#ifndef ALIANACHARGEDPARTICLES_H #define ALIANACHARGEDPARTICLES_H /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * See cxx source for full Copyright notice */ //_________________________________________________________________________ // // Class for track selection and identification (not done now) // Tracks from the CTS are kept in the AOD. // Few histograms produced. // //-- Author: Gustavo Conesa (INFN-LNF) // Root system class TH2F; // Analysis system #include "AliAnaCaloTrackCorrBaseClass.h" class AliAnaChargedParticles : public AliAnaCaloTrackCorrBaseClass { public: AliAnaChargedParticles() ; // default ctor virtual ~AliAnaChargedParticles() { ; } // virtual dtor void FillPrimaryHistograms(); TList * GetCreateOutputObjects(); void Init(); void InitParameters(); void Print(const Option_t * opt) const; void MakeAnalysisFillAOD() ; void MakeAnalysisFillHistograms() ; void SwitchOnFillTrackBCHistograms() { fFillTrackBCHistograms = kTRUE ; } void SwitchOffFillTrackBCHistograms() { fFillTrackBCHistograms = kFALSE ; } void SwitchOnFillVertexBC0Histograms() { fFillVertexBC0Histograms = kTRUE ; } void SwitchOffFillVertexBC0Histograms() { fFillVertexBC0Histograms = kFALSE ; } private: Bool_t fFillTrackBCHistograms; // Fill histograms for tracks with TOF BC=0 or not related histograms Bool_t fFillVertexBC0Histograms; // Fill histograms for tracks with vertex BC=0 or not related histograms TLorentzVector fMomentum; //! Temporary momentum container //Histograms TH1F * fhNtracks; //! track multiplicity distribution TH1F * fhPt; //! pT distribution TH1F * fhPtNoCut; //! pT distribution, no cut TH1F * fhPtCutDCA; //! pT distribution, Apply DCA cut TH1F * fhPtCutDCABCOK; //! pT distribution, Apply DCA cut, BC=0 or -100 TH1F * fhPtPileUp[7]; //! pT distribution, pile-up defined events TH2F * fhPhiNeg; //! phi distribution vs pT, negative TH2F * fhEtaNeg; //! eta distribution vs pT, negative TH2F * fhPhiPos; //! phi distribution vs pT, positive TH2F * fhEtaPos; //! eta distribution vs pT, positive TH2F * fhEtaPhiPos; //! eta vs phi distribution of positive charge TH2F * fhEtaPhiNeg; //! eta vs phi distribution of negative charge TH1F * fhPtVtxOutBC0; //! pT distribution of tracks from a vertex with BC!=0 TH2F * fhEtaPhiVtxOutBC0; //! eta/phi distribution of tracks from a vertex with BC!=0 TH1F * fhPtVtxInBC0; //! pT distribution of tracks from a vertex with BC=0 TH2F * fhEtaPhiVtxInBC0; //! eta/phi distribution of tracks from a vertex with BC=0 TH1F * fhPtSPDRefit; //! pT distribution of tracks with SPD and ITS refit TH1F * fhPtNoSPDRefit; //! pT distribution of constrained tracks no SPD and with ITSRefit TH1F * fhPtNoSPDNoRefit; //! pT distribution of constrained tracks with no SPD requierement and without ITSRefit TH2F * fhEtaPhiSPDRefitPt02; //! eta-phi distribution of tracks with SPD and ITS refit, 0 < pT < 2 GeV TH2F * fhEtaPhiNoSPDRefitPt02; //! eta-phi distribution of constrained tracks no SPD and with ITSRefit, 0 < pT < 2 GeV TH2F * fhEtaPhiNoSPDNoRefitPt02; //! eta-phi distribution of constrained tracks with no SPD requierement and without ITSRefit, 0 < pT < 2 GeV TH2F * fhEtaPhiSPDRefitPt3; //! eta-phi distribution of tracks with SPD and ITS refit, pT > 3 GeV TH2F * fhEtaPhiNoSPDRefitPt3; //! eta-phi distribution of constrained tracks no SPD and with ITSRefit, pT > 3 GeV TH2F * fhEtaPhiNoSPDNoRefitPt3; //! eta-phi distribution of constrained tracks with no SPD requierement and without ITSRefit, pT > 3 GeV //MC enum mvType{kmcPion = 0, kmcProton = 1, kmcKaon = 2, kmcMuon = 3, kmcElectron = 4, kmcUnknown = 5 }; TH1F * fhPtMCPart [6]; //! pT distribution, 6 hadron ID TH2F * fhPhiMCPart[6]; //! phi distribution vs pT, 6 hadron ID TH2F * fhEtaMCPart[6]; //! eta distribution vs pT, 6 hadron ID TH1F * fhPtMCPrimPart [6]; //! Number of generated charged hadrons vs pT coming from MC particle, 6 hadron ID TH2F * fhPhiMCPrimPart[6]; //! Number of generated charged hadrons vs phi coming from MC particle, 6 hadron ID TH2F * fhEtaMCPrimPart[6]; //! Number of generated charged hadrons vs eta coming from MC particle, 6 hadron ID // TOF TH1F * fhTOFSignal; //! TOF signal TH1F * fhTOFSignalPtCut; //! TOF signal pt and acceptance cut TH1F * fhTOFSignalBCOK; //! TOF signal pt and acceptance cut TH2F * fhPtTOFSignal; //! TOF signal vs track pT, good status TH2F * fhPtTOFSignalDCACut; //! TOF signal vs track pT, good status TH2F * fhPtTOFSignalPileUp[7]; //! TOF signal vs track pT, good status, pile-up TH2F * fhPtTOFSignalVtxOutBC0; //! TOF signal vs track pT, good status TH2F * fhPtTOFSignalVtxOutBC0PileUp[7]; //! TOF signal vs track pT, good status, pile-up TH2F * fhPtTOFSignalVtxInBC0; //! TOF signal vs track pT, good status TH2F * fhPtTOFSignalVtxInBC0PileUp[7]; //! TOF signal vs track pT, good status, pile-up TH1F * fhPtTOFStatus0; //! pT of tracks not passing TOF status selection TH2F * fhEtaPhiTOFStatus0; //! eta/phi of tracks not passing TOF status selection TH2F * fhEtaPhiTOFBC0; //! eta/phi of tracks passing TOF status selection, tracks in BC=0 TH2F * fhEtaPhiTOFBCPlus; //! eta/phi of tracks passing TOF status selection, tracks in BC>0 TH2F * fhEtaPhiTOFBCMinus; //! eta/phi of tracks passing TOF status selection, tracks in BC<0 TH2F * fhEtaPhiTOFBC0PileUpSPD; //! eta/phi of tracks passing TOF status selection, tracks in BC=0, pile-up spd TH2F * fhEtaPhiTOFBCPlusPileUpSPD; //! eta/phi of tracks passing TOF status selection, tracks in BC>0, pile-up spd TH2F * fhEtaPhiTOFBCMinusPileUpSPD; //! eta/phi of tracks passing TOF status selection, tracks in BC<0, pile-up spd TH1F * fhProductionVertexBC; //! check BC of production vertex TH1F * fhProductionVertexBCPileUp[7]; //! check BC of production vertex, pile-up TH2F * fhPtDCA[3]; //! DCA (xy,z,constrained) of all tracks TH2F * fhPtDCASPDRefit[3]; //! DCA (xy,z,constrained) of tracks with SPD and ITS refit TH2F * fhPtDCANoSPDRefit[3]; //! DCA (xy,z,constrained) of constrained tracks no SPD and with ITSRefit TH2F * fhPtDCANoSPDNoRefit[3]; //! DCA (xy,z,constrained) of constrained tracks with no SPD requierement and without ITSRefit TH2F * fhPtDCAVtxOutBC0[3]; //! DCA (xy,z,constrained) of all tracks, vertex BC!=0 TH2F * fhPtDCAVtxInBC0[3]; //! DCA (xy,z,constrained) of all tracks, vertex BC==0 TH2F * fhPtDCAPileUp[3]; //! DCA (xy,z,constrained) of all tracks, SPD pile-up TH2F * fhPtDCAVtxOutBC0PileUp[3]; //! DCA (xy,z,constrained) of all tracks, vertex BC!=0, SPD pile-up TH2F * fhPtDCAVtxInBC0PileUp[3]; //! DCA (xy,z,constrained) of all tracks, vertex BC==0, SPD pile-up TH2F * fhPtDCATOFBC0[3]; //! DCA (xy,z,constrained) of all tracks, hit in TOF and BC=0 TH2F * fhPtDCAPileUpTOFBC0[3]; //! DCA (xy,z,constrained) of all tracks, hit in TOF and BC=0 TH2F * fhPtDCATOFBCOut[3]; //! DCA (xy,z,constrained) of all tracks, hit in TOF and BC!=0 TH2F * fhPtDCANoTOFHit[3]; //! DCA (xy,z,constrained) of all tracks, no hit in TOF TH2F * fhPtDCAVtxOutBC0NoTOFHit[3]; //! DCA (xy,z,constrained) of all tracks, vertex BC!=0, no hit in TOF TH2F * fhPtDCAVtxInBC0NoTOFHit[3]; //! DCA (xy,z,constrained) of all tracks, vertex BC=0, no hit in TOF TH2F * fhPtDCAPileUpNoTOFHit[3]; //! DCA (xy,z,constrained) of all tracks, SPD pile-up, no hit in TOF TH2F * fhPtDCAVtxOutBC0PileUpNoTOFHit[3]; //! DCA (xy,z,constrained) of all tracks, vertex BC!=0, SPD pile-up, no hit in TOF TH2F * fhPtDCAVtxInBC0PileUpNoTOFHit[3]; //! DCA (xy,z,constrained) of all tracks, vertex BC=0, SPD pile-up, no hit in TOF TH2F * fhPtNPileUpSPDVtx; //! cluster pt vs number of spd pile-up vertices TH2F * fhPtNPileUpTrkVtx; //! cluster pt vs number of track pile-up vertices TH2F * fhPtNPileUpSPDVtxBC0; //! cluster pt vs number of spd pile-up vertices, track in BC=0 TH2F * fhPtNPileUpTrkVtxBC0; //! cluster pt vs number of track pile-up vertices, track in BC=0 AliAnaChargedParticles( const AliAnaChargedParticles & ch) ; // cpy ctor AliAnaChargedParticles & operator = (const AliAnaChargedParticles & ch) ; // cpy assignment ClassDef(AliAnaChargedParticles,10) } ; #endif //ALIANACHARGEDPARTICLES_H