#ifndef MARS_MRflEvtHeader #define MARS_MRflEvtHeader #ifndef MARS_MParContainer #include "MParContainer.h" #endif #ifndef ROOT_TVector3 #include #endif class MRflEvtHeader : public MParContainer { Int_t fEvtNumber; Float_t fEnergy; // [GeV] of primary TVector3 fMomentum; // versor of momentum of primary TVector2 fCorePosition; // shower core position on ground Float_t fHeightFirstInt; // [cm] z coordinate (height) of first interaction Float_t fPhi; // Phi of the telescope Float_t fTheta; // Theta of the telescope [rad] Float_t fNmax; // number of particles in shower maximum fitted by CORSIKA Float_t fT0; // depth of first interaction point fitted by CORSIKA Float_t fTmax; // depth of the shower maximum fitted by CORSIKA Float_t fChi2; // quality of the fit to longit shower development /* Now follow the fraction of photons reaching the camera produced by * * electrons, muons and other particles respectively: */ Float_t fEFraction; // elec_cph_fraction Float_t fMFraction; // muon_cph_fraction Float_t fOFraction; // other_cph_fraction public: MRflEvtHeader(const char *name=NULL, const char *title=NULL); // Getter Int_t GetEvtNumber() const { return fEvtNumber; } Float_t GetEnergy() const { return fEnergy; } const TVector3 &GetMomentum() const { return fMomentum; } const TVector2 &GetCorePosition() const { return fCorePosition; } Float_t GetHeightFirstInt() const { return fHeightFirstInt; } Float_t GetPhi() const { return fPhi; } Float_t GetTheta() const { return fTheta; } Float_t GetNmax() const { return fNmax; } Float_t GetT0() const { return fT0; } Float_t GetTmax() const { return fTmax; } Float_t GetChi2() const { return fChi2; } Float_t GetEFraction() const { return fEFraction; } Float_t GetMFraction() const { return fMFraction; } Float_t GetOFraction() const { return fOFraction; } // Setter void SetEvtNumber(Int_t n) { fEvtNumber = n; } void SetEnergy(Float_t x) { fEnergy = x; } void SetMomentum(const TVector3 &v) { fMomentum = v; } void SetCorePosition(const TVector2 &v) { fCorePosition = v; } void SetMomentum(Float_t px, Float_t py, Float_t pz) { fMomentum = TVector3(px, py, pz); } void SetCorePosition(Float_t cx, Float_t cy) { fCorePosition = TVector2(cx, cy); } void SetHeightFirstInt(Float_t x) { fHeightFirstInt = x; } void SetPhi(Float_t x) { fPhi = x; } void SetTheta(Float_t x) { fTheta = x; } void SetNmax(Float_t x) { fNmax = x ; } void SetT0(Float_t x) { fT0 = x; } void SetTmax(Float_t x) { fTmax = x ; } void SetChi2(Float_t x) { fChi2 = x ; } void SetEFraction(Float_t x) { fEFraction = x ; } void SetMFraction(Float_t x) { fMFraction = x ; } void SetOFraction(Float_t x) { fOFraction = x ; } ClassDef(MRflEvtHeader, 1) // Header of an event from the reflector program }; #endif