1 #ifndef ALIANALYSISTASKEMCALJETMASSBKG_H
2 #define ALIANALYSISTASKEMCALJETMASSBKG_H
11 class AliAnalysisManager;
12 class AliJetContainer;
14 #include "AliAnalysisTaskEmcalJet.h"
16 class AliAnalysisTaskEmcalJetMassBkg : public AliAnalysisTaskEmcalJet {
19 AliAnalysisTaskEmcalJetMassBkg();
20 AliAnalysisTaskEmcalJetMassBkg(const char *name);
21 virtual ~AliAnalysisTaskEmcalJetMassBkg();
23 void UserCreateOutputObjects();
24 void Terminate(Option_t *option);
27 void SetJetContainerBase(Int_t c) { fContainerBase = c ; }
29 void SetJetMinRC2LJ(Float_t d) { fMinRC2LJ = d ; }
30 void SetRCperEvent(Int_t n) { fRCperEvent = n ; }
31 void SetConeRadius(Double_t r) { fConeRadius = r ; }
32 void SetConeEtaPhiEMCAL() ;
33 void SetConeEtaPhiTPC() ;
34 void SetConeEtaLimits(Float_t min, Float_t max) { fConeMinEta = min, fConeMaxEta = max ; }
35 void SetConePhiLimits(Float_t min, Float_t max) { fConeMinPhi = min, fConeMaxPhi = max ; }
39 Bool_t RetrieveEventObjects();
41 Bool_t FillHistograms();
43 void GetRandomCone(TLorentzVector& lvRC, Float_t &pt, Float_t &eta, Float_t &phi, AliParticleContainer* tracks, AliClusterContainer* clusters, AliEmcalJet *jet = 0) const;
44 void GetCone(TLorentzVector& lvRC,Float_t &pt, Float_t eta, Float_t phi, AliParticleContainer* tracks, AliClusterContainer* clusters) const;
45 void GetPerpCone(TLorentzVector& lvRC, Float_t &pt, Float_t &eta, Float_t &phi, AliParticleContainer* tracks, AliClusterContainer* clusters, AliEmcalJet *jet = 0) const;
47 Int_t fContainerBase; // jets to be tagged
49 Float_t fMinRC2LJ; // Minimum distance random cone to leading jet
50 Int_t fRCperEvent; // No. of random cones per event
51 Double_t fConeRadius; // Radius of the random cones
52 Float_t fConeMinEta; // Minimum eta of the random cones
53 Float_t fConeMaxEta; // Maximum eta of the random cones
54 Float_t fConeMinPhi; // Minimum phi of the random cones
55 Float_t fConeMaxPhi; // Maximum phi of the random cones
57 AliJetContainer *fJetsCont; //!Jets
58 AliParticleContainer *fTracksCont; //!Tracks
59 AliClusterContainer *fCaloClustersCont; //!Clusters
62 TH2F **fh2PtVsMassRC; //!pT vs mass of RC
63 TProfile **fpPtVsMassRC; //!pT vs Avg mass of RC
64 TH3F **fh2PtVsMassRCExLJDPhi; //!pT vs mass of RC
65 TProfile **fpPtVsMassRCExLJ; //!pT vs Avg mass of RC excluding area around leading jet
66 TH2F **fh2PtVsMassPerpConeLJ; //!pT vs mass of cone perpendicular to leading jet
67 TProfile **fpPtVsMassPerpConeLJ; //!pT vs Avg mass of cone perpendicular to leading jet
68 TH2F **fh2PtVsMassPerpConeTJ; //!pT vs mass of cone perpendicular to all tagged jets
69 TProfile **fpPtVsMassPerpConeTJ; //!pT vs Avg mass of cone perpendicular to all tagged jets
71 TH2F *fh2CentVsMassRC; //!cent vs mass of RC
72 TH2F *fh2CentVsMassRCExLJ; //!cent vs mass of RC excluding area around leading jet
73 TH2F *fh2CentVsMassPerpConeLJ; //!cent vs mass of RC perpendicular to leading jet
74 TH2F *fh2CentVsMassPerpConeTJ; //!cent vs mass of RC perpendicular to tagged jets
76 TH2F *fh2MultVsMassRC; //!track multiplicity vs mass of RC
77 TH2F *fh2MultVsMassRCExLJ; //!track multiplicity vs mass of RC excluding area around leading jet
78 TH2F *fh2MultVsMassPerpConeLJ; //!track multiplicity vs mass of RC perpendicular to leading jet
79 TH2F *fh2MultVsMassPerpConeTJ; //!track multiplicity vs mass of RC perpendicular to tagged jets
81 AliAnalysisTaskEmcalJetMassBkg(const AliAnalysisTaskEmcalJetMassBkg&); // not implemented
82 AliAnalysisTaskEmcalJetMassBkg &operator=(const AliAnalysisTaskEmcalJetMassBkg&); // not implemented
84 ClassDef(AliAnalysisTaskEmcalJetMassBkg, 1)