void SetupWriter(MWriteRootFile *write, const char *name) const { if (!write) return; write->SetName(name); write->AddContainer("MHillas", "Events"); write->AddContainer("MHillasSrc", "Events"); write->AddContainer("MHillasExt", "Events"); write->AddContainer("MPointingPos", "Events"); write->AddContainer("MHillasSrcAnti", "Events", kFALSE); write->AddContainer("MImagePar", "Events", kFALSE); write->AddContainer("MNewImagePar", "Events", kFALSE); write->AddContainer("MNewImagePar2", "Events", kFALSE); write->AddContainer("Hadronness", "Events", kFALSE); write->AddContainer("MSrcPosCam", "Events", kFALSE); write->AddContainer("MSrcPosAnti", "Events", kFALSE); write->AddContainer("ThetaSquared", "Events", kFALSE); write->AddContainer("OpticalAxis", "Events", kFALSE); write->AddContainer("Disp", "Events", kFALSE); write->AddContainer("Ghostbuster", "Events", kFALSE); write->AddContainer("MEnergyEst", "Events", kFALSE); write->AddContainer("MTime", "Events", kFALSE); write->AddContainer("MMcEvt", "Events", kFALSE); write->AddContainer("DataType", "Events"); write->AddContainer("FileId", "Events"); write->AddContainer("EvtNumber", "Events"); // write->AddContainer("MMuonSearchPar", "Events", kFALSE); // write->AddContainer("MMuonCalibPar", "Events", kFALSE); } int process(MDirIter &files, const char *outfile, Float_t ra, Float_t dec) { /* MDirIter files; if (files.ReadList(dataset)<=0) return 2; */ files.Sort(); // ============================================================= // Crab (05h34'32" 22d00'52") MPointingPos source("MSourcePos"); //source.SetSkyPosition(5.5755, 22.0144); // ra[h], dec[deg] //source.SetSkyPosition(12.356089, 30.176897); // ra[h], dec[deg]//1218 //source.SetSkyPosition(16.897867,39.760201);// mrk501 //source.SetSkyPosition(11.0742, 38.2089); // ra[h], dec[deg]//mrk421 source.SetSkyPosition(ra, dec); // ra[h], dec[deg]//mrk421 UInt_t fNumOffSourcePos = 5; // ============================================================= // FIXME: If fPathIn read cuts and energy estimator from file! MContinue contq("MImagePar.fNumIslands>3.5" "|| MNewImagePar.fNumUsedPixels<5.5" "|| MNewImagePar.fLeakage1>0.1", "CutQ"); MContinue cont0("MHillas.fSize<0" "|| MHillasExt.fSlopeSpreadWeighted>0.68" "|| MHillasExt.fSlopeSpreadWeighted<0.18" "|| log10(MHillas.GetArea*MGeomCam.fConvMm2Deg^2)>(log10(MHillas.fSize)-2)*1.1-1.55" "|| MNewImagePar.fConcCore < 0.13" "|| MNewImagePar.fConcCOG < 0.15" , "Cut0"); // Cuts before plots MContinue cont2("0" "|| MHillasExt.fM3Long*sign(MHillasSrc.fCosDeltaAlpha)*MGeomCam.fConvMm2Deg<-0.07" "|| log10(MNewImagePar.fConc1)<-log10(MHillas.fSize)*0.57+0.13" //"|| log10(MNewImagePar.fConc1)>-log10(MHillas.fSize)*0.57+0.5" //"|| MHillasSrc.fDist*MGeomCam.fConvMm2Deg>log10(MHillas.fSize)*0.42+0.29" "|| MHillas.GetArea*MGeomCam.fConvMm2Deg^2<0.01" "|| MHillasSrc.fDist*MGeomCam.fConvMm2Deg>log10(MHillas.fSize)*0.5+0.095" "|| MHillasSrc.fDist*MGeomCam.fConvMm2Deg<0.4" "|| MHillasSrc.fDist*MGeomCam.fConvMm2Deg>1.2", "Cut2"); TArrayD param(11); // Parametrization of Disp // for new cleaning param[0] = 1.39252; // constant param[8] = 0.154247; // slope param[9] = 1.67972; // leak param[10] = 4.86232; // leak // for old cleaning //param[0] = 1.34723; // constant //param[8] = 0.15214; // slope //param[9] = 0.970704; // leak //param[10] = 8.89826; // leak // Parametrization for sign of disp (m3long, slope) param[5] = -0.07; param[6] = 7.2; param[7] = 0.5; // ThetaSq-Cut param[1] = 0.11; // 0.215 // Area-Cut param[2] = 0.215468; param[3] = 5.63973; param[4] = 0.0836169; // -------------------------------------------------------------------------------- // Setup fitter and histograms MAlphaFitter fit; fit.SetBackgroundFitMin(0.09); fit.SetBackgroundFitMax(0.25); fit.SetPolynomOrder(1); fit.SetSignalFunction(MAlphaFitter::kThetaSq); fit.SetScaleUser(1./fNumOffSourcePos); // includes fit.SetScaleMode(MAlphaFitter::kUserScale); // -------------------------------------------------------------------------------- MBinning bins3(100, -0.005, 0.995, "BinningTheta", "asin"); MBinning binsD( 25, 0, 2.5, "BinningDist"); MBinning binsC( 25, 0, 2.5, "BinningDistC"); MBinning binsR( 60, 0, 300, "BinningRate"); // -------------------------------------------------------------------------------- MParList plist; plist.AddToList(&source); plist.AddToList(&fit); // Initialize default binnings plist.AddToList(&bins3); plist.AddToList(&binsD); plist.AddToList(&binsC); plist.AddToList(&binsR); MParameterI par("DataType"); plist.AddToList(&par); // Setup Tasklist MTaskList tlist; plist.AddToList(&tlist); // La Palma Magic1 MObservatory obs; plist.AddToList(&obs); // -------------------------------------------------------------------------------- MParameterD scale; scale.SetVal(1./fNumOffSourcePos); MHThetaSq *halphaoff = plist.FindCreateObj("MHThetaSq", "HistOff"); halphaoff->ForceUsingSize(); MFillH falpha(halphaoff, "", "FillHist"); MFMagicCuts cuts; cuts.SetHadronnessCut(MFMagicCuts::kNoCut); cuts.SetVariables(param); // Cuts before thetasq MContinue cont1(&cuts, "Cut1"); // Cuts before writing MContinue cont3("", "Cut3"); contq.SetAllowEmpty(); cont0.SetAllowEmpty(); cont1.SetAllowEmpty(); cont2.SetAllowEmpty(); cont3.SetAllowEmpty(); cont1.SetInverted(); // Filter for VsSize MFDataPhrase ftheta("ThetaSquared.fVal < ThetaSquaredCut.fVal", "CutT"); // ------------- Loop Off Data -------------------- MReadReports readoffdata; // readoffdata.DisableAutoScheme(); readoffdata.AddTree("Events", "MTime.", MReadReports::kMaster); readoffdata.AddTree("Drive", MReadReports::kRequired); readoffdata.AddFiles(files); TString fname0 = Form("%s-summary.root", outfile); TString fname1 = Form("%s-analysis.root", outfile); MWriteRootFile dummy0(fname0.Data(), "RECREATE"); MWriteRootFile dummy1(fname1.Data(), "RECREATE"); MWriteRootFile *write0 = &dummy0; MWriteRootFile *write1 = &dummy1; SetupWriter(write0, "WriteAfterCut0"); SetupWriter(write1, "WriteAfterCut3"); MParameterCalc setevtnum("MRawEvtHeader.fDAQEvtNumber", "SetEvtNumber"); setevtnum.SetNameParameter("EvtNumber"); MParameterCalc setrunnum("MRawRunHeader.GetFileID", "SetFileId"); setrunnum.SetNameParameter("FileId"); MFillH fill1a("MHHillasOffPre [MHHillas]", "MHillas", "FillHillasPre"); MFillH fill2a("MHHillasOffPost [MHHillas]", "MHillas", "FillHillasPost"); MFillH fill3a("MHVsSizeOffPost [MHVsSize]", "MHillasSrc", "FillVsSizePost"); MFillH fill3c("MHVsSizeOffTheta [MHVsSize]", "MHillasSrc", "FillVsSizeTheta"); MFillH fill4a("MHHilExtOffPost [MHHillasExt]", "MHillasSrc", "FillHilExtPost"); MFillH fill5a("MHHilSrcOffPost [MHHillasSrc]", "MHillasSrc", "FillHilSrcPost"); MFillH fill6a("MHImgParOffPost [MHImagePar]", "MImagePar", "FillImgParPost"); MFillH fill7a("MHNewParOffPost [MHNewImagePar]", "MNewImagePar", "FillNewParPost"); //MFillH fill9a("MHEffOffTime [MHEffectiveOnTime]", "MTime", "FillEffOnTime"); fill1a.SetNameTab("PreCut"); fill2a.SetNameTab("PostCut"); fill3a.SetNameTab("VsSize"); fill3c.SetNameTab("CutT"); fill4a.SetNameTab("HilExt"); fill5a.SetNameTab("HilSrc"); fill6a.SetNameTab("ImgPar"); fill7a.SetNameTab("NewPar"); //fill9a.SetNameTab("EffOffT"); fill3c.SetFilter(&ftheta); //MFDataMember fbin("Bin.fVal", '>', 0); //fill9a.SetFilter(&fbin); MTaskList tlist2; tlist2.SetNumPasses(fNumOffSourcePos); fill2a.SetWeight(&scale); fill3a.SetWeight(&scale); fill3c.SetWeight(&scale); fill4a.SetWeight(&scale); fill5a.SetWeight(&scale); fill6a.SetWeight(&scale); fill7a.SetWeight(&scale); // How to get source position from off- and on-data? MSrcPosCalc scalc; scalc.SetMode(MSrcPosCalc::kWobble); scalc.SetCallback(&tlist2); MSrcPosCorrect scor; MHillasCalc hcalc; MHillasCalc hcalc2("MHillasCalcAnti"); hcalc.SetAbberation(1.02); hcalc2.SetAbberation(1.02); hcalc.SetFlags(MHillasCalc::kCalcHillasSrc); hcalc2.SetFlags(MHillasCalc::kCalcHillasSrc); hcalc2.SetNameHillasSrc("MHillasSrcAnti"); hcalc2.SetNameSrcPosCam("MSrcPosAnti"); MSrcPosRndm srcrndm; tlist2.AddToList(&scalc); //tlist2.AddToList(&scor); tlist2.AddToList(&srcrndm); tlist2.AddToList(&hcalc); tlist2.AddToList(&hcalc2); tlist2.AddToList(&setrunnum); tlist2.AddToList(&setevtnum); tlist2.AddToList(&cuts); tlist2.AddToList(write0); tlist2.AddToList(&cont0); // Post/Pre shown cuts tlist2.AddToList(&cont1); // Calculate ThetaSq tlist2.AddToList(&fill2a); tlist2.AddToList(&ftheta); // Calculate theta Cut tlist2.AddToList(&falpha); tlist2.AddToList(&fill3c); // With theta cut tlist2.AddToList(&cont2); tlist2.AddToList(&fill3a); tlist2.AddToList(&fill4a); tlist2.AddToList(&fill5a); tlist2.AddToList(&fill6a); tlist2.AddToList(&fill7a); tlist2.AddToList(&cont3); tlist2.AddToList(write1); MPointingPosCalc pcalc; MPointingDevCalc devcalc; tlist.AddToList(&readoffdata); tlist.AddToList(&pcalc, "Drive"); tlist.AddToList(&contq, "Events"); tlist.AddToList(&fill1a, "Events"); tlist.AddToList(&tlist2, "Events"); // by setting it here it is distributed to all consecutive tasks tlist.SetAccelerator(MTask::kAccDontReset|MTask::kAccDontTime); par.SetVal(0); MStatusDisplay *d = new MStatusDisplay; // Create and setup the eventloop MEvtLoop evtloop("Off"); evtloop.SetParList(&plist); evtloop.SetDisplay(d); // Execute first analysis if (!evtloop.Eventloop()) return 2; if (!evtloop.GetDisplay()) return 2; // ------------- Loop On Data -------------------- MReadReports readondata; // readoffdata.DisableAutoScheme(); readondata.AddTree("Events", "MTime.", MReadReports::kMaster); readondata.AddTree("Drive", MReadReports::kRequired); readondata.AddTree("Rates", MReadReports::kRequired); readondata.AddTree("Humidity", MReadReports::kRequired); readondata.AddTree("Temperatures", MReadReports::kRequired); readondata.AddFiles(files); scalc.SetMode(MSrcPosCalc::kDefault); scalc.SetNumRandomOffPositions(fNumOffSourcePos); MFillH fill1b("MHHillasOnPre [MHHillas]", "MHillas", "FillHillasPre"); MFillH fill2b("MHHillasOnPost [MHHillas]", "MHillas", "FillHillasPost"); MFillH fill3b("MHVsSizeOnPost [MHVsSize]", "MHillasSrc", "FillVsSizePost"); MFillH fill3d("MHVsSizeOnTheta [MHVsSize]", "MHillasSrc", "FillVsSizeTheta"); MFillH fill4b("MHHilExtOnPost [MHHillasExt]", "MHillasSrc", "FillHilExtPost"); MFillH fill5b("MHHilSrcOnPost [MHHillasSrc]", "MHillasSrc", "FillHilSrcPost"); MFillH fill6b("MHImgParOnPost [MHImagePar]", "MImagePar", "FillImgParPost"); MFillH fill7b("MHNewParOnPost [MHNewImagePar]", "MNewImagePar", "FillNewParPost"); //MFillH fill9b("MHEffOnTime [MHEffectiveOnTime]", "MTime", "FillEffOnTime"); fill1b.SetNameTab("PreCut"); fill2b.SetNameTab("PostCut"); fill3b.SetNameTab("VsSize"); fill3d.SetNameTab("CutT"); fill4b.SetNameTab("HilExt"); fill5b.SetNameTab("HilSrc"); fill6b.SetNameTab("ImgPar"); fill7b.SetNameTab("NewPar"); //fill9b.SetNameTab("EffOnT"); fill1b.SetDrawOption("same"); fill2b.SetDrawOption("same"); fill3b.SetDrawOption("same"); fill3d.SetDrawOption("same"); fill4b.SetDrawOption("same"); fill5b.SetDrawOption("same"); fill6b.SetDrawOption("same"); fill7b.SetDrawOption("same"); //fill9b.SetFilter(&fbin); fill3d.SetFilter(&ftheta); MHThetaSq *halphaon = plist.FindCreateObj("MHThetaSq", "Hist"); halphaon->ForceUsingSize(); MFillH falpha2(halphaon, "", "FillHist"); tlist2.SetNumPasses(); tlist.Replace(&readondata); MHSrcPosCam hsrcpos(kTRUE); MFillH fillsrc(&hsrcpos, "MSrcPosCam", "FillSrcPosCam"); fillsrc.SetNameTab("SrcPos"); tlist2.AddToListBefore(&fillsrc, &hcalc); MH3 hvs1("MPointingPos.fZd"); MH3 hvs2("MPointingPos.fZd"); MHVsTime hvstM("MTimeDrive.GetMjd"); MHVsTime hvst0("MPointingPos.fZd"); MHVsTime hvst1("MReportRates.fTriggerRate"); MH3 hvst2("MPointingPos.fZd", "MReportRates.fTriggerRate"); MHVsTime hvst("MReportTemperatures.GetTempMean"); MHVsTime hvsh("MReportHumidity.GetMean"); hvs1.SetName("ObsTime;Theta"); hvs2.SetName("OnTime;Theta"); hvstM.SetName("MJD"); hvst0.SetName("ZdTime"); hvst1.SetName("Rate"); hvst2.SetName("RateZd;Theta;Rate"); hvst.SetName("CamTemp"); hvsh.SetName("CamHum"); hvs1.SetTitle("Observation time vs. Zenith Angle;\\Theta [\\circ];T_{on} [s]"); hvs2.SetTitle("On-Time vs. Zenith Angle;\\Theta [\\circ];T_{on} [s]"); hvstM.SetTitle("MJD vs time;Time;MJD"); hvst0.SetTitle("Zenith distance vs time;Time;Zd [\\circ]"); hvst1.SetTitle("Camera trigger rate vs time;Time;Rate [Hz]"); hvst2.SetTitle("Camera trigger rate vs Zd; Zd [\\circ];Rate [Hz]"); hvst.SetTitle("Average sensor compartment temperature;Time;T [\\circ C]"); hvsh.SetTitle("Average camera humidity;Time;Hum [%]"); MFillH fillvs1(&hvs1, "", "FillObsTime"); MFillH fillvs2(&hvs2, "", "FillOnTime"); MFillH fillvstM(&hvstM, "MTime", "FillMjdVsTime"); MFillH fillvst0(&hvst0, "MTimeDrive", "FillZdVsTime"); MFillH fillvst1(&hvst1, "MTimeRates", "FillRate"); MFillH fillvst2(&hvst2, "", "FillRateVsZd"); MFillH fillvst(&hvst, "MTimeTemperatures", "FillCamTemp"); MFillH fillvsh(&hvsh, "MTimeHumidity", "FillCamHum"); fillvs1.SetNameTab("ObsTime"); fillvs2.SetNameTab("OnTime"); fillvst1.SetNameTab("Rate"); fillvst2.SetNameTab("RateZd"); fillvst.SetNameTab("CamTemp"); fillvsh.SetNameTab("CamHum"); hvs1.SetWeight("MReportRates.fElapsedTime"); hvs2.SetWeight("MReportRates.fElapsedOnTime"); hvst1.SetMinimum(0); hvst2.SetDrawOption("colz"); MH3 hrate("MRawRunHeader.GetFileID"/*, "MRawEvtHeader.GetTriggerID"*/); hrate.SetWeight("1./TMath::Max(MRawRunHeader.GetRunLength,1)"); hrate.SetName("RateVsRun"); hrate.SetTitle("Event rate after quality cuts;File Id;Event Rate [Hz];"); hrate.InitLabels(MH3::kLabelsX); hrate.GetHist().SetMinimum(0); MFillH fillr(&hrate, "", "FillRateVsRun"); tlist.AddToListAfter(&fillr, &contq, "Events"); tlist.Replace(&fill1b); tlist2.Replace(&fill2b); tlist2.Replace(&fill3b); tlist2.Replace(&fill3d); tlist2.Replace(&fill4b); tlist2.Replace(&fill5b); tlist2.Replace(&fill6b); tlist2.Replace(&fill7b); tlist2.Replace(&falpha2); tlist.AddToList(&fillvs1, "Rates"); tlist.AddToList(&fillvs2, "Rates"); tlist.AddToList(&fillvst1, "Rates"); tlist.AddToList(&fillvst2, "Rates"); tlist.AddToList(&fillvst, "Temperatures"); tlist.AddToList(&fillvsh, "Humidity"); tlist.AddToList(&fillvst0, "Drive"); tlist.AddToList(&fillvstM, "Drive"); // by setting it here it is distributed to all consecutive tasks tlist.SetAccelerator(MTask::kAccDontReset|MTask::kAccDontTime); par.SetVal(1); // Execute first analysis if (!evtloop.Eventloop()) return 2; if (!evtloop.GetDisplay()) return 2; TObjArray cont; //cont.Add(const_cast(GetEnv())); //cont.Add(const_cast(&fSequence)); //TNamed cmdline("CommandLine", fCommandLine.Data()); //cont.Add(&cmdline); if (d) { TString title = "-- Analysis #"; title += gSystem->BaseName(outfile); title += " --"; d->SetTitle(title, kFALSE); cont.Add(d); TString path; path += fname1; d->SaveAs(path); } // if (!WriteContainer(cont, fname1, "RECREATE")) // return; return 0; } int ganymed(const char *dataset, const char *outfile, Float_t ra, Float_t dec) { MDirIter files; if (files.ReadList(dataset)<=0) return 2; files.Sort(); return process(files, outfile, ra, dec); } int ganymed(Float_t ra, Float_t dec, const char *starfile, const char *outfile) { MDirIter files; files.AddFile(starfile); return process(files, outfile, ra, dec); }