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d92b41ad | 1 | #ifndef ALICALOPID_H |
2 | #define ALICALOPID_H | |
3 | /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * | |
4 | * See cxx source for full Copyright notice */ | |
5 | /* $Id: $ */ | |
6 | ||
d92b41ad | 7 | //_________________________________________________________________________ |
8 | // Class for track/cluster acceptance selection | |
9 | // Selection in Central barrel, EMCAL and PHOS | |
10 | // | |
11 | //*-- Author: Gustavo Conesa (INFN-LNF) | |
12 | ||
13 | // --- ROOT system --- | |
14 | #include <TObject.h> | |
15 | class TString ; | |
16 | class Riostream ; | |
17 | class TLorentzVector ; | |
18 | class TFormula ; | |
19 | ||
20 | //--- AliRoot system --- | |
21 | class AliLog ; | |
22 | ||
23 | class AliCaloPID : public TObject { | |
24 | ||
25 | public: | |
26 | ||
27 | AliCaloPID() ; // ctor | |
28 | AliCaloPID(const AliCaloPID & g) ; // cpy ctor | |
29 | AliCaloPID & operator = (const AliCaloPID & g) ;//cpy assignment | |
30 | virtual ~AliCaloPID() ;//virtual dtor | |
31 | ||
32 | enum PidType { | |
33 | kPhoton = 22, | |
34 | kPi0 = 111, | |
35 | kEta = 221, | |
36 | kElectron = 11, | |
37 | kEleCon = -11, | |
38 | kNeutralHadron = 2112, | |
39 | kChargedHadron = 211, | |
40 | kNeutralUnknown = 130, | |
41 | kChargedUnknown=321 | |
42 | }; | |
43 | ||
44 | enum PhotonStatusType { | |
45 | kPromptPhoton=2, | |
46 | kFragmentPhoton=3, | |
47 | kPi0DecayPhoton=4, | |
48 | kEtaDecayPhoton=5, | |
49 | kOtherDecayPhoton=6, | |
50 | kUnknown=7 | |
51 | }; | |
52 | ||
53 | void InitParameters(); | |
54 | ||
55 | void Print(const Option_t * opt)const; | |
56 | ||
57 | Int_t GetPdg(const TString calo, const Double_t * pid, const Float_t energy) const ; | |
58 | Int_t GetPdg(const TString calo, const TLorentzVector mom, const Double_t l0, const Double_t l1, const Double_t disp, const Double_t tof, const Double_t distCPV) const ; | |
59 | ||
60 | //Weight getters | |
61 | Float_t GetEMCALPhotonWeight() const { return fEMCALPhotonWeight ; } | |
62 | Float_t GetEMCALPi0Weight() const { return fEMCALPi0Weight ; } | |
63 | Float_t GetEMCALElectronWeight() const { return fEMCALElectronWeight ; } | |
64 | Float_t GetEMCALChargeWeight() const { return fEMCALChargeWeight ; } | |
65 | Float_t GetEMCALNeutralWeight() const { return fEMCALNeutralWeight ; } | |
66 | Float_t GetPHOSPhotonWeight() const { return fPHOSPhotonWeight ; } | |
67 | Float_t GetPHOSPi0Weight() const { return fPHOSPi0Weight ; } | |
68 | Float_t GetPHOSElectronWeight() const { return fPHOSElectronWeight ; } | |
69 | Float_t GetPHOSChargeWeight() const { return fPHOSChargeWeight ; } | |
70 | Float_t GetPHOSNeutralWeight() const { return fPHOSNeutralWeight ; } | |
71 | ||
72 | Bool_t IsPHOSPIDWeightFormulaOn() const { return fPHOSWeightFormula ; } | |
73 | TFormula * GetPHOSPhotonWeightFormula() const { return fPHOSPhotonWeightFormula ; } | |
74 | TFormula * GetPHOSPi0WeightFormula() const { return fPHOSPi0WeightFormula ; } | |
75 | ||
76 | //Weight setters | |
77 | void SetEMCALPhotonWeight(Float_t w){ fEMCALPhotonWeight = w ; } | |
78 | void SetEMCALPi0Weight(Float_t w){ fEMCALPi0Weight = w ; } | |
79 | void SetEMCALElectronWeight(Float_t w){ fEMCALElectronWeight = w ; } | |
80 | void SetEMCALChargeWeight(Float_t w){ fEMCALChargeWeight = w ; } | |
81 | void SetEMCALNeutralWeight(Float_t w){ fEMCALNeutralWeight = w ; } | |
82 | void SetPHOSPhotonWeight(Float_t w){ fPHOSPhotonWeight = w ; } | |
83 | void SetPHOSPi0Weight(Float_t w){ fPHOSPi0Weight = w ; } | |
84 | void SetPHOSElectronWeight(Float_t w){ fPHOSElectronWeight = w ; } | |
85 | void SetPHOSChargeWeight(Float_t w){ fPHOSChargeWeight = w ; } | |
86 | void SetPHOSNeutralWeight(Float_t w){ fPHOSNeutralWeight = w ; } | |
87 | ||
88 | void UsePHOSPIDWeightFormula(Bool_t par) { fPHOSWeightFormula = par; } | |
89 | void SetPHOSPhotonWeightFormula(TFormula * photon) { fPHOSPhotonWeightFormula = photon; } | |
90 | void SetPHOSPi0WeightFormula(TFormula * pi0) { fPHOSPi0WeightFormula = pi0; } | |
91 | ||
92 | private: | |
93 | ||
94 | Float_t fEMCALPhotonWeight; //Bayesian PID weight for photons in EMCAL | |
95 | Float_t fEMCALPi0Weight; //Bayesian PID weight for pi0 in EMCAL | |
96 | Float_t fEMCALElectronWeight; //Bayesian PID weight for electrons in EMCAL | |
97 | Float_t fEMCALChargeWeight; //Bayesian PID weight for charged hadrons in EMCAL | |
98 | Float_t fEMCALNeutralWeight; //Bayesian PID weight for neutral hadrons in EMCAL | |
99 | Float_t fPHOSPhotonWeight; //Bayesian PID weight for photons in PHOS | |
100 | Float_t fPHOSPi0Weight; //Bayesian PID weight for pi0 in PHOS | |
101 | Float_t fPHOSElectronWeight; //Bayesian PID weight for electrons in PHOS | |
102 | Float_t fPHOSChargeWeight; //Bayesian PID weight for charged hadrons in PHOS | |
103 | Float_t fPHOSNeutralWeight; //Bayesian PID weight for neutral hadrons in PHOS | |
104 | ||
105 | Bool_t fPHOSWeightFormula ; //Use parametrized weight threshold, function of energy | |
106 | TFormula * fPHOSPhotonWeightFormula ; //Formula for photon weight | |
107 | TFormula * fPHOSPi0WeightFormula ; //Formula for pi0 weight | |
108 | ||
109 | ||
110 | ClassDef(AliCaloPID,1) | |
111 | } ; | |
112 | ||
113 | ||
114 | #endif //ALICALOPID_H | |
115 | ||
116 | ||
117 |