public:
AliVZEROdigit();
- AliVZEROdigit(Int_t PMnumber, Float_t adc, Float_t time);
- AliVZEROdigit(Int_t PMnumber, Float_t adc, Float_t time,
- Float_t TimeWidth, Bool_t BBFlag, Bool_t BGFlag,
+ AliVZEROdigit(Int_t PMnumber, Float_t time,
+ Float_t TimeWidth,
Bool_t Integrator,
Short_t *chargeADC = 0,
Int_t *labels = 0);
enum {kNClocks = 21};
Int_t PMNumber() const {return fPMNumber;}
- Float_t ADC() const {return fADC;}
+ Short_t ADC() const {return fChargeADC[kNClocks/2];}
Float_t Time() const {return fTime;}
Float_t Width() const {return fWidth;}
- Bool_t BBFlag() const {return fBBFlag;}
- Bool_t BGFlag() const {return fBGFlag;}
Bool_t Integrator() const {return fIntegrator;}
Short_t ChargeADC(Int_t clock) const {return (clock >= 0 && clock < kNClocks) ? fChargeADC[clock] : 0;}
protected:
Int_t fPMNumber; // PhotoMultiplier number (0 to 63)
- Float_t fADC; // ADC response
Float_t fTime; // Time of Flight
Float_t fWidth; // Width of the time distribution
- Bool_t fBBFlag; // Beam-Beam Flag given by Yannick in Raw Data only
- Bool_t fBGFlag; // Beam-Gas Flag given by Yannick in Raw Data only
Bool_t fIntegrator; // Integrator used
Short_t fChargeADC[kNClocks]; // ADC samples as present in raw data
- ClassDef(AliVZEROdigit,4) // VZERO Digit class
+ ClassDef(AliVZEROdigit,6) // VZERO Digit class
};
#endif