// const char* cDataType = "AOD", // set the analysis type, AOD or ESD //################################################## AliAnalysisManager* EmcalJetCDF ( const char* cRunPeriod = "LHC11d", // set the run period const char* cLocalFiles = "data.txt", // set the local list file const Int_t arg_sel_chg = 3145763, // "mykEMC_noGA", // physics selection const Int_t arg_sel_full = 3145763, // "mykEMC_noGA", // physics selection const Int_t mgr_mode = 0, // local = 0, proof = 1, grid = 2, mixing = 3 const Int_t alien_mode = 0, // test = 0, offline = 1, submit = 2, merge = 3, full = 4 const char* cTaskName = "CDFJets", // sets name of task manager unsigned int iNumFiles = 100, // numger of files to process from list file unsigned int iNumEvents = 999999999, // number of events to be analyzed bool bDoChargedJets = true, // enable charge jets bool bDoFullJets = false // enable full jets ) { //Load needed libs TString ListLibs = ""; // string list of loaded libs TString ListLibsExtra = ""; // string list of loaded extra libs LoadLibs( ListLibs, ListLibsExtra ); AnalysisType ManagerMode = static_cast<AnalysisType>(mgr_mode); PluginType PluginMode = static_cast<PluginType>(alien_mode); namespace CDF = PWGJE::EMCALJetTasks::AliAnalysisTaskEmcalJetCDF_NS; // shortcut to task namespace unsigned int kGridFilesPerJob = iNumFiles; // Maximum number of files per job (gives size of AOD) unsigned int kTTL = 64800 ; // Time To Live; 18h = 64800; 12h = 43200 bool bDoBackgroundSubtraction = true; bool bDoEmbedding = false; // Embeded Configuration options // Embedding files list const TString embeddedFilesList = "aodFilesEmbed.txt"; // If true, events that are not selected in the PbPb will not be used for embedding. // This ensures that good embedded events are not wasted on bad PbPb events. const bool internalEventSelection = true; // Do jet matching const bool useJetTagger = true; TString sGridMode ("test"); if ( PluginMode == PluginType::offline ) { sGridMode = "offline"; } if ( PluginMode == PluginType::submit ) { sGridMode = "submit"; } if ( PluginMode == PluginType::merge ) { sGridMode = "merge"; } if ( PluginMode == PluginType::full ) { sGridMode = "full"; } const char* cGridMode = sGridMode.Data(); TString sAnalysisType ("local"); if ( ManagerMode == AnalysisType::proof ) { sAnalysisType = "proof"; } if ( ManagerMode == AnalysisType::grid ) { sAnalysisType = "grid"; } if ( ManagerMode == AnalysisType::mixing ) { sAnalysisType = "mix"; } const char* cAnalysisType = sAnalysisType.Data(); cout << std::endl << ">>>>>>>> ManagerMode : " << ManagerMode << " ; String value : " << cAnalysisType << std::endl << ">>>>>>>> PluginMode : " << PluginMode << " ; String value : " << cGridMode << std::endl << std::endl; //--------------------------------------------------------------------------------------------- TRegexp false_regex ("[f,F][a,A][l,L][s,S][e,E]"); TRegexp true_regex ("[t,T][r,R][u,U][e,E]"); TRegexp enable_regex ("[e,E][n,N][a,A][b,B][l,L][e,E]"); TRegexp disable_regex ("[d,D][i,I][s,S][a,A][b,B][l,L][e,E]"); bool bDoSample = false; TString ENV_doSAMPLE = gSystem->Getenv("CDF_doSAMPLE"); if (!ENV_doSAMPLE.IsNull() && ( ENV_doSAMPLE.EqualTo("0") || ENV_doSAMPLE.Contains(false_regex) ) ) { bDoSample = kFALSE; } if (!ENV_doSAMPLE.IsNull() && ( ENV_doSAMPLE.EqualTo("1") || ENV_doSAMPLE.Contains(true_regex) ) ) { bDoSample = kTRUE; } bool bDoCDF = true; TString ENV_doCDF = gSystem->Getenv("CDF_doCDF"); if (!ENV_doCDF.IsNull() && ( ENV_doCDF.EqualTo("0") || ENV_doCDF.Contains(false_regex) ) ) { bDoCDF = kFALSE; } if (!ENV_doCDF.IsNull() && ( ENV_doCDF.EqualTo("1") || ENV_doCDF.Contains(true_regex) ) ) { bDoCDF = kTRUE; } // ###### DEBUG ###### Int_t debug = 0 ; // kFatal = 0, kError, kWarning, kInfo, kDebug, kMaxType UInt_t mgr_debug = 0 ; // AliAnalysisManager debug level UInt_t kUseSysInfo = 0 ; // activate debugging TString ENV_DEBUG = gSystem->Getenv("CDF_DEBUG"); if (!ENV_DEBUG.IsNull() && ENV_DEBUG.IsDigit() ) { debug = ENV_DEBUG.Atoi(); } TString ENV_DEBUG_MGR = gSystem->Getenv("CDF_DEBUG_MGR"); if (!ENV_DEBUG_MGR.IsNull() && ENV_DEBUG_MGR.IsDigit() ) { mgr_debug = ENV_DEBUG_MGR.Atoi(); } TString ENV_NSYSINFO = gSystem->Getenv("CDF_NSYSINFO"); if (!ENV_NSYSINFO.IsNull() && ENV_NSYSINFO.IsDigit() ) { kUseSysInfo = ENV_NSYSINFO.Atoi(); } if ( debug == 0 ) { AliLog::SetGlobalLogLevel ( AliLog::kFatal ); } if ( debug == 1 ) { AliLog::SetGlobalLogLevel ( AliLog::kError ); } if ( debug == 2 ) { AliLog::SetGlobalLogLevel ( AliLog::kWarning ); } if ( debug == 3 ) { AliLog::SetGlobalLogLevel ( AliLog::kInfo ); } if ( debug >= 4 ) { AliLog::SetGlobalLogLevel ( AliLog::kDebug ); } // Progress bar Bool_t bUseProgBar = kFALSE; // N.B. !! if true will set fDebug to 0 TString ENV_USEPROGBAR = gSystem->Getenv("PROGRESSBAR"); if (!ENV_USEPROGBAR.IsNull() && ( ENV_USEPROGBAR.EqualTo("1") || ENV_USEPROGBAR.Contains(true_regex) ) ) { bUseProgBar = kTRUE; } //################################################## // AliEN plugin variables //################################################## const char* curdir = gSystem->BaseName(gSystem->pwd()); TString kJobTag (curdir); TString execArgs (" -l -b -q -x"); TString exec = // "aliroot"; "root.exe"; TString kPluginExecutableCommand = exec + execArgs; TString kAliPhysicsVersion = "vAN-20190304-1"; // == grid plugin files rules TString kGridExtraFiles = ""; // extra files that will be added to the input list in the JDL TString kGridMergeExclude = "AliAOD.root AliAOD.Jets.root"; // Files that should not be merged TString kGridOutputStorages = "disk=2"; // Make replicas on the storages // FILES USED IN MACRO TString kCommonOutputFileName = "AnalysisResults.root"; //-------------------- // PROOF SETTINGS //-------------------- TString kAAF = ""; Int_t kProofReset = 0; (void)kProofReset; Int_t kWorkers = 20; (void)kWorkers; Int_t kCores = 8 ; (void)kCores; // AliRoot mode among the list supported by the proof cluster. // TString kAlirootMode = "ALIROOT"; // STEERBase,ESD,AOD,ANALYSIS,ANALYSISalice (default aliroot mode) //############################################################ // const AliAnalysisTaskEmcal::EDataType_t kAod = AliAnalysisTaskEmcal::kAOD; // const AliAnalysisTaskEmcal::EDataType_t kEsd = AliAnalysisTaskEmcal::kESD; const AliJetContainer::EJetType_t fulljet = AliJetContainer::kFullJet; const AliJetContainer::EJetType_t chgjet = AliJetContainer::kChargedJet; const AliJetContainer::EJetAlgo_t antikt = AliJetContainer::antikt_algorithm; const AliJetContainer::EJetAlgo_t kt = AliJetContainer::kt_algorithm; const AliJetContainer::ERecoScheme_t recomb = AliJetContainer::pt_scheme; // kTPC, kTPCfid, kEMCAL, kEMCALfid, kDCAL, kDCALfid, kDCALonly, kDCALonlyfid, kPHOS, kPHOSfid, kUser const AliEmcalJet::JetAcceptanceType acc_chgjets = AliEmcalJet::kTPCfid; const AliEmcalJet::JetAcceptanceType acc_fulljets = AliEmcalJet::kEMCALfid; //############################################################ // data source name TString kDataSource (cLocalFiles); // label of dataset from InputData.C TString kGridDataSet (""); if ( ManagerMode == AnalysisType::grid ) { kGridDataSet = kDataSource;} //############################################################ // SETUP OF TRIGGERS const AliEmcalPhysicsSelection::EOfflineEmcalTypes mykEMCAL = AliEmcalPhysicsSelection::kEmcalOk; const AliVEvent::EOfflineTriggerTypes mykEMC = static_cast<AliVEvent::EOfflineTriggerTypes>(AliVEvent::kEMC1 | AliVEvent::kEMC7 | AliVEvent::kEMC8 | AliVEvent::kEMCEJE | AliVEvent::kEMCEGA); const AliVEvent::EOfflineTriggerTypes mykEMC_noGA = static_cast<AliVEvent::EOfflineTriggerTypes>(AliVEvent::kEMC1 | AliVEvent::kEMC7 | AliVEvent::kEMC8 | AliVEvent::kEMCEJE); const AliVEvent::EOfflineTriggerTypes mykMB = AliVEvent::kAnyINT; const AliVEvent::EOfflineTriggerTypes mykMB_central = static_cast<AliVEvent::EOfflineTriggerTypes>(AliVEvent::kAnyINT | AliVEvent::kCentral); const AliVEvent::EOfflineTriggerTypes mykMB_semicentral = static_cast<AliVEvent::EOfflineTriggerTypes>(AliVEvent::kAnyINT | AliVEvent::kSemiCentral); const AliVEvent::EOfflineTriggerTypes mykMB_mostcentral = static_cast<AliVEvent::EOfflineTriggerTypes>(AliVEvent::kAnyINT | AliVEvent::kCentral | AliVEvent::kSemiCentral); AliVEvent::EOfflineTriggerTypes kPhysSel = mykMB; //AliVEvent::kAnyINT; // physics selection // AliVEvent::EOfflineTriggerTypes kSel_tasks = mykMB; AliVEvent::EOfflineTriggerTypes kSel_chg = static_cast<AliVEvent::EOfflineTriggerTypes>(arg_sel_chg); AliVEvent::EOfflineTriggerTypes kSel_full = static_cast<AliVEvent::EOfflineTriggerTypes>(arg_sel_full); //############################################################ // Analysis manager AliAnalysisManager* pMgr = new AliAnalysisManager(cTaskName); pMgr->SetDebugLevel(mgr_debug); if ( kUseSysInfo > 0 ) { pMgr->SetNSysInfo ( kUseSysInfo ); } // actual runName in the form of LHCXXX.... TString sRunName; Bool_t kIsAOD = kTRUE; AliAnalysisTaskEmcal::EDataType_t iDataType = AliAnalysisTaskEmcal::kAOD; // assuming default is to process AOD TString file; AliAnalysisAlien* plugin = NULL; if ( ManagerMode == AnalysisType::grid ) { // start grid analysis // ( const char* gridMode, const char* tag, unsigned int nr_test_files, unsigned int TTL, const char* outdir, const char subworkdir, const char* extradirlvl); plugin = CreateAlienHandler(cGridMode, kJobTag.Data(), kGridFilesPerJob, kTTL); if ( !plugin ) { ::Error ( "runEMCalJetSampleTask.C - StartGridAnalysis", "plugin invalid" ); return NULL; } pMgr->SetGridHandler(plugin); // use this command to run the macro plugin->SetExecutableCommand(kPluginExecutableCommand.Data()); // AliPhysics version. plugin->SetAliPhysicsVersion ( kAliPhysicsVersion.Data() ); // Here you can set the (Ali)PHYSICS version you want to use gROOT->LoadMacro("InputData.C"); InputData(kGridDataSet); sRunName = CDF::GetPeriod( plugin->GetGridDataDir() ); file = CDF::GetFileFromPath(plugin->GetDataPattern()); if (file.Contains("AliESD")) { iDataType = AliAnalysisTaskEmcal::kESD; kIsAOD = kFALSE; } plugin->SetMergeExcludes(kGridMergeExclude.Data()); } if ( ManagerMode == AnalysisType::local ) { // start local analysis if ( kDataSource.IsNull() ) { Printf("You need to provide the list of local files!"); return NULL; } TChain* pChain = CDF::CreateChain(kDataSource.Data(), "auto", "", iNumFiles); if (!pChain) { std::cout << ">>>>>>>>>>>>>> CHAIN NOT CREATED <<<<<<<<<<<<<<" << std::endl; return NULL; } Printf("Setting local analysis for %d files from list %s, max events = %d", iNumFiles, kDataSource.Data(), iNumEvents); // get the path of first file file = pChain->GetFile()->GetEndpointUrl()->GetUrl(); sRunName = CDF::GetPeriod(file.Data()); // get the run name : first token beggining with lhc if ( CDF::GetFileFromPath(file).Contains("AliESD") ) { iDataType = AliAnalysisTaskEmcal::kESD; kIsAOD = kFALSE; } } TString sDataType ("AOD"); if (!kIsAOD) { sDataType = "ESD"; } std::cout << ">>> Analysis data type : " << sDataType.Data() << std::endl; // name of de period (for MC is the name of "achored to" production) TString sRunPeriod (cRunPeriod); sRunPeriod.ToLower(); bool isMC = false; isMC = CDF::PeriodIsMC(sRunName.Data()); // EMCAL corrections task configuration file TString EMCALcfg ("CDF_CorrectionsConf.yaml"); if (isMC) {EMCALcfg = "CDF_MC_CorrectionsConf.yaml";} if ( !kGridExtraFiles.IsNull() ) {kGridExtraFiles += " ";} kGridExtraFiles += EMCALcfg; AliAnalysisTaskEmcal::BeamType iBeamType = AliAnalysisTaskEmcal::kpp; Bool_t bIsRun2 = kFALSE; if (sRunPeriod.Length() == 6 && (sRunPeriod.BeginsWith("lhc15") || sRunPeriod.BeginsWith("lhc16") || sRunPeriod.BeginsWith("lhc17") || sRunPeriod.BeginsWith("lhc18") ) ) { bIsRun2 = kTRUE; } if (sRunPeriod == "lhc10h" || sRunPeriod == "lhc11h" || sRunPeriod == "lhc15o" || sRunPeriod == "lhc17n" ) { iBeamType = AliAnalysisTaskEmcal::kAA; } if (sRunPeriod == "lhc12g" || sRunPeriod == "lhc13b" || sRunPeriod == "lhc13c" || sRunPeriod == "lhc13d" || sRunPeriod == "lhc13e" || sRunPeriod == "lhc13f" || sRunPeriod == "lhc16q" || sRunPeriod == "lhc16r" || sRunPeriod == "lhc16s" || sRunPeriod == "lhc16t" ) { iBeamType = AliAnalysisTaskEmcal::kpA; } Double_t kGhostArea = 0.01; if (iBeamType != AliAnalysisTaskEmcal::kpp) { kGhostArea = 0.005; } AliTrackContainer::SetDefTrackCutsPeriod(sRunPeriod); Printf("Default track cut period set to: %s", AliTrackContainer::GetDefTrackCutsPeriod().Data()); Bool_t bDoEmcalCorrections = kFALSE; if (bDoFullJets) { bDoEmcalCorrections = kTRUE; } // ### Containers and string definitions TString name_tracks = "usedefault"; TString name_clusters = "usedefault"; TString name_cells = "usedefault"; // Set centrality estimator for centrality task TString cent_est_chg = "V0M" ; TString cent_est_full = "V0M" ; TString mc_container (""); if (isMC) { mc_container = "mcparticles"; } /* // General input object names TString tracksName = AliEmcalContainerUtils::DetermineUseDefaultName(AliEmcalContainerUtils::kTrack); TString clustersName = AliEmcalContainerUtils::DetermineUseDefaultName(AliEmcalContainerUtils::kCluster); TString emcalCellsName = AliEmcalContainerUtils::DetermineUseDefaultName(AliEmcalContainerUtils::kCaloCells); // Combined (PbPb + embedded det level) TString emcalCellsCombined = emcalCellsName + "Combined"; TString clustersCombined = clustersName + "Combined"; */ //########################## // TASKS DEFINITIONS ### //########################## AliAODInputHandler* pAODHandler = NULL; AliESDInputHandler* pESDHandler = NULL; if (kIsAOD) { pAODHandler = AliAnalysisTaskEmcal::AddAODHandler(); } else { pESDHandler = AliAnalysisTaskEmcal::AddESDHandler(); } // CDBconnect task AliTaskCDBconnect* taskCDB = AliTaskCDBconnect::AddTaskCDBconnect(); taskCDB->SetFallBackToRaw(kTRUE); // Needed for the moment as not all grid sites do support cvmfs OCDB for the moment if (!taskCDB) { std::cout << "--------->>>> taskCDB :: could not connect!!!! CHECK CVMFS" << std::endl; return NULL;} // Physics selection task AliPhysicsSelectionTask* pPhysSelTask = NULL; if (!kIsAOD) { // signature : (Bool_t mCAnalysisFlag = kFALSE, Bool_t applyPileupCuts = kFALSE, UInt_t deprecatedFlag2 = 0, Bool_t useSpecialOutput=kFALSE) pPhysSelTask = AliPhysicsSelectionTask::AddTaskPhysicsSelection(); } // Centrality task // The Run 2 condition is too restrictive, but until the switch to MultSelection is complete, it is the best we can do AliCentralitySelectionTask* pCentralityTask = NULL; if ( !kIsAOD && (iBeamType != AliAnalysisTaskEmcal::kpp && bIsRun2) ) { //signature : (Bool_t fillHistos=kTRUE, Bool_t aod=kFALSE) pCentralityTask = AliCentralitySelectionTask::AddTaskCentrality(kFALSE, kIsAOD); pCentralityTask->SelectCollisionCandidates(AliVEvent::kAny); } // AliMultSelection AliMultSelectionTask* pMultSelTask = NULL; if (bIsRun2) { // signature : ( Bool_t lCalibration = kFALSE, TString lExtraOptions = "", Int_t lNDebugEstimators = 1, const TString lMasterJobSessionFlag = "") pMultSelTask = AliMultSelectionTask::AddTaskMultSelection(); pMultSelTask->SelectCollisionCandidates(AliVEvent::kAny); } // Embedding task if (bDoEmbedding) { // Debug options //AliLog::SetClassDebugLevel("AliAnalysisTaskEmcalEmbeddingHelper", AliLog::kDebug+0); // Setup embedding task AliAnalysisTaskEmcalEmbeddingHelper * embeddingHelper = AliAnalysisTaskEmcalEmbeddingHelper::AddTaskEmcalEmbeddingHelper(); embeddingHelper->SelectCollisionCandidates(kPhysSel); // The pt hard bin should be set via the filenames in this file // If using a file pattern, it could be configured via embeddingHelper->SetPtHardBin(ptHardBin); embeddingHelper->SetFileListFilename(embeddedFilesList.Data()); // Some example settings for LHC12a15e_fix (anchored to LHC11h) embeddingHelper->SetNPtHardBins(11); embeddingHelper->SetMCRejectOutliers(); // Setup internal event selection and additional configuration options embeddingHelper->SetConfigurationPath("EmbeddingConfigurationExample.yaml"); // Initialize the task to complete the setup. embeddingHelper->Initialize(); } // EMCal corrections AliEmcalCorrectionTask* correctionTask = NULL; if (bDoEmcalCorrections) { // Configuration of the Correction Task is handled via a YAML file, which is setup below // signature : (TString suffix) correctionTask = AliEmcalCorrectionTask::AddTaskEmcalCorrectionTask(); // correctionTask = AliEmcalCorrectionTask::ConfigureEmcalCorrectionTaskOnLEGOTrain(suffix); correctionTask->SelectCollisionCandidates(kPhysSel); correctionTask->SetUseNewCentralityEstimation(bIsRun2); correctionTask->SetForceBeamType(static_cast<AliEmcalCorrectionTask::BeamType>(iBeamType)); // Configure and initialize correctionTask->SetUserConfigurationFilename( EMCALcfg.Data() ); //correctionTask->SetUserConfigurationFilename("alien:///alice/cern.ch/user/m/mfasel/EMCALCorrectionConfig/ConfigDataPWGJEhighClusterThresholds.yaml"); correctionTask->Initialize(true); } // TObjArray correctionTasks; // // // Create the Correction Tasks // // "data" corresponds to the PbPb level // // "embed" corresponds to the embedded detector level // // "combined" corresponds to the hybrid (PbPb + embedded detector) level // correctionTasks.Add(AliEmcalCorrectionTask::AddTaskEmcalCorrectionTask("data")); // correctionTasks.Add(AliEmcalCorrectionTask::AddTaskEmcalCorrectionTask("embed")); // // It is important that combined is last! // correctionTasks.Add(AliEmcalCorrectionTask::AddTaskEmcalCorrectionTask("combined")); // // // Loop over all of the correction tasks to configure them // AliEmcalCorrectionTask * tempCorrectionTask = 0; // TIter next(&correctionTasks); // while (( tempCorrectionTask = static_cast<AliEmcalCorrectionTask *>(next()))) { // tempCorrectionTask->SelectCollisionCandidates(kPhysSel); // // Configure centrality // tempCorrectionTask->SetNCentBins(5); // tempCorrectionTask->SetUseNewCentralityEstimation(bIsRun2); // tempCorrectionTask->SetUserConfigurationFilename("$ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/EMCalCorrectionTaskEmbeddingExample.yaml"); // // tempCorrectionTask->Initialize(true); // } // Background TString sRhoChName; TString sRhoFuName; AliAnalysisTaskRho* pRhoTask = NULL; if ( bDoBackgroundSubtraction && iBeamType != AliAnalysisTaskEmcal::kpp ) { sRhoChName = "Rho"; sRhoFuName = "Rho_Scaled"; AliEmcalJetTask* pKtChJetTask = AliEmcalJetTask::AddTaskEmcalJet(name_tracks.Data(), "", kt, 0.4, chgjet, 0.15, 0, kGhostArea, recomb, "Jet", 0., kFALSE, kFALSE); pKtChJetTask->SelectCollisionCandidates(kPhysSel); //signature : // const char* nTracks = "usedefault", const char* nClusters = "usedefault", const char* nRho = "Rho", Double_t jetradius = 0.2, UInt_t acceptance = AliEmcalJet::kTPCfid, // AliJetContainer::EJetType_t jetType = AliJetContainer::kChargedJet, const Bool_t histo = kFALSE, AliJetContainer::ERecoScheme_t rscheme = AliJetContainer::pt_scheme, const char* suffix = "" pRhoTask = AliAnalysisTaskRho::AddTaskRhoNew(name_tracks.Data(), name_clusters.Data(), sRhoChName, 0.4); pRhoTask->SetExcludeLeadJets(2); pRhoTask->SelectCollisionCandidates(kPhysSel); pRhoTask->SetRecycleUnusedEmbeddedEventsMode(internalEventSelection); if (bDoFullJets) { TString sFuncPath = "alien:///alice/cern.ch/user/s/saiola/LHC11h_ScaleFactorFunctions.root"; TString sFuncName = "LHC11h_HadCorr20_ClustersV2"; pRhoTask->LoadRhoFunction(sFuncPath, sFuncName); } } // Find Charged jets AliEmcalJetTask* pChJet02Task = NULL; AliEmcalJetTask* pChJet04Task = NULL; AliEmcalJetTask* pChJet02Task_MC = NULL; AliEmcalJetTask* pChJet04Task_MC = NULL; if (bDoChargedJets) { pChJet02Task = AliEmcalJetTask::AddTaskEmcalJet(name_tracks.Data(), "", antikt, 0.2, chgjet, 0.15, 0, kGhostArea, recomb, "Jet", 1., kFALSE, kFALSE); pChJet02Task->SelectCollisionCandidates(kSel_chg); pChJet04Task = AliEmcalJetTask::AddTaskEmcalJet(name_tracks.Data(), "", antikt, 0.4, chgjet, 0.15, 0, kGhostArea, recomb, "Jet", 1., kFALSE, kFALSE); pChJet04Task->SelectCollisionCandidates(kSel_chg); if (isMC) { pChJet02Task_MC = AliEmcalJetTask::AddTaskEmcalJet(mc_container.Data(), "", antikt, 0.2, chgjet, 0.15, 0, kGhostArea, recomb, "Jet", 1., kFALSE, kFALSE); pChJet02Task_MC->SelectCollisionCandidates(kSel_chg); if (bDoEmbedding) { pChJet02Task_MC->SetRecycleUnusedEmbeddedEventsMode(internalEventSelection); AliParticleContainer* partLevelTracks02Task_MC = pChJet02Task_MC->GetParticleContainer(0); // Called Embedded, but really just means get from an external event! partLevelTracks02Task_MC->SetIsEmbedding(kTRUE); } pChJet04Task_MC = AliEmcalJetTask::AddTaskEmcalJet(mc_container.Data(), "", antikt, 0.4, chgjet, 0.15, 0, kGhostArea, recomb, "Jet", 1., kFALSE, kFALSE); pChJet04Task_MC->SelectCollisionCandidates(kSel_chg); if (bDoEmbedding) { pChJet04Task_MC->SetRecycleUnusedEmbeddedEventsMode(internalEventSelection); AliParticleContainer* partLevelTracks04Task_MC = pChJet04Task_MC->GetParticleContainer(0); // Called Embedded, but really just means get from an external event! partLevelTracks04Task_MC->SetIsEmbedding(kTRUE); } } // isMC } // bDoChargedJets // Find Full jets AliEmcalJetTask* pFuJet02Task = NULL; AliEmcalJetTask* pFuJet04Task = NULL; AliEmcalJetTask* pFuJet02Task_MC = NULL; AliEmcalJetTask* pFuJet04Task_MC = NULL; if (bDoFullJets) { pFuJet02Task = AliEmcalJetTask::AddTaskEmcalJet(name_tracks.Data(), name_clusters.Data(), antikt, 0.2, fulljet, 0.15, 0.30, kGhostArea, recomb, "Jet", 1., kFALSE, kFALSE); pFuJet02Task->SelectCollisionCandidates(kSel_full); pFuJet02Task->GetClusterContainer(0)->SetDefaultClusterEnergy(AliVCluster::kHadCorr); pFuJet04Task = AliEmcalJetTask::AddTaskEmcalJet(name_tracks.Data(), name_clusters.Data(), antikt, 0.4, fulljet, 0.15, 0.30, kGhostArea, recomb, "Jet", 1., kFALSE, kFALSE); pFuJet04Task->SelectCollisionCandidates(kSel_full); pFuJet04Task->GetClusterContainer(0)->SetDefaultClusterEnergy(AliVCluster::kHadCorr); if (isMC) { pFuJet02Task_MC = AliEmcalJetTask::AddTaskEmcalJet(mc_container.Data(), name_clusters.Data(), antikt, 0.2, fulljet, 0.15, 0, kGhostArea, recomb, "Jet", 1., kFALSE, kFALSE); pFuJet02Task_MC->SelectCollisionCandidates(kSel_chg); if (bDoEmbedding) { pFuJet02Task_MC->SetRecycleUnusedEmbeddedEventsMode(internalEventSelection); AliParticleContainer* partLevelTracks02Task_MC = pFuJet02Task_MC->GetParticleContainer(0); // Called Embedded, but really just means get from an external event! partLevelTracks02Task_MC->SetIsEmbedding(kTRUE); } pFuJet04Task_MC = AliEmcalJetTask::AddTaskEmcalJet(mc_container.Data(), name_clusters.Data(), antikt, 0.4, fulljet, 0.15, 0, kGhostArea, recomb, "Jet", 1., kFALSE, kFALSE); pFuJet04Task_MC->SelectCollisionCandidates(kSel_chg); pFuJet04Task_MC->SetRecycleUnusedEmbeddedEventsMode(internalEventSelection); if (bDoEmbedding) { pFuJet04Task_MC->SetRecycleUnusedEmbeddedEventsMode(internalEventSelection); AliParticleContainer* partLevelTracks04Task_MC = pFuJet04Task_MC->GetParticleContainer(0); // Called Embedded, but really just means get from an external event! partLevelTracks04Task_MC->SetIsEmbedding(kTRUE); } } // isMC } // bDoFullJets //////////////////////// // ANALYSIS TASKS // //////////////////////// // Sample task - charge jets AliAnalysisTaskEmcalJetSample* sampleTaskchg = NULL; if (bDoSample && bDoChargedJets) { sampleTaskchg = AliAnalysisTaskEmcalJetSample::AddTaskEmcalJetSample(name_tracks.Data(), "", "", "SMPCHG"); sampleTaskchg->SetHistoBins(600, 0, 300); sampleTaskchg->SelectCollisionCandidates(kSel_chg); sampleTaskchg->SetDebugLevel(debug); AliParticleContainer* sampleTaskchg_partCont = sampleTaskchg->GetParticleContainer(0); sampleTaskchg_partCont->SetParticlePtCut(0.15); if (bDoEmbedding) { sampleTaskchg_partCont->SetIsEmbedding(kTRUE); } if ( pMultSelTask ) { sampleTaskchg->SetUseNewCentralityEstimation(bIsRun2); sampleTaskchg->SetNCentBins(5); } } // Sample task - full jets AliAnalysisTaskEmcalJetSample* sampleTaskfull = NULL; if (bDoSample && bDoFullJets) { sampleTaskfull = AliAnalysisTaskEmcalJetSample::AddTaskEmcalJetSample(name_tracks.Data(), name_clusters.Data(), name_cells.Data(), "SMPFULL"); sampleTaskfull->SetHistoBins(600, 0, 300); sampleTaskfull->SelectCollisionCandidates(kSel_full); sampleTaskfull->SetDebugLevel(debug); AliParticleContainer* sampleTaskfull_partCont = sampleTaskfull->GetParticleContainer(0); sampleTaskfull_partCont->SetParticlePtCut(0.15); AliClusterContainer* sampleTaskfull_clusCont = sampleTaskfull->GetClusterContainer(0); sampleTaskfull_clusCont->SetClusECut(0.); sampleTaskfull_clusCont->SetClusPtCut(0.); sampleTaskfull_clusCont->SetClusNonLinCorrEnergyCut(0.); sampleTaskfull_clusCont->SetClusHadCorrEnergyCut(0.30); sampleTaskfull_clusCont->SetDefaultClusterEnergy(AliVCluster::kHadCorr); if (bDoEmbedding) { sampleTaskfull_partCont->SetIsEmbedding(kTRUE); sampleTaskfull_clusCont->SetIsEmbedding(kTRUE); } if ( pMultSelTask ) { sampleTaskfull->SetUseNewCentralityEstimation(bIsRun2); sampleTaskfull->SetNCentBins(5); } } //### CDF task - charged jets AliAnalysisTaskEmcalJetCDF* anaTaskCDFchg = NULL; AliAnalysisTaskEmcalJetCDF* anaTaskCDFchg_MC = NULL; if (bDoCDF && bDoChargedJets) { anaTaskCDFchg = CDF::AddTaskEmcalJetCDF ( name_tracks.Data(), "", "", "", "CDFchg" ); anaTaskCDFchg->SetHistoBins(600, 0, 300); anaTaskCDFchg->SelectCollisionCandidates(kSel_chg); anaTaskCDFchg->SetDebugLevel(debug); AliParticleContainer* anaTaskCDFchg_partCont = anaTaskCDFchg->GetParticleContainer(0); anaTaskCDFchg_partCont->SetParticlePtCut(0.15); if (bDoEmbedding) { anaTaskCDFchg_partCont->SetIsEmbedding(kTRUE); } if ( pMultSelTask ) { anaTaskCDFchg->SetUseNewCentralityEstimation(bIsRun2); anaTaskCDFchg->SetNCentBins(5); anaTaskCDFchg->SetCentralityEstimator(cent_est_chg.Data()); } //################################################# if (isMC){ anaTaskCDFchg_MC = CDF::AddTaskEmcalJetCDF ( mc_container.Data(), "", "", "", "CDFchgMC" ); anaTaskCDFchg_MC->SetHistoBins(600, 0, 300); anaTaskCDFchg_MC->SelectCollisionCandidates(kSel_chg); anaTaskCDFchg_MC->SetDebugLevel(debug); AliParticleContainer* anaTaskCDFchg_partCont_MC = anaTaskCDFchg_MC->GetMCParticleContainer(0); anaTaskCDFchg_partCont->SetParticlePtCut(0.15); if (bDoEmbedding) { anaTaskCDFchg_partCont_MC->SetIsEmbedding(kTRUE); } if ( pMultSelTask ) { anaTaskCDFchg_MC->SetUseNewCentralityEstimation(bIsRun2); anaTaskCDFchg_MC->SetNCentBins(5); anaTaskCDFchg_MC->SetCentralityEstimator(cent_est_chg.Data()); } } } //### CDF task - full jets AliAnalysisTaskEmcalJetCDF* anaTaskCDFfull = NULL; if (bDoCDF && bDoFullJets) { anaTaskCDFfull = CDF::AddTaskEmcalJetCDF ( name_tracks.Data(), name_clusters.Data(), name_cells.Data(), mc_container.Data(), "CDFfull" ); anaTaskCDFfull->SetHistoBins(600, 0, 300); anaTaskCDFfull->SelectCollisionCandidates(kSel_full); anaTaskCDFfull->SetDebugLevel(debug); AliParticleContainer* anaTaskCDFfull_partCont = anaTaskCDFfull->GetParticleContainer(0); anaTaskCDFfull_partCont->SetParticlePtCut(0.15); AliClusterContainer* anaTaskCDFfull_clusCont = anaTaskCDFfull->GetClusterContainer(0); anaTaskCDFfull_clusCont->SetClusECut(0.); anaTaskCDFfull_clusCont->SetClusPtCut(0.); anaTaskCDFfull_clusCont->SetClusNonLinCorrEnergyCut(0.); anaTaskCDFfull_clusCont->SetClusHadCorrEnergyCut(0.30); anaTaskCDFfull_clusCont->SetDefaultClusterEnergy(AliVCluster::kHadCorr); if (bDoEmbedding) { anaTaskCDFfull_partCont->SetIsEmbedding(kTRUE); anaTaskCDFfull_clusCont->SetIsEmbedding(kTRUE); } if ( pMultSelTask ) { anaTaskCDFfull->SetUseNewCentralityEstimation(bIsRun2); anaTaskCDFfull->SetNCentBins(5); anaTaskCDFfull->SetCentralityEstimator(cent_est_full.Data()); } } //######################## // ANALYSIS TASKS - CONTAINERS SETUP //######################## // AliEmcalJetTask* pChJet02Task_MC = NULL; // AliEmcalJetTask* pChJet04Task_MC = NULL; // add jet containers to CDF task for charged jets if (bDoChargedJets && bDoCDF) { AliJetContainer* jetcont_chg = NULL; for ( Float_t fi = 0 ; fi<=100 ; fi+=10) { // CHG JETS 0.2 jetcont_chg = anaTaskCDFchg->AddJetContainer(chgjet, antikt, recomb, 0.2, acc_chgjets, "Jet"); CDF::jetContSetParams (jetcont_chg, fi, fi+10, 0, 0); // CHG JETS 0.4 jetcont_chg = anaTaskCDFchg->AddJetContainer(chgjet, antikt, recomb, 0.4, acc_chgjets, "Jet"); CDF::jetContSetParams (jetcont_chg, fi, fi+10, 0, 0); if (isMC) { // CHG JETS MC 0.2 jetcont_chg = AddJetContainerJetTask(dynamic_cast<AliAnalysisTaskEmcalJetCDF*>(anaTaskCDFchg_MC), pChJet02Task_MC, acc_chgjets); CDF::jetContSetParams (jetcont_chg, fi, fi+10, 0, 0); // CHG JETS MC 0.4 jetcont_chg = AddJetContainerJetTask(dynamic_cast<AliAnalysisTaskEmcalJetCDF*>(anaTaskCDFchg_MC), pChJet04Task_MC, acc_chgjets); CDF::jetContSetParams (jetcont_chg, fi, fi+10, 0, 0); } } jetcont_chg = anaTaskCDFchg->AddJetContainer(chgjet, antikt, recomb, 0.2, acc_chgjets, "Jet"); CDF::jetContSetParams (jetcont_chg, 1., 500., 0, 0); jetcont_chg = anaTaskCDFchg->AddJetContainer(chgjet, antikt, recomb, 0.4, acc_chgjets, "Jet"); CDF::jetContSetParams (jetcont_chg, 1., 500., 0, 0); if (isMC) { jetcont_chg = AddJetContainerJetTask(dynamic_cast<AliAnalysisTaskEmcalJetCDF*>(anaTaskCDFchg_MC), pChJet02Task_MC, acc_chgjets); CDF::jetContSetParams (jetcont_chg, 1., 500., 0, 0); jetcont_chg = AddJetContainerJetTask(dynamic_cast<AliAnalysisTaskEmcalJetCDF*>(anaTaskCDFchg_MC), pChJet04Task_MC, acc_chgjets); CDF::jetContSetParams (jetcont_chg, 1., 500., 0, 0); } jetcont_chg = NULL; } // add jet containers to CDF task for full jets if (bDoFullJets && bDoCDF) { AliJetContainer* jetcont_full = NULL; for ( Float_t fi = 0 ; fi<=100 ; fi+=10) { // FULL JETS 0.2 jetcont_full = anaTaskCDFfull->AddJetContainer(fulljet, antikt, recomb, 0.2, acc_fulljets, "Jet"); CDF::jetContSetParams (jetcont_full, fi, fi+10, 0, 2); // FULL JETS 0.4 jetcont_full = anaTaskCDFfull->AddJetContainer(fulljet, antikt, recomb, 0.4, acc_fulljets, "Jet"); CDF::jetContSetParams (jetcont_full, fi, fi+10, 0, 2); if (isMC) { // CHG JETS MC 0.2 jetcont_full = AddJetContainerJetTask(dynamic_cast<AliAnalysisTaskEmcalJetCDF*>(anaTaskCDFfull_MC), pFuJet02Task_MC, acc_fulljets); CDF::jetContSetParams (jetcont_full, fi, fi+10, 0, 0); // CHG JETS MC 0.4 jetcont_full = AddJetContainerJetTask(dynamic_cast<AliAnalysisTaskEmcalJetCDF*>(anaTaskCDFfull_MC), pFuJet04Task_MC, acc_fulljets); CDF::jetContSetParams (jetcont_full, fi, fi+10, 0, 0); } } jetcont_full = anaTaskCDFfull->AddJetContainer(fulljet, antikt, recomb, 0.2, acc_fulljets, "Jet"); CDF::jetContSetParams (jetcont_full, 1., 500., 0, 2); jetcont_full = anaTaskCDFfull->AddJetContainer(fulljet, antikt, recomb, 0.4, acc_fulljets, "Jet"); CDF::jetContSetParams (jetcont_full, 1., 500., 0, 2); if (isMC) { jetcont_full = AddJetContainerJetTask(dynamic_cast<AliAnalysisTaskEmcalJetCDF*>(anaTaskCDFfull_MC), pFuJet02Task_MC, acc_fulljets); CDF::jetContSetParams (jetcont_full, 1., 500., 0, 0); jetcont_full = AddJetContainerJetTask(dynamic_cast<AliAnalysisTaskEmcalJetCDF*>(anaTaskCDFfull_MC), pFuJet04Task_MC, acc_fulljets); CDF::jetContSetParams (jetcont_full, 1., 500., 0, 0); } jetcont_full = NULL; } // add jet containers to sample task for charged jets if (bDoChargedJets && bDoSample) { AliJetContainer* jetCont02chg_sample = sampleTaskchg->AddJetContainer(chgjet, antikt, recomb, 0.2, acc_chgjets, "Jet"); AliJetContainer* jetCont04chg_sample = sampleTaskchg->AddJetContainer(chgjet, antikt, recomb, 0.4, acc_chgjets, "Jet"); if (iBeamType != AliAnalysisTaskEmcal::kpp) { jetCont02chg_sample->SetRhoName(sRhoChName); jetCont02chg_sample->SetPercAreaCut(0.6); jetCont04chg_sample->SetRhoName(sRhoChName); jetCont04chg_sample->SetPercAreaCut(0.6); } } // add jet containers to sample task for full jets if (bDoFullJets && bDoSample) { AliJetContainer* jetCont02full_sample = sampleTaskfull->AddJetContainer(fulljet, antikt, recomb, 0.2, acc_fulljets, "Jet"); AliJetContainer* jetCont04full_sample = sampleTaskfull->AddJetContainer(fulljet, antikt, recomb, 0.4, acc_fulljets, "Jet"); if (iBeamType != AliAnalysisTaskEmcal::kpp) { jetCont02full_sample->SetRhoName(sRhoFuName); jetCont02full_sample->SetPercAreaCut(0.6); jetCont04full_sample->SetRhoName(sRhoFuName); jetCont04full_sample->SetPercAreaCut(0.6); } } TObjArray* tasks_list = pMgr->GetTasks(); TIter task_iter (tasks_list); AliAnalysisTaskSE* task = NULL; while (( task = dynamic_cast<AliAnalysisTaskSE*>(task_iter.Next()) )) { if (task->InheritsFrom("AliAnalysisTaskEmcal")) { Printf("Setting beam type %d for task %s", iBeamType, static_cast<AliAnalysisTaskEmcal*>(task)->GetName()); static_cast<AliAnalysisTaskEmcal*>(task)->SetForceBeamType(iBeamType); } } // Let's start ######################################################################################################### if ( !pMgr->InitAnalysis() ) { std::cout << ">>>>>>>>>>>>>> AliAnalysisManager Initialising FAILED!!! " << std::endl; return NULL; } std::cout << "##-->> Initialising Analysis :: Status :" << std::endl; pMgr->PrintStatus(); pMgr->SetUseProgressBar(bUseProgBar, 100); // task profiling if ( kUseSysInfo > 0 ) { for ( int i = 0; i < pMgr->GetTopTasks()->GetEntries(); i++ ) { pMgr->ProfileTask (i); } } CDF::SaveManager("train.root"); if ( ManagerMode == AnalysisType::local ) { // start local analysis // enable class level debugging for these classes if ( debug > 2 ) { // pMgr->AddClassDebug("AliJetContainer", 100); // pMgr->AddClassDebug("AliEmcalJetTask", 100); if (bDoCDF) { pMgr->AddClassDebug("AliAnalysisTaskEmcalJetCDF", 100); } if (bDoSample) { pMgr->AddClassDebug("AliAnalysisTaskEmcalJetSample", 100); } } TChain* pChain = CDF::CreateChain(kDataSource.Data(), "auto", "", iNumFiles); if (!pChain) { std::cout << ">>>>>>>>>>>>>> CHAIN NOT CREATED <<<<<<<<<<<<<<" << std::endl; return NULL; } // start analysis Printf("Starting LOCAL Analysis..."); pMgr->StartAnalysis( cAnalysisType, pChain, iNumEvents ); } if ( ManagerMode == AnalysisType::grid ) { // start grid analysis // start analysis Printf("Starting GRID Analysis..."); ListLibs += kGridExtraFiles; if ( ListLibs.Length() ) { plugin->SetAdditionalLibs ( ListLibs.Data() ); } if ( ListLibsExtra.Length() ) { plugin->SetAdditionalRootLibs ( ListLibsExtra.Data() ); } if ( PluginMode == PluginType::test ) { plugin->StartAnalysis(iNumEvents); } else { pMgr->SetDebugLevel(0); plugin->StartAnalysis(); } } cout << "END of EmcalJetCDF.C" << std::endl; return pMgr; }
AliAnalysisTaskEmcalDiJetAna* AddTaskEmcalDiJetAna(TString kTracksName = "PicoTracks", TString kClusName = "caloClusterCorr", Double_t R = 0.4, Double_t ptminTrack = 0.15, Double_t etminClus = 0.3, Int_t rhoType = 0, TString trigClass = "", const char *CentEst = "V0A", Int_t pSel = AliVEvent::kINT7, Int_t matchFullCh = AliAnalysisTaskEmcalDiJetBase::kNoMatching, Double_t ptTrackBias = 0., Int_t corrType = AliAnalysisTaskEmcalDiJetBase::kCorrelateTwo, Float_t nefCut = 10., Int_t nCentBins = 5, Double_t scaleFact = 1.28 ) { enum AlgoType {kKT, kANTIKT}; enum JetType {kFULLJETS, kCHARGEDJETS, kNEUTRALJETS}; // #### Define manager and data container names AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager(); if (!mgr) { ::Error("AddTaskEmcalDiJet", "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("AddTaskEmcalDiJet", "This task requires an input event handler"); return NULL; } // #### Add necessary jet finder tasks gROOT->LoadMacro("$ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskEmcalJet.C"); AliEmcalJetTask* jetFinderTaskFull = AddTaskEmcalJet(kTracksName, kClusName, kANTIKT, R, kFULLJETS, ptminTrack, etminClus,0.005,1,"Jet",1.); AliEmcalJetTask* jetFinderTaskCharged = AddTaskEmcalJet(kTracksName, kClusName, kANTIKT, R, kCHARGEDJETS, ptminTrack, etminClus,0.005,1,"Jet",1.); jetFinderTaskFull->SelectCollisionCandidates(AliVEvent::kAny); jetFinderTaskCharged->SelectCollisionCandidates(AliVEvent::kAny); TString strJetsFull = jetFinderTaskFull->GetName(); TString strJetsCh = jetFinderTaskCharged->GetName(); // Add kt jet finder and rho task in case we want background subtraction gROOT->LoadMacro("$ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskRhoSparse.C"); AliEmcalJetTask *jetFinderKt; AliEmcalJetTask *jetFinderAKt; AliAnalysisTaskRhoSparse *rhoTask; if(rhoType==1) { jetFinderKt = AddTaskEmcalJet(kTracksName, kClusName, kKT, R, kCHARGEDJETS, ptminTrack, etminClus,0.005,1,"Jet",0.); jetFinderAKt = AddTaskEmcalJet(kTracksName, kClusName, kANTIKT, R, kCHARGEDJETS, ptminTrack, etminClus,0.005,1,"Jet",1.); jetFinderKt->SelectCollisionCandidates(AliVEvent::kAny); jetFinderAKt->SelectCollisionCandidates(AliVEvent::kAny); TF1 *fScale = new TF1("fScale","[0]",0.,100.); fScale->SetParameter(0,scaleFact); TString rhoSparseName = Form("RhoSparseR%03d",(int)(100*R)); rhoTask = AddTaskRhoSparse(jetFinderKt->GetName(), jetFinderAKt->GetName(), kTracksName.Data(), kClusName.Data(), rhoSparseName.Data(), R, "TPC", 0.01, 0.15, 0, fScale, 0, kTRUE, rhoSparseName.Data(), kTRUE ); rhoTask->SetCentralityEstimator(CentEst); } TString wagonName = Form("DiJet_%s_%s_Rho%dTC%sMatch%dHadTrig%d",strJetsFull.Data(),strJetsCh.Data(),rhoType,trigClass.Data(),matchFullCh,(Int_t)(ptTrackBias)); //Configure DiJet task AliAnalysisTaskEmcalDiJetAna *taskDiJet = NULL; taskDiJet = new AliAnalysisTaskEmcalDiJetAna(wagonName.Data()); taskDiJet->SetUseAliAnaUtils(kTRUE); taskDiJet->SetVzRange(-10.,10.); taskDiJet->SetTriggerClass(trigClass.Data()); if(ptminTrack==0.) { taskDiJet->SetIsPythia(kTRUE); taskDiJet->SetDoFullFull(kTRUE); } taskDiJet->SetJetCorrelationType(corrType); Printf("strJetsFull: %s",strJetsFull.Data()); Printf("strJetsCh: %s",strJetsCh.Data()); taskDiJet->AddParticleContainer(kTracksName.Data()); taskDiJet->AddClusterContainer(kClusName.Data()); taskDiJet->SetContainerFull(0); taskDiJet->SetContainerCharged(1); taskDiJet->AddJetContainer(strJetsFull.Data(),"EMCAL",R); taskDiJet->AddJetContainer(strJetsCh.Data(),"TPC",R); taskDiJet->SetZLeadingCut(0.98,0.98,0); taskDiJet->SetNEFCut(0.,nefCut,0); for(Int_t i=0; i<2; i++) { taskDiJet->SetPercAreaCut(0.6, i); taskDiJet->SetPtBiasJetTrack(ptTrackBias,i); } taskDiJet->SetRhoType(rhoType); if(rhoType==1) { taskDiJet->SetRhoName(rhoTask->GetOutRhoScaledName(),0); taskDiJet->SetRhoName(rhoTask->GetOutRhoName(),1); } taskDiJet->SetCentralityEstimator(CentEst); taskDiJet->SetCentRange(0.,100.); taskDiJet->SetNCentBins(nCentBins); taskDiJet->SelectCollisionCandidates(pSel); taskDiJet->SetFullChargedMatchingType(matchFullCh); taskDiJet->SetDoChargedCharged(kTRUE); taskDiJet->SetDoFullCharged(kTRUE); taskDiJet->SetMatchFullCharged(kFALSE); mgr->AddTask(taskDiJet); //Connnect input mgr->ConnectInput (taskDiJet, 0, mgr->GetCommonInputContainer() ); //Connect output AliAnalysisDataContainer *coutput1 = 0x0; TString contName(wagonName); contName += "_histos"; // TString outputfile = Form("%s:%s",AliAnalysisManager::GetCommonFileName(),wagonName.Data()); TString outputfile = Form("%s",AliAnalysisManager::GetCommonFileName()); coutput1 = mgr->CreateContainer(contName.Data(), TList::Class(),AliAnalysisManager::kOutputContainer,outputfile); mgr->ConnectOutput(taskDiJet,1,coutput1); return taskDiJet; }