fix error in setting the number of dEdx slices to be saved in ESD
[u/mrichter/AliRoot.git] / TRD / AliTRDSimParam.h
1 #ifndef ALITRDSIMPARAM_H
2 #define ALITRDSIMPARAM_H
3 /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4  * See cxx source for full Copyright notice                               */
5
6 /* $Id$ */
7
8 ////////////////////////////////////////////////////////////////////////////
9 //                                                                        //
10 // Class containing constant simulation parameters                        //
11 //                                                                        //
12 ////////////////////////////////////////////////////////////////////////////
13
14 #include "TObject.h"
15
16 class AliTRDSimParam : public TObject {
17   
18  public:
19   
20           enum { kNplan =   6
21                , kNcham =   5
22                , kNsect =  18
23                , kNdet  = 540 };
24
25   static  AliTRDSimParam *Instance();
26   static  void     Terminate();
27   
28   AliTRDSimParam(const AliTRDSimParam &p);   
29   AliTRDSimParam &operator=(const AliTRDSimParam &p); 
30
31   virtual void     Copy(TObject &p) const;
32   
33           void     SetGasGain(Float_t gasgain)               { fGasGain           = gasgain;          }
34           void     SetNoise(Float_t noise)                   { fNoise             = noise;            }
35           void     SetChipGain(Float_t chipgain)             { fChipGain          = chipgain;         }
36           void     SetADCoutRange(Float_t range)             { fADCoutRange       = range;            }
37           void     SetADCinRange(Float_t range)              { fADCinRange        = range;            }
38           void     SetADCbaseline(Int_t basel)               { fADCbaseline       = basel;            }   
39           void     SetDiffusion(Int_t diffOn = 1)            { fDiffusionOn       = diffOn;           }
40           void     SetElAttach(Int_t elOn = 1)               { fElAttachOn        = elOn;             }
41           void     SetElAttachProp(Float_t prop)             { fElAttachProp      = prop;             }
42           void     SetTimeResponse(Int_t trfOn = 1)          { fTRFOn             = trfOn; ReInit();  }  
43           void     SetCrossTalk(Int_t ctOn = 1)              { fCTOn              = ctOn; ReInit();   }
44           void     SetPadCoupling(Float_t v)                 { fPadCoupling       = v;                }
45           void     SetTimeCoupling(Float_t v)                { fTimeCoupling      = v;                }
46           void     SetTimeStruct(Bool_t tsOn = 1)            { fTimeStructOn      = tsOn;             }
47           void     SetPadResponse(Int_t prfOn = 1)           { fPRFOn             = prfOn;            }
48           void     SetNTimeBins(Int_t ntb)                   { fNTimeBins         = ntb;              }
49     
50           Float_t  GetGasGain() const                        { return fGasGain;                       }
51           Float_t  GetNoise() const                          { return fNoise;                         }
52           Float_t  GetChipGain() const                       { return fChipGain;                      }
53           Float_t  GetADCoutRange() const                    { return fADCoutRange;                   }
54           Float_t  GetADCinRange() const                     { return fADCinRange;                    }
55           Int_t    GetADCbaseline() const                    { return fADCbaseline;                   }
56           Float_t  GetTRFlo() const                          { return fTRFlo;                         }
57           Float_t  GetTRFhi() const                          { return fTRFhi;                         }
58           Float_t  GetPadCoupling() const                    { return fPadCoupling;                   }
59           Float_t  GetTimeCoupling() const                   { return fTimeCoupling;                  }
60           Int_t    GetNTimeBins() const                      { return fNTimeBins;                     }
61
62           Bool_t   DiffusionOn() const                       { return fDiffusionOn;                   }
63           Bool_t   ElAttachOn() const                        { return fElAttachOn;                    } 
64           Float_t  GetElAttachProp() const                   { return fElAttachProp;                  }
65           Bool_t   TRFOn() const                             { return fTRFOn;                         }
66           Bool_t   CTOn() const                              { return fCTOn;                          }
67           Bool_t   TimeStructOn() const                      { return fTimeStructOn;                  }
68           Bool_t   PRFOn() const                             { return fPRFOn;                         }
69
70           Double_t TimeResponse(Double_t time) const;  
71           Double_t CrossTalk(Double_t time) const; 
72
73           void     ReInit();
74   
75  protected:
76
77   static AliTRDSimParam* fgInstance;   //  Instance of this class (singleton implementation)
78   static  Bool_t   fgTerminated;       //  Defines if this class has already been terminated and
79                                        //  therefore does not return instances in GetInstance anymore
80   
81           // Digitization parameter
82           Float_t  fGasGain;           //  Gas gain
83           Float_t  fNoise;             //  Electronics noise
84           Float_t  fChipGain;          //  Electronics gain
85   
86           Float_t  fADCoutRange;       //  ADC output range (number of channels)
87           Float_t  fADCinRange;        //  ADC input range (input charge)
88           Int_t    fADCbaseline;       //  ADC intrinsic baseline in ADC channel
89   
90           Int_t    fDiffusionOn;       //  Switch for the diffusion
91   
92           Int_t    fElAttachOn;        //  Switch for the electron attachment
93           Float_t  fElAttachProp;      //  Propability for electron attachment (for 1m)
94   
95           Int_t    fTRFOn;             //  Switch for the time response
96           Float_t *fTRFsmp;            //! Integrated time response
97           Int_t    fTRFbin;            //  Number of bins for the TRF
98           Float_t  fTRFlo;             //  Lower boundary of the TRF
99           Float_t  fTRFhi;             //  Higher boundary of the TRF
100           Float_t  fTRFwid;            //  Bin width of the integrated TRF
101   
102           Int_t    fCTOn;              //  Switch for cross talk
103           Float_t *fCTsmp;             //! Integrated cross talk
104   
105           Float_t  fPadCoupling;       //  Pad coupling factor
106           Float_t  fTimeCoupling;      //  Time coupling factor (image charge of moving ions)
107           Int_t    fTimeStructOn;      //  Switch for cell time structure
108   
109           Int_t    fPRFOn;             //  Switch for the pad response
110
111           Int_t    fNTimeBins;         //  Number of time bins
112
113  private:
114
115   // This is a singleton, constructor is private!  
116   AliTRDSimParam();
117   virtual ~AliTRDSimParam();
118
119           void Init();
120           void SampleTRF();
121   
122   ClassDef(AliTRDSimParam,5)          // The TRD simulation parameters
123
124 };
125
126 #endif