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1 | #ifndef ALIANALYSISTASKSAJF_H | |
2 | #define ALIANALYSISTASKSAJF_H | |
3 | ||
4 | // $Id$ | |
5 | ||
6 | class TClonesArray; | |
7 | class TString; | |
8 | class TH1F; | |
9 | class TH2F; | |
10 | ||
11 | #include "AliAnalysisTaskEmcal.h" | |
12 | ||
13 | class AliAnalysisTaskSAJF : public AliAnalysisTaskEmcal { | |
14 | public: | |
15 | ||
16 | AliAnalysisTaskSAJF(); | |
17 | AliAnalysisTaskSAJF(const char *name); | |
18 | virtual ~AliAnalysisTaskSAJF(); | |
19 | ||
20 | void UserCreateOutputObjects(); | |
21 | void Terminate(Option_t *option); | |
22 | void Init(); | |
23 | ||
24 | void SetJetMinRC2LJ(Float_t d) { fMinRC2LJ = d ; } | |
25 | void SetEmbJetsName(const char *n) { fEmbJetsName = n ; } | |
26 | void SetRandTracksName(const char *n) { fRandTracksName = n ; } | |
27 | void SetRandClusName(const char *n) { fRandCaloName = n ; } | |
28 | void SetRhoName(const char *n) { fRhoName = n ; } | |
29 | ||
30 | protected: | |
31 | ||
32 | void RetrieveEventObjects() ; | |
33 | void FillHistograms() ; | |
34 | void DoJetLoop(Int_t &maxJetIndex, Int_t &max2JetIndex) ; | |
35 | void DoEmbJetLoop(AliEmcalJet* &embJet, TObject* &maxPart) ; | |
36 | void DoTrackLoop(Int_t maxJetIndex) ; | |
37 | void DoClusterLoop(Int_t maxJetIndex) ; | |
38 | void GetRigidCone(Float_t &pt, Float_t &eta, Float_t &phi, Bool_t acceptMC = kFALSE, | |
39 | AliEmcalJet *jet = 0, TClonesArray* tracks = 0, TClonesArray* clusters = 0) const; | |
40 | ||
41 | Float_t fMinRC2LJ; // Minimum distance random cone to leading jet | |
42 | TString fEmbJetsName; // Name of embedded jets collection | |
43 | TString fRandTracksName; // Name of randomized track collection | |
44 | TString fRandCaloName; // Name of randomized calo cluster collection | |
45 | TString fRhoName; // Name of rho object | |
46 | ||
47 | TClonesArray *fEmbJets; //!Embedded Jets | |
48 | TClonesArray *fRandTracks; //!Randomized tracks | |
49 | TClonesArray *fRandCaloClusters; //!Randomized clusters | |
50 | Float_t fRho; //!Event rho | |
51 | ||
52 | // General histograms | |
53 | TH1F *fHistCentrality; //!Event centrality distribution | |
54 | TH2F *fHistJetPhiEta[4]; //!Phi-Eta distribution of jets | |
55 | TH1F *fHistJetsPt[4]; //!Inclusive jet pt spectrum | |
56 | TH2F *fHistJetsPtArea[4]; //!Jet pt vs. area | |
57 | TH1F *fHistJetsPtClus[4]; //!Inclusive jet pt spectrum cluster biased | |
58 | TH1F *fHistJetsPtTrack[4]; //!Inclusive jet pt spectrum track biased | |
59 | TH1F *fHistJetsPtNonBias[4]; //!Non biased inclusive jet pt spectrum | |
60 | TH1F *fHistLeadingJetPt[4]; //!Leading jet pt spectrum | |
61 | TH1F *fHist2LeadingJetPt[4]; //!Second leading jet pt spectrum | |
62 | TH2F *fHistJetsNEFvsPt[4]; //!Jet neutral energy fraction vs. jet pt | |
63 | TH2F *fHistJetsZvsPt[4]; //!Constituent Pt over Jet Pt ratio vs. jet pt | |
64 | TH1F *fHistTracksPtLJ[4]; //!Pt spectrum of tracks belonging to the leading jet | |
65 | TH1F *fHistClusEtLJ[4]; //!Et spectrum of clusters belonging to the leading jet | |
66 | TH1F *fHistTracksPtBkg[4]; //!Pt spectrum of tracks not belonging to the leading jet | |
67 | TH1F *fHistClusEtBkg[4]; //!Et spectrum of clusters not belonging to the leading jet | |
68 | ||
69 | // Rho | |
70 | TH1F *fHistRho[4]; //!Rho distribution | |
71 | TH2F *fHistRhoVSleadJetPt; //!Area(leadjetarea) * rho vs. leading jet pt | |
72 | TH1F *fHistCorrJetsPt[4]; //!Corrected inclusive jet pt spectrum | |
73 | TH1F *fHistCorrJetsPtClus[4]; //!Corrected inclusive jet pt spectrum cluster biased | |
74 | TH1F *fHistCorrJetsPtTrack[4]; //!Corrected inclusive jet pt spectrum track biased | |
75 | TH1F *fHistCorrJetsPtNonBias[4]; //!Non biased corrected inclusive jet pt spectrum | |
76 | TH1F *fHistCorrLeadingJetPt[4]; //!Corrected leading jet pt spectrum | |
77 | ||
78 | // Random cones | |
79 | TH2F *fHistRCPhiEta; //!Phi-Eta distribution of random cones | |
80 | TH1F *fHistRCPt[4]; //!Random cone pt | |
81 | TH1F *fHistRCPtExLJ[4]; //!Random cone pt, imposing min distance from leading jet | |
82 | TH1F *fHistRCPtRand[4]; //!Random cone pt, randomized particles | |
83 | TH2F *fHistRCPtExLJVSDPhiLJ; //!Random cone pt, imposing min distance from leading jet, vs. deltaPhi leading jet | |
84 | TH2F *fHistRhoVSRCPt; //!Rho vs. Pt(RCExLJ) / Area(RCExLJ) | |
85 | TH1F *fHistDeltaPtRC[4]; //!deltaPt = Pt(RC) - A * rho | |
86 | TH1F *fHistDeltaPtRCExLJ[4]; //!deltaPt = Pt(RC) - A * rho, imposing min distance from leading jet | |
87 | TH1F *fHistDeltaPtRCRand[4]; //!deltaPt = Pt(RC) - A * rho, randomzied particles | |
88 | ||
89 | // Jet embedding | |
90 | TH1F *fHistEmbJets[4]; //!Pt distribution of embedded jets | |
91 | TH1F *fHistEmbPart[4]; //!Pt distribution of embedded particle | |
92 | TH2F *fHistEmbJetPhiEta; //!Phi-Eta distribution of embedded jets | |
93 | TH2F *fHistEmbPartPhiEta; //!Phi-Eta distribution of embedded particles | |
94 | TH2F *fHistRhoVSEmbBkg; //!Area(embjet) * rho vs. Pt(embjet) - Pt(embtrack) | |
95 | TH1F *fHistDeltaPtEmb[4]; //!deltaPt = Pt(embjet) - Area(embjet) * rho - Pt(embtrack) | |
96 | ||
97 | private: | |
98 | AliAnalysisTaskSAJF(const AliAnalysisTaskSAJF&); // not implemented | |
99 | AliAnalysisTaskSAJF &operator=(const AliAnalysisTaskSAJF&); // not implemented | |
100 | ||
101 | ClassDef(AliAnalysisTaskSAJF, 6) // jet analysis task | |
102 | }; | |
103 | #endif |