#ifndef MARS_MHillasCalc #define MARS_MHillasCalc ///////////////////////////////////////////////////////////////////////////// // // // MHillasCalkc // // // // Task to calculate Hillas Parameters // // // ///////////////////////////////////////////////////////////////////////////// #ifndef MARS_MTask #include "MTask.h" #endif #ifndef ROOT_TArrayL #include #endif class MGeomCam; class MSignalCam; class MHillas; class MHillasExt; class MHillasSrc; class MImagePar; class MNewImagePar; class MNewImagePar2; class MConcentration; class MSrcPosCam; class MHillasCalc : public MTask { static const TString gsDefName; // default name static const TString gsDefTitle; // default title static const TString gsNameHillas; // default name of the 'MHillas' container static const TString gsNameHillasExt; // default name of the 'MHillasExt' container static const TString gsNameNewImagePar; // default name of the 'MNewImagePar' container static const TString gsNameNewImagePar2; // default name of the 'MNewImagePar' container static const TString gsNameConc; // default name of the 'MConcentration' container static const TString gsNameImagePar; // default name of the 'MImagePar' container static const TString gsNameHillasSrc; // default name of the 'MHillasSrc' container static const TString gsNameSrcPosCam; // default name of the 'MSrcPosCam' container const MGeomCam *fGeomCam; //! Camera Geometry used to calculate Hillas const MSignalCam *fCerPhotEvt; //! Cerenkov Photon Event used for calculation MHillas *fHillas; //! output container to store result MHillasExt *fHillasExt; //! output container to store result MHillasSrc *fHillasSrc; //! output container to store result MImagePar *fImagePar; //! output container to store result MNewImagePar *fNewImgPar; //! output container to store result MNewImagePar2 *fNewImgPar2; //! output container to store result MConcentration *fConc; //! output container to store result TString fNameHillas; // name of the 'MHillas' container TString fNameHillasExt; // name of the 'MHillasExt' container TString fNameHillasSrc; // name of the 'MHillasSrc' container TString fNameSrcPosCam; // name of the 'MSrcPosCam' container TString fNameConc; // name of the 'MConcentration' container TString fNameImagePar; // name of the 'MImagePar' container TString fNameNewImagePar; // name of the 'MNewImagePar' container TString fNameNewImagePar2; // name of the 'MNewImagePar' container TArrayL fErrors; //! Error counter. Do we have to change to Double? Int_t fFlags; // Flags defining the behaviour of MHillasCalc Short_t fIdxIsland; // Number of island to use for calculation Double_t fAbberation; // Correction factor to correct for abberation effects // MParContainer void StreamPrimitive(std::ostream &out) const; Int_t ReadEnv(const TEnv &env, TString prefix, Bool_t print); // MTask Int_t PreProcess(MParList *pList); Int_t Process(); Int_t PostProcess(); public: // Constructor MHillasCalc(const char *name=NULL, const char *title=NULL); // Flags enum CalcCont_t { kCalcHillas = BIT(0), kCalcHillasExt = BIT(1), kCalcHillasSrc = BIT(2), kCalcNewImagePar = BIT(3), kCalcNewImagePar2 = BIT(4), kCalcConc = BIT(5), kCalcImagePar = BIT(6) }; // Setup flags void SetFlags(Int_t f) { fFlags = f; } void Enable(Int_t f) { fFlags |= f; } void Disable(Int_t f) { fFlags &= ~f; } Bool_t TestFlag(CalcCont_t i) const { return fFlags&i; } Bool_t TestFlags(Int_t i) const { return fFlags&i; } // Setup container names void SetNameHillas(const char *name) { fNameHillas = name; } void SetNameHillasExt(const char *name) { fNameHillasExt = name; } void SetNameHillasSrc(const char *name) { fNameHillasSrc = name; } void SetNameNewImagePar(const char *name) { fNameNewImagePar = name; } void SetNameNewImagePar2(const char *name){ fNameNewImagePar2 = name; } void SetNameConc(const char *name) { fNameConc = name; } void SetNameImagePar(const char *name) { fNameImagePar = name; } void SetNameSrcPosCam(const char *name) { fNameSrcPosCam = name; } // Setup island number void SetIdxIsland(Short_t idx) { fIdxIsland = idx; } // Set Abberation (see MHillasSrc for details) void SetAbberation(Double_t a=1) { fAbberation = a; } // TObject void Print(Option_t *o="") const; ClassDef(MHillasCalc, 0) // Task to calculate Hillas and other image parameters }; #endif