[u/mrichter/AliRoot.git] / PWG3 / base / AliQuarkoniaEfficiency.h

#ifndef ALIQUARKONIAEFFICIENCY_H
#define ALIQUARKONIAEFFICIENCY_H

//===================================================================
//  Class AliQuarkoniaEfficiency                               
//
//  This class will provide the quarkonia reconstruction efficiency 
//  in ALICE without acceptance consideration
//  for different resonances :
//    kJpsi
//    kPsiP
//    kUpsilon
//    kUpsilonP
//    kUpsilonPP
//  for some vector mesons :
//    kPhi
//    kOmega
//  different decay channels:
//    kDimuon
//    kDielectron
//  different trigger configurations:
//    kSinglePlusLpt, kSinglePlusHpt, kSinglePlusApt,
//    kSingleMinusLpt, kSingleMinusHpt, kSingleMinusApt,
//    kSingleUndefLpt, kSingleUndefHpt, kSingleUndefApt,
//    kPairUnlikeLpt, kPairUnlikeHpt, kPairUnlikeApt,
//    kPairLikeLpt, kPairLikeHpt, kPairLikeApt
//  different parameterizations:
//    kFlat
//    kCDFscaled
//    kCDFscaledPP
//
//
//  Reconstruction efficiency has been evaluated by means of a flat
//  y and pt distribution of quarkonia in -4 < y < -2.5, 
//  0 < pt < 20 GeV/c. Weights have been used to evaluate the
//  reconstruction efficiency in different parameterizations.
//                                                              
//  Subatech 2006
//===================================================================

#include "TNamed.h"

class TH2F;
class TString;

class AliQuarkoniaEfficiency : public TNamed{

 public:

  enum quarkonia{kJpsi, kPsiP, kUpsilon, kUpsilonP, kUpsilonPP, kOmega, kPhi};
  enum decay{kDimuon, kDielectron};
  enum parameterization{kFlat, kCDFscaled, kCDFscaledPP};
  enum trigger{kSinglePlusLpt, kSinglePlusHpt, kSinglePlusApt,
	       kSingleMinusLpt, kSingleMinusHpt, kSingleMinusApt,
	       kSingleUndefLpt, kSingleUndefHpt, kSingleUndefApt,
	       kPairUnlikeLpt, kPairUnlikeHpt, kPairUnlikeApt,
	       kPairLikeLpt, kPairLikeHpt, kPairLikeApt };


  AliQuarkoniaEfficiency(Int_t quarkoniaResonance=kJpsi, Int_t decayChannel=kDimuon, Int_t simParameterization=kCDFscaledPP);
  virtual ~AliQuarkoniaEfficiency();    
  void   Init(); 

  TH2F*  GetEfficiencyHisto() const;
  void   GetEfficiency(Float_t rap, Float_t pT, Double_t & eff, Double_t & error); 

  void  SetEfficiencyFileName(char * efficiencyFileName) { fEfficiencyFileName = efficiencyFileName; }
  void  SetQuarkoniaResonance(Int_t quarkoniaResonance = kJpsi) { fQuarkoniaResonance= quarkoniaResonance;}
  void  SetDecayChannel(Int_t decayChannel = kDimuon) { fDecayChannel = decayChannel;}
  void  SetSimulatedParameterization(Int_t simParameterization = kCDFscaledPP) { 
    fParameterization = simParameterization;
  }
  void  SetTrigger(Bool_t trig = kFALSE, Int_t triggerType = kPairUnlikeApt){ 
    fTrigger = trig; fTriggerType = triggerType;
  }
  
 private:

  AliQuarkoniaEfficiency(const AliQuarkoniaEfficiency& rhs);
  AliQuarkoniaEfficiency& operator=(const AliQuarkoniaEfficiency& rhs);

  TString        fEfficiencyFileName;      // Name of the efficiency root file
  Int_t          fQuarkoniaResonance;      // Resonance Acceptance
  Int_t          fDecayChannel;            // Studied decay channel
  Int_t          fParameterization;        // Quarkonia simulated parameterization  
  Int_t          fTriggerType;             // Trigger type to be considered  
  Bool_t         fTrigger;                 // Boolean to decide if consider or not trigger
  TH2F *         fEfficiency;              // Efficiency histogram

  ClassDef(AliQuarkoniaEfficiency,1)
    };

#endif
Commit	Line	Data
bae80eaf	1	#ifndef ALIQUARKONIAEFFICIENCY_H
bae80eaf	2	#define ALIQUARKONIAEFFICIENCY_H
977e08ed	3
	4	//===================================================================
	5	// Class AliQuarkoniaEfficiency
	6	//
	7	// This class will provide the quarkonia reconstruction efficiency
	8	// in ALICE without acceptance consideration
	9	// for different resonances :
	10	// kJpsi
	11	// kPsiP
	12	// kUpsilon
	13	// kUpsilonP
	14	// kUpsilonPP
	15	// for some vector mesons :
	16	// kPhi
	17	// kOmega
	18	// different decay channels:
	19	// kDimuon
	20	// kDielectron
	21	// different trigger configurations:
	22	// kSinglePlusLpt, kSinglePlusHpt, kSinglePlusApt,
	23	// kSingleMinusLpt, kSingleMinusHpt, kSingleMinusApt,
	24	// kSingleUndefLpt, kSingleUndefHpt, kSingleUndefApt,
	25	// kPairUnlikeLpt, kPairUnlikeHpt, kPairUnlikeApt,
	26	// kPairLikeLpt, kPairLikeHpt, kPairLikeApt
	27	// different parameterizations:
	28	// kFlat
	29	// kCDFscaled
	30	// kCDFscaledPP
	31	//
	32	//
	33	// Reconstruction efficiency has been evaluated by means of a flat
	34	// y and pt distribution of quarkonia in -4 < y < -2.5,
	35	// 0 < pt < 20 GeV/c. Weights have been used to evaluate the
	36	// reconstruction efficiency in different parameterizations.
	37	//
	38	// Subatech 2006
	39	//===================================================================
	40
	41	#include "TNamed.h"
	42
	43	class TH2F;
	44	class TString;
	45
	46	class AliQuarkoniaEfficiency : public TNamed{
	47
	48	public:
	49
	50	enum quarkonia{kJpsi, kPsiP, kUpsilon, kUpsilonP, kUpsilonPP, kOmega, kPhi};
	51	enum decay{kDimuon, kDielectron};
	52	enum parameterization{kFlat, kCDFscaled, kCDFscaledPP};
	53	enum trigger{kSinglePlusLpt, kSinglePlusHpt, kSinglePlusApt,
	54	kSingleMinusLpt, kSingleMinusHpt, kSingleMinusApt,
	55	kSingleUndefLpt, kSingleUndefHpt, kSingleUndefApt,
	56	kPairUnlikeLpt, kPairUnlikeHpt, kPairUnlikeApt,
	57	kPairLikeLpt, kPairLikeHpt, kPairLikeApt };
	58
	59
	60	AliQuarkoniaEfficiency(Int_t quarkoniaResonance=kJpsi, Int_t decayChannel=kDimuon, Int_t simParameterization=kCDFscaledPP);
	61	virtual ~AliQuarkoniaEfficiency();
	62	void Init();
	63
	64	TH2F* GetEfficiencyHisto() const;
	65	void GetEfficiency(Float_t rap, Float_t pT, Double_t & eff, Double_t & error);
	66
bae80eaf	67	void SetEfficiencyFileName(char * efficiencyFileName) { fEfficiencyFileName = efficiencyFileName; }
	68	void SetQuarkoniaResonance(Int_t quarkoniaResonance = kJpsi) { fQuarkoniaResonance= quarkoniaResonance;}
	69	void SetDecayChannel(Int_t decayChannel = kDimuon) { fDecayChannel = decayChannel;}
	70	void SetSimulatedParameterization(Int_t simParameterization = kCDFscaledPP) {
977e08ed	71	fParameterization = simParameterization;
977e08ed	72	}
5074794f	73	void SetTrigger(Bool_t trig = kFALSE, Int_t triggerType = kPairUnlikeApt){
5074794f	74	fTrigger = trig; fTriggerType = triggerType;
977e08ed	75	}
	76
	77	private:
	78
bae80eaf	79	AliQuarkoniaEfficiency(const AliQuarkoniaEfficiency& rhs);
	80	AliQuarkoniaEfficiency& operator=(const AliQuarkoniaEfficiency& rhs);
	81
977e08ed	82	TString fEfficiencyFileName; // Name of the efficiency root file
	83	Int_t fQuarkoniaResonance; // Resonance Acceptance
	84	Int_t fDecayChannel; // Studied decay channel
	85	Int_t fParameterization; // Quarkonia simulated parameterization
	86	Int_t fTriggerType; // Trigger type to be considered
	87	Bool_t fTrigger; // Boolean to decide if consider or not trigger
	88	TH2F * fEfficiency; // Efficiency histogram
	89
	90	ClassDef(AliQuarkoniaEfficiency,1)
	91	};
	92
	93	#endif