"Setting correct gains for Pb-p in simulation"
[u/mrichter/AliRoot.git] / T0 / AliT0RecoParam.h
... / ...
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1#ifndef ALIT0RECOPARAM_H
2#define ALIT0RECOPARAM_H
3/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * See cxx source for full Copyright notice */
5
6///////////////////////////////////////////////////////////////////////////////
7// //
8// Class with T0 reconstruction parameters //
9// //
10///////////////////////////////////////////////////////////////////////////////
11
12
13#include "AliDetectorRecoParam.h"
14
15class AliT0RecoParam : public AliDetectorRecoParam
16{
17 public:
18 AliT0RecoParam();
19 AliT0RecoParam(const AliT0RecoParam &p); //copy constructor
20 AliT0RecoParam& operator=(const AliT0RecoParam &p);
21 virtual ~AliT0RecoParam();
22
23 static AliT0RecoParam *GetLowFluxParam(); // make reco parameters for low flux env
24 static AliT0RecoParam *GetHighFluxParam(); // make reco parameters for high flux env
25 static AliT0RecoParam *GetLaserTestParam(); // special setting for laser SetLaserTestParam
26 //for monitoring
27 // static AliT0RecoParam *GetHistRange(); // limit of monitoring histograms
28
29 //old staff
30 Float_t GetRefAmp() const {return fRefAmp;}
31 void SetRefAmp(Float_t amp) { fRefAmp = amp;}
32 //now number of bad channel
33 Int_t GetRefPoint() const {return fRefPoint;}
34 void SetRefPoint(Int_t ref) {fRefPoint = ref;}
35
36 //now low and high limit for multi-bunch recontruction
37 Float_t GetLow(Int_t numhist) const {return fLow[numhist];}
38 // Float_t GetLow() {return *fLow;}
39 void SetLow(Int_t numhist, Float_t low) {fLow[numhist] = low;}
40
41 Float_t GetHigh(Int_t numhist) const {return fHigh[numhist];}
42 // Float_t GetHigh() {return *fHigh;}
43 void SetHigh(Int_t numhist, Float_t high) {fHigh[numhist] = high;}
44 Float_t GetLatencyL1() const {return fLatencyL1;}
45 void SetLatencyL1(Float_t lat) {fLatencyL1 = lat;}
46 Float_t GetLatencyL1A() const {return fLatencyL1A;}
47 void SetLatencyL1A(Float_t lat) {fLatencyL1A = lat;}
48 Float_t GetLatencyL1C() const {return fLatencyL1C;}
49 void SetLatencyL1C(Float_t lat) {fLatencyL1C = lat;}
50 Float_t GetLatencyHPTDC() const {return fLatencyHPTDC;}
51 void SetLatencyHPTDC(Float_t lat) {fLatencyHPTDC = lat;}
52 Float_t GetVertexShift() const {return fVertexShift;}
53 void SetVertexShift(Float_t sh) {fVertexShift = sh;}
54 Int_t GetCorridor() const {return Int_t (fLow[300]); }
55 void SetCorridor(Int_t cor) { fLow[300] = Float_t(cor);}
56
57 //new staff
58 Int_t GetBadChannels(Int_t i) const {return fBadChannels[i];}
59 void SetBadChannels(Int_t i, Int_t value) {fBadChannels[i] = value;}
60 Float_t GetAmpLowThreshold() const {return fLow[200];}
61 Float_t GetAmpHighThreshold() const {return fHigh[200];}
62
63 void SetSatelliteThresholds(Float_t low, Float_t high)
64 {fSatelliteThresholds[0]=low; fSatelliteThresholds[1]=high;}
65 Float_t GetLowSatelliteThreshold() const {return fSatelliteThresholds[0];}
66 Float_t GetHighSatelliteThreshold() const {return fSatelliteThresholds[1];}
67 void SetEq (Int_t eq) {fEqualised = eq; };
68 Int_t GetEq () const { return fEqualised;}
69
70 void PrintParameters() const;
71
72 protected:
73 Float_t fRefAmp; // for slewing correcton
74 Int_t fRefPoint; // #channel for RefPoint
75 Float_t fLow[500]; //low limit of monitoring histograms
76 Float_t fHigh[500]; //high limit of monitoring histograms
77 Float_t fLatencyL1; //Latency L1
78 Float_t fLatencyL1A; //Latency L1 for OrA
79 Float_t fLatencyL1C; //Latency L1 for orC
80 Float_t fLatencyHPTDC; //Latency HPTDC
81 Float_t fVertexShift; // for slewing correcton
82 Int_t fBadChannels[24]; // bad channels map
83 Float_t fSatelliteThresholds[2]; // what we call satellite
84 Int_t fEqualised; // do we write pure CFD or equalized
85
86 ClassDef(AliT0RecoParam, 6);
87
88};
89#endif