// ************************************************************************* // * Task for Fragmentation Function Analysis in PWG4 Jet Task Force Train * // ************************************************************************* #ifndef ALIANALYSISTASKFRAGMENTATIONFUNCTION_H #define ALIANALYSISTASKFRAGMENTATIONFUNCTION_H /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * See cxx source for full Copyright notice */ /* $Id$ */ class AliESDEvent; class AliAODEvent; class AliAODJet; class AliAODExtension; class TList; class TH1F; class TH2F; class TH3F; class TProfile; class THnSparse; class TRandom3; class TArrayS; #include "AliAnalysisTaskSE.h" class AliAnalysisTaskFragmentationFunction : public AliAnalysisTaskSE { public: //---------------------------------------- class AliFragFuncHistos : public TObject { public: AliFragFuncHistos(const char* name = "FFhistos", Int_t nJetPt = 0, Float_t jetPtMin = 0, Float_t jetPtMax = 0, Int_t nPt = 0, Float_t ptMin = 0, Float_t ptMax = 0, Int_t nXi = 0, Float_t xiMin = 0, Float_t xiMax = 0, Int_t nZ = 0, Float_t zMin = 0, Float_t zMax = 0, Bool_t useLogZBins = kTRUE); AliFragFuncHistos(const AliFragFuncHistos& copy); AliFragFuncHistos& operator=(const AliFragFuncHistos &o); virtual ~AliFragFuncHistos(); virtual void DefineHistos(); void CalcLogZBins(const Int_t nBinsXi,const Double_t xiMin,const Double_t xiMax,Double_t* binLims); virtual void FillFF(Float_t trackPt, Float_t jetPt,Bool_t incrementJetPt, Float_t norm = 0); virtual void AddToOutput(TList* list) const; private: Int_t fNBinsJetPt; // FF histos bins Float_t fJetPtMin; // FF histos limits Float_t fJetPtMax; // FF histos limits Int_t fNBinsPt; // FF histos bins Float_t fPtMin; // FF histos limits Float_t fPtMax; // FF histos limits Int_t fNBinsXi; // FF histos bins Float_t fXiMin; // FF histos limits Float_t fXiMax; // FF histos limits Int_t fNBinsZ; // FF histos bins Float_t fZMin; // FF histos limits Float_t fZMax; // FF histos limits Bool_t fLogZBins; // lin/log binning in z TH2F* fh2TrackPt; //! FF: track transverse momentum TH2F* fh2Xi; //! FF: xi TH2F* fh2Z; //! FF: z TH1F* fh1JetPt; //! jet pt TString fNameFF; // histo names prefix ClassDef(AliFragFuncHistos, 1); }; //---------------------------------------- class AliFragFuncQAJetHistos : public TObject { public: AliFragFuncQAJetHistos(const char* name = "QAJethistos", Int_t nPt = 0, Float_t ptMin = 0, Float_t ptMax = 0, Int_t nEta = 0, Float_t etaMin = 0, Float_t etaMax = 0, Int_t nPhi = 0, Float_t phiMin = 0, Float_t phiMax = 0); AliFragFuncQAJetHistos(const AliFragFuncQAJetHistos& copy); AliFragFuncQAJetHistos& operator=(const AliFragFuncQAJetHistos &o); virtual ~AliFragFuncQAJetHistos(); virtual void DefineHistos(); virtual void FillJetQA(Float_t eta, Float_t phi, Float_t pt); virtual void AddToOutput(TList* list) const; private: Int_t fNBinsPt; // jet QA histos bins Float_t fPtMin; // jet QA histos limits Float_t fPtMax; // jet QA histos limits Int_t fNBinsEta; // jet QA histos bins Float_t fEtaMin; // jet QA histos limits Float_t fEtaMax; // jet QA histos limits Int_t fNBinsPhi; // jet QA histos bins Float_t fPhiMin; // jet QA histos limits Float_t fPhiMax; // jet QA histos limits TH2F* fh2EtaPhi; //! jet phi vs eta TH1F* fh1Pt; //! jet transverse momentum TString fNameQAJ; // histo names prefix ClassDef(AliFragFuncQAJetHistos, 1); }; //---------------------------------------- class AliFragFuncQATrackHistos : public TObject { public: AliFragFuncQATrackHistos(const char* name = "QATrackhistos", Int_t nPt = 0, Float_t ptMin = 0, Float_t ptMax = 0, Int_t nEta = 0, Float_t etaMin = 0, Float_t etaMax = 0, Int_t nPhi = 0, Float_t phiMin = 0, Float_t phiMax = 0, Float_t ptThresh = 0); AliFragFuncQATrackHistos(const AliFragFuncQATrackHistos& copy); AliFragFuncQATrackHistos& operator=(const AliFragFuncQATrackHistos &o); virtual ~AliFragFuncQATrackHistos(); virtual void DefineHistos(); virtual void FillTrackQA(Float_t eta, Float_t phi, Float_t pt, Bool_t weightPt = kFALSE, Float_t norm = 0.); virtual void AddToOutput(TList* list) const; private: Int_t fNBinsPt; // track QA histos bins in pt Float_t fPtMin; // track QA histos limits in pt Float_t fPtMax; // track QA histos limits in pt Int_t fNBinsEta; // track QA histos bins in eta Float_t fEtaMin; // track QA histos limits in eta Float_t fEtaMax; // track QA histos limits in eta Int_t fNBinsPhi; // track QA histos bins in phi Float_t fPhiMin; // track QA histos limits in phi Float_t fPhiMax; // track QA histos limits in phi Float_t fHighPtThreshold; // high pt track phi vs eta distribution TH2F* fh2EtaPhi; //! track phi vs eta TH1F* fh1Pt; //! track transverse momentum TH2F* fh2HighPtEtaPhi; //! phi vs eta for high pt (>fgHighPtThreshold) tracks TH2F* fh2PhiPt; //! track phi vs pt TString fNameQAT; // histo names prefix ClassDef(AliFragFuncQATrackHistos, 2); }; //---------------------------------------- class AliFragFuncIntraJetHistos : public TObject { public: AliFragFuncIntraJetHistos(const char* name = "IntraJethistos", Int_t nJetPt = 0, Float_t jetPtMin = 0, Float_t jetPtMax = 0, Int_t nPt = 0, Float_t ptMin = 0, Float_t ptMax = 0, Int_t nZ = 0, Float_t zMin = 0, Float_t zMax = 0, Int_t nCosTheta = 0, Float_t costhetaMin = 0, Float_t costhetaMax = 0, Int_t nTheta = 0, Float_t thetaMin = 0, Float_t thetaMax = 0, Int_t nJt = 0, Float_t jtMin = 0, Float_t jtMax = 0); AliFragFuncIntraJetHistos(const AliFragFuncIntraJetHistos& copy); AliFragFuncIntraJetHistos& operator=(const AliFragFuncIntraJetHistos &o); virtual ~AliFragFuncIntraJetHistos(); virtual void DefineHistos(); virtual void FillIntraJet(const TLorentzVector* trackV, const TLorentzVector* jetV, Float_t norm = 0); virtual void AddToOutput(TList* list) const; private: Int_t fNBinsJetPt; // IntraJet histos bins in jet pt Float_t fJetPtMin; // IntraJet histos limits in jet pt Float_t fJetPtMax; // IntraJet histos limits in jet pt Int_t fNBinsPt; // IntraJet histos bins in pt Float_t fPtMin; // IntraJet histos limits in pt Float_t fPtMax; // IntraJet histos limits in pt Int_t fNBinsZ; // IntraJet histos bins in z Float_t fZMin; // IntraJet histos limits in z Float_t fZMax; // IntraJet histos limits in z Int_t fNBinsJt; // IntraJet histos bins in jt Float_t fJtMin; // IntraJet histos limits in jt Float_t fJtMax; // IntraJet histos limits in jt Int_t fNBinsTheta; // IntraJet histos bins in theta Float_t fThetaMin; // IntraJet histos limits in theta Float_t fThetaMax; // IntraJet histos limits in theta Int_t fNBinsCosTheta; // IntraJet histos bins in cos(theta) Float_t fCosThetaMin; // IntraJet histos limits in cos(theta) Float_t fCosThetaMax; // IntraJet histos limits in cos(theta) TH2F* fh2CosTheta; //! IntraJet: cos(theta) distribution TH2F* fh2PtZ; //! IntraJet: pt vs z distribution TH3F* fh3ThetaZ; //! IntraJet: theta, z, jet pt TH3F* fh3JtTheta; //! IntraJet: jt, theta, jet pt TH3F* fh3JtZ; //! IntraJet: jt, z, jet pt TString fNameIJ; // histo names prefix ClassDef(AliFragFuncIntraJetHistos, 1); }; //---------------------------------------- class AliFragFuncDiJetHistos : public TObject { public: AliFragFuncDiJetHistos(const char* name = "DiJetHistos", Int_t kindSlices = 0, Int_t nJetinvMass = 0, Float_t jetInvMassMin = 0, Float_t jetInvMassMax = 0, Int_t nJetPt = 0, Float_t jetPtMin = 0, Float_t jetPtMax = 0, Int_t nPt = 0, Float_t ptMin = 0, Float_t ptMax = 0, Int_t nXi = 0, Float_t xiMin = 0, Float_t xiMax = 0, Int_t nZ = 0, Float_t zMin = 0, Float_t zMax = 0); AliFragFuncDiJetHistos(const AliFragFuncDiJetHistos& copy); AliFragFuncDiJetHistos& operator=(const AliFragFuncDiJetHistos &o); virtual ~AliFragFuncDiJetHistos(); virtual void DefineDiJetHistos(); virtual void FillDiJetFF(Int_t jetType, Float_t trackPt, Float_t jetPt, Double_t jetBin, Bool_t incrementJetPt); virtual void AddToOutput(TList* list) const; private: Int_t fKindSlices; // DJ kind of slices Int_t fNBinsJetInvMass; // FF histos bins Float_t fJetInvMassMin; // FF histos limits Float_t fJetInvMassMax; // FF histos limits Int_t fNBinsJetPt; // FF histos bins Float_t fJetPtMin; // FF histos limits Float_t fJetPtMax; // FF histos limits Int_t fNBinsPt; // FF histos bins Float_t fPtMin; // FF histos limits Float_t fPtMax; // FF histos limits Int_t fNBinsXi; // FF histos bins Float_t fXiMin; // FF histos limits Float_t fXiMax; // FF histos limits Int_t fNBinsZ; // FF histos bins Float_t fZMin; // FF histos limits Float_t fZMax; // FF histos limits TH2F* fh2TrackPtJet1; //! FF dijet : track transverse momentum of jet 1 TH2F* fh2TrackPtJet2; //! FF dijet : track transverse momentum of jet 2 TH2F* fh2TrackPtJet; //! FF dijet : track transverse momentum of jets 1 and 2 TH1F* fh1Jet1Pt; //! jet 1 pt TH1F* fh1Jet2Pt; //! jet 2 pt TH1F* fh1JetPt; //! jet 1 and 2 pt TH2F* fh2Xi1; //! FF dijet : xi of jet 1 TH2F* fh2Xi2; //! FF dijet : xi of jet 2 TH2F* fh2Xi; //! FF dijet : xi of jet 1 and 2 TH2F* fh2Z1; //! FF dijet : z of jet 1 TH2F* fh2Z2; //! FF dijet : z of jet 2 TH2F* fh2Z; //! FF dijet : z of jet 1 and 2 TH2F* fh2Pt1; //! FF dijet : z of jet 1 TH2F* fh2Pt2; //! FF dijet : z of jet 2 TH2F* fh2Pt; //! FF dijet : z of jet 1 and 2 TString fNameDJ; // histo names prefix ClassDef(AliFragFuncDiJetHistos, 1); }; //---------------------------------------- class AliFragFuncQADiJetHistos : public TObject { public: AliFragFuncQADiJetHistos(const char* name = "QADiJetHistos", Int_t kindSlices = 0, Int_t nInvMass = 0, Float_t invMassMin = 0, Float_t invMassMax = 0, Int_t nJetPt = 0, Float_t jetPtMin = 0, Float_t jetPtMax = 0, Int_t nDeltaPhi = 0, Float_t deltaPhiMin = 0, Float_t deltaPhiMax = 0, Int_t nDeltaEta = 0, Float_t deltaEtaMin = 0, Float_t deltaEtaMax = 0, Int_t nDeltaPt = 0, Float_t deltaPtMin = 0, Float_t deltaPtMax = 0, Int_t nInBal = 0, Float_t inBalMin = 0, Float_t inBalMax = 0); AliFragFuncQADiJetHistos(const AliFragFuncQADiJetHistos& copy); AliFragFuncQADiJetHistos& operator=(const AliFragFuncQADiJetHistos &o); virtual ~AliFragFuncQADiJetHistos(); virtual void DefineQADiJetHistos(); virtual void FillDiJetQA(Double_t invMass, Double_t deltaPhi, Double_t deltaEta, Double_t deltaPt, Double_t inBal, Double_t jetBin); virtual void AddToOutput(TList* list) const; private: Int_t fKindSlices; // DJ kind of slices Int_t fNBinsJetInvMass; // FF histos bins in jet invariant mass Float_t fJetInvMassMin; // FF histos limits in jet invariant mass Float_t fJetInvMassMax; // FF histos limits in jet invariant mass Int_t fNBinsJetPt; // FF histos bins in jet pt Float_t fJetPtMin; // FF histos limits in jet pt Float_t fJetPtMax; // FF histos limits in jet pt Int_t fNBinsDeltaPhi; // FF histos bins in jet delta phi Float_t fDeltaPhiMin; // FF histos limits in jet delta phi Float_t fDeltaPhiMax; // FF histos limits in jet delta phi Int_t fNBinsDeltaEta; // FF histos bins in jet delta eta Float_t fDeltaEtaMin; // FF histos limits in jet delta eta Float_t fDeltaEtaMax; // FF histos limits in jet delta eta Int_t fNBinsDeltaPt; // FF histos bins in jet delta pt Float_t fDeltaPtMin; // FF histos limits in jet delta pt Float_t fDeltaPtMax; // FF histos limits in jet delta pt Int_t fNBinsInBal; // FF histos bins in jet delta pt Float_t fInBalMin; // FF histos limits in pt inbalance Float_t fInBalMax; // FF histos limits in pt inbalance TH2F* fh2InvMass; // FF dijet invariant mass histos TH2F* fh2DeltaPhi; // FF dijet delta phi histos TH2F* fh2DeltaEta; // FF dijet delta eta histos TH2F* fh2DeltaPt; // FF dijet delta pt histos TH2F* fh2InBal; // FF dijet delta pt histos TString fNameQADJ; // histo names prefix ClassDef(AliFragFuncQADiJetHistos, 1); }; AliAnalysisTaskFragmentationFunction(); AliAnalysisTaskFragmentationFunction(const char *name); AliAnalysisTaskFragmentationFunction(const AliAnalysisTaskFragmentationFunction ©); AliAnalysisTaskFragmentationFunction& operator=(const AliAnalysisTaskFragmentationFunction &o); virtual ~AliAnalysisTaskFragmentationFunction(); virtual void UserCreateOutputObjects(); virtual void Init(); virtual void LocalInit() {Init();} virtual void UserExec(Option_t *option); virtual void Terminate(Option_t* ); virtual Bool_t Notify(); virtual void SetNonStdFile(char* c){fNonStdFile = c;} virtual void SetTrackTypeGen(Int_t i){fTrackTypeGen = i;} virtual void SetJetTypeGen(Int_t i){fJetTypeGen = i;} virtual void SetJetTypeRecEff(Int_t i){fJetTypeRecEff = i;} virtual void SetBranchRecBackJets(const char* c){fBranchRecBackJets = c;} virtual void SetBranchRecBackClusters(const char* c){fBranchRecBckgClusters = c;} virtual void SetBranchGenJets(const char* c){fBranchGenJets = c;} virtual void SetBranchRecJets(const char* c){fBranchRecJets = c;} virtual void SetBranchEmbeddedJets(const char* c){fBranchEmbeddedJets = c;} virtual void SetTrackCuts(Float_t trackPt = 0.15, Float_t trackEtaMin = -0.9, Float_t trackEtaMax = 0.9, Float_t trackPhiMin = 0., Float_t trackPhiMax = 2*TMath::Pi()) {fTrackPtCut = trackPt; fTrackEtaMin = trackEtaMin; fTrackEtaMax = trackEtaMax; fTrackPhiMin = trackPhiMin; fTrackPhiMax = trackPhiMax;} virtual void UseExtraTracks() { fUseExtraTracks = 1;} virtual void UseExtraonlyTracks() { fUseExtraTracks = -1;} virtual void UseExtraTracksBgr() { fUseExtraTracksBgr = 1;} virtual void UseExtraonlyTracksBgr() { fUseExtraTracksBgr = -1;} virtual void SetCutFractionPtEmbedded(Float_t cut = 0) { fCutFractionPtEmbedded = cut; } virtual void SetUseEmbeddedJetAxis(Bool_t b = kTRUE) { fUseEmbeddedJetAxis = b; } virtual void SetUseEmbeddedJetPt(Bool_t b = kTRUE) { fUseEmbeddedJetPt = b; } virtual void UseAODInputJets(Bool_t b) {fUseAODInputJets = b;} virtual void SetFilterMask(UInt_t i) {fFilterMask = i;} virtual void UsePhysicsSelection(Bool_t b) {fUsePhysicsSelection = b;} virtual void SetEventSelectionMask(UInt_t i){fEvtSelectionMask = i;} virtual void SetEventClass(Int_t i){fEventClass = i;} virtual void SetMaxVertexZ(Float_t z){fMaxVertexZ = z;} virtual void SetJetCuts(Float_t jetPt = 5., Float_t jetEtaMin = -0.5, Float_t jetEtaMax = 0.5, Float_t jetPhiMin = 0., Float_t jetPhiMax = 2*TMath::Pi()) {fJetPtCut = jetPt; fJetEtaMin = jetEtaMin; fJetEtaMax = jetEtaMax; fJetPhiMin = jetPhiMin; fJetPhiMax = jetPhiMax;} virtual void SetDiJetCuts(Int_t cutType = 1, Float_t deltaPhiCut = 0., Float_t cdfCut = 0.5, Float_t ptFractionCut = 0.6) {fDiJetCut = cutType; fDiJetDeltaPhiCut = deltaPhiCut; fDiJetCDFCut = cdfCut; fDiJetPtFractionCut = ptFractionCut;} virtual void SetKindSlices(Int_t slice = 1) {fDiJetKindBins = slice;} virtual void SetFFRadius(Float_t r = 0.4) { fFFRadius = r; } virtual void SetFFMaxTrackPt(Float_t pt = -1) { fFFMaxTrackPt = pt; } virtual void SetFFMinNTracks(Int_t nTracks = 0) { fFFMinnTracks = nTracks; } virtual void SetFFBckgRadius(Float_t r = 0.7) { fFFBckgRadius = r; } virtual void SetBckgMode(Bool_t bg = 1) { fBckgMode = bg; } virtual void SetBckgType(Int_t bg0 = 0, Int_t bg1 = 1,Int_t bg2 = 2, Int_t bg3 = 3, Int_t bg4 = 4) { fBckgType[0] = bg0; fBckgType[1] = bg1; fBckgType[2] = bg2; fBckgType[3] = bg3; fBckgType[4] = bg4; } virtual void SetIJMode(Int_t ij = 1) {fIJMode = ij;} virtual void SetQAMode(Int_t qa = 3) {fQAMode = qa;} virtual void SetFFMode(Int_t ff = 1) {fFFMode = ff;} virtual void SetDJMode(Int_t dj = 1) {fDJMode = dj;} virtual void SetEffMode(Int_t eff = 1) {fEffMode = eff;} virtual void SetPhiCorrMode(Int_t pc = 1) {fPhiCorrMode = pc;} virtual void SetBckgSubMethod(Int_t bg = 0) {fBckgSubMethod = bg;} virtual void UseRecEffRecJetPtBins(Bool_t useRec = kFALSE) { fUseRecEffRecJetPtBins = useRec; } virtual void UseResponseRecJetPtBins(Bool_t useRec = kTRUE) { fUseResponseRecJetPtBins = useRec; } static void SetProperties(TH1* h,const char* x, const char* y); static void SetProperties(TH1* h,const char* x, const char* y,const char* z); static void SetProperties(THnSparse* h,const Int_t dim, const char** labels); void SetHighPtThreshold(Float_t pt = 5.) { fQATrackHighPtThreshold = pt; } void SetFFHistoBins(Int_t nJetPt = 245, Float_t jetPtMin = 5, Float_t jetPtMax = 250, Int_t nPt = 200, Float_t ptMin = 0., Float_t ptMax = 200., Int_t nXi = 70, Float_t xiMin = 0., Float_t xiMax = 7., Int_t nZ = 22, Float_t zMin = 0., Float_t zMax = 1.1) { fFFNBinsJetPt = nJetPt; fFFJetPtMin = jetPtMin; fFFJetPtMax = jetPtMax; fFFNBinsPt = nPt; fFFPtMin = ptMin; fFFPtMax = ptMax; fFFNBinsXi = nXi; fFFXiMin = xiMin; fFFXiMax = xiMax; fFFNBinsZ = nZ; fFFZMin = zMin; fFFZMax = zMax; } void SetFFLogZBins(Bool_t flag = kTRUE) { fFFLogZBins = flag; } void SetQAJetHistoBins(Int_t nPt = 300, Float_t ptMin = 0., Float_t ptMax = 300., Int_t nEta = 20, Float_t etaMin = -1.0, Float_t etaMax = 1.0, Int_t nPhi = 60, Float_t phiMin = 0., Float_t phiMax = 2*TMath::Pi()) { fQAJetNBinsPt = nPt; fQAJetPtMin = ptMin; fQAJetPtMax = ptMax; fQAJetNBinsEta = nEta; fQAJetEtaMin = etaMin; fQAJetEtaMax = etaMax; fQAJetNBinsPhi = nPhi; fQAJetPhiMin = phiMin; fQAJetPhiMax = phiMax; } void SetQATrackHistoBins(Int_t nPt = 200, Float_t ptMin = 0., Float_t ptMax = 200., Int_t nEta = 20, Float_t etaMin = -1.0, Float_t etaMax = 1.0, Int_t nPhi = 60, Float_t phiMin = 0., Float_t phiMax = 2*TMath::Pi()) { fQATrackNBinsPt = nPt; fQATrackPtMin = ptMin; fQATrackPtMax = ptMax; fQATrackNBinsEta = nEta; fQATrackEtaMin = etaMin; fQATrackEtaMax = etaMax; fQATrackNBinsPhi = nPhi; fQATrackPhiMin = phiMin; fQATrackPhiMax = phiMax; } void SetPhiCorrHistoBins(Int_t nPt = 200, Float_t ptMin = 0., Float_t ptMax = 200., Int_t nEta = 1, Float_t etaMin = -0.9, Float_t etaMax = 0.9, Int_t nPhi = 64, Float_t phiMin = -3.2, Float_t phiMax = 3.2) { fPhiCorrNBinsPt = nPt; fPhiCorrPtMin = ptMin; fPhiCorrPtMax = ptMax; fPhiCorrNBinsEta = nEta; fPhiCorrEtaMin = etaMin; fPhiCorrEtaMax = etaMax; fPhiCorrNBinsPhi = nPhi; fPhiCorrPhiMin = phiMin; fPhiCorrPhiMax = phiMax; } void SetIJHistoBins(Int_t nJetPt = 23, Float_t jetPtMin = 5, Float_t jetPtMax = 120, Int_t nPt = 120, Float_t ptMin = 0., Float_t ptMax = 120., Int_t nZ = 22, Float_t zMin = 0., Float_t zMax = 1.1, Int_t nCosTheta = 100, Float_t costhetaMin = 0., Float_t costhetaMax = 1., Int_t nTheta = 200, Float_t thetaMin = -0.5, Float_t thetaMax = 1.5, Int_t nJt = 25, Float_t jtMin = 0., Float_t jtMax = 5.) { fIJNBinsJetPt = nJetPt; fIJJetPtMin = jetPtMin; fIJJetPtMax = jetPtMax; fIJNBinsPt = nPt; fIJPtMin = ptMin; fIJPtMax = ptMax; fIJNBinsZ = nZ; fIJZMin = zMin; fIJZMax = zMax;fIJNBinsCosTheta = nCosTheta; fIJCosThetaMin = costhetaMin; fIJCosThetaMax = costhetaMax; fIJNBinsTheta = nTheta; fIJThetaMin = thetaMin; fIJThetaMax = thetaMax; fIJNBinsJt = nJt; fIJJtMin = jtMin; fIJJtMax = jtMax; } void SetDiJetHistoBins(Int_t nJetInvMass = 245, Float_t jetInvMassMin = 5, Float_t jetInvMassMax = 250, Int_t nJetPt = 245, Float_t jetPtMin = 5, Float_t jetPtMax = 250, Int_t nPt = 200, Float_t ptMin = 0., Float_t ptMax = 200., Int_t nXi = 70, Float_t xiMin = 0., Float_t xiMax = 7., Int_t nZ = 22, Float_t zMin = 0., Float_t zMax = 1.1) { fDiJetNBinsJetInvMass = nJetInvMass; fDiJetJetInvMassMin = jetInvMassMin; fDiJetJetInvMassMax = jetInvMassMax; fDiJetNBinsJetPt = nJetPt; fDiJetJetPtMin = jetPtMin; fDiJetJetPtMax = jetPtMax; fDiJetNBinsPt = nPt; fDiJetPtMin = ptMin; fDiJetPtMax = ptMax; fDiJetNBinsXi = nXi; fDiJetXiMin = xiMin; fDiJetXiMax = xiMax; fDiJetNBinsZ = nZ; fDiJetZMin = zMin; fDiJetZMax = zMax; } void SetQADiJetHistoBins(Int_t nInvMass = 245, Float_t invMassMin = 5., Float_t invMassMax = 250., Int_t nJetPt = 245, Float_t jetPtMin = 5, Float_t jetPtMax = 250, Int_t nDeltaPhi = 100, Float_t deltaPhiMin = 0., Float_t deltaPhiMax = TMath::Pi(), Int_t nDeltaEta = 22, Float_t deltaEtaMin = 0., Float_t deltaEtaMax = 1.1, Int_t nDeltaPt = 100, Float_t deltaPtMin = 0., Float_t deltaPtMax = 100., Int_t nInBal = 22, Float_t inBalMin = -1.1, Float_t inBalMax = 1.1) { fQADiJetNBinsInvMass = nInvMass; fQADiJetInvMassMin = invMassMin; fQADiJetInvMassMax = invMassMax; fQADiJetNBinsJetPt = nJetPt; fQADiJetJetPtMin = jetPtMin; fQADiJetJetPtMax = jetPtMax; fQADiJetNBinsDeltaPhi = nDeltaPhi; fQADiJetDeltaPhiMin = deltaPhiMin; fQADiJetDeltaPhiMax = deltaPhiMax; fQADiJetNBinsDeltaEta = nDeltaEta; fQADiJetDeltaEtaMin = deltaEtaMin; fQADiJetDeltaEtaMax = deltaEtaMax; fQADiJetNBinsDeltaPt = nDeltaPt; fQADiJetDeltaPtMin = deltaPtMin; fQADiJetDeltaPtMax = deltaPtMax; fQADiJetNBinsInBal = nInBal; fQADiJetInBalMin = inBalMin; fQADiJetInBalMax = inBalMax; } Float_t GetFFRadius() const { return fFFRadius; } Float_t GetFFMaxTrackPt() const { return fFFMaxTrackPt; } Float_t GetFFMinNTracks() const { return fFFMinnTracks; } Float_t GetFFBckgRadius() const { return fFFBckgRadius; } void GetJetTracksTrackrefs(TList* l, const AliAODJet* j, const Double_t maxPt, Bool_t& isBadMaxPt); void GetJetTracksPointing(TList* in, TList* out, const AliAODJet* j, const Double_t r, Double_t& sumPt, const Double_t maxPt, Bool_t& isBadMaxPt); void GetTracksOutOfNJets(Int_t nCases, TList* in, TList* out, TList* jets, Double_t& pt); void GetTracksOutOfNJetsStat(Int_t nCases, TList* in, TList* out, TList* jets, Double_t& pt, Double_t &normFactor); void GetTracksTiltedwrpJetAxis(Float_t alpha, TList* inputlist, TList* outputlist, const AliAODJet* jet, Double_t radius, Double_t& sumPt); void GetTracksTiltedwrpJetAxisWindow(Float_t alpha, TList* inputlist, TList* outputlist, const AliAODJet* jet, Double_t radius, Double_t& sumPt, Double_t &normFactor); Double_t GetDiJetBin(Double_t invMass, Double_t leadingJetPt, Double_t eMean, Int_t kindSlices); // function to find which bin fill Double_t InvMass(const AliAODJet* jet1, const AliAODJet* jet2); void AssociateGenRec(TList* tracksAODMCCharged,TList* tracksRec, TArrayI& indexAODTr,TArrayI& indexMCTr,TArrayS& isRefGen,TH2F* fh2PtRecVsGen); void FillSingleTrackHistosRecGen(AliFragFuncQATrackHistos* trackQAGen, AliFragFuncQATrackHistos* trackQARec, TList* tracksGen, const TArrayI& indexAODTr, const TArrayS& isRefGen); void FillJetTrackHistosRecGen(TObject* histGen,TObject* histRec,Double_t jetPtGen,Double_t jetPtRec, TList* jetTrackList, const TList* tracksGen, const TArrayI& indexAODTr,const TArrayS& isRefGen, const Bool_t useRecJetPt); void FillTwoTrackHistosRecGen(TList* tracksGen, /*TList* tracksRec, const TArrayI& indexAODTr, */ const TArrayS& isRefGen); void FillSingleTrackResponse(THnSparse* hnResponse, TList* tracksGen, TList* tracksRec, const TArrayI& indexAODTr, const TArrayS& isGenPrim); void FillJetTrackResponse(THnSparse* hnResponsePt, THnSparse* hnResponseZ, THnSparse* hnResponseXi, Double_t jetPtGen, Double_t jetPtRec, TList* jetTrackList, const TList* tracksGen, TList* tracksRec, const TArrayI& indexAODTr, const TArrayS& isGenPrim,const Bool_t useRecJetPt); Float_t CalcJetArea(const Float_t etaJet, const Float_t rc) const; void GetClusterTracksOutOf1Jet(AliAODJet* jet, TList* outputlist, Double_t &normFactor); void GetClusterTracksMedian(TList* outputlist, Double_t &normFactor); void FillBckgHistos(Int_t type, TList* inputtracklist, TList* inputjetlist, AliAODJet* jet, Float_t leadTrackPt, TLorentzVector* leadTrackV, AliFragFuncHistos* ffbckghistocuts, AliFragFuncHistos* ffbckghistoleading,AliFragFuncIntraJetHistos* ijbckghistocuts, AliFragFuncIntraJetHistos* ijbckghistoleading,AliFragFuncQATrackHistos* qabckghistos); AliAODJet* GetAODBckgSubJet(AliAODJet* jet, Int_t method); // Consts enum {kTrackUndef=0, kTrackAOD, kTrackAODQualityCuts, kTrackAODCuts, kTrackAODExtra, kTrackAODExtraonly, kTrackAODExtraCuts, kTrackAODExtraonlyCuts, kTrackKineAll, kTrackKineCharged, kTrackKineChargedAcceptance, kTrackAODMCAll, kTrackAODMCCharged, kTrackAODMCChargedAcceptance, kTrackAODMCChargedSec}; enum {kJetsUndef=0, kJetsRec, kJetsRecAcceptance, kJetsGen, kJetsGenAcceptance, kJetsKine, kJetsKineAcceptance,kJetsEmbedded}; enum {kBckgPerp=0, kBckgOutLJ, kBckgOut2J, kBckgClusters, kBckgClustersOutLeading, kBckgOut3J, kBckgOutAJ, kBckgOutLJStat, kBckgOut2JStat, kBckgOut3JStat, kBckgOutAJStat, kBckgASide, kBckgASideWindow, kBckgPerpWindow}; protected: Int_t GetListOfTracks(TList* list, Int_t type); Int_t GetListOfJets(TList* list, Int_t type); Int_t GetListOfBckgJets(TList *list, Int_t type); AliESDEvent* fESD; // ESD event AliAODEvent* fAOD; // AOD event AliAODEvent* fAODJets; // AOD event with jet branch (case we have AOD both in input and output) AliAODExtension *fAODExtension; //! where we take the jets from can be input or output AOD //AliMCEvent* fMCEvent; // MC event TString fNonStdFile; // name of delta aod file to catch the extension TString fBranchRecJets; // branch name for reconstructed jets TString fBranchRecBackJets; // branch name for reconstructed background jets TString fBranchRecBckgClusters; // branch name for reconstructed background clusters TString fBranchGenJets; // branch name for generated jets TString fBranchEmbeddedJets; // branch name for embedded jets Int_t fTrackTypeGen; // type of generated tracks Int_t fJetTypeGen; // type of generated jets Int_t fJetTypeRecEff; // type of jets used for filling reconstruction efficiency histos Bool_t fUseAODInputJets; // take jets from in/output - only relevant if AOD event both in input AND output and we want to use output UInt_t fFilterMask; // filter bit for selected tracks Bool_t fUsePhysicsSelection; // switch for event selection UInt_t fEvtSelectionMask; // trigger class selection Int_t fEventClass; // centrality class selection Float_t fMaxVertexZ; // maximum abs(z) position of primiary vertex [cm] // track cuts Float_t fTrackPtCut; // track transverse momentum cut Float_t fTrackEtaMin; // track eta cut Float_t fTrackEtaMax; // track eta cut Float_t fTrackPhiMin; // track phi cut Float_t fTrackPhiMax; // track phi cut Int_t fUseExtraTracks; // +/- 1: embedded extra/extra only tracks, default: 0 (ignore extra tracks) Int_t fUseExtraTracksBgr; // +/- 1: background: use embedded extra/extra only tracks, default: 0 (ignore extra tracks) Float_t fCutFractionPtEmbedded; // cut on ratio of embedded pt found in jet Bool_t fUseEmbeddedJetAxis; // use axis of embedded jet for FF Bool_t fUseEmbeddedJetPt; // use axis of embedded jet for FF // jet cuts Float_t fJetPtCut; // jet transverse momentum cut Float_t fJetEtaMin; // jet eta cut Float_t fJetEtaMax; // jet eta cut Float_t fJetPhiMin; // jet phi cut Float_t fJetPhiMax; // jet phi cut // di-jet cuts Int_t fDiJetCut; // dijet cut selection Float_t fDiJetDeltaPhiCut; // delta phi cut value Float_t fDiJetPtFractionCut; // fraction of pt cut value Float_t fDiJetCDFCut; // cdf cut value Int_t fDiJetKindBins; // type of bins: invmass, etleading, emean Float_t fFFRadius; // if radius > 0 construct FF from tracks within cone around jet axis, otherwise use trackRefs Float_t fFFMaxTrackPt; // reject jets containing any track with pt larger than this value Int_t fFFMinnTracks; // reject jets with less tracks than this value Float_t fFFBckgRadius; // compute background outside cone of this radius around jet axes Bool_t fBckgMode; // Set background subtraction mode Int_t fBckgType[5]; // Set background subtraction mode Int_t fIJMode; // Set intrajet mode Int_t fQAMode; // QA mode: 0x00=0 none, 0x01=1 track qa, 0x10=2 track qa, 0x11=3 both Int_t fFFMode; // fragmentation function mode Int_t fDJMode; // dijet mode: 0x00=0 none, 0x01=1 di-jet, 0x10=2 di-jet qa, 0x11=3 both Int_t fEffMode; // efficiency mode Int_t fPhiCorrMode; // track phi correlation mode Bool_t fUseRecEffRecJetPtBins; // bin track reconstruction efficiency in reconstructed/generated jet pt bins Bool_t fUseResponseRecJetPtBins; // bin track response matrix in reconstructed/generated jet pt bins Float_t fAvgTrials; // average number of trials per event TList* fTracksRec; //! reconstructed tracks TList* fTracksRecCuts; //! reconstructed tracks after cuts TList* fTracksGen; //! generated tracks TList* fTracksAODMCCharged; //! AOD MC tracks TList* fTracksAODMCChargedSec; //! AOD MC tracks - secondaries TList* fTracksRecQualityCuts; //! reconstructed tracks after quality cuts, no acceptance/pt cut TList* fJetsRec; //! jets from reconstructed tracks TList* fJetsRecCuts; //! jets from reonstructed tracks after jet cuts TList* fJetsGen; //! jets from generated tracks TList* fJetsRecEff; //! jets used for reconstruction efficiency histos TList* fJetsEmbedded; //! jets used for embedding TList* fBckgJetsRec; //! jets from reconstructed tracks TList* fBckgJetsRecCuts; //! jets from reonstructed tracks after jet cuts TList* fBckgJetsGen; //! jets from generated tracks AliFragFuncQATrackHistos* fQATrackHistosRec; //! track QA: reconstructed tracks AliFragFuncQATrackHistos* fQATrackHistosRecCuts; //! track QA: reconstructed tracks after cuts AliFragFuncQATrackHistos* fQATrackHistosGen; //! track QA: generated tracks AliFragFuncQAJetHistos* fQAJetHistosRec; //! jet QA: jets from reconstructed tracks AliFragFuncQAJetHistos* fQAJetHistosRecCuts; //! jet QA: jets from reconstructed tracks after jet cuts AliFragFuncQAJetHistos* fQAJetHistosRecCutsLeading; //! jet QA: leading jet from reconstructed tracks after jet cuts AliFragFuncQAJetHistos* fQAJetHistosGen; //! jet QA: jets from generated tracks AliFragFuncQAJetHistos* fQAJetHistosGenLeading; //! jet QA: leading jet from generated tracks AliFragFuncQAJetHistos* fQAJetHistosRecEffLeading; //! jet QA: leading jet used for reconstruction efficiency histos AliFragFuncHistos* fFFHistosRecCuts; //! FF reconstructed tracks after cuts AliFragFuncHistos* fFFHistosRecLeading; //! FF reconstructed tracks after cuts: all reconstructed tracks pt / leading track pt AliFragFuncHistos* fFFHistosRecLeadingTrack; //! FF reconstructed tracks after cuts: leading track pt / jet pt AliFragFuncHistos* fFFHistosGen; //! FF generated tracks after cuts AliFragFuncHistos* fFFHistosGenLeading; //! FF generated tracks after cuts: all generated tracks pt / leading track pt AliFragFuncHistos* fFFHistosGenLeadingTrack; //! FF generated tracks after cuts: leading track pt / jet pt AliFragFuncIntraJetHistos* fIJHistosRecCuts; //! IJ reconstructed tracks after cuts AliFragFuncIntraJetHistos* fIJHistosRecLeading; //! IJ reconstructed tracks after cuts: all reconstructed tracks pt / leading track pt AliFragFuncIntraJetHistos* fIJHistosRecLeadingTrack; //! IJ reconstructed tracks after cuts: leading track pt / jet pt AliFragFuncIntraJetHistos* fIJHistosGen; //! IJ generated tracks after cuts AliFragFuncIntraJetHistos* fIJHistosGenLeading; //! IJ generated tracks after cuts: all generated tracks pt / leading track pt AliFragFuncIntraJetHistos* fIJHistosGenLeadingTrack; //! IJ generated tracks after cuts: leading track pt / jet pt AliFragFuncDiJetHistos* fFFDiJetHistosRecCuts; //! DiJet FF reconstructed tracks after cuts AliFragFuncDiJetHistos* fFFDiJetHistosRecLeading; //! DiJet FF reconstructed tracks after cuts: all reconstructed tracks pt / leading track pt AliFragFuncDiJetHistos* fFFDiJetHistosRecLeadingTrack; //! DiJet FF reconstructed tracks after cuts: leading track pt / jet pt AliFragFuncDiJetHistos* fFFDiJetHistosGen; //! DiJet FF generated tracks after cuts AliFragFuncDiJetHistos* fFFDiJetHistosGenLeading; //! DiJet FF generated tracks after cuts: all generated tracks pt / leading track pt AliFragFuncDiJetHistos* fFFDiJetHistosGenLeadingTrack; //! DiJet FF generated tracks after cuts: leading track pt / jet pt AliFragFuncQADiJetHistos* fQADiJetHistosRecCuts; //! Dijet QA : reconstructed tracks after cuts AliFragFuncQADiJetHistos* fQADiJetHistosGen; //! DiJet QA: jets from generated tracks AliFragFuncQATrackHistos* fPhiCorrHistosJetArea; //! tracks in area of leading jet (phi = phi_jet - phi_track, eta = eta_track) AliFragFuncQATrackHistos* fPhiCorrHistosTransverseArea; //! tracks in area transverse region (shift of phi by 90�) AliFragFuncQATrackHistos* fPhiCorrHistosAwayArea; //! tracks in area in away region (shift of phi by 180�) Float_t fQATrackHighPtThreshold; // track QA high transverse momentum threshold // histogram bins Int_t fFFNBinsJetPt; // FF histos bins Float_t fFFJetPtMin; // FF histos limits Float_t fFFJetPtMax; // FF histos limits Int_t fFFNBinsPt; // FF histos bins Float_t fFFPtMin; // FF histos limits Float_t fFFPtMax; // FF histos limits Int_t fFFNBinsXi; // FF histos bins Float_t fFFXiMin; // FF histos limits Float_t fFFXiMax; // FF histos limits Int_t fFFNBinsZ; // FF histos bins Float_t fFFZMin; // FF histos limits Float_t fFFZMax; // FF histos limits Bool_t fFFLogZBins; // use lin/log binning for FF dN/dz Int_t fQAJetNBinsPt; // jet QA histos bins Float_t fQAJetPtMin; // jet QA histos limits Float_t fQAJetPtMax; // jet QA histos limits Int_t fQAJetNBinsEta; // jet QA histos bins Float_t fQAJetEtaMin; // jet QA histos limits Float_t fQAJetEtaMax; // jet QA histos limits Int_t fQAJetNBinsPhi; // jet QA histos bins Float_t fQAJetPhiMin; // jet QA histos limits Float_t fQAJetPhiMax; // jet QA histos limits Int_t fQATrackNBinsPt; // track QA histos bins Float_t fQATrackPtMin; // track QA histos limits Float_t fQATrackPtMax; // track QA histos limits Int_t fQATrackNBinsEta; // track QA histos bins Float_t fQATrackEtaMin; // track QA histos limits Float_t fQATrackEtaMax; // track QA histos limits Int_t fQATrackNBinsPhi; // track QA histos bins Float_t fQATrackPhiMin; // track QA histos limits Float_t fQATrackPhiMax; // track QA histos limits Int_t fIJNBinsJetPt; // IJ histos bins Float_t fIJJetPtMin; // IJ histos limits Float_t fIJJetPtMax; // IJ histos limits Int_t fIJNBinsPt; // IJ histos bins Float_t fIJPtMin; // IJ histos limits Float_t fIJPtMax; // IJ histos limits Int_t fIJNBinsZ; // IJ histos bins Float_t fIJZMin; // IJ histos limits Float_t fIJZMax; // IJ histos limits Int_t fIJNBinsCosTheta; // IJ histos bins Float_t fIJCosThetaMin; // IJ histos limits Float_t fIJCosThetaMax; // IJ histos limits Int_t fIJNBinsTheta; // IJ histos bins Float_t fIJThetaMin; // IJ histos limits Float_t fIJThetaMax; // IJ histos limits Int_t fIJNBinsJt; // IJ histos bins Float_t fIJJtMin; // IJ histos limits Float_t fIJJtMax; // IJ histos limits Int_t fDiJetNBinsJetInvMass; // FF dijet histos bins Float_t fDiJetJetInvMassMin; // FF dijet histos limits Float_t fDiJetJetInvMassMax; // FF dijet histos limits Int_t fDiJetNBinsJetPt; // FF dijet histos bins Float_t fDiJetJetPtMin; // FF dijet histos limits Float_t fDiJetJetPtMax; // FF dijet histos limits Int_t fDiJetNBinsPt; // FF dijet histos bins Float_t fDiJetPtMin; // FF dijet histos limits Float_t fDiJetPtMax; // FF dijet histos limits Int_t fDiJetNBinsXi; // FF dijet histos bins Float_t fDiJetXiMin; // FF dijet histos limits Float_t fDiJetXiMax; // FF dijet histos limits Int_t fDiJetNBinsZ; // FF dijet histos bins Float_t fDiJetZMin; // FF dijet histos limits Float_t fDiJetZMax; // FF dijet histos limits Int_t fQADiJetNBinsInvMass; // dijet QA histos bins Float_t fQADiJetInvMassMin; // dijet QA histos limits Float_t fQADiJetInvMassMax; // dijet QA histos limits Int_t fQADiJetNBinsJetPt; // dijet QA histos bins Float_t fQADiJetJetPtMin; // dijet QA histos limits Float_t fQADiJetJetPtMax; // dijet QA histos limits Int_t fQADiJetNBinsDeltaPhi; // dijet QA histos bins Float_t fQADiJetDeltaPhiMin; // dijet QA histos limits Float_t fQADiJetDeltaPhiMax; // dijet QA histos limits Int_t fQADiJetNBinsDeltaEta; // dijet QA histos bins Float_t fQADiJetDeltaEtaMin; // dijet QA histos limits Float_t fQADiJetDeltaEtaMax; // dijet QA histos limits Int_t fQADiJetNBinsDeltaPt; // dijet QA histos bins Float_t fQADiJetDeltaPtMin; // dijet QA histos limits Float_t fQADiJetDeltaPtMax; // dijet QA histos limits Int_t fQADiJetNBinsInBal; // dijet QA histos bins Float_t fQADiJetInBalMin; // dijet QA histos limits Float_t fQADiJetInBalMax; // dijet QA histos limits // phi correlation Int_t fPhiCorrNBinsPt; // track related to jet histos bins Float_t fPhiCorrPtMin; // track related to jet histos limits Float_t fPhiCorrPtMax; // track related to jet histos limits Int_t fPhiCorrNBinsEta; // track related to jet histos bins Float_t fPhiCorrEtaMin; // track related to jet histos limits Float_t fPhiCorrEtaMax; // track related to jet histos limits Int_t fPhiCorrNBinsPhi; // track related to jet histos bins Float_t fPhiCorrPhiMin; // track related to jet histos limits Float_t fPhiCorrPhiMax; // track related to jet histos limits // Histograms TList *fCommonHistList; // List of common histos TH1F *fh1EvtSelection; //! event cuts TH1F *fh1VertexNContributors; //! NContributors to prim vertex TH1F *fh1VertexZ; //! prim vertex z distribution TH1F *fh1EvtMult; //! number of reconstructed tracks after cuts TH1F *fh1EvtCent; //! centrality percentile TH2F *fh2TrackPtVsDCAXY; //! track pt vs DCA TH2F *fh2TrackPtVsDCAZ; //! track pt vs DCA TProfile* fh1Xsec; //! pythia cross section and trials TH1F* fh1Trials; //! sum of trials TH1F* fh1PtHard; //! pt hard of the event TH1F* fh1PtHardTrials; //! pt hard of the event TH1F *fh1nRecJetsCuts; //! number of jets from reconstructed tracks per event TH1F *fh1nGenJets; //! number of jets from generated tracks per event TH1F *fh1nRecEffJets; //! number of jets for reconstruction eff per event TH1F *fh1nEmbeddedJets; //! number of embedded jets per event TH1F *fh1nRecBckgJetsCuts; //! number of jets from reconstructed tracks per event TH1F *fh1nGenBckgJets; //! number of jets from generated tracks per event TH2F *fh2PtRecVsGenPrim; //! association rec/gen MC: rec vs gen pt, primaries TH2F *fh2PtRecVsGenSec; //! association rec/gen MC: rec vs gen pt, secondaries // tracking efficiency / secondaries AliFragFuncQATrackHistos* fQATrackHistosRecEffGen; //! tracking efficiency: generated primaries AliFragFuncQATrackHistos* fQATrackHistosRecEffRec; //! tracking efficiency: reconstructed primaries AliFragFuncQATrackHistos* fQATrackHistosSecRec; //! reconstructed secondaries AliFragFuncHistos* fFFHistosRecEffGen; //! tracking efficiency: FF generated primaries AliFragFuncHistos* fFFHistosRecEffRec; //! tracking efficiency: FF reconstructed primaries AliFragFuncHistos* fFFHistosSecRec; //! secondary contamination: FF reconstructed secondaries // momentum resolution THnSparse* fhnResponseSinglePt; //! single track response pt TH2F* fh2SingleInvPtRecMnGenVsPtGen; //! single track response inv pt THnSparse* fhnResponseJetTrackPt; //! jet track response pt THnSparse* fhnResponseJetZ; //! jet track response z THnSparse* fhnResponseJetXi; //! jet track response xi // Background TH1F *fh1OutLeadingMult; //! background multiplicity outside leading jet TH1F *fh1OutLeadingStatMult; //! background multiplicity outside leading jet (stat) TH1F *fh1PerpMult; //! background multiplicity perpendicular to the leading jet TH1F *fh1ASideMult; //! background multiplicity perpendicular to the leading jet TH1F *fh1ASideWindowMult; //! background multiplicity perpendicular to the leading jet TH1F *fh1PerpWindowMult; //! background multiplicity perpendicular to the leading jet TH1F *fh1Out2JetsMult; //! background multiplicity outside 2 jets TH1F *fh1Out3JetsMult; //! background multiplicity outside 3 jets TH1F *fh1MedianClustersMult; //! background multiplicity median cluster TH1F *fh1OutClustersMult; //! background multiplicity clusters outside leading jet // embedding TH1F* fh1FractionPtEmbedded; //! ratio embedded pt in rec jet to embedded jet pt TH1F* fh1IndexEmbedded; //! index embedded jet matching to leading rec jet TH2F* fh2DeltaPtVsJetPtEmbedded; //! delta pt rec - embedded jet TH2F* fh2DeltaPtVsRecJetPtEmbedded; //! delta pt rec - embedded jet TH1F* fh1DeltaREmbedded; //! delta R rec - embedded jet // 2track resolution TH2F* fh2ptVsDistNN_pt50_rec; //! TH2F* fh2ptVsDistNN_pt50_nonRec; //! TH2F* fh2ptVsDistNN_pt10_rec; //! TH2F* fh2ptVsDistNN_pt10_nonRec; //! AliFragFuncQATrackHistos* fQABckgHisto0RecCuts; //! track QA: reconstructed tracks after cuts AliFragFuncQATrackHistos* fQABckgHisto0Gen; //! track QA: generated tracks AliFragFuncQATrackHistos* fQABckgHisto1RecCuts; //! track QA: reconstructed tracks after cuts AliFragFuncQATrackHistos* fQABckgHisto1Gen; //! track QA: generated tracks AliFragFuncQATrackHistos* fQABckgHisto2RecCuts; //! track QA: reconstructed tracks after cuts AliFragFuncQATrackHistos* fQABckgHisto2Gen; //! track QA: generated tracks AliFragFuncQATrackHistos* fQABckgHisto3RecCuts; //! track QA: reconstructed tracks after cuts AliFragFuncQATrackHistos* fQABckgHisto3Gen; //! track QA: generated tracks AliFragFuncQATrackHistos* fQABckgHisto4RecCuts; //! track QA: reconstructed tracks after cuts AliFragFuncQATrackHistos* fQABckgHisto4Gen; //! track QA: generated tracks AliFragFuncHistos* fFFBckgHisto0RecCuts; //! Bckg (outside leading jet or 2 jets or more) FF reconstructed tracks after cuts AliFragFuncHistos* fFFBckgHisto0RecLeading; //! Bckg (outside leading jet or 2 jets or more) FF reconstructed tracks after cuts: all reconstructed tracks pt / leading track pt AliFragFuncHistos* fFFBckgHisto0Gen; //! Bckg (outside leading jet or 2 jets or more) FF generated tracks after cuts AliFragFuncHistos* fFFBckgHisto0GenLeading; //! Bckg (outside leading jet or 2 jets or more) FF reconstructed tracks after cuts: all reconstructed tracks pt / leading track pt AliFragFuncHistos* fFFBckgHisto1RecCuts; //! Bckg (outside leading jet or 2 jets or more) FF reconstructed tracks after cuts AliFragFuncHistos* fFFBckgHisto1RecLeading; //! Bckg (outside leading jet or 2 jets or more) FF reconstructed tracks after cuts: all reconstructed tracks pt / leading track pt AliFragFuncHistos* fFFBckgHisto1Gen; //! Bckg (outside leading jet or 2 jets or more) FF generated tracks after cuts AliFragFuncHistos* fFFBckgHisto1GenLeading; //! Bckg (outside leading jet or 2 jets or more) FF reconstructed tracks after cuts: all reconstructed tracks pt / leading track pt AliFragFuncHistos* fFFBckgHisto2RecCuts; //! Bckg (outside leading jet or 2 jets or more) FF reconstructed tracks after cuts AliFragFuncHistos* fFFBckgHisto2RecLeading; //! Bckg (outside leading jet or 2 jets or more) FF reconstructed tracks after cuts: all reconstructed tracks pt / leading track pt AliFragFuncHistos* fFFBckgHisto2Gen; //! Bckg (outside leading jet or 2 jets or more) FF generated tracks after cuts AliFragFuncHistos* fFFBckgHisto2GenLeading; //! Bckg (outside leading jet or 2 jets or more) FF reconstructed tracks after cuts: all reconstructed tracks pt / leading track pt AliFragFuncHistos* fFFBckgHisto3RecCuts; //! Bckg (outside leading jet or 3 jets or more) FF reconstructed tracks after cuts AliFragFuncHistos* fFFBckgHisto3RecLeading; //! Bckg (outside leading jet or 3 jets or more) FF reconstructed tracks after cuts: all reconstructed tracks pt / leading track pt AliFragFuncHistos* fFFBckgHisto3Gen; //! Bckg (outside leading jet or 3 jets or more) FF generated tracks after cuts AliFragFuncHistos* fFFBckgHisto3GenLeading; //! Bckg (outside leading jet or 3 jets or more) FF reconstructed tracks after cuts: all reconstructed tracks pt / leading track pt AliFragFuncHistos* fFFBckgHisto4RecCuts; //! Bckg (outside leading jet or 4 jets or more) FF reconstructed tracks after cuts AliFragFuncHistos* fFFBckgHisto4RecLeading; //! Bckg (outside leading jet or 4 jets or more) FF reconstructed tracks after cuts: all reconstructed tracks pt / leading track pt AliFragFuncHistos* fFFBckgHisto4Gen; //! Bckg (outside leading jet or 4 jets or more) FF generated tracks after cuts AliFragFuncHistos* fFFBckgHisto4GenLeading; //! Bckg (outside leading jet or 4 jets or more) FF reconstructed tracks after cuts: all reconstructed tracks pt / leading track pt AliFragFuncIntraJetHistos* fIJBckgHisto0RecCuts; //! AliFragFuncIntraJetHistos* fIJBckgHisto0RecLeading; //! AliFragFuncIntraJetHistos* fIJBckgHisto0Gen; //! AliFragFuncIntraJetHistos* fIJBckgHisto0GenLeading; //! AliFragFuncIntraJetHistos* fIJBckgHisto1RecCuts; //! AliFragFuncIntraJetHistos* fIJBckgHisto1RecLeading; //! AliFragFuncIntraJetHistos* fIJBckgHisto1Gen; //! AliFragFuncIntraJetHistos* fIJBckgHisto1GenLeading; //! AliFragFuncIntraJetHistos* fIJBckgHisto2RecCuts; //! AliFragFuncIntraJetHistos* fIJBckgHisto2RecLeading; //! AliFragFuncIntraJetHistos* fIJBckgHisto2Gen; //! AliFragFuncIntraJetHistos* fIJBckgHisto2GenLeading; //! AliFragFuncIntraJetHistos* fIJBckgHisto3RecCuts; //! AliFragFuncIntraJetHistos* fIJBckgHisto3RecLeading; //! AliFragFuncIntraJetHistos* fIJBckgHisto3Gen; //! AliFragFuncIntraJetHistos* fIJBckgHisto3GenLeading; //! AliFragFuncIntraJetHistos* fIJBckgHisto4RecCuts; //! AliFragFuncIntraJetHistos* fIJBckgHisto4RecLeading; //! AliFragFuncIntraJetHistos* fIJBckgHisto4Gen; //! AliFragFuncIntraJetHistos* fIJBckgHisto4GenLeading; //! TRandom3* fRandom; // TRandom3 for background estimation Int_t fBckgSubMethod; // Bckg method: 1 = leading jet excluded, 2 = 2 most energetic jets excluded ClassDef(AliAnalysisTaskFragmentationFunction, 11); }; #endif