/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
* See cxx source for full Copyright notice */
-///////////////////////////////////////////////////////////////////////////////
-// //
-// Class containing constant simulation parameters //
-// //
-///////////////////////////////////////////////////////////////////////////////
-
/* $Id$ */
+////////////////////////////////////////////////////////////////////////////
+// //
+// Class containing constant simulation parameters //
+// //
+////////////////////////////////////////////////////////////////////////////
+
#include "TObject.h"
-class AliTRDSimParam : public TObject
-{
+class AliTRDSimParam : public TObject {
-public:
- static AliTRDSimParam* Instance();
- static void Terminate();
+ public:
- enum { kNplan = 6, kNcham = 5, kNsect = 18, kNdet = 540 };
+ enum { kNplan = 6
+ , kNcham = 5
+ , kNsect = 18
+ , kNdet = 540 };
+
+ static AliTRDSimParam *Instance();
+ static void Terminate();
AliTRDSimParam(const AliTRDSimParam &p);
AliTRDSimParam &operator=(const AliTRDSimParam &p);
- virtual void Copy(TObject &p) const;
-
- void SetGasGain(Float_t gasgain) { fGasGain = gasgain; };
- void SetNoise(Float_t noise) { fNoise = noise; };
- void SetChipGain(Float_t chipgain) { fChipGain = chipgain; };
-
- void SetADCoutRange(Float_t range) { fADCoutRange = range; };
- void SetADCinRange(Float_t range) { fADCinRange = range; };
- void SetADCthreshold(Int_t thresh) { fADCthreshold = thresh; };
- void SetADCbaseline(Int_t basel) { fADCbaseline = basel; };
-
- void SetDiffusion(Int_t diffOn = 1) { fDiffusionOn = diffOn; };
-
- void SetElAttach(Int_t elOn = 1) { fElAttachOn = elOn; };
- void SetElAttachProp(Float_t prop) { fElAttachProp = prop; };
-
- void SetTimeResponse(Int_t trfOn = 1) { fTRFOn = trfOn; ReInit(); };
-
- void SetCrossTalk(Int_t ctOn = 1) { fCTOn = ctOn; ReInit(); };
-
- void SetPadCoupling(Float_t v) { fPadCoupling = v; };
- void SetTimeCoupling(Float_t v) { fTimeCoupling = v; };
- void SetAnodeWireOffset(Float_t offset = 0.25) { fAnodeWireOffset = offset;};
- void SetTimeStruct(Bool_t tsOn = 1) { fTimeStructOn = tsOn; };
-
- void SetPadResponse(Int_t prfOn = 1) { fPRFOn = prfOn; };
-
- Float_t GetGasGain() const { return fGasGain; };
- Float_t GetNoise() const { return fNoise; };
- Float_t GetChipGain() const { return fChipGain; };
-
- Float_t GetADCoutRange() const { return fADCoutRange; };
- Float_t GetADCinRange() const { return fADCinRange; };
- Int_t GetADCthreshold() const { return fADCthreshold; };
- Int_t GetADCbaseline() const { return fADCbaseline; };
-
- Bool_t DiffusionOn() const { return fDiffusionOn; };
-
- Bool_t ElAttachOn() const { return fElAttachOn; };
- Float_t GetElAttachProp() const { return fElAttachProp; };
-
- Bool_t TRFOn() const { return fTRFOn; };
- Double_t TimeResponse(Double_t time) const;
- Float_t GetTRFlo() const { return fTRFlo; };
- Float_t GetTRFhi() const { return fTRFhi; };
-
- Bool_t CTOn() const { return fCTOn; };
- Double_t CrossTalk(Double_t time) const;
-
- Float_t GetPadCoupling() const { return fPadCoupling; };
- Float_t GetTimeCoupling() const { return fTimeCoupling; };
- Float_t GetAnodeWireOffset() const { return fAnodeWireOffset; };
- Bool_t TimeStructOn() const { return fTimeStructOn; };
-
- Bool_t PRFOn() const { return fPRFOn; };
-
-protected:
- static AliTRDSimParam* fgInstance; // Instance of this class (singleton implementation)
- static Bool_t fgTerminated; // Defines if this class has already been terminated and therefore does not return instances in GetInstance anymore
+
+ virtual void Copy(TObject &p) const;
+
+ void SetGasGain(Float_t gasgain) { fGasGain = gasgain; }
+ void SetNoise(Float_t noise) { fNoise = noise; }
+ void SetChipGain(Float_t chipgain) { fChipGain = chipgain; }
+ void SetADCoutRange(Float_t range) { fADCoutRange = range; }
+ void SetADCinRange(Float_t range) { fADCinRange = range; }
+ void SetADCbaseline(Int_t basel) { fADCbaseline = basel; }
+ void SetDiffusion(Int_t diffOn = 1) { fDiffusionOn = diffOn; }
+ void SetElAttach(Int_t elOn = 1) { fElAttachOn = elOn; }
+ void SetElAttachProp(Float_t prop) { fElAttachProp = prop; }
+ void SetTimeResponse(Int_t trfOn = 1) { fTRFOn = trfOn; ReInit(); }
+ void SetCrossTalk(Int_t ctOn = 1) { fCTOn = ctOn; ReInit(); }
+ void SetPadCoupling(Float_t v) { fPadCoupling = v; }
+ void SetTimeCoupling(Float_t v) { fTimeCoupling = v; }
+ void SetTimeStruct(Bool_t tsOn = 1) { fTimeStructOn = tsOn; }
+ void SetPadResponse(Int_t prfOn = 1) { fPRFOn = prfOn; }
+ void SetNTimeBins(Int_t ntb) { fNTimeBins = ntb; }
+ void SetNTBoverwriteOCDB(Bool_t over = kTRUE) { fNTBoverwriteOCDB = over; }
+
+ Float_t GetGasGain() const { return fGasGain; }
+ Float_t GetNoise() const { return fNoise; }
+ Float_t GetChipGain() const { return fChipGain; }
+ Float_t GetADCoutRange() const { return fADCoutRange; }
+ Float_t GetADCinRange() const { return fADCinRange; }
+ Int_t GetADCbaseline() const { return fADCbaseline; }
+ Float_t GetTRFlo() const { return fTRFlo; }
+ Float_t GetTRFhi() const { return fTRFhi; }
+ Float_t GetPadCoupling() const { return fPadCoupling; }
+ Float_t GetTimeCoupling() const { return fTimeCoupling; }
+ Int_t GetNTimeBins() const { return fNTimeBins; }
+ Bool_t GetNTBoverwriteOCDB() const { return fNTBoverwriteOCDB; }
+
+ Bool_t DiffusionOn() const { return fDiffusionOn; }
+ Bool_t ElAttachOn() const { return fElAttachOn; }
+ Float_t GetElAttachProp() const { return fElAttachProp; }
+ Bool_t TRFOn() const { return fTRFOn; }
+ Bool_t CTOn() const { return fCTOn; }
+ Bool_t TimeStructOn() const { return fTimeStructOn; }
+ Bool_t PRFOn() const { return fPRFOn; }
+
+ Double_t TimeResponse(Double_t time) const;
+ Double_t CrossTalk(Double_t time) const;
+
+ void ReInit();
- // Digitization parameter
- Float_t fGasGain; // Gas gain
- Float_t fNoise; // Electronics noise
- Float_t fChipGain; // Electronics gain
+ protected:
+
+ static AliTRDSimParam* fgInstance; // Instance of this class (singleton implementation)
+ static Bool_t fgTerminated; // Defines if this class has already been terminated and
+ // therefore does not return instances in GetInstance anymore
- Float_t fADCoutRange; // ADC output range (number of channels)
- Float_t fADCinRange; // ADC input range (input charge)
- Int_t fADCthreshold; // ADC threshold in ADC channel
- Int_t fADCbaseline; // ADC baseline in ADC chann
+ // Digitization parameter
+ Float_t fGasGain; // Gas gain
+ Float_t fNoise; // Electronics noise
+ Float_t fChipGain; // Electronics gain
- Int_t fDiffusionOn; // Switch for the diffusion
+ Float_t fADCoutRange; // ADC output range (number of channels)
+ Float_t fADCinRange; // ADC input range (input charge)
+ Int_t fADCbaseline; // ADC intrinsic baseline in ADC channel
- Int_t fElAttachOn; // Switch for the electron attachment
- Float_t fElAttachProp; // Propability for electron attachment (for 1m)
+ Int_t fDiffusionOn; // Switch for the diffusion
- Int_t fTRFOn; // Switch for the time response
- Float_t *fTRFsmp; //! Integrated time response
- Int_t fTRFbin; // Number of bins for the TRF
- Float_t fTRFlo; // Lower boundary of the TRF
- Float_t fTRFhi; // Higher boundary of the TRF
- Float_t fTRFwid; // Bin width of the integrated TRF
+ Int_t fElAttachOn; // Switch for the electron attachment
+ Float_t fElAttachProp; // Propability for electron attachment (for 1m)
- Int_t fCTOn; // Switch for cross talk
- Float_t *fCTsmp; //! Integrated cross talk
+ Int_t fTRFOn; // Switch for the time response
+ Float_t *fTRFsmp; //! Integrated time response
+ Int_t fTRFbin; // Number of bins for the TRF
+ Float_t fTRFlo; // Lower boundary of the TRF
+ Float_t fTRFhi; // Higher boundary of the TRF
+ Float_t fTRFwid; // Bin width of the integrated TRF
- Float_t fAnodeWireOffset; // Distance of first anode wire from pad edge
- Float_t fPadCoupling; // Pad coupling factor
- Float_t fTimeCoupling; // Time coupling factor (image charge of moving ions)
- Int_t fTimeStructOn; // Switch for cell time structure
+ Int_t fCTOn; // Switch for cross talk
+ Float_t *fCTsmp; //! Integrated cross talk
- Int_t fPRFOn; // Switch for the pad response
+ Float_t fPadCoupling; // Pad coupling factor
+ Float_t fTimeCoupling; // Time coupling factor (image charge of moving ions)
+ Int_t fTimeStructOn; // Switch for cell time structure
-private:
- // this is a singleton, constructor is private!
+ Int_t fPRFOn; // Switch for the pad response
+
+ Int_t fNTimeBins; // Number of time bins (only used it fNTBoverwriteOCDB = true)
+ Bool_t fNTBoverwriteOCDB; // Switch to overwrite number of time bins from PCDB
+
+ private:
+
+ // This is a singleton, constructor is private!
AliTRDSimParam();
virtual ~AliTRDSimParam();
- void Init();
- void ReInit();
- void SampleTRF();
+ void Init();
+ void SampleTRF();
- ClassDef(AliTRDSimParam, 1)
+ ClassDef(AliTRDSimParam,6) // The TRD simulation parameters
+
};
#endif