/* ======================================================================== *\ ! ! * ! * This file is part of MARS, the MAGIC Analysis and Reconstruction ! * Software. It is distributed to you in the hope that it can be a useful ! * and timesaving tool in analysing Data of imaging Cerenkov telescopes. ! * It is distributed WITHOUT ANY WARRANTY. ! * ! * Permission to use, copy, modify and distribute this software and its ! * documentation for any purpose is hereby granted without fee, ! * provided that the above copyright notice appear in all copies and ! * that both that copyright notice and this permission notice appear ! * in supporting documentation. It is provided "as is" without express ! * or implied warranty. ! * ! ! ! Author(s): Thomas Bretz, 1/2004 ! ! Copyright: MAGIC Software Development, 2000-2004 ! ! \* ======================================================================== */ ///////////////////////////////////////////////////////////////////////////// // // MJCalibrateSignal // // This class is reading the output written by callisto. It calibrates // signal and time. // // The signal and time extractors are read from the callisto-output. In // pricipal you could overwrite these default using the resource file, // but this is NOT recommended! // ///////////////////////////////////////////////////////////////////////////// #include "MJCalibrateSignal.h" #include #include #include "MLog.h" #include "MLogManip.h" #include "MDirIter.h" #include "MRunIter.h" #include "MParList.h" #include "MTaskList.h" #include "MEvtLoop.h" #include "MStatusDisplay.h" #include "MGeomCam.h" #include "MHCamEvent.h" //#include "MHCamEventTH.h" #include "MPedestalCam.h" #include "MBadPixelsCam.h" #include "MArrivalTimeCam.h" #include "MCalibrationQECam.h" #include "MCalibrationBlindCam.h" #include "MCalibrationChargeCam.h" #include "MCalibrationRelTimeCam.h" #include "MCalibrationChargePINDiode.h" #include "MCalibrationPulseTimeCam.h" #include "MCalibrationPatternDecode.h" #include "MCalibrationChargeCalc.h" #include "MCalibrationRelTimeCalc.h" #include "MCalibrationIntensityChargeCam.h" #include "MCalibrationIntensityBlindCam.h" #include "MCalibrationIntensityRelTimeCam.h" #include "MCalibrationIntensityQECam.h" #include "MCalibrationIntensityConstCam.h" #include "MBadPixelsIntensityCam.h" #include "MHCalibrationChargeCam.h" #include "MHCalibrationChargeBlindCam.h" #include "MHCalibrationChargePINDiode.h" #include "MHCalibrationRelTimeCam.h" #include "MHCalibrationPulseTimeCam.h" #include "MHCamera.h" #include "MCalibCalcFromPast.h" #include "MReadReports.h" #include "MReadMarsFile.h" #include "MRawFileRead.h" #include "MContinue.h" #include "MTriggerPatternDecode.h" #include "MFTriggerPattern.h" #include "MGeomApply.h" #include "MPedestalSubtract.h" //#include "MMcPedestalCopy.h" #include "MPointingPosCalc.h" #include "MPedCalcFromLoGain.h" #include "MExtractor.h" #include "MExtractTimeAndCharge.h" #include "MExtractPINDiode.h" #include "MExtractBlindPixel.h" #include "MFCosmics.h" #include "MTaskEnv.h" #include "MCalibrateData.h" #include "MCalibrateRelTimes.h" #include "MBadPixelsMerge.h" #include "MBadPixelsCalc.h" #include "MBadPixelsTreat.h" #include "MFillH.h" #include "MWriteRootFile.h" ClassImp(MJCalibrateSignal); using namespace std; // -------------------------------------------------------------------------- // // Default constructor. // // Sets: // - fIsInterlaced to kTRUE // - fIsRelTimesUpdate to kFALSE // - fIsHiLoCalibration to kFALSE // - fPulsePosCheck to kTRUE // MJCalibrateSignal::MJCalibrateSignal(const char *name, const char *title) : fExtractor(0), fIsInterlaced(kTRUE), fIsRelTimesUpdate(kFALSE) { fName = name ? name : "MJCalibrateSignal"; fTitle = title ? title : "Tool to calibrate data"; SetPulsePosCheck(); //fCruns = NULL; } MJCalibrateSignal::~MJCalibrateSignal() { if (fExtractor) delete fExtractor; } void MJCalibrateSignal::SetExtractor(const MExtractor *ext) { if (fExtractor) delete fExtractor; fExtractor = ext ? (MExtractor*)ext->Clone() : NULL; } Bool_t MJCalibrateSignal::WriteResult(TObjArray &cont) { if (IsNoStorage()) return kTRUE; const TString name(Form("signal%08d.root", fSequence.GetSequence())); return WriteContainer(cont, name); } Bool_t MJCalibrateSignal::ReadCalibration(TObjArray &l, MBadPixelsCam &cam, MExtractor* &ext2, MExtractor* &ext3, TString &geom) const { TString fname = Form("%s/calib%08d.root", fPathIn.Data(), fSequence.GetSequence()); *fLog << inf << "Reading from file: " << fname << endl; TFile file(fname, "READ"); if (!file.IsOpen()) { *fLog << err << dbginf << "ERROR - Could not open file " << fname << endl; return kFALSE; } TObject *o = file.Get("ExtractSignal"); if (o && !o->InheritsFrom(MExtractor::Class())) { *fLog << err << dbginf << "ERROR - ExtractSignal read from " << fname << " doesn't inherit from MExtractor!" << endl; return kFALSE; } ext3 = o ? (MExtractor*)o->Clone() : NULL; o = file.Get("ExtractTime"); if (o && !o->InheritsFrom(MExtractor::Class())) { *fLog << err << dbginf << "ERROR - ExtractTime read from " << fname << " doesn't inherit from MExtractor!" << endl; return kFALSE; } ext2 = o ? (MExtractor*)o->Clone() : NULL; if (!ext3 && !ext2) { *fLog << err << dbginf << "ERROR - Neither ExtractSignal nor ExrtractTime found in " << fname << "!" << endl; return kFALSE; } o = file.Get("MGeomCam"); if (o && !o->InheritsFrom(MGeomCam::Class())) { *fLog << err << dbginf << "ERROR - MGeomCam read from " << fname << " doesn't inherit from MGeomCam!" << endl; return kFALSE; } geom = o ? o->ClassName() : ""; TObjArray cont(l); cont.Add(&cam); return ReadContainer(cont); } // -------------------------------------------------------------------------- // // MJCalibration allows to setup several option by a resource file: // MJCalibrateSignal.RawData: yes,no // // For more details see the class description and the corresponding Getters // Bool_t MJCalibrateSignal::CheckEnvLocal() { SetInterlaced(GetEnv("Interlaced", fIsInterlaced)); SetRelTimesUpdate(GetEnv("RelTimesUpdate", fIsRelTimesUpdate)); return MJCalib::CheckEnvLocal(); } Bool_t MJCalibrateSignal::Process(MPedestalCam &pedcamab, MPedestalCam &pedcambias, MPedestalCam &pedcamextr) { if (!fSequence.IsValid()) { *fLog << err << "ERROR - Sequence invalid..." << endl; return kFALSE; } *fLog << inf; fLog->Separator(GetDescriptor()); *fLog << "Calculate calibrated data from Sequence #"; *fLog << fSequence.GetSequence() << endl << endl; //if (!CheckEnv()) // return kFALSE; CheckEnv(); // -------------------------------------------------------------------------------- MDirIter iter; if (fSequence.IsValid()) { if (fSequence.SetupDatRuns(iter, 0, IsUseRawData())<=0) return kFALSE; } // Read File MCalibrationIntensityChargeCam ichcam; MCalibrationIntensityQECam iqecam; MCalibrationIntensityBlindCam iblcam; MCalibrationIntensityRelTimeCam itmcam; MCalibrationIntensityConstCam icncam; MBadPixelsIntensityCam ibdcam; MHCalibrationChargeCam hchacam; MHCalibrationChargeBlindCam hbndcam; MHCalibrationChargePINDiode hpndiod; MHCalibrationRelTimeCam hrelcam; //MHCalibrationHiLoCam hilocam; MHCalibrationPulseTimeCam hpulcam; hchacam.SetOscillations(kFALSE); hbndcam.SetOscillations(kFALSE); hrelcam.SetOscillations(kFALSE); MCalibrationChargeCam calcam; MCalibrationQECam qecam; MCalibrationBlindCam bndcam; MCalibrationChargePINDiode pind; MCalibrationRelTimeCam tmcam; //MCalibrationHiLoCam hilcam; MCalibrationPulseTimeCam pulcam; MBadPixelsCam badpix; TObjArray interlacedcont; if (fIsInterlaced) { interlacedcont.Add(&ichcam); interlacedcont.Add(&iqecam); interlacedcont.Add(&iblcam); interlacedcont.Add(&itmcam); interlacedcont.Add(&ibdcam); interlacedcont.Add(&icncam); interlacedcont.Add(&hchacam); if (IsUseBlindPixel()) interlacedcont.Add(&hbndcam); if (IsUsePINDiode()) interlacedcont.Add(&hpndiod); if (fIsRelTimesUpdate) interlacedcont.Add(&hrelcam); } MExtractor *extractor1=fExtractor; MExtractor *extractor2=0; MExtractor *extractor3=0; TString geom; TObjArray calibcont; calibcont.Add(&calcam); calibcont.Add(&qecam); calibcont.Add(&bndcam); calibcont.Add(&tmcam); if (IsUseBlindPixel()) calibcont.Add(&bndcam); if (!ReadCalibration(calibcont, badpix, extractor2, extractor3, geom)) return kFALSE; *fLog << all; if (!geom.IsNull()) *fLog << inf << "Camera geometry found in file: " << geom << endl; else *fLog << inf << "No Camera geometry found using default " << endl; if (extractor3) { *fLog << underline << "Signal Extractor found in calibration file" << endl; extractor3->Print(); *fLog << endl; } else *fLog << inf << "No Signal Extractor: ExtractSignal in file." << endl; if (extractor1) { *fLog << underline << "Modified Signal Extractor set by user." << endl; extractor1->Print(); *fLog << endl; } else { *fLog << inf << "No modified Signal Extractor set by user... using ExtractSignal." << endl; extractor1 = extractor3 ? (MExtractor*)extractor3->Clone() : 0; } if (extractor2) { *fLog << underline << "Time Extractor found in calibration file" << endl; extractor2->Print(); *fLog << endl; } else *fLog << inf << "No Time Extractor: ExtractTime in file." << endl; // This is necessary for the case in which it is not in the files MBadPixelsCam badcam; icncam.SetBadPixels(&badpix); // Setup Parlist MParList plist; plist.AddToList(this); // take care of fDisplay! plist.AddToList(&badcam); //plist.AddToList(&hilcam); plist.AddToList(&calibcont); // Using AddToList(TObjArray *) plist.AddToList(&interlacedcont); // Using AddToList(TObjArray *) plist.AddToList(&pulcam); // Setup Tasklist MTaskList tlist; plist.AddToList(&tlist); MReadReports readreal; readreal.AddTree("Events", "MTime.", MReadReports::kMaster); readreal.AddTree("Trigger"); readreal.AddTree("Camera"); readreal.AddTree("Drive"); readreal.AddTree("CC"); readreal.AddTree("Currents"); MReadMarsFile readmc("Events"); readmc.DisableAutoScheme(); MRawFileRead rawread(NULL); MRead *read = 0; switch (GetDataFlag()) { case kIsUseRawData: read = &rawread; break; case kIsUseMC: read = &readmc; break; case kIsUseRootData: read = &readreal; break; } read->AddFiles(iter); const TString fname(Form("%s{s/_D_/_Y_}{s/\\.raw$/.root}{s/\\.raw\\.gz$/.root}", fPathOut.Data())); // Skips MC which have no contents. This are precisely the // events which fullfilled the MC Lvl1 trigger and an // arbitrary cut (typically at 50phe) to speed up simulation MContinue contmc("MRawEvtData.GetNumPixels<0.5", "ContEmptyMC"); //MPointingPosInterpolate pextr; //pextr.AddFiles(&iter); MGeomApply apply; // Only necessary to create geometry if (!geom.IsNull()) apply.SetGeometry(geom); MBadPixelsMerge merge(&badpix); // Make sure that pedcamab has the correct name pedcamab.SetName("MPedestalFundamental"); pedcamextr.SetName("MPedestalFromExtractorRndm"); pedcambias.SetName("MPedestalFromExtractor"); plist.AddToList(&pedcamextr); plist.AddToList(&pedcambias); plist.AddToList(&pedcamab); MArrivalTimeCam timecam; plist.AddToList(&timecam); // Check for interleaved events MCalibrationPatternDecode caldec; MTriggerPatternDecode decode; // This will make that for data with version less than 5, where // trigger patterns were not yet correct, all the events in the real // data file will be processed. In any case there are no interleaved // calibration events in such data, so this is fine. MFTriggerPattern ftp; ftp.SetDefault(kTRUE); // ftp.RequireCalibration(); ftp.DenyCalibration(); ftp.DenyPedestal(); // ftp.DenyPinDiode(); ftp.SetInverted(); // This will skip interleaved calibration events and pedestal events (if any) // --> tlist2 MContinue conttp(&ftp, "ContTrigPattern"); // Create the pedestal subtracted raw-data MPedestalSubtract pedsub; pedsub.SetPedestalCam(&pedcamab); // Do signal and pedestal calculation MPedCalcFromLoGain pedlo1("MPedCalcFundamental"); pedlo1.SetPedestalUpdate(kTRUE); pedlo1.SetNamePedestalCamOut("MPedestalFundamental"); MPedCalcFromLoGain pedlo2("MPedCalcWithExtractorRndm"); pedlo2.SetPedestalUpdate(kTRUE); pedlo2.SetRandomCalculation(kTRUE); pedlo2.SetNamePedestalCamIn("MPedestalFundamental"); pedlo2.SetNamePedestalCamOut("MPedestalFromExtractorRndm"); MPedCalcFromLoGain pedlo3("MPedCalcWithExtractor"); pedlo3.SetPedestalUpdate(kTRUE); pedlo3.SetRandomCalculation(kFALSE); pedlo3.SetNamePedestalCamIn("MPedestalFundamental"); pedlo3.SetNamePedestalCamOut("MPedestalFromExtractor"); if (extractor1) { extractor1->SetPedestals(&pedcamab); // Setup to use the hi-gain extraction window in the lo-gain // range (the start of the lo-gain range is added automatically // by MPedCalcFromLoGain) // // The window size of the extractor is not yet initialized, // so we have to stick to the extraction range // // Even if we would like to use a range comparable to the // hi-gain extraction we use the lo-gain range to make // sure that exclusions (eg. due to switching noise) // are correctly handled. // const Int_t f = extractor1->GetLoGainFirst(); const Int_t l = extractor1->GetLoGainLast(); const Int_t w = (l-f+1); //const Int_t f = extractor1->GetHiGainFirst(); //const Int_t l = extractor1->GetHiGainLast(); //const Int_t w = (l-f+1)&~1; pedlo1.SetExtractWindow(f, w); if (extractor1->InheritsFrom("MExtractTimeAndCharge")) { pedlo2.SetExtractor((MExtractTimeAndCharge*)extractor1); pedlo3.SetExtractor((MExtractTimeAndCharge*)extractor1); /* const Int_t win = ((MExtractTimeAndCharge*)extractor1)->GetWindowSizeHiGain(); pedlo1.SetExtractWindow(15, win); pedlo2.SetExtractWindow(15, win//obsolete//); pedlo3.SetExtractWindow(15, win//obsolete//); */ } else { /* // FIXME: How to get the fixed value 15 automatically? const Int_t f = (Int_t)(15.5+extractor1->GetHiGainFirst()); const Int_t n = (Int_t)(15.5+extractor1->GetNumHiGainSamples()); pedlo1.SetExtractWindow(f, n); pedlo2.SetExtractWindow(f, n); pedlo3.SetExtractWindow(f, n); */ pedlo2.SetExtractWindow(f, w); pedlo3.SetExtractWindow(f, w); } } if (extractor2) extractor2->SetPedestals(&pedcamab); if (extractor3) extractor3->SetPedestals(&pedcamab); MFCosmics fcosmics; fcosmics.SetNamePedestalCam("MPedestalFundamental"); MContinue contcos(&fcosmics, "ContTrigEvts"); contcos.SetInverted(); //MMcPedestalCopy pcopy; MTaskEnv taskenv1("ExtractSignal"); MTaskEnv taskenv2("ExtractTime"); MTaskEnv taskenv3("ExtractInterlaced"); taskenv1.SetDefault(extractor1); taskenv2.SetDefault(extractor2); taskenv3.SetDefault(extractor3); // // This is new calibration to photo-electrons, hard-coded // as decided at the Wuerzburg software meeting 26.01.05 // MCalibrateData calib; calib.SetSignalType(MCalibrateData::kPhe); calib.AddPedestal("Fundamental"); calib.AddPedestal("FromExtractor"); calib.AddPedestal("FromExtractorRndm"); calib.SetPedestalFlag(MCalibrateData::kEvent); //---------------------------------------------------------- MExtractPINDiode pinext; MExtractBlindPixel bldext; MFTriggerPattern fcalib("CalibFilter"); fcalib.SetDefault(kFALSE); fcalib.RequireCalibration(); MCalibrationChargeCalc chcalc; chcalc.SetExtractor(extractor3); MCalibrationRelTimeCalc recalc; MCalibCalcFromPast pacalc; pinext.SetPedestals(&pedcamab); bldext.SetPedestals(&pedcamab); chcalc.SetPedestals(&pedcamextr); pacalc.SetChargeCalc(&chcalc); if (fIsRelTimesUpdate) pacalc.SetRelTimeCalc(&recalc); pacalc.SetCalibrate(&calib); // // Intensity Calibration histogramming // MFillH filpin(&hpndiod, "MExtractedSignalPINDiode", "FillPINDiode"); MFillH filbnd(&hbndcam, "MExtractedSignalBlindPixel", "FillBlindCam"); MFillH filcam(&hchacam, "MExtractedSignalCam", "FillChargeCam"); MFillH filtme(&hrelcam, "MArrivalTimeCam", "FillRelTime"); //MFillH filhil(&hilocam, "MExtractedSignalCam", "FillHiLoRatio"); MFillH filpul(&hpulcam, "MRawEvtData", "FillPulseTime"); filpin.SetBit(MFillH::kDoNotDisplay); filbnd.SetBit(MFillH::kDoNotDisplay); filcam.SetBit(MFillH::kDoNotDisplay); filtme.SetBit(MFillH::kDoNotDisplay); //filhil.SetBit(MFillH::kDoNotDisplay); filpul.SetBit(MFillH::kDoNotDisplay); MCalibrateRelTimes caltm; MBadPixelsCalc bpcal; MBadPixelsTreat treat; bpcal.SetNamePedPhotCam("MPedPhotFromExtractor"); treat.AddNamePedPhotCam("MPedPhotFundamental"); treat.AddNamePedPhotCam("MPedPhotFromExtractor"); treat.AddNamePedPhotCam("MPedPhotFromExtractorRndm"); if (!extractor2 && !extractor1->InheritsFrom("MExtractTimeAndCharge")) treat.SetProcessTimes(kFALSE); MHCamEvent evt0( 0, "PedFLG", "Fundamental Pedestal from Lo Gain;;P [cnts/sl]"); MHCamEvent evt1( 2, "PedRmsFLG", "RMS from Extractor applied to ped.;;\\sigma_{p} [cnts/sl]"); MHCamEvent evt2( 0, "Extra'd", "Extracted Signal;;S [cnts/sl]"); // MHCamEvent evt3(4, "PedPhot", "Calibrated Pedestal;;P [phe]"); MHCamEvent evt4( 5, "PedRMS", "Calibrated RMS from Extractor applied to ped.;;\\sigma_{p} [phe]"); MHCamEvent evt5( 0, "Interp'd", "Interpolated Signal scaled with A/A_{0};;S [phe]"); MHCamEvent evt6(102, "Unsuitable", "Fraction of unsuitable events per Pixel;;[1]"); // MHCamEvent evt7( 6, "Times", "Calibrated Arrival Time;;T [fadc sl]"); MHCamEvent evt8( 0, "Conv", "Calibration Conv. Factors;;[phe/fadc cnts]"); MHCamEvent evt9( 7, "PulsePos", "Pulse Position of cosmics (>50phe);;T"); MHCamEvent evtR( 4, "HiLoCal", "Hi-/Lo-Gain ratio;;Ratio"); MHCamEvent evtO( 7, "HiLoOff", "Lo-/Hi-Gain Offset;;Offset"); evt2.SetErrorSpread(kFALSE); evt5.SetErrorSpread(kFALSE); evt6.SetErrorSpread(kFALSE); evt6.SetThreshold(); MFillH fill0(&evt0, "MPedestalFundamental", "FillPedFLG"); MFillH fill1(&evt1, "MPedestalFromExtractorRndm", "FillPedRmsFLG"); MFillH fill2(&evt2, "MExtractedSignalCam", "FillExtracted"); // MFillH fill3(&evt3, "MPedPhotFundamental", "FillPedPhot"); MFillH fill4(&evt4, "MPedPhotFromExtractorRndm", "FillPedRMS"); MFillH fill5(&evt5, "MSignalCam", "FillInterpolated"); MFillH fill6(&evt6, "MBadPixelsCam", "FillUnsuitable"); // MFillH fill7(&evt7, "MSignalCam", "FillTimes"); MFillH fill8(&evt8, "MCalibrationIntensityConstCam", "FillConv"); MFillH fill9(&evt9, "MSignalCam", "FillPulse"); MFillH fillR(&evtR, "MExtractedSignalCam", "FillHiLoCal"); MFillH fillO(&evtO, "MArrivalTimeCam", "FillHiLoOff"); MTaskEnv fillflorian("FinalFantasy"); fillflorian.SetDefault(); // The second rule is for the case reading raw-files! MWriteRootFile write(2, fname, fOverwrite?"RECREATE":"NEW"); // Run Header write.AddContainer("MRawRunHeader", "RunHeaders"); write.AddContainer("MBadPixelsCam", "RunHeaders"); write.AddContainer("MGeomCam", "RunHeaders"); // Monte Carlo Headers write.AddContainer("MMcRunHeader", "RunHeaders", kFALSE); write.AddContainer("MMcFadcHeader", "RunHeaders", kFALSE); write.AddContainer("MMcTrigHeader", "RunHeaders", kFALSE); write.AddContainer("MMcConfigRunHeader", "RunHeaders", kFALSE); write.AddContainer("MMcCorsikaRunHeader", "RunHeaders", kFALSE); // Monte Carlo write.AddContainer("MMcEvt", "Events", kFALSE); write.AddContainer("MMcTrig", "Events", kFALSE); // Data tree write.AddContainer("MSignalCam", "Events"); // write.AddContainer("MPedPhotFundamental", "Events"); write.AddContainer("MPedPhotFromExtractor", "Events"); write.AddContainer("MPedPhotFromExtractorRndm", "Events"); write.AddContainer("MTime", "Events", kFALSE); write.AddContainer("MRawEvtHeader", "Events"); // Slow-Control: Current-tree write.AddContainer("MTimeCurrents", "Currents", kFALSE); write.AddContainer("MCameraDC", "Currents", kFALSE); write.AddContainer("MReportCurrents", "Currents", kFALSE); // Slow-Control: Camera-tree write.AddContainer("MReportCamera", "Camera", kFALSE); write.AddContainer("MTimeCamera", "Camera", kFALSE); write.AddContainer("MCameraAUX", "Camera", kFALSE); write.AddContainer("MCameraCalibration", "Camera", kFALSE); write.AddContainer("MCameraCooling", "Camera", kFALSE); write.AddContainer("MCameraHV", "Camera", kFALSE); write.AddContainer("MCameraLV", "Camera", kFALSE); write.AddContainer("MCameraLids", "Camera", kFALSE); // Slow-Control: Trigger-tree write.AddContainer("MReportTrigger", "Trigger", kFALSE); write.AddContainer("MTimeTrigger", "Trigger", kFALSE); // Slow-Control: Drive-tree write.AddContainer("MReportDrive", "Drive", kFALSE); write.AddContainer("MTimeDrive", "Drive", kFALSE); // Slow-Control: Central Control-tree write.AddContainer("MReportCC", "CC", kFALSE); write.AddContainer("MTimeCC", "CC", kFALSE); // Write the special MC tree MWriteRootFile writemc(2, fname, fOverwrite?"RECREATE":"NEW"); writemc.SetName("WriteMC"); writemc.AddContainer("MMcEvtBasic", "OriginalMC"); // Now setup tasklist for events MTaskList tlist2; tlist2.AddToList(&caldec); tlist2.AddToList(&decode); tlist2.AddToList(&apply); tlist2.AddToList(&merge); tlist2.AddToList(&pedsub); tlist2.AddToList(&pedlo1); tlist2.AddToList(&pedlo2); tlist2.AddToList(&pedlo3); //----------------------------------------------------------- MTaskList tlist3; tlist3.SetFilter(&fcalib); if (fIsInterlaced) { tlist2.AddToList(&fcalib); tlist2.AddToList(&tlist3); if (IsUsePINDiode()) tlist3.AddToList(&pinext); if (IsUseBlindPixel()) tlist3.AddToList(&bldext); tlist3.AddToList(&taskenv3); tlist3.AddToList(&pacalc); tlist3.AddToList(&filcam); if (fIsRelTimesUpdate) tlist3.AddToList(&filtme); if (IsUseBlindPixel()) tlist3.AddToList(&filbnd); if (IsUsePINDiode()) tlist3.AddToList(&filpin); tlist3.AddToList(&chcalc); if (fIsRelTimesUpdate) tlist3.AddToList(&recalc); } // Continue for all non-cosmic events tlist2.AddToList(&conttp); if (extractor1) tlist2.AddToList(&taskenv1); if (extractor2) tlist2.AddToList(&taskenv2); tlist2.AddToList(&fill0); tlist2.AddToList(&fill1); tlist2.AddToList(&contcos); /* if (fIsHiLoCalibration) { plist.AddToList(&hilocam); tlist2.AddToList(&filhil); } */ if (fIsPulsePosCheck) { plist.AddToList(&hpulcam); tlist2.AddToList(&filpul); } tlist2.AddToList(&fill2); tlist2.AddToList(&calib); if (extractor2 || extractor1->InheritsFrom("MExtractTimeAndCharge")) tlist2.AddToList(&caltm); if (fIsInterlaced) tlist2.AddToList(&fill8); tlist2.AddToList(&bpcal); tlist2.AddToList(&treat); tlist2.AddToList(&fill6); // tlist2.AddToList(&fill3); tlist2.AddToList(&fill4); tlist2.AddToList(&fill5); //if (extractor2 || extractor1->InheritsFrom("MExtractTimeAndCharge")) // tlist2.AddToList(&fill7); tlist2.AddToList(&fill9); tlist2.AddToList(&fillR); tlist2.AddToList(&fillO); tlist2.AddToList(&fillflorian); // Setup List for Drive-tree //MPointingPosCalc pcalc; // Now setup main tasklist tlist.AddToList(read); if (IsUseMC()) { tlist.AddToList(&writemc); tlist.AddToList(&contmc); } //if (IsUseRootData()) // tlist2.AddToList(&pextr); tlist.AddToList(&tlist2, IsUseRootData() ? "Events" : "All"); //if (IsUseMC()) // tlist.AddToList(&pcalc, "Drive"); tlist.AddToList(&write); // Create and setup the eventloop MEvtLoop evtloop(fName); evtloop.SetParList(&plist); evtloop.SetDisplay(fDisplay); evtloop.SetLogStream(fLog); if (!SetupEnv(evtloop)) return kFALSE; // Execute first analysis const Bool_t rc = evtloop.Eventloop(fMaxEvents); // make sure owned object are deleted if (extractor1 && extractor1!=fExtractor) delete extractor1; if (extractor2) delete extractor2; if (extractor3) delete extractor3; // return if job failed if (!rc) { *fLog << err << GetDescriptor() << ": Failed." << endl; return kFALSE; } // if everything went ok write and display result DisplayResult(plist); if (fIsPixelCheck) { if (fIsPulsePosCheck) hpulcam[fCheckedPixId].DrawClone(""); //if (fIsHiLoCalibration) // hilocam[fCheckedPixId].DrawClone(""); } interlacedcont.Add(&pulcam); //if (fIsHiLoCalibration) // interlacedcont.Add(&hilcam); if (fIsPulsePosCheck) interlacedcont.Add(plist.FindObject("MHCalibrationPulseTimeCam")); //if (fIsHiLoCalibration) // interlacedcont.Add(plist.FindObject("MHCalibrationHiLoCam")); if (!WriteResult(interlacedcont)) return kFALSE; // return if job went ok *fLog << all << GetDescriptor() << ": Done." << endl; *fLog << endl << endl; return kTRUE; } void MJCalibrateSignal::DisplayResult(MParList &plist) { if (!fDisplay || !fIsHiLoCalibration) return; /* MCalibrationHiLoCam *hcam = (MCalibrationHiLoCam*)plist.FindObject("MCalibrationHiLoCam"); MGeomCam *geom = (MGeomCam*)plist.FindObject("MGeomCam"); if (!hcam || !geom) return; // Create histograms to display MHCamera disp1(*geom, "HiLoConv", "Ratio Amplification HiGain vs. LoGain (Charges)"); MHCamera disp2(*geom, "HiLoDiff", "Arrival Time Diff. HiGain vs. LoGain (Times)"); disp1.SetCamContent(*hcam, 0); disp1.SetCamError( *hcam, 1); disp2.SetCamContent(*hcam, 5); disp2.SetCamError( *hcam, 6); disp1.SetYTitle("R [1]"); disp2.SetYTitle("\\Delta T [FADC sl.]"); TCanvas &c1 = fDisplay->AddTab("HiLoConv"); c1.Divide(2,3); disp1.CamDraw(c1, 1, 2, 1); disp2.CamDraw(c1, 2, 2, 1); */ }