//comparison of heavy-flavour decay candidates
// to MC truth (kinematics stored in the AOD)
// Renu Bala, bala@to.infn.it
+// F. Prino, prino@to.infn.it
+// G. Ortona, ortona@to.infn.it
//*************************************************************************
#include <TROOT.h>
#include <TSystem.h>
#include <TNtuple.h>
#include <TH1F.h>
+#include <TArrayD.h>
+#include "AliRDHFCutsDplustoKpipi.h"
#include "AliAnalysisTaskSE.h"
#include "AliAnalysisVertexingHF.h"
public:
AliAnalysisTaskSEDplus();
- AliAnalysisTaskSEDplus(const char *name, Bool_t fillNtuple=kFALSE);
+ AliAnalysisTaskSEDplus(const char *name, AliRDHFCutsDplustoKpipi* analysiscuts,AliRDHFCutsDplustoKpipi* productioncuts,Bool_t fillNtuple=kFALSE);
virtual ~AliAnalysisTaskSEDplus();
+
void SetReadMC(Bool_t readMC=kTRUE){fReadMC=readMC;}
void SetDoLikeSign(Bool_t dols=kTRUE){fDoLS=dols;}
+ void SetMassLimits(Float_t range);
+ void SetMassLimits(Float_t lowlimit, Float_t uplimit);
+ void SetPtBinLimit(Int_t n, Float_t *limitarray);
+ void SetBinWidth(Float_t w);
+
+ Float_t GetUpperMassLimit(){return fUpmasslimit;}
+ Float_t GetLowerMassLimit(){return fLowmasslimit;}
+ Int_t GetNBinsPt(){return fNPtBins;}
+ Double_t GetPtBinLimit(Int_t ibin);
+ Float_t GetBinWidth(){return fBinWidth;}
+ Int_t GetNBinsHistos();
+
+ void LSAnalysis(TClonesArray *arrayOppositeSign,TClonesArray *arrayLikeSign,AliAODEvent *aod,AliAODVertex *vtx1, Int_t nDplusOS);
+
// Implementation of interface methods
virtual void UserCreateOutputObjects();
virtual void Init();
virtual void LocalInit() {Init();}
virtual void UserExec(Option_t *option);
virtual void Terminate(Option_t *option);
- void LSAnalysis(TClonesArray *arrayOppositeSign,TClonesArray *arrayLikeSign,AliAODEvent *aod,AliAODVertex *vtx1, Int_t nDplusOS);
private:
AliAnalysisTaskSEDplus(const AliAnalysisTaskSEDplus &source);
AliAnalysisTaskSEDplus& operator=(const AliAnalysisTaskSEDplus& source);
+ Int_t GetHistoIndex(Int_t iPtBin) const { return iPtBin*3;}
+ Int_t GetSignalHistoIndex(Int_t iPtBin) const { return iPtBin*3+1;}
+ Int_t GetBackgroundHistoIndex(Int_t iPtBin) const { return iPtBin*3+2;}
+ Int_t GetLSHistoIndex(Int_t iPtBin)const { return iPtBin*5;}
+
+ enum {kMaxPtBins=10};
+
TList *fOutput; //! list send on output slot 0
TH1F *fHistNEvents; //!hist. for No. of events
+ TH1F *fMassHist[3*kMaxPtBins]; //!hist. for inv mass (LC)
+ TH1F* fCosPHist[3*kMaxPtBins]; //!hist. for PointingAngle (LC)
+ TH1F* fDLenHist[3*kMaxPtBins]; //!hist. for Dec Length (LC)
+ TH1F* fSumd02Hist[3*kMaxPtBins]; //!hist. for sum d02 (LC)
+ TH1F* fSigVertHist[3*kMaxPtBins]; //!hist. for sigVert (LC)
+ TH1F* fPtMaxHist[3*kMaxPtBins]; //!hist. for Pt Max (LC)
+ TH1F* fDCAHist[3*kMaxPtBins]; //!hist. for DCA (LC)
+ TH1F *fMassHistTC[3*kMaxPtBins]; //!hist. for inv mass (TC)
+ TH1F *fMassHistLS[5*kMaxPtBins];//!hist. for LS inv mass (LC)
+ TH1F *fCosPHistLS[3*kMaxPtBins];//!hist. for LS cuts variable 1 (LC)
+ TH1F *fDLenHistLS[3*kMaxPtBins];//!hist. for LS cuts variable 2 (LC)
+ TH1F *fSumd02HistLS[3*kMaxPtBins];//!hist. for LS cuts variable 3 (LC)
+ TH1F *fSigVertHistLS[3*kMaxPtBins];//!hist. for LS cuts variable 4 (LC)
+ TH1F *fPtMaxHistLS[3*kMaxPtBins];//!hist. for LS cuts variable 5 (LC)
+ TH1F *fDCAHistLS[3*kMaxPtBins];//!hist. for LS cuts variable 6 (LC)
+ TH1F *fMassHistLSTC[5*kMaxPtBins];//!hist. for LS inv mass (TC)
TNtuple *fNtupleDplus; //! output ntuple
- TH1F *fHistLS; //! LS tripl normalized using all charged tracks in the event
- TH1F *fHistLStrip; //! LS tripl normalized using OS vs LS number of triplets ratio
- TH1F *fHistLStripcut;//! LS tripl normalized using OS vs LS number of triplets passing dplus cuts ratio
- TH1F *fHistOS; //! OS triplets
- TH1F *fHistOSbkg;//! only Background (need MC truth)
- TH1F *fHistLSnoweight;//! LS triplets wo normalization
- TH1F *fHistLSsinglecut;//! LS tripl normalized using tracks with Pt>0.4GeV
-
+ Float_t fUpmasslimit; //upper inv mass limit for histos
+ Float_t fLowmasslimit; //lower inv mass limit for histos
+ Int_t fNPtBins; //Number of Pt Bins
+ Float_t fBinWidth;//width of one bin in output histos
+ TList *fListCuts; //list of cuts
+ AliRDHFCutsDplustoKpipi *fRDCutsProduction; //Production D+ Cuts
+ AliRDHFCutsDplustoKpipi *fRDCutsAnalysis; //Cuts for Analysis
+ Double_t fArrayBinLimits[kMaxPtBins+1]; //limits for the Pt bins
Bool_t fFillNtuple; // flag for filling ntuple
- Bool_t fReadMC; //flag for access to MC
- Bool_t fDoLS; //flag for switching on/off Like Sign analysis
- AliAnalysisVertexingHF *fVHF; // Vertexer heavy flavour (used to pass the cuts)
+ Bool_t fReadMC; //flag for access to MC
+ Bool_t fDoLS; //flag to do LS analysis
- ClassDef(AliAnalysisTaskSEDplus,4); // AliAnalysisTaskSE for the MC association of heavy-flavour decay candidates
+ ClassDef(AliAnalysisTaskSEDplus,6); // AliAnalysisTaskSE for the MC association of heavy-flavour decay candidates
};
#endif
-