[u/mrichter/AliRoot.git] / PWG4 / PartCorrDep / AliAnaPi0EbE.h

#ifndef ALIANAPI0EBE_H
#define ALIANAPI0EBE_H
/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 * See cxx source for full Copyright notice     */

//_________________________________________________________________________
//
// Class for the analysis of high pT pi0 event by event
// Pi0 identified by one of the following:
//  -Invariant mass of 2 cluster in calorimeter
//  -Shower shape analysis in calorimeter
//  -Invariant mass of one cluster in calorimeter and one photon reconstructed in TPC (in near future)
//
//-- Author: Gustavo Conesa (INFN-LNF)  &  Raphaelle Ichou (SUBATECH)
//_________________________________________________________________________


// --- ROOT system ---
class TList ;
class TObjString;

// --- ANALYSIS system ---
#include "AliAnaCaloTrackCorrBaseClass.h"

class AliAnaPi0EbE : public AliAnaCaloTrackCorrBaseClass {

 public: 
  AliAnaPi0EbE() ; // default ctor
  virtual ~AliAnaPi0EbE() { ; } //virtual dtor
	  
  TObjString *   GetAnalysisCuts();
  
  TList      *   GetCreateOutputObjects();
  
  void           Init();
  
  void           InitParameters();

  void           MakeAnalysisFillAOD()  ;
   
  void           MakeAnalysisFillHistograms() ; 
  
  void           Print(const Option_t * opt) const;
  
  // Main
  
  void           FillSelectedClusterHistograms(AliVCluster* cluster, const Int_t tag);
    
  void           FillWeightHistograms(AliVCluster *clus);
    
  void           MakeInvMassInCalorimeter() ;
  
  void           MakeInvMassInCalorimeterAndCTS() ;
  
  void           MakeShowerShapeIdentification() ;
  
  void           RecalibrateCellAmplitude(Float_t  & amp,  const Int_t absId);
      
  //Setters Getters
  
  //Analysis types
  enum anaTypes  {kIMCalo, kSSCalo, kIMCaloTracks};  
  anaTypes       GetAnalysisType()                     const { return fAnaType                ; }
  void           SetAnalysisType(anaTypes ana)               { fAnaType = ana                 ; }
  
  TString        GetInputAODGammaConvName()            const { return fInputAODGammaConvName  ; }
  void           SetInputAODGammaConvName(TString name)      { fInputAODGammaConvName = name  ; }	
  
  //Only for pi0 SS identification case
  void           SetCalorimeter(TString & det)               { fCalorimeter = det             ; }
  
  void           SetMinDistanceToBadChannel(Float_t m1, Float_t m2, Float_t m3) {
                  fMinDist = m1; fMinDist2 = m2; fMinDist3 = m3                               ; }

  void           SwitchOnFillWeightHistograms()              { fFillWeightHistograms = kTRUE  ; }
  void           SwitchOffFillWeightHistograms()             { fFillWeightHistograms = kFALSE ; }  
  
  //For histograms
  enum mcTypes   { kmcPhoton = 0, kmcConversion = 1, kmcPi0    = 2,  
                   kmcEta    = 3, kmcElectron   = 4, kmcHadron = 5 };

 private:
  
  anaTypes       fAnaType;                 // Select analysis type
  
  //Only for pi0 SS identification case, kSSCalo
  TString        fCalorimeter ;            // Calorimeter where the gamma is searched;
  Float_t        fMinDist ;                // Minimal distance to bad channel to accept cluster
  Float_t        fMinDist2;                // Cuts on Minimal distance to study acceptance evaluation
  Float_t        fMinDist3;                // One more cut on distance used for acceptance-efficiency study
  
  Bool_t         fFillWeightHistograms ;   // Fill weigth histograms
  
  //Only for combination of calorimeter and conversion photons, kIMCaloTracks
  TString        fInputAODGammaConvName;   //  Name of AOD branch with conversion photons
  
  //Histograms
  
  TH1F         * fhPtPi0  ;                //! Number of identified  pi0 vs pT
  TH1F         * fhEPi0   ;                //! Number of identified  pi0 vs E
  TH2F         * fhEEtaPi0  ;              //! E vs eta of identified  pi0 
  TH2F         * fhEPhiPi0  ;              //! E vs phi of identified  pi0 
  TH2F         * fhEtaPhiPi0  ;            //! eta vs phi of identified  pi0 

  TH2F         * fhEDispersion ;           //! E vs disp of selected cluster
  TH2F         * fhELambda0 ;              //! E vs lambda0 of selected cluster 
  TH2F         * fhELambda1 ;              //! E vs lambda1 of selected cluster 
  TH2F         * fhELambda0NoTRD ;         //! E vs lambda0 of selected cluster, not behind TRD 
  TH2F         * fhELambda0FracMaxCellCut ;//! E vs lambda0 of selected cluster, fraction of cluster energy in max cell cut 
  TH2F         * fhEFracMaxCell ;          //! E vs frac max cell of selected cluster 
  TH2F         * fhEFracMaxCellNoTRD ;     //! E vs frac max cell of selected cluster, not behind TRD  
  TH2F         * fhENCells;                //! E vs N cells in selected cluster
  TH2F         * fhETime;                  //! E vs Time of selected cluster 
  TH2F         * fhEPairDiffTime;          //! E vs Pair of clusters time difference vs E

  //MC histograms
  
  TH2F         * fhEMCLambda0[6] ;         //! E vs lambda0 of pi0 pairs but really from MC particle
  TH2F         * fhEMCLambda1[6] ;         //! E vs lambda1 of pi0 pairs but really from MC particle
  TH2F         * fhEMCDispersion[6] ;      //! E vs dispersion of pi0 pairs but really from MC particle
  TH2F         * fhEMCLambda0NoTRD[6] ;         //! E vs lambda0 of pi0 pairs but really from MC particle, not behind TRD
  TH2F         * fhEMCLambda0FracMaxCellCut[6] ;//! E vs lambda0 of pi0 pairs but really from MC particle, fraction of cluster energy in max cell cut
  TH2F         * fhEMCFracMaxCell[6] ;     //! E vs fraction of max cell 
  
  TH1F         * fhPtMCNoPi0;              //! Number of identified pi0, not coming from pi0
  TH2F         * fhPhiMCNoPi0;             //! Phi of identified pi0, not coming from pi0
  TH2F         * fhEtaMCNoPi0;             //! eta of identified  pi0, not coming from pi0
  TH1F         * fhPtMCPi0;                //! Number of identified pi0, coming from pi0
  TH2F         * fhPhiMCPi0;               //! Phi of identified pi0, coming from pi0
  TH2F         * fhEtaMCPi0;               //! eta of identified pi0, coming from pi0
  
  // Weight studies
  
  TH2F         * fhECellClusterRatio;      //! e cell / e cluster vs e cluster for selected photons
  TH2F         * fhECellClusterLogRatio;   //! log (e cell / e cluster)  vs e cluster for selected photons
  TH2F         * fhEMaxCellClusterRatio;   //! e max cell / e cluster vs e cluster for selected photons
  TH2F         * fhEMaxCellClusterLogRatio;//! log (e max cell / e cluster) vs e cluster for selected photons
  TH2F         * fhLambda0ForW0[14];       //! L0 for 7 defined w0= 3, 3.5 ... 6 for selected photons
  //TH2F         * fhLambda1ForW0[7];        //! L1 for 7 defined w0= 3, 3.5 ... 6 for selected photons  
  
  AliAnaPi0EbE(const AliAnaPi0EbE & g) ;               // cpy ctor
  AliAnaPi0EbE & operator = (const AliAnaPi0EbE & g) ; // cpy assignment
  
  ClassDef(AliAnaPi0EbE,11)
} ;


#endif //ALIANAPI0EBE_H
Commit	Line	Data
477d6cee	1	#ifndef ALIANAPI0EBE_H
	2	#define ALIANAPI0EBE_H
	3	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	4	* See cxx source for full Copyright notice */
477d6cee	5
	6	//_________________________________________________________________________
	7	//
	8	// Class for the analysis of high pT pi0 event by event
	9	// Pi0 identified by one of the following:
	10	// -Invariant mass of 2 cluster in calorimeter
	11	// -Shower shape analysis in calorimeter
	12	// -Invariant mass of one cluster in calorimeter and one photon reconstructed in TPC (in near future)
	13	//
	14	//-- Author: Gustavo Conesa (INFN-LNF) & Raphaelle Ichou (SUBATECH)
	15	//_________________________________________________________________________
	16
	17
	18	// --- ROOT system ---
477d6cee	19	class TList ;
0c1383b5	20	class TObjString;
477d6cee	21
477d6cee	22	// --- ANALYSIS system ---
745913ae	23	#include "AliAnaCaloTrackCorrBaseClass.h"
477d6cee	24
745913ae	25	class AliAnaPi0EbE : public AliAnaCaloTrackCorrBaseClass {
477d6cee	26
477d6cee	27	public:
477d6cee	28	AliAnaPi0EbE() ; // default ctor
1db06135	29	virtual ~AliAnaPi0EbE() { ; } //virtual dtor
c5693f62	30
521636d2	31	TObjString * GetAnalysisCuts();
477d6cee	32
521636d2	33	TList * GetCreateOutputObjects();
477d6cee	34
521636d2	35	void Init();
477d6cee	36
521636d2	37	void InitParameters();
	38
	39	void MakeAnalysisFillAOD() ;
	40
	41	void MakeAnalysisFillHistograms() ;
477d6cee	42
521636d2	43	void Print(const Option_t * opt) const;
477d6cee	44
521636d2	45	// Main
477d6cee	46
42d47cb7	47	void FillSelectedClusterHistograms(AliVCluster* cluster, const Int_t tag);
	48
	49	void FillWeightHistograms(AliVCluster *clus);
0a14e9ae	50
521636d2	51	void MakeInvMassInCalorimeter() ;
57b97dc6	52
521636d2	53	void MakeInvMassInCalorimeterAndCTS() ;
57b97dc6	54
521636d2	55	void MakeShowerShapeIdentification() ;
57b97dc6	56
78a28af3	57	void RecalibrateCellAmplitude(Float_t & amp, const Int_t absId);
c5693f62	58
521636d2	59	//Setters Getters
	60
	61	//Analysis types
	62	enum anaTypes {kIMCalo, kSSCalo, kIMCaloTracks};
78a28af3	63	anaTypes GetAnalysisType() const { return fAnaType ; }
78a28af3	64	void SetAnalysisType(anaTypes ana) { fAnaType = ana ; }
ddc0a8a5	65
78a28af3	66	TString GetInputAODGammaConvName() const { return fInputAODGammaConvName ; }
78a28af3	67	void SetInputAODGammaConvName(TString name) { fInputAODGammaConvName = name ; }
ddc0a8a5	68
521636d2	69	//Only for pi0 SS identification case
78a28af3	70	void SetCalorimeter(TString & det) { fCalorimeter = det ; }
521636d2	71
521636d2	72	void SetMinDistanceToBadChannel(Float_t m1, Float_t m2, Float_t m3) {
78a28af3	73	fMinDist = m1; fMinDist2 = m2; fMinDist3 = m3 ; }
521636d2	74
c5693f62	75	void SwitchOnFillWeightHistograms() { fFillWeightHistograms = kTRUE ; }
	76	void SwitchOffFillWeightHistograms() { fFillWeightHistograms = kFALSE ; }
	77
521636d2	78	//For histograms
c5693f62	79	enum mcTypes { kmcPhoton = 0, kmcConversion = 1, kmcPi0 = 2,
c5693f62	80	kmcEta = 3, kmcElectron = 4, kmcHadron = 5 };
521636d2	81
477d6cee	82	private:
477d6cee	83
c5693f62	84	anaTypes fAnaType; // Select analysis type
477d6cee	85
477d6cee	86	//Only for pi0 SS identification case, kSSCalo
521636d2	87	TString fCalorimeter ; // Calorimeter where the gamma is searched;
	88	Float_t fMinDist ; // Minimal distance to bad channel to accept cluster
	89	Float_t fMinDist2; // Cuts on Minimal distance to study acceptance evaluation
	90	Float_t fMinDist3; // One more cut on distance used for acceptance-efficiency study
477d6cee	91
78a28af3	92	Bool_t fFillWeightHistograms ; // Fill weigth histograms
78a28af3	93
477d6cee	94	//Only for combination of calorimeter and conversion photons, kIMCaloTracks
521636d2	95	TString fInputAODGammaConvName; // Name of AOD branch with conversion photons
477d6cee	96
477d6cee	97	//Histograms
521636d2	98
	99	TH1F * fhPtPi0 ; //! Number of identified pi0 vs pT
	100	TH1F * fhEPi0 ; //! Number of identified pi0 vs E
7a972c0c	101	TH2F * fhEEtaPi0 ; //! E vs eta of identified pi0
	102	TH2F * fhEPhiPi0 ; //! E vs phi of identified pi0
	103	TH2F * fhEtaPhiPi0 ; //! eta vs phi of identified pi0
	104
42d47cb7	105	TH2F * fhEDispersion ; //! E vs disp of selected cluster
	106	TH2F * fhELambda0 ; //! E vs lambda0 of selected cluster
	107	TH2F * fhELambda1 ; //! E vs lambda1 of selected cluster
	108	TH2F * fhELambda0NoTRD ; //! E vs lambda0 of selected cluster, not behind TRD
	109	TH2F * fhELambda0FracMaxCellCut ;//! E vs lambda0 of selected cluster, fraction of cluster energy in max cell cut
	110	TH2F * fhEFracMaxCell ; //! E vs frac max cell of selected cluster
	111	TH2F * fhEFracMaxCellNoTRD ; //! E vs frac max cell of selected cluster, not behind TRD
	112	TH2F * fhENCells; //! E vs N cells in selected cluster
	113	TH2F * fhETime; //! E vs Time of selected cluster
	114	TH2F * fhEPairDiffTime; //! E vs Pair of clusters time difference vs E
3bfcb597	115
c4a7d28a	116	//MC histograms
c4a7d28a	117
6db946bd	118	TH2F * fhEMCLambda0[6] ; //! E vs lambda0 of pi0 pairs but really from MC particle
	119	TH2F * fhEMCLambda1[6] ; //! E vs lambda1 of pi0 pairs but really from MC particle
	120	TH2F * fhEMCDispersion[6] ; //! E vs dispersion of pi0 pairs but really from MC particle
3bfcb597	121	TH2F * fhEMCLambda0NoTRD[6] ; //! E vs lambda0 of pi0 pairs but really from MC particle, not behind TRD
	122	TH2F * fhEMCLambda0FracMaxCellCut[6] ;//! E vs lambda0 of pi0 pairs but really from MC particle, fraction of cluster energy in max cell cut
	123	TH2F * fhEMCFracMaxCell[6] ; //! E vs fraction of max cell
521636d2	124
	125	TH1F * fhPtMCNoPi0; //! Number of identified pi0, not coming from pi0
	126	TH2F * fhPhiMCNoPi0; //! Phi of identified pi0, not coming from pi0
	127	TH2F * fhEtaMCNoPi0; //! eta of identified pi0, not coming from pi0
	128	TH1F * fhPtMCPi0; //! Number of identified pi0, coming from pi0
	129	TH2F * fhPhiMCPi0; //! Phi of identified pi0, coming from pi0
	130	TH2F * fhEtaMCPi0; //! eta of identified pi0, coming from pi0
	131
78a28af3	132	// Weight studies
	133
	134	TH2F * fhECellClusterRatio; //! e cell / e cluster vs e cluster for selected photons
	135	TH2F * fhECellClusterLogRatio; //! log (e cell / e cluster) vs e cluster for selected photons
	136	TH2F * fhEMaxCellClusterRatio; //! e max cell / e cluster vs e cluster for selected photons
	137	TH2F * fhEMaxCellClusterLogRatio;//! log (e max cell / e cluster) vs e cluster for selected photons
c5693f62	138	TH2F * fhLambda0ForW0[14]; //! L0 for 7 defined w0= 3, 3.5 ... 6 for selected photons
1a72f6c5	139	//TH2F * fhLambda1ForW0[7]; //! L1 for 7 defined w0= 3, 3.5 ... 6 for selected photons
78a28af3	140
c5693f62	141	AliAnaPi0EbE(const AliAnaPi0EbE & g) ; // cpy ctor
	142	AliAnaPi0EbE & operator = (const AliAnaPi0EbE & g) ; // cpy assignment
	143
7a972c0c	144	ClassDef(AliAnaPi0EbE,11)
c4a7d28a	145	} ;
477d6cee	146
	147
	148	#endif //ALIANAPI0EBE_H
	149
	150
	151