Int_t iAODhandler = 1; // Analysis produces an AOD or dAOD's
Int_t iESDfilter = 0; // ESD to AOD filter (barrel + muon tracks)
Int_t iPhysicsSelection = 1; // ESD to AOD filter (barrel + muon tracks)
+Bool_t useTender = kFALSE; // use tender wagon
Bool_t kUseKinefilter = kFALSE; // use Kinematics filter
Bool_t kUseMuonfilter = kFALSE; // use Kinematics filter
TString kCommonOutputFileName = "PWG4_JetTasksOutput.root";
//== grid plugin setup variables
Bool_t kPluginUse = kTRUE; // do not change
Bool_t kPluginUseProductionMode = kFALSE; // use the plugin in production mode
-TString kPluginRootVersion = "v5-27-05"; // *CHANGE ME IF MORE RECENT IN GRID*
+TString kPluginRootVersion = "v5-27-06"; // *CHANGE ME IF MORE RECENT IN GRID*
TString kPluginAliRootVersion = "v4-19-15-AN"; // *CHANGE ME IF MORE RECENT IN GRID*
Bool_t kPluginMergeViaJDL = kTRUE; // merge via JDL
Bool_t kPluginFastReadOption = kFALSE; // use xrootd tweaks
TString kLocalDataList = "local_deltaaod.txt"; // Change local xml dataset for local interactive analysis
// == local process variables
+TString kPluginMode;
// Temporaries.
// Main analysis train macro. If a configuration file is provided, all parameters
// are taken from there but may be altered by CheckModuleFlags.
- if (strlen(config_file) && !LoadConfig(config_file)) return;
+ // these flag may be needed by the config file
+ kPluginMode = plugin_mode;
+
+ if (strlen(config_file) && !LoadConfig(config_file)) return;
if(iOffset)kProofOffset = iOffset;
TString smode(analysis_mode);
smode.ToUpper();
if (kSaveTrain)WriteConfig();
- // Check compatibility of selected modules
+ // Check compatibility of selected modules
CheckModuleFlags(smode);
// gROOT->ProcessLine(".trace");
if (iAODanalysis) printf("= AOD analysis =\n");
else printf("= ESD analysis =\n");
if (iPhysicsSelection) printf("= Physics selection =\n");
+ if (useTender) printf("= Using tender =\n");
if (iESDfilter) printf("= ESD filter =\n");
if (iJETAN) printf("= Jet analysis =\n");
printf("==================================================================\n");
// For now connection to top input container and common AOD output container
// is done in this macro, but in future these containers will be connected
// from each task configuration macro.
+
+ //
+ // Tender and supplies. Needs to be called for every event.
+ //
+ if (useTender) {
+ gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/TenderSupplies/AddTaskTender.C");
+ AliAnalysisTaskSE *tender = AddTaskTender(kTRUE);
+ // tender->SelectCollisionCandidates();
+ tender->SetDebugLevel(2);
+ }
+
+
+
if(iPhysicsSelection && !iAODanalysis){
gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPhysicsSelection.C");
AliPhysicsSelectionTask* physSelTask = AddTaskPhysicsSelection(kIsMC,kTRUE,kTRUE); // last flag also adds information on
gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskJetCluster.C");
AliAnalysisTaskJetCluster *taskCl = 0;
if(iPWG4Cluster&1){
- taskCl = AddTaskJetCluster("AOD","",kHighPtFilterMask,iPhysicsSelection,"KT");
+ taskCl = AddTaskJetCluster("AOD","",kHighPtFilterMask,iPhysicsSelection,"KT",0.4,0,1); // this one is for the background jets
+ taskCl = AddTaskJetCluster("AOD","",kHighPtFilterMask,iPhysicsSelection,"KT",0.5,0,1); // this one is for the background jets
+ taskCl = AddTaskJetCluster("AOD","",kHighPtFilterMask,iPhysicsSelection,"KT",0.6,0,1); // this one is for the background jets
+ taskCl = AddTaskJetCluster("AOD","",kHighPtFilterMask,iPhysicsSelection,"KT",0.7,0,1); // this one is for the background jets
+
if (!taskCl) ::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskCluster cannot run for this train conditions - EXCLUDED");
}
if(iPWG4Cluster&2){
}
else selection = 1<<0|1<<1|1<<2|1<<3|1<<4|1<<5|1<<7|1<<8|1<<9;
AddTaskJetClusterDelta(kHighPtFilterMask,kUseAODMC,iPhysicsSelection,"ANTIKT",selection);
- AddTaskJetCluster("AOD","",kHighPtFilterMask,iPhysicsSelection,"ANTIKT",0.4,1);
+ // AddTaskJetCluster("AOD","",kHighPtFilterMask,iPhysicsSelection,"ANTIKT",0.4,0,1);
}
}
taskFrag = AddTaskFragmentationFunction(1<<1,kHighPtFilterMask);
taskFrag = AddTaskFragmentationFunction(1<<2,kHighPtFilterMask);
taskFrag = AddTaskFragmentationFunction(1<<3,kHighPtFilterMask);
- taskFrag = AddTaskFragmentationFunction(1<<11); // w/o acceptance cuts
+ taskFrag = AddTaskFragmentationFunction(1<<5,kHighPtFilterMask);
+ taskFrag = AddTaskFragmentationFunction(1<<11); // w/o acceptance cuts
taskFrag = AddTaskFragmentationFunction(1<<12); // with acceptance cuts
// anti-kt
taskFrag = AddTaskFragmentationFunction(1<<21); // w/o acceptance cuts
taskjetServ = AddTaskJetServices();
if (!taskjetServ) ::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskJetServices cannot run for this train conditions - EXCLUDED");
if(kGridRunRange[0]>0)taskjetServ->SetRunRange(kGridRunRange[0],kGridRunRange[1]);
- else taskjetServ->SetRunRange(100000,150000);
- if(!kIsMC) taskjetServ->SetRealData(kTRUE);
+ else taskjetServ->SetRunRange(110000,160000);
+ taskjetServ->SetMCData(kIsMC);
taskjetServ->SetUsePhysicsSelection((Bool_t)iPhysicsSelection);
taskjetServ->SetDebugLevel(0);
}
gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskLeadingTrackUE.C");
AliAnalysisTaskLeadingTrackUE *taskLeadingUE = AddTaskLeadingTrackUE(kUseMC);
if (!taskLeadingUE) ::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTasLeadingTrackkUE cannot run for this train conditions - EXCLUDED");
- taskLeadingUE->SetFilterBit(64);
+ // taskLeadingUE->SetFilterBit(64);
}
}
if(iPWG4PtQAMC){
gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskPWG4HighPtQAMC.C");
- AliPWG4HighPtQAMC *taskQAMC = AddTaskPWG4HighPtQAMC(kGridDataSet.Data(),0);
- if(kUseMC)taskQAMC = AddTaskPWG4HighPtQAMC(kGridDataSet.Data());
+ AliPWG4HighPtQAMC *taskQAMC = 0;
+ if(kUseMC){
+ if(iPWG4PtQAMC&1)taskQAMC = AddTaskPWG4HighPtQAMC(kGridDataSet.Data(),0);
+ if(iPWG4PtQAMC&1)taskQAMC = AddTaskPWG4HighPtQAMC(kGridDataSet.Data(),1);
+ }
if (!taskQAMC) ::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskQAMC cannot run for this train conditions - EXCLUDED");
}
// TString gcArguments = "-run-on-train -run-jet -run-neutralmeson -run-cf -use-own-xyz";
// TString gcArguments = "-run-on-train -run-jet -run-neutralmeson -run-cf -use-own-xyz";
TString gcArguments = "-run-on-train -run-jet -run-omega-meson -use-own-xyz -run-neutralmeson -no-aod";
- TString kGCAnalysisCutSelectionId="900356200010031";
- gcArguments.Append(Form(" -set-cut-selection %s ",kGCAnalysisCutSelectionId.Data()));
+ // TString kGCAnalysisCutSelectionId="9003562000100310";
+ // TString kGCAnalysisCutSelectionId="9003562000100312";
+ // gcArguments.Append(Form(" -set-cut-selection %s ",kGCAnalysisCutSelectionId.Data()));
if(!kIsMC)gcArguments += " -mc-off";
AliAnalysisTaskGammaConversion * taskGammaConversion = AddTaskGammaConversion(gcArguments,mgr->GetCommonInputContainer());
gSystem->ChangeDirectory(cdir);
{
// Load common analysis libraries.
Bool_t success = kTRUE;
+ if (useTender) {
+ if (!LoadLibrary("TENDER", mode, kTRUE) ||
+ !LoadLibrary("TENDERSupplies", mode, kTRUE)) return kFALSE;
+ }
if (iESDfilter) {
/*
if (!LoadLibrary("PWG3base", mode, kTRUE) ||
// Optionally set maximum number of input files/subjob (default 100, put 0 to ignore)
plugin->SetSplitMaxInputFileNumber(kGridFilesPerJob);
// Optionally set number of failed jobs that will trigger killing waiting sub-jobs.
- plugin->SetMaxInitFailed(5);
+ // plugin->SetMaxInitFailed(5);
// Optionally resubmit threshold.
// plugin->SetMasterResubmitThreshold(90);
// Optionally set time to live (default 30000 sec)