void PrintManager(TObject *mgrObj) {
AliAnalysisManager *mgr = (AliAnalysisManager *)mgrObj;
if (!mgr->InitAnalysis()) return;
mgr->RunLocalInit();
mgr->PrintStatus();
Printf("Analysis Manager : %s '%s'",mgr->GetName(),mgr->GetTitle() );
TObjArray *a = mgr->GetTasks();
if (a) Printf("Tasks total : %d",a->GetEntries());
TIter next(mgr->GetTasks());
AliAnalysisTask *task;
while ((task = (AliAnalysisTask *) next())) {
if (task->IsA() == AliRsnMiniAnalysisTask::Class()) {
Printf(" Task [RSN-MINI] : %s '%s'",task->GetName(),task->GetTitle());
AliRsnMiniAnalysisTask *rsnMiniTask = (AliRsnMiniAnalysisTask *)task;
rsnMiniTask->Print();
} else if (task->IsA() == AliRsnAnalysisTask::Class()) {
Printf(" Task [RSN-----] : %s '%s'",task->GetName(),task->GetTitle());
AliRsnAnalysisTask *rsnTask = (AliRsnAnalysisTask *)task;
rsnTask->Print();
AliVEventHandler *ih = mgr->GetInputEventHandler();
if (ih == AliMultiInputEventHandler::Class()) {
AliMultiInputEventHandler *ihMulti = (AliMultiInputEventHandler *) ih;
TIter nextIH(ihMulti->InputEventHandlers());
AliRsnInputHandler *rsnIH = 0;
while ((ih = (AliVEventHandler *) nextIH())) {
if (ih->IsA() == AliRsnInputHandler::Class()) {
rsnIH = ih;
AliRsnDaughterSelector *ds = rsnIH->GetSelector();
ds->Print();
}
}
}
} else {
Printf(" Task [--------] : %s '%s'",task->GetName(),task->GetTitle());
}
}
}
void run(const Char_t *files=NULL, Bool_t mc=kFALSE, Bool_t tpid=kTRUE, Bool_t tchg=kFALSE, Bool_t tpp=kTRUE, Long64_t nev=1234567890, Long64_t first = 0)
{
TStopwatch timer;
timer.Start();
// VERY GENERAL SETTINGS
//AliLog::SetGlobalLogLevel(AliLog::kError);
if(gSystem->Load("libANALYSIS.so")<0) return;
if(gSystem->Load("libANALYSISalice.so")<0) return;
if(gSystem->Load("libTender.so")<0) return;
if(gSystem->Load("libTenderSupplies.so")<0) return;
// if(gSystem->Load("libMES.so")<0) return;
if(gSystem->Load("libPWGLFspectra.so")<0) return;
// DEFINE DATA CHAIN
TChain *chain = NULL;
if(!files) chain = MakeChainLST();
else chain = MakeChainLST(files);
if(!chain) return;
chain->Lookup();
chain->GetListOfFiles()->Print();
Long64_t nfound=chain->GetEntries();
printf("\tENTRIES FOUND [%lli] REQUESTED [%lli]\n", nfound, nev>nfound?nfound:nev);
// BUILD ANALYSIS MANAGER
AliAnalysisManager *mgr = new AliAnalysisManager("Multiplicity and Event Shape");
AliESDInputHandler *esdH = new AliESDInputHandler();
AliMCEventHandler *mcH(NULL);
mgr->SetInputEventHandler(esdH);
if(mc) mgr->SetMCtruthEventHandler(mcH = new AliMCEventHandler());
//mgr->SetDebugLevel(10);
mgr->SetSkipTerminate(kTRUE);
// LOAD tasks
// ******************* PID response ******************
gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPIDResponse.C");
if(!mc) AddTaskPIDResponse();
else AddTaskPIDResponse(kTRUE,kTRUE,kTRUE,2);
// ******************* Tenders ***********************
AliTender *aliTender(NULL);
gROOT->LoadMacro("$ALICE_PHYSICS/TENDER/TenderSupplies/AddTaskTender.C");
if(!mc){ // for DATA
aliTender = (AliTender*)AddTaskTender(!mc, kTRUE, kTRUE, kTRUE, kTRUE, kFALSE, kTRUE, kFALSE, kFALSE);
// (useV0, useTPC, !!! useTOF=kFALSE for MC !!!, useTRD, usePID, useVTX, useT0, useEmc, usePtFix)
} else { // for MC
aliTender = (AliTender*)AddTaskTender(!mc, kTRUE, kFALSE, kTRUE, kTRUE, kTRUE, kTRUE, kFALSE, kFALSE); // (useV0, useTPC, !!! useTOF=kFALSE for MC !!!, useTRD, usePID, useVTX, useT0, useEmc, usePtFix)
}
aliTender->SetHandleOCDB(kTRUE);
//aliTender->SetDefaultCDBStorage(Form("alien://folder=/alice/data/2010/OCDB?cacheFolder=%s/local", gSystem->ExpandPathName("$HOME")));
// aliTender->SetDefaultCDBStorage(Form("local://%s/local/alice/data/2010/OCDB", gSystem->ExpandPathName("$HOME")));
// ******************* Physics Selection *************
gROOT->LoadMacro("$ALICE_PHYSICS/OADB/macros/AddTaskPhysicsSelection.C");
AliPhysicsSelectionTask *physSelTask = AddTaskPhysicsSelection(mc); // 0 = real data; 1 = MC
// ******************* MES Tender ******************
gROOT->LoadMacro("$ALICE_PHYSICS/PWGLF/SPECTRA/MultEvShape/AddMEStender.C");
AddMEStender(mc);
// ******************* MES PID task ******************
if(tpid){
gROOT->LoadMacro("$ALICE_PHYSICS/PWGLF/SPECTRA/MultEvShape/AddMESpidTask.C");
AddMESpidTask(mc);
}
//
// // ******************* MES CHG task ******************
if(tchg){
gROOT->LoadMacro("$ALICE_PHYSICS/PWGLF/SPECTRA/MultEvShape/AddMESchgTask.C");
AddMESchgTask(mc);
}
//
// // ******************* MES ppCol task ******************
if(tpp){
gROOT->LoadMacro("$ALICE_PHYSICS/PWGLF/SPECTRA/MultEvShape/AddMESppColTask.C");
AddMESppColTask(mc);
}
if (!mgr->InitAnalysis()) return;
mgr->PrintStatus();
mgr->StartAnalysis("local", chain, nev, first);
timer.Stop();
timer.Print();
// verbosity
printf("\tCLEANING TASK LIST:\n");
mgr->GetTasks()->Delete();
if(mcH) delete mcH;
delete esdH;
delete chain;
}
Bool_t AddTasksEmcalFjetSparseMaker()
{
AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager();
if (bIsInfoAOD) {
gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/train/AddAODHandler.C");
AliAODInputHandler *aodIH = AddAODHandler();
} else {
gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/train/AddESDHandler.C");
AliESDInputHandler *esdIH = AddESDHandler();
// esdIH->SetReadFriends(kFALSE);
}
if (bAnaInfoMC && (!bIsInfoAOD)) {
gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/train/AddMCHandler.C");
AliMCEventHandler *mctEH = AddMCHandler(kTRUE);
}
if (bOutputAOD) {
gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/train/AddAODOutputHandler.C");
AliAODHandler *aodH = AddAODOutputHandler();
aodH->SetOutputFileName("AliAOD.PicoJets.root");
aodH->SetFillAOD(kTRUE);
aodH->SetCreateNonStandardAOD();
mgr->SetOutputEventHandler(aodH);
}
//=============================================================================
if (bIsPhysSel) {
gROOT->LoadMacro("$ALICE_PHYSICS/PWG/EMCAL/macros/AddTaskEmcalPhysicsSelection.C");
AliEmcalPhysicsSelectionTask *taksPhysSel = AddTaskEmcalPhysicsSelection(kTRUE, kTRUE, wTriggerMask, 5., 5., 10., kTRUE, -1, -1, -1, -1);
if (bAnaInfoMC) {
AliEmcalPhysicsSelection *pPhysSel = static_cast<AliEmcalPhysicsSelection*>(taksPhysSel->GetPhysicsSelection());
if (!pPhysSel) return kTRUE; pPhysSel->SetAnalyzeMC();
}
}
if (bIsCentSel) {
gROOT->LoadMacro("$ALICE_PHYSICS/OADB/macros/AddTaskCentrality.C");
AliCentralitySelectionTask *taskCentSel = AddTaskCentrality(kTRUE, bIsAOD);
if (bAnaInfoMC) taskCentSel->SetMCInput();
}
if (bIsEvPnSel) {
gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskEventplane.C");
AliEPSelectionTask *taskEventPlane = AddTaskEventplane();
if (bAnaInfoMC) taskEventPlane->SetUseMCRP();
}
if (bIsRespPID) {
gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPIDResponse.C");
AliAnalysisTaskSE *taskRespPID = AddTaskPIDResponse(bAnaInfoMC);
}
//=============================================================================
gROOT->LoadMacro("$ALICE_PHYSICS/PWG/EMCAL/macros/AddTaskEmcalSetup.C");
AliEmcalSetupTask *taskSetupEMCal = AddTaskEmcalSetup();
taskSetupEMCal->SetGeoPath("$ALICE_PHYSICS/OADB/EMCAL");
gROOT->LoadMacro("$ALICE_PHYSICS/PWG/EMCAL/macros/AddTaskEmcalPreparation.C");
AliAnalysisTaskSE *taskEmcMaker = AddTaskEmcalPreparation(sPeriodIn);
gROOT->LoadMacro("$ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskJetPreparation.C");
AliAnalysisTaskSE *taskHadCorr = AddTaskJetPreparation(sPeriodIn.Data(),
sUsedTrksRD.Data(),
(bAnaInfoMC ? sUsedTrksMC.Data() : ""),
sInputClsRD.Data(),
sUsedClusRD.Data(),
2., 0., 0.03, 0.015, 0.15,
wTriggerMask,
kTRUE, // do trk clus
kTRUE, // histos
kTRUE, // make pico trk
kFALSE, // make trigger
kFALSE, // is EMCal train
1., // track eff
kTRUE, // do AOD track prop
kTRUE, // modify match
kFALSE, // use old bit
kFALSE, // trigger QA
4); // cent bin
//=============================================================================
gROOT->LoadMacro("$ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskEmcalJet.C");
/*AliEmcalJetTask *taskAkt = AddTaskEmcalJet(sUsedTrksRD.Data(),
sUsedClusRD.Data(),
1, // anti-kT
dJetRadius,
nJetType,
dTrkPtCut,
dCluEnCut);*/
//=============================================================================
AliAnalysisTaskEmcalFjetSparseMaker *taskEmcalSM = new AliAnalysisTaskEmcalFjetSparseMaker("AliAnalysisTaskEmcalFjetSM");
//taskEmcalSM->SetForceBeamType(0);
//taskEmcalSM->SetIsPythia(kTRUE);
/*taskEmcalSM->SetCaloTriggerPatchInfoName("EmcalTriggers");
taskEmcalSM->SetTriggerTypeSel(AliAnalysisTaskEmcal::kJ2);
taskEmcalSM->SetMainPatchType(AliAnalysisTaskEmcal::kTriggerLevel1Jet);*/
AliParticleContainer *pContTrks = taskEmcalSM->AddParticleContainer(sUsedTrksRD.Data());
pContTrks->SetParticlePtCut(dTrkPtCut);
AliClusterContainer *pContClus = taskEmcalSM->AddClusterContainer(sUsedClusRD.Data());
pContClus->SetClusPtCut(dCluEnCut);
/*AliJetContainer *pContJets = taskEmcalSM->AddJetContainer(taskAkt->GetName(), sCutType.Data(), dJetRadius);
pContJets->SetPercAreaCut(dJetAreaCut);
pContJets->SetJetPtCut(dJetPtCut);
//pContJets->SetRhoName(sUsedRho.Data());
//pContJets->SetLocalRhoName();
pContJets->SetLeadingHadronType(nLeading);
pContJets->ConnectParticleContainer(taskEmcalSM->GetParticleContainer());
pContJets->ConnectClusterContainer(taskEmcalSM->GetClusterContainer());
pContJets->SetNameTitle(taskEmcalSM->GetNameJet().Data(),
taskEmcalSM->GetNameJet().Data());*/
mgr->AddTask(taskEmcalSM);
mgr->ConnectInput(taskEmcalSM, 0, mgr->GetCommonInputContainer());
mgr->ConnectOutput(taskEmcalSM, 1, mgr->CreateContainer("listGeneralH",
TList::Class(),
AliAnalysisManager::kOutputContainer,
AliAnalysisManager::GetCommonFileName()));
mgr->ConnectOutput(taskEmcalSM, 2, mgr->CreateContainer("listEmcalEvH",
TList::Class(),
AliAnalysisManager::kOutputContainer,
"AnalysisResults_EmcalEvH.root"));
mgr->ConnectOutput(taskEmcalSM, 3, mgr->CreateContainer("listEmcalTrk",
TList::Class(),
AliAnalysisManager::kOutputContainer,
"AnalysisResults_EmcalTrk.root"));
mgr->ConnectOutput(taskEmcalSM, 4, mgr->CreateContainer("listEmcalClu",
TList::Class(),
AliAnalysisManager::kOutputContainer,
"AnalysisResults_EmcalClu.root"));
/*mgr->ConnectOutput(taskEmcalSM, 5, mgr->CreateContainer("listEmcalJet",
TList::Class(),
AliAnalysisManager::kOutputContainer,
"AnalysisResults_EmcalJet.root"));*/
//=============================================================================
TObjArray *aTasks = mgr->GetTasks();
for (Int_t i=0; i<aTasks->GetEntries(); i++) {
AliAnalysisTaskEmcal *taskJE = dynamic_cast<AliAnalysisTaskEmcal*>(aTasks->At(i));
if (taskJE) if (taskJE->InheritsFrom("AliAnalysisTaskEmcal")) {
taskJE->SetVzRange(-10., 10.);
if (!sCentEsti.IsNull()) {
taskJE->SetCentralityEstimator(sCentEsti.Data());
taskJE->SetCentRange(dCentMin, dCentMax);
}
}
if (wTriggerMask) {
AliAnalysisTaskSE *taskSE = dynamic_cast<AliAnalysisTaskSE*>(aTasks->At(i));
if (taskSE) if (!(taskSE->InheritsFrom("AliPhysicsSelectionTask"))) {
taskSE->SelectCollisionCandidates(wTriggerMask);
}
}
}
//=============================================================================
return kFALSE;
}
//_____________________________________________________________________________________________________
AliAnalysisTask* AddTask_TrainTreeAnalysis(Bool_t isGrid=kFALSE, TString prod="LHC10h", Int_t reducedEventType=-1, Bool_t writeTree=kTRUE, TString tasks="dst", TString pathForMacros="$ALICE_PHYSICS/PWGDQ/reducedTree/macros") {
//
// AddTask macro for the TreeMaker analysis task and eventual other dependent tasks
//
//TString alienPath = alienPathForMacros;
//TString alirootPath("$ALICE_PHYSICS/PWGDQ/reducedTree/macros");
TObjArray* tasksArray = tasks.Tokenize(";");
if(tasksArray->GetEntries()==0) {
printf("ERROR: In AddTask_TrainTreeAnalysis(), no tasks are provided as argument, nothing to add to the AliAnalysisManager! \n");
return 0x0;
}
AliAnalysisManager* mgr = AliAnalysisManager::GetAnalysisManager();
//++++++++++++++++++++++++++++++++++++++++++++++++++++++++
// check if the dst TreeMaker is included in the list of tasks and add it to the train if needed
Bool_t makeTrees = kFALSE;
AliAnalysisTask* treeMaker = 0x0;
// NOTE: if the tree maker needs to be in the train, then this has to be the first task specified in the tasks string
// Also, the name specified in the "tasks" argument has to contain the keyword "dst", case insensitive
TString treeTask = tasksArray->At(0)->GetName();
treeTask.ToLower();
if(treeTask.Contains("dst")) makeTrees = kTRUE;
if(makeTrees) {
TString addTaskFullPath = "";
if(isGrid) {
//Int_t errCode = gSystem->Exec(Form("alien_cp %s/AddTask_%s.C .", alienPath.Data(), tasksArray->At(0)->GetName()));
Int_t errCode = gSystem->Exec(Form("alien_cp %s/AddTask_%s.C .", pathForMacros.Data(), tasksArray->At(0)->GetName()));
if(errCode) {
//printf("ERROR: In AddTask_TrainTreeAnalysis(), could not copy %s/AddTask_%s.C from the grid directory %s \n", alienPath.Data(), tasksArray->At(0)->GetName(), alienPath.Data());
printf("ERROR: In AddTask_TrainTreeAnalysis(), could not copy %s/AddTask_%s.C from the grid directory %s \n", pathForMacros.Data(), tasksArray->At(0)->GetName(), pathForMacros.Data());
return 0x0;
}
else addTaskFullPath = gSystem->pwd();
}
else {
//addTaskFullPath = alirootPath.Data();
addTaskFullPath = pathForMacros.Data();
}
addTaskFullPath += "/AddTask_";
addTaskFullPath += tasksArray->At(0)->GetName();
addTaskFullPath += ".C";
if (!gROOT->GetListOfGlobalFunctions()->FindObject(Form("AddTask_%s", tasksArray->At(0)->GetName()))){
gROOT->LoadMacro(addTaskFullPath.Data());
}
gROOT->ProcessLine(Form("AddTask_%s(%d,%d,\"%s\")", tasksArray->At(0)->GetName(), reducedEventType, (writeTree ? 1 : 0), prod.Data()));
treeMaker = (AliAnalysisTask*)mgr->GetTasks()->FindObject("DSTTreeMaker");
if(!treeMaker) {
printf("ERROR: In AddTask_TrainTreeAnalysis(), something went wrong! The tree maker could not be added to the analysis manager!");
return 0x0;
}
if(tasksArray->GetEntries()==1) // no other tasks to be included, return
return treeMaker;
} // end if(makeTrees)
//+++++++++++++++++++++++++++++++++++++++++++++++++++++++++
// check if there are consumer tasks for the tree maker and add them to the train
AliAnalysisTask* firstConsumerTask = 0x0;
for(Int_t i=(makeTrees ? 1 : 0); i<tasksArray->GetEntries(); ++i) {
TString task = tasksArray->At(i)->GetName();
TString addTaskFullPath = "";
if(isGrid) {
//Int_t errCode = gSystem->Exec(Form("alien_cp %s/AddTask_%s.C .", alienPath.Data(), task.Data()));
Int_t errCode = gSystem->Exec(Form("alien_cp %s/AddTask_%s.C .", pathForMacros.Data(), task.Data()));
if(errCode) {
//printf("ERROR: In AddTask_TrainTreeAnalysis(), could not copy %s/AddTask_%s.C from the grid directory %s \n", alienPath.Data(), task.Data(), alienPath.Data());
printf("ERROR: In AddTask_TrainTreeAnalysis(), could not copy %s/AddTask_%s.C from the grid directory %s \n", pathForMacros.Data(), task.Data(), pathForMacros.Data());
return 0x0;
}
else addTaskFullPath = gSystem->pwd();
}
else {
//addTaskFullPath = alirootPath.Data();
addTaskFullPath = pathForMacros.Data();
}
addTaskFullPath = Form("%s/AddTask_%s.C", addTaskFullPath.Data(), task.Data());
if (!gROOT->GetListOfGlobalFunctions()->FindObject(Form("AddTask_%s", task.Data()))){
gROOT->LoadMacro(addTaskFullPath.Data());
}
Int_t runMode = AliAnalysisTaskReducedEventProcessor::kUseOnTheFlyReducedEvents;
if(!makeTrees) runMode = AliAnalysisTaskReducedEventProcessor::kUseEventsFromTree;
gROOT->ProcessLine(Form("AddTask_%s(kTRUE,%d,\"%s\")", tasksArray->At(i)->GetName(), runMode, prod.Data()));
if(!firstConsumerTask) firstConsumerTask = (AliAnalysisTask*)mgr->GetTasks()->At(mgr->GetTasks()->GetEntries()-1);
}
if(treeMaker) return treeMaker;
if(firstConsumerTask) return firstConsumerTask;
return 0x0;
}
// 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;
}
