#ifndef MARS_MPedCalcFromLoGain #define MARS_MPedCalcFromLoGain #ifndef MARS_MExtractPedestal #include "MExtractPedestal.h" #endif #ifndef ROOT_TArrayI #include #endif #ifndef ROOT_MArrayB #include "MArrayB.h" #endif class MRawEvtPixelIter; class MPedestalPix; class MPedCalcFromLoGain : public MExtractPedestal { private: static const UShort_t fgCheckWinFirst; // First FADC slice to check for signal (currently set to: 0) static const UShort_t fgCheckWinLast; // Last FADC slice to check for signal (currently set to: 29) static const UShort_t fgMaxSignalVar; // The maximum difference between the highest and lowest slice static const UShort_t fgExtractWinFirst; // First FADC slice to use for pedestal calculation (currently set to: 15) static const UShort_t fgExtractWinSize; // number of successive slices used to calculate pedestal (currently set to: 6) UShort_t fMaxSignalVar; UShort_t fCheckWinFirst; UShort_t fCheckWinLast; TArrayI fNumEventsUsed; //! Number of events used for pedestal calc for each pixel TArrayI fTotalCounter; //! Counter for dumping values to Pedestal Container MArrayB fSlices; //! workaround to put hi- and lo-gain slices together Bool_t ReInit(MParList *pList); Int_t Process(); Int_t PostProcess(); Int_t ReadEnv(const TEnv &env, TString prefix, Bool_t print); //Helper function to extract slice values by slice number void CalcExtractor(const MRawEvtPixelIter &pixel, Float_t &sum, MPedestalPix &ped); void ResetArrays(); void CalcSectorResult(); void CalcAreaResult(); public: MPedCalcFromLoGain(const char *name=NULL, const char *title=NULL); void Print(Option_t *o="") const; // Setters Bool_t SetCheckRange(UShort_t checkfirst=fgCheckWinFirst, UShort_t checklast=fgCheckWinLast); void SetMaxSignalVar(UShort_t maxvar=40) { fMaxSignalVar = maxvar; } // Getters TArrayI *GetNumEventsUsed() { return &fNumEventsUsed; } ClassDef(MPedCalcFromLoGain, 1) // Task to calculate pedestals from data runs }; #endif