/************************************************************************** * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * * * Author: The ALICE Off-line Project. * * Contributors are mentioned in the code where appropriate. * * * * Permission to use, copy, modify and distribute this software and its * * documentation strictly for non-commercial purposes is hereby granted * * without fee, provided that the above copyright notice appears in all * * copies and that both the copyright notice and this permission notice * * appear in the supporting documentation. The authors make no claims * * about the suitability of this software for any purpose. It is * * provided "as is" without express or implied warranty. * **************************************************************************/ /////////////////////////////////////////////////////////////////////// // // // Produces the data needed to calculate the TOF quality assurance. // // QA objects are 1 & 2 Dimensional histograms. // // author: S.Arcelli // // // /////////////////////////////////////////////////////////////////////// /* Modified by fbellini on 14/06/2010 - Updated plots - use LoadRawDataBuffersV2() Modified by fbellini on 10/05/2010 - Fixed EndOfDetectorCycle() memory corruption bug Modified by fbellini on 22/04/2010 - Added filter for physics events Modified by fbellini on 16/04/2010 - Added EnableDqmShifterOpt() - Modified EndOfDetectorCycle() with options for DQM - Updated ESDs QA Modified by fbellini on 30/03/2010 - Changed raws time histos range to 610ns - Added FilterLTMData() and FilterSpare() methods - Added check on enabled channels for raw data - Updated RecPoints QA Modified by fbellini on 02/03/2010 - Fixed raw data decoding methods (use AliTOFRawStream::LoadRawDataBuffer()) - Added filter for noisy channels and read map from OCDB - Added GetCalibData() method - Added CheckVolumeID() and CheckEquipID() methods - Updated Raw QA */ #include #include #include #include #include "AliCDBManager.h" #include "AliCDBEntry.h" #include "AliESDEvent.h" #include "AliESDtrack.h" #include "AliQAChecker.h" #include "AliRawReader.h" #include "AliTOFRawStream.h" #include "AliTOFcluster.h" #include "AliTOFQADataMakerRec.h" #include "AliTOFrawData.h" #include "AliTOFGeometry.h" #include "AliTOFChannelOnlineStatusArray.h" ClassImp(AliTOFQADataMakerRec) //____________________________________________________________________________ AliTOFQADataMakerRec::AliTOFQADataMakerRec() : AliQADataMakerRec(AliQAv1::GetDetName(AliQAv1::kTOF), "TOF Quality Assurance Data Maker"), fCalibData(0x0), fEnableNoiseFiltering(kFALSE), fEnableDqmShifterOpt(kFALSE), fProcessedRawEventN(0) { // // ctor // } //____________________________________________________________________________ AliTOFQADataMakerRec::AliTOFQADataMakerRec(const AliTOFQADataMakerRec& qadm) : AliQADataMakerRec(), fCalibData(qadm.fCalibData), fEnableNoiseFiltering(qadm.fEnableNoiseFiltering), fEnableDqmShifterOpt(qadm.fEnableDqmShifterOpt), fProcessedRawEventN(qadm.fProcessedRawEventN) { // //copy ctor // SetName((const char*)qadm.GetName()) ; SetTitle((const char*)qadm.GetTitle()); } //__________________________________________________________________ AliTOFQADataMakerRec& AliTOFQADataMakerRec::operator = (const AliTOFQADataMakerRec& qadm ) { // // assignment operator. // this->~AliTOFQADataMakerRec(); new(this) AliTOFQADataMakerRec(qadm); return *this; } //---------------------------------------------------------------------------- AliTOFChannelOnlineStatusArray* AliTOFQADataMakerRec::GetCalibData() const { // // Retrive TOF calib objects from OCDB // AliCDBManager *man = AliCDBManager::Instance(); AliCDBEntry *cdbe=0; cdbe = man->Get("TOF/Calib/Status",fRun); if(!cdbe){ AliWarning("Load of calibration data from default storage failed!"); AliWarning("Calibration data will be loaded from local storage ($ALICE_ROOT)"); man->SetDefaultStorage("local://$ALICE_ROOT/OCDB"); cdbe = man->Get("TOF/Calib/Status",fRun); } // Retrieval of data in directory TOF/Calib/Data: AliTOFChannelOnlineStatusArray * array = 0; if (cdbe) array = (AliTOFChannelOnlineStatusArray *)cdbe->GetObject(); if (!array) AliFatal("No calibration data from calibration database !"); return array; } //____________________________________________________________________________ void AliTOFQADataMakerRec::InitRaws() { // // create Raws histograms in Raws subdir // const Bool_t expert = kTRUE ; const Bool_t saveCorr = kTRUE ; const Bool_t image = kTRUE ; TH1I * h0 = new TH1I("hTOFRaws", "TOF raw hit multiplicity; TOF raw hits number;Counts ",200, 0, 200) ; TH1I * h1 = new TH1I("hTOFRawsIA", "TOF raw hit multiplicity - I/A side; TOF raw hits number ;Counts ",200, 0, 200) ; TH1I * h2 = new TH1I("hTOFRawsOA", "TOF raw hit multiplicity - O/A side; TOF raw hits number ;Counts ",200, 0, 200) ; TH1I * h3 = new TH1I("hTOFRawsIC", "TOF raw hit multiplicity - I/C side; TOF raw hits number ;Counts ",200, 0, 200) ; TH1I * h4 = new TH1I("hTOFRawsOC", "TOF raw hit multiplicity - O/C side; TOF raw hits number ;Counts ",200, 0, 200) ; TH1F * h5 = new TH1F("hTOFRawsTime", "TOF Raws - Hit time (ns);Measured Hit time [ns];Counts", 25000,0. ,610.) ; TH1F * h6 = new TH1F("hTOFRawsTimeIA", "TOF Raws - Hit time (ns) - I/A side;Measured Hit time [ns];Counts", 25000,0. ,610.) ; TH1F * h7 = new TH1F("hTOFRawsTimeOA", "TOF Raws - Hit time (ns) - O/A side;Measured Hit time [ns];Counts", 25000,0. ,610.) ; TH1F * h8 = new TH1F("hTOFRawsTimeIC", "TOF Raws - Hit time (ns) - I/C side;Measured Hit time [ns];Counts", 25000,0. ,610.) ; TH1F * h9 = new TH1F("hTOFRawsTimeOC", "TOF Raws - Hit time (ns) - O/C side;Measured Hit time [ns];Counts", 25000,0. ,610.) ; TH1F * h10 = new TH1F("hTOFRawsToT", "TOF Raws - Hit ToT (ns);Measured Hit ToT (ns);Counts", 1000, 0., 48.8) ; TH1F * h11 = new TH1F("hTOFRawsToTIA", "TOF Raws - Hit ToT (ns) - I/A side;Measured Hit ToT (ns);Counts", 1000, 0., 48.8) ; TH1F * h12 = new TH1F("hTOFRawsToTOA", "TOF Raws - Hit ToT (ns) - O/A side;Measured Hit ToT (ns);Counts", 1000, 0., 48.8) ; TH1F * h13 = new TH1F("hTOFRawsToTIC", "TOF Raws - Hit ToT (ns) - I/C side;Measured Hit ToT (ns);Counts", 1000, 0., 48.8) ; TH1F * h14 = new TH1F("hTOFRawsToTOC", "TOF Raws - Hit ToT (ns) - O/C side;Measured Hit ToT (ns);Counts", 1000, 0., 48.8) ; TH1F * h15 = new TH1F("hTOFRawsLTMHits", "LTMs OR signals; Crate; Counts", 72, 0., 72.); TH1F * h16 = new TH1F("hTOFRawsTRMHits035", "TRM hits - crates 0 to 35 ;TRM index = SMid(crate*10)+TRM(0-9);Hits", 361, 0., 361.) ; TH1F * h17 = new TH1F("hTOFRawsTRMHits3671","TRM hits - crates 36 to 71 ;TRM index = SMid(crate*10)+TRM(0-9);Hits", 361, 360., 721.) ; TH1F * h18 = new TH1F("hTOFRawChannelHits","TOF channel hits count; Channel ID; Hits", 158000, 0., 158000); TH1F * h19 = new TH1F("hTOFOrphansTime", "TOF Raws - Orphans time (ns);Measured Hit time [ns];Counts", 25000, 0. ,610.) ; TH2F * h20 = new TH2F("hTOFRawTimeVsTRM035", "TOF raws - Hit time vs TRM - crates 0 to 35; TRM index = DDL*10+TRM(0-9);TOF raw time [ns]", 361, 0., 361., 250, 0., 610.0) ; TH2F * h21 = new TH2F("hTOFRawTimeVsTRM3671", "TOF raws - Hit time vs TRM - crates 36 to 72; TRM index = DDL**10+TRM(0-9);TOF raw time [ns]", 361, 360., 721., 250, 0., 610.0) ; TH2F * h22 = new TH2F("hTOFRawToTVsTRM035", "TOF raws - Hit ToT vs TRM - crates 0 to 35; TRM index = DDL*10+TRM(0-9);TOF raw ToT [ns] ", 361, 0., 361., 100, 0., 48.8) ; TH2F * h23 = new TH2F("hTOFRawToTVsTRM3671", "TOF raws - Hit ToT vs TRM - crates 36 to 72; TRM index = DDL*10+TRM(0-9);TOF raw ToT [ns] ", 361, 360., 721., 100, 0., 48.8) ; TH2F * h24 = new TH2F("hTOFTimeVsStrip","TOF Raws - Hit time vs. strip (theta); Strip index;Raws TOF time (ns) ", 91,0.,91, 250, 0., 610.) ; // TH2F * h25 = new TH2F("hTOFRawsClusMap","Raws vs TOF eta-phi;eta (2*strip+padz);phi (48*sector+padx)",183, -0.5, 182.5,865,-0.5,864.5) ; h0->Sumw2() ; h1->Sumw2() ; h2->Sumw2() ; h3->Sumw2() ; h4->Sumw2() ; h5->Sumw2() ; h6->Sumw2() ; h7->Sumw2() ; h8->Sumw2() ; h9->Sumw2() ; h10->Sumw2() ; h11->Sumw2() ; h12->Sumw2() ; h13->Sumw2() ; h14->Sumw2() ; h15->Sumw2() ; h16->Sumw2() ; h17->Sumw2() ; h18->Sumw2() ; h19->Sumw2() ; h20->Sumw2() ; h21->Sumw2() ; h22->Sumw2() ; h23->Sumw2() ; h24->Sumw2() ; Add2RawsList(h0, 0, !expert, image, !saveCorr) ; Add2RawsList(h1, 1, expert, !image, !saveCorr) ; Add2RawsList(h2, 2, expert, !image, !saveCorr) ; Add2RawsList(h3, 3, expert, !image, !saveCorr) ; Add2RawsList(h4, 4, expert, !image, !saveCorr) ; Add2RawsList(h5, 5, !expert, image, !saveCorr) ; Add2RawsList(h6, 6, expert, !image, !saveCorr) ; Add2RawsList(h7, 7, expert, !image, !saveCorr) ; Add2RawsList(h8, 8, expert, !image, !saveCorr) ; Add2RawsList(h9, 9, expert, !image, !saveCorr) ; Add2RawsList(h10, 10, !expert, image, !saveCorr) ; Add2RawsList(h11, 11, expert, !image, !saveCorr) ; Add2RawsList(h12, 12, expert, !image, !saveCorr) ; Add2RawsList(h13, 13, expert, !image, !saveCorr) ; Add2RawsList(h14, 14, expert, !image, !saveCorr) ; Add2RawsList(h15, 15, !expert, image, !saveCorr) ; Add2RawsList(h16, 16, !expert, image, !saveCorr) ; Add2RawsList(h17, 17, !expert, image, !saveCorr) ; Add2RawsList(h18, 18, expert, !image, !saveCorr) ; Add2RawsList(h19, 19, expert, !image, !saveCorr) ; Add2RawsList(h20, 20, expert, !image, !saveCorr) ; Add2RawsList(h21, 21, expert, !image, !saveCorr) ; Add2RawsList(h22, 22, expert, !image, !saveCorr) ; Add2RawsList(h23, 23, expert, !image, !saveCorr) ; Add2RawsList(h24, 24, expert, !image, !saveCorr) ; } //____________________________________________________________________________ void AliTOFQADataMakerRec::InitRecPoints() { // // create RecPoints histograms in RecPoints subdir // const Bool_t expert = kTRUE ; const Bool_t image = kTRUE ; TH1I * h0 = new TH1I("hTOFRecPoints", "TOF RecPoints multiplicity ; TOF RecPoints number;Counts",200, 0, 200) ; TH1F * h1 = new TH1F("hTOFRecPointsTimeIA", "RecPoints Time Spectrum in TOF (ns)- I/A side; Calibrated TOF time [ns];Counts", 25000, 0., 610.) ; TH1F * h2 = new TH1F("hTOFRecPointsTimeOA", "RecPoints Time Spectrum in TOF (ns)- O/A side; Calibrated TOF time [ns];Counts", 25000, 0., 610.) ; TH1F * h3 = new TH1F("hTOFRecPointsTimeIC", "RecPoints Time Spectrum in TOF (ns)- I/C side; Calibrated TOF time [ns];Counts", 25000, 0., 610.) ; TH1F * h4 = new TH1F("hTOFRecPointsTimeOC", "RecPoints Time Spectrum in TOF (ns)- O/C side; Calibrated TOF time [ns];Counts", 25000, 0., 610.) ; TH1F * h5 = new TH1F("hTOFRecPointsRawTimeIA", "RecPoints raw Time Spectrum in TOF (ns)-I/A side; Measured TOF time [ns];Counts", 25000, 0., 610.) ; TH1F * h6 = new TH1F("hTOFRecPointsRawTimeOA", "RecPoints raw Time Spectrum in TOF (ns)-O/A side; Measured TOF time [ns];Counts", 25000, 0., 610.) ; TH1F * h7 = new TH1F("hTOFRecPointsRawTimeIC", "RecPoints raw Time Spectrum in TOF (ns)-I/C side; Measured TOF time [ns];Counts", 25000, 0., 610.) ; TH1F * h8 = new TH1F("hTOFRecPointsRawTimeOC", "RecPoints raw Time Spectrum in TOF (ns)-O/C side; Measured TOF time [ns];Counts", 25000, 0., 610.) ; TH1F * h9 = new TH1F("hTOFRecPointsToTIA", "RecPoints ToT Spectrum in TOF (ns)-I/A side; Measured TOT [ns];Counts", 1000, 0., 48.8 ) ; TH1F * h10 = new TH1F("hTOFRecPointsToTOA", "RecPoints ToT Spectrum in TOF (ns)-O/A side; Measured TOT [ns];Counts", 1000, 0., 48.8 ) ; TH1F * h11 = new TH1F("hTOFRecPointsToTIC", "RecPoints ToT Spectrum in TOF (ns)-I/C side; Measured TOT [ns];Counts", 1000, 0., 48.8 ) ; TH1F * h12 = new TH1F("hTOFRecPointsToTOC", "RecPoints ToT Spectrum in TOF (ns)-O/C side; Measured TOT [ns];Counts", 1000, 0., 48.8 ) ; TH1F * h13 = new TH1F("hTOFRawChannelHits","TOF channel hits count; Channel ID; Hits", 158000, 0., 158000); TH2F * h14 = new TH2F("hTOFRecPointsClusMap","RecPoints vs TOF phi-eta; eta (2*strip+padz);phi (48*sector+padx)",183, -0.5, 182.5,865,-0.5,864.5) ; TH2F * h15 = new TH2F("hTOFRecTimeVsStrip","RecPoints TOF time vs. strip (theta); Strip index; RecPoints TOF time (ns) ",92,-1.,91, 250, 0., 610.) ; TH2F * h16 = new TH2F("hTOFRecPointsTimeVsTRM035","TOF RecPoints time vs TRM - crates 0 to 35; TRM index = DDL*10+TRM(0-9);TOF time [ns]", 361, 0., 361., 250, 0., 610.0) ; TH2F * h17 = new TH2F("hTOFRecPointsTimeVsTRM3671","TOF RecPoints time vs TRM - crates 36 to 72; TRM index = DDL**10+TRM(0-9);TOF time [ns]", 361, 360., 721., 250, 0., 610.0) ; TH2F * h18 = new TH2F("hTOFRecPointsToTVsTRM035","TOF RecPoints ToT vs TRM - crates 0 to 35; TRM index = DDL*10+TRM(0-9);TOF ToT [ns] ", 361, 0., 361., 100, 0., 48.8) ; TH2F * h19 = new TH2F("hTOFRecPointsToTVsTRM3671","TOF RecPoints ToT vs TRM - crates 36 to 72; TRM index = DDL*10+TRM(0-9);TOF ToT [ns] ", 361, 360., 721., 100, 0., 48.8) ; h0->Sumw2() ; h1->Sumw2() ; h2->Sumw2() ; h3->Sumw2() ; h4->Sumw2() ; h5->Sumw2() ; h6->Sumw2() ; h7->Sumw2() ; h8->Sumw2() ; h9->Sumw2() ; h10->Sumw2() ; h11->Sumw2() ; h12->Sumw2() ; h13->Sumw2() ; h14->Sumw2() ; h15->Sumw2() ; h16->Sumw2() ; h17->Sumw2() ; h18->Sumw2() ; h19->Sumw2() ; Add2RecPointsList(h0, 0, !expert, image) ; Add2RecPointsList(h1, 1, !expert, image) ; Add2RecPointsList(h2, 2, !expert, image) ; Add2RecPointsList(h3, 3, !expert, image) ; Add2RecPointsList(h4, 4, !expert, image) ; Add2RecPointsList(h5, 5, expert, !image) ; Add2RecPointsList(h6, 6, expert, !image) ; Add2RecPointsList(h7, 7, expert, !image) ; Add2RecPointsList(h8, 8, expert, !image) ; Add2RecPointsList(h9, 9, !expert, image) ; Add2RecPointsList(h10, 10, !expert, image) ; Add2RecPointsList(h11, 11, !expert, image) ; Add2RecPointsList(h12, 12, !expert, image) ; Add2RecPointsList(h13, 13, expert, !image) ; Add2RecPointsList(h14, 14, expert, !image) ; Add2RecPointsList(h15, 15, expert, !image) ; Add2RecPointsList(h16, 16, expert, !image) ; Add2RecPointsList(h17, 17, expert, !image) ; Add2RecPointsList(h18, 18, expert, !image) ; Add2RecPointsList(h19, 19, expert, !image) ; } //____________________________________________________________________________ void AliTOFQADataMakerRec::InitESDs() { // //create ESDs histograms in ESDs subdir // const Bool_t expert = kTRUE ; const Bool_t image = kTRUE ; TH1I * h0 = new TH1I("hTOFESDs", "Number of matched TOF tracks per event;Number of TOF matched ESD tracks;Counts", 200, 0, 200) ; TH1F * h1 = new TH1F("hTOFESDsTime", "Matched ESDs tracks: TOF Time spectrum; Calibrated TOF time [ns];Counts", 25000, 0., 610. ) ; TH1F * h2 = new TH1F("hTOFESDsRawTime", "Matched ESDs tracks: TOF raw Time spectrum;Measured TOF time [ns];Counts", 25000, 0., 610.) ; TH1F * h3 = new TH1F("hTOFESDsToT", "Matched ESDs tracks: TOF ToT spectrum; ESDs ToT [ns];Counts",1000, 0., 48.8) ; TH1F * h4 = new TH1F("hTOFESDsPIDoverMatched", "Fraction of TOF identified tracks over matched TOF tracks per event; identified by TOF / matched tracks [%];Counts", 101, -1., 100.) ; TH1F * h5 = new TH1F("hTOFESDsPID", "Fraction of TOF identified tracks over ESD identified tracks per event; identified by TOF / ESD identified [%];Counts", 101, -1., 100.) ; TH1F * h6 = new TH1F("hTOFESDsTPCmatched", "TPC-TOF matched tracks momentum distribution (GeV/c); p (GeV/c);Counts", 50, 0.20, 5.00) ; TH1F * h7 = new TH1F("hTOFESDsMatchingProb", "TPC-TOF track-matching probability per event;TPC-TOF track-matching probability (%) ;Counts",101, -1.0, 100) ; TH1F * h8 = new TH1F("hTOFESDsHitOverTracked", "Fraction of TOF matching tracks over propagated tracks per event; TOF matched / propagated to TOF [%];Counts",101, -1.0, 100.0) ; TH1F * h9 = new TH1F("hTOFESDsDiffTime", "ESDs t_{TOF}-t_{exp} spectrum in TOF (ps); t_{TOF}-t_{exp} [ps];Counts", 200, -2440., 2440.) ; TH1F * h10 = new TH1F("hTOFHitsLength", "Matched ESDs tracks: Length Spectrum; Track length [cm];Counts", 800, 0., 800) ; h0->Sumw2() ; h1->Sumw2() ; h2->Sumw2() ; h3->Sumw2() ; h4->Sumw2() ; h5->Sumw2() ; h6->Sumw2() ; h7->Sumw2() ; h8->Sumw2() ; h9->Sumw2() ; h10->Sumw2() ; Add2ESDsList(h0, 0, !expert, image) ; Add2ESDsList(h1, 1, !expert, image) ; Add2ESDsList(h2, 2, expert, image) ; Add2ESDsList(h3, 3, !expert, image) ; Add2ESDsList(h4, 4, expert, image) ; Add2ESDsList(h5, 5, expert, image) ; Add2ESDsList(h6, 6, expert, image) ; Add2ESDsList(h7, 7, expert, image) ; Add2ESDsList(h8, 8, expert, image) ; Add2ESDsList(h9, 9, !expert, image) ; Add2ESDsList(h10, 10, !expert, image) ; } //____________________________________________________________________________ void AliTOFQADataMakerRec::MakeRaws(AliRawReader* rawReader) { // // makes data from Raws // if (rawReader->GetType()==7) { Double_t tdc2ns=AliTOFGeometry::TdcBinWidth()*1E-3;//in ns Double_t tot2ns=AliTOFGeometry::ToTBinWidth()*1E-3; Int_t ntof[5]; /* 0=tot, 1=IA, 2=OA, 3=IC, 4=OC*/ for (Int_t j=0;j<5;j++){ ntof[j]=0;} Int_t equipmentID[5]; //(ddl, trm, chain,tdc,channel) Int_t volumeID[5]; //(sector,plate,strip,padX,padZ) Int_t volumeID2[5]; //(sector,plate,strip,padZ,padX) to use AliTOFGeometry::GetIndex() Int_t out[5]; // out=(indexZ,indexPhi) Int_t chIndex=-1; TClonesArray * clonesRawData; AliTOFRawStream tofInput(rawReader); //uncomment if needed to apply DeltaBC correction //tofInput.ApplyBCCorrections(kTRUE); for (Int_t iDDL = 0; iDDL < AliTOFGeometry::NDDL()*AliTOFGeometry::NSectors(); iDDL++){ rawReader->Reset(); tofInput.LoadRawDataBuffersV2(iDDL); clonesRawData = (TClonesArray*)tofInput.GetRawData(); for (Int_t iRawData = 0; iRawDataGetEntriesFast(); iRawData++) { AliTOFrawData *tofRawDatum = (AliTOFrawData*)clonesRawData->UncheckedAt(iRawData); if (tofRawDatum->GetTOF()){ equipmentID[0]=iDDL; equipmentID[1]=tofRawDatum->GetTRM(); equipmentID[2]=tofRawDatum->GetTRMchain(); equipmentID[3]=tofRawDatum->GetTDC(); equipmentID[4]=tofRawDatum->GetTDCchannel(); if (CheckEquipID(equipmentID)){ tofInput.EquipmentId2VolumeId(iDDL, tofRawDatum->GetTRM(), tofRawDatum->GetTRMchain(), tofRawDatum->GetTDC(), tofRawDatum->GetTDCchannel(), volumeID); if (FilterSpare(equipmentID)) continue; if (FilterLTMData(equipmentID)){ //counts LTM hits if (tofRawDatum->GetTOT()) GetRawsData(15)->Fill(equipmentID[0]); } else { if (CheckVolumeID(volumeID)){ GetMapIndeces(volumeID,out); volumeID2[0]=volumeID[0]; volumeID2[1]=volumeID[1]; volumeID2[2]=volumeID[2]; volumeID2[3]=volumeID[4]; volumeID2[4]=volumeID[3]; chIndex=AliTOFGeometry::GetIndex(volumeID2); if (tofRawDatum->GetTOT()){ if (!(fCalibData->GetNoiseStatus(chIndex)==AliTOFChannelOnlineStatusArray::kTOFNoiseBad) && (fCalibData->GetHWStatus(chIndex) == AliTOFChannelOnlineStatusArray::kTOFHWOk)) {//noise and enabled filter ntof[0]++; //counter for tof hits //fill global spectra for DQM plots GetRawsData(5)->Fill( tofRawDatum->GetTOF()*tdc2ns) ;//in ns GetRawsData(10)->Fill( tofRawDatum->GetTOT()*tot2ns) ;//in ns //fill side-related spectra for experts plots if (volumeID2[0]>4 && volumeID2[0]<14){ //I side if ((iDDL%4==0)|| (iDDL%4==1)){ //A side ntof[1]++; GetRawsData(6)->Fill( tofRawDatum->GetTOF()*tdc2ns) ; GetRawsData(11)->Fill( tofRawDatum->GetTOT()*tot2ns) ; } else { if ((iDDL%4==2)|| (iDDL%4==3)){//C side ntof[3]++; GetRawsData(8)->Fill( tofRawDatum->GetTOF()*tdc2ns) ; GetRawsData(13)->Fill( tofRawDatum->GetTOT()*tot2ns) ; } } } else { if (volumeID2[0]<5 || volumeID2[0]>13){ //O side if ((iDDL%4==0)|| (iDDL%4==1)){ //A side ntof[2]++; GetRawsData(7)->Fill( tofRawDatum->GetTOF()*tdc2ns) ; GetRawsData(12)->Fill( tofRawDatum->GetTOT()*tot2ns) ; } else { if ((iDDL%4==2)|| (iDDL%4==3)){//C side ntof[4]++; GetRawsData(9)->Fill( tofRawDatum->GetTOF()*tdc2ns) ; GetRawsData(14)->Fill( tofRawDatum->GetTOT()*tot2ns) ; } } } } GetRawsData(18)->Fill(chIndex); //compute TRM offset Int_t trm= iDDL*10+(equipmentID[1]-3); if (iDDL>=0 && iDDL<36) { GetRawsData(16)->Fill(trm) ; GetRawsData(20)->Fill(trm,tofRawDatum->GetTOF()*tdc2ns); GetRawsData(22)->Fill(trm,tofRawDatum->GetTOT()*tot2ns); } if (iDDL>=36 && iDDL<72) { GetRawsData(17)->Fill(trm) ;//in ns GetRawsData(21)->Fill(trm,tofRawDatum->GetTOF()*tdc2ns); GetRawsData(23)->Fill(trm,tofRawDatum->GetTOT()*tot2ns); } GetRawsData(24)->Fill(GetStripIndex(volumeID),tofRawDatum->GetTOF()*tdc2ns) ; //GetRawsData(25)->Fill( out[0],out[1]) ;//raw map }//noise filter }//end hit selection else { //orphans if (!(fCalibData->GetNoiseStatus(chIndex) == AliTOFChannelOnlineStatusArray::kTOFNoiseBad) && (fCalibData->GetHWStatus(chIndex) == AliTOFChannelOnlineStatusArray::kTOFHWOk)) GetRawsData(19)->Fill( tofRawDatum->GetTOF()*tdc2ns) ;//in ns }//end orphans }//end volumeID check }//end LTM filter }//end equipID check } } //while loop clonesRawData->Clear(); } // DDL Loop for (Int_t j=0;j<5;j++){ GetRawsData(j)->Fill(ntof[j]); } fProcessedRawEventN++; } else { AliDebug(1,Form("Event of type %d found. Skipping non-physics event for QA.\n", rawReader->GetType())); } EnableDqmShifterOpt(kTRUE); } //____________________________________________________________________________ void AliTOFQADataMakerRec::MakeRecPoints(TTree * clustersTree) { // // Make data from Clusters // Double_t tdc2ns=AliTOFGeometry::TdcBinWidth()*1E-3; Double_t tot2ns=AliTOFGeometry::ToTBinWidth()*1E-3; Int_t volumeID[5]; Int_t volumeID2[5]; Int_t out[5]; TBranch *branch=clustersTree->GetBranch("TOF"); if (!branch) { AliError("can't get the branch with the TOF clusters !"); return; } static TClonesArray dummy("AliTOFcluster",10000); dummy.Clear(); TClonesArray *clusters=&dummy; branch->SetAddress(&clusters); // Import the tree clustersTree->GetEvent(0); GetRecPointsData(0)->Fill((Int_t)clusters->GetEntriesFast()) ; TIter next(clusters) ; AliTOFcluster * c ; while ( (c = dynamic_cast(next())) ) { volumeID[0] = c->GetDetInd(0); volumeID[1] = c->GetDetInd(1); volumeID[2] = c->GetDetInd(2); volumeID[3] = c->GetDetInd(4); //X and Z indeces inverted in RecPoints volumeID[4] = c->GetDetInd(3); //X and Z indeces inverted in RecPoints for (Int_t i=0;i<5;i++){ volumeID2[i]=c->GetDetInd(i); //X and Z indeces inverted in RecPoints } GetMapIndeces(volumeID,out); Int_t chIndex=AliTOFGeometry::GetIndex(volumeID2); Int_t iDDL=AliTOFRawStream::Geant2DDL(volumeID2); Int_t iTRM=AliTOFRawStream::Geant2TRM(volumeID2); if (c->GetTDCRAW() && c->GetTDC() && c->GetToT()){ if (volumeID2[0]>4 && volumeID2[0]<14){ //I side if ((iDDL%4==0)|| (iDDL%4==1)){ //A side GetRecPointsData(1)->Fill( c->GetTDC()*tdc2ns) ;//in ns GetRecPointsData(5)->Fill( c->GetTDCRAW()*tdc2ns) ;//in ns GetRecPointsData(9)->Fill( c->GetToT()*tot2ns) ;//in ns } else { if ((iDDL%4==2)|| (iDDL%4==3)){//C side GetRecPointsData(3)->Fill( c->GetTDC()*tdc2ns) ;//in ns GetRecPointsData(7)->Fill( c->GetTDCRAW()*tdc2ns) ;//in ns GetRecPointsData(11)->Fill( c->GetToT()*tot2ns) ;//in ns } } } else { if (volumeID2[0]<5 || volumeID2[0]>13){ //O side if ((iDDL%4==0)|| (iDDL%4==1)){ //A side GetRecPointsData(2)->Fill( c->GetTDC()*tdc2ns) ;//in ns GetRecPointsData(6)->Fill( c->GetTDCRAW()*tdc2ns) ;//in ns GetRecPointsData(10)->Fill( c->GetToT()*tot2ns) ;//in ns } else { if ((iDDL%4==2)|| (iDDL%4==3)){//C side GetRecPointsData(4)->Fill( c->GetTDC()*tdc2ns) ;//in ns GetRecPointsData(8)->Fill( c->GetTDCRAW()*tdc2ns) ;//in ns GetRecPointsData(12)->Fill( c->GetToT()*tot2ns) ;//in ns } } } } GetRecPointsData(14)->Fill(out[0],out[1]); GetRecPointsData(15)->Fill(GetStripIndex(volumeID), c->GetTDC()*tdc2ns) ; Int_t trm= iDDL*10+(iTRM-3); if (iDDL>=0 && iDDL<36) { GetRecPointsData(16)->Fill(trm,c->GetTDC()*tdc2ns); GetRecPointsData(18)->Fill(trm,c->GetToT()*tot2ns); } if (iDDL>=36 && iDDL<72) { GetRecPointsData(17)->Fill(trm,c->GetTDC()*tdc2ns); GetRecPointsData(19)->Fill(trm,c->GetToT()*tot2ns); } GetRecPointsData(13)->Fill(chIndex) ;//in ns }//hit selection }//end while EnableDqmShifterOpt(kFALSE); } //____________________________________________________________________________ void AliTOFQADataMakerRec::MakeESDs(AliESDEvent * esd) { // // make QA data from ESDs // const Double_t speedOfLight = TMath::C()*1E2*1E-12; // cm/ps const Double_t pionMass = 0.13957018; //GeV/c^2 Int_t ntrk = esd->GetNumberOfTracks() ; Int_t ntof=0; Int_t ntofpid=0; Int_t nesdpid=0; Int_t ntpc=0; Int_t ntpctof=0; Int_t ntofout=0; while (ntrk--) { AliESDtrack *track=esd->GetTrack(ntrk); Double_t tofTime=track->GetTOFsignal();//in ps Double_t tofTimeRaw=track->GetTOFsignalRaw();//in ps Double_t tofToT=track->GetTOFsignalToT(); //in ps UInt_t status=track->GetStatus(); if (track->IsOn(AliESDtrack::kTPCrefit)) { ntpc++; Double_t y=track->Eta(); if ((status&AliESDtrack::kTOFout)!=0) { ntofout++; if (tofTime>0){ ntof++; if (TMath::Abs(y)<0.9) { GetESDsData(6)->Fill(track->Pt()); ntpctof++; } GetESDsData(1)->Fill(tofTime*1E-3); GetESDsData(2)->Fill(tofTimeRaw*1E-3); GetESDsData(3)->Fill(tofToT*1E-3); //check how many tracks where ESD PID is ok if ((status&AliESDtrack::kESDpid)!=0) nesdpid++; if (((status&AliESDtrack::kESDpid)&AliESDtrack::kTOFpid)!=0) ntofpid++; Double_t length =track->GetIntegratedLength(); Double_t mom2=(track->Pt()*track->Pt())+(track->Pz()*track->Pz()); Double_t eTexp = TMath::Sqrt(1+(pionMass*pionMass/mom2))*length/speedOfLight; //in ps GetESDsData(9)->Fill(tofTime-eTexp); GetESDsData(10)->Fill(length); } //end check on matched tracks } }//end check on TPCrefit } GetESDsData(0)->Fill(ntof) ; if(ntof>0) { Float_t ratio = (Int_t)ntofpid/(Int_t)ntof*100; //identified by TOF over matched GetESDsData(4)->Fill(ratio) ; } if(nesdpid>0) { Float_t ratio = (Float_t)ntofpid/(Float_t)nesdpid *100; //identified by TOF over identified GetESDsData(5)->Fill(ratio) ; } if(ntpc>0){ Float_t ratio = (Float_t)ntof/(Float_t)ntpc*100.; //matching probability GetESDsData(7)->Fill(ratio) ; } if(ntofout>0) { Float_t ratio = (Float_t)ntof/(Float_t)ntofout*100; //matched over propagated to TOF outer radius GetESDsData(8)->Fill(ratio) ; } EnableDqmShifterOpt(kFALSE); } //____________________________________________________________________________ void AliTOFQADataMakerRec::StartOfDetectorCycle() { // //Detector specific actions at start of cycle fCalibData = GetCalibData(); } //____________________________________________________________________________ void AliTOFQADataMakerRec::EndOfDetectorCycle(AliQAv1::TASKINDEX_t task, TObjArray ** list) { //Detector specific actions at end of cycle // do the QA checking for (Int_t specie = 0 ; specie < AliRecoParam::kNSpecies ; specie++) { if ( !AliQAv1::Instance()->IsEventSpecieSet(specie) ) continue ; if (fEnableDqmShifterOpt){ // Help make the raw qa histogram easier to interpret for the DQM shifter // This is still to be optimized... if (!GetRawsData(0) || !GetRawsData(5) || !GetRawsData(10) || !GetRawsData(15) || !GetRawsData(16) || !GetRawsData(17)) { printf("No histogram for DQM found - Possible memory corruption ???. Please check\n") ; continue; } AliInfo(Form("Processed %i physics raw events",fProcessedRawEventN)); if (fCalibData){ //normalize TRM hits plots to the number of enabled channels from OCDB object TH1F * hTrmChannels035 = new TH1F("hTrmchannels035", "Active channels per TRM - crates 0 to 35;TRM index = SMid(crate*10)+TRM(0-9);Active channels", 361, 0., 361.) ; TH1F * hTrmChannels3671 = new TH1F("hTrmChannels3671","Active channels per TRM - crates 36 to 71 ;TRM index = SMid(crate*10)+TRM(0-9);Active channels", 361, 360., 721.) ; for (Int_t ch = 0; ch < fCalibData->GetSize(); ch++) { if (!(fCalibData->GetNoiseStatus(ch)==AliTOFChannelOnlineStatusArray::kTOFNoiseBad) && (fCalibData->GetHWStatus(ch) == AliTOFChannelOnlineStatusArray::kTOFHWOk)){ Int_t geoId[5]; Int_t detId[5]; AliTOFGeometry::GetVolumeIndices(ch,geoId); AliTOFRawStream::Geant2EquipmentId(geoId,detId); //detID=(ddl,trm,tdc, chain,channel) if (detId[0]<36) hTrmChannels035->Fill((detId[1]-3)+detId[0]*10); else hTrmChannels3671->Fill((detId[1]-3)+detId[0]*10); } } GetRawsData(16)->Divide(hTrmChannels035); GetRawsData(16)->SetTitle("TRMs average hit number per active channel - crates 0-35"); GetRawsData(16)->GetYaxis()->SetTitle("hits/active channels"); GetRawsData(17)->Divide(hTrmChannels3671); GetRawsData(17)->SetTitle("TRMs average hit number per active channel - crates 36-71"); GetRawsData(17)->GetYaxis()->SetTitle("hits/active channels"); } Double_t yTimeMin = GetRawsData(5)->GetMinimum(); Double_t yTimeMax = GetRawsData(5)->GetMaximum(); Double_t yTotMin = GetRawsData(10)->GetMinimum(); Double_t yTotMax = GetRawsData(10)->GetMaximum(); TLine* lineExpTimeMin = new TLine(200., yTimeMin, 200., yTimeMax); lineExpTimeMin->SetLineColor(kGreen); lineExpTimeMin->SetLineWidth(2); TLine* lineExpTimeMax = new TLine(250., yTimeMin, 250., yTimeMax); lineExpTimeMax->SetLineColor(kGreen); lineExpTimeMax->SetLineWidth(2); TLine* lineExpTotMin = new TLine( 5., yTotMin, 5., yTotMax); lineExpTotMin->SetLineColor(kGreen); lineExpTotMin->SetLineWidth(2); TLine* lineExpTotMax = new TLine(20., yTotMin, 20., yTotMax); lineExpTotMax->SetLineColor(kGreen); lineExpTotMax->SetLineWidth(2); ((TH1F*)GetRawsData(5))->GetListOfFunctions()->Add(lineExpTimeMin); ((TH1F*)GetRawsData(5))->GetListOfFunctions()->Add(lineExpTimeMax); ((TH1F*)GetRawsData(10))->GetListOfFunctions()->Add(lineExpTotMin); ((TH1F*)GetRawsData(10))->GetListOfFunctions()->Add(lineExpTotMax); //make up for all bistos for(Int_t j=0;j<20;j++){ if (j<5) { GetRawsData(j)->SetMarkerColor(kRed); GetRawsData(j)->SetMarkerStyle(7); } else { GetRawsData(j)->SetLineColor(kBlue+1); GetRawsData(j)->SetLineWidth(1); GetRawsData(j)->SetMarkerColor(kBlue+1); } } Float_t ySMmax035=GetRawsData(16)->GetMaximum(); TLine* lineSMid035[10]; Float_t ySMmax3671=GetRawsData(17)->GetMaximum(); TLine* lineSMid3671[10]; for (Int_t sm=0;sm<10;sm++){ lineSMid035[sm] = new TLine( 40*sm, 0, 40*sm, ySMmax035); lineSMid035[sm]->SetLineColor(kMagenta); lineSMid035[sm]->SetLineWidth(2); GetRawsData(16)->GetListOfFunctions()->Add(lineSMid035[sm]); lineSMid3671[sm] = new TLine( 40*sm+360, 0, 40*sm+360, ySMmax3671); lineSMid3671[sm]->SetLineColor(kMagenta); lineSMid3671[sm]->SetLineWidth(2); GetRawsData(17)->GetListOfFunctions()->Add(lineSMid3671[sm]); } for (Int_t j=15;j<19;j++){ GetRawsData(j)->SetFillColor(kGray+1); GetRawsData(j)->SetOption("bar"); } } } AliQAChecker::Instance()->Run(AliQAv1::kTOF, task, list) ; } //____________________________________________________________________________ void AliTOFQADataMakerRec::GetMapIndeces(const Int_t* const in , Int_t* out) { // //return appropriate indeces for the theta-phi map // Int_t npadX = AliTOFGeometry::NpadX(); Int_t npadZ = AliTOFGeometry::NpadZ(); Int_t nStripA = AliTOFGeometry::NStripA(); Int_t nStripB = AliTOFGeometry::NStripB(); Int_t nStripC = AliTOFGeometry::NStripC(); Int_t isector = in[0]; Int_t iplate = in[1]; Int_t istrip = in[2]; Int_t ipadX = in[3]; Int_t ipadZ = in[4]; Int_t stripOffset = 0; switch (iplate) { case 0: stripOffset = 0; break; case 1: stripOffset = nStripC; break; case 2: stripOffset = nStripC+nStripB; break; case 3: stripOffset = nStripC+nStripB+nStripA; break; case 4: stripOffset = nStripC+nStripB+nStripA+nStripB; break; default: AliDebug(1,Form("Wrong plate number in TOF (%d) !",iplate)); break; }; Int_t zindex=npadZ*(istrip+stripOffset)+(ipadZ+1); Int_t phiindex=npadX*isector+ipadX+1; out[0]=zindex; out[1]=phiindex; } //--------------------------------------------------------------- Int_t AliTOFQADataMakerRec::GetStripIndex(const Int_t * const in) { /* return tof strip index between 0 and 91 */ Int_t nStripA = AliTOFGeometry::NStripA(); Int_t nStripB = AliTOFGeometry::NStripB(); Int_t nStripC = AliTOFGeometry::NStripC(); // Int_t isector = in[0]; Int_t iplate = in[1]; Int_t istrip = in[2]; //Int_t ipadX = in[3]; //Int_t ipadZ = in[4]; Int_t stripOffset = 0; switch (iplate) { case 0: stripOffset = 0; break; case 1: stripOffset = nStripC; break; case 2: stripOffset = nStripC+nStripB; break; case 3: stripOffset = nStripC+nStripB+nStripA; break; case 4: stripOffset = nStripC+nStripB+nStripA+nStripB; break; default: AliDebug(1,Form("Wrong plate number in TOF (%d) !",iplate)); stripOffset=-1; break; }; if (stripOffset<0 || stripOffset>92) return -1; else return (stripOffset+istrip); } //--------------------------------------------------------------- Bool_t AliTOFQADataMakerRec::CheckVolumeID(const Int_t * const volumeID) { // //Checks volume ID validity // for (Int_t j=0;j<5;j++){ if (volumeID[j]<0) { AliDebug(1,Form("Invalid detector volume index for volumeID[%i]",j)); return kFALSE; } } return kTRUE; } //--------------------------------------------------------------- Bool_t AliTOFQADataMakerRec::CheckEquipID(const Int_t * const equipmentID) { // //Checks equipment ID validity for (Int_t j=0;j<5;j++){ if (equipmentID[j]<0) { AliDebug(1,Form("Invalid equipment volume index for equipmentID[%i]",j)); return kFALSE; } } return kTRUE; } //--------------------------------------------------------------- Bool_t AliTOFQADataMakerRec::FilterLTMData(const Int_t * const equipmentID) const { /*It returns kTRUE if data come from LTM. It thus filters trigger-related signals */ Int_t ddl, trm, tdc; //if (!CheckEquipID(equipmentID)) return kFALSE; ddl = equipmentID[0]; trm = equipmentID[1]; tdc = equipmentID[3]; if ((ddl%2==1) && (trm==3) && (tdc>11 && tdc<15)) return kTRUE; else return kFALSE; } //--------------------------------------------------------------- Bool_t AliTOFQADataMakerRec::FilterSpare(const Int_t * const equipmentID) const { /*It returns kTRUE if data come from spare equipment ID. So far only check on TRM 3 crate left is implemented */ Int_t ddl, trm, tdc; //if (!CheckEquipID(equipmentID)) return kFALSE; ddl = equipmentID[0]; trm = equipmentID[1]; tdc = equipmentID[3]; if ((ddl%2==1) && (trm==3) && (tdc>2 && tdc<12)) return kTRUE; else return kFALSE; }