merging trunk to TPCdev

[u/mrichter/AliRoot.git] / PWGHF / vertexingHF / AliCFTaskVertexingHF.h

#ifndef ALICFTASKVERTEXINGHF_H
#define ALICFTASKVERTEXINGHF_H
/**************************************************************************
 * Copyright(c) 1998-2009, ALICE Experiment at CERN, All rights reserved. *
 *                                                                        *
 * Author: The ALICE Off-line Project.                                    *
 * Contributors are mentioned in the code where appropriate.              *
 *                                                                        *
 * Permission to use, copy, modify and distribute this software and its   *
 * documentation strictly for non-commercial purposes is hereby granted   *
 * without fee, provided that the above copyright notice appears in all   *
 * copies and that both the copyright notice and this permission notice   *
 * appear in the supporting documentation. The authors make no claims     *
 * about the suitability of this software for any purpose. It is          *
 * provided "as is" without express or implied warranty.                  *
 **************************************************************************/

/* $Id$ */ 

//-----------------------------------------------------------------------
// Class for HF corrections as a function of many variables and step 
// Author : C. Zampolli, CERN
//                      D. Caffarri, Univ & INFN Padova caffarri@pd.infn.it
// Base class for HF Unfolding - agrelli@uu.nl
//-----------------------------------------------------------------------


#include "AliAnalysisTaskSE.h"
#include "AliCFVertexingHF2Prong.h"
#include "AliCFVertexingHF3Prong.h"
#include "AliCFVertexingHFLctoV0bachelor.h"
#include "AliCFVertexingHF.h"
#include <TH1F.h>

class TH1I;
class TParticle ;
class TFile ;
class TClonesArray ;
class AliCFManager;
class AliAODRecoDecay;
class AliAODRecoDecayHF2Prong;
class AliAODMCParticle;
class THnSparse;
class TF1;
class AliRDHFCuts;
class AliCFVertexingHF2Prong;
class AliCFVertexingHF3Prong;

class AliCFTaskVertexingHF: public AliAnalysisTaskSE {
public:
        
        enum {
                kStepGeneratedLimAcc = 0,
                kStepGenerated       = 1,
                kStepAcceptance      = 2,
                kStepVertex          = 3,
                kStepRefit           = 4,
                kStepReconstructed   = 5,
                kStepRecoAcceptance  = 6,
                kStepRecoITSClusters = 7,
                kStepRecoPPR         = 8,
                kStepRecoPID         = 9
        };

        enum {
                kSnail = 0,    // slow configuration, all variables
                kCheetah = 1   // fast configuration, only a subset of variables
        };

        enum {
          kAll = 0,   // all decays (resonant + non-resonant)
          kNonResonant = 1, // only non resonant
          kL1520 = 2,  // Lc --> L(1520) + p
          kKstar = 3,  // Lc --> K* + pi
          kDelta = 4   // Lc --> Delta + K
        };

        enum { kNtrk10=0, kNtrk10to16=1, kVZERO=2 }; // multiplicity estimators
        
        AliCFTaskVertexingHF();
        AliCFTaskVertexingHF(const Char_t* name, AliRDHFCuts* cuts, TF1* func = 0x0);
        AliCFTaskVertexingHF& operator= (const AliCFTaskVertexingHF& c);
        AliCFTaskVertexingHF(const AliCFTaskVertexingHF& c);
        virtual ~AliCFTaskVertexingHF();
        
        // ANALYSIS FRAMEWORK STUFF to loop on data and fill output objects
        void     UserCreateOutputObjects();
        void     UserExec(Option_t *option);
        void     Init();
        void     LocalInit() {Init();}
        void     Terminate(Option_t *);
        
        // UNFOLDING
        void     SetCorrelationMatrix(THnSparse* h) {fCorrelation=h;}
        void     SetAcceptanceUnf(Bool_t AcceptanceUnf) {fAcceptanceUnf = AcceptanceUnf;}
        Bool_t   GetAcceptanceUnf() const {return fAcceptanceUnf;}
        
        
        // CORRECTION FRAMEWORK RELATED FUNCTIONS
        void           SetCFManager(AliCFManager* io) {fCFManager = io;}   // global correction manager
        AliCFManager * GetCFManager()                 {return fCFManager;} // get corr manager
        
        // Setters (and getters) for the config macro
        void    SetFillFromGenerated(Bool_t flag) {fFillFromGenerated = flag;}
        Bool_t  GetFillFromGenerated() const {return fFillFromGenerated;}
        void    SetDecayChannel (Int_t decayChannel) {fDecayChannel = decayChannel;}
        Int_t   GetDecayChannel () {return fDecayChannel;}
        void     SetUseWeight(Bool_t useWeight){fUseWeight=useWeight;}
        Bool_t   GetUseWeight() const {return fUseWeight;}
        Double_t GetWeight(Float_t pt);
        Double_t dNdptFit(Float_t pt, Double_t* par);

        void SetUseFlatPtWeight(Bool_t useWeight){fUseFlatPtWeight=useWeight; fUseWeight=useWeight;}
        Bool_t GetUseFlatPtWeight() const {return fUseFlatPtWeight;}
        void SetUseZWeight(Bool_t useWeight){fUseZWeight=useWeight;}
        Bool_t GetUseZWeight() const {return fUseZWeight;}
        Double_t GetZWeight(Float_t z, Int_t runnumber);
        Double_t DodzFit(Float_t z, Double_t* par);

        void SetUseNchWeight(Bool_t useWeight){fUseNchWeight=useWeight;}
        Bool_t GetUseNchWeight() const {return fUseNchWeight;}
        void SetMCNchHisto(TH1F* h){
          if(fHistoMCNch) delete fHistoMCNch;
          fHistoMCNch=new TH1F(*h);
        }
        void CreateMeasuredNchHisto();
        Double_t GetNchWeight(Int_t nch);
        void SetMultiplicityEstimator(Int_t value){ fMultiplicityEstimator=value; }
        Int_t GetMultiplicityEstimator(){ return fMultiplicityEstimator; }
        void SetIsPPData(Bool_t flag){ fIsPPData = flag; }

        void SetUseNchTrackletsWeight(Bool_t useWeight = kTRUE) { fUseNchWeight=useWeight; fUseTrackletsWeight=useWeight; }
        Bool_t GetUseNchTrackletsWeight() const {return fUseTrackletsWeight;}

        void   SetDselection(UShort_t originDselection) {fOriginDselection=originDselection;}
        UShort_t GetDselection (){return fOriginDselection;}
        void SetSign(Char_t isSign) {fSign = isSign;}
        Char_t GetSign() {return fSign;}
         
        void SetCentralitySelection(Bool_t centSelec = kTRUE) {fCentralitySelection = centSelec;}   
        Bool_t GetCentralitySelection() {return fCentralitySelection;} 

        void SetFakeSelection(Int_t fakeSel = 0) {fFakeSelection=fakeSel;}
        Int_t GetFakeSelection(){return fFakeSelection;}

        void SetRejectCandidateIfNotFromQuark(Bool_t opt){fRejectIfNoQuark=opt;}
        Bool_t GetRejectCandidateIfNotFromQuark(){return fRejectIfNoQuark;}

        void SetUseMCVertex(Bool_t opt){fUseMCVertex=opt;}
        Bool_t GetUseMCVertex(){return fUseMCVertex;}
        

        void SetKeepDsViaPhi(){fDsOption=1;}
        void SetKeepDsViaK0star(){fDsOption=2;}
        void SetKeepAllDs(){fDsOption=3;}
        void SetCountAllDs(){fGenDsOption=AliCFVertexingHF3Prong::kCountAllDsKKpi;}
        void SetCountDsViaPhi(){fGenDsOption=AliCFVertexingHF3Prong::kCountPhipi;}
        void SetCountDsViaK0star(){fGenDsOption=AliCFVertexingHF3Prong::kCountK0stK;}
        void SetCountResonantDs(){fGenDsOption=AliCFVertexingHF3Prong::kCountResonant;}
        void SetCountNonResonantDs(){fGenDsOption=AliCFVertexingHF3Prong::kCountNonResonant;}

        Bool_t ProcessDs(Int_t returnCodeDs) const;

        void SetConfiguration(Int_t configuration) {(configuration == kSnail) ? Printf("Slow configuration chosen, all variables will be used!") : Printf("Fast configuration chosen, all variablesOnly pt, y, phi, ct, fake, z_vtx, centrality and multiplicity will be used!"); fConfiguration = configuration;} 
        Int_t GetConfiguration() const {return fConfiguration;} 
        
        void SetWeightFunction(TF1* func) {fFuncWeight = func;}
        TF1* GetWeightFunction() const {return fFuncWeight;}
        void SetPtWeightsFromFONLL276overLHC12a17a();
        void SetPtWeightsFromDataPbPb276overLHC12a17a();
        void SetPtWeightsFromFONLL276overLHC12a17b();
        void SetPtWeightsFromFONLL276andBAMPSoverLHC12a17b();
        void SetPtWeightsFromFONLL5overLHC13d3();

        void SetResonantDecay(UInt_t resonantDecay) {fResonantDecay = resonantDecay;}
        UInt_t GetResonantDecay() const {return fResonantDecay;}

        void SetKeepLctoK0Sp() {fLctoV0bachelorOption=1;}
        void SetKeepLctoLambdaBarpi() {fLctoV0bachelorOption=2;}
        void SetKeepLctoLambdapi() {fLctoV0bachelorOption=4;}
        void SetKeepLctoV0bachelor() {fLctoV0bachelorOption=7;}

        void SetCountLctoK0Sp(){fGenLctoV0bachelorOption=AliCFVertexingHFLctoV0bachelor::kCountK0Sp;}
        void SetCountLctoLambdapi(){fGenLctoV0bachelorOption=AliCFVertexingHFLctoV0bachelor::kCountLambdapi;}
    
        void SetUseSelectionBit(Bool_t flag) { fUseSelectionBit=flag; }
        Bool_t GetUseSelectionBit() const { return fUseSelectionBit; }

        Bool_t ProcessLctoV0Bachelor(Int_t returnCodeDs) const;

protected:
        AliCFManager   *fCFManager;   //  pointer to the CF manager
        TH1I *fHistEventsProcessed;   //! simple histo for monitoring the number of events processed
        THnSparse* fCorrelation;      //  response matrix for unfolding
        Int_t fCountMC;               //  MC particle found
        Int_t fCountAcc;              //  MC particle found that satisfy acceptance cuts
        Int_t fCountVertex;       //  Reco particle found that satisfy vertex constrained
        Int_t fCountRefit;        //  Reco particle found that satisfy kTPCrefit and kITSrefit
        Int_t fCountReco;             //  Reco particle found that satisfy cuts
        Int_t fCountRecoAcc;          //  Reco particle found that satisfy cuts in requested acceptance
        Int_t fCountRecoITSClusters;  //  Reco particle found that satisfy cuts in n. of ITS clusters
        Int_t fCountRecoPPR;          //  Reco particle found that satisfy cuts in PPR
        Int_t fCountRecoPID;          //Reco PID step 
        Int_t fEvents;                //  n. of events
        Int_t fDecayChannel;          // decay channel to configure the task
        Bool_t fFillFromGenerated;    //  flag to indicate whether data container should be filled with generated values also for reconstructed particles
        UShort_t fOriginDselection;      // flag to select D0 origins. 0 Only from charm 1 only from beauty 2 both from charm and beauty
        Bool_t fAcceptanceUnf;        //  flag for unfolding before or after cuts.
        AliRDHFCuts* fCuts;            // cuts
        Bool_t fUseWeight;             //flag to decide whether to use pt-weights != 1 when filling the container or not
        Double_t fWeight;              //weight used to fill the container
        Bool_t fUseFlatPtWeight;       // flag to decide to use a flat pt shape
        Bool_t fUseZWeight;           // flag to decide whether to use z-vtx weights != 1 when filling the container or not
        Bool_t fUseNchWeight;         // flag to decide whether to use Ncharged weights != 1 when filling the container or not
        Bool_t fUseTrackletsWeight;   // flag to decide whether to use Ncharged weights != 1 when filling the container or not
        Int_t fNvar;                  // number of variables for the container
        TString fPartName;    // D meson name
        TString fDauNames;    // daughter in fin state
        Char_t fSign;                 // flag to decide wheter to keep D0 only (0), D0bar only (1), or both D0 and D0bar (2)
        Bool_t fCentralitySelection;  //flag to switch off the centrality selection
        Int_t  fFakeSelection;  //selection flag for fakes tracks 
        Bool_t fRejectIfNoQuark;  // flag to remove events not geenrated with PYTHIA
        Bool_t fUseMCVertex;  // flag to use MC vertex (useful when runnign in pp)
        Int_t  fDsOption;     // Ds decay option (selection level)
        Int_t  fGenDsOption;     // Ds decay option (generation level)
        Int_t fConfiguration; // configuration (slow / fast) of the CF --> different variables will be allocated (all / reduced number)
        TF1* fFuncWeight;     // user-defined function to be used to calculate weights
        TH1F* fHistoMeasNch;  // histogram with measured Nch distribution (pp 7 TeV)
        TH1F* fHistoMCNch;  // histogram with Nch distribution from MC production
        UInt_t fResonantDecay;  // resonant deacy channel to be used if the CF should be run on resonant channels only
        Int_t fLctoV0bachelorOption; // Lc->V0+bachelor decay option (selection level)
        Int_t fGenLctoV0bachelorOption; // Lc->V0+bachelor decay option (generation level)
        Bool_t fUseSelectionBit;     // flag to use selection bit
        UInt_t fPDGcode; // PDG code

        Int_t fMultiplicityEstimator; // Definition of the multiplicity estimator: kNtrk10=0, kNtrk10to16=1, kVZERO=2
        Bool_t fIsPPData; // flag for pp data (not checking centrality)

        ClassDef(AliCFTaskVertexingHF,17); // class for HF corrections as a function of many variables
};

#endif