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3a8be91c | 1 | #ifndef ALIEMCALRECPARAM_H |
2 | #define ALIEMCALRECPARAM_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 | // Container of EMCAL reconstruction parameters | |
10 | // The purpose of this object is to store it to OCDB | |
b4133f05 | 11 | // and retrieve it in AliEMCALClusterizerv1, AliEMCALPID, |
12 | // AliEMCALTracker and use it to configure AliEMCALRawUtils | |
13 | // | |
14 | // | |
3a8be91c | 15 | // Author: Yuri Kharlov |
16 | //----------------------------------------------------------------------------- | |
17 | ||
18 | // --- ROOT system --- | |
19 | ||
413e6b81 | 20 | #include "AliDetectorRecoParam.h" |
225cd96d | 21 | #include "AliLog.h" |
3a8be91c | 22 | |
413e6b81 | 23 | class AliEMCALRecParam : public AliDetectorRecoParam |
3a8be91c | 24 | { |
1e7c9b89 | 25 | public: |
3a8be91c | 26 | |
27 | AliEMCALRecParam() ; | |
413e6b81 | 28 | AliEMCALRecParam(const AliEMCALRecParam& recParam); |
29 | AliEMCALRecParam& operator = (const AliEMCALRecParam& recParam); | |
3a8be91c | 30 | virtual ~AliEMCALRecParam() {} |
1e7c9b89 | 31 | |
225cd96d | 32 | //Clustering (Unfolding : Cynthia) |
1e7c9b89 | 33 | Float_t GetClusteringThreshold() const {return fClusteringThreshold ;} |
34 | Float_t GetW0 () const {return fW0 ;} | |
35 | Float_t GetMinECut () const {return fMinECut ;} | |
36 | Float_t GetLocMaxCut () const {return fLocMaxCut ;} | |
a435f763 | 37 | Float_t GetTimeCut () const {return fTimeCut ;} |
829ba234 | 38 | Float_t GetTimeMin () const {return fTimeMin ;} |
39 | Float_t GetTimeMax () const {return fTimeMax ;} | |
1e7c9b89 | 40 | Bool_t GetUnfold () const {return fUnfold ;} |
829ba234 | 41 | |
1e7c9b89 | 42 | void SetClusteringThreshold(Float_t thrsh) {fClusteringThreshold = thrsh;} |
829ba234 | 43 | void SetW0 (Float_t w0) {fW0 = w0 ;} |
44 | void SetMinECut (Float_t ecut) {fMinECut = ecut ;} | |
1e7c9b89 | 45 | void SetLocMaxCut (Float_t locMaxCut) {fLocMaxCut = locMaxCut ;} |
829ba234 | 46 | void SetTimeCut (Float_t t) {fTimeCut = t ;} |
47 | void SetTimeMin (Float_t t) {fTimeMin = t ;} | |
48 | void SetTimeMax (Float_t t) {fTimeMax = t ;} | |
1e7c9b89 | 49 | void SetUnfold (Bool_t unfold) {fUnfold = unfold ; if(fUnfold) AliWarning("Cluster Unfolding ON. Implementing only for eta=0 case!!!");} |
50 | ||
8ba062b1 | 51 | //PID (Guenole) |
1e7c9b89 | 52 | Double_t GetGamma(Int_t i, Int_t j) const {return fGamma[i][j];} |
53 | Double_t GetGammaEnergyProb(Int_t i) const {return fGammaEnergyProb[i];} | |
54 | Double_t GetGamma1to10(Int_t i, Int_t j) const {return fGamma1to10[i][j];} // not used | |
55 | Double_t GetHadron(Int_t i, Int_t j) const {return fHadron[i][j];} | |
56 | Double_t GetHadron1to10(Int_t i, Int_t j) const {return fHadron1to10[i][j];} // not used | |
57 | Double_t GetHadronEnergyProb(Int_t i) const {return fHadronEnergyProb[i];} | |
58 | Double_t GetPiZero(Int_t i, Int_t j) const {return fPiZero[i][j];} | |
59 | Double_t GetPiZeroEnergyProb(Int_t i) const {return fPiZeroEnergyProb[i];} | |
60 | ||
61 | void SetGamma(Int_t i, Int_t j,Double_t param ) {fGamma[i][j]=param;} | |
62 | void SetGammaEnergyProb(Int_t i, Double_t param ) {fGammaEnergyProb[i]=param;} | |
63 | void SetGamma1to10(Int_t i, Int_t j,Double_t param ) {fGamma1to10[i][j]=param;} | |
64 | void SetHadron(Int_t i, Int_t j,Double_t param ) {fHadron[i][j]=param;} | |
65 | void SetHadron1to10(Int_t i, Int_t j,Double_t param ) {fHadron1to10[i][j]=param;} | |
66 | void SetHadronEnergyProb(Int_t i,Double_t param ) {fHadronEnergyProb[i]=param;} | |
67 | void SetPiZero(Int_t i, Int_t j,Double_t param) {fPiZero[i][j]=param;} | |
68 | void SetPiZeroEnergyProb(Int_t i,Double_t param) {fPiZeroEnergyProb[i]=param;} | |
69 | ||
8ba062b1 | 70 | //Track Matching (Alberto) |
71 | /* track matching cut setters */ | |
72 | void SetTrkCutX(Double_t value) {fTrkCutX = value;} | |
73 | void SetTrkCutY(Double_t value) {fTrkCutY = value;} | |
74 | void SetTrkCutZ(Double_t value) {fTrkCutZ = value;} | |
75 | void SetTrkCutR(Double_t value) {fTrkCutR = value;} | |
76 | void SetTrkCutAlphaMin(Double_t value) {fTrkCutAlphaMin = value;} | |
77 | void SetTrkCutAlphaMax(Double_t value) {fTrkCutAlphaMax = value;} | |
78 | void SetTrkCutAngle(Double_t value) {fTrkCutAngle = value;} | |
1e7c9b89 | 79 | void SetTrkCutNITS(Double_t value) {fTrkCutNITS = value;} |
80 | void SetTrkCutNTPC(Double_t value) {fTrkCutNTPC = value;} | |
8ba062b1 | 81 | /* track matching cut getters */ |
82 | Double_t GetTrkCutX() const {return fTrkCutX;} | |
83 | Double_t GetTrkCutY() const {return fTrkCutY;} | |
84 | Double_t GetTrkCutZ() const {return fTrkCutZ;} | |
85 | Double_t GetTrkCutR() const {return fTrkCutR;} | |
86 | Double_t GetTrkCutAlphaMin() const {return fTrkCutAlphaMin;} | |
87 | Double_t GetTrkCutAlphaMax() const {return fTrkCutAlphaMax;} | |
88 | Double_t GetTrkCutAngle() const {return fTrkCutAngle;} | |
1e7c9b89 | 89 | Double_t GetTrkCutNITS() const {return fTrkCutNITS;} |
90 | Double_t GetTrkCutNTPC() const {return fTrkCutNTPC;} | |
91 | ||
b4133f05 | 92 | //Raw signal fitting (Jenn) |
93 | /* raw signal setters */ | |
94 | void SetHighLowGainFactor(Double_t value) {fHighLowGainFactor = value;} | |
95 | void SetOrderParameter(Int_t value) {fOrderParameter = value;} | |
96 | void SetTau(Double_t value) {fTau = value;} | |
97 | void SetNoiseThreshold(Int_t value) {fNoiseThreshold = value;} | |
9f467289 | 98 | void SetNPedSamples(Int_t value) {fNPedSamples = value;} |
99 | void SetRemoveBadChannels(Bool_t val) {fRemoveBadChannels=val; } | |
100 | void SetFittingAlgorithm(Int_t val) {fFittingAlgorithm=val; } | |
46f1d25f | 101 | void SetFALTROUsage(Bool_t val) {fUseFALTRO=val; } |
102 | ||
b4133f05 | 103 | /* raw signal getters */ |
104 | Double_t GetHighLowGainFactor() const {return fHighLowGainFactor;} | |
105 | Int_t GetOrderParameter() const {return fOrderParameter;} | |
106 | Double_t GetTau() const {return fTau;} | |
107 | Int_t GetNoiseThreshold() const {return fNoiseThreshold;} | |
108 | Int_t GetNPedSamples() const {return fNPedSamples;} | |
9f467289 | 109 | Bool_t GetRemoveBadChannels() const {return fRemoveBadChannels;} |
110 | Int_t GetFittingAlgorithm() const {return fFittingAlgorithm; } | |
46f1d25f | 111 | Bool_t UseFALTRO() const {return fUseFALTRO; } |
9f467289 | 112 | |
113 | virtual void Print(Option_t * option="") const ; | |
1e7c9b89 | 114 | |
413e6b81 | 115 | static AliEMCALRecParam* GetDefaultParameters(); |
f5fc991a | 116 | static AliEMCALRecParam* GetLowFluxParam(); |
117 | static AliEMCALRecParam* GetHighFluxParam(); | |
98cf874d | 118 | static AliEMCALRecParam* GetCalibParam(); |
119 | static AliEMCALRecParam* GetCosmicParam(); | |
1e7c9b89 | 120 | |
feedcab9 | 121 | static const TObjArray* GetMappings(); |
1e7c9b89 | 122 | |
123 | private: | |
8ba062b1 | 124 | //Clustering |
a435f763 | 125 | Float_t fClusteringThreshold ; // Minimum energy to seed a EC digit in a cluster |
126 | Float_t fW0 ; // Logarithmic weight for the cluster center of gravity calculation | |
3a8be91c | 127 | Float_t fMinECut; // Minimum energy for a digit to be a member of a cluster |
a435f763 | 128 | Bool_t fUnfold; // Flag to perform cluster unfolding |
129 | Float_t fLocMaxCut; // Minimum energy difference to consider local maxima in a cluster | |
829ba234 | 130 | Float_t fTimeCut ; // Maximum time of digits with respect to EMC cluster max. |
131 | Float_t fTimeMin ; // Minimum time of digits | |
132 | Float_t fTimeMax ; // Maximum time of digits | |
a435f763 | 133 | |
8ba062b1 | 134 | //PID (Guenole) |
1e7c9b89 | 135 | Double_t fGamma[6][6]; // Parameter to Compute PID for photons |
136 | Double_t fGamma1to10[6][6]; // Parameter to Compute PID not used | |
137 | Double_t fHadron[6][6]; // Parameter to Compute PID for hadrons | |
138 | Double_t fHadron1to10[6][6]; // Parameter to Compute PID for hadrons between 1 and 10 GeV | |
139 | Double_t fHadronEnergyProb[6]; // Parameter to Compute PID for energy ponderation for hadrons | |
140 | Double_t fPiZeroEnergyProb[6]; // Parameter to Compute PID for energy ponderation for Pi0 | |
141 | Double_t fGammaEnergyProb[6]; // Parameter to Compute PID for energy ponderation for gamma | |
142 | Double_t fPiZero[6][6]; // Parameter to Compute PID for pi0 | |
143 | ||
144 | ||
8ba062b1 | 145 | //Track-Matching (Alberto) |
146 | Double_t fTrkCutX; // X-difference cut for track matching | |
147 | Double_t fTrkCutY; // Y-difference cut for track matching | |
148 | Double_t fTrkCutZ; // Z-difference cut for track matching | |
149 | Double_t fTrkCutR; // cut on allowed track-cluster distance | |
150 | Double_t fTrkCutAlphaMin; // cut on 'alpha' parameter for track matching (min) | |
151 | Double_t fTrkCutAlphaMax; // cut on 'alpha' parameter for track matching (min) | |
152 | Double_t fTrkCutAngle; // cut on relative angle between different track points for track matching | |
1e7c9b89 | 153 | Double_t fTrkCutNITS; // Number of ITS hits for track matching |
154 | Double_t fTrkCutNTPC; // Number of TPC hits for track matching | |
155 | ||
b4133f05 | 156 | //Raw signal fitting parameters (Jenn) |
9f467289 | 157 | Double_t fHighLowGainFactor; // gain factor to convert between high and low gain |
158 | Int_t fOrderParameter; // order parameter for raw signal fit | |
159 | Double_t fTau; // decay constant for raw signal fit | |
160 | Int_t fNoiseThreshold; // threshold to consider signal or noise | |
161 | Int_t fNPedSamples; // number of time samples to use in pedestal calculation | |
162 | Bool_t fRemoveBadChannels; // select if bad channels are removed before fitting | |
163 | Int_t fFittingAlgorithm; // select the fitting algorithm | |
46f1d25f | 164 | Bool_t fUseFALTRO; // get FALTRO (trigger) and put it on trigger digits. |
165 | ||
feedcab9 | 166 | static TObjArray* fgkMaps; // ALTRO mappings for RCU0..RCUX |
1e7c9b89 | 167 | |
829ba234 | 168 | ClassDef(AliEMCALRecParam,11) // Reconstruction parameters |
1e7c9b89 | 169 | |
170 | } ; | |
3a8be91c | 171 | |
172 | #endif // ALIEMCALRECPARAM_H | |
8ba062b1 | 173 |