using DTS.Common.Classes.Sensors;
using DTS.Common.Enums;
using DTS.Common.Enums.Sensors;
using DTS.Common.Interface.Sensors;
using DTS.Common.Storage;
using DTS.Common.Utilities.Logging;
using System;

namespace DTS.SensorDB
{
    public class ThermocouplerSetting : SensorData
    {
        ///<summary>
        ///</summary>
        public ThermocouplerSetting() : base()
        {
            SetDefaults(this);
        }
        public ThermocouplerSetting(ThermocouplerSetting copy) : base(copy)
        {
            SetDefaults(this);
        }

        public ThermocouplerSetting(IThermocouplerRecord record)
        {
            SetDefaults(this);
            try
            {
                DatabaseId = record.Id;
                SerialNumber = record.SerialNumber;
                Broken = record.Broken;
                DoNotUse = record.DoNotUse;
                LastModified = record.LastModified;
                LastUpdatedBy = record.LastUpdatedBy;
            }
            catch (Exception ex)
            {
                APILogger.Log("Failed to process: ", ex);
            }
        }

        public static void SetDefaults(SensorData sd)
        {
            sd.SupportedExcitation = new Common.Enums.ExcitationVoltageOptions.ExcitationVoltageOption[] { ExcitationVoltageOptions.ExcitationVoltageOption.Undefined };
            sd.Bridge = SensorConstants.BridgeType.Thermocoupler;
            sd.AxisNumber = 0;
            sd.NumberOfAxes = 1;
            sd.Capacity = 1;
            sd.DisplayUnit = "";
            sd.BridgeResistance = double.NaN;
            sd.CheckOffset = false;
            sd.Manufacturer = "Generic";
            sd.OffsetToleranceHigh = 0;
            sd.OffsetToleranceLow = 0;
            sd.Model = "Thermocoupler Setting";
            sd.Shunt = ShuntMode.None;
            sd.MeasureExcitation = false;
            sd.MeasureNoise = false;
        }
    }
}