public OutputFactors(CSeriesLinac linac, IElectrometer el, I1DScanner scan1D) { _linac = linac; _el = el; _scan1D = scan1D; Logger = new Logger(); }
public MULinearity(CSeriesLinac linac, IElectrometer el, I1DScanner scan1D) { _linac = linac; _el = el; _scan1D = scan1D; Logger = new Logger(); }
public void Run(CSeriesLinac linac, IElectrometer el, I1DScanner scan1D, Logger logger = null) { ServiceModeSession.Instance.Logger = logger; foreach (var job in RowJobs) { var measurementsLeft = job.Item1.NumberOfMeasurementsDesired - job.Item1.Measurements.Length; if (measurementsLeft > 0) { linac.SetMachineState(job.Item1.MachineStateRun); } if (scan1D != null) { scan1D.GoToDepth(job.Item1.DepthOfMeasurentMM).Wait(); } if (el != null && measurementsLeft > 0) { for (int i = 0; i < measurementsLeft; i++) { el.StartMeasurement(); linac.BeamOn(); el.StopMeasurement(); var val = el.GetValue(); job.Item1.AddMeasurement(val.Measurement); } SaveAction(); } } }
public static MULinearity GetDefault(CSeriesLinac linac, IElectrometer el, I1DScanner scan1D) { var muTest = new MULinearity(linac, el, scan1D); muTest.Logger.Logged += (log => Console.WriteLine(log)); muTest.ScanningDepthMM = 50; muTest.SetEnergiesToTest(Energy._6X, Energy._15X); muTest.SetMULevels(10, 20, 50, 100, 200, 500); return(muTest); }
public static OutputFactors GetDefault(CSeriesLinac linac, IElectrometer el, I1DScanner scan1D) { var of = new OutputFactors(linac, el, scan1D); of.Logger.Logged += (log => Console.WriteLine(log)); of.AddEnergyDepth(Energy._6X, 15); of.AddEnergyDepth(Energy._15X, 27); of.AddEnergyDepth(Energy._6E, 13); of.AddEnergyDepth(Energy._9E, 21); of.AddEnergyDepth(Energy._12E, 29); of.AddEnergyDepth(Energy._15E, 33); of.AddEnergyDepth(Energy._18E, 22); of.SetPhotonFieldSizes(4, 10, 15, 20, 25, 30, 40); of.SetElectronCones("A6", "A10", "A15", "A20", "A25"); return(of); }
public DeterminePion(CSeriesLinac linac, I1DScanner scanner, IElectrometer el) { }