public void Run() { if (string.IsNullOrEmpty(SavePath)) { Logger.Log("Save path is empty. Will save to desktop\n"); SavePath = Path.Combine(Environment.GetFolderPath(Environment.SpecialFolder.Desktop), "edwFactors.txt"); } ; var states = BuildMeasurementList(); foreach (var m in states) { var jr = new Job(m); jr.DepthOfMeasurentMM = DepthOfMeasurementMM; if (Math.Abs(_scan1D.LastKnowPositionMM - DepthOfMeasurementMM) > 0.1) { Logger.Log($"Changing depth to {DepthOfMeasurementMM} mm\n"); _scan1D.GoToDepth(jr.DepthOfMeasurentMM); } for (int n = 0; n < RepeatMeasurements; n++) { var fov = EnergyHelper.IsPhoton(m.Energy) ? $"{m.X1 * 2} x {m.Y1 * 2}" : m.Accessory; Logger.Log($"Working on {m.Energy}, Depth {jr.DepthOfMeasurentMM}, {m.Accessory} , Measurement {n + 1}\n\n"); _linac.SetMachineState(m); //Start measuring _el.Reset(); _el.StartMeasurement(); if (n == 0) { _linac.BeamOn(); } else { _linac.RepeatBeam(); } var waitTime = _linac.WaitMsForMU(m.MU, true); using (var t = new TimerLogger("Waiting on beam completion", waitTime, 1000, this.Logger)) { Thread.Sleep(waitTime); } //Stop and get measurement _el.StopMeasurement(); var measured = _el.GetValue().Measurement; Logger?.Log($"Measured : {measured}\n"); jr.AddMeasurement(_el.GetValue().Measurement); } //Save results JobWriter.AppendResult(SavePath, jr); } }
private List <Job> BuildMeasurementList(bool photons = true, bool electrons = true) { var machineState = MachineState.InitNew(); var measurementList = new List <Job>(); var lastPhotonFovHalf = 0.5; if (photons) { var changeState = machineState.Copy(); lastPhotonFovHalf = changeState.X1 = changeState.X2 = photonFovCM / 2; changeState.Y1 = changeState.Y2 = photonFovCM / 2; changeState.MU = MUPerShot; changeState.DoseRate = DoseRate._600; foreach (var en in energyDepths.Where(e => EnergyHelper.IsPhoton(e.Item1))) { var copy = changeState.Copy(); copy.Energy = en.Item1; measurementList.Add(new Job(copy) { DepthOfMeasurentMM = en.Item2 }); } } if (electrons) { //ELECTRONS var changeState = machineState.Copy(); changeState.X1 = changeState.X2 = changeState.Y1 = changeState.Y2 = lastPhotonFovHalf; changeState.DoseRate = DoseRate._600; changeState.Accessory = electronCone; changeState.MU = MUPerShot; foreach (var en in energyDepths.Where(e => !EnergyHelper.IsPhoton(e.Item1))) { var copy = changeState.Copy(); copy.Energy = en.Item1; measurementList.Add(new Job(copy) { DepthOfMeasurentMM = en.Item2 }); } } return(measurementList); }
private List <MachineState> BuildMeasurementList(bool photons = true, bool electrons = true) { var machineState = MachineState.InitNew(); var measurementList = new List <MachineState>(); if (photons) { //PHOTONS photonsFovs.ToList().ForEach(fov => { var changeState = machineState.Copy(); changeState.X1 = changeState.X2 = fov / 2; changeState.Y1 = changeState.Y2 = fov / 2; changeState.MU = MUPerShot; foreach (var en in energyDepths.Where(e => EnergyHelper.IsPhoton(e.Key))) { var copy = changeState.Copy(); copy.Energy = en.Key; measurementList.Add(copy); } }); } if (electrons) { //ELECTRONS electronCones.ToList().ForEach(cone => { var changeState = machineState.Copy(); changeState.Accessory = cone; changeState.MU = MUPerShot; foreach (var en in energyDepths.Where(e => !EnergyHelper.IsPhoton(e.Key))) { var copy = changeState.Copy(); copy.Energy = en.Key; measurementList.Add(copy); } }); } return(measurementList); }
public void Run(bool photons = true, bool electrons = true) { if (string.IsNullOrEmpty(SavePath)) { Logger.Log("Save path is empty. Will save to desktop\n"); SavePath = Path.Combine(Environment.GetFolderPath(Environment.SpecialFolder.Desktop), "outputFactors.txt"); } ; var measurementList = BuildMeasurementList(photons, electrons); foreach (var m in measurementList) { var jr = new Job(m); jr.DepthOfMeasurentMM = energyDepths[m.Energy]; _scan1D.GoToDepth(jr.DepthOfMeasurentMM); for (int n = 0; n < RepeatMeasurements; n++) { var fov = EnergyHelper.IsPhoton(m.Energy) ? $"{m.X1 * 2} x {m.Y1 * 2}" : m.Accessory; Logger.Log($"Working on {m.Energy}, Depth {jr.DepthOfMeasurentMM}, {fov} , Measurement {n + 1}"); var state = _linac.GetMachineStateCopy(); //Check for cone change if (_linac.GetMachineStateCopy().Accessory != m.Accessory) { Console.Beep(4000, 1000); Logger.Log($"Please change the cone to {m.Accessory}\n"); Logger.Log($"Press ENTER when complete\n"); while (Console.ReadKey().Key != ConsoleKey.Enter) { } Logger.Log($"{m.Accessory} inserted! Continuing...\n"); } _linac.SetMachineState(m); //Start measuring _el.Reset(); _el.StartMeasurement(); if (n == 0) { _linac.BeamOn(); } else { _linac.RepeatBeam(); } Thread.Sleep(_linac.WaitMsForMU(m.MU)); //Stop and get measurement _el.StopMeasurement(); var measured = _el.GetValue().Measurement; Logger?.Log($"Measured : {measured}\n"); jr.AddMeasurement(_el.GetValue().Measurement); } //Save results JobWriter.AppendResult(SavePath, jr); } }