1 /////////////////////////////////////////////////////////////////////////////////////////////
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3 // AddTask* macro for flow analysis
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4 // Creates a Flow Event task and adds it to the analysis manager.
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5 // Sets the cuts using the correction framework (CORRFW) classes.
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6 // Also creates Flow Analysis tasks and connects them to the output of the flow event task.
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8 /////////////////////////////////////////////////////////////////////////////////////////////
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10 void AddTaskFlowCentralityPIDQC(Int_t centralitysel,
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11 Float_t centrMin=10.,
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12 Float_t centrMax=20.,
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13 TString fileNameBase="output",
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14 Bool_t isPID = kTRUE,
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15 AliPID::EParticleType particleType=AliPID::kPion,
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16 AliFlowTrackCuts::PIDsource sourcePID = AliFlowTrackCuts::kTOFbayesian,
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20 Float_t etamin=-0.8,
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21 Float_t etamax=0.8,
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22 TString uniqueStr="" )
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24 // Define the range for eta subevents (for SP method)
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26 Double_t maxA = -1.5;
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27 Double_t minB = 1.5;
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31 Bool_t useAfterBurner=kFALSE;
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36 Int_t numberOfTrackClones=0; //non-flow
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38 // Define a range of the detector to exclude
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39 Bool_t ExcludeRegion = kFALSE;
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40 Double_t excludeEtaMin = -0.;
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41 Double_t excludeEtaMax = 0.;
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42 Double_t excludePhiMin = 0.;
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43 Double_t excludePhiMax = 0.;
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45 // use physics selection class
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46 Bool_t UsePhysicsSelection = kTRUE;
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49 Bool_t runQAtask=kFALSE;
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50 Bool_t FillQAntuple=kFALSE;
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51 Bool_t DoQAcorrelations=kFALSE;
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54 // Flow analysis method can be:(set to kTRUE or kFALSE)
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55 Bool_t SP = kFALSE; // scalar product method (similar to eventplane method)
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56 Bool_t QC = kTRUE; // cumulants using Q vectors
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58 //these are OBSOLETE, use at own peril
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59 Bool_t GFC = kFALSE; // cumulants based on generating function
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60 Bool_t MCEP = kFALSE; // correlation with Monte Carlo reaction plane
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61 Bool_t FQD = kFALSE; // fit of the distribution of the Q vector (only integrated v)
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62 Bool_t LYZ1SUM = kFALSE; // Lee Yang Zeroes using sum generating function (integrated v)
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63 Bool_t LYZ1PROD = kFALSE; // Lee Yang Zeroes using product generating function (integrated v)
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64 Bool_t LYZ2SUM = kFALSE; // Lee Yang Zeroes using sum generating function (second pass differential v)
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65 Bool_t LYZ2PROD = kFALSE; // Lee Yang Zeroes using product generating function (second pass differential v)
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66 Bool_t LYZEP = kFALSE; // Lee Yang Zeroes Event plane using sum generating function (gives eventplane + weight)
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67 Bool_t MH = kFALSE; // azimuthal correlators in mixed harmonics
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68 Bool_t NL = kFALSE; // nested loops (for instance distribution of phi1-phi2 for all distinct pairs)
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70 Bool_t METHODS[] = {SP,LYZ1SUM,LYZ1PROD,LYZ2SUM,LYZ2PROD,LYZEP,GFC,QC,FQD,MCEP,MH,NL};
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72 // Boolean to use/not use weights for the Q vector
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73 Bool_t WEIGHTS[] = {kFALSE,kFALSE,kFALSE}; //Phi, v'(pt), v'(eta)
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77 //---------Data selection----------
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78 //kMC, kGlobal, kESD_TPConly, kESD_SPDtracklet
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79 AliFlowTrackCuts::trackParameterType rptype = AliFlowTrackCuts::kTPCstandalone;
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80 AliFlowTrackCuts::trackParameterType poitype = AliFlowTrackCuts::kTPCstandalone;
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82 //---------Parameter mixing--------
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83 //kPure - no mixing, kTrackWithMCkine, kTrackWithMCPID, kTrackWithMCpt
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84 AliFlowTrackCuts::trackParameterMix rpmix = AliFlowTrackCuts::kPure;
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85 AliFlowTrackCuts::trackParameterMix poimix = AliFlowTrackCuts::kPure;
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88 const char* rptypestr = AliFlowTrackCuts::GetParamTypeName(rptype);
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89 const char* poitypestr = AliFlowTrackCuts::GetParamTypeName(poitype);
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91 //===========================================================================
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93 AliFlowEventCuts* cutsEvent = new AliFlowEventCuts("event cuts");
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94 cutsEvent->SetCentralityPercentileRange(centrMin,centrMax);
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95 cutsEvent->SetCentralityPercentileMethod(AliFlowEventCuts::kV0);
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96 // cutsEvent->SetRefMultMethod(AliFlowEventCuts::kV0);
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97 //cutsEvent->SetCentralityPercentileMethod(AliFlowEventCuts::kSPD1tracklets);
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98 // cutsEvent->SetNContributorsRange(2);
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99 cutsEvent->SetPrimaryVertexZrange(-10.,10.);
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100 cutsEvent->SetQA(doQA);
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101 cutsEvent->SetCutTPCmultiplicityOutliers();
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104 AliFlowTrackCuts* cutsRP2 = AliFlowTrackCuts::GetStandardVZEROOnlyTrackCuts();
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105 AliFlowTrackCuts* cutsRP = new AliFlowTrackCuts("TPConlyRP");
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106 cutsRP->SetParamType(rptype);
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107 cutsRP->SetParamMix(rpmix);
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108 cutsRP->SetPtRange(0.2,5.);
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109 cutsRP->SetEtaRange(etamin,etamax);
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110 cutsRP->SetMinNClustersTPC(70);
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111 // cutsRP->SetMinChi2PerClusterTPC(0.1);
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112 // cutsRP->SetMaxChi2PerClusterTPC(4.0);
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113 cutsRP->SetMaxDCAToVertexXY(3.0);
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114 cutsRP->SetMaxDCAToVertexZ(3.0);
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115 cutsRP->SetAcceptKinkDaughters(kFALSE);
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116 cutsRP->SetMinimalTPCdedx(10.);
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117 cutsRP->SetAODfilterBit(1);
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118 cutsRP->SetQA(doQA);
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121 AliFlowTrackCuts* cutsPOI = new AliFlowTrackCuts("TPConlyPOI");
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122 cutsPOI->GetBayesianResponse()->ForceOldDedx(); // for 2010 data to use old TPC PID Response instead of the official one
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123 cutsPOI->SetParamType(poitype);
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124 cutsPOI->SetParamMix(poimix);
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125 cutsPOI->SetPtRange(0.0,10.);
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126 cutsPOI->SetEtaRange(etamin,etamax);
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127 //cutsPOI->SetRequireCharge(kTRUE);
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128 //cutsPOI->SetPID(PdgRP);
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129 cutsPOI->SetMinNClustersTPC(70);
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130 // cutsPOI->SetMinChi2PerClusterTPC(0.1);
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131 // cutsPOI->SetMaxChi2PerClusterTPC(4.0);
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132 // cutsPOI->SetRequireITSRefit(kTRUE);
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133 // cutsPOI->SetRequireTPCRefit(kTRUE);
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134 // cutsPOI->SetMinNClustersITS(2);
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135 //cutsPOI->SetMaxChi2PerClusterITS(1.e+09);
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136 cutsPOI->SetMaxDCAToVertexXY(3.0);
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137 cutsPOI->SetMaxDCAToVertexZ(3.0);
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138 //cutsPOI->SetDCAToVertex2D(kTRUE);
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139 //cutsPOI->SetMaxNsigmaToVertex(1.e+10);
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140 //cutsPOI->SetRequireSigmaToVertex(kFALSE);
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141 cutsPOI->SetAcceptKinkDaughters(kFALSE);
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142 if(isPID) cutsPOI->SetPID(particleType, sourcePID);
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143 if (charge!=0) cutsPOI->SetCharge(charge);
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144 //cutsPOI->SetAllowTOFmismatch(kFALSE);
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145 cutsPOI->SetRequireStrictTOFTPCagreement(kTRUE);
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146 //iexample: francesco's tunig TPC Bethe Bloch for data:
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147 //cutsPOI->GetESDpid().GetTPCResponse().SetBetheBlochParameters(4.36414e-02,1.75977e+01,1.14385e-08,2.27907e+00,3.36699e+00);
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148 //cutsPOI->GetESDpid().GetTPCResponse().SetMip(49);
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149 cutsPOI->SetMinimalTPCdedx(10.);
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150 cutsPOI->SetAODfilterBit(1);
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151 cutsPOI->SetQA(doQA);
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152 cutsPOI->SetPriors((centrMin+centrMax)*0.5); // set priors and PID as a function of the centrality
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154 TString outputSlotName("");
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155 outputSlotName+=uniqueStr;
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156 outputSlotName+=Form("QC(%i) ",harmonic);
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157 outputSlotName+=cutsRP->GetName();
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158 outputSlotName+=" ";
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159 outputSlotName+=cutsPOI->GetName();
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160 outputSlotName+=Form(" %.0f-",centrMin);
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161 outputSlotName+=Form("%.0f ",centrMax);
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163 outputSlotName+=AliFlowTrackCuts::PIDsourceName(sourcePID);
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164 outputSlotName+=" ";
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165 outputSlotName+=AliPID::ParticleName(particleType);
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168 outputSlotName+="AllCharged";
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170 if (charge<0) outputSlotName+="-";
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171 if (charge>0) outputSlotName+="+";
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173 TString fileName(fileNameBase);
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174 fileName.Append(".root");
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176 Bool_t useWeights = WEIGHTS[0] || WEIGHTS[1] || WEIGHTS[2];
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177 if (useWeights) cout<<"Weights are used"<<endl;
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178 else cout<<"Weights are not used"<<endl;
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180 // Get the pointer to the existing analysis manager via the static access method.
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181 //==============================================================================
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182 AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager();
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184 Error("AddTaskFlowEvent", "No analysis manager to connect to.");
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188 // Check the analysis type using the event handlers connected to the analysis
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189 // manager. The availability of MC handler can also be checked here.
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190 //==============================================================================
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191 if (!mgr->GetInputEventHandler()) {
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192 ::Error("AddTaskFlowEvent", "This task requires an input event handler");
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196 // Open external input files
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197 //===========================================================================
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199 TFile *weightsFile = NULL;
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200 TList *weightsList = NULL;
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203 //open the file with the weights:
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204 weightsFile = TFile::Open("weights.root","READ");
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206 //access the list which holds the histos with weigths:
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207 weightsList = (TList*)weightsFile->Get("weights");
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210 cout<<" WARNING: the file <weights.root> with weights from the previous run was not available."<<endl;
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216 if (LYZ2SUM || LYZ2PROD) {
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217 //read the outputfile of the first run
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218 TString outputFileName = "AnalysisResults1.root";
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219 TString pwd(gSystem->pwd());
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221 pwd+=outputFileName.Data();
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222 TFile *outputFile = NULL;
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223 if(gSystem->AccessPathName(pwd.Data(),kFileExists)) {
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224 cout<<"WARNING: You do not have an output file:"<<endl;
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225 cout<<" "<<pwd.Data()<<endl;
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227 } else { outputFile = TFile::Open(pwd.Data(),"READ");}
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230 // read the output directory from LYZ1SUM
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231 TString inputFileNameLYZ2SUM = "outputLYZ1SUManalysis" ;
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232 inputFileNameLYZ2SUM += rptypestr;
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233 cout<<"The input directory is "<<inputFileNameLYZ2SUM.Data()<<endl;
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234 TFile* fInputFileLYZ2SUM = (TFile*)outputFile->FindObjectAny(inputFileNameLYZ2SUM.Data());
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235 if(!fInputFileLYZ2SUM || fInputFileLYZ2SUM->IsZombie()) {
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236 cerr << " ERROR: To run LYZ2SUM you need the output file from LYZ1SUM. This file is not there! Please run LYZ1SUM first." << endl ;
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240 TList* fInputListLYZ2SUM = (TList*)fInputFileLYZ2SUM->Get("LYZ1SUM");
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241 if (!fInputListLYZ2SUM) {cout<<"list is NULL pointer!"<<endl;}
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243 cout<<"LYZ2SUM input file/list read..."<<endl;
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247 // read the output directory from LYZ1PROD
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248 TString inputFileNameLYZ2PROD = "outputLYZ1PRODanalysis" ;
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249 inputFileNameLYZ2PROD += rptypestr;
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250 cout<<"The input directory is "<<inputFileNameLYZ2PROD.Data()<<endl;
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251 TFile* fInputFileLYZ2PROD = (TFile*)outputFile->FindObjectAny(inputFileNameLYZ2PROD.Data());
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252 if(!fInputFileLYZ2PROD || fInputFileLYZ2PROD->IsZombie()) {
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253 cerr << " ERROR: To run LYZ2PROD you need the output file from LYZ1PROD. This file is not there! Please run LYZ1PROD first." << endl ;
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257 TList* fInputListLYZ2PROD = (TList*)fInputFileLYZ2PROD->Get("LYZ1PROD");
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258 if (!fInputListLYZ2PROD) {cout<<"list is NULL pointer!"<<endl;}
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260 cout<<"LYZ2PROD input file/list read..."<<endl;
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265 //read the outputfile of the second run
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266 TString outputFileName = "AnalysisResults2.root";
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267 TString pwd(gSystem->pwd());
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269 pwd+=outputFileName.Data();
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270 TFile *outputFile = NULL;
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271 if(gSystem->AccessPathName(pwd.Data(),kFileExists)) {
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272 cout<<"WARNING: You do not have an output file:"<<endl;
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273 cout<<" "<<pwd.Data()<<endl;
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276 outputFile = TFile::Open(pwd.Data(),"READ");
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279 // read the output file from LYZ2SUM
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280 TString inputFileNameLYZEP = "outputLYZ2SUManalysis" ;
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281 inputFileNameLYZEP += rptypestr;
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282 cout<<"The input file is "<<inputFileNameLYZEP.Data()<<endl;
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283 TFile* fInputFileLYZEP = (TFile*)outputFile->FindObjectAny(inputFileNameLYZEP.Data());
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284 if(!fInputFileLYZEP || fInputFileLYZEP->IsZombie()) {
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285 cerr << " ERROR: To run LYZEP you need the output file from LYZ2SUM. This file is not there! Please run LYZ2SUM first." << endl ;
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289 TList* fInputListLYZEP = (TList*)fInputFileLYZEP->Get("LYZ2SUM");
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290 if (!fInputListLYZEP) {cout<<"list is NULL pointer!"<<endl;}
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292 cout<<"LYZEP input file/list read..."<<endl;
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296 // Create the FMD task and add it to the manager
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297 //===========================================================================
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298 if (rptypestr == "FMD") {
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299 AliFMDAnalysisTaskSE *taskfmd = NULL;
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300 if (rptypestr == "FMD") {
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301 taskfmd = new AliFMDAnalysisTaskSE("TaskFMD");
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302 taskfmd->SelectCollisionCandidates(centralitysel);
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303 mgr->AddTask(taskfmd);
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305 AliFMDAnaParameters* pars = AliFMDAnaParameters::Instance();
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307 pars->SetProcessPrimary(kTRUE); //for MC only
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308 pars->SetProcessHits(kFALSE);
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310 //pars->SetRealData(kTRUE); //for real data
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311 //pars->SetProcessPrimary(kFALSE); //for real data
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315 // Create the flow event task, add it to the manager.
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316 //===========================================================================
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317 AliAnalysisTaskFlowEvent *taskFE = NULL;
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321 taskFE = new AliAnalysisTaskFlowEvent(Form("TaskFlowEvent %s",outputSlotName.Data()),"",doQA,1);
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322 taskFE->SetFlow(v1,v2,v3,v4);
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323 taskFE->SetNonFlowNumberOfTrackClones(numberOfTrackClones);
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324 taskFE->SetAfterburnerOn();
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325 taskFE->SelectCollisionCandidates(centralitysel);
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327 else {taskFE = new AliAnalysisTaskFlowEvent(Form("TaskFlowEvent %s",outputSlotName.Data()),"",doQA);
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328 taskFE->SelectCollisionCandidates(centralitysel);}
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329 if (ExcludeRegion) {
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330 taskFE->DefineDeadZone(excludeEtaMin, excludeEtaMax, excludePhiMin, excludePhiMax);
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332 taskFE->SetSubeventEtaRange(minA, maxA, minB, maxB);
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333 if (UsePhysicsSelection) {
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334 taskFE->SelectCollisionCandidates(AliVEvent::kMB);
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335 cout<<"Using Physics Selection"<<endl;
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337 mgr->AddTask(taskFE);
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339 // Pass cuts for RPs and POIs to the task:
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340 taskFE->SetCutsEvent(cutsEvent);
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341 taskFE->SetCutsRP(cutsRP);
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342 taskFE->SetCutsPOI(cutsPOI);
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343 if (cutsRP->GetParamType()==AliFlowTrackCuts::kV0)
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345 //TODO: since this is set in a static object all analyses in an analysis train
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346 //will be affected.
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347 taskFE->SetHistWeightvsPhiMin(0.);
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348 taskFE->SetHistWeightvsPhiMax(200.);
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351 // Create the analysis tasks, add them to the manager.
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352 //===========================================================================
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354 AliAnalysisTaskScalarProduct *taskSP = new AliAnalysisTaskScalarProduct(Form("TaskScalarProduct %s",outputSlotName.Data()),WEIGHTS[0]);
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355 taskSP->SelectCollisionCandidates(centralitysel);
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356 taskSP->SetRelDiffMsub(1.0);
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357 taskSP->SetApplyCorrectionForNUA(kTRUE);
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358 mgr->AddTask(taskSP);
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361 AliAnalysisTaskLeeYangZeros *taskLYZ1SUM = new AliAnalysisTaskLeeYangZeros(Form("TaskLeeYangZerosSUM %s",outputSlotName.Data()),kTRUE);
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362 taskLYZ1SUM->SelectCollisionCandidates(centralitysel);
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363 taskLYZ1SUM->SetFirstRunLYZ(kTRUE);
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364 taskLYZ1SUM->SetUseSumLYZ(kTRUE);
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365 mgr->AddTask(taskLYZ1SUM);
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368 AliAnalysisTaskLeeYangZeros *taskLYZ1PROD = new AliAnalysisTaskLeeYangZeros(Form("TaskLeeYangZerosPROD %s",outputSlotName.Data()),kTRUE);
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369 taskLYZ1PROD->SelectCollisionCandidates(centralitysel);
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370 taskLYZ1PROD->SetFirstRunLYZ(kTRUE);
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371 taskLYZ1PROD->SetUseSumLYZ(kFALSE);
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372 mgr->AddTask(taskLYZ1PROD);
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375 AliAnalysisTaskLeeYangZeros *taskLYZ2SUM = new AliAnalysisTaskLeeYangZeros(Form("TaskLeeYangZerosSUM %s",outputSlotName.Data()),kFALSE);
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376 taskLYZ2SUM->SelectCollisionCandidates(centralitysel);
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377 taskLYZ2SUM->SetFirstRunLYZ(kFALSE);
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378 taskLYZ2SUM->SetUseSumLYZ(kTRUE);
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379 mgr->AddTask(taskLYZ2SUM);
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382 AliAnalysisTaskLeeYangZeros *taskLYZ2PROD = new AliAnalysisTaskLeeYangZeros(Form("TaskLeeYangZerosPROD %s",outputSlotName.Data()),kFALSE);
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383 taskLYZ2PROD->SelectCollisionCandidates(centralitysel);
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384 taskLYZ2PROD->SetFirstRunLYZ(kFALSE);
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385 taskLYZ2PROD->SetUseSumLYZ(kFALSE);
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386 mgr->AddTask(taskLYZ2PROD);
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389 AliAnalysisTaskLYZEventPlane *taskLYZEP = new AliAnalysisTaskLYZEventPlane(Form("TaskLYZEventPlane %s",outputSlotName.Data()));
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390 taskLYZEP->SelectCollisionCandidates(centralitysel);
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391 mgr->AddTask(taskLYZEP);
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394 AliAnalysisTaskCumulants *taskGFC = new AliAnalysisTaskCumulants(Form("TaskCumulants %s",outputSlotName.Data()),useWeights);
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395 taskGFC->SelectCollisionCandidates(centralitysel);
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396 taskGFC->SetUsePhiWeights(WEIGHTS[0]);
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397 taskGFC->SetUsePtWeights(WEIGHTS[1]);
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398 taskGFC->SetUseEtaWeights(WEIGHTS[2]);
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399 mgr->AddTask(taskGFC);
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402 AliAnalysisTaskQCumulants *taskQC = new AliAnalysisTaskQCumulants(Form("TaskQCumulants %s",outputSlotName.Data()),useWeights);
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403 taskQC->SelectCollisionCandidates(centralitysel);
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404 taskQC->SetUsePhiWeights(WEIGHTS[0]);
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405 taskQC->SetUsePtWeights(WEIGHTS[1]);
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406 taskQC->SetUseEtaWeights(WEIGHTS[2]);
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407 taskQC->SetCalculateCumulantsVsM(kFALSE);
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408 taskQC->SetnBinsMult(10000);
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409 taskQC->SetMinMult(0.);
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410 taskQC->SetMaxMult(10000.);
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411 taskQC->SetHarmonic(harmonic);
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412 taskQC->SetApplyCorrectionForNUA(kFALSE);
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413 taskQC->SetFillMultipleControlHistograms(kFALSE);
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414 mgr->AddTask(taskQC);
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417 AliAnalysisTaskFittingQDistribution *taskFQD = new AliAnalysisTaskFittingQDistribution(Form("TaskFittingQDistribution %s",outputSlotName.Data()),kFALSE);
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418 taskFQD->SelectCollisionCandidates(centralitysel);
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419 taskFQD->SetUsePhiWeights(WEIGHTS[0]);
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420 taskFQD->SetqMin(0.);
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421 taskFQD->SetqMax(1000.);
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422 taskFQD->SetqNbins(10000);
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423 mgr->AddTask(taskFQD);
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426 AliAnalysisTaskMCEventPlane *taskMCEP = new AliAnalysisTaskMCEventPlane(Form("TaskMCEventPlane %s",outputSlotName.Data()));
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427 taskMCEP->SelectCollisionCandidates(centralitysel);
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428 mgr->AddTask(taskMCEP);
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431 AliAnalysisTaskMixedHarmonics *taskMH = new AliAnalysisTaskMixedHarmonics(Form("TaskMixedHarmonics %s",outputSlotName.Data()),useWeights);
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432 taskMH->SelectCollisionCandidates(centralitysel);
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433 taskMH->SetHarmonic(1); // n in cos[n(phi1+phi2-2phi3)] and cos[n(psi1+psi2-2phi3)]
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434 taskMH->SetNoOfMultipicityBins(10000);
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435 taskMH->SetMultipicityBinWidth(1.);
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436 taskMH->SetMinMultiplicity(1.);
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437 taskMH->SetCorrectForDetectorEffects(kTRUE);
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438 taskMH->SetEvaluateDifferential3pCorrelator(kFALSE); // evaluate <<cos[n(psi1+psi2-2phi3)]>> (Remark: two nested loops)
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439 taskMH->SetOppositeChargesPOI(kFALSE); // POIs psi1 and psi2 in cos[n(psi1+psi2-2phi3)] will have opposite charges
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440 mgr->AddTask(taskMH);
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443 AliAnalysisTaskNestedLoops *taskNL = new AliAnalysisTaskNestedLoops(Form("TaskNestedLoops %s",outputSlotName.Data()),useWeights);
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444 taskNL->SelectCollisionCandidates(centralitysel);
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445 taskNL->SetHarmonic(1); // n in cos[n(phi1+phi2-2phi3)] and cos[n(psi1+psi2-2phi3)]
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446 taskNL->SetEvaluateNestedLoopsForRAD(kTRUE); // RAD = Relative Angle Distribution
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447 taskNL->SetEvaluateNestedLoopsForMH(kTRUE); // evalaute <<cos[n(phi1+phi2-2phi3)]>> (Remark: three nested loops)
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448 taskNL->SetEvaluateDifferential3pCorrelator(kFALSE); // evaluate <<cos[n(psi1+psi2-2phi3)]>> (Remark: three nested loops)
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449 taskNL->SetOppositeChargesPOI(kFALSE); // POIs psi1 and psi2 in cos[n(psi1+psi2-2phi3)] will have opposite charges
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450 mgr->AddTask(taskNL);
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453 // Create the output container for the data produced by the task
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454 // Connect to the input and output containers
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455 //===========================================================================
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456 AliAnalysisDataContainer *cinput1 = mgr->GetCommonInputContainer();
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458 if (rptypestr == "FMD") {
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459 AliAnalysisDataContainer *coutputFMD =
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460 mgr->CreateContainer(Form("BackgroundCorrected %s",outputSlotName.Data()), TList::Class(), AliAnalysisManager::kExchangeContainer);
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461 //input and output taskFMD
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462 mgr->ConnectInput(taskfmd, 0, cinput1);
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463 mgr->ConnectOutput(taskfmd, 1, coutputFMD);
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464 //input into taskFE
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465 mgr->ConnectInput(taskFE,1,coutputFMD);
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468 AliAnalysisDataContainer *coutputFE =
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469 mgr->CreateContainer(Form("FlowEventSimple %s",outputSlotName.Data()),AliFlowEventSimple::Class(),AliAnalysisManager::kExchangeContainer);
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470 mgr->ConnectInput(taskFE,0,cinput1);
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471 mgr->ConnectOutput(taskFE,1,coutputFE);
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473 if (taskFE->GetQAOn())
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475 TString outputQA = fileName;
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477 AliAnalysisDataContainer* coutputFEQA =
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478 mgr->CreateContainer(Form("QA %s",outputSlotName.Data()), TList::Class(),AliAnalysisManager::kOutputContainer,outputQA);
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479 mgr->ConnectOutput(taskFE,2,coutputFEQA);
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482 // Create the output containers for the data produced by the analysis tasks
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483 // Connect to the input and output containers
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484 //===========================================================================
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486 AliAnalysisDataContainer *cinputWeights = mgr->CreateContainer(Form("Weights %s",outputSlotName.Data()),
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487 TList::Class(),AliAnalysisManager::kInputContainer);
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491 TString outputSP = fileName;
\r
492 outputSP += ":outputSPanalysis";
\r
493 outputSP+= rptypestr;
\r
494 AliAnalysisDataContainer *coutputSP = mgr->CreateContainer(Form("SP %s",outputSlotName.Data()),
\r
495 TList::Class(),AliAnalysisManager::kOutputContainer,outputSP);
\r
496 mgr->ConnectInput(taskSP,0,coutputFE);
\r
497 mgr->ConnectOutput(taskSP,1,coutputSP);
\r
499 mgr->ConnectInput(taskSP,1,cinputWeights);
\r
500 cinputWeights->SetData(weightsList);
\r
504 TString outputLYZ1SUM = fileName;
\r
505 outputLYZ1SUM += ":outputLYZ1SUManalysis";
\r
506 outputLYZ1SUM+= rptypestr;
\r
507 AliAnalysisDataContainer *coutputLYZ1SUM = mgr->CreateContainer(Form("LYZ1SUM %s",outputSlotName.Data()),
\r
508 TList::Class(),AliAnalysisManager::kOutputContainer,outputLYZ1SUM);
\r
509 mgr->ConnectInput(taskLYZ1SUM,0,coutputFE);
\r
510 mgr->ConnectOutput(taskLYZ1SUM,1,coutputLYZ1SUM);
\r
513 TString outputLYZ1PROD = fileName;
\r
514 outputLYZ1PROD += ":outputLYZ1PRODanalysis";
\r
515 outputLYZ1PROD+= rptypestr;
\r
516 AliAnalysisDataContainer *coutputLYZ1PROD = mgr->CreateContainer(Form("LYZ1PROD %s",outputSlotName.Data()),
\r
517 TList::Class(),AliAnalysisManager::kOutputContainer,outputLYZ1PROD);
\r
518 mgr->ConnectInput(taskLYZ1PROD,0,coutputFE);
\r
519 mgr->ConnectOutput(taskLYZ1PROD,1,coutputLYZ1PROD);
\r
522 AliAnalysisDataContainer *cinputLYZ2SUM = mgr->CreateContainer(Form("LYZ2SUMin %s",outputSlotName.Data()),
\r
523 TList::Class(),AliAnalysisManager::kInputContainer);
\r
524 TString outputLYZ2SUM = fileName;
\r
525 outputLYZ2SUM += ":outputLYZ2SUManalysis";
\r
526 outputLYZ2SUM+= rptypestr;
\r
528 AliAnalysisDataContainer *coutputLYZ2SUM = mgr->CreateContainer(Form("LYZ2SUM %s",outputSlotName.Data()),
\r
529 TList::Class(),AliAnalysisManager::kOutputContainer,outputLYZ2SUM);
\r
530 mgr->ConnectInput(taskLYZ2SUM,0,coutputFE);
\r
531 mgr->ConnectInput(taskLYZ2SUM,1,cinputLYZ2SUM);
\r
532 mgr->ConnectOutput(taskLYZ2SUM,1,coutputLYZ2SUM);
\r
533 cinputLYZ2SUM->SetData(fInputListLYZ2SUM);
\r
536 AliAnalysisDataContainer *cinputLYZ2PROD = mgr->CreateContainer(Form("LYZ2PRODin %s",outputSlotName.Data()),
\r
537 TList::Class(),AliAnalysisManager::kInputContainer);
\r
538 TString outputLYZ2PROD = fileName;
\r
539 outputLYZ2PROD += ":outputLYZ2PRODanalysis";
\r
540 outputLYZ2PROD+= rptypestr;
\r
542 AliAnalysisDataContainer *coutputLYZ2PROD = mgr->CreateContainer(Form("LYZ2PROD %s",outputSlotName.Data()),
\r
543 TList::Class(),AliAnalysisManager::kOutputContainer,outputLYZ2PROD);
\r
544 mgr->ConnectInput(taskLYZ2PROD,0,coutputFE);
\r
545 mgr->ConnectInput(taskLYZ2PROD,1,cinputLYZ2PROD);
\r
546 mgr->ConnectOutput(taskLYZ2PROD,1,coutputLYZ2PROD);
\r
547 cinputLYZ2PROD->SetData(fInputListLYZ2PROD);
\r
550 AliAnalysisDataContainer *cinputLYZEP = mgr->CreateContainer(Form("LYZEPin %s",outputSlotName.Data()),
\r
551 TList::Class(),AliAnalysisManager::kInputContainer);
\r
552 TString outputLYZEP = fileName;
\r
553 outputLYZEP += ":outputLYZEPanalysis";
\r
554 outputLYZEP+= rptypestr;
\r
556 AliAnalysisDataContainer *coutputLYZEP = mgr->CreateContainer(Form("LYZEP %s",outputSlotName.Data()),
\r
557 TList::Class(),AliAnalysisManager::kOutputContainer,outputLYZEP);
\r
558 mgr->ConnectInput(taskLYZEP,0,coutputFE);
\r
559 mgr->ConnectInput(taskLYZEP,1,cinputLYZEP);
\r
560 mgr->ConnectOutput(taskLYZEP,1,coutputLYZEP);
\r
561 cinputLYZEP->SetData(fInputListLYZEP);
\r
564 TString outputGFC = fileName;
\r
565 outputGFC += ":outputGFCanalysis";
\r
566 outputGFC+= rptypestr;
\r
568 AliAnalysisDataContainer *coutputGFC = mgr->CreateContainer(Form("GFC %s",outputSlotName.Data()),
\r
569 TList::Class(),AliAnalysisManager::kOutputContainer,outputGFC);
\r
570 mgr->ConnectInput(taskGFC,0,coutputFE);
\r
571 mgr->ConnectOutput(taskGFC,1,coutputGFC);
\r
573 mgr->ConnectInput(taskGFC,1,cinputWeights);
\r
574 cinputWeights->SetData(weightsList);
\r
578 TString outputQC = fileName;
\r
579 outputQC += ":outputQCanalysis";
\r
580 outputQC+= rptypestr;
\r
582 AliAnalysisDataContainer *coutputQC = mgr->CreateContainer(Form("QC %s",outputSlotName.Data()),
\r
583 TList::Class(),AliAnalysisManager::kOutputContainer,outputQC);
\r
584 mgr->ConnectInput(taskQC,0,coutputFE);
\r
585 mgr->ConnectOutput(taskQC,1,coutputQC);
\r
587 mgr->ConnectInput(taskQC,1,cinputWeights);
\r
588 cinputWeights->SetData(weightsList);
\r
592 TString outputFQD = fileName;
\r
593 outputFQD += ":outputFQDanalysis";
\r
594 outputFQD+= rptypestr;
\r
596 AliAnalysisDataContainer *coutputFQD = mgr->CreateContainer(Form("FQD %s",outputSlotName.Data()),
\r
597 TList::Class(),AliAnalysisManager::kOutputContainer,outputFQD);
\r
598 mgr->ConnectInput(taskFQD,0,coutputFE);
\r
599 mgr->ConnectOutput(taskFQD,1,coutputFQD);
\r
601 mgr->ConnectInput(taskFQD,1,cinputWeights);
\r
602 cinputWeights->SetData(weightsList);
\r
606 TString outputMCEP = fileName;
\r
607 outputMCEP += ":outputMCEPanalysis";
\r
608 outputMCEP+= rptypestr;
\r
610 AliAnalysisDataContainer *coutputMCEP = mgr->CreateContainer(Form("MCEP %s",outputSlotName.Data()),
\r
611 TList::Class(),AliAnalysisManager::kOutputContainer,outputMCEP);
\r
612 mgr->ConnectInput(taskMCEP,0,coutputFE);
\r
613 mgr->ConnectOutput(taskMCEP,1,coutputMCEP);
\r
616 TString outputMH = fileName;
\r
617 outputMH += ":outputMHanalysis";
\r
618 outputMH += rptypestr;
\r
620 AliAnalysisDataContainer *coutputMH = mgr->CreateContainer(Form("MH %s",outputSlotName.Data()),
\r
621 TList::Class(),AliAnalysisManager::kOutputContainer,outputMH);
\r
622 mgr->ConnectInput(taskMH,0,coutputFE);
\r
623 mgr->ConnectOutput(taskMH,1,coutputMH);
\r
624 //if (useWeights) {
\r
625 // mgr->ConnectInput(taskMH,1,cinputWeights);
\r
626 // cinputWeights->SetData(weightsList);
\r
630 TString outputNL = fileName;
\r
631 outputNL += ":outputNLanalysis";
\r
632 outputNL += rptypestr;
\r
634 AliAnalysisDataContainer *coutputNL = mgr->CreateContainer(Form("NL %s",outputSlotName.Data()),
\r
635 TList::Class(),AliAnalysisManager::kOutputContainer,outputNL);
\r
636 mgr->ConnectInput(taskNL,0,coutputFE);
\r
637 mgr->ConnectOutput(taskNL,1,coutputNL);
\r
638 //if (useWeights) {
\r
639 // mgr->ConnectInput(taskNL,1,cinputWeights);
\r
640 // cinputWeights->SetData(weightsList);
\r
644 ///////////////////////////////////////////////////////////////////////////////////////////
\r
647 AliAnalysisTaskQAflow* taskQAflow = new AliAnalysisTaskQAflow(Form("TaskQAflow %s",outputSlotName.Data()));
\r
648 taskQAflow->SelectCollisionCandidates(centralitysel);
\r
649 taskQAflow->SetEventCuts(cutsEvent);
\r
650 taskQAflow->SetTrackCuts(cutsRP);
\r
651 taskQAflow->SetFillNTuple(FillQAntuple);
\r
652 taskQAflow->SetDoCorrelations(DoQAcorrelations);
\r
653 mgr->AddTask(taskQAflow);
\r
655 Printf("outputSlotName %s",outputSlotName.Data());
\r
656 TString taskQAoutputFileName(fileNameBase);
\r
657 taskQAoutputFileName.Append("_QA.root");
\r
658 AliAnalysisDataContainer* coutputQAtask = mgr->CreateContainer(Form("flowQA %s",outputSlotName.Data()),
\r
659 TObjArray::Class(),
\r
660 AliAnalysisManager::kOutputContainer,
\r
661 taskQAoutputFileName);
\r
662 AliAnalysisDataContainer* coutputQAtaskTree = mgr->CreateContainer(Form("flowQAntuple %s",outputSlotName.Data()),
\r
664 AliAnalysisManager::kOutputContainer,
\r
665 taskQAoutputFileName);
\r
666 mgr->ConnectInput(taskQAflow,0,mgr->GetCommonInputContainer());
\r
667 mgr->ConnectInput(taskQAflow,1,coutputFE);
\r
668 mgr->ConnectOutput(taskQAflow,1,coutputQAtask);
\r
669 if (FillQAntuple) mgr->ConnectOutput(taskQAflow,2,coutputQAtaskTree);
\r