void SetTitlesAndChoices(AssaySelector.MeasurementOption filter, bool alltypes, EndGoal goal, string detector = "", string inspnum = "") { string upthehill = "Measurement Selection for Detector"; string backwards = "Measurement Selection for All Detectors"; string itwillbe = "Select Measurement for Detector"; string allright = "Select Measurements to Save for Detector"; AllMeas = alltypes; Goal = goal; string title = ""; if (Goal == EndGoal.Report) { title = upthehill; } else if (Goal == EndGoal.Summary) { title = backwards; } else if (Goal == EndGoal.Reanalysis) { title = itwillbe; listView1.MultiSelect = false; } else // if (Goal == EndGoal.Transfer) { title = allright; } if (!AllMeas && Goal != EndGoal.Reanalysis) { title = (filter.PrintName() + " " + title); } if (!string.IsNullOrEmpty(detector)) { title += (" " + detector); } if (!string.IsNullOrEmpty(inspnum)) { title += (", Inspection #" + inspnum); } Text = title; }
public IDDAssaySummary(string whuchuwan) { InitializeComponent(); mlist = N.App.DB.IndexedResultsFor(whuchuwan); if (sel == null) { sel = new ResultsSummary(); } sel.Option = whuchuwan; LoadInspNumCombo(); SortByStratRadioBtn.Checked = sel.SortStratum; DefaultCurrentRadioBtn.Checked = sel.WithCurrentEndDate; StartDateTimePicker.Value = sel.Start.DateTime; LoadSelections(treeView1.Nodes); string l = option.PrintName(); if (!Enum.TryParse(whuchuwan, out option)) { option = AssaySelector.MeasurementOption.unspecified; l = "Measurement"; } Text = l + " " + Text; }
/// <summary> /// Process one or more .NCC Review measurement data files, with related .NOP/.COP files. /// Presence of NOP/COP files is optional /// See Import Operator Declarations from Operator Review and Measurements from Radiation Review p. 24, /// See Operator Declaration File Format p. 87, /// See Operator Declaration File Format for Curium Ratio Measurements p. 88, /// See Radiation Review Measurement Data File Format p. 93, INCC Software Users Manual, March 29, 2009 /// </summary> void INCCReviewFileProcessing() { FireEvent(EventType.ActionPrep, this); NC.App.Opstate.StampOperationStartTime(); // This code would be the same for an interactive version of this operation // > Start here // first find and process and .NOP files List <string> exts = new List <string>() { ".nop", ".cop" }; FileList <CSVFile> hdlr = new FileList <CSVFile>(); hdlr.Init(exts, ctrllog); FileList <CSVFile> files = null; OPFiles opfiles = new OPFiles(); // The INCC5 semantics if (NC.App.AppContext.FileInputList == null) { files = (FileList <CSVFile>)hdlr.BuildFileList(NC.App.AppContext.FileInput, NC.App.AppContext.Recurse, true); } else { files = (FileList <CSVFile>)hdlr.BuildFileList(NC.App.AppContext.FileInputList); } if (files != null && files.Count > 0) { // construct lists of isotopics and items from the NOP and COP files opfiles.Process(files); ctrllog.TraceEvent(LogLevels.Verbose, 33085, "NOP items " + opfiles.Results.ItemIds.Count); //ctrllog.TraceEvent(LogLevels.Verbose, 33085, "COP entries " + opfiles.Results.COPRatioRecs.Count); } else { ctrllog.TraceEvent(LogLevels.Warning, 33085, "No operator declarations available, continuing with default values"); } // process the NCC files only INCCFileOrFolderInfo foo = new INCCFileOrFolderInfo(ctrllog, "*.NCC"); if (NC.App.AppContext.FileInputList == null) { foo.SetPath(NC.App.AppContext.FileInput); } else { foo.SetFileList(NC.App.AppContext.FileInputList); } foo.eh += new TransferEventHandler((s, e) => { FireEvent(EventType.ActionInProgress, e); }); List <INCCTransferBase> res = foo.Restore(); // use RemoveAll to cull those NCC files that reference a non-existent detector DetectorList dl = NC.App.DB.Detectors; foreach (INCCReviewFile rf in res) { List <Detector> tdk = dl.FindAll(d => 0 == string.Compare(d.Id.DetectorName, rf.detector, true)); if (tdk.Count < 1) { rf.skip = true; ctrllog.TraceEvent(LogLevels.Warning, 33085, "No detector " + rf.detector + " defined, cannot complete processing NCC review file " + System.IO.Path.GetFileName(rf.Path)); } } res.RemoveAll(rf => (rf as INCCReviewFile).skip); res.Sort((rf1, rf2) => // sort chronologically { return(DateTime.Compare((rf1 as INCCReviewFile).dt, (rf2 as INCCReviewFile).dt)); }); /// end here > The sorted, filtered and processed list here would be returned to the UI for display and interactive selection if (res == null || res.Count < 1) { NC.App.Opstate.StopTimer(); NC.App.Opstate.StampOperationStopTime(); FireEvent(EventType.ActionStop, this); ctrllog.TraceEvent(LogLevels.Warning, 33085, "No usable NCC review files found in " + System.IO.Path.GetFullPath(foo.GetPath())); return; } AcquireParameters orig_acq = new AcquireParameters(NC.App.Opstate.Measurement.AcquireState); // Each NCC file is a separate measurement foreach (INCCReviewFile irf in res) { ResetMeasurement(); if (NC.App.Opstate.IsQuitRequested) { break; } // Find the detector named in the NCC file (existence shown in earlier processing above) Detector curdet = NC.App.DB.Detectors.Find(d => string.Compare(d.Id.DetectorName, irf.detector, true) == 0); if (curdet.AB.Unset) { ABKey abkey = new ABKey(curdet.MultiplicityParams, 512); // NEXT: maxbins is arbitrary, just the first of many for VSR LMRawAnalysis.SDTMultiplicityCalculator.SetAlphaBeta(abkey, curdet.AB); } // set up acquire state based on the NCC file content AcquireParameters newacq = ConfigureAcquireState(curdet, orig_acq, irf); AssaySelector.MeasurementOption mo = NCCMeasOption(irf); // make a temp MeasId MeasId thisone = new MeasId(mo, newacq.MeasDateTime); // get the list of measurement Ids for this detector List <MeasId> list = NC.App.DB.MeasurementIds(curdet.Id.DetectorName, mo.PrintName()); MeasId already = list.Find(mid => mid.Equals(thisone)); if (already != null) { // URGENT: do the replacement as it says ctrllog.TraceEvent(LogLevels.Warning, 33085, "Replacing the matching {0} measurement, timestamp {1} (in a future release)", already.MeasOption.PrintName(), already.MeasDateTime.ToString()); } IntegrationHelpers.BuildMeasurement(newacq, curdet, mo); Measurement meas = NC.App.Opstate.Measurement; meas.MeasDate = newacq.MeasDateTime; // use the date and time from the NCC file content meas.Persist(); // preserve the basic results record if (AssaySelector.ForMass(meas.MeasOption) && !meas.INCCAnalysisState.Methods.AnySelected()) { ctrllog.TraceEvent(LogLevels.Warning, 437, "No mass methods for " + meas.INCCAnalysisState.Methods.selector.ToString()); } try { ushort total_number_runs = 0; double run_count_time = 0; double total_good_count_time = 0; if (irf.num_runs == 0) { ctrllog.TraceEvent(LogLevels.Error, 440, "This measurement has no good cycles."); continue; } if (meas.MeasOption == AssaySelector.MeasurementOption.holdup) { continue; } /* convert to total count time */ total_number_runs = irf.num_runs; total_good_count_time = irf.num_runs * run_count_time; meas.RequestedRepetitions = total_number_runs; // convert runs to cycles for (int i = 0; i < irf.num_runs; i++) { /* run date and time (IAEA format) */ AddReviewFileCycle(i, irf.runs[i], irf.times[i], meas, irf.Path); if (i % 8 == 0) { FireEvent(EventType.ActionInProgress, this); } } FireEvent(EventType.ActionInProgress, this); // NEXT: handle true AAS cycles as in INCC5 if (meas.MeasOption == AssaySelector.MeasurementOption.verification && meas.INCCAnalysisState.Methods.Has(AnalysisMethod.AddASource) && meas.AcquireState.well_config == WellConfiguration.Passive) { ctrllog.TraceEvent(LogLevels.Error, 440, "No add-a-source data processed because the implementation is incomplete. AAS"); //AddASourceSetup aass = IntegrationHelpers.GetCurrentAASSParams(meas.Detector); //for (int n = 1; n <= aass.number_positions; n++) //{ // /* number of good runs */ // string l = td.reader.ReadLine(); // if (td.reader.EndOfStream) // { // ctrllog.TraceEvent(LogLevels.Error, 440, "No add-a-source data found in disk file. " + "AAS p" + n.ToString()); // } //} } } catch (Exception e) { NC.App.Opstate.SOH = OperatingState.Trouble; ctrllog.TraceException(e, true); ctrllog.TraceEvent(LogLevels.Error, 437, "NCC file processing stopped with error: '" + e.Message + "'"); } finally { NC.App.Loggers.Flush(); } FireEvent(EventType.ActionInProgress, this); ComputeFromINCC5SRData(meas); FireEvent(EventType.ActionInProgress, this); } NC.App.Opstate.ResetTokens(); NC.App.Opstate.SOH = OperatingState.Stopping; NC.App.Opstate.StampOperationStopTime(); FireEvent(EventType.ActionFinished, this); }
bool PrepList(string DetectorId) { mlist.RemoveAll(MatchingSwipeLeft); // cull those without matching attributes if (mlist.Count == 0) { string msg = string.Format("No '{0}' {1} {2} measurements found", Material, AnalysisMethod.FullName(), mopt.PrintName()); MessageBox.Show(msg, "Verification measurements", MessageBoxButtons.OK); N.App.Loggers.Logger(LMLoggers.AppSection.Control).TraceEvent(LogLevels.Warning, 3363, msg); return(false); } LoadList(); return(true); }
string TypeTextFragment(AssaySelector.MeasurementOption filter) { if (filter.IsListMode() && LMOnly) { return("List Mode "); } else { if (AllMeas) { return(string.Empty); } else { return((AssaySelector.MeasurementOption.rates == filter ? "Rates Only" : filter.PrintName()) + " "); } } }