using Aitex.Core.Common.DeviceData; using Aitex.Core.RT.DataCenter; using Aitex.Core.RT.Device; using Aitex.Core.RT.OperationCenter; using MECF.Framework.Common.CommonData.DeviceData; using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Threading.Tasks; using System.Xml; namespace MECF.Framework.Common.Device.Bases { public abstract class ChillerBase : BaseDevice, IDevice { public virtual bool IsConnected => true; public virtual bool IsCH1Alarm { get; set; } public virtual bool IsCH2Alarm { get; set; } public virtual bool IsCH1Warning { get; set; } public virtual bool IsCH2Warning { get; set; } public virtual bool IsCH1On { get; set; } public virtual bool IsCH2On { get; set; } public virtual float[] TemperatureSetpoint { get; set; } public virtual float[] TemperatureFeedback { get; set; } public virtual float[] TemperaturePValue { get; set; } public virtual float[] TemperatureIValue { get; set; } public virtual float[] TemperatureDValue { get; set; } public virtual float[] TemperatureOffsetValue { get; set; } public virtual float CH1WaterFlow { get; set; } public virtual float CH2WaterFlow { get; set; } public virtual float Frequency { get; set; } public virtual float TemperatureHighLimit { get; set; } public virtual float TemperatureLowLimit { get; set; } public virtual AITChillerData1 DeviceData { get; set; } protected ChillerBase() : base() { } protected ChillerBase(string module, XmlElement node, string ioModule = "") { base.Module = string.IsNullOrEmpty(node.GetAttribute("module")) ? module : node.GetAttribute("module"); base.Name = node.GetAttribute("id"); } public virtual bool Initialize() { DATA.Subscribe($"{Module}.{Name}.DeviceData", () => DeviceData); DATA.Subscribe($"{Module}.{Name}.IsCH1On", () => IsCH1On); DATA.Subscribe($"{Module}.{Name}.IsCH2On", () => IsCH2On); DATA.Subscribe($"{Module}.{Name}.IsCH1Alarm", () => IsCH1Alarm); DATA.Subscribe($"{Module}.{Name}.IsCH2Alarm", () => IsCH2Alarm); DATA.Subscribe($"{Module}.{Name}.TemperatureSetpoint", () => TemperatureSetpoint); DATA.Subscribe($"{Module}.{Name}.TemperatureFeedback", () => TemperatureFeedback); DATA.Subscribe($"{Module}.{Name}.TemperaturePValue", () => TemperaturePValue); DATA.Subscribe($"{Module}.{Name}.TemperatureIValue", () => TemperatureIValue); DATA.Subscribe($"{Module}.{Name}.TemperatureDValue", () => TemperatureDValue); DATA.Subscribe($"{Module}.{Name}.TemperatureOffsetValue", () => TemperatureOffsetValue); DATA.Subscribe($"{Module}.{Name}.CH1WaterFlow", () => CH1WaterFlow); DATA.Subscribe($"{Module}.{Name}.CH2WaterFlow", () => CH2WaterFlow); OP.Subscribe($"{Module}.{Name}.SetChillerCH1On", (function, args) => { SetChillerCH1OnOff(Convert.ToBoolean(args[0])); return true; }); OP.Subscribe($"{Module}.{Name}.SetChillerCH2On", (function, args) => { SetChillerCH2OnOff(Convert.ToBoolean(args[0])); return true; }); OP.Subscribe($"{Module}.{Name}.SetChillerCH1Temperature", (function, args) => { SetChillerCH1Temperature(Convert.ToSingle(args[0])); return true; }); OP.Subscribe($"{Module}.{Name}.SetChillerCH2Temperature", (function, args) => { SetChillerCH2Temperature(Convert.ToSingle(args[0])); return true; }); return true; } public virtual void SetChillerCH1OnOff(bool isOn) { } public virtual void SetChillerCH2OnOff(bool isOn) { } public virtual void SetChillerCH1Temperature(float temperature) { } public virtual void SetChillerCH2Temperature(float temperature) { } public virtual void Terminate() { } public virtual void Monitor() { } public virtual void Reset() { } } }