//DEFINITION OF A FEW CONSTANTS const Double_t ymin = -2.0 ; const Double_t ymax = 2.0 ; const Double_t ptmin = 0.0 ; const Double_t ptmax = 8.0 ; const Double_t phimin = 0 ; const Double_t phimax = 360 ; const Int_t mintrackrefsTPC = 2 ; const Int_t mintrackrefsITS = 3 ; const Int_t PDG = 310; const Int_t minclustersTPC = 10 ; const Int_t chargeV0 = 0 ; //---------------------------------------------------- Bool_t AliCFV0Task( const Bool_t useGrid = 1, const Bool_t readAOD = 0, const char * kTagXMLFile="wn.xml", // XML file containing tags ) { TBenchmark benchmark; benchmark.Start("AliSingleTrackTask"); AliLog::SetGlobalDebugLevel(0); Load(useGrid) ; //load the required libraries AliLog::SetGlobalDebugLevel(0); TChain * analysisChain ; if (useGrid) { //data located on AliEn TGrid::Connect("alien://") ; // Create an AliRunTagCuts and an AliEventTagCuts Object and impose some selection criteria AliRunTagCuts *runCuts = new AliRunTagCuts(); AliEventTagCuts *eventCuts = new AliEventTagCuts(); AliLHCTagCuts *lhcCuts = new AliLHCTagCuts(); AliDetectorTagCuts *detCuts = new AliDetectorTagCuts(); eventCuts->SetMultiplicityRange(0,20000); // Create an AliTagAnalysis Object and chain the tags AliTagAnalysis *tagAna = new AliTagAnalysis(); tagAna->SetType("ESD"); //for aliroot > v4-05 TAlienCollection *coll = TAlienCollection::Open(kTagXMLFile); TGridResult *tagResult = coll->GetGridResult("",0,0); tagResult->Print(); tagAna->ChainGridTags(tagResult); // Create a new esd chain and assign the chain that is returned by querying the tags analysisChain = tagAna->QueryTags(runCuts,lhcCuts,detCuts,eventCuts); } else {// local data //here put your input data path if (readAOD) { analysisChain = new TChain("aodTree"); analysisChain->Add("AliAOD.root"); } else { analysisChain = new TChain("esdTree"); analysisChain->Add("AliESDs.root"); } } Info("AliCFV0Task",Form("CHAIN HAS %d ENTRIES",(Int_t)analysisChain->GetEntries())); //CONTAINER DEFINITION Info("AliCFV0Task","SETUP CONTAINER"); //the sensitive variables, their indices Int_t ipt = 0; Int_t iy = 1; //Setting up the container grid... Int_t nstep = 4 ; //number of selection steps MC const Int_t nvar = 2 ; //number of variables on the grid:pt,y,phi,vtx const Int_t nbin1 = 8 ; //bins in pt const Int_t nbin2 = 8 ; //bins in y //arrays for the number of bins in each dimension const Int_t iBin[nvar] ={nbin1,nbin2}; //arrays for lower bounds : Double_t binLim1[nbin1+1]; Double_t binLim2[nbin2+1]; //values for bin lower bounds for(Int_t i=0; i<=nbin1; i++) binLim1[i]=ptmin + (ptmax-ptmin)/nbin1*(Double_t)i ; for(Int_t i=0; i<=nbin2; i++) binLim2[i]=ymin + (ymax-ymin) /nbin2*(Double_t)i ; //one "container" for MC AliCFContainer* container = new AliCFContainer("container","container for V0s",nstep,nvar,iBin); //setting the bin limits container -> SetBinLimits(ipt,binLim1); container -> SetBinLimits(iy,binLim2); //CREATE THE CUTS ----------------------------------------------- // Gen-Level kinematic cuts AliCFTrackKineCuts *mcKineCuts = new AliCFTrackKineCuts("mcKineCuts","MC-level kinematic cuts"); mcKineCuts->SetPtRange(ptmin,ptmax); mcKineCuts->SetRapidityRange(ymin,ymax); mcKineCuts->SetChargeMC(0); AliCFParticleGenCuts* mcGenCuts = new AliCFParticleGenCuts("mcGenCuts","MC particle generation cuts"); //mcGenCuts->SetRequireIsPrimary(); //problem with some particles... mcGenCuts->SetRequirePdgCode(PDG); //Acceptance Cuts AliCFPairAcceptanceCuts *mcAccCuts = new AliCFPairAcceptanceCuts("mcAccCuts","MC acceptance cuts for V0"); mcAccCuts->GetNegCut()->SetMinNHitITS(mintrackrefsITS); mcAccCuts->GetPosCut()->SetMinNHitITS(mintrackrefsITS); mcAccCuts->GetNegCut()->SetMinNHitTPC(mintrackrefsTPC); mcAccCuts->GetPosCut()->SetMinNHitTPC(mintrackrefsTPC); // Rec-Level kinematic cuts AliCFTrackKineCuts *recKineCuts = new AliCFTrackKineCuts("recKineCuts","V0 rec-level kine cuts"); recKineCuts->SetPtRange(ptmin,ptmax); recKineCuts->SetRapidityRange(ymin,ymax); recKineCuts->SetChargeRec(0); AliCFPairQualityCuts *recQualityCuts = new AliCFPairQualityCuts("recQualityCuts","V0 rec-level quality cuts"); if (!readAOD) { recQualityCuts->GetNegCut()->SetMinNClusterTPC(minclustersTPC); recQualityCuts->GetPosCut()->SetMinNClusterTPC(minclustersTPC); } recQualityCuts->GetNegCut()->SetStatus(AliESDtrack::kTPCrefit & AliESDtrack::kITSrefit); recQualityCuts->GetPosCut()->SetStatus(AliESDtrack::kTPCrefit & AliESDtrack::kITSrefit); AliCFV0TopoCuts *recTopoCuts = new AliCFV0TopoCuts("recTopoCuts","V0 Topological Cuts"); recTopoCuts->SetMaxDcaDaughters(0.1); recTopoCuts->SetMinCosPointAngle(0.995); recTopoCuts->SetMinDcaNeg(0.1); recTopoCuts->SetMinDcaPos(0.1); AliCFPairPidCut* cutPID = new AliCFPairPidCut("cutPID","ESD_PID") ; Double_t prior_pp[AliPID::kSPECIES] = {0.0244519, 0.0143988, 0.805747 , 0.0928785, 0.0625243 }; Double_t prior_pbpb[AliPID::kSPECIES] = {0.0609, 0.1064, 0.7152 , 0.0442, 0.0733 }; cutPID->GetNegCut()->SetPriors(prior_pp); cutPID->GetPosCut()->SetPriors(prior_pp); cutPID->GetNegCut()->SetDetectors("ITS TPC TRD"); cutPID->GetPosCut()->SetDetectors("ITS TPC TRD"); if (readAOD) { cutPID->GetNegCut()->SetAODmode(kTRUE); cutPID->GetPosCut()->SetAODmode(kTRUE); } else { cutPID->GetNegCut()->SetAODmode(kFALSE); cutPID->GetPosCut()->SetAODmode(kFALSE); } cutPID->GetNegCut()->SetProbabilityCut(0); cutPID->GetPosCut()->SetProbabilityCut(0); switch(TMath::Abs(PDG)) { case 310 : cutPID->GetNegCut()->SetParticleType(AliPID::kPion , kTRUE); cutPID->GetPosCut()->SetParticleType(AliPID::kPion , kTRUE); break; case 3122 : cutPID->GetNegCut()->SetParticleType(AliPID::kPion , kTRUE); cutPID->GetPosCut()->SetParticleType(AliPID::kProton, kTRUE); break; case -3122 : cutPID->GetNegCut()->SetParticleType(AliPID::kProton, kTRUE); cutPID->GetPosCut()->SetParticleType(AliPID::kPion , kTRUE); break; default : printf("UNDEFINED PID\n"); break; } Info("AliCFV0Task","CREATE MC KINE CUTS"); TObjArray* mcList = new TObjArray(0) ; mcList->AddLast(mcKineCuts); mcList->AddLast(mcGenCuts); Info("AliCFV0Task","CREATE ACCEPTANCE CUTS"); TObjArray* accList = new TObjArray(0) ; accList->AddLast(mcAccCuts); Info("AliCFV0Task","CREATE RECONSTRUCTION CUTS"); TObjArray* recList = new TObjArray(0) ; recList->AddLast(recKineCuts); recList->AddLast(recQualityCuts); recList->AddLast(recTopoCuts); Info("AliCFV0Task","CREATE PID CUTS"); TObjArray* fPIDCutList = new TObjArray(0) ; fPIDCutList->AddLast(cutPID); //CREATE THE INTERFACE TO CORRECTION FRAMEWORK USED IN THE TASK Info("AliCFV0Task","CREATE INTERFACE AND CUTS"); AliCFManager* man = new AliCFManager() ; man->SetParticleContainer(container); man->SetParticleCutsList (AliCFManager::kPartGenCuts,mcList); man->SetParticleCutsList (AliCFManager::kPartAccCuts,accList); man->SetParticleCutsList (AliCFManager::kPartRecCuts,recList); man->SetParticleCutsList (AliCFManager::kPartSelCuts,fPIDCutList); //CREATE THE TASK Info("AliCFV0Task","CREATE TASK"); // create the task AliCFV0Task *task = new AliCFV0Task("AliCFV0Task"); task->SetCFManager(man); //here is set the CF manager if (!readAOD) task->SetRebuildV0s(kTRUE); task->SetV0PDG(PDG); //SETUP THE ANALYSIS MANAGER TO READ INPUT CHAIN AND WRITE DESIRED OUTPUTS Info("AliCFV0Task","CREATE ANALYSIS MANAGER"); // Make the analysis manager AliAnalysisManager *mgr = new AliAnalysisManager("TestManager"); if (useGrid) mgr->SetAnalysisType(AliAnalysisManager::kGridAnalysis); else mgr->SetAnalysisType(AliAnalysisManager::kLocalAnalysis); AliMCEventHandler* mcHandler = new AliMCEventHandler(); mgr->SetMCtruthEventHandler(mcHandler); AliInputEventHandler* dataHandler ; if (readAOD) dataHandler = new AliAODInputHandler(); else dataHandler = new AliESDInputHandler(); mgr->SetInputEventHandler(dataHandler); // Create and connect containers for input/output //input data AliAnalysisDataContainer *cinput0 = mgr->CreateContainer("cchain0",TChain::Class(),AliAnalysisManager::kInputContainer); //slot 0 : default output tree (by default handled by AliAnalysisTaskSE) AliAnalysisDataContainer *coutput0 = mgr->CreateContainer("ctree0", TTree::Class(),AliAnalysisManager::kOutputContainer,"outputV0.root"); // output histo (number of events processed) AliAnalysisDataContainer *coutput1 = mgr->CreateContainer("chist0", TH1I::Class(),AliAnalysisManager::kOutputContainer,"outputV0.root"); // output Correction Framework Container (for acceptance & efficiency calculations) AliAnalysisDataContainer *coutput2 = mgr->CreateContainer("ccontainer0", AliCFContainer::Class(),AliAnalysisManager::kOutputContainer,"outputV0.root"); cinput0->SetData(analysisChain); mgr->AddTask(task); mgr->ConnectInput (task,0,mgr->GetCommonInputContainer()); mgr->ConnectOutput(task,0,coutput0); mgr->ConnectOutput(task,1,coutput1); mgr->ConnectOutput(task,2,coutput2); Info("AliCFV0Task","READY TO RUN"); //RUN !!! if (mgr->InitAnalysis()) { mgr->PrintStatus(); mgr->StartAnalysis("local",analysisChain); } benchmark.Stop("AliCFV0Task"); benchmark.Show("AliCFV0Task"); return kTRUE ; } void Load(Bool_t useGrid) { //load the required aliroot libraries gSystem->Load("libANALYSIS") ; gSystem->Load("libANALYSISalice") ; gSystem->Load("libCORRFW.so") ; //compile online the task class gSystem->SetIncludePath("-I. -I$ALICE_ROOT/include -I$ROOTSYS/include"); gROOT->LoadMacro("./AliCFV0Task.cxx+"); }