Re-added the 3D view

[u/mrichter/AliRoot.git] / PWGJE / AliAnalysisTaskJetCore.h

#ifndef ALIANALYSISTASKJETCORE_H
#define ALIANALYSISTASKJETCORE_H

/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 * See cxx source for full Copyright notice                               */

// **************************************
// This task computes several jet observables like 
// the fraction of energy in inner and outer coronnas,
// the distance from track to jet axis and a 
// correlation strength distribution of particles inside jets.    
// Author: lcunquei@cern.ch
// *******************************************

class TH1F;
class TH1I;
class TH2F;
class TH3F;
class THnSparse;
class TRandom3;
class AliESDEvent;
class AliAODExtension;
class AliAODEvent;

#include "AliAnalysisTaskSE.h"
#include "AliVEvent.h"

class AliAnalysisTaskJetCore : public AliAnalysisTaskSE {
public:
   AliAnalysisTaskJetCore();
   AliAnalysisTaskJetCore(const char *name);
   virtual ~AliAnalysisTaskJetCore();
   virtual void     LocalInit() {Init();}
   virtual void     Init();
   virtual void     UserCreateOutputObjects();
   virtual void     UserExec(Option_t *option);
   virtual void     Terminate(const Option_t*);

   virtual Int_t      GetNInputTracks();
     // Rongrong
   virtual void     SetRunAzimuthalCorrelation(Bool_t run) {fRunAnaAzimuthalCorrelation=run;}  
   Double_t RelativePhi(Double_t angle1,Double_t angle2);     
   Int_t   GetPhiBin(Double_t phi);
   virtual THnSparse* NewTHnSparseF(const char* name, UInt_t entries);
   virtual void       GetDimParams(Int_t iEntry,TString &label, Int_t &nbins, Double_t &xmin, Double_t &xmax);
   virtual AliVEvent::EOfflineTriggerTypes GetOfflineTrgMask() const { return fOfflineTrgMask; }
   virtual void     GetBranchNames(TString &branch1, TString &branch2) const { branch1 = fJetBranchName[0]; branch2 = fJetBranchName[1]; }
   virtual Bool_t   GetIsPbPb() const { return fIsPbPb; }
   virtual Int_t    GetMinContribVtx() const { return fMinContribVtx; };
   virtual Float_t  GetVtxZMin() const { return fVtxZMin; }
   virtual Float_t  GetVtxZMax() const { return fVtxZMax; }
   virtual Int_t    GetEvtClassMin() const { return fEvtClassMin; }
   virtual Int_t    GetEvtClassMax() const { return fEvtClassMax; }
   virtual Float_t  GetCentMin() const { return fCentMin; }
   virtual Float_t  GetCentMax() const { return fCentMax; }
   virtual Int_t    GetNInputTracksMin() const { return fNInputTracksMin; }
   virtual Int_t    GetNInputTracksMax() const { return fNInputTracksMax; } 
   virtual Float_t  GetJetEtaMin() const { return fJetEtaMin; }
   virtual Float_t  GetJetEtaMax() const { return fJetEtaMax; }
   virtual Float_t  GetJetPtMin() const { return fJetPtMin; }
   virtual Float_t  GetJetPtFractionMin() const { return fJetPtFractionMin; }
   virtual Int_t    GetNMatchJets() const { return fNMatchJets; }
   virtual void     SetBranchNames(const TString &branch1, const TString &branch2);
   virtual void     SetBackgroundBranch(TString &branch) { fBackgroundBranch = branch;}
   virtual void     SetIsPbPb(Bool_t b=kTRUE) { fIsPbPb = b; }
   virtual void     SetOfflineTrgMask(AliVEvent::EOfflineTriggerTypes mask) { fOfflineTrgMask = mask; }
   virtual void     SetMinContribVtx(Int_t n) { fMinContribVtx = n; }
   virtual void     SetVtxZMin(Float_t z) { fVtxZMin = z; }
   virtual void     SetVtxZMax(Float_t z) { fVtxZMax = z; }
   virtual void     SetEvtClassMin(Int_t evtClass) { fEvtClassMin = evtClass; }
   virtual void     SetEvtClassMax(Int_t evtClass) { fEvtClassMax = evtClass; }
   virtual void     SetFilterMask(UInt_t i){fFilterMask = i;}
   virtual void     SetFilterMaskBestPt(UInt_t i){fFilterMaskBestPt = i;}
   virtual void     SetFilterType(Int_t iType){fFilterType=iType;}
   virtual void     SetRadioFrac(Float_t radiofrac) { fRadioFrac = radiofrac; }
   virtual void     SetMinDist(Float_t minDist) { fMinDist = minDist; }
   virtual void     SetCentMin(Float_t cent) { fCentMin = cent; }
   virtual void     SetCentMax(Float_t cent) { fCentMax = cent; }
   virtual void     SetNInputTracksMin(Int_t nTr) { fNInputTracksMin = nTr; }
   virtual void     SetNInputTracksMax(Int_t nTr) { fNInputTracksMax = nTr; }
   virtual void     SetAngStructCloseTracks(Int_t yesno){fAngStructCloseTracks=yesno;}
   virtual void     SetCheckMethods(Int_t yesno){fCheckMethods=yesno;}
   virtual void     SetEventMixing(Int_t yesno){fDoEventMixing=yesno;}
   virtual void     SetFlagPhiBkg(Int_t yesno){fFlagPhiBkg=yesno;}
   virtual void     SetFlagEtaBkg(Int_t yesno){fFlagEtaBkg=yesno;}
   virtual void     SetFlagJetHadron(Int_t yesno){fFlagJetHadron=yesno;}
   virtual void     SetFlagFrac(Float_t fraction){fFrac=fraction;} 
   virtual void     SetTTLowRef(Float_t ttlow){fTTLowRef=ttlow;}
   virtual void     SetTTUpRef(Float_t ttup){fTTUpRef=ttup;}
   virtual void     SetTTLowSig(Float_t ttlows){fTTLowSig=ttlows;}
   virtual void     SetTTUpSig(Float_t ttups){fTTUpSig=ttups;}
   virtual void     SetFlagHardest(Int_t yesno){fHardest=yesno;}
   virtual void     SetFlagRandom(Int_t yesno){fFlagRandom=yesno;}
   virtual void     SetFlagOnlyRecoil(Int_t yesno){fFlagOnlyRecoil=yesno;}
   virtual void     SetFlagOnlyHardest(Int_t yesno){fFlagOnlyHardest=yesno;} 
   virtual void     SetNRPBins(Int_t bins){fNRPBins=bins;}
   virtual void     SetSemigoodCorrect(Int_t yesno){fSemigoodCorrect=yesno;}
   virtual void     SetHolePos(Float_t poshole) { fHolePos = poshole; }
   virtual void     SetHoleWidth(Float_t holewidth) { fHoleWidth = holewidth; }
   virtual void     SetTrackTypeRec(Int_t i){fTrackTypeRec = i;}
   virtual void     SetJetEtaMin(Float_t eta) { fJetEtaMin = eta; }
   virtual void     SetJetEtaMax(Float_t eta) { fJetEtaMax = eta; }
   virtual void     SetJetPtMin(Float_t pt) { fJetPtMin = pt; }
   virtual void     SetJetTriggerExclude(UChar_t i) { fJetTriggerExcludeMask = i; }
   virtual void     SetJetPtFractionMin(Float_t frac) { fJetPtFractionMin = frac; }
   virtual void     SetNMatchJets(Int_t n) { fNMatchJets = n; }
   virtual void     SetFillEvent(Bool_t b) { fbEvent = b; }
   virtual void     SetKeepJets(Bool_t b = kTRUE) { fKeepJets = b; }
   virtual void     SetNonStdFile(char* c){fNonStdFile = c;} 
    enum {kTrackUndef = 0, kTrackAOD, kTrackKineAll,kTrackKineCharged, kTrackAODMCAll, kTrackAODMCCharged, kTrackAODMCChargedAcceptance};

private:
   // ESD/AOD events
   AliESDEvent *fESD;    //! ESD object
   AliAODEvent *fAODIn;    //! AOD event for AOD input tracks
    AliAODEvent *fAODOut;    //! AOD event 
    AliAODExtension  *fAODExtension; //! where we take the jets from can be input or output AOD
    Int_t   GetListOfTracks(TList *list);
   Int_t   SelectTrigger(TList *list,Double_t minT,Double_t maxT,Int_t &number);
   Int_t   GetHardestTrackBackToJet(AliAODJet *jet);
   Int_t   GetListOfTracksCloseToJet(TList *list,AliAODJet *jet);
   // jets to compare
   TString fJetBranchName[2]; //  name of jet branches to compare
   TList *fListJets[2];       //! jet lists

   TString fBackgroundBranch;
   TString       fNonStdFile; // name of delta aod file to catch the extension
   // event selection
   Bool_t fIsPbPb;         // is Pb-Pb (fast embedding) or p-p (detector response)
   AliVEvent::EOfflineTriggerTypes fOfflineTrgMask; // mask of offline triggers to accept
   Int_t   fMinContribVtx; // minimum number of track contributors for primary vertex
   Float_t fVtxZMin;	  // lower bound on vertex z
   Float_t fVtxZMax;	  // upper bound on vertex z
   Int_t   fEvtClassMin;	  // lower bound on event class
   Int_t   fEvtClassMax;	  // upper bound on event class
   UInt_t  fFilterMask;            // filter bit for slecected tracks
   UInt_t  fFilterMaskBestPt;      // filter bit for selected hig pt tracks (best quality)
   UInt_t  fFilterType;           // type of slected tracks parrallel to filtermask
   Float_t fRadioFrac;                          //!size of the concentric cone
   Float_t fMinDist;   
   Float_t fCentMin;	  // lower bound on centrality
   Float_t fCentMax;	  // upper bound on centrality
   Int_t   fNInputTracksMin;  // lower bound of nb. of input tracks
   Int_t   fNInputTracksMax;  // upper bound of nb. of input tracks
   Int_t   fAngStructCloseTracks;//only constituents or all tracks with R<0.8 for the angular structure
   Int_t   fCheckMethods;     //to look into more detail into the core
   Int_t   fDoEventMixing;
   Int_t   fFlagPhiBkg;
   Int_t   fFlagEtaBkg;
   Int_t   fFlagJetHadron;
   Float_t fFrac;               //fraction of events to evaluate signal
   Float_t fTTLowRef;
   Float_t fTTUpRef;
   Float_t fTTLowSig;
   Float_t fTTUpSig;
   Int_t   fHardest;
   Int_t   fFlagRandom;
   Int_t   fFlagOnlyRecoil;
   Int_t   fFlagOnlyHardest;
   Int_t   fTrackTypeRec;
   Float_t   fRPAngle;
   Int_t   fNRPBins;
   Int_t   fSemigoodCorrect;
   Float_t fHolePos;
   Float_t fHoleWidth; 
   Float_t fJetEtaMin;        // lower bound on eta for found jets
   Float_t fJetEtaMax;        // upper bound on eta for found jets
   Int_t   fNevents;          // number of events
   Int_t   fTindex;           // index reference
   Int_t   fTrigBufferIndex;  //index for the buffering
   Int_t   fCountAgain;       //index for the buffering
   Float_t fJetPtMin;         // minimum jet pT
   UChar_t fJetTriggerExcludeMask; // mask for jet triggeres to exclude
   Float_t fJetPtFractionMin; // minimum fraction for positiv match of jets
   Int_t   fNMatchJets;       // maximal nb. of jets taken for matching
   Double_t fMatchMaxDist;     // maximal distance of matching jets
   Bool_t  fKeepJets;          // keep jets with negative pt after background subtraction
   Bool_t fRunAnaAzimuthalCorrelation;        // Flag to run azimuthal correlation between trigger track and recoil jets (Rongrong)  

   // output objects
   const Int_t fkNbranches;                   //! number of branches to be read
   const Int_t fkEvtClasses;                  //! number of event classes
   
   TList *fOutputList;                        //! output data container
   Bool_t fbEvent;                            // fill fhnEvent
   TH1I  *fHistEvtSelection;                  //! event selection statistic
   THnSparse *fhnDeltaR;                     //! variables per jet
   THnSparse *fhnMixedEvents;                //!mixed events matrix
 

   TH2F      *fh2JetCoreMethod1C10;          //Energy fraction in the core C10 method 1
   TH2F      *fh2JetCoreMethod2C10;          //Energy fraction in the core C10 method 2
   TH2F      *fh2JetCoreMethod1C20;          //Energy fraction in the core C20 method 1 
   TH2F      *fh2JetCoreMethod2C20;          //Energy fraction in the core C20 method 2
   TH2F      *fh2JetCoreMethod1C30;          //Energy fraction in the core C30 method 1
   TH2F      *fh2JetCoreMethod2C30;          //Energy fraction in the core C30 method 2
   TH2F      *fh2JetCoreMethod1C60;          //Energy fraction in the core C60 method 1
   TH2F      *fh2JetCoreMethod2C60;          //Energy fraction in the core C60 method 2
     TH3F*      fh3JetTrackC3060;           //C3060 pt2
     TH3F*      fh3JetTrackC20;             //C10 pt2
     TH2F*      fh2AngStructpt1C10;         //Average 
     TH2F*      fh2AngStructpt2C10;         //C10 pt2
     TH2F*      fh2AngStructpt3C10;         //C10 pt3
     TH2F*      fh2AngStructpt4C10;         //C10 pt4
     TH2F*      fh2AngStructpt1C20;         //C20 pt1
     TH2F*      fh2AngStructpt2C20;         //C20 pt2
     TH2F*      fh2AngStructpt3C20;         //C20 pt3 
     TH2F*      fh2AngStructpt4C20;         //C20 pt4
     TH2F*      fh2AngStructpt1C30;         //C30 pt1
     TH2F*      fh2AngStructpt2C30;         //C30 pt2
     TH2F*      fh2AngStructpt3C30;         //C30 pt3
     TH2F*      fh2AngStructpt4C30;         //C30 pt4
     TH2F*      fh2AngStructpt1C60;         //C60 pt1
     TH2F*      fh2AngStructpt2C60;         //C60 pt2
     TH2F*      fh2AngStructpt3C60;         //C60 pt3
     TH2F*      fh2AngStructpt4C60;         //C60 pt4
  
     TH1D*      fh1TrigRef;                 //ref multiple triggers
     TH1D*      fh1TrigSig;                 //sig multiple triggers    
     TH2F*      fh2Ntriggers;              //triggers
     TH2F*      fh2Ntriggers2C10;             //centrality bias of triggers 
     TH2F*      fh2Ntriggers2C20;             //centrality bias of triggers 
     TH3F*      fh3JetDensity;             //jet density
     TH3F*      fh3JetDensityA4;           //jet density
     TH2F*      fh2RPJetsC10;                  //reaction plane Jets
     TH2F*      fh2RPJetsC20;
     TH2F*      fh2RPTC10;                     //reaction plane TT 
     TH2F*      fh2RPTC20; 
     THnSparse   *fHJetSpec;               //Recoil jet spectrum

     Double_t            fTrigBuffer[10][7];      //!buffer for triggers   
     TH2F        *fhTTPt;                     //! Trigger track pt for normalization (Rongrong)
     THnSparse   *fHJetPhiCorr;               //! Azimuthal correlation between trigger track and recoil jets (Rongrong)
       TRandom3*                   fRandom;          // TRandom3  

   AliAnalysisTaskJetCore(const AliAnalysisTaskJetCore&); // not implemented
   AliAnalysisTaskJetCore& operator=(const AliAnalysisTaskJetCore&); // not implemented

   ClassDef(AliAnalysisTaskJetCore, 6);
};

#endif