#ifndef MARS_MMcCorsikaRunHeader #define MARS_MMcCorsikaRunHeader /////////////////////////////////////////////////////////////////////// // // // MMcCorsikaRunHeader // // // /////////////////////////////////////////////////////////////////////// #ifndef MARS_MParContainer #include "MParContainer.h" #endif #ifndef ROOT_TObjArray #include #endif class MGeomCorsikaCT; class MMcCorsikaRunHeader : public MParContainer { private: // Header copied directly from CORSIKA header, skiping dummy values. // The propouse of this container is being able to cmopare with // Corsika run Header // See CORSIKA manual for explanations Float_t fRunNumber; Float_t fDate; Float_t fCorsikaVersion; Float_t fNumObsLev; Float_t fHeightLev[10]; Float_t fSlopeSpec; // Slope of primaries' energy spectrum Float_t fELowLim; Float_t fEUppLim; // Limits of energy range for generation Float_t fEGS4flag; Float_t fNKGflag; Float_t fEcutoffh; Float_t fEcutoffm; Float_t fEcutoffe; Float_t fEcutoffg; // Physical constants and interaction flags (see CORSIKA manual): Float_t fC[50]; Float_t fCKA[40]; Float_t fCETA[5]; Float_t fCSTRBA[11]; Float_t fAATM[5]; Float_t fBATM[5]; Float_t fCATM[5]; Float_t fNFL[4]; // (degrees) Inner and outer angles in Corsika's VIEWCONE option Float_t fViewconeAngles[2]; Float_t fWobbleMode; // Indicates wobble mode with which // reflector has been run Float_t fAtmosphericModel; // Indicates atmospheric model used in // absorption simulation. 0 = no atmosphere, // 1 = atm_90percent, 2 = atm_isothermal, // 3 = atm_corsika. UInt_t fNumCT; TObjArray fTelescopes; public: MMcCorsikaRunHeader(const char *name=NULL, const char *title=NULL, int NumCT=1); void Fill(const Float_t runnumber, const Float_t date, const Float_t vers, const Float_t fNumObsLev, const Float_t height[10], const Float_t slope, const Float_t elow, const Float_t eupp, const Float_t egs4, const Float_t nkg, const Float_t eh, const Float_t em, const Float_t ee, const Float_t eg, const Float_t c[50], const Float_t cka[40], const Float_t ceta[5], const Float_t cstrba[11], const Float_t aatm[5], const Float_t batm[5], const Float_t catm[5], const Float_t nfl[4], const Float_t viewcone[2], const Float_t wobble, const Float_t atmospher ); Float_t GetELowLim() const { return fELowLim; } Float_t GetEUppLim() const { return fEUppLim; } Float_t GetSlopeSpec() const { return fSlopeSpec; } Float_t GetWobbleMode() const { return fWobbleMode; } Float_t GetCorsikaVersion() const { return fCorsikaVersion; } Float_t GetViewconeAngleInner() const { return fViewconeAngles[0]; } Float_t GetViewconeAngleOuter() const { return fViewconeAngles[1]; } Float_t GetAtmosphericModel() const { return fAtmosphericModel; } Int_t GetNumCT() const { return fNumCT; } void FillCT(Float_t ctx, Float_t cty, Float_t ctz, Float_t cttheta, Float_t ctphi, Float_t ctdiam, Float_t ctfocal, Int_t CTnum); void SetSpectrum(Float_t slope, Float_t emin, Float_t emax) { fSlopeSpec=slope; fELowLim=emin; fEUppLim=emax; } MGeomCorsikaCT &operator[](Int_t i) const; virtual void Print(Option_t *opt=NULL) const; ClassDef(MMcCorsikaRunHeader, 3) // storage container for corsika setup information }; #endif