//================================================= plDAQ2Ped(char *core0 = "" ) { char *path=""; TString fullInpName=path; fullInpName+=core0; fullInpName+=".hist.root"; fd=new TFile(fullInpName); if(! fd->IsOpen()) { printf("ERROR: input histo file not found, quit\n",fullInpName.Data()); return; } gROOT->LoadMacro("$STAR/StRoot/StMuDSTMaker/COMMON/macros/loadSharedLibraries.C"); loadSharedLibraries(); // libraries below are needed for DB interface assert( !gSystem->Load("StDbBroker")); assert( !gSystem->Load("St_db_Maker")); assert( !gSystem->Load("StEEmcDbMaker")); assert( !gSystem->Load("StEEmcUtil")); assert( !gSystem->Load("StEEmcDAQ2Ped")); StChain* chain = new StChain("StChain"); stDb = new St_db_Maker("StarDb", "MySQL:StarDb"); // for slope fits need a timestamp for pedestals (set by hand for now) stDb->SetDateTime(20090424,0);//time stamp for run 10114001 StEEmcDbMaker *myDb=new StEEmcDbMaker("eemcDb"); HList=new TObjArray; StEEmcDAQ2Ped* daq2ped=new StEEmcDAQ2Ped("daq2ped",fd); daq2ped->SetHList(HList); daq2ped->ChooseSet(0); //sets marker type for slope histos daq2ped->MappingFile("crMap.csv"); //file to store Mapmt mapping (sometimes useful) chain->Init(); chain->Make(); chain->Finish(); TString out; out+="Rnnn"; out+="ped.hist.root"; TFile f( out,"recreate"); assert(f.IsOpen()); printf("%d histos are written to '%s' ...\n",HList->GetEntries(),out.Data()); HList->Write(); f.Close(); }
int runqa(Int_t run=16020057,Int_t ped=0,Int_t nevents=0,const Char_t *evpdir = "/evp/a/"){ int day=run/1000; LoadLibs(); Int_t ierr = 0; cout << "Constructing the chain" << endl; StChain* analysisChain = new StChain("fpsQAChain"); TString dir0 = "MySQL:StarDb"; TString dir1 = "$STAR/StarDb"; St_db_Maker *dbMkr = new St_db_Maker( "dbMkr", dir0, dir1 ); cout << "Constructing StFmsDbMaker" << endl; fgtDbMkr = new StFmsDbMaker(); cout << "Constructing the FPS raw daq reader" << endl; char filename[200]; sprintf(filename,"%s/%d",evpdir,run); //sprintf(filename,"%s/%d_DELETE",evpdir,run); daqRdr = new StFpsRawDaqReader( "daqReader", filename); //daqRdr->SetDebug(); cout << "Constructing the FPS QA maker" << endl; StFpsQaMaker *qaMkr=new StFpsQaMaker("FpsQa"); qaMkr->setRun(run); qaMkr->setPed(ped); cout << "Initializing" << endl; ierr = analysisChain->Init(); if( ierr ){ cout << "Error initializing" << endl; return; }; if(nevents<=0) nevents = 1<<30; // a big number cout << "Max nevents = " << nevents << endl; for( int i=0; i<nevents && !ierr; ++i ){ if( i%100 == 0 ) cout << " Eevent= " << i << endl; //cout << " Eevent number " << i << endl; ierr = analysisChain->Make(); analysisChain->Clear(); }; cout << "Finish" << endl; analysisChain->Finish(); return 0; };
void treeTest( const TString fList = "temp.list", const TString fOutName = "fOut.root", Long64_t nEvents = 9999 ) { gROOT->LoadMacro("$STAR/StRoot/StMuDSTMaker/COMMON/macros/loadSharedLibraries.C"); gROOT->LoadMacro("makeEventList.C"); loadSharedLibraries(); TFile* fOut = new TFile(fOutName.Data(),"RECREATE"); TH1D* hZdc = new TH1D("hZdc","hZdc", 50, 0.5, 5000.5); //----------------- Read data using StMuDstMaker ---------------// StChain* muChain = new StChain("StChain"); StMuDstMaker* muMaker = new StMuDstMaker(0,0,"",fList.Data(),"st:MuDst.root", 100, "MuDst"); muChain->Init(); Float_t zdcCut = 1623; TEventList* eventList = makeEventList(muMaker->chain(), zdcCut); muMaker->SetEventList(eventList); Long64_t nList = eventList->GetN(); if(nList < nEvents) {nEvents = nList;} for(Int_t i = 0; i <= (nEvents-1); i++) { muChain->Make(); Float_t zdcWest = muMaker->muDst()->event()->zdcTriggerDetector().adc(0); Float_t zdcEast = muMaker->muDst()->event()->zdcTriggerDetector().adc(4); hZdc->Fill(zdcWest); hZdc->Fill(zdcEast); } muChain->Finish(); fOut->Write(); fOut->Close(); delete muChain; delete eventList; }
void runMuDstAna(TString inputFileList, int nFiles, const char* outName) { gROOT->Macro("loadMuDst.C"); gSystem->Load("StTpcDb.so"); gSystem->Load("StDetectorDbMaker.so"); gSystem->Load("StDbUtilities"); gSystem->Load("StDbLib.so"); gSystem->Load("StDbBroker.so"); gSystem->Load("St_db_Maker"); gSystem->Load("StTriggerUtilities"); gSystem->Load("MuDstAna.so"); // List of member links in the chain StChain* chain = new StChain; StMuDstMaker* muDstMaker = new StMuDstMaker(0, 0, "", inputFileList.Data(), "MuDst", nFiles); St_db_Maker* dbMk = 0; dbMk = new St_db_Maker("StarDb", "MySQL:StarDb", "MySQL:StarDb", "$STAR/StarDb"); dbMk->SetDebug(0); StDetectorDbTriggerID* detdbid = StDetectorDbTriggerID::instance(); // Turn off everything but Primary tracks in order to speed up the analysis and eliminate IO muDstMaker-> SetStatus("*", 0); // Turn off all branches muDstMaker-> SetStatus("PrimaryVertices", 1); muDstMaker-> SetStatus("PrimaryTracks", 1); muDstMaker-> SetStatus("MuEvent", 1); //.. turn on the useful branches muDstMaker-> SetStatus("DetectorStates", 1); cout << "input list " << inputFileList << endl; MuDstAna* analysisMaker = new MuDstAna(muDstMaker, outName); // Loop over the links in the chain chain->Init(); chain->EventLoop(1,1000000); chain->Finish(); // Cleanup delete chain; }
void SchedulerExample(const char* fileList, const char* outFile="SchedulerExample.root") { gROOT->LoadMacro("$STAR/StRoot/StMuDSTMaker/COMMON/macros/loadSharedLibraries.C"); loadSharedLibraries(); // create the chain" StChain * chain = new StChain("StChain"); chain->SetDebug(0); // now create StMuDstMaker // agruments are: // 0 : read mode // 0 : name mode (has no effect on read mode) // "" : input directory, ignored when filename or fileList is specified // fileList : list of files to read // "" : filter // 1e9 : maximum number of files to read // MuDstMaker : name of the maker //cout << " press any key " << endl; cin.ignore(); //StMuDebug::setLevel(0); // StMuDstMaker* muDstMaker = new StMuDstMaker(0,0,"",fileList,"",10,"MuDstMaker"); // now add your analysis maker // SchedulerExample* analysis = new SchedulerExample(outFile); // Init the chain chain->Init(); // This should call the Init() method in ALL makers chain->PrintInfo(); int iret = 0; int iev =0; // now loop over events, makers are call in order of creation while ( !iret ) { cout << "SchedulerExample.C -- Working on eventNumber " << iev++ << endl; chain->Clear(); iret = chain->Make(iev); // This should call the Make() method in ALL makers } // Event Loop chain->Finish(); // This should call the Finish() method in ALL makers }
void RunFmsTrigOverData(int nevents = 1000, const char* mudstfile = "/star/data27/reco/pp500_production_2011/ReversedFullField/P11id/2011/056/12056013/st_physics_12056013_raw_5020002.MuDst.root") { // Load shared libraries gROOT->Macro("loadMuDst.C"); gROOT->Macro("LoadLogger.C"); gSystem->Load("StDbBroker"); gSystem->Load("St_db_Maker"); gSystem->Load("StEEmcUtil"); gSystem->Load("StFmsTriggerMaker"); // Create chain StChain* chain = new StChain; // Instantiate MuDst maker StMuDstMaker* muDstMaker = new StMuDstMaker(0,0,"",mudstfile,".",1000,"MuDst"); // STAR database St_db_Maker* starDb = new St_db_Maker("StarDb","MySQL:StarDb"); // FMS trigger simulator StFmsTriggerMaker* fmstrig = new StFmsTriggerMaker; fmstrig->useMuDst(); // Initialize chain chain->Init(); // Event loop for (int iEvent = 1; iEvent <= nevents; ++iEvent) { chain->Clear(); int status = chain->Make(iEvent); if (status == kStSkip) continue; if (status % 10 == kStEOF || status % 10 == kStFatal) break; // Test FMS dijet trigger if (fmstrig->FmsDijet()) { printf("Run=%d Event=%d - Got FMS dijet trigger\n",chain->GetRunNumber(),chain->GetEventNumber()); } } // Event loop }
void RunJetFinder2012pro(int nevents = 1000000, const char* indir = "~zchang/2013-08-trgsimu/MuDst/", const char* MuDst = "st_physics_13109014_raw_1020001.MuDst.root", //const char* outdir ="~/data05/Run12Jets/", const char* Jetfile = "st_physics_13109014_raw_1020001.jets.root", const char* Uefile = "st_physics_13109014_raw_1020001.ueoc.root", const char *Uefile_Region = "st_physics_13109014_raw_1020001.uereg.root", const char* Skimfile = "st_physics_13109014_raw_1020001.skim.root" //, bool useL2 = false ) { cout<<"MuDst file is "<<MuDst<<endl; cout<<"JetTree file is "<<Jetfile<<endl; cout<<"SkimTree file is "<<Skimfile<<endl; gROOT->Macro("loadMuDst.C"); gROOT->Macro("LoadLogger.C"); gSystem->Load("StDetectorDbMaker"); gSystem->Load("StTpcDb"); gSystem->Load("StDbUtilities"); gSystem->Load("StMcEvent"); gSystem->Load("StMcEventMaker"); gSystem->Load("StDaqLib"); gSystem->Load("StEmcRawMaker"); gSystem->Load("StEmcADCtoEMaker"); gSystem->Load("StEmcSimulatorMaker"); gSystem->Load("StDbBroker"); gSystem->Load("St_db_Maker"); gSystem->Load("StEEmcUtil"); gSystem->Load("StEEmcDbMaker"); gSystem->Load("StSpinDbMaker"); gSystem->Load("StEmcTriggerMaker"); gSystem->Load("StTriggerUtilities"); gSystem->Load("StMCAsymMaker"); gSystem->Load("StRandomSelector"); gSystem->Load("libfastjet.so"); // gSystem->Load("libCDFConesPlugin.so"); // gSystem->Load("libEECambridgePlugin.so"); // gSystem->Load("libJadePlugin.so"); // gSystem->Load("libNestedDefsPlugin.so"); // gSystem->Load("libSISConePlugin.so"); gSystem->Load("libfastjet.so"); gSystem->Load("libsiscone.so"); gSystem->Load("libsiscone_spherical.so"); gSystem->Load("libfastjetplugins.so"); gSystem->Load("StJetFinder"); gSystem->Load("StJetSkimEvent"); gSystem->Load("StJets"); gSystem->Load("StJetEvent"); gSystem->Load("StUeEvent"); gSystem->Load("StJetMaker"); gSystem->Load("StTriggerFilterMaker"); StChain *chain = new StChain; StMuDstMaker* muDstMaker = new StMuDstMaker(0,0,indir, MuDst,"",1000); StMuDbReader* muDstDb = StMuDbReader::instance(); StTriggerFilterMaker* filterMaker = new StTriggerFilterMaker; //JP0 filterMaker->addTrigger(380401); //JP1 filterMaker->addTrigger(380402); //JP2 filterMaker->addTrigger(380403); //AJP filterMaker->addTrigger(380404); //JP2*L2JetHigh //filterMaker->addTrigger(380405); //BHT2*BJP1 //filterMaker->addTrigger(380205); //BHT2*BJP1*L2Bgamma //filterMaker->addTrigger(380208); //EHT0*EJP1*L2Egamma //filterMaker->addTrigger(380304); //BHT3*L2BW //filterMaker->addTrigger(380209); //filterMaker->addTrigger(380219); //EHT1*L2EW //filterMaker->addTrigger(380305); St_db_Maker* starDb = new St_db_Maker("StarDb","MySQL:StarDb"); StEEmcDbMaker* eemcDb = new StEEmcDbMaker; StSpinDbMaker* spinDb = new StSpinDbMaker; StEmcADCtoEMaker* adc = new StEmcADCtoEMaker; adc->saveAllStEvent(true); StTriggerSimuMaker* simuTrig = new StTriggerSimuMaker; simuTrig->useOnlineDB(); simuTrig->setMC(false); simuTrig->askTrigger("JP0"); simuTrig->askTrigger("JP1"); simuTrig->askTrigger("JP2"); simuTrig->askTrigger("AJP"); // simuTrig->emc->defineTrigger2012(13,"JP0",380401,0x8000); // simuTrig->emc->defineTrigger2012(14,"JP1",380402,0x0040); // simuTrig->emc->defineTrigger2012(15,"JP2",380403,0x0080); // simuTrig->emc->defineTrigger2012(16,"AJP",380404,0x1000); simuTrig->useBbc(); simuTrig->useBemc(); simuTrig->useEemc(); simuTrig->bemc->setConfig(StBemcTriggerSimu::kOffline); StJetMaker2012* jetmaker = new StJetMaker2012; jetmaker->setJetFile(Jetfile); jetmaker->setJetFileUe(Uefile); StJetSkimEventMaker* skimEventMaker = new StJetSkimEventMaker("StJetSkimEventMaker", muDstMaker, Skimfile); StAnaPars* anapars12 = new StAnaPars; anapars12->useTpc = true; anapars12->useBemc = true; anapars12->useEemc = true; // The classes available for correcting tower energy for tracks are: // 1. StjTowerEnergyCorrectionForTracksMip // 2. StjTowerEnergyCorrectionForTracksFraction // 3. StjTowerEnergyCorrectionForTracksNull (default: no correction) anapars12->setTowerEnergyCorrection(new StjTowerEnergyCorrectionForTracksFraction(1.00)); anapars12->addTpcCut(new StjTrackCutFlag(0)); anapars12->addTpcCut(new StjTrackCutNHits(12)); anapars12->addTpcCut(new StjTrackCutPossibleHitRatio(0.51)); anapars12->addTpcCut(new StjTrackCutDca(3)); //DcaD pT dependent cut for pp200 run9 // anapars12->addTpcCut(new StjTrackCutDcaPtDependent); //DcaT pT dependent cut for pp500 run11, run12 anapars12->addTpcCut(new StjTrackCutTdcaPtDependent); //Don't Need Chi2 cut for Run12 either //anapars12->addTpcCut(new StjTrackCutChi2(0,4)); anapars12->addTpcCut(new StjTrackCutPt(0.2,200)); anapars12->addTpcCut(new StjTrackCutEta(-2.5,2.5)); anapars12->addTpcCut(new StjTrackCutLastPoint(125)); // BEMC cuts anapars12->addBemcCut(new StjTowerEnergyCutBemcStatus(1)); anapars12->addBemcCut(new StjTowerEnergyCutAdc(4,3)); // ADC-ped>4 AND ADC-ped>3*RMS anapars12->addBemcCut(new StjTowerEnergyCutEt(0.2)); // EEMC cuts anapars12->addEemcCut(new StjTowerEnergyCutBemcStatus(1)); anapars12->addEemcCut(new StjTowerEnergyCutAdc(4,3)); // ADC-ped>4 AND ADC-ped>3*RMS anapars12->addEemcCut(new StjTowerEnergyCutEt(0.2)); // Jet cuts anapars12->addJetCut(new StProtoJetCutPt(5,200)); anapars12->addJetCut(new StProtoJetCutEta(-100,100)); // Jet Area StFastJetAreaPars *JetAreaPars = new StFastJetAreaPars; //Anti-kT R=0.6 for run12 jet finding // Set anti-kt R=0.6 parameters StFastJetPars* AntiKtR060Pars = new StFastJetPars; AntiKtR060Pars->setJetAlgorithm(StFastJetPars::antikt_algorithm); AntiKtR060Pars->setRparam(0.6); AntiKtR060Pars->setRecombinationScheme(StFastJetPars::E_scheme); AntiKtR060Pars->setStrategy(StFastJetPars::Best); AntiKtR060Pars->setPtMin(5.0); AntiKtR060Pars->setJetArea(JetAreaPars); //Anti-kT R=0.5 for run12 jet finding // Set anti-kt R=0.5 parameters StFastJetPars* AntiKtR050Pars = new StFastJetPars; AntiKtR050Pars->setJetAlgorithm(StFastJetPars::antikt_algorithm); AntiKtR050Pars->setRparam(0.5); AntiKtR050Pars->setRecombinationScheme(StFastJetPars::E_scheme); AntiKtR050Pars->setStrategy(StFastJetPars::Best); AntiKtR050Pars->setPtMin(5.0); AntiKtR050Pars->setJetArea(JetAreaPars); // jetmaker->addBranch("CdfMidpointR070NHits12",anapars12,CdfMidpointR070Pars); // jetmaker->addBranch("CdfMidpointR070NHits5",anapars5,CdfMidpointR070Pars); // jetmaker->addBranch("CdfMidpointR070EMC",anaparsEMC,CdfMidpointR070Pars); jetmaker->addBranch("AntiKtR060NHits12",anapars12,AntiKtR060Pars); // jetmaker->addBranch("AntiKtR060NHits5",anapars5,AntiKtR060Pars); // jetmaker->addBranch("AntiKtR060EMC",anaparsEMC,AntiKtR060Pars); jetmaker->addBranch("AntiKtR050NHits12",anapars12,AntiKtR050Pars); // jetmaker->addBranch("AntiKtR050NHits5",anapars5,AntiKtR050Pars); // jetmaker->addBranch("AntiKtR050EMC",anaparsEMC,AntiKtR050Pars); StOffAxisConesPars *off050 = new StOffAxisConesPars(0.5); StOffAxisConesPars *off060 = new StOffAxisConesPars(0.6); jetmaker->addUeBranch("OffAxisConesR050", off050); jetmaker->addUeBranch("OffAxisConesR060", off060); // Run chain->Init(); chain->EventLoop(nevents); }
void TestJpsiTopo(int nevents = 1e6, const char* mudstfile = "/star/data28/reco/ppProductionJPsi/FullField/P06id/2006/139/7139023/st_jpsi_7139023_raw_1130010.MuDst.root") { gROOT->Macro("loadMuDst.C"); gROOT->Macro("LoadLogger.C"); // Load shared libraries gSystem->Load("StTpcDb"); gSystem->Load("StDetectorDbMaker"); gSystem->Load("StDbUtilities"); gSystem->Load("StMcEvent"); gSystem->Load("StMcEventMaker"); gSystem->Load("StDaqLib"); gSystem->Load("StEmcRawMaker"); gSystem->Load("StEmcADCtoEMaker"); gSystem->Load("StEpcMaker"); gSystem->Load("StEmcSimulatorMaker"); gSystem->Load("StDbBroker"); gSystem->Load("St_db_Maker"); gSystem->Load("StEEmcUtil"); gSystem->Load("StEEmcDbMaker"); gSystem->Load("StTriggerUtilities"); // Create chain StChain* chain = new StChain; // MuDst reader StMuDstMaker* muDstMaker = new StMuDstMaker(0,0,"",mudstfile,"",100000,"MuDst"); // StMuDbReader... StMuDbReader* db = StMuDbReader::instance(); // star database St_db_Maker* starDb = new St_db_Maker("StarDb","MySQL:StarDb"); // Endcap database StEEmcDbMaker* eemcDb = new StEEmcDbMaker; // Barrel ADC to energy maker StEmcADCtoEMaker* adc2e = new StEmcADCtoEMaker; // Trigger simulator StTriggerSimuMaker* trigSimu = new StTriggerSimuMaker; trigSimu->setMC(false); trigSimu->useBemc(); trigSimu->bemc->setConfig(StBemcTriggerSimu::kOffline); // Initialize chain chain->Init(); // Event loop for (int iEvent = 1; iEvent <= nevents; ++iEvent) { chain->Clear(); int status = chain->Make(iEvent); if (status == kStSkip) continue; if (status % 10 == kStEOF || status % 10 == kStFatal) break; cout << "Run = " << chain->GetRunNumber() << ", Event = " << chain->GetEventNumber() << endl; // Test J/psi topology trigger in Run 6 if (trigSimu->isTrigger(117705) || trigSimu->isTrigger(137705)) { // Print number of J/psi candidate BEMC tower pairs that could have fired the J/psi trigger cout << "Number of J/psi candidates = " << trigSimu->bemc->numberOfJpsiCandidates() << endl; // Loop over J/psi candidates for (int i = 0; i < trigSimu->bemc->numberOfJpsiCandidates(); ++i) { cout << "J/psi candidate #" << i << ": towerId1 = " << trigSimu->bemc->jpsiCandidateFirstTowerId(i) << ", towerId2 = " << trigSimu->bemc->jpsiCandidateSecondTowerId(i) << endl; } // End loop over J/psi candidates } } // End event loop }
void Macro(int nEvents = 1e5, const char* filelist = "test.list", const char* nametag = "test", int nFiles = 8 ) { gROOT->Macro("LoadLogger.C"); gROOT->Macro("loadMuDst.C"); gSystem->Load("StarMagField.so"); gSystem->Load("StMagF"); gSystem->Load("StDetectorDbMaker"); gSystem->Load("StTpcDb"); gSystem->Load("St_db_Maker"); gSystem->Load("StDbUtilities"); gSystem->Load("StMcEvent"); gSystem->Load("StMcEventMaker"); gSystem->Load("StDaqLib"); gSystem->Load("StEmcRawMaker"); gSystem->Load("StEmcADCtoEMaker"); gSystem->Load("StEpcMaker"); gSystem->Load("StTriggerUtilities"); gSystem->Load("StDbBroker"); gSystem->Load("libgeometry_Tables"); gSystem->Load("StEEmcUtil"); gSystem->Load("StEEmcDbMaker"); gSystem->Load("StPreEclMaker"); gSystem->Load("StEpcMaker"); gSystem->Load("libTStarJetPico.so"); gSystem->Load("JetPicoMaker"); StChain* chain = new StChain("StChain"); // MuDst maker StMuDstMaker* muDstMaker = new StMuDstMaker(0,0,"",filelist,"",nFiles); // star database St_db_Maker *dbMaker = new St_db_Maker("StarDb","MySQL:StarDb"); // Endcap database StEEmcDbMaker* eemcb = new StEEmcDbMaker("eemcDb"); // Barrel ADC to energy maker StEmcADCtoEMaker *adc = new StEmcADCtoEMaker(); StPreEclMaker *pre_ecl = new StPreEclMaker(); StEpcMaker *epc = new StEpcMaker(); //get control table so we can turn off BPRS zero-suppression and save hits from "bad" caps controlADCtoE_st* control_table = adc->getControlTable(); control_table->CutOff[1] = -1; control_table->CutOffType[1] = 0; control_table->DeductPedestal[1] = 2; adc->saveAllStEvent(kTRUE); StTriggerSimuMaker* trigsim = new StTriggerSimuMaker(); trigsim->setMC(false); trigsim->useBemc(); trigsim->useEemc(); //trigsim->useBbc(); trigsim->useOnlineDB(); trigsim->bemc->setConfig(StBemcTriggerSimu::kOnline); StMuJetAnalysisTreeMaker *ana = new StMuJetAnalysisTreeMaker; ana->SetVerbose(10); ana->setRootFile(Form("pAu15Pico_%s.root",nametag)); ana->SetFlagData(12); //For pAu Y15 ana->GetV0Cuts()->SetStandardCutspp(); ana->SetDoV0s(kFALSE); //TString outfile(name); //StEmcOfflineCalibrationMaker* bemcCalibMaker = new StEmcOfflineCalibrationMaker("bemcCalibMaker",outfile.Data()); StMemStat memory; memory.PrintMem(NULL); chain->Init(); cout<<"chain initialized"<<endl; TStopwatch total; TStopwatch timer; int i=0; while(i<nEvents && chain->Make()==kStOk) { if(i % 100000 == 0){ cout<<"done with event "<<i; cout<<"\tcpu: "<<timer.CpuTime()<<"\treal: "<<timer.RealTime()<<"\tratio: "<<timer.CpuTime()/timer.RealTime();//<<endl; timer.Start(); memory.PrintMem(NULL); } i++; chain->Clear(); } chain->ls(3); chain->Finish(); printf("my macro processed %i events in %s",i,nametag); cout<<"\tcpu: "<<total.CpuTime()<<"\treal: "<<total.RealTime()<<"\tratio: "<<total.CpuTime()/total.RealTime()<<endl; cout << endl; cout << "-------------" << endl; cout << "(-: Done :-) " << endl; cout << "-------------" << endl; cout << endl; }
void SkimPion(const char* fileList, const char* fileId="Skim.root") { int flagMC=0; // 0== off, 1=Alan int useEemc=1; // 0== off int useBemc=1; // 0== off int useL2=1; // 0== off int L2ConfigYear=2006; // possible: 2006, 2008 int bemcConfig=2; // enum: kOnline=1, kOffline, kExpert int playConfig=100; // jan:100_199 int emcEveDump=0; // extrating raw EMC data in a custom format const char *dirIn=""; int nFiles = 100000; // make this big if you want to read all events from a run char *eemcSetupPath="/afs/rhic.bnl.gov/star/users/kocolosk/public/StarTrigSimuSetup/"; TString outDir="./out2/"; gROOT->LoadMacro("$STAR/StRoot/StMuDSTMaker/COMMON/macros/loadSharedLibraries.C"); loadSharedLibraries(); gSystem->Load("StDetectorDbMaker"); gSystem->Load("StDbUtilities"); gSystem->Load("StDbBroker"); gSystem->Load("St_db_Maker"); gSystem->Load("StEEmcUtil"); gSystem->Load("StEEmcDbMaker"); gSystem->Load("StarMagField"); gSystem->Load("geometry"); gSystem->Load("St_g2t"); gSystem->Load("St_geant_Maker"); gSystem->Load("StDaqLib"); gSystem->Load("StEmcRawMaker"); gSystem->Load("StEmcADCtoEMaker"); gSystem->Load("StTriggerUtilities"); gSystem->Load("StEpcMaker"); gSystem->Load("StSpinDbMaker"); // Renees Trigger Maker //gSystem->Load("StEmcTriggerMaker"); // Mikes relative luminosity interface gSystem->Load("StEsRelLum"); //Load your maker here gSystem->Load("StSkimPionMaker"); gROOT->Macro("LoadLogger.C"); cout << "loading done " << endl; StChain *chain = new StChain("StChain"); StMuDstMaker *mudst_mk = new StMuDstMaker(0,0,"",fileList,"MuDst.root",999); // MuDST reader //StMuDbReader StMuDbReader* db = StMuDbReader::instance(); // Need St_db_Maker for Emc calibration St_db_Maker *db1 = new St_db_Maker("StarDb","$STAR/StarDb","MySQL:StarDb"); //Database interface, needed for prescales StDetectorDbMaker* detDbMk = new StDetectorDbMaker(); // Database for Spin data StSpinDbMaker *spDb=new StSpinDbMaker("spinDb"); //Endcap DB if(useEemc || useL2) new StEEmcDbMaker("eemcDb"); // Maker to apply calibration StEmcADCtoEMaker *adc_to_e=new StEmcADCtoEMaker(); adc_to_e->setPrint(kFALSE); //adc_to_e->saveAllStEvent(true); //Collect all output histograms TObjArray* HList = new TObjArray; //Get TriggerMaker StTriggerSimuMaker *simuTrig = new StTriggerSimuMaker("StarTrigSimu"); simuTrig->setHList(HList); simuTrig->setMC(flagMC); // must be before individual detectors, to be passed simuTrig->useBbc(); if(useEemc) { simuTrig->useEemc(0);//default=0:just process ADC, 1,2:comp w/trgData,see . simuTrig->eemc->setSetupPath(eemcSetupPath); } if(useBemc) { simuTrig->useBemc(); simuTrig->bemc->setConfig(bemcConfig); } if(1) { /* reads all input/setup files from L2setup-yyyymmdd/ writes all output files to L2out-yyyymmdd depending on the DB time stamp both dierectiorie MUST exist, setup must be reasonable */ StGenericL2Emulator* simL2Mk=0; if(L2ConfigYear==2006) simL2Mk= new StL2_2006EmulatorMaker; else if(L2ConfigYear==2008) simL2Mk= new StL2_2008EmulatorMaker; assert(simL2Mk); simL2Mk->setSetupPath(eemcSetupPath); simL2Mk->setOutPath(outDir.Data()); if (flagMC) simL2Mk->setMC(); //simL2Mk->useStEvent(); // default : use muDst simuTrig->useL2(simL2Mk); } // Makers for clusterfinding StPreEclMaker *pre_ecl=new StPreEclMaker(); pre_ecl->setPrint(kFALSE); StEpcMaker *epc=new StEpcMaker(); epc->setPrint(kFALSE); //StEmcTrigger //StEmcTriggerMaker *emcTrig = new StEmcTriggerMaker("StEmcTriggerMaker"); //emcTrig->setDbMaker(db1); // now add your analysis maker StSkimPionMaker* analysis = new StSkimPionMaker("SkimPionMaker", 1, fileId); chain->ls(3); chain->Init(); //Tight cuts (esp. SMD) Int_t sizeMax = 4; Float_t energySeed = 0.4; // default is 0.7, usually 0.35 Float_t energyAdd = 0.05; // default is 0.07, usually 0.035 pre_ecl->SetClusterConditions("bemc", sizeMax, energySeed, energyAdd, 0.02, kFALSE); // defaults for SMDs are ("...", 5, 0.4, 0.001, 0.1, kFALSE) pre_ecl->SetClusterConditions("bsmde", 5, 0.4,0.005, 0.1,kFALSE); // used 5, 0.2, 0.0005, 0.1 pre_ecl->SetClusterConditions("bsmdp", 5, 0.4,0.005, 0.1,kFALSE); pre_ecl->SetClusterConditions("bprs", 1, 500., 500., 501., kFALSE); // TStopwatch totaltime; TStopwatch timer; TMemStat memory; Int_t n_event=100000000; int total =0; cout << "Chain initialized, starting up... " << endl; for(Int_t iev=0;iev<n_event; iev++) { cout << "****************************************** " << endl; cout << "\Processing Event " << iev << " of "<< n_event << endl; cout << "*************************1***************** " << endl; chain->Clear(); if(iev % 500 == 0){ cout<<"done with event "<<iev; cout<<"\tcpu: "<<timer.CpuTime()<<"\treal: "<<timer.RealTime()<<"\tratio: "<<timer.CpuTime()/timer.RealTime()<<endl; timer.Start(); memory.PrintMem(NULL); } int iret = chain->Make(iev); total++; if(iret % 10 == kStEOF || iret % 10 == kStFatal) { cout << "Bad return code!" << endl; break; } } chain->Finish(); cout << "****************************************** " << endl; cout << "total number of events " << total << endl; cout << "****************************************** " << endl; }
void bitcheck(int run=16043074, int file=1, int nEvents=10000, int useDSM=1, int plt=0){ char name[200]; sprintf(name,"trg/run%d.%d.dat",run,file); cout << "Reading up to "<<nEvents<<" events from "<<name<<endl; LoadLibs(); StChain* chain = new StChain; StIOMaker* iomaker = new StIOMaker("IO","r", name); StTriggerDataMaker* trgmaker = new StTriggerDataMaker(); //trgmaker->setDebug(1); StFmsTriggerMaker* fmstrg = new StFmsTriggerMaker(); fmstrg->useTrgData(); fmstrg->forceRunNumber(run); if(useDSM==0) fmstrg->useQTSim(); if(useDSM==1) fmstrg->useDsmData(); StFmsBitCheckMaker* bitcheck = new StFmsBitCheckMaker(); bitcheck->setRun(run); bitcheck->setPrint(20); StFmsTrgQaMaker* qa = new StFmsTrgQaMaker(); qa->setRun(run); chain->Init(); if(plt==1){ c1=new TCanvas("FMS","FMS",700,800); gStyle->SetOptStat(111110); gStyle->SetStatW(0.4); gStyle->SetStatH(0.4); for(int i=0; i<=NX*2; i++){ int x=i-NX; char tt[100]; sprintf(tt,"FMS xing=%d",x); HF[i]=new TH1F(tt,tt,50,0,5000); HF[i]->SetFillColor(kRed); sprintf(tt,"BBC xing=%d",x); HB[i]=new TH1F(tt,tt,50,0,5000); HB[i]->SetFillColor(kRed); } } unsigned long long bxkeep=0; for(int iev=0; iev<nEvents; iev++){ if(iev%100==0) cout << "****event="<<iev<<endl; chain->Clear(); int ierr=chain->Make(); if(ierr>1) break; if(plt==1){ StTriggerData *td = (StTriggerData*)chain->GetDataSet("StTriggerData")->GetObject(); int npre=td->numberOfPreXing(); int npost=td->numberOfPostXing(); for(int i=0; i<=2*NX; i++){ int x=i-NX; if(-x>npre || x>npost) continue; int sumF=0, sumB=0; for(int crt=1; crt<=4; crt++){ for(int adr=0; adr<16; adr++){ for(int ch=0; ch<32; ch++){ sumF+=td->fmsADC(crt,adr,ch,x); } } } for(int ch=0; ch<16; ch++){ sumB+=td->bbcADC(0,ch,x); sumB+=td->bbcADC(1,ch,x); } HF[i]->Fill(sumF); HB[i]->Fill(sumB); } } } chain->Finish(); if(plt==1){ c1->Divide(2,NX*2+1); for(int i=0; i<=2*NX; i++){ TVirtualPad *pad1 = c1->cd(i*2+1); pad1->SetLogy(); HF[i]->Draw(); TVirtualPad *pad2 = c1->cd(i*2+2); pad2->SetLogy(); HB[i]->Draw(); } c1->Update(); char fname[100]; sprintf(fname,"fms_%d.png",run); c1->SaveAs(fname); } delete chain; }
void run_StMcAccpMaker(const char* file, const char* outfile) { //Check STAR Library. Please set SL_version to the original star library used // in the production from http://www.star.bnl.gov/devcgi/dbProdOptionRetrv.pl string SL_version = "SL12d_embed"; string env_SL = getenv("STAR"); if (env_SL.find(SL_version) == string::npos) { cout << "Environment Star Library does not match the requested library in run_st_etree.C. Exiting..." << endl; return; } // Load shared libraries Load(); // Create chain StChain* chain = new StChain; // I/O maker StIOMaker* ioMaker = new StIOMaker; ioMaker->SetFile(file); ioMaker->SetIOMode("r"); ioMaker->SetBranch("*", 0, "0"); //ioMaker->SetBranch("McEventBranch",0,"r"); ioMaker->SetBranch("geantBranch", 0, "r"); ioMaker->SetBranch("eventBranch", 0, "r"); TString mudstfile = file; mudstfile.ReplaceAll(".event.root",".MuDst.root"); mudstfile.ReplaceAll(".geant.root",".MuDst.root"); StMuDstMaker* muDstMaker = new StMuDstMaker(0,0,"",mudstfile.Data(),"",100000,"MuDst"); StMcEventMaker *mcEventMaker = new StMcEventMaker(); mcEventMaker->doPrintEventInfo = false; mcEventMaker->doPrintMemoryInfo = false; StAssociationMaker* assoc = new StAssociationMaker; assoc->useInTracker(); //.. see example in CVS: StRoot/macros/mudst/exampleEmc.C // Need St_db_Maker for Emc calibration St_db_Maker* dbMk = new St_db_Maker("StarDb", "MySQL:StarDb"); //dbMk->SetMaxEntryTime(20100301,0); //dbMk->SetDateTime(20080101,000001); StEEmcDbMaker* eemcDb = new StEEmcDbMaker; StEmcADCtoEMaker *adc_to_e = new StEmcADCtoEMaker(); adc_to_e->saveAllStEvent(kTRUE); StEmcSimulatorMaker* emcSim = new StEmcSimulatorMaker(); //use this instead to "redo" converstion from geant->adc // Makers for clusterfinding StPreEclMaker *pre_ecl = new StPreEclMaker(); pre_ecl->setPrint(kFALSE); StEpcMaker *epc = new StEpcMaker(); epc->setPrint(kFALSE); StTriggerSimuMaker* simuTrig = new StTriggerSimuMaker(); simuTrig->useOfflineDB(); simuTrig->setMC(2); // 0=data, 1=simulation, 2=embedding simuTrig->useBemc(); simuTrig->useEemc(); simuTrig->bemc->setConfig(2); // Online==1, Offline==2, Expert==3 // simuTrig->bemc->setConfig(StBemcTriggerSimu::kOffline); int col_energy = 200; //.. option: 200, 62, 39 // std::vector<unsigned int> triggers; // triggers.push_back(370542); // // triggers.push_back(370522); // // Monte Carlo event maker StMcAccpMaker* analysis = new StMcAccpMaker(simuTrig,outfile,col_energy);//,triggers); // Initialize chain chain->Init(); chain->EventLoop(1000000); chain->Finish(); //delete chain; }
int runqa( Int_t runnumber = 14032027, Int_t ped=0, Int_t nevents = 9999999, int zs=1, const Char_t *evpdir = "/evp/a/", Float_t chargrms=1.0, Float_t thr=4.0, Float_t thr2add=3.0, Bool_t useSeed5=true, Bool_t cutShortEvents = 0){ int day=runnumber/1000; LoadLibs(); Int_t ierr = 0; cout << "Constructing the chain" << endl; StChain* analysisChain = new StChain("fgtQAChain"); TString dir0 = "MySQL:StarDb"; TString dir1 = "$STAR/StarDb"; St_db_Maker *dbMkr = new St_db_Maker( "dbMkr", dir0, dir1 ); cout << "Constructing StFgtDbMaker" << endl; fgtDbMkr = new StFgtDbMaker(); //dbMkr->SetDateTime(20120401,000000); //run2012??? cout << "Constructing the FGT raw daq reader" << endl; char filename[200]; sprintf(filename,"%s/%d",evpdir,runnumber); //sprintf(filename,"%s/%d_DELETE",evpdir,runnumber); daqRdr = new StFgtRawDaqReader( "daqReader", filename); daqRdr->setIsCosmic( false ); daqRdr->cutShortEvents( cutShortEvents ); //daqRdr->setStartTbin(1); //daqRdr->setNumTbin(8); if(zs>0){daqRdr->setZSdataOnly();} if(ped==1) { daqRdr->setNoneZSdataOnly(); cout << "Loading and Constructing the StFgtPedMaker" << endl; gSystem->Load("StFgtPedMaker"); StFgtRobustPedMaker* pedMkr = new StFgtRobustPedMaker(); pedMkr->setFgtDbMkrName("fgtDb"); pedMkr->setTimeBinMask(0x0); pedMkr->setNumBins(4200); pedMkr->setMaxAdc(4200); pedMkr->setNumSmooth(0); sprintf(filename,"%d/ped/ped.%d.txt",day,runnumber); pedMkr->setToSaveToFile(filename); cout << "Loading and Constructing the Status Maker" << endl; gSystem->Load("StFgtStatusMaker"); StFgtStatusMaker *statMkr = new StFgtStatusMaker( "FgtStatusMaker", "FgtPedMaker" ); sprintf(filename,"%d/status/status.%d.txt",day,runnumber); statMkr->setToSaveToFile(filename); statMkr->setTimeBin(0); statMkr->setPedRange(200,1000); statMkr->setRmsRange(15,200); statMkr->setFracRange(0.0,1.0); statMkr->setMaxDeadPerApv(128); }else{ cout << "Loading and Constructing the StFgtA2CMaker" << endl; gSystem->Load("StFgtA2CMaker"); StFgtA2CMaker* a2cMkr = new StFgtA2CMaker( "FgtA2CMaker" ); a2cMkr->setFgtDb(fgtDbMkr->getDbTables()); a2cMkr ->setAbsThres( -5000 ); // set to below -4096 to skip cut // a2cMkr ->setAbsThres( 300 ); // set to below -4096 to skip cut //a2cMkr ->setRelThres( 3.); // set to zero to skip cut a2cMkr ->setRelThres(thr); // set to zero to skip cut // a2cMkr->doCutBadStatus(true);//parameter is useless from looking at the function a2cMkr->doCutBadStatus(); a2cMkr->acceptLongPulses(true); ////you have to set the relative threshold to 3 if you set the cluster threshold to 0.6 (meaning 3) //a2cMkr->setClusterThreshold(0.6); a2cMkr->setClusterThreshold(thr/5.0); a2cMkr->setPedSigFactor4Charge(chargrms); a2cMkr->useLeastRestrictiveSeed(useSeed5); ///this cuts ~10% of the events // a2cMkr->doRemoveNonSignal(false); // a2cMkr->doRemoveNonPulse(false); a2cMkr->setPedestalFile("ped.txt"); a2cMkr->setStatusFile("status.txt"); gSystem->Load("StFgtClusterMaker"); Char_t *myMaker = "StFgtClusterMaker"; StFgtClusterMaker* clusterMk =new StFgtClusterMaker("FgtClustMaker"); clusterMk->SetDEBUG(); // simpleClusAlgo = new StFgtSimpleClusterAlgo(); seededClusAlgo = new StFgtSeededClusterAlgo(); seededClusAlgo->setJumpSingleStrip(true); // if a strip in cluster has no charge seededClusAlgo->setThreshold2AddStrip(thr2add); //threshold to add strips to cluster clusterMk->setClusterAlgo( seededClusAlgo ); gSystem->Load("StFgtPointMaker"); StFgtPointMaker* pointMk =new StFgtPointMaker(); StFgtSimplePointAlgo * simplePointAlgo = new StFgtSimplePointAlgo(); pointMk->setPointAlgo( simplePointAlgo ); simplePointAlgo->setMaxChargeAsym(0.2); gSystem->Load("StFgtClusterTools"); fgtGenBase=new StFgtGeneralBase("fgtGenBase"); fgtGenBase->fillFromEvent(); fgtStraightTrackMaker =new StFgtStraightTrackMaker("fgtStraightTracker"); fgtStraightTrackMaker->setMinNumFitPoints(3); fgtStraightTrackMaker->setMaxClusters(30); //fgtStraightPlotter=new StFgtStraightPlotter("fgtStraightPlotter"); gSystem->Load("libMinuit"); gSystem->Load("StFgtAlignmentMaker"); StFgtAlignmentMaker* algMk =new StFgtAlignmentMaker(); algMk->setTrackType(0); algMk->setDataSource(2); algMk->setRunNumber(runnumber); sprintf(filename,"%d/alignment_trkout.%d.root",day,runnumber); algMk->setWriteTree(filename); gSystem->Load("StFgtQAMaker"); StFgtQAMaker* qaMkr =new StFgtQAMaker(); qaMkr->setRunNumber(runnumber); } cout << "Initializing" << endl; ierr = analysisChain->Init(); if( ierr ){ cout << "Error initializing" << endl; return; }; if( nevents < 0 ) nevents = 1<<30; // a big number cout << "max nevents = " << nevents << endl; for( int i=0; i<nevents && !ierr; ++i ){ if( i+1 % 100 == 1 ) cout << "\t on event number **************" << i << endl; //cout << "clear (agv)" << endl; analysisChain->Clear(); //cout << "make" << endl; ierr = analysisChain->Make(); //cout <<" done " <<endl; }; // fgtDbMkr->printFgtDumpCSV("fgtMapDump.csv"); // // Calls the ::Finish() method on all makers // cout << "finish" << endl; analysisChain->Finish(); // Now write a status table /* if( runnumber ){ std::stringstream ss; fout << "Times given in the run log are " << endl; ss << "lynx -dump 'http://online.star.bnl.gov/RunLogRun12/index.php?r=" << runnumber << "' | grep GMT"; FILE *f = gSystem->OpenPipe(ss.str().data(),"r"); Char_t c; while((c=fgetc(f))!=EOF) fout << c; }; */ bool doOutputPdf=false; // convert ps to pdf if( doOutputPdf ){ cout << "converting ps to pdf" << endl; gSystem->Exec(( std::string("ps2pdf -dAutoRotatePages=/None ") + pdfFile ).data()); }; cout << "\tall done" << endl; return; };
void makeTrees(string fileList, string jobID){ bool makePairs = true; bool makeTrackQA = false; //LOAD LIBRARIES cout << "\n"; gROOT->Macro("/star/u/klandry/ucladisk/2012IFF/StRoot/LoadLibs.C"); if (makePairs) { gSystem->Load("pionPair"); cout << " loading of pionPair library done" << endl; gSystem->Load("pionPairTreeMaker"); cout << " loading of pionPairTreeMaker library done" << endl; } if (makeTrackQA) { gSystem->Load("trackQAmaker"); cout << " loading of trackQAmaker library done" << endl; } cout << "\n"; cout << "\n"; //CHAIN OF MAKERS StChain* chain = new StChain; //MUDST READER StMuDstMaker* muDstMaker = new StMuDstMaker(0,0,"",fileList.c_str(),"",100000,"MuDst"); chain->Make(0); StMuEvent* MuEvent = muDstMaker->muDst()->event(); int runID = MuEvent->runId(); stringstream ss; ss << runID; string runNumber = ss.str(); //StarDbMaker St_db_Maker* dbMaker = new St_db_Maker("db", "MySQL:StarDb", "$STAR/StarDb"); //SPINDBMAKER StSpinDbMaker* spinDbMaker = new StSpinDbMaker("StSpinDbMaker"); cout << "\n"; //pionPairTreemaker if (makePairs) { pionPairTreeMaker* piTreeMaker = new pionPairTreeMaker(muDstMaker); string outFileName; outFileName = "run"; outFileName += runNumber; outFileName += "_"; outFileName += jobID; outFileName += "_pionTree.root"; piTreeMaker->setOutputFile(outFileName.c_str()); cout << "pionPairTree file name: " << outFileName << endl; } //trackQAmaker if (makeTrackQA) { trackQAmaker* trkQAmaker = new trackQAmaker(muDstMaker); string trackOutFileName; trackOutFileName = "run"; trackOutFileName += runNumber; trackOutFileName += "_"; trackOutFileName += jobID; trackOutFileName += "_trackQA.root"; trkQAmaker->setOutputFile(trackOutFileName.c_str()); cout << "track QA file name: " << trackOutFileName << endl; } int iEvent = 0; cout << "\n"; cout << "\n"; cout << "Init() ......." << endl; cout << "\n"; cout << "\n"; chain->Init(); cout << "\n"; cout << "\n"; cout << "Make() ......." << endl; cout << "\n"; cout << "\n"; //int nEvents = 2; //chain->EventLoop(nEvents); //* while (chain->Make(iEvent) == kStOK) { iEvent++; if (iEvent%100000 == 0) {cout << "processing event number " << iEvent << endl;} //if (iEvent >= 10000){break;} }//end while //*/ chain->Finish(); delete chain; }
void RunJetFinder2009pro_ue(int nevents = 1E3, const char* mudstfile = "/star/institutions/uky/gdwebb/UE_histos/st_physics_10103041_raw_8030001.MuDst.root", const char* jetfile = "jets_copy.root", const char* skimfile = "skim_copy.root", const char* uefile = "ueTree_copy.root", int mEmbed = 0, int mPythia = 0, bool useL2 = false) { cout << "nevents = " << nevents << endl; cout << "mudstfile = " << mudstfile << endl; cout << "jetfile = " << jetfile << endl; cout << "skimfile = " << skimfile << endl; cout << "uefile = " << uefile << endl; gROOT->Macro("loadMuDst.C"); gROOT->Macro("LoadLogger.C"); gSystem->Load("StDetectorDbMaker"); gSystem->Load("StTpcDb"); gSystem->Load("StDbUtilities"); gSystem->Load("StMcEvent"); gSystem->Load("StMcEventMaker"); gSystem->Load("StDaqLib"); gSystem->Load("StEmcRawMaker"); gSystem->Load("StEmcADCtoEMaker"); gSystem->Load("StEpcMaker"); gSystem->Load("StEmcSimulatorMaker"); gSystem->Load("StDbBroker"); gSystem->Load("St_db_Maker"); gSystem->Load("StEEmcUtil"); gSystem->Load("StEEmcDbMaker"); gSystem->Load("StSpinDbMaker"); gSystem->Load("StEmcTriggerMaker"); gSystem->Load("StTriggerUtilities"); gSystem->Load("StMCAsymMaker"); gSystem->Load("StRandomSelector"); gSystem->Load("libfastjet.so"); gSystem->Load("libsiscone.so"); gSystem->Load("libsiscone_spherical.so"); gSystem->Load("libfastjetplugins.so"); // gSystem->Load("libfastjet.so"); // gSystem->Load("libCDFConesPlugin.so"); // gSystem->Load("libEECambridgePlugin.so"); // gSystem->Load("libJadePlugin.so"); // gSystem->Load("libNestedDefsPlugin.so"); // gSystem->Load("libSISConePlugin.so"); gSystem->Load("StJetFinder"); gSystem->Load("StJetSkimEvent"); gSystem->Load("StJets"); gSystem->Load("StJetEvent"); gSystem->Load("StUeEvent"); gSystem->Load("StJetMaker"); gSystem->Load("StTriggerFilterMaker"); StChain* chain = new StChain; // MuDst reader StMuDstMaker* muDstMaker = new StMuDstMaker(0,0,"",mudstfile,"",100000,"MuDst"); // MuDst DB StMuDbReader* muDstDb = StMuDbReader::instance(); // Trigger filter StTriggerFilterMaker* filterMaker = new StTriggerFilterMaker; // 2009 pp500 filterMaker->addTrigger(230410); // JP1 filterMaker->addTrigger(230411); // JP2 filterMaker->addTrigger(230420); // AJP filterMaker->addTrigger(230531); // BHT3 // star database St_db_Maker* starDb = new St_db_Maker("StarDb","MySQL:StarDb"); // Endcap database StEEmcDbMaker* eemcDb = new StEEmcDbMaker; // Spin database StSpinDbMaker* spinDb = new StSpinDbMaker; // Barrel ADC to energy maker StEmcADCtoEMaker* adc = new StEmcADCtoEMaker; adc->saveAllStEvent(true); // Trigger simulator StTriggerSimuMaker* simuTrig = new StTriggerSimuMaker; simuTrig->useOnlineDB(); // for trigger definitions and thresholds simuTrig->setMC(false); // Must be before individual detectors, to be passed simuTrig->useBemc(); simuTrig->useEemc(); simuTrig->bemc->setConfig(StBemcTriggerSimu::kOffline); // L2 (only L2btowCalib, L2etowCalib, L2ped, L2jet in CVS as of 17 April 2010) if (useL2) { StL2_2009EmulatorMaker* simL2Mk = new StL2_2009EmulatorMaker; assert(simL2Mk); simL2Mk->setSetupPath("/star/u/pibero/public/StarTrigSimuSetup/"); simL2Mk->setOutPath("./"); simuTrig->useL2(simL2Mk); } // Skim event maker StJetSkimEventMaker* skimEventMaker = new StJetSkimEventMaker("StJetSkimEventMaker",muDstMaker,skimfile); // Jet maker StJetMaker2009* jetmaker = new StJetMaker2009; jetmaker->setJetFile(jetfile); // UE maker StUEMaker2009* uemaker = new StUEMaker2009; uemaker->setUeFile(uefile); // Set analysis cuts for 12-point branch StAnaPars* anapars12 = new StAnaPars; anapars12->useTpc = true; anapars12->useBemc = true; anapars12->useEemc = false; // The classes available for correcting tower energy for tracks are: // 1. StjTowerEnergyCorrectionForTracksMip // 2. StjTowerEnergyCorrectionForTracksFraction // 3. StjTowerEnergyCorrectionForTracksNull (default: no correction) anapars12->setTowerEnergyCorrection(new StjTowerEnergyCorrectionForTracksFraction(1.00)); // // 1. StjTrackPtFraction // 2. StjTowerEnergyFraction // The input parameter is the fraction which you want to increase or decrease the track/tower pT/energy. // i.e. If you want to decrease the track pT by 5%, you should put in -0.05 as the input parameter for StjTrackPtFraction // anapars12->setTrackShift(new StjTrackPtFraction(-0.05)); // anapars12->setTowerShift(new StjTowerEnergyFraction(-0.05)); // TPC cuts anapars12->addTpcCut(new StjTrackCutFlag(0)); anapars12->addTpcCut(new StjTrackCutNHits(12)); anapars12->addTpcCut(new StjTrackCutPossibleHitRatio(0.51)); anapars12->addTpcCut(new StjTrackCutDca(3)); anapars12->addTpcCut(new StjTrackCutTdcaPtDependent); anapars12->addTpcCut(new StjTrackCutPt(0.2,200)); anapars12->addTpcCut(new StjTrackCutEta(-2.5,2.5)); anapars12->addTpcCut(new StjTrackCutLastPoint(125)); // BEMC cuts anapars12->addBemcCut(new StjTowerEnergyCutBemcStatus(1)); anapars12->addBemcCut(new StjTowerEnergyCutAdc(4,3)); // ADC-ped>4 AND ADC-ped>3*RMS anapars12->addBemcCut(new StjTowerEnergyCutEt(0.2)); // EEMC cuts anapars12->addEemcCut(new StjTowerEnergyCutBemcStatus(1)); anapars12->addEemcCut(new StjTowerEnergyCutAdc(4,3)); // ADC-ped>4 AND ADC-ped>3*RMS anapars12->addEemcCut(new StjTowerEnergyCutEt(0.2)); // Jet cuts anapars12->addJetCut(new StProtoJetCutPt(5,200)); anapars12->addJetCut(new StProtoJetCutEta(-100,100)); //---------Region Criteria--------- anapars12_toward = anapars12; // Toward Region for Tracks and Towers anapars12_toward->setTrackRegion(new StjTrackRegion(60.0,-60.0,1.0)); anapars12_toward->setTowerRegion(new StjTowerRegion(60.0,-60.0,1.0)); anapars12_away = anapars12; // Away Region for Tracks and Towers anapars12_away->setTrackRegion(new StjTrackRegion(120.0,-120.0,1.0)); anapars12_away->setTowerRegion(new StjTowerRegion(120.0,-120.0,1.0)); anapars12_transPlus = anapars12; // Trans Plus for Tracks and Towers anapars12_transPlus->setTrackRegion(new StjTrackRegion(120.0,60.0,1.0)); anapars12_transPlus->setTowerRegion(new StjTowerRegion(120.0,60.0,1.0)); anapars12_transMinus = anapars12; // Trans Minus for Tracks and Towers anapars12_transMinus->setTrackRegion(new StjTrackRegion(-60.0,-120.0,1.0)); anapars12_transMinus->setTowerRegion(new StjTowerRegion(-60.0,-120.0,1.0)); //--------------------------------- //Jet Area StFastJetAreaPars *JetAreaPars = new StFastJetAreaPars; JetAreaPars->setGhostArea(0.04); // Set anti-kt R=0.6 parameters StFastJetPars* AntiKtR060Pars = new StFastJetPars; AntiKtR060Pars->setJetAlgorithm(StFastJetPars::antikt_algorithm); AntiKtR060Pars->setRparam(0.6); AntiKtR060Pars->setRecombinationScheme(StFastJetPars::E_scheme); AntiKtR060Pars->setStrategy(StFastJetPars::Best); AntiKtR060Pars->setPtMin(5.0); AntiKtR060Pars->setJetArea(JetAreaPars); // Set anti-kt R=0.4 parameters StFastJetPars* AntiKtR040Pars = new StFastJetPars; AntiKtR040Pars->setJetAlgorithm(StFastJetPars::antikt_algorithm); AntiKtR040Pars->setRparam(0.4); AntiKtR040Pars->setRecombinationScheme(StFastJetPars::E_scheme); AntiKtR040Pars->setStrategy(StFastJetPars::Best); AntiKtR040Pars->setPtMin(5.0); AntiKtR040Pars->setJetArea(JetAreaPars); // Set anti-kt R=0.5 parameters StFastJetPars* AntiKtR050Pars = new StFastJetPars; AntiKtR050Pars->setJetAlgorithm(StFastJetPars::antikt_algorithm); AntiKtR050Pars->setRparam(0.5); AntiKtR050Pars->setRecombinationScheme(StFastJetPars::E_scheme); AntiKtR050Pars->setStrategy(StFastJetPars::Best); AntiKtR050Pars->setPtMin(5.0); AntiKtR050Pars->setJetArea(JetAreaPars); jetmaker->addBranch("AntiKtR060NHits12",anapars12,AntiKtR060Pars); jetmaker->addBranch("AntiKtR040NHits12",anapars12,AntiKtR040Pars); jetmaker->addBranch("AntiKtR050NHits12",anapars12,AntiKtR050Pars); uemaker->addBranch("toward",anapars12_toward,"AntiKtR060NHits12"); uemaker->addBranch("away",anapars12_away,"AntiKtR060NHits12"); uemaker->addBranch("transP",anapars12_transPlus,"AntiKtR060NHits12"); uemaker->addBranch("transM",anapars12_transMinus,"AntiKtR060NHits12"); // Run chain->Init(); chain->EventLoop(nevents); }
void starbase( const char *gy="y2006c", Float_t etaMin=eta_min, Float_t etaMax=eta_max, Float_t phiMin=phi_min, Float_t phiMax=phi_max, const Char_t *path="./" ) { // Silence ROOT // gErrorIgnoreLevel = 9999; // Load shared libraries if (!loaded) { Load(); loaded = 1; } // Create the chain StChain *chain = new StChain; TString tsy(gy); gSystem->ExpandPathName(tsy); // Create the geometry gROOT->LoadMacro ( TString(path)+tsy+".h" ); gROOT->ProcessLine ( tsy+"()" ); // gROOT -> ProcessLine( TString( ".x "+tsy+".h" ) ); std::cout << "Done creating geometry" << std::endl; // Create the baseline maker StarBASE *mk = new StarBASE("StarBASE",tsy.Data(), 1); // Setup fiducial volume mk->SetAttr("eta_min", etaMin); mk->SetAttr("eta_max", etaMax); mk->SetAttr("deta", deta ); mk->SetAttr("phi_min", phiMin); mk->SetAttr("phi_max", phiMax); mk->SetAttr("dphi", dphi); mk->SetAttr("sample", nsample); // Initialize the chain chain->Init(); steps = mk->steps(); // Create histograms for all volumes beneath the "HALL" volume. steps->bookVolume("HALL"); // Print out tracking media for all volumes for debug poirposes /* TIter next( gGeoManager->GetListOfMedia() ); TGeoMedium *m; while ( (m=(TGeoMedium*)next() ) ) { m->SavePrimitive(std::cout); } */ // Run the code now chain->EventLoop(1); /// NOTE THE FUGLY HACK TO chain->Finish(); // Write histograms to disk TFile *file = new TFile(Form("%s/%s.root",path,gy),"recreate"); file->cd(); mk->GetHistList()->Print(); mk->GetHistList()->Write(); // Write the geometry to disk gGeoManager->Write(); }
void RunMipHistogramMaker(Int_t nEntries = 1e8, const Char_t* listname="test.list", const Char_t* outfile="testMipFile.root") { gROOT->Macro("LoadLogger.C"); gROOT->Macro("loadMuDst.C"); gSystem->Load("StTpcDb"); gSystem->Load("StDaqLib"); gSystem->Load("StDetectorDbMaker"); gSystem->Load("St_db_Maker"); gSystem->Load("StDbUtilities"); gSystem->Load("StEmcRawMaker"); gSystem->Load("StMcEvent"); gSystem->Load("StMcEventMaker");//*** gSystem->Load("StEmcSimulatorMaker");//*** gSystem->Load("StEmcADCtoEMaker"); gSystem->Load("StEpcMaker"); gSystem->Load("StDbBroker"); gSystem->Load("StEEmcUtil"); gSystem->Load("StAssociationMaker"); gSystem->Load("StTriggerUtilities"); gSystem->Load("StEmcOfflineCalibrationMaker"); //Instantiate StChain StChain *chain = new StChain; TChain *MipChain = new TChain("calibTree"); Char_t file[300]; ifstream filelist(listname,ifstream::in); while(1){ filelist >> file; if (!filelist.good()) break; cout << file << endl; MipChain->Add(file); } StEmcOfflineCalibrationMipAnalysis *mipAnalysis = new StEmcOfflineCalibrationMipAnalysis("StEmcOfflineCalibrationMipAnalysis",outfile,MipChain); //Initialize chain chain->Init(); cout << "Successful Init" << endl; //Loop over all Make() in Chain for (Int_t iEntry = 0; iEntry < MipChain->GetEntries(); ++iEntry){ if (MipChain->GetEvent(iEntry) <= 0) break; if (iEntry%10000 == 0) cout << "Working on event: " << iEntry << endl; chain->Clear(); Int_t iret = chain->Make(iEntry); if(iret){ cout << "Bad return code" << endl; break; } } chain->Finish(); }