-/**************************************************************************
- * 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. *
- **************************************************************************/
-/*
-Based on the QA code for PHOS written by Yves Schutz July 2007
-
-Authors: J.Klay (Cal Poly) May 2008
- S. Salur LBL April 2008
-
-*/
-
-// --- ROOT system ---
-#include <TClonesArray.h>
-#include <TFile.h>
-#include <TH1F.h>
-#include <TH1I.h>
-#include <TH2F.h>
-#include <TProfile.h>
-
-// --- Standard library ---
-
-
-// --- AliRoot header files ---
-#include "AliESDCaloCluster.h"
-#include "AliESDCaloCells.h"
-#include "AliESDEvent.h"
-#include "AliLog.h"
-#include "AliEMCALQADataMakerRec.h"
-#include "AliQAChecker.h"
-#include "AliEMCALDigit.h"
-#include "AliEMCALRecPoint.h"
-#include "AliEMCALRawUtils.h"
-#include "AliEMCALReconstructor.h"
-#include "AliEMCALRecParam.h"
-#include "AliRawReader.h"
-#include "AliCaloRawStreamV3.h"
-#include "AliEMCALGeoParams.h"
-
-ClassImp(AliEMCALQADataMakerRec)
-
-//____________________________________________________________________________
- AliEMCALQADataMakerRec::AliEMCALQADataMakerRec() :
- AliQADataMakerRec(AliQAv1::GetDetName(AliQAv1::kEMCAL), "EMCAL Quality Assurance Data Maker"),
- fSuperModules(4), // FIXME!!! number of SuperModules; 4 for 2009; update default to 12 for later runs..
- fFirstPedestalSample(0),
- fLastPedestalSample(15),
- fMinSignalHG(0),
- fMaxSignalHG(AliEMCALGeoParams::fgkSampleMax)
-{
- // ctor
-}
-
-//____________________________________________________________________________
-AliEMCALQADataMakerRec::AliEMCALQADataMakerRec(const AliEMCALQADataMakerRec& qadm) :
- AliQADataMakerRec(),
- fSuperModules(qadm.GetSuperModules()),
- fFirstPedestalSample(qadm.GetFirstPedestalSample()),
- fLastPedestalSample(qadm.GetLastPedestalSample()),
- fMinSignalHG(qadm.GetMinSignalHG()),
- fMaxSignalHG(qadm.GetMaxSignalHG())
-{
- //copy ctor
- SetName((const char*)qadm.GetName()) ;
- SetTitle((const char*)qadm.GetTitle());
-}
-
-//__________________________________________________________________
-AliEMCALQADataMakerRec& AliEMCALQADataMakerRec::operator = (const AliEMCALQADataMakerRec& qadm )
-{
- // Equal operator.
- this->~AliEMCALQADataMakerRec();
- new(this) AliEMCALQADataMakerRec(qadm);
- return *this;
-}
-
-//____________________________________________________________________________
-void AliEMCALQADataMakerRec::EndOfDetectorCycle(AliQAv1::TASKINDEX_t task, TObjArray ** list)
-{
- //Detector specific actions at end of cycle
- // do the QA checking
- AliQAChecker::Instance()->Run(AliQAv1::kEMCAL, task, list) ;
-}
-
-//____________________________________________________________________________
-void AliEMCALQADataMakerRec::InitESDs()
-{
- //Create histograms to controll ESD
- const Bool_t expert = kTRUE ;
- const Bool_t image = kTRUE ;
-
- TH1F * h1 = new TH1F("hESDCaloClusterE", "ESDs CaloCluster energy in EMCAL;Energy [MeV];Counts", 200, 0., 20.) ;
- h1->Sumw2() ;
- Add2ESDsList(h1, kESDCaloClusE, !expert, image) ;
-
- TH1I * h2 = new TH1I("hESDCaloClusterM", "ESDs CaloCluster multiplicity in EMCAL;# of Clusters;Entries", 100, 0, 100) ;
- h2->Sumw2() ;
- Add2ESDsList(h2, kESDCaloClusM, !expert, image) ;
-
- TH1F * h3 = new TH1F("hESDCaloCellA", "ESDs CaloCell amplitude in EMCAL;Energy [MeV];Counts", 500, 0., 250.) ;
- h3->Sumw2() ;
- Add2ESDsList(h3, kESDCaloCellA, !expert, image) ;
-
- TH1I * h4 = new TH1I("hESDCaloCellM", "ESDs CaloCell multiplicity in EMCAL;# of Clusters;Entries", 200, 0, 1000) ;
- h4->Sumw2() ;
- Add2ESDsList(h4, kESDCaloCellM, !expert, image) ;
-
-}
-
-//____________________________________________________________________________
-void AliEMCALQADataMakerRec::InitDigits()
-{
- // create Digits histograms in Digits subdir
- const Bool_t expert = kTRUE ;
- const Bool_t image = kTRUE ;
-
- TH1I * h0 = new TH1I("hEmcalDigits", "Digits amplitude distribution in EMCAL;Amplitude [ADC counts];Counts", 500, 0, 500) ;
- h0->Sumw2() ;
- Add2DigitsList(h0, 0, !expert, image) ;
- TH1I * h1 = new TH1I("hEmcalDigitsMul", "Digits multiplicity distribution in EMCAL;# of Digits;Entries", 200, 0, 2000) ;
- h1->Sumw2() ;
- Add2DigitsList(h1, 1, !expert, image) ;
-}
-
-//____________________________________________________________________________
-void AliEMCALQADataMakerRec::InitRecPoints()
-{
- // create Reconstructed Points histograms in RecPoints subdir
- const Bool_t expert = kTRUE ;
- const Bool_t image = kTRUE ;
-
- TH1F* h0 = new TH1F("hEMCALRpE","EMCAL RecPoint energies;Energy [MeV];Counts",200, 0.,20.); //GeV
- h0->Sumw2();
- Add2RecPointsList(h0,kRecPE, !expert, image);
-
- TH1I* h1 = new TH1I("hEMCALRpM","EMCAL RecPoint multiplicities;# of Clusters;Entries",100,0,100);
- h1->Sumw2();
- Add2RecPointsList(h1,kRecPM, !expert, image);
-
- TH1I* h2 = new TH1I("hEMCALRpDigM","EMCAL RecPoint Digit Multiplicities;# of Digits;Entries",20,0,20);
- h2->Sumw2();
- Add2RecPointsList(h2,kRecPDigM, !expert, image);
-
-}
-
-//____________________________________________________________________________
-void AliEMCALQADataMakerRec::InitRaws()
-{
- // create Raws histograms in Raws subdir
- const Bool_t expert = kTRUE ;
- const Bool_t saveCorr = kTRUE ;
- const Bool_t image = kTRUE ;
-
- int nTowersPerSM = AliEMCALGeoParams::fgkEMCALRows * AliEMCALGeoParams::fgkEMCALCols; // number of towers in a SuperModule; 24x48
- int nTot = fSuperModules * nTowersPerSM; // max number of towers in all SuperModules
-
- // counter info: number of channels per event (bins are SM index)
- TProfile * h0 = new TProfile("hLowEmcalSupermodules", "Low Gain EMC: # of towers vs SuperMod;SM Id;# of towers",
- fSuperModules, -0.5, fSuperModules-0.5) ;
- Add2RawsList(h0, kNsmodLG, !expert, image, !saveCorr) ;
- TProfile * h1 = new TProfile("hHighEmcalSupermodules", "High Gain EMC: # of towers vs SuperMod;SM Id;# of towers",
- fSuperModules, -0.5, fSuperModules-0.5) ;
- Add2RawsList(h1, kNsmodHG, !expert, image, !saveCorr) ;
-
- // where did max sample occur? (bins are towers)
- TProfile * h2 = new TProfile("hLowEmcalRawtime", "Low Gain EMC: Time at Max vs towerId;Tower Id;Time [ticks]",
- nTot, -0.5, nTot-0.5) ;
- Add2RawsList(h2, kTimeLG, !expert, image, !saveCorr) ;
- TProfile * h3 = new TProfile("hHighEmcalRawtime", "High Gain EMC: Time at Max vs towerId;Tower Id;Time [ticks]",
- nTot, -0.5, nTot-0.5) ;
- Add2RawsList(h3, kTimeHG, !expert, image, !saveCorr) ;
-
- // how much above pedestal was the max sample? (bins are towers)
- TProfile * h4 = new TProfile("hLowEmcalRawMaxMinusMin", "Low Gain EMC: Max - Min vs towerId;Tower Id;Max-Min [ADC counts]",
- nTot, -0.5, nTot-0.5) ;
- Add2RawsList(h4, kSigLG, !expert, image, !saveCorr) ;
- TProfile * h5 = new TProfile("hHighEmcalRawMaxMinusMin", "High Gain EMC: Max - Min vs towerId;Tower Id;Max-Min [ADC counts]",
- nTot, -0.5, nTot-0.5) ;
- Add2RawsList(h5, kSigHG, !expert, image, !saveCorr) ;
-
- // total counter: channels per event
- TH1I * h6 = new TH1I("hLowNtot", "Low Gain EMC: Total Number of found towers;# of Towers;Counts", 200, 0, nTot) ;
- h6->Sumw2() ;
- Add2RawsList(h6, kNtotLG, !expert, image, !saveCorr) ;
- TH1I * h7 = new TH1I("hHighNtot", "High Gain EMC: Total Number of found towers;# of Towers;Counts", 200,0, nTot) ;
- h7->Sumw2() ;
- Add2RawsList(h7, kNtotHG, !expert, image, !saveCorr) ;
-
- // pedestal (bins are towers)
- TProfile * h8 = new TProfile("hLowEmcalRawPed", "Low Gain EMC: Pedestal vs towerId;Tower Id;Pedestal [ADC counts]",
- nTot, -0.5, nTot-0.5) ;
- Add2RawsList(h8, kPedLG, !expert, image, !saveCorr) ;
- TProfile * h9 = new TProfile("hHighEmcalRawPed", "High Gain EMC: Pedestal vs towerId;Tower Id;Pedestal [ADC counts]",
- nTot, -0.5, nTot-0.5) ;
- Add2RawsList(h9, kPedHG, !expert, image, !saveCorr) ;
-
- // pedestal rms (standard dev = sqrt of variance estimator for pedestal) (bins are towers)
- TProfile * h10 = new TProfile("hLowEmcalRawPedRMS", "Low Gain EMC: Pedestal RMS vs towerId;Tower Id;Width [ADC counts]",
- nTot, -0.5, nTot-0.5) ;
- Add2RawsList(h10, kPedRMSLG, !expert, image, !saveCorr) ;
- TProfile * h11 = new TProfile("hHighEmcalRawPedRMS", "High Gain EMC: Pedestal RMS vs towerId;Tower Id;Width [ADC counts]",
- nTot, -0.5, nTot-0.5) ;
- Add2RawsList(h11, kPedRMSHG, !expert, image, !saveCorr) ;
-
-
- // now repeat the same for TRU and LEDMon data
- int nTot2x2 = fSuperModules * AliEMCALGeoParams::fgkEMCALTRUsPerSM * AliEMCALGeoParams::fgkEMCAL2x2PerTRU; // max number of TRU channels for all SuperModules
-
- // counter info: number of channels per event (bins are SM index)
- TProfile * hT0 = new TProfile("hTRUEmcalSupermodules", "TRU EMC: # of TRU channels vs SuperMod;SM Id;# of TRU channels",
- fSuperModules, -0.5, fSuperModules-0.5) ;
- Add2RawsList(hT0, kNsmodTRU, !expert, image, !saveCorr) ;
-
- // where did max sample occur? (bins are TRU channels)
- TProfile * hT1 = new TProfile("hTRUEmcalRawtime", "TRU EMC: Time at Max vs 2x2Id;2x2 Id;Time [ticks]",
- nTot2x2, -0.5, nTot2x2-0.5) ;
- Add2RawsList(hT1, kTimeTRU, !expert, image, !saveCorr) ;
-
- // how much above pedestal was the max sample? (bins are TRU channels)
- TProfile * hT2 = new TProfile("hTRUEmcalRawMaxMinusMin", "TRU EMC: Max - Min vs 2x2Id;2x2 Id;Max-Min [ADC counts]",
- nTot2x2, -0.5, nTot2x2-0.5) ;
- Add2RawsList(hT2, kSigTRU, !expert, image, !saveCorr) ;
-
- // total counter: channels per event
- TH1I * hT3 = new TH1I("hTRUNtot", "TRU EMC: Total Number of found TRU channels;# of TRU Channels;Counts", 200, 0, nTot2x2) ;
- hT3->Sumw2() ;
- Add2RawsList(hT3, kNtotTRU, !expert, image, !saveCorr) ;
-
- // pedestal (bins are TRU channels)
- TProfile * hT4 = new TProfile("hTRUEmcalRawPed", "TRU EMC: Pedestal vs 2x2Id;2x2 Id;Pedestal [ADC counts]",
- nTot2x2, -0.5, nTot2x2-0.5) ;
- Add2RawsList(hT4, kPedTRU, !expert, image, !saveCorr) ;
-
- // pedestal rms (standard dev = sqrt of variance estimator for pedestal) (bins are TRU channels)
- TProfile * hT5 = new TProfile("hTRUEmcalRawPedRMS", "TRU EMC: Pedestal RMS vs 2x2Id;2x2 Id;Width [ADC counts]",
- nTot2x2, -0.5, nTot2x2-0.5) ;
- Add2RawsList(hT5, kPedRMSTRU, !expert, image, !saveCorr) ;
-
- // and also LED Mon..
- // LEDMon has both high and low gain channels, just as regular FEE/towers
- int nTotLEDMon = fSuperModules * AliEMCALGeoParams::fgkEMCALLEDRefs; // max number of LEDMon channels for all SuperModules
-
- // counter info: number of channels per event (bins are SM index)
- TProfile * hL0 = new TProfile("hLowLEDMonEmcalSupermodules", "LowLEDMon Gain EMC: # of strips vs SuperMod;SM Id;# of strips",
- fSuperModules, -0.5, fSuperModules-0.5) ;
- Add2RawsList(hL0, kNsmodLGLEDMon, !expert, image, !saveCorr) ;
- TProfile * hL1 = new TProfile("hHighLEDMonEmcalSupermodules", "HighLEDMon Gain EMC: # of strips vs SuperMod;SM Id;# of strips",
- fSuperModules, -0.5, fSuperModules-0.5) ;
- Add2RawsList(hL1, kNsmodHGLEDMon, !expert, image, !saveCorr) ;
-
- // where did max sample occur? (bins are strips)
- TProfile * hL2 = new TProfile("hLowLEDMonEmcalRawtime", "LowLEDMon Gain EMC: Time at Max vs stripId;Strip Id;Time [ticks]",
- nTotLEDMon, -0.5, nTotLEDMon-0.5) ;
- Add2RawsList(hL2, kTimeLGLEDMon, !expert, image, !saveCorr) ;
- TProfile * hL3 = new TProfile("hHighLEDMonEmcalRawtime", "HighLEDMon Gain EMC: Time at Max vs stripId;Strip Id;Time [ticks]",
- nTotLEDMon, -0.5, nTotLEDMon-0.5) ;
- Add2RawsList(hL3, kTimeHGLEDMon, !expert, image, !saveCorr) ;
-
- // how much above pedestal was the max sample? (bins are strips)
- TProfile * hL4 = new TProfile("hLowLEDMonEmcalRawMaxMinusMin", "LowLEDMon Gain EMC: Max - Min vs stripId;Strip Id;Max-Min [ADC counts]",
- nTotLEDMon, -0.5, nTotLEDMon-0.5) ;
- Add2RawsList(hL4, kSigLGLEDMon, !expert, image, !saveCorr) ;
- TProfile * hL5 = new TProfile("hHighLEDMonEmcalRawMaxMinusMin", "HighLEDMon Gain EMC: Max - Min vs stripId;Strip Id;Max-Min [ADC counts]",
- nTotLEDMon, -0.5, nTotLEDMon-0.5) ;
- Add2RawsList(hL5, kSigHGLEDMon, !expert, image, !saveCorr) ;
-
- // total counter: channels per event
- TH1I * hL6 = new TH1I("hLowLEDMonNtot", "LowLEDMon Gain EMC: Total Number of found strips;# of Strips;Counts", 200, 0, nTotLEDMon) ;
- hL6->Sumw2() ;
- Add2RawsList(hL6, kNtotLGLEDMon, !expert, image, !saveCorr) ;
- TH1I * hL7 = new TH1I("hHighLEDMonNtot", "HighLEDMon Gain EMC: Total Number of found strips;# of Strips;Counts", 200,0, nTotLEDMon) ;
- hL7->Sumw2() ;
- Add2RawsList(hL7, kNtotHGLEDMon, !expert, image, !saveCorr) ;
-
- // pedestal (bins are strips)
- TProfile * hL8 = new TProfile("hLowLEDMonEmcalRawPed", "LowLEDMon Gain EMC: Pedestal vs stripId;Strip Id;Pedestal [ADC counts]",
- nTotLEDMon, -0.5, nTotLEDMon-0.5) ;
- Add2RawsList(hL8, kPedLGLEDMon, !expert, image, !saveCorr) ;
- TProfile * hL9 = new TProfile("hHighLEDMonEmcalRawPed", "HighLEDMon Gain EMC: Pedestal vs stripId;Strip Id;Pedestal [ADC counts]",
- nTotLEDMon, -0.5, nTotLEDMon-0.5) ;
- Add2RawsList(hL9, kPedHGLEDMon, !expert, image, !saveCorr) ;
-
- // pedestal rms (standard dev = sqrt of variance estimator for pedestal) (bins are strips)
- TProfile * hL10 = new TProfile("hLowLEDMonEmcalRawPedRMS", "LowLEDMon Gain EMC: Pedestal RMS vs stripId;Strip Id;Width [ADC counts]",
- nTotLEDMon, -0.5, nTotLEDMon-0.5) ;
- Add2RawsList(hL10, kPedRMSLGLEDMon, !expert, image, !saveCorr) ;
- TProfile * hL11 = new TProfile("hHighLEDMonEmcalRawPedRMS", "HighLEDMon Gain EMC: Pedestal RMS vs stripId;Strip Id;Width [ADC counts]",
- nTotLEDMon, -0.5, nTotLEDMon-0.5) ;
- Add2RawsList(hL11, kPedRMSHGLEDMon, !expert, image, !saveCorr) ;
-
-}
-
-//____________________________________________________________________________
-void AliEMCALQADataMakerRec::MakeESDs(AliESDEvent * esd)
-{
- // make QA data from ESDs
-
- Int_t nTot = 0 ;
- for ( Int_t index = 0; index < esd->GetNumberOfCaloClusters() ; index++ ) {
- AliESDCaloCluster * clu = esd->GetCaloCluster(index) ;
- if( clu->IsEMCAL() ) {
- GetESDsData(kESDCaloClusE)->Fill(clu->E()) ;
- nTot++ ;
- }
- }
- GetESDsData(kESDCaloClusM)->Fill(nTot) ;
-
- //fill calo cells
- AliESDCaloCells* cells = esd->GetEMCALCells();
- GetESDsData(kESDCaloCellM)->Fill(cells->GetNumberOfCells()) ;
-
- for ( Int_t index = 0; index < cells->GetNumberOfCells() ; index++ ) {
- GetESDsData(kESDCaloCellA)->Fill(cells->GetAmplitude(index)) ;
- }
-
-}
-
-//____________________________________________________________________________
-void AliEMCALQADataMakerRec::MakeRaws(AliRawReader* rawReader)
-{
- //Fill prepared histograms with Raw digit properties
-
- //Raw histogram filling not yet implemented
- //
- //Need to figure out how to get the info we want without having to
- //actually run Raw2Digits twice.
- //I suspect what we actually want is a raw digits method, not a true
- //emcal raw data method, but this doesn't seem to be allowed in
- //AliQADataMakerRec.h
-
- // For now, to avoid redoing the expensive signal fits we just
- // look at max vs min of the signal spextra, a la online usage in
- // AliCaloCalibPedestal
-
- rawReader->Reset() ;
- AliCaloRawStreamV3 in(rawReader,"EMCAL");
-
- // setup
- int nTowersPerSM = AliEMCALGeoParams::fgkEMCALRows * AliEMCALGeoParams::fgkEMCALCols; // number of towers in a SuperModule; 24x48
- int nRows = AliEMCALGeoParams::fgkEMCALRows; // number of rows per SuperModule
- int nStripsPerSM = AliEMCALGeoParams::fgkEMCALLEDRefs; // number of strips per SuperModule
- int n2x2PerSM = AliEMCALGeoParams::fgkEMCALTRUsPerSM * AliEMCALGeoParams::fgkEMCAL2x2PerTRU; // number of TRU 2x2's per SuperModule
-
- int sampleMin = 0;
- int sampleMax = AliEMCALGeoParams::fgkSampleMax; // 0x3ff = 1023 = 10-bit range
-
- // for the pedestal calculation
- Bool_t selectPedestalSamples = kTRUE;
-
- // SM counters; decl. should be safe, assuming we don't get more than expected SuperModules..
- int nTotalSMLG[AliEMCALGeoParams::fgkEMCALModules] = {0};
- int nTotalSMHG[AliEMCALGeoParams::fgkEMCALModules] = {0};
- int nTotalSMTRU[AliEMCALGeoParams::fgkEMCALModules] = {0};
- int nTotalSMLGLEDMon[AliEMCALGeoParams::fgkEMCALModules] = {0};
- int nTotalSMHGLEDMon[AliEMCALGeoParams::fgkEMCALModules] = {0};
-
- // indices for the reading
- int iSM = 0;
- int sample = 0;
- int time = 0;
- // counters, on sample level
- int i = 0; // the sample number in current event.
- int maxTime = 0;
- int startBin = 0;
-
- // calc. quantities
- double meanPed = 0, squaredMean = 0, rmsPed = 0;
-
- // start loop over input stream
- while (in.NextDDL()) {
- int iRCU = in.GetDDLNumber() % 2; // RCU0 or RCU1, within SuperModule
- while (in.NextChannel()) {
-
- // counters
- int max = sampleMin, min = sampleMax; // min and max sample values
- int nsamples = 0;
-
- // for the pedestal calculation
- int sampleSum = 0; // sum of samples
- int squaredSampleSum = 0; // sum of samples squared
- int nSum = 0; // number of samples in sum
-
- while (in.NextBunch()) {
- const UShort_t *sig = in.GetSignals();
- startBin = in.GetStartTimeBin();
- nsamples += in.GetBunchLength();
- for (i = 0; i < in.GetBunchLength(); i++) {
- sample = sig[i];
- time = startBin--;
-
- // check if it's a min or max value
- if (sample < min) min = sample;
- if (sample > max) {
- max = sample;
- maxTime = time;
- }
-
- // should we add it for the pedestal calculation?
- if ( (fFirstPedestalSample<=time && time<=fLastPedestalSample) || // sample time in range
- !selectPedestalSamples ) { // or we don't restrict the sample range.. - then we'll take all
- sampleSum += sample;
- squaredSampleSum += sample*sample;
- nSum++;
- }
-
- } // loop over samples in bunch
- } // loop over bunches
-
- if (nsamples > 0) { // this check is needed for when we have zero-supp. on, but not sparse readout
-
- // calculate pedesstal estimate: mean of possibly selected samples
- if (nSum > 0) {
- meanPed = sampleSum / (1.0 * nSum);
- squaredMean = squaredSampleSum / (1.0 * nSum);
- // The variance (rms squared) is equal to the mean of the squares minus the square of the mean..
- rmsPed = sqrt(squaredMean - meanPed*meanPed);
- }
- else {
- meanPed = 0;
- squaredMean = 0;
- rmsPed = 0;
- }
-
- // it should be enough to check the SuperModule info for each DDL really, but let's keep it here for now
- iSM = in.GetModule(); //The modules are numbered starting from 0
-
- if (iSM>=0 && iSM<fSuperModules) { // valid module reading, can go on with filling
-
- if ( in.IsLowGain() || in.IsHighGain() ) { // regular towers
- int towerId = iSM*nTowersPerSM + in.GetColumn()*nRows + in.GetRow();
-
- if ( in.IsLowGain() ) {
- //fill the low gain histograms, and counters
- nTotalSMLG[iSM]++; // one more channel found
- GetRawsData(kSigLG)->Fill(towerId, max - min);
- GetRawsData(kTimeLG)->Fill(towerId, maxTime);
- if (nSum>0) { // only fill pedestal info in case it could be calculated
- GetRawsData(kPedLG)->Fill(towerId, meanPed);
- GetRawsData(kPedRMSLG)->Fill(towerId, rmsPed);
- }
- } // gain==0
- else if ( in.IsHighGain() ) {
- //fill the high gain ones
- nTotalSMHG[iSM]++; // one more channel found
- int signal = max - min;
- // only fill the max-min signal info and maxTime, if the
- // signal was in the selected range
- if ( (signal > fMinSignalHG) && (signal < fMaxSignalHG) ) {
- GetRawsData(kSigHG)->Fill(towerId, signal);
- GetRawsData(kTimeHG)->Fill(towerId, maxTime);
- } // signal
- if (nSum>0) { // only fill pedestal info in case it could be calculated
- GetRawsData(kPedHG)->Fill(towerId, meanPed);
- GetRawsData(kPedRMSHG)->Fill(towerId, rmsPed);
- }
- }
- } // low or high gain
- // TRU
- else if ( in.IsTRUData() ) {
- // for TRU data, the mapping class holds the TRU internal 2x2 number (0..95) in the Column var..
- int iTRU = iRCU; //TRU0 is from RCU0, TRU1 from RCU1
- if (iRCU>0 && in.GetBranch()>0) iTRU=2; // TRU2 is from branch B on RCU1
- int TRU2x2Id = iSM*n2x2PerSM + iTRU*AliEMCALGeoParams::fgkEMCAL2x2PerTRU
- + in.GetColumn();
-
- //fill the low gain histograms, and counters
- nTotalSMTRU[iSM]++; // one more channel found
- GetRawsData(kSigTRU)->Fill(TRU2x2Id, max - min);
- GetRawsData(kTimeTRU)->Fill(TRU2x2Id, maxTime);
- if (nSum>0) { // only fill pedestal info in case it could be calculated
- GetRawsData(kPedTRU)->Fill(TRU2x2Id, meanPed);
- GetRawsData(kPedRMSTRU)->Fill(TRU2x2Id, rmsPed);
- }
- }
- // LED Mon
- else if ( in.IsLEDMonData() ) {
- // for LED Mon data, the mapping class holds the gain info in the Row variable
- // and the Strip number in the Column..
- int gain = in.GetRow();
- int stripId = iSM*nStripsPerSM + in.GetColumn();
-
- if ( gain == 0 ) {
- //fill the low gain histograms, and counters
- nTotalSMLGLEDMon[iSM]++; // one more channel found
- GetRawsData(kSigLGLEDMon)->Fill(stripId, max - min);
- GetRawsData(kTimeLGLEDMon)->Fill(stripId, maxTime);
- if (nSum>0) { // only fill pedestal info in case it could be calculated
- GetRawsData(kPedLGLEDMon)->Fill(stripId, meanPed);
- GetRawsData(kPedRMSLGLEDMon)->Fill(stripId, rmsPed);
- }
- } // gain==0
- else if ( gain == 1 ) {
- //fill the high gain ones
- nTotalSMHGLEDMon[iSM]++; // one more channel found
- GetRawsData(kSigHGLEDMon)->Fill(stripId, max - min);
- GetRawsData(kTimeHGLEDMon)->Fill(stripId, maxTime);
- if (nSum>0) { // only fill pedestal info in case it could be calculated
- GetRawsData(kPedHGLEDMon)->Fill(stripId, meanPed);
- GetRawsData(kPedRMSHGLEDMon)->Fill(stripId, rmsPed);
- }
- } // low or high gain
- } // LEDMon
-
- } // SM index OK
-
- } // nsamples>0 check, some data found for this channel; not only trailer/header
- }// end while over channel
-
- }//end while over DDL's, of input stream
-
- // let's also fill the SM and event counter histograms
- int nTotalHG = 0;
- int nTotalLG = 0;
- int nTotalTRU = 0;
- int nTotalHGLEDMon = 0;
- int nTotalLGLEDMon = 0;
- for (iSM=0; iSM<fSuperModules; iSM++) {
- nTotalLG += nTotalSMLG[iSM];
- nTotalHG += nTotalSMHG[iSM];
- nTotalTRU += nTotalSMTRU[iSM];
- nTotalLG += nTotalSMLGLEDMon[iSM];
- nTotalHG += nTotalSMHGLEDMon[iSM];
- GetRawsData(kNsmodLG)->Fill(iSM, nTotalSMLG[iSM]);
- GetRawsData(kNsmodHG)->Fill(iSM, nTotalSMHG[iSM]);
- GetRawsData(kNsmodTRU)->Fill(iSM, nTotalSMTRU[iSM]);
- GetRawsData(kNsmodLGLEDMon)->Fill(iSM, nTotalSMLGLEDMon[iSM]);
- GetRawsData(kNsmodHGLEDMon)->Fill(iSM, nTotalSMHGLEDMon[iSM]);
- }
- GetRawsData(kNtotLG)->Fill(nTotalLG);
- GetRawsData(kNtotHG)->Fill(nTotalHG);
- GetRawsData(kNtotTRU)->Fill(nTotalTRU);
- GetRawsData(kNtotLGLEDMon)->Fill(nTotalLGLEDMon);
- GetRawsData(kNtotHGLEDMon)->Fill(nTotalHGLEDMon);
-
- // just in case the next rawreader consumer forgets to reset; let's do it here again..
- rawReader->Reset() ;
-
- return;
-}
-
-//____________________________________________________________________________
-void AliEMCALQADataMakerRec::MakeDigits()
-{
- // makes data from Digits
-
- GetDigitsData(1)->Fill(fDigitsArray->GetEntriesFast()) ;
- TIter next(fDigitsArray) ;
- AliEMCALDigit * digit ;
- while ( (digit = dynamic_cast<AliEMCALDigit *>(next())) ) {
- GetDigitsData(0)->Fill( digit->GetAmp()) ;
- }
-
-}
-
-//____________________________________________________________________________
-void AliEMCALQADataMakerRec::MakeDigits(TTree * digitTree)
-{
- // makes data from Digit Tree
- if (fDigitsArray)
- fDigitsArray->Clear() ;
- else
- fDigitsArray = new TClonesArray("AliEMCALDigit", 1000) ;
-
- TBranch * branch = digitTree->GetBranch("EMCAL") ;
- if ( ! branch ) {
- AliWarning("EMCAL branch in Digit Tree not found") ;
- } else {
- branch->SetAddress(&fDigitsArray) ;
- branch->GetEntry(0) ;
- MakeDigits() ;
- }
-
-}
-
-//____________________________________________________________________________
-void AliEMCALQADataMakerRec::MakeRecPoints(TTree * clustersTree)
-{
- // makes data from RecPoints
- TBranch *emcbranch = clustersTree->GetBranch("EMCALECARP");
- if (!emcbranch) {
- AliError("can't get the branch with the EMCAL clusters !");
- return;
- }
-
- TObjArray * emcrecpoints = new TObjArray(100) ;
- emcbranch->SetAddress(&emcrecpoints);
- emcbranch->GetEntry(0);
-
- GetRecPointsData(kRecPM)->Fill(emcrecpoints->GetEntriesFast()) ;
- TIter next(emcrecpoints) ;
- AliEMCALRecPoint * rp ;
- while ( (rp = dynamic_cast<AliEMCALRecPoint *>(next())) ) {
- GetRecPointsData(kRecPE)->Fill( rp->GetEnergy()) ;
- GetRecPointsData(kRecPDigM)->Fill(rp->GetMultiplicity());
- }
- emcrecpoints->Delete();
- delete emcrecpoints;
-
-}
-
-//____________________________________________________________________________
-void AliEMCALQADataMakerRec::StartOfDetectorCycle()
-{
- //Detector specific actions at start of cycle
-
-}
-
+/**************************************************************************\r
+ * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *\r
+ * *\r
+ * Author: The ALICE Off-line Project. *\r
+ * Contributors are mentioned in the code where appropriate. *\r
+ * *\r
+ * Permission to use, copy, modify and distribute this software and its *\r
+ * documentation strictly for non-commercial purposes is hereby granted *\r
+ * without fee, provided that the above copyright notice appears in all *\r
+ * copies and that both the copyright notice and this permission notice *\r
+ * appear in the supporting documentation. The authors make no claims *\r
+ * about the suitability of this software for any purpose. It is *\r
+ * provided "as is" without express or implied warranty. *\r
+ **************************************************************************/\r
+/*\r
+Based on the QA code for PHOS written by Yves Schutz July 2007\r
+\r
+Authors: J.Klay (Cal Poly) May 2008\r
+ S. Salur LBL April 2008\r
+ \r
+Created one histogram for QA shifter;\r
+The idea:average counts for all the towers should be flat \r
+Change all existing histograms as experts\r
+ --By Yaxian Mao \r
+\r
+*/\r
+\r
+// --- ROOT system ---\r
+#include <TClonesArray.h>\r
+#include <TFile.h> \r
+#include <TH1F.h> \r
+#include <TH1I.h> \r
+#include <TH2F.h> \r
+#include <TProfile.h> \r
+\r
+// --- Standard library ---\r
+\r
+\r
+// --- AliRoot header files ---\r
+#include "AliESDCaloCluster.h"\r
+#include "AliESDCaloCells.h"\r
+#include "AliESDEvent.h"\r
+#include "AliLog.h"\r
+#include "AliEMCALQADataMakerRec.h"\r
+#include "AliQAChecker.h"\r
+#include "AliEMCALDigit.h" \r
+#include "AliEMCALRecPoint.h" \r
+#include "AliEMCALRawUtils.h"\r
+#include "AliEMCALReconstructor.h"\r
+#include "AliEMCALRecParam.h"\r
+#include "AliRawReader.h"\r
+#include "AliCaloRawStreamV3.h"\r
+#include "AliEMCALGeoParams.h"\r
+\r
+ClassImp(AliEMCALQADataMakerRec)\r
+ \r
+//____________________________________________________________________________ \r
+ AliEMCALQADataMakerRec::AliEMCALQADataMakerRec() : \r
+ AliQADataMakerRec(AliQAv1::GetDetName(AliQAv1::kEMCAL), "EMCAL Quality Assurance Data Maker"),\r
+ fSuperModules(4), // FIXME!!! number of SuperModules; 4 for 2009; update default to 12 for later runs..\r
+ fFirstPedestalSample(0),\r
+ fLastPedestalSample(15),\r
+ fMinSignalHG(0),\r
+ fMaxSignalHG(AliEMCALGeoParams::fgkSampleMax)\r
+ {\r
+ // ctor\r
+}\r
+\r
+//____________________________________________________________________________ \r
+AliEMCALQADataMakerRec::AliEMCALQADataMakerRec(const AliEMCALQADataMakerRec& qadm) :\r
+ AliQADataMakerRec(), \r
+ fSuperModules(qadm.GetSuperModules()), \r
+ fFirstPedestalSample(qadm.GetFirstPedestalSample()), \r
+ fLastPedestalSample(qadm.GetLastPedestalSample()), \r
+ fMinSignalHG(qadm.GetMinSignalHG()),\r
+ fMaxSignalHG(qadm.GetMaxSignalHG())\r
+{\r
+ //copy ctor \r
+ SetName((const char*)qadm.GetName()) ; \r
+ SetTitle((const char*)qadm.GetTitle()); \r
+}\r
+\r
+//__________________________________________________________________\r
+AliEMCALQADataMakerRec& AliEMCALQADataMakerRec::operator = (const AliEMCALQADataMakerRec& qadm )\r
+{\r
+ // Equal operator.\r
+ this->~AliEMCALQADataMakerRec();\r
+ new(this) AliEMCALQADataMakerRec(qadm);\r
+ return *this;\r
+}\r
+ \r
+//____________________________________________________________________________ \r
+void AliEMCALQADataMakerRec::EndOfDetectorCycle(AliQAv1::TASKINDEX_t task, TObjArray ** list)\r
+{\r
+ //Detector specific actions at end of cycle\r
+ \r
+ if(fCycleCounter)\r
+ GetRawsData(kNEventsPerTower)->Scale(1./fCycleCounter);\r
+ \r
+ // do the QA checking\r
+ AliQAChecker::Instance()->Run(AliQAv1::kEMCAL, task, list) ; \r
+}\r
+\r
+//____________________________________________________________________________ \r
+void AliEMCALQADataMakerRec::InitESDs()\r
+{\r
+ //Create histograms to controll ESD\r
+ const Bool_t expert = kTRUE ; \r
+ const Bool_t image = kTRUE ; \r
+ \r
+ TH1F * h1 = new TH1F("hESDCaloClusterE", "ESDs CaloCluster energy in EMCAL;Energy [MeV];Counts", 200, 0., 20.) ; \r
+ h1->Sumw2() ;\r
+ Add2ESDsList(h1, kESDCaloClusE, !expert, image) ; \r
+\r
+ TH1I * h2 = new TH1I("hESDCaloClusterM", "ESDs CaloCluster multiplicity in EMCAL;# of Clusters;Entries", 100, 0, 100) ; \r
+ h2->Sumw2() ;\r
+ Add2ESDsList(h2, kESDCaloClusM, !expert, image) ;\r
+\r
+ TH1F * h3 = new TH1F("hESDCaloCellA", "ESDs CaloCell amplitude in EMCAL;Energy [MeV];Counts", 500, 0., 250.) ; \r
+ h3->Sumw2() ;\r
+ Add2ESDsList(h3, kESDCaloCellA, !expert, image) ; \r
+ \r
+ TH1I * h4 = new TH1I("hESDCaloCellM", "ESDs CaloCell multiplicity in EMCAL;# of Clusters;Entries", 200, 0, 1000) ; \r
+ h4->Sumw2() ;\r
+ Add2ESDsList(h4, kESDCaloCellM, !expert, image) ;\r
+ \r
+}\r
+\r
+//____________________________________________________________________________ \r
+void AliEMCALQADataMakerRec::InitDigits()\r
+{\r
+ // create Digits histograms in Digits subdir\r
+ const Bool_t expert = kTRUE ; \r
+ const Bool_t image = kTRUE ; \r
+ \r
+ TH1I * h0 = new TH1I("hEmcalDigits", "Digits amplitude distribution in EMCAL;Amplitude [ADC counts];Counts", 500, 0, 500) ; \r
+ h0->Sumw2() ;\r
+ Add2DigitsList(h0, 0, !expert, image) ;\r
+ TH1I * h1 = new TH1I("hEmcalDigitsMul", "Digits multiplicity distribution in EMCAL;# of Digits;Entries", 200, 0, 2000) ; \r
+ h1->Sumw2() ;\r
+ Add2DigitsList(h1, 1, !expert, image) ;\r
+}\r
+\r
+//____________________________________________________________________________ \r
+void AliEMCALQADataMakerRec::InitRecPoints()\r
+{\r
+ // create Reconstructed Points histograms in RecPoints subdir\r
+ const Bool_t expert = kTRUE ; \r
+ const Bool_t image = kTRUE ; \r
+ \r
+ TH1F* h0 = new TH1F("hEMCALRpE","EMCAL RecPoint energies;Energy [MeV];Counts",200, 0.,20.); //GeV\r
+ h0->Sumw2();\r
+ Add2RecPointsList(h0,kRecPE, !expert, image);\r
+\r
+ TH1I* h1 = new TH1I("hEMCALRpM","EMCAL RecPoint multiplicities;# of Clusters;Entries",100,0,100);\r
+ h1->Sumw2();\r
+ Add2RecPointsList(h1,kRecPM, !expert, image);\r
+\r
+ TH1I* h2 = new TH1I("hEMCALRpDigM","EMCAL RecPoint Digit Multiplicities;# of Digits;Entries",20,0,20);\r
+ h2->Sumw2();\r
+ Add2RecPointsList(h2,kRecPDigM, !expert, image);\r
+\r
+}\r
+\r
+//____________________________________________________________________________ \r
+void AliEMCALQADataMakerRec::InitRaws()\r
+{\r
+ // create Raws histograms in Raws subdir\r
+ const Bool_t expert = kTRUE ; \r
+ const Bool_t saveCorr = kTRUE ; \r
+ const Bool_t image = kTRUE ; \r
+\r
+ int nTowersPerSM = AliEMCALGeoParams::fgkEMCALRows * AliEMCALGeoParams::fgkEMCALCols; // number of towers in a SuperModule; 24x48\r
+ int nTot = fSuperModules * nTowersPerSM; // max number of towers in all SuperModules\r
+\r
+ // counter info: number of channels per event (bins are SM index)\r
+ TProfile * h0 = new TProfile("hLowEmcalSupermodules", "Low Gain EMC: # of towers vs SuperMod;SM Id;# of towers",\r
+ fSuperModules, -0.5, fSuperModules-0.5) ;\r
+ Add2RawsList(h0, kNsmodLG, expert, image, !saveCorr) ;\r
+ TProfile * h1 = new TProfile("hHighEmcalSupermodules", "High Gain EMC: # of towers vs SuperMod;SM Id;# of towers", \r
+ fSuperModules, -0.5, fSuperModules-0.5) ; \r
+ Add2RawsList(h1, kNsmodHG, expert, image, !saveCorr) ;\r
+\r
+ // where did max sample occur? (bins are towers)\r
+ TProfile * h2 = new TProfile("hLowEmcalRawtime", "Low Gain EMC: Time at Max vs towerId;Tower Id;Time [ticks]", \r
+ nTot, -0.5, nTot-0.5) ;\r
+ Add2RawsList(h2, kTimeLG, expert, image, !saveCorr) ;\r
+ TProfile * h3 = new TProfile("hHighEmcalRawtime", "High Gain EMC: Time at Max vs towerId;Tower Id;Time [ticks]", \r
+ nTot, -0.5, nTot-0.5) ;\r
+ Add2RawsList(h3, kTimeHG, expert, image, !saveCorr) ;\r
+\r
+ // how much above pedestal was the max sample? (bins are towers)\r
+ TProfile * h4 = new TProfile("hLowEmcalRawMaxMinusMin", "Low Gain EMC: Max - Min vs towerId;Tower Id;Max-Min [ADC counts]", \r
+ nTot, -0.5, nTot-0.5) ;\r
+ Add2RawsList(h4, kSigLG, expert, image, !saveCorr) ;\r
+ TProfile * h5 = new TProfile("hHighEmcalRawMaxMinusMin", "High Gain EMC: Max - Min vs towerId;Tower Id;Max-Min [ADC counts]",\r
+ nTot, -0.5, nTot-0.5) ;\r
+ Add2RawsList(h5, kSigHG, expert, image, !saveCorr) ;\r
+\r
+ // total counter: channels per event\r
+ TH1I * h6 = new TH1I("hLowNtot", "Low Gain EMC: Total Number of found towers;# of Towers;Counts", 200, 0, nTot) ;\r
+ h6->Sumw2() ;\r
+ Add2RawsList(h6, kNtotLG, expert, image, !saveCorr) ;\r
+ TH1I * h7 = new TH1I("hHighNtot", "High Gain EMC: Total Number of found towers;# of Towers;Counts", 200,0, nTot) ;\r
+ h7->Sumw2() ;\r
+ Add2RawsList(h7, kNtotHG, expert, image, !saveCorr) ;\r
+\r
+ // pedestal (bins are towers)\r
+ TProfile * h8 = new TProfile("hLowEmcalRawPed", "Low Gain EMC: Pedestal vs towerId;Tower Id;Pedestal [ADC counts]", \r
+ nTot, -0.5, nTot-0.5) ;\r
+ Add2RawsList(h8, kPedLG, expert, image, !saveCorr) ;\r
+ TProfile * h9 = new TProfile("hHighEmcalRawPed", "High Gain EMC: Pedestal vs towerId;Tower Id;Pedestal [ADC counts]",\r
+ nTot, -0.5, nTot-0.5) ;\r
+ Add2RawsList(h9, kPedHG, expert, image, !saveCorr) ;\r
+\r
+ // pedestal rms (standard dev = sqrt of variance estimator for pedestal) (bins are towers)\r
+ TProfile * h10 = new TProfile("hLowEmcalRawPedRMS", "Low Gain EMC: Pedestal RMS vs towerId;Tower Id;Width [ADC counts]", \r
+ nTot, -0.5, nTot-0.5) ;\r
+ Add2RawsList(h10, kPedRMSLG, expert, image, !saveCorr) ;\r
+ TProfile * h11 = new TProfile("hHighEmcalRawPedRMS", "High Gain EMC: Pedestal RMS vs towerId;Tower Id;Width [ADC counts]",\r
+ nTot, -0.5, nTot-0.5) ;\r
+ Add2RawsList(h11, kPedRMSHG, expert, image, !saveCorr) ;\r
+ \r
+ //number of events per tower, for shifter fast check \r
+ TH1I * h12 = new TH1I("hNEventsPerTower", "Number of events per tower;Tower", 200,0, nTot) ;\r
+ h12->Sumw2() ;\r
+ Add2RawsList(h12, kNEventsPerTower, !expert, image, !saveCorr) ;\r
+ \r
+ \r
+\r
+ // now repeat the same for TRU and LEDMon data\r
+ int nTot2x2 = fSuperModules * AliEMCALGeoParams::fgkEMCALTRUsPerSM * AliEMCALGeoParams::fgkEMCAL2x2PerTRU; // max number of TRU channels for all SuperModules\r
+\r
+ // counter info: number of channels per event (bins are SM index)\r
+ TProfile * hT0 = new TProfile("hTRUEmcalSupermodules", "TRU EMC: # of TRU channels vs SuperMod;SM Id;# of TRU channels",\r
+ fSuperModules, -0.5, fSuperModules-0.5) ;\r
+ Add2RawsList(hT0, kNsmodTRU, expert, image, !saveCorr) ;\r
+\r
+ // where did max sample occur? (bins are TRU channels)\r
+ TProfile * hT1 = new TProfile("hTRUEmcalRawtime", "TRU EMC: Time at Max vs 2x2Id;2x2 Id;Time [ticks]", \r
+ nTot2x2, -0.5, nTot2x2-0.5) ;\r
+ Add2RawsList(hT1, kTimeTRU, expert, image, !saveCorr) ;\r
+\r
+ // how much above pedestal was the max sample? (bins are TRU channels)\r
+ TProfile * hT2 = new TProfile("hTRUEmcalRawMaxMinusMin", "TRU EMC: Max - Min vs 2x2Id;2x2 Id;Max-Min [ADC counts]", \r
+ nTot2x2, -0.5, nTot2x2-0.5) ;\r
+ Add2RawsList(hT2, kSigTRU, expert, image, !saveCorr) ;\r
+\r
+ // total counter: channels per event\r
+ TH1I * hT3 = new TH1I("hTRUNtot", "TRU EMC: Total Number of found TRU channels;# of TRU Channels;Counts", 200, 0, nTot2x2) ;\r
+ hT3->Sumw2() ;\r
+ Add2RawsList(hT3, kNtotTRU, expert, image, !saveCorr) ;\r
+\r
+ // pedestal (bins are TRU channels)\r
+ TProfile * hT4 = new TProfile("hTRUEmcalRawPed", "TRU EMC: Pedestal vs 2x2Id;2x2 Id;Pedestal [ADC counts]", \r
+ nTot2x2, -0.5, nTot2x2-0.5) ;\r
+ Add2RawsList(hT4, kPedTRU, expert, image, !saveCorr) ;\r
+\r
+ // pedestal rms (standard dev = sqrt of variance estimator for pedestal) (bins are TRU channels)\r
+ TProfile * hT5 = new TProfile("hTRUEmcalRawPedRMS", "TRU EMC: Pedestal RMS vs 2x2Id;2x2 Id;Width [ADC counts]", \r
+ nTot2x2, -0.5, nTot2x2-0.5) ;\r
+ Add2RawsList(hT5, kPedRMSTRU, expert, image, !saveCorr) ;\r
+\r
+ // and also LED Mon..\r
+ // LEDMon has both high and low gain channels, just as regular FEE/towers\r
+ int nTotLEDMon = fSuperModules * AliEMCALGeoParams::fgkEMCALLEDRefs; // max number of LEDMon channels for all SuperModules\r
+\r
+ // counter info: number of channels per event (bins are SM index)\r
+ TProfile * hL0 = new TProfile("hLowLEDMonEmcalSupermodules", "LowLEDMon Gain EMC: # of strips vs SuperMod;SM Id;# of strips",\r
+ fSuperModules, -0.5, fSuperModules-0.5) ;\r
+ Add2RawsList(hL0, kNsmodLGLEDMon, expert, image, !saveCorr) ;\r
+ TProfile * hL1 = new TProfile("hHighLEDMonEmcalSupermodules", "HighLEDMon Gain EMC: # of strips vs SuperMod;SM Id;# of strips", \r
+ fSuperModules, -0.5, fSuperModules-0.5) ; \r
+ Add2RawsList(hL1, kNsmodHGLEDMon, expert, image, !saveCorr) ;\r
+\r
+ // where did max sample occur? (bins are strips)\r
+ TProfile * hL2 = new TProfile("hLowLEDMonEmcalRawtime", "LowLEDMon Gain EMC: Time at Max vs stripId;Strip Id;Time [ticks]", \r
+ nTotLEDMon, -0.5, nTotLEDMon-0.5) ;\r
+ Add2RawsList(hL2, kTimeLGLEDMon, expert, image, !saveCorr) ;\r
+ TProfile * hL3 = new TProfile("hHighLEDMonEmcalRawtime", "HighLEDMon Gain EMC: Time at Max vs stripId;Strip Id;Time [ticks]", \r
+ nTotLEDMon, -0.5, nTotLEDMon-0.5) ;\r
+ Add2RawsList(hL3, kTimeHGLEDMon, expert, image, !saveCorr) ;\r
+\r
+ // how much above pedestal was the max sample? (bins are strips)\r
+ TProfile * hL4 = new TProfile("hLowLEDMonEmcalRawMaxMinusMin", "LowLEDMon Gain EMC: Max - Min vs stripId;Strip Id;Max-Min [ADC counts]", \r
+ nTotLEDMon, -0.5, nTotLEDMon-0.5) ;\r
+ Add2RawsList(hL4, kSigLGLEDMon, expert, image, !saveCorr) ;\r
+ TProfile * hL5 = new TProfile("hHighLEDMonEmcalRawMaxMinusMin", "HighLEDMon Gain EMC: Max - Min vs stripId;Strip Id;Max-Min [ADC counts]",\r
+ nTotLEDMon, -0.5, nTotLEDMon-0.5) ;\r
+ Add2RawsList(hL5, kSigHGLEDMon, expert, image, !saveCorr) ;\r
+\r
+ // total counter: channels per event\r
+ TH1I * hL6 = new TH1I("hLowLEDMonNtot", "LowLEDMon Gain EMC: Total Number of found strips;# of Strips;Counts", 200, 0, nTotLEDMon) ;\r
+ hL6->Sumw2() ;\r
+ Add2RawsList(hL6, kNtotLGLEDMon, expert, image, !saveCorr) ;\r
+ TH1I * hL7 = new TH1I("hHighLEDMonNtot", "HighLEDMon Gain EMC: Total Number of found strips;# of Strips;Counts", 200,0, nTotLEDMon) ;\r
+ hL7->Sumw2() ;\r
+ Add2RawsList(hL7, kNtotHGLEDMon, expert, image, !saveCorr) ;\r
+\r
+ // pedestal (bins are strips)\r
+ TProfile * hL8 = new TProfile("hLowLEDMonEmcalRawPed", "LowLEDMon Gain EMC: Pedestal vs stripId;Strip Id;Pedestal [ADC counts]", \r
+ nTotLEDMon, -0.5, nTotLEDMon-0.5) ;\r
+ Add2RawsList(hL8, kPedLGLEDMon, expert, image, !saveCorr) ;\r
+ TProfile * hL9 = new TProfile("hHighLEDMonEmcalRawPed", "HighLEDMon Gain EMC: Pedestal vs stripId;Strip Id;Pedestal [ADC counts]",\r
+ nTotLEDMon, -0.5, nTotLEDMon-0.5) ;\r
+ Add2RawsList(hL9, kPedHGLEDMon, expert, image, !saveCorr) ;\r
+\r
+ // pedestal rms (standard dev = sqrt of variance estimator for pedestal) (bins are strips)\r
+ TProfile * hL10 = new TProfile("hLowLEDMonEmcalRawPedRMS", "LowLEDMon Gain EMC: Pedestal RMS vs stripId;Strip Id;Width [ADC counts]", \r
+ nTotLEDMon, -0.5, nTotLEDMon-0.5) ;\r
+ Add2RawsList(hL10, kPedRMSLGLEDMon, expert, image, !saveCorr) ;\r
+ TProfile * hL11 = new TProfile("hHighLEDMonEmcalRawPedRMS", "HighLEDMon Gain EMC: Pedestal RMS vs stripId;Strip Id;Width [ADC counts]",\r
+ nTotLEDMon, -0.5, nTotLEDMon-0.5) ;\r
+ Add2RawsList(hL11, kPedRMSHGLEDMon, expert, image, !saveCorr) ;\r
+ \r
+}\r
+\r
+//____________________________________________________________________________\r
+void AliEMCALQADataMakerRec::MakeESDs(AliESDEvent * esd)\r
+{\r
+ // make QA data from ESDs\r
+\r
+ Int_t nTot = 0 ; \r
+ for ( Int_t index = 0; index < esd->GetNumberOfCaloClusters() ; index++ ) {\r
+ AliESDCaloCluster * clu = esd->GetCaloCluster(index) ;\r
+ if( clu->IsEMCAL() ) {\r
+ GetESDsData(kESDCaloClusE)->Fill(clu->E()) ;\r
+ nTot++ ;\r
+ } \r
+ }\r
+ GetESDsData(kESDCaloClusM)->Fill(nTot) ;\r
+\r
+ //fill calo cells\r
+ AliESDCaloCells* cells = esd->GetEMCALCells();\r
+ GetESDsData(kESDCaloCellM)->Fill(cells->GetNumberOfCells()) ;\r
+\r
+ for ( Int_t index = 0; index < cells->GetNumberOfCells() ; index++ ) {\r
+ GetESDsData(kESDCaloCellA)->Fill(cells->GetAmplitude(index)) ;\r
+ }\r
+\r
+}\r
+\r
+//____________________________________________________________________________\r
+void AliEMCALQADataMakerRec::MakeRaws(AliRawReader* rawReader)\r
+{\r
+ //Fill prepared histograms with Raw digit properties\r
+\r
+ //Raw histogram filling not yet implemented\r
+ //\r
+ //Need to figure out how to get the info we want without having to\r
+ //actually run Raw2Digits twice.\r
+ //I suspect what we actually want is a raw digits method, not a true\r
+ //emcal raw data method, but this doesn't seem to be allowed in\r
+ //AliQADataMakerRec.h\r
+\r
+ // For now, to avoid redoing the expensive signal fits we just\r
+ // look at max vs min of the signal spextra, a la online usage in\r
+ // AliCaloCalibPedestal\r
+\r
+ rawReader->Reset() ;\r
+ AliCaloRawStreamV3 in(rawReader,"EMCAL"); \r
+\r
+ // setup\r
+ int nTowersPerSM = AliEMCALGeoParams::fgkEMCALRows * AliEMCALGeoParams::fgkEMCALCols; // number of towers in a SuperModule; 24x48\r
+ int nRows = AliEMCALGeoParams::fgkEMCALRows; // number of rows per SuperModule\r
+ int nStripsPerSM = AliEMCALGeoParams::fgkEMCALLEDRefs; // number of strips per SuperModule\r
+ int n2x2PerSM = AliEMCALGeoParams::fgkEMCALTRUsPerSM * AliEMCALGeoParams::fgkEMCAL2x2PerTRU; // number of TRU 2x2's per SuperModule\r
+\r
+ int sampleMin = 0; \r
+ int sampleMax = AliEMCALGeoParams::fgkSampleMax; // 0x3ff = 1023 = 10-bit range\r
+\r
+ // for the pedestal calculation\r
+ Bool_t selectPedestalSamples = kTRUE;\r
+\r
+ // SM counters; decl. should be safe, assuming we don't get more than expected SuperModules..\r
+ int nTotalSMLG[AliEMCALGeoParams::fgkEMCALModules] = {0};\r
+ int nTotalSMHG[AliEMCALGeoParams::fgkEMCALModules] = {0};\r
+ int nTotalSMTRU[AliEMCALGeoParams::fgkEMCALModules] = {0};\r
+ int nTotalSMLGLEDMon[AliEMCALGeoParams::fgkEMCALModules] = {0};\r
+ int nTotalSMHGLEDMon[AliEMCALGeoParams::fgkEMCALModules] = {0};\r
+\r
+ // indices for the reading\r
+ int iSM = 0;\r
+ int sample = 0;\r
+ int time = 0;\r
+ // counters, on sample level\r
+ int i = 0; // the sample number in current event.\r
+ int maxTime = 0;\r
+ int startBin = 0;\r
+\r
+ // calc. quantities\r
+ double meanPed = 0, squaredMean = 0, rmsPed = 0;\r
+\r
+ // start loop over input stream \r
+ while (in.NextDDL()) {\r
+ int iRCU = in.GetDDLNumber() % 2; // RCU0 or RCU1, within SuperModule\r
+ while (in.NextChannel()) {\r
+\r
+ // counters\r
+ int max = sampleMin, min = sampleMax; // min and max sample values\r
+ int nsamples = 0;\r
+\r
+ // for the pedestal calculation\r
+ int sampleSum = 0; // sum of samples\r
+ int squaredSampleSum = 0; // sum of samples squared\r
+ int nSum = 0; // number of samples in sum\r
+ \r
+ while (in.NextBunch()) {\r
+ const UShort_t *sig = in.GetSignals();\r
+ startBin = in.GetStartTimeBin();\r
+ nsamples += in.GetBunchLength();\r
+ for (i = 0; i < in.GetBunchLength(); i++) {\r
+ sample = sig[i];\r
+ time = startBin--;\r
+\r
+ // check if it's a min or max value\r
+ if (sample < min) min = sample;\r
+ if (sample > max) {\r
+ max = sample;\r
+ maxTime = time;\r
+ }\r
+\r
+ // should we add it for the pedestal calculation?\r
+ if ( (fFirstPedestalSample<=time && time<=fLastPedestalSample) || // sample time in range\r
+ !selectPedestalSamples ) { // or we don't restrict the sample range.. - then we'll take all \r
+ sampleSum += sample;\r
+ squaredSampleSum += sample*sample;\r
+ nSum++;\r
+ }\r
+ \r
+ } // loop over samples in bunch\r
+ } // loop over bunches\r
+ \r
+ if (nsamples > 0) { // this check is needed for when we have zero-supp. on, but not sparse readout\r
+\r
+ // calculate pedesstal estimate: mean of possibly selected samples\r
+ if (nSum > 0) {\r
+ meanPed = sampleSum / (1.0 * nSum);\r
+ squaredMean = squaredSampleSum / (1.0 * nSum);\r
+ // The variance (rms squared) is equal to the mean of the squares minus the square of the mean..\r
+ rmsPed = sqrt(squaredMean - meanPed*meanPed); \r
+ }\r
+ else {\r
+ meanPed = 0;\r
+ squaredMean = 0;\r
+ rmsPed = 0;\r
+ }\r
+\r
+ // it should be enough to check the SuperModule info for each DDL really, but let's keep it here for now\r
+ iSM = in.GetModule(); //The modules are numbered starting from 0\r
+\r
+ if (iSM>=0 && iSM<fSuperModules) { // valid module reading, can go on with filling\r
+\r
+ if ( in.IsLowGain() || in.IsHighGain() ) { // regular towers\r
+ int towerId = iSM*nTowersPerSM + in.GetColumn()*nRows + in.GetRow();\r
+ \r
+ GetRawsData(kNEventsPerTower)->Fill(towerId);\r
+ \r
+\r
+ if ( in.IsLowGain() ) { \r
+ //fill the low gain histograms, and counters\r
+ nTotalSMLG[iSM]++; // one more channel found\r
+ GetRawsData(kSigLG)->Fill(towerId, max - min);\r
+ GetRawsData(kTimeLG)->Fill(towerId, maxTime);\r
+ if (nSum>0) { // only fill pedestal info in case it could be calculated\r
+ GetRawsData(kPedLG)->Fill(towerId, meanPed);\r
+ GetRawsData(kPedRMSLG)->Fill(towerId, rmsPed);\r
+ }\r
+ } // gain==0\r
+ else if ( in.IsHighGain() ) { \r
+ //fill the high gain ones\r
+ nTotalSMHG[iSM]++; // one more channel found\r
+ int signal = max - min;\r
+ // only fill the max-min signal info and maxTime, if the\r
+ // signal was in the selected range \r
+ if ( (signal > fMinSignalHG) && (signal < fMaxSignalHG) ) { \r
+ GetRawsData(kSigHG)->Fill(towerId, signal);\r
+ GetRawsData(kTimeHG)->Fill(towerId, maxTime);\r
+ } // signal\r
+ if (nSum>0) { // only fill pedestal info in case it could be calculated\r
+ GetRawsData(kPedHG)->Fill(towerId, meanPed);\r
+ GetRawsData(kPedRMSHG)->Fill(towerId, rmsPed);\r
+ }\r
+ }\r
+ } // low or high gain\r
+ // TRU\r
+ else if ( in.IsTRUData() ) {\r
+ // for TRU data, the mapping class holds the TRU internal 2x2 number (0..95) in the Column var..\r
+ int iTRU = iRCU; //TRU0 is from RCU0, TRU1 from RCU1\r
+ if (iRCU>0 && in.GetBranch()>0) iTRU=2; // TRU2 is from branch B on RCU1\r
+ int TRU2x2Id = iSM*n2x2PerSM + iTRU*AliEMCALGeoParams::fgkEMCAL2x2PerTRU \r
+ + in.GetColumn();\r
+\r
+ //fill the low gain histograms, and counters\r
+ nTotalSMTRU[iSM]++; // one more channel found\r
+ GetRawsData(kSigTRU)->Fill(TRU2x2Id, max - min);\r
+ GetRawsData(kTimeTRU)->Fill(TRU2x2Id, maxTime);\r
+ if (nSum>0) { // only fill pedestal info in case it could be calculated\r
+ GetRawsData(kPedTRU)->Fill(TRU2x2Id, meanPed);\r
+ GetRawsData(kPedRMSTRU)->Fill(TRU2x2Id, rmsPed);\r
+ }\r
+ }\r
+ // LED Mon\r
+ else if ( in.IsLEDMonData() ) {\r
+ // for LED Mon data, the mapping class holds the gain info in the Row variable\r
+ // and the Strip number in the Column..\r
+ int gain = in.GetRow(); \r
+ int stripId = iSM*nStripsPerSM + in.GetColumn();\r
+ \r
+ if ( gain == 0 ) { \r
+ //fill the low gain histograms, and counters\r
+ nTotalSMLGLEDMon[iSM]++; // one more channel found\r
+ GetRawsData(kSigLGLEDMon)->Fill(stripId, max - min);\r
+ GetRawsData(kTimeLGLEDMon)->Fill(stripId, maxTime);\r
+ if (nSum>0) { // only fill pedestal info in case it could be calculated\r
+ GetRawsData(kPedLGLEDMon)->Fill(stripId, meanPed);\r
+ GetRawsData(kPedRMSLGLEDMon)->Fill(stripId, rmsPed);\r
+ }\r
+ } // gain==0\r
+ else if ( gain == 1 ) { \r
+ //fill the high gain ones\r
+ nTotalSMHGLEDMon[iSM]++; // one more channel found\r
+ GetRawsData(kSigHGLEDMon)->Fill(stripId, max - min);\r
+ GetRawsData(kTimeHGLEDMon)->Fill(stripId, maxTime);\r
+ if (nSum>0) { // only fill pedestal info in case it could be calculated\r
+ GetRawsData(kPedHGLEDMon)->Fill(stripId, meanPed);\r
+ GetRawsData(kPedRMSHGLEDMon)->Fill(stripId, rmsPed);\r
+ }\r
+ } // low or high gain\r
+ } // LEDMon\r
+\r
+ } // SM index OK\r
+\r
+ } // nsamples>0 check, some data found for this channel; not only trailer/header\r
+ }// end while over channel \r
+ \r
+ }//end while over DDL's, of input stream \r
+\r
+ // let's also fill the SM and event counter histograms\r
+ int nTotalHG = 0;\r
+ int nTotalLG = 0;\r
+ int nTotalTRU = 0;\r
+ int nTotalHGLEDMon = 0;\r
+ int nTotalLGLEDMon = 0;\r
+ for (iSM=0; iSM<fSuperModules; iSM++) { \r
+ nTotalLG += nTotalSMLG[iSM]; \r
+ nTotalHG += nTotalSMHG[iSM]; \r
+ nTotalTRU += nTotalSMTRU[iSM]; \r
+ nTotalLG += nTotalSMLGLEDMon[iSM]; \r
+ nTotalHG += nTotalSMHGLEDMon[iSM]; \r
+ GetRawsData(kNsmodLG)->Fill(iSM, nTotalSMLG[iSM]); \r
+ GetRawsData(kNsmodHG)->Fill(iSM, nTotalSMHG[iSM]); \r
+ GetRawsData(kNsmodTRU)->Fill(iSM, nTotalSMTRU[iSM]); \r
+ GetRawsData(kNsmodLGLEDMon)->Fill(iSM, nTotalSMLGLEDMon[iSM]); \r
+ GetRawsData(kNsmodHGLEDMon)->Fill(iSM, nTotalSMHGLEDMon[iSM]); \r
+ }\r
+ GetRawsData(kNtotLG)->Fill(nTotalLG);\r
+ GetRawsData(kNtotHG)->Fill(nTotalHG);\r
+ GetRawsData(kNtotTRU)->Fill(nTotalTRU);\r
+ GetRawsData(kNtotLGLEDMon)->Fill(nTotalLGLEDMon);\r
+ GetRawsData(kNtotHGLEDMon)->Fill(nTotalHGLEDMon);\r
+\r
+ // just in case the next rawreader consumer forgets to reset; let's do it here again..\r
+ rawReader->Reset() ;\r
+\r
+ return;\r
+}\r
+\r
+//____________________________________________________________________________\r
+void AliEMCALQADataMakerRec::MakeDigits()\r
+{\r
+ // makes data from Digits\r
+\r
+ GetDigitsData(1)->Fill(fDigitsArray->GetEntriesFast()) ; \r
+ TIter next(fDigitsArray) ; \r
+ AliEMCALDigit * digit ; \r
+ while ( (digit = dynamic_cast<AliEMCALDigit *>(next())) ) {\r
+ GetDigitsData(0)->Fill( digit->GetAmp()) ;\r
+ } \r
+ \r
+}\r
+\r
+//____________________________________________________________________________\r
+void AliEMCALQADataMakerRec::MakeDigits(TTree * digitTree)\r
+{\r
+ // makes data from Digit Tree\r
+ if (fDigitsArray) \r
+ fDigitsArray->Clear() ; \r
+ else\r
+ fDigitsArray = new TClonesArray("AliEMCALDigit", 1000) ; \r
+ \r
+ TBranch * branch = digitTree->GetBranch("EMCAL") ;\r
+ if ( ! branch ) {\r
+ AliWarning("EMCAL branch in Digit Tree not found") ; \r
+ } else {\r
+ branch->SetAddress(&fDigitsArray) ;\r
+ branch->GetEntry(0) ; \r
+ MakeDigits() ; \r
+ }\r
+ \r
+}\r
+\r
+//____________________________________________________________________________\r
+void AliEMCALQADataMakerRec::MakeRecPoints(TTree * clustersTree)\r
+{\r
+ // makes data from RecPoints\r
+ TBranch *emcbranch = clustersTree->GetBranch("EMCALECARP");\r
+ if (!emcbranch) { \r
+ AliError("can't get the branch with the EMCAL clusters !");\r
+ return;\r
+ }\r
+ \r
+ TObjArray * emcrecpoints = new TObjArray(100) ;\r
+ emcbranch->SetAddress(&emcrecpoints);\r
+ emcbranch->GetEntry(0);\r
+ \r
+ GetRecPointsData(kRecPM)->Fill(emcrecpoints->GetEntriesFast()) ; \r
+ TIter next(emcrecpoints) ; \r
+ AliEMCALRecPoint * rp ; \r
+ while ( (rp = dynamic_cast<AliEMCALRecPoint *>(next())) ) {\r
+ GetRecPointsData(kRecPE)->Fill( rp->GetEnergy()) ;\r
+ GetRecPointsData(kRecPDigM)->Fill(rp->GetMultiplicity());\r
+ }\r
+ emcrecpoints->Delete();\r
+ delete emcrecpoints;\r
+ \r
+}\r
+\r
+//____________________________________________________________________________ \r
+void AliEMCALQADataMakerRec::StartOfDetectorCycle()\r
+{\r
+ //Detector specific actions at start of cycle\r
+ \r
+}\r
+\r