#ifndef MARS_MNewImagePar #define MARS_MNewImagePar #ifndef MARS_MParContainer #include "MParContainer.h" #endif class MHillas; class MGeomCam; class MCerPhotEvt; class MNewImagePar : public MParContainer { private: Float_t fLeakage1; // (photons in most outer ring of pixels) over fSize Float_t fLeakage2; // (photons in the 2 outer rings of pixels) over fSize Float_t fInnerLeakage1; // (photons in most outer rings of inner pixels) over fInnerSize Float_t fInnerLeakage2; // (photons in the 2 outer rings of inner pixels) over fInnerSize Float_t fInnerSize; Float_t fConc; // [ratio] concentration ratio: sum of the two highest pixels / fSize Float_t fConc1; // [ratio] concentration ratio: sum of the highest pixel / fSize Short_t fNumUsedPixels; // Number of pixels which survived the image cleaning Short_t fNumCorePixels; // number of core pixels Short_t fNumHGSaturatedPixels; // number of pixels with saturating hi-gains Short_t fNumSaturatedPixels; // number of pixels with saturating lo-gains public: MNewImagePar(const char *name=NULL, const char *title=NULL); void Reset(); Float_t GetLeakage1() const { return fLeakage1; } Float_t GetLeakage2() const { return fLeakage2; } Float_t GetConc() const { return fConc; } Float_t GetConc1() const { return fConc1; } Short_t GetNumUsedPixels() const { return fNumUsedPixels; } Short_t GetNumCorePixels() const { return fNumCorePixels; } Short_t GetNumSaturatedPixels() const { return fNumSaturatedPixels; } Short_t GetNumHGSaturatedPixels() const { return fNumHGSaturatedPixels; } void Print(Option_t *opt=NULL) const; void Calc(const MGeomCam &geom, const MCerPhotEvt &evt, const MHillas &hillas); ClassDef(MNewImagePar, 3) // Container to hold new image parameters }; #endif