Corrected protection.
[u/mrichter/AliRoot.git] / STEER / AliESDRun.h
CommitLineData
d5ebf00e 1// -*- mode: C++ -*-
2#ifndef ALIESDRUN_H
3#define ALIESDRUN_H
4/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
5 * See cxx source for full Copyright notice */
6
7//-------------------------------------------------------------------------
8// Implementation Class AliESDRun
9// Run by run data
10// for the ESD
11// Origin: Christian Klein-Boesing, CERN, Christian.Klein-Boesing@cern.ch
12//-------------------------------------------------------------------------
13
14#include <TObject.h>
f009b5c1 15#include <TObjArray.h>
16#include <TString.h>
d5ebf00e 17
8d218603 18class TGeoHMatrix;
d5ebf00e 19class AliESDVertex;
20
21class AliESDRun: public TObject {
22public:
23
5cf76849 24 enum StatusBits {kBInfoStored = BIT(14), kUniformBMap = BIT(15), kConvSqrtSHalfGeV = BIT(16)};
33fe5eb1 25
d5ebf00e 26 AliESDRun();
27 AliESDRun(const AliESDRun& esd);
28 AliESDRun& operator=(const AliESDRun& esd);
732a24fe 29 virtual void Copy(TObject &obj) const; // Interface for using TOBject::Copy()
8d218603 30 virtual ~AliESDRun();
d5ebf00e 31
33fe5eb1 32 Bool_t InitMagneticField() const;
d5ebf00e 33 Int_t GetRunNumber() const {return fRunNumber;}
34 void SetRunNumber(Int_t n) {fRunNumber=n;}
35 void SetMagneticField(Float_t mf){fMagneticField = mf;}
694aad0c 36 Double_t GetMagneticField() const {return fMagneticField;}
37 UInt_t GetPeriodNumber() const {return fPeriodNumber;}
d5ebf00e 38 void SetPeriodNumber(Int_t n) {fPeriodNumber=n;}
39 void Reset();
40 void Print(const Option_t *opt=0) const;
33fe5eb1 41 void SetDiamond(const AliESDVertex *vertex);
f009b5c1 42 void SetTriggerClass(const char*name, Int_t index);
33fe5eb1 43 void SetCurrentL3(Float_t cur) {fCurrentL3 = cur;}
44 void SetCurrentDip(Float_t cur) {fCurrentDip = cur;}
45 void SetBeamEnergy(Float_t be) {fBeamEnergy = be;}
46 void SetBeamType(const char* bt) {fBeamType = bt;}
5cf76849 47 void SetBeamEnergyIsSqrtSHalfGeV(Bool_t v=kTRUE) {SetBit(kConvSqrtSHalfGeV,v);}
7b649c02 48 void SetDetectorsInDAQ(UInt_t detmask) { fDetInDAQ = detmask; }
49 void SetDetectorsInReco(UInt_t detmask) { fDetInReco = detmask; }
5cf76849 50
51 Bool_t IsBeamEnergyIsSqrtSHalfGeV() const {return TestBit(kConvSqrtSHalfGeV);}
694aad0c 52 Double_t GetDiamondX() const {return fDiamondXY[0];}
53 Double_t GetDiamondY() const {return fDiamondXY[1];}
1c7554f9 54 Double_t GetDiamondZ() const {return fDiamondZ;}
694aad0c 55 Double_t GetSigma2DiamondX() const {return fDiamondCovXY[0];}
56 Double_t GetSigma2DiamondY() const {return fDiamondCovXY[2];}
1c7554f9 57 Double_t GetSigma2DiamondZ() const {return fDiamondSig2Z;}
d5ebf00e 58 void GetDiamondCovXY(Float_t cov[3]) const {
59 for(Int_t i=0;i<3;i++) cov[i]=fDiamondCovXY[i]; return;
60 }
f009b5c1 61 const char* GetTriggerClass(Int_t index) const;
62 TString GetActiveTriggerClasses() const;
63 TString GetFiredTriggerClasses(ULong64_t mask) const;
64 Bool_t IsTriggerClassFired(ULong64_t mask, const char *name) const;
33fe5eb1 65 Float_t GetCurrentL3() const {return fCurrentL3;}
66 Float_t GetCurrentDip() const {return fCurrentDip;}
5cf76849 67 Float_t GetBeamEnergy() const {return IsBeamEnergyIsSqrtSHalfGeV() ? fBeamEnergy : fBeamEnergy/2;}
33fe5eb1 68 const char* GetBeamType() const {return fBeamType.Data();}
7b649c02 69 UInt_t GetDetectorsInDAQ() const {return fDetInDAQ; }
70 UInt_t GetDetectorsInReco() const {return fDetInReco; }
71
8d218603 72 void SetPHOSMatrix(TGeoHMatrix*matrix, Int_t i) {
73 if ((i >= 0) && (i < kNPHOSMatrix)) fPHOSMatrix[i] = matrix;
74 }
75 const TGeoHMatrix* GetPHOSMatrix(Int_t i) const {
76 return ((i >= 0) && (i < kNPHOSMatrix)) ? fPHOSMatrix[i] : NULL;
77 }
428557af 78
79 void SetEMCALMatrix(TGeoHMatrix*matrix, Int_t i) {
80 if ((i >= 0) && (i < kNEMCALMatrix)) fEMCALMatrix[i] = matrix;
81 }
82 const TGeoHMatrix* GetEMCALMatrix(Int_t i) const {
83 return ((i >= 0) && (i < kNEMCALMatrix)) ? fEMCALMatrix[i] : NULL;
84 }
85
f009b5c1 86 enum {kNTriggerClasses = 50};
8d218603 87 enum {kNPHOSMatrix = 5};
428557af 88 enum {kNEMCALMatrix = 12};
b671618d 89 //
90 Double_t GetMeanIntensity(int beam,int btp) const
91 { return (beam>=0&&beam<2&&btp>=0&&btp<2) ? fMeanBeamInt[beam][btp]:0;}
92 void SetMeanIntensity(int beam,int btp, double v=-1)
93 { if (beam>=0&&beam<2&&btp>=0&&btp<2) fMeanBeamInt[beam][btp]=v;}
94 Double_t GetMeanIntensityIntecting(int beam) const {return GetMeanIntensity(beam,0);}
95 Double_t GetMeanIntensityNonIntecting(int beam) const {return GetMeanIntensity(beam,1);}
96 //
97 private:
33fe5eb1 98 Float_t fCurrentL3; // signed current in the L3 (LHC convention: +current -> +Bz)
99 Float_t fCurrentDip; // signed current in the Dipole (LHC convention: +current -> -Bx)
100 Float_t fBeamEnergy; // beamEnergy entry from GRP
694aad0c 101 Double32_t fMagneticField; // Solenoid Magnetic Field in kG : for compatibility with AliMagF
b671618d 102 Double32_t fMeanBeamInt[2][2]; // mean intensity of interacting and non-intercting bunches per beam
694aad0c 103 Double32_t fDiamondXY[2]; // Interaction diamond (x,y) in RUN
104 Double32_t fDiamondCovXY[3]; // Interaction diamond covariance (x,y) in RUN
1c7554f9 105 Double32_t fDiamondZ; // Interaction diamond (z) in RUN
106 Double32_t fDiamondSig2Z; // Interaction diamond sigma^2 (z) in RUN
694aad0c 107 UInt_t fPeriodNumber; // PeriodNumber
108 Int_t fRunNumber; // Run Number
33fe5eb1 109 Int_t fRecoVersion; // Version of reconstruction
110 TString fBeamType; // beam type from GRP
f009b5c1 111 TObjArray fTriggerClasses; // array of TNamed containing the names of the active trigger classes
7b649c02 112 UInt_t fDetInDAQ; // Detector mask for detectors in datataking
113 UInt_t fDetInReco; // Detector mask for detectors in reconstruction
8d218603 114 TGeoHMatrix* fPHOSMatrix[kNPHOSMatrix]; //PHOS module position and orientation matrices
428557af 115 TGeoHMatrix* fEMCALMatrix[kNEMCALMatrix]; //EMCAL supermodule position and orientation matrices
694aad0c 116
b671618d 117 ClassDef(AliESDRun,9)
d5ebf00e 118};
119
120#endif