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df9db588 | 1 | #ifndef AliAODHeader_H |
2 | #define AliAODHeader_H | |
3 | /* Copyright(c) 1998-2007, ALICE Experiment at CERN, All rights reserved. * | |
4 | * See cxx source for full Copyright notice */ | |
5 | ||
6 | /* $Id$ */ | |
7 | ||
8 | //------------------------------------------------------------------------- | |
9ae2e5e6 | 9 | // AOD event header class |
df9db588 | 10 | // Author: Markus Oldenburg, CERN |
11 | //------------------------------------------------------------------------- | |
12 | ||
9ae2e5e6 | 13 | #include "AliVHeader.h" |
df9db588 | 14 | #include "AliAODVertex.h" |
15 | ||
1aa76f71 | 16 | class TGeoHMatrix; |
17 | ||
9ae2e5e6 | 18 | class AliAODHeader : public AliVHeader { |
df9db588 | 19 | |
20 | public : | |
31fd97b2 | 21 | AliAODHeader(); |
df9db588 | 22 | |
abfce367 | 23 | AliAODHeader(Int_t nRun, UShort_t nBunchX, UInt_t nOrbit, UInt_t nPeriod, const Char_t *title=""); |
31fd97b2 | 24 | AliAODHeader(Int_t nRun, |
25 | UShort_t nBunchX, | |
26 | UInt_t nOrbit, | |
89cf15db | 27 | UInt_t nPeriod, |
31fd97b2 | 28 | Int_t refMult, |
29 | Int_t refMultPos, | |
30 | Int_t refMultNeg, | |
31 | Double_t magField, | |
6b6f8d32 | 32 | Double_t muonMagFieldScale, |
33 | Double_t cent, | |
34 | Double_t n1Energy, | |
35 | Double_t p1Energy, | |
36 | Double_t n2Energy, | |
37 | Double_t p2Energy, | |
a85132e7 | 38 | Double_t *emEnergy, |
31fd97b2 | 39 | ULong64_t fTriggerMask, |
40 | UChar_t fTriggerCluster, | |
41 | UInt_t fEventType, | |
abfce367 | 42 | const Char_t *title=""); |
31fd97b2 | 43 | |
df9db588 | 44 | virtual ~AliAODHeader(); |
45 | AliAODHeader(const AliAODHeader& evt); | |
46 | AliAODHeader& operator=(const AliAODHeader& evt); | |
6b6f8d32 | 47 | |
df9db588 | 48 | Int_t GetRunNumber() const { return fRunNumber; } |
31fd97b2 | 49 | UShort_t GetBunchCrossNumber() const { return fBunchCrossNumber; } |
50 | UInt_t GetOrbitNumber() const { return fOrbitNumber; } | |
89cf15db | 51 | UInt_t GetPeriodNumber() const { return fPeriodNumber; } |
df9db588 | 52 | ULong64_t GetTriggerMask() const { return fTriggerMask; } |
53 | UChar_t GetTriggerCluster() const { return fTriggerCluster; } | |
54 | UInt_t GetEventType() const { return fEventType; } | |
55 | Double_t GetMagneticField() const { return fMagneticField; } | |
6b6f8d32 | 56 | Double_t GetMuonMagFieldScale() const { return fMuonMagFieldScale; } |
57 | ||
df9db588 | 58 | Double_t GetCentrality() const { return fCentrality; } |
6b6f8d32 | 59 | Double_t GetZDCN1Energy() const { return fZDCN1Energy; } |
60 | Double_t GetZDCP1Energy() const { return fZDCP1Energy; } | |
61 | Double_t GetZDCN2Energy() const { return fZDCN2Energy; } | |
62 | Double_t GetZDCP2Energy() const { return fZDCP2Energy; } | |
a85132e7 | 63 | Double_t GetZDCEMEnergy(Int_t i) const { return fZDCEMEnergy[i]; } |
df9db588 | 64 | Int_t GetRefMultiplicity() const { return fRefMult; } |
65 | Int_t GetRefMultiplicityPos() const { return fRefMultPos; } | |
66 | Int_t GetRefMultiplicityNeg() const { return fRefMultNeg; } | |
ff254193 | 67 | |
68 | Double_t GetQTheta(UInt_t i) const; | |
69 | UInt_t GetNQTheta() const { return (UInt_t)fNQTheta; } | |
613fc341 | 70 | |
71 | Double_t GetDiamondX() const {return fDiamondXY[0];} | |
72 | Double_t GetDiamondY() const {return fDiamondXY[1];} | |
73 | Double_t GetSigma2DiamondX() const {return fDiamondCovXY[0];} | |
74 | Double_t GetSigma2DiamondY() const {return fDiamondCovXY[2];} | |
75 | void GetDiamondCovXY(Float_t cov[3]) const { | |
76 | for(Int_t i=0;i<3;i++) cov[i]=fDiamondCovXY[i]; return; | |
77 | } | |
6b6f8d32 | 78 | |
df9db588 | 79 | void SetRunNumber(Int_t nRun) { fRunNumber = nRun; } |
31fd97b2 | 80 | void SetBunchCrossNumber(UShort_t nBx) { fBunchCrossNumber = nBx; } |
9ae2e5e6 | 81 | void SetOrbitNumber(UInt_t nOr) { fOrbitNumber = nOr; } |
82 | void SetPeriodNumber(UInt_t nPer) { fPeriodNumber = nPer; } | |
df9db588 | 83 | void SetTriggerMask(ULong64_t trigMsk) { fTriggerMask = trigMsk; } |
84 | void SetTriggerCluster(UChar_t trigClus) { fTriggerCluster = trigClus; } | |
85 | void SetEventType(UInt_t evttype) { fEventType = evttype; } | |
86 | void SetMagneticField(Double_t magFld) { fMagneticField = magFld; } | |
6b6f8d32 | 87 | void SetMuonMagFieldScale(Double_t magFldScl){ fMuonMagFieldScale = magFldScl; } |
88 | ||
df9db588 | 89 | void SetCentrality(Double_t cent) { fCentrality = cent; } |
6b6f8d32 | 90 | void SetZDCN1Energy(Double_t n1Energy) { fZDCN1Energy = n1Energy; } |
91 | void SetZDCP1Energy(Double_t p1Energy) { fZDCP1Energy = p1Energy; } | |
92 | void SetZDCN2Energy(Double_t n2Energy) { fZDCN2Energy = n2Energy; } | |
93 | void SetZDCP2Energy(Double_t p2Energy) { fZDCP2Energy = p2Energy; } | |
a85132e7 | 94 | void SetZDCEMEnergy(Double_t emEnergy1, Double_t emEnergy2) |
95 | { fZDCEMEnergy[0] = emEnergy1; fZDCEMEnergy[1] = emEnergy2;} | |
df9db588 | 96 | void SetRefMultiplicity(Int_t refMult) { fRefMult = refMult; } |
97 | void SetRefMultiplicityPos(Int_t refMultPos) { fRefMultPos = refMultPos; } | |
98 | void SetRefMultiplicityNeg(Int_t refMultNeg) { fRefMultNeg = refMultNeg; } | |
6b6f8d32 | 99 | |
ff254193 | 100 | void SetQTheta(Double_t *QTheta, UInt_t size = 5); |
101 | void RemoveQTheta(); | |
102 | ||
613fc341 | 103 | void SetDiamond(Float_t xy[2],Float_t cov[3]) { |
104 | for(Int_t i=0;i<3;i++) {if(i<2) fDiamondXY[i]=xy[i]; fDiamondCovXY[i]=cov[i];} | |
105 | } | |
106 | ||
df9db588 | 107 | void Print(Option_t* option = "") const; |
1aa76f71 | 108 | |
109 | void SetPHOSMatrix(TGeoHMatrix*matrix, Int_t i) { | |
110 | if ((i >= 0) && (i < kNPHOSMatrix)) fPHOSMatrix[i] = matrix; | |
111 | } | |
112 | const TGeoHMatrix* GetPHOSMatrix(Int_t i) const { | |
113 | return ((i >= 0) && (i < kNPHOSMatrix)) ? fPHOSMatrix[i] : NULL; | |
114 | } | |
6b6f8d32 | 115 | |
1aa76f71 | 116 | void SetEMCALMatrix(TGeoHMatrix*matrix, Int_t i) { |
117 | if ((i >= 0) && (i < kNEMCALMatrix)) fEMCALMatrix[i] = matrix; | |
118 | } | |
119 | const TGeoHMatrix* GetEMCALMatrix(Int_t i) const { | |
120 | return ((i >= 0) && (i < kNEMCALMatrix)) ? fEMCALMatrix[i] : NULL; | |
121 | } | |
122 | ||
123 | enum {kNPHOSMatrix = 5}; | |
124 | enum {kNEMCALMatrix = 12}; | |
6b6f8d32 | 125 | |
df9db588 | 126 | private : |
6b6f8d32 | 127 | |
128 | Double32_t fMagneticField; // Solenoid Magnetic Field in kG | |
129 | Double32_t fMuonMagFieldScale; // magnetic field scale of muon arm magnet | |
130 | Double32_t fCentrality; // Centrality | |
131 | Double32_t fZDCN1Energy; // reconstructed energy in the neutron1 ZDC | |
132 | Double32_t fZDCP1Energy; // reconstructed energy in the proton1 ZDC | |
133 | Double32_t fZDCN2Energy; // reconstructed energy in the neutron2 ZDC | |
134 | Double32_t fZDCP2Energy; // reconstructed energy in the proton2 ZDC | |
a85132e7 | 135 | Double32_t fZDCEMEnergy[2]; // reconstructed energy in the electromagnetic ZDCs |
ff254193 | 136 | Int_t fNQTheta; // number of QTheta elements |
137 | Double32_t *fQTheta; // [fNQTheta] values to store Lee-Yang-Zeros | |
6b6f8d32 | 138 | ULong64_t fTriggerMask; // Trigger Type (mask) |
6b6f8d32 | 139 | Int_t fRunNumber; // Run Number |
140 | Int_t fRefMult; // reference multiplicity | |
141 | Int_t fRefMultPos; // reference multiplicity of positive particles | |
142 | Int_t fRefMultNeg; // reference multiplicity of negative particles | |
9333290e | 143 | UInt_t fEventType; // Type of Event |
144 | UInt_t fOrbitNumber; // Orbit Number | |
145 | UInt_t fPeriodNumber; // Period Number | |
146 | UShort_t fBunchCrossNumber; // BunchCrossingNumber | |
6b6f8d32 | 147 | UChar_t fTriggerCluster; // Trigger cluster (mask) |
613fc341 | 148 | |
149 | Double32_t fDiamondXY[2]; // Interaction diamond (x,y) in RUN | |
150 | Double32_t fDiamondCovXY[3]; // Interaction diamond covariance (x,y) in RUN | |
1aa76f71 | 151 | TGeoHMatrix* fPHOSMatrix[kNPHOSMatrix]; //PHOS module position and orientation matrices |
152 | TGeoHMatrix* fEMCALMatrix[kNEMCALMatrix]; //EMCAL supermodule position and orientation matrices | |
153 | ||
154 | ClassDef(AliAODHeader,8); | |
df9db588 | 155 | }; |
156 | ||
157 | #endif |