#ifndef MARS_MEventRateCalc #define MARS_MEventRateCalc #ifndef MARS_MTask #include "MTask.h" #endif #ifndef ROOT_TArrayD #include #endif class MTime; class MEventRate; class MParameterD; class MEventRateCalc : public MTask { private: static const TString gsDefName; //! Default name of container static const TString gsDefTitle; //! Default title of container static const TString gsNameEventRate; //! default name of rate container static const TString gsNameTime; //! Default name of time container static const TString gsNameTimeDiff; //! default name of time-diff container static const TString gsNameTimeRate; //! default name of time-rate container static const Int_t gsNumEvents; //! Default number of events MTime *fTime; //! pointer to event time MTime *fTimeRate; //! pointer to time of event rate MEventRate *fRate; //! pointer to rate storage container MParameterD *fTimeDiff; //! Difference of time between two consecutive events TString fNameEventRate; // name of event rate container TString fNameTime; // name of time container TString fNameTimeRate; // name of event rate time container TString fNameTimeDiff; // name of time-diff container TArrayD fTimes; //! internal array to store the last n event times Int_t fNumFirstEvent; //! Number of first event in file Bool_t ReInit(MParList *pList); Int_t PreProcess(MParList *pList); Int_t Process(); void StreamPrimitive(ofstream &out) const; Int_t ReadEnv(const TEnv &env, TString prefix, Bool_t print); public: MEventRateCalc(const char *name=NULL, const char *title=NULL); void SetNumEvents(ULong_t num) { fTimes.Set(num); } void SetNameEventRate(const char *name) { fNameEventRate = name; } void SetNameTime(const char *name) { fNameTime = name; } void SetNameTimeDiff(const char *name) { fNameTimeDiff = name; } void SetNameTimeRate(const char *name) { fNameTimeRate = name; } ClassDef(MEventRateCalc, 1)// Task to calculate event rates }; #endif