#ifndef ALIVZERORECOPARAM_H #define ALIVZERORECOPARAM_H /* Copyright(c) 2007-2009, ALICE Experiment at CERN, All rights reserved. * * See cxx source for full Copyright notice */ /////////////////////////////////////////////////////////////////////////////// // // // Class with VZERO reconstruction parameters // // Origin: Brigitte Cheynis // // // /////////////////////////////////////////////////////////////////////////////// #include "AliDetectorRecoParam.h" class AliVZERORecoParam : public AliDetectorRecoParam { public: AliVZERORecoParam(); virtual ~AliVZERORecoParam(); void SetNSigmaPed(Float_t nSigma) { fNSigmaPed = nSigma; } void SetStartClock(Int_t start) { fStartClock = start; } void SetEndClock(Int_t end) {fEndClock = end; } void SetNPreClocks(Int_t preClocks) { fNPreClocks = preClocks; } void SetNPostClocks(Int_t postClocks) { fNPostClocks = postClocks; } void SetAdcThresHold(Float_t val) { fAdcThresHold = val;} void SetTimeWindowBBALow(Float_t val) { fTimeWindowBBALow = val; } void SetTimeWindowBBAUp (Float_t val) { fTimeWindowBBAUp = val; } void SetTimeWindowBGALow(Float_t val) { fTimeWindowBGALow = val; } void SetTimeWindowBGAUp (Float_t val) { fTimeWindowBGAUp = val; } void SetTimeWindowBBCLow(Float_t val) { fTimeWindowBBCLow = val; } void SetTimeWindowBBCUp (Float_t val) { fTimeWindowBBCUp = val; } void SetTimeWindowBGCLow(Float_t val) { fTimeWindowBGCLow = val; } void SetTimeWindowBGCUp (Float_t val) { fTimeWindowBGCUp = val; } void SetMaxResid (Float_t val) { fMaxResid = val; } Float_t GetNSigmaPed() const { return fNSigmaPed; } Int_t GetStartClock() const { return fStartClock; } Int_t GetEndClock() const { return fEndClock; } Int_t GetNPreClocks() const { return fNPreClocks; } Int_t GetNPostClocks() const { return fNPostClocks; } Float_t GetAdcThresHold() const { return fAdcThresHold; } Float_t GetTimeWindowBBALow() const { return fTimeWindowBBALow; } Float_t GetTimeWindowBBAUp () const { return fTimeWindowBBAUp ; } Float_t GetTimeWindowBGALow() const { return fTimeWindowBGALow; } Float_t GetTimeWindowBGAUp () const { return fTimeWindowBGAUp ; } Float_t GetTimeWindowBBCLow() const { return fTimeWindowBBCLow; } Float_t GetTimeWindowBBCUp () const { return fTimeWindowBBCUp ; } Float_t GetTimeWindowBGCLow() const { return fTimeWindowBGCLow; } Float_t GetTimeWindowBGCUp () const { return fTimeWindowBGCUp ; } Float_t GetMaxResid () const { return fMaxResid; } private: Float_t fNSigmaPed; // Number of pedestal sigmas for adc cut Int_t fStartClock; // Start clock for max adc search Int_t fEndClock; // End clock for max adc search Int_t fNPreClocks; // Number of pre-clocks used in adc charge sum Int_t fNPostClocks; // Number of post-clocks used in adc charge sum // Cuts used in the trigger mask creation Float_t fAdcThresHold; // Threshold on the ADC Float_t fTimeWindowBBALow; // BBA window (lower cut) Float_t fTimeWindowBBAUp; // BBA window (upper cut) Float_t fTimeWindowBGALow; // BGA window (lower cut) Float_t fTimeWindowBGAUp; // BGA window (upper cut) Float_t fTimeWindowBBCLow; // BBC window (lower cut) Float_t fTimeWindowBBCUp; // BBC window (upper cut) Float_t fTimeWindowBGCLow; // BGC window (lower cut) Float_t fTimeWindowBGCUp; // BGC window (upper cut) Float_t fMaxResid; // Maximum residual of a single channel time AliVZERORecoParam(const AliVZERORecoParam & param); AliVZERORecoParam & operator=(const AliVZERORecoParam ¶m); ClassDef(AliVZERORecoParam,3) // VZERO reco parameters }; #endif