1 #ifndef ALINEUTRALMESONSELECTION_H
2 #define ALINEUTRALMESONSELECTION_H
3 /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * See cxx source for full Copyright notice */
5 /* $Id: AliNeutralMesonSelection.h 27413 2008-07-18 13:28:12Z gconesab $ */
7 //_________________________________________________________________________
8 // Class that contains methods to select candidate pairs to neutral meson
9 // 2 main selections, invariant mass around pi0 (also any other mass),
10 // apperture angle to distinguish from combinatorial.
11 // There is a 3rd cut based on the gamma correlation on phi or pt.
12 //-- Author: Gustavo Conesa (INFN-LNF)
14 // --- ROOT system ---
18 class TLorentzVector ;
22 //--- ANALYSIS system ---
24 class AliNeutralMesonSelection : public TObject {
28 AliNeutralMesonSelection() ; // default ctor
29 AliNeutralMesonSelection(const AliNeutralMesonSelection & g) ; // cpy ctor
30 AliNeutralMesonSelection & operator = (const AliNeutralMesonSelection & g) ;//cpy assignment
31 virtual ~AliNeutralMesonSelection() ; //virtual dtor
33 TList * GetCreateOutputObjects();
35 Double_t GetAngleMaxParam(Int_t i) const {return fAngleMaxParam.At(i) ; }
36 void SetAngleMaxParam(Int_t i, Double_t par){fAngleMaxParam.AddAt(par,i) ; }
38 Double_t GetInvMassMaxCut() const {return fInvMassMaxCut ; }
39 Double_t GetInvMassMinCut() const {return fInvMassMinCut ; }
40 void SetInvMassCutRange(Double_t invmassmin, Double_t invmassmax)
41 {fInvMassMaxCut =invmassmax; fInvMassMinCut =invmassmin;}
43 Double_t GetMass() const {return fM ; }
44 void SetMass(Double_t m) { fM =m ; }
46 Bool_t AreNeutralMesonSelectionHistosKept() const { return fKeepNeutralMesonHistos ; }
47 void KeepNeutralMesonSelectionHistos(Bool_t keep) { fKeepNeutralMesonHistos = keep ; }
49 void InitParameters();
50 Bool_t IsAngleInWindow(const Float_t angle, const Float_t e) const ;
51 void Print(const Option_t * opt) const;
53 Bool_t SelectPair(TLorentzVector particlei, TLorentzVector particlej) ;
55 //Histogrammes setters and getters
57 virtual void SetHistoERangeAndNBins(Float_t min, Float_t max, Int_t n) {
63 Int_t GetHistoNEBins() const { return fHistoNEBins ; }
64 Float_t GetHistoEMin() const { return fHistoEMin ; }
65 Float_t GetHistoEMax() const { return fHistoEMax ; }
67 virtual void SetHistoPtRangeAndNBins(Float_t min, Float_t max, Int_t n) {
73 Int_t GetHistoNPtBins() const { return fHistoNPtBins ; }
74 Float_t GetHistoPtMin() const { return fHistoPtMin ; }
75 Float_t GetHistoPtMax() const { return fHistoPtMax ; }
77 virtual void SetHistoAngleRangeAndNBins(Float_t min, Float_t max, Int_t n) {
78 fHistoNAngleBins = n ;
79 fHistoAngleMax = max ;
80 fHistoAngleMin = min ;
83 Int_t GetHistoNAngleBins() const { return fHistoNAngleBins ; }
84 Float_t GetHistoAngleMin() const { return fHistoAngleMin ; }
85 Float_t GetHistoAngleMax() const { return fHistoAngleMax ; }
87 virtual void SetHistoIMRangeAndNBins(Float_t min, Float_t max, Int_t n) {
93 Int_t GetHistoNIMBins() const { return fHistoNIMBins ; }
94 Float_t GetHistoIMMin() const { return fHistoIMMin ; }
95 Float_t GetHistoIMMax() const { return fHistoIMMax ; }
99 Double_t fM ; //mass of the neutral meson
100 Double_t fInvMassMaxCut ; // Invariant Mass cut maximum
101 Double_t fInvMassMinCut ; // Invariant Masscut minimun
102 TArrayD fAngleMaxParam ; //Max opening angle selection parameters
104 Bool_t fKeepNeutralMesonHistos ; // Keep neutral meson selection histograms
107 TH2F * fhAnglePairNoCut ; //Aperture angle of decay photons, no cuts
108 TH2F * fhAnglePairOpeningAngleCut ; //Aperture angle of decay photons, cut on opening angle
109 TH2F * fhAnglePairAllCut ; //Aperture angle of decay photons, all cuts
110 TH2F * fhInvMassPairNoCut ; //Invariant mass of decay photons, no cuts
111 TH2F * fhInvMassPairOpeningAngleCut ; //Invariant mass of decay photons, cut on opening angle
112 TH2F * fhInvMassPairAllCut ; //Invariant mass of decay photons, all cuts
114 //Histograms binning and range
115 Int_t fHistoNEBins ; //Number of bins in pi0 E axis
116 Float_t fHistoEMax ; //Maximum value of pi0 E histogram range
117 Float_t fHistoEMin ; //Minimum value of pi0 E histogram range
118 Int_t fHistoNPtBins ; //Number of bins in Pt trigger axis
119 Float_t fHistoPtMax ; //Maximum value of Pt trigger histogram range
120 Float_t fHistoPtMin ; //Minimum value of Pt trigger histogram range
121 Int_t fHistoNAngleBins ; //Number of bins in angle axis
122 Float_t fHistoAngleMax ;//Maximum value of angle histogram range
123 Float_t fHistoAngleMin ;//Minimum value of angle histogram range
124 Int_t fHistoNIMBins ; //Number of bins in Invariant Mass axis
125 Float_t fHistoIMMax ; //Maximum value of Invariant Mass histogram range
126 Float_t fHistoIMMin ; //Minimum value of Invariant Mass histogram range
128 ClassDef(AliNeutralMesonSelection,2)
133 #endif //ALINEUTRALMESONSELECTION_H