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Sic.Framework/MECF.Framework.RT.Equipment.../HardwareUnits/FFUs/DW254Pressure/DWPressure.cs

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2023-04-13 11:51:03 +08:00
using System;
using System.Collections.Generic;
using System.Threading;
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.Util;
using MECF.Framework.Common.Communications;
using MECF.Framework.RT.EquipmentLibrary.HardwareUnits.FFUs.MayAir;
namespace MECF.Framework.RT.EquipmentLibrary.HardwareUnits.FFUs.AAF
{
public class DWPressure : BaseDevice, IConnection
{
private DWPressureConnection _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 pressureCount = 1;
private LinkedList<HandlerBase> _lstHandler = new LinkedList<HandlerBase>();
private object _locker = new object();
private bool _enableLog = true;
private string _scRoot;
private int _pressureValue1 = 999;
private int _pressureValue2 = 888;
private int _pressureValue3 = 777;
public int PressureValue1
{
get { return _pressureValue1; }
set { _pressureValue1 = value; }
}
public int PressureValue2
{
get { return _pressureValue2; }
set { _pressureValue2 = value; }
}
public int PressureValue3
{
get { return _pressureValue3; }
set { _pressureValue3 = value; }
}
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 DWPressure(string module, string name, string scRoot) : base(module, name, name, name)
{
_scRoot = scRoot;
_activeMonitorStatus = true;
}
~DWPressure()
{
_connection.Disconnect();
}
public DWPressure(string module, string name, string scRoot, int count) : base(module, name, name, name)
{
pressureCount = count;
_scRoot = scRoot;
_activeMonitorStatus = true;
}
public void QueryPressure()
{
if (pressureCount == 1)
{ _lstHandler.AddLast(new DWPressureQueryPressureHandler(this, 1)); }
if (pressureCount == 2)
{
_lstHandler.AddLast(new DWPressureQueryPressureHandler(this, 1));
_lstHandler.AddLast(new DWPressureQueryPressureHandler(this, 3));
}
if (pressureCount == 3)
{
_lstHandler.AddLast(new DWPressureQueryPressureHandler(this, 1));
_lstHandler.AddLast(new DWPressureQueryPressureHandler(this, 3));
_lstHandler.AddLast(new DWPressureQueryPressureHandler(this, 5));
}
}
public void ResetDevice()
{
}
public void QueryError()
{
EV.PostInfoLog(Module, "Query error");
}
public bool Initialize()
{
//DATA.Subscribe($"{Module}.{Name}.Power", () => _power);
//DATA.Subscribe($"{Module}.{Name}.ErrorCode", () => _errorCode);
//DATA.Subscribe($"{Module}.{Name}.IsAtSpeed", () => _isAtSpeed);
//DATA.Subscribe($"{Module}.{Name}.IsAccelerate", () => _isAccelerate);
string portName = SC.GetStringValue($"{_scRoot}.{Name}.Address");
Address = portName;
int address = SC.GetValue<int>($"{_scRoot}.{Name}.DeviceAddress");
_enableLog = SC.GetValue<bool>($"{_scRoot}.{Name}.EnableLogMessage");
_connection = new DWPressureConnection(portName);
_connection.EnableLog(_enableLog);
int count = SC.ContainsItem("System.ComPortRetryCount") ? SC.GetValue<int>("System.ComPortRetryCount") : 5;
int sleep = SC.ContainsItem("System.ComPortRetryDelayTime") ? SC.GetValue<int>("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, $"{Module}.{Name} MonitorHandler", true);
DATA.Subscribe($"{Name}.DiffPressure1", () => _pressureValue1);
DATA.Subscribe($"{Name}.DiffPressure2", () => _pressureValue2);
DATA.Subscribe($"{Name}.DiffPressure3", () => _pressureValue3);
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())
{
EV.PostAlarmLog(Module, $"Can not connect with {_connection.Address}, {Module}.{Name}");
}
}
_connection.ForceClear();
return true;
}
HandlerBase handler = null;
//if (!_connection.IsBusy)
//{
lock (_locker)
{
if(_lstHandler.Count == 0)
QueryPressure();
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 Monitor()
{
try
{
_connection.EnableLog(_enableLog);
_trigCommunicationError.CLK = _connection.IsCommunicationError;
if (_trigCommunicationError.Q)
{
EV.PostAlarmLog(Module, $"{Module}.{Name} communication error, {_connection.LastCommunicationError}");
}
}
catch (Exception ex)
{
LOG.Write(ex);
}
}
public void Reset()
{
_connection.SetCommunicationError(false, "");
_trigCommunicationError.RST = true;
_enableLog = SC.GetValue<bool>($"{Module}.{Name}.EnableLogMessage");
_trigRetryConnect.RST = true;
}
public void SetPumpOnOff(bool isOn)
{
lock (_locker)
{
}
}
public void SetActiveMonitor(bool active)
{
_activeMonitorStatus = active;
}
public void SetErrorCode(int errorCode)
{
_errorCode = errorCode;
}
public void Terminate()
{
_connection.Disconnect();
}
}
}