protected bool ConfigWavelength(string dutcurrentchannel) { //string CurrnentWavelength = ""; bool flag = false; string[] wavtemp = new string[4]; Wavelength = Wavelength.Trim(); wavtemp = Wavelength.Split(new char[] { ',' }); byte i = Convert.ToByte(Convert.ToInt16(dutcurrentchannel) - 1); try { //flag = MyIO.WriteString(":sense" + AttSlot + ":channel " + AttChannel + ":power:wavelength" + wavtemp[i] + "E-9"); flag = MyIO.WriteString(":INP" + AttSlot + ":WAV " + wavtemp[i] + "nm"); logger.AdapterLogString(0, "AttSlot is" + AttSlot + "Wavelength is" + wavtemp[i] + "nm"); return(flag); } catch (Exception error) { logger.AdapterLogString(3, error.ToString()); return(false); } }
protected bool ConfigWavelength(string dutcurrentchannel, int syn = 0) { lock (syncRoot) { //string CurrnentWavelength = ""; bool flag = false; bool flag1 = false; int k = 0; string readtemp = ""; double waveinput; double waveoutput; string[] wavtemp = new string[4]; Wavelength = Wavelength.Trim(); wavtemp = Wavelength.Split(new char[] { ',' }); byte i = Convert.ToByte(Convert.ToInt16(dutcurrentchannel) - 1); try { if (syn == 0) { Log.SaveLogToTxt("AttSlot is" + AttSlot + ":Channel" + AttChannel + "Wavelength is" + wavtemp[i] + "nm"); return(this.WriteString(":INP" + AttSlot + ":Channel" + AttChannel + ":WAV " + wavtemp[i] + "nm")); } else { for (int j = 0; j < 3; j++) { flag1 = this.WriteString(":INP" + AttSlot + ":Channel" + AttChannel + ":WAV " + wavtemp[i] + "nm"); if (flag1 == true) { break; } } if (flag1 == true) { for (k = 0; k < 3; k++) { this.WriteString(":INP" + AttSlot + ":Channel" + AttChannel + ":WAV?"); readtemp = this.ReadString(); waveinput = Convert.ToDouble(wavtemp[i]); waveoutput = Convert.ToDouble(readtemp) * Math.Pow(10, 9); if (waveinput == waveoutput) { break; } } if (k <= 3) { flag = true; Log.SaveLogToTxt("AttSlot is" + AttSlot + ":Channel" + AttChannel + "Wavelength is" + wavtemp[i] + "nm"); } else { Log.SaveLogToTxt("ATT set Wavelength wrong"); } } return(flag); } } catch (InnoExCeption error) { Log.SaveLogToTxt("ErrorCode=" + ExceptionDictionary.Code._Funtion_Fatal_0x05002 + "Reason=" + error.TargetSite.Name + "Fail"); throw error; } catch (Exception error) { Log.SaveLogToTxt("ErrorCode=" + ExceptionDictionary.Code._Funtion_Fatal_0x05002 + "Reason=" + error.TargetSite.Name + "Fail"); throw new InnoExCeption(ExceptionDictionary.Code._Funtion_Fatal_0x05002, error.StackTrace); // throw new InnoExCeption(ex); } } }
private bool ConfigWavelength(string dutCurrentChannel, int syn = 0) { lock (syncRoot) { bool flag = false; string[] wavelengthList = new string[4]; byte i = Convert.ToByte(Convert.ToInt16(dutCurrentChannel) - 1); Wavelength = Wavelength.Trim(); wavelengthList = Wavelength.Split(','); try { if (syn == 0) { Log.SaveLogToTxt("AttSlot is " + AttSlot + ", DeviceChannel is " + DeviceChannel + ", Wavelength is " + wavelengthList[i] + "nm"); return(this.WriteString(":OUTP:WAV " + AttSlot + "," + DeviceChannel + "," + wavelengthList[i])); } else { bool tempFlag = false; string readtemp = ""; int k = 0; for (int j = 0; j < 3; j++) { tempFlag = this.WriteString(":OUTP:WAV " + AttSlot + "," + DeviceChannel + "," + wavelengthList[i]); if (tempFlag) { break; } } if (tempFlag) { for (k = 0; k < 3; k++) { Thread.Sleep(100); this.WriteString(":OUTP:WAV? " + AttSlot + "," + DeviceChannel); readtemp = this.ReadString(); if (Convert.ToDouble(readtemp) == Convert.ToDouble(wavelengthList[i])) { break; } } if (k <= 2) { Log.SaveLogToTxt("AttSlot is " + AttSlot + ", DeviceChannel is " + DeviceChannel + ", Wavelength is " + wavelengthList[i] + "nm"); flag = true; } else { Log.SaveLogToTxt("ConfigWavelength wrong"); } } return(flag); } } catch (Exception error) { Log.SaveLogToTxt(error.ToString()); return(false); } } }