TGraph *GetWalk(Int_t ipmt ) const {return (TGraph*)fWalk.At(ipmt);}
- void SetWalk(Int_t ipmt) ;
TObjArray* GetfWalk() {return &fWalk;}
TGraph *GetQTC(Int_t ipmt ) const {return (TGraph*)fQTC.At(ipmt);}
- Float_t GetQTCpar(Int_t channel, Int_t ipar) const
- {return fQTCpar[channel][ ipar ];}
- void SetQTCpar(Int_t channel,Int_t ipar, Float_t val)
- {fQTCpar[channel][ipar]=val;}
TGraph *GetAmpLED(Int_t ipmt ) const {return (TGraph*)fAmpLED.At(ipmt);}
- Float_t GetLEDpar(Int_t channel, Int_t ipar) const
- {return fAmpLEDpar[channel][ ipar ];}
- void SetAmpLEDpar(Int_t channel,Int_t ipar, Float_t val)
- {fAmpLEDpar[channel][ipar]=val;}
- void MakeWalkCorrGraph(const char *laserFile);
+ Bool_t MakeWalkCorrGraph(const char *laserFile);
TGraph * GetAmpLEDRec(Int_t ipmt) const {return (TGraph*)fAmpLEDRec.At(ipmt);}
- void SetAmpLEDRec(Int_t ipmt) ;
protected:
TObjArray fAmpLEDRec; //time - amp. LED-CFD for reconstruction
TObjArray fQTC; //time - amp. walk
TObjArray fAmpLED; //time - amp. LED-CFD for reconstruction
- Float_t fQTCpar[24][2]; // fitted parameters QTC amplitude
- Float_t fAmpLEDpar[24][2]; // fitted parameters fAmpLEDpar amplitude
//
- ClassDef(AliT0CalibWalk,4) // T0 Amplitude Calibration data
+ ClassDef(AliT0CalibWalk,5) // T0 Amplitude Calibration data
};
typedef AliT0CalibWalk AliSTARTCalibWalk; // for backward compatibility