private int initRadioButttonOfGateLogic() { int error_code; GateAlarmLogic gateLogic = GateAlarmLogic.Negative; GateAlarmActive alarmActive = GateAlarmActive.OFF; error_code = GetGateDAQ.AlarmActive(SelectAscan.sessionIndex, SelectAscan.port, gateNum, ref alarmActive); if (error_code != 0) { return(error_code); } if (alarmActive == GateAlarmActive.OFF) { radioButtonOff.Checked = true; return(error_code); } else if (alarmActive == GateAlarmActive.ON) { error_code = GetGateDAQ.AlarmLogic(SelectAscan.sessionIndex, SelectAscan.port, gateNum, ref gateLogic); if (error_code != 0) { return(error_code); } switch (gateLogic) { case GateAlarmLogic.Negative: radioButtonNegative.Checked = true; break; case GateAlarmLogic.Positive: radioButtonPositive.Checked = true; break; default: error_code = -1; MessageShow.show("Warn:Bind the controls of gate logic failed!", "警告:绑定Gate logic 的控件失败!"); break; } return(error_code); } else { MessageShow.show("Warn:Get the testing of gate logic!", "警告:获取Gate logic 的测试模式!"); return(error_code = -1); } }
//使得筛选的通道和当前显示通道所有参数变得一样 public static int Param(uint sessionIndex, uint selPort) { int error_code = 0; bool isSetPre = false; double delay = 0; double range = 0; double gain = 0; uint envlopDecay = 0; AscanWaveDectionMode waveMode = AscanWaveDectionMode.SemiPositve; RecieverType type = RecieverType.Pc; AscanEnvelopActive envelopActive = AscanEnvelopActive.OFF; int gateTol = 4; TofMode tofMode = TofMode.Flank; TofMode[] tofModeArr = new TofMode[gateTol]; GateAlarmLogic[] gateAlarmLogic = new GateAlarmLogic[gateTol]; GateAlarmActive[] gateAlarmActive = new GateAlarmActive[gateTol]; double[] gateDelay = new double[gateTol]; double[] gateWidth = new double[gateTol]; double[] threshold = new double[gateTol]; SuppressCounterActive[] scActive = new SuppressCounterActive[gateTol]; uint[] scCount = new uint[gateTol]; IFActive ifActive = IFActive.OFF; AscanIFActive ascanIfActive = AscanIFActive.OFF; //取得当前通道的所有参数 error_code = GetAsacnVideoDAQ.Delay(sessionIndex, selPort, ref delay); error_code |= GetAsacnVideoDAQ.Range(sessionIndex, selPort, ref range); error_code |= GetAsacnVideoDAQ.Range(sessionIndex, selPort, ref range); error_code |= GetRecieverDAQ.AnalogGain(sessionIndex, selPort, ref gain); error_code |= GetAsacnVideoDAQ.EnvlopDecayFactor(sessionIndex, selPort, ref envlopDecay); error_code |= GetAsacnVideoDAQ.DetectionWaveMode(sessionIndex, selPort, ref waveMode); error_code |= GetPulserTransmitDAQ.RecieverMode(sessionIndex, selPort, ref type); error_code |= GetAsacnVideoDAQ.EnvlopActive(sessionIndex, selPort, ref envelopActive); error_code |= GetGateDAQ.IFActive(sessionIndex, selPort, GateType.I, ref ifActive); error_code |= GetAsacnVideoDAQ.IFActive(sessionIndex, selPort, ref ascanIfActive); for (int i = 0; i < gateTol; i++) { GateType gateIndex = (GateType)i; error_code |= GetGateDAQ.TofMode(sessionIndex, selPort, gateIndex, ref tofModeArr[i]); error_code |= GetGateDAQ.AlarmLogic(sessionIndex, selPort, gateIndex, ref gateAlarmLogic[i]); error_code |= GetGateDAQ.AlarmActive(sessionIndex, selPort, gateIndex, ref gateAlarmActive[i]); error_code |= GetGateDAQ.Delay(sessionIndex, selPort, gateIndex, ref gateDelay[i]); error_code |= GetGateDAQ.Width(sessionIndex, selPort, gateIndex, ref gateWidth[i]); error_code |= GetGateDAQ.Threshold(sessionIndex, selPort, gateIndex, ref threshold[i]); error_code |= GetGateDAQ.ScActive(sessionIndex, selPort, gateIndex, ref scActive[i]); error_code |= GetGateDAQ.ScCounter(sessionIndex, selPort, gateIndex, ref scCount[i]); } if (error_code != 0) { return(error_code); } //赋值 for (int i = 0; i < batchSessionsInfo.Count; i++) { uint port = (uint)batchSessionsInfo[i].port; uint seIndex = (uint)batchSessionsInfo[i].sessionIndex; //第二种情况||batchSessionsInfo[i].sessionIndex != sessionIndex //if (batchSessionsInfo[i].sessionIndex == sessionIndex && port != selPort )//以selPort号为依据配置同一块板卡的其他虚拟通道的参数 { error_code = SetAscanVideoDAQ.Delay(seIndex, port, delay); error_code |= SetAscanVideoDAQ.Range(seIndex, port, range); error_code |= SetReceiverDAQ.AnalogGain(seIndex, port, gain); error_code |= SetAscanVideoDAQ.EnvlopDecayFactor(seIndex, port, envlopDecay); isSetPre = SetAscanVideoDAQ.WaveMode(seIndex, port, waveMode); error_code |= SetPulserTransmitDAQ.RecieverMode(seIndex, port, type); error_code |= SetAscanVideoDAQ.EnvlopActive(seIndex, port, envelopActive); for (int j = 0; j < gateTol; j++) { GateType gateIndex = (GateType)j; isSetPre |= SetGateDAQ.setTofMode(seIndex, port, gateIndex, tofModeArr[j]); error_code |= SetGateDAQ.AlarmLogic(seIndex, port, gateIndex, gateAlarmLogic[j]); error_code |= SetGateDAQ.AlarmActive(seIndex, port, gateIndex, gateAlarmActive[j]); error_code |= SetGateDAQ.Delay(seIndex, port, gateIndex, gateDelay[j]); error_code |= SetGateDAQ.Width(seIndex, port, gateIndex, gateWidth[j]); error_code |= SetGateDAQ.Threshold(seIndex, port, gateIndex, threshold[j]); error_code |= SetGateDAQ.ScActive(seIndex, port, gateIndex, scActive[j]); error_code |= SetGateDAQ.ScCounter(seIndex, port, gateIndex, scCount[j]); if (error_code != 0) { return(error_code); } } error_code |= GetGateDAQ.TofMode(seIndex, port, GateType.I, ref tofMode); if (ifActive == IFActive.ON && ascanIfActive == AscanIFActive.ON) { if (tofMode != TofMode.Flank) { MessageShow.show("Warning:" + seIndex + port + "The TOF Mode GateI must select Flank mode!", "警告:" + sessionIndex + port + "门模式门I未选择Flank模式!"); return(error_code = -1); } else { error_code |= SetGateDAQ.iFActive(seIndex, port, GateType.I, IFActive.ON); error_code |= SetAscanVideoDAQ.IFActive(seIndex, port, AscanIFActive.ON); } } else { error_code |= SetGateDAQ.iFActive(seIndex, port, GateType.I, IFActive.OFF); error_code |= SetAscanVideoDAQ.IFActive(seIndex, port, AscanIFActive.OFF); } if (error_code != 0) { return(error_code); } } } return(error_code); }
/**Get Gate DAQ*/ private static int getGate(uint ascanNum, uint ascanPort, GateType gateType, ref PGate param) { int error_code; error_code = GetGateDAQ.Delay(ascanNum, ascanPort, gateType, ref param.Delay); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.Width(ascanNum, ascanPort, gateType, ref param.Width); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.Threshold(ascanNum, ascanPort, gateType, ref param.Threshold); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.IFActive(ascanNum, ascanPort, gateType, ref param.IF); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.TofMode(ascanNum, ascanPort, gateType, ref param.TofMode); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.DnsActive(ascanNum, ascanPort, gateType, ref param.DnsActive); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.DnsBw(ascanNum, ascanPort, gateType, ref param.DnsBw); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.DnsStart(ascanNum, ascanPort, gateType, ref param.DnsStart); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.DnsStep(ascanNum, ascanPort, gateType, ref param.DnsStep); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.AlarmLogic(ascanNum, ascanPort, gateType, ref param.AlarmLogic); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.ScActive(ascanNum, ascanPort, gateType, ref param.ScActive); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.ScCounter(ascanNum, ascanPort, gateType, ref param.ScCounter); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.DtsActive(ascanNum, ascanPort, gateType, ref param.DtsActive); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.DtsBand(ascanNum, ascanPort, gateType, ref param.DtsBand); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.DtsStart(ascanNum, ascanPort, gateType, ref param.DtsStart); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.DtsStep(ascanNum, ascanPort, gateType, ref param.DtsStep); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.TolMonitorActive(ascanNum, ascanPort, gateType, ref param.TolMonitorActive); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.TolMonitorMax(ascanNum, ascanPort, gateType, ref param.TolMonitorMax); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.TolMonitorMin(ascanNum, ascanPort, gateType, ref param.TolMonitorMin); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.TolMonitorSc(ascanNum, ascanPort, gateType, ref param.TolMonitorSc); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.AlarmActive(ascanNum, ascanPort, gateType, ref param.AlarmActive); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.AlarmMode(ascanNum, ascanPort, gateType, ref param.AlarmMode); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.AlarmSignalLength(ascanNum, ascanPort, gateType, ref param.AlarmSignalLength); if (error_code != 0) { return(error_code); } //error_code = SetGateDAQ.AlarmTimeLength(ascanNum, gateType, param.); //if (error_code != 0) // return error_code; error_code = GetGateDAQ.AlarmActiveLevel(ascanNum, ascanPort, gateType, ref param.AlarmActiveLevel); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.MeasActive(ascanNum, ascanPort, gateType, ref param.MeasActive); if (error_code != 0) { return(error_code); } error_code = GetGateDAQ.MeasMode(ascanNum, ascanPort, gateType, ref param.MeasMode); if (error_code != 0) { return(error_code); } return(error_code); }