private string UpdateDisplayReading(RXDATA_MODE mode) { string ch = "CH" + (task.currRx.iChan + 1).ToString(); if (mode == RXDATA_MODE.RX) { return(Util.FormatData(task.currRx.var.rRx, 8) + " Ω"); } if (mode == RXDATA_MODE.RATIO_RX) { double r = Program.testdata.my_avg(ch) / task.currRs.dTValue; return(Util.FormatDataWithSpace(r, 8)); } if (mode == RXDATA_MODE.RS) { return(Util.FormatData(task.currRs.dTValue, 8) + " Ω"); } if (mode == RXDATA_MODE.AVG_RX) { if (Program.testdata.validrows(ch) == 0) { return("0.000 000 0 Ω"); } return(Util.FormatData(Program.testdata.my_avg(ch), 8) + " Ω"); } if (mode == RXDATA_MODE.MAX_RX) { return(Util.FormatData(Program.testdata.my_max(ch), 8) + " Ω"); } if (mode == RXDATA_MODE.MIN_RX) { return(Util.FormatData(Program.testdata.my_min(ch), 8) + " Ω"); } if (mode == RXDATA_MODE.VAR_RX) { if (Program.testdata.my_sqrtsum(ch) < 1e-8) { return("0.00 ppm"); } else { return((Program.testdata.my_sqrtsum(ch) * 1e6).ToString("F2") + " ppm"); } } return("0"); }
private string GetData(RXDATA_MODE mode) { if (mode == RXDATA_MODE.LAST) { return(Util.FormatData(my_last, 8) + " Ω"); } if (mode == RXDATA_MODE.RATIO) { double r = my_avg / Program.lst_rsinfo[0].dTValue; return(Util.FormatDataWithSpace(r, 8)); } if (mode == RXDATA_MODE.RS) { return(Util.FormatData(Program.lst_rsinfo[0].dTValue, 8) + " Ω"); } if (mode == RXDATA_MODE.AVERAGE) { if (valid_rows == 0) { return("0.000 000 0 Ω"); } return(Util.FormatData(my_avg, 8) + " Ω"); } if (mode == RXDATA_MODE.MAX) { return(Util.FormatData(my_max, 8) + " Ω"); } if (mode == RXDATA_MODE.MIN) { return(Util.FormatData(my_min, 8) + " Ω"); } if (mode == RXDATA_MODE.VARIANCE) { if (my_sqrtsum < 1e-8) { return("0.00 ppm"); } else { return((my_sqrtsum * 1e6).ToString("F2") + " ppm"); } } return("0"); }
private string GetData(RXDATA_MODE mode) { PointPair.datamode = mode; if (mode == RXDATA_MODE.LAST) { return(Util.FormatData(Program.data.my_last(config.sChannel), 8) + " C"); } if (mode == RXDATA_MODE.RATIO) { double r = Program.data.my_avg(config.sChannel) / Program.lst_rsinfo[myRx.iStdChan - 1].dTValue; return(Util.FormatDataWithSpace(r, 8)); } if (mode == RXDATA_MODE.RX) { return(Util.FormatData(Program.data.my_last(config.sChannel), 8) + " Ω"); } if (mode == RXDATA_MODE.RS) { return(Util.FormatData(Program.lst_rsinfo[myRx.iStdChan - 1].dTValue, 8) + " Ω"); } if (mode == RXDATA_MODE.AVERAGE) { if (Program.data.validrows(config.sChannel) == 0) { return("0.000 000 0 Ω"); } return(Util.FormatData(Program.data.my_avg(config.sChannel), 8) + " Ω"); } if (mode == RXDATA_MODE.MAX) { return(Util.FormatData(Program.data.my_max(config.sChannel), 8) + " Ω"); } if (mode == RXDATA_MODE.MIN) { return(Util.FormatData(Program.data.my_min(config.sChannel), 8) + " Ω"); } if (mode == RXDATA_MODE.VARIANCE) { return((Program.data.my_sqrtsum(config.sChannel) * 1e6).ToString("F2") + " PPM"); } return("0"); }
private string GetData(RXDATA_MODE mode) { if (mode == RXDATA_MODE.LAST) return Util.FormatData(my_last, 8) + " Ω"; if (mode == RXDATA_MODE.RATIO) { double r = my_avg / Program.lst_rsinfo[0].dTValue; return Util.FormatDataWithSpace(r,8); } if (mode == RXDATA_MODE.RS) { return Util.FormatData(Program.lst_rsinfo[0].dTValue, 8) + " Ω"; } if (mode == RXDATA_MODE.AVERAGE) { if (valid_rows == 0) return "0.000 000 0 Ω"; return Util.FormatData(my_avg, 8) + " Ω"; } if (mode == RXDATA_MODE.MAX) return Util.FormatData(my_max,8) + " Ω"; if (mode == RXDATA_MODE.MIN) return Util.FormatData(my_min, 8) + " Ω"; if (mode == RXDATA_MODE.VARIANCE) { if (my_sqrtsum < 1e-8) return "0.00 ppm"; else return (my_sqrtsum * 1e6).ToString("F2") + " ppm"; } return "0"; }
private string UpdateDisplayReading(RXDATA_MODE mode) { string ch = "CH" + (task.currRx.iChan+1).ToString(); if (mode == RXDATA_MODE.RX) { return Util.FormatData(task.currRx.var.rRx, 8) + " Ω"; } if (mode == RXDATA_MODE.RATIO_RX) { double r = Program.testdata.my_avg(ch) / task.currRs.dTValue; return Util.FormatDataWithSpace(r, 8); } if (mode == RXDATA_MODE.RS) { return Util.FormatData(task.currRs.dTValue, 8) + " Ω"; } if (mode == RXDATA_MODE.AVG_RX) { if (Program.testdata.validrows(ch) == 0) return "0.000 000 0 Ω"; return Util.FormatData(Program.testdata.my_avg(ch), 8) + " Ω"; } if (mode == RXDATA_MODE.MAX_RX) return Util.FormatData(Program.testdata.my_max(ch), 8) + " Ω"; if (mode == RXDATA_MODE.MIN_RX) return Util.FormatData(Program.testdata.my_min(ch), 8) + " Ω"; if (mode == RXDATA_MODE.VAR_RX) { if (Program.testdata.my_sqrtsum(ch) < 1e-8) return "0.00 ppm"; else return (Program.testdata.my_sqrtsum(ch) * 1e6).ToString("F2") + " ppm"; } return "0"; }
private string GetData(RXDATA_MODE mode) { PointPair.datamode = mode; if (mode == RXDATA_MODE.LAST) return Util.FormatData(Program.data.my_last(config.sChannel), 8) + " C"; if (mode == RXDATA_MODE.RATIO) { double r = Program.data.my_avg(config.sChannel) / Program.lst_rsinfo[myRx.iStdChan-1].dTValue; return Util.FormatDataWithSpace(r,8); } if (mode == RXDATA_MODE.RX) { return Util.FormatData(Program.data.my_last(config.sChannel), 8) + " Ω"; } if (mode == RXDATA_MODE.RS) { return Util.FormatData(Program.lst_rsinfo[myRx.iStdChan-1].dTValue, 8) + " Ω"; } if (mode == RXDATA_MODE.AVERAGE) { if (Program.data.validrows(config.sChannel) == 0) return "0.000 000 0 Ω"; return Util.FormatData(Program.data.my_avg(config.sChannel), 8) + " Ω"; } if (mode == RXDATA_MODE.MAX) return Util.FormatData(Program.data.my_max(config.sChannel), 8) + " Ω"; if (mode == RXDATA_MODE.MIN) return Util.FormatData(Program.data.my_min(config.sChannel), 8) + " Ω"; if (mode == RXDATA_MODE.VARIANCE) { return (Program.data.my_sqrtsum(config.sChannel) * 1e6).ToString("F2") + " PPM"; } return "0"; }