#include "AliESDtrackCuts.h"
#include "AliAnalysisManager.h"
+#include "AliAnalysisUtils.h"
#include "AliAODInputHandler.h"
#include "AliAODMCParticle.h"
#include "AliAODTrack.h"
#include "AliOADBContainer.h"
#include "AliStack.h"
#include "AliTriggerAnalysis.h"
+#include "AliTRDTriggerAnalysis.h"
#include "AliVVertex.h"
#include "AliHFEcollection.h"
#include "AliHFEpairs.h"
#include "AliHFEpid.h"
#include "AliHFEpidQAmanager.h"
-#include "AliHFEpostAnalysis.h"
#include "AliHFEsecVtxs.h"
#include "AliHFEsecVtx.h"
#include "AliHFEsignalCuts.h"
, fAODArrayMCInfo(NULL)
, fQAlevel(0)
, fPlugins(0)
+ , fCollisionSystem(3)
, fFillSignalOnly(kTRUE)
, fFillNoCuts(kFALSE)
- , fUseFilterAOD(kTRUE)
, fApplyCutAOD(kFALSE)
- , fFilter(1<<4)
, fBackGroundFactorApply(kFALSE)
, fRemovePileUp(kFALSE)
, fIdentifiedAsPileUp(kFALSE)
, fRejectKinkMother(kTRUE)
, fisppMultiBin(kFALSE)
, fPbPbUserCentralityBinning(kFALSE)
+ , fRemoveFirstEvent(kFALSE)
, fisNonHFEsystematics(kFALSE)
, fSpecialTrigger(NULL)
, fCentralityF(-1)
, fCentralityPercent(-1)
+ , fCentralityEstimator("V0M")
, fContributors(0.5)
, fWeightBackGround(0.)
, fVz(0.0)
- , fHadronBackgroundOADB(NULL)
, fContainer(NULL)
, fVarManager(NULL)
, fSignalCuts(NULL)
, fTriggerAnalysis(NULL)
, fPID(NULL)
, fPIDqa(NULL)
+ , fTRDTriggerAnalysis(NULL)
, fPIDpreselect(NULL)
, fCuts(NULL)
, fTaggedTrackCuts(NULL)
, fCleanTaggedTrack(kFALSE)
, fVariablesTRDTaggedTrack(kFALSE)
+ , fAnalysisUtils(NULL)
, fCutspreselect(NULL)
, fSecVtx(NULL)
, fElecBackGround(NULL)
, fTaggedTrackAnalysis(NULL)
, fExtraCuts(NULL)
, fBackgroundSubtraction(NULL)
+ , fTRDTrigger(kFALSE)
+ , fWhichTRDTrigger(0)
, fQA(NULL)
, fOutput(NULL)
, fHistMCQA(NULL)
, fHistSECVTX(NULL)
, fHistELECBACKGROUND(NULL)
, fQACollection(NULL)
- , fQAAODCollection(NULL)
{
//
// Dummy constructor
memset(&fisppMultiBin, kFALSE, sizeof(fisppMultiBin));
memset(fCentralityLimits, 0, sizeof(Float_t) * 12);
-
+ SetppAnalysis();
}
//____________________________________________________________
, fAODArrayMCInfo(NULL)
, fQAlevel(0)
, fPlugins(0)
+ , fCollisionSystem(3)
, fFillSignalOnly(kTRUE)
, fFillNoCuts(kFALSE)
- , fUseFilterAOD(kTRUE)
, fApplyCutAOD(kFALSE)
- , fFilter(1<<4)
, fBackGroundFactorApply(kFALSE)
, fRemovePileUp(kFALSE)
, fIdentifiedAsPileUp(kFALSE)
, fRejectKinkMother(kTRUE)
, fisppMultiBin(kFALSE)
, fPbPbUserCentralityBinning(kFALSE)
+ , fRemoveFirstEvent(kFALSE)
, fisNonHFEsystematics(kFALSE)
, fSpecialTrigger(NULL)
, fCentralityF(-1)
, fCentralityPercent(-1)
+ , fCentralityEstimator("V0M")
, fContributors(0.5)
, fWeightBackGround(0.)
, fVz(0.0)
- , fHadronBackgroundOADB(NULL)
, fContainer(NULL)
, fVarManager(NULL)
, fSignalCuts(NULL)
, fTriggerAnalysis(NULL)
, fPID(NULL)
, fPIDqa(NULL)
+ , fTRDTriggerAnalysis(NULL)
, fPIDpreselect(NULL)
, fCuts(NULL)
, fTaggedTrackCuts(NULL)
, fCleanTaggedTrack(kFALSE)
, fVariablesTRDTaggedTrack(kFALSE)
+ , fAnalysisUtils(NULL)
, fCutspreselect(NULL)
, fSecVtx(NULL)
, fElecBackGround(NULL)
, fTaggedTrackAnalysis(NULL)
, fExtraCuts(NULL)
, fBackgroundSubtraction(NULL)
+ , fTRDTrigger(kFALSE)
+ , fWhichTRDTrigger(0)
, fQA(NULL)
, fOutput(NULL)
, fHistMCQA(NULL)
, fHistSECVTX(NULL)
, fHistELECBACKGROUND(NULL)
, fQACollection(0x0)
- , fQAAODCollection(NULL)
{
//
// Default constructor
fPID = new AliHFEpid("hfePid");
fPIDqa = new AliHFEpidQAmanager;
fVarManager = new AliHFEvarManager("hfeVarManager");
+ fAnalysisUtils = new AliAnalysisUtils;
+ fTRDTriggerAnalysis = new AliTRDTriggerAnalysis();
memset(fElecBackgroundFactor, 0, sizeof(Double_t) * kElecBgSpecies * kBgPtBins * kCentBins * kBgLevels);
memset(fkBackGroundFactorArray, 0, sizeof(TF1 *) * 12);
memset(&fisppMultiBin, kFALSE, sizeof(fisppMultiBin));
memset(fCentralityLimits, 0, sizeof(Float_t) * 12);
+ SetppAnalysis();
}
//____________________________________________________________
, fAODArrayMCInfo(NULL)
, fQAlevel(0)
, fPlugins(0)
+ , fCollisionSystem(ref.fCollisionSystem)
, fFillSignalOnly(ref.fFillSignalOnly)
, fFillNoCuts(ref.fFillNoCuts)
- , fUseFilterAOD(ref.fUseFilterAOD)
, fApplyCutAOD(ref.fApplyCutAOD)
- , fFilter(ref.fFilter)
, fBackGroundFactorApply(ref.fBackGroundFactorApply)
, fRemovePileUp(ref.fRemovePileUp)
, fIdentifiedAsPileUp(ref.fIdentifiedAsPileUp)
, fRejectKinkMother(ref.fRejectKinkMother)
, fisppMultiBin(ref.fisppMultiBin)
, fPbPbUserCentralityBinning(ref.fPbPbUserCentralityBinning)
+ , fRemoveFirstEvent(ref.fRemoveFirstEvent)
, fisNonHFEsystematics(ref.fisNonHFEsystematics)
, fSpecialTrigger(ref.fSpecialTrigger)
, fCentralityF(ref.fCentralityF)
, fCentralityPercent(ref.fCentralityPercent)
+ , fCentralityEstimator(ref.fCentralityEstimator)
, fContributors(ref.fContributors)
, fWeightBackGround(ref.fWeightBackGround)
, fVz(ref.fVz)
- , fHadronBackgroundOADB(ref.fHadronBackgroundOADB)
, fContainer(NULL)
, fVarManager(NULL)
, fSignalCuts(NULL)
, fTriggerAnalysis(NULL)
, fPID(NULL)
, fPIDqa(NULL)
+ , fTRDTriggerAnalysis(NULL)
, fPIDpreselect(NULL)
, fCuts(NULL)
, fTaggedTrackCuts(NULL)
, fCleanTaggedTrack(ref.fCleanTaggedTrack)
, fVariablesTRDTaggedTrack(ref.fVariablesTRDTaggedTrack)
+ , fAnalysisUtils(NULL)
, fCutspreselect(NULL)
, fSecVtx(NULL)
, fElecBackGround(NULL)
, fTaggedTrackAnalysis(NULL)
, fExtraCuts(NULL)
, fBackgroundSubtraction(NULL)
+ , fTRDTrigger(ref.fTRDTrigger)
+ , fWhichTRDTrigger(ref.fWhichTRDTrigger)
, fQA(NULL)
, fOutput(NULL)
, fHistMCQA(NULL)
, fHistSECVTX(NULL)
, fHistELECBACKGROUND(NULL)
, fQACollection(NULL)
- , fQAAODCollection(NULL)
{
//
// Copy Constructor
target.fAODArrayMCInfo = fAODArrayMCInfo;
target.fQAlevel = fQAlevel;
target.fPlugins = fPlugins;
+ target.fCollisionSystem = fCollisionSystem;
target.fFillSignalOnly = fFillSignalOnly;
target.fFillNoCuts = fFillNoCuts;
- target.fUseFilterAOD = fUseFilterAOD;
target.fApplyCutAOD = fApplyCutAOD;
- target.fFilter = fFilter;
target.fBackGroundFactorApply = fBackGroundFactorApply;
target.fRemovePileUp = fRemovePileUp;
target.fIdentifiedAsPileUp = fIdentifiedAsPileUp;
target.fRejectKinkMother = fRejectKinkMother;
target.fisppMultiBin = fisppMultiBin;
target.fPbPbUserCentralityBinning = fPbPbUserCentralityBinning;
+ target.fRemoveFirstEvent = fRemoveFirstEvent;
target.fisNonHFEsystematics = fisNonHFEsystematics;
target.fSpecialTrigger = fSpecialTrigger;
target.fCentralityF = fCentralityF;
target.fCentralityPercent = fCentralityPercent;
+ target.fCentralityEstimator = fCentralityEstimator;
target.fContributors = fContributors;
target.fWeightBackGround = fWeightBackGround;
target.fVz = fVz;
- target.fHadronBackgroundOADB = fHadronBackgroundOADB;
target.fContainer = fContainer;
target.fVarManager = fVarManager;
target.fSignalCuts = fSignalCuts;
target.fTriggerAnalysis = fTriggerAnalysis;
target.fPID = fPID;
target.fPIDqa = fPIDqa;
+ target.fTRDTriggerAnalysis = fTRDTriggerAnalysis;
target.fPIDpreselect = fPIDpreselect;
target.fCuts = fCuts;
target.fTaggedTrackCuts = fTaggedTrackCuts;
target.fCleanTaggedTrack = fCleanTaggedTrack;
target.fVariablesTRDTaggedTrack = fVariablesTRDTaggedTrack;
+ target.fAnalysisUtils = fAnalysisUtils;
target.fCutspreselect = fCutspreselect;
target.fSecVtx = fSecVtx;
target.fElecBackGround = fElecBackGround;
target.fTaggedTrackAnalysis = fTaggedTrackAnalysis;
target.fExtraCuts = fExtraCuts;
target.fBackgroundSubtraction = fBackgroundSubtraction;
+ target.fTRDTrigger = fTRDTrigger;
+ target.fWhichTRDTrigger = fWhichTRDTrigger;
target.fQA = fQA;
target.fOutput = fOutput;
target.fHistMCQA = fHistMCQA;
target.fHistSECVTX = fHistSECVTX;
target.fHistELECBACKGROUND = fHistELECBACKGROUND;
target.fQACollection = fQACollection;
- target.fQAAODCollection = fQAAODCollection;
}
//____________________________________________________________
if(fPID) delete fPID;
if(fPIDpreselect) delete fPIDpreselect;
if(fVarManager) delete fVarManager;
+ if(fTRDTriggerAnalysis) delete fTRDTriggerAnalysis;
if(fCFM) delete fCFM;
if(fTriggerAnalysis) delete fTriggerAnalysis;
if(fSignalCuts) delete fSignalCuts;
if(fElecBackGround) delete fElecBackGround;
if(fBackgroundSubtraction) delete fBackgroundSubtraction;
if(fSpecialTrigger) delete fSpecialTrigger;
+ if(fAnalysisUtils) delete fAnalysisUtils;
// Delete output objects only if we are not running in PROOF mode because otherwise this produces a crash during merging
AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager();
if(mgr && mgr->GetAnalysisType() != AliAnalysisManager::kProofAnalysis){
SetHasMCData();
}
printf("Analysis Mode: %s Analysis\n", IsAODanalysis() ? "AOD" : "ESD");
- if(IsAODanalysis()) {
- printf("AOD filter: %s \n", fUseFilterAOD ? "Yes" : "No");
- if(fUseFilterAOD) printf("AOD filter used: %d \n", fFilter);
- // First Part: Make QA histograms
- fQAAODCollection = new AliHFEcollection("TaskQAAOD", "QA histos from the AOD Electron Task");
- fQAAODCollection->CreateTH1F("Filterorigin", "AOD filter of tracks at the origin", 21, -1, 20);
- fQAAODCollection->CreateTH1F("Filterend", "AOD filter of tracks after all cuts", 21, -1, 20);
- fQA->Add(fQAAODCollection);
- }
printf("MC Data available %s\n", HasMCData() ? "Yes" : "No");
// Enable Trigger Analysis
fQACollection->CreateTH1F("nElectronTracksEvent", "Number of Electron Candidates", 100, 0, 100);
fQACollection->CreateTH1F("nElectron", "Number of electrons", 100, 0, 100);
fQACollection->CreateTH2F("radius", "Production Vertex", 100, 0.0, 5.0, 100, 0.0, 5.0);
- fQACollection->CreateTH2F("TPCdEdxBeforePID", "TPC dE/dx; p (GeV/c); TPC dE/dx (a.u.)", 1000, 0., 10., 200, 0., 200.);
- fQACollection->CreateTH2F("TPCnSigmaBeforePID", "TPC dE/dx; p (GeV/c); TPC dE/dx - <TPC dE/dx>|_{el} (#sigma)", 1000, 0., 10., 1000, -10., 10.);
+ fQACollection->CreateTH1F("nTriggerBit", "Histo Trigger Bit", 22, 0, 22);
- InitPIDperformanceQA();
- InitContaminationQA();
InitHistoITScluster();
+ InitContaminationQA();
fQA->Add(fQACollection);
// Initialize PID
// Background subtraction-------------------------------------------------------------------
if (GetPlugin(kNonPhotonicElectron)) {
if(!fBackgroundSubtraction) fBackgroundSubtraction = new AliHFENonPhotonicElectron();
+ if(IsAODanalysis()) fBackgroundSubtraction->SetAOD(kTRUE);
fBackgroundSubtraction->Init();
fOutput->Add(fBackgroundSubtraction->GetListOutput());
}
fQA->Add(fTaggedTrackAnalysis->GetQAcollection());
}
+ //fQA->Print();
+
PrintStatus();
// Done!!!
PostData(1, fOutput);
fPID->InitializePID(fInputEvent->GetRunNumber());
}
- //printf("test0\n");
+ if(fRemoveFirstEvent){
+ if(fAnalysisUtils->IsFirstEventInChunk(fInputEvent)) return;
+ }
- // Initialize hadronic background from OADB Container
- AliDebug(2, Form("Apply background factors: %s, OADB Container %p", fBackGroundFactorApply ? "Yes" : "No", fHadronBackgroundOADB));
- if(fBackGroundFactorApply && !TestBit(kBackgroundInitialized)){
- AliDebug(2, "Initializing Background from OADB");
- if(!InitializeHadronBackground(fInputEvent->GetRunNumber())) AliError("Failed initializing hadronic background parameterization from OADB");
- else AliDebug(2, "Successfully loaded Background from OADB");
- SetBit(kBackgroundInitialized);
+ AliESDEvent *ev = dynamic_cast<AliESDEvent *>(fInputEvent);
+ if(ev && fTRDTrigger)
+ {
+ if(!CheckTRDTrigger(ev)) return;
}
- //printf("test1\n");
if(IsESDanalysis() && HasMCData()){
// Protect against missing MC trees
if(!mcH->InitOk()) return;
if(!mcH->TreeK()) return;
if(!mcH->TreeTR()) return;
+
// Background subtraction-------------------------------------------------------------------
- if(GetPlugin(kNonPhotonicElectron)){
- fBackgroundSubtraction->SetMCEvent(fMCEvent);
- }
+ if(GetPlugin(kNonPhotonicElectron)) fBackgroundSubtraction->SetMCEvent(fMCEvent);
//------------------------------------------------------------------------------------------
}
}
fSignalCuts->SetMCAODInfo(fAODArrayMCInfo);
// Background subtraction-------------------------------------------------------------------
- if (GetPlugin(kNonPhotonicElectron)) {
- fBackgroundSubtraction->SetAODArrayMCInfo(fAODArrayMCInfo);
- }
+ if (GetPlugin(kNonPhotonicElectron)) fBackgroundSubtraction->SetAODArrayMCInfo(fAODArrayMCInfo);
//------------------------------------------------------------------------------------------
}
// Check Trigger selection
if(specialTrigger){
AliDebug(2, Form("Special Trigger requested: %s", specialTrigger));
- AliESDEvent *ev = dynamic_cast<AliESDEvent *>(fInputEvent);
if(!(ev && ev->IsTriggerClassFired(specialTrigger))){
AliDebug(2, "Event not selected");
return;
//
// Terminate not implemented at the moment
//
- if(GetPlugin(kPostProcess)){
- fOutput = dynamic_cast<TList *>(GetOutputData(1));
- fQA = dynamic_cast<TList *>(GetOutputData(2));
- if(!fOutput){
- AliError("Results not available");
- return;
- }
- if(!fQA){
- AliError("QA output not available");
- return;
- }
- fContainer = dynamic_cast<AliHFEcontainer *>(fOutput->FindObject("trackContainer"));
- if(!fContainer){
- AliError("Track container not found");
- return;
- }
- AliHFEpostAnalysis postanalysis;
- postanalysis.SetTaskResults(fContainer);
- TList *qalist = dynamic_cast<TList *>(fQA->FindObject("list_TaskQA"));
- if(!qalist){
- AliError("QA List not found");
- return;
- }
- postanalysis.SetTaskQA(qalist);
- //printf("Running post analysis\n");
- //if(HasMCData())
- postanalysis.DrawMCSignal2Background();
- postanalysis.DrawEfficiency();
- postanalysis.DrawPIDperformance();
- postanalysis.DrawCutEfficiency();
-
- if (GetPlugin(kIsElecBackGround)) {
- AliHFEelecbackground elecBackGround;
- TList *oe = 0x0;
- if(!(oe = (TList*)dynamic_cast<TList *>(fOutput->FindObject("HFEelecbackground")))){
- return;
- }
- elecBackGround.Load(oe);
- elecBackGround.Plot();
- elecBackGround.PostProcess();
- }
- }
}
+
//_______________________________________________________________
Bool_t AliAnalysisTaskHFE::IsEventInBinZero() {
//
// In case MC QA is on also MC QA loop is done
//
AliDebug(3, "Processing MC Information");
- Double_t eventContainer [4];
+ Double_t eventContainer [4] = {0., 0., 0., 0.};
if(IsESDanalysis()) eventContainer[0] = fMCEvent->GetPrimaryVertex()->GetZ();
else eventContainer[0] = fAODMCHeader->GetVtxZ();
eventContainer[2] = fCentralityF;
fMCQA->SetMCEvent(fMCEvent);
fMCQA->SetGenEventHeader(fMCEvent->GenEventHeader());
fMCQA->SetCentrality(fCentralityF);
- fMCQA->SetPercentrality(fCentralityPercent);
+ fMCQA->SetPercentrality(static_cast<Int_t>(fCentralityPercent));
if(IsPbPb()) { fMCQA->SetPbPb();}
else
{
if(fTaggedTrackAnalysis) {
fTaggedTrackAnalysis->SetMagneticField(fESD->GetMagneticField());
fTaggedTrackAnalysis->SetCentrality(fCentralityF);
- if(IsPbPb()) fTaggedTrackAnalysis->SetPbPb();
+ if(IsHeavyIon()) fTaggedTrackAnalysis->SetPbPb();
else fTaggedTrackAnalysis->SetPP();
}
eventContainer[0] = 0.;
if(HasMCData()) eventContainer[0] = fVz;
else {
- if(fESD->GetPrimaryVertexSPD()) eventContainer[0] = fESD->GetPrimaryVertexSPD()->GetZ();
+ const AliESDVertex* vtxESD = fESD->GetPrimaryVertex();
+ if(vtxESD) eventContainer[0] = vtxESD->GetZ();
}
eventContainer[1] = 0.;
eventContainer[2] = fCentralityF;
Double_t container[10];
memset(container, 0, sizeof(Double_t) * 10);
// container for the output THnSparse
- Double_t dataE[6]; // [pT, eta, Phi, type, 'C' or 'B']
Double_t dataDca[6]; // [source, pT, dca, centrality]
Int_t nElectronCandidates = 0;
AliESDtrack *track = NULL, *htrack = NULL;
AliMCParticle *mctrack = NULL;
AliMCParticle *mctrackmother = NULL;
- Int_t pid = 0;
Bool_t signal = kTRUE;
// minjung for IP QA(temporary ~ 2weeks)
if(!fExtraCuts){
fExtraCuts = new AliHFEextraCuts("hfetmpCuts","HFE tmp Cuts");
- }
+ }
fExtraCuts->SetRecEventInfo(fESD);
// Electron background analysis
if (GetPlugin(kIsElecBackGround)) {
-
+
AliDebug(2, "Running BackGround Analysis");
-
+
fElecBackGround->Reset();
-
+
} // end of electron background analysis
-
+
// Background subtraction-------------------------------------------------------------------
- if (GetPlugin(kNonPhotonicElectron)) {
- fBackgroundSubtraction->FillPoolAssociatedTracks(fInputEvent,fCentralityF);
- }
+ if (GetPlugin(kNonPhotonicElectron)) fBackgroundSubtraction->FillPoolAssociatedTracks(fInputEvent, fCentralityF);
//------------------------------------------------------------------------------------------
//
AliDebug(4, "New ESD track");
track = fESD->GetTrack(itrack);
track->SetESDEvent(fESD);
-
+
// fill counts of v0-identified particles
Int_t v0pid = -1;
if(track->TestBit(BIT(14))) v0pid = AliPID::kElectron;
fVarManager->FillContainer(fContainer, "recTrackContMC", AliHFEcuts::kStepRecNoCut, kTRUE);
}
}
-
- if(fisNonHFEsystematics && IsPbPb()) {
- //FillProductionVertex(track);
- if(fMCQA && signal){
- fMCQA->SetCentrality(fCentralityF);
- if(mctrack && (TMath::Abs(mctrack->Particle()->GetPdgCode()) == 11)){
- Double_t weightElecBgV0[kBgLevels] = {0.,0.,0.};
-
- fMCQA->SetTrkKine(track->Pt(),track->Eta(), track->Phi());
- fMCQA->SetContainerStep(4);
-
- weightElecBgV0[0] = fMCQA->GetWeightFactor(mctrack, 0); // positive:conversion e, negative: nonHFE
-
- //Fill additional containers for electron source distinction
- Int_t elecSource = 0;
- elecSource = fMCQA->GetElecSource(mctrack->Particle());
- const Char_t *sourceName[kElecBgSpecies]={"Pion","Eta","Omega","Phi","EtaPrime","Rho"};
- const Char_t *levelName[kBgLevels]={"Best","Lower","Upper"};
- Int_t iName = 0;
- for(Int_t iSource = AliHFEmcQA::kPi0; iSource <= AliHFEmcQA::kGammaRho0; iSource++){
- if((iSource == AliHFEmcQA::kElse)||(iSource == AliHFEmcQA::kMisID)) continue;
- if(elecSource == iSource){
-
- if(weightElecBgV0[0]>0){
- fVarManager->FillContainer(fContainer, Form("conversionElecs%s%s",sourceName[iName], levelName[0]), 4, kTRUE, weightElecBgV0[0]);
- }
- else if(weightElecBgV0[0]<0){
- fVarManager->FillContainer(fContainer, Form("mesonElecs%s%s",sourceName[iName], levelName[0]), 4, kTRUE, -1*weightElecBgV0[0]);
- }
- break;
- }
- iName++;
- if(iName == kElecBgSpecies)iName = 0;
- }
- }
- }
- }
// RecKine: ITSTPC cuts
if(!ProcessCutStep(AliHFEcuts::kStepRecKineITSTPC, track)) continue;
}
}
- if(TMath::Abs(track->Eta()) < 0.5){
- if(track->GetInnerParam())
- fQACollection->Fill("TPCdEdxBeforePID", track->GetInnerParam()->P(), track->GetTPCsignal());
- fQACollection->Fill("TPCnSigmaBeforePID", track->P(), fInputHandler->GetPIDResponse()->NumberOfSigmasTPC(track, AliPID::kElectron));
- }
-
AliHFEpidObject hfetrack;
hfetrack.SetAnalysisType(AliHFEpidObject::kESDanalysis);
hfetrack.SetRecTrack(track);
if(HasMCData()) hfetrack.SetMCTrack(mctrack);
hfetrack.SetCentrality(fCentralityF);
hfetrack.SetMulitplicity(ncontribVtx);
- if(IsPbPb()) hfetrack.SetPbPb();
+ if(IsHeavyIon()) hfetrack.SetPbPb();
else hfetrack.SetPP();
fPID->SetVarManager(fVarManager);
if(!fPID->IsSelected(&hfetrack, fContainer, "recTrackCont", fPIDqa)) continue;
// Temporary histogram for chi2/ITS cluster
if(IsPbPb()) {
- TBits shared = track->GetTPCSharedMap();
+ TBits shared = track->GetTPCSharedMap();
Int_t sharebit=0;
- if(shared.CountBits() >= 2) sharebit=1;
+ if(shared.CountBits() >= 2) sharebit=1;
Double_t itschi2percluster = 0.0;
Double_t itsnbcls = static_cast<Double_t>(track->GetNcls(0));
if(itsnbcls > 0) itschi2percluster = track->GetITSchi2()/itsnbcls;
- Double_t itsChi2[7] = {track->Pt(),track->Eta(), track->Phi(),
- fCentralityF,track->GetTPCsignalN(), sharebit,itschi2percluster};
- fQACollection->Fill("fChi2perITScluster", itsChi2);
+ Double_t itsChi2[7] = {track->Pt(),track->Eta(), track->Phi(),
+ static_cast<Double_t>(fCentralityF),static_cast<Double_t>(track->GetTPCsignalN()), static_cast<Double_t>(sharebit),itschi2percluster};
+ fQACollection->Fill("fChi2perITScluster", itsChi2);
}
else{
Double_t itsnbcls = static_cast<Double_t>(track->GetNcls(0));
if(itsnbcls > 0) itschi2percluster = track->GetITSchi2()/itsnbcls;
- Double_t itsChi2[3] = {track->Pt(), fCentralityF, itschi2percluster};
+ Double_t itsChi2[3] = {track->Pt(), static_cast<Double_t>(fCentralityF), itschi2percluster};
fQACollection->Fill("fChi2perITScluster", itsChi2);
}
// Fill Containers
if(signal) {
// Apply weight for background contamination
- if(fBackGroundFactorApply) {
- if(IsPbPb() && fCentralityF >= 0) fWeightBackGround = fkBackGroundFactorArray[fCentralityF >= 0 ? fCentralityF : 0]->Eval(TMath::Abs(track->P()));
- else fWeightBackGround = fkBackGroundFactorArray[0]->Eval(TMath::Abs(track->P())); // pp case
+ if(fBackGroundFactorApply) {
+ if(IsHeavyIon() && fCentralityF >= 0) fWeightBackGround = fkBackGroundFactorArray[fCentralityF >= 0 ? fCentralityF : 0]->Eval(TMath::Abs(track->P()));
+ else fWeightBackGround = fkBackGroundFactorArray[0]->Eval(TMath::Abs(track->P())); // pp case
- if(fWeightBackGround < 0.0) fWeightBackGround = 0.0;
- else if(fWeightBackGround > 1.0) fWeightBackGround = 1.0;
+ if(fWeightBackGround < 0.0) fWeightBackGround = 0.0;
+ else if(fWeightBackGround > 1.0) fWeightBackGround = 1.0;
// weightBackGround as special weight
fVarManager->FillContainer(fContainer, "hadronicBackground", 1, kFALSE, fWeightBackGround);
}
}
}
- if(HasMCData()){
- dataE[0] = track->Pt();
- dataE[1] = track->Eta();
- dataE[2] = track->Phi();
- dataE[3] = track->Charge();
- dataE[4] = -1.;
- dataE[5] = -1.;
-
- // Track selected: distinguish between true and fake
- AliDebug(1, Form("Candidate Selected, filling THnSparse, PID: %d\n", mctrack->Particle()->GetPdgCode()));
- if((pid = TMath::Abs(mctrack->Particle()->GetPdgCode())) == 11){
- Int_t type = 0;
- if(fSignalCuts->IsCharmElectron(track))
- type = 1;
- else if(fSignalCuts->IsBeautyElectron(track))
- type = 2;
- AliDebug(1, Form("Type: %d\n", type));
- if(type){
- dataE[5] = type; // beauty[1] or charm[2]
- dataE[4] = 2; // signal electron
- }
- else{
- dataE[4] = 1; // not a signal electron
- dataE[5] = 0;
- }
- }
- else {
- // Fill THnSparse with the information for Fake Electrons
- dataE[4] = 0;
- dataE[5] = 0;
- }
- // fill the performance THnSparse, if the mc origin could be defined
- if(dataE[4] > -1){
- AliDebug(1, Form("Entries: [%.3f|%.3f|%.3f|%f|%f|%f]\n", dataE[0],dataE[1],dataE[2],dataE[3],dataE[4],dataE[5]));
- fQACollection->Fill("PIDperformance", dataE);
- }
- }
-
// Electron background analysis
if (GetPlugin(kIsElecBackGround)) {
}
}
+
+ // Background subtraction-------------------------------------------------------------------
+ if (GetPlugin(kNonPhotonicElectron)) fBackgroundSubtraction->CountPoolAssociated(fInputEvent, fCentralityF);
+ //------------------------------------------------------------------------------------------
+
fQACollection->Fill("nElectronTracksEvent", nElectronCandidates);
}
//printf("Number of kink mother in the events %d\n",numberofmotherkink);
// Background subtraction-------------------------------------------------------------------
- if (GetPlugin(kNonPhotonicElectron)) {
- fBackgroundSubtraction->FillPoolAssociatedTracks(fInputEvent,fCentralityF);
- }
+ if (GetPlugin(kNonPhotonicElectron)) fBackgroundSubtraction->FillPoolAssociatedTracks(fInputEvent, fCentralityF);
//------------------------------------------------------------------------------------------
// Loop over tracks
AliAODTrack *track = NULL;
AliAODMCParticle *mctrack = NULL;
- Double_t dataE[6]; // [pT, eta, Phi, Charge, type, 'C' or 'B']
Double_t dataDca[6]; // [source, pT, dca, centrality]
Int_t nElectronCandidates = 0;
- Int_t pid;
Bool_t signal;
+
//printf("Number of track %d\n",(Int_t) fAOD->GetNumberOfTracks());
for(Int_t itrack = 0; itrack < fAOD->GetNumberOfTracks(); itrack++){
track = fAOD->GetTrack(itrack); mctrack = NULL;
if(!track) continue;
- // Begining
- Bool_t passone = kFALSE;
- fQAAODCollection->Fill("Filterorigin", -1);
- for(Int_t k=0; k<20; k++) {
- Int_t u = 1<<k;
- if((track->TestFilterBit(u))) {
- fQAAODCollection->Fill("Filterorigin", k);
- passone = kTRUE;
- }
- }
- //if(!passone) printf("what is the filter %d\n",track->GetFilterMap());
-
- if(fUseFilterAOD){
- //printf("Filter of the track %d\n",track->GetFilterMap());
- if(!(track->TestFilterBit(fFilter))) continue; // Only process AOD tracks where the HFE is set
- }
- //printf("Pass the flag\n");
signal = kTRUE;
if(HasMCData()){
if(HasMCData()) hfetrack.SetMCTrack(mctrack);
hfetrack.SetCentrality(fCentralityF);
hfetrack.SetMulitplicity(ncontribVtx); // for correction
- if(IsPbPb()) hfetrack.SetPbPb();
+ if(IsHeavyIon()) hfetrack.SetPbPb();
else hfetrack.SetPP();
fPID->SetVarManager(fVarManager);
if(!fPID->IsSelected(&hfetrack, fContainer, "recTrackCont", fPIDqa)) continue;
if (GetPlugin(kNonPhotonicElectron)) {
Int_t indexmother = -1;
Int_t mcsource = -1;
- if(HasMCData()) mcsource = fBackgroundSubtraction->FindMother(mctrack->GetLabel(),indexmother);
+ if(HasMCData() && mctrack) mcsource = fBackgroundSubtraction->FindMother(mctrack->GetLabel(),indexmother);
fBackgroundSubtraction->LookAtNonHFE(itrack, track, fInputEvent, 1, fCentralityF, -1,mcsource, indexmother);
}
//---------------------------------------------------------------------------------------------------------------------
// end AOD QA
- fQAAODCollection->Fill("Filterend", -1);
+ fQACollection->Fill("Filterend", -1);
for(Int_t k=0; k<20; k++) {
Int_t u = 1<<k;
if((track->TestFilterBit(u))) {
- fQAAODCollection->Fill("Filterend", k);
+ fQACollection->Fill("Filterend", k);
}
}
if(signal) {
// Apply weight for background contamination
if(fBackGroundFactorApply) {
- if(IsPbPb() && fCentralityF >= 0) fWeightBackGround = fkBackGroundFactorArray[fCentralityF >= 0 ? fCentralityF : 0]->Eval(TMath::Abs(track->P()));
- else fWeightBackGround = fkBackGroundFactorArray[0]->Eval(TMath::Abs(track->P())); // pp case
+ if(IsHeavyIon() && fCentralityF >= 0) fWeightBackGround = fkBackGroundFactorArray[fCentralityF >= 0 ? fCentralityF : 0]->Eval(TMath::Abs(track->P()));
+ else fWeightBackGround = fkBackGroundFactorArray[0]->Eval(TMath::Abs(track->P())); // pp case
- if(fWeightBackGround < 0.0) fWeightBackGround = 0.0;
- else if(fWeightBackGround > 1.0) fWeightBackGround = 1.0;
+ if(fWeightBackGround < 0.0) fWeightBackGround = 0.0;
+ else if(fWeightBackGround > 1.0) fWeightBackGround = 1.0;
// weightBackGround as special weight
fVarManager->FillContainer(fContainer, "hadronicBackground", 1, kFALSE, fWeightBackGround);
}
}
nElectronCandidates++;
- if(HasMCData()){
- dataE[0] = track->Pt();
- dataE[1] = track->Eta();
- dataE[2] = track->Phi();
- dataE[3] = track->Charge();
- dataE[4] = -1;
- dataE[5] = -1;
- // Track selected: distinguish between true and fake
- AliDebug(1, Form("Candidate Selected, filling THnSparse, PID: %d\n", mctrack ? mctrack->GetPdgCode(): -1));
- if(mctrack && ((pid = TMath::Abs(mctrack->GetPdgCode())) == 11)){
-
- Int_t type = 0;
- if(fSignalCuts->IsCharmElectron(track))
- type = 1;
- else if(fSignalCuts->IsBeautyElectron(track))
- type = 2;
- AliDebug(1, Form("Type: %d\n", type));
- if(type){
- dataE[5] = type; // beauty[1] or charm[2]
- dataE[4] = 2; // signal electron
- }
- else{
- dataE[4] = 1; // not a signal electron
- dataE[5] = 0;
- }
- }
- else {
- // Fill THnSparse with the information for Fake Electrons
- dataE[4] = 0;
- dataE[5] = 0;
- }
- // fill the performance THnSparse, if the mc origin could be defined
- if(dataE[4] > -1){
- AliDebug(1, Form("Entries: [%.3f|%.3f|%.3f|%f|%f|%f]\n", dataE[0],dataE[1],dataE[2],dataE[3],dataE[4],dataE[5]));
- fQACollection->Fill("PIDperformance", dataE);
- }
- }
if (GetPlugin(kDEstep)) {
if (!HasMCData()){
}
}
}
+
+ // Background subtraction-------------------------------------------------------------------
+ if (GetPlugin(kNonPhotonicElectron)) fBackgroundSubtraction->CountPoolAssociated(fInputEvent, fCentralityF);
+ //------------------------------------------------------------------------------------------
+
fQACollection->Fill("nElectronTracksEvent", nElectronCandidates);
}
// Works for AOD and MC analysis Type
//
fVarManager->NewTrack(track, NULL, fCentralityF, -1, kTRUE);
- Double_t signalContainer[6];
- signalContainer[0] = track->Pt();
- signalContainer[1] = track->Eta();
- signalContainer[2] = track->Phi();
- signalContainer[3] = track->Charge()/3;
Double_t vertex[3] = {0.,0.,0.}; // Production vertex cut to mask gammas which are NOT supposed to have hits in the first ITS layer(s)
if(IsESDanalysis()){
if(!fCFM->CheckParticleCuts(AliHFEcuts::kStepMCGenerated, track)) return kFALSE;
//printf("MC Generated pass\n");
fVarManager->FillContainer(fContainer, "MCTrackCont", AliHFEcuts::kStepMCGenerated, kFALSE);
- signalContainer[4] = 0;
- if(fSignalCuts->IsSelected(track)){
- //fVarManager->FillContainer(fContainer, "MCTrackCont", AliHFEcuts::kStepMCsignal, kFALSE);
- // Filling of the Signal/Background histogram using the
- // definition of the codes for charm and beauty as below in
- // th crearion of the histogram
- if(fSignalCuts->IsCharmElectron(track))
- signalContainer[4] = 1;
- else
- signalContainer[4] = 2;
- } else {
- signalContainer[4] = 0; // (and other background)
- }
- signalContainer[5] = 0;
- // apply cut on the sqrt of the production vertex
- Double_t radVertex = TMath::Sqrt(vertex[0]*vertex[0] + vertex[1] * vertex[1]);
- if(radVertex < 3.5){
- // Within first ITS layer(2) -> Background we cannot reject by ITS cut, let it pass
- signalContainer[5] = 1;
- } else if (radVertex < 7.5){
- signalContainer[5] = 2;
- }
- fQACollection->Fill("SignalToBackgroundMC", signalContainer);
// Step GeneratedZOutNoPileUp
if((fIdentifiedAsPileUp) || (TMath::Abs(fVz) > fCuts->GetVertexRange()) || (fCentralityF < 0)) return kFALSE;
fContainer->SetStepTitle("recTrackContMC", fPID->SortedDetectorName(ipid), AliHFEcuts::kNcutStepsRecTrack + ipid);
}
}
-
-//____________________________________________________________
-void AliAnalysisTaskHFE::InitPIDperformanceQA(){
- // Add a histogram for Fake electrons
- const Int_t nDim=6;
- Int_t nBin[nDim] = {40, 8, 18, 2, 3, 3};
- //number of variables on the grid:pt,eta,phi,charge,
- const Double_t kPtbound[2] = {0.1, 20.};
- const Double_t kEtabound[2] = {-0.8, 0.8};
- const Double_t kPhibound[2] = {0., 2. * TMath::Pi()};
- const Double_t kChargebound[2] = {-1.1, 1.1};
- const Double_t kAddInf1bound[2] = {0., 3.};
- const Double_t kAddInf2bound[2] = {0., 3.};
- Double_t minima[nDim] = {kPtbound[0], kEtabound[0], kPhibound[0], kChargebound[0], kAddInf1bound[0], kAddInf2bound[0]};
- Double_t maxima[nDim] = {kPtbound[1], kEtabound[1], kPhibound[1], kChargebound[1], kAddInf1bound[1], kAddInf2bound[1]};
-
- fQACollection->CreateTHnSparse("PIDperformance", "PID performance; pT [GeV/c]; theta [rad]; phi [rad]; charge; type (0 - not el, 1 - other el, 2 - HF el; flavor (0 - no, 1 - charm, 2 - bottom)", nDim, nBin, minima, maxima);
- fQACollection->CreateTHnSparse("SignalToBackgroundMC", "PID performance; pT [GeV/c]; theta [rad]; phi [rad]; charge; flavor (0 - no, 1 - charm, 2 - bottom); ITS Cluster (0 - no, 1 - first (and maybe second), 2 - second)", nDim, nBin, minima, maxima);
-
- fQACollection->BinLogAxis("PIDperformance", 0);
- fQACollection->BinLogAxis("SignalToBackgroundMC", 0);
- fQACollection->Sumw2("PIDperformance");
- fQACollection->Sumw2("SignalToBackgroundMC");
-}
-
//____________________________________________________________
void AliAnalysisTaskHFE::InitContaminationQA(){
//
Int_t bin = -1;
- if(IsPbPb()) {
+ if(IsHeavyIon()) {
// Centrality
AliCentrality *centrality = fInputEvent->GetCentrality();
- fCentralityPercent = centrality->GetCentralityPercentile("V0M");
+ fCentralityPercent = centrality->GetCentralityPercentile(fCentralityEstimator.Data());
//printf("centrality %f\n",fCentralityPercent);
for(Int_t ibin = 0; ibin < 11; ibin++){
AliError("ESD Event required for ESD Analysis");
return kFALSE;
}
- vtx = fESD->GetPrimaryVertexSPD();
+ vtx = fESD->GetPrimaryVertex() ;
}
if(!vtx){
fContributors = 0.5;
return nAcc;
}
-//___________________________________________________
-Bool_t AliAnalysisTaskHFE::InitializeHadronBackground(Int_t run){
- //
- // Initialize background factors array from the AliOADBContainer
- // The container is expected to provide a TObjArray with the name
- // "hadronBackground" and the size 12 for the given run number
- //
- AliDebug(1, "Deriving hadronic background parameterization from OADB container");
- TObjArray *functions = dynamic_cast<TObjArray *>(fHadronBackgroundOADB->GetObject(run, "hadronBackground"));
- if(!functions){
- AliDebug(1, "Content in the OADB Container is not a TObjArray");
- fBackGroundFactorApply = kFALSE;
- return kFALSE;
- }
- if(functions->GetSize() < 12){
- AliDebug(1, Form("Size not matching: 12 expected, %d provided", functions->GetSize()));
- fBackGroundFactorApply = kFALSE;
- return kFALSE;
- }
- for(Int_t icent = 0; icent < 12; icent++) fkBackGroundFactorArray[icent] = dynamic_cast<const TF1 *>(functions->UncheckedAt(icent));
- return kTRUE;
-}
-
//___________________________________________________
void AliAnalysisTaskHFE::RejectionPileUpVertexRangeEventCut() {
//
// PileUp
fIdentifiedAsPileUp = kFALSE;
if(fRemovePileUp && fESD->IsPileupFromSPD()) fIdentifiedAsPileUp = kTRUE;
+
+
+
// Z vertex
fIdentifiedAsOutInz = kFALSE;
- if (IsPbPb()) {
- //printf("PbPb\n");
- if(fESD->GetPrimaryVertex()){
- if(TMath::Abs(fESD->GetPrimaryVertex()->GetZ()) > fCuts->GetVertexRange()) fIdentifiedAsOutInz = kTRUE;
- }
- }
- else {
- //printf("pp\n");
- if(fESD->GetPrimaryVertexTracks()){
- if(TMath::Abs(fESD->GetPrimaryVertexTracks()->GetZ()) > fCuts->GetVertexRange()) fIdentifiedAsOutInz = kTRUE;
- }
+ Bool_t findvertex = kTRUE;
+ const AliESDVertex* vtxESD = fESD->GetPrimaryVertex();
+ if((!vtxESD) || (vtxESD->GetNContributors() <= 0)) findvertex = kFALSE;
+ if(findvertex) {
+ if(TMath::Abs(vtxESD->GetZ()) > fCuts->GetVertexRange()) fIdentifiedAsOutInz = kTRUE;
}
+
//Event Cut
fPassTheEventCut = kTRUE;
if(!fCFM->CheckEventCuts(AliHFEcuts::kEventStepReconstructed, fESD)) fPassTheEventCut = kFALSE;
-
}
}
+//___________________________________________________
+Bool_t AliAnalysisTaskHFE::CheckTRDTrigger(AliESDEvent *ev) {
+//
+// Check TRD trigger; pPb settings
+//
+ Bool_t cint8=kFALSE;
+ Bool_t cint7=kFALSE;
+ Bool_t cint5=kFALSE;
+ Bool_t trdtrgevent=kFALSE;
+ fTRDTriggerAnalysis->CalcTriggers(ev);
+
+ // HSE no cleanup
+ if(fWhichTRDTrigger==1)
+ {
+ cint8= ev->IsTriggerClassFired("CINT8WUHSE-B-NOPF-CENT");
+ cint7= ev->IsTriggerClassFired("CINT7WUHSE-B-NOPF-CENT");
+ cint5= (ev->IsTriggerClassFired("CINT5WU-B-NOPF-ALL")) &&
+ (ev->GetHeader()->GetL1TriggerInputs() & (1 << 10));
+ if((cint7==kFALSE)&&(cint8==kFALSE)&&(cint5==kFALSE)) return kFALSE;
+ else
+ {
+ DrawTRDTrigger(ev);
+ return kTRUE;
+ }
+ }
+
+ // HSE cleanup
+ if(fWhichTRDTrigger==2)
+ {
+ if(!fTRDTriggerAnalysis->IsFired(AliTRDTriggerAnalysis::kHSE))
+ {
+ return kFALSE;
+ }
+ else
+ {
+ DrawTRDTrigger(ev);
+ return kTRUE;
+ }
+ }
+
+ //HQU no cleanup
+ if(fWhichTRDTrigger==3)
+ {
+ cint8= ev->IsTriggerClassFired("CINT8WUHQU-B-NOPF-CENT");
+ cint7= ev->IsTriggerClassFired("CINT7WUHQU-B-NOPF-CENT");
+ cint5= (ev->IsTriggerClassFired("CINT5WU-B-NOPF-ALL")) &&
+ (ev->GetHeader()->GetL1TriggerInputs() & (1 << 12));
+ if((cint7==kFALSE)&&(cint8==kFALSE)&&(cint5==kFALSE)) return kFALSE;
+ else
+ {
+ DrawTRDTrigger(ev);
+ return kTRUE;
+ }
+ }
+
+ // HQU cleanup
+ if(fWhichTRDTrigger==4)
+ {
+
+ if(!fTRDTriggerAnalysis->IsFired(AliTRDTriggerAnalysis::kHQU))
+ {
+ return kFALSE;
+ }
+ else
+ {
+ DrawTRDTrigger(ev);
+ return kTRUE;
+ }
+ }
+
+ return trdtrgevent;
+
+}
+
+void AliAnalysisTaskHFE::DrawTRDTrigger(AliESDEvent *ev) {
+
+ Int_t ntriggerbit=0;
+ fQACollection->Fill("nTriggerBit",ntriggerbit);
+ if(ev->IsTriggerClassFired("CINT7-B-NOPF-ALLNOTRD"))
+ {
+ ntriggerbit=2;
+ fQACollection->Fill("nTriggerBit",ntriggerbit);
+ }
+ if(ev->IsTriggerClassFired("CINT7WU-B-NOPF-ALL"))
+ {
+ ntriggerbit=3;
+ fQACollection->Fill("nTriggerBit",ntriggerbit);
+ if(ev->IsTriggerClassFired("CINT7WUHSE-B-NOPF-CENT")) {
+ ntriggerbit=18;
+ fQACollection->Fill("nTriggerBit",ntriggerbit);
+ }
+ if(ev->IsTriggerClassFired("CINT7WUHQU-B-NOPF-CENT")) {
+ ntriggerbit=19;
+ fQACollection->Fill("nTriggerBit",ntriggerbit);
+ }
+ }
+ if(ev->IsTriggerClassFired("CINT7WUHJT-B-NOPF-CENT"))
+ {
+ ntriggerbit=4;
+ fQACollection->Fill("nTriggerBit",ntriggerbit);
+
+ if(ev->IsTriggerClassFired("CINT7WUHSE-B-NOPF-CENT")) {
+ ntriggerbit=13;
+ fQACollection->Fill("nTriggerBit",ntriggerbit);
+ }
+ if(ev->IsTriggerClassFired("CINT7WUHQU-B-NOPF-CENT")) {
+ ntriggerbit=14;
+ fQACollection->Fill("nTriggerBit",ntriggerbit);
+ if(ev->IsTriggerClassFired("CINT7WUHSE-B-NOPF-CENT")) {
+ ntriggerbit=17;
+ fQACollection->Fill("nTriggerBit",ntriggerbit);
+ }
+ }
+ }
+ if(ev->IsTriggerClassFired("CINT7WUHQU-B-NOPF-CENT"))
+ {
+ ntriggerbit=5;
+ fQACollection->Fill("nTriggerBit",ntriggerbit);
+ if(ev->IsTriggerClassFired("CINT7WUHSE-B-NOPF-CENT")) {
+ ntriggerbit=11;
+ fQACollection->Fill("nTriggerBit",ntriggerbit);
+ }
+ if((!(ev->IsTriggerClassFired("CINT7WUHSE-B-NOPF-CENT")))&&(!(ev->IsTriggerClassFired("CINT7WUHJT-B-NOPF-CENT")))) {
+ ntriggerbit=21;
+ fQACollection->Fill("nTriggerBit",ntriggerbit);
+
+ /*
+ Int_t nTrdTracks = ev->GetNumberOfTrdTracks();
+ for (Int_t iTrack = 0; iTrack < nTrdTracks; ++iTrack) {
+ AliESDTrdTrack* trdTrack = ev->GetTrdTrack(iTrack);
+ printf("GTU track %3i: pt = %5.1f, PID = %3i\n", iTrack, trdTrack->Pt(), trdTrack->GetPID());
+ }*/
+
+
+ }
+
+ }
+ if(ev->IsTriggerClassFired("CINT7WUHSE-B-NOPF-CENT"))
+ {
+ ntriggerbit=6;
+ fQACollection->Fill("nTriggerBit",ntriggerbit);
+ if(ev->IsTriggerClassFired("CINT7WUHQU-B-NOPF-CENT")) {
+ ntriggerbit=12;
+ fQACollection->Fill("nTriggerBit",ntriggerbit);
+ }
+ if(ev->IsTriggerClassFired("CINT7WUHSE-B-NOPF-FAST")){
+ ntriggerbit=15;
+ fQACollection->Fill("nTriggerBit",ntriggerbit);
+
+ if((!(ev->IsTriggerClassFired("CINT7WUHQU-B-NOPF-CENT")))&&(!(ev->IsTriggerClassFired("CINT7WUHJT-B-NOPF-CENT")))) {
+ ntriggerbit=20;
+ fQACollection->Fill("nTriggerBit",ntriggerbit);
+ /*
+ Int_t nTrdTracks = ev->GetNumberOfTrdTracks();
+ for (Int_t iTrack = 0; iTrack < nTrdTracks; ++iTrack) {
+ AliESDTrdTrack* trdTrack = ev->GetTrdTrack(iTrack);
+ printf("HSE GTU track %3i: pt = %5.1f, PID = %3i\n", iTrack, trdTrack->Pt(), trdTrack->GetPID());
+ } */
+
+ }
+
+ }
+
+ }
+ if(ev->IsTriggerClassFired("CEMC7WUHEE-B-NOPF-CENT")) {
+ ntriggerbit=7;
+ fQACollection->Fill("nTriggerBit",ntriggerbit);
+ }
+ if(ev->IsTriggerClassFired("CINT7WUHJT-B-NOPF-FAST")){
+ ntriggerbit=8;
+ fQACollection->Fill("nTriggerBit",ntriggerbit);
+ }
+ if(ev->IsTriggerClassFired("CINT7WUHQU-B-NOPF-FAST")){
+ ntriggerbit=9;
+ fQACollection->Fill("nTriggerBit",ntriggerbit);
+ }
+ if(ev->IsTriggerClassFired("CINT7WUHSE-B-NOPF-FAST")){
+ ntriggerbit=10;
+ fQACollection->Fill("nTriggerBit",ntriggerbit);
+ if(ev->IsTriggerClassFired("CINT7WUHSE-B-NOPF-CENT")) {
+ ntriggerbit=16;
+ fQACollection->Fill("nTriggerBit",ntriggerbit);
+ }
+ }
+ if(ntriggerbit==0) fQACollection->Fill("nTriggerBit",1);
+
+}
+