1 #ifndef ALIITSTRACKMI_H
2 #define ALIITSTRACKMI_H
3 /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * See cxx source for full Copyright notice */
6 //-------------------------------------------------------------------------
9 // Origin: Marian Ivanov, CERN, Marian.Ivanov@cern.ch
10 // dEdx analysis by: Boris Batyunya, JINR, Boris.Batiounia@cern.ch
11 //-------------------------------------------------------------------------
14 /*****************************************************************************
16 * Internal view of the ITS track parametrisation as well as the order of *
17 * track parameters are subject for possible changes ! *
18 * Use GetExternalParameters() and GetExternalCovariance() to access ITS *
19 * track information regardless of its internal representation. *
20 * This formation is now fixed in the following way: *
21 * external param0: local Y-coordinate of a track (cm) *
22 * external param1: local Z-coordinate of a track (cm) *
23 * external param2: local sine of the track momentum azimuthal angle *
24 * external param3: tangent of the track momentum dip angle *
25 * external param4: 1/pt (1/(GeV/c)) *
26 *****************************************************************************/
28 #include <AliKalmanTrack.h>
30 #include "AliITSrecoV2.h"
31 #include "AliITStrackV2.h"
35 //_____________________________________________________________________________
36 class AliITStrackMI : public AliITStrackV2 {
39 AliITStrackMI(AliESDtrack& t,Bool_t c=kFALSE) throw (const Char_t *);
40 AliITStrackMI(const AliITStrackMI& t);
41 Int_t GetProlongationFast(Double_t alpha, Double_t xr,Double_t &y, Double_t &z);
42 Bool_t UpdateMI(Double_t cy, Double_t cz, Double_t cerry, Double_t cerrz, Double_t chi2, Int_t i);
43 Int_t CorrectForMaterial(Double_t d, Double_t x0=21.82);
45 void UpdateESDtrack(ULong_t flags);
47 void SetReconstructed(Bool_t sr=kTRUE){fReconstructed = sr;}
48 Bool_t GetReconstructed() const {return fReconstructed;}
49 void SetChi2MIP(Int_t i,Float_t val){fChi2MIP[i]=val;}
50 Float_t GetChi2MIP(Int_t i) const {return fChi2MIP[i];}
51 void IncrementNSkipped(){fNSkipped++;} // increment by 1 the # of skipped cls
52 Float_t GetNSkipped() const {return fNSkipped;}
53 void SetNSkipped(Float_t n) {fNSkipped=n;}
54 void IncrementNUsed(){fNUsed++;} // increment by 1 the # of shared clusters
55 Float_t GetNUsed() const {return fNUsed;}
56 void SetNUsed(Float_t n) {fNUsed=n;}
58 Int_t Compare(const TObject *o) const;
59 Double_t GetCov33() const {return GetCovariance()[9];} // cov. matrix el. 3,3
60 //Double_t GetCov44() const {return GetCovariance()[15];}// cov. matrix el. 4,4
61 Float_t GetDy(Int_t i) const {return fDy[i];}
62 Float_t GetDz(Int_t i) const {return fDz[i];}
63 Float_t GetD(Int_t i) const {return fD[i];}
64 Double_t GetD(Double_t x, Double_t y) const
65 {return AliITStrackV2::GetD(x,y);}
66 Float_t *GetDP() {return fD;}
67 void SetD(Int_t i, Float_t d) {fD[i]=d;}
68 Float_t GetDnorm(Int_t i) const {return fDnorm[i];}
69 Float_t *GetDnormP() {return fDnorm;}
70 void SetDnorm(Int_t i, Float_t d) {fDnorm[i]=d;}
71 Float_t GetSigmaY(Int_t i) const {return fSigmaY[i];}
72 Float_t GetSigmaZ(Int_t i) const {return fSigmaZ[i];}
73 void SetSigmaY(Int_t i, Float_t s) {fSigmaY[i]=s;}
74 void SetSigmaZ(Int_t i, Float_t s) {fSigmaZ[i]=s;}
75 Float_t GetNDeadZone() const {return fNDeadZone;}
76 void SetNDeadZone(Float_t d) {fNDeadZone=d;}
77 Int_t* ClIndex() {return fClIndex;}
78 Int_t GetClIndex(Int_t i) const {return fClIndex[i];}
79 void SetClIndex(Int_t i, Int_t c) {fClIndex[i]=c;}
80 Float_t GetNormChi2(Int_t i) const {return fNormChi2[i];}
81 void SetNormChi2(Int_t i, Float_t n) {fNormChi2[i]=n;}
82 Bool_t GetConstrain() const {return fConstrain;}
83 void SetConstrain(Bool_t c) {fConstrain=c;}
84 Float_t GetExpQ() const {return fExpQ;}
85 void SetExpQ(Float_t f) {fExpQ=f;}
86 Float_t GetNormQ(Int_t i) const {return fNormQ[i];}
87 void SetNormQ(Int_t i, Float_t q) {fNormQ[i]=q;}
88 Float_t GetdEdxMismatch() const {return fdEdxMismatch;}
89 void SetdEdxMismatch(Float_t m) {fdEdxMismatch=m;}
90 Float_t GetNy(Int_t i) const {return fNy[i];}
91 void SetNy(Int_t i, Float_t f) {fNy[i]=f;}
92 Float_t GetNz(Int_t i) const {return fNz[i];}
93 void SetNz(Int_t i, Float_t f) {fNz[i]=f;}
94 Bool_t GetGoldV0() const {return fGoldV0;}
95 void SetGoldV0(Bool_t g) {fGoldV0=g;}
96 Float_t GetChi22() const {return fChi22;}
97 void SetChi22(Float_t c) {fChi22=c;}
98 Float_t GetDeadZoneProbability() const {return fDeadZoneProbability;}
99 void SetDeadZoneProbability(Float_t d) {fDeadZoneProbability=d;}
101 Double_t GetPredictedChi2MI(Double_t cy, Double_t cz, Double_t cerry, Double_t cerrz) const;
102 Bool_t IsGoldPrimary();
105 Float_t fNUsed; // number of shared clusters
106 Float_t fNSkipped; // number of skipped clusters
107 Float_t fNDeadZone; // number of clusters in dead zone
108 Float_t fDeadZoneProbability; // probability to cross dead zone
109 Bool_t fReconstructed; // reconstructed - accepted flag
110 Float_t fChi2MIP[12]; // MIP chi squres
112 Float_t fDy[12]; //dy in layer
113 Float_t fDz[12]; //dz in layer
114 Float_t fSigmaY[12]; //sigma y
115 Float_t fSigmaZ[12]; //sigma z
116 Float_t fNy[6]; //expected size of cluster
117 Float_t fNz[6]; //expected size of cluster
118 Float_t fD[2]; //distance to the vertex
119 Float_t fDnorm[2]; // normalized distance to the vertex
120 Float_t fNormQ[6]; // normalized Q
121 Float_t fExpQ; // expected Q
122 Float_t fNormChi2[6]; // normalized chi2
123 Float_t fChi22; // chi22
124 Float_t fdEdxMismatch;
125 Bool_t fConstrain; //indication of the vertex constrain
126 Int_t fClIndex[6]; //cluster Index
127 Bool_t fGoldV0; //corresponding gold V0 found
128 ClassDef(AliITStrackMI,1) //ITS reconstructed track
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