#ifndef ALIESDVZEROFRIEND_H #define ALIESDVZEROFRIEND_H /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * See cxx source for full Copyright notice */ /////////////////////////////////////////////////////////////////////////////// /// /// This is a class for containing all the VZERO DDL raw data /// It is written to the ESD-friend file /// /////////////////////////////////////////////////////////////////////////////// #include class AliESDVZEROfriend: public TObject { public : AliESDVZEROfriend(); virtual ~AliESDVZEROfriend(); AliESDVZEROfriend(const AliESDVZEROfriend& vzerofriend); AliESDVZEROfriend& operator = (const AliESDVZEROfriend& vzerofriend); void Reset(); // Getters of various scalers and Minimum Bias flags : ULong64_t GetBBScalers(Int_t channel) const { return fBBScalers[channel]; } ULong64_t GetBGScalers(Int_t channel) const { return fBGScalers[channel]; } UInt_t GetTriggerScalers(Int_t num_scaler) const { return fScalers[num_scaler]; } UInt_t GetBunchNumbersMB(Int_t num_bunch) const { return fBunchNumbers[num_bunch]; } UShort_t GetChargeMB(Int_t channel, Int_t num_bunch) const { return fChargeMB[channel][num_bunch]; } Bool_t GetIntMBFlag(Int_t channel, Int_t num_bunch) const { return fIsIntMB[channel][num_bunch]; } Bool_t GetBBMBFlag(Int_t channel, Int_t num_bunch) const { return fIsBBMB[channel][num_bunch]; } Bool_t GetBGMBFlag(Int_t channel, Int_t num_bunch) const { return fIsBGMB[channel][num_bunch]; } // Getters of ADC signals, ADC pedestals, time information and corresponding flags : Float_t GetADC(Int_t channel) const { return fADC[channel][kNEvOfInt/2]; } Float_t GetPedestal(Int_t channel, Int_t event) const { return fADC[channel][event]; } Bool_t GetIntegratorFlag(Int_t channel, Int_t event) const { return fIsInt[channel][event]; } Bool_t GetBBFlag(Int_t channel, Int_t event) const { return fIsBB[channel][event]; } Bool_t GetBGFlag(Int_t channel, Int_t event) const { return fIsBG[channel][event]; } Float_t GetTime(Int_t channel) const { return fTime[channel]; } Float_t GetWidth(Int_t channel) const { return fWidth[channel]; } // Setters void SetBBScalers(Int_t channel, ULong64_t scalers) { fBBScalers[channel] = scalers; } void SetBGScalers(Int_t channel, ULong64_t scalers) { fBGScalers[channel] = scalers; } void SetTriggerScalers(Int_t num_scaler, UInt_t scaler) { fScalers[num_scaler] = scaler; } void SetBunchNumbersMB(Int_t num_bunch, UInt_t bunch) { fBunchNumbers[num_bunch] = bunch; } void SetChargeMB(Int_t channel,Int_t num_bunch, UShort_t charge) { fChargeMB[channel][num_bunch] = charge; } void SetIntMBFlag(Int_t channel,Int_t num_bunch, Bool_t flag) { fIsIntMB[channel][num_bunch] = flag; } void SetBBMBFlag(Int_t channel,Int_t num_bunch, Bool_t flag) { fIsBBMB[channel][num_bunch] = flag; } void SetBGMBFlag(Int_t channel,Int_t num_bunch, Bool_t flag) { fIsBGMB[channel][num_bunch] = flag; } void SetPedestal(Int_t channel, Int_t event, Float_t adc) { fADC[channel][event] = adc; } void SetIntegratorFlag(Int_t channel, Int_t event, Bool_t flag) { fIsInt[channel][event] = flag; } void SetBBFlag(Int_t channel, Int_t event, Bool_t flag) { fIsBB[channel][event] = flag; } void SetBGFlag(Int_t channel, Int_t event, Bool_t flag) { fIsBB[channel][event] = flag; } void SetTime(Int_t channel, Float_t time) { fTime[channel] = time; } void SetWidth(Int_t channel, Float_t width) { fWidth[channel] = width; } UShort_t GetTriggerInputs() const { return fTrigger; } UShort_t GetTriggerInputsMask() const { return fTriggerMask; } void SetTriggerInputs(UShort_t inputs) { fTrigger = inputs; } void SetTriggerInputsMask(UShort_t mask) { fTriggerMask = mask; } enum EESDVZEROfriendParams { kNChannels = 64, // number of electronic channels in V0 (FEE numbering) kNEvOfInt = 21, // number of events of interest kNScalers = 16, // number of scalers kNBunches = 10 // number of bunches used in Minimum Bias information }; private: ULong64_t fBBScalers[kNChannels]; // 'Beam-Beam' scalers for all channels ULong64_t fBGScalers[kNChannels]; // 'Beam-Gas' scalers for all channels UInt_t fScalers[kNScalers]; // Trigger scalers UInt_t fBunchNumbers[kNBunches]; // Bunch numbers for the previous 10 MB events UShort_t fChargeMB[kNChannels][kNBunches]; // ADC counts for all channels for the previous 10 MB events Bool_t fIsIntMB[kNChannels][kNBunches]; // 'Integrator' flag for all channels for the previous 10 MB events Bool_t fIsBBMB[kNChannels][kNBunches]; // 'Beam-Beam' flag for all channels for the previous 10 MB events Bool_t fIsBGMB[kNChannels][kNBunches]; // 'Beam-Gas' for all channels for the previous 10 MB events Float_t fADC[kNChannels][kNEvOfInt]; // ADC counts for all channels and all events of interest Bool_t fIsInt[kNChannels][kNEvOfInt]; // 'Integrator' flag for all channels Bool_t fIsBB[kNChannels][kNEvOfInt]; // 'Beam-Beam' flag for all channels Bool_t fIsBG[kNChannels][kNEvOfInt]; // 'Beam-Gas' flag for all channels Float_t fTime[kNChannels]; // leading time for all channels - from HPTDC - in nanoseconds Float_t fWidth[kNChannels]; // pulse width for all channels - from HPTDC - in nanoseconds UShort_t fTrigger; // VZERO trigger inputs UShort_t fTriggerMask; // VZERO trigger inputs mask ClassDef(AliESDVZEROfriend, 2) // container class for VZERO DDL raw data }; #endif