/* * RawEvent.h * * Created on: Dec 27, 2016 * Author: vratik */ #ifndef DATACLASSES_RAWEVENT_H_ #define DATACLASSES_RAWEVENT_H_ #include //#include "Rtypes.h" #include "TError.h" #include "TGraph.h" #include "TArrayD.h" //#define NCELLS 1024 using std::cout; using std::endl; class RawEvent { private: // Double_t fAmp[NCELLS]; //array for raw amplitudes // Double_t fTime[NCELLS]; //array for raw times TArrayD fAmp; //array for raw amplitudes TArrayD fTime; //array for raw times const Int_t fNPoints; //! // TGraph *gAmp; //public: // TArrayD fAmpA; public: RawEvent(); RawEvent(const Int_t npoints); virtual ~RawEvent(); ClassDef(RawEvent,1); void Reset(); //Resets arrays to zeros const Double_t* GetAmp() const { return fAmp.GetArray(); } const Double_t* GetTime() const { return fTime.GetArray(); } void SetAmp(Double_t a, Int_t i); //Takes amplitude (raw data, voltage from binary file) //and places it in the array Amp[NCELLS] void SetTime(Double_t t, Int_t i); //Takes time (raw data, times from binary file) //and places it in the array Time[NCELLS] void PrintAmp(Int_t i); //Prints i amplitudes (to make sense i shold be NCELLS) void PrintTime(Int_t i); // void InvertAmp(Double_t a, Int_t i); //Inverts the amplitudes i.e. makes from negative singals //posititve signals and vise versa. // void SetGraphs(); // TGraph* GetGraph() { // return gAmp; // } private: void Init(); }; #endif /* DATACLASSES_RAWEVENT_H_ */