#ifndef MARS_MMcEvtBasic #define MARS_MMcEvtBasic #ifndef MARS_MParContainer #include "MParContainer.h" #endif class MMcEvtBasic : public MParContainer { public: enum ParticleId_t { kUNDEFINED = -1, kGAMMA = 1, kPOSITRON = 2, kELECTRON = 3, kANTIMUON = 5, kMUON = 6, kPI0 = 7, kNEUTRON = 13, kPROTON = 14, kHELIUM = 402, kOXYGEN = 1608, kIRON = 5626 }; protected: ParticleId_t fPartId; // Type of particle Float_t fEnergy; // [GeV] Energy Float_t fImpact; // [cm] impact parameter // Telescope orientation (see TDAS 02-11 regarding the // precise meaning of these angles): Float_t fTelescopePhi; // [rad] Float_t fTelescopeTheta; // [rad] public: MMcEvtBasic(); MMcEvtBasic(ParticleId_t, Float_t, Float_t, Float_t, Float_t); // Getter ParticleId_t GetPartId() const { return fPartId; } Float_t GetEnergy() const { return fEnergy; } Float_t GetImpact() const { return fImpact; } Float_t GetTelescopePhi() const { return fTelescopePhi; } Float_t GetTelescopeTheta() const { return fTelescopeTheta; } TString GetParticleName() const { switch (fPartId) { case kUNDEFINED:return "Undefined"; case kGAMMA: return "Gamma"; case kPOSITRON: return "Positron"; case kELECTRON: return "Electron"; case kANTIMUON: return "Anti-Muon"; case kMUON: return "Muon"; case kPI0: return "Pi-0"; case kNEUTRON: return "Neutron"; case kPROTON: return "Proton"; case kHELIUM: return "Helium"; case kOXYGEN: return "Oxygen"; case kIRON: return "Iron"; } return Form("Id:%d", fPartId); } TString GetParticleSymbol() const { switch (fPartId) { case kUNDEFINED:return "N/A"; case kGAMMA: return "\\gamma"; case kPOSITRON: return "e^{+}"; case kELECTRON: return "e^{-}"; case kANTIMUON: return "\\mu^{+}"; case kMUON: return "\\mu^{-}"; case kPI0: return "\\pi^{0}"; case kNEUTRON: return "n"; case kPROTON: return "p"; case kHELIUM: return "He"; case kOXYGEN: return "O"; case kIRON: return "Fe"; } return Form("Id:%d", fPartId); } static TString GetEnergyStr(Float_t e) { if (e>=1000) return Form("%.1fTeV", e/1000); if (e>=10) return Form("%dGeV", (Int_t)(e+.5)); if (e>=1) return Form("%.1fGeV", e); return Form("%dMeV", (Int_t)(e*1000+.5)); } TString GetEnergyStr() const { return GetEnergyStr(fEnergy); } // Setter void SetPartId(ParticleId_t id) { fPartId = id; } void SetEnergy(Float_t Energy) { fEnergy=Energy; } //Set Energy void SetImpact(Float_t Impact) { fImpact=Impact;} //Set impact parameter void SetTelescopeTheta(Float_t Theta) { fTelescopeTheta=Theta; } void SetTelescopePhi (Float_t Phi) { fTelescopePhi=Phi; } void Fill(ParticleId_t, Float_t, Float_t, Float_t, Float_t); // TObject void Clear(Option_t *opt=NULL); void Print(Option_t *opt=NULL) const; ClassDef(MMcEvtBasic, 2) //Stores Basic Montecarlo Information of one event }; #endif