public string DailySnap_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { int timeDiff = TimeZone.CurrentTimeZone.GetUtcOffset(DateTime.Now).Hours; int curTime = MemoryRegisters.DailyGMTHourRead.Value + timeDiff; if (curTime < 0) { curTime = 24 + curTime; } if (curTime == 0) { return(MIDNIGHT); } else if (curTime <= 11) { return(curTime + AM); } else if (curTime == 12) { return(NOON); } else if (curTime > 12 && curTime < 24) { return((curTime - 12) + PM); } else { return(OFF); } }
public bool Equals(MemoryOverload <T> other) { if (other == null) { return(false); } if (this.registerIds.Length == other.registerIds.Length) { for (int i = this.registerIds.Length - 1; i >= 0; i--) { if (!string.Equals(this.registerIds[i], other.registerIds[i])) { return(false); } } } bool ok_id = string.Equals(this.id, other.id); bool ok_description = string.Equals(this.description, other.description); bool ok_methodId = string.Equals(this.methodId, other.methodId); return(ok_id && ok_description && ok_methodId); }
public string PCBNumber_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { string tempString = string.Empty; //ASCII RANGE FOR PCBSupplierCode if (MemoryRegisters.PCBSupplierCode.Value >= 65 && MemoryRegisters.PCBSupplierCode.Value <= 90) { tempString = tempString + Convert.ToChar(MemoryRegisters.PCBSupplierCode.Value) + "-"; } if (MemoryRegisters.PCBCoreNumber.Value >= 0) { tempString = tempString + string.Format(PCBFORMAT, MemoryRegisters.PCBCoreNumber.Value); } if (MemoryRegisters.PCBProductRevision.Value >= 65 && MemoryRegisters.PCBProductRevision.Value <= 90) { tempString = tempString + "-" + Convert.ToChar(MemoryRegisters.PCBProductRevision.Value); } string result = (string.IsNullOrEmpty(tempString)) ? NTAVAILABLE : tempString; return(result); }
public async Task <string> DaysOfNoFlow_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { string reply = string.Empty; string param = Convert.ToString(await MemoryRegisters.FlowState.GetValue(), INDEX_STATE) .PadLeft(PAD_LEFT, ZERO) .Substring(3, 3); switch (param) { case CASE_000: reply = CASE_000_TX; break; case CASE_001: reply = CASE_001_TX; break; case CASE_010: reply = CASE_010_TX; break; case CASE_011: reply = CASE_011_TX; break; case CASE_100: reply = CASE_100_TX; break; case CASE_101: reply = CASE_101_TX; break; case CASE_110: reply = CASE_110_TX; break; } return(reply + CASE_NOFLOW); }
public async Task <string> MtuSoftVersionString342x_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { return(string.Format(MTU_SOFTVERSION_LONG, await MemoryRegisters.MtuSoftVersionMajor.GetValue(), await MemoryRegisters.MtuSoftVersionMinor.GetValue(), await MemoryRegisters.MtuSoftBuildNumber.GetValue())); }
public string MtuSoftVersionString342x_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { return(string.Format(MTU_SOFTVERSION_LONG, MemoryRegisters.MtuSoftVersionMajor.Value, MemoryRegisters.MtuSoftVersionMinor.Value, MemoryRegisters.MtuSoftBuildNumber.Value)); }
public string DaysOfLeak_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { string reply = string.Empty; string param = Convert.ToString(MemoryRegisters.LeakState.Value, INDEX_STATE) .PadLeft(PAD_LEFT, ZERO) .Substring(2, 3); switch (param) { case CASE_000: reply = CASE_000_TX; break; case CASE_001: reply = CASE_001_TX; break; case CASE_010: reply = CASE_010_TX; break; case CASE_011: reply = CASE_011_TX; break; case CASE_100: reply = CASE_100_TX; break; case CASE_101: reply = CASE_101_TX; break; case CASE_110: reply = CASE_110_TX; break; } return(reply + CASE_LEAK); }
public async Task <int> MtuSoftVersion_Get(MemoryOverload <int> memoryOverload, dynamic MemoryRegisters) { if (await MemoryRegisters.MtuSoftVersionNew.GetValue() == 255) { return(await MemoryRegisters.MtuSoftVersionLegacy.GetValue()); } return(await MemoryRegisters.MtuSoftVersionNew.GetValue()); }
public int MtuSoftVersion_Get(MemoryOverload <int> memoryOverload, dynamic MemoryRegisters) { if (MemoryRegisters.MtuSoftVersionNew.Value == 255) { return(MemoryRegisters.MtuSoftVersionLegacy.Value); } return(MemoryRegisters.MtuSoftVersionNew.Value); }
public string MtuSoftVersionString_Get(MemoryOverload <string> memoryOverload, dynamic MemoryRegisters) { int mtuSoftVersion = MemoryRegisters.MtuSoftVersion.Value; if (mtuSoftVersion == 254) { return(string.Format(MTU_SOFTVERSION_LONG, MemoryRegisters.MtuSoftRevYear.Value, MemoryRegisters.MtuSoftRevMonth.Value, MemoryRegisters.MtuSoftBuildNumber.Value)); } return(string.Format(MTU_SOFTVERSION_SMALL, mtuSoftVersion)); }
public async Task <string> LeakDetection_Get(MemoryOverload <string> MemoryOverload, dynamic[] MemoryRegisters) { string reply = string.Empty; string param = Convert.ToString(await MemoryRegisters[0].GetValue(), INDEX_STATE) .PadLeft(PAD_LEFT, ZERO) .Substring(5, 2); switch (param) { case CASE_00: reply = CASE_00_LKD; break; case CASE_01: reply = CASE_01_LKD; break; case CASE_10: reply = CASE_10_LKD; break; } return(reply); }
public string LeakDetection_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { string reply = string.Empty; string param = Convert.ToString(MemoryRegisters.LeakState.Value, INDEX_STATE) .PadLeft(PAD_LEFT, ZERO) .Substring(5, 2); switch (param) { case CASE_00: reply = CASE_00_LKD; break; case CASE_01: reply = CASE_01_LKD; break; case CASE_10: reply = CASE_10_LKD; break; } return(reply); }
public string BackFlowState_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { string reply = string.Empty; string param = Convert.ToString(MemoryRegisters.FlowState.Value, INDEX_STATE) .PadLeft(PAD_LEFT, ZERO) .Substring(6); switch (param) { case CASE_00: reply = CASE_00_BFS; break; case CASE_01: reply = CASE_01_BFS; break; case CASE_10: reply = CASE_10_BFS; break; } return(reply); }
public async Task <string> DailySnap_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { Global global = Singleton.Get.Configuration.Global; Mtu mtu = Singleton.Get.Action.CurrentMtu; if (!global.AllowDailyReads || !mtu.DailyReads) { return(DISABLED); } int timeDiff = TimeZone.CurrentTimeZone.GetUtcOffset(DateTime.Now).Hours; int curTime = await MemoryRegisters.DailyGMTHourRead.GetValue() + timeDiff; if (curTime < 0) { curTime = 24 + curTime; } if (curTime == 0) { return(MIDNIGHT); } else if (curTime <= 11) { return(curTime + AM); } else if (curTime == 12) { return(NOON); } else if (curTime > 12 && curTime < 24) { return((curTime - 12) + PM); } else { return(DISABLED); } }
public async Task <string> MtuSoftVersionString_Get(MemoryOverload <string> memoryOverload, dynamic MemoryRegisters) { int mtuSoftVersion = await MemoryRegisters.MtuSoftVersion.GetValue(); // NOTE: MtuSoftVersion in Encoders/E-coders seems to be always 254 and // the bytes for registers used creating MTU_SOFTVERSION_LONG are the same, // changing only the name ( e.g. MtuSoftRevYear and MtuSoftVersionMajor both 245 ) // For example mtuSoftVersion for MTUs.. // For 138, 149, 151 is 41 // For 146, 148 is 50 // For 159 is 47 if (mtuSoftVersion == 254) { return(string.Format(MTU_SOFTVERSION_LONG, await MemoryRegisters.MtuSoftRevYear.GetValue(), await MemoryRegisters.MtuSoftRevMonth.GetValue(), await MemoryRegisters.MtuSoftBuildNumber.GetValue())); } return(string.Format(MTU_SOFTVERSION_SMALL, mtuSoftVersion)); }
public string Encryption_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { return((MemoryRegisters.Encrypted.Value) ? YES : NO); }
public int MtuSoftVersion342x_Get(MemoryOverload <int> memoryOverload, dynamic MemoryRegisters) { return(MemoryRegisters.MtuSoftFormatFlag.Value); }
public string InstallConfirmationStatus_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { return((MemoryRegisters.InstallConfirmationNotSynced.Value) ? NTCONFIRMED : CONFIRMED); }
public string MtuVoltageBattery_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { return(((MemoryRegisters.MtuMiliVoltageBattery.Value * 1.0) / 1000).ToString(MTUVLFORMAT)); }
public string F12WAYRegister14_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { return(HEX_PREFIX + MemoryRegisters.F12WAYRegister14Int.Value.ToString(FWAYFORMAT)); }
public string Frequency2WayRx_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { return(String.Format(new CultureInfo("en-us"), "{0:0.000}", (MemoryRegisters.Frequency2WayRxHz.Value / 1000000.0))); }
public string InsufficentMemory_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { return((MemoryRegisters.InsufficentMemoryTamper.Value) ? ENABLED : TRIGGERED); }
public string P2Status_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { return(GetPortStatus(MemoryRegisters.P2StatusFlag.Value)); }
public string P2ReadingError_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { return(TranslateErrorCodes(MemoryRegisters.P2ReadingErrorCode.Value)); }
public string InterfaceTamperStatus_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { return(GetTemperStatus(MemoryRegisters.P1InterfaceAlarm.Value, MemoryRegisters.ProgrammingCoilInterfaceTamper.Value)); }
public string ReverseFlowTamperStatus_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { return(GetTemperStatus(MemoryRegisters.P1ReverseFlowAlarm.Value, MemoryRegisters.ReverseFlowTamper.Value)); }
public string MagneticTamperStatus_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { return(GetTemperStatus(MemoryRegisters.P1MagneticAlarm.Value, MemoryRegisters.MagneticTamper.Value)); }
public string TiltTamperStatus_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { return(GetTemperStatus(MemoryRegisters.P1TiltAlarm.Value, MemoryRegisters.TiltTamper.Value)); }
public string FastMessagingMode_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { return((MemoryRegisters.Fast2Way.Value) ? MESAG_FAST : MESAG_SLOW); }
public string LastGasp_Get(MemoryOverload <string> MemoryOverload, dynamic MemoryRegisters) { return((MemoryRegisters.LastGaspTamper.Value) ? ENABLED : TRIGGERED); }