attempt to address new coverity reports for AliCalo stuff and QA checker
[u/mrichter/AliRoot.git] / EMCAL / AliEMCALSimParam.h
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33a52e55 1#ifndef ALIEMCALSIMPARAM_H
2#define ALIEMCALSIMPARAM_H
3/* Copyright(c) 2007, ALICE Experiment at CERN, All rights reserved. *
4 * See cxx source for full Copyright notice */
5
6/* $Id: AliEMCALSimParam.h $ */
7/*
8//
9// Base class for the EMCAL simulation parameters.
10//
11//
12*/
13
14#include "TNamed.h"
15
16class AliEMCALSimParam : public TNamed {
17
18public:
19
20 AliEMCALSimParam();
21 AliEMCALSimParam(const AliEMCALSimParam& recoParam);
22 AliEMCALSimParam& operator = (const AliEMCALSimParam& recoParam);
23 virtual ~AliEMCALSimParam() {}
24
25 static AliEMCALSimParam * GetInstance() ;
26 virtual void Print(Option_t * option="") const ;
27
e42f0a9d 28 //Parameters used in Digitizer
29 Int_t GetDigitThreshold() const { return fDigitThreshold ; }
30 Float_t GetPinNoise() const { return fPinNoise ; }
df5cea6b 31 Double_t GetTimeNoise() const { return fTimeNoise ; }
e42f0a9d 32 Double_t GetTimeDelay() const { return fTimeDelay ; }
33 Double_t GetTimeResolutionPar0() const { return fTimeResolutionPar0 ; }
34 Double_t GetTimeResolutionPar1() const { return fTimeResolutionPar1 ; }
35 Int_t GetNADCEC() const { return fNADCEC ; }
36 Int_t GetMeanPhotonElectron() const { return fMeanPhotonElectron ; }
5fb45456 37 Float_t GetGainFluctuations() const { return fGainFluctuations ; }
38
e42f0a9d 39 void SetDigitThreshold(Int_t val) { fDigitThreshold = val ; }
40 void SetPinNoise(Float_t val) { fPinNoise = val ; }
df5cea6b 41 void SetTimeNoise(Float_t val) { fTimeNoise = val ; }
e42f0a9d 42 void SetTimeDelay(Double_t val) { fTimeDelay = val ; }
43 void SetTimeResolutionPar0(Double_t val){ fTimeResolutionPar0 = val ; }
44 void SetTimeResolutionPar1(Double_t val){ fTimeResolutionPar1 = val ; }
45 void SetNADCED(Int_t val) { fNADCEC = val ; }
46 void SetMeanPhotonElectron(Int_t val) { fMeanPhotonElectron = val ; }
5fb45456 47 void SetGainFluctuations(Float_t val) { fGainFluctuations = val ; }
33a52e55 48
e42f0a9d 49 //Parameters used in SDigitizer
50 Float_t GetA() const { return fA ; }
51 Float_t GetB() const { return fB ; }
52 Float_t GetECPrimaryThreshold() const { return fECPrimThreshold ; }
5fb45456 53
e42f0a9d 54 void SetA(Float_t val) { fA = val ; }
55 void SetB(Float_t val) { fB = val ; }
56 void SetECPrimaryThreshold(Float_t val) { fECPrimThreshold = val ; }
33a52e55 57
33a52e55 58
59private:
60
61
62 static AliEMCALSimParam * fgSimParam ; // pointer to the unique instance of the class
63
e42f0a9d 64 // Digitizer
65 Int_t fDigitThreshold ; // Threshold for storing digits in EMC
66 Int_t fMeanPhotonElectron ; // number of photon electrons per GeV deposited energy
5fb45456 67 Float_t fGainFluctuations ; // correct fMeanPhotonElectron by the gain fluctuations
e42f0a9d 68 Float_t fPinNoise ; // Electronics noise in EMC, APD
df5cea6b 69 Double_t fTimeNoise ; // Electronics noise in EMC, time
e42f0a9d 70 Double_t fTimeDelay; // Time delay to reproduce data delay
71 Double_t fTimeResolutionPar0 ; // Time resolution of FEE electronics
72 Double_t fTimeResolutionPar1 ; // Time resolution of FEE electronics
73 Int_t fNADCEC ; // number of channels in EC section ADC
33a52e55 74
e42f0a9d 75 // SDigitizer
76 Float_t fA ; // Pedestal parameter
77 Float_t fB ; // Slope Digitizition parameters
78 Float_t fECPrimThreshold ; // To store primary if EC Shower Elos > threshold
33a52e55 79
5fb45456 80 ClassDef(AliEMCALSimParam,6)
33a52e55 81};
82
83#endif
84