/************************************************************************** * 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 ZDC quality assurance. // // QA objects are 1 & 2 Dimensional histograms. // // author: C. Oppedisano // // // /////////////////////////////////////////////////////////////////////// // --- ROOT system --- #include #include #include #include #include #include #include // --- Standard library --- // --- AliRoot header files --- #include "AliLog.h" #include "AliQAChecker.h" #include "AliZDCReco.h" #include "AliRawReader.h" #include "AliZDCQADataMakerRec.h" #include "AliZDCPedestals.h" #include "AliZDCRawStream.h" #include "AliZDCDigit.h" #include "AliESDZDC.h" #include "AliESDEvent.h" ClassImp(AliZDCQADataMakerRec) //____________________________________________________________________________ AliZDCQADataMakerRec::AliZDCQADataMakerRec() : AliQADataMakerRec(AliQAv1::GetDetName(AliQAv1::kZDC), "ZDC Quality Assurance Data Maker"), fPedCalibData(0x0) { // ctor } //____________________________________________________________________________ AliZDCQADataMakerRec::AliZDCQADataMakerRec(const AliZDCQADataMakerRec& qadm) : AliQADataMakerRec(), fPedCalibData(qadm.fPedCalibData) { //copy ctor SetName((const char*)qadm.GetName()); SetTitle((const char*)qadm.GetTitle()); } //__________________________________________________________________ AliZDCQADataMakerRec& AliZDCQADataMakerRec::operator = (const AliZDCQADataMakerRec& qadm ) { // Equal operator. this->~AliZDCQADataMakerRec(); new(this) AliZDCQADataMakerRec(qadm); return *this; } //____________________________________________________________________________ AliZDCQADataMakerRec::~AliZDCQADataMakerRec() { if(fPedCalibData && !(AliCDBManager::Instance()->GetCacheFlag())){ delete fPedCalibData; fPedCalibData=0; } } //____________________________________________________________________________ AliZDCPedestals* AliZDCQADataMakerRec::GetPedCalibData() const { // Retrieving pedestal calibration object from OCDB AliCDBEntry *entry = AliCDBManager::Instance()->Get("ZDC/Calib/Pedestals"); if(!entry) AliWarning("No calibration data loaded!"); AliZDCPedestals *calibdata = (AliZDCPedestals*) (entry->GetObject()); if(!calibdata) AliFatal("Wrong calibration object in calibration file!"); return calibdata; } //____________________________________________________________________________ void AliZDCQADataMakerRec::InitDigits() { // create Digits histograms in Digits subdir // const Bool_t expert = kTRUE ; const Bool_t image = kTRUE ; // ------------------- HIGH GAIN CHAIN --------------------------- TH1F * hDigZNCTot = new TH1F("hDigZNCTot", "Signal in ZNC;Amplitude [ADC counts];Counts", 100, 0., 6000.); TH1F * hDigZNATot = new TH1F("hDigZNATot", "Signal in ZNA;Amplitude [ADC counts];Counts", 100, 0., 6000.); TH1F * hDigZPCTot = new TH1F("hDigZPCTot", "Signal in ZPC;Amplitude [ADC counts];Counts", 100, 0., 6000.); TH1F * hDigZPATot = new TH1F("hDigZPATot", "Signal in ZPA;Amplitude [ADC counts];Counts", 100, 0., 6000.); Add2DigitsList(hDigZNCTot, 0, !expert, image); Add2DigitsList(hDigZNATot, 1, !expert, image); Add2DigitsList(hDigZPCTot, 2, !expert, image); Add2DigitsList(hDigZPATot, 3, !expert, image); // TH1F * hDigSumQZNC = new TH1F("hDigSumQZNC", "Signal in 4 ZNC PMQ;Amplitude [ADC counts];Counts",100, 0., 4000.); TH1F * hDigSumQZNA = new TH1F("hDigSumQZNA", "Signal in 4 ZNA PMQ;Amplitude [ADC counts];Counts",100, 0., 4000.); TH1F * hDigSumQZPC = new TH1F("hDigSumQZPC", "Signal in 4 ZPC PMQ;Amplitude [ADC counts];Counts",100, 0., 4000.); TH1F * hDigSumQZPA = new TH1F("hDigSumQZPA", "Signal in 4 ZPA PMQ;Amplitude [ADC counts];Counts",100, 0., 4000.); Add2DigitsList(hDigSumQZNC, 4, expert, !image); Add2DigitsList(hDigSumQZNA, 5, expert, !image); Add2DigitsList(hDigSumQZPC, 6, expert, !image); Add2DigitsList(hDigSumQZPA, 7, expert, !image); // TH1F * hDigPMCZNC = new TH1F("hDigPMCZNC", "Signal in ZNC PMC;Amplitude [ADC counts];Counts",100, 0., 4000.); TH1F * hDigPMCZNA = new TH1F("hDigPMCZNA", "Signal in ZNA PMC;Amplitude [ADC counts];Counts",100, 0., 4000.); TH1F * hDigPMCZPC = new TH1F("hDigPMCZPC", "Signal in ZPC PMC;Amplitude [ADC counts];Counts",100, 0., 4000.); TH1F * hDigPMCZPA = new TH1F("hDigPMCZPA", "Signal in ZPA PMC;Amplitude [ADC counts];Counts",100, 0., 4000.); Add2DigitsList(hDigPMCZNC, 8, expert, !image); Add2DigitsList(hDigPMCZNA, 9, expert, !image); Add2DigitsList(hDigPMCZPC, 10, expert, !image); Add2DigitsList(hDigPMCZPA, 11, expert, !image); // ClonePerTrigClass(AliQAv1::kDIGITS); // this should be the last line } //____________________________________________________________________________ void AliZDCQADataMakerRec::InitRaws() { // create Digits histograms in Digits subdir const Bool_t expert = kTRUE ; const Bool_t image = kTRUE ; TH1F * hZNCSpectrum = new TH1F("hZNCSpectrum","ZNC spectrum;Amplitude [ADC counts];Counts",100,0.,1200.); TH1F * hZPCSpectrum = new TH1F("hZPCSpectrum","ZPC spectrum;Amplitude [ADC counts];Counts",100,0.,1200.); TH1F * hZNASpectrum = new TH1F("hZNASpectrum","ZNA spectrum;Amplitude [ADC counts];Counts",100,0.,1200.); TH1F * hZPASpectrum = new TH1F("hZPASpectrum","ZPA spectrum;Amplitude [ADC counts];Counts",100,0.,1200.); // Booking from ch. 8 for checked signals to avoid running QA on pedestals! TH1F * hZEM1Spectrum = new TH1F("hZEM1Spectrum","ZEM1 spectrum;Amplitude [ADC counts];Counts",100,8., 1208.); TH1F * hZEM2Spectrum = new TH1F("hZEM2Spectrum","ZEM2 spectrum;Amplitude [ADC counts];Counts",100,8., 1208.); Add2RawsList(hZNCSpectrum, 0, expert, !image); Add2RawsList(hZNASpectrum, 1, expert, !image); Add2RawsList(hZPCSpectrum, 2, expert, !image); Add2RawsList(hZPASpectrum, 3, expert, !image); Add2RawsList(hZEM1Spectrum, 4, expert, !image); Add2RawsList(hZEM2Spectrum, 5, expert, !image); TH1F * hRawPMCZNC = new TH1F("hRawPMCZNC", "Raw ZNC PMC;Amplitude [ADC counts];Counts",100, 8., 1208.); TH1F * hRawPMCZNA = new TH1F("hRawPMCZNA", "Raw ZNA PMC;Amplitude [ADC counts];Counts",100, 8., 1208.); TH1F * hRawPMCZPC = new TH1F("hRawPMCZPC", "Raw ZPC PMC;Amplitude [ADC counts];Counts",100, 8., 1208.); TH1F * hRawPMCZPA = new TH1F("hRawPMCZPA", "Raw ZPA PMC;Amplitude [ADC counts];Counts",100, 8., 1208.); Add2RawsList(hRawPMCZNC, 6, expert, !image); Add2RawsList(hRawPMCZNA, 7, expert, !image); Add2RawsList(hRawPMCZPC, 8, expert, !image); Add2RawsList(hRawPMCZPA, 9, expert, !image); TH1F * hRawSumQZNC = new TH1F("hRawSumQZNC", "Raw sumQ ZNC;Amplitude [ADC counts];Counts",100, 0., 1200.); TH1F * hRawSumQZNA = new TH1F("hRawSumQZNA", "Raw sumQ ZNA;Amplitude [ADC counts];Counts",100, 0., 1200.); TH1F * hRawSumQZPC = new TH1F("hRawSumQZPC", "Raw sumQ ZPC;Amplitude [ADC counts];Counts",100, 0., 1200.); TH1F * hRawSumQZPA = new TH1F("hRawSumQZPA", "Raw sumQ ZPA;Amplitude [ADC counts];Counts",100, 0., 1200.); Add2RawsList(hRawSumQZNC, 10, expert, !image); Add2RawsList(hRawSumQZNA, 11, expert, !image); Add2RawsList(hRawSumQZPC, 12, expert, !image); Add2RawsList(hRawSumQZPA, 13, expert, !image); TH1F * hRawTDCZEM1 = new TH1F("hRawTDCZEM1", "TDC ZEM1;TDC [ns]",160, -350., -310.); Add2RawsList(hRawTDCZEM1, 14, expert, !image); TH1F * hRawTDCZPC = new TH1F("hRawTDCZPC", "TDC ZPC;TDC [ns]",160, -350., -310.); Add2RawsList(hRawTDCZPC, 15, expert, !image); TProfile * hRawADCProfs = new TProfile("hRawADCProfs", "ADC profiles;ADC id;Mean ADC values",22,-0.5,21.5,10.,1210.,""); Add2RawsList(hRawADCProfs, 16, expert, !image); TProfile * hRawTDCProfs = new TProfile("hRawTDCProfs", "TDC profiles;TDC id;Mean TDC values",6,0.5,6.5,-340.,-300.,"S"); Add2RawsList(hRawTDCProfs, 17, expert, !image); TH1F * hRawADCs = new TH1F("hRawADCs", "ADCs;ADC id;Mean ADC values",22,-0.5,21.5); Add2RawsList(hRawADCs, 18, !expert, image); TH1F * hRawTDCs = new TH1F("hRawTDCs", "TDCs;TDC id;Mean TDC values",6,0.5,6.5); // hRawTDCs->SetMaximum(-300); hRawTDCs->SetMinimum(-340); Add2RawsList(hRawTDCs, 19, !expert, image); TH2F *hZNCrawCentr = new TH2F("hZNCrawCentr", "ZNC centroid;X (cm);Y(cm)", 100,-3.5,3.5,100,-3.5,3.5); Add2RawsList(hZNCrawCentr, 20, expert, image); TH2F *hZNArawCentr = new TH2F("hZNArawCentr", "ZNA centroid;X (cm);Y(cm)", 100,-3.5,3.5,100,-3.5,3.5); Add2RawsList(hZNArawCentr, 21, expert, image); TH2F *hTimeZDC = new TH2F("hTimeZDC", "ZDC timing;Z_{vertex}/c (ns);time (ns)", 60,-30.,30.,120,-60,-60); Add2RawsList(hTimeZDC, 22, !expert, image); // ClonePerTrigClass(AliQAv1::kRAWS); // this should be the last line } //____________________________________________________________________________ void AliZDCQADataMakerRec::InitRecPoints() { // create Digits histograms in Digits subdir const Bool_t expert = kTRUE ; const Bool_t image = kTRUE ; // // ------------------- HIGH GAIN CHAIN --------------------------- TH1F * hRecZNCTot = new TH1F("hRecZNCTot", "Rec signal in ZNC;Amplitude [ADC counts];Counts", 100, 0., 2000.); TH1F * hRecZNATot = new TH1F("hRecZNATot", "Rec signal in ZNA;Amplitude [ADC counts];Counts", 100, 0., 2000.); TH1F * hRecZPCTot = new TH1F("hRecZPCTot", "Rec signal in ZPC;Amplitude [ADC counts];Counts", 100, 0., 8000.); TH1F * hRecZPATot = new TH1F("hRecZPATot", "Rec signal in ZPA;Amplitude [ADC counts];Counts", 100, 0., 8000.); Add2RecPointsList(hRecZNCTot, 0, !expert, image); Add2RecPointsList(hRecZNATot, 1, !expert, image); Add2RecPointsList(hRecZPCTot, 2, !expert, image); Add2RecPointsList(hRecZPATot, 3, !expert, image); // TH1F * hRecSumQZNC = new TH1F("hRecSumQZNC", "Rec summed 4 ZNC quadrants;Amplitude [ADC counts];Counts",100, 0., 2000.); TH1F * hRecSumQZNA = new TH1F("hRecSumQZNA", "Rec summed 4 ZNA quadrants;Amplitude [ADC counts];Counts",100, 0., 2000.); TH1F * hRecSumQZPC = new TH1F("hRecSumQZPC", "Rec summed 4 ZPC quadrants;Amplitude [ADC counts];Counts",100, 0., 2000.); TH1F * hRecSumQZPA = new TH1F("hRecSumQZPA", "Rec summed 4 ZPA quadrants;Amplitude [ADC counts];Counts",100, 0., 2000.); Add2RecPointsList(hRecSumQZNC, 4, expert, !image); Add2RecPointsList(hRecSumQZNA, 5, expert, !image); Add2RecPointsList(hRecSumQZPC, 6, expert, !image); Add2RecPointsList(hRecSumQZPA, 7, expert, !image); // TH1F * hRecPMCZNC = new TH1F("hRecPMCZNC", "Rec common ZNC PMT;Amplitude [ADC counts];Counts",100, 0., 2000.); TH1F * hRecPMCZNA = new TH1F("hRecPMCZNA", "Rec common ZNA PMT;Amplitude [ADC counts];Counts",100, 0., 2000.); TH1F * hRecPMCZPC = new TH1F("hRecPMCZPC", "Rec common ZPC PMT;Amplitude [ADC counts];Counts",100, 0., 2000.); TH1F * hRecPMCZPA = new TH1F("hRecPMCZPA", "Rec common ZPA PMT;Amplitude [ADC counts];Counts",100, 0., 2000.); Add2RecPointsList(hRecPMCZNC, 8 , expert, !image); Add2RecPointsList(hRecPMCZNA, 9 , expert, !image); Add2RecPointsList(hRecPMCZPC, 10, expert, !image); Add2RecPointsList(hRecPMCZPA, 11, expert, !image); // ClonePerTrigClass(AliQAv1::kRECPOINTS); // this should be the last line } //____________________________________________________________________________ void AliZDCQADataMakerRec::InitESDs() { //Booking ESDs histograms // const Bool_t expert = kTRUE ; const Bool_t image = kTRUE ; // ------------------- HIGH GAIN CHAIN --------------------------- TH1F * hESDZNCTot = new TH1F("hESDZNCTot", "Energy in ZNC", 100, 0., 4000.); TH1F * hESDZNATot = new TH1F("hESDZNATot", "Energy in ZNA", 100, 0., 4000.); TH1F * hESDZPCTot = new TH1F("hESDZPCTot", "Energy in ZPC", 100, 0., 4000.); TH1F * hESDZPATot = new TH1F("hESDZPATot", "Energy in ZPA", 100, 0., 4000.); Add2ESDsList(hESDZNCTot, 0, !expert, image); Add2ESDsList(hESDZNATot, 1, !expert, image); Add2ESDsList(hESDZPCTot, 2, !expert, image); Add2ESDsList(hESDZPATot, 3, !expert, image); // TH1F * hESDZEM1 = new TH1F("hESDZEM1", "Energy in ZEM1", 100, 0., 2000.); TH1F * hESDZEM2 = new TH1F("hESDZEM2", "Energy in ZEM2", 100, 0., 2000.); Add2ESDsList(hESDZEM1,4, !expert, image); Add2ESDsList(hESDZEM2,5, !expert, image); // TH1F * hESDSumQZNC = new TH1F("hESDSumQZNC", "Sum of 4 ZNC energy",100, 0., 2000.); TH1F * hESDSumQZNA = new TH1F("hESDSumQZNA", "Sum of 4 ZNA energy",100, 0., 2000.); TH1F * hESDSumQZPC = new TH1F("hESDSumQZPC", "Sum of 4 ZPC energy",100, 0., 2000.); TH1F * hESDSumQZPA = new TH1F("hESDSumQZPA", "Sum of 4 ZPA energy",100, 0., 2000.); Add2ESDsList(hESDSumQZNC, 6, expert, !image); Add2ESDsList(hESDSumQZNA, 7, expert, !image); Add2ESDsList(hESDSumQZPC, 8, expert, !image); Add2ESDsList(hESDSumQZPA, 9, expert, !image); // TH1F * hESDPMCZNC = new TH1F("hESDPMCZNC", "Energy in ZNC PMC",100, 0., 2000.); TH1F * hESDPMCZNA = new TH1F("hESDPMCZNA", "Energy in ZNA PMC",100, 0., 2000.); TH1F * hESDPMCZPC = new TH1F("hESDPMCZPC", "Energy in ZPC PMC",100, 0., 2000.); TH1F * hESDPMCZPA = new TH1F("hESDPMCZPA", "Energy in ZPA PMC",100, 0., 2000.); Add2ESDsList(hESDPMCZNC, 10, expert, !image); Add2ESDsList(hESDPMCZNA, 11, expert, !image); Add2ESDsList(hESDPMCZPC, 12, expert, !image); Add2ESDsList(hESDPMCZPA, 13, expert, !image); // ClonePerTrigClass(AliQAv1::kESDS); // this should be the last line } //___________________________________________________________________________ void AliZDCQADataMakerRec::MakeDigits(TTree *digitTree) { // makes data from Digit Tree if(!GetDigitsData(0)) InitDigits(); if(!digitTree){ AliError("Can't get ZDC digit tree!!"); return; } TBranch * branch = digitTree->GetBranch("ZDC"); if(!branch){ AliError("ZDC branch in digit tree not found"); return; } AliZDCDigit *digit = 0x0; branch->SetAddress(&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.; Int_t ndig = digitTree->GetEntries(); for(Int_t i=0; iGetEntry(i); if(digit->GetSector(0)==1 && digit->GetSector(1)!=5){ 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{ FillDigitsData(8,digit->GetADCValue(0)); //FillDigitsData(20,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{ FillDigitsData(10,digit->GetADCValue(0)); //FillDigitsData(22,digit->GetADCValue(1)); } } else if(digit->GetSector(0)==4 && digit->GetSector(1)!=5){ 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{ FillDigitsData(9,digit->GetADCValue(0)); //FillDigitsData(21,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{ FillDigitsData(11,digit->GetADCValue(0)); //FillDigitsData(23,digit->GetADCValue(1)); } } } // FillDigitsData(0,adcSum_ZNC); FillDigitsData(1,adcSum_ZNA); FillDigitsData(2,adcSum_ZPC); FillDigitsData(3,adcSum_ZPA); // FillDigitsData(4,adcSumQ_ZNC); FillDigitsData(5,adcSumQ_ZNA); FillDigitsData(6,adcSumQ_ZPC); FillDigitsData(7,adcSumQ_ZPA); delete digit; digit=0; // IncEvCountCycleDigits(); IncEvCountTotalDigits(); // } //____________________________________________________________________________ void AliZDCQADataMakerRec::MakeRaws(AliRawReader *rawReader) { // Filling Raws QA histos // // Checking the event type // if (rawReader->GetType()!=7){ // Check if histograms already created for this Event Specie if(!GetRawsData(0)) InitRaws(); // Parameters for mean value pedestal subtraction int const kNch = 24; Float_t meanPed[2*kNch]; for(Int_t jj=0; jj<2*kNch; jj++) meanPed[jj] = fPedCalibData->GetMeanPed(jj); Float_t zncSignal=0., znaSignal=0., zpcSignal=0., zpaSignal=0.; Float_t zncSumQ=0., znaSumQ=0., zpcSumQ=0., zpaSumQ=0.; Float_t zncpmC=0., znapmC=0., zpcpmC=0., zpapmC=0.; Bool_t isZNCFired=kFALSE, isZPCFired=kFALSE, isZNAFired=kFALSE, isZPAFired=kFALSE; Int_t indZNC=0, indZNA=0, indZPC=0, indZPA=0; Float_t zncTDC[10], zpcTDC[10], zem1TDC[10], zem2TDC[10], znaTDC[10], zpaTDC[10]; Float_t zncSumTDC[10], znaSumTDC[10]; for(Int_t i=0; i<10; i++){ zncTDC[i]=zpcTDC[i]=zem1TDC[i]=zem2TDC[i]=znaTDC[i]=zpaTDC[i]=zncSumTDC[i]=znaSumTDC[i]=-999.; } Float_t tdcGate=-999., l0=-999.; Int_t iMultZNCTDC=0, iMultZPCTDC=0, iMultZEM1TDC=0, iMultZEM2TDC=0, iMultZNATDC=0, iMultZPATDC=0; Int_t iMultTDCC=0, iMultTDCA=0; const Float_t x[4] = {-1.75, 1.75, -1.75, 1.75}; const Float_t y[4] = {-1.75, -1.75, 1.75, 1.75}; const Float_t alpha=0.5; Float_t numXZNC=0., numYZNC=0., denZNC=0., wZNC=0.; Float_t numXZNA=0., numYZNA=0., denZNA=0., wZNA=0.; rawReader->Reset(); AliZDCRawStream stream(rawReader); while(stream.Next()){ if(stream.IsADCDataWord() && (stream.GetADCModule()==0 || stream.GetADCModule()==1)){ Int_t det = stream.GetSector(0); Int_t quad = stream.GetSector(1); Int_t gain = stream.GetADCGain(); Int_t pedindex=0; // Stuff for pedestal subtraction if(quad != 5){ // ZDCs (not reference PTMs) Float_t rawVal=-99., pedSubVal=-99.; if(det == 1){ pedindex = quad; if(gain == 0){ rawVal = (Float_t) (stream.GetADCValue()); pedSubVal = (Float_t) (rawVal-meanPed[pedindex]); zncSignal += pedSubVal; isZNCFired = kTRUE; if(quad!=0){ zncSumQ += pedSubVal; if(pedSubVal>0.&& zncpmC>7.){ wZNC = TMath::Power(pedSubVal, alpha); numXZNC += x[quad-1]*wZNC; numYZNC += y[quad-1]*wZNC; denZNC += wZNC; } } else{ zncpmC = pedSubVal; FillRawsData(6,zncpmC); } indZNC++; FillRawsData(16, pedindex, pedSubVal); } } else if(det == 2){ pedindex = quad+5; if(gain == 0){ rawVal = (Float_t) (stream.GetADCValue()); pedSubVal = (Float_t) (rawVal-meanPed[pedindex]); zpcSignal += pedSubVal; isZPCFired = kTRUE; if(quad!=0) zpcSumQ += pedSubVal; else{ zpcpmC = pedSubVal; FillRawsData(8,zpcpmC); } indZPC++; FillRawsData(16, pedindex, pedSubVal); } } else if(det == 3){ pedindex = quad+9; if(quad==1){ if(gain == 0){ rawVal = (Float_t) (stream.GetADCValue()); pedSubVal = (Float_t) (rawVal-meanPed[pedindex]); FillRawsData(4,pedSubVal); FillRawsData(16,pedindex, pedSubVal); } } else if(quad==2){ if(gain == 0){ rawVal = (Float_t) (stream.GetADCValue()); pedSubVal = (Float_t) (rawVal-meanPed[pedindex]); FillRawsData(5,pedSubVal); FillRawsData(16,pedindex, pedSubVal); } } } else if(det == 4){ pedindex = quad+12; if(gain == 0){ rawVal = (Float_t) (stream.GetADCValue()); pedSubVal = (Float_t) (rawVal-meanPed[pedindex]); znaSignal += pedSubVal; isZNAFired = kTRUE; if(quad!=0){ znaSumQ += pedSubVal; if(pedSubVal>0.&& znapmC>7.) { wZNA = TMath::Power(pedSubVal, alpha); numXZNA += x[quad-1]*wZNA; numYZNA += y[quad-1]*wZNA; denZNA += wZNA; } } else{ znapmC = pedSubVal; FillRawsData(7,znapmC); } indZNA++; FillRawsData(16,pedindex, pedSubVal); } } else if(det == 5){ pedindex = quad+17; if(gain == 0){ rawVal = (Float_t) (stream.GetADCValue()); pedSubVal = (Float_t) (rawVal-meanPed[pedindex]); zpaSignal += pedSubVal; isZPAFired = kTRUE; if(quad!=0) zpaSumQ += pedSubVal; else{ zpapmC = pedSubVal; FillRawsData(9,zpapmC); } indZPA++; FillRawsData(16,pedindex, pedSubVal); } } } if(isZNCFired && indZNC==5){ FillRawsData(0,zncSignal); FillRawsData(10,zncSumQ); // Float_t xZNC, yZNC; if(denZNC!=0){ xZNC = numXZNC/denZNC; yZNC = numYZNC/denZNC; } else xZNC = yZNC = 999.; FillRawsData(20,xZNC, yZNC); } if(isZPCFired && indZPC==5){ FillRawsData(2,zpcSignal); FillRawsData(12,zpcSumQ); } if(isZNAFired && indZNA==5){ FillRawsData(1,znaSignal); FillRawsData(11,znaSumQ); // Float_t xZNA, yZNA; if(denZNA!=0){ xZNA = numXZNA/denZNA; yZNA = numYZNA/denZNA; } else xZNA = yZNA = 999.; FillRawsData(21,xZNA, yZNA); } if(isZPAFired && indZPA==5){ FillRawsData(3,zpaSignal); FillRawsData(13,zpaSumQ); } if(indZNC==5){ zncSignal = zncSumQ = zncpmC = 0; isZNCFired=kFALSE; indZNC=0; } if(indZPC==5){ zpcSignal = zpcSumQ = zpcpmC = 0; isZPCFired=kFALSE; indZPC=0; } if(indZNA==5){ znaSignal = znaSumQ = znapmC = 0; isZNAFired=kFALSE; indZNA=0; } if(indZPA==5){ zpaSignal = zpaSumQ = zpapmC = 0; isZPAFired=kFALSE; indZPA=0; } } //IsADCDataWord && signal ADCs else if(stream.IsZDCTDCDatum()){ if(stream.GetChannel()==1){ zncTDC[iMultZNCTDC] = (0.025*stream.GetZDCTDCDatum()); iMultZNCTDC++; } else if(stream.GetChannel()==3){ zpcTDC[iMultZPCTDC] = (0.025*stream.GetZDCTDCDatum()); iMultZPCTDC++; } else if(stream.GetChannel()==5){ znaTDC[iMultZNATDC] = (0.025*stream.GetZDCTDCDatum()); iMultZNATDC++; } else if(stream.GetChannel()==7){ zpaTDC[iMultZPATDC] = (0.025*stream.GetZDCTDCDatum()); iMultZPATDC++; } else if(stream.GetChannel()==8){ zem1TDC[iMultZEM1TDC] = (0.025*stream.GetZDCTDCDatum()); iMultZEM1TDC++; } else if(stream.GetChannel()==9){ zem2TDC[iMultZEM2TDC] = (0.025*stream.GetZDCTDCDatum()); iMultZEM2TDC++; } else if(stream.GetChannel()==10){ zncSumTDC[iMultTDCC] = (0.025*stream.GetZDCTDCDatum()); iMultTDCC++; } else if(stream.GetChannel()==12){ znaSumTDC[iMultTDCA] = (0.025*stream.GetZDCTDCDatum()); iMultTDCA++; } else if(stream.GetChannel()==14) tdcGate = (0.025*stream.GetZDCTDCDatum()); else if(stream.GetChannel()==15) l0 = (0.025*stream.GetZDCTDCDatum()); if(stream.GetChannel()==16 && tdcGate!=-999.){ for(Int_t iHit=0; iHit<10; iHit++){ if(zncTDC[iHit]!=-999.){ if(zncTDC[iHit]-tdcGate>-340. && zncTDC[iHit]-tdcGate<-300.) FillRawsData(17,1, zncTDC[iHit]-tdcGate); } if(zpcTDC[iHit]!=-999.){ Float_t diffZPC = zpcTDC[iHit]-tdcGate; FillRawsData(15,diffZPC); if(diffZPC>-340. && diffZPC<-300.) FillRawsData(17,2, diffZPC); } if(znaTDC[iHit]!=-999.){ if(znaTDC[iHit]-tdcGate>-340. && znaTDC[iHit]-tdcGate<-300.) FillRawsData(17,3, znaTDC[iHit]-tdcGate); } if(zpaTDC[iHit]!=-999.){ if(zpaTDC[iHit]-tdcGate>-340. && zpaTDC[iHit]-tdcGate<-300.) FillRawsData(17,4, zpaTDC[iHit]-tdcGate); } if(zem1TDC[iHit]!=-999.){ Float_t diffZEM1 = zem1TDC[iHit]-tdcGate; FillRawsData(14,diffZEM1); if(diffZEM1>-340. && diffZEM1<-300.) FillRawsData(17,5, diffZEM1); } if(zem2TDC[iHit]!=-999.){ if(zem2TDC[iHit]-tdcGate>-340. && zem2TDC[iHit]-tdcGate<-300.) FillRawsData(17,6, zem2TDC[iHit]-tdcGate); } if(zncSumTDC[iHit]!=-999.){ Float_t tdcC = zncSumTDC[iHit]-l0; if(znaSumTDC[iHit]!=-999.){ Float_t tdcA = znaSumTDC[iHit]-l0; //if (((tdcC-tdcA-refDelta)*(tdcC-tdcA-refDelta)/(sigmaDelta*sigmaDelta) + //(tdcC+tdcA-refSum)*(tdcC+tdcA-refSum)/(sigmaSum*sigmaSum))< 1.0) FillRawsData(22,tdcC-tdcA,tdcC+tdcA); } } } // tdcGate = -999.; for(Int_t i=0; i<10; i++){ zncTDC[i] = zpcTDC[i] = zem1TDC[i] = zem2TDC[i] = znaTDC[i] = zpaTDC[i] = -999.; zncSumTDC[i] = znaSumTDC[i] = -999.; } } } } //stream.Next() // } // check on event type // else{ // AliDebug(1,Form("Skipping non-physics event for QA -> event type %d \n", rawReader->GetType())); // } // IncEvCountCycleRaws(); IncEvCountTotalRaws(); // } //____________________________________________________________________________ void AliZDCQADataMakerRec::MakeRecPoints(TTree * clustersTree) { // Filling QA histos from RecPoints TBranch *branch = clustersTree->GetBranch("ZDC"); if(!branch){ AliError("Can't get the ZDC branch for rec points!"); return; } if(!GetRecPointsData(0)) InitRecPoints() ; 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.; AliZDCReco reco; AliZDCReco* preco = &reco; clustersTree->SetBranchAddress("ZDC", &preco); clustersTree->GetEntry(0); for(Int_t i=0; i<5; i++){ sum_ZNC += reco.GetZN1HREnTow(i); sum_ZPC += reco.GetZN2HREnTow(i); sum_ZNA += reco.GetZP1HREnTow(i); sum_ZPA += reco.GetZP2HREnTow(i); if(i==0){ FillRecPointsData(8,reco.GetZN1HREnTow(i)); FillRecPointsData(9,reco.GetZN2HREnTow(i)); FillRecPointsData(10,reco.GetZP1HREnTow(i)); FillRecPointsData(11,reco.GetZP2HREnTow(i)); } else{ sumQ_ZNC += reco.GetZN1HREnTow(i); sumQ_ZPC += reco.GetZN2HREnTow(i); sumQ_ZNA += reco.GetZP1HREnTow(i); sumQ_ZPA += reco.GetZP2HREnTow(i); } } FillRecPointsData(0,sum_ZNC); FillRecPointsData(1,sum_ZNA); FillRecPointsData(2,sum_ZPC); FillRecPointsData(3,sum_ZPA); // FillRecPointsData(4,sumQ_ZNC); FillRecPointsData(5,sumQ_ZNA); FillRecPointsData(6,sumQ_ZPC); FillRecPointsData(7,sumQ_ZPA); // IncEvCountCycleRecPoints(); IncEvCountTotalRecPoints(); // } //____________________________________________________________________________ void AliZDCQADataMakerRec::MakeESDs(AliESDEvent * esd) { // make QA data from ESDs // // Check id histograms already created for this Event Specie if(!GetESDsData(0)) InitESDs() ; AliESDZDC * zdcESD = esd->GetESDZDC(); // /*TString beamType = esd->GetBeamType(); Double_t centr_ZNC[2]={999.,999}, centr_ZNA[2]={999.,999}; if(((beamType.CompareTo("pp"))==0) || ((beamType.CompareTo("p-p"))==0) ||((beamType.CompareTo("PP"))==0) || ((beamType.CompareTo("P-P"))==0)){ zdcESD->GetZNCentroidInpp(centr_ZNC, centr_ZNA); } else if((beamType.CompareTo("A-A")) == 0 || (beamType.CompareTo("Pb-Pb")) == 0){ Float_t beamEne = esd->GetBeamEnergy(); zdcESD->GetZNCentroidInPbPb(beamEne, centr_ZNC, centr_ZNA); } else printf("\n WARNING!!! AliZDCQADataMakerRec::MakeESDs: can't calculate centroids for beam type: %s\n\n",beamType.Data()); FillESDsData(0,centr_ZNC[0], centr_ZNC[1]); FillESDsData(1,centr_ZNA[0], centr_ZNA[1]);*/ FillESDsData(0,esd->GetZDCN1Energy()); FillESDsData(1,esd->GetZDCN2Energy()); FillESDsData(2,esd->GetZDCP1Energy()); FillESDsData(3,esd->GetZDCP2Energy()); FillESDsData(4,esd->GetZDCEMEnergy(0)); FillESDsData(5,esd->GetZDCEMEnergy(1)); // Double_t sumQZNC=0., sumQZPC=0., sumQZNA=0., sumQZPA=0.; //Double_t sumQZNC_lg=0., sumQZPC_lg=0., sumQZNA_lg=0., sumQZPA_lg=0.; // const Double_t *towZNC, *towZPC, *towZNA, *towZPA; //const Double_t *towZNC_lg, *towZPC_lg, *towZNA_lg, *towZPA_lg; // towZNC = zdcESD->GetZN1TowerEnergy(); towZPC = zdcESD->GetZP1TowerEnergy(); towZNA = zdcESD->GetZN2TowerEnergy(); towZPA = zdcESD->GetZP2TowerEnergy(); // /*towZNC_lg = zdcESD->GetZN1TowerEnergyLR(); towZPC_lg = zdcESD->GetZP1TowerEnergyLR(); towZNA_lg = zdcESD->GetZN2TowerEnergyLR(); towZPA_lg = zdcESD->GetZP2TowerEnergyLR();*/ // for(Int_t i=0; i<5; i++){ if(i==0){ FillESDsData(10,towZNC[i]); FillESDsData(11,towZNA[i]); FillESDsData(12,towZPC[i]); FillESDsData(13,towZPA[i]); } else{ sumQZNC += towZNC[i]; sumQZPC += towZPC[i]; sumQZNA += towZNA[i]; sumQZPA += towZPA[i]; } } FillESDsData(6,sumQZNC); FillESDsData(7,sumQZNA); FillESDsData(8,sumQZPC); FillESDsData(9,sumQZPA); // IncEvCountCycleESDs(); IncEvCountTotalESDs(); // } //____________________________________________________________________________ void AliZDCQADataMakerRec::StartOfDetectorCycle() { //Detector specific actions at start of cycle fPedCalibData = GetPedCalibData(); } //____________________________________________________________________________ void AliZDCQADataMakerRec::EndOfDetectorCycle(AliQAv1::TASKINDEX_t task, TObjArray ** list) { //Detector specific actions at end of cycle // do the QA checking // ResetEventTrigClasses(); for (Int_t specie = 0 ; specie < AliRecoParam::kNSpecies ; specie++) { // RS: loop over event types // if (!IsValidEventSpecie(specie, list)) continue; SetEventSpecie(AliRecoParam::ConvertIndex(specie)); // for (int itc=-1;itc (GetRawsData(16, itc)); TProfile* h17 = dynamic_cast (GetRawsData(17, itc)); TH1F* h18 = dynamic_cast (GetRawsData(18, itc)); TH1F* h19 = dynamic_cast (GetRawsData(19, itc)); TH2F* h20 = dynamic_cast (GetRawsData(20, itc)); TH2F* h21 = dynamic_cast (GetRawsData(21, itc)); TH2F* h22 = dynamic_cast (GetRawsData(22, itc)); if (!h16 || !h17 || !h18 || !h19){ AliWarning("AliZDCQADataMakerRec -> RAW histos 16||17||18||19 not found!"); AliWarning(Form("for specie %s and trigger class %s", AliRecoParam::GetEventSpecieName(specie), AliQADataMaker::GetTrigClassName(itc))); } else{ //h16->Draw(""); for(Int_t ibin=1; ibin<=h16->GetNbinsX(); ibin++){ h18->SetBinContent(ibin, h16->GetBinContent(ibin)); h18->SetBinError(ibin, h16->GetBinError(ibin)); } for(Int_t ibin=1; ibin<=h17->GetNbinsX(); ibin++){ h19->SetBinContent(ibin, h17->GetBinContent(ibin)); h19->SetBinError(ibin, h17->GetBinError(ibin)); } h18->SetLineColor(kBlue); h18->SetLineWidth(2); h19->SetLineColor(kAzure-3); h19->SetLineWidth(2); } if(!h20 || !h21){ AliWarning("AliZDCQADataMakerRec -> RAW histos 20||21 not found!"); AliWarning(Form("for specie %s and trigger class %s", AliRecoParam::GetEventSpecieName(specie), AliQADataMaker::GetTrigClassName(itc))); } else{ h20->SetMarkerColor(kPink+7); h21->SetMarkerColor(kBlue+2); } if(!h22) { AliWarning("AliZDCQADataMakerRec -> RAW histo 22 not found!"); AliWarning(Form("for specie %s and trigger class %s", AliRecoParam::GetEventSpecieName(specie), AliQADataMaker::GetTrigClassName(itc))); } else h22->SetMarkerColor(kAzure+7); } } // loop over t } // loop over species AliQAChecker::Instance()->Run(AliQAv1::kZDC, task, list) ; }