// $Id$
-class TClonesArray;
-class TF1;
-class TH1F;
-class TH2F;
-class TList;
-class TString;
-class AliRhoParameter;
-
#include "AliAnalysisTaskRhoBase.h"
class AliAnalysisTaskRho : public AliAnalysisTaskRhoBase {
AliAnalysisTaskRho();
AliAnalysisTaskRho(const char *name, Bool_t histo=kFALSE);
virtual ~AliAnalysisTaskRho() {}
-
- void UserCreateOutputObjects();
- void UserExec(Option_t*);
- const char *GetRhoScaled() const { return fRhoScaledName ; }
- void SetAreaCut(Double_t a = 0.05) { fAreaCut = a ; }
- void SetAreaEmcCut(Double_t a = 0.99) { fAreaEmcCut = a ; }
- void SetExcludeLeadJets(UInt_t n) { fNExclLeadJets = n ; }
- void SetJetEta(Double_t emin, Double_t emax) { fEtaMin = emin ; fEtaMax = emax ; }
- void SetJetPhi(Double_t pmin, Double_t pmax) { fPhiMin = pmin ; fPhiMax = pmax ; }
- void SetJetsName(const char *n) { fJetsName = n ; }
- void SetRhoName(const char *name) { fRhoName = name ;
- fRhoScaledName = name ;
- fRhoScaledName += "_Scaled"; }
- void SetScaleFunction(TF1* sf) { fScaleFunction = sf ; }
- void SetTracksName(const char *n) { fTracksName = n ; }
+ void SetExcludeLeadJets(UInt_t n) { fNExclLeadJets = n ; }
protected:
- virtual void ExecOnce();
- virtual Double_t GetScaleFactor(Double_t cent);
+ Bool_t Run();
- TString fTracksName; // name of track collection
- TString fJetsName; // name of jet collection
- TString fRhoScaledName; // name of scaled rho object
- Double_t fPhiMin; // minimum phi
- Double_t fPhiMax; // maximum phi
- Double_t fEtaMin; // minimum eta
- Double_t fEtaMax; // maximum eta
- Double_t fAreaCut; // minimum cut on jet area
- Double_t fAreaEmcCut; // minimum cut on jet emcal area
- UInt_t fNExclLeadJets; // number of leading jets to be excluded from the median calculation
- TF1 *fScaleFunction; // pre-computed scale factor as a function of centrality
- Bool_t fCreateHisto; // whether or not create histograms
- TClonesArray *fTracks; //!ptr to input tracks
- TClonesArray *fJets; //!ptr to input jets
- TList *fOutputList; //!output list
- TH1F *fHistCentrality; //!centrality distribution
- TH1F *fHistJetPt; //!jet pt distribution
- TH1F *fHistJetArea; //!jet area
- TH2F *fHistRhovsCent; //!rho vs. centrality
- TH2F *fHistDeltaRhovsCent; //!delta rho vs. centrality
- TH2F *fHistDeltaRhoScalevsCent; //!delta rhoscaled vs. centrality
- TH2F *fHistJetPtvsCent; //!jet pt vs. centrality
- TH2F *fHistJetAreavsCent; //!jet area vs. centrality
- TH2F *fHistNjetvsCent; //!no. of jets vs. centrality
- TH2F *fHistRhovsNtrack; //!rho vs. no. of tracks
- TH2F *fHistDeltaRhovsNtrack; //!delta rho vs. no. of tracks
- TH2F *fHistDeltaRhoScalevsNtrack; //!delta rho scaled vs. no. of tracks
- TH2F *fHistJetPtvsNtrack; //!jet pt vs. no. of tracks
- TH2F *fHistJetAreavsNtrack; //!jet area vs. no. of tracks
- TH2F *fHistNjetvsNtrack; //!no. of jets vs. no. of tracks
- AliRhoParameter *fRhoScaled; //!per event scaled rho
+ UInt_t fNExclLeadJets; // number of leading jets to be excluded from the median calculation
AliAnalysisTaskRho(const AliAnalysisTaskRho&); // not implemented
AliAnalysisTaskRho& operator=(const AliAnalysisTaskRho&); // not implemented
- ClassDef(AliAnalysisTaskRho, 7); // Rho task
+ ClassDef(AliAnalysisTaskRho, 10); // Rho task
};
#endif