#ifndef MARS_MHCalibrationPixel #define MARS_MHCalibrationPixel #ifndef MARS_MH #include "MH.h" #endif class TArrayF; class TH1F; class TH1I; class TF1; class TProfile; class TPaveText; class MHCalibrationPixel : public MH { private: Int_t fPixId; // Pixel Nr TArrayF *fHiGains; //-> TArrayF *fLoGains; //-> const Int_t fChargeNbinsHiGain; const Int_t fChargeNbinsLoGain; const Int_t fTimeNbins; const Int_t fChargevsNbins; const Axis_t fTimeFirst; const Axis_t fTimeLast; TProfile* fHivsLoGain; Double_t fOffset; Double_t fSlope; protected: TH1F* fHChargeHiGain; //-> Summed FADC slices High Gain TH1F* fHTimeHiGain; //-> Mean arrival time in number of FADC sice TH1I* fHChargevsNHiGain; //-> Summed Charge vs. Event Nr. TH1F* fHChargeLoGain; //-> Summed FADC slices Low Gain TH1F* fHTimeLoGain; //-> Mean arrival time in number of FADC sice TH1I* fHChargevsNLoGain; //-> Summed Charge vs. Event Nr. TH1F* fHPSD; // Power spectrum density of fHBlindPixelChargevsN TF1* fChargeGausFit; TF1* fTimeGausFit; TPaveText *fFitLegend; Int_t fTotalEntries; // Number of entries Axis_t fChargeFirstHiGain; Axis_t fChargeLastHiGain; Axis_t fChargeFirstLoGain; Axis_t fChargeLastLoGain; Double_t fChargeChisquare; Double_t fChargeProb; Int_t fChargeNdf; Double_t fChargeMean; Double_t fChargeMeanErr; Double_t fChargeSigma; Double_t fChargeSigmaErr; Double_t fTimeChisquare; Double_t fTimeProb; Int_t fTimeNdf; Double_t fTimeMean; Double_t fTimeSigma; Byte_t fTimeLowerFitRangeHiGain; Byte_t fTimeUpperFitRangeHiGain; Byte_t fTimeLowerFitRangeLoGain; Byte_t fTimeUpperFitRangeLoGain; Byte_t fFlags; enum { kUseLoGain, kFitOK }; virtual void DrawLegend(); public: MHCalibrationPixel(const char *name=NULL, const char *title=NULL); ~MHCalibrationPixel(); void Clear(Option_t *o=""); void Reset(); void ChangeHistId(Int_t i); // Setters void SetUseLoGain(Bool_t b = kTRUE) { b ? SETBIT(fFlags, kUseLoGain) : SETBIT(fFlags, kUseLoGain); } void SetTimeFitRangesHiGain(Byte_t low, Byte_t up) { fTimeLowerFitRangeHiGain = low, fTimeUpperFitRangeHiGain = up ; } void SetTimeFitRangesLoGain(Byte_t low, Byte_t up) { fTimeLowerFitRangeLoGain = low, fTimeUpperFitRangeLoGain = up ; } // Getters const Double_t GetChargeMean() const { return fChargeMean; } const Double_t GetChargeMeanErr() const { return fChargeMeanErr; } const Double_t GetChargeSigma() const { return fChargeSigma; } const Double_t GetChargeSigmaErr() const { return fChargeSigmaErr; } const Double_t GetChargeChiSquare() const { return fChargeChisquare; } const Double_t GetChargeProb() const { return fChargeProb; } const Int_t GetChargeNdf() const { return fChargeNdf; } const Double_t GetTimeMean() const { return fTimeMean; } const Double_t GetTimeSigma() const { return fTimeSigma; } const Byte_t GetTimeLowerFitRangeHiGain() const { return fTimeLowerFitRangeHiGain; } const Byte_t GetTimeUpperFitRangeHiGain() const { return fTimeUpperFitRangeHiGain; } const Byte_t GetTimeLowerFitRangeLoGain() const { return fTimeLowerFitRangeLoGain; } const Byte_t GetTimeUpperFitRangeLoGain() const { return fTimeUpperFitRangeLoGain; } const Double_t GetTimeChiSquare() const { return fTimeChisquare; } const Double_t GetTimeProb() const { return fTimeProb; } const Int_t GetTimeNdf() const { return fTimeNdf; } const TH1F *GetHCharge() { return fHChargeHiGain; } const TH1F *GetHCharge() const { return fHChargeHiGain; } const TH1F *GetHTime() { return fHTimeHiGain; } const TH1F *GetHTime() const { return fHTimeHiGain; } const TH1I *GetHChargevsN() { return fHChargevsNHiGain; } const TH1I *GetHChargevsN() const { return fHChargevsNHiGain; } Double_t GetOffset() { return fOffset; } Double_t GetSlope() { return fSlope; } Bool_t UseLoGain(); Bool_t IsFitOK() const; Bool_t IsUseLoGain() const; Bool_t IsEmpty() const; // Fill histos Bool_t FillChargeLoGain(Float_t q); Bool_t FillTimeLoGain(Float_t t); Bool_t FillChargevsNLoGain(Float_t q, Int_t n); Bool_t FillChargeHiGain(Float_t q); Bool_t FillTimeHiGain(Float_t t); Bool_t FillChargevsNHiGain(Float_t q, Int_t n); Bool_t FillPointInGraph(Float_t qhi, Float_t qlo); Bool_t SetupFill(const MParList *pList); Bool_t Fill(const MParContainer *, const Stat_t w=1) { return kTRUE; } // Fits Bool_t FitCharge(Option_t *option="RQ0"); Bool_t FitTimeHiGain(Axis_t rmin=0, Axis_t rmax=0, Option_t *option="RQ0"); Bool_t FitTimeLoGain(Axis_t rmin=0, Axis_t rmax=0, Option_t *option="RQ0"); void FitHiGainvsLoGain(); // Draws virtual void Draw(Option_t *option=""); TObject *DrawClone(Option_t *option="") const; // Prints void PrintChargeFitResult(); void PrintTimeFitResult(); // Others virtual void CutAllEdges(); ClassDef(MHCalibrationPixel, 1) // Histograms for each calibrated pixel }; #endif