#ifndef __CINT__ #endif Bool_t AddAMRsn(TString analysisSource = "proof", TString analysisMode = "test",TString input="aod",TString inputMC="", TString postfix = "",TString idStr="0") { analysisSource.ToLower(); analysisMode.ToLower(); if (!RsnLoadMacro("RsnManager.C")) return kFALSE; TList *listRsn = RsnManager(); Bool_t useMC = !inputMC.CompareTo("mc"); Bool_t valid; Int_t eventMixinPar = AliAnalysisManager::GetGlobalInt("rsnUseEventMixingPar",valid); Int_t rsnPar = AliAnalysisManager::GetGlobalInt("rsnUseRSNPar",valid); Int_t rsnParDev = AliAnalysisManager::GetGlobalInt("rsnUseRSNParDev",valid); if (eventMixinPar) rsnPar = 1; if (rsnPar&&rsnParDev>=0) rsnParDev=1; Int_t pidResponse = AliAnalysisManager::GetGlobalInt("rsnUsePIDResponse",valid); Int_t useRsnIH = AliAnalysisManager::GetGlobalInt("rsnUseRsnInputHandler",valid); Int_t physSel = AliAnalysisManager::GetGlobalInt("rsnUsePhysSel",valid); Int_t useCentralityTask = AliAnalysisManager::GetGlobalInt("rsnUseCentralityTask",valid); Int_t splitMgrByTask = AliAnalysisManager::GetGlobalInt("rsnSplitMgrByTasks",valid); Int_t useMixing = AliAnalysisManager::GetGlobalInt("rsnUseMixing",valid); Int_t isRsnMini = AliAnalysisManager::GetGlobalInt("rsnUseMiniPackage",valid); Int_t mixNum = AliAnalysisManager::GetGlobalInt("rsnNumMix",valid); // ALICE stuff AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager(); if (!mgr) { Printf("Error[AddAMRsn] mgr is null !!!"); return kFALSE; } AliAnalysisGrid *analysisPlugin = mgr->GetGridHandler(); if (!analysisPlugin) { Printf("Error[AddAMRsn] : analysisPlugin is null !!!"); return kFALSE; } TString myAdditionalLibs; if (eventMixinPar) { AliAnalysisAlien::SetupPar("EventMixing"); myAdditionalLibs += " EventMixing.par"; } else { gSystem->Load("libEventMixing.so"); myAdditionalLibs += " libEventMixing.so"; } TString rsnLibName = "PWGLFresonances"; if (gSystem->Getenv("ALICE_ROOT")) { TString alirootVersion = gSystem->GetFromPipe("aliroot --version | awk '{print $3}'"); if (alirootVersion<"v5-02-19-AN" && alirootVersion.CompareTo("trunk")) rsnLibName = "PWG2resonances"; if (rsnPar) { AliAnalysisAlien::SetupPar(rsnLibName.Data()); myAdditionalLibs += Form(" %s.par",rsnLibName.Data()); } else { gSystem->Load(Form("lib%s.so",rsnLibName.Data())); myAdditionalLibs += Form(" lib%s.so",rsnLibName.Data()); } } if (rsnParDev>=0) { if (rsnParDev) { AliAnalysisAlien::SetupPar("PWGLFresonancesdev"); myAdditionalLibs += " PWGLFresonancesdev.par"; } else { gSystem->Load("libPWGLFresonancesdev.so"); myAdditionalLibs += " libPWGLFresonancesdev.so"; } } analysisPlugin->SetAdditionalLibs(myAdditionalLibs.Data()); AliMultiInputEventHandler *multiInputHandler = 0; AliInputEventHandler *inputHandler = mgr->GetInputEventHandler(); TString className = inputHandler->ClassName(); if (!className.CompareTo("AliMultiInputEventHandler")) { multiInputHandler = (AliMultiInputEventHandler*)inputHandler; } AliRsnInputHandler *rsnIH=0; if (multiInputHandler && pidResponse) { // add PID Response Handler if (!RsnLoadMacro("AddPIDResponseInputHandler.C")) return kFALSE; AddPIDResponseInputHandler(multiInputHandler,useMC); } if (multiInputHandler && useRsnIH) { // add Rsn input handler (it has to be after ESD,MC,Tender input handler, but before Mixing) AliRsnInputHandler *rsnIH = new AliRsnInputHandler(); multiInputHandler->AddInputEventHandler(rsnIH); } if (physSel) { gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPhysicsSelection.C"); AddTaskPhysicsSelection(useMC); // maybe we can put it in $ALICE_ROOT/ANALYSIS/macros/AddTaskPhysicsSelection.C if (multiInputHandler) { AliInputEventHandler *ih = multiInputHandler->GetFirstInputEventHandler(); ih->SetEventSelection(multiInputHandler->GetEventSelection()); } } if (useCentralityTask) { gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskCentrality.C"); AliCentralitySelectionTask *centralityTask = AddTaskCentrality(kFALSE); } // load and run AddTask macro if (!RsnLoadMacro("AddRsnAnalysisTask.C")) return kFALSE; if (!RsnLoadMacro("RsnConfig.C")) return kFALSE; if (!RsnLoadMacro("AddMixingHandler.C")) return kFALSE; if (!analysisSource.CompareTo("grid")) { if (!RsnLoadMacro("RsnGridPlugin.C")) return kFALSE; RsnGridPlugin(analysisMode); } if (splitMgrByTask) { Int_t iTask=0; TList *l=0; TNamed *rsnObj = 0; AliAnalysisTaskSE *task=0; TString rsnName,rsnCutName; TIter next(listRsn); while ((rsnObj = (TNamed *)next())) { l = new TList(); Printf("Adding task for RSN:%s CUT:%s ",rsnObj->GetName(),rsnObj->GetTitle()); l->Add(new TNamed(*rsnObj)); task = AddRsnAnalysisTask(input, useMC, useMixing,rsnIH,l,Form("%s_%d",postfix.Data(),iTask++)); if (useMixing) { // add mixing handler (uncomment to turn on Mixnig) AddMixingHandler(multiInputHandler,task, input, useMC,isRsnMini, mixNum,postfix); } } } else { task = AddRsnAnalysisTask(input, useMC, useMixing,rsnIH,listRsn,postfix); if (useMixing) { // add mixing handler (uncomment to turn on Mixnig) AddMixingHandler(multiInputHandler,task, input, useMC,isRsnMini, mixNum,postfix); } } return kTRUE; } Bool_t RsnLoadMacro(TString macro,TString path="") { Bool_t valid; TString lego_path = AliAnalysisManager::GetGlobalStr("rsnLegoTrainPath",valid); if (!valid) lego_path = "$ALICE_ROOT/PWG2/RESONANCES/macros/lego_train"; if (!gSystem->AccessPathName(macro.Data())) { gROOT->LoadMacro(macro.Data()); Printf("Macro loaded from %s/%s ...",gSystem->pwd(),macro.Data()); return kTRUE; } if (!gSystem->AccessPathName(gSystem->ExpandPathName(Form("%s/%s",lego_path.Data(),macro.Data())))) { gROOT->LoadMacro(gSystem->ExpandPathName(Form("%s/%s",lego_path.Data(),macro.Data()))); Printf("Macro loaded from %s ...",gSystem->ExpandPathName(Form("%s/%s",lego_path.Data(),macro.Data()))); return kTRUE; } Printf("Error loading %s",macro.Data()); return kFALSE; }