////////////////////////////////////////////////
#include "TNamed.h"
-#include "AliVZERO.h"
+
+class AliVZERODataDCS;
class AliVZEROCalibData: public TNamed {
public:
+ enum { kNCIUBoards = 8 };
+
AliVZEROCalibData();
AliVZEROCalibData(const char* name);
AliVZEROCalibData(const AliVZEROCalibData &calibda);
AliVZEROCalibData& operator= (const AliVZEROCalibData &calibda);
virtual ~AliVZEROCalibData();
void Reset();
+ void FillDCSData(AliVZERODataDCS * data);
Float_t GetPedestal(Int_t channel) const {return fPedestal[channel];}
Float_t* GetPedestal() const {return (float*)fPedestal;}
- Float_t GetGain(Int_t channel) const {return fGain[channel];}
- Float_t* GetGain() const {return (float*)fGain;}
- //
+ Float_t GetSigma(Int_t channel) const {return fSigma[channel];}
+ Float_t* GetSigma() const {return (float*)fSigma;}
+ Float_t GetADCmean(Int_t channel) const {return fADCmean[channel];}
+ Float_t* GetADCmean() const {return (float*)fADCmean;}
+ Float_t GetADCsigma(Int_t channel) const {return fADCsigma[channel];}
+ Float_t* GetADCsigma() const {return (float*)fADCsigma;}
+ Float_t GetMeanHV(Int_t channel) const {return fMeanHV[channel];}
+ Float_t* GetMeanHV() const {return (float*)fMeanHV;}
+ Float_t GetWidthHV(Int_t channel) const {return fWidthHV[channel];}
+ Float_t* GetWidthHV() const {return (float*)fWidthHV;}
+ Bool_t IsChannelDead(Int_t channel) const {return fDeadChannel[channel];}
+ Bool_t* GetDeadMap() const {return (bool*)fDeadChannel;}
+
+ Float_t GetGain(Int_t channel) const;
+ Float_t GetTimeOffset(Int_t channel) const {return fTimeOffset[channel];}
+ Float_t* GetTimeOffset() const {return (float*)fTimeOffset;}
+ Float_t GetTimeGain(Int_t channel) const {return fTimeGain[channel];}
+ Float_t* GetTimeGain() const {return (float*)fTimeGain;}
+
+ Float_t* GetTimeResolution() const {return (Float_t*) fTimeResolution;};
+ Float_t GetTimeResolution(Int_t board ) const {return ((board>=0 && board<kNCIUBoards)?fTimeResolution[board]:0);};
+
+ Float_t* GetWidthResolution() const {return (Float_t*) fWidthResolution;};
+ Float_t GetWidthResolution(Int_t board ) const {return ((board>=0 && board<kNCIUBoards)?fWidthResolution[board]:0);};
+
+ const UInt_t* GetMatchWindow() const { return fMatchWindow; }
+ UInt_t GetMatchWindow(Int_t board) const { return ((board>=0 && board<kNCIUBoards)?fMatchWindow[board]:0); }
+ const UInt_t* GetSearchWindow() const { return fSearchWindow; }
+ UInt_t GetSearchWindow(Int_t board) const { return ((board>=0 && board<kNCIUBoards)?fSearchWindow[board]:0); }
+ const UInt_t* GetTriggerCountOffset() const { return fTriggerCountOffset; }
+ UInt_t GetTriggerCountOffset(Int_t board) const { return ((board>=0 && board<kNCIUBoards)?fTriggerCountOffset[board]:0); }
+ const UInt_t* GetRollOver() const { return fRollOver; }
+ UInt_t GetRollOver(Int_t board) const { return ((board>=0 && board<kNCIUBoards)?fRollOver[board]:0); }
+
+ Float_t GetDiscriThr(Int_t channel) const {return fDiscriThr[channel];}
+ Float_t* GetDiscriThr() const {return (Float_t*)fDiscriThr;}
+
void SetPedestal(Float_t val, Int_t channel) {fPedestal[channel]=val;}
- void SetPedestal(Float_t* Pedestal);
- void SetGain(Float_t val, Int_t channel) {fGain[channel]=val;}
- void SetGain(Float_t* Gain);
+ void SetPedestal(const Float_t* Pedestal);
+ void SetSigma(Float_t val, Int_t channel) {fSigma[channel]=val;}
+ void SetSigma(const Float_t* Sigma);
+ void SetADCmean(Float_t val, Int_t channel) {fADCmean[channel]=val;}
+ void SetADCmean(const Float_t* ADCmean);
+ void SetADCsigma(Float_t val, Int_t channel) {fADCsigma[channel]=val;}
+ void SetADCsigma(const Float_t* ADCsigma);
+ void SetMeanHV(Float_t val, Int_t channel) {fMeanHV[channel]=val;}
+ void SetMeanHV(const Float_t* MeanHV);
+ void SetWidthHV(Float_t val, Int_t channel) {fWidthHV[channel]=val;}
+ void SetWidthHV(const Float_t* WidthHV);
+ void SetDeadChannel(Bool_t val, Int_t channel) {fDeadChannel[channel]=val;}
+ void SetDeadMap(const Bool_t* deadMap);
+
+ void SetTimeOffset(Float_t val, Int_t board, Int_t channel);
+ void SetTimeOffset(const Float_t* TimeOffset);
+ void SetTimeGain(Float_t val, Int_t channel) {fTimeGain[channel]=val;}
+ void SetTimeGain(const Float_t* TimeGain);
+
+ void SetParameter(TString name, Int_t val);
+ void SetTimeResolution(UShort_t *resols);
+ void SetTimeResolution(UShort_t resol, Int_t board);
+ void SetWidthResolution(UShort_t *resols);
+ void SetWidthResolution(UShort_t resol, Int_t board);
+
+ void SetMatchWindow(UInt_t *windows);
+ void SetMatchWindow(UInt_t window, Int_t board);
+ void SetSearchWindow(UInt_t *windows);
+ void SetSearchWindow(UInt_t window, Int_t board);
+ void SetTriggerCountOffset(UInt_t *offsets);
+ void SetTriggerCountOffset(UInt_t offset, Int_t board);
+ void SetRollOver(UInt_t *offsets);
+ void SetRollOver(UInt_t offset, Int_t board);
+
+ void SetDiscriThr(Float_t thr, Int_t board, Int_t channel);
+ void SetDiscriThr(const Float_t* thresholds);
+
+ Float_t GetMIPperADC(Int_t channel) const;
+
+ static Int_t GetOfflineChannelNumber(Int_t board, Int_t channel);
+ static Int_t GetBoardNumber(Int_t channel);
+ static Int_t GetFEEChannelNumber(Int_t channel);
protected:
- Float_t fPedestal[80]; // Mean pedestal values
- Float_t fGain[80]; // PM gains
+ Float_t fPedestal[128]; // Mean pedestal values
+ Float_t fSigma[128]; // Sigmas of pedestal peaks
+ Float_t fADCmean[128]; // ADC mean values
+ Float_t fADCsigma[128]; // ADC sigma values
+ Float_t fMeanHV[64]; // Mean PMT HV needed to compute MIP value
+ Float_t fWidthHV[64]; // Width of the PMT HV
+
+ Float_t fTimeOffset[64]; // Time offsets of the TDC
+ Float_t fTimeGain[64]; // Gain factors of the TDC
+ Bool_t fDeadChannel[64]; // List of dead channels
+ Float_t fTimeResolution[kNCIUBoards]; // Time Resolution of the TDC (ns / channel)
+ Float_t fWidthResolution[kNCIUBoards]; // Time Width Resolution of the TDC (ns / channel)
+
+ UInt_t fMatchWindow[kNCIUBoards]; // HPTDC matching window (25ns units)
+ UInt_t fSearchWindow[kNCIUBoards];// HPTDC search window (25ns units)
+ UInt_t fTriggerCountOffset[kNCIUBoards]; // HPTDC trigger count offset (25ns units)
+ UInt_t fRollOver[kNCIUBoards]; // HPTDC roll-over (25ns units)
+
+ Float_t fDiscriThr[64]; // Discriminator thresholds
- ClassDef(AliVZEROCalibData,1) // VZERO Calibration data
+ ClassDef(AliVZEROCalibData,7) // VZERO Calibration data
};
#endif
git://git.uio.no / u / mrichter / AliRoot.git / blobdiff