// AliRoot.
Bool_t kUsePAR = kFALSE; // use par files for extra libs
Bool_t kUseCPAR = kFALSE; // use par files for common libs
-Bool_t kFillAOD = kFALSE; // switch of AOD filling for on the fly analysis
+Bool_t kFillAOD = kTRUE; // switch of AOD filling for on the fly analysis
+Bool_t kFilterAOD = kTRUE;
+Float_t kJetTriggerPtCut = 20; // pT for jet trigger in case of iFilter==2
Int_t kSaveAOD = 8; // Bit switch 1 = Full AOD 2 = Jet AOD , 4 = PartCorr, 8 = JCORRAN
//== general input and output variables
Int_t iAODanalysis = 1; // Analysis on input AOD's
+Int_t iFilterAnalysis = 0; // Analysis on input AOD's
Int_t iAODhandler = 1; // Analysis produces an AOD or dAOD's
+Int_t iCentralitySelection = 0; // Use the centrality
Int_t iESDfilter = 0; // ESD to AOD filter (barrel + muon tracks)
Int_t iPhysicsSelection = 1; // ESD to AOD filter (barrel + muon tracks)
+UInt_t iPhysicsSelectionFlag = 1; // set by pyshics selection and passed to the task, kMB, kUserDefined etc
+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";
+TString kCaloQAOutputFileName = "PWG4_CaloQAOutput.root";
//== general process variables
Bool_t kSkipTerminate = kTRUE; // Do not call Teminate
Bool_t kUseDate = kFALSE; // use date in train name
Bool_t kUseDebug = kTRUE; // activate debugging
-Int_t kUseSysInfo = 0; // activate debugging
-Long_t kNumberOfEvents = 1234567890; // number of events to process from the chain
+Int_t kErrorIgnoreLevel = -1; // takes the errror print level from .rootrc
+// From TError.h:
+// const Int_t kUnset = -1;
+// const Int_t kPrint = 0;
+// const Int_t kInfo = 1000;
+// const Int_t kWarning = 2000;
+// const Int_t kError = 3000;
+// const Int_t kBreak = 4000;
+// const Int_t kSysError = 5000;
+// const Int_t kFatal = 6000;
+Int_t kUseSysInfo = 0; // activate debugging
+Long64_t kNumberOfEvents = 1234567890; // number of events to process from the chain
Bool_t kUseMC = kTRUE; // use MC info
Bool_t kIsMC = kTRUE; // is MC info, if false it overwrites Use(AOD)MC
Bool_t kUseAODMC = kTRUE; // use MC infA
Bool_t kUseTR = kFALSE; // use track references
Bool_t kUseAODTags = kFALSE; // use AOD tags
Bool_t kSaveTrain = kFALSE; // save train configuration as:
+Bool_t kIsPbPb = kFALSE; // Pb+Pb
// ### Analysis modules to be included. Some may not be yet fully implemented.
//==============================================================================
Int_t iJETAN = 1; // Jet analysis (PWG4) // 1 write standard 2 write non-standard jets, 3 wrtie both
+Int_t iJETSUBTRACT = 1; // Jet background subtration
+TList kJetListSpectrum; // list of jets contains TObjString of possible jet finder names
+TExMap kJetMapSpectrum; // Maps the jet finder pairs to be used in the spectrum task second number negative no pair other wise (j1+1) + (1000 * (j2+1)) +10000 * (j3+1)
+TExMap kJetBackMapSpectrum; // Maps the jet finder pairs with the background branch used, just for countint of trackrefs
+Int_t kJetMapOffset[3] = {10000,100,1};
+TString kDefaultJetBranch = ""; // is currently set when filled (iJETAN or clusters) or from config macro
+TString kDefaultJetBackgroundBranch = ""; // is currently set when filled (jet clsuters
+TString kDefaultJetBackgroundBranchCut1 = ""; // is currently set when filled (jet clsuters
+TString kDefaultJetBackgroundBranch_extra = ""; // is currently set when filled (jet clsuters)
+TString kJetSubtractBranches = ""; // is currently set when filled (jet clsuters
+TString kJetSubtractBranchesCut1 = ""; // is currently set when filled (jet clsuters
+TString kJetSubtractBranches_extra = ""; // is currently set when filled (jet clsuters
+
+TString kDefaultJetBranchMC = ""; // is currently set when filled (iJETAN or clusters) or from config macro
+TString kDefaultJetBackgroundBranchMC = ""; // is currently set when filled (jet clsuters
+TString kDefaultJetBranchMC2 = ""; // is currently set when filled (iJETAN or clusters) or from config macro
+TString kDefaultJetBackgroundBranchMC2 = ""; // is currently set when filled (jet clsuters
+TString kJetSubtractMask1 = "B0";
+TString kJetSubtractMask2 = "B%d";
Int_t iDIJETAN = 1;
Int_t iJETANLib = 1;
Int_t iPWG1QASym = 0; // Eva's QA task compiled on the fly...
+Int_t iPWG4FastEmbedding = 0; // Generate non-standard AOD for embedding
Int_t iPWG4JetTasks = 0; // all jet tasks flag for lib laoding
Int_t iPWG4JetServices = 0; // jet spectrum analysis
Int_t iPWG4JetSpectrum = 0; // jet spectrum analysis
+Int_t iPWG4JetResponse = 0; // jet response matrix
Int_t iPWG4JCORRAN = 0; // JCORRAN module
Int_t iPWG4UE = 0; // Underlying Event analysis
+Int_t iPWG4LeadingUE = 0; // Underlying Event analysis
+Int_t iPWG4CorrectionsUE = 0; // Underlying Event analysis
Int_t iPWG4TmpSourceSara = 0; // Underlying Event analysis not in svn
-Int_t iPWG4TmpSourceFrag = 0; // Bastian's Fragmentation function not in svn
+Int_t iPWG4Fragmentation = 1; // Official Fragmentation
Int_t iPWG4JetChem = 0; // Jet chemistry
Int_t iPWG4PtQAMC = 0; // Marta's QA tasks
+Int_t iPWG4PtTrackQA = 0; // Marta's QA tasks
Int_t iPWG4PtSpectra = 0; // Marta's QA tasks
Int_t iPWG4PtQATPC = 0; // Marta's QA tasks
Int_t iPWG4Cosmics = 0; // Marta's Cosmics Taks
Int_t iPWG4ThreeJets = 0; // Sona's thrust task
+Int_t iPWG4QGSep = 0; // Sona's QG Separation task
+Int_t iPWG4Minijet = 0; // Eva's Mini Jet Task cluster task
Int_t iPWG4KMeans = 0; // Andreas' KMeans task
Int_t iPWG4Cluster = 0; // CKB cluster task
Int_t iEMCUtilLibs = 0; // Flag to satisfy dependence on EMC utils
Int_t iPWG4JetCorr = 0; // Paul's jet corr analysis
Int_t iPWG4Tagged = 0; // Gustavo's part corr analysis
Int_t iPWG4omega3pi = 0; // Omega to 3 pi analysis (PWG4)
+Int_t iPWG4GammaConvLib = 0; // Gamma Conversio
Int_t iPWG4GammaConv = 0; // Gamma Conversio
-Int_t kHighPtFilterMask = 16; // change depending on the used AOD Filter
+Int_t iPWG4CaloConv = 0; // Gamma Conversio
+Int_t kHighPtFilterMask = 32; // change depending on the used AOD Filter
TString kDeltaAODJetName = "AliAOD.Jets.root";
+TString kDeltaAODJetNameInput = "";
TString kDeltaAODJCORRANName = "AliAOD.JCORRAN.root";
-TString kDeltaAODPartCorrName = "deltaAODPartCorr.root";
-
+TString kDeltaAODPartCorrName = "AliAOD.PartCorr.root";
+TString kFastEmbeddingAOD = "emb/AliAOD.root";
+TString kFastEmbAODList = "";
//==============================================================================
// ### PROOF Steering varibales
//== grid plugin setup variables
Bool_t kPluginUse = kTRUE; // do not change
Bool_t kPluginUseProductionMode = kFALSE; // use the plugin in production mode
-TString kPluginRootVersion = "v5-26-00b-7"; // *CHANGE ME IF MORE RECENT IN GRID*
-TString kPluginAliRootVersion = "v4-19-15-AN"; // *CHANGE ME IF MORE RECENT IN GRID*
+TString kPluginRootVersion = "v5-28-00c"; // *CHANGE ME IF MORE RECENT IN GRID*
+TString kPluginAliRootVersion = "v4-21-01a-AN"; // *CHANGE ME IF MORE RECENT IN GRID*
Bool_t kPluginMergeViaJDL = kTRUE; // merge via JDL
Bool_t kPluginFastReadOption = kFALSE; // use xrootd tweaks
Bool_t kPluginOverwriteMode = kTRUE; // overwrite existing collections
// == grid plugin input and output variables
TString kGridDatadir = "/alice/sim/PDC_08b/LHC09a1/AOD/";
+Int_t kGridMaxRunsFromList = 999999999;
+Int_t kGridOffsetRunFromList = 0; // skip the first n runs from the list
TString kGridLocalRunList = "";
TString kGridOutdir = ""; // AliEn output directory. If blank will become output_<kTrainName>
TString kGridDataSet = ""; // sub working directory not to confuse different run xmls
-Int_t kGridRunRange[2] = {0, -1}; // Set the run range
+TString kGridExtraAliendirLevel = ""; // sub working directory not to confuse different run xmls
+Int_t kGridRunRange[2] = {0, -1}; // Set the run range
TString kGridRunPattern = "%03d"; // important for leading zeroes!!
TString kGridPassPattern = "";
TString kGridExtraFiles = ""; // files that will be added to the input list in the JDL...
-Int_t kGridMaxMergeFiles = 12; // Number of files merged in a chunk grid run range
+Int_t kGridMaxMergeFiles = 25; // Number of files merged in a chunk grid run range
TString kGridMergeExclude = "AliAOD.root"; // Files that should not be merged
TString kGridOutputStorages = "disk=2"; // Make replicas on the storages
// == grid process variables
TString kLocalDataList = "local_deltaaod.txt"; // Change local xml dataset for local interactive analysis
// == local process variables
+TString kPluginMode = "";
+TString kAnalysisMode = "";
// Temporaries.
TString anaSources = "";
// Function signatures
class AliAnalysisAlien;
+class AliAnalysisManager;
//______________________________________________________________________________
void AnalysisTrainPWG4Jets(const char *analysis_mode="local",
const char *plugin_mode="",
- const char *config_file="",Int_t iOffset = 0)
+ const char *config_file="",Int_t iOffset = 0,Int_t iTotal = 0)
{
// 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;
+ kAnalysisMode = analysis_mode;
+
+ if (strlen(config_file) && !LoadConfig(config_file)) return;
+ if(iTotal>0)kGridMaxRunsFromList = iTotal; // overwrites the settings from config file
+ if(iOffset)kGridOffsetRunFromList = iOffset;
+ if(iOffset)kProofOffset = iOffset;
+
- 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");
+ // gROOT->ProcessLine(".trace");
printf("==================================================================\n");
printf("=========== RUNNING ANALYSIS TRAIN %s IN %s MODE ==========\n", kTrainName.Data(),smode.Data());
printf("==================================================================\n");
- printf("= Configuring analysis train for: =\n");
+ printf("= Configuring analysis train for: =\n");
if (iAODanalysis) printf("= AOD analysis =\n");
- else printf("= ESD analysis =\n");
- if (iPhysicsSelection) printf("= Physics selection =\n");
+ else printf("= ESD analysis =\n");
+ if (iPhysicsSelection) printf("= Physics selection =\n");
+ if(iCentralitySelection)printf("= Centrality selection =\n");
+ if (useTender) printf("= Using tender =\n");
if (iESDfilter) printf("= ESD filter =\n");
if (iJETAN) printf("= Jet analysis =\n");
printf("==================================================================\n");
- printf(":: use Fill AOD %d\n", (UInt_t)kFillAOD);
- printf(":: use Save AOD %d\n", (UInt_t)kSaveAOD);
- printf(":: use MC truth %d\n", (UInt_t)kUseMC);
- printf(":: use KINE filter %d\n", (UInt_t)kUseKinefilter);
- printf(":: use track refs %d\n", (UInt_t)kUseTR);
- printf(":: use tags %d\n", (UInt_t)kUseESDTags);
- printf(":: use AOD tags %d\n", (UInt_t)kUseAODTags);
- printf(":: use debugging %d\n", (UInt_t)kUseDebug);
- printf(":: use PAR files %d\n", (UInt_t)kUsePAR);
- printf(":: use AliEn plugin %d\n", (UInt_t)kPluginUse);
- printf(":: use PWG1 QA sym %d\n", iPWG1QASym);
- printf(":: use PWG4 Source Sara %d\n",iPWG4TmpSourceSara);
- printf(":: use PWG4 Source BB %d\n",iPWG4TmpSourceFrag);
- printf(":: use PWG4 Jet Chem %d\n",iPWG4JetChem);
- printf(":: use PWG4 Jet tasks %d\n",iPWG4JetTasks);
- printf(":: use PWG4 Jet Services %d\n",iPWG4JetServices);
- printf(":: use PWG4 Jet Spectrum %d\n",iPWG4JetSpectrum);
- printf(":: use PWG4 JCORRAN %d\n",iPWG4JCORRAN);
- printf(":: use PWG4 UE %d \n",iPWG4UE);
- printf(":: use PWG4 Pt QA MC %d\n",iPWG4PtQAMC);
- printf(":: use PWG4 Pt Spectra %d\n",iPWG4PtSpectra);
- printf(":: use PWG4 Pt QA TPC %d\n",iPWG4PtQATPC);
- printf(":: use PWG4 Cosmics %d\n",iPWG4Cosmics);
- printf(":: use PWG4 Three Jets %d\n",iPWG4ThreeJets);
- printf(":: use PWG4 KMeans %d\n",iPWG4KMeans);
- printf(":: use PWG4 Cluster %d\n",iPWG4Cluster);
- printf(":: use PWG4 Part Corr %d\n",iPWG4PartCorr);
- printf(":: use PWG4 Calo QA %d\n",iPWG4CaloQA);
- printf(":: use PWG4 Jet Corr %d\n",iPWG4JetCorr);
- printf(":: use PWG4 JCORRAN %d\n",iPWG4JCORRAN);
- printf(":: use PWG4 Tagged %d\n",iPWG4Tagged);
- printf(":: use PWG4 omega to 3 pi %d\n",iPWG4omega3pi);
- printf(":: use PWG4 Gamma Conv %d\n",iPWG4GammaConv);
- printf(":: use HighPt FilterMask %d\n",kHighPtFilterMask);
+
+ char *printMask = ":: %20s %10d\n";
+ printf(printMask,"Fill AOD",(UInt_t)kFillAOD);
+ printf(printMask,"Save AOD", (UInt_t)kSaveAOD);
+ printf(printMask,"MC truth", (UInt_t)kUseMC);
+ printf(printMask,"KINE filter", (UInt_t)kUseKinefilter);
+ printf(printMask,"track refs", (UInt_t)kUseTR);
+ printf(printMask,"tags", (UInt_t)kUseESDTags);
+ printf(printMask,"AOD tags", (UInt_t)kUseAODTags);
+ printf(printMask,"debugging", (UInt_t)kUseDebug);
+ printf(printMask,"PAR files", (UInt_t)kUsePAR);
+ printf(printMask,"AliEn plugin", (UInt_t)kPluginUse);
+ printf(printMask,"JETAN subtract", (UInt_t)iJETSUBTRACT);
+ printf(printMask,"PWG1 QA sym", iPWG1QASym);
+ printf(printMask,"PWG4 Source Sara",iPWG4TmpSourceSara);
+ printf(printMask,"PWG4 Fragmentation",iPWG4Fragmentation);
+ printf(printMask,"PWG4 Jet Chem",iPWG4JetChem);
+ printf(printMask,"PWG4 Jet tasks",iPWG4JetTasks);
+ printf(printMask,"PWG4 Jet Services",iPWG4JetServices);
+ printf(printMask,"PWG4 Jet Spectrum",iPWG4JetSpectrum);
+ printf(printMask,"PWG4 JCORRAN",iPWG4JCORRAN);
+ printf(printMask,"PWG4 UE",iPWG4UE);
+ printf(printMask,"PWG4 Leading UE",iPWG4LeadingUE);
+ printf(printMask,"PWG4 Corrections UE",iPWG4CorrectionsUE);
+ printf(printMask,"PWG4 Pt QA MC",iPWG4PtQAMC);
+ printf(printMask,"PWG4 Pt QA track",iPWG4PtTrackQA);
+ printf(printMask,"PWG4 Pt Spectra",iPWG4PtSpectra);
+ printf(printMask,"PWG4 Pt QA TPC",iPWG4PtQATPC);
+ printf(printMask,"PWG4 Cosmics",iPWG4Cosmics);
+ printf(printMask,"PWG4 Three Jets",iPWG4ThreeJets);
+ printf(printMask,"PWG4 QGSep",iPWG4QGSep);
+ printf(printMask,"PWG4 Minijet",iPWG4Minijet);
+ printf(printMask,"PWG4 KMeans",iPWG4KMeans);
+ printf(printMask,"PWG4 Cluster",iPWG4Cluster);
+ printf(printMask,"PWG4 Part Corr",iPWG4PartCorr);
+ printf(printMask,"PWG4 Calo QA",iPWG4CaloQA);
+ printf(printMask,"PWG4 Jet Corr",iPWG4JetCorr);
+ printf(printMask,"PWG4 JCORRAN",iPWG4JCORRAN);
+ printf(printMask,"PWG4 Tagged",iPWG4Tagged);
+ printf(printMask,"PWG4 omega to 3 pi ",iPWG4omega3pi);
+ printf(printMask,"PWG4 Gamma Conv",iPWG4GammaConv);
+ printf(printMask,"PWG4 Calo Conv",iPWG4CaloConv);
+ printf(printMask,"HighPt FilterMask",kHighPtFilterMask);
//==========================================================================
// Connect to back-end system
// AOD input handler
AliAODInputHandler *aodH = new AliAODInputHandler();
mgr->SetInputEventHandler(aodH);
- if (iPWG4JetTasks) aodH->AddFriend(Form("deltas/%s",kDeltaAODJetName.Data()));
- if (iPWG4PartCorr) aodH->AddFriend(Form("deltas/%s"kDeltaAODJetName.Data()));
+ if (kDeltaAODJetNameInput.Length()){
+ Printf("Adding Friend %s",kDeltaAODJetNameInput.Data());
+ aodH->AddFriend(kDeltaAODJetNameInput.Data());
+ }
+ // if (iPWG4PartCorr) aodH->AddFriend(Form("deltas/%s"kDeltaAODJetName.Data()));
} else {
// ESD input handler
AliESDInputHandler *esdHandler = new AliESDInputHandler();
AliAODHandler* aodHandler = new AliAODHandler();
aodHandler->SetOutputFileName("AliAOD.root");
aodHandler->SetFillAODforRun(kFillAOD);
-
- mgr->SetOutputEventHandler(aodHandler);
//
- if (iAODanalysis) {
-
- // aodHandler->SetCreateNonStandardAOD();
- // if (iJETAN)aodHandler->SetOutputFileName(kDeltaAODJetName.Data());
- }
+ mgr->SetOutputEventHandler(aodHandler);
AliAnalysisDataContainer * cout_aod = mgr->GetCommonOutputContainer();
cout_aod->SetSpecialOutput();
}
if(kGridMergeExclude.Length())kGridMergeExclude += " ";
kGridMergeExclude += "syswatch.root";
}
-
else{
AliLog::SetGlobalLogLevel(AliLog::kError);
}
+
+
//==========================================================================
// Create the chain. In this example it is created only from ALIEN files but
// can be done to work in batch or grid mode as well.
// 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("$ALICE_ROOT/ANALYSIS/TenderSupplies/AddTaskTender.C");
+ AliAnalysisTaskSE *tender = AddTaskTender(kTRUE);
+ // tender->SelectCollisionCandidates();
+ tender->SetDebugLevel(2);
+ }
+
+
+ Float_t fTrackEtaWindow = 0.9;
+ Float_t fJetEtaWindow = 0.5;
+
+ /*
+ if(kIsPbPb){// for pass1
+ Float_t fTrackEtaWindow = 0.8;
+ Float_t fJetEtaWindow = 0.4;
+ }
+ */
+
+
if(iPhysicsSelection && !iAODanalysis){
gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPhysicsSelection.C");
- AliPhysicsSelectionTask* physSelTask = AddTaskPhysicsSelection(kIsMC,kTRUE,kTRUE); // last flag also adds information on
+ Int_t iTriggerHIC = 0;
+ Bool_t rejectBkg = true;
+ if(kIsPbPb){
+ iTriggerHIC = 2;
+ rejectBkg = false; // for the moment...
+ }
+ AliPhysicsSelectionTask* physSelTask = AddTaskPhysicsSelection(kIsMC,rejectBkg);
+
+ mgr->RegisterExtraFile("EventStat_temp.root");
+ mgr->AddStatisticsTask();
}
+ else{
+ iPhysicsSelectionFlag = AliVEvent::kMB;
+ }
+
+ if(kIsPbPb&&!iAODanalysis){
+
+ // has to run before AOD filter
+ gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskCentrality.C");
+ AliCentralitySelectionTask *taskC = AddTaskCentrality();
+ if (!taskC) ::Warning("AnalysisTrainPWG4Jets", "AliCentralitySelectionTask cannot run for this train conditions - EXCLUDED");
+
+ gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskEventplane.C");
+ AliEPSelectionTask *taskEP = AddTaskEventplane();
+ if (!taskEP) ::Warning("AnalysisTrainPWG4Jets", "AliEventplan cannot run for this train conditions - EXCLUDED");
+ }
+
if (iESDfilter && !iAODanalysis) {
// ESD filter task configuration.
- gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskESDFilter.C");
- AliAnalysisTaskESDfilter *taskesdfilter = AddTaskESDFilter(kUseKinefilter,kUseMuonfilter);
+ gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskESDFilterPWG4Train.C");
+ // switch on centrality make for PbPb
+ AliAnalysisTaskESDfilter *taskesdfilter = AddTaskESDFilter(kUseKinefilter); // carefull, if physics selection is enabled you may get not primary vertex pointer later on...
+ taskesdfilter->SetEnableFillAOD(!kFilterAOD);
+ taskesdfilter->DisableV0s();
+ taskesdfilter->DisableCascades();
+ taskesdfilter->DisableKinks();
+ taskesdfilter->DisablePmdClusters();
+ taskesdfilter->DisableCaloClusters();
+ taskesdfilter->DisableCells();
+
if(kIsMC){
mgr->RegisterExtraFile("pyxsec_hists.root");
if(kGridMergeExclude.Length())kGridMergeExclude += " ";
mgr->ConnectInput (tagTask, 0, mgr->GetCommonInputContainer());
mgr->ConnectOutput(tagTask, 1, coutTags);
}
-
+
+ if (iPWG4FastEmbedding) {
+ gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskFastEmbedding.C");
+ AliAnalysisTaskFastEmbedding *taskEmbedding = 0;
+ if(kFastEmbAODList.Length()) taskEmbedding = AddTaskFastEmbedding(kFastEmbAODList, 1);
+ else taskEmbedding = AddTaskFastEmbedding(kFastEmbeddingAOD, 0);
+ taskEmbedding->SetJetBranch("jetsAOD_UA104_B0_Filter00256_Cut01000");
+ // taskEmbedding->SetEvtSelecMode(AliAnalysisTaskFastEmbedding::kEventsAll);
+ // taskEmbedding->SetDebugLevel(10);
+ }
+
// Jet analysis
if (iJETAN) {
gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskJets.C");
AliAnalysisTaskJets *taskjets = 0;
- if(iJETAN&1)taskjets = AddTaskJets(kHighPtFilterMask);
+ if(iJETAN&1){
+ /*
+ taskjets = AddTaskJets(kHighPtFilterMask);
+ taskjets->SetName("StandardJets");
+ taskjets->SetNonStdBranch("");
+ */
+ }
if(iJETAN&2){
- UInt_t selection = 0;
- if(!kFillAOD) selection = 0xffffff; //&~(1<<13);
- else selection = 0xffffff&~(1<<13);// selection = 1<<0|1<<1|1<<2|1<<5|1<<6|1<<7|1<<8|1<<9|1<<10|1<<11|1<<12;
- AddTaskJetsDelta(kDeltaAODJetName.Data(),kHighPtFilterMask,kUseAODMC,selection);
+ // Set only few jet finders backgroudn subtraction w an wo
+
+ taskjets = AddTaskJets("AOD","UA1",0.4,kHighPtFilterMask,1.,0); // no background subtraction
+ if(kDeltaAODJetName.Length()>0)taskjets->SetNonStdOutputFile(kDeltaAODJetName.Data());
+ TString cTmp("");
+ cTmp = taskjets->GetNonStdBranch();
+ if(cTmp.Length())kJetListSpectrum.Add(new TObjString(cTmp.Data()));
+
+ taskjets = AddTaskJets("AOD","UA1",0.4,kHighPtFilterMask,2.,0); // no background subtraction
+ if(kDeltaAODJetName.Length()>0)taskjets->SetNonStdOutputFile(kDeltaAODJetName.Data());
+ TString cTmp("");
+ cTmp = taskjets->GetNonStdBranch();
+ if(cTmp.Length())kJetListSpectrum.Add(new TObjString(cTmp.Data()));
+
+
+ // STANDARD UA jet finders pT cut 1 GeV background mode 2 R = 0.4
+ if(kIsPbPb){
+ taskjets = AddTaskJets("AOD","UA1",0.4,kHighPtFilterMask,1.,2); // background subtraction
+ if(kDeltaAODJetName.Length()>0)taskjets->SetNonStdOutputFile(kDeltaAODJetName.Data());
+ cTmp = taskjets->GetNonStdBranch();
+ if(cTmp.Length())kJetListSpectrum.Add(new TObjString(cTmp.Data()));
+ taskjets = AddTaskJets("AOD","UA1",0.4,kHighPtFilterMask,2.,2); // background subtraction
+ if(kDeltaAODJetName.Length()>0)taskjets->SetNonStdOutputFile(kDeltaAODJetName.Data());
+ cTmp = taskjets->GetNonStdBranch();
+ if(cTmp.Length())kJetListSpectrum.Add(new TObjString(cTmp.Data()));
+ }
+
+
+
+ // SICONE
+ /*
+ taskjets = AddTaskJets("AOD","SISCONE",0.4,kHighPtFilterMask,0.15,0); //no background subtraction to be done later....
+ if(kDeltaAODJetName.Length()>0)taskjets->SetNonStdOutputFile(kDeltaAODJetName.Data());
+ cTmp = taskjets->GetNonStdBranch();
+ if(cTmp.Length()>0)kJetSubtractBranches += Form("%s ",cTmp.Data());
+ if(cTmp.Length())kJetListSpectrum.Add(new TObjString(cTmp.Data()));
+ */
+ if(kUseAODMC){
+ // STANDARD UA jet finders pT cut 1 GeV background mode 2 R = 0.4
+ if(kIsPbPb){
+ taskjets = AddTaskJets("AODMC","UA1",0.4,kHighPtFilterMask,1.,2); // background subtraction
+ cTmp = taskjets->GetNonStdBranch();
+ if(cTmp.Length())kJetListSpectrum.Add(new TObjString(cTmp.Data()));
+ taskjets = AddTaskJets("AODMC2","UA1",0.4,kHighPtFilterMask,1.,2); // background subtraction
+ cTmp = taskjets->GetNonStdBranch();
+ if(cTmp.Length())kJetListSpectrum.Add(new TObjString(cTmp.Data()));
+ }
+ else{
+ taskjets = AddTaskJets("AODMC","UA1",0.4,kHighPtFilterMask,1.,0); // no background subtraction
+ cTmp = taskjets->GetNonStdBranch();
+ if(cTmp.Length())kJetListSpectrum.Add(new TObjString(cTmp.Data()));
+ taskjets = AddTaskJets("AODMC2","UA1",0.4,kHighPtFilterMask,1.,0); // no background subtraction
+ cTmp = taskjets->GetNonStdBranch();
+ if(cTmp.Length())kJetListSpectrum.Add(new TObjString(cTmp.Data()));
+ }
+ }
+ if(kDeltaAODJetName.Length()>0)mgr->RegisterExtraFile(kDeltaAODJetName.Data());
}
if (!taskjets) ::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskJets cannot run for this train conditions - EXCLUDED");
}
+
+ if (iPWG4FastEmbedding && iJETAN) {
+ AliAnalysisTaskJets *taskEmbJets = AddTaskJets("AODextra", "FASTJET", 0.4, kHighPtFilterMask);
+ taskEmbJets->ReadAODFromOutput();
+ kJetSubtractBranches_extra += Form("%s ", taskEmbJets->GetNonStdBranch());
+
+ taskEmbJets = AddTaskJets("AODextraonly", "FASTJET", 0.4, kHighPtFilterMask);
+ taskEmbJets->ReadAODFromOutput();
+
+ taskEmbJets = AddTaskJets("AODextra", "UA1", 0.4, kHighPtFilterMask,1.,0);
+ taskEmbJets->ReadAODFromOutput();
+ taskEmbJets = AddTaskJets("AODextraonly", "UA1", 0.4, kHighPtFilterMask,1.,0);
+ taskEmbJets->ReadAODFromOutput();
+ taskEmbJets = AddTaskJets("AODextra", "UA1", 0.4, kHighPtFilterMask,1.,2);
+ taskEmbJets->ReadAODFromOutput();
+ }
+
+ if(iPWG4Cluster){
+ gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskJetCluster.C");
+ AliAnalysisTaskJetCluster *taskCl = 0;
+ Float_t fCenUp = 0;
+ Float_t fCenLo = 0;
+ if(kIsPbPb&&!kIsMC){
+ fCenLo = 0;
+ fCenUp = 80;
+ }
+ if(iPWG4Cluster&1){
+
+ if(kIsPbPb){
+ taskCl = AddTaskJetCluster("AOD","",kHighPtFilterMask,iPhysicsSelectionFlag,"KT",0.4,0,1, kDeltaAODJetName.Data(),0.15,fTrackEtaWindow,0); // this one is for the background and random jets, random cones with no skip
+ taskCl->SetBackgroundCalc(kTRUE);
+ taskCl->SetNRandomCones(1);
+ taskCl->SetEventSelection(kTRUE); // saves some computing time, not all vertices are processed
+ // taskCl->SetDebugLevel(11);
+ taskCl->SetCentralityCut(fCenLo,fCenUp);
+ taskCl->SetGhostEtamax(fTrackEtaWindow);
+ kDefaultJetBackgroundBranch = Form("%s_%s",AliAODJetEventBackground::StdBranchName(),taskCl->GetJetOutputBranch());
+ kJetListSpectrum.Add(new TObjString(taskCl->GetJetOutputBranch()));
+ kJetListSpectrum.Add(new TObjString(Form("%sRandomConeSkip%02d",taskCl->GetJetOutputBranch(),0)));
+ kJetListSpectrum.Add(new TObjString(Form("%sRandomCone_random",taskCl->GetJetOutputBranch())));
+ kJetSubtractBranches += Form("%s%s ",taskCl->GetJetOutputBranch(),"RandomConeSkip00");
+ kJetSubtractBranches += Form("%s%s ",taskCl->GetJetOutputBranch(),"RandomCone_random");
+
+ taskCl = AddTaskJetCluster("AOD","",kHighPtFilterMask,iPhysicsSelectionFlag,"KT",0.4,0,1, kDeltaAODJetName.Data(),2.0,fTrackEtaWindow,0); // this one is for the background and random jets, random cones with no skip
+ taskCl->SetEventSelection(kTRUE); // saves some computing time, not all vertices are processed
+ taskCl->SetNRandomCones(1);
+ taskCl->SetBackgroundCalc(kTRUE);
+ taskCl->SetCentralityCut(fCenLo,fCenUp);
+ taskCl->SetGhostEtamax(fTrackEtaWindow);
+ if(iAODanalysis==2)taskCl->SetAODTrackInput(kTRUE);
+ kDefaultJetBackgroundBranchCut1 = Form("%s_%s",AliAODJetEventBackground::StdBranchName(),taskCl->GetJetOutputBranch());
+ kJetSubtractBranchesCut1 += Form("%s%s ",taskCl->GetJetOutputBranch(),"RandomConeSkip00");
+ kJetSubtractBranchesCut1 += Form("%s%s ",taskCl->GetJetOutputBranch(),"RandomCone_random");
+ kJetListSpectrum.Add(new TObjString(taskCl->GetJetOutputBranch()));
+ kJetListSpectrum.Add(new TObjString(Form("%sRandomConeSkip%02d",taskCl->GetJetOutputBranch(),0)));
+ kJetListSpectrum.Add(new TObjString(Form("%sRandomCone_random",taskCl->GetJetOutputBranch())));
+
+ if (iPWG4FastEmbedding) {
+ AliAnalysisTaskJetCluster *taskClEmb = 0;
+ taskClEmb = AddTaskJetCluster("AODextra","",kHighPtFilterMask,iPhysicsSelectionFlag,"KT",0.4,0,1, kDeltaAODJetName.Data(),0.15,fTrackEtaWindow); // this one is for the background and random jets
+ taskCl->SetEventSelection(kTRUE); // saves some computing time, not all vertices are processed
+ taskClEmb->SetBackgroundCalc(kTRUE);
+ taskClEmb->SetCentralityCut(fCenLo,fCenUp);
+ taskClEmb->SetGhostEtamax(fTrackEtaWindow);
+ if(iAODanalysis==2)taskClEmb->SetAODTrackInput(kTRUE);
+ kDefaultJetBackgroundBranch_extra = Form("%s_%s",AliAODJetEventBackground::StdBranchName(),taskClEmb->GetJetOutputBranch());
+
+ taskClEmb = AddTaskJetCluster("AODextraonly","",kHighPtFilterMask,iPhysicsSelectionFlag,"KT",0.4,0,1, kDeltaAODJetName.Data(),0.15,fTrackEtaWindow); // this one is for the background and random jets
+ taskCl->SetEventSelection(kTRUE); // saves some computing time, not all vertices are processed
+ taskClEmb->SetBackgroundCalc(kFALSE);
+ taskClEmb->SetCentralityCut(fCenLo,fCenUp);
+ taskClEmb->SetGhostEtamax(fTrackEtaWindow);
+ if(iAODanalysis==2)taskClEmb->SetAODTrackInput(kTRUE);
+
+ taskClEmb = AddTaskJetCluster("AODextra","",kHighPtFilterMask,iPhysicsSelectionFlag,"ANTIKT",0.4,0,1,kDeltaAODJetName.Data(),0.15,fTrackEtaWindow);
+ taskCl->SetEventSelection(kTRUE); // saves some computing time, not all vertices are processed
+ taskClEmb->SetCentralityCut(fCenLo,fCenUp);
+ taskClEmb->SetBackgroundBranch(kDefaultJetBackgroundBranch_extra.Data());
+ kJetSubtractBranches_extra += Form("%s ",taskClEmb->GetJetOutputBranch());
+ if(iAODanalysis==2)taskClEmb->SetAODTrackInput(kTRUE);
+
+ taskClEmb = AddTaskJetCluster("AODextraonly","",kHighPtFilterMask,iPhysicsSelectionFlag,"ANTIKT",0.4,0,1,kDeltaAODJetName.Data(),0.15,fTrackEtaWindow);
+ taskClEmb->SetCentralityCut(fCenLo,fCenUp);
+ if(iAODanalysis==2)taskClEmb->SetAODTrackInput(kTRUE);
+ }
+
+ taskCl = AddTaskJetCluster("AOD","",kHighPtFilterMask,iPhysicsSelectionFlag,"KT",0.2,0,1, kDeltaAODJetName.Data(),0.15); // this one is for the background and random jets
+ taskCl->SetEventSelection(kTRUE); // saves some computing time, not all vertices are processed
+ taskCl->SetBackgroundCalc(kTRUE);
+ taskCl->SetCentralityCut(fCenLo,fCenUp);
+ taskCl->SetGhostEtamax(fTrackEtaWindow);
+ kJetListSpectrum.Add(new TObjString(taskCl->GetJetOutputBranch()));
+ if(iAODanalysis==2)taskCl->SetAODTrackInput(kTRUE);
+ }
+ else{
+ taskCl = AddTaskJetCluster("AOD","",kHighPtFilterMask,iPhysicsSelectionFlag,"KT",0.6,0,1,kDeltaAODJetName.Data(),0.15); // this one is for the background jets
+ taskCl->SetEventSelection(kTRUE); // saves some computing time, not all vertices are processed
+ taskCl->SetBackgroundCalc(kTRUE);
+ kDefaultJetBackgroundBranch = Form("%s_%s",AliAODJetEventBackground::StdBranchName(),taskCl->GetJetOutputBranch());
+ taskCl->SetGhostEtamax(fTrackEtaWindow);
+ if(iAODanalysis==2)taskCl->SetAODTrackInput(kTRUE);
+ kJetListSpectrum.Add(new TObjString(taskCl->GetJetOutputBranch()));
+
+ taskCl = AddTaskJetCluster("AOD","",kHighPtFilterMask,iPhysicsSelectionFlag,"KT",0.4,0,1,kDeltaAODJetName.Data(),0.15);
+ taskCl->SetEventSelection(kTRUE); // saves some computing time, not all vertices are processed
+ taskCl->SetBackgroundCalc(kTRUE);
+ taskCl->SetGhostEtamax(fTrackEtaWindow);
+ if(iAODanalysis==2)taskCl->SetAODTrackInput(kTRUE);
+ kJetListSpectrum.Add(new TObjString(taskCl->GetJetOutputBranch()));
+ }
+
+ taskCl = AddTaskJetCluster("AOD","",kHighPtFilterMask,iPhysicsSelectionFlag,"ANTIKT",0.4,2,1,kDeltaAODJetName.Data(),0.15);
+ taskCl->SetEventSelection(kTRUE); // saves some computing time, not all vertices are processed
+ taskCl->SetCentralityCut(fCenLo,fCenUp);
+ if(kIsPbPb)taskCl->SetBackgroundBranch(kDefaultJetBackgroundBranch.Data());
+
+
+ if(iFilterAnalysis==2){
+ taskCl->SetJetTriggerPtCut(kJetTriggerPtCut);
+ }
+
+
+ // taskCl->SetDebugLevel(3);
+
+ taskCl->SetNRandomCones(1);
+ if(iAODanalysis==2)taskCl->SetAODTrackInput(kTRUE);
+ kDefaultJetBranch = taskCl->GetJetOutputBranch();
+ kJetSubtractBranches += Form("%s ",taskCl->GetJetOutputBranch());
+ kJetSubtractBranches += Form("%s%s ",taskCl->GetJetOutputBranch(),"RandomConeSkip02");
+ kJetSubtractBranches += Form("%s%s ",taskCl->GetJetOutputBranch(),"RandomCone_random");
+ kJetListSpectrum.Add(new TObjString(taskCl->GetJetOutputBranch()));
+ kJetListSpectrum.Add(new TObjString(Form("%sRandomConeSkip%02d",taskCl->GetJetOutputBranch(),2)));
+ kJetListSpectrum.Add(new TObjString(Form("%sRandomCone_random",taskCl->GetJetOutputBranch())));
+
+ taskCl = AddTaskJetCluster("AOD","",kHighPtFilterMask,iPhysicsSelectionFlag,"ANTIKT",0.4,2,1,kDeltaAODJetName.Data(),2.0);
+ taskCl->SetEventSelection(kTRUE); // saves some computing time, not all vertices are processed
+ taskCl->SetCentralityCut(fCenLo,fCenUp);
+ if(iAODanalysis==2)taskCl->SetAODTrackInput(kTRUE);
+ if(kIsPbPb)taskCl->SetBackgroundBranch(kDefaultJetBackgroundBranchCut1.Data());
+ kJetSubtractBranchesCut1 += Form("%s ",taskCl->GetJetOutputBranch());
+ kJetListSpectrum.Add(new TObjString(taskCl->GetJetOutputBranch()));
+
+ // tmp track qa...
+ taskCl = AddTaskJetCluster("AOD","",1<<8,iPhysicsSelectionFlag,"ANTIKT",0.4,2,1,kDeltaAODJetName.Data(),2.0);
+ taskCl->SetEventSelection(kTRUE); // saves some computing time, not all vertices are processed
+ taskCl->SetCentralityCut(fCenLo,fCenUp);
+ taskCl->SetFilterMask(1<<4|1<<8,1);
+
+ taskCl = AddTaskJetCluster("AOD","",kHighPtFilterMask,iPhysicsSelectionFlag,"ANTIKT",0.2,0,1,kDeltaAODJetName.Data(),0.15);
+ taskCl->SetCentralityCut(fCenLo,fCenUp);
+ taskCl->SetEventSelection(kTRUE); // saves some computing time, not all vertices are processed
+ if(iAODanalysis==2)taskCl->SetAODTrackInput(kTRUE);
+ if(kIsPbPb)taskCl->SetBackgroundBranch(kDefaultJetBackgroundBranch.Data());
+ kJetSubtractBranches += Form("%s ",taskCl->GetJetOutputBranch());
+ kJetListSpectrum.Add(new TObjString(taskCl->GetJetOutputBranch()));
+
+ if(kUseAODMC){
+ if(kIsPbPb){
+ taskCl = AddTaskJetCluster("AODMC","",kHighPtFilterMask,iPhysicsSelectionFlag,"KT",0.4,0,1, kDeltaAODJetName.Data(),0.15,fTrackEtaWindow); // this one is for the background and random jets
+ taskCl->SetEventSelection(kTRUE); // saves some computing time, not all vertices are processed
+ taskCl->SetBackgroundCalc(kTRUE);
+ taskCl->SetGhostEtamax(0.9);
+ kDefaultJetBackgroundBranchMC = Form("%s_%s",AliAODJetEventBackground::StdBranchName(),taskCl->GetJetOutputBranch());
+ if(iAODanalysis==2)taskCl->SetAODTrackInput(kTRUE);
+ kJetListSpectrum.Add(new TObjString(taskCl->GetJetOutputBranch()));
+
+ taskCl = AddTaskJetCluster("AODMC2","",kHighPtFilterMask,iPhysicsSelectionFlag,"KT",0.4,0,1, kDeltaAODJetName.Data(),0.15); // this one is for the background and random jets
+ taskCl->SetEventSelection(kTRUE); // saves some computing time, not all vertices are processed
+ taskCl->SetBackgroundCalc(kTRUE);
+ taskCl->SetGhostEtamax(fTrackEtaWindow);
+ kDefaultJetBackgroundBranchMC2 = Form("%s_%s",AliAODJetEventBackground::StdBranchName(),taskCl->GetJetOutputBranch(),fTrackEtaWindow);
+ if(iAODanalysis==2)taskCl->SetAODTrackInput(kTRUE);
+ kJetListSpectrum.Add(new TObjString(taskCl->GetJetOutputBranch()));
+ }
+ else{
+ taskCl = AddTaskJetCluster("AODMC","",kHighPtFilterMask,iPhysicsSelectionFlag,"KT",0.6,0,1, kDeltaAODJetName.Data(),0.15,fTrackEtaWindow); // this one is for the background and random jets
+ taskCl->SetEventSelection(kTRUE); // saves some computing time, not all vertices are processed
+ taskCl->SetBackgroundCalc(kTRUE);
+ taskCl->SetGhostEtamax(fTrackEtaWindow);
+ kDefaultJetBackgroundBranchMC = Form("%s_%s",AliAODJetEventBackground::StdBranchName(),taskCl->GetJetOutputBranch());
+ kJetListSpectrum.Add(new TObjString(taskCl->GetJetOutputBranch()));
+
+ taskCl = AddTaskJetCluster("AODMC2","",kHighPtFilterMask,iPhysicsSelectionFlag,"KT",0.6,0,1, kDeltaAODJetName.Data(),0.15,fTrackEtaWindow); // this one is for the background and random jets
+ taskCl->SetEventSelection(kTRUE); // saves some computing time, not all vertices are processed
+ taskCl->SetBackgroundCalc(kTRUE);
+ taskCl->SetGhostEtamax(fTrackEtaWindow);
+ kDefaultJetBackgroundBranchMC2 = Form("%s_%s",AliAODJetEventBackground::StdBranchName(),taskCl->GetJetOutputBranch());
+ if(iAODanalysis==2)taskCl->SetAODTrackInput(kTRUE);
+ kJetListSpectrum.Add(new TObjString(taskCl->GetJetOutputBranch()));
+ // pp background calcs...
+ }
+
+ taskCl = AddTaskJetCluster("AODMC","",kHighPtFilterMask,iPhysicsSelectionFlag,"ANTIKT",0.4,0,1, kDeltaAODJetName.Data(),0.15,fTrackEtaWindow);
+ taskCl->SetGhostEtamax(fTrackEtaWindow);
+ taskCl->SetEventSelection(kTRUE); // saves some computing time, not all vertices are processed
+ if(kIsPbPb)taskCl->SetBackgroundBranch(kDefaultJetBackgroundBranchMC.Data());
+ kDefaultJetBranchMC = taskCl->GetJetOutputBranch();
+ if(iAODanalysis==2)taskCl->SetAODTrackInput(kTRUE);
+ kJetListSpectrum.Add(new TObjString(taskCl->GetJetOutputBranch()));
+
+ taskCl = AddTaskJetCluster("AODMC2","",kHighPtFilterMask,iPhysicsSelectionFlag,"ANTIKT",0.4,0,1, kDeltaAODJetName.Data(),0.15,fTrackEtaWindow);
+ taskCl->SetEventSelection(kTRUE); // saves some computing time, not all vertices are processed
+ if(kIsPbPb)taskCl->SetBackgroundBranch(kDefaultJetBackgroundBranchMC2.Data());
+ kDefaultJetBranchMC2 = taskCl->GetJetOutputBranch();
+ if(iAODanalysis==2)taskCl->SetAODTrackInput(kTRUE);
+ kJetListSpectrum.Add(new TObjString(taskCl->GetJetOutputBranch()));
+ }
+
+
+ if (!taskCl) ::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskCluster cannot run for this train conditions - EXCLUDED");
+ }
+ }
+
+
+ if(iJETSUBTRACT&&kJetSubtractBranches.Length()){
+ gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskJetBackgroundSubtract.C");
+ AliAnalysisTaskJetBackgroundSubtract *taskSubtract = 0;
+ if(kJetSubtractBranches.Length()){
+
+
+
+
+ for(int iB = 1;iB<3;iB++){
+ if(iB>2)continue;
+ taskSubtract = AddTaskJetBackgroundSubtract(kJetSubtractBranches,iB,kJetSubtractMask1.Data(),kJetSubtractMask2.Data());
+ taskSubtract->SetBackgroundBranch(kDefaultJetBackgroundBranch.Data()); taskSubtract->SelectCollisionCandidates(iPhysicsSelectionFlag);
+ if(kDeltaAODJetName.Length()>0)taskSubtract->SetNonStdOutputFile(kDeltaAODJetName.Data());
+ // taskSubtract->SetDebugLevel(10);
+ TString cTmp;
+ TObjArray *objArr = kJetSubtractBranches.Tokenize(" ");
+ for(int iJB = 0;iJB<objArr->GetEntries();iJB++){
+ TObjString *ostr = (TObjString*)objArr->At(iJB);
+ cTmp = ostr->GetString().Data();
+ cTmp.ReplaceAll(kJetSubtractMask1.Data(),Form(kJetSubtractMask2.Data(),iB));
+ kJetListSpectrum.Add(new TObjString(cTmp.Data()));
+ }
+
+ // taskSubtract->SetDebugLevel(3);
+ if(iB==2){
+ if(kJetSubtractBranches.Contains(kDefaultJetBranch.Data())&&kIsPbPb){
+ kDefaultJetBranch.ReplaceAll(taskSubtract->GetToReplace(),Form(taskSubtract->GetReplacementMask(),taskSubtract->GetSubtractionMethod()));
+ }
+ }
+
+ }
+
+ //
+ // cut1
+ Int_t iB = 2;
+ taskSubtract = AddTaskJetBackgroundSubtract(kJetSubtractBranchesCut1,iB,kJetSubtractMask1.Data(),kJetSubtractMask2.Data(),"Cut2000");
+ taskSubtract->SetBackgroundBranch(kDefaultJetBackgroundBranchCut1.Data());
+ taskSubtract->SelectCollisionCandidates(iPhysicsSelectionFlag);
+ if(kDeltaAODJetName.Length()>0)taskSubtract->SetNonStdOutputFile(kDeltaAODJetName.Data());
+
+ objArr = kJetSubtractBranchesCut1.Tokenize(" ");
+ for(int iJB = 0;iJB<objArr->GetEntries();iJB++){
+ TObjString *ostr = (TObjString*)objArr->At(iJB);
+ cTmp = ostr->GetString().Data();
+ cTmp.ReplaceAll(kJetSubtractMask1.Data(),Form(kJetSubtractMask2.Data(),iB));
+ kJetListSpectrum.Add(new TObjString(cTmp.Data()));
+ }
+
+
+ }
+ if(kJetSubtractBranches_extra.Length()){
+ taskSubtract = AddTaskJetBackgroundSubtract(kJetSubtractBranches_extra,2,kJetSubtractMask1.Data(),kJetSubtractMask2.Data(),"extra");
+ taskSubtract->SetBackgroundBranch(kDefaultJetBackgroundBranch_extra.Data());
+ taskSubtract->SelectCollisionCandidates(iPhysicsSelectionFlag);
+ //taskSubtract->SetDebugLevel(3);
+ if(kDeltaAODJetName.Length()>0)taskSubtract->SetNonStdOutputFile(kDeltaAODJetName.Data());
+ if(kJetSubtractBranches_extra.Contains(kDefaultJetBranch.Data())){
+ kDefaultJetBranch.ReplaceAll(taskSubtract->GetToReplace(),Form(taskSubtract->GetReplacementMask(),taskSubtract->GetSubtractionMethod()));
+ }
+ }
+ if (!taskSubtract) ::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskJetBackgroundSubtrac cannot run for this train conditions - EXCLUDED");
+ }
+
if (iDIJETAN) {
gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskDiJets.C");
AliAnalysisTaskDiJets *taskdijets = 0;
if (!taskEta) ::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskEta cannot run for this train conditions - EXCLUDED");
}
- if(iPWG4TmpSourceFrag){
- gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskFragFunc.C");
- UInt_t selection = 1<<2;
- AliAnalysisTaskFragFunc *taskFrag = AddTaskFragFunc(kHighPtFilterMask, kUseAODMC,iPhysicsSelection, selection);
- if (!taskFrag) ::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskFragFunc cannot run for this train conditions - EXCLUDED");
- }
-
-
- if(iPWG4JetChem){
- gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskJetChem.C");
- AliAnalysisTask *taskChem = AddTaskJetChem();
- if (!taskChem) ::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskJetChem cannot run for this train conditions - EXCLUDED");
- }
-
if(iPWG4JetServices){
gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskJetServices.C");
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(104000,125000);
- if(!kIsMC) taskjetServ->SetRealData(kTRUE);
+ else taskjetServ->SetRunRange(110000,160000);
+ taskjetServ->SetMCData(kIsMC);
taskjetServ->SetUsePhysicsSelection((Bool_t)iPhysicsSelection);
- taskjetServ->SetDebugLevel(0);
+ taskjetServ->SetPhysicsSelectionFlag(iPhysicsSelectionFlag); //
+ taskjetServ->SetNonStdFile(kDeltaAODJetName.Data());
+ taskjetServ->SetTrackEtaWindow(fTrackEtaWindow);
+ taskjetServ->SetFilterMask(kHighPtFilterMask);
+ if(kIsPbPb)taskjetServ->SetCollisionType(AliAnalysisTaskJetServices::kPbPb);
+ else taskjetServ->SetCollisionType(AliAnalysisTaskJetServices::kPP);
+ if(kIsPbPb){
+ if(kDeltaAODJetName.Length()>0&&kFilterAOD)taskjetServ->SetFilterAODCollisions(kTRUE);
+ // else if(iAODanalysis)taskjetServ->SetFilterAODCollisions(kTRUE);
+ // taskjetServ->SetDebugLevel(3);
+ taskjetServ->SetZVertexCut(8.);
+ }
+ if(iAODanalysis){
+ //
+ taskjetServ->SetAODInput(kTRUE);
+ }
}
if(iPWG4JetSpectrum){
gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskJetSpectrum2.C");
AliAnalysisTaskJetSpectrum2 *taskjetSpectrum = 0;
+ TString bkgClusters = kDefaultJetBackgroundBranch.Data();
+ bkgClusters.ReplaceAll(Form("%s_",AliAODJetEventBackground::StdBranchName()),"");
+ Printf("############# Possible jet branches ###################");
+ for(int iJF = 0;iJF < kJetListSpectrum.GetSize();iJF++){
+ TObjString *objStr = (TObjString*)kJetListSpectrum.At(iJF);
+ Printf("%3d: %s",iJF+1,objStr->GetString().Data());
+ }
+
+ // Printf("Type q to exit");if(getchar()=='q')return;
if(iPWG4JetSpectrum&1){
- taskjetSpectrum = AddTaskJetSpectrum2("jets","",kHighPtFilterMask,iPhysicsSelection);
- if(!iAODanalysis){
- // taskjetSpectrum = AddTaskJetSpectrum2("jets","tracks32",32,iPhysicsSelection); // tmp hack to give it a different name
- // taskjetSpectrum = AddTaskJetSpectrum2("jets","tracks64",64,iPhysicsSelection);
+ if(kIsPbPb){
+ for(int iJF = 0;iJF < kJetListSpectrum.GetSize();iJF++){
+ Long64_t value = kJetMapSpectrum(iJF+1);
+ Printf("iJF: %d value: %d", iJF+1,(Int_t)value);
+ if(value==0)continue;
+ TObjString *objStr = (TObjString*)kJetListSpectrum.At(iJF);
+ TString bName1 = objStr->GetString().Data();
+ TString bName2[3];
+
+ TObjString *objStrBkg = (TObjString*)kJetListSpectrum.At(iJF);
+ TString bBkgName1("");
+ TString bBkgName2[3];
+
+ Long64_t valueBkg1 = kJetBackMapSpectrum(iJF+1);
+ if(valueBkg1>0){
+ TObjString *objStrBkg = (TObjString*)kJetListSpectrum.At(valueBkg1-1);
+ bBkgName1 = objStrBkg->GetString().Data();
+ }
+ Int_t iPartner = 0;
+ if(value>0){
+ Int_t iJF2 = -1;
+ for(int i = 0;i<3;i++){
+ iJF2 = value/kJetMapOffset[i]-1;
+ value = value%kJetMapOffset[i];
+ Printf("%d %d", iJF2+1,(Int_t)value);
+ if(iJF2>=0&&iJF2<kJetListSpectrum.GetSize()){
+ TObjString *objStr2 = (TObjString*)kJetListSpectrum.At(iJF2);
+ bName2[iPartner] = objStr2->GetString().Data();
+ Long64_t valueBkg2 = kJetBackMapSpectrum(iJF2+1);
+ if(valueBkg2>0){
+ TObjString *objStrBkg2 = (TObjString*)kJetListSpectrum.At(valueBkg2-1);
+ bBkgName2[iPartner] = objStrBkg2->GetString().Data();
+ }
+ iPartner++;
+ }
+ }
+ }
+
+
+ // loop over all centralities
+ for(int ic = 0;ic<5;ic++){
+ if(ic!=0)continue;
+ Bool_t bDone = kFALSE;
+ for(int i = 0;i<TMath::Max(iPartner,1);i++){
+ if(bName2[i].Length()){
+ taskjetSpectrum = AddTaskJetSpectrum2(bName1.Data(),bName2[i].Data(),kDeltaAODJetName.Data(),kHighPtFilterMask,AliVEvent::kMB,0,ic);
+ bDone = kTRUE;
+ }
+ else{
+ if(!bDone){
+ taskjetSpectrum = AddTaskJetSpectrum2(bName1.Data(),bName2[i].Data(),kDeltaAODJetName.Data(),kHighPtFilterMask,AliVEvent::kMB,0,ic);
+ bDone = kTRUE;
+ }
+ else{
+ continue;
+ }
+ }
+ Printf("%s/%s %s/%s",bName1.Data(),bBkgName1.Data(),bName2[i].Data(),bBkgName2[i].Data());
+
+ // setting all the other things...
+ taskjetSpectrum->SetTrackEtaWindow(fTrackEtaWindow);
+ taskjetSpectrum->SetJetEtaWindow(fJetEtaWindow);
+
+ // negative values do not fill the track histos
+ taskjetSpectrum->SetFlagJetType(AliAnalysisTaskJetSpectrum2::kJetGenFull,-1);
+ taskjetSpectrum->SetFlagJetType(AliAnalysisTaskJetSpectrum2::kJetGen,-1);
+ if(!bName1.Contains("ANTIKT")||bName1.Contains("Cone")){
+ taskjetSpectrum->SetFlagJetType(AliAnalysisTaskJetSpectrum2::kJetRecFull,-1);
+ taskjetSpectrum->SetFlagJetType(AliAnalysisTaskJetSpectrum2::kJetRec,-1);
+ }
+
+
+ if(bName2[i].Length()==0){
+ taskjetSpectrum->SetFlagJetType(AliAnalysisTaskJetSpectrum2::kJetGenFull,0);
+ taskjetSpectrum->SetFlagJetType(AliAnalysisTaskJetSpectrum2::kJetGen,0);
+ }
+ if(iAODanalysis==1){
+ taskjetSpectrum->SetAODJetInput(kTRUE);
+ taskjetSpectrum->SetAODTrackInput(kTRUE);
+ }
+ else if (iAODanalysis==2){
+ taskjetSpectrum->SetAODTrackInput(kTRUE);
+ taskjetSpectrum->SetAODJetInput(kFALSE);
+ }
+ // taskjetSpectrum->SetDebugLevel(11);
+ taskjetSpectrum->SetBranchBkgRec(bBkgName1.Data());
+ taskjetSpectrum->SetBranchBkgGen(bBkgName2[i].Data());
+ }
+ }
+ }
+ }
+ else{ // ! PbPb
+ Int_t i = 0;
+
+ taskjetSpectrum = AddTaskJetSpectrum2(kDefaultJetBranch.Data(),
+ "",kDeltaAODJetName.Data(),kHighPtFilterMask,AliVEvent::kMB,0,i);
+
+
+
+ if(kDefaultJetBranchMC.Length()){
+ taskjetSpectrum = AddTaskJetSpectrum2(kDefaultJetBranch.Data(),
+ kDefaultJetBranchMC.Data(),kDeltaAODJetName.Data(),kHighPtFilterMask,AliVEvent::kMB,0,i);
+ // taskjetSpectrum->SetMinJetPt(10);
+ taskjetSpectrum->SetTrackEtaWindow(fTrackEtaWindow);
+ taskjetSpectrum->SetJetEtaWindow(fJetEtaWindow);
+ taskjetSpectrum->SetBranchBkgRec(bkgClusters.Data());
+ taskjetSpectrum->SetBranchBkgGen(bkgClusters.Data());
+ if(iAODanalysis)SetAODInput(taskjetSpectrum);
+ }
+ if(kDefaultJetBranchMC2.Length()){
+ taskjetSpectrum = AddTaskJetSpectrum2(kDefaultJetBranch.Data(),
+ kDefaultJetBranchMC2.Data(),kDeltaAODJetName.Data(),kHighPtFilterMask,AliVEvent::kMB,0,i);
+ // taskjetSpectrum->SetMinJetPt(10);
+ taskjetSpectrum->SetTrackEtaWindow(fTrackEtaWindow);
+ taskjetSpectrum->SetJetEtaWindow(fJetEtaWindow);
+ taskjetSpectrum->SetBranchBkgRec(bkgClusters.Data());
+ taskjetSpectrum->SetBranchBkgGen(bkgClusters.Data());
+ if(iAODanalysis)SetAODInput(taskjetSpectrum);
+ }
+
+ /*
+ TString tmp2(kDefaultJetBranch.Data());
+ tmp2.ReplaceAll(Form(kJetSubtractMask2.Data(),0),Form(kJetSubtractMask2.Data(),2));
+ taskjetSpectrum = AddTaskJetSpectrum2(tmp2.Data(),kDefaultJetBranch.Data(),kDeltaAODJetName.Data(),kHighPtFilterMask,AliVEvent::kMB,0,i);
+ // taskjetSpectrum->SetDebugLevel(3);
+ // taskjetSpectrum->SetMinJetPt(10);
+ taskjetSpectrum->SetBranchBkgRec(bkgClusters.Data());
+ taskjetSpectrum->SetBranchBkgGen(bkgClusters.Data());
+ taskjetSpectrum->SetTrackEtaWindow(0.8);
+ taskjetSpectrum->SetJetEtaWindow(0.4);
+
+ // check the old subtracted vs. the new subtracted
+ TString tmp3(kDefaultJetBranch.Data());
+ tmp3.ReplaceAll(Form(kJetSubtractMask2.Data(),0),Form(kJetSubtractMask2.Data(),3));
+ taskjetSpectrum = AddTaskJetSpectrum2(tmp3.Data(),kDefaultJetBranch.Data(),kDeltaAODJetName.Data(),kHighPtFilterMask,AliVEvent::kMB,0,i);
+ // taskjetSpectrum->SetDebugLevel(3);
+ // taskjetSpectrum->SetMinJetPt(10);
+ taskjetSpectrum->SetBranchBkgRec(bkgClusters.Data());
+ taskjetSpectrum->SetBranchBkgGen(bkgClusters.Data());
+ taskjetSpectrum->SetTrackEtaWindow(0.8);
+ taskjetSpectrum->SetJetEtaWindow(0.4);
+ if(iAODanalysis)SetAODInput(taskjetSpectrum);
+ */
}
if (!taskjetSpectrum) ::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskJetSpectrum2 cannot run for this train conditions - EXCLUDED");
- taskjetSpectrum->SetDebugLevel(1);
}
+ }
+ AliAnalysisManager::SetCommonFileName("PWG4_Fragmentation.root");
+ if(iPWG4Fragmentation){
+ gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskFragmentationFunction.C");
+ AliAnalysisTaskFragmentationFunction *taskFrag = 0;
+ if(kUseAODMC){
+
+ }
+ else{
+
+
+ for(int ic = 1;ic < 5;ic++){
+ // Anti-kT
+ taskFrag = AddTaskFragmentationFunction(1<<23,kHighPtFilterMask, ic);
+ if(kDeltaAODJetName.Length()>0)taskFrag->SetNonStdFile(kDeltaAODJetName.Data());
+ if(iAODanalysis==2)taskFrag->UseAODInputJets(kFALSE);
+
+ // UA1
+ taskFrag = AddTaskFragmentationFunction(1<<0,kHighPtFilterMask, ic);
+ if(kDeltaAODJetName.Length()>0)taskFrag->SetNonStdFile(kDeltaAODJetName.Data());
+ if(iAODanalysis==2)taskFrag->UseAODInputJets(kFALSE);
+
+ // SISCONE
+ if(ic==1){
+ /*
+ taskFrag = AddTaskFragmentationFunction(1<<28,kHighPtFilterMask, ic);
+ taskFrag = AddTaskFragmentationFunction(1<<29,kHighPtFilterMask, ic);
+ taskFrag = AddTaskFragmentationFunction(1<<30,kHighPtFilterMask, ic);
+ */
+
+
+
+ // Anti-kT B2 - B3
+ if(!iAODanalysis==1){
+ taskFrag = AddTaskFragmentationFunction(1<<26,kHighPtFilterMask, ic);
+ if(kDeltaAODJetName.Length()>0)taskFrag->SetNonStdFile(kDeltaAODJetName.Data());
+ if(iAODanalysis==2)taskFrag->UseAODInputJets(kFALSE);
+
+ taskFrag = AddTaskFragmentationFunction(1<<27,kHighPtFilterMask, ic);
+ if(kDeltaAODJetName.Length()>0)taskFrag->SetNonStdFile(kDeltaAODJetName.Data());
+ if(iAODanalysis==2)taskFrag->UseAODInputJets(kFALSE);
+ }
+ }
+
+ }
+
+
+ }
+ if (!taskFrag) ::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskFragmentationFunction cannot run for this train conditions - EXCLUDED");
+ }
+
+ if(iPWG4JetChem){
+ gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskJetChem.C");
+ AliAnalysisTask *taskChem = AddTaskJetChem(kHighPtFilterMask);
+ if (!taskChem) ::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskJetChem cannot run for this train conditions - EXCLUDED");
+ }
+
+ if (iPWG4JetResponse) {
+ gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskJetResponse.C");
+ AliAnalysisTask *taskJetResponse = 0;
- if(iPWG4JetSpectrum&2){
- UInt_t selection = 0;
- if(!iAODanalysis) selection = 0xffffff;
- else selection = 1<<0|1<<1|1<<2|1<<3|1<<4|1<<5|1<<7|1<<8|1<<9;
- AddTaskJetSpectrum2Delta(kHighPtFilterMask,kUseAODMC,iPhysicsSelection,selection);
+ if(iJETAN){
+ taskJetResponse = AddTaskJetResponse("jets", "FASTJET", 0.4, kHighPtFilterMask, 0.15, 0);
+ taskJetResponse = AddTaskJetResponse("jets", "FASTJET", 0.4, kHighPtFilterMask, 0.15, 1);
+
+ taskJetResponse = AddTaskJetResponse("jets", "UA1", 0.4, kHighPtFilterMask, 1., 0);
+ taskJetResponse = AddTaskJetResponse("jets", "UA1", 0.4, kHighPtFilterMask, 1., 2);
+ }
+ if(iPWG4Cluster){
+ taskJetResponse = AddTaskJetResponse("clusters", "ANTIKT", 0.4, kHighPtFilterMask, 0.15, 0);
+ taskJetResponse = AddTaskJetResponse("clusters", "ANTIKT", 0.4, kHighPtFilterMask, 0.15, 1);
}
+ if (!taskJetResponse) ::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskJetResponse cannot run for this train conditions - EXCLUDED");
+
}
+
if(iPWG4JCORRAN){
gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskJCORRANTask.C");
AliJCORRANTask* corran = AddTaskJCORRAN(kDeltaAODJCORRANName.Data(),0);
if(iPWG4UE&1)taskUE = AddTaskUE();
if(iPWG4UE&2){
taskUE =AddTaskUE("jetsAOD_CDF04","CDF", "LJ", "TRANSV","MSP"); //finder not yet in train
- taskUE =AddTaskUE("jetsAOD_CDF07","CDF", "LJ", "TRANSV","MSP");
+ // taskUE =AddTaskUE("jetsAOD_CDF07","CDF", "LJ", "TRANSV","MSP");
taskUE =AddTaskUE("jetsAOD_SISCONE04","CDF", "LJ", "TRANSV","MSP");
- taskUE =AddTaskUE("jetsAOD_SISCONE07","CDF", "LJ", "TRANSV","MSP"); //finder not yet in train
+ // taskUE =AddTaskUE("jetsAOD_SISCONE07","CDF", "LJ", "TRANSV","MSP"); //finder not yet in train
taskUE =AddTaskUE("jetsAOD_ICDF","CDF","LJ","TRANSV","MSP");
taskUE =AddTaskUE("jetsAOD_FASTKT04","CDF", "LJ", "TRANSV","MSP");
- taskUE =AddTaskUE("jetsAOD_FASTKT07","CDF", "LJ", "TRANSV","MSP"); //finder not yet in train
+ // taskUE =AddTaskUE("jetsAOD_FASTKT07","CDF", "LJ", "TRANSV","MSP"); //finder not yet in train
taskUE =AddTaskUE("jetsAOD_NONE","CDF", "MP_eta05", "TRANSV","MSP");
taskUE =AddTaskUE("jetsAOD_NONE","CDF", "MP_eta09", "TRANSV","MSP");
}
if (!taskUE) ::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskUE cannot run for this train conditions - EXCLUDED");
}
+ if(iPWG4LeadingUE){
+ gROOT->LoadMacro("$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);
+ }
+
+
+ if(iPWG4CorrectionsUE){
+ gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskCorrectionsUE.C");
+ AliAnalysisTaskCorrectionsUE *taskCorrectionsUE = 0;
+ if(iPWG4CorrectionsUE&1)taskCorrectionsUE = AddTaskCorrectionsUE("jetsAOD_NONE","CDF","MP_eta05","TRANSV","MSP",kFALSE);
+ if (!taskCorrectionsUE) ::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskCorrectionsUE cannot run for this train conditions - EXCLUDED");
+ }
+
if(iPWG4ThreeJets){
gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskThreeJets.C");
AliAnalysisTaskThreeJets *taskThree = AddTaskThreeJets();
if(!taskThree)::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskThreets cannot run for this train conditions - EXCLUDED");
}
+ if(iPWG4QGSep){
+ gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskQGSep.C");
+ AliAnalysisTaskQGSep *taskQGSep = AddTaskQGSep(kUseMC,iAODanalysis);
+ if(!taskQGSep)::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskQGSep cannot run for this train conditions - EXCLUDED");
+ }
+
+
+ if(iPWG4Minijet){
+ gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskMinijet.C");
+ AliAnalysisTaskMinijet *taskMini = AddTaskMinijet(-1,"esd",kUseMC,kGridDataSet);
+ // if we ha highmult trigger add another task
+ if(!taskMini)::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskMinjet cannot run for this train conditions - EXCLUDED");
+ }
+
+ AliAnalysisManager::SetCommonFileName("PWG4_HighPtQA.root");
if(iPWG4PtQAMC){
gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskPWG4HighPtQAMC.C");
- AliPWG4HighPtQAMC *taskQAMC = AddTaskPWG4HighPtQAMC();
+ AliPWG4HighPtQAMC *taskQAMC = 0;
+ if(kUseMC){
+ if(iPWG4PtQAMC&1){
+ taskQAMC = AddTaskPWG4HighPtQAMCAll(kGridDataSet.Data());
+ }
+ }
if (!taskQAMC) ::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskQAMC cannot run for this train conditions - EXCLUDED");
}
+ if(iPWG4PtTrackQA){
+ gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskPWG4HighPtTrackQA.C");
+ if(iPWG4PtTrackQA&2)AddTaskPWG4HighPtTrackQAAll(kGridDataSet.Data(),kIsPbPb,iAODanalysis);
+ else AddTaskPWG4HighPtTrackQAAllReduced(kGridDataSet.Data(),kIsPbPb,iAODanalysis);
+ }
+
if(iPWG4PtQATPC){
gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskPWG4HighPtQATPConly.C");
AliPWG4HighPtQATPConly *taskQATPC = 0;
- if(iPWG4PtQATPC&1)taskQATPC = AddTaskPWG4HighPtQATPConly(1);
- if(iPWG4PtQATPC&2)taskQATPC = AddTaskPWG4HighPtQATPConly(2);
+ if(iPWG4PtQATPC&1)taskQATPC = AddTaskPWG4HighPtQATPConly(kGridDataSet.Data(),1);
+ if(iPWG4PtQATPC&2)taskQATPC = AddTaskPWG4HighPtQATPConly(kGridDataSet.Data(),2);
if (!taskQATPC) ::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskQATPC cannot run for this train conditions - EXCLUDED");
}
if(iPWG4PtSpectra){
gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskPWG4HighPtSpectra.C");
- AliPWG4HighPtSpectra *taskPtSpectra = AddTaskPWG4HighPtSpectra();
- if (!taskPtSpectra) ::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskPtSpectra cannot run for this train conditions - EXCLUDED");
+ AddTaskPWG4HighPtSpectraAll(kGridDataSet.Data(),kIsPbPb,iAODanalysis);
}
+
if(iPWG4KMeans){
gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskKMeans.C");
AliAnalysisTaskKMeans *taskKMeans = AddTaskKMeans();
if (!taskKMeans) ::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskKMenans cannot run for this train conditions - EXCLUDED");
}
- if(iPWG4Cluster){
- gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskJetCluster.C");
- AliAnalysisTaskJetCluster *taskCl = 0;
- if(iPWG4Cluster&1){
- taskCl = AddTaskJetCluster("AOD","",kHighPtFilterMask,iPhysicsSelection,"KT");
- }
- if(iPWG4Cluster&2){
- UInt_t selection = 0;
- if(!iAODanalysis) selection = 0xffffff;
- else selection = 1<<0|1<<1|1<<2|1<<3|1<<4|1<<5|1<<7|1<<8|1<<9;
- AddTaskJetClusterDelta(kHighPtFilterMask,kUseAODMC,iPhysicsSelection,"KT",selection);
- }
- if(iPWG4Cluster&4){
- UInt_t selection = 0;
- if(!iAODanalysis) selection = 0xffffff;
- else selection = 1<<0|1<<1|1<<2|1<<3|1<<4|1<<5|1<<7|1<<8|1<<9;
- taskCl = AddTaskJetCluster("AOD","",kHighPtFilterMask,iPhysicsSelection,"ANTIKT");
- AddTaskJetClusterDelta(kHighPtFilterMask,kUseAODMC,iPhysicsSelection,"ANTIKT",selection);
- }
-
-
- if (!taskCl) ::Warning("AnalysisTrainPWG4Jets", "AliAnalysisTaskCluster cannot run for this train conditions - EXCLUDED");
-
- }
if(iPWG4PartCorr){
gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskPartCorr.C");
AliAnalysisTaskParticleCorrelation *taskpartcorrPHOS = AddTaskPartCorr("AOD", "PHOS",kFALSE,kIsMC);
if(iPWG4CaloQA){
gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/QA/AddTaskCalorimeterQA.C");
- AliAnalysisTaskParticleCorrelation *taskcaloQA = AddTaskCalorimeterQA("ESD",kFALSE,kIsMC);
+ AliAnalysisTaskParticleCorrelation *taskcaloQA = AddTaskCalorimeterQA("ESD",kFALSE,kIsMC,kCaloQAOutputFileName.Data());
if(!taskcaloQA)::Warning("AnalysisTrainNew", "AliAnalysisTaskParticleCorrelation QA cannot run - EXCLUDED");
+ // if(kCaloQAOutputFileName.Length()>0)mgr->RegisterExtraFile(kCaloQAOutputFileName.Data());
}
if(iPWG4JetCorr){
// TString gcArguments = "-run-on-train -run-jet -run-chic -run-neutralmeson -run-cf";
// 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 -run-neutralmeson";
- TString kGCAnalysisCutSelectionId="9002111000";
- gcArguments.Append(Form("-set-cut-selection %s ",kGCAnalysisCutSelectionId.Data()));
+ TString gcArguments = "-run-on-train -run-jet -run-omega-meson -use-own-xyz -run-neutralmeson -no-aod";
+ // 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);
if (!taskGammaConversion) ::Warning("AnalysisTrainNew", "AliAnalysisTaskGammaConversion cannot run for these train conditions - EXCLUDED");
}
+ if (iPWG4CaloConv) {
+ gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskCaloConv.C");
+ AliAnalysisTaskCaloConv * taskCaloConv = AddTaskCaloConv();
+ if (!taskCaloConv) ::Warning("AnalysisTrainNew", "AliAnalysisTaskCaloConv cannot run for these train conditions - EXCLUDED");
+ }
+
+
//==========================================================================
// FOR THE REST OF THE TASKS THE MACRO AddTaskXXX() is not yet implemented/
TString alien_workdir = gGrid->GetHomeDirectory();
if (iAODanalysis) alien_workdir += "analysisAOD";
else alien_workdir += "analysisESD";
- if(kGridDataSet.Length()>0)alien_workdir += Form("/%s",kGridDataSet.Data());
+ if(kGridDataSet.Length()>0)alien_workdir += Form("/%s%s",kGridDataSet.Data(),kGridExtraAliendirLevel.Data());
AliAnalysisAlien *gridhandler = (AliAnalysisAlien*)mgr->GetGridHandler();
printf("=== AnalysisTrainPWG4Jets:: Registering jdl in the work directory alien://%s/%s, should be done by the manager! ===\n",
alien_workdir.Data(),gridhandler->GetGridOutputDir());
TString dest;
dest = Form("%s/%s/%s.jdl",alien_workdir.Data(),gridhandler->GetGridOutputDir(),kTrainName.Data());
if(AliAnalysisAlien::FileExists(dest.Data())){
- // Printf("%s exist on grid removing...",dest.Data());
- // gGrid->Rm(dest.Data());
+ Printf("%s exist on grid removing...",dest.Data());
+ gGrid->Rm(dest.Data());
}
+ Printf("%s copy ...",dest.Data());
TFile::Cp(Form("file:%s.jdl",kTrainName.Data()),Form("alien://%s",dest.Data()));
TString dest;
dest = Form("%s/%s/%s_merge.jdl",alien_workdir.Data(),gridhandler->GetGridOutputDir(),kTrainName.Data());
if(AliAnalysisAlien::FileExists(dest.Data())){
- // Printf("%s exist on grid removing...",dest.Data());
- // gGrid->Rm(dest.Data());
+ Printf("%s exist on grid removing...",dest.Data());
+ gGrid->Rm(dest.Data());
}
+ Printf("%s copy ...",dest.Data());
TFile::Cp(Form("file:%s_merge.jdl",kTrainName.Data()),Form("alien://%s",dest.Data()));
-
- dest = Form("%s/rootfiles/STEER/LQ1dRef_v1.root",gGrid->GetHomeDirectory());
+ dest = Form("%s/%s/%s_merge_final.jdl",alien_workdir.Data(),gridhandler->GetGridOutputDir(),kTrainName.Data());
if(AliAnalysisAlien::FileExists(dest.Data())){
Printf("%s exist on grid removing...",dest.Data());
gGrid->Rm(dest.Data());
}
- TFile::Cp(Form("file:%s/STEER/LQ1dRef_v1.root",
- gSystem->ExpandPathName("$ALICE_ROOT")),
- Form("alien://%s",dest.Data()));
+ Printf("%s copy ...",dest.Data());
+ TFile::Cp(Form("file:%s_merge.jdl",kTrainName.Data()),Form("alien://%s",dest.Data()));
}
AliLog::SetGlobalLogLevel(AliLog::kError);
if((kUseSysInfo>0&&smode=="LOCAL")||!strcmp(plugin_mode, "test")){
mgr->Write();
fM->Close();
}
-
+
+ // grmpf, aliroot error handler overwrites root
+ gErrorIgnoreLevel = kErrorIgnoreLevel;
+ if(gErrorIgnoreLevel>3000) AliLog::SetGlobalLogLevel(AliLog::kFatal);
StartAnalysis(smode, chain);
-
if((kUseSysInfo>0&&smode=="LOCAL")||!strcmp(plugin_mode, "test")){
for(int i = 0;i < mgr->GetTopTasks()->GetEntries();i++){
mgr->ProfileTask(i);
if (!strcmp(plugin_mode, "offline")&&smode=="GRID"){
// Offline mode path files
// PatchJDL();
- PatchAnalysisMacro();
+ // PatchAnalysisMacro();
}
if (kSaveTrain && smode=="GRID") {
TString alien_workdir = gGrid->GetHomeDirectory();
if (iAODanalysis) alien_workdir += "analysisAOD";
else alien_workdir += "analysisESD";
- if(kGridDataSet.Length()>0)alien_workdir += Form("/%s",kGridDataSet.Data());
+ if(kGridDataSet.Length()>0)alien_workdir += Form("/%s%s",kGridDataSet.Data(),kGridExtraAliendirLevel.Data());
// kGridOutdir = gridhandler->GetGridOutputDir();
printf("=== Registering ConfigTrain.C in the work directory <%s> ===\n",
alien_workdir.Data());
::Error("AnalysisTrainPWG4Jets.C::StartAnalysis", "Grid plugin not initialized");
return;
}
- mgr->StartAnalysis("grid");
+ mgr->StartAnalysis("grid",chain,kNumberOfEvents);
} else {
if (!chain) {
::Error("AnalysisTrainPWG4Jets.C::StartAnalysis", "Cannot create the chain");
return;
}
- mgr->StartAnalysis(mode, chain);
+ // mgr->StartAnalysis(mode, chain);
+ mgr->StartAnalysis(mode, chain,kNumberOfEvents);
}
return;
}
kUseTR = kFALSE;
}
+ // Decide if we have PbPb
+ if(kGridDataSet.CompareTo("LHC10h")==0||kGridDataSet.Contains("LHC10h")) {
+ Printf("Using settings for Pb+Pb");
+ kIsPbPb = true;
+ }
+
+
+
if (iAODanalysis) {
// AOD analysis
if (kUseMC)
if( iPWG4Cosmics)::Info("AnalysisTrainPWG4Jets.C::CheckModuleFlags", "PWG4 Comics disabled in analysis on AOD's");
iPWG4Cosmics = 0;
- if( iPWG4PtSpectra)::Info("AnalysisTrainPWG4Jets.C::CheckModuleFlags", "PWG4 PtQAMC disabled in analysis on AOD's");
- iPWG4PtSpectra = 0;
if(iPWG4KMeans)::Info("AnalysisTrainPWG4Jets.C::CheckModuleFlags", "PWG4KMeans disabled on AOD's");
iPWG4KMeans = 0;
if (iPWG4JetCorr)::Info("AnalysisTrainPWG4Jets.C::CheckModuleFlags", "PWG4Jetcorr disabled on AOD's");
if (iPWG4GammaConv)::Info("AnalysisPWG4Jets.C::CheckModuleFlags", "PWG4gammaconv disabled on AOD's");
iPWG4GammaConv = 0;
iPWG1QASym = 0;
+ iCentralitySelection = 0;
} else {
// ESD analysis
+
+ if(kIsPbPb){
+ iCentralitySelection = 1;
+ }
+
if (!kUseMC){
kUseTR = kFALSE;
kUseKinefilter = kFALSE;
if( iPWG4PtQAMC)::Info("AnalysisTrainPWG4Jets.C::CheckModuleFlags", "PWG4 PtQAMC disabled in analysis without MC");
iPWG4PtQAMC = 0;
-
+ if( iPWG4CorrectionsUE)::Info("AnalysisTrainPWG4Jets.C::CheckModuleFlags", "PWG4 CorrectionsUE disabled in analysis without MC");
+ iPWG4CorrectionsUE = 0;
}
- if (!kUseTR) {
- if(iPWG4PtQAMC)::Info("AnalysisTrainPWG4Jets.C::CheckModuleFlags", "iPWG4QATPCMC disabled if not reading track references");
- iPWG4PtQAMC = 0;
- }
if (iJETAN){
iESDfilter=1;
}
kUseMuonfilter = kFALSE;
}
if(!iJETAN){
- iPWG4JetSpectrum = iPWG4UE = iPWG4ThreeJets = iDIJETAN = 0;
+ iPWG4JetSpectrum = iPWG4UE = iPWG4CorrectionsUE = iPWG4ThreeJets = iPWG4QGSep = iDIJETAN = 0;
}
}
- iPWG4JetTasks = iPWG4JetServices||iPWG4JetSpectrum||iPWG4UE||iPWG4PtQAMC||iPWG4PtSpectra||iPWG4PtQATPC||iPWG4Cosmics||iPWG4ThreeJets||iPWG4JetChem;
+ iPWG4JetTasks = iPWG4JetServices||iPWG4JetSpectrum||iPWG4UE||iPWG4LeadingUE||iPWG4PtQAMC||iPWG4PtTrackQA||iPWG4PtSpectra||iPWG4PtQATPC||iPWG4Cosmics||iPWG4ThreeJets||iPWG4QGSep||iPWG4JetChem||iPWG4Minijet||iPWG4Fragmentation;
iPWG4PartCorrLibs = iPWG4PartCorr||iPWG4Tagged||iPWG4CaloQA;
- iEMCUtilLibs = iPWG4PartCorrLibs||iPWG4JCORRAN;
+ iPWG4GammaConvLib = iPWG4GammaConv||iPWG4CaloConv;
+
+
+ iEMCUtilLibs = iPWG4JetTasks||iPWG4PartCorrLibs||iPWG4JCORRAN||iPWG4GammaConvLib||iJETAN;
iJETANLib = iPWG4JetTasks||iJETAN||iDIJETAN;
+
if (iESDfilter) {iAODhandler=1;}
if (kUseKinefilter && !kUseMC) kUseKinefilter = kFALSE;
if (kUseAODTags && !iAODhandler) kUseAODTags = kFALSE;
//______________________________________________________________________________
Bool_t LoadCommonLibraries(const char *mode)
{
-// Load common analysis libraries.
+ if (!gSystem->Getenv("ALICE_ROOT")) {
+ ::Error("AnalysisTrainPWG4Jets.C", "Analysis train requires that ALICE_ROOT is set to pick up Configurations");
+ return kFALSE;
+ }
+
+ // Load common analysis libraries.
Int_t imode = -1;
if (!strcmp(mode, "LOCAL")) imode = 0;
if (!strcmp(mode, "PROOF")) imode = 1;
if (!strcmp(mode, "GRID")) imode = 2;
- if (!gSystem->Getenv("ALICE_ROOT")) {
- ::Error("AnalysisTrainPWG4Jets.C::LoadCommonLibraries", "Analysis train requires that analysis libraries are compiled with a local AliRoot");
- return kFALSE;
- }
Bool_t success = kTRUE;
// ROOT libraries
gSystem->Load("libTree.so");
success &= LoadLibrary("ESD", mode, kTRUE);
success &= LoadLibrary("AOD", mode, kTRUE);
success &= LoadLibrary("ANALYSIS", mode, kTRUE);
+ success &= LoadLibrary("OADB", mode, kTRUE);
success &= LoadLibrary("ANALYSISalice", mode, kTRUE);
+ success &= LoadLibrary("ROOTFILES", mode, kTRUE);
+ // success &= LoadLibrary("EventMixing", mode,kTRUE);
success &= LoadLibrary("CORRFW", mode, kTRUE);
} else {
success &= LoadLibrary("libSTEERBase.so", mode);
success &= LoadLibrary("libESD.so", mode);
success &= LoadLibrary("libAOD.so", mode);
success &= LoadLibrary("libANALYSIS.so", mode);
+ success &= LoadLibrary("libOADB.so", mode, kTRUE);
success &= LoadLibrary("libANALYSISalice.so", mode);
+ // success &= LoadLibrary("libEventMixing.so", mode);
success &= LoadLibrary("libCORRFW.so", mode);
gROOT->ProcessLine(".include $ALICE_ROOT/include");
}
success &= LoadLibrary("AOD", mode);
success &= LoadLibrary("ANALYSIS", mode);
success &= LoadLibrary("ANALYSISalice", mode);
+ success &= LoadLibrary("EventMixing", mode);
success &= LoadLibrary("CORRFW", mode);
} else {
ires = gProof->EnablePackage(kProofAFversion);
Bool_t LoadAnalysisLibraries(const char *mode)
{
// Load common analysis libraries.
- Bool_t success = kTRUE;
+ Bool_t success = kTRUE;
+ if (useTender) {
+ if (!LoadLibrary("TENDER", mode, kTRUE) ||
+ !LoadLibrary("TENDERSupplies", mode, kTRUE)) return kFALSE;
+ }
if (iESDfilter) {
+ /*
if (!LoadLibrary("PWG3base", mode, kTRUE) ||
!LoadLibrary("PWG3muon", mode, kTRUE)) return kFALSE;
+ */
}
// JETAN
if (iJETANLib) {
// this part needs some rework in case we do not need the fastjed finders for processing
+ if(iEMCUtilLibs){
+ if (!LoadLibrary("EMCALUtils", mode, kTRUE) ||
+ !LoadLibrary("PHOSUtils", mode, kTRUE)) return kFALSE;
+ }
if (!LoadLibrary("JETAN", mode, kTRUE)) return kFALSE;
if (!strcmp(mode, "PROOF")){
gProof->Exec("gSystem->Load\(\"/afs/cern.ch/user/d/dperrino/public/libCGAL.so\"\)", kTRUE);
if(!kUsePAR)gSystem->AddIncludePath("-I$ALICE_ROOT/include/JetTasks"); // ugly hack!!
if(!LoadSource(Form("%s/PWG4/JetTasks/AliAnalysisTaskEta.cxx",gSystem->ExpandPathName("$ALICE_ROOT")), mode, kTRUE))return kFALSE;
}
- if(iPWG4TmpSourceFrag){
- if(!kUsePAR)gSystem->AddIncludePath("-I$ALICE_ROOT/include/JetTasks"); // ugly hack!!
- if(!LoadSource(Form("%s/PWG4/JetTasks/AliAnalysisTaskFragFunc.cxx",gSystem->ExpandPathName("$ALICE_ROOT")), mode, kTRUE))return kFALSE;
- }
-
-
- /*
- if(iPWG4JetChem){
- if(!kUsePAR)gSystem->AddIncludePath("-I$ALICE_ROOT/include/JetTasks"); // ugly hack!!
- if(!LoadSource(Form("%s/PWG4/JetTasks/AliAnalysisTaskJetChem.cxx",gSystem->ExpandPathName("$ALICE_ROOT")), mode, kTRUE))return kFALSE;
- }
- */
-
- if(iEMCUtilLibs){
- if (!LoadLibrary("EMCALUtils", mode, kTRUE) ||
- !LoadLibrary("PHOSUtils", mode, kTRUE)) return kFALSE;
- }
if (iPWG4PartCorrLibs) {
if (!LoadLibrary("PWG4PartCorrBase", mode, kTRUE) ||
if (iPWG4omega3pi) {
if (!LoadLibrary("PWG4omega3pi", mode, kTRUE)) return kFALSE;
}
- if (iPWG4GammaConv) {
+ if (iPWG4GammaConvLib) {
if (!LoadLibrary("PWG4GammaConv", mode, kTRUE)) return kFALSE;
}
TString line;
ifstream in;
in.open(kLocalDataList.Data());
+ Int_t ic = 0;
while (in.good()) {
in >> line;
if (line.Length() == 0) continue;
- // cout << " line = " << line << endl;
+ Printf("%d adding %s",ic,line.Data());
chain->Add(line.Data());
+ ic++;
}
} else {
// Interactive AOD
if (gSystem->AccessPathName(Form("%s.par", pararchivename))) {
if (!gSystem->AccessPathName(Form("%s/%s.par", gSystem->Getenv("ALICE_ROOT"),pararchivename))) {
::Info("AnalysisTrainPWG4Jets.C::SetupPar", "Getting %s.par from $ALICE_ROOT", pararchivename);
- TFile::Cp(gSystem->ExpandPathName(Form("$ALICE_ROOT/%s.par", pararchivename)),
- Form("%s.par",pararchivename));
+ TFile::Cp(gSystem->ExpandPathName(Form("$ALICE_ROOT/%s.par", pararchivename)),
+ Form("%s.par",pararchivename));
} else {
::Error("AnalysisTrainPWG4Jets.C::SetupPar", "Cannot find %s.par", pararchivename);
return -1;
printf("*******************************\n");
gROOT->Macro("PROOF-INF/SETUP.C");
}
- if (!gSystem->ChangeDirectory(ocwd.Data())) return -1;
+ if (!gSystem->ChangeDirectory(ocwd.Data())){
+ Error("Change back directory",Form("Cannot change to %s",ocwd.Data()));
+ return -1;
+ }
return 0;
}
// Check if user has a valid token, otherwise make one. This has limitations.
// One can always follow the standard procedure of calling alien-token-init then
// source /tmp/gclient_env_$UID in the current shell.
- if (!AliAnalysisGrid::CreateToken()) return NULL;
+// if (!AliAnalysisGrid::CreateToken()) return NULL;
AliAnalysisAlien *plugin = new AliAnalysisAlien();
// Set the run mode (can be "full", "test", "offline", "submit" or "terminate")
plugin->SetRunMode(plugin_mode);
if (kPluginUseProductionMode) plugin->SetProductionMode();
plugin->SetJobTag(kJobTag);
- plugin->SetNtestFiles(2);
+ plugin->SetNtestFiles(1);
// plugin->SetPreferedSE("ALICE::NIHAM::File");
// Set versions of used packages
plugin->SetAPIVersion("V1.1x");
// Define production directory LFN
plugin->SetGridDataDir(kGridDatadir.Data());
// Set data search pattern
- if (iAODanalysis) plugin->SetDataPattern(" *AliAOD.root");
- else plugin->SetDataPattern(Form(" %s/*/*ESD.tag.root",kGridPassPattern.Data()));
+ if (iAODanalysis) plugin->SetDataPattern(Form(" %s/*/*AliAOD.root",kGridPassPattern.Data()));
+ else plugin->SetDataPattern(Form(" %s/*/*AliESDs.root",kGridPassPattern.Data()));
// ...then add run numbers to be considered
// plugin->SetRunRange(kGridRunRange[0], kGridRunRange[1]);
for (Int_t i=kGridRunRange[0]; i<=kGridRunRange[1]; i++) {
ifstream in1;
in1.open(kGridLocalRunList.Data());
int iRun;
-
- /*
- char c;
- char cLine[250];
- while(!in1.eof()){
- c = in1.get();
- if ( (c >= '0') && (c <= '9') )
- {
- in1.putback (c);
- in1>>iRun;
- Printf("AnalysisTrainPWG4Jets Adding run number from File %s", Form(kGridRunPattern.Data(),iRun));
- plugin->AddRunNumber(Form(kGridRunPattern.Data(),iRun));
- }
- else
- {
- in1.putback (c);
- in1.getline(cLine,250);
-
- }
- }
- */
-
+ int icount = 0;
+ Int_t nRun = 0;
// just use run numbers, negatives will be excluded
while(in1>>iRun){
- if(iRun>0){
- Printf("AnalysisTrainPWG4Jets Adding run number from File %s", Form(kGridRunPattern.Data(),iRun));
+ if(iRun>=0){
+ if(iRun>=0&&nRun>=kGridOffsetRunFromList&&(nRun<kGridMaxRunsFromList)){
+ Printf("AnalysisTrainPWG4Jets Adding run number from File %d: %s",nRun,Form(kGridRunPattern.Data(),iRun));
plugin->AddRunNumber(Form(kGridRunPattern.Data(),iRun));
+
+ }
+ else{
+ Printf("AnalysisTrainPWG4Jets Skipping run number from File %d: %d",nRun, iRun);
+ }
+ nRun++;
}
else{
- Printf("AnalysisTrainPWG4Jets Skipping run number from File %d", iRun);
+ Printf("AnalysisTrainPWG4Jets Skipping run number from File %d: %d",nRun, iRun);
}
}
}
-
// Method 2: Declare existing data files (raw collections, xml collections, root file)
// If no path mentioned data is supposed to be in the work directory (see SetGridWorkingDir())
// XML collections added via this method can be combined with the first method if
if (iAODanalysis) alien_workdir += "analysisAOD";
else alien_workdir += "analysisESD";
- if(kGridDataSet.Length()>0)alien_workdir += Form("/%s",kGridDataSet.Data());
+ if(kGridDataSet.Length()>0)alien_workdir += Form("/%s%s",kGridDataSet.Data(),kGridExtraAliendirLevel.Data());
plugin->SetGridWorkingDir(alien_workdir.Data());
// Declare alien output directory. Relative to working directory.
plugin->SetGridOutputDir(kGridOutdir);
// Add external packages
- if (iJETAN||iDIJETAN) {
- plugin->AddExternalPackage("boost::v1_38_0");
- plugin->AddExternalPackage("cgal::v3.3.1");
- plugin->AddExternalPackage("fastjet::v2.4.0");
- }
+ plugin->AddExternalPackage("boost::v1_43_0");
+ plugin->AddExternalPackage("cgal::v3.6");
+ plugin->AddExternalPackage("fastjet::v2.4.2");
// set extra libs before par file compilation
// if we do not fill the aod we do not need to store it
// kGridMergeExclude = listaods;
- if(kSaveAOD!=0){
+ if(kSaveAOD>=0){
TString outputFiles = "";
outputFiles += mgr->GetExtraFiles();
if (listhists.Length()) outputFiles += " ";
}
//
+ plugin->SetDefaultOutputs(kFALSE);
Printf("%s:%d Saving the files %s",(char*)__FILE__,__LINE__,outputFiles.Data());
plugin->SetOutputFiles(outputFiles.Data());
}
TString outputArchive;
- outputArchive = Form("log_archive.zip:stdout,stderr@%s",kGridOutputStorages.Data());
+ outputArchive = Form("log_archive.zip:std*@%s","disk=1");
listaods.ReplaceAll(" ", ",");
listhists.ReplaceAll(" ", ",");
- if (listhists.Length()) listhists = Form("hist_archive.zip:%s@%s", listhists.Data(), kGridOutputStorages.Data());
- if (listaods.Length()) listaods = Form("aod_archive.zip:%s@%s", listaods.Data(), kGridOutputStorages.Data());
-
- if (!listhists.Length() && !listaods.Length()) {
+ if (listhists.Length()){
+ outputArchive += " ";
+ outputArchive += "root_archive.zip:";
+ outputArchive += listhists;
+ if (listaods.Length()){
+ outputArchive += ",";
+ outputArchive += listaods;
+ }
+ outputArchive += Form("@%s", kGridOutputStorages.Data());
+ }
+ else{
+
+ if (listaods.Length()){
+ // we have only aod'ish output
+ outputArchive += " ";
+ outputArchive += "root_archive.zip:";
+ outputArchive += listaods;
+ outputArchive += Form("@%s", kGridOutputStorages.Data());
+ }
+ else{
+ // no other outputs than std..
::Fatal("AnalysisTrainPWG4Jets", "No task output !");
+ }
}
-
- if (listaods.Length()) {
- outputArchive += " ";
- outputArchive += listaods;
- }
- if (listhists.Length()) {
- outputArchive += " ";
- outputArchive += listhists;
- }
+
+ plugin->SetDefaultOutputs(kFALSE);
plugin->SetOutputArchive(outputArchive);
-
-// Optionally set a name for the generated analysis macro (default MyAnalysis.C)
+
+ // Optionally set a name for the generated analysis macro (default MyAnalysis.C)
plugin->SetAnalysisMacro(Form("%s.C", kTrainName.Data()));
-// Optionally set maximum number of input files/subjob (default 100, put 0 to ignore)
+ // 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);
-// Optionally resubmit threshold.
-// plugin->SetMasterResubmitThreshold(90);
-// Optionally set time to live (default 30000 sec)
- plugin->SetTTL(30000);
-// Optionally set input format (default xml-single)
+ // Optionally set number of failed jobs that will trigger killing waiting sub-jobs.
+ // plugin->SetMaxInitFailed(5);
+ // Optionally resubmit threshold.
+ // plugin->SetMasterResubmitThreshold(90);
+ // Optionally set time to live (default 30000 sec)
+ plugin->SetTTL(80000); // 22h...
+ // Optionally set input format (default xml-single)
plugin->SetInputFormat("xml-single");
-// Optionally modify the name of the generated JDL (default analysis.jdl)
+ // Optionally modify the name of the generated JDL (default analysis.jdl)
plugin->SetJDLName(Form("%s.jdl", kTrainName.Data()));
-// Optionally modify the executable name (default analysis.sh)
+ // Optionally modify the executable name (default analysis.sh)
plugin->SetExecutable(Form("%s.sh", kTrainName.Data()));
-// Optionally modify job price (default 1)
+ // Optionally modify job price (default 1)
plugin->SetPrice(1);
-// Optionally modify split mode (default 'se')
+ // Optionally modify split mode (default 'se')
plugin->SetSplitMode("se");
return plugin;
}
if(index<0)Printf("%s:%d index out of bounds",(char*)__FILE__,__LINE__);
add += "\n\n // added by CKB \n";
- add += "\n gSystem->AddIncludePath(\"./\") \n";
+ if(kErrorIgnoreLevel>0)add += Form("gErrorIgnoreLevel = %d;\n",kErrorIgnoreLevel);
+ add += "\n gSystem->AddIncludePath(\"./\"); \n";
+ add += "\n gSystem->SetFPEMask(); \n";
+
+
if(gGrid&&kPluginAliRootVersion.Length()==0){
+ /*
add += "\n // Dirty hack for TRD reference data \n";
add += "\n gSystem->Setenv(\"ALICE_ROOT\",\"";
add += Form("alien://%s/rootfiles/",gGrid->GetHomeDirectory());
add += "\"); \n";
+ */
}
+
add += "// BKC \n\n";
st.Insert(index,add.Data());
if(kUseDebug){
- st.Insert(index,"\n gROOT->ProcessLine(\".trace\"); // CKB \n");
+ // st.Insert(index,"\n gROOT->ProcessLine(\".trace\"); // CKB \n");
}
if(kUseCPAR&&kPluginAliRootVersion.Length()==0){
st.Insert(index,"// CKB comment out whehn no aliroot is provided \n //");
}
+ if(AliLog::GetGlobalLogLevel()==AliLog::kFatal){
+ index = st.Index("AliLog::SetGlobal"); // ncomment setting of log level, do my own
+ if(index<0)Printf("%s:%d index out of bounds",(char*)__FILE__,__LINE__);
+ st.Insert(index,"AliLog::SetGlobalLogLevel(AliLog::kFatal);// CKB \n // CKB comment out for own setting \n //");
+ }
+
ofstream out;
out.open(Form("%s.C", kTrainName.Data()));
if (out.bad()) {
index = st2.Index("gSystem->Load(\"libPhysics\");");
index += strlen("gSystem->Load(\"libPhysics\");");
TString add2 = "";
- add2 += "\n gSystem->AddIncludePath(\"./\") \n";
+ add2 += "\n gSystem->AddIncludePath(\"./\"); \n";
if(gGrid&&kPluginAliRootVersion.Length()==0){
+ /*
add2 += "\n // Dirty hack for TRD reference data \n";
add2 += "\n gSystem->Setenv(\"ALICE_ROOT\",\"";
add2 += Form("alien://%s/rootfiles/",gGrid->GetHomeDirectory());
add2 += "\"); \n";
+ */
}
add2 += "// BKC \n\n";
if(index<0)Printf("%s:%d index out of bounds",(char*)__FILE__,__LINE__);
if(kUseDebug){
- st2.Insert(index,"\n gROOT->ProcessLine(\".trace\"); // CKB \n");
+ // st2.Insert(index,"\n gROOT->ProcessLine(\".trace\"); // CKB \n");
}
if(kUseCPAR&&kPluginAliRootVersion.Length()==0){
- index = st2.Index("gSystem->AddIncludePath(\"-I$"); // uncommen $ALICE_ROOT include for par files
+ index = st2.Index("gSystem->AddIncludePath(\"-I$"); // uncomment $ALICE_ROOT include for par files
if(index<0)Printf("%s:%d index out of bounds",(char*)__FILE__,__LINE__);
st2.Insert(index,"// CKB comment out whehn no aliroot is provided \n //");
}
// do not exclude the extra files from merign, this is done explicitly in this train script
- index = st2.Index("mergeExcludes +="); // uncommen $ALICE_ROOT include for par files
- if(index<0)Printf("%s:%d index out of bounds",(char*)__FILE__,__LINE__);
- st2.Insert(index,"// CKB comment out, handled explicitly by the train macro \n //");
+ // index = st2.Index("mergeExcludes +="); // uncommen $ALICE_ROOT include for par files
+ // if(index<0)Printf("%s:%d index out of bounds",(char*)__FILE__,__LINE__);
+ // st2.Insert(index,"// CKB comment out, handled explicitly by the train macro \n //");
ofstream out2;
git://git.uio.no / u / mrichter / AliRoot.git / blobdiff