private void daq_Click(object sender, RoutedEventArgs e) { DAQ daq = new DAQ(); daq.InitializeComponent(); daq.WindowStartupLocation = WindowStartupLocation.CenterScreen; daq.ShowDialog(); }
public Form1() { BlockingCollection <RawData> rawData = new BlockingCollection <RawData>(); DAQ daq = new DAQ(); converter = new ConvertAlgo(); IDAQ transducerdaq = new TransducerDAQ(daq, rawData); dataTreatment = new DataTreatment(rawData, converter); Measure = new UC2M2_UC3M3_Measure(transducerdaq, dataTreatment); InitializeComponent(); dataTreatment.Attach(this); // Lars GUIgraphList = new List <ConvertedData>(); }
static void Main(string[] args) { BlockingCollection <RawData> rawData = new BlockingCollection <RawData>(); DAQ daq = new DAQ(); IDAQ transducerdaq = new TransducerDAQ(daq, rawData); UC2M2_UC3M3_Measure newMeasurement = new UC2M2_UC3M3_Measure(transducerdaq); DataTreatment dataTreatment = new DataTreatment(rawData); newMeasurement.StartMeasurement(); dataTreatment.ShowData(); Console.ReadKey(); }
static void Main(string[] args) { BlockingCollection <RawData> rawCollection = new BlockingCollection <RawData>(); BlockingCollection <RawData> graphCollection = new BlockingCollection <RawData>(); DAQ daq = new DAQ(); ConvertAlgo convertAlgo = new ConvertAlgo(); IDAQ transducerdaq = new TransducerDAQ(daq, rawCollection); DataTreatment dataTreatment = new DataTreatment(rawCollection, graphCollection, convertAlgo, ); IMeasure measurement = new UC2M2_UC3M3_Measure(transducerdaq, dataTreatment); Application.EnableVisualStyles(); Application.SetCompatibleTextRenderingDefault(false); Application.Run(new MainGUI(dataTreatment)); }
static void Main() { BlockingCollection <double> rawCollection = new BlockingCollection <double>(); BlockingCollection <double> graphCollection = new BlockingCollection <double>(); BlockingCollection <double> calibrationCollection = new BlockingCollection <double>(); BlockingCollection <double> alarmCollection = new BlockingCollection <double>(); BlockingCollection <double> filterCollection = new BlockingCollection <double>(); DAQ daq = new DAQ(); ConvertAlgo convertAlgo = new ConvertAlgo(); BloodPressureAlgo bpAlgo = new BloodPressureAlgo(); PulseAlgo pulseAlgo = new PulseAlgo(); IDAQ transducerdaq = new TransducerDAQ(daq, rawCollection, calibrationCollection); IData data = new Database(); IAlarmType alarmType = new HighAlarm(); ILimits limits = new UC9S5_Limits(); IAlarm alarm = new UC5S1_Alarm(alarmCollection, limits, alarmType, bpAlgo); IFilter filter = new UC7S3_Filter(filterCollection, data, convertAlgo); UC1M1_ZeroAdjustment uc1 = new UC1M1_ZeroAdjustment(calibrationCollection, transducerdaq); DataTreatment dataTreatment = new DataTreatment(rawCollection, graphCollection, filterCollection, alarmCollection, convertAlgo, data, alarm, uc1); IMeasure measurement = new UC2M2_UC3M3_Measure(transducerdaq, dataTreatment, alarm, filter); ICalibrate calibrate = new UC6S2_Calibrate(calibrationCollection, transducerdaq, data); IZeroAdjustment zero = new UC1M1_ZeroAdjustment(calibrationCollection, transducerdaq); IPulse pulse = new UC8S4_Pulse(dataTreatment, pulseAlgo); ISave save = new UC4M4_SaveData(data, dataTreatment); Application.EnableVisualStyles(); Application.SetCompatibleTextRenderingDefault(false); ZeroAdjustmentGUI zeroAdjustment = new ZeroAdjustmentGUI(zero); CalibrateGUI calibrateGUI = new CalibrateGUI(calibrate, measurement); LoginToCalibrateGUI login = new LoginToCalibrateGUI(calibrateGUI); SaveDataGUI saveGUI = new SaveDataGUI(save); ChangeLimitsGUI limitsGUI = new ChangeLimitsGUI(limits); MainGUI gui = new MainGUI(dataTreatment, measurement, login, zeroAdjustment, alarm, pulse, bpAlgo, filter, saveGUI, limitsGUI, calibrateGUI); Application.Run(gui); }
public void ApplyBackground() { DAQ.ApplyStreamBackground(this); }
public static extern Result SetDAQProperties([In] ref DAQ DAQProperties);
public static extern Result AddDAQ([In, Out] ref DAQ DAQProperties);
public static extern Result GetDAQProperties([In, Out] ref DAQ DAQProperties);
internal Thread ProcessUserCommand(LMMMLingo.OpDesc cmdt, string tline, DAQ.DAQControl control, ref bool keepgoing) { Thread t = null; // each prompt command might have a '=' followed by a single numeric argument e.g. cmd = 1 Int32 arg = 0; bool hasarg = ParsePrompt(tline, cmdt, ref arg); // if we didnt get an arg but one is required for the operation (5 or 6 commands, see the list) // then go get the config value from the config state and use it for arg if (cmdt.needsArg && !hasarg) // use the lambda to get the config value arg = cmdt.cfgInt32.Value; keepgoing = true; switch (cmdt.tok) { case LMMMLingo.Tokens.quit: // quit console prompt Console.WriteLine(NC.App.AbbrName + "> Be seeing you . . ."); keepgoing = false; break; case LMMMLingo.Tokens.lm: // set or show cur LM # try { CurrentLM = arg; Console.WriteLine(NC.App.AbbrName + ">LM= " + arg); } catch (Exception e) { commlog.TraceEvent(LogLevels.Error, 361, "Current instrument and measurement undefined or incomplete: " + e.Message); } break; case LMMMLingo.Tokens.help: //Console.Write(NC.App.AbbrName + ">"); foreach (string s in cmdprocessor.CmdPromptHelp) Console.WriteLine(s); break; case LMMMLingo.Tokens.config: // //Console.Write(NC.App.AbbrName + ">"); NCCConfig.Config.ShowCfg(NC.App.Config, NC.App.AppContext.Verbose() == System.Diagnostics.TraceEventType.Verbose); break; case LMMMLingo.Tokens.stop: // mostly for stopping an assay, might work for HV Calib too but must test it Console.Write(NC.App.AbbrName + ">"); control.StopCurrentAction(); // NEXT: see if this works for HV Calib break; case LMMMLingo.Tokens.assay: if (hasarg) { NC.App.Opstate.Measurement.MeasurementId.MeasOption = (AssaySelector.MeasurementOption)arg; Console.WriteLine(NC.App.AbbrName + ">assay type= " + arg + " (" + ((AssaySelector.MeasurementOption)arg).ToString() + ")"); } else { t = control.AssayOperation(); } break; case LMMMLingo.Tokens.hvcalib: t = control.HVCalibOperation(); break; case LMMMLingo.Tokens.broadcast: // UDP "NDAC Control" { NCC.NCCAction x = NC.App.Opstate.Action; NC.App.Opstate.Action = NCC.NCCAction.Discover; control.StartLMDAQServer(null); Console.WriteLine(NC.App.AbbrName + "> Broadcasting to LM instruments. . ."); PostLMMMCommand(cmdt.tok); Console.WriteLine(NC.App.AbbrName + "> Sent broadcast. Waiting for LM instruments to connect"); control.PrepSRDAQHandler(); control.ConnectSRInstruments(); NC.App.Opstate.Action = x; } break; default: try { FormatAndSendLMMMCommand(cmdt.tok, arg, CurrentLM); } catch (Exception e) { commlog.TraceEvent(LogLevels.Error, 360, "Current instrument and measurement undefined or incomplete: " + e.Message); } break; } return t; }
public void SplitHVCalibResponse(string received, ref DAQ.HVControl.HVStatus hvst) { cmdprocessor.SplitHVCalibResponse(received, ref hvst); }
public void SplitHVCalibResponse(string received, ref DAQ.HVControl.HVStatus hvst) { try { hvst.Extract(received); } catch (Exception e) { commlog.TraceEvent(LogLevels.Error, 892, "SplitHVCalibResponse barfed on:" + received + "; " + e.Message); } }