#ifndef MARS_MRawEvtData #define MARS_MRawEvtData #ifndef MARS_MParContainer #include "MParContainer.h" #endif #ifndef MARS_MCamEvent #include "MCamEvent.h" #endif // gcc 3.2 //class ifstream; #include class MRawRunHeader; class MRawCrateArray; class TArrayC; class MArrayS; class MArrayB; class MArrayI; class MRawEvtData : public MParContainer, public MCamEvent { friend class MRawEvtPixelIter; private: MRawRunHeader *fRunHeader; //! provides information about numbers // FIXME: COMMENT ABOUT ORDERING MArrayS *fHiGainPixId; //-> list of pixel IDs of hi gain channel MArrayB *fHiGainFadcSamples; //-> list of hi gain samples of all pixels (ordering: see fHiGainPixId) [fits: unit=mV ; name = Data] MArrayS *fLoGainPixId; //-> list of pixel IDs of lo gain channel MArrayB *fLoGainFadcSamples; //-> list of lo gain samples of all pixels (ordering: see fLoGainPixId) MArrayB *fABFlags; //-> A information about the exact trigger position MArrayS *fStartCells; // UShort_t fNumBytesPerSample; Bool_t fIsSigned; Int_t fConnectedPixels; //! void InitArrays(UShort_t numconnected=0, UShort_t maxid=0); void DeleteArrays(); Int_t GetNumBytes() const; Long_t GetSample(const void *ptr, Int_t n) // Helper for Draw { fIsSigned = kTRUE; switch (fNumBytesPerSample) { case 1: return fIsSigned ? (Long_t)reinterpret_cast(ptr)[n] : (Long_t)reinterpret_cast(ptr)[n]; case 2: return fIsSigned ? (Long_t)reinterpret_cast(ptr)[n] : (Long_t)reinterpret_cast(ptr)[n]; case 4: return fIsSigned ? (Long_t)reinterpret_cast(ptr)[n] : (Long_t)reinterpret_cast(ptr)[n]; } return 0; } public: MRawEvtData(const char *name=NULL, const char *title=NULL); ~MRawEvtData(); void InitRead(MRawRunHeader *rh) { // // you have to set this before you can read information // from a magic binary file // fRunHeader = rh; } void Clear(Option_t * = NULL); void Print(Option_t * = NULL) const; void Draw (Option_t * = NULL); void ResetPixels(); void ResetPixels(UShort_t npix, UShort_t maxid); void InitStartCells(); void AddPixel(UShort_t nOfPixel, const TArrayC &data); void Set(const MArrayI &data); void SetIndices(const MArrayS &idx); void SetIndices(); UShort_t GetNumHiGainSamples() const; UShort_t GetNumLoGainSamples() const; UInt_t GetNumSamples() const { return GetNumHiGainSamples()+GetNumLoGainSamples(); } UShort_t GetNumPixels() const; UShort_t GetNumBytesPerSample() const { return fNumBytesPerSample; } UInt_t GetScale() const { return 1<<((fNumBytesPerSample-1)*8); } Long_t GetMin() const { return fIsSigned ? -GetMax()-1 : 0; } Long_t GetMax() const { switch (fNumBytesPerSample) { case 1: return fIsSigned ? 0x7f : 0xff; case 2: return fIsSigned ? 0x7fff : 0xffff; case 4: return fIsSigned ? 0x7fffffff : 0xffffffff; } return 0; } Byte_t *GetSamples() const; UShort_t *GetStartCells() const; UShort_t *GetPixelIds() const; Bool_t HasStartCells() const; void ReadPixel(std::istream &fin, Int_t npix); void SetABFlag(Int_t npix, Bool_t ab); void SkipEvt(std::istream &fin); Bool_t GetPixelContent(Double_t &val, Int_t idx, const MGeomCam &cam, Int_t type=0) const; void DrawPixelContent(Int_t num) const { TString s("HIST"); s += num; const_cast(this)->Draw(s); } void Copy(TObject &named) #if ROOT_VERSION_CODE > ROOT_VERSION(3,04,01) const #endif ; ClassDef(MRawEvtData, 8) //Container to store the raw Event Data }; #endif