#_______________________________________________________________________________ #Module.Begin ChargedJetsHadronCF_Embedding_Generator #Module.Libs pythia6_4_25 #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskJetEmbeddingFromPYTHIA.C #Module.MacroArgs "tracks_generated_pico", "", "", "", kPYTHIAPath, kNpTHardBins, kPtHardBinsScaling, "aodTree", "tracks", "", "", "", "lhc12a15e", kFALSE, -1, -1, 0, kMinPythiaJetPt, kFALSE, kTRUE #Module.Deps #Module.Owner rhaake #Module.OutputFile AnalysisResults.root #Module.StartConfig __R_ADDTASK__->SelectCollisionCandidates(kComPhysSel); __R_ADDTASK__->SetRandomAccess(kTRUE); __R_ADDTASK__->SetTrackEfficiency(1.0); __R_ADDTASK__->SelectCollisionCandidates(kComPhysSel); __R_ADDTASK__->SetMarkMC(10000); //######################## CONFIGURATION FOR PARTICLE LEVEL PYTHIA jets // PWGJE/EMCALJetTasks/macros/AddTaskJetEmbeddingFromGen.C // // 0, 0., 1000., 2760., "tracks_generated_pico", "JetGeneratorTask", 0.15, 1000, -0.9, 0.9, 0, TMath::Pi() * 2, kFALSE, kTRUE, "PythiaInfo", 0 // // __R_ADDTASK__->SelectCollisionCandidates(kComPhysSel); #Module.EndConfig #_______________________________________________________________________________ #Module.Begin ChargedJetsHadronCF_Embedding_TaskCorrelations_HigherCut #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGCF/Correlations/macros/dphicorrelations/AddTaskPhiCorrelations.C #Module.MacroArgs 0, 0, 0, kTRUE, 0, "histosPhiCorrelations_R030_Embedded_HigherCut", "ChargedJetsHadronCF" #Module.Deps ChargedJetsHadronCF_Embedding_Support #Module.Owner rhaake #Module.OutputFile AnalysisResults.root #Module.StartConfig __R_ADDTASK__->SetEventSelectionBit(kPhysSelRH); __R_ADDTASK__->SetCustomParticlesA("ChargedJetsHadronCF_Particles_Embedded_R030_higherCutVeto20GeV"); __R_ADDTASK__->SetTriggersFromDetector(6); __R_ADDTASK__->SetCustomParticlesB("ChargedJetsHadronCF_TrackParticles_Embedded_R030"); __R_ADDTASK__->SetAssociatedFromDetector(7); __R_ADDTASK__->SetFilterBit(272); // hybrid tracks (same as in the jet task) __R_ADDTASK__->SetCustomBinning(kRHCustomBinning.Data()); __R_ADDTASK__->SetMixingTracks(50000); // Event pool saving if(kRHExportEventPool) { Double_t minCent = 0; Double_t maxCent = 100; Double_t minZvtx = -10; Double_t maxZvtx = 10; Double_t minPt = 4; Double_t maxPt = 20; __R_ADDTASK__->SetMixingTracks(20000); __R_ADDTASK__->SetUsePtBinnedEventPool(kTRUE); __R_ADDTASK__->AddEventPoolsToOutput(minCent, maxCent, minZvtx, maxZvtx, minPt, maxPt); } // Load external pool manager if(kRHImportEventPool) { __R_ADDTASK__->SetMixingTracks(20000); TFile* fileInput = TFile::Open("alien:///alice/cern.ch/user/r/rhaake/ExternalEventPool.root"); AliEventPoolManager* poolMgr = static_cast(fileInput->Get("AliEventPoolManager")); if(!poolMgr) { std::cout << "Pool manager not successfully loaded.\n"; return -1; } __R_ADDTASK__->SetUsePtBinnedEventPool(kTRUE); __R_ADDTASK__->SetExternalEventPoolManager(poolMgr); } #Module.EndConfig #_______________________________________________________________________________ #Module.Begin ChargedJetsHadronCF_Embedding_TaskCorrelations_NormalCut #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGCF/Correlations/macros/dphicorrelations/AddTaskPhiCorrelations.C #Module.MacroArgs 0, 0, 0, kTRUE, 0, "histosPhiCorrelations_R030_Embedded_NormalCut", "ChargedJetsHadronCF" #Module.Deps ChargedJetsHadronCF_Embedding_Support #Module.Owner rhaake #Module.OutputFile AnalysisResults.root #Module.StartConfig __R_ADDTASK__->SetEventSelectionBit(kPhysSelRH); __R_ADDTASK__->SetCustomParticlesA("ChargedJetsHadronCF_Particles_Embedded_R030_normalCutVeto20GeV"); __R_ADDTASK__->SetTriggersFromDetector(6); __R_ADDTASK__->SetCustomParticlesB("ChargedJetsHadronCF_TrackParticles_Embedded_R030"); __R_ADDTASK__->SetAssociatedFromDetector(7); __R_ADDTASK__->SetFilterBit(272); // hybrid tracks (same as in the jet task) __R_ADDTASK__->SetCustomBinning(kRHCustomBinning.Data()); __R_ADDTASK__->SetMixingTracks(50000); // Event pool saving if(kRHExportEventPool) { Double_t minCent = 0; Double_t maxCent = 100; Double_t minZvtx = -10; Double_t maxZvtx = 10; Double_t minPt = 4; Double_t maxPt = 20; __R_ADDTASK__->SetMixingTracks(20000); __R_ADDTASK__->SetUsePtBinnedEventPool(kTRUE); __R_ADDTASK__->AddEventPoolsToOutput(minCent, maxCent, minZvtx, maxZvtx, minPt, maxPt); } // Load external pool manager if(kRHImportEventPool) { __R_ADDTASK__->SetMixingTracks(20000); TFile* fileInput = TFile::Open("alien:///alice/cern.ch/user/r/rhaake/ExternalEventPool.root"); AliEventPoolManager* poolMgr = static_cast(fileInput->Get("AliEventPoolManager")); if(!poolMgr) { std::cout << "Pool manager not successfully loaded.\n"; return -1; } __R_ADDTASK__->SetUsePtBinnedEventPool(kTRUE); __R_ADDTASK__->SetExternalEventPoolManager(poolMgr); } #Module.EndConfig #_______________________________________________________________________________ #Module.Begin ChargedJetsHadronCF_Embedding_TaskCorrelations_LowerCut #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGCF/Correlations/macros/dphicorrelations/AddTaskPhiCorrelations.C #Module.MacroArgs 0, 0, 0, kTRUE, 0, "histosPhiCorrelations_R030_Embedded_LowerCut", "ChargedJetsHadronCF" #Module.Deps ChargedJetsHadronCF_Embedding_Support #Module.Owner rhaake #Module.OutputFile AnalysisResults.root #Module.StartConfig __R_ADDTASK__->SetEventSelectionBit(kPhysSelRH); __R_ADDTASK__->SetCustomParticlesA("ChargedJetsHadronCF_Particles_Embedded_R030_lowerCutVeto20GeV"); __R_ADDTASK__->SetTriggersFromDetector(6); __R_ADDTASK__->SetCustomParticlesB("ChargedJetsHadronCF_TrackParticles_Embedded_R030"); __R_ADDTASK__->SetAssociatedFromDetector(7); __R_ADDTASK__->SetFilterBit(272); // hybrid tracks (same as in the jet task) __R_ADDTASK__->SetCustomBinning(kRHCustomBinning.Data()); __R_ADDTASK__->SetMixingTracks(50000); // Event pool saving if(kRHExportEventPool) { Double_t minCent = 0; Double_t maxCent = 100; Double_t minZvtx = -10; Double_t maxZvtx = 10; Double_t minPt = 4; Double_t maxPt = 20; __R_ADDTASK__->SetMixingTracks(20000); __R_ADDTASK__->SetUsePtBinnedEventPool(kTRUE); __R_ADDTASK__->AddEventPoolsToOutput(minCent, maxCent, minZvtx, maxZvtx, minPt, maxPt); } // Load external pool manager if(kRHImportEventPool) { __R_ADDTASK__->SetMixingTracks(20000); TFile* fileInput = TFile::Open("alien:///alice/cern.ch/user/r/rhaake/ExternalEventPool.root"); AliEventPoolManager* poolMgr = static_cast(fileInput->Get("AliEventPoolManager")); if(!poolMgr) { std::cout << "Pool manager not successfully loaded.\n"; return -1; } __R_ADDTASK__->SetUsePtBinnedEventPool(kTRUE); __R_ADDTASK__->SetExternalEventPoolManager(poolMgr); } #Module.EndConfig #_______________________________________________________________________________ #Module.Begin ChargedJetsHadronCF_Embedding_JetFinderPY #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskEmcalJet.C #Module.MacroArgs "","", 1, 0.3, 1, kRHTrackPtCut, 0.0, kGhostArea, 1, "JetPY", 0., kFALSE, kFALSE #Module.Deps ChargedJetsHadronCF_Embedding_Wrapper #Module.Owner rhaake #Module.OutputFile EventStat_temp.root #Module.StartConfig __R_ADDTASK__->SelectCollisionCandidates(kComPhysSel); AliTrackContainer* trackCont = new AliTrackContainer("tracks_generated_PY"); trackCont->SetFilterHybridTracks(kTRUE); trackCont->SetParticlePtCut(kRHTrackPtCut); __R_ADDTASK__->AdoptParticleContainer(trackCont); #Module.EndConfig #_______________________________________________________________________________ #Module.Begin ChargedJetsHadronCF_Embedding_Rho_JetFinderKT_R020 #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskEmcalJet.C #Module.MacroArgs "","", 0, 0.2, 1, kRHTrackPtCut, 0.0, kGhostArea, 1, "Jet", 0., kFALSE, kFALSE #Module.Deps ChargedJetsHadronCF_Embedding_Embedder #Module.Owner rhaake #Module.OutputFile AnalysisResults.root #Module.StartConfig __R_ADDTASK__->SelectCollisionCandidates(kComPhysSel); AliTrackContainer* trackCont = new AliTrackContainer("tracks_generated_embedded"); trackCont->SetFilterHybridTracks(kTRUE); trackCont->SetParticlePtCut(kRHTrackPtCut); __R_ADDTASK__->AdoptParticleContainer(trackCont); #Module.EndConfig #_______________________________________________________________________________ #Module.Begin ChargedJetsHadronCF_Embedding_JetFinder #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskEmcalJet.C #Module.MacroArgs "","", 1, 0.3, 1, kRHTrackPtCut, 0.0, kGhostArea, 1, "JetEmb", 0., kFALSE, kFALSE #Module.Deps ChargedJetsHadronCF_Embedding_Embedder #Module.Owner rhaake #Module.OutputFile EventStat_temp.root #Module.StartConfig __R_ADDTASK__->SelectCollisionCandidates(kComPhysSel); AliTrackContainer* trackCont = new AliTrackContainer("tracks_generated_embedded"); trackCont->SetFilterHybridTracks(kTRUE); trackCont->SetParticlePtCut(kRHTrackPtCut); __R_ADDTASK__->AdoptParticleContainer(trackCont); #Module.EndConfig #_______________________________________________________________________________ #Module.Begin ChargedJetsHadronCF_Embedding_JetFinderPbPb #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskEmcalJet.C #Module.MacroArgs "","", 1, 0.3, 1, kRHTrackPtCut, 0.0, kGhostArea, 1, "Jet", 0., kFALSE, kFALSE #Module.Deps ChargedJetsHadronCF_Embedding_Embedder #Module.Owner rhaake #Module.OutputFile EventStat_temp.root #Module.StartConfig __R_ADDTASK__->SelectCollisionCandidates(kComPhysSel); AliTrackContainer* trackCont = new AliTrackContainer("tracks"); trackCont->SetFilterHybridTracks(kTRUE); trackCont->SetParticlePtCut(kRHTrackPtCut); __R_ADDTASK__->AdoptParticleContainer(trackCont); #Module.EndConfig #_______________________________________________________________________________ #Module.Begin ChargedJetsHadronCF_Embedding_Embedder #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskParticleRandomizer.C #Module.MacroArgs "tracks", "tracks_generated_embedded", kFALSE, kFALSE, kFALSE #Module.Deps ChargedJetsHadronCF_Embedding_Generator #Module.Owner rhaake #Module.OutputFile AnalysisResults.root #Module.StartConfig __R_ADDTASK__->SelectCollisionCandidates(kComPhysSel); __R_ADDTASK__->SetNeedEmcalGeom(kFALSE); __R_ADDTASK__->ActivateJetEmbedding("tracks_generated_pico"); #Module.EndConfig #_______________________________________________________________________________ #Module.Begin ChargedJetsHadronCF_Embedding_Wrapper #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskParticleRandomizer.C #Module.MacroArgs "", "tracks_generated_PY", kFALSE, kFALSE, kFALSE #Module.Deps ChargedJetsHadronCF_Embedding_Generator #Module.Owner rhaake #Module.OutputFile AnalysisResults.root #Module.StartConfig __R_ADDTASK__->SelectCollisionCandidates(kComPhysSel); __R_ADDTASK__->SetNeedEmcalGeom(kFALSE); __R_ADDTASK__->ActivateJetEmbedding("tracks_generated_pico"); #Module.EndConfig #_______________________________________________________________________________ #Module.Begin ChargedJetsHadronCF_Embedding_TaskCorrelations_PYTHIA #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGCF/Correlations/macros/dphicorrelations/AddTaskPhiCorrelations.C #Module.MacroArgs 0, 0, 0, kTRUE, 0, "histosPhiCorrelations_R030_PY", "ChargedJetsHadronCF" #Module.Deps ChargedJetsHadronCF_Embedding_Support_PYTHIA #Module.Owner rhaake #Module.OutputFile AnalysisResults.root #Module.StartConfig __R_ADDTASK__->SetEventSelectionBit(kPhysSelRH); __R_ADDTASK__->SetCustomParticlesA("ChargedJetsHadronCF_Particles_PY_R030"); __R_ADDTASK__->SetTriggersFromDetector(6); __R_ADDTASK__->SetCustomParticlesB("ChargedJetsHadronCF_TrackParticles_PY_R030"); __R_ADDTASK__->SetAssociatedFromDetector(7); __R_ADDTASK__->SetFilterBit(272); // hybrid tracks (same as in the jet task) __R_ADDTASK__->SetCustomBinning(kRHCustomBinning.Data()); __R_ADDTASK__->SetMixingTracks(50000); // Event pool saving if(kRHExportEventPool) { Double_t minCent = 0; Double_t maxCent = 100; Double_t minZvtx = -10; Double_t maxZvtx = 10; Double_t minPt = 4; Double_t maxPt = 20; __R_ADDTASK__->SetMixingTracks(20000); __R_ADDTASK__->SetUsePtBinnedEventPool(kTRUE); __R_ADDTASK__->AddEventPoolsToOutput(minCent, maxCent, minZvtx, maxZvtx, minPt, maxPt); } // Load external pool manager if(kRHImportEventPool) { __R_ADDTASK__->SetMixingTracks(20000); TFile* fileInput = TFile::Open("alien:///alice/cern.ch/user/r/rhaake/ExternalEventPool.root"); AliEventPoolManager* poolMgr = static_cast(fileInput->Get("AliEventPoolManager")); if(!poolMgr) { std::cout << "Pool manager not successfully loaded.\n"; return -1; } __R_ADDTASK__->SetUsePtBinnedEventPool(kTRUE); __R_ADDTASK__->SetExternalEventPoolManager(poolMgr); } #Module.EndConfig #_______________________________________________________________________________ #Module.Begin ChargedJetsHadronCF_Embedding_Rho #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskRhoNew.C #Module.MacroArgs "tracks_generated_embedded", "", kRHRhoName, 0.2, AliJetContainer::kTPCfid, AliJetContainer::kChargedJet, kTRUE, AliJetContainer::pt_scheme, "Rho_ExLJ" #Module.Deps ChargedJetsHadronCF_Embedding_Rho_JetFinderKT_R020 #Module.Owner rhaake #Module.OutputFile AnalysisResults.root #Module.StartConfig __R_ADDTASK__->SetVzRange(-10,10); __R_ADDTASK__->SelectCollisionCandidates(kComPhysSel); __R_ADDTASK__->SetNeedEmcalGeom(kFALSE); __R_ADDTASK__->SetExcludeLeadJets(2); // default AliJetContainer* cont = __R_ADDTASK__->GetJetContainer(0); cont->SetParticlePtCut(kRHTrackPtCut); cont->SetArrayName(kJetsKTR020RHEmbedded.Data()); #Module.EndConfig #_______________________________________________________________________________ #Module.Begin ChargedJetsHadronCF_Embedding_Support_PYTHIA #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskChargedJetsHadronCF.C #Module.MacroArgs kPhysSelRH, "tracks_generated_PY", kJetsAKTR030RHPYTHIA.Data(), "", 0.3, 0.6, 0.0, 0.15, 0.15, 0.557, "" #Module.Deps ChargedJetsHadronCF_Embedding_JetFinderPY,ChargedJetsHadronCF_Embedding_JetFinder,ChargedJetsHadronCF_Embedding_Rho #Module.Owner rhaake #Module.OutputFile AnalysisResults.root #Module.StartConfig __R_ADDTASK__->SetVzRange(-10,10); __R_ADDTASK__->SelectCollisionCandidates(kPhysSelRH); __R_ADDTASK__->SetJetParticleArrayName("ChargedJetsHadronCF_Particles_PY_R030"); __R_ADDTASK__->SetTrackParticleArrayName("ChargedJetsHadronCF_TrackParticles_PY_R030"); __R_ADDTASK__->GetJetContainer()->SetMaxTrackPt(kRHMaxLeadingHadronPt); __R_ADDTASK__->SetNumberOfCentralityBins(10); #Module.EndConfig #_______________________________________________________________________________ #Module.Begin ChargedJetsHadronCF_Embedding_Support #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskChargedJetsHadronCF.C #Module.MacroArgs kPhysSelRH, "tracks_generated_embedded", kJetsAKTR030RHEmbedded.Data(), kRHRhoName, 0.3, 0.6, 0.0, 0.15, 0.15, 0.557, "" #Module.Deps ChargedJetsHadronCF_Embedding_JetFinderPY,ChargedJetsHadronCF_Embedding_JetFinder,ChargedJetsHadronCF_Embedding_JetFinderPbPb,ChargedJetsHadronCF_Embedding_Rho #Module.Owner rhaake #Module.OutputFile AnalysisResults.root #Module.StartConfig __R_ADDTASK__->SetVzRange(-10,10); __R_ADDTASK__->SelectCollisionCandidates(kPhysSelRH); __R_ADDTASK__->SetJetParticleArrayName("ChargedJetsHadronCF_Particles_Embedded_R030"); __R_ADDTASK__->SetTrackParticleArrayName("ChargedJetsHadronCF_TrackParticles_Embedded_R030"); __R_ADDTASK__->GetJetContainer()->SetMaxTrackPt(kRHMaxLeadingHadronPt); __R_ADDTASK__->SetNumberOfCentralityBins(10); __R_ADDTASK__->ActivateJetEmbedding(kJetsAKTR030RHPYTHIA.Data(), "tracks_generated_PY", 0.3, 2); __R_ADDTASK__->SetJetOutputMode(4); // 4: matching jets, 5: non-matching jets __R_ADDTASK__->SetCreateEmbeddingPtPlotPerCut(kTRUE); __R_ADDTASK__->SetJetVetoArrayName(kJetsAKTR030RHEmbeddedPbPb.Data()); // Cuts for embedding // output stream name, cut name, minPt, maxPt, minCent, maxCent, MC percentage low threshold, 2D cut offset, 2D cut slope /* Int_t jetVetoPt = 15.; __R_ADDTASK__->AddJetEmbeddingCut(Form("lowerCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_lowerCutVeto%02iGeV", jetVetoPt), 0., 999., 0, 10, 0.15, 0.05, 0.03, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("normalCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_normalCutVeto%02iGeV", jetVetoPt), 0., 999., 0, 10, 0.20, 0.05, 0.03, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("higherCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_higherCutVeto%02iGeV", jetVetoPt), 0., 999., 0, 10, 0.25, 0.05, 0.03, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("lowerCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_lowerCutVeto%02iGeV", jetVetoPt), 0., 999., 10, 30, 0.20, 0.02, 0.04, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("normalCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_normalCutVeto%02iGeV", jetVetoPt), 0., 999., 10, 30, 0.25, 0.02, 0.04, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("higherCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_higherCutVeto%02iGeV", jetVetoPt), 0., 999., 10, 30, 0.30, 0.02, 0.04, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("lowerCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_lowerCutVeto%02iGeV", jetVetoPt), 0., 999., 30, 50, 0.20, 0.02, 0.06, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("normalCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_normalCutVeto%02iGeV", jetVetoPt), 0., 999., 30, 50, 0.25, 0.02, 0.06, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("higherCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_higherCutVeto%02iGeV", jetVetoPt), 0., 999., 30, 50, 0.30, 0.02, 0.06, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("lowerCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_lowerCutVeto%02iGeV", jetVetoPt), 0., 999., 50, 90, 0.20, 0.02, 0.06, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("normalCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_normalCutVeto%02iGeV", jetVetoPt), 0., 999., 50, 90, 0.25, 0.02, 0.06, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("higherCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_higherCutVeto%02iGeV", jetVetoPt), 0., 999., 50, 90, 0.30, 0.02, 0.06, jetVetoPt); */ Int_t jetVetoPt = 20.; __R_ADDTASK__->AddJetEmbeddingCut(Form("lowerCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_lowerCutVeto%02iGeV", jetVetoPt), 0., 999., 0, 10, 0.15, 0.05, 0.03, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("normalCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_normalCutVeto%02iGeV", jetVetoPt), 0., 999., 0, 10, 0.20, 0.05, 0.03, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("higherCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_higherCutVeto%02iGeV", jetVetoPt), 0., 999., 0, 10, 0.25, 0.05, 0.03, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("lowerCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_lowerCutVeto%02iGeV", jetVetoPt), 0., 999., 10, 30, 0.20, 0.02, 0.04, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("normalCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_normalCutVeto%02iGeV", jetVetoPt), 0., 999., 10, 30, 0.25, 0.02, 0.04, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("higherCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_higherCutVeto%02iGeV", jetVetoPt), 0., 999., 10, 30, 0.30, 0.02, 0.04, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("lowerCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_lowerCutVeto%02iGeV", jetVetoPt), 0., 999., 30, 50, 0.20, 0.02, 0.06, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("normalCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_normalCutVeto%02iGeV", jetVetoPt), 0., 999., 30, 50, 0.25, 0.02, 0.06, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("higherCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_higherCutVeto%02iGeV", jetVetoPt), 0., 999., 30, 50, 0.30, 0.02, 0.06, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("lowerCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_lowerCutVeto%02iGeV", jetVetoPt), 0., 999., 50, 90, 0.20, 0.02, 0.06, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("normalCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_normalCutVeto%02iGeV", jetVetoPt), 0., 999., 50, 90, 0.25, 0.02, 0.06, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("higherCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_higherCutVeto%02iGeV", jetVetoPt), 0., 999., 50, 90, 0.30, 0.02, 0.06, jetVetoPt); /* Int_t jetVetoPt = 25.; __R_ADDTASK__->AddJetEmbeddingCut(Form("lowerCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_lowerCutVeto%02iGeV", jetVetoPt), 0., 999., 0, 10, 0.15, 0.05, 0.03, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("normalCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_normalCutVeto%02iGeV", jetVetoPt), 0., 999., 0, 10, 0.20, 0.05, 0.03, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("higherCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_higherCutVeto%02iGeV", jetVetoPt), 0., 999., 0, 10, 0.25, 0.05, 0.03, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("lowerCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_lowerCutVeto%02iGeV", jetVetoPt), 0., 999., 10, 30, 0.20, 0.02, 0.04, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("normalCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_normalCutVeto%02iGeV", jetVetoPt), 0., 999., 10, 30, 0.25, 0.02, 0.04, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("higherCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_higherCutVeto%02iGeV", jetVetoPt), 0., 999., 10, 30, 0.30, 0.02, 0.04, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("lowerCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_lowerCutVeto%02iGeV", jetVetoPt), 0., 999., 30, 50, 0.20, 0.02, 0.06, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("normalCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_normalCutVeto%02iGeV", jetVetoPt), 0., 999., 30, 50, 0.25, 0.02, 0.06, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("higherCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_higherCutVeto%02iGeV", jetVetoPt), 0., 999., 30, 50, 0.30, 0.02, 0.06, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("lowerCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_lowerCutVeto%02iGeV", jetVetoPt), 0., 999., 50, 90, 0.20, 0.02, 0.06, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("normalCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_normalCutVeto%02iGeV", jetVetoPt), 0., 999., 50, 90, 0.25, 0.02, 0.06, jetVetoPt); __R_ADDTASK__->AddJetEmbeddingCut(Form("higherCutVeto%02iGeV", jetVetoPt), Form("ChargedJetsHadronCF_Particles_Embedded_R030_higherCutVeto%02iGeV", jetVetoPt), 0., 999., 50, 90, 0.30, 0.02, 0.06, jetVetoPt); */ #Module.EndConfig