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1 | #ifndef ALIVZEROCALIBDATA_H | |
2 | #define ALIVZEROCALIBDATA_H | |
3 | ||
4 | /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * | |
5 | * See cxx source for full Copyright notice */ | |
6 | ||
7 | //////////////////////////////////////////////// | |
8 | // // | |
9 | // class for VZERO calibration // | |
10 | // // | |
11 | //////////////////////////////////////////////// | |
12 | ||
13 | #include "TNamed.h" | |
14 | ||
15 | class AliVZERODataDCS; | |
16 | ||
17 | class AliVZEROCalibData: public TNamed { | |
18 | ||
19 | public: | |
20 | enum { kNCIUBoards = 8 }; | |
21 | ||
22 | AliVZEROCalibData(); | |
23 | AliVZEROCalibData(const char* name); | |
24 | AliVZEROCalibData(const AliVZEROCalibData &calibda); | |
25 | AliVZEROCalibData& operator= (const AliVZEROCalibData &calibda); | |
26 | virtual ~AliVZEROCalibData(); | |
27 | void Reset(); | |
28 | void FillDCSData(AliVZERODataDCS * data); | |
29 | ||
30 | Float_t GetPedestal(Int_t channel) const {return fPedestal[channel];} | |
31 | Float_t* GetPedestal() const {return (float*)fPedestal;} | |
32 | Float_t GetSigma(Int_t channel) const {return fSigma[channel];} | |
33 | Float_t* GetSigma() const {return (float*)fSigma;} | |
34 | Float_t GetADCmean(Int_t channel) const {return fADCmean[channel];} | |
35 | Float_t* GetADCmean() const {return (float*)fADCmean;} | |
36 | Float_t GetADCsigma(Int_t channel) const {return fADCsigma[channel];} | |
37 | Float_t* GetADCsigma() const {return (float*)fADCsigma;} | |
38 | Float_t GetMeanHV(Int_t channel) const {return fMeanHV[channel];} | |
39 | Float_t* GetMeanHV() const {return (float*)fMeanHV;} | |
40 | Float_t GetWidthHV(Int_t channel) const {return fWidthHV[channel];} | |
41 | Float_t* GetWidthHV() const {return (float*)fWidthHV;} | |
42 | Bool_t IsChannelDead(Int_t channel) const {return fDeadChannel[channel];} | |
43 | Bool_t* GetDeadMap() const {return (bool*)fDeadChannel;} | |
44 | ||
45 | Float_t GetGain(Int_t channel); | |
46 | Float_t GetTimeOffset(Int_t channel) const {return fTimeOffset[channel];} | |
47 | Float_t* GetTimeOffset() const {return (float*)fTimeOffset;} | |
48 | Float_t GetTimeGain(Int_t channel) const {return fTimeGain[channel];} | |
49 | Float_t* GetTimeGain() const {return (float*)fTimeGain;} | |
50 | ||
51 | Float_t* GetTimeResolution() const {return (Float_t*) fTimeResolution;}; | |
52 | Float_t GetTimeResolution(Int_t board ) const {return ((board>=0 && board<kNCIUBoards)?fTimeResolution[board]:0);}; | |
53 | ||
54 | Float_t* GetWidthResolution() const {return (Float_t*) fWidthResolution;}; | |
55 | Float_t GetWidthResolution(Int_t board ) const {return ((board>=0 && board<kNCIUBoards)?fWidthResolution[board]:0);}; | |
56 | ||
57 | const UInt_t* GetMatchWindow() const { return fMatchWindow; } | |
58 | UInt_t GetMatchWindow(Int_t board) const { return ((board>=0 && board<kNCIUBoards)?fMatchWindow[board]:0); } | |
59 | const UInt_t* GetSearchWindow() const { return fSearchWindow; } | |
60 | UInt_t GetSearchWindow(Int_t board) const { return ((board>=0 && board<kNCIUBoards)?fSearchWindow[board]:0); } | |
61 | const UInt_t* GetTriggerCountOffset() const { return fTriggerCountOffset; } | |
62 | UInt_t GetTriggerCountOffset(Int_t board) const { return ((board>=0 && board<kNCIUBoards)?fTriggerCountOffset[board]:0); } | |
63 | const UInt_t* GetRollOver() const { return fRollOver; } | |
64 | UInt_t GetRollOver(Int_t board) const { return ((board>=0 && board<kNCIUBoards)?fRollOver[board]:0); } | |
65 | ||
66 | Float_t GetDiscriThr(Int_t channel) const {return fDiscriThr[channel];} | |
67 | Float_t* GetDiscriThr() const {return (Float_t*)fDiscriThr;} | |
68 | ||
69 | void SetPedestal(Float_t val, Int_t channel) {fPedestal[channel]=val;} | |
70 | void SetPedestal(const Float_t* Pedestal); | |
71 | void SetSigma(Float_t val, Int_t channel) {fSigma[channel]=val;} | |
72 | void SetSigma(const Float_t* Sigma); | |
73 | void SetADCmean(Float_t val, Int_t channel) {fADCmean[channel]=val;} | |
74 | void SetADCmean(const Float_t* ADCmean); | |
75 | void SetADCsigma(Float_t val, Int_t channel) {fADCsigma[channel]=val;} | |
76 | void SetADCsigma(const Float_t* ADCsigma); | |
77 | void SetMeanHV(Float_t val, Int_t channel) {fMeanHV[channel]=val;} | |
78 | void SetMeanHV(const Float_t* MeanHV); | |
79 | void SetWidthHV(Float_t val, Int_t channel) {fWidthHV[channel]=val;} | |
80 | void SetWidthHV(const Float_t* WidthHV); | |
81 | void SetDeadChannel(Bool_t val, Int_t channel) {fDeadChannel[channel]=val;} | |
82 | void SetDeadMap(const Bool_t* deadMap); | |
83 | ||
84 | void SetTimeOffset(Float_t val, Int_t board, Int_t channel); | |
85 | void SetTimeOffset(const Float_t* TimeOffset); | |
86 | void SetTimeGain(Float_t val, Int_t channel) {fTimeGain[channel]=val;} | |
87 | void SetTimeGain(const Float_t* TimeGain); | |
88 | ||
89 | void SetParameter(TString name, Int_t val); | |
90 | void SetTimeResolution(UShort_t *resols); | |
91 | void SetTimeResolution(UShort_t resol, Int_t board); | |
92 | void SetWidthResolution(UShort_t *resols); | |
93 | void SetWidthResolution(UShort_t resol, Int_t board); | |
94 | ||
95 | void SetMatchWindow(UInt_t *windows); | |
96 | void SetMatchWindow(UInt_t window, Int_t board); | |
97 | void SetSearchWindow(UInt_t *windows); | |
98 | void SetSearchWindow(UInt_t window, Int_t board); | |
99 | void SetTriggerCountOffset(UInt_t *offsets); | |
100 | void SetTriggerCountOffset(UInt_t offset, Int_t board); | |
101 | void SetRollOver(UInt_t *offsets); | |
102 | void SetRollOver(UInt_t offset, Int_t board); | |
103 | ||
104 | void SetDiscriThr(Float_t thr, Int_t board, Int_t channel); | |
105 | void SetDiscriThr(const Float_t* thresholds); | |
106 | ||
107 | Float_t GetMIPperADC(Int_t channel); | |
108 | ||
109 | static Int_t GetOfflineChannelNumber(Int_t board, Int_t channel); | |
110 | static Int_t GetBoardNumber(Int_t channel); | |
111 | static Int_t GetFEEChannelNumber(Int_t channel); | |
112 | ||
113 | Float_t GetLightYields(Int_t channel); | |
114 | ||
115 | Float_t *GetPMGainsA() const { return fPMGainsA; } | |
116 | Float_t *GetPMGainsB() const { return fPMGainsB; } | |
117 | ||
118 | protected: | |
119 | void InitLightYields(); | |
120 | void InitPMGains(); | |
121 | ||
122 | Float_t fPedestal[128]; // Mean pedestal values | |
123 | Float_t fSigma[128]; // Sigmas of pedestal peaks | |
124 | Float_t fADCmean[128]; // ADC mean values | |
125 | Float_t fADCsigma[128]; // ADC sigma values | |
126 | Float_t fMeanHV[64]; // Mean PMT HV needed to compute MIP value | |
127 | Float_t fWidthHV[64]; // Width of the PMT HV | |
128 | ||
129 | Float_t fTimeOffset[64]; // Time offsets of the TDC | |
130 | Float_t fTimeGain[64]; // Gain factors of the TDC | |
131 | Bool_t fDeadChannel[64]; // List of dead channels | |
132 | Float_t fTimeResolution[kNCIUBoards]; // Time Resolution of the TDC (ns / channel) | |
133 | Float_t fWidthResolution[kNCIUBoards]; // Time Width Resolution of the TDC (ns / channel) | |
134 | ||
135 | UInt_t fMatchWindow[kNCIUBoards]; // HPTDC matching window (25ns units) | |
136 | UInt_t fSearchWindow[kNCIUBoards];// HPTDC search window (25ns units) | |
137 | UInt_t fTriggerCountOffset[kNCIUBoards]; // HPTDC trigger count offset (25ns units) | |
138 | UInt_t fRollOver[kNCIUBoards]; // HPTDC roll-over (25ns units) | |
139 | ||
140 | Float_t fDiscriThr[64]; // Discriminator thresholds | |
141 | ||
142 | Float_t *fLightYields; //! Light Yields channel by channel (read from separate OCDB entry) | |
143 | Float_t *fPMGainsA; //! PM gain factors channel by channel (read from separate OCDB entry) | |
144 | Float_t *fPMGainsB; //! PM gain factors channel by channel (read from separate OCDB entry) | |
145 | ||
146 | ClassDef(AliVZEROCalibData,8) // VZERO Calibration data | |
147 | }; | |
148 | ||
149 | #endif |