#ifndef ALIESDV0_H #define ALIESDV0_H /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * See cxx source for full Copyright notice */ /* $Id$ */ //------------------------------------------------------------------------- // ESD V0 Vertex Class // This class is part of the Event Summary Data set of classes // Origin: Iouri Belikov, CERN, Jouri.Belikov@cern.ch // Modified by: Marian Ivanov, CERN, Marian.Ivanov@cern.ch // and Boris Hippolyte,IPHC, hippolyt@in2p3.fr //------------------------------------------------------------------------- #include #include #include "AliESDV0Params.h" #include "AliExternalTrackParam.h" class AliESDv0 : public TObject { public: AliESDv0(); AliESDv0(const AliExternalTrackParam &t1, Int_t i1, const AliExternalTrackParam &t2, Int_t i2); AliESDv0(const AliESDv0&); virtual ~AliESDv0(); Double_t ChangeMassHypothesis(Int_t code=kK0Short); Int_t GetPdgCode() const {return fPdgCode;} Float_t GetEffMass(UInt_t p1, UInt_t p2); Double_t GetEffMass() const {return fEffMass;} Double_t GetChi2V0() const {return fChi2V0;} void GetPxPyPz(Double_t &px, Double_t &py, Double_t &pz) const; void GetNPxPyPz(Double_t &px, Double_t &py, Double_t &pz) const; void GetPPxPyPz(Double_t &px, Double_t &py, Double_t &pz) const; void GetXYZ(Double_t &x, Double_t &y, Double_t &z) const; Float_t GetD(Double_t x0=0.,Double_t y0=0.,Double_t z0=0.) const; Int_t GetNindex() const {return fNidx;} Int_t GetPindex() const {return fPidx;} void SetDcaV0Daughters(Double_t rDcaV0Daughters=0.); Double_t GetDcaV0Daughters() {return fDcaV0Daughters;} Float_t GetV0CosineOfPointingAngle(Double_t&, Double_t&, Double_t&) const; Double_t GetV0CosineOfPointingAngle() const {return fPointAngle;} void SetV0CosineOfPointingAngle(Double_t cpa) {fPointAngle=cpa;} void SetOnFlyStatus(Bool_t status){fOnFlyStatus=status;} Bool_t GetOnFlyStatus() const {return fOnFlyStatus;} const AliExternalTrackParam *GetParamP() const {return &fParamP;} const AliExternalTrackParam *GetParamN() const {return &fParamN;} // **** The following member functions need to be revised *** void GetPosCov(Double_t cov[6])const ; // getter for the covariance matrix of the V0 position Double_t GetSigmaY(); // sigma of y coordinate at vertex posistion Double_t GetSigmaZ(); // sigma of z coordinate at vertex posistion Double_t GetSigmaAP0(); // calculate sigma of Point angle resolution at vertex pos. Double_t GetSigmaD0(); // calculate sigma of position resolution at vertex pos. Double_t GetEffectiveSigmaAP0(); // calculate sigma of point angle resolution at vertex pos. effecive parameterization Double_t GetEffectiveSigmaD0(); // calculate sigma of position resolution at vertex pos. Double_t GetMinimaxSigmaAP0(); // calculate mini-max sigma of point angle resolution Double_t GetMinimaxSigmaD0(); // calculate mini-max sigma of dca resolution Double_t GetLikelihoodAP(Int_t mode0, Int_t mode1); // get likelihood for point angle Double_t GetLikelihoodD(Int_t mode0, Int_t mode1); // get likelihood for DCA Double_t GetLikelihoodC(Int_t mode0, Int_t mode1); // get likelihood for Causality // // static const AliESDV0Params & GetParameterization(){return fgkParams;} void SetParamP(const AliExternalTrackParam & paramP) {fParamP = paramP;} void SetParamN(const AliExternalTrackParam & paramN) {fParamN = paramN;} void SetStatus(Int_t status){fStatus=status;} Int_t GetStatus() const {return fStatus;} Int_t GetIndex(Int_t i) const {return (i==0) ? fNidx : fPidx;} void SetIndex(Int_t i, Int_t ind) {(i==0) ? (fNidx=ind) : (fPidx=ind);} Double_t *GetAnglep() {return fAngle;} Double_t GetRr() const {return fRr;} Double_t GetDistSigma() const {return fDistSigma;} void SetDistSigma(Double_t ds) {fDistSigma=ds;} Float_t GetChi2Before() const {return fChi2Before;} void SetChi2Before(Float_t cb) {fChi2Before=cb;} Float_t GetChi2After() const {return fChi2After;} void SetChi2After(Float_t ca) {fChi2After=ca;} Float_t GetNAfter() const {return fNAfter;} void SetNAfter(Short_t na) {fNAfter=na;} Short_t GetNBefore() const {return fNBefore;} void SetNBefore(Short_t nb) {fNBefore=nb;} void SetCausality(Float_t pb0, Float_t pb1, Float_t pa0, Float_t pa1); const Double_t * GetCausalityP() const {return fCausality;} void SetClusters(Int_t *clp, Int_t *clm); const Int_t * GetClusters(Int_t i) const {return fClusters[i];} void SetNormDCAPrim(Float_t nd0, Float_t nd1){fNormDCAPrim[0] = nd0; fNormDCAPrim[1]=nd1;} const Double_t *GetNormDCAPrimP() const {return fNormDCAPrim;} protected: AliExternalTrackParam fParamN; // external parameters of negative particle AliExternalTrackParam fParamP; // external parameters of positive particle // CKBrev: tkink about revision Double32_t fEffMass; // reconstructed V0's effective mass Double32_t fDcaV0Daughters; // dca between V0's daughters Double32_t fChi2V0; // V0's chi2 value Double32_t fPos[3]; // V0's position (global) Double32_t fPosCov[6]; // covariance matrix of the vertex position Double32_t fNmom[3]; // momentum of the negative daughter (global) Double32_t fPmom[3]; // momentum of the positive daughter (global) Double32_t fNormDCAPrim[2]; // normalize distance to the priary vertex CKBrev Double32_t fRr; //rec position of the vertex CKBrev Double32_t fDistSigma; //sigma of distance CKBrev Double32_t fChi2Before; //chi2 of the tracks before V0 CKBrev Double32_t fChi2After; // chi2 of the tracks after V0 CKBrev Double32_t fCausality[4]; //[0,1,8] causality information - see comments in SetCausality CKBrev Double32_t fAngle[3]; //[-2*pi,2*pi,16]three angles CKBrev Double32_t fPointAngleFi; //[-1,1,16]point angle fi CKBrev Double32_t fPointAngleTh; //[-1,1,16]point angle theta CKBrev Double32_t fPointAngle; //[-1,1,16] cosine of the pointing angle Int_t fPdgCode; // reconstructed V0's type (PDG code) Int_t fClusters[2][6]; //! its clusters CKBrev Int_t fNidx; // index of the negative daughter Int_t fPidx; // index of the positive daughter Short_t fStatus; //status CKBrev Short_t fNBefore; // number of possible points before V0 CKBrev Short_t fNAfter; // number of possible points after V0 CKBrev Bool_t fOnFlyStatus; // if kTRUE, then this V0 is recontructed // "on fly" during the tracking // // parameterization coefficients static const AliESDV0Params fgkParams; //! resolution and likelihood parameterization private: AliESDv0& operator=(const AliESDv0&); ClassDef(AliESDv0,4) // ESD V0 vertex }; inline void AliESDv0::GetNPxPyPz(Double_t &px, Double_t &py, Double_t &pz) const { px=fNmom[0]; py=fNmom[1]; pz=fNmom[2]; } inline void AliESDv0::GetPPxPyPz(Double_t &px, Double_t &py, Double_t &pz) const { px=fPmom[0]; py=fPmom[1]; pz=fPmom[2]; } inline void AliESDv0::SetDcaV0Daughters(Double_t rDcaV0Daughters){ fDcaV0Daughters=rDcaV0Daughters; } #endif