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[u/mrichter/AliRoot.git] / FASTSIM / AliMUONFastTrackingEntry.h
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bc7ddc0c 1#ifndef ALIMUONFASTTRACKINGENTRY_H
2#define ALIMUONFASTTRACKINGENTRY_H
5a03f4c4 3
4
5/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
6 * See cxx source for full Copyright notice */
7
8/* $Id$ */
9
bc7ddc0c 10
5a03f4c4 11#include <TClassTable.h>
12
13static const Int_t kSplitP = 5;
14static const Int_t kSplitTheta = 3;
15
16class AliMUONFastTrackingEntry {
17 public:
e6e76983 18 AliMUONFastTrackingEntry();
5a03f4c4 19 virtual ~AliMUONFastTrackingEntry(){;}
bc7ddc0c 20 Float_t GetP()const {return fP;}
21 Float_t GetTheta()const {return fTheta;}
22 Float_t GetPhi()const {return fPhi;}
23 Float_t GetMeanp()const {return fMeanp;}
24 Float_t GetMeantheta()const {return fMeantheta;}
25 Float_t GetMeanphi()const {return fMeanphi;}
26 Float_t GetSigmap()const {return fSigmap;}
27 Float_t GetSigmatheta()const {return fSigmatheta;}
28 Float_t GetSigmaphi()const {return fSigmaphi;}
29 Float_t GetSigma1p()const {return fSigma1p;}
30 Float_t GetChi2p()const {return fChi2p;}
31 Float_t GetChi2theta()const {return fChi2theta;}
32 Float_t GetChi2phi()const {return fChi2phi;}
33 Float_t GetAcc(Int_t i, Int_t j)const {return fAcc[i][j];}
34 Float_t GetEff(Int_t i, Int_t j) const {return fEff[i][j];}
35 Float_t GetNormG2()const {return fNormG2;}
36 Float_t GetMeanG2()const {return fMeanG2;}
37 Float_t GetSigmaG2()const {return fSigmaG2;}
4ef9f58b 38
39 void SetP(Float_t p){fP = p;}
40 void SetTheta(Float_t theta){fTheta = theta;}
41 void SetPhi(Float_t phi){fPhi = phi;}
42 void SetMeanp(Float_t meanp){fMeanp = meanp;}
43 void SetMeantheta(Float_t meantheta){fMeantheta = meantheta;}
44 void SetMeanphi(Float_t meanphi){fMeanphi = meanphi;}
45 void SetSigmap(Float_t sigmap){fSigmap = sigmap;}
46 void SetSigmatheta(Float_t sigmatheta){fSigmatheta = sigmatheta;}
47 void SetSigmaphi(Float_t sigmaphi){fSigmaphi = sigmaphi;}
48 void SetSigma1p(Float_t sigma1p){fSigma1p = sigma1p;}
49 void SetChi2p(Float_t chi2p){fChi2p = chi2p;}
50 void SetChi2theta(Float_t chi2theta){fChi2theta = chi2theta;}
51 void SetChi2phi(Float_t chi2phi){fChi2phi = chi2phi;}
52 void SetAcc(Int_t i, Int_t j, Float_t acc) {fAcc[i][j] = acc;}
53 void SetEff(Int_t i, Int_t j, Float_t eff) {fEff[i][j] = eff;}
54 void SetNormG2(Float_t normG2){fNormG2 = normG2;}
55 void SetMeanG2(Float_t meanG2){fMeanG2 = meanG2;}
56 void SetSigmaG2(Float_t sigmaG2){fSigmaG2 = sigmaG2;}
57
58 protected:
59 Float_t fP; // momentum
60 Float_t fTheta; // polar angle
61 Float_t fPhi; // azimuth
62 Float_t fMeanp; // mean value of p distribution in current LUT cell
63 Float_t fMeantheta; // mean value of theta distr. in current LUT cell
64 Float_t fMeanphi; // mean value of phi distr. in current LUT cell
65 Float_t fSigmap; // sigma of p distr. in current LUT cell
66 Float_t fSigmatheta; // sigma of theta distr. in current LUT cell
67 Float_t fSigmaphi; // sigma of phi distr. in current LUT cell
68 Float_t fSigma1p; // param. for asymmetry in p distribution
69 Float_t fChi2p; // chi2 for p
70 Float_t fChi2theta; // chi2 for theta
71 Float_t fChi2phi; // chi2 for phi
72 Float_t fAcc[5][3]; // acceptance (subdivided in narrower cells in p and theta for low momenta)
73 Float_t fEff[5][3]; // efficiency (subdivided in narrower cells in p and theta for low momenta)
74 Float_t fNormG2; // params for momentum gaussian smearing due to BKG
75 Float_t fMeanG2; // params for momentum gaussian smearing due to BKG
76 Float_t fSigmaG2; // params for momentum gaussian smearing due to BKG
5a03f4c4 77 ClassDef(AliMUONFastTrackingEntry,1)
78};
79
80
81#endif