/************************************************************************** * 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. * **************************************************************************/ // --- Standard library --- #include // --- ROOT system --- #include #include #include #include #include #include // --- AliRoot header files --- #include "AliLog.h" #include "AliQAChecker.h" #include "AliZDCQADataMaker.h" #include "AliZDCHit.h" #include "AliZDCDigit.h" #include "AliZDCRawStream.h" #include "AliESDZDC.h" #include "AliESDEvent.h" ClassImp(AliZDCQADataMaker) //____________________________________________________________________________ AliZDCQADataMaker::AliZDCQADataMaker() : AliQADataMaker(AliQA::GetDetName(AliQA::kZDC), "ZDC Quality Assurance Data Maker"), fHits("AliZDCHit", 1000), fDigits("AliZDCDigit", 1000) { // ctor } //____________________________________________________________________________ AliZDCQADataMaker::AliZDCQADataMaker(const AliZDCQADataMaker& qadm) : AliQADataMaker(), fHits("AliZDCHit", 1000), fDigits("AliZDCDigit", 1000) { //copy ctor SetName((const char*)qadm.GetName()); SetTitle((const char*)qadm.GetTitle()); } //__________________________________________________________________ AliZDCQADataMaker& AliZDCQADataMaker::operator = (const AliZDCQADataMaker& qadm ) { // Equal operator. this->~AliZDCQADataMaker(); new(this) AliZDCQADataMaker(qadm); return *this; } //____________________________________________________________________________ void AliZDCQADataMaker::InitHits() { // create Hits histograms in Hits subdir // TH2F * hZNCh = new TH2F("hZNCh", "Hits centroid in ZNC", 100, -5.,5.,100,-5.,5.); TH2F * hZNAh = new TH2F("hZNAh", "Hits centroid in ZNA", 100, -5.,5.,100,-5.,5.); TH2F * hZPCh = new TH2F("hZPCh", "Hits centroid in ZPC", 100,-12.,12.,100,-12.,12.) TH2F * hZPAh = new TH2F("hZPAh", "Hits centroid in ZPA", 100,-12.,12.,100,-12.,12.) Add2HitsList(hZNCh, 0); Add2HitsList(hZPCh, 1); Add2HitsList(hZNAh, 2); Add2HitsList(hZPAh, 3); } //____________________________________________________________________________ void AliZDCQADataMaker::InitDigits() { // create Digits histograms in Digits subdir // TH1F * hDigZNCTot = new TH1F("hDigZNCTot", "Digit signal in ZNC", 100, 0., 6000.); TH1F * hDigZNATot = new TH1F("hDigZNATot", "Digit signal in ZNA", 100, 0., 6000.); TH1F * hDigZPCTot = new TH1F("hDigZPCTot", "Digit signal in ZPC", 100, 0., 10000.); TH1F * hDigZPATot = new TH1F("hDigZPATot", "Digit signal in ZPA", 100, 0., 10000.); Add2DigitsList(hDigZNCTot, 0); Add2DigitsList(hDigZPCTot, 1); Add2DigitsList(hDigZNATot, 2); Add2DigitsList(hDigZPATot, 3); // TH1F * hDigSumQZNC = new TH1F("hDigSumQZNC", "Signal in 4 ZNC PMQ[i]",100, 0., 4000.); TH1F * hDigSumQZPC = new TH1F("hDigSumQZPC", "Signal in 4 ZPC PMQ[i]",100, 0., 4000.); TH1F * hDigSumQZNA = new TH1F("hDigSumQZNA", "Signal in 4 ZNA PMQ[i]",100, 0., 4000.); TH1F * hDigSumQZPA = new TH1F("hDigSumQZPA", "Signal in 4 ZPA PMQ[i]",100, 0., 4000.); Add2DigitsList(hDigSumQZNC, 4); Add2DigitsList(hDigSumQZPC, 5); Add2DigitsList(hDigSumQZNA, 6); Add2DigitsList(hDigSumQZPA, 7); // TH1F * hDigPMCZNC = new TH1F("hDigPMCZNC", "Signal in 4 ZNC PMQ[i]",100, 0., 4000.); TH1F * hDigPMCZPC = new TH1F("hDigPMCZPC", "Signal in 4 ZPC PMQ[i]",100, 0., 4000.); TH1F * hDigPMCZNA = new TH1F("hDigPMCZNA", "Signal in 4 ZNA PMQ[i]",100, 0., 4000.); TH1F * hDigPMCZPA = new TH1F("hDigPMCZPA", "Signal in 4 ZPA PMQ[i]",100, 0., 4000.); Add2DigitsList(hDigPMCZNC, 8); Add2DigitsList(hDigPMCZPC, 9); Add2DigitsList(hDigPMCZNA, 10); Add2DigitsList(hDigPMCZPA, 11); // // ------------------- LOW GAIN CHAIN --------------------------- TH1F * hDigZNCTotlg = new TH1F("hDigZNCTotlg", "Digit lg signal in ZNC", 100, 0., 6000.); TH1F * hDigZNATotlg = new TH1F("hDigZNATotlg", "Digit lg signal in ZNA", 100, 0., 6000.); TH1F * hDigZPCTotlg = new TH1F("hDigZPCTotlg", "Digit lg signal in ZPC", 100, 0., 10000.); TH1F * hDigZPATotlg = new TH1F("hDigZPATotlg", "Digit lg signal in ZPA", 100, 0., 10000.); Add2DigitsList(hDigZNCTotlg, 12); Add2DigitsList(hDigZPCTotlg, 13); Add2DigitsList(hDigZNATotlg, 14); Add2DigitsList(hDigZPATotlg, 15); // TH1F * hDigSumQZNClg = new TH1F("hDigSumQZNClg", "Signal in 4 ZNC PMQlg[i]",100, 0., 4000.); TH1F * hDigSumQZPClg = new TH1F("hDigSumQZPClg", "Signal in 4 ZPC PMQlg[i]",100, 0., 4000.); TH1F * hDigSumQZNAlg = new TH1F("hDigSumQZNAlg", "Signal in 4 ZNA PMQlg[i]",100, 0., 4000.); TH1F * hDigSumQZPAlg = new TH1F("hDigSumQZPAlg", "Signal in 4 ZPA PMQlg[i]",100, 0., 4000.); Add2DigitsList(hDigSumQZNClg, 16); Add2DigitsList(hDigSumQZPClg, 17); Add2DigitsList(hDigSumQZNAlg, 18); Add2DigitsList(hDigSumQZPAlg, 19); // TH1F * hDigPMCZNClg = new TH1F("hDigPMCZNClg", "Signal in 4 ZNC PMQlg[i]",100, 0., 4000.); TH1F * hDigPMCZPClg = new TH1F("hDigPMCZPClg", "Signal in 4 ZPC PMQlg[i]",100, 0., 4000.); TH1F * hDigPMCZNAlg = new TH1F("hDigPMCZNAlg", "Signal in 4 ZNA PMQlg[i]",100, 0., 4000.); TH1F * hDigPMCZPAlg = new TH1F("hDigPMCZPAlg", "Signal in 4 ZPA PMQlg[i]",100, 0., 4000.); Add2DigitsList(hDigPMCZNClg, 20); Add2DigitsList(hDigPMCZPClg, 21); Add2DigitsList(hDigPMCZNAlg, 22); Add2DigitsList(hDigPMCZPAlg, 23); } //____________________________________________________________________________ void AliZDCQADataMakerRec::InitRaws() { // create Digits histograms in Digits subdir // TH1F * hRawZNCTot = new TH1F("hRawZNCTot", "Raw signal in ZNC", 100, 0., 6000.); TH1F * hRawZNATot = new TH1F("hRawZNATot", "Raw signal in ZNA", 100, 0., 6000.); TH1F * hRawZPCTot = new TH1F("hRawZPCTot", "Raw signal in ZPC", 100, 0., 10000.); TH1F * hRawZPATot = new TH1F("hRawZPATot", "Raw signal in ZPA", 100, 0., 10000.); Add2RawsList(hRawZNCTot, 0); Add2RawsList(hRawZPCTot, 1); Add2RawsList(hRawZNATot, 2); Add2RawsList(hRawZPATot, 3); // TH1F * hRawSumQZNC = new TH1F("hRawSumQZNC", "Raw summed 4 ZNC quadrants",100, 0., 4000.); TH1F * hRawSumQZPC = new TH1F("hRawSumQZPC", "Raw summed 4 ZPC quadrants",100, 0., 4000.); TH1F * hRawSumQZNA = new TH1F("hRawSumQZNA", "Raw summed 4 ZNA quadrants",100, 0., 4000.); TH1F * hRawSumQZPA = new TH1F("hRawSumQZPA", "Raw summed 4 ZPA quadrants",100, 0., 4000.); Add2RawsList(hRawSumQZNC, 4); Add2RawsList(hRawSumQZPC, 5); Add2RawsList(hRawSumQZNA, 6); Add2RawsList(hRawSumQZPA, 7); // TH1F * hRawPMCZNC = new TH1F("hRawPMCZNC", "Raw common ZNC PMT",100, 0., 4000.); TH1F * hRawPMCZPC = new TH1F("hRawPMCZPC", "Raw common ZPC PMT",100, 0., 4000.); TH1F * hRawPMCZNA = new TH1F("hRawPMCZNA", "Raw common ZNA PMT",100, 0., 4000.); TH1F * hRawPMCZPA = new TH1F("hRawPMCZPA", "Raw common ZPA PMT",100, 0., 4000.); Add2RawsList(hRawPMCZNC, 8); Add2RawsList(hRawPMCZPC, 9); Add2RawsList(hRawPMCZNA, 10); Add2RawsList(hRawPMCZPA, 11); // // ------------------- LOW GAIN CHAIN --------------------------- TH1F * hRawZNCTotlg = new TH1F("hRawZNCTotlg", "Rawit lg signal in ZNC", 100, 0., 6000.); TH1F * hRawZNATotlg = new TH1F("hRawZNATotlg", "Rawit lg signal in ZNA", 100, 0., 6000.); TH1F * hRawZPCTotlg = new TH1F("hRawZPCTotlg", "Rawit lg signal in ZPC", 100, 0., 10000.); TH1F * hRawZPATotlg = new TH1F("hRawZPATotlg", "Rawit lg signal in ZPA", 100, 0., 10000.); Add2RawsList(hRawZNCTotlg, 12); Add2RawsList(hRawZPCTotlg, 13); Add2RawsList(hRawZNATotlg, 14); Add2RawsList(hRawZPATotlg, 15); // TH1F * hRawSumQZNClg = new TH1F("hRawSumQZNClg", "Raw summed 4 lg ZNC quadrants",100, 0., 4000.); TH1F * hRawSumQZPClg = new TH1F("hRawSumQZPClg", "Raw summed 4 lg ZPC quadrants",100, 0., 4000.); TH1F * hRawSumQZNAlg = new TH1F("hRawSumQZNAlg", "Raw summed 4 lg ZNA quadrants",100, 0., 4000.); TH1F * hRawSumQZPAlg = new TH1F("hRawSumQZPAlg", "Raw summed 4 lg ZPA quadrants",100, 0., 4000.); Add2RawsList(hRawSumQZNClg, 16); Add2RawsList(hRawSumQZPClg, 17); Add2RawsList(hRawSumQZNAlg, 18); Add2RawsList(hRawSumQZPAlg, 19); // TH1F * hRawPMCZNClg = new TH1F("hRawPMCZNClg", "Raw common lg ZNC PMT",100, 0., 4000.); TH1F * hRawPMCZPClg = new TH1F("hRawPMCZPClg", "Raw common lg ZPC PMT",100, 0., 4000.); TH1F * hRawPMCZNAlg = new TH1F("hRawPMCZNAlg", "Raw common lg ZNA PMT",100, 0., 4000.); TH1F * hRawPMCZPAlg = new TH1F("hRawPMCZPAlg", "Raw common lg ZPA PMT",100, 0., 4000.); Add2RawsList(hRawPMCZNClg, 20); Add2RawsList(hRawPMCZPClg, 21); Add2RawsList(hRawPMCZNAlg, 22); Add2RawsList(hRawPMCZPAlg, 23); } //____________________________________________________________________________ void AliZDCQADataMakerRec::InitESDs() { //Booking ESDs histograms // TH2F * hZNC = new TH2F("hZNC", "Centroid in ZNC", 100, -5.,5.,100,-5.,5.); TH2F * hZNA = new TH2F("hZNA", "Centroid in ZNA", 100, -5.,5.,100,-5.,5.); Add2DigitsList(hZNC, 0); Add2DigitsList(hZNA, 1); // TH1F * hESDZNCTot = new TH1F("hESDZNCTot", "ESD signal in ZNC", 100, 0., 6000.); TH1F * hESDZPCTot = new TH1F("hESDZPCTot", "ESD signal in ZPC", 100, 0., 10000.); TH1F * hESDZNATot = new TH1F("hESDZNATot", "ESD signal in ZNA", 100, 0., 6000.); TH1F * hESDZPATot = new TH1F("hESDZPATot", "ESD signal in ZPA", 100, 0., 10000.); Add2ESDsList(hESDZNCTot, 2); Add2ESDsList(hESDZPCTot, 3); Add2ESDsList(hESDZNATot, 4); Add2ESDsList(hESDZPATot, 5); // TH1F * hESDSumQZNC = new TH1F("hESDSumQZNC", "Sum of 4 ZNC sectors",100, 0., 4000.); TH1F * hESDSumQZPC = new TH1F("hESDSumQZPC", "Sum of 4 ZPC sectors",100, 0., 4000.); TH1F * hESDSumQZNA = new TH1F("hESDSumQZNA", "Sum of 4 ZNA sectors",100, 0., 4000.); TH1F * hESDSumQZPA = new TH1F("hESDSumQZPA", "Sum of 4 ZPA sectors",100, 0., 4000.); Add2ESDsList(hESDSumQZNC, 6); Add2ESDsList(hESDSumQZPC, 7); Add2ESDsList(hESDSumQZNA, 8); Add2ESDsList(hESDSumQZPA, 9); // TH1F * hESDPMCZNC = new TH1F("hESDPMCZNC", "Signal in common ZNC PMT",100, 0., 4000.); TH1F * hESDPMCZPC = new TH1F("hESDPMCZPC", "Signal in common ZPC PMT",100, 0., 4000.); TH1F * hESDPMCZNA = new TH1F("hESDPMCZNA", "Signal in common ZNA PMT",100, 0., 4000.); TH1F * hESDPMCZPA = new TH1F("hESDPMCZPA", "Signal in common ZPA PMT",100, 0., 4000.); Add2ESDsList(hESDPMCZNC, 10); Add2ESDsList(hESDPMCZPC, 11); Add2ESDsList(hESDPMCZNA, 12); Add2ESDsList(hESDPMCZPA, 13); // // ------------------- LOW GAIN CHAIN --------------------------- TH1F * hESDZNCTotlg = new TH1F("hESDZNCTotlg", "ESD lg signal in ZNC", 100, 0., 6000.); TH1F * hESDZNATotlg = new TH1F("hESDZNATotlg", "ESD lg signal in ZNA", 100, 0., 6000.); TH1F * hESDZPCTotlg = new TH1F("hESDZPCTotlg", "ESD lg signal in ZPC", 100, 0., 10000.); TH1F * hESDZPATotlg = new TH1F("hESDZPATotlg", "ESD lg signal in ZPA", 100, 0., 10000.); Add2ESDsList(hESDZNCTotlg, 14); Add2ESDsList(hESDZPCTotlg, 15); Add2ESDsList(hESDZNATotlg, 16); Add2ESDsList(hESDZPATotlg, 17); // TH1F * hESDSumQZNClg = new TH1F("hESDSumQZNClg", "Sum of 4 lg ZNC sectors",100, 0., 4000.); TH1F * hESDSumQZPClg = new TH1F("hESDSumQZPClg", "Sum of 4 lg ZPC sectors",100, 0., 4000.); TH1F * hESDSumQZNAlg = new TH1F("hESDSumQZNAlg", "Sum of 4 lg ZNA sectors",100, 0., 4000.); TH1F * hESDSumQZPAlg = new TH1F("hESDSumQZPAlg", "Sum of 4 lg ZPA sectors",100, 0., 4000.); Add2ESDsList(hESDSumQZNClg, 18); Add2ESDsList(hESDSumQZPClg, 19); Add2ESDsList(hESDSumQZNAlg, 20); Add2ESDsList(hESDSumQZPAlg, 21); // TH1F * hESDPMCZNClg = new TH1F("hESDPMCZNClg", "Signal in common ZNC lg PMT",100, 0., 4000.); TH1F * hESDPMCZPClg = new TH1F("hESDPMCZPClg", "Signal in common ZPC lg PMT",100, 0., 4000.); TH1F * hESDPMCZNAlg = new TH1F("hESDPMCZNAlg", "Signal in common ZNA lg PMT",100, 0., 4000.); TH1F * hESDPMCZPAlg = new TH1F("hESDPMCZPAlg", "Signal in common ZPA lg PMT",100, 0., 4000.); Add2ESDsList(hESDPMCZNClg, 22); Add2ESDsList(hESDPMCZPClg, 23); Add2ESDsList(hESDPMCZNAlg, 24); Add2ESDsList(hESDPMCZPAlg, 25); } //____________________________________________________________________________ void AliZDCQADataMakerSim::MakeHits(TClonesArray */*data*/) { //filling QA histos for Hits // TIter next(&fHits); AliZDCHit * hit; while((hit = dynamic_cast(next()))){ if(hit->GetVolume(0)==1) GetHitsData(0)->Fill(hit->GetXImpact(),hit->GetYImpact()); else if(hit->GetVolume(0)==2) GetHitsData(1)->Fill(hit->GetXImpact(), hit->GetYImpact()); else if(hit->GetVolume(0)==4) GetHitsData(2)->Fill(hit->GetXImpact(), hit->GetYImpact()); else if(hit->GetVolume(0)==5) GetHitsData(3)->Fill(hit->GetXImpact(), hit->GetYImpact()); } } //___________________________________________________________________________ void AliZDCQADataMakerSim::MakeHits(TTree * hitTree) { // make QA data from Hit Tree // if(!hitTree){ AliError("Hit Tree not found!"); return; } // TBranch * branch = hitTree->GetBranch("ZDC") ; if(!branch){ AliError("ZDC branch in Hit Tree not found!"); return; } else{ Int_t ntracks = (Int_t) hitTree->GetEntries(); //printf("\n\t *** no.track %d\n",ntracks); if (ntracks<=0) return; // for(Int_t itrack=0; itrackSetAddress(&fHits) ; branch->GetEntry(itrack); // //printf("\t *** track %d",itrack); //hits->Print(""); //printf("\n"); // MakeHits(fHits); fHits->Clear(); } } } //____________________________________________________________________________ void AliZDCQADataMakerSim::MakeDigits(TClonesArray * /*digits*/) { // makes data from Digits // TIter next(digits) ; AliZDCDigit * digit ; // Float_t ADCSum_ZNC=0., ADCSum_ZNA=0., ADCSum_ZPC=0., ADCSum_ZPA=0.; Float_t ADCSumQ_ZNC=0., ADCSumQ_ZNA=0., ADCSumQ_ZPC=0., ADCSumQ_ZPA=0.; Float_t ADCSum_ZNC_lg=0., ADCSum_ZNA_lg=0., ADCSum_ZPC_lg=0., ADCSum_ZPA_lg=0.; Float_t ADCSumQ_ZNC_lg=0., ADCSumQ_ZNA_lg=0., ADCSumQ_ZPC_lg=0., ADCSumQ_ZPA_lg=0.; // while((digit = dynamic_cast(next()))){ if(digit->GetSector(0)==1){ ADCSum_ZNC += digit->GetADCValue(0); ADCSum_ZNC_lg += digit->GetADCValue(1); // if(digit->GetSector(1)!=0){ ADCSumQ_ZNC += digit->GetADCValue(0); ADCSumQ_ZNC_lg+= digit->GetADCValue(1); } else{ GetDigitsData(8)->Fill(digit->GetADCValue(0)); GetDigitsData(20)->Fill(digit->GetADCValue(1)); } } else if(digit->GetSector(0)==2){ ADCSum_ZPC += digit->GetADCValue(0); ADCSum_ZPC_lg += digit->GetADCValue(1); // if(digit->GetSector(1)!=0){ ADCSumQ_ZPC += digit->GetADCValue(0); ADCSumQ_ZPC_lg+= digit->GetADCValue(1); } else{ GetDigitsData(9)->Fill(digit->GetADCValue(0)); GetDigitsData(21)->Fill(digit->GetADCValue(1)); } } else if(digit->GetSector(0)==4){ ADCSum_ZNA += digit->GetADCValue(0); ADCSum_ZNA_lg += digit->GetADCValue(1); // if(digit->GetSector(1)!=0){ ADCSumQ_ZNA += digit->GetADCValue(0); ADCSumQ_ZNA_lg+= digit->GetADCValue(1); } else{ GetDigitsData(10)->Fill(digit->GetADCValue(0)); GetDigitsData(22)->Fill(digit->GetADCValue(1)); } } else if(digit->GetSector(0)==5){ ADCSum_ZPA += digit->GetADCValue(0); ADCSum_ZPA_lg += digit->GetADCValue(1); // if(digit->GetSector(1)!=0){ ADCSumQ_ZPA += digit->GetADCValue(0); ADCSumQ_ZPA_lg+= digit->GetADCValue(1); } else{ GetDigitsData(11)->Fill(digit->GetADCValue(0)); GetDigitsData(23)->Fill(digit->GetADCValue(1)); } } } // GetDigitsData(0)->Fill(ADCSum_ZNC); GetDigitsData(1)->Fill(ADCSum_ZPC); GetDigitsData(2)->Fill(ADCSum_ZNA); GetDigitsData(3)->Fill(ADCSum_ZPA); // GetDigitsData(4)->Fill(ADCSumQ_ZNC); GetDigitsData(5)->Fill(ADCSumQ_ZPC); GetDigitsData(6)->Fill(ADCSumQ_ZNA); GetDigitsData(7)->Fill(ADCSumQ_ZPA); // GetDigitsData(12)->Fill(ADCSum_ZNC_lg); GetDigitsData(13)->Fill(ADCSum_ZPC_lg); GetDigitsData(14)->Fill(ADCSum_ZNA_lg); GetDigitsData(15)->Fill(ADCSum_ZPA_lg); // GetDigitsData(16)->Fill(ADCSumQ_ZNC_lg); GetDigitsData(17)->Fill(ADCSumQ_ZPC_lg); GetDigitsData(18)->Fill(ADCSumQ_ZNA_lg); GetDigitsData(19)->Fill(ADCSumQ_ZPA_lg); } //___________________________________________________________________________ void AliZDCQADataMakerSim::MakeDigits(TTree *digitTree ) { // makes data from Digit Tree TBranch * branch = digitTree->GetBranch("ZDC"); if(!branch){ AliError("ZDC branch in Digit Tree not found"); return; } branch->SetAddress(&fDigits); branch->GetEntry(0); MakeDigits(fDigits); fDigits->Clear(); } //____________________________________________________________________________ void AliZDCQADataMakerRec::MakeRaws(AliRawReader *rawReader) { // Filling Raws QA histos // Float_t Sum_ZNC=0., Sum_ZNA=0., Sum_ZPC=0., Sum_ZPA=0.; Float_t SumQ_ZNC=0., SumQ_ZNA=0., SumQ_ZPC=0., SumQ_ZPA=0.; Float_t Sum_ZNC_lg=0., Sum_ZNA_lg=0., Sum_ZPC_lg=0., Sum_ZPA_lg=0.; Float_t SumQ_ZNC_lg=0., SumQ_ZNA_lg=0., SumQ_ZPC_lg=0., SumQ_ZPA_lg=0.; // AliZDCRawStream stream(rawReader); while(stream.Next()){ if(stream.IsADCDataWord() && (stream.GetADCModule()==0 || stream.GetADCModule()==1)){ if(stream.GetSector(0)==1){ if(stream.GetADCGain()==0){ Sum_ZNC += stream.GetADCValue(); if(stream.GetSector(1)!=0) SumQ_ZNC += stream.GetADCValue(); else GetRawsData(8)->Fill(stream.GetADCValue()); } else{ Sum_ZNC_lg += stream.GetADCValue(); if(stream.GetSector(1)!=0) SumQ_ZNC_lg += stream.GetADCValue(); else GetRawsData(20)->Fill(stream.GetADCValue()); } } else if(stream.GetSector(0)==2){ if(stream.GetADCGain()==0){ Sum_ZPC += stream.GetADCValue(); if(stream.GetSector(1)!=0) SumQ_ZPC += stream.GetADCValue(); else GetRawsData(9)->Fill(stream.GetADCValue()); } else{ Sum_ZPC_lg += stream.GetADCValue(); if(stream.GetSector(1)!=0) SumQ_ZPC_lg += stream.GetADCValue(); else GetRawsData(21)->Fill(stream.GetADCValue()); } } else if(stream.GetSector(0)==4){ if(stream.GetADCGain()==0){ Sum_ZNA += stream.GetADCValue(); if(stream.GetSector(1)!=0) SumQ_ZNA += stream.GetADCValue(); else GetRawsData(10)->Fill(stream.GetADCValue()); } else{ Sum_ZNA_lg += stream.GetADCValue(); if(stream.GetSector(1)!=0) SumQ_ZNA_lg += stream.GetADCValue(); else GetRawsData(22)->Fill(stream.GetADCValue()); } } else if(stream.GetSector(0)==5){ if(stream.GetADCGain()==0){ Sum_ZPA += stream.GetADCValue(); if(stream.GetSector(1)!=0) SumQ_ZPA += stream.GetADCValue(); else GetRawsData(11)->Fill(stream.GetADCValue()); } else{ Sum_ZPA_lg += stream.GetADCValue(); if(stream.GetSector(1)!=0) SumQ_ZPA_lg += stream.GetADCValue(); else GetRawsData(23)->Fill(stream.GetADCValue()); } } } } // GetRawsData(0)->Fill(Sum_ZNC); GetRawsData(1)->Fill(Sum_ZPC); GetRawsData(2)->Fill(Sum_ZNA); GetRawsData(3)->Fill(Sum_ZPA); // GetRawsData(4)->Fill(SumQ_ZNC); GetRawsData(5)->Fill(SumQ_ZPC); GetRawsData(6)->Fill(SumQ_ZNA); GetRawsData(7)->Fill(SumQ_ZPA); // GetRawsData(12)->Fill(Sum_ZNC_lg); GetRawsData(13)->Fill(Sum_ZPC_lg); GetRawsData(14)->Fill(Sum_ZNA_lg); GetRawsData(15)->Fill(Sum_ZPA_lg); // GetRawsData(16)->Fill(SumQ_ZNC_lg); GetRawsData(17)->Fill(SumQ_ZPC_lg); GetRawsData(18)->Fill(SumQ_ZNA_lg); GetRawsData(19)->Fill(SumQ_ZPA_lg); // stream.Delete(); } //____________________________________________________________________________ void AliZDCQADataMakerRec::MakeESDs(AliESDEvent * esd) { // make QA data from ESDs // AliESDZDC * zdcESD = esd->GetESDZDC(); // const Float_t * Centr_ZNC, * Centr_ZNA; Int_t NSpecnC = (Int_t) (esd->GetZDCN1Energy()/2.7); Int_t NSpecnA = (Int_t) (esd->GetZDCN2Energy()/2.7); Centr_ZNC = zdcESD->GetZNCCentroid(NSpecnC); Centr_ZNA = zdcESD->GetZNACentroid(NSpecnA); GetESDsData(0)->Fill(Centr_ZNC[0], Centr_ZNC[1]); GetESDsData(1)->Fill(Centr_ZNA[0], Centr_ZNA[1]); // GetESDsData(2)->Fill(esd->GetZDCN1Energy()); GetESDsData(3)->Fill(esd->GetZDCP1Energy()); GetESDsData(4)->Fill(esd->GetZDCN2Energy()); GetESDsData(5)->Fill(esd->GetZDCP2Energy()); // Double_t ZNCSumQ=0., ZPCSumQ=0., ZNASumQ=0., ZPASumQ=0.; Double_t ZNCSumQ_lg=0., ZPCSumQ_lg=0., ZNASumQ_lg=0., ZPASumQ_lg=0.; // const Double_t *ZNCTow, *ZPCTow, *ZNATow, *ZPATow; const Double_t *ZNCTow_lg, *ZPCTow_lg, *ZNATow_lg, *ZPATow_lg; // ZNCTow = zdcESD->GetZN1TowerEnergy(); ZPCTow = zdcESD->GetZP1TowerEnergy(); ZNATow = zdcESD->GetZN2TowerEnergy(); ZPATow = zdcESD->GetZP2TowerEnergy(); // ZNCTow_lg = zdcESD->GetZN1TowerEnergyLR(); ZPCTow_lg = zdcESD->GetZP1TowerEnergyLR(); ZNATow_lg = zdcESD->GetZN2TowerEnergyLR(); ZPATow_lg = zdcESD->GetZP2TowerEnergyLR(); // for(Int_t i=0; i<5; i++){ if(i==0){ GetESDsData(10)->Fill(ZNCTow[i]); GetESDsData(11)->Fill(ZPCTow[i]); GetESDsData(12)->Fill(ZNATow[i]); GetESDsData(13)->Fill(ZPATow[i]); // GetESDsData(22)->Fill(ZNCTow_lg[i]); GetESDsData(23)->Fill(ZPCTow_lg[i]); GetESDsData(24)->Fill(ZNATow_lg[i]); GetESDsData(25)->Fill(ZPATow_lg[i]); } else{ ZNCSumQ += ZNCTow[i]; ZPCSumQ += ZPCTow[i]; ZNASumQ += ZNATow[i]; ZPASumQ += ZPATow[i]; // ZNCSumQ_lg += ZNCTow_lg[i]; ZPCSumQ_lg += ZPCTow_lg[i]; ZNASumQ_lg += ZNATow_lg[i]; ZPASumQ_lg += ZPATow_lg[i]; } } GetESDsData(6)->Fill(ZNCSumQ); GetESDsData(7)->Fill(ZPCSumQ); GetESDsData(8)->Fill(ZNASumQ); GetESDsData(9)->Fill(ZPASumQ); // GetESDsData(18)->Fill(ZNCSumQ_lg); GetESDsData(19)->Fill(ZPCSumQ_lg); GetESDsData(20)->Fill(ZNASumQ_lg); GetESDsData(21)->Fill(ZPASumQ_lg); } //____________________________________________________________________________ void AliZDCQADataMakerRec::StartOfDetectorCycle() { //Detector specific actions at start of cycle } //____________________________________________________________________________ void AliZDCQADataMakerRec::EndOfDetectorCycle(AliQA::TASKINDEX_t task, TObjArray * list) { //Detector specific actions at end of cycle // do the QA checking AliQAChecker::Instance()->Run(AliQA::kZDC, task, list) ;