AliAnalysisTaskJetCluster *AddTaskJetCluster(char* bRec = "AOD",char* bGen = "",UInt_t filterMask = 16, UInt_t iPhysicsSelectionFlag = AliVEvent::kAny,Char_t *jf = "KT", Float_t radius = 0.4,Int_t nSkip = 0,Int_t kWriteAOD = kFALSE,char* deltaFile = "",Float_t ptTrackCut = 0.15, Float_t etaTrackWindow = 0.9,Float_t vertexWindow = 10.,Int_t nSkipCone = 2,Int_t dice=0,Int_t smear=0,Bool_t useOADB=kFALSE,Double_t changeEfficiencyFraction=0.); AliAnalysisTaskJetCluster *AddTaskJetClusterDelta(UInt_t filterMask = 16,Bool_t kUseAODMC = kFALSE,UInt_t iPhysicsSelectionFlag = AliVEvent::kMB,Char_t *jf = "KT", UInt_t iFlag); Int_t kBackgroundModeCl = 0; Float_t kPtTrackCutCl = 0.15; Float_t kTrackEtaWindowCl = 0.8; Float_t kVertexWindowCl = 10; AliAnalysisTaskJetCluster *AddTaskJetClusterDelta(UInt_t filterMask,Bool_t kUseAODMC,UInt_t iPhysicsSelectionFlag,Char_t *jf, UInt_t iFlag){ AliAnalysisTaskJetCluster *js = 0; if(kUseAODMC&&false){// do not use the MC info yet if(iFlag&(1<<0))js = AddTaskJetCluster("AOD","AODMC",filterMask,iPhysicsSelectionFlag,jf,0.00001); if(iFlag&(1<<1))js = AddTaskJetCluster("AOD","AODMC",filterMask,iPhysicsSelectionFlag,jf,0.1); if(iFlag&(1<<2))js = AddTaskJetCluster("AOD","AODMC",filterMask,iPhysicsSelectionFlag,jf,0.2); if(iFlag&(1<<4))js = AddTaskJetCluster("AOD","AODMC",filterMask,iPhysicsSelectionFlag,jf,0.4); if(iFlag&(1<<6))js = AddTaskJetCluster("AOD","AODMC",filterMask,iPhysicsSelectionFlag,jf,0.6); if(iFlag&(1<<8))js = AddTaskJetCluster("AOD","AODMC",filterMask,iPhysicsSelectionFlag,jf,0.8); if(iFlag&(1<<10))js = AddTaskJetCluster("AOD","AODMC",filterMask,iPhysicsSelectionFlag,jf,1.0); } else{ if(iFlag&(1<<0))js = AddTaskJetCluster("AOD","",filterMask,iPhysicsSelectionFlag,jf,0.00001); if(iFlag&(1<<1))js = AddTaskJetCluster("AOD","",filterMask,iPhysicsSelectionFlag,jf,0.1); if(iFlag&(1<<2))js = AddTaskJetCluster("AOD","",filterMask,iPhysicsSelectionFlag,jf,0.2); if(iFlag&(1<<4))js = AddTaskJetCluster("AOD","",filterMask,iPhysicsSelectionFlag,jf,0.4); if(iFlag&(1<<6))js = AddTaskJetCluster("AOD","",filterMask,iPhysicsSelectionFlag,jf,0.6); if(iFlag&(1<<8))js = AddTaskJetCluster("AOD","",filterMask,iPhysicsSelectionFlag,jf,0.8); if(iFlag&(1<<10))js = AddTaskJetCluster("AOD","",filterMask,iPhysicsSelectionFlag,jf,1.0); } return js; } AliAnalysisTaskJetCluster *AddTaskJetCluster(char* bRec,char* bGen ,UInt_t filterMask,UInt_t iPhysicsSelectionFlag,Char_t *jf,Float_t radius,Int_t nSkip,Int_t kWriteAOD,char *deltaFile,Float_t ptTrackCut,Float_t etaTrackWindow,Float_t vertexWindow,Int_t nSkipCone,Int_t dice,Int_t smear,Bool_t useOADB,Double_t changeEfficiencyFraction) { // Creates a jet fider task, configures it and adds it to the analysis manager. kPtTrackCutCl = ptTrackCut; kTrackEtaWindowCl = etaTrackWindow; kVertexWindowCl = vertexWindow; TString outputFile(deltaFile); // Get the pointer to the existing analysis manager via the static access method. //============================================================================== AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager(); if (!mgr) { ::Error("AddTaskJetCluster", "No analysis manager to connect to."); return NULL; } // Check the analysis type using the event handlers connected to the analysis manager. //============================================================================== if (!mgr->GetInputEventHandler()) { ::Error("AddTaskJetCluster", "This task requires an input event handler"); return NULL; } TString type = mgr->GetInputEventHandler()->GetDataType(); TString typeRec(bRec); TString typeGen(bGen); if(!typeRec.Contains("AODextra") && !typeRec.Contains("AODMCextra")) { typeGen.ToUpper(); typeRec.ToUpper(); } cout << "typeRec: " << typeRec << endl; // Create the task and configure it. //=========================================================================== TString cAdd = ""; cAdd += Form("%02d_",(int)((radius+0.01)*10.)); cAdd += Form("B%d",(int)kBackgroundModeCl); cAdd += Form("_Filter%05d",filterMask); cAdd += Form("_Cut%05d",(int)(1000.*kPtTrackCutCl)); cAdd += Form("_Skip%02d",nSkip); if(dice>0 || smear>0) cAdd += Form("Detector%d%dFr%d",dice,smear,(int)(changeEfficiencyFraction*100.)); Printf("%s %E %d %d",cAdd.Data(),kPtTrackCutCl,dice,smear); AliAnalysisTaskJetCluster* clus = new AliAnalysisTaskJetCluster(Form("JetCluster%s_%s%s",bRec,jf,cAdd.Data())); // or a config file // clus->SetAnalysisType(AliAnalysisTaskJetCluster::kAnaMC); // if(iAODanalysis)clus->SetAODInput(kTRUE); // clus->SetDebugLevel(11); clus->SetFilterMask(filterMask); // clus->SetUseGlobalSelection(kTRUE); clus->SetVtxCuts(kVertexWindowCl,1); if(type == "AOD"){ // Assume all jet are produced already clus->SetAODTrackInput(kTRUE); clus->SetAODMCInput(kTRUE); } if (typeRec.Contains("AODMCHF")){ clus->SetTrackTypeRec(AliAnalysisTaskJetCluster::kTrackAODMCHF); clus->SetTrackPtCut(kPtTrackCutCl); clus->SetTrackEtaWindow(kTrackEtaWindowCl); } else if(typeRec.Contains("AODMC2b")){// work down from the top AODMC2b -> AODMC2 -> AODMC -> AOD clus->SetTrackTypeRec(AliAnalysisTaskJetCluster::kTrackAODMCChargedAcceptance); clus->SetTrackPtCut(kPtTrackCutCl); clus->SetTrackEtaWindow(kTrackEtaWindowCl); } else if (typeRec.Contains("AODMC2")){ clus->SetTrackTypeRec(AliAnalysisTaskJetCluster::kTrackAODMCCharged); clus->SetTrackPtCut(kPtTrackCutCl); clus->SetTrackEtaWindow(5); } else if (typeRec.Contains("AODMCextraonly")) { clus->SetTrackTypeRec(AliAnalysisTaskJetCluster::kTrackAODMCextraonly); clus->SetTrackPtCut(kPtTrackCutCl); clus->SetTrackEtaWindow(kTrackEtaWindowCl); } else if (typeRec.Contains("AODMCextra")) { clus->SetTrackTypeRec(AliAnalysisTaskJetCluster::kTrackAODMCextra); clus->SetTrackPtCut(kPtTrackCutCl); clus->SetTrackEtaWindow(kTrackEtaWindowCl); } else if (typeRec.Contains("AODMC")){ clus->SetTrackTypeRec(AliAnalysisTaskJetCluster::kTrackAODMCAll); clus->SetTrackPtCut(kPtTrackCutCl); clus->SetTrackEtaWindow(5); } else if (typeRec.Contains("AODextraonly")) { clus->SetTrackTypeRec(AliAnalysisTaskJetCluster::kTrackAODextraonly); clus->SetTrackPtCut(kPtTrackCutCl); clus->SetTrackEtaWindow(kTrackEtaWindowCl); } else if (typeRec.Contains("AODextra")) { clus->SetTrackTypeRec(AliAnalysisTaskJetCluster::kTrackAODextra); clus->SetTrackPtCut(kPtTrackCutCl); clus->SetTrackEtaWindow(kTrackEtaWindowCl); } else if (typeRec.Contains("AOD")) { clus->SetTrackTypeRec(AliAnalysisTaskJetCluster::kTrackAOD); clus->SetTrackPtCut(kPtTrackCutCl); clus->SetTrackEtaWindow(kTrackEtaWindowCl); } clus->SetRparam(radius); clus->SetGhostArea(0.005); clus->SetGhostEtamax(kTrackEtaWindowCl); switch (jf) { case "ANTIKT": clus->SetAlgorithm(2); // antikt from fastjet/JetDefinition.hh break; case "CA": clus->SetAlgorithm(1); // CA from fastjet/JetDefinition.hh break; case "KT": clus->SetAlgorithm(0); // kt from fastjet/JetDefinition.hh break; default: ::Error("AddTaskJetCluster", "Wrong jet finder selected\n"); return 0; } if(kWriteAOD){ if(outputFile.Length())clus->SetJetOutputFile(outputFile); clus->SetJetOutputBranch(Form("clusters%s_%s%s",bRec,jf,cAdd.Data())); clus->SetJetOutputMinPt(0); // store only jets / clusters above a certain threshold } clus->SetNSkipLeadingRan(nSkip); clus->SetNSkipLeadingCone(nSkipCone); if(iPhysicsSelectionFlag)clus->SelectCollisionCandidates(iPhysicsSelectionFlag); if(useOADB) { clus->SetUseTrResolutionFromOADB(); clus->SetUseTrEfficiencyFromOADB(); clus->SetChangeEfficiencyFraction(changeEfficiencyFraction); } mgr->AddTask(clus); // Create ONLY the output containers for the data produced by the task. // Get and connect other common input/output containers via the manager as below //============================================================================== AliAnalysisDataContainer *coutput1_clus = mgr->CreateContainer(Form("cluster_%s_%s_%s%s",bRec,bGen,jf,cAdd.Data()), TList::Class(),AliAnalysisManager::kOutputContainer,Form("%s:PWGJE_cluster_%s_%s_%s%s",AliAnalysisManager::GetCommonFileName(),bRec,bGen,jf,cAdd.Data())); mgr->ConnectInput (clus, 0, mgr->GetCommonInputContainer()); mgr->ConnectOutput (clus, 0, mgr->GetCommonOutputContainer()); mgr->ConnectOutput (clus, 1, coutput1_clus ); return clus; }