#ifndef MARS_MExtractTimeAndChargeSpline #define MARS_MExtractTimeAndChargeSpline #ifndef MARS_MExtractTimeAndCharge #include "MExtractTimeAndCharge.h" #endif #ifndef MARS_MExtralgoSpline #include "MExtralgoSpline.h" #endif #ifndef MARS_MArrayF #include "MArrayF.h" #endif class MPedestalPix; class MExtractTimeAndChargeSpline : public MExtractTimeAndCharge { private: static const Byte_t fgHiGainFirst; //! Default for fHiGainFirst (now set to: 2) static const Byte_t fgHiGainLast; //! Default for fHiGainLast (now set to: 14) static const Int_t fgLoGainFirst; //! Default for fLoGainFirst (now set to: 2) static const Byte_t fgLoGainLast; //! Default for fLoGainLast (now set to: 14) static const Float_t fgResolution; //! Default for fResolution (now set to: 0.003) static const Float_t fgRiseTimeHiGain; //! Default for fRiseTime (now set to: 1.5) static const Float_t fgFallTimeHiGain; //! Default for fFallTime (now set to: 4.5) static const Float_t fgLoGainStretch; //! Default for fLoGainStretch (now set to: 1.5) static const Float_t fgOffsetLoGain; //! Default for fOffsetLoGain (now set to 1.7) // static const Float_t fgLoGainStartShift; //! Default for fLoGainStartShift (now set to -1.6) // MArrayF fHiGainSignal; //! Need fast access to the signals in a float way // MArrayF fLoGainSignal; //! Store them in separate arrays MArrayF fHiGainFirstDeriv; //! High-gain discretized first derivatives MArrayF fLoGainFirstDeriv; //! Low-gain discretized first derivatives MArrayF fHiGainSecondDeriv; //! High-gain discretized second derivatives MArrayF fLoGainSecondDeriv; //! Low-gain discretized second derivatives Float_t fResolution; // The time resolution in FADC units Float_t fRiseTimeHiGain; // The usual rise time of the pulse in the high-gain Float_t fFallTimeHiGain; // The usual fall time of the pulse in the high-gain Float_t fRiseTimeLoGain; // The usual rise time of the pulse in the low-gain Float_t fFallTimeLoGain; // The usual fall time of the pulse in the low-gain Float_t fLoGainStretch; // The stretch of the low-gain w.r.t. the high-gain pulse Float_t fHeightTm; // Int_t fRandomIter; //! Counter used to randomize weights for noise calculation Int_t ReadEnv(const TEnv &env, TString prefix, Bool_t print); Bool_t InitArrays(Int_t n); private: MExtralgoSpline::ExtractionType_t fExtractionType; public: MExtractTimeAndChargeSpline(const char *name=NULL, const char *title=NULL); Float_t GetRiseTimeHiGain() const { return fRiseTimeHiGain; } Float_t GetFallTimeHiGain() const { return fFallTimeHiGain; } void SetRange(UShort_t hifirst=0, UShort_t hilast=0, Int_t lofirst=0, Byte_t lolast=0 ); void SetResolution(const Float_t f=fgResolution) { fResolution = f; } void SetRiseTimeHiGain(const Float_t f=fgRiseTimeHiGain) { fRiseTimeHiGain = f; fRiseTimeLoGain = f*fLoGainStretch; fSqrtHiGainSamples = TMath::Sqrt(fNumHiGainSamples); fWindowSizeHiGain = TMath::Nint(fRiseTimeHiGain + fFallTimeHiGain); } void SetFallTimeHiGain(const Float_t f=fgFallTimeHiGain) { fFallTimeHiGain = f; fFallTimeLoGain = f*fLoGainStretch; fNumHiGainSamples = fRiseTimeHiGain + fFallTimeHiGain; fNumLoGainSamples = fLoGainLast ? fRiseTimeLoGain + fFallTimeLoGain : 0.; fSqrtLoGainSamples = TMath::Sqrt(fNumLoGainSamples); fWindowSizeLoGain = TMath::Nint(fRiseTimeLoGain + fFallTimeLoGain); } void SetLoGainStretch(const Float_t f=fgLoGainStretch) { fLoGainStretch = f; } void SetChargeType(const MExtralgoSpline::ExtractionType_t typ=MExtralgoSpline::kIntegralRel); /* void FindTimeAndChargeHiGain(Byte_t *first, Byte_t *logain, Float_t &sum, Float_t &dsum, Float_t &time, Float_t &dtime, Byte_t &sat, const MPedestalPix &ped, const Bool_t abflag); void FindTimeAndChargeLoGain(Byte_t *first, Float_t &sum, Float_t &dsum, Float_t &time, Float_t &dtime, Byte_t &sat, const MPedestalPix &ped, const Bool_t abflag); */ void FindTimeAndChargeHiGain2(const Float_t *firstused, Int_t num, Float_t &sum, Float_t &dsum, Float_t &time, Float_t &dtime, Byte_t sat, Int_t maxpos) const; void FindTimeAndChargeLoGain2(const Float_t *firstused, Int_t num, Float_t &sum, Float_t &dsum, Float_t &time, Float_t &dtime, Byte_t sat, Int_t maxpos) const; ClassDef(MExtractTimeAndChargeSpline, 5) // Task to Extract Arrival Times and Charges using a Cubic Spline }; #endif