1 #ifndef ALIANALYSISTASKBFPSI_H
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2 #define ALIANALYSISTASKBFPSI_H
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4 // Analysis task for the BF vs Psi code
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5 // Authors: Panos Cristakoglou@cern.ch
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14 class AliBalancePsi;
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15 class AliESDtrackCuts;
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16 class AliEventPoolManager;
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19 #include "AliAnalysisTaskSE.h"
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20 #include "AliBalancePsi.h"
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22 #include "AliPID.h"
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23 #include "AliPIDResponse.h"
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24 #include "AliPIDCombined.h"
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26 //================================correction
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27 #define kCENTRALITY 9
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28 const Double_t centralityArrayForPbPb[kCENTRALITY+1] = {0.,5.,10.,20.,30.,40.,50.,60.,70.,80.};
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29 const TString centralityArrayForPbPb_string[kCENTRALITY] = {"0-5","5-10","10-20","20-30","30-40","40-50","50-60","60-70","70-80"};
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30 //================================correction
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32 class AliAnalysisTaskBFPsi : public AliAnalysisTaskSE {
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34 AliAnalysisTaskBFPsi(const char *name = "AliAnalysisTaskBFPsi");
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35 virtual ~AliAnalysisTaskBFPsi();
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37 virtual void UserCreateOutputObjects();
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38 virtual void UserExec(Option_t *option);
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39 virtual void FinishTaskOutput();
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40 virtual void Terminate(Option_t *);
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42 //========================correction
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43 virtual void SetInputCorrection(const char* filename, const char* gCollSystem);//{
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44 //fileNameCorrection = filename;//++++++++++++++++++++++++++++++=
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46 //========================correction
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48 void SetAnalysisObject(AliBalancePsi *const analysis) {
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49 fBalance = analysis;
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51 void SetShufflingObject(AliBalancePsi *const analysisShuffled) {
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52 fRunShuffling = kTRUE;
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53 fShuffledBalance = analysisShuffled;
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55 void SetMixingObject(AliBalancePsi *const analysisMixed) {
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57 fMixedBalance = analysisMixed;
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59 void SetMixingWithEventPlane(Bool_t bMixingWithEventPlane = kTRUE) { fRunMixingEventPlane = bMixingWithEventPlane; }
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60 void SetMixingTracks(Int_t tracks) { fMixingTracks = tracks; }
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61 void SetAnalysisCutObject(AliESDtrackCuts *const trackCuts) {
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62 fESDtrackCuts = trackCuts;}
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63 void SetVertexDiamond(Double_t vx, Double_t vy, Double_t vz) {
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69 //==============AOD analysis==============//
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70 void SetAODtrackCutBit(Int_t bit){
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71 nAODtrackCutBit = bit;
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74 void SetKinematicsCutsAOD(Double_t ptmin, Double_t ptmax, Double_t etamin, Double_t etamax){
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75 fPtMin = ptmin; fPtMax = ptmax;
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76 fEtaMin = etamin; fEtaMax = etamax;
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79 void SetExtraDCACutsAOD(Double_t DCAxy, Double_t DCAz){
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84 void SetExtraTPCCutsAOD(Double_t maxTPCchi2, Int_t minNClustersTPC){
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85 fTPCchi2Cut = maxTPCchi2;
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86 fNClustersTPCCut = minNClustersTPC;
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89 //==============MC analysis==============//
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90 void SetKinematicsCutsMC(Double_t ptmin, Double_t ptmax,
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91 Double_t etamin, Double_t etamax){
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92 fPtMin = ptmin; fPtMax = ptmax;
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93 fEtaMin = etamin; fEtaMax = etamax;
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95 void UseFlowAfterBurner(TF1 *gDifferentialV2) {
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96 fDifferentialV2 = gDifferentialV2;
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97 fUseFlowAfterBurner = kTRUE;
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99 void ExcludeResonancesInMC() {fExcludeResonancesInMC = kTRUE;}
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101 void SetPDGCode(Int_t gPdgCode) {
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102 fUseMCPdgCode = kTRUE;
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103 fPDGCodeToBeAnalyzed = gPdgCode;
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107 void SetCentralityEstimator(const char* centralityEstimator) {fCentralityEstimator = centralityEstimator;}
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108 const char* GetCentralityEstimator(void) const {return fCentralityEstimator;}
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109 void SetCentralityPercentileRange(Double_t min, Double_t max) {
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110 fUseCentrality = kTRUE;
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111 fCentralityPercentileMin=min;
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112 fCentralityPercentileMax=max;
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114 void SetImpactParameterRange(Double_t min, Double_t max) {
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115 fUseCentrality = kTRUE;
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116 fImpactParameterMin=min;
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117 fImpactParameterMax=max;
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121 void SetMultiplicityRange(Double_t min, Double_t max) {
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122 fUseMultiplicity = kTRUE;
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123 fNumberOfAcceptedTracksMin = min;
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124 fNumberOfAcceptedTracksMax = max;}
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126 void UseOfflineTrigger() {fUseOfflineTrigger = kTRUE;}
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128 //Acceptance filter
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129 void SetAcceptanceParameterization(TF1 *parameterization) {
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130 fAcceptanceParameterization = parameterization;}
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133 enum kDetectorUsedForPID { kTPCpid, kTOFpid, kTPCTOF }; // default TPC & TOF pid (via GetTPCpid & GetTOFpid)
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134 enum kParticleOfInterest { kMuon, kElectron, kPion, kKaon, kProton };
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136 void SetUseBayesianPID(Double_t gMinProbabilityValue) {
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137 fUsePID = kTRUE; fUsePIDnSigma = kFALSE; fUsePIDPropabilities = kTRUE;
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138 fMinAcceptedPIDProbability = gMinProbabilityValue; }
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140 void SetUseNSigmaPID(Double_t gMaxNSigma) {
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141 fUsePID = kTRUE; fUsePIDPropabilities = kFALSE; fUsePIDnSigma = kTRUE;
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142 fPIDNSigma = gMaxNSigma; }
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144 void SetParticleOfInterest(kParticleOfInterest poi) {
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145 fParticleOfInterest = poi;}
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146 void SetDetectorUsedForPID(kDetectorUsedForPID detConfig) {
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147 fPidDetectorConfig = detConfig;}
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148 void SetEventClass(TString receivedEventClass){
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149 fEventClass = receivedEventClass;
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152 //========================correction=============================//
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153 // void SetInputCorrection(const char* filename = "efficiencyCorrection.root"){}
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156 Double_t IsEventAccepted(AliVEvent* event);
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157 Double_t GetRefMultiOrCentrality(AliVEvent* event);
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158 Double_t GetEventPlane(AliVEvent* event);
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159 //===============================correction
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160 Double_t GetTrackbyTrackCorrectionMatrix(Double_t vEta, Double_t vPhi, Double_t vPt, Short_t vCharge, Double_t gCentrality);
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161 //===============================correction
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162 TObjArray* GetAcceptedTracks(AliVEvent* event, Double_t gCentrality, Double_t gReactionPlane);
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163 TObjArray* GetShuffledTracks(TObjArray* tracks, Double_t gCentrality);
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165 AliBalancePsi *fBalance; //BF object
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166 Bool_t fRunShuffling;//run shuffling or not
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167 AliBalancePsi *fShuffledBalance; //BF object (shuffled)
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168 Bool_t fRunMixing;//run mixing or not
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169 Bool_t fRunMixingEventPlane;//run mixing with Event Plane
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170 Int_t fMixingTracks;
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171 AliBalancePsi *fMixedBalance; //TriggeredBF object (mixed)
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172 AliEventPoolManager* fPoolMgr; //! event pool manager
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174 TList *fList; //fList object
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175 TList *fListBF; //fList object
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176 TList *fListBFS; //fList object
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177 TList *fListBFM; //fList object
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178 TList *fHistListPIDQA; //! list of histograms
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180 TH2F *fHistEventStats; //event stats
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181 TH2F *fHistCentStats; //centrality stats
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182 TH1F *fHistTriggerStats; //trigger stats
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183 TH1F *fHistTrackStats; //Track filter bit stats
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184 TH1F *fHistVx; //x coordinate of the primary vertex
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185 TH1F *fHistVy; //y coordinate of the primary vertex
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186 TH2F *fHistVz; //z coordinate of the primary vertex
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188 TH2F *fHistEventPlane; //event plane distribution
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190 TH2F *fHistClus;//number of clusters (QA histogram)
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191 TH2F *fHistDCA;//DCA (QA histogram)
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192 TH2F *fHistChi2;//track chi2 (QA histogram)
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193 TH2F *fHistPt;//transverse momentum (QA histogram)
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194 TH2F *fHistEta;//pseudorapidity (QA histogram)
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195 TH2F *fHistRapidity;//rapidity (QA histogram)
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196 TH2F *fHistPhi;//phi (QA histogram)
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197 TH3F *fHistEtaPhiPos;//eta-phi pos particles (QA histogram)
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198 TH3F *fHistEtaPhiNeg;//eta-phi neg particles (QA histogram)
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199 TH2F *fHistPhiBefore;//phi before v2 afterburner (QA histogram)
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200 TH2F *fHistPhiAfter;//phi after v2 afterburner (QA histogram)
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201 TH2F *fHistPhiPos;//phi for positive particles (QA histogram)
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202 TH2F *fHistPhiNeg;//phi for negative particles (QA histogram)
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203 TH2F *fHistV0M;//V0 multiplicities (QA histogram)
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204 TH2F *fHistRefTracks;//reference track multiplicities (QA histogram)
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206 //============PID============//
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207 TH2D *fHistdEdxVsPTPCbeforePID;//TPC dEdx vs momentum before PID cuts (QA histogram)
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208 TH2D *fHistBetavsPTOFbeforePID;//beta vs momentum before PID cuts (QA histogram)
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209 TH2D *fHistProbTPCvsPtbeforePID; //TPC probability vs pT before PID cuts (QA histogram)
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210 TH2D *fHistProbTOFvsPtbeforePID;//TOF probability vs pT before PID cuts (QA histogram)
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211 TH2D *fHistProbTPCTOFvsPtbeforePID;//TOF/TPC probability vs pT before PID cuts (QA histogram)
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212 TH2D *fHistNSigmaTPCvsPtbeforePID;//TPC nsigma vs pT before PID cuts (QA histogram)
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213 TH2D *fHistNSigmaTOFvsPtbeforePID;//TOF nsigma vs pT before PID cuts (QA histogram)
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214 TH2D *fHistdEdxVsPTPCafterPID;//TPC dEdx vs momentum after PID cuts (QA histogram)
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215 TH2D *fHistBetavsPTOFafterPID;//beta vs momentum after PID cuts (QA histogram)
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216 TH2D *fHistProbTPCvsPtafterPID; //TPC probability vs pT after PID cuts (QA histogram)
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217 TH2D *fHistProbTOFvsPtafterPID;//TOF probability vs pT after PID cuts (QA histogram)
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218 TH2D *fHistProbTPCTOFvsPtafterPID;//TOF/TPC probability vs pT after PID cuts (QA histogram)
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219 TH2D *fHistNSigmaTPCvsPtafterPID;//TPC nsigma vs pT after PID cuts (QA histogram)
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220 TH2D *fHistNSigmaTOFvsPtafterPID;//TOF nsigma vs pT after PID cuts (QA histogram)
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222 TH3D *fHistCorrectionPlus[kCENTRALITY]; //======================================================correction
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223 TH3D *fHistCorrectionMinus[kCENTRALITY]; //=====================================================correction
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225 AliPIDResponse *fPIDResponse; //! PID response object
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226 AliPIDCombined *fPIDCombined; //! combined PID object
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228 kParticleOfInterest fParticleOfInterest;//analyzed particle
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229 kDetectorUsedForPID fPidDetectorConfig;//used detector for PID
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231 Bool_t fUsePID; //flag to use PID
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232 Bool_t fUsePIDnSigma;//flag to use nsigma method for PID
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233 Bool_t fUsePIDPropabilities;//flag to use probability method for PID
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234 Double_t fPIDNSigma;//nsigma cut for PID
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235 Double_t fMinAcceptedPIDProbability;//probability cut for PID
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237 //const char* fileNameCorrection; //++++++++++++++++++++++++++++++++++
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239 //============PID============//
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241 AliESDtrackCuts *fESDtrackCuts; //ESD track cuts
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243 TString fCentralityEstimator; //"V0M","TRK","TKL","ZDC","FMD"
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244 Bool_t fUseCentrality;//use the centrality (PbPb) or not (pp)
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245 Double_t fCentralityPercentileMin;//centrality percentile min
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246 Double_t fCentralityPercentileMax;//centrality percentile max
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247 Double_t fImpactParameterMin;//impact parameter min (used for MC)
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248 Double_t fImpactParameterMax;//impact parameter max (used for MC)
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250 Bool_t fUseMultiplicity;//use the multiplicity cuts
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251 Double_t fNumberOfAcceptedTracksMin;//min. number of number of accepted tracks (used for the multiplicity dependence study - pp)
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252 Double_t fNumberOfAcceptedTracksMax;//max. number of number of accepted tracks (used for the multiplicity dependence study - pp)
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253 TH2F *fHistNumberOfAcceptedTracks;//hisot to store the number of accepted tracks
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255 Bool_t fUseOfflineTrigger;//Usage of the offline trigger selection
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257 Double_t fVxMax;//vxmax
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258 Double_t fVyMax;//vymax
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259 Double_t fVzMax;//vzmax
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261 Int_t nAODtrackCutBit;//track cut bit from track selection (only used for AODs)
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263 Double_t fPtMin;//only used for AODs
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264 Double_t fPtMax;//only used for AODs
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265 Double_t fPtMinForCorrections;//only used for AODs
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266 Double_t fPtMaxForCorrections;//only used for AODs
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267 Double_t fPtBinForCorrections; //=================================correction
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268 Double_t fEtaMin;//only used for AODs
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269 Double_t fEtaMax;//only used for AODs
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270 Double_t fEtaMinForCorrections;//only used for AODs
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271 Double_t fEtaMaxForCorrections;//only used for AODs
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272 Double_t fEtaBinForCorrections; //=================================correction
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273 Double_t fPhiMin; //=================================correction
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274 Double_t fPhiMax; //=================================correction
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275 Double_t fPhiMinForCorrections;//only used for AODs
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276 Double_t fPhiMaxForCorrections;//only used for AODs
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277 Double_t fPhiBinForCorrections; //=================================correction
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279 Double_t fDCAxyCut;//only used for AODs
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280 Double_t fDCAzCut;//only used for AODs
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282 Double_t fTPCchi2Cut;//only used for AODs
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283 Int_t fNClustersTPCCut;//only used for AODs
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285 TF1 *fAcceptanceParameterization;//acceptance filter used for MC
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287 TF1 *fDifferentialV2;//pt-differential v2 (from real data)
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288 Bool_t fUseFlowAfterBurner;//Usage of a flow after burner
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290 Bool_t fExcludeResonancesInMC;//flag to exclude the resonances' decay products from the MC analysis
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291 Bool_t fUseMCPdgCode; //Boolean to analyze a set of particles in MC
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292 Int_t fPDGCodeToBeAnalyzed; //Analyze a set of particles in MC
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293 TString fEventClass; //Can be "EventPlane", "Centrality", "Multiplicity"
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296 AliAnalysisTaskBFPsi(const AliAnalysisTaskBFPsi&); // not implemented
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297 AliAnalysisTaskBFPsi& operator=(const AliAnalysisTaskBFPsi&); // not implemented
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299 ClassDef(AliAnalysisTaskBFPsi, 5); // example of analysis
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