Esempio n. 1
0
//___________________________________________________________
void runAlien(TString data, TString mode = "test", Bool_t MC = kFALSE){  
  if(!gSystem->Getenv("ALICE_ROOT")){
    printf("AliRoot has to be initialized\n");  
    return;
  }
  
  // check for valid modes
  const int kModes = 5;
  TString allowed_modes[kModes] = {"proof", "prooftest", "test", "full", "submit"}; 
  Bool_t isValid = kFALSE;
  mode.ToLower();
  for(int imode = 0; imode < kModes; imode++){
    if(!mode.CompareTo(allowed_modes[imode])) isValid = kTRUE;
  }
  if(!isValid){
    printf("invalid analysis mode selected\n");
    return;
  }
  analysis_mode = mode; 
  Bool_t proofmode = mode.Contains("proof");
  // libraries to be loaded
  gSystem->Load("libANALYSIS");
  gSystem->Load("libANALYSISalice");
  gSystem->Load("libCORRFW");
  gSystem->Load("libPWGhfe");
  
  // Create Analysis Manager
  AliAnalysisManager *runAnalysis = new AliAnalysisManager("Heavy Flavour Electron Analysis");
  runAnalysis->SetCommonFileName(output_file.Data());
  runAnalysis->SetInputEventHandler(new AliESDInputHandler); 
  if(MC) runAnalysis->SetMCtruthEventHandler(new AliMCEventHandler);
  AliAnalysisAlien *alienhandler = CreateAlienHandler(proofmode);
  printf("alienhandler %p\n", alienhandler);
  runAnalysis->SetGridHandler(alienhandler);
  //return;
  
  // Specify input (runs or dataset)
  if(!proofmode){
    // Query sample ID and runs
    TString sample;
    TArrayI listofruns;
    DecodeDataString(data, sample, listofruns);
    AddInput(alienhandler, sample, listofruns, MC);
  } else {
    alienhandler->SetProofDataSet(data);
  }

  // Add Tasks
  gROOT->LoadMacro(Form("%s/OADB/macros/AddTaskPhysicsSelection.C", gSystem->Getenv("ALICE_ROOT")));
  gROOT->LoadMacro(Form("%s/PWG3/hfe/macros/AddTaskHFE.C", gSystem->Getenv("ALICE_ROOT")));
  AddTaskPhysicsSelection(MC);
  AddTaskHFE();     // @TODO: MC and PbPb flag to be fixed

  // Run Analysis
  TString anamode = proofmode ? "proof" : "grid";
  if(runAnalysis->InitAnalysis()){
    runAnalysis->PrintStatus();
    runAnalysis->StartAnalysis(anamode);
  }
}
Esempio n. 2
0
void rundStarTask(const char* mode = "test", bool isMC=true){
  // Include AliPhysics and AliRoot libraries
  gSystem->AddIncludePath("-I$ALICE_ROOT/include -I$ALICE_PHYSICS/include");
  //Check the run mode
  if(std::strcmp(mode,"local")!=0 && std::strcmp(mode,"grid")!=0 && std::strcmp(mode,"test")!=0){
    Printf("\n\tIncorrect run option, check first argument of run macro");
    Printf("\tmode = local, test or grid\n");
    return;
  }
  Printf("%s analysis chosen",mode);
  //Define the plugin
  AliAnalysisGrid *plugin = 0x0;
  TChain *chain = 0x0;
  if(std::strcmp(mode,"local")!=0) {
    plugin = CreateAlienHandler(mode,isMC);
    if(!plugin) return;
  }
  else {
    gROOT->LoadMacro("$ALICE_PHYSICS/PWG/EMCAL/macros/CreateAODChain.C");
    chain = CreateAODChain("localdata.txt");
  }
  // Create the analysis manager
  AliAnalysisManager *mgr = new AliAnalysisManager(kTaskName);
  if(plugin) mgr->SetGridHandler(plugin);
  // Define input handlers
  if(isMC){
    AliMCEventHandler*  mcHandler = new AliMCEventHandler();
    if (plugin) mgr->SetMCtruthEventHandler(mcHandler);
  }
  AliAODInputHandler *aodH = new AliAODInputHandler();
  mgr->SetInputEventHandler(aodH);
  // Compile the class
  gROOT->LoadMacro("AliAnalysisTaskdStar.cxx++g");
  // PID response
  gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPIDResponse.C");
  AliAnalysisTaskPIDResponse *pidTask = AddTaskPIDResponse(isMC); // useMC
  // dStar task
  gROOT->LoadMacro("AddTaskdStar.C");
  AliAnalysisTaskdStar *task = AddTaskdStar(isMC);
  // Disbale debug printouts
  mgr->SetDebugLevel(3);
  AliLog::SetGlobalLogLevel(AliLog::kFatal);
  AliLog::SetGlobalDebugLevel(0);
  if (!mgr->InitAnalysis()) return;
  mgr->PrintStatus();
  // Start analysis in grid.
  if (std::strcmp(mode,"local")==0)
    mgr->StartAnalysis(mode,chain);
  else
    mgr->StartAnalysis("grid");
}
void AddAnalysisManagerMixRsn(TString analysisSource = "proof", TString analysisMode = "test", TString opts = "")
{

   Bool_t useMC = kFALSE;
   TString format = "esd";

   // ALICE stuff
   AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager();
   if (!mgr) mgr = new AliAnalysisManager("Martin Vala's AM");

   gROOT->LoadMacro("SetupAnalysisPlugin.C");
   AliAnalysisGrid *analysisPlugin = SetupAnalysisPlugin(analysisMode.Data());
   if (!analysisPlugin) return;

   gSystem->Load("libXMLParser.so");
   gSystem->Load("libANALYSIS.so");
   gSystem->Load("libANALYSISalice.so");
   gSystem->Load("libCORRFW.so");
   gSystem->Load("libEventMixing.so");
   gSystem->Load("libPWG2resonances.so");

   analysisPlugin->SetAliRootMode("ALIROOT"); // Loads AF libs by default
   // sets additional settings to plubin
   analysisPlugin->SetAdditionalLibs("libXMLParser.so libCORRFW.so libEventMixing.so  libPWG2resonances.so");
//     analysisPlugin->SetAdditionalLibs("libXMLParser.so libCORRFW.so libEventMixing.so  PWG2resonances.par RESONANCESMV.par");
//     analysisPlugin->SetAdditionalLibs("libXMLParser.so libCORRFW.so libEventMixing.so libPWG2resonances.so");

   // sets plugin to manager
   mgr->SetGridHandler(analysisPlugin);

   Info("AddAnalysisManagerMixRsn.C", "Creating AliMultiInputEventHandler ...");
   AliMultiInputEventHandler *mainInputHandler = new AliMultiInputEventHandler();
   Info("AddAnalysisManagerMixRsn.C", "Creating esdInputHandler ...");
   AliESDInputHandler *esdInputHandler = new AliESDInputHandler();
   mainInputHandler->AddInputEventHandler(esdInputHandler);

   if (useMC) {
      Info("AddAnalysisManagerMixRsn.C", "Creating mcInputHandler ...");
      AliMCEventHandler* mcInputHandler = new AliMCEventHandler();
      mainInputHandler->AddInputEventHandler(mcInputHandler);
   }
   // add main input handler (with mixing handler)
   mgr->SetInputEventHandler(mainInputHandler);

   // add mixing handler (uncomment to turn on Mixnig)
   gROOT->LoadMacro("MixingSetting.C");
   mainInputHandler->AddInputEventHandler(MixingSetting());
   // adds all tasks
   gROOT->LoadMacro("AddAnalysisTaskAllRsn.C");
   AddAnalysisTaskAllRsn(format, useMC, opts);
}
Esempio n. 4
0
void runGridpPb(const char *config = "config.txt"){
        //
        // run analysis 
        //

        TGrid::Connect("alien://");

        // Create Lookup with sample information
        TMap sampleinfos;
        Generate_Sample_Lookup(sampleinfos);

        ConfigParser(config);

        // Configure alien plugin
        AliAnalysisAlien *plugin = CreateGridHandler();
        if(!CreateTrainDir(plugin, sampleinfos)){
                printf("Cannot setup output directory\n");
                return;
        }
        if(!MakeSample(plugin, sampleinfos)){
                printf("Cannot create data sample\n");
                return;
        }
        if(!g_plugin_mode.CompareTo("full")){
                // full mode, creating config files for the merging stage
                GenerateMergeConfigs();
        }

        AliAnalysisManager *mgr = new AliAnalysisManager("tpctofanalysis");
        mgr->SetGridHandler(plugin);
        
        SetupTrain(sampleinfos);

        // Run train
        if (!mgr->InitAnalysis()) return;
        mgr->PrintStatus();
        // Start analysis in grid.
        mgr->StartAnalysis("grid");
} 
Esempio n. 5
0
//______________________________________________________________________________
void AODmerge()
{
// Merging method. No staging and no terminate phase.
  TStopwatch timer;
  timer.Start();
  TString outputDir = "wn.xml";
  TString outputFiles = "EventStat_temp.root,AODQA.root,AliAOD.root,AliAOD.VertexingHF.root,AliAODGammaConversion.root,FilterEvents_Trees.root,AliAOD.Muons.root";
  TString mergeExcludes = "";
  TObjArray *list = outputFiles.Tokenize(",");
  TIter *iter = new TIter(list);
  TObjString *str;
  TString outputFile;
  Bool_t merged = kTRUE;
  while((str=(TObjString*)iter->Next())) {
    outputFile = str->GetString();
    // Skip already merged outputs
    if (!gSystem->AccessPathName(outputFile)) {
       printf("Output file <%s> found. Not merging again.",outputFile.Data());
       continue;
    }
    if (mergeExcludes.Contains(outputFile.Data())) continue;
    merged = AliAnalysisAlien::MergeOutput(outputFile, outputDir, 10, 0);
    if (!merged) {
       printf("ERROR: Cannot merge %s\n", outputFile.Data());
       continue;
    }
  }
  // all outputs merged, validate
  AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager();
  mgr->InitAnalysis();
  mgr->SetGridHandler(new AliAnalysisAlien);
  mgr->StartAnalysis("gridterminate",0);
  ofstream out;
  out.open("outputs_valid", ios::out);
  out.close();
  timer.Print();
}
Esempio n. 6
0
//______________________________________________________________________________
void RunGrid(
         const char* runtype = "grid", // local, proof or grid
         const char *gridmode = "test", // Set the run mode (can be "full", "test", "offline", "submit" or "terminate"). Full & Test work for proof
         const Long64_t nentries = 400, // for local and proof mode, ignored in grid mode. Set to 1234567890 for all events.
         const Long64_t firstentry = 0, // for local and proof mode, ignored in grid mode
         const char *proofdataset = "/alice/data/LHC10c_000120821_p1", // path to dataset on proof cluster, for proof analysis
         const char *proofcluster = "alice-caf.cern.ch", // which proof cluster to use in proof mode
         const char *taskname = "Deuterons2011ESD"
         )
{
  // check run type
  if(runtype != "local" && runtype != "proof" && runtype != "grid"){
    Printf("\n\tIncorrect run option, check first argument of run macro");
    Printf("\tint runtype = local, proof or grid\n");
    return;
  }
  Printf("%s analysis chosen",runtype);
  
  gROOT->ProcessLine(".include $ALICE_ROOT/include");
  
  gSystem->AddIncludePath("-I$ALICE_ROOT/include");
  gSystem->AddIncludePath("-I$ALICE_ROOT/PWGHF/vertexingHF");
  // Load analysis specific libraries
  //=====================================================================
  
  gSystem->SetIncludePath("-I. -I$ROOTSYS/include -I$ALICE_ROOT -I$ALICE_ROOT/include -I$ALICE_ROOT/ITS -I$ALICE_ROOT/TPC -I$ALICE_ROOT/CONTAINERS -I$ALICE_ROOT/STEER/STEER -I$ALICE_ROOT/STEER/STEERBase -I$ALICE_ROOT/STEER/ESD -I$ALICE_ROOT/STEER/AOD -I$ALICE_ROOT/TRD -I$ALICE_ROOT/macros -I$ALICE_ROOT/ANALYSIS  -I$ALICE_ROOT/OADB -I$ALICE_ROOT/PWGHF -I$ALICE_ROOT/PWGHF/base -I$ALICE_ROOT/PWGHF/vertexingHF -I$ALICE_ROOT/PWG/FLOW/Base -I$ALICE_ROOT/PWG/FLOW/Tasks -g");
  
  gSystem->Load("libTree.so");
  gSystem->Load("libGeom.so");
  gSystem->Load("libPhysics.so");
  gSystem->Load("libVMC.so");
  gSystem->Load("libMinuit.so");
  gSystem->Load("libSTEERBase.so");
  gSystem->Load("libESD.so");
  gSystem->Load("libAOD.so");
  gSystem->Load("libANALYSIS.so");
  gSystem->Load("libOADB.so");
  gSystem->Load("libANALYSISalice.so");
  gSystem->Load("libCORRFW.so");
  gSystem->Load("libPWGHFbase.so");
  gSystem->Load("libPWGflowBase.so");
  gSystem->Load("libPWGflowTasks.so");
  gSystem->Load("libPWGHFvertexingHF.so");
  
  // Load analysis specific libraries
  //=====================================================================
  //------ Create AlienPlugin ---------------------
  AliAnalysisGrid *plugin = 0x0;
  TChain *chain = 0x0;
  if (runtype != "local") {
    plugin = CreateAlienHandler(taskname, gridmode, proofcluster, proofdataset);
    if(!plugin) return;
  } else {
    gROOT->LoadMacro("$ALICE_ROOT/PWGCF/Correlations/macros/dphicorrelations/CreateESDChain.C");
    chain = CreateESDChain("ESDs.txt");
  }
  
  //---- Create the analysis manager
  AliAnalysisManager* mgr = new AliAnalysisManager(taskname);
  if(plugin) mgr->SetGridHandler(plugin);
  
  //  Input
  
  AliESDInputHandler* iH = new AliESDInputHandler("handler","handler for my analisys");
  mgr->SetInputEventHandler(iH);
  
  //--------------------------------------------------------------
  // Other tasks

  // Physics selection
  gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPhysicsSelection.C");
  AliPhysicsSelectionTask *physSel = AddTaskPhysicsSelection(kFALSE); // useMC
  // Centrality selection
  gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskCentrality.C");
  AliCentralitySelectionTask *taskCentr = AddTaskCentrality();
  // PID response
  gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPIDResponse.C");
  AliAnalysisTaskPIDResponse *pidTask = AddTaskPIDResponse(kFALSE); // useMC
  // PID QA
  gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPIDqa.C");
  AliAnalysisTaskPIDqa *pidQATask = AddTaskPIDqa();
  
  gROOT->LoadMacro("./AliAnalysisTaskFlowd.cxx+g");//$ALICE_ROOT/PWGLF/STRANGENESS/Cascades/AliAnalysisTaskCheckCascadePbPb.cxx++g");
  gROOT->LoadMacro("./AddTaskFlowd.C");//$ALICE_ROOT/PWGLF/STRANGENESS/Cascades/macros/AddTaskCheckCascadePbPb.C");
  AliAnalysisTaskFlowd *task = AddTaskFlowd(kTRUE);
  

  
  //__________________________________________________________________________
  // Disable debug printouts
  mgr->SetDebugLevel(3);
  AliLog::SetGlobalLogLevel(AliLog::kFatal);
  AliLog::SetGlobalDebugLevel(0);
  
  //__________________________________________________________________________
  if (!mgr->InitAnalysis()) return;
  mgr->PrintStatus();
  // Start analysis in grid.
  if (runtype == "local")
    mgr->StartAnalysis(runtype,chain,nentries,firstentry);
  else
    mgr->StartAnalysis(runtype,nentries,firstentry);
}
Esempio n. 7
0
void runGridDeuteronTree(TString mode="terminate", TString fname="DeuteronTreeTest")
{

  AliLog::SetGlobalDebugLevel(5);

  //__________________________________________________________________________
  // Use AliRoot includes to compile our task
  gROOT->ProcessLine(".include $ALICE_ROOT/include");
  gROOT->ProcessLine(".include $ALICE_PHYSICS/include");
  gSystem->Load("libPWGTools.so");
  gSystem->Load("libPWGLFnuclex.so");

  // Create and configure the alien handler plugin
  AliAnalysisGrid *alienHandler = CreateAlienHandler(mode,fname);
  if (!alienHandler) return;
  // Create the analysis manager
  AliAnalysisManager *mgr = new AliAnalysisManager("testAnalysis");
  // Connect plug-in to the analysis manager
  mgr->SetGridHandler(alienHandler);
  AliESDInputHandler* esdH = new AliESDInputHandler();
  mgr->SetInputEventHandler(esdH);

  Bool_t mc = kFALSE;
  //if(sub == 2)
  //mc = kTRUE;
  
  // Add PIDResponse task
  gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPIDResponse.C");
  AliAnalysisTaskPIDResponse *taskPID=AddTaskPIDResponse(mc,kTRUE,kTRUE);

  // Add Physics Selec
  gROOT->LoadMacro("$ALICE_PHYSICS/OADB/macros/AddTaskPhysicsSelection.C");
  AliPhysicsSelectionTask* physSelTask = AddTaskPhysicsSelection();
    
  // Add centrality
  gROOT->LoadMacro("$ALICE_PHYSICS/OADB/macros/AddTaskCentrality.C");
  AliCentralitySelectionTask *taskCentrality = AddTaskCentrality();
  //taskCentrality->SetPass(2); // Change if changing pass


  // Add AliPPVsMultUtils task
  // AliAnalysisUtils* utils = new AliAnalysisUtils();

  // add DPhiCorrelations task from $ALICE_PHYSICS/../src/PWGCF/Correlations/DPhi/AliAnalysisTaskPhiCorrelations[.cxx .h]
  //gROOT->LoadMacro("AliAnalysisTaskPhiCorrelations.cxx+g");
  gROOT->LoadMacro("$ALICE_PHYSICS/../src/PWGLF/NUCLEX/Nuclei/DeuteronpA/macros/AddTaskDeuteronTree.C");

  AliAnalysisDeuteronTree *taskDeuteronTree = AddTaskDeuteronTree("DeuteronTreeTest");

  taskDeuteronTree->SelectCollisionCandidates(AliVEvent::kINT7);

    //mgr->SetDebugLevel(5);

  if (!mgr->InitAnalysis())
    return;
  mgr->PrintStatus();
  // Start analysis in grid.
  mgr->StartAnalysis("grid",100);

  // local analysis
  //TChain *chain = new TChain("aodTree");
  //chain->AddFile("./traintest/__alice__data__2010__LHC10d__000126158__ESDs__pass2__AOD147_root_archive_AliAOD_2/0002/root_archive/AliAOD.root");
  //mgr->StartAnalysis("local",chain);

}
Esempio n. 8
0
//______________________________________________________________________________
void AODtrainsim(Int_t merge=0)
{
  // Main analysis train macro.
  // merge = 0: production
  // merge = 1: intermediate merging
  // merge = 2: final merging + terminate
  // merge = 3: terminate only

  if (merge) {
    TGrid::Connect("alien://");
    if (!gGrid || !gGrid->IsConnected()) {
      ::Error("AODtrainsim.C", "No grid connection");
      return;
    }
  }
  // Set temporary merging directory to current one
  gSystem->Setenv("TMPDIR", gSystem->pwd());
  // Set temporary compilation directory to current one
  gSystem->SetBuildDir(gSystem->pwd(), kTRUE);
  printf("==================================================================\n");
  printf("===========    RUNNING FILTERING TRAIN   ==========\n");
  printf("==================================================================\n");
  printf("=  Configuring analysis train for:                               =\n");
  if (usePhysicsSelection)   printf("=  Physics selection                                                =\n");
  if (iESDfilter)   printf("=  ESD filter                                                    =\n");
  if (iMUONcopyAOD) printf("=  MUON copy AOD                                                 =\n");

  // Load common libraries and set include path
  gSystem->AddIncludePath("-I$ALICE_ROOT/include -I$ALICE_PHYSICS/include");

  // Make the analysis manager and connect event handlers
  AliAnalysisManager *mgr  = new AliAnalysisManager("Analysis Train", "Production train");
  if (useSysInfo) mgr->SetNSysInfo(100);

  // Load ParFiles
  if (!LoadAnalysisLibraries()) {
    ::Error("AODtrainsim.C", "Could not load analysis libraries");
    return;
  }
  
  // Create input handler (input container created automatically)
  // ESD input handler
  AliESDInputHandler *esdHandler = new AliESDInputHandler();
  mgr->SetInputEventHandler(esdHandler);
  // Monte Carlo handler
  if (useMC) {
    AliMCEventHandler* mcHandler = new AliMCEventHandler();
    mgr->SetMCtruthEventHandler(mcHandler);
    mcHandler->SetReadTR(useTR);
  }
  // AOD output container, created automatically when setting an AOD handler
  if (iAODhandler) {
    // AOD output handler
    AliAODHandler* aodHandler   = new AliAODHandler();
    aodHandler->SetOutputFileName("AliAOD.root");
    mgr->SetOutputEventHandler(aodHandler);
  }
  // Debugging if needed
  if (useDBG) mgr->SetDebugLevel(3);

  AddAnalysisTasks(merge);
  if (merge) {
    if (merge < 3) AODmerge();
    if (merge > 1) {
      mgr->InitAnalysis();
      mgr->SetGridHandler(new AliAnalysisAlien());
      mgr->StartAnalysis("grid terminate",0);
    }
    return;
  }
  // Run the analysis
  //
  TChain *chain = CreateChain();
  if (!chain) return;

  TStopwatch timer;
  timer.Start();
  mgr->SetSkipTerminate(kTRUE);
  if (mgr->InitAnalysis()) {
    mgr->PrintStatus();
    mgr->StartAnalysis("local", chain);
  }
  timer.Print();
}
Esempio n. 9
0
//______________________________________________________________________________
void runPmdTask(Bool_t         isGrid = 0,
		Bool_t           isMC = 0,
		const char *gridmode  = "test") {

 
  if (isGrid) {
    Printf("Strating the Grid Job ");
    Printf("Grid Mode %s",gridmode);
    if (isMC)  Printf("It is Data Type Run");
    if (!isMC) Printf("It is MC Type Run");
  }
    
  // Load the needed libraries most of 
  // them already loaded by aliroot
  //--------------------------------------
  gSystem->Load("libTree");
  gSystem->Load("libGeom");
  gSystem->Load("libVMC");
  gSystem->Load("libXMLIO");
  gSystem->Load("libPhysics");

  gSystem->Load("libSTEERBase");
  gSystem->Load("libESD");
  gSystem->Load("libAOD");
  gSystem->Load("libANALYSIS");
  gSystem->Load("libANALYSISalice");

  // Use AliRoot includes to compile our task                                   
  gROOT->ProcessLine(".include $ALICE_INSTALL/include");
  
  AliAnalysisManager *mgr = new AliAnalysisManager("PMDAnalysis");
  
  if(isGrid) {
    gROOT->LoadMacro("CreateAlienHandler.C");
    AliAnalysisGrid *alienHandler = CreateAlienHandler(gridmode);  
    if (!alienHandler) return;
    mgr->SetGridHandler(alienHandler);
  }
    
  
 
  //  TChain *  chain;
  //  if(!isGrid) {
  //  gROOT->LoadMacro("CreateESDChain.C"); // use it if you know it
  //  chain = CreateESDChain("file.txt", 10);
  //  }
 
  TChain *  chain = new TChain("esdTree"); 
  if(!isGrid) {
    ifstream file_collect(incollection);
    TString line;
    while (line.ReadLine(file_collect) ) {
      chain->Add(line.Data());
    }
  }
    
  if(isMC) {
    AliVEventHandler* esdH = new AliESDInputHandler();
    mgr->SetInputEventHandler(esdH);
    AliMCEventHandler *mc = new AliMCEventHandler();
    //mc->SetReadTR(kTRUE);
    mgr->SetMCtruthEventHandler(mc);
    gROOT->LoadMacro("$ALICE_ROOT/OADB/macros/AddTaskPhysicsSelection.C");
    AliPhysicsSelectionTask* physicsSelTask = AddTaskPhysicsSelection(isMC);
    physicsSelTask->GetPhysicsSelection()->SetAnalyzeMC();

    gROOT->LoadMacro("$ALICE_ROOT/OADB/macros/AddTaskCentrality.C");
    AliCentralitySelectionTask *centralityTask = AddTaskCentrality();
  } else {
    AliVEventHandler* esdH = new AliESDInputHandler();
    mgr->SetInputEventHandler(esdH);
    gROOT->LoadMacro("$ALICE_ROOT/OADB/macros/AddTaskPhysicsSelection.C");
    AliPhysicsSelectionTask* physicsSelTask = AddTaskPhysicsSelection(isMC);
    
    gROOT->LoadMacro("$ALICE_ROOT/OADB/macros/AddTaskCentrality.C");
    AliCentralitySelectionTask *centralityTask = AddTaskCentrality();
  }

  gROOT->LoadMacro("AliPMDAnalysisTaskPbPb.cxx++g");   
  gROOT->LoadMacro("AddAliPMDAnalysisTaskPbPb.C");
  AddAliPMDAnalysisTaskPbPb("MyTask",isMC);
  
  // Enable debug printouts
  mgr->SetDebugLevel(0);
  if (!mgr->InitAnalysis())
    return;
  
 mgr->PrintStatus();
 
 if(isGrid)
   mgr->StartAnalysis("grid");
 else  
   mgr->StartAnalysis("local",chain);
 
};
Esempio n. 10
0
Bool_t RunALICE(TString anSrc = "grid",
                TString anMode = "terminate",
                TString input="aod" /*or "esd"*/,
                TString inputMC="" /*or "mc"*/,
                Long64_t nEvents = 1e10,
                Long64_t nSkip = 0,
                TString dsName="",
                TString alirsnliteManagers ="AddAMRsn",
                Bool_t useMultiHandler=kTRUE,
                TString alirsnlitesrc ="$ALICE_ROOT",
                TString alirsnlitetasks =""
               ) {

   // some init work
   anSrc.ToLower(); anMode.ToLower(); input.ToLower(); inputMC.ToLower();

   // loads libs and setup include paths
   if (LoadLibsBase(alirsnlitesrc)) return kFALSE;

   // reset manager if already exists
   AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager();
   if (mgr) delete mgr;
   mgr = new AliAnalysisManager("AliRsnLiteAM","AliRsnLite Analysis Manager");

   Bool_t useAODOut = kFALSE;
   CreateInputHandlers(input,inputMC,useAODOut,useMultiHandler);

   // add default grid handler
   gROOT->LoadMacro("SetupAnalysisPlugin.C");
   AliAnalysisGrid *analysisPlugin = SetupAnalysisPlugin(anMode.Data());
   if (!analysisPlugin) { Printf("Error : analysisPlugin is null !!!"); return kFALSE; }
   mgr->SetGridHandler(analysisPlugin);
   if (!dsName.IsNull()) {
      if (!anSrc.CompareTo("proof") && !anMode.CompareTo("full")) {
         analysisPlugin->SetProofDataSet(dsName.Data());
         Printf(Form("Using DataSet %s ...",dsName.Data()));
      } else {
         analysisPlugin->SetFileForTestMode(dsName.Data());
         Printf(Form("Using Test file %s ...",dsName.Data()));
      }
   }

   TList *listManagers = CreateListOfManagersFromDir(alirsnliteManagers,alirsnlitetasks);
   if (!listManagers) { Printf("Error : CreateListOfManagersFromDir failed !!!"); return kFALSE;}

   // adds all tasks
   if (!AddAllManagers(listManagers, anSrc, anMode,input,inputMC)) { Printf("Error : AddAllManagers failed !!!"); return kFALSE;}

   gSystem->ListLibraries("ls");

   TStopwatch timer;
   timer.Start();
   // runs analysis
   if (!RunAnalysisManager(anSrc, anMode.Data(), nEvents, nSkip)) { Printf("Error : RunAnalysisManager failed !!!"); return kFALSE;}

   timer.Stop();
   timer.Print();
   Printf("Working directory is %s ...", gSystem->WorkingDirectory());
   Printf("Done OK");
   return kTRUE;

}
void runFlowTaskCentralityKinkTrain( Int_t mode = mLocal,
                                     Bool_t useFlowParFiles = kFALSE,
                                     Bool_t DATA = kTRUE,
                                     const Char_t* dataDir="fileList",
                                     Int_t nEvents = 1e4,
                                     Int_t offset=0 )
{
  // Time:
  TStopwatch timer;
  timer.Start();

  // Load needed libraries:
  LoadLibraries(mode,useFlowParFiles);

  // Create analysis manager:
  AliAnalysisManager *mgr = new AliAnalysisManager("FlowAnalysisManager");

  // Chains:
  if(mode == mLocal)
  {
    gROOT->LoadMacro("$ALICE_PHYSICS/PWGUD/macros/CreateESDChain.C");
    TChain* chain = CreateESDChain(dataDir, nEvents, offset);
    //TChain* chain = CreateAODChain(dataDir, nEvents, offset);
  }

  // Connect plug-in to the analysis manager:
  if(mode == mGrid)
  {
    gROOT->LoadMacro("CreateAlienHandler.C");
    AliAnalysisGrid *alienHandler = CreateAlienHandler(useFlowParFiles);
    if(!alienHandler) return;
    mgr->SetGridHandler(alienHandler);
  }

  // Event handlers:
  AliVEventHandler* esdH = new AliESDInputHandler;
  mgr->SetInputEventHandler(esdH);
  if (!DATA)
  {
    AliMCEventHandler *mc = new AliMCEventHandler();
    mgr->SetMCtruthEventHandler(mc);
  }

  // Task to check the offline trigger:
  gROOT->LoadMacro("$ALICE_PHYSICS/OADB/macros/AddTaskPhysicsSelection.C");
  AddTaskPhysicsSelection(!DATA);

  //Add the centrality determination task
  gROOT->LoadMacro("$ALICE_PHYSICS/OADB/macros/AddTaskCentrality.C");
  AliCentralitySelectionTask* centSelTask = AddTaskCentrality();
  if (!DATA) centSelTask->SetMCInput();

  //add the PID response task
  gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPIDResponse.C");
  AliAnalysisTaskPIDResponse* pidresponsetask = AddTaskPIDResponse(!DATA);

  //Add the TOF tender
  //gROOT->LoadMacro("$ALICE_PHYSICS/PWGCF/FLOW/macros/AddTaskTenderTOF.C");
  //AddTaskTenderTOF();

  // Setup kink analysis per centrality bin:
  gROOT->LoadMacro("$ALICE_PHYSICS/PWGCF/FLOW/macros/Kinks/AddTaskFlowCentralityKink.C");
  for (Int_t i=binfirst; i<binlast+1; i++)
  {
    Float_t lowCentralityBinEdge = centralityArray[i];
    Float_t highCentralityBinEdge = centralityArray[i+1];
    AddTaskFlowCentralityKink( lowCentralityBinEdge,
                              highCentralityBinEdge,
                              commonOutputFileName,
                              AliPID::kUnknown,
                              AliFlowTrackCuts::kTOFbeta,
                              -1,2,kTRUE );
    AddTaskFlowCentralityKink( lowCentralityBinEdge,
                              highCentralityBinEdge,
                              commonOutputFileName,
                              AliPID::kUnknown,
                              AliFlowTrackCuts::kTOFbeta,
                              1,2,kTRUE );
    AddTaskFlowCentralityKink( lowCentralityBinEdge,
                              highCentralityBinEdge,
                              commonOutputFileName,
                              AliPID::kUnknown,
                              AliFlowTrackCuts::kTOFbeta,
                              -1,3 );
    AddTaskFlowCentralityKink( lowCentralityBinEdge,
                              highCentralityBinEdge,
                              commonOutputFileName,
                              AliPID::kUnknown,
                              AliFlowTrackCuts::kTOFbeta,
                              1,3 );
  } // end of for (Int_t i=0; i<numberOfCentralityBins; i++)

  // Setup kaon analysis per centrality bin:
  gROOT->LoadMacro("$ALICE_PHYSICS/PWGCF/FLOW/macros/Kinks/AddTaskFlowCentralityPID.C");
  for (Int_t i=binfirst; i<binlast+1; i++)
  {
    Float_t lowCentralityBinEdge = centralityArray[i];
    Float_t highCentralityBinEdge = centralityArray[i+1];
    AddTaskFlowCentralityPID( lowCentralityBinEdge,
                              highCentralityBinEdge,
                              commonOutputFileName,
                              AliPID::kKaon,
                              AliFlowTrackCuts::kTOFbeta,
                              -1,2,kTRUE );
    AddTaskFlowCentralityPID( lowCentralityBinEdge,
                              highCentralityBinEdge,
                              commonOutputFileName,
                              AliPID::kKaon,
                              AliFlowTrackCuts::kTOFbeta,
                              1,2,kTRUE );
    AddTaskFlowCentralityPID( lowCentralityBinEdge,
                              highCentralityBinEdge,
                              commonOutputFileName,
                              AliPID::kKaon,
                              AliFlowTrackCuts::kTOFbeta,
                              -1,3 );
    AddTaskFlowCentralityPID( lowCentralityBinEdge,
                              highCentralityBinEdge,
                              commonOutputFileName,
                              AliPID::kKaon,
                              AliFlowTrackCuts::kTOFbeta,
                              1,3 );
  } // end of for (Int_t i=0; i<numberOfCentralityBins; i++)

  // Setup He3 analysis per centrality bin:
  gROOT->LoadMacro("$ALICE_PHYSICS/PWGCF/FLOW/macros/Kinks/AddTaskFlowCentralityPID.C");
  for (Int_t i=binfirst; i<binlast+1; i++)
  {
    Float_t lowCentralityBinEdge = centralityArray[i];
    Float_t highCentralityBinEdge = centralityArray[i+1];
    AddTaskFlowCentralityPID( lowCentralityBinEdge,
                              highCentralityBinEdge,
                              commonOutputFileName,
                              AliPID::kHe3,
                              AliFlowTrackCuts::kTPCNuclei,
                              -1,2,kTRUE );
    AddTaskFlowCentralityPID( lowCentralityBinEdge,
                              highCentralityBinEdge,
                              commonOutputFileName,
                              AliPID::kHe3,
                              AliFlowTrackCuts::kTPCNuclei,
                              1,2,kTRUE );
    AddTaskFlowCentralityPID( lowCentralityBinEdge,
                              highCentralityBinEdge,
                              commonOutputFileName,
                              AliPID::kHe3,
                              AliFlowTrackCuts::kTPCNuclei,
                              -1,3 );
    AddTaskFlowCentralityPID( lowCentralityBinEdge,
                              highCentralityBinEdge,
                              commonOutputFileName,
                              AliPID::kHe3,
                              AliFlowTrackCuts::kTPCNuclei,
                              1,3 );
  } // end of for (Int_t i=0; i<numberOfCentralityBins; i++)

  // Enable debug printouts:
  mgr->SetDebugLevel(2);
  // Run the analysis:
  if(!mgr->InitAnalysis()) return;
  mgr->PrintStatus();
  if(mode == mLocal)
  {
    mgr->StartAnalysis("local",chain);
  }
  else if(mode == mPROOF)
  {
    mgr->StartAnalysis("proof",dataDir,nEvents,offset);
  }
  else if(mode == mGrid)
  {
    mgr->StartAnalysis("grid");
  }

  // Print real and CPU time used for analysis:
  timer.Stop();
  timer.Print();

} // end of void runFlowTaskCentralityPIDTrain(...)
Esempio n. 12
0
void runCPVAnalysis(const char *runmode = "full")
{
    // set if you want to run the analysis locally (kTRUE), or on grid (kFALSE)
    // Bool_t local = kFALSE;
     Bool_t local = kTRUE;
    // if you run on grid, specify test mode (kTRUE) or full grid model (kFALSE)
    // Bool_t gridTest = kTRUE;
    Bool_t gridTest = kFALSE;
    
    // since we will compile a class, tell root where to look for headers  
    gROOT->ProcessLine(".include $ROOTSYS/include");
    gROOT->ProcessLine(".include $ALICE_ROOT/include");

    // create the analysis manager
    AliAnalysisManager *mgr = new AliAnalysisManager("AnalysisTaskCPV");
    AliESDInputHandler *esdH = new AliESDInputHandler();
    mgr->SetInputEventHandler(esdH);


    //PID task
    gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPIDResponse.C");
    AliAnalysisTask *taskPID =  AddTaskPIDResponse(/*Bool_t isMC=*/ kFALSE, /*Bool_t autoMCesd=*/kTRUE,
						   /*Bool_t tuneOnData=*/kTRUE);
    
    // // Add physics selection
    gROOT->LoadMacro("$ALICE_PHYSICS/OADB/macros/AddTaskPhysicsSelection.C");
    AliPhysicsSelectionTask* physSelTask = AddTaskPhysicsSelection();
    physSelTask->GetPhysicsSelection()->SetUseBXNumbers(kFALSE);// ---> ???
    
    // load the addtask macro
    gROOT->LoadMacro("AddTaskCPV.C");
    // create an instance of your analysis task
    AliAnalysisTaskCPV *task = AddTaskCPV();
    task->SetRCPV(428.3);
    task->SelectCollisionCandidates(AliVEvent::kINT7);

    if(!mgr->InitAnalysis()) return;
    mgr->SetDebugLevel(2);
    mgr->PrintStatus();
    mgr->SetUseProgressBar(1, 25);

    if(local) {
        // if you want to run locally, we need to define some input
        TChain* chain = new TChain("esdTree");
        // add a few files to the chain (change this so that your local files are added)
        TGrid::Connect("alien://");
        chain->Add("alien:///alice/data/2015/LHC15n/000244340/pass2/15000244340020.100/AliESDs.root");
        // start the analysis locally, reading the events from the tchain
        mgr->StartAnalysis("local", chain);
    } else {
        // if we want to run on grid, we create and configure the plugin
        AliAnalysisAlien *alienHandler = new AliAnalysisAlien();
	alienHandler->SetCheckCopy(kFALSE);
        // also specify the include (header) paths on grid
        alienHandler->AddIncludePath("-I. -I$ROOTSYS/include -I$ALICE_ROOT -I$ALICE_ROOT/include -I$ALICE_PHYSICS/include");
        // select the aliphysics version. all other packages
        // are LOADED AUTOMATICALLY!
        alienHandler->SetAliPhysicsVersion("vAN-20170215-1");
        // set the Alien API version
        alienHandler->SetAPIVersion("V1.1x");
        // select the input data
        alienHandler->SetGridDataDir("/alice/data/2015/LHC15n");
        alienHandler->SetDataPattern("/pass2/*/AliESDs.root");

	const Int_t runList[] = {244340, 244343};
	const Int_t nRuns = 2;
	// const Int_t runList[] = {244340, 244343, 244351, 244355, 244359, 
	// 			 244364, 244377, 244411, 244416, 244418, 
	// 			 244421, 244453, 244480, 244481, 244482, 
	// 			 244483, 244484, 244531, 244540, 244542, 
	// 			 244617, 244618, 244627, 244628};
	// const Int_t nRuns = 24;
        // MC has no prefix, data has prefix 000
        alienHandler->SetRunPrefix("000");
        // runnumber
	for (Int_t iRun=0; iRun<nRuns; iRun++) {
	  alienHandler->AddRunNumber(runList[iRun]);
	}
        // number of files per subjob
        alienHandler->SetSplitMaxInputFileNumber(50);
        alienHandler->SetExecutable("CPVTask.sh");
        // specify how many seconds your job may take
        alienHandler->SetTTL(36000);
        alienHandler->SetJDLName("CPVTask.jdl");

        alienHandler->SetOutputToRunNo(kTRUE);
        alienHandler->SetKeepLogs(kTRUE);
        // merging: run with kTRUE to merge on grid
        // after re-running the jobs in SetRunMode("terminate") 
        // (see below) mode, set SetMergeViaJDL(kFALSE) 
        // to collect final results
        alienHandler->SetMaxMergeStages(2);
        alienHandler->SetMergeViaJDL(kTRUE);

        // define the output folders
        alienHandler->SetGridWorkingDir("CPVWorkingDir");
        alienHandler->SetGridOutputDir("CPVOutputDir_R428");

        // connect the alien plugin to the manager
        mgr->SetGridHandler(alienHandler);
        if(gridTest) {
            // speficy on how many files you want to run
            alienHandler->SetNtestFiles(1);
            // and launch the analysis
            alienHandler->SetRunMode("test");
            mgr->StartAnalysis("grid");
        } else {
            // else launch the full grid analysis
            alienHandler->SetRunMode(runmode);
            mgr->StartAnalysis("grid");
        }
    }
}
Esempio n. 13
0
void runGrid() {

  gSystem->Load("libCore.so");
  gSystem->Load("libTree.so");
  gSystem->Load("libGeom.so");
  gSystem->Load("libVMC.so");
  gSystem->Load("libPhysics.so");
  gSystem->Load("libSTEERBase");
  //  gSystem->Load("libESD");
  gSystem->Load("libAOD");
  gSystem->Load("libANALYSIS");
  gSystem->Load("libANALYSISalice");
  gSystem->Load("libTENDER");
  //  gSystem->Load("libPWGPP");

  gROOT->ProcessLine(".include $ALICE_ROOT/include");
  
  gROOT->LoadMacro("CreateAlienHandler.C");
  AliAnalysisGrid *alienHandler = CreateAlienHandler();  
  if (!alienHandler) return;

  cout<<" Got alien handler"<<endl;
  AliAnalysisManager *mgr = new AliAnalysisManager("TestManager");

  mgr->SetGridHandler(alienHandler);

  /*
  // For centrality Selection: Requires input event handler.
  gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskCentrality.C");
  AliCentralitySelectionTask *taskCentrality = AddTaskCentrality();
  taskCentrality->SetPass(2); // remember to set the pass you are processing!!! 
  */
  // My Task
  gROOT->LoadMacro("AliAnalysisFBMultFluct.cxx++g");
  AliAnalysisTask *task = new AliAnalysisFBMultFluct("TaskFBGrid");

  //  task->SelectCollisionCandidates(AliVEvent::kMB) // Added for minbias trigger on 3Jun14
  //  task->SelectCollisionCandidates(AliVEvent::kCentral) // Added for minbias trigger on 3Jun14

  mgr->AddTask(task);

  /*
  AliESDInputHandler* esdH = new AliESDInputHandler;
  mgr->SetInputEventHandler(esdH);
  AliMCEventHandler *mc = new AliMCEventHandler();
  mgr->SetMCtruthEventHandler(mc);
  TChain *chain = new TChain("aodTree");
  //  chain->Add("/Users/sadhanadash/QA/AliESDs.root");
  chain->Add("/Users/rashmi/ALICE/InitFluct/alice/data/2010/LHC11h/000170388/ESDs/pass2_muon/AOD/132/AliAOD.root");
  //  chain->Add("/Users/rashmi/ALICE/InitFluct/alice/data/2011/LHC11h/000170388/ESDs/pass2_muon/AOD/132/AliESDs.root");
  chain->Add("AliESDs.root");
  */

  
  //  AliAODInputHandler* aodH = new AliAODInputHandler;
    AliVEventHandler* aodH = new AliAODInputHandler;
  mgr->SetInputEventHandler(aodH);
  cout<<" SetInputEventHandler"<<endl;
  
  //   TChain *chain = new TChain("aodTree");
   //alice/data/2010/LHC10h/000139510/ESDs/pass2/AOD160/0001
  //chain->Add("AODfile/139510/AliAOD.root");
  //  chain->Add("pass2/137161/1/AliAOD.root");
  //  chain->Add("pass2/137161/2/AliAOD.root");
  // chain->GetListOfFiles()->Print();

  // Create containers for input/output

  AliAnalysisDataContainer *coutput = 
    //     mgr->CreateContainer("coutput", TObjArray::Class(),
    //     mgr->CreateContainer("coutput", TList::Class(),
    //     AliAnalysisManager::kOutputContainer, "MC.AOD.root" );
    mgr->CreateContainer("coutput", TList::Class(),
			 AliAnalysisManager::kOutputContainer, "AOD.DATA.root" );

  AliAnalysisDataContainer *cTree = 
    mgr->CreateContainer("cTree",TTree::Class(),AliAnalysisManager::kOutputContainer,"AOD.DATA.root");
  
  mgr->ConnectInput(task, 0, mgr->GetCommonInputContainer());
  mgr->ConnectOutput(task,1,coutput);
  mgr->ConnectOutput(task,2,cTree);
  /*
  mgr->CreateContainer("cinput",TFile::Class(),1,"AOD.137161.input.root");
  mgr->ConnectInput(task,2,cinput); 
  */
  mgr->SetDebugLevel(1);
  
  if (!mgr->InitAnalysis()) return;
  mgr->PrintStatus();

  cout<<" Starting Analysis now"<<endl;
  //  mgr->StartAnalysis("local",chain);
  mgr->StartAnalysis("grid");
}
Esempio n. 14
0
//________________________________________________________________
void runAAF(Int_t nFilesMax, char* type, char* textFileName, Int_t task)
{
  Int_t analysisMC  = 0;
  Bool_t debug      = kTRUE;
  Bool_t readTR     = kFALSE;
  Bool_t esdAna     = kTRUE;  // run ESD analysis (kTRUE) or AOD analysis (kFALSE)
  Int_t runtype = -1;
  
  if(strstr(type,"aod") != NULL) {
    esdAna = kFALSE;; // AOD analysis
    cout << "Performing AOD analysis" << endl;
  } else 
    cout << "Performing ESD analysis" << endl;
  
  const Char_t* treeName = GetTreeName(esdAna);
  
  if(strstr(type,"PbPb") != NULL) runtype = 2; // PbPb
  if(strstr(type,"pp") != NULL) runtype = 3; // pp
  if(strstr(type,"900") != NULL){ // 900GeV pp
    if(runtype != -1){
      printf("conflicting run types\n");
      return;
    }
    runtype = 1;
  }
  if(runtype == -1) runtype = 0; // 7TeV pp
  
  char *test;
  test = strstr(type,"MC");
  if(test != NULL){
    analysisMC = kTRUE;
    cout << "Test: " << test << endl;
    if(sscanf(test,"MC%d",&analysisMC)){
      //  cout << "**************" << analysisMC << endl;
      if(!analysisMC) analysisMC = 1;
    }
  }
  cout << "MonteCarlo " << analysisMC << endl;
  
  const char* alirootver = "v5-02-17-AN";
  Int_t mode = -1; // mode 1: PROOF, 2: GRID, 0: LOCAL
  printf("===================================================================\n");
  if(strstr(type,"proof") != NULL){ 
    if(mode != -1){
      printf("===== CONFLICTING TYPES =====\n");
      return;
    }
    mode = 1; 
    printf("===============   RUNNING ANALYSIS IN CAF MODE   ================\n");
  }
  if(strstr(type,"grid") != NULL){
    if(mode != -1){
      printf("===== CONFLICTING TYPES =====\n");
      return;
    }
    printf("===============  RUNNING ANALYSIS IN GRID MODE   ================\n");
    mode = 2; 
  }
  if(strstr(type,"local") != NULL || mode<0){ 
    if(mode != -1){
      printf("===== CONFLICTING TYPES =====\n");
      return;
    }
    printf("===============  RUNNING ANALYSIS IN LOCAL MODE  ================\n");
    mode = 0;
  }
  
  printf("===================================================================\n");
  printf("===================================================================\n");
  if (analysisMC) printf(":: use MC    TRUE\n");
  else            printf(":: use MC    FALSE\n");
  if (readTR)     printf(":: read TR   TRUE\n");
  else            printf(":: read TR   FALSE\n");
  if (debug)      printf(":: debugging TRUE\n");
  else            printf(":: debugging FALSE\n");
  
  Char_t taskname[128];
  
  switch(task){
  case 1:
    sprintf(taskname,"HighPtDeDxCosmic");
    break;
  case 2:
    sprintf(taskname,"HighPtDeDx");
    break;
  case 3:
    sprintf(taskname,"HighPtDeDxV0");
    break;
  case 4:{
    sprintf(taskname,"EffDecomposition");
  }
    break;
  default:
    printf("Unknown task\n");
    return;
  }
  
  Char_t nameouputfiles[1280]={0};
  if(runtype ==2){
    for(Int_t i=0;i<6;++i){
      //Char_t tmpname[128]={0};
      sprintf(nameouputfiles,"%s %s_Tree_%1.0f_%1.0f.root",nameouputfiles,taskname,minCent[i],maxCent[i]);
      
    }
  }
  if(runtype ==3){
    sprintf(nameouputfiles,"%s %s_Tree.root",taskname);
  }
  


  cout<<"Files to be stored:"<<nameouputfiles<<endl;


  // Load common libraries   
  gSystem->Load("libTree.so");
  gSystem->Load("libPhysics.so");
  gSystem->Load("libGeom.so");
  gSystem->Load("libVMC.so");
  gSystem->Load("libSTEERBase.so");
  gSystem->Load("libESD.so");
  gSystem->Load("libAOD.so");
  gSystem->Load("libCDB.so");
  gSystem->Load("libANALYSIS.so");
  gSystem->Load("libANALYSISalice.so");
  // tender

  gROOT->ProcessLine(Form(".include %s/include", gSystem->ExpandPathName("$ALICE_ROOT")));


  cout << "mode " << mode << ", type " << type << endl;

  if (mode == 1){
    cout << "Connecting to CAF..." << endl;
    gEnv->SetValue("XSec.GSI.DelegProxy","2");

    //const char* AAF = "*****@*****.**";    
    const char* AAF = "*****@*****.**";    

    if(strstr(type,"reset") != NULL)
       TProof::Reset(AAF,kFALSE);
    //       TProof::Reset("*****@*****.**",kTRUE);
    //    TProof::Open(AAF);
    TProof::Open(AAF, "workers=10");

    TList *list = new TList();
    list->Add(new TNamed("ALIROOT_EXTRA_LIBS", "CDB"));

    gProof->EnablePackage(Form("VO_ALICE@AliRoot::%s",alirootver), list);

    cout << "Connected to " << AAF << endl;
  }

 
  // Load the analysis macro (old version); should be removed when the library will be decided
  Char_t loadtask[128];

  if(task==4) {
    sprintf(loadtask,"AliAnaTaskV0%s.cxx++", taskname);
  }else{
    sprintf(loadtask,"AliAnalysisTask%s.cxx++", taskname);
  }
  
  if(mode == 1){ // PROOF
    
    // switch(task){
    // case 1: // ch fluct
    //   break;
    // case 2: // high pt dedx
    //gProof->Load("DebugClasses.C++g");
    //   break;
    // case 3: // high pt v0s
    //   gProof->Load("DebugClasses.C++g");
    //   break;
    // default:
    //   printf("Unknown task\n");
    //   return;
    // }

    gProof->Load(loadtask);
  }else{

    if(task==2) {
      
      cout << "Analysis task is loaded with AliRoot" << endl;
    } else {

      gROOT->LoadMacro(loadtask);
    }
  }

  // Make the analysis manager
  AliAnalysisManager* mgr = new AliAnalysisManager("PID histos", "testing analysis");


  // Dataset 
  switch(mode){
  case 1: // PROOF
    TFileCollection* proofColl = gProof->GetDataSet(textFileName);
    TFileCollection* stagedColl = proofColl->GetStagedSubset();
    TChain* chain = CreateChainCAF(nFilesMax, stagedColl, treeName);
//    TChain* chain = CreateChainCAF(nFilesMax, textFileName, treeName, analysisMC);
    break;
  case 2: // GRID
    //gSystem->Setenv("alien_CLOSE_SE", "ALICE::GSI::SE2");
    //    gSystem->Setenv("alien_CLOSE_SE", "ALICE::NIHAM::FILE");
    TGrid::Connect("alien://");
    //gSystem->Setenv("alien_CLOSE_SE", "ALICE::GSI::SE2");
    //    gSystem->Setenv("alien_CLOSE_SE", "ALICE::NIHAM::FILE");
    
    Char_t gridmode[64];
    sprintf(gridmode, "full");
    if(strstr(type,"term") != NULL) 
      sprintf(gridmode, "terminate");
    if(strstr(type,"off") != NULL) 
      sprintf(gridmode, "offline");
    if(strstr(type,"sub") != NULL) 
      sprintf(gridmode, "submit");
    if(strstr(type,"test") != NULL) 
      sprintf(gridmode, "test");


    gROOT->LoadMacro("CreateAlienHandler.C");
    //    AliAnalysisGrid *alienHandler = CreateAlienHandler(nFilesMax, analysisMC, runtype, taskname, gridmode);  
    AliAnalysisGrid *alienHandler = CreateAlienHandler(nFilesMax, analysisMC, esdAna, taskname, nameouputfiles, gridmode, textFileName, alirootver, task);  
    if (!alienHandler) return; 

    // DOES NOT WORK BECAUSE THERE ARE NO GETTERS?
    // // Here we can add extra files to the plugin
    // switch(task){
    // case 1: // ch fluct
    //   break;
    // case 2: // high pt dedx
    //   alienHandler->SetAnalysisSource(Form("DebugClasses.C %s", alienHandler->GetAnalysisSource()));
    //   alienHandler->SetAdditionalLibs(Form("DebugClasses.C %s", alienHandler->GetAdditionalLibs()));
    //   break;
    // case 3: // high pt v0s
    //   alienHandler->SetAnalysisSource(Form("DebugClasses.C %s", alienHandler->GetAnalysisSource()));
    //   alienHandler->SetAdditionalLibs(Form("DebugClasses.C %s", alienHandler->GetAdditionalLibs()));
    //   break;
    // default:
    //   printf("Unknown task\n");
    //   return;
    // }

    // Connect plugin to the analysis manager
    mgr->SetGridHandler(alienHandler); 
    break;
  case 0: // LOCAL
    // Process data - chain
    AliXRDPROOFtoolkit tool;
    TChain* chain = tool.MakeChain(textFileName,treeName, 0, 100);
    chain->Lookup();
    break;
  default:
    printf("Unknown mode");
    return;
  }
  
  // ESD input handler
  if(esdAna) {

    AliESDInputHandler *esdHandler = new AliESDInputHandler();
    mgr->SetInputEventHandler(esdHandler);
  } else {

    AliAODInputHandler* aodHandler = new AliAODInputHandler();
    mgr->SetInputEventHandler(aodHandler);
  }

  // Monte Carlo handler
  if (analysisMC) {
    AliMCEventHandler* mcHandler = new AliMCEventHandler();
    if(esdAna)
      mgr->SetMCtruthEventHandler(mcHandler);
    mcHandler->SetReadTR(readTR); 
  }

  // Debug if needed
  if (debug) 
    mgr->SetDebugLevel(3);


  // ######### Centrality task ###############  

  cout<<"%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%"<<endl;
  cout<<"esdAna="<<esdAna<<"  runtype="<<runtype<<endl;
    
  // ######### PHYSICS SELECTION ###############
  if (esdAna) { // PC: 17/8-15: this does not work for AODs..... 

    cout << "Adding task physics selection" << endl;
    gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPhysicsSelection.C");
    AliPhysicsSelectionTask* physSelTask = AddTaskPhysicsSelection();
    if (analysisMC) {
      AliPhysicsSelection* physSel = physSelTask->GetPhysicsSelection();
      physSel->SetAnalyzeMC();
    }
  }

  if(esdAna && runtype==2) { // only for ESD and PbPb

    gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskCentrality.C");
    AliCentralitySelectionTask *taskCentrality = AddTaskCentrality(); 
    //taskCentrality->SetPass(2);
    if (analysisMC)
      taskCentrality->SetMCInput(); 
  }

  // ######### PID task ###############

  if(task == 2) {
    cout << "Loading macro in AliRoot!" << endl;
    gROOT->LoadMacro("$ALICE_PHYSICS/PWGLF/SPECTRA/IdentifiedHighPt/train/macros/AddTask.C");      
    cout << "Adding task!" << endl;
    AliAnalysisTask* taskPid = AddTask(analysisMC, taskname, runtype, kTriggerInt, minCent, maxCent);
  } else {
    cout << "Adding AliAnaTaskV0EffDecomposition" << endl;
    gROOT->LoadMacro("AddTask.C");  
    AliAnalysisTask* taskPid = AddTask(taskname);
  }
  
  // Run the analysis  
  if (mgr->InitAnalysis()){
    mgr->PrintStatus();
    switch(mode){
    case 1: // PROOF
      mgr->StartAnalysis("proof",chain);
      break;
    case 2: // GRID
      mgr->StartAnalysis("grid");
      break;
    case 0:
      mgr->StartAnalysis("local",chain);
      break;
    default:
      printf("Unknown mode\n");
      return;
    }
  } 
}  
void RunSingleTrackEfficiencyTaskHFCJ()
{
    
    TBenchmark fBenchMark;
    fBenchMark.Start("AliCFSingleTrackEfficiencyTask");
    
    Load();
    
    if(fAnalysisMode=="grid"){
        //gSystem->Exec(Form("alien-token-init %s",fUsername.Data()));
        TGrid::Connect("alien://") ;
    }
    
    if(IsPlugin) {
        AliAnalysisGrid *alienHandler = CreateAlienHandler();
        if(!alienHandler) return;
    }
    
    printf("CREATE ANALYSIS MANAGER\n");
    AliAnalysisManager *mgr = new AliAnalysisManager("My Manager","My Manager");
    mgr->SetDebugLevel(10);
    if(IsPlugin) mgr->SetGridHandler(alienHandler);
    
    AliMCEventHandler*  mcHandler = new AliMCEventHandler();
    if (!readAOD) mgr->SetMCtruthEventHandler(mcHandler);
    
    AliInputEventHandler* dataHandler;
    if   (readAOD) dataHandler = new AliAODInputHandler();
    else           dataHandler = new AliESDInputHandler();
    mgr->SetInputEventHandler(dataHandler);
    
    if (!readAOD) {
        gROOT->LoadMacro("$ALICE_PHYSICS/OADB/macros/AddTaskPhysicsSelection.C");
        AliPhysicsSelectionTask* physSelTask = AddTaskPhysicsSelection(kTRUE);
    }
    
    gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPIDResponse.C");
    AliAnalysisTaskSE *setupTask = AddTaskPIDResponse(kTRUE, kTRUE, kTRUE, 2, kFALSE, "", kTRUE, kFALSE, -1);
    
    if(ifTaskPIDQA){
        gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPIDqa.C");
        AliAnalysisTaskPIDqa *pidQA = AddTaskPIDqa();
    }
    
    printf("Prepare to create the task\n");
    gROOT->LoadMacro("./AddSingleTrackEfficiencyTaskDhCorrelations.C");
    
    //NCharge Filterbin0 + kFAST configuration + w/o external cut file
    AliCFSingleTrackEfficiencyTask *taskNchF0wFile  = AddSingleTrackEfficiencyTaskDhCorrelations(kTRUE, "NchFbit0woFile", AliPID::kPion, 0, AliVEvent::kAnyINT, kFALSE, AliCFSingleTrackEfficiencyTask::kFast, AliSingleTrackEffCuts::kNoBayesianPID, "", "");
    
    //NCharge Filterbin0 + kFAST configuration + w external cut file
    AliCFSingleTrackEfficiencyTask *taskNchF0  = AddSingleTrackEfficiencyTaskDhCorrelations(kTRUE, "NchFbit0", AliPID::kPion, 0, AliVEvent::kAnyINT, kFALSE, AliCFSingleTrackEfficiencyTask::kFast, AliSingleTrackEffCuts::kNoBayesianPID, "AssocPartCuts_Std_NewPoolsAndCode_10000Tr.root", "AssociatedTrkCuts");
    
    //Pion Filterbin0+ kFAST configuration + w external cut file
    AliCFSingleTrackEfficiencyTask *taskPionF0 = AddSingleTrackEfficiencyTaskDhCorrelations(kTRUE, "PionFbit0", AliPID::kPion, 211, AliVEvent::kAnyINT, kFALSE, AliCFSingleTrackEfficiencyTask::kFast, AliSingleTrackEffCuts::kNoBayesianPID,"AssocPartCuts_Std_NewPoolsAndCode_10000Tr.root", "AssociatedTrkCuts");
    
    //Kaons Filterbin0+ kFAST configuration + w external cut file
    AliCFSingleTrackEfficiencyTask *taskKaonF0 = AddSingleTrackEfficiencyTaskDhCorrelations(kTRUE, "KaonFbit0", AliPID::kKaon, 321, AliVEvent::kAnyINT, kFALSE, AliCFSingleTrackEfficiencyTask::kFast, AliSingleTrackEffCuts::kNoBayesianPID,"AssocPartCuts_Std_NewPoolsAndCode_10000Tr.root", "AssociatedTrkCuts");
    
    //Protons Filterbin0+ kFAST configuration + w external cut file
    AliCFSingleTrackEfficiencyTask *taskProtF0 = AddSingleTrackEfficiencyTaskDhCorrelations(kTRUE, "ProtonFbit0", AliPID::kProton, 2212, AliVEvent::kAnyINT, kFALSE, AliCFSingleTrackEfficiencyTask::kFast, AliSingleTrackEffCuts::kNoBayesianPID,"AssocPartCuts_Std_NewPoolsAndCode_10000Tr.root", "AssociatedTrkCuts");
    
    //Electron Filterbin0+ kFAST configuration + w external cut file
    AliCFSingleTrackEfficiencyTask *taskElecF0 = AddSingleTrackEfficiencyTaskDhCorrelations(kTRUE, "ElectronFbit0", AliPID::kElectron,11, AliVEvent::kAnyINT, kFALSE, AliCFSingleTrackEfficiencyTask::kFast, AliSingleTrackEffCuts::kNoBayesianPID, "AssocPartCuts_Std_NewPoolsAndCode_10000Tr.root", "AssociatedTrkCuts");
    
    
    
    // Run the analysis
    TChain * analysisChain=0;
    if(analysisChain) printf("CHAIN HAS %d ENTRIES\n",(Int_t)analysisChain->GetEntries());
    if(!mgr->InitAnalysis()) return;
    mgr->PrintStatus();
    if(fAnalysisMode=="grid" && !IsPlugin) fAnalysisMode="local";
    if(fAnalysisMode!="proof") {
        mgr->StartAnalysis(fAnalysisMode.Data(),analysisChain,nEntries,firstentry);
    }
    
    fBenchMark.Stop("AliCFSingleTrackEfficiencyTask");
    fBenchMark.Show("AliCFSingleTrackEfficiencyTask");
    
    return;
    
}
void AddAnalysisManagerTestTask(TString analysisSource = "proof", TString analysisMode = "test", TString opts = "")
{

   Bool_t useMC = kFALSE;
   TString format = "esd";
   format = "aod";

   // ALICE stuff
   AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager();
   if (!mgr) mgr = new AliAnalysisManager("Martin Vala's AM");

   gROOT->LoadMacro("SetupAnalysisPlugin.C");
   AliAnalysisGrid *analysisPlugin = SetupAnalysisPlugin(analysisMode.Data());
   if (!analysisPlugin) return;

   // load par files localy
   gSystem->Load("libANALYSIS.so");
   gSystem->Load("libANALYSISalice.so");

   gROOT->LoadMacro("AliAnalysisTaskCustomMix.cxx+g");

   analysisPlugin->AddIncludePath(gSystem->ExpandPathName("$ALICE_ROOT/ANALYSIS/EventMixing"));
   analysisPlugin->SetAliRootMode("ALIROOT"); // Loads AF libs by default
   // sets additional settings to plubin
   analysisPlugin->SetAnalysisSource("AliAnalysisTaskCustomMix.cxx");
   analysisPlugin->SetAdditionalLibs("libEventMixing.so AliAnalysisTaskCustomMix.h AliAnalysisTaskCustomMix.cxx");

   // sets plugin to manager
   mgr->SetGridHandler(analysisPlugin);

   Info("AddAnalysisManagerMixRsn.C", "Creating AliMultiInputEventHandler ...");
   AliMultiInputEventHandler *mainInputHandler = new AliMultiInputEventHandler();
   Info("AddAnalysisManagerMixRsn.C", "Creating esdInputHandler ...");
   AliESDInputHandler *esdInputHandler = new AliESDInputHandler();
   mainInputHandler->AddInputEventHandler(esdInputHandler);

   if (useMC) {
      Info("AddAnalysisManagerMixRsn.C", "Creating mcInputHandler ...");
      AliMCEventHandler* mcInputHandler = new AliMCEventHandler();
      mainInputHandler->AddInputEventHandler(mcInputHandler);
   }

   Int_t bufferSize = 1;
   Int_t mixNum = 5;
   AliMixInputEventHandler *mixHandler = new AliMixInputEventHandler(bufferSize, mixNum);
   mixHandler->SetInputHandlerForMixing(dynamic_cast<AliMultiInputEventHandler*>(mainInputHandler));
   AliMixEventPool *evPool = new AliMixEventPool();


   AliMixEventCutObj *multi = new AliMixEventCutObj(AliMixEventCutObj::kMultiplicity, 1, 101, 10);
   AliMixEventCutObj *zvertex = new AliMixEventCutObj(AliMixEventCutObj::kZVertex, -5, 5, 1);

   evPool->AddCut(multi);
   evPool->AddCut(zvertex);

   // adds event pool (comment it and u will have default mixing)
   mixHandler->SetEventPool(evPool);

   //     add mixing handler (uncomment to turn on Mixnig)
   mainInputHandler->AddInputEventHandler(mixHandler);

   // add main input handler (with mixing handler)
   mgr->SetInputEventHandler(mainInputHandler);

   // adds all tasks
   gROOT->LoadMacro("AddAnalysisTaskAll.C");
   AddAnalysisTaskAll(format, useMC, opts);
}
Esempio n. 17
0
//______________________________________________________________________________
void AODtrain(Int_t merge=0)
{
  // Main analysis train macro.
  ProcessEnvironment();

  UpdateFlags();

  PrintSettings();

  if (merge || doCDBconnect) {
    TGrid::Connect("alien://");
    if (!gGrid || !gGrid->IsConnected()) {
      ::Error("AODtrain", "No grid connection");
      return;
    }
  }
  // Set temporary merging directory to current one
  gSystem->Setenv("TMPDIR", gSystem->pwd());
  // Set temporary compilation directory to current one
  gSystem->SetBuildDir(gSystem->pwd(), kTRUE);
   printf("==================================================================\n");
   printf("===========    RUNNING FILTERING TRAIN   ==========\n");
   printf("===========    Collision System is %s    ==========\n",CollisionSystem[iCollision]);
   printf("==================================================================\n");
   printf("=  Configuring analysis train for:                               =\n");
   if (usePhysicsSelection)   printf("=  Physics selection                                                =\n");
   if (useTender)    printf("=  TENDER                                                        =\n");
   if (iESDfilter)   printf("=  ESD filter                                                    =\n");
   if (iMUONcopyAOD) printf("=  MUON copy AOD                                                 =\n");
   if (iJETAN)       printf("=  Jet analysis                                                  =\n");
   if (iJETANdelta)  printf("=     Jet delta AODs                                             =\n");
   if (iPWGHFvertexing) printf("=  PWGHF vertexing                                                =\n");
   if (iPWGDQJPSIfilter) printf("=  PWGDQ j/psi filter                                             =\n");
   if (iPWGHFd2h) printf("=  PWGHF D0->2 hadrons QA                                     =\n");

   // Make the analysis manager and connect event handlers
   AliAnalysisManager *mgr  = new AliAnalysisManager("Analysis Train", "Production train");
    mgr->SetCacheSize(0);
   if (useSysInfo) {
      //mgr->SetNSysInfo(100);
      AliSysInfo::SetVerbose(kTRUE);
   }   
   // Create input handler (input container created automatically)
   // ESD input handler
   AliESDInputHandler *esdHandler = new AliESDInputHandler();
   mgr->SetInputEventHandler(esdHandler);       
   // Monte Carlo handler
   if (useMC) {
      AliMCEventHandler* mcHandler = new AliMCEventHandler();
      mgr->SetMCtruthEventHandler(mcHandler);
      mcHandler->SetReadTR(useTR); 
   }   
   // AOD output container, created automatically when setting an AOD handler
   if (iAODhandler) {
      // AOD output handler
      AliAODHandler* aodHandler   = new AliAODHandler();
      aodHandler->SetOutputFileName("AliAOD.root");
      mgr->SetOutputEventHandler(aodHandler);
   }
   // Debugging if needed
   if (useDBG) mgr->SetDebugLevel(3);

   AddAnalysisTasks(cdbPath);
   if (merge) {
      AODmerge();
      mgr->InitAnalysis();
      mgr->SetGridHandler(new AliAnalysisAlien);
      mgr->StartAnalysis("gridterminate",0);
      return;
   }   
   // Run the analysis                                                                                                                     
   //
   TChain *chain = CreateChain();
   if (!chain) return;
                                                                                                                                                   
   TStopwatch timer;
   timer.Start();
   mgr->SetSkipTerminate(kTRUE);
   if (mgr->InitAnalysis()) {
      mgr->PrintStatus();
      mgr->StartAnalysis("local", chain);
   }
   timer.Print();
}                                                                                                                                          
Esempio n. 18
0
//     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;
}
Esempio n. 19
0
void RunMacro(){
//     check the function for asymmetric TPC cut in ConfigHFEemcalMod....the rest is still necessary????

   // Firstly, set some variables
   const char* launch = "grid"; // grid, local (if your data is on your local machine, doesn't connect at all)
   const char*  mode = "test"; //test, full, terminate  (test= connect to grid but run locally, full= run on grid, terminate= merge output on grid)
   Bool_t pre_final_stage = kTRUE; //TRUE = merging done on grid, FALSE = merge happens locally   
   Int_t cyclenumber = 1;
   Bool_t debug = kTRUE;
   char* work_dir = "PhiCorrelations_LHC16q_0_20_noveto";
   char* output_dir = "output_2018_10_22_FAST";
   Int_t ttl = 50000;
   Int_t noffiles = 40;
   Int_t runcycle[]={0,1,31};
   //Int_t runcycle[]={0,16,31};
   Bool_t UseParfiles = kFALSE;

   // load libraries
   LoadLibraries();

// create and customize the alien handler
  AliAnalysisAlien *alienHandler = new AliAnalysisAlien();
      
    alienHandler->AddIncludePath("-I. -I$ROOTSYS/include -I$ALICE_ROOT -I$ALICE_ROOT/EMCAL -I$ALICE_ROOT/PYTHIA6 -I$ALICE_ROOT/ANALYSIS -I$ALICE_PHYSICS/PWGGA -I$ALICE_PHYSICS/PWGHF -I$ALICE_PHYSICS/PWGHF/hfe -I$ALICE_ROOT/CONTAINERS -I$ALICE_ROOT/STEER/STEER -I$ALICE_ROOT/STEER/STEERBase -I$ALICE_ROOT/STEER/ESD -I$ALICE_ROOT/STEER/AOD -I$ALICE_PHYSICS/OADB -I$ALICE_PHYSICS/PWGHF/base  -I$ALICE_ROOT/include -I$ALICE_ROOT/ITS -I$ALICE_ROOT/TPC -I$ALICE_ROOT/CONTAINERS -I$ALICE_ROOT/STEER -I$ALICE_ROOT/TRD -I$ALICE_ROOT/macros -I$ALICE_ROOT/ANALYSIS  -I$ALICE_PHYSICS/OADB/macros -I$ALICE_PHYSICS/PWGCF/Correlations -I$ALICE_PHYSICS/PWGCF -I$ALICE_PHYSICS/PWGCF/Correlations/Base -I$ALICE_PHYSICS/include -g");
    
    alienHandler->SetAdditionalLibs("AliAnalysisTaskHadronPhiCorr_current.cxx AliAnalysisTaskHadronPhiCorr_current.h AddTaskHadronPhiCorr_current.C libpythia6.so libEGPythia6.so libAliPythia6.so libPWGHFhfe.so libCDB.so libSTEER.so libCORRFW.so libPWGflowBase.so libPWGflowTasks.so libGui.so libProof.so libMinuit.so libXMLParser.so libRAWDatabase.so libRAWDatarec.so libCDB.so libSTEERBase.so libSTEER.so libTPCbase.so libTOFbase.so libTOFrec.so libTRDbase.so libVZERObase.so libVZEROrec.so libT0base.so libT0rec.so libPWGTools.so libPWGCFCorrelationsBase.so");
    
  alienHandler->SetAnalysisSource("AliAnalysisTaskHadronPhiCorr_current.cxx");
  //alienHandler->SetOverwriteMode();
  alienHandler->SetRunMode(mode);
  alienHandler->SetNtestFiles(2);
  //alienHandler->SetAPIVersion("V1.1x");
  alienHandler->SetAliPhysicsVersion("vAN-20170731-1");
  //alienHandler->SetFileForTestMode("File_LHC12dPass1.txt");  //txt file that tells where to look for local files if launch=local
  //alienHandler->SetGridDataDir("/alice/sim/LHC10d4/");
  //alienHandler->SetDataPattern("*ESDs.root");
  alienHandler->SetGridDataDir("//alice/data/2016/LHC16q/");
  alienHandler->SetDataPattern("*/pass1_FAST/AOD/*/*AOD.root");
  //alienHandler->SetDataPattern("*/pass4/AOD/*AOD.root");
  alienHandler->SetRunPrefix("000"); // IMPORTANT! Only need for real data, comment this line out for MC data

   
//LHC12d   
    //Int_t runArray[] = {186320, 186319, 186318, 186229, 186208, 186205, 186200, 186167, 186165, 186164, 186163, 185912, 185909, 185784, 185778, 185776, 185775, 185768, 185765, 185764, 185757, 185756, 185738, 185735, 185734, 185701, 185699, 185698, 185697, 185695, 185687, 185680, 185589, 185588, 185583, 185582, 185581, 185580, 185578};
  //Int_t runArray[] = {186320, 186319, 186318, 186229, 186208, 186205, 186200, 186167, 186165, 186164, 186163, 185912, 185909, 185784, 185778, 185776, 185775, 185768, 185765, 185764, 185757, 185756, 185738, 185735, 185734, 185701, 185699, 185698, 185697, 185695, 185687, 185680, 185589, 185588, 185583, 185582, 185581, 185580, 185578, 185575, 185574, 185565, 185563, 185474, 185465, 185461, 185457, 185375, 185371, 185363, 185362, 185361, 185360, 185359, 185356, 185351, 185350, 185349, 185303, 185302, 185300, 185299, 185296, 185293, 185292, 185291, 185289, 185288, 185284, 185282, 185221, 185217, 185208, 185206, 185203, 185198, 185196, 185189};

 //LHC13b
    //Int_t runArray[] = {195483, 195482, 195481, 195480, 195479, 195478, 195391, 195389, 195351, 195346, 195344}; 

 //LHC13c
    //Int_t runArray[] = {195529, 195531, 195566, 195567, 195568, 195592, 195593, 195596, 195633, 195635, 195644, 195673, 195675, 195677};

//LHC10d4 - MC Data
    //Int_t runArray[] = {119159, 119161, 119163, 119841, 119842, 119844, 119845, 119846, 119849, 119853, 119856, 119859, 119862, 120067, 120069, 120072, 120073, 120076, 120079, 120244, 120503, 120504, 120505, 120616, 120617, 120671, 120741, 120750, 120758, 120820, 120821, 120822, 120823, 120824, 120825, 120829};
   // Int_t runArray[] = {120073}; //for testing why files were being opened but not closed

//LHC16r - 8 TeV pPb data
    //Int_t runArray[] = {266318, 266317, 266316, 266305, 266304, 266300, 266299, 266296, 266208, 266197, 266196, 266193, 266190, 266189, 266187, 266117, 266086, 266085, 266084, 266083, 266081, 266076, 266074, 266034, 265797, 265795, 265789, 265788, 265756, 265754, 265746, 265744, 265742, 265741, 265714, 265713,265709, 265705, 265701, 265700, 265698, 265697, 265696, 265607, 265596, 265594};
   //Int_t runArray[] = {266318, 266317, 266316, 266208, 266197, 266196, 266187, 265754, 265744, 265607, 265596, 265594};

//LHC16q - 5 TeV pPb data
   Int_t runArray[] = {265525, 265521, 265501, 265500, 265499, 265435, 265427, 265426, 265425, 265424, 265422, 265421, 265420, 265419, 265388, 265387, 265385, 265384, 265383, 265381, 265378, 265377, 265344, 265343, 265342, 265339, 265338, 265336, 265334, 265332, 265309};  
    
  
  for (Int_t i =  runcycle[cyclenumber - 1]; i < runcycle[cyclenumber] ; i++)
   {
    if (i == sizeof(runArray) / sizeof(runArray[1])) break;
    alienHandler->AddRunNumber(runArray[i]);
   }

   printf("\n\nSetting Up alienHandler.\n\n");
   alienHandler->SetGridWorkingDir(work_dir);
   alienHandler->SetGridOutputDir(output_dir);
   alienHandler->SetDefaultOutputs(kTRUE);
   alienHandler->SetAnalysisMacro("PhiInvMass.C");
   alienHandler->SetSplitMaxInputFileNumber(noffiles);
   alienHandler->SetExecutable("PhiInvMass.sh");
   alienHandler->SetExecutableCommand("aliroot -b -q");
   alienHandler->SetTTL(ttl); //10000
   alienHandler->SetInputFormat("xml-single");
   alienHandler->SetJDLName("PhiInvMass.jdl");
   alienHandler->SetPrice(1);
   alienHandler->SetSplitMode("se");
   alienHandler->SetMasterResubmitThreshold(10);
   alienHandler->SetMergeExcludes("EventStat_temp.root");
   alienHandler->SetOutputToRunNo(kTRUE);
   alienHandler->SetKeepLogs(kTRUE);
   alienHandler->SetMaxMergeFiles(15);
   alienHandler->SetMaxMergeStages(7);
   alienHandler->SetMergeViaJDL(pre_final_stage);
//    alienHandler->SetOneStageMerging(kFALSE);   //???????????????????????????????-------------------
    if (!alienHandler) return;

    
// load the necessary macros
   //gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPhysicsSelection.C");
   //gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPIDResponse.C");
// Use AliRoot includes to compile our task
   gROOT->ProcessLine(".include $ALICE_ROOT/include");
   gROOT->ProcessLine(".include $ALICE_ROOT/EMCAL");
   gROOT->ProcessLine(".include $ALICE_PHYSICS/include");
   gROOT->ProcessLine(".include $ALICE_ROOT/ANALYSIS/");
   gROOT->ProcessLine(".include $PWD/.");

   gSystem->AddIncludePath("-I. -I$ROOTSYS/include -I$ALICE_ROOT -I$ALICE_ROOT/EMCAL -I$ALICE_ROOT/PYTHIA6 -I$ALICE_ROOT/ANALYSIS -I$ALICE_ROOT/CONTAINERS -I$ALICE_ROOT/STEER/STEER -I$ALICE_ROOT/STEER/STEERBase -I$ALICE_ROOT/STEER/ESD -I$ALICE_ROOT/STEER/AOD -I$ALICE_PHYSICS/OADB -I$ALICE_PHYSICS/PWGHF/base  -I$ALICE_ROOT/include -I$ALICE_ROOT/ITS -I$ALICE_ROOT/TPC -I$ALICE_ROOT/CONTAINERS -I$ALICE_ROOT/STEER -I$ALICE_ROOT/TRD -I$ALICE_ROOT/macros -I$ALICE_ROOT/ANALYSIS  -I$ALICE_PHYSICS/OADB -I$ALICE_ROOT/PWG/FLOW/Base -I$ALICE_PHYSICS/PWGCF/Correlations/Base -I$ALICE_PHYSICS/PWGCF/Correlations -g ");
   // gSystem->AddIncludePath("-I. -I$ROOTSYS/include -I$ALICE_ROOT -I$ALICE_ROOT/include -I$ALICE_ROOT/macros -I$ALICE_PHYSICS/include -g");

   //printf("\n!!!!!!!!!!!!!!!!!!!!!!\n AliAnalysis Manager \n\n");
   AliAnalysisManager *mgr = new AliAnalysisManager("PhiAnalysis");
   mgr->SetGridHandler(alienHandler);

   AliAODInputHandler* aodH = new AliAODInputHandler();
   mgr->SetInputEventHandler(aodH);
//   AliESDInputHandler* esdH = new AliESDInputHandler();
//   mgr->SetInputEventHandler(esdH);

//    AliMCEventHandler* mcH = new AliMCEventHandler();
//    mgr->SetMCtruthEventHandler(mcH);   
//    mcH->SetReadTR(kFALSE);

   //gROOT->LoadMacro("AddTaskPhiCorr.C");
   gROOT->LoadMacro("./AliAnalysisTaskHadronPhiCorr.cxx++g");
   //gROOT->LoadMacro("$ALICE_PHYSICS/OADB/macros/AddTaskPhysicsSelection.C");
   //gROOT->LoadMacro("$ALICE_PHYSICS/OADB/COMMON/MULTIPLICITY/macros/AddTaskMultSelection.C");
   //gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPIDResponse.C");


    //switch on aliphysicsselection
    gInterpreter->ProcessLine(Form(".x %s", gSystem->ExpandPathName("$ALICE_PHYSICS/OADB/COMMON/MULTIPLICITY/macros/AddTaskMultSelection.C")));
    AliPhysicsSelectionTask* physSelTask = reinterpret_cast<AliPhysicsSelectionTask*>(gInterpreter->ProcessLine(Form(".x %s(kFALSE, kTRUE)", gSystem->ExpandPathName("$ALICE_PHYSICS/OADB/macros/AddTaskPhysicsSelection.C")))); 
    //Only set true for MC
    Bool_t isMC = kFALSE;
    gInterpreter->ProcessLine(Form(".x %s(kFALSE)", gSystem->ExpandPathName("$ALICE_ROOT/ANALYSIS/macros/AddTaskPIDResponse.C")));

    //create a task
    AliAnalysisTaskHadronPhiCorr_current *task1 = reinterpret_cast<AliAnalysisTaskHadronPhiCorr_current*>(gInterpreter->ProcessLine(Form(".x %s(kFALSE, 0.0, 20.0)", gSystem->ExpandPathName("AddTaskHadronPhiCorr_current.C"))));
    //AliAnalysisTaskHadronPhiCorr_current *task2 = reinterpret_cast<AliAnalysisTaskHadronPhiCorr_current*>(gInterpreter->ProcessLine(Form(".x %s(true, 10.0, 20.0)", gSystem->ExpandPathName("AddTaskHadronPhiCorr_current.C"))));
    //AliAnalysisTaskHadronPhiCorr_current *task3 = reinterpret_cast<AliAnalysisTaskHadronPhiCorr_current*>(gInterpreter->ProcessLine(Form(".x %s(kFALSE, 20.0, 40.0)", gSystem->ExpandPathName("AddTaskHadronPhiCorr_current.C"))));
    //AliAnalysisTaskHadronPhiCorr_current *task4 = reinterpret_cast<AliAnalysisTaskHadronPhiCorr_current*>(gInterpreter->ProcessLine(Form(".x %s(kTRUE, 40.0, 90.0)", gSystem->ExpandPathName("AddTaskHadronPhiCorr_current.C"))));

    task1->SetKaonEtaCut(0.8);
    task1->SetKaonTPCCut(3.0);
    task1->SetKaonTOFCut(3.0);
    task1->SetTOFVeto(kFALSE);
    task1->SetKaonTrkBit(1024);
    task1->SetAssocTrkBit(1024);
    task1->SetTrigTrkBit(AliAODTrack::kIsHybridGCG);
    task1->SetZVertexMin(-10.0);
    task1->SetZVertexMax(10.0);
    task1->SetZVertexNbins(10);
    task1->SetCentEstimator("V0A");


   if (!mgr->InitAnalysis())
     return;

   mgr->PrintStatus();
   //fprintf(stdout, "\n!!!!!!!!!!!!!\nAbout to launch analysis... \n");
   // Start analysis in grid.
   mgr->StartAnalysis(launch);
   //printf("\n!!!!!!!!!!!!!\nDone with StartAnalysis(launch)\n");
   fflush(stdout);
}
//______________________________________________________________________________
void runTaskFlowHigherOrdersAllPID(
         const char* runtype = "local", // local, proof or grid
         const char *gridmode = "terminate", // Set the run mode (can be "full", "test", "offline", "submit" or "terminate"). Full & Test work for proof
	 const Int_t bunchN = 0,
         const bool bAOD = 1, // 1 = AOD ANALYSIS, 0 = ESD ANALYSIS
         const bool bMCtruth = 0, // 1 = MCEvent handler is on (MC truth), 0 = MCEvent handler is off (MC reconstructed/real data)
         const bool bMCphyssel = 1, // 1 = looking at MC truth or reconstructed, 0 = looking at real data
         const Long64_t nentries = 50000, // for local and proof mode, ignored in grid mode. Set to 1234567890 for all events.
         const Long64_t firstentry = 0, // for local and proof mode, ignored in grid mode
         TString proofdataset = "bunchPROOF", // path to dataset on proof cluster, for proof analysis
         const char *proofcluster = "*****@*****.**", // which proof cluster to use in proof mode
         const char *taskname = "BF_Syst_Test" // sets name of grid generated macros
         )
{
    // check run type
    if(runtype != "local" && runtype != "proof" && runtype != "grid") {
        Printf("\n\tIncorrect run option, check first argument of run macro");
        Printf("\tint runtype = local, proof or grid\n");
        return;
    }
    Printf("%s analysis chosen",runtype);
  
    // load libraries
    gSystem->Load("libCore");
    gSystem->Load("libGeom");
    gSystem->Load("libVMC");
    gSystem->Load("libPhysics");
    gSystem->Load("libTree");
    gSystem->Load("libSTEERBase");
    gSystem->Load("libESD");
    gSystem->Load("libAOD");
    gSystem->Load("libANALYSIS");
    gSystem->Load("libANALYSISalice");
    gSystem->Load("libEventMixing");
    gSystem->Load("libCORRFW");
    gSystem->Load("libPWGTools");
    gSystem->Load("libPWGCFebye");
    gSystem->Load("libPWGflowBase");
    gSystem->Load("libPWGflowTasks");

    // additional

    // compile standalone stuff
    //gROOT->LoadMacro("AliBalance.cxx++g");
    //gROOT->LoadMacro("AliAnalysisTaskBF.cxx++g");

    // add aliroot indlude path
    //gROOT->ProcessLine(".include $PWD/.");
    //gROOT->ProcessLine(Form(".include %s/include",gSystem->ExpandPathName("$ALICE_ROOT")));

    gROOT->SetStyle("Plain");

    // analysis manager
    AliAnalysisManager* mgr = new AliAnalysisManager(Form("%s%i",taskname,bunchN));
    
    // create the alien handler and attach it to the manager
    if(runtype == "grid") {
      AliAnalysisGrid *plugin = CreateAlienHandler(bAOD,bunchN,Form("%s%i",taskname,bunchN), gridmode, proofcluster, Form("%s_%d.txt",proofdataset.Data(),bunchN)); 
      mgr->SetGridHandler(plugin);
    }
    else if(runtype == "local") {
      TString filename;
      TChain* chain = 0x0;
      if((!bAOD)&&(!bMCtruth)) {
	chain = new TChain("esdTree");
	for(Int_t i = 0; i < 4; i++) {
	  filename = "/data/alice2/pchrist/HeavyIons/Data/2011/Set";
	  filename += i; filename += "/AliESDs.root";
	  chain->Add(filename.Data());
	}
      }
      else if((bAOD)&&(!bMCtruth)) {
	chain = new TChain("aodTree");
	for(Int_t i = 0; i < 10; i++) {
	  filename = "/glusterfs/alice1/alice2/pchrist/HeavyIons/Data/2011/Set";
	  filename += i; filename += "/AliAOD.root";
	  chain->Add(filename.Data());
	}
      }
      else if((!bAOD)&&(bMCtruth)) {
	chain = new TChain("TE");
	for(Int_t i = 10; i < 99; i++) {
	  filename = "/project/alice/users/alisrm/Efficiency_Contamination/LHC13b3_HIJING_pA_AOD/";
	  filename += i;
	  filename += "/galice.root";
	  chain->Add(filename.Data());
	}
      }
      else if((bAOD)&&(bMCtruth)) { //used for MCAOD
	chain = new TChain("aodTree");   
	for(Int_t i = 10; i < 99; i++) { 
	  filename = "/project/alice/users/alisrm/Efficiency_Contamination/LHC13b3_HIJING_pA_AOD/";
	  filename += i; 
	  filename += "/AliAOD.root";
	  chain->Add(filename.Data());
	} 
      }
      

    }//local mode

    // input handler (ESD or AOD)
    AliVEventHandler* inputH = NULL;
    if(!bAOD){
      inputH = new AliESDInputHandler();
    }
    else{
      inputH = new AliAODInputHandler();
    }
    mgr->SetInputEventHandler(inputH);
    
    // mc event handler
    if(bMCtruth) {
      AliMCEventHandler* mchandler = new AliMCEventHandler();
      // Not reading track references
      mchandler->SetReadTR(kFALSE);
      mgr->SetMCtruthEventHandler(mchandler);
    }   
    
    // AOD output handler
    //AliAODHandler* aodoutHandler = new AliAODHandler();
    //aodoutHandler->SetOutputFileName("aod.root");
    //mgr->SetOutputEventHandler(aodoutHandler); 
    
    // === Physics Selection Task ===
    //
    // In SelectCollisionCandidate(), default is kMB, so the task UserExec() 
    // function is only called for these events.
    // Options are:
    //    kMB             Minimum Bias trigger
    //    kMBNoTRD        Minimum bias trigger where the TRD is not read out
    //    kMUON           Muon trigger
    //    kHighMult       High-Multiplicity Trigger
    //    kUserDefined    For manually defined trigger selection
    //
    // Multiple options possible with the standard AND/OR operators && and ||
    // These all have the usual offline SPD or V0 selections performed.
    //
    // With a pointer to the physics selection object using physSelTask->GetPhysicsSelection(),
    // one can manually set the selected and background classes using:
    //    AddCollisionTriggerClass("+CINT1B-ABCE-NOPF-ALL")
    //    AddBGTriggerClass("+CINT1A-ABCE-NOPF-ALL");
    //
    // One can also specify multiple classes at once, or require a class to NOT
    // trigger, for e.g.
    //    AddBGTriggerClass("+CSMBA-ABCE-NOPF-ALL -CSMBB-ABCE-NOPF-ALL");
    //
    // NOTE that manually setting the physics selection overrides the standard
    // selection, so it must be done in completeness.
    //
    // ALTERNATIVELY, one can make the physics selection inside the task
    // UserExec().
    // For this case, comment out the task->SelectCol.... line, 
    // and see AliBasicTask.cxx UserExec() function for details on this.

    //gROOT->LoadMacro("$ALICE_PHYSICS/OADB/macros/AddTaskPhysicsSelection.C");
    //AliPhysicsSelectionTask *physSelTask = AddTaskPhysicsSelection(bMCphyssel);
    //if(!physSelTask) { Printf("no physSelTask"); return; }
    //AliPhysicsSelection *physSel = physSelTask->GetPhysicsSelection();
    //physSel->AddCollisionTriggerClass("+CINT1B-ABCE-NOPF-ALL");// #3119 #769");
                
    // create task
    //Add the centrality determination task and the physics selection 
    // (only on ESD level, in AODs centrality is already in header and events are selected)
//    if((!bAOD)&&(!bMCtruth)){
//      gROOT->LoadMacro("$ALICE_PHYSICS/OADB/macros/AddTaskCentrality.C");
//      AliCentralitySelectionTask *taskCentrality = AddTaskCentrality();

      // Add physics selection task (NOT needed for AODs)
//      gROOT->LoadMacro("$ALICE_PHYSICS/OADB/macros/AddTaskPhysicsSelection.C");
//      AliPhysicsSelectionTask* physSelTask = AddTaskPhysicsSelection(bMCphyssel);
//    }
/////////////////////////////////////////
    //Add flow centrality bayesian 

      gROOT->LoadMacro("AddTaskFlowHigherOrdersAllPID.C");
      //gROOT->LoadMacro("$ALICE_PHYSICS/PWGCF/FLOW/macros/AddTaskFlowHigherOrdersAllPID.C");
  //  gROOT->LoadMacro("$ALICE_PHYSICS/PWGCF/FLOW/macros/AddTaskFlowCentralityBayesian.C");
  //  gROOT->LoadMacro("~/Desktop/work/PhD/flow/AddTaskFlowCentralityBayesian.C");
      AliAnalysisTaskFlowEvent* FlowTask = AddTaskFlowHigherOrdersAllPID(AliVEvent::kCentral | AliVEvent::kSemiCentral | AliVEvent::kMB,0.,80.,"AnalysisResults",kTRUE,768,768,AliPID::kPion,AliFlowTrackCuts::kTOFbayesian,0,kFALSE,-0.8,0.8,"");
/////////////////////////////////////////

    //Add the PID response
//    if((kUsePID)||(kNSigmaElectronRejection)) {
//      gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPIDResponse.C");
//      AddTaskPIDResponse(bMCphyssel); 
//    }

    //Add the VZERO event plane task
//    gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskVZEROEPSelection.C"); 
//    AliVZEROEPSelectionTask* epSelTask = AddTaskVZEROEPSelection();

    //Add the BF task (all centralities)
 //   gROOT->LoadMacro("$ALICE_PHYSICS/PWGCF/EBYE/macros/AddTaskBalancePsiCentralityTrain.C"); 

//    AliAnalysisTaskBFPsi *taskBF = AddTaskBalancePsiCentralityTrain(0, 500, kFALSE, kTRUE, kFALSE, "V0M", 10, -1, -1, 0.2, 20.0, -0.8, 0.8, -1, -1, kUsePID, kFALSE, kTRUE, 0.02, kFALSE, 0.04, kTRUE, 0.1, 128, 1, "AnalysisResults","TE","Multiplicity","AOD",kTRUE, kNSigmaElectronRejection);
    //taskBF->SetDebugLevel();

    // enable debug printouts
    //mgr->SetDebugLevel(2);
    //mgr->SetUseProgressBar(1,100);
    if (!mgr->InitAnalysis()) return;
    mgr->PrintStatus();
  
    // start analysis
    Printf("Starting Analysis....");
    if(runtype == "local") 
      mgr->StartAnalysis("local",chain);
    else
      mgr->StartAnalysis(runtype,nentries,firstentry);
}