1 #ifndef ALITRDDIGITIZER_H
2 #define ALITRDDIGITIZER_H
3 /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * See cxx source for full Copyright notice */
14 class AliTRDdigitsManager;
17 ///////////////////////////////////////////////////////
18 // Produces digits from the hits information //
19 ///////////////////////////////////////////////////////
21 class AliTRDdigitizer : public TNamed {
26 AliTRDdigitizer(const Text_t* name, const Text_t* title);
27 AliTRDdigitizer(const AliTRDdigitizer &d);
28 virtual ~AliTRDdigitizer();
29 AliTRDdigitizer &operator=(const AliTRDdigitizer &d);
31 virtual void Copy(TObject &d);
33 virtual Bool_t Open(const Char_t *name, Int_t nEvent = 0);
34 virtual Bool_t MakeDigits();
35 virtual void ReInit();
36 virtual Bool_t SumSDigits();
37 virtual Bool_t WriteDigits();
38 virtual Bool_t InitDetector();
40 virtual void SetGasGain(Float_t gasgain) { fGasGain = gasgain; };
41 virtual void SetNoise(Float_t noise) { fNoise = noise; };
42 virtual void SetChipGain(Float_t chipgain) { fChipGain = chipgain; };
43 virtual void SetADCoutRange(Float_t range) { fADCoutRange = range; };
44 virtual void SetADCinRange(Float_t range) { fADCinRange = range; };
45 virtual void SetADCthreshold(Int_t thresh) { fADCthreshold = thresh; };
46 virtual void SetDiffusion(Int_t diffOn = 1) { fDiffusionOn = diffOn; };
47 virtual void SetElAttach(Int_t elOn = 1) { fElAttachOn = elOn; };
48 virtual void SetElAttachProp(Float_t prop) { fElAttachProp = prop; };
49 virtual void SetExB(Int_t exbOn = 1) { fExBOn = exbOn; };
50 virtual void SetPadResponse(Int_t prfOn = 1) { fPRFOn = prfOn; };
51 virtual void SetTimeResponse(Int_t trfOn = 1) { fTRFOn = trfOn;
53 virtual void SetDriftVelocity(Float_t v) { fDriftVelocity = v;
55 virtual void SetPadCoupling(Float_t v) { fPadCoupling = v; };
56 virtual void SetTimeCoupling(Float_t v) { fTimeCoupling = v; };
57 virtual void SetCompress(Int_t c = 1) { fCompress = c; };
58 virtual void SetVerbose(Int_t v = 1) { fVerbose = v; };
59 virtual void SetSDigits(Int_t v = 1) { fSDigits = v; };
60 virtual void SetEvent(Int_t v = 0) { fEvent = v; };
62 AliTRDdigitsManager *Digits() const { return fDigits; };
64 Float_t GetGasGain() const { return fGasGain; };
65 Float_t GetNoise() const { return fNoise; };
66 Float_t GetChipGain() const { return fChipGain; };
67 Float_t GetADCoutRange() const { return fADCoutRange; };
68 Float_t GetADCinRange() const { return fADCinRange; };
69 Int_t GetADCthreshold() const { return fADCthreshold; };
70 Float_t GetDiffusionT() const { return fDiffusionT; };
71 Float_t GetDiffusionL() const { return fDiffusionL; };
72 Float_t GetElAttachProp() const { return fElAttachProp; };
73 Int_t GetExB() const { return fExBOn; };
74 Float_t GetOmegaTau() const { return fOmegaTau; };
75 Float_t GetDriftVelocity() const { return fDriftVelocity; };
76 Float_t GetPadCoupling() const { return fPadCoupling; };
77 Float_t GetTimeCoupling() const { return fTimeCoupling; };
78 Bool_t GetCompress() const { return fCompress; };
79 Bool_t GetSDigits() const { return fSDigits; };
80 Float_t GetTimeBinWidth() const { return fTimeBinWidth; };
81 virtual Float_t GetDiffusionL(Float_t vd, Float_t b);
82 virtual Float_t GetDiffusionT(Float_t vd, Float_t b);
83 virtual Float_t GetOmegaTau(Float_t vd, Float_t b);
87 TFile *fInputFile; //! ALIROOT-filename
88 AliTRDdigitsManager *fDigits; //! TRD digits manager
89 AliTRD *fTRD; //! TRD detector class
90 AliTRDgeometry *fGeo; //! TRD geometry
92 Int_t fEvent; //! Event number
94 Float_t fField; // Magnetic field
95 Float_t fGasGain; // Gas gain
96 Float_t fNoise; // Electronics noise
97 Float_t fChipGain; // Electronics gain
98 Float_t fADCoutRange; // ADC output range (number of channels)
99 Float_t fADCinRange; // ADC input range (input charge)
100 Float_t fSinRange; // Input range for summable digits
101 Float_t fSoutRange; // Output range for summable digits
102 Int_t fADCthreshold; // ADC threshold in ADC channel
103 Int_t fDiffusionOn; // Switch for the diffusion
104 Float_t fDiffusionT; // Diffusion in transverse direction
105 Float_t fDiffusionL; // Diffusion in longitudinal direction
106 Int_t fElAttachOn; // Switch for the electron attachment
107 Float_t fElAttachProp; // Propability for electron attachment (for 1m)
108 Int_t fExBOn; // Switch for the ExB effects
109 Float_t fOmegaTau; // Tangens of the Lorentz angle
110 Float_t fLorentzFactor; // Factor due to Lorentz force
111 Int_t fPRFOn; // Switch for the pad response
112 Float_t *fPRFsmp; //!Sampled pad response
113 Int_t fPRFbin; // Number of bins for the PRF
114 Float_t fPRFlo; // Lower boundary of the PRF
115 Float_t fPRFhi; // Higher boundary of the PRF
116 Float_t fPRFwid; // Bin width of the sampled PRF
117 Int_t fPRFpad; // Distance to next pad in PRF
118 Int_t fTRFOn; // Switch for the time response
119 Float_t *fTRFsmp; //!Integrated time response
120 Int_t fTRFbin; // Number of bins for the TRF
121 Float_t fTRFlo; // Lower boundary of the TRF
122 Float_t fTRFhi; // Higher boundary of the TRF
123 Float_t fTRFwid; // Bin width of the integrated TRF
124 Float_t fDriftVelocity; // Drift velocity (cm / mus)
125 Float_t fTimeBinWidth; // Time bin width in ns
126 Float_t fPadCoupling; // Pad coupling factor
127 Float_t fTimeCoupling; // Time coupling factor (image charge of moving ions)
128 Bool_t fCompress; // Switch to keep only compressed data in memory
129 Int_t fVerbose; // Sets the verbose level
130 Bool_t fSDigits; // Switch for the summable digits
134 virtual Int_t Diffusion(Float_t driftlength, Float_t *xyz);
135 virtual Int_t ExB(Float_t driftlength, Float_t *xyz);
136 virtual Int_t PadResponse(Float_t signal, Float_t dist, Float_t *pad);
137 virtual Float_t TimeResponse(Float_t time);
138 virtual Bool_t CheckDetector(Int_t plane, Int_t chamber, Int_t sector);
139 virtual void SamplePRF();
140 virtual void SampleTRF();
142 ClassDef(AliTRDdigitizer,4) // Produces TRD-Digits