+++ /dev/null
-#ifndef ALIANALYSISTASKEMCALJETTRIGGERQA_H
-#define ALIANALYSISTASKEMCALJETTRIGGERQA_H
-
-class TH1;
-class TH2;
-class TH3;
-class TH3F;
-class TProfile;
-class TClonesArray;
-class TArrayI;
-
-#include <TRef.h>
-#include <TBits.h>
-#include <TMath.h>
-
-#include <AliVEvent.h>
-
-#include "AliAnalysisTaskEmcalJet.h"
-
-class AliAnalysisTaskEmcalJetTriggerQA : public AliAnalysisTaskEmcalJet {
- public:
- AliAnalysisTaskEmcalJetTriggerQA();
- AliAnalysisTaskEmcalJetTriggerQA(const char *name);
- virtual ~AliAnalysisTaskEmcalJetTriggerQA();
-
- void UserCreateOutputObjects();
- void Terminate(Option_t *option);
-
- Bool_t SelectEvent(); //decides if event is used for analysis
- void FillTriggerPatchHistos();
-
- //Setters
- void SetDebug(Int_t d) { fDebug = d;}
- void SetTriggerClass(const char *n) { fTriggerClass = n; }
- void SetNFastorPatch(Int_t i) { fNFastOR = i;}
-
- void SetContainerFull(Int_t c) { fContainerFull = c;}
- void SetContainerCharged(Int_t c) { fContainerCharged = c;}
-
- void SetMainTriggerTypeCat(TriggerCategory cat, Bool_t b) {fMainTrigCat = cat; fMainTrigSimple = b;}
-
- Int_t GetLeadingCellId(const AliVCluster *clus) const;
- Double_t GetEnergyLeadingCell(const AliVCluster *clus) const;
- Double_t GetECross(Int_t absID) const;
-
- Double_t GetZ(const AliVParticle *trk, const AliEmcalJet *jet) const;
- Double_t GetZ(Double_t trkPx, Double_t trkPy, Double_t trkPz, Double_t jetPx, Double_t jetPy, Double_t jetPz) const;
-
- protected:
- Bool_t FillHistograms() ;
- Bool_t Run() ;
- Float_t RelativeEP(Double_t objAng, Double_t EPAng) const;
- Bool_t TestFilterBit(Int_t trigBit, UInt_t bitJetTrig) const {return (Bool_t) ((trigBit & bitJetTrig) != 0);}
-
- private:
- Bool_t fDebug; // debug level
- TString fTriggerClass; // trigger class to analyze EJ1 or EJ2
- Int_t fContainerFull; // number of container with full jets DET
- Int_t fContainerCharged; // number of container with charged jets DET
- Double_t fMaxPatchEnergy; // energy of patch with largest energy (offline)
- Double_t fMaxPatchADCEnergy; // energy of patch with largest energy from online ADC
- Int_t fTriggerType; // trigger type
- Int_t fNFastOR; // size of trigger patch fNFastORxfNFastOR
- TriggerCategory fMainTrigCat; // trigger category for main trigger
- Bool_t fMainTrigSimple; // use offline trigger instead of online
-
- TH1F *fhNEvents; //! Histo number of events
- TProfile *fhTriggerbit; //! histogram containing the triggerbit (fOfflineTriggerMask)
- TH2F *fHistRhovsCentFull; //! rho vs. centrality
- TH2F *fHistRhovsCentCharged; //! rho vs. centrality
- TH3F *fh3PtEtaPhiTracks; //! pt,eta,phi of tracks at vertex
- TH3F *fh3PtEtaPhiTracksOnEmcal; //! pt,eta,phi of tracks at Emcal surface
- TH3F *fh3PtEtaPhiTracksToProp; //! pt,eta,phi of tracks at vertex
- TH3F *fh3PtEtaPhiTracksProp; //! pt,eta,phi of tracks at vertex
- TH3F *fh3PtEtaPhiTracksNoProp; //! pt,eta,phi of tracks at vertex
- TH2F *fh2CentPtJetFull; //! cent, pt of full jets
- TH2F *fh2CentPtJetCharged; //! cent, pt of charged jets
- TH3F *fh3PtEtaPhiJetFull; //! pt,eta,phi of full jets
- TH3F *fh3PtEtaPhiJetCharged; //! pt,eta,phi of charged jets
- TH2F *fh2NJetsPtFull; //! NJets per event vs pT,jet
- TH2F *fh2NJetsPtCharged; //! NJets per event vs pT,jet
- TH3F *fh3PtEtaAreaJetFull; //! pt,eta,area of full jet
- TH3F *fh3PtEtaAreaJetCharged; //! pt,eta,area of charged jets
- TH2F *fh2PtNConstituentsCharged; //! pt, # charged jet constituents
- TH2F *fh2PtNConstituents; //! pt, # jet constituents
- TH2F *fh2PtMeanPtConstituentsCharged; //! pt, <pt> charged constituents
- TH2F *fh2PtMeanPtConstituentsNeutral; //! pt, <pt> neutral constituents
- TH2F *fh2PtNEF; //! pt, NEF (neutral energy fraction)
- TH3F *fh3NEFEtaPhi; //! NEF, eta, phi
- TH2F *fh2NEFNConstituentsCharged; //! NEF, # charged jet constituents
- TH2F *fh2NEFNConstituentsNeutral; //! NEF, # neutral jet constituents
- TH2F *fh2Ptz; //! pt, z=pT,h,proj/p,jet full jet
- TH2F *fh2PtzCharged; //! pt, z=pT,h,proj/p,jet charged jet
- TH2F *fh2PtLeadJet1VsLeadJet2; //! correlation between leading jet of the two branches
- TH3F *fh3EEtaPhiCluster; //! cluster E, eta, phi
- TH3F *fh3PtLeadJet1VsPatchEnergy; //! leading jet energy vs leading patch energy vs jet trigger (J1/J2)
- TH3F *fh3PtLeadJet2VsPatchEnergy; //! leading jet energy vs leading patch energy vs jet trigger (J1/J2)
- TH3F *fh3PtLeadJet1PatchEnergyVZEROAmp; //! leading jet energy vs leading patch energy vs VZERO amplitude
- TH3F *fh3PtLeadJet1RawPatchEnergyVZEROAmp; //! leading jet energy vs online leading patch energy vs VZERO amplitude
- TH3F *fh3PatchEnergyEtaPhiCenterJ1; //! patch energy vs eta, phi at center of patch, high threshold
- TH3F *fh3PatchEnergyEtaPhiCenterJ2; //! patch energy vs eta, phi at center of patch, low threshold
- TH3F *fh3PatchEnergyEtaPhiCenterJ1J2; //! patch energy vs eta, phi at center of patch, low + high threshold
- TH3F *fh3PatchADCEnergyEtaPhiCenterJ1; //! patch ADC energy vs eta, phi at center of patch, high threshold
- TH3F *fh3PatchADCEnergyEtaPhiCenterJ2; //! patch ADC energy vs eta, phi at center of patch, low threshold
- TH3F *fh3PatchADCEnergyEtaPhiCenterJ1J2; //! patch ADC energy vs eta, phi at center of patch, low + high threshold
- TH3F *fh3PatchADCEnergyEtaPhiCenterAll; //! patch ADC energy vs eta, phi at center of patch, all trigger patches
- TH3F *fh3EEtaPhiCell; //! cell E, eta, phi
- TH2F *fh2ECellVsCent; //! cell E vs centrality
- TH2F *fh2CellEnergyVsTime; //! emcal cell energy vs time
- TH3F *fh3EClusELeadingCellVsTime; //! cluster energy vs energy of leading cell in cluster vs time of the leading cell
- TH3F *fh3JetReacCent; //! jet energy vs cent vs dphi(jet,event plane)
-
- AliAnalysisTaskEmcalJetTriggerQA(const AliAnalysisTaskEmcalJetTriggerQA&); // not implemented
- AliAnalysisTaskEmcalJetTriggerQA &operator=(const AliAnalysisTaskEmcalJetTriggerQA&); // not implemented
-
- ClassDef(AliAnalysisTaskEmcalJetTriggerQA, 15)
-};
-#endif
-
-