// run.C // // Template run macro for AliBasicTask.cxx/.h with example layout of // physics selections and options, in macro and task. // // Author: Arvinder Palaha // class AliAnalysisGrid; class AliAnalysisTaskBF; class AliBalance; //Centrality stuff Int_t binfirst = 0; //where do we start numbering bins Int_t binlast = 8; //where do we stop numbering bins const Int_t numberOfCentralityBins = 9; Float_t centralityArray[numberOfCentralityBins+1] = {0.,5.,10.,20.,30.,40.,50.,60.,70.,80.}; // in centrality percentile //Systematic studies const Int_t numberOfSyst = 13; Float_t vZ[numberOfSyst] = {10.,12.,6.,8.,10.,10.,10.,10.,10.,10.,10.,10.,10.}; // global Vertex Z cut Float_t DCAxy[numberOfSyst] = {-1.,2.4,2.4,2.4,2.2,2.0,1.8,2.4,2.4,2.4,2.4,2.4,2.4}; // DCA xy cut (afterburner, -1 = w/o additional cut) Float_t DCAz[numberOfSyst] = {-1.,3.2,3.2,3.2,3.0,2.8,2.6,3.2,3.2,3.2,3.2,3.2,3.2}; // DCA z cut (afterburner, -1 = w/o additional cut) Float_t ptMin[numberOfSyst] = {0.3,0.3,0.3,0.3,0.3,0.3,0.3,1.5,5.0,0.3,0.3,0.3,0.3}; // pt cuts Float_t ptMax[numberOfSyst] = {1.5,1.5,1.5,1.5,1.5,1.5,1.5,5.0,10.0,10.0,1.5,1.5,1.5}; // pt cuts Float_t etaMin[numberOfSyst] = {-0.8,-0.8,-0.8,-0.8,-0.8,-0.8,-0.8,-0.8,-0.8,-0.8,-1.0,-0.6,-0.4}; // eta cuts Float_t etaMax[numberOfSyst] = {0.8,0.8,0.8,0.8,0.8,0.8,0.8,0.8,0.8,0.8,1.0,0.6,0.4}; // eta cuts Bool_t kUsePID = kTRUE; //______________________________________________________________________________ void runBalanceFunction( const char* runtype = "local", // local, proof or grid const char *gridmode = "", // Set the run mode (can be "full", "test", "offline", "submit", "terminate" or ""). Full & Test work for proof const Int_t bunchN = 0, const bool bAOD = 1, // 1 = AOD ANALYSIS, 0 = ESD ANALYSIS const bool bMCtruth = 0, // 1 = MCEvent handler is on (MC truth), 0 = MCEvent handler is off (MC reconstructed/real data) const bool bMCphyssel = 0, // 1 = looking at MC truth or reconstructed, 0 = looking at real data const Long64_t nentries = 50000, // for local and proof mode, ignored in grid mode. Set to 1234567890 for all events. const Long64_t firstentry = 0, // for local and proof mode, ignored in grid mode TString proofdataset = "bunchPROOF", // path to dataset on proof cluster, for proof analysis const char *proofcluster = "miweber@alice-caf.cern.ch", // which proof cluster to use in proof mode const char *taskname = "BF_S3_pion_TOF" // sets name of grid generated macros ) { // check run type if(runtype != "local" && runtype != "proof" && runtype != "grid"){ Printf("\n\tIncorrect run option, check first argument of run macro"); Printf("\tint runtype = local, proof or grid\n"); return; } Printf("%s analysis chosen",runtype); // load libraries gSystem->Load("libCore.so"); gSystem->Load("libGeom.so"); gSystem->Load("libVMC.so"); gSystem->Load("libPhysics.so"); gSystem->Load("libTree.so"); gSystem->Load("libSTEERBase.so"); gSystem->Load("libESD.so"); gSystem->Load("libAOD.so"); gSystem->Load("libANALYSIS.so"); gSystem->Load("libANALYSISalice.so"); gSystem->Load("libEventMixing.so"); gSystem->Load("libPWGCFebye.so"); // additional //compile standalone stuff //gROOT->LoadMacro("$ALICE_ROOT/PWGCF/EBYE/BalanceFunction/AliBalance.cxx++g"); //gROOT->LoadMacro("$ALICE_ROOT/PWGCF/EBYE/BalanceFunction/AliAnalysisTaskBF.cxx++g"); // add aliroot indlude path //gROOT->ProcessLine(".include $PWD/."); //gROOT->ProcessLine(Form(".include %s/include",gSystem->ExpandPathName("$ALICE_ROOT"))); gROOT->SetStyle("Plain"); // analysis manager AliAnalysisManager* mgr = new AliAnalysisManager(Form("%s%i",taskname,bunchN)); if(runtype == "grid") { // create the alien handler and attach it to the manager AliAnalysisGrid *plugin = CreateAlienHandler(bAOD,bunchN,Form("%s%i",taskname,bunchN), gridmode, proofcluster, Form("%s_%d.txt",proofdataset.Data(),bunchN)); mgr->SetGridHandler(plugin); } // input handler (ESD or AOD) AliVEventHandler* inputH = NULL; if(!bAOD){ inputH = new AliESDInputHandler(); } else{ inputH = new AliAODInputHandler(); } mgr->SetInputEventHandler(inputH); //===================================================// TChain *chain; if(gridmode=="") { chain = new TChain("aodTree"); // "esdTree" or "aodTree" //chain->Add( "POINT TO YOUR LOCAL ESD" ); chain -> Add("/glusterfs/alice1/alice3/alisrm/PbPbPID/AODsData/1/AliAOD.root"); chain -> Add("/glusterfs/alice1/alice3/alisrm/PbPbPID/AODsData/2/AliAOD.root"); chain -> Add("/glusterfs/alice1/alice3/alisrm/PbPbPID/AODsData/3/AliAOD.root"); chain -> Add("/glusterfs/alice1/alice3/alisrm/PbPbPID/AODsData/4/AliAOD.root"); chain -> Add("/glusterfs/alice1/alice3/alisrm/PbPbPID/AODsData/5/AliAOD.root"); chain -> Add("/glusterfs/alice1/alice3/alisrm/PbPbPID/AODsData/6/AliAOD.root"); chain -> Add("/glusterfs/alice1/alice3/alisrm/PbPbPID/AODsData/7/AliAOD.root"); chain -> Add("/glusterfs/alice1/alice3/alisrm/PbPbPID/AODsData/8/AliAOD.root"); chain -> Add("/glusterfs/alice1/alice3/alisrm/PbPbPID/AODsData/9/AliAOD.root"); } //===================================================// // mc event handler if(bMCtruth) { AliMCEventHandler* mchandler = new AliMCEventHandler(); // Not reading track references mchandler->SetReadTR(kFALSE); mgr->SetMCtruthEventHandler(mchandler); } //AOD output handler if(bAOD){ AliAODHandler* aodoutHandler = new AliAODHandler(); aodoutHandler->SetOutputFileName("aod.root"); mgr->SetOutputEventHandler(aodoutHandler); } // === Physics Selection Task === // // In SelectCollisionCandidate(), default is kMB, so the task UserExec() // function is only called for these events. // Options are: // kMB Minimum Bias trigger // kMBNoTRD Minimum bias trigger where the TRD is not read out // kMUON Muon trigger // kHighMult High-Multiplicity Trigger // kUserDefined For manually defined trigger selection // // Multiple options possible with the standard AND/OR operators && and || // These all have the usual offline SPD or V0 selections performed. // // With a pointer to the physics selection object using physSelTask->GetPhysicsSelection(), // one can manually set the selected and background classes using: // AddCollisionTriggerClass("+CINT1B-ABCE-NOPF-ALL") // AddBGTriggerClass("+CINT1A-ABCE-NOPF-ALL"); // // One can also specify multiple classes at once, or require a class to NOT // trigger, for e.g. // AddBGTriggerClass("+CSMBA-ABCE-NOPF-ALL -CSMBB-ABCE-NOPF-ALL"); // // NOTE that manually setting the physics selection overrides the standard // selection, so it must be done in completeness. // // ALTERNATIVELY, one can make the physics selection inside the task // UserExec(). // For this case, comment out the task->SelectCol.... line, // and see AliBasicTask.cxx UserExec() function for details on this. //gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPhysicsSelection.C"); //AliPhysicsSelectionTask *physSelTask = AddTaskPhysicsSelection(bMCphyssel); //if(!physSelTask) { Printf("no physSelTask"); return; } //AliPhysicsSelection *physSel = physSelTask->GetPhysicsSelection(); //physSel->AddCollisionTriggerClass("+CINT1B-ABCE-NOPF-ALL");// #3119 #769"); // create task //Add the centrality determination task and the physics selection // (only on ESD level, in AODs centrality is already in header and events are selected) if(!bAOD){ gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskCentrality.C"); AliCentralitySelectionTask *taskCentrality = AddTaskCentrality(); // Add physics selection task (NOT needed for AODs) gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPhysicsSelection.C"); AliPhysicsSelectionTask* physSelTask = AddTaskPhysicsSelection(bMCphyssel); //Add the PID response //if(kUsePID) { //gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPIDResponse.C"); //AddTaskPIDResponse(bMCphyssel); //} } if(kUsePID) { gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPIDResponse.C"); AddTaskPIDResponse(bMCphyssel); } //Add the BF task (all centralities) gROOT->LoadMacro("AddTaskBalanceCentralityTrain.C"); AliAnalysisTaskBF *task = AddTaskBalanceCentralityTrain(0.,100.,kTRUE,"V0M",vZ[0],DCAxy[0],DCAz[0],ptMin[0],ptMax[0],etaMin[0],etaMax[0],-1,-1); // enable debug printouts //mgr->SetDebugLevel(2); //mgr->SetUseProgressBar(1,100); if (!mgr->InitAnalysis()) return; mgr->PrintStatus(); // start analysis Printf("Starting Analysis...."); if(runtype == "local") mgr->StartAnalysis(runtype,chain); else mgr->StartAnalysis(runtype,nentries,firstentry); } //______________________________________________________________________________ AliAnalysisGrid* CreateAlienHandler(Bool_t bAOD, Int_t bunchN, const char *taskname, const char *gridmode, const char *proofcluster, const char *proofdataset) { AliAnalysisAlien *plugin = new AliAnalysisAlien(); // Set the run mode (can be "full", "test", "offline", "submit" or "terminate") plugin->SetRunMode(gridmode); // Set versions of used packages plugin->SetAPIVersion("V1.1x"); plugin->SetROOTVersion("v5-33-02b"); plugin->SetAliROOTVersion("v5-03-19-AN"); // Declare input data to be processed. // Method 1: Create automatically XML collections using alien 'find' command. // Define production directory LFN plugin->SetGridDataDir("/alice/data/2010/LHC10h/"); // On real reconstructed data: // plugin->SetGridDataDir("/alice/data/2009/LHC09d"); // Set data search pattern //plugin->SetDataPattern("*ESDs.root"); // THIS CHOOSES ALL PASSES // Data pattern for reconstructed data if(!bAOD){ plugin->SetDataPattern("*ESDs/pass2/*ESDs.root"); // CHECK LATEST PASS OF DATA SET IN ALIENSH } else{ plugin->SetDataPattern("*ESDs/pass2/AOD049/*/AliAOD.root"); } plugin->SetRunPrefix("000"); // real data // ...then add run numbers to be considered //plugin->SetRunRange(114917,115322); if(bunchN==0){ plugin->AddRunNumber(137366); } //bunch1 else if(bunchN == 1){ plugin->AddRunNumber(139510); plugin->AddRunNumber(139507); plugin->AddRunNumber(139505); plugin->AddRunNumber(139503); plugin->AddRunNumber(139465); plugin->AddRunNumber(139438); plugin->AddRunNumber(139437); plugin->AddRunNumber(139360); plugin->AddRunNumber(139329); plugin->AddRunNumber(139328); } //bunch2 else if(bunchN == 2){ plugin->AddRunNumber(139314); plugin->AddRunNumber(139310); plugin->AddRunNumber(139309); plugin->AddRunNumber(139173); plugin->AddRunNumber(139107); plugin->AddRunNumber(139105); plugin->AddRunNumber(139038); plugin->AddRunNumber(139037); plugin->AddRunNumber(139036); plugin->AddRunNumber(139029); plugin->AddRunNumber(139028); plugin->AddRunNumber(138872); plugin->AddRunNumber(138871); plugin->AddRunNumber(138870); plugin->AddRunNumber(138837); plugin->AddRunNumber(138732); plugin->AddRunNumber(138730); plugin->AddRunNumber(138666); plugin->AddRunNumber(138662); plugin->AddRunNumber(138653); } else if(bunchN == 3){ plugin->AddRunNumber(138652); plugin->AddRunNumber(138638); plugin->AddRunNumber(138624); plugin->AddRunNumber(138621); plugin->AddRunNumber(138583); plugin->AddRunNumber(138582); plugin->AddRunNumber(138579); plugin->AddRunNumber(138578); plugin->AddRunNumber(138534); plugin->AddRunNumber(138469); } else if(bunchN == 4){ plugin->AddRunNumber(138442); plugin->AddRunNumber(138439); plugin->AddRunNumber(138438); plugin->AddRunNumber(138396); plugin->AddRunNumber(138364); plugin->AddRunNumber(138275); plugin->AddRunNumber(138225); plugin->AddRunNumber(138201); plugin->AddRunNumber(138197); plugin->AddRunNumber(138192); } else if(bunchN == 5){ plugin->AddRunNumber(138190); plugin->AddRunNumber(137848); plugin->AddRunNumber(137844); plugin->AddRunNumber(137752); plugin->AddRunNumber(137751); plugin->AddRunNumber(137724); plugin->AddRunNumber(137722); plugin->AddRunNumber(137718); plugin->AddRunNumber(137704); plugin->AddRunNumber(137693); } else if(bunchN == 6){ plugin->AddRunNumber(137692); plugin->AddRunNumber(137691); plugin->AddRunNumber(137686); plugin->AddRunNumber(137685); plugin->AddRunNumber(137639); plugin->AddRunNumber(137638); plugin->AddRunNumber(137608); plugin->AddRunNumber(137595); plugin->AddRunNumber(137549); plugin->AddRunNumber(137546); } else if(bunchN == 7){ plugin->AddRunNumber(137544); plugin->AddRunNumber(137541); plugin->AddRunNumber(137539); plugin->AddRunNumber(137531); plugin->AddRunNumber(137530); plugin->AddRunNumber(137443); plugin->AddRunNumber(137441); plugin->AddRunNumber(137440); plugin->AddRunNumber(137439); plugin->AddRunNumber(137434); } else if(bunchN == 8){ plugin->AddRunNumber(137432); plugin->AddRunNumber(137431); plugin->AddRunNumber(137430); plugin->AddRunNumber(137366); plugin->AddRunNumber(137243); plugin->AddRunNumber(137236); plugin->AddRunNumber(137235); plugin->AddRunNumber(137232); plugin->AddRunNumber(137231); plugin->AddRunNumber(137162); plugin->AddRunNumber(137161); } else{ stderr<<"BUNCH NOT THERE"<<endl; return NULL; } //plugin->AddRunList("139510, 139507, 139505, 139503, 139465, 139438, 139437, 139360, 139329, 139328, 139314, 139310, 139309, 139173, 139107, 139105, 139038, 139037, 139036, 139029, 139028, 138872, 138871, 138870, 138837, 138732, 138730, 138666, 138662, 138653, 138652, 138638, 138624, 138621, 138583, 138582, 138579, 138578, 138534, 138469, 138442, 138439, 138438, 138396, 138364, 138275, 138225, 138201, 138197, 138192, 138190, 137848, 137844, 137752, 137751, 137724, 137722, 137718, 137704, 137693, 137692, 137691, 137686, 137685, 137639, 137638, 137608, 137595, 137549, 137546, 137544, 137541, 137539, 137531, 137530, 137443, 137441, 137440, 137439, 137434, 137432, 137431, 137430, 137366, 137243, 137236, 137235, 137232, 137231, 137162, 137161"); plugin->SetNrunsPerMaster(1); plugin->SetOutputToRunNo(); // comment out the next line when using the "terminate" option, unless // you want separate merged files for each run plugin->SetMergeViaJDL(); // 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 // the content is compatible (using or not tags) // plugin->AddDataFile("tag.xml"); // plugin->AddDataFile("/alice/data/2008/LHC08c/000057657/raw/Run57657.Merged.RAW.tag.root"); // Define alien work directory where all files will be copied. Relative to alien $HOME. plugin->SetGridWorkingDir(taskname); // Declare alien output directory. Relative to working directory. plugin->SetGridOutputDir("out"); // In this case will be $HOME/taskname/out // Declare the analysis source files names separated by blancs. To be compiled runtime // using ACLiC on the worker nodes. // plugin->SetAnalysisSource("AliBalance.cxx AliAnalysisTaskBF.cxx"); // Declare all libraries (other than the default ones for the framework. These will be // loaded by the generated analysis macro. Add all extra files (task .cxx/.h) here. //plugin->AddIncludePath("-I."); plugin->SetAdditionalLibs("libPWGCFebye.so"); //plugin->SetAdditionalLibs("AliBalance.cxx AliBalance.h AliAnalysisTaskBF.cxx AliAnalysisTaskBF.h"); // Declare the output file names separated by blancs. // (can be like: file.root or file.root@ALICE::Niham::File) // To only save certain files, use SetDefaultOutputs(kFALSE), and then // SetOutputFiles("list.root other.filename") to choose which files to save plugin->SetDefaultOutputs(); //plugin->SetOutputFiles("list.root"); // Optionally set a name for the generated analysis macro (default MyAnalysis.C) plugin->SetAnalysisMacro(Form("%s.C",taskname)); // Optionally set maximum number of input files/subjob (default 100, put 0 to ignore) plugin->SetSplitMaxInputFileNumber(100); // Optionally modify the executable name (default analysis.sh) plugin->SetExecutable(Form("%s.sh",taskname)); // set number of test files to use in "test" mode plugin->SetNtestFiles(1); // Optionally resubmit threshold. plugin->SetMasterResubmitThreshold(90); // Optionally set time to live (default 30000 sec) plugin->SetTTL(90000); // Optionally set input format (default xml-single) plugin->SetInputFormat("xml-single"); // Optionally modify the name of the generated JDL (default analysis.jdl) plugin->SetJDLName(Form("%s.jdl",taskname)); // Optionally modify job price (default 1) plugin->SetPrice(1); // Optionally modify split mode (default 'se') plugin->SetSplitMode("se"); //plugin->SetUseSubmitPolicy(); //plugin->SetKeepLogs(); //---------------------------------------------------------- //--- PROOF MODE SPECIFIC SETTINGS ------------ //---------------------------------------------------------- // Proof cluster plugin->SetProofCluster(proofcluster); // Dataset to be used plugin->SetProofDataSet(proofdataset); // May need to reset proof. Supported modes: 0-no reset, 1-soft, 2-hard plugin->SetProofReset(0); // May limit number of workers plugin->SetNproofWorkers(0); // May limit the number of workers per slave plugin->SetNproofWorkersPerSlave(1); // May use a specific version of root installed in proof plugin->SetRootVersionForProof("current"); // May set the aliroot mode. Check http://aaf.cern.ch/node/83 plugin->SetAliRootMode("default"); // Loads AF libs by default // May request ClearPackages (individual ClearPackage not supported) plugin->SetClearPackages(kFALSE); // Plugin test mode works only providing a file containing test file locations, used in "local" mode also plugin->SetFileForTestMode("files.txt"); // file should contain path name to a local directory containg *ESDs.root etc // Request connection to alien upon connection to grid plugin->SetProofConnectGrid(kFALSE); plugin->Print(); return plugin; }
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