1 #ifndef ALIZDCCALIBDATA_H
2 #define ALIZDCCALIBDATA_H
4 /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
5 * See cxx source for full Copyright notice */
7 ////////////////////////////////////////////////
8 // class for ZDC calibration //
9 ////////////////////////////////////////////////
13 #include "AliCDBEntry.h"
17 class AliZDCCalibData: public TNamed {
21 AliZDCCalibData(const char* name);
22 AliZDCCalibData(const AliZDCCalibData &calibda);
23 AliZDCCalibData& operator= (const AliZDCCalibData &calibda);
24 virtual ~AliZDCCalibData();
26 virtual void Print(Option_t *) const;
28 Float_t GetMeanPed(Int_t channel) const {return fMeanPedestal[channel];}
29 Float_t* GetMeanPed() const {return (float*)fMeanPedestal;}
30 Float_t GetMeanPedWidth(Int_t channel) const {return fMeanPedWidth[channel];}
31 Float_t* GetMeanPedWidth() const {return (float*)fMeanPedWidth;}
32 Float_t GetOOTPed(Int_t channel) const {return fOOTPedestal[channel];}
33 Float_t* GetOOTPed() const {return (float*)fOOTPedestal;}
34 Float_t GetOOTPedWidth(Int_t channel) const {return fOOTPedWidth[channel];}
35 Float_t* GetOOTPedWidth() const {return (float*)fOOTPedWidth;}
36 Float_t GetPedCorrCoeff0(Int_t channel) const {return fPedCorrCoeff[0][channel];}
37 Float_t GetPedCorrCoeff1(Int_t channel) const {return fPedCorrCoeff[1][channel];}
38 Float_t* GetPedCorrCoeff() const {return (float*)fPedCorrCoeff;}
40 Float_t GetEnCalib(Int_t channel) const {return fEnCalibration[channel];}
41 Float_t* GetEnCalib() const {return (float*)fEnCalibration;}
43 Float_t GetZN1EqualCoeff(Int_t channel) const {return fZN1EqualCoeff[channel];}
44 Float_t* GetZN1EqualCoeffs() const {return (float*)fZN1EqualCoeff;}
45 Float_t GetZP1EqualCoeff(Int_t channel) const {return fZP1EqualCoeff[channel];}
46 Float_t* GetZP1EqualCoeffs() const {return (float*)fZP1EqualCoeff;}
47 Float_t GetZN2EqualCoeff(Int_t channel) const {return fZN2EqualCoeff[channel];}
48 Float_t* GetZN2EqualCoeffs() const {return (float*)fZN2EqualCoeff;}
49 Float_t GetZP2EqualCoeff(Int_t channel) const {return fZP2EqualCoeff[channel];}
50 Float_t* GetZP2EqualCoeffs() const {return (float*)fZP2EqualCoeff;}
53 void SetMeanPed(Int_t channel, Float_t val) {fMeanPedestal[channel]=val;}
54 void SetMeanPed(Float_t* MeanPed);
55 void SetMeanPedWidth(Int_t channel, Float_t val) {fMeanPedWidth[channel]=val;}
56 void SetMeanPedWidth(Float_t* MeanPedWidth);
57 void SetOOTPed(Int_t channel, Float_t val) {fOOTPedestal[channel]=val;}
58 void SetOOTPed(Float_t* OOTPed);
59 void SetOOTPedWidth(Int_t channel, Float_t val) {fOOTPedWidth[channel]=val;}
60 void SetOOTPedWidth(Float_t* OOTPedWidth);
61 void SetPedCorrCoeff(Int_t channel, Float_t valCoeff0, Float_t valCoeff1)
62 {fPedCorrCoeff[0][channel]=valCoeff0; fPedCorrCoeff[1][channel]=valCoeff1;}
63 void SetPedCorrCoeff(Float_t* PedCorrCoeff);
64 void SetPedCorrCoeff(Float_t* PedCorrCoeff0, Float_t* PedCorrCoeff1);
66 void SetEnCalib(Int_t channel, Float_t val) {fEnCalibration[channel]=val;}
67 void SetEnCalib(Float_t* EnCalib);
69 void SetZN1EqualCoeff(Int_t channel, Float_t val) {fZN1EqualCoeff[channel]=val;}
70 void SetZN1EqualCoeff(Float_t* EqualCoeff);
71 void SetZP1EqualCoeff(Int_t channel, Float_t val) {fZP1EqualCoeff[channel]=val;}
72 void SetZP1EqualCoeff(Float_t* EqualCoeff);
73 void SetZN2EqualCoeff(Int_t channel, Float_t val) {fZN2EqualCoeff[channel]=val;}
74 void SetZN2EqualCoeff(Float_t* EqualCoeff);
75 void SetZP2EqualCoeff(Int_t channel, Float_t val) {fZP2EqualCoeff[channel]=val;}
76 void SetZP2EqualCoeff(Float_t* EqualCoeff);
78 void SetZEMEndValue(Float_t ZEMEndValue) {fZEMEndValue = ZEMEndValue;}
79 void SetZEMCutFraction(Float_t ZEMCutFraction) {fZEMCutFraction = ZEMCutFraction;}
80 void SetDZEMSup(Float_t DZEMSup) {fDZEMSup = DZEMSup;}
81 void SetDZEMInf(Float_t DZEMInf) {fDZEMInf = DZEMInf;}
82 virtual Float_t GetZEMEndValue() const {return fZEMEndValue;}
83 virtual Float_t GetZEMCutFraction() const {return fZEMCutFraction;}
84 virtual Float_t GetDZEMSup() const {return fDZEMSup;}
85 virtual Float_t GetDZEMInf() const {return fDZEMInf;}
87 void SetEZN1MaxValue(Float_t value) {fEZN1MaxValue = value;}
88 void SetEZP1MaxValue(Float_t value) {fEZP1MaxValue = value;}
89 void SetEZDC1MaxValue(Float_t value) {fEZDC1MaxValue = value;}
90 void SetEZN2MaxValue(Float_t value) {fEZN2MaxValue = value;}
91 void SetEZP2MaxValue(Float_t value) {fEZP2MaxValue = value;}
92 void SetEZDC2MaxValue(Float_t value) {fEZDC2MaxValue = value;}
93 virtual Float_t GetEZN1MaxValue() const {return fEZN1MaxValue;}
94 virtual Float_t GetEZP1MaxValue() const {return fEZP1MaxValue;}
95 virtual Float_t GetEZDC1MaxValue() const {return fEZDC1MaxValue;}
96 virtual Float_t GetEZN2MaxValue() const {return fEZN2MaxValue;}
97 virtual Float_t GetEZP2MaxValue() const {return fEZP2MaxValue;}
98 virtual Float_t GetEZDC2MaxValue() const {return fEZDC2MaxValue;}
102 Float_t fMeanPedestal[48]; // Mean pedestal values
103 Float_t fMeanPedWidth[48]; // Mean pedestal widths
104 Float_t fOOTPedestal[48]; // "Out of Time" pedestal values
105 Float_t fOOTPedWidth[48]; // "Out of Time" pedestal widths
106 Float_t fPedCorrCoeff[2][48]; // Fit of correlation in-time vs. out-of-time
108 Float_t fEnCalibration[6]; // Coeff. for energy calibration
109 // --- Coefficients for tower calibration
110 Float_t fZN1EqualCoeff[5]; // Equalization coefficients for ZN1 PTMs
111 Float_t fZP1EqualCoeff[5]; // Equalization coefficients for ZN1 PTMs
112 Float_t fZN2EqualCoeff[5]; // Equalization coefficients for ZN1 PTMs
113 Float_t fZP2EqualCoeff[5]; // Equalization coefficients for ZN1 PTMs
114 // --- Coefficients for centrality selection from ZEM signal
115 Float_t fZEMEndValue; // End point value of ZEM energy spectrum
116 Float_t fZEMCutFraction; // Fraction of ZEM energy spectrum used to cut
117 Float_t fDZEMSup;// Upper value of EZDCvs.ZEM correlation where ZEM signal is used
118 Float_t fDZEMInf;// Lower value of EZDCvs.ZEM correlation where ZEM signal is used
119 // --- Parameters from EZDC vs. Nspec correlation
120 Float_t fEZN1MaxValue; // Max value of ZN1 vs. Nspec n correlation
121 Float_t fEZP1MaxValue; // Max value of ZP1 vs. Nspec p correlation
122 Float_t fEZDC1MaxValue; // Max value of ZDC1 vs. Nspec n+p correlation
123 Float_t fEZN2MaxValue; // Max value of ZN2 vs. Nspec n correlation
124 Float_t fEZP2MaxValue; // Max value of ZP2 vs. Nspec p correlation
125 Float_t fEZDC2MaxValue; // Max value of ZDC2 vs. Nspec n+p correlation
127 ClassDef(AliZDCCalibData,11) // ZDC Calibration data