X-Git-Url: http://git.uio.no/git/?a=blobdiff_plain;f=ZDC%2FAliZDCv1.h;h=8b42df0ba64a9656cb6546881c0a65e296c1003b;hb=70b76f8245fcad223e5a5ce5cea9e620a4e04f15;hp=72c508d069ed32849789c7f7eb15341f2de04584;hpb=3d0b2c4f4b61551d9642ab6ef94b1abab9f3307b;p=u%2Fmrichter%2FAliRoot.git diff --git a/ZDC/AliZDCv1.h b/ZDC/AliZDCv1.h index 72c508d069e..8b42df0ba64 100644 --- a/ZDC/AliZDCv1.h +++ b/ZDC/AliZDCv1.h @@ -17,45 +17,20 @@ class AliZDCv1 : public AliZDC { public: AliZDCv1(); AliZDCv1(const char *name, const char *title); - virtual ~AliZDCv1() {} + virtual ~AliZDCv1() {} virtual void CreateGeometry(); virtual void CreateBeamLine(); virtual void CreateZDC(); virtual void CreateMaterials(); - Int_t Digitize(Int_t Det, Int_t Quad, Int_t Light); -// virtual void FinishEvent(); - virtual void SDigits2Digits(); - virtual void MakeBranch(Option_t* opt, char *file=0); virtual Int_t IsVersion() const {return 1;} virtual void DrawModule(); virtual void Init(); virtual void InitTables(); - virtual void Hits2Digits(Int_t ntracks = 0); virtual void StepManager(); - // Digitization parameters setters and getters - - // ADC pedestal mean value - void SetPedMean(Int_t Det, Int_t PMDet, Int_t PedMean) - {fPedMean[Det][PMDet] = PedMean;} - Float_t GetPedMean(Int_t Det, Int_t PMDet) - {return fPedMean[Det][PMDet];} - // ADC pedestal width - void SetPedSigma(Int_t Det, Int_t PMDet, Int_t PedSigma) - {fPedSigma[Det][PMDet] = PedSigma;} - Float_t GetPedSigma(Int_t Det, Int_t PMDet) - {return fPedSigma[Det][PMDet];} - // PM gain - void SetPMGain(Int_t Det, Int_t PMDet, Int_t PMGain) - {fPMGain[Det][PMDet] = PMGain;} - Float_t GetPMGain(Int_t Det, Int_t PMDet) - {return fPMGain[Det][PMDet];} - // Conversion factor from charge to ADC channels - // F = 1.6E-19 / Resolution [Coulomb/ch] - void SetADCRes(Int_t ADCRes) {fADCRes = ADCRes;} - Float_t GetADCRes() {return fADCRes;} protected: + // Sensitive media Int_t fMedSensF1; // Sensitive medium F1 Int_t fMedSensF2; // Sensitive medium F2 @@ -63,21 +38,35 @@ protected: Int_t fMedSensZN; // Sensitive medium for ZN Int_t fMedSensZEM; // Sensitive medium for EM ZDC Int_t fMedSensGR; // Other sensitive medium - Int_t fMedSensPI; // Beam pipe and magnet coils +// Int_t fMedSensPI; // Beam pipe and magnet coils +// Int_t fMedSensTDI; // TDI Cu shielding // Parameters for light tables - Int_t fNalfan; // Number of Alfa neutrons - Int_t fNalfap; // Number of Alfa protons - Int_t fNben; // Number of beta neutrons - Int_t fNbep; // Number of beta protons + Int_t fNalfan; // Number of Alfa (neutrons) + Int_t fNalfap; // Number of Alfa (protons) + Int_t fNben; // Number of beta (neutrons) + Int_t fNbep; // Number of beta (protons) Float_t fTablen[4][90][18]; // Neutrons light table Float_t fTablep[4][90][28]; // Protons light table + + // Parameters for hadronic calorimeters geometry + // NB -> parameters used in CreateZDC() and in StepManager() + // (other parameters are defined in CreateZDC()) + Float_t fDimZP[3]; // Dimensions of proton detector + Float_t fPosZN[3]; // Position of neutron detector + Float_t fPosZP[3]; // Position of proton detector + Float_t fFibZN[3]; // Fibers for neutron detector + Float_t fFibZP[3]; // Fibers for proton detector + + // Parameters for EM calorimeter geometry + // NB -> parameters used in CreateZDC() and in StepManager() + // (other parameters are defined in CreateZDC()) + Float_t fPosZEM[3]; // Position of EM detector + Float_t fZEMLength; // ZEM length + + // Parameters for tracking studies +// Int_t fpLostIT, fpLostD1, fpLostTDI, fpDetected; - // Parameters for conversion of light yield in ADC channels - Float_t fPedMean[3][5]; // ADC pedestal mean value - Float_t fPedSigma[3][5]; // ADC pedestal width - Float_t fPMGain[3][5]; // PM gain - Float_t fADCRes; // ADC conversion factor ClassDef(AliZDCv1,1) // Zero Degree Calorimeter version 1 };