[u/mrichter/AliRoot.git] / PWG4 / PartCorrBase / AliAnaPartCorrBaseClass.h

#ifndef ALIANAPARTCORRBASECLASS_H
#define ALIANAPARTCORRBASECLASS_H
/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 * See cxx source for full Copyright notice     */
/* $Id: $ */

  //_________________________________________________________________________
  // Base class for analysis algorithms
  //-- Author: Gustavo Conesa (INFN-LNF)

#include <cstdlib>

  //ROOT
class TClonesArray ;
class TObjArray ;
#include <TList.h> 
#include <TObject.h>
class TObjString;

  //Analysis
class AliVCaloCells;
#include "AliCaloTrackReader.h"   
#include "AliCaloPID.h"
#include "AliFiducialCut.h"
#include "AliIsolationCut.h"
#include "AliMCAnalysisUtils.h"
#include "AliNeutralMesonSelection.h"
#include "AliCalorimeterUtils.h" 
class AliStack ; 
class AliHeader ; 
class AliGenEventHeader ; 
#include "AliAODPWG4ParticleCorrelation.h"
class AliEMCALGeoUtils;
class AliPHOSGeoUtils;
#include "AliMixedEvent.h" 

class AliAnaPartCorrBaseClass : public TObject {
	
public:   
  AliAnaPartCorrBaseClass() ; // default ctor
  virtual ~AliAnaPartCorrBaseClass() ; //virtual dtor
  
private:
  AliAnaPartCorrBaseClass(const AliAnaPartCorrBaseClass & g) ; // cpy ctor
  AliAnaPartCorrBaseClass & operator = (const AliAnaPartCorrBaseClass & g) ;//cpy assignment
  
public:

  virtual void AddAODParticle(AliAODPWG4Particle part) ;
  
  virtual void ConnectInputOutputAODBranches();
  
  virtual TList * GetCreateOutputObjects()      { return (new TList) ;}
	
  virtual void AddToHistogramsName(TString add) { fAddToHistogramsName = add; }  
  virtual TString GetAddedHistogramsStringToName() {return fAddToHistogramsName ;}
  
  virtual void Init() {;}
  virtual void InitParameters() ;
  
  virtual void Print(const Option_t * ) const ;
  
  virtual void MakeAnalysisFillAOD()  {;}
  
  virtual void MakeAnalysisFillHistograms() {;}
  	
  virtual TObjString * GetAnalysisCuts() {return 0x0;}
	
  virtual Int_t GetDebug() const  { return fDebug ; }
  virtual void SetDebug(Int_t d)   { fDebug = d ; }
  
  virtual Int_t GetEventNumber() const ;
  
  virtual AliCaloTrackReader * GetReader() const {return fReader ; }
  virtual void SetReader(AliCaloTrackReader * const reader) { fReader = reader ; }
  
  //Calorimeter helper class access methods
  AliEMCALGeoUtils *  GetEMCALGeometry() const { return fCaloUtils->GetEMCALGeometry(); }
  AliPHOSGeoUtils  *  GetPHOSGeometry()  const { return fCaloUtils->GetPHOSGeometry() ; }
  
  Int_t GetModuleNumberCellIndexes(const Int_t absId, const TString calo, Int_t & icol, Int_t & irow, Int_t &iRCU) const {
	  return fCaloUtils->GetModuleNumberCellIndexes(absId, calo, icol, irow,iRCU);}
  Int_t GetModuleNumber(AliAODPWG4Particle * part) const {
	  return fCaloUtils->GetModuleNumber(part, fReader->GetInputEvent());}
  Int_t GetModuleNumber(AliVCluster * cluster) const {
	  return fCaloUtils->GetModuleNumber(cluster);}
 	
  virtual void Terminate(TList * /*outputList*/) {;}
	
  //analysis AOD branch
  virtual TClonesArray * GetCreateOutputAODBranch() ;
  virtual TString GetInputAODName() const {return fInputAODName ; }
  virtual void SetInputAODName(TString name)   { fInputAODName = name; }	
  virtual TString GetOutputAODName()  const {return fOutputAODName ; }
  virtual void SetOutputAODName(TString name)   { fNewAOD = kTRUE ; fOutputAODName = name; }
  virtual Bool_t NewOutputAOD() const {return fNewAOD;}
  virtual TString GetOutputAODClassName() const {return fOutputAODClassName;}
  virtual void SetOutputAODClassName(TString name) {fOutputAODClassName = name; }
  virtual AliCalorimeterUtils * GetCaloUtils() const {return fCaloUtils ; }
  void SetCaloUtils(AliCalorimeterUtils * caloutils) { fCaloUtils = caloutils ; }	
	
  virtual TString GetAODObjArrayName() const {return fAODObjArrayName;}
  virtual void SetAODObjArrayName(TString name) {fAODObjArrayName = name; }
  
  virtual TClonesArray* GetInputAODBranch() const {return fInputAODBranch ;}
  virtual TClonesArray* GetOutputAODBranch() const {if(fNewAOD) return fOutputAODBranch; else return fInputAODBranch ;}
  virtual TClonesArray* GetAODBranch(TString aodBranchName) const ;
	
  virtual TClonesArray* GetAODCaloClusters() const ;
  virtual TClonesArray* GetAODTracks() const ;	
  virtual AliVCaloCells* GetPHOSCells()  const {return fReader->GetPHOSCells()  ;}
  virtual AliVCaloCells* GetEMCALCells() const {return fReader->GetEMCALCells() ;}

  virtual TObjArray* GetAODCTS() const ;
  virtual TObjArray* GetAODEMCAL() const ;
  virtual TObjArray* GetAODPHOS() const ;
  
  virtual TString	GetBaseParametersList();
    
  virtual AliStack * GetMCStack() const ;
  virtual AliHeader* GetMCHeader() const ;
  virtual AliGenEventHeader* GetMCGenEventHeader() const ;
  
  //Analysis helpers classes pointers setters and getters
  virtual AliCaloPID * GetCaloPID() {if(!fCaloPID) fCaloPID = new AliCaloPID(); return  fCaloPID ;}
  virtual void SetCaloPID(AliCaloPID * const pid) { fCaloPID = pid ;}
  
  virtual AliFiducialCut * GetFiducialCut() {if(!fFidCut) fFidCut = new AliFiducialCut(); return  fFidCut ;}
  virtual void SetFiducialCut(AliFiducialCut * const fc) { fFidCut = fc ;}
  
  virtual AliIsolationCut * GetIsolationCut() {if(!fIC) fIC = new AliIsolationCut();  return  fIC ;}
  virtual void SetIsolationCut(AliIsolationCut * const ic) { fIC = ic ;}
  
  virtual AliMCAnalysisUtils * GetMCAnalysisUtils()  {if(!fMCUtils) fMCUtils = new AliMCAnalysisUtils(); return  fMCUtils ;}
  virtual void SetMCAnalysisUtils(AliMCAnalysisUtils * const mcutils) { fMCUtils = mcutils ;}	
  
  virtual AliNeutralMesonSelection * GetNeutralMesonSelection()  {if(!fNMS) fNMS = new AliNeutralMesonSelection(); return  fNMS ;}
  virtual void SetNeutralMesonSelection(AliNeutralMesonSelection * const nms) { fNMS = nms ;}
	
  virtual Bool_t     IsDataMC()       {return fDataMC ; }
  virtual void SwitchOnDataMC()       {fDataMC = kTRUE ; if(!fMCUtils)fMCUtils = new AliMCAnalysisUtils();}
  virtual void SwitchOffDataMC()      {fDataMC = kFALSE ; }
  
  virtual Bool_t IsFiducialCutOn()       { return fCheckFidCut ; }
  virtual void SwitchOnFiducialCut()     { fCheckFidCut = kTRUE;  if(!fFidCut)fFidCut = new AliFiducialCut();}
  virtual void SwitchOffFiducialCut()    { fCheckFidCut = kFALSE;}
  
  virtual Bool_t IsCaloPIDOn()       { return fCheckCaloPID ; }
  virtual void SwitchOnCaloPID()     { fCheckCaloPID = kTRUE; if(!fCaloPID)fCaloPID = new AliCaloPID();}
  virtual void SwitchOffCaloPID()    { fCheckCaloPID = kFALSE;}
  
  virtual Bool_t IsCaloPIDRecalculationOn()       { return fRecalculateCaloPID ; }
  virtual void SwitchOnCaloPIDRecalculation()     { fRecalculateCaloPID  = kTRUE;}
  virtual void SwitchOffCaloPIDRecalculation()    { fRecalculateCaloPID  = kFALSE;}
  
  virtual Float_t    GetMaxPt()         const {return fMaxPt ; }
  virtual Float_t    GetMinPt()         const {return fMinPt ; }
  virtual void SetMaxPt(Float_t pt)           {fMaxPt = pt ; }
  virtual void SetMinPt(Float_t pt)           {fMinPt = pt ; }
  virtual void SetPtCutRange(Double_t ptmin, Double_t ptmax)
  {  fMaxPt=ptmax;   fMinPt=ptmin;}
  
  //Histogrammes setters and getters
  //Pt, Energy 
  virtual void SetHistoPtRangeAndNBins(Float_t min, Float_t max, Int_t n) {
    fHistoPtBins = n ;
    fHistoPtMax = max ;
    fHistoPtMin = min ;
  }
  
  virtual Int_t   GetHistoPtBins()  const { return fHistoPtBins; }
  virtual Float_t GetHistoPtMin()   const { return fHistoPtMin ; }
  virtual Float_t GetHistoPtMax()   const { return fHistoPtMax ; }
  
    //Azimuthal angle
  virtual void SetHistoPhiRangeAndNBins(Float_t min, Float_t max, Int_t n) {
    fHistoPhiBins  = n ;
    fHistoPhiMax   = max ;
    fHistoPhiMin   = min ;
  }
  
  virtual Int_t   GetHistoPhiBins()  const { return fHistoPhiBins; }
  virtual Float_t GetHistoPhiMin()   const { return fHistoPhiMin ; }
  virtual Float_t GetHistoPhiMax()   const { return fHistoPhiMax ; }
  
  //Pseudorapidity-rapidity
  virtual void SetHistoEtaRangeAndNBins(Float_t min, Float_t max, Int_t n) {
    fHistoEtaBins = n ;
    fHistoEtaMax  = max ;
    fHistoEtaMin  = min ;
  }
  
  virtual Int_t   GetHistoEtaBins()  const { return fHistoEtaBins; }
  virtual Float_t GetHistoEtaMin()   const { return fHistoEtaMin ; }
  virtual Float_t GetHistoEtaMax()   const { return fHistoEtaMax ; }
  
  //Mass
  virtual void SetHistoMassRangeAndNBins(Float_t min, Float_t max, Int_t n) {
    fHistoMassBins = n ;
    fHistoMassMax  = max ;
    fHistoMassMin  = min ;
  }
	
  virtual Int_t   GetHistoMassBins()  const { return fHistoMassBins ; }
  virtual Float_t GetHistoMassMin()   const { return fHistoMassMin ; }
  virtual Float_t GetHistoMassMax()   const { return fHistoMassMax ; }
	
  //Asymetry
  virtual void SetHistoAsymmetryRangeAndNBins(Float_t min, Float_t max, Int_t n) {
    fHistoAsymBins = n ;
    fHistoAsymMax  = max ;
    fHistoAsymMin  = min ;
  }
	
  virtual Int_t   GetHistoAsymmetryBins()  const { return fHistoAsymBins ; }
  virtual Float_t GetHistoAsymmetryMin()   const { return fHistoAsymMin ; }
  virtual Float_t GetHistoAsymmetryMax()   const { return fHistoAsymMax ; }	
  
  virtual AliMixedEvent * GetMixedEvent()          { return GetReader()->GetMixedEvent() ; } 
  virtual Int_t           GetNMixedEvent()   const { return GetReader()->GetNMixedEvent() ; } 
  
  virtual void      GetVertex(Double_t vertex[3])   const { GetReader()->GetVertex(vertex) ; } 
  virtual void      GetVertex(Double_t vertex[3],const Int_t evtIndex) const { GetReader()->GetVertex(vertex,evtIndex) ; } 
  virtual Double_t* GetVertex(const Int_t evtIndex) const { return GetReader()->GetVertex(evtIndex) ; } 

	virtual Bool_t IsTrackMatched(const AliVCluster * cluster) const { return fCaloPID->IsTrackMatched(cluster); } 
  
private:    
  
  Bool_t  fDataMC ;             // Flag to access MC data when using ESD or AOD     
  Int_t   fDebug ;              // Debug level
  Bool_t  fCheckFidCut ;        // Do analysis for clusters in defined region         
  Bool_t  fCheckCaloPID ;       // Do analysis for calorimeters
  Bool_t  fRecalculateCaloPID ; // Recalculate PID or use PID weights in calorimeters
  Float_t fMinPt ;              // Maximum pt of (trigger) particles in the analysis
  Float_t fMaxPt ;              // Minimum pt of (trigger) particles in the analysis
	
  AliCaloTrackReader * fReader; // Acces to ESD/AOD/MC data
  
  TClonesArray* fInputAODBranch ;    //! Selected input particles branch
  TString       fInputAODName ;      //  Name of input AOD branch;
  TClonesArray* fOutputAODBranch ;   //! Selected output particles branch
  Bool_t        fNewAOD ;            //  Flag, new aod branch added to the analysis or not.
  TString       fOutputAODName ;     //  Name of output AOD branch;
  TString       fOutputAODClassName; //  Type of aod objects to be stored in the TClonesArray (AliAODPWG4Particle, AliAODPWG4ParticleCorrelation ...)	
  TString       fAODObjArrayName ;   // Name of ref array kept in a TList in AliAODParticleCorrelation with clusters or track references.
  TString       fAddToHistogramsName;// Add this string to histograms name
  
  //Analysis helper classes access pointers
  AliCaloPID               * fCaloPID; //! PID calculation
  AliFiducialCut           * fFidCut;  //! Acceptance cuts
  AliIsolationCut          * fIC;      //! Isolation cut 
  AliMCAnalysisUtils       * fMCUtils; //! MonteCarlo Analysis utils 
  AliNeutralMesonSelection * fNMS;     //! Neutral Meson Selection
  AliCalorimeterUtils      * fCaloUtils ; //  Pointer to CalorimeterUtils
  

  //Histograms binning and range    
  Int_t   fHistoPtBins   ;  // Number of bins in pt axis
  Float_t fHistoPtMax    ;  // Maximum value of pt histogram range
  Float_t fHistoPtMin    ;  // Minimum value of pt histogram range
  Int_t   fHistoPhiBins  ;  // Number of bins in phi axis
  Float_t fHistoPhiMax   ;  // Maximum value of phi histogram range
  Float_t fHistoPhiMin   ;  // Minimum value of phi histogram range
  Int_t   fHistoEtaBins  ;  // Number of bins in eta axis
  Float_t fHistoEtaMax   ;  // Maximum value of eta histogram range
  Float_t fHistoEtaMin   ;  // Minimum value of eta histogram range
  Int_t   fHistoMassBins ;  // Number of bins in mass axis
  Float_t fHistoMassMax  ;  // Maximum value of mass histogram range
  Float_t fHistoMassMin  ;  // Minimum value of mass histogram range
  Int_t   fHistoAsymBins ;  // Number of bins in asymmetry axis
  Float_t fHistoAsymMax  ;  // Maximum value of asymmetry histogram range
  Float_t fHistoAsymMin  ;  // Minimum value of asymmetry histogram range
  
  ClassDef(AliAnaPartCorrBaseClass,9)
} ;


#endif //ALIANAPARTCORRBASECLASS_H
Commit	Line	Data
1c5acb87	1	#ifndef ALIANAPARTCORRBASECLASS_H
	2	#define ALIANAPARTCORRBASECLASS_H
	3	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	4	* See cxx source for full Copyright notice */
	5	/* $Id: $ */
	6
c8fe2783	7	//_________________________________________________________________________
	8	// Base class for analysis algorithms
	9	//-- Author: Gustavo Conesa (INFN-LNF)
1c5acb87	10
fbeaf916	11	#include <cstdlib>
fbeaf916	12
c8fe2783	13	//ROOT
1c5acb87	14	class TClonesArray ;
591cc579	15	class TObjArray ;
a3aebfff	16	#include <TList.h>
1c5acb87	17	#include <TObject.h>
0c1383b5	18	class TObjString;
1c5acb87	19
c8fe2783	20	//Analysis
f37fa8d2	21	class AliVCaloCells;
e6e63685	22	#include "AliCaloTrackReader.h"
decca433	23	#include "AliCaloPID.h"
	24	#include "AliFiducialCut.h"
	25	#include "AliIsolationCut.h"
	26	#include "AliMCAnalysisUtils.h"
	27	#include "AliNeutralMesonSelection.h"
8cfc6870	28	#include "AliCalorimeterUtils.h"
1c5acb87	29	class AliStack ;
	30	class AliHeader ;
	31	class AliGenEventHeader ;
a3aebfff	32	#include "AliAODPWG4ParticleCorrelation.h"
765d44e7	33	class AliEMCALGeoUtils;
765d44e7	34	class AliPHOSGeoUtils;
c8fe2783	35	#include "AliMixedEvent.h"
1c5acb87	36
	37	class AliAnaPartCorrBaseClass : public TObject {
	38
c8fe2783	39	public:
477d6cee	40	AliAnaPartCorrBaseClass() ; // default ctor
78219bac	41	virtual ~AliAnaPartCorrBaseClass() ; //virtual dtor
78219bac	42
c8fe2783	43	private:
477d6cee	44	AliAnaPartCorrBaseClass(const AliAnaPartCorrBaseClass & g) ; // cpy ctor
477d6cee	45	AliAnaPartCorrBaseClass & operator = (const AliAnaPartCorrBaseClass & g) ;//cpy assignment
477d6cee	46
c8fe2783	47	public:
f37fa8d2	48
a3aebfff	49	virtual void AddAODParticle(AliAODPWG4Particle part) ;
a3aebfff	50
477d6cee	51	virtual void ConnectInputOutputAODBranches();
477d6cee	52
4a745797	53	virtual TList * GetCreateOutputObjects() { return (new TList) ;}
4a745797	54
a3aebfff	55	virtual void AddToHistogramsName(TString add) { fAddToHistogramsName = add; }
	56	virtual TString GetAddedHistogramsStringToName() {return fAddToHistogramsName ;}
	57
477d6cee	58	virtual void Init() {;}
	59	virtual void InitParameters() ;
	60
	61	virtual void Print(const Option_t * ) const ;
	62
	63	virtual void MakeAnalysisFillAOD() {;}
	64
	65	virtual void MakeAnalysisFillHistograms() {;}
f37fa8d2	66
0c1383b5	67	virtual TObjString * GetAnalysisCuts() {return 0x0;}
0c1383b5	68
477d6cee	69	virtual Int_t GetDebug() const { return fDebug ; }
	70	virtual void SetDebug(Int_t d) { fDebug = d ; }
	71
	72	virtual Int_t GetEventNumber() const ;
c8fe2783	73
477d6cee	74	virtual AliCaloTrackReader * GetReader() const {return fReader ; }
42dc8e7d	75	virtual void SetReader(AliCaloTrackReader * const reader) { fReader = reader ; }
477d6cee	76
f37fa8d2	77	//Calorimeter helper class access methods
765d44e7	78	AliEMCALGeoUtils * GetEMCALGeometry() const { return fCaloUtils->GetEMCALGeometry(); }
765d44e7	79	AliPHOSGeoUtils * GetPHOSGeometry() const { return fCaloUtils->GetPHOSGeometry() ; }
c8fe2783	80
e6e63685	81	Int_t GetModuleNumberCellIndexes(const Int_t absId, const TString calo, Int_t & icol, Int_t & irow, Int_t &iRCU) const {
765d44e7	82	return fCaloUtils->GetModuleNumberCellIndexes(absId, calo, icol, irow,iRCU);}
b05a14a3	83	Int_t GetModuleNumber(AliAODPWG4Particle * part) const {
765d44e7	84	return fCaloUtils->GetModuleNumber(part, fReader->GetInputEvent());}
c8fe2783	85	Int_t GetModuleNumber(AliVCluster * cluster) const {
765d44e7	86	return fCaloUtils->GetModuleNumber(cluster);}
f37fa8d2	87
a5cc4f03	88	virtual void Terminate(TList * /outputList/) {;}
a5cc4f03	89
f37fa8d2	90	//analysis AOD branch
477d6cee	91	virtual TClonesArray * GetCreateOutputAODBranch() ;
	92	virtual TString GetInputAODName() const {return fInputAODName ; }
	93	virtual void SetInputAODName(TString name) { fInputAODName = name; }
	94	virtual TString GetOutputAODName() const {return fOutputAODName ; }
	95	virtual void SetOutputAODName(TString name) { fNewAOD = kTRUE ; fOutputAODName = name; }
	96	virtual Bool_t NewOutputAOD() const {return fNewAOD;}
	97	virtual TString GetOutputAODClassName() const {return fOutputAODClassName;}
	98	virtual void SetOutputAODClassName(TString name) {fOutputAODClassName = name; }
765d44e7	99	virtual AliCalorimeterUtils * GetCaloUtils() const {return fCaloUtils ; }
	100	void SetCaloUtils(AliCalorimeterUtils * caloutils) { fCaloUtils = caloutils ; }
	101
591cc579	102	virtual TString GetAODObjArrayName() const {return fAODObjArrayName;}
591cc579	103	virtual void SetAODObjArrayName(TString name) {fAODObjArrayName = name; }
c8fe2783	104
477d6cee	105	virtual TClonesArray* GetInputAODBranch() const {return fInputAODBranch ;}
1e86c71e	106	virtual TClonesArray* GetOutputAODBranch() const {if(fNewAOD) return fOutputAODBranch; else return fInputAODBranch ;}
42dc8e7d	107	virtual TClonesArray* GetAODBranch(TString aodBranchName) const ;
42dc8e7d	108
477d6cee	109	virtual TClonesArray* GetAODCaloClusters() const ;
477d6cee	110	virtual TClonesArray* GetAODTracks() const ;
f37fa8d2	111	virtual AliVCaloCells* GetPHOSCells() const {return fReader->GetPHOSCells() ;}
	112	virtual AliVCaloCells* GetEMCALCells() const {return fReader->GetEMCALCells() ;}
	113
591cc579	114	virtual TObjArray* GetAODCTS() const ;
	115	virtual TObjArray* GetAODEMCAL() const ;
	116	virtual TObjArray* GetAODPHOS() const ;
477d6cee	117
477d6cee	118	virtual TString GetBaseParametersList();
f37fa8d2	119
477d6cee	120	virtual AliStack * GetMCStack() const ;
	121	virtual AliHeader* GetMCHeader() const ;
	122	virtual AliGenEventHeader* GetMCGenEventHeader() const ;
	123
f37fa8d2	124	//Analysis helpers classes pointers setters and getters
decca433	125	virtual AliCaloPID * GetCaloPID() {if(!fCaloPID) fCaloPID = new AliCaloPID(); return fCaloPID ;}
42dc8e7d	126	virtual void SetCaloPID(AliCaloPID * const pid) { fCaloPID = pid ;}
477d6cee	127
2ebb9054	128	virtual AliFiducialCut * GetFiducialCut() {if(!fFidCut) fFidCut = new AliFiducialCut(); return fFidCut ;}
ff45398a	129	virtual void SetFiducialCut(AliFiducialCut * const fc) { fFidCut = fc ;}
477d6cee	130
decca433	131	virtual AliIsolationCut * GetIsolationCut() {if(!fIC) fIC = new AliIsolationCut(); return fIC ;}
42dc8e7d	132	virtual void SetIsolationCut(AliIsolationCut * const ic) { fIC = ic ;}
477d6cee	133
decca433	134	virtual AliMCAnalysisUtils * GetMCAnalysisUtils() {if(!fMCUtils) fMCUtils = new AliMCAnalysisUtils(); return fMCUtils ;}
42dc8e7d	135	virtual void SetMCAnalysisUtils(AliMCAnalysisUtils * const mcutils) { fMCUtils = mcutils ;}
477d6cee	136
decca433	137	virtual AliNeutralMesonSelection * GetNeutralMesonSelection() {if(!fNMS) fNMS = new AliNeutralMesonSelection(); return fNMS ;}
42dc8e7d	138	virtual void SetNeutralMesonSelection(AliNeutralMesonSelection * const nms) { fNMS = nms ;}
765d44e7	139
1e274f1c	140	virtual Bool_t IsDataMC() {return fDataMC ; }
1e274f1c	141	virtual void SwitchOnDataMC() {fDataMC = kTRUE ; if(!fMCUtils)fMCUtils = new AliMCAnalysisUtils();}
decca433	142	virtual void SwitchOffDataMC() {fDataMC = kFALSE ; }
c8fe2783	143
1e274f1c	144	virtual Bool_t IsFiducialCutOn() { return fCheckFidCut ; }
1e274f1c	145	virtual void SwitchOnFiducialCut() { fCheckFidCut = kTRUE; if(!fFidCut)fFidCut = new AliFiducialCut();}
decca433	146	virtual void SwitchOffFiducialCut() { fCheckFidCut = kFALSE;}
477d6cee	147
1e274f1c	148	virtual Bool_t IsCaloPIDOn() { return fCheckCaloPID ; }
1e274f1c	149	virtual void SwitchOnCaloPID() { fCheckCaloPID = kTRUE; if(!fCaloPID)fCaloPID = new AliCaloPID();}
decca433	150	virtual void SwitchOffCaloPID() { fCheckCaloPID = kFALSE;}
477d6cee	151
1e274f1c	152	virtual Bool_t IsCaloPIDRecalculationOn() { return fRecalculateCaloPID ; }
decca433	153	virtual void SwitchOnCaloPIDRecalculation() { fRecalculateCaloPID = kTRUE;}
decca433	154	virtual void SwitchOffCaloPIDRecalculation() { fRecalculateCaloPID = kFALSE;}
477d6cee	155
	156	virtual Float_t GetMaxPt() const {return fMaxPt ; }
	157	virtual Float_t GetMinPt() const {return fMinPt ; }
decca433	158	virtual void SetMaxPt(Float_t pt) {fMaxPt = pt ; }
decca433	159	virtual void SetMinPt(Float_t pt) {fMinPt = pt ; }
765d44e7	160	virtual void SetPtCutRange(Double_t ptmin, Double_t ptmax)
477d6cee	161	{ fMaxPt=ptmax; fMinPt=ptmin;}
477d6cee	162
f37fa8d2	163	//Histogrammes setters and getters
f37fa8d2	164	//Pt, Energy
477d6cee	165	virtual void SetHistoPtRangeAndNBins(Float_t min, Float_t max, Int_t n) {
5a2dbc3c	166	fHistoPtBins = n ;
477d6cee	167	fHistoPtMax = max ;
	168	fHistoPtMin = min ;
	169	}
	170
765d44e7	171	virtual Int_t GetHistoPtBins() const { return fHistoPtBins; }
	172	virtual Float_t GetHistoPtMin() const { return fHistoPtMin ; }
	173	virtual Float_t GetHistoPtMax() const { return fHistoPtMax ; }
477d6cee	174
c8fe2783	175	//Azimuthal angle
477d6cee	176	virtual void SetHistoPhiRangeAndNBins(Float_t min, Float_t max, Int_t n) {
5a2dbc3c	177	fHistoPhiBins = n ;
	178	fHistoPhiMax = max ;
	179	fHistoPhiMin = min ;
477d6cee	180	}
477d6cee	181
765d44e7	182	virtual Int_t GetHistoPhiBins() const { return fHistoPhiBins; }
	183	virtual Float_t GetHistoPhiMin() const { return fHistoPhiMin ; }
	184	virtual Float_t GetHistoPhiMax() const { return fHistoPhiMax ; }
477d6cee	185
f37fa8d2	186	//Pseudorapidity-rapidity
477d6cee	187	virtual void SetHistoEtaRangeAndNBins(Float_t min, Float_t max, Int_t n) {
5a2dbc3c	188	fHistoEtaBins = n ;
	189	fHistoEtaMax = max ;
	190	fHistoEtaMin = min ;
477d6cee	191	}
477d6cee	192
765d44e7	193	virtual Int_t GetHistoEtaBins() const { return fHistoEtaBins; }
	194	virtual Float_t GetHistoEtaMin() const { return fHistoEtaMin ; }
	195	virtual Float_t GetHistoEtaMax() const { return fHistoEtaMax ; }
5a2dbc3c	196
f37fa8d2	197	//Mass
5a2dbc3c	198	virtual void SetHistoMassRangeAndNBins(Float_t min, Float_t max, Int_t n) {
c8fe2783	199	fHistoMassBins = n ;
	200	fHistoMassMax = max ;
	201	fHistoMassMin = min ;
5a2dbc3c	202	}
5a2dbc3c	203
765d44e7	204	virtual Int_t GetHistoMassBins() const { return fHistoMassBins ; }
	205	virtual Float_t GetHistoMassMin() const { return fHistoMassMin ; }
	206	virtual Float_t GetHistoMassMax() const { return fHistoMassMax ; }
5a2dbc3c	207
f37fa8d2	208	//Asymetry
5a2dbc3c	209	virtual void SetHistoAsymmetryRangeAndNBins(Float_t min, Float_t max, Int_t n) {
c8fe2783	210	fHistoAsymBins = n ;
	211	fHistoAsymMax = max ;
	212	fHistoAsymMin = min ;
5a2dbc3c	213	}
5a2dbc3c	214
765d44e7	215	virtual Int_t GetHistoAsymmetryBins() const { return fHistoAsymBins ; }
	216	virtual Float_t GetHistoAsymmetryMin() const { return fHistoAsymMin ; }
	217	virtual Float_t GetHistoAsymmetryMax() const { return fHistoAsymMax ; }
c8fe2783	218
f8006433	219	virtual AliMixedEvent * GetMixedEvent() { return GetReader()->GetMixedEvent() ; }
	220	virtual Int_t GetNMixedEvent() const { return GetReader()->GetNMixedEvent() ; }
	221
	222	virtual void GetVertex(Double_t vertex[3]) const { GetReader()->GetVertex(vertex) ; }
	223	virtual void GetVertex(Double_t vertex[3],const Int_t evtIndex) const { GetReader()->GetVertex(vertex,evtIndex) ; }
	224	virtual Double_t* GetVertex(const Int_t evtIndex) const { return GetReader()->GetVertex(evtIndex) ; }
c8fe2783	225
5ae09196	226	virtual Bool_t IsTrackMatched(const AliVCluster * cluster) const { return fCaloPID->IsTrackMatched(cluster); }
f37fa8d2	227
c8fe2783	228	private:
477d6cee	229
	230	Bool_t fDataMC ; // Flag to access MC data when using ESD or AOD
	231	Int_t fDebug ; // Debug level
	232	Bool_t fCheckFidCut ; // Do analysis for clusters in defined region
	233	Bool_t fCheckCaloPID ; // Do analysis for calorimeters
	234	Bool_t fRecalculateCaloPID ; // Recalculate PID or use PID weights in calorimeters
	235	Float_t fMinPt ; // Maximum pt of (trigger) particles in the analysis
	236	Float_t fMaxPt ; // Minimum pt of (trigger) particles in the analysis
591cc579	237
39ffdc47	238	AliCaloTrackReader * fReader; // Acces to ESD/AOD/MC data
477d6cee	239
	240	TClonesArray* fInputAODBranch ; //! Selected input particles branch
	241	TString fInputAODName ; // Name of input AOD branch;
	242	TClonesArray* fOutputAODBranch ; //! Selected output particles branch
	243	Bool_t fNewAOD ; // Flag, new aod branch added to the analysis or not.
	244	TString fOutputAODName ; // Name of output AOD branch;
	245	TString fOutputAODClassName; // Type of aod objects to be stored in the TClonesArray (AliAODPWG4Particle, AliAODPWG4ParticleCorrelation ...)
591cc579	246	TString fAODObjArrayName ; // Name of ref array kept in a TList in AliAODParticleCorrelation with clusters or track references.
a3aebfff	247	TString fAddToHistogramsName;// Add this string to histograms name
477d6cee	248
f37fa8d2	249	//Analysis helper classes access pointers
614701c6	250	AliCaloPID * fCaloPID; //! PID calculation
	251	AliFiducialCut * fFidCut; //! Acceptance cuts
	252	AliIsolationCut * fIC; //! Isolation cut
	253	AliMCAnalysisUtils * fMCUtils; //! MonteCarlo Analysis utils
	254	AliNeutralMesonSelection * fNMS; //! Neutral Meson Selection
765d44e7	255	AliCalorimeterUtils * fCaloUtils ; // Pointer to CalorimeterUtils
c8fe2783	256
f37fa8d2	257
f37fa8d2	258	//Histograms binning and range
5a2dbc3c	259	Int_t fHistoPtBins ; // Number of bins in pt axis
	260	Float_t fHistoPtMax ; // Maximum value of pt histogram range
	261	Float_t fHistoPtMin ; // Minimum value of pt histogram range
	262	Int_t fHistoPhiBins ; // Number of bins in phi axis
	263	Float_t fHistoPhiMax ; // Maximum value of phi histogram range
	264	Float_t fHistoPhiMin ; // Minimum value of phi histogram range
	265	Int_t fHistoEtaBins ; // Number of bins in eta axis
	266	Float_t fHistoEtaMax ; // Maximum value of eta histogram range
	267	Float_t fHistoEtaMin ; // Minimum value of eta histogram range
	268	Int_t fHistoMassBins ; // Number of bins in mass axis
	269	Float_t fHistoMassMax ; // Maximum value of mass histogram range
	270	Float_t fHistoMassMin ; // Minimum value of mass histogram range
	271	Int_t fHistoAsymBins ; // Number of bins in asymmetry axis
	272	Float_t fHistoAsymMax ; // Maximum value of asymmetry histogram range
	273	Float_t fHistoAsymMin ; // Minimum value of asymmetry histogram range
c8fe2783	274
f8006433	275	ClassDef(AliAnaPartCorrBaseClass,9)
c8fe2783	276	} ;
1c5acb87	277
	278
	279	#endif //ALIANAPARTCORRBASECLASS_H
	280
	281
	282