[u/mrichter/AliRoot.git] / PWGGA / EMCALTasks / AliAnalysisTaskEMCALCaloTrackCorr.h

#ifndef ALIANALYSISTASKEMCALCALOTRACKCORR_cxx\r
#define ALIANALYSISTASKEMCALCALOTRACKCORR_cxx\r
\r
class TList;\r
class TH1F;\r
class TH2F;\r
class TH1I;\r
class TString;\r
class TGeoHMatrix;\r
class TClonesArray;\r
class AliEMCALGeometry;\r
class AliEMCALRecoUtils;\r
class AliESDtrackCuts;\r
class AliESDEvent;\r
class AliMCEvent;\r
class AliStack;\r
class AliVCluster;\r
class AliFiducialCut;\r
class AliCaloTrackParticle;\r
class AliCentrality;\r
class AliEventplane;\r
class AliAnalysisManager;\r
class AliInputEventHandler;\r
\r
\r
#include "AliAnalysisTaskSE.h"\r
\r
class AliAnalysisTaskEMCALCaloTrackCorr : public AliAnalysisTaskSE {\r
public:\r
  AliAnalysisTaskEMCALCaloTrackCorr(const char *name = "AliAnalysisTaskEMCALCaloTrackCorr");\r
  virtual ~AliAnalysisTaskEMCALCaloTrackCorr() {}\r
  \r
  virtual void   UserCreateOutputObjects();\r
  virtual void   UserExec(Option_t *option);\r
  virtual void   Terminate(Option_t *);\r
\r
//  virtual  AliFiducialCut  *GetFiducialCut() { if(!fFidCut)  \r
//                      fFidCut = new AliFiducialCut(); return  fFidCut ; } \r
\r
\r
  enum type {kPtThresholdIC=0, kSumPtInConeIC=1, kPtFracationIC=2, kSumPtFracationIC=3};\r
  enum particleInCone { kIsolatedNeutralAndCharged=0, kIsolatedOnlyNeutral=1, kIsolatedOnlyCharged=2  };  \r
\r
  Int_t    GetMinNCells()           const { return fMinNCells  ; }\r
  Double_t GetMinE()                const { return fMinE       ; }\r
  Double_t GetMinDistBad()          const { return fMinDistBad ; }  \r
\r
  Int_t    GetDebug()               const { return fDebug ; }\r
  void     SetDebug(Int_t deb)            { fDebug = deb  ; }\r
\r
  Bool_t   IsDataMC()               const { return kMC ; }\r
  void     SetMC(Bool_t mc)               { kMC = mc   ; }\r
\r
  TString  GetDataType()            const { return fDataType ; }\r
  void     SetDataType(TString data)      { fDataType = data ; }\r
\r
  Int_t    GetHistoPtBins()         const { return fHistoPtBins  ; }\r
  Float_t  GetHistoPtMin()          const { return fHistoPtMin   ; }\r
  Float_t  GetHistoPtMax()          const { return fHistoPtMax   ; }\r
\r
  void    SetHistoPtRangeAndNBins(Float_t min, Float_t max, Int_t n)\r
          {fHistoPtBins = n; fHistoPtMax = max; fHistoPtMin = min;}\r
\r
  Int_t    GetHistoPhiBins()        const { return fHistoPhiBins  ; }\r
  Float_t  GetHistoPhiMin()         const { return fHistoPhiMin   ; }\r
  Float_t  GetHistoPhiMax()         const { return fHistoPhiMax   ; }\r
\r
  void    SetHistoPhiRangeAndNBins(Float_t min, Float_t max, Int_t n) \r
          {fHistoPhiBins = n; fHistoPhiMax = max; fHistoPhiMin = min;}\r
\r
  Int_t    GetHistoEtaBins()        const { return fHistoEtaBins  ; }\r
  Float_t  GetHistoEtaMin()         const { return fHistoEtaMin   ; }\r
  Float_t  GetHistoEtaMax()         const { return fHistoEtaMax   ; }\r
\r
  void    SetHistoEtaRangeAndNBins(Float_t min, Float_t max, Int_t n) \r
          {fHistoEtaBins = n; fHistoEtaMax = max; fHistoEtaMin = min;}\r
\r
\r
\r
  Float_t  GetConeR()               const { return fSetConeR          ; }\r
  Float_t  GetPtThreshold()         const { return fSetPtThreshold    ; }\r
  Float_t  GetSumPtThreshold()      const { return fSetSumPtThreshold ; }\r
  Float_t  GetPtFraction()          const { return fSetPtFraction     ; }\r
  TString  GetICMethod()            const { return fICMethod          ; }\r
  TString  GetParticleTypeInCone()  const { return fParticlesInCone    ; }\r
  \r
  void   SetMinNCells(Int_t n)                { fMinNCells   = n  ; }\r
  void   SetMinE(Double_t pt)                 { fMinE        = pt ; }\r
  void   SetMinDistBad(Double_t fn)           { fMinDistBad = fn ; }\r
  \r
  void   SetConeR(Float_t r)              { fSetConeR          = r       ; }\r
  void   SetPtThreshold(Float_t pt)       { fSetPtThreshold    = pt      ; }\r
  void   SetSumPtThreshold(Float_t s)     { fSetSumPtThreshold = s       ; }\r
  void   SetPtFraction(Float_t pt)        { fSetPtFraction     = pt      ; }\r
  void   SetICMethod(Int_t iMethod )      { fICMethod          = iMethod ; }\r
  void   SetParticleTypeInCone(Int_t i)   { fParticlesInCone    = i       ; }\r
 \r
  void   SwitchOnAnaIsolated()            { kDoIsolatedAna = kTRUE  ; }\r
  void   SwitchOffAnaIsolated()           { kDoIsolatedAna = kFALSE ; }\r
\r
  void   SwitchOnTrackMultBins()          { kDoTrackMultBins = kTRUE ; }\r
  void   SwitchOffTrackMultBins()         { kDoTrackMultBins = kTRUE ; }\r
\r
  void   SetAnaUELeftRightOrNearAway(Bool_t leftright, Bool_t nearaway) {\r
                                                   kUELeftRight = leftright,\r
                                                   kUENearAway  = nearaway ; }\r
  void   SwitchOnTwoTracksCorr()     { kTwoTracksCorr = kTRUE    ; }\r
  void   SwitchOffTwoTracksCorr()    { kTwoTracksCorr = kFALSE   ; }  \r
\r
  void   SelectDecayPhotonCorr(Bool_t decayphoton) {kDecayPhotonCorr = decayphoton;}\r
\r
  void   SetAnaMCTruthOrPrimaryCorr(Bool_t kAnatruth, Bool_t kAnaprimary){\r
                                             kAnaMCTruthCorr = kAnatruth,\r
                                             kAnaMCPrimaryCorr = kAnaprimary ; }\r
\r
  void   SetAnaMCPrimaryParticle(Bool_t kpi0, Bool_t keta, Bool_t kphoton){\r
                                                    kAnaPi0Prim = kpi0,\r
                                                    kAnaEtaPrim = keta,\r
                                                    kAnaPhotonPrim = kphoton ; }\r
  // Taking the absolute leading as the trigger or not\r
  Bool_t  DoAbsoluteLeading()         const { return kMakeAbsoluteLeading   ; }\r
  void    SwitchOnAbsoluteLeading()         { kMakeAbsoluteLeading = kTRUE  ; }\r
  void    SwitchOffAbsoluteLeading()        { kMakeAbsoluteLeading = kFALSE ; }\r
\r
  // Taking the near side leading as the trigger or not\r
  Bool_t  DoNearSideLeading()         const { return kMakeNearSideLeading   ; }\r
  void    SwitchOnNearSideLeading()         { kMakeNearSideLeading = kTRUE  ; }\r
  void    SwitchOffNearSideLeading()        { kMakeNearSideLeading = kFALSE ; }\r
  \r
  void    SwitchOnInAcceptance()            { kPhotonInAcceptance = kTRUE   ; }\r
  void    SwitchOffInAcceptance()           { kPhotonInAcceptance = kFALSE  ; }\r
 \r
  void    SwitchOnAnaMapping()              { kAnaDecayMapping = kTRUE  ; }\r
  void    SwitchOffAnaMapping()             { kAnaDecayMapping = kFALSE ; }\r
\r
//  Bool_t  IsFiducialCutOn()           const { return fCheckFidCut           ; }\r
//  void    SwitchOnFiducialCut()             { fCheckFidCut = kTRUE;\r
 //                                  if(!fFidCut)fFidCut = new AliFiducialCut();}\r
//  void    SwitchOffFiducialCut()            { fCheckFidCut = kFALSE         ; }\r
\r
  void    SetNTriggPtBins(Int_t nbins)      { fNTriggPtBins = nbins ; }\r
  Int_t   GetNTriggPtBins()           const { return fNTriggPtBins  ; }\r
  void    SetTriggerBins(Float_t *ptTriggBins);\r
\r
  void    SetNAssocPtBins(Int_t mbins)      { fNAssocPtBins = mbins ; }\r
  Int_t   GetNAssocPtBins()           const { return fNAssocPtBins  ; }\r
  void    SetAssociatedBins(Float_t *ptAssocBins);\r
\r
  Float_t GetDeltaPhiMaxCut()         const { return fDeltaPhiMaxCut ; }\r
  Float_t GetDeltaPhiMinCut()         const { return fDeltaPhiMinCut ; }\r
  void     SetDeltaPhiCutRange(Float_t phimin, Float_t phimax)\r
                {fDeltaPhiMaxCut = phimax;  fDeltaPhiMinCut = phimin ; } \r
 \r
  void   SetMixedEventsPool(Int_t n)        { nMixedEvents = n ; }\r
  void   SwitchOnAnaMixEvent()              { kDoMixEventsAna = kTRUE    ; }\r
  void   SwitchOffAnaMixEvent()             { kDoMixEventsAna = kFALSE   ; }\r
\r
  void   SwitchOnFillMesonAOD()             { kDoMesonFill = kTRUE  ; }\r
  void   SwitchOffFillMesonAOD()            { kDoMesonFill = kFALSE ; }\r
\r
  void   SwitchOnFillMesonHistos()          { kNeutralMesonHistos = kTRUE  ; }\r
  void   SwitchOffFillMesonHistos()         { kNeutralMesonHistos = kFALSE ; }\r
\r
  void   SwitchOnAnaMesonCorr()             { kDoMesonCorrAna = kTRUE  ; }\r
  void   SwitchOffAnaMesonCorr()            { kDoMesonCorrAna = kFALSE ; }\r
\r
  void   SwitchOnAnaPhotonCorr()            { kDoPhotonCorrAna = kTRUE  ; }\r
  void   SwitchOffAnaPhotonCorr()           { kDoPhotonCorrAna = kFALSE ; }  \r
\r
  void   SwitchOnEventTriggerAtSE()         { kEventTriggerAtSE = kTRUE ; }\r
  void   SwitchOffEventTriggerAtSE()        { kEventTriggerAtSE = kFALSE; }\r
\r
  void   SwithchOnPhotonPairTimeCut()       { kPhotonPairTimeCut = kTRUE ;}\r
  void   SwithchOffPhotonPairTimeCut()      { kPhotonPairTimeCut = kFALSE ;}\r
\r
  void   SwithchOnPhotonIDCut()             { kDoPhotonIDCut = kTRUE  ; }\r
  void   SwithchOffPhotonIDCut()            { kDoPhotonIDCut = kFALSE ; }\r
\r
  TString GetAnaTypeInIsolated()         const { return fAnaTypeInIsolated ; }\r
  void    SetAnaTypeInIsolated(TString & part) { fAnaTypeInIsolated = part ; }\r
\r
  Float_t GetDeltaPhiHRSize()           const { return fDeltaPhiHRSize   ; }\r
  void SetDeltaPhiHRSize(Float_t fHRphi)       { fDeltaPhiHRSize = fHRphi ; }\r
\r
  Float_t  GetUeDeltaPhiSize()           const { return fUeDeltaPhiSize ; }\r
  Float_t  GetUeDeltaPhiFix()            const { return fUeDeltaPhiFix  ; }\r
  void     SetUeDeltaPhiFixAndSize(Float_t uefix, Float_t uesize)\r
                    { fUeDeltaPhiFix = uefix,  fUeDeltaPhiSize = uesize ; }\r
\r
  void     SetAssociatedPtBegin(Float_t begin) {fptAssociatedBegin = begin;}\r
\r
  void     SetLargeCorrTrigger(Float_t ftrigger1, Float_t ftrigger2) \r
                 {fptTriggerBegin = ftrigger1, fptTriggerEnd   = ftrigger2; }\r
\r
  void    SwitchOnAsymmetryCut()             { kDoAsymmetryCut = kTRUE  ; }\r
  void    SwitchOffAsymmetryCut()            { kDoAsymmetryCut = kFALSE ; }\r
  void    SetAsymmetryCut(Float_t asycut)    { fAsymmetryCut = asycut ; }\r
\r
  void    SwitchOnAODHybridTrackSelection()  { kDoSelectHybridTracks = kTRUE ;}\r
  void    SwitchOffAODHybridTrackSelection() { kDoSelectHybridTracks = kFALSE;}  \r
  void    SetAnaMesonType(TString fmesontype){ fAnaMesonType = fmesontype ; }\r
\r
  void    SetCentralityBin(Int_t min, Int_t max)\r
                       { fCentralityBinMin = min; fCentralityBinMax = max ; }\r
  void    SetCentralityClass(TString name)   { fCentralityClass   = name  ; }\r
  \r
  void    SetEventPlaneMethod(TString m)     { fEventPlaneMethod = m      ; }\r
\r
  UInt_t  GetEventTriggerMask()        const { return fEventTriggerMaks   ; }\r
  void    SetEventTriggerMask(UInt_t evtTrig = AliVEvent::kAny)\r
                                        { fEventTriggerMaks = evtTrig     ; }\r
  void    SetNCentralityBins(Int_t fcenbins) { fNCentralityBins = fcenbins; }\r
  void    SetNEventPlaneBins(Int_t fevbins)  { fNEventPlaneBins = fevbins ; }\r
\r
  void    SetEMCALLambda0Cut(Float_t l0min, Float_t l0max)\r
                                   { fL0CutMin = l0min, fL0CutMax = l0max ; }\r
  void    SetClusterTimeCut(Float_t timemin, Float_t timemax){\r
                             fTimeCutMin = timemin, fTimeCutMax = timemax ; }\r
  void    SetPhotonPairDeltaTimeCut(Float_t deltatime)\r
                                         { fPhotonPairTimeCut = deltatime ; }\r
 \r
  void    SetTrackMatchedDPhiCut(Float_t dphicut){ fEMCALDPhiCut = dphicut; }\r
  void    SetTrackMatchedDEtaCut(Float_t detacut){ fEMCALDEtaCut = detacut; }\r
\r
  void    SetMesonInMassRangeCut(Float_t inmass1, Float_t inmass2){\r
                        fInvMassMinCut = inmass1, fInvMassMaxCut = inmass2 ; }\r
\r
  void    SetMesonInMassLeftRangeCut(Float_t leftmin, Float_t leftmax){\r
                      fLeftBandMinCut = leftmin, fLeftBandMaxCut = leftmax ; }\r
\r
  void    SetMesonInMassRightRangeCut(Float_t rightmin, Float_t rightmax){\r
                  fRightBandMinCut = rightmin, fRightBandMaxCut = rightmax ; }\r
 \r
  void    SetEMCALGeometryName(TString name) { fEMCALGeomName = name ; }\r
\r
  void    SetTrackCuts(AliESDtrackCuts * cuts);\r
 \r
  void    SetZvertexCut(Float_t fzcut) { fZVertexCut = fzcut ; }\r
\r
  void    SetTrackFilterMask(ULong_t bit)  { fTrackFilterMask = bit ; }\r
  \r
 \r
private:\r
  AliAnalysisTaskEMCALCaloTrackCorr(const AliAnalysisTaskEMCALCaloTrackCorr&); // not implemented\r
  AliAnalysisTaskEMCALCaloTrackCorr& operator=(const AliAnalysisTaskEMCALCaloTrackCorr&); // not implemented\r
\r
  ////////////Add function\r
  void    InitParameters();\r
 \r
  Bool_t  FillInputEvent();\r
\r
  Bool_t  SelectPair(AliCaloTrackParticle *mesonCandidate);\r
  Bool_t  IsolatedPhoton(TClonesArray *fEMCALEventIsolated, \r
                         TClonesArray *fCTSEventIsolated,\r
                         Int_t fIndexPhotonCan,  Double_t ptPhotonCan,\r
                         Double_t phiPhotonCan, Double_t etaPhotonCan);\r
  void    FillInputPhoton();\r
  void    FillInputMeson() ;\r
  void    FillInputTrack() ;\r
  Bool_t  MakeChargedCorrelation(Int_t fTrackIndex, Double_t ptTrigg, \r
                               Double_t phiTrigg, Double_t etaTrigg);\r
  void    MakeChargedMixCorrelation(Double_t ptTriggMix,  Double_t phiTriggMix,\r
                            Double_t etaTriggMix, TList *poolMix);\r
private:\r
  enum {kNtriggPtBins=10, kNassocPtBins=10};\r
\r
  AliAnalysisManager    *fManager;\r
  AliInputEventHandler  *fInputHandler;\r
\r
  AliVEvent   *fEvent;\r
  AliMCEvent    *fMCEvent;\r
  AliStack      *fStack;\r
  AliCentrality *fCentrality;\r
  AliEventplane *fEventPlane;\r
\r
  AliEMCALRecoUtils *fEMCALRecU;\r
  AliEMCALGeometry  *fEMCALGeom;\r
  AliESDtrackCuts   *fESDtrackCuts;\r
  //  AliFiducialCut    *fFidCut;\r
\r
  TList    *outputContainer;\r
\r
  TString  fEMCALGeomName; \r
  TString  fCentralityClass;    \r
  Int_t    fCentralityBinMin;\r
  Int_t    fCentralityBinMax;\r
  TString  fEventPlaneMethod;\r
  UInt_t   fEventTriggerMaks;\r
  Int_t    fNCentralityBins;\r
  Int_t    fNEventPlaneBins;\r
 \r
  Int_t    fHistoPtBins ; \r
  Float_t  fHistoPtMax  ; \r
  Float_t  fHistoPtMin  ; \r
  Int_t    fHistoPhiBins; \r
  Float_t  fHistoPhiMax ;\r
  Float_t  fHistoPhiMin ;\r
  Int_t    fHistoEtaBins;\r
  Float_t  fHistoEtaMax ;\r
  Float_t  fHistoEtaMin ;\r
 \r
  Int_t    fMinNCells;\r
  Float_t  fMinE;\r
  Double_t fMinDistBad;\r
  Float_t  fL0CutMin;\r
  Float_t  fL0CutMax;\r
  Float_t  fTimeCutMin;\r
  Float_t  fTimeCutMax;\r
  Float_t  fPhotonPairTimeCut;\r
  Float_t  fEMCALDPhiCut;\r
  Float_t  fEMCALDEtaCut;\r
  Float_t  fZVertexCut; \r
  Int_t    fDebug;         \r
  TString  fAnaMesonType;\r
  Float_t  fAsymmetryCut;\r
  TString  fDataType;\r
  ULong_t  fTrackFilterMask;\r
\r
  Float_t  fInvMassMinCut;\r
  Float_t  fInvMassMaxCut;\r
  Float_t  fLeftBandMinCut;\r
  Float_t  fLeftBandMaxCut;\r
  Float_t  fRightBandMinCut;\r
  Float_t  fRightBandMaxCut;\r
\r
  Bool_t  kMC;\r
  Bool_t  kNeutralMesonHistos;\r
  Bool_t  kDoMixEventsAna;\r
  Bool_t  kDoPhotonCorrAna;\r
  Bool_t  kDoAsymmetryCut;\r
  Bool_t  kDoSelectHybridTracks;\r
  Bool_t  kDoMesonFill;\r
  Bool_t  kDoMesonCorrAna;\r
  Bool_t  kDoIsolatedAna;\r
  Bool_t  kDoTrackMultBins;\r
  Bool_t  kUELeftRight;\r
  Bool_t  kUENearAway;\r
  Bool_t  kDecayPhotonCorr;\r
  Bool_t  kAnaMCTruthCorr;\r
  Bool_t  kAnaMCPrimaryCorr;\r
  Bool_t  kAnaPi0Prim;\r
  Bool_t  kAnaEtaPrim;\r
  Bool_t  kAnaPhotonPrim;\r
  Bool_t  kMakeAbsoluteLeading;\r
  Bool_t  kMakeNearSideLeading;\r
  Bool_t  kTwoTracksCorr;\r
  Bool_t  kPhotonInAcceptance;\r
  Bool_t  kAnaDecayMapping;\r
//  Bool_t  fCheckFidCut;\r
  Bool_t  kEventTriggerAtSE;\r
  Bool_t  kPhotonPairTimeCut;\r
  Bool_t  kDoPhotonIDCut;\r
\r
  TH1F     *fhNEvents;        \r
  Int_t    fnEvents;\r
  TH1F     *fhNEventsAnalyized;\r
  Int_t    fEventAnalyized;\r
  TClonesArray  *fPhotonEvent;\r
  TClonesArray  *fPhotonPairEvent;\r
  TClonesArray  *fCTSEvent;\r
  Int_t    nPhotonsEMCAL;\r
  Int_t    nTracksCTS;\r
  TString  fAnaTypeInIsolated;\r
  Int_t    nMixedEvents;\r
  Float_t  fSetConeR;\r
  Float_t  fSetPtThreshold;\r
  Float_t  fSetSumPtThreshold;\r
  Float_t  fSetPtFraction;\r
  Int_t    fICMethod;\r
  Int_t    fParticlesInCone;\r
\r
  Float_t  *fTriggPtArray;\r
  Int_t    fNTriggPtBins;\r
  Float_t  fptTriggerBegin;\r
  Float_t  fptTriggerEnd;\r
  Float_t  *fAssocPtArray;\r
  Int_t    fNAssocPtBins;\r
  Float_t  fptAssociatedBegin;\r
\r
  Float_t  fDeltaPhiMaxCut;\r
  Float_t  fDeltaPhiMinCut;\r
  Float_t  fUeDeltaPhiSize;\r
  Float_t  fUeDeltaPhiFix;\r
  Float_t  fDeltaPhiHRSize;\r
\r
  TH1F * fhPhotonE;\r
  TH2F * fhPhotonPtPhi;\r
  TH2F * fhPhotonPtEta;\r
  TH2F * fhPhotonPhiEta;\r
\r
  TH1F * fhMesonE;\r
  TH2F * fhMesonPtPhi;\r
  TH2F * fhMesonPtEta;\r
  TH2F * fhMesonPhiEta;\r
\r
  TH2F * fhAnglePairNoCut;\r
  TH2F * fhInvMassPairNoCut;\r
  TH2F * fhAsyNoCut;\r
  TH2F * fhInvMassPairAsyCut; \r
  TH2F * fhAnglePairAsyCut;\r
  TH2F * fhInvMassPairPhi;\r
  TH2F * fhInvMassPairEta;\r
  TH2F * fhInvMassPairAllCut;\r
  TH2F * fhAnglePairAllCut;\r
  TH2F * fhAsyAllCut;\r
  TH2F * fhPi0DecayPhoton1;\r
  TH2F * fhPi0DecayPhoton1Dphi;\r
  TH2F * fhDecayPhoton1Pi0Dphi;\r
  TH2F * fhPi0DecayPhoton2;\r
  TH2F * fhPi0DecayPhoton2Dphi;\r
  TH2F * fhDecayPhoton2Pi0Dphi;\r
  TH2F * fhDecayPhoton1Photon2;\r
  TH2F * fhDecayPhoton1Photon2Dphi;\r
  TH2F * fhDecayPhoton2Photon1Dphi;\r
\r
  TH1F * fhNtracksAll;\r
  TH1F * fhNtracksEMC7;\r
  TH1F * fhNtracksAnyINT;\r
  TH1F * fhNtracksCentral;\r
  TH1F * fhNtracksSemiCentral;\r
  TH1F * fhNtracksOtherTirgger;\r
  TH1F * fhNtracksCorr;\r
  TH2F * fhTrackPtPhi;\r
  TH2F * fhTrackPtEta;\r
  TH2F * fhTrackPhiEta;\r
  TH2F * fhPtPhiLeading;        //! phi distribution vs pT of leading\r
  TH2F * fhPtEtaLeading;        //! eta distribution vs pT of leading\r
  TH2F * fhMixPtPhiLeading;        //! phi distribution vs pT of leading\r
  TH2F * fhMixPtEtaLeading;        //! eta distribution vs pT of leading\r
 \r
  TH2F * fhDPhiTriggPtAssocPt;\r
  TH2F * fhDEtaTriggPtAssocPt;\r
  TH2F * fhAssocPtTriggPt;\r
  TH2F * fhxELogTriggPt;\r
  TH2F * fhpoutTriggPt;\r
  TH2F * fhzTTriggPt;\r
  TH2F * fhxETriggPt;       \r
  TH2F * fhAssocPtTriggPtHR;\r
  TH2F * fhxELogTriggPtHR;\r
  TH2F * fhpoutTriggPtHR;\r
  TH2F * fhzTTriggPtHR;\r
  TH2F * fhxETriggPtHR;\r
  TH2F * fhNUeAssocPtTriggPt;\r
  TH2F * fhNUepoutTriggPt;\r
  TH2F * fhNUexETriggPt;\r
  TH2F * fhNUezTTriggPt;\r
  TH2F * fhNUexELogTriggPt;\r
  TH2F * fhNUeDPhiDEta;\r
  TH2F * fhAUeAssocPtTriggPt;\r
  TH2F * fhAUepoutTriggPt;\r
  TH2F * fhAUezTTriggPt; \r
  TH2F * fhAUexETriggPt;\r
  TH2F * fhAUexELogTriggPt;\r
  TH2F * fhAUeDPhiDEta;\r
\r
  TH2F * fhMCPtPhiLeading;        //! phi distribution vs pT of leading\r
  TH2F * fhMCPtEtaLeading;        //! eta distribution vs pT of leading\r
\r
  TH2F * fhMCAssocPtTriggPt;\r
  TH2F * fhMCxELogTriggPt;\r
  TH2F * fhMCpoutTriggPt;\r
  TH2F * fhMCzTTriggPt;\r
  TH2F * fhMCxETriggPt;\r
  TH2F * fhMCAssocPtTriggPtHR;\r
  TH2F * fhMCxELogTriggPtHR;\r
  TH2F * fhMCpoutTriggPtHR;\r
  TH2F * fhMCzTTriggPtHR;\r
  TH2F * fhMCxETriggPtHR;\r
  TH2F * fhMCNUeAssocPtTriggPt;\r
  TH2F * fhMCNUepoutTriggPt;\r
  TH2F * fhMCNUexETriggPt;\r
  TH2F * fhMCNUezTTriggPt;\r
  TH2F * fhMCNUexELogTriggPt;\r
  TH2F * fhMCAUeAssocPtTriggPt;\r
  TH2F * fhMCAUepoutTriggPt;\r
  TH2F * fhMCAUezTTriggPt;\r
  TH2F * fhMCAUexETriggPt;\r
  TH2F * fhMCAUexELogTriggPt;\r
\r
  TH2F * fhDPhiAssocPt15T;\r
  TH2F * fhDEtaAssocPt15T;\r
  TH2F * fhMixDPhiAssocPt15T;\r
  TH2F * fhMixDEtaAssocPt15T;\r
  TH2F * fhMCDPhiAssocPt15T;\r
  TH2F * fhMCDEtaAssocPt15T;\r
\r
  TList* fListMixEvents[10][10][10]; \r
 \r
  TH2F  *fhDPhiTriggPtT[kNassocPtBins];\r
  TH2F  *fhDEtaTriggPtT[kNassocPtBins];\r
  TH2F  *fhMixDPhiTriggPtT[kNassocPtBins];\r
  TH2F  *fhMixDEtaTriggPtT[kNassocPtBins];\r
\r
  TH2F  *fhDPhiSumPtBin[kNtriggPtBins][kNassocPtBins];\r
  TH2F  *fhDEtaSumPtBin[kNtriggPtBins][kNassocPtBins];\r
  TH2F  *fhDPhiDEtaBin[kNtriggPtBins][kNassocPtBins];\r
  TH2F  *fhMixDPhiDEtaBin[kNtriggPtBins][kNassocPtBins];\r
\r
  TH2F  *fhDPhiAssocPtA[kNtriggPtBins];\r
  TH2F  *fhDEtaAssocPtA[kNtriggPtBins];\r
  TH2F  *fhMixDPhiAssocPtA[kNtriggPtBins];\r
  TH2F  *fhMixDEtaAssocPtA[kNtriggPtBins];\r
\r
  TH2F  *fhMCDPhiTriggPtT[kNassocPtBins];\r
  TH2F  *fhMCDEtaTriggPtT[kNassocPtBins];\r
\r
  TH2F  *fhMCDPhiSumPtBin[kNtriggPtBins][kNassocPtBins];\r
  TH2F  *fhMCDEtaSumPtBin[kNtriggPtBins][kNassocPtBins];\r
  TH2F  *fhMCDPhiDEtaBin[kNtriggPtBins][kNassocPtBins];\r
\r
  TH2F  *fhMCDPhiAssocPtA[kNtriggPtBins];\r
  TH2F  *fhMCDEtaAssocPtA[kNtriggPtBins];\r
\r
  ClassDef(AliAnalysisTaskEMCALCaloTrackCorr, 1); // example of analysis\r
};\r
\r
#endif\r
Commit	Line	Data
364c8fcb	1	#ifndef ALIANALYSISTASKEMCALCALOTRACKCORR_cxx\r
	2	#define ALIANALYSISTASKEMCALCALOTRACKCORR_cxx\r
	3	\r
	4	class TList;\r
	5	class TH1F;\r
	6	class TH2F;\r
	7	class TH1I;\r
	8	class TString;\r
	9	class TGeoHMatrix;\r
	10	class TClonesArray;\r
	11	class AliEMCALGeometry;\r
	12	class AliEMCALRecoUtils;\r
	13	class AliESDtrackCuts;\r
	14	class AliESDEvent;\r
	15	class AliMCEvent;\r
	16	class AliStack;\r
	17	class AliVCluster;\r
	18	class AliFiducialCut;\r
9c1fcdc6	19	class AliCaloTrackParticle;\r
364c8fcb	20	class AliCentrality;\r
	21	class AliEventplane;\r
	22	class AliAnalysisManager;\r
	23	class AliInputEventHandler;\r
	24	\r
	25	\r
	26	#include "AliAnalysisTaskSE.h"\r
	27	\r
	28	class AliAnalysisTaskEMCALCaloTrackCorr : public AliAnalysisTaskSE {\r
	29	public:\r
	30	AliAnalysisTaskEMCALCaloTrackCorr(const char *name = "AliAnalysisTaskEMCALCaloTrackCorr");\r
	31	virtual ~AliAnalysisTaskEMCALCaloTrackCorr() {}\r
	32	\r
	33	virtual void UserCreateOutputObjects();\r
	34	virtual void UserExec(Option_t *option);\r
	35	virtual void Terminate(Option_t *);\r
	36	\r
	37	// virtual AliFiducialCut *GetFiducialCut() { if(!fFidCut) \r
	38	// fFidCut = new AliFiducialCut(); return fFidCut ; } \r
	39	\r
	40	\r
	41	enum type {kPtThresholdIC=0, kSumPtInConeIC=1, kPtFracationIC=2, kSumPtFracationIC=3};\r
	42	enum particleInCone { kIsolatedNeutralAndCharged=0, kIsolatedOnlyNeutral=1, kIsolatedOnlyCharged=2 }; \r
	43	\r
	44	Int_t GetMinNCells() const { return fMinNCells ; }\r
	45	Double_t GetMinE() const { return fMinE ; }\r
44e6df08	46	Double_t GetMinDistBad() const { return fMinDistBad ; } \r
364c8fcb	47	\r
	48	Int_t GetDebug() const { return fDebug ; }\r
	49	void SetDebug(Int_t deb) { fDebug = deb ; }\r
	50	\r
	51	Bool_t IsDataMC() const { return kMC ; }\r
	52	void SetMC(Bool_t mc) { kMC = mc ; }\r
	53	\r
	54	TString GetDataType() const { return fDataType ; }\r
	55	void SetDataType(TString data) { fDataType = data ; }\r
	56	\r
	57	Int_t GetHistoPtBins() const { return fHistoPtBins ; }\r
	58	Float_t GetHistoPtMin() const { return fHistoPtMin ; }\r
	59	Float_t GetHistoPtMax() const { return fHistoPtMax ; }\r
	60	\r
	61	void SetHistoPtRangeAndNBins(Float_t min, Float_t max, Int_t n)\r
	62	{fHistoPtBins = n; fHistoPtMax = max; fHistoPtMin = min;}\r
	63	\r
	64	Int_t GetHistoPhiBins() const { return fHistoPhiBins ; }\r
	65	Float_t GetHistoPhiMin() const { return fHistoPhiMin ; }\r
	66	Float_t GetHistoPhiMax() const { return fHistoPhiMax ; }\r
	67	\r
	68	void SetHistoPhiRangeAndNBins(Float_t min, Float_t max, Int_t n) \r
	69	{fHistoPhiBins = n; fHistoPhiMax = max; fHistoPhiMin = min;}\r
	70	\r
	71	Int_t GetHistoEtaBins() const { return fHistoEtaBins ; }\r
	72	Float_t GetHistoEtaMin() const { return fHistoEtaMin ; }\r
	73	Float_t GetHistoEtaMax() const { return fHistoEtaMax ; }\r
	74	\r
	75	void SetHistoEtaRangeAndNBins(Float_t min, Float_t max, Int_t n) \r
	76	{fHistoEtaBins = n; fHistoEtaMax = max; fHistoEtaMin = min;}\r
	77	\r
	78	\r
	79	\r
	80	Float_t GetConeR() const { return fSetConeR ; }\r
	81	Float_t GetPtThreshold() const { return fSetPtThreshold ; }\r
	82	Float_t GetSumPtThreshold() const { return fSetSumPtThreshold ; }\r
	83	Float_t GetPtFraction() const { return fSetPtFraction ; }\r
	84	TString GetICMethod() const { return fICMethod ; }\r
	85	TString GetParticleTypeInCone() const { return fParticlesInCone ; }\r
	86	\r
	87	void SetMinNCells(Int_t n) { fMinNCells = n ; }\r
	88	void SetMinE(Double_t pt) { fMinE = pt ; }\r
44e6df08	89	void SetMinDistBad(Double_t fn) { fMinDistBad = fn ; }\r
364c8fcb	90	\r
	91	void SetConeR(Float_t r) { fSetConeR = r ; }\r
	92	void SetPtThreshold(Float_t pt) { fSetPtThreshold = pt ; }\r
	93	void SetSumPtThreshold(Float_t s) { fSetSumPtThreshold = s ; }\r
	94	void SetPtFraction(Float_t pt) { fSetPtFraction = pt ; }\r
	95	void SetICMethod(Int_t iMethod ) { fICMethod = iMethod ; }\r
	96	void SetParticleTypeInCone(Int_t i) { fParticlesInCone = i ; }\r
	97	\r
	98	void SwitchOnAnaIsolated() { kDoIsolatedAna = kTRUE ; }\r
	99	void SwitchOffAnaIsolated() { kDoIsolatedAna = kFALSE ; }\r
	100	\r
	101	void SwitchOnTrackMultBins() { kDoTrackMultBins = kTRUE ; }\r
	102	void SwitchOffTrackMultBins() { kDoTrackMultBins = kTRUE ; }\r
	103	\r
	104	void SetAnaUELeftRightOrNearAway(Bool_t leftright, Bool_t nearaway) {\r
	105	kUELeftRight = leftright,\r
	106	kUENearAway = nearaway ; }\r
	107	void SwitchOnTwoTracksCorr() { kTwoTracksCorr = kTRUE ; }\r
	108	void SwitchOffTwoTracksCorr() { kTwoTracksCorr = kFALSE ; } \r
	109	\r
	110	void SelectDecayPhotonCorr(Bool_t decayphoton) {kDecayPhotonCorr = decayphoton;}\r
	111	\r
	112	void SetAnaMCTruthOrPrimaryCorr(Bool_t kAnatruth, Bool_t kAnaprimary){\r
	113	kAnaMCTruthCorr = kAnatruth,\r
	114	kAnaMCPrimaryCorr = kAnaprimary ; }\r
	115	\r
	116	void SetAnaMCPrimaryParticle(Bool_t kpi0, Bool_t keta, Bool_t kphoton){\r
	117	kAnaPi0Prim = kpi0,\r
	118	kAnaEtaPrim = keta,\r
	119	kAnaPhotonPrim = kphoton ; }\r
	120	// Taking the absolute leading as the trigger or not\r
	121	Bool_t DoAbsoluteLeading() const { return kMakeAbsoluteLeading ; }\r
	122	void SwitchOnAbsoluteLeading() { kMakeAbsoluteLeading = kTRUE ; }\r
	123	void SwitchOffAbsoluteLeading() { kMakeAbsoluteLeading = kFALSE ; }\r
	124	\r
	125	// Taking the near side leading as the trigger or not\r
	126	Bool_t DoNearSideLeading() const { return kMakeNearSideLeading ; }\r
	127	void SwitchOnNearSideLeading() { kMakeNearSideLeading = kTRUE ; }\r
	128	void SwitchOffNearSideLeading() { kMakeNearSideLeading = kFALSE ; }\r
	129	\r
	130	void SwitchOnInAcceptance() { kPhotonInAcceptance = kTRUE ; }\r
	131	void SwitchOffInAcceptance() { kPhotonInAcceptance = kFALSE ; }\r
	132	\r
	133	void SwitchOnAnaMapping() { kAnaDecayMapping = kTRUE ; }\r
	134	void SwitchOffAnaMapping() { kAnaDecayMapping = kFALSE ; }\r
	135	\r
	136	// Bool_t IsFiducialCutOn() const { return fCheckFidCut ; }\r
	137	// void SwitchOnFiducialCut() { fCheckFidCut = kTRUE;\r
	138	// if(!fFidCut)fFidCut = new AliFiducialCut();}\r
	139	// void SwitchOffFiducialCut() { fCheckFidCut = kFALSE ; }\r
	140	\r
	141	void SetNTriggPtBins(Int_t nbins) { fNTriggPtBins = nbins ; }\r
	142	Int_t GetNTriggPtBins() const { return fNTriggPtBins ; }\r
	143	void SetTriggerBins(Float_t *ptTriggBins);\r
	144	\r
	145	void SetNAssocPtBins(Int_t mbins) { fNAssocPtBins = mbins ; }\r
	146	Int_t GetNAssocPtBins() const { return fNAssocPtBins ; }\r
	147	void SetAssociatedBins(Float_t *ptAssocBins);\r
	148	\r
	149	Float_t GetDeltaPhiMaxCut() const { return fDeltaPhiMaxCut ; }\r
	150	Float_t GetDeltaPhiMinCut() const { return fDeltaPhiMinCut ; }\r
	151	void SetDeltaPhiCutRange(Float_t phimin, Float_t phimax)\r
	152	{fDeltaPhiMaxCut = phimax; fDeltaPhiMinCut = phimin ; } \r
	153	\r
154	void SetMixedEventsPool(Int_t n) { nMixedEvents = n ; }\r
155	void SwitchOnAnaMixEvent() { kDoMixEventsAna = kTRUE ; }\r
156	void SwitchOffAnaMixEvent() { kDoMixEventsAna = kFALSE ; }\r
157	\r
158	void SwitchOnFillMesonAOD() { kDoMesonFill = kTRUE ; }\r
159	void SwitchOffFillMesonAOD() { kDoMesonFill = kFALSE ; }\r
160	\r
161	void SwitchOnFillMesonHistos() { kNeutralMesonHistos = kTRUE ; }\r
162	void SwitchOffFillMesonHistos() { kNeutralMesonHistos = kFALSE ; }\r
163	\r
164	void SwitchOnAnaMesonCorr() { kDoMesonCorrAna = kTRUE ; }\r
165	void SwitchOffAnaMesonCorr() { kDoMesonCorrAna = kFALSE ; }\r
166	\r
167	void SwitchOnAnaPhotonCorr() { kDoPhotonCorrAna = kTRUE ; }\r
168	void SwitchOffAnaPhotonCorr() { kDoPhotonCorrAna = kFALSE ; } \r
169	\r
170	void SwitchOnEventTriggerAtSE() { kEventTriggerAtSE = kTRUE ; }\r
171	void SwitchOffEventTriggerAtSE() { kEventTriggerAtSE = kFALSE; }\r
172	\r
173	void SwithchOnPhotonPairTimeCut() { kPhotonPairTimeCut = kTRUE ;}\r
174	void SwithchOffPhotonPairTimeCut() { kPhotonPairTimeCut = kFALSE ;}\r
175	\r
176	void SwithchOnPhotonIDCut() { kDoPhotonIDCut = kTRUE ; }\r
177	void SwithchOffPhotonIDCut() { kDoPhotonIDCut = kFALSE ; }\r
178	\r
179	TString GetAnaTypeInIsolated() const { return fAnaTypeInIsolated ; }\r
180	void SetAnaTypeInIsolated(TString & part) { fAnaTypeInIsolated = part ; }\r
181	\r
182	Float_t GetDeltaPhiHRSize() const { return fDeltaPhiHRSize ; }\r
183	void SetDeltaPhiHRSize(Float_t fHRphi) { fDeltaPhiHRSize = fHRphi ; }\r
184	\r
185	Float_t GetUeDeltaPhiSize() const { return fUeDeltaPhiSize ; }\r
186	Float_t GetUeDeltaPhiFix() const { return fUeDeltaPhiFix ; }\r
187	void SetUeDeltaPhiFixAndSize(Float_t uefix, Float_t uesize)\r
188	{ fUeDeltaPhiFix = uefix, fUeDeltaPhiSize = uesize ; }\r
189	\r
190	void SetAssociatedPtBegin(Float_t begin) {fptAssociatedBegin = begin;}\r
191	\r
192	void SetLargeCorrTrigger(Float_t ftrigger1, Float_t ftrigger2) \r
193	{fptTriggerBegin = ftrigger1, fptTriggerEnd = ftrigger2; }\r
194	\r
195	void SwitchOnAsymmetryCut() { kDoAsymmetryCut = kTRUE ; }\r
196	void SwitchOffAsymmetryCut() { kDoAsymmetryCut = kFALSE ; }\r
197	void SetAsymmetryCut(Float_t asycut) { fAsymmetryCut = asycut ; }\r
198	\r
199	void SwitchOnAODHybridTrackSelection() { kDoSelectHybridTracks = kTRUE ;}\r
200	void SwitchOffAODHybridTrackSelection() { kDoSelectHybridTracks = kFALSE;} \r
201	void SetAnaMesonType(TString fmesontype){ fAnaMesonType = fmesontype ; }\r
202	\r
44e6df08	203	void SetCentralityBin(Int_t min, Int_t max)\r
44e6df08	204	{ fCentralityBinMin = min; fCentralityBinMax = max ; }\r
364c8fcb	205	void SetCentralityClass(TString name) { fCentralityClass = name ; }\r
	206	\r
	207	void SetEventPlaneMethod(TString m) { fEventPlaneMethod = m ; }\r
	208	\r
	209	UInt_t GetEventTriggerMask() const { return fEventTriggerMaks ; }\r
	210	void SetEventTriggerMask(UInt_t evtTrig = AliVEvent::kAny)\r
	211	{ fEventTriggerMaks = evtTrig ; }\r
44e6df08	212	void SetNCentralityBins(Int_t fcenbins) { fNCentralityBins = fcenbins; }\r
44e6df08	213	void SetNEventPlaneBins(Int_t fevbins) { fNEventPlaneBins = fevbins ; }\r
364c8fcb	214	\r
	215	void SetEMCALLambda0Cut(Float_t l0min, Float_t l0max)\r
	216	{ fL0CutMin = l0min, fL0CutMax = l0max ; }\r
	217	void SetClusterTimeCut(Float_t timemin, Float_t timemax){\r
	218	fTimeCutMin = timemin, fTimeCutMax = timemax ; }\r
	219	void SetPhotonPairDeltaTimeCut(Float_t deltatime)\r
	220	{ fPhotonPairTimeCut = deltatime ; }\r
	221	\r
	222	void SetTrackMatchedDPhiCut(Float_t dphicut){ fEMCALDPhiCut = dphicut; }\r
	223	void SetTrackMatchedDEtaCut(Float_t detacut){ fEMCALDEtaCut = detacut; }\r
	224	\r
	225	void SetMesonInMassRangeCut(Float_t inmass1, Float_t inmass2){\r
	226	fInvMassMinCut = inmass1, fInvMassMaxCut = inmass2 ; }\r
	227	\r
	228	void SetMesonInMassLeftRangeCut(Float_t leftmin, Float_t leftmax){\r
	229	fLeftBandMinCut = leftmin, fLeftBandMaxCut = leftmax ; }\r
	230	\r
	231	void SetMesonInMassRightRangeCut(Float_t rightmin, Float_t rightmax){\r
	232	fRightBandMinCut = rightmin, fRightBandMaxCut = rightmax ; }\r
	233	\r
	234	void SetEMCALGeometryName(TString name) { fEMCALGeomName = name ; }\r
	235	\r
	236	void SetTrackCuts(AliESDtrackCuts * cuts);\r
	237	\r
	238	void SetZvertexCut(Float_t fzcut) { fZVertexCut = fzcut ; }\r
	239	\r
	240	void SetTrackFilterMask(ULong_t bit) { fTrackFilterMask = bit ; }\r
	241	\r
	242	\r
	243	private:\r
	244	AliAnalysisTaskEMCALCaloTrackCorr(const AliAnalysisTaskEMCALCaloTrackCorr&); // not implemented\r
	245	AliAnalysisTaskEMCALCaloTrackCorr& operator=(const AliAnalysisTaskEMCALCaloTrackCorr&); // not implemented\r
	246	\r
	247	////////////Add function\r
	248	void InitParameters();\r
	249	\r
	250	Bool_t FillInputEvent();\r
	251	\r
9c1fcdc6	252	Bool_t SelectPair(AliCaloTrackParticle *mesonCandidate);\r
364c8fcb	253	Bool_t IsolatedPhoton(TClonesArray *fEMCALEventIsolated, \r
	254	TClonesArray *fCTSEventIsolated,\r
	255	Int_t fIndexPhotonCan, Double_t ptPhotonCan,\r
	256	Double_t phiPhotonCan, Double_t etaPhotonCan);\r
	257	void FillInputPhoton();\r
	258	void FillInputMeson() ;\r
	259	void FillInputTrack() ;\r
	260	Bool_t MakeChargedCorrelation(Int_t fTrackIndex, Double_t ptTrigg, \r
	261	Double_t phiTrigg, Double_t etaTrigg);\r
	262	void MakeChargedMixCorrelation(Double_t ptTriggMix, Double_t phiTriggMix,\r
	263	Double_t etaTriggMix, TList *poolMix);\r
	264	private:\r
	265	enum {kNtriggPtBins=10, kNassocPtBins=10};\r
	266	\r
	267	AliAnalysisManager *fManager;\r
	268	AliInputEventHandler *fInputHandler;\r
	269	\r
	270	AliVEvent *fEvent;\r
	271	AliMCEvent *fMCEvent;\r
	272	AliStack *fStack;\r
	273	AliCentrality *fCentrality;\r
	274	AliEventplane *fEventPlane;\r
	275	\r
	276	AliEMCALRecoUtils *fEMCALRecU;\r
	277	AliEMCALGeometry *fEMCALGeom;\r
	278	AliESDtrackCuts *fESDtrackCuts;\r
	279	// AliFiducialCut *fFidCut;\r
	280	\r
	281	TList *outputContainer;\r
	282	\r
	283	TString fEMCALGeomName; \r
	284	TString fCentralityClass; \r
	285	Int_t fCentralityBinMin;\r
	286	Int_t fCentralityBinMax;\r
	287	TString fEventPlaneMethod;\r
	288	UInt_t fEventTriggerMaks;\r
44e6df08	289	Int_t fNCentralityBins;\r
44e6df08	290	Int_t fNEventPlaneBins;\r
364c8fcb	291	\r
	292	Int_t fHistoPtBins ; \r
	293	Float_t fHistoPtMax ; \r
	294	Float_t fHistoPtMin ; \r
	295	Int_t fHistoPhiBins; \r
	296	Float_t fHistoPhiMax ;\r
	297	Float_t fHistoPhiMin ;\r
	298	Int_t fHistoEtaBins;\r
	299	Float_t fHistoEtaMax ;\r
	300	Float_t fHistoEtaMin ;\r
	301	\r
	302	Int_t fMinNCells;\r
	303	Float_t fMinE;\r
44e6df08	304	Double_t fMinDistBad;\r
364c8fcb	305	Float_t fL0CutMin;\r
	306	Float_t fL0CutMax;\r
	307	Float_t fTimeCutMin;\r
	308	Float_t fTimeCutMax;\r
	309	Float_t fPhotonPairTimeCut;\r
	310	Float_t fEMCALDPhiCut;\r
	311	Float_t fEMCALDEtaCut;\r
	312	Float_t fZVertexCut; \r
	313	Int_t fDebug; \r
	314	TString fAnaMesonType;\r
	315	Float_t fAsymmetryCut;\r
	316	TString fDataType;\r
	317	ULong_t fTrackFilterMask;\r
	318	\r
	319	Float_t fInvMassMinCut;\r
	320	Float_t fInvMassMaxCut;\r
	321	Float_t fLeftBandMinCut;\r
	322	Float_t fLeftBandMaxCut;\r
	323	Float_t fRightBandMinCut;\r
	324	Float_t fRightBandMaxCut;\r
	325	\r
	326	Bool_t kMC;\r
	327	Bool_t kNeutralMesonHistos;\r
	328	Bool_t kDoMixEventsAna;\r
	329	Bool_t kDoPhotonCorrAna;\r
	330	Bool_t kDoAsymmetryCut;\r
	331	Bool_t kDoSelectHybridTracks;\r
	332	Bool_t kDoMesonFill;\r
	333	Bool_t kDoMesonCorrAna;\r
	334	Bool_t kDoIsolatedAna;\r
	335	Bool_t kDoTrackMultBins;\r
	336	Bool_t kUELeftRight;\r
	337	Bool_t kUENearAway;\r
	338	Bool_t kDecayPhotonCorr;\r
	339	Bool_t kAnaMCTruthCorr;\r
	340	Bool_t kAnaMCPrimaryCorr;\r
	341	Bool_t kAnaPi0Prim;\r
	342	Bool_t kAnaEtaPrim;\r
	343	Bool_t kAnaPhotonPrim;\r
	344	Bool_t kMakeAbsoluteLeading;\r
	345	Bool_t kMakeNearSideLeading;\r
	346	Bool_t kTwoTracksCorr;\r
	347	Bool_t kPhotonInAcceptance;\r
	348	Bool_t kAnaDecayMapping;\r
	349	// Bool_t fCheckFidCut;\r
	350	Bool_t kEventTriggerAtSE;\r
	351	Bool_t kPhotonPairTimeCut;\r
	352	Bool_t kDoPhotonIDCut;\r
	353	\r
	354	TH1F *fhNEvents; \r
	355	Int_t fnEvents;\r
	356	TH1F *fhNEventsAnalyized;\r
	357	Int_t fEventAnalyized;\r
	358	TClonesArray *fPhotonEvent;\r
	359	TClonesArray *fPhotonPairEvent;\r
	360	TClonesArray *fCTSEvent;\r
	361	Int_t nPhotonsEMCAL;\r
	362	Int_t nTracksCTS;\r
	363	TString fAnaTypeInIsolated;\r
	364	Int_t nMixedEvents;\r
	365	Float_t fSetConeR;\r
	366	Float_t fSetPtThreshold;\r
	367	Float_t fSetSumPtThreshold;\r
	368	Float_t fSetPtFraction;\r
369	Int_t fICMethod;\r
370	Int_t fParticlesInCone;\r
371	\r
372	Float_t *fTriggPtArray;\r
373	Int_t fNTriggPtBins;\r
374	Float_t fptTriggerBegin;\r
375	Float_t fptTriggerEnd;\r
376	Float_t *fAssocPtArray;\r
377	Int_t fNAssocPtBins;\r
378	Float_t fptAssociatedBegin;\r
379	\r
380	Float_t fDeltaPhiMaxCut;\r
381	Float_t fDeltaPhiMinCut;\r
382	Float_t fUeDeltaPhiSize;\r
383	Float_t fUeDeltaPhiFix;\r
384	Float_t fDeltaPhiHRSize;\r
385	\r
386	TH1F * fhPhotonE;\r
387	TH2F * fhPhotonPtPhi;\r
388	TH2F * fhPhotonPtEta;\r
389	TH2F * fhPhotonPhiEta;\r
390	\r
391	TH1F * fhMesonE;\r
392	TH2F * fhMesonPtPhi;\r
393	TH2F * fhMesonPtEta;\r
394	TH2F * fhMesonPhiEta;\r
395	\r
396	TH2F * fhAnglePairNoCut;\r
397	TH2F * fhInvMassPairNoCut;\r
398	TH2F * fhAsyNoCut;\r
399	TH2F * fhInvMassPairAsyCut; \r
400	TH2F * fhAnglePairAsyCut;\r
401	TH2F * fhInvMassPairPhi;\r
402	TH2F * fhInvMassPairEta;\r
403	TH2F * fhInvMassPairAllCut;\r
404	TH2F * fhAnglePairAllCut;\r
405	TH2F * fhAsyAllCut;\r
406	TH2F * fhPi0DecayPhoton1;\r
407	TH2F * fhPi0DecayPhoton1Dphi;\r
408	TH2F * fhDecayPhoton1Pi0Dphi;\r
409	TH2F * fhPi0DecayPhoton2;\r
410	TH2F * fhPi0DecayPhoton2Dphi;\r
411	TH2F * fhDecayPhoton2Pi0Dphi;\r
412	TH2F * fhDecayPhoton1Photon2;\r
413	TH2F * fhDecayPhoton1Photon2Dphi;\r
414	TH2F * fhDecayPhoton2Photon1Dphi;\r
415	\r
416	TH1F * fhNtracksAll;\r
417	TH1F * fhNtracksEMC7;\r
418	TH1F * fhNtracksAnyINT;\r
419	TH1F * fhNtracksCentral;\r
420	TH1F * fhNtracksSemiCentral;\r
421	TH1F * fhNtracksOtherTirgger;\r
422	TH1F * fhNtracksCorr;\r
423	TH2F * fhTrackPtPhi;\r
424	TH2F * fhTrackPtEta;\r
425	TH2F * fhTrackPhiEta;\r
426	TH2F * fhPtPhiLeading; //! phi distribution vs pT of leading\r
427	TH2F * fhPtEtaLeading; //! eta distribution vs pT of leading\r
428	TH2F * fhMixPtPhiLeading; //! phi distribution vs pT of leading\r
429	TH2F * fhMixPtEtaLeading; //! eta distribution vs pT of leading\r
430	\r
431	TH2F * fhDPhiTriggPtAssocPt;\r
432	TH2F * fhDEtaTriggPtAssocPt;\r
433	TH2F * fhAssocPtTriggPt;\r
434	TH2F * fhxELogTriggPt;\r
435	TH2F * fhpoutTriggPt;\r
436	TH2F * fhzTTriggPt;\r
437	TH2F * fhxETriggPt; \r
438	TH2F * fhAssocPtTriggPtHR;\r
439	TH2F * fhxELogTriggPtHR;\r
440	TH2F * fhpoutTriggPtHR;\r
441	TH2F * fhzTTriggPtHR;\r
442	TH2F * fhxETriggPtHR;\r
443	TH2F * fhNUeAssocPtTriggPt;\r
444	TH2F * fhNUepoutTriggPt;\r
445	TH2F * fhNUexETriggPt;\r
446	TH2F * fhNUezTTriggPt;\r
447	TH2F * fhNUexELogTriggPt;\r
448	TH2F * fhNUeDPhiDEta;\r
449	TH2F * fhAUeAssocPtTriggPt;\r
450	TH2F * fhAUepoutTriggPt;\r
451	TH2F * fhAUezTTriggPt; \r
452	TH2F * fhAUexETriggPt;\r
453	TH2F * fhAUexELogTriggPt;\r
454	TH2F * fhAUeDPhiDEta;\r
455	\r
456	TH2F * fhMCPtPhiLeading; //! phi distribution vs pT of leading\r
457	TH2F * fhMCPtEtaLeading; //! eta distribution vs pT of leading\r
458	\r
459	TH2F * fhMCAssocPtTriggPt;\r
460	TH2F * fhMCxELogTriggPt;\r
461	TH2F * fhMCpoutTriggPt;\r
462	TH2F * fhMCzTTriggPt;\r
463	TH2F * fhMCxETriggPt;\r
464	TH2F * fhMCAssocPtTriggPtHR;\r
465	TH2F * fhMCxELogTriggPtHR;\r
466	TH2F * fhMCpoutTriggPtHR;\r
467	TH2F * fhMCzTTriggPtHR;\r
468	TH2F * fhMCxETriggPtHR;\r
469	TH2F * fhMCNUeAssocPtTriggPt;\r
470	TH2F * fhMCNUepoutTriggPt;\r
471	TH2F * fhMCNUexETriggPt;\r
472	TH2F * fhMCNUezTTriggPt;\r
473	TH2F * fhMCNUexELogTriggPt;\r
474	TH2F * fhMCAUeAssocPtTriggPt;\r
475	TH2F * fhMCAUepoutTriggPt;\r
476	TH2F * fhMCAUezTTriggPt;\r
477	TH2F * fhMCAUexETriggPt;\r
478	TH2F * fhMCAUexELogTriggPt;\r
479	\r
480	TH2F * fhDPhiAssocPt15T;\r
481	TH2F * fhDEtaAssocPt15T;\r
482	TH2F * fhMixDPhiAssocPt15T;\r
483	TH2F * fhMixDEtaAssocPt15T;\r
484	TH2F * fhMCDPhiAssocPt15T;\r
485	TH2F * fhMCDEtaAssocPt15T;\r
486	\r
487	TList* fListMixEvents[10][10][10]; \r
488	\r
489	TH2F *fhDPhiTriggPtT[kNassocPtBins];\r
490	TH2F *fhDEtaTriggPtT[kNassocPtBins];\r
491	TH2F *fhMixDPhiTriggPtT[kNassocPtBins];\r
492	TH2F *fhMixDEtaTriggPtT[kNassocPtBins];\r
493	\r
494	TH2F *fhDPhiSumPtBin[kNtriggPtBins][kNassocPtBins];\r
495	TH2F *fhDEtaSumPtBin[kNtriggPtBins][kNassocPtBins];\r
496	TH2F *fhDPhiDEtaBin[kNtriggPtBins][kNassocPtBins];\r
497	TH2F *fhMixDPhiDEtaBin[kNtriggPtBins][kNassocPtBins];\r
498	\r
499	TH2F *fhDPhiAssocPtA[kNtriggPtBins];\r
500	TH2F *fhDEtaAssocPtA[kNtriggPtBins];\r
501	TH2F *fhMixDPhiAssocPtA[kNtriggPtBins];\r
502	TH2F *fhMixDEtaAssocPtA[kNtriggPtBins];\r
503	\r
504	TH2F *fhMCDPhiTriggPtT[kNassocPtBins];\r
505	TH2F *fhMCDEtaTriggPtT[kNassocPtBins];\r
506	\r
507	TH2F *fhMCDPhiSumPtBin[kNtriggPtBins][kNassocPtBins];\r
508	TH2F *fhMCDEtaSumPtBin[kNtriggPtBins][kNassocPtBins];\r
509	TH2F *fhMCDPhiDEtaBin[kNtriggPtBins][kNassocPtBins];\r
510	\r
511	TH2F *fhMCDPhiAssocPtA[kNtriggPtBins];\r
512	TH2F *fhMCDEtaAssocPtA[kNtriggPtBins];\r
513	\r
514	ClassDef(AliAnalysisTaskEMCALCaloTrackCorr, 1); // example of analysis\r
515	};\r
516	\r
517	#endif\r