Exemplo n.º 1
0
        bool PrepList(List <AssaySelector.MeasurementOption> filters, Detector det)
        {
            if (Goal == EndGoal.Report)
            {
                if (LMOnly)                        // LMOnly
                {
                    mlist.RemoveAll(EmptyCSVFile); // cull those without LM CSV results
                }
                else
                {
                    mlist.RemoveAll(EmptyINCC5File);  // cull those with traditional INCC5 results
                }
            }
            ctrllog = N.App.Loggers.Logger(LMLoggers.AppSection.Control);

            if (mlist.Count == 0)
            {
                string msg = string.Format("No {0}measurements for {1} found.", TypeTextFragment(filters), det == null ? "any" : det.Id.DetectorId);
                MessageBox.Show(msg, "WARNING");
                return(false);
            }
            LoadList(filters);
            if (Goal == EndGoal.Report || Goal == EndGoal.Reanalysis || Goal == EndGoal.Transfer)   // it is for a named detector so elide the detector column
            {
                listView1.Columns[1].Width = 0;
            }
            if (!AllMeas)
            {
                listView1.Columns[0].Width = 0;
            }
            if (filters.Contains(AssaySelector.MeasurementOption.rates))    // show item id
            {
                listView1.Columns[2].Width = 0;
            }
            if (filters.Contains(AssaySelector.MeasurementOption.normalization))
            {
                listView1.Columns[2].Width = 0;
                listView1.Columns[3].Width = 0;
            }
            if (filters.Contains(AssaySelector.MeasurementOption.background))      // NEXT: add configuration active or passive column
            {
                listView1.Columns[2].Width = 0;
                listView1.Columns[3].Width = 0;
            }
            foreach (AssaySelector.MeasurementOption mo in filters)
            {
                if (!AssaySelector.ForMass(mo) && !mo.IsWildCard())
                {
                    listView1.Columns[7].Width = 0;       // material column
                }
            }

            if (Goal == EndGoal.Reanalysis)
            {
                listView1.Columns[0].Text  = "Id";
                listView1.Columns[0].Width = 43;
            }

            return(true);
        }
Exemplo n.º 2
0
        void LoadList()
        {
            listView1.ShowItemToolTips = true;
            int mlistIndex = 0;

            foreach (INCCKnew.TransferSummary ts in list)
            {
                ListViewItem lvi = new ListViewItem(new string[] {
                    ts.det, ts.item,
                    string.IsNullOrEmpty(ts.stratum) ? "-" : ts.stratum,
                    ts.dto.ToString("yy.MM.dd  HH:mm:ss"), Path.GetFileName(ts.path),
                    ts.comment, AssaySelector.ForMass(ts.meastype) ? ts.material : string.Empty,
                    mlistIndex.ToString()                      // subitem at index 7 has the original mlist index of this element
                });
                listView1.Items.Add(lvi);
                lvi.Tag = ts.dto;  // for proper column sorting
                mlistIndex++;
            }
            MCount.Text = listView1.Items.Count.ToString() + " files";
            if (listView1.SelectedItems.Count > 0)
            {
                MCountSel.Text = listView1.SelectedItems.Count.ToString();
            }
            else
            {
                MCountSel.Text = string.Empty;
            }
        }
Exemplo n.º 3
0
        void LoadList(List <AssaySelector.MeasurementOption> filters)
        {
            listView1.ShowItemToolTips = true;
            int mlistIndex = 0;

            foreach (Measurement m in mlist)
            {
                int CycleCount = N.App.DB.GetCycleCount(m.MeasurementId);

                string ItemWithNumber = string.IsNullOrEmpty(m.MeasurementId.Item.item) ? "-" : m.AcquireState.ItemId.item;
                if (Path.GetFileName(m.MeasurementId.FileName).Contains("_") && (filters.Contains(AssaySelector.MeasurementOption.verification)) && (filters.Contains(m.MeasOption)))
                {
                    //scan file name to display subsequent reanalysis number...... hn 9.21.2015
                    ItemWithNumber += "(" + Path.GetFileName(m.MeasurementId.FileName).Substring(Path.GetFileName(m.MeasurementId.FileName).IndexOf('_') + 1, 2) + ")";
                }
                string col0;
                if (Goal == EndGoal.Reanalysis)
                {
                    col0 = m.MeasurementId.UniqueId.ToString();
                }
                else
                {
                    col0 = m.MeasOption.PrintName();
                }
                ListViewItem lvi = new ListViewItem(new string[] {
                    col0, m.Detector.Id.DetectorId, ItemWithNumber,
                    string.IsNullOrEmpty(m.AcquireState.stratum_id.Name) ? "-" : m.AcquireState.stratum_id.Name,
                    m.MeasDate.DateTime.ToString("yy.MM.dd  HH:mm:ss"), GetMainFilePath(m.ResultsFiles, m.MeasOption, true),
                    CycleCount.ToString(),
                    AssaySelector.ForMass(m.MeasOption) ? m.AcquireState.item_type : string.Empty,
                    m.AcquireState.comment,
                    mlistIndex.ToString()  // subitem at index 9 has the original mlist index of this element
                });
                listView1.Items.Add(lvi);
                lvi.Tag = m.MeasDate;  // for proper column sorting
                string p = GetMainFilePath(m.ResultsFiles, m.MeasOption, false);
                if (string.IsNullOrEmpty(p))
                {
                    lvi.ToolTipText = "(" + m.MeasurementId.UniqueId.ToString() + ") No results file available";
                }
                else
                {
                    lvi.ToolTipText = "(" + m.MeasurementId.UniqueId.ToString() + ") " + p;
                }
                mlistIndex++;
            }
            MCount.Text = listView1.Items.Count.ToString() + " measurements";
            if (listView1.SelectedItems.Count > 0)
            {
                MCountSel.Text = listView1.SelectedItems.Count.ToString();
            }
            else
            {
                MCountSel.Text = string.Empty;
            }
        }
Exemplo n.º 4
0
        // extract the single integer arg if there, mark bad if expected and not there
        bool ParsePrompt(string line, LMMMLingo.OpDesc cmdt, ref Int32 res)
        {
            res = 0;
            bool good = !cmdt.needsArg;

            string[] temp = line.Split('=');
            if (cmdt.needsArg && temp.Count() > 1)
            {
                good = Int32.TryParse(temp[1], out res);
                if (!good && cmdt.tok == LMMMLingo.Tokens.assay)
                {
                    good = AssaySelector.AssayTypeConv(temp[1], out res);
                }
            }
            return(good);
        }
Exemplo n.º 5
0
 public IDDMeasurementList(AssaySelector.MeasurementOption filter, bool alltypes, EndGoal goal, Detector detector = null)
 {
     InitializeComponent();
     System.Windows.Input.Mouse.OverrideCursor = System.Windows.Input.Cursors.Wait;
     try
     {
         InitSort();
         PrepNotepad();
         SetTitlesAndChoices(filter, alltypes, goal,
             detector == null ? string.Empty : detector.Id.DetectorId, string.Empty);
         mlist = N.App.DB.MeasurementsFor(detector == null ? string.Empty : detector.Id.DetectorId, filter);
         bGood = PrepList(filter, detector);
     } finally
     {
         System.Windows.Input.Mouse.OverrideCursor = null;
     }
     SummarySelections = null;
 }
Exemplo n.º 6
0
        public static void BuildMeasurementMinimal(AcquireParameters acq, Detector det, AssaySelector.MeasurementOption mo)
        {
            // gather it all together
            MeasurementTuple mt = new MeasurementTuple(new DetectorList(det),
                                    CentralizedState.App.DB.TestParameters.Get(),
                                    GetCurrentNormParams(det),
                                    GetCurrentBackgroundParams(det),
                                    GetAcquireIsotopics(acq),
                                    acq,
                                    GetCurrentHVCalibrationParams(det));
            det.Id.source = acq.data_src;  // set the detector overall data source value here

            // create the context holder for the measurement. Everything is rooted here ...
            Measurement meas = new Measurement(mt, mo, CentralizedState.App.Logger(LMLoggers.AppSection.Data));

            CentralizedState.App.Opstate.Measurement = meas;   // put the measurement definition on the global state
        }
Exemplo n.º 7
0
        /// <summary>
        /// Construct a full measurement state and set it on the internal lameness
        /// </summary>
        /// <param name="acq">Acquire Parameters</param>
        /// <param name="det">Detector</param>
        /// <param name="mo">MeasurementOption</param>
        public static void BuildMeasurement(AcquireParameters acq, Detector det, AssaySelector.MeasurementOption mo)
        {
            // gather it all together
            MeasurementTuple mt = new MeasurementTuple(new DetectorList(det),
                                    CentralizedState.App.DB.TestParameters.Get(),
                                    GetCurrentNormParams(det),
                                    GetCurrentBackgroundParams(det),
                                    GetAcquireIsotopics(acq),
                                    acq,
                                    GetCurrentHVCalibrationParams(det));
            det.Id.source = acq.data_src;  // set the detector overall data source value here

            // create the context holder for the measurement. Everything is rooted here ...
            Measurement meas = new Measurement(mt, mo, CentralizedState.App.Logger(LMLoggers.AppSection.Data));

            FillInMeasurementDetails(meas);
            // ready for insertion of methods and processing start
        }
Exemplo n.º 8
0
        /// <summary>
        /// Construct a full measurement state and set it on the internal lameness
        /// </summary>
        /// <param name="acq">Acquire Parameters</param>
        /// <param name="det">Detector</param>
        /// <param name="mo">MeasurementOption</param>
        public static void BuildMeasurement(AcquireParameters acq, Detector det, AssaySelector.MeasurementOption mo)
        {
            // gather it all together
            MeasurementTuple mt = new MeasurementTuple(new DetectorList(det),
                                    CentralizedState.App.DB.TestParameters.Get(),
                                    GetCurrentNormParams(det),
                                    GetCurrentBackgroundParams(det),
                                    GetAcquireIsotopics(acq),
                                    acq,
                                    GetCurrentHVCalibrationParams(det));
            det.Id.source = acq.data_src;  // set the detector overall data source value here

            // create the context holder for the measurement. Everything is rooted here ...
            Measurement meas = new Measurement(mt, mo, CentralizedState.App.Logger(LMLoggers.AppSection.Data));

            if (det.ListMode)
            {
                // dev note: design flaw exposed by this mess here, when LM has > 1 SVR, there is no way to associate > 1 SVRs with a single detector/SR/Mult/Conn pairing
                // It should be the other way around, the Mult params for each LMMultiplicity analyzer override the single entry on the sr_parms_rec when each analyis is performed. 

                meas.AnalysisParams =  CentralizedState.App.LMBD.CountingParameters(det, applySRFromDetector:true);
                if (mo == AssaySelector.MeasurementOption.unspecified) // pure List Mode, not INCC5
                {
                    // for a list-mode-only measurement with a multiplicity analyzer the detector SR params must match at least one of the multiplicity analyzer SR params
                    ApplyVSRChangesToDefaultDetector(meas);
                }
                else // it is an INCC5 analysis driven with LM data
                {
                    // check to see if detector settings are copied into an active CA entry
                    if (!meas.AnalysisParams.Exists(w => { return (w is Multiplicity) && (w as Multiplicity).Equals(det.MultiplicityParams) && w.Active; }))
                        meas.AnalysisParams.Add(det.MultiplicityParams);
                }
            }
            else
            {
                // prepare analyzer params from detector SR params
                meas.AnalysisParams = CentralizedState.App.LMBD.CountingParameters(det, applySRFromDetector:false);
                if (!meas.AnalysisParams.Exists(w => { return (w is Multiplicity) && (w as Multiplicity).Equals(det.MultiplicityParams); }))
                    meas.AnalysisParams.Add(det.MultiplicityParams);
            }

            // get the INCC5 analysis methods
            meas.INCCAnalysisState = new INCCAnalysisState();
            INCCSelector sel = new INCCSelector(acq.detector_id, acq.item_type);
            AnalysisMethods am;
            bool found = CentralizedState.App.DB.DetectorMaterialAnalysisMethods.TryGetValue(sel, out am);
            if (found)
            {
                am.selector = sel; // gotta do this so that the equality operator is not incorrect
                meas.INCCAnalysisState.Methods = am;
            }
            else
                meas.INCCAnalysisState.Methods = new AnalysisMethods(sel);

            meas.InitializeContext();

            meas.PrepareINCCResults();

            // next: stratum not set
            List<INCCDB.StratumDescriptor> sl = CentralizedState.App.DB.StrataList();
            INCCDB.StratumDescriptor s = sl.Find(w => w.Desc.CompareTo(acq.stratum_id) == 0);
            if (s == null)
                meas.Stratum = new Stratum();
            else
                meas.Stratum = new Stratum(s.Stratum);

            INCCResults.results_rec xres = new INCCResults.results_rec(meas);
            meas.INCCAnalysisResults.TradResultsRec = xres;
            CentralizedState.App.Opstate.Measurement = meas;   // put the measurement definition on the global state

            // ready for insertion of methods and processing start

        }
Exemplo n.º 9
0
 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;
 }
Exemplo n.º 10
0
        bool PrepList(AssaySelector.MeasurementOption filter, Detector det)
        {
            if (Goal == EndGoal.Report)
            {
                if (LMOnly)  // LMOnly
                    mlist.RemoveAll(EmptyCSVFile);    // cull those without LM CSV results
                else
                    mlist.RemoveAll(EmptyINCC5File);  // cull those with traditional INCC5 results
            }
            ctrllog = N.App.Loggers.Logger(LMLoggers.AppSection.Control);
            if (mlist.Count == 0)
            {
                string msg = string.Format("No {0}measurements for {1} found.", TypeTextFragment(filter), det == null ? "any" : det.Id.DetectorId);
                MessageBox.Show(msg, "WARNING");
                return false;
            }
            LoadList(filter);
            if (Goal == EndGoal.Report || Goal == EndGoal.Reanalysis || Goal == EndGoal.Transfer)   // it is for a named detector so elide the detector column
                listView1.Columns[1].Width = 0;
            if (!AllMeas)
                listView1.Columns[0].Width = 0;
            if (filter == AssaySelector.MeasurementOption.rates)    // show item id
                listView1.Columns[2].Width = 0;
            if (filter == AssaySelector.MeasurementOption.normalization)
            {
                listView1.Columns[2].Width = 0;
                listView1.Columns[3].Width = 0;
            }
            if (filter == AssaySelector.MeasurementOption.background)     // NEXT: add configuration active or passive column
            {
                listView1.Columns[2].Width = 0;
                listView1.Columns[3].Width = 0;
            }
            if (!AssaySelector.ForMass(filter) && !filter.IsWildCard())
                listView1.Columns[7].Width = 0;		  // material column

            if (Goal == EndGoal.Reanalysis)
            {
                listView1.Columns[0].Text = "Id";
                listView1.Columns[0].Width = 43;
            }

            return true;
        }
Exemplo n.º 11
0
        void LoadList(AssaySelector.MeasurementOption filter)
        {
            listView1.ShowItemToolTips = true;
            int mlistIndex = 0;
            foreach (Measurement m in mlist)
            {
                int CycleCount = N.App.DB.GetCycleCount(m.MeasurementId);

                string ItemWithNumber = string.IsNullOrEmpty(m.MeasurementId.Item.item) ? "-" : m.AcquireState.ItemId.item;
                if (Path.GetFileName(m.MeasurementId.FileName).Contains("_") && (AssaySelector.MeasurementOption.verification == filter) && (filter == m.MeasOption))
                    //scan file name to display subsequent reanalysis number...... hn 9.21.2015
                    ItemWithNumber += "(" + Path.GetFileName(m.MeasurementId.FileName).Substring(Path.GetFileName(m.MeasurementId.FileName).IndexOf('_') + 1, 2) + ")";
                string col0;
                if (Goal == EndGoal.Reanalysis)
                    col0 = m.MeasurementId.UniqueId.ToString();
                else
                    col0 = m.MeasOption.PrintName();
                ListViewItem lvi = new ListViewItem(new string[] {
                    col0, m.Detector.Id.DetectorId, ItemWithNumber,
                    string.IsNullOrEmpty(m.AcquireState.stratum_id.Name) ? "-" : m.AcquireState.stratum_id.Name,
                    m.MeasDate.DateTime.ToString("yy.MM.dd  HH:mm:ss"), GetMainFilePath(m.ResultsFiles, m.MeasOption, true),
                    CycleCount.ToString(),
                    AssaySelector.ForMass(m.MeasOption) ? m.AcquireState.item_type : string.Empty,
                    m.AcquireState.comment,
                    mlistIndex.ToString()  // subitem at index 9 has the original mlist index of this element
                        });
                listView1.Items.Add(lvi);
                lvi.Tag = m.MeasDate;  // for proper column sorting
                string p = GetMainFilePath(m.ResultsFiles, m.MeasOption, false);
                if (string.IsNullOrEmpty(p))
                    lvi.ToolTipText = "(" + m.MeasurementId.UniqueId.ToString() + ") No results file available";
                else
                    lvi.ToolTipText = "(" + m.MeasurementId.UniqueId.ToString() + ") " + p;
                mlistIndex++;
            }
            MCount.Text = listView1.Items.Count.ToString() + " measurements";
            if (listView1.SelectedItems.Count > 0)
                MCountSel.Text = listView1.SelectedItems.Count.ToString();
            else
                MCountSel.Text = string.Empty;
        }
Exemplo n.º 12
0
 private string GetMainFilePath(ResultFiles files, AssaySelector.MeasurementOption mo, bool elide)
 {
     string res = string.Empty;
     switch (mo)
     {
     case AssaySelector.MeasurementOption.unspecified:
         res = files.CSVResultsFileName.Path;
         break;
     default:
         res = files.PrimaryINCC5Filename.Path;
         break;
     }
     if (elide)
         res = Path.GetFileName(res);
     return res;
 }
Exemplo n.º 13
0
 public void Init(List<INCCDB.IndexedResults> ilist,
     AssaySelector.MeasurementOption filter,
     EndGoal goal, bool lmonly, string inspnum = "", Detector detector = null)
 {
     LMOnly = lmonly;
     bool alltypes = filter.IsWildCard() && !lmonly;
     System.Windows.Input.Mouse.OverrideCursor = System.Windows.Input.Cursors.Wait;
     try
     {
         PrepNotepad();
         SetTitlesAndChoices(filter, alltypes, goal,
             detector == null ? string.Empty : detector.Id.DetectorId, string.Empty);
         mlist = N.App.DB.MeasurementsFor(ilist, LMOnly, skipMethods: false);
         bGood = PrepList(filter, detector);
     } finally
     {
         System.Windows.Input.Mouse.OverrideCursor = null;
     }
 }
Exemplo n.º 14
0
 public AssayState(AssaySelector.MeasurementOption at = AssaySelector.MeasurementOption.unspecified)
 {
 }
Exemplo n.º 15
0
        /// <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);
        }
Exemplo n.º 16
0
 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()) + " ";
     }
 }
Exemplo n.º 17
0
 void LoadMeasurementDetails(TreeNode tn, string d, AssaySelector.MeasurementOption mo)
 {
     List<INCCDB.IndexedResults> ilist = N.App.DB.IndexedResultsFor(d, mo.ToString(), "All");
     foreach(INCCDB.IndexedResults ir in ilist)
     {
         ir.Rid = N.App.DB.GetCycleCount(ir.Mid);
         string l = ir.DateTime.ToString("yy.MM.dd HH:mm:ss");
         TreeNode nn = tn.Nodes.Add(l);
         nn.Tag = ir;
     }
 }