemp(); if (_lstHandler.Count > 0 && !_connection.IsBusy) { handler = _lstHandler.First.Value; _lstHandler.RemoveFirst(); if (handler != null) { _connection.Execute(handler); } } } } catch (Exception ex) { LOG.Write(ex); } return true; } internal void NoteError() { } public void ParseCommandInfo(string command, string Message) { switch (command) { case "OUT": { if(Message!=null) { if (Message.Contains(" ")) { var strs = Message.Split(' '); AETemp1 = Convert.ToDouble(strs[0]); AETemp2 = Convert.ToDouble(strs[1]); AETemp3 = Convert.ToDouble(strs[2]); //AETemp1 = TempFilter2("AETemp1", Convert.ToDouble(strs[0])); //AETemp2 = TempFilter2("AETemp2", Convert.ToDouble(strs[1])); //AETemp3 = TempFilter2("AETemp3", Convert.ToDouble(strs[2])); } } } break; } } #region 滤波 //qbh 20220309 const int iQueCap = 10; static Queue qWafInner = new Queue(iQueCap); //static Queue qSusInner = new Queue(iQueCap); static Queue qWafMiddle = new Queue(iQueCap); //static Queue qSusMiddle = new Queue(iQueCap); static Queue qWafOuter = new Queue(iQueCap); //static Queue qSusOuter = new Queue(iQueCap); const double dbThres = 20.0; public static double TempFilter(string sName, double dbNewTemp) { // Queue qTempData = new Queue(); switch (sName) { case "AETemp1": qTempData = qWafInner; break; case "AETemp2": qTempData = qWafMiddle; break; case "AETemp3": qTempData = qWafOuter; break; default: break; } // qTempData.Enqueue(dbNewTemp); // if (qTempData.Count < iQueCap) { return dbNewTemp; } else { // while (qTempData.Count > iQueCap) { qTempData.Dequeue(); } // List liTemp = new List(); object[] objs = qTempData.ToArray(); foreach (object obj in objs) { liTemp.Add((double)obj); } liTemp.Sort(); if (liTemp.Count > 0) { liTemp.RemoveAt(0); } liTemp.Reverse(); if (liTemp.Count > 0) { liTemp.RemoveAt(0); } // double dbAvg = 0.0; foreach (double data in liTemp) { dbAvg += data; } dbAvg /= liTemp.Count; // return dbAvg; } // } /// /// 均方根值法 /// /// /// /// public static double TempFilter2(string sName, double dbNewTemp) { // Queue qTempData = new Queue(); switch (sName) { case "AETemp1": qTempData = qWafInner; break; case "AETemp2": qTempData = qWafMiddle; break; case "AETemp3": qTempData = qWafOuter; break; default: break; } // qTempData.Enqueue(dbNewTemp); // if (qTempData.Count < iQueCap) { return dbNewTemp; } else { // while (qTempData.Count > iQueCap) { qTempData.Dequeue(); } // List liTemp = new List(); object[] objs = qTempData.ToArray(); foreach (object obj in objs) { liTemp.Add((double)obj); } liTemp.Sort(); if (liTemp.Count > 0) { liTemp.RemoveAt(0); } liTemp.Reverse(); if (liTemp.Count > 0) { liTemp.RemoveAt(0); } //均方根 double dbAvg = 0.0; foreach (double data in liTemp) { dbAvg += data * data; } dbAvg /= liTemp.Count; dbAvg = Math.Sqrt(dbAvg); // return dbAvg; } // } #endregion public void Monitor() { try { _connection.EnableLog(_enableLog); _trigCommunicationError.CLK = _connection.IsCommunicationError; if (_trigCommunicationError.Q) { EV.PostAlarmLog(Module, $"{Module}.{Name} communication error, {_connection.LastCommunicationError}"); } } catch (Exception ex) { LOG.Write(ex); } } public void Reset() { _connection.SetCommunicationError(false, ""); _enableLog = SC.GetValue($"{Module}.{Name}.EnableLogMessage"); _trigCommunicationError.RST = true; _trigRetryConnect.RST = true; } public void SetActiveMonitor(bool active) { _activeMonitorStatus = active; } public void SetErrorCode(int errorCode) { _errorCode = errorCode; } public void Terminate() { _connection.Disconnect(); } } }