runMvdCombi() { // Verbosity level (0=quiet, 1=event level, 2=track level, 3=debug) Int_t iVerbose = 0; Int_t nEvents = 1000; // ---- Load libraries ------------------------------------------------- gROOT->Macro("$VMCWORKDIR/gconfig/rootlogon.C"); // ----- Timer -------------------------------------------------------- TStopwatch timer; timer.Start(); // Number of events to process // Parameter file TString parFile = "../data/MvdTrackingParams.root"; PndMvdFileNameCreator namecreator("../data/MvdTracking.root"); namecreator.SetVerbose(1); std::string simFile = namecreator.GetSimFileName(); std::string outFile = namecreator.GetRecoFileName(); TString allDigiFile = gSystem->Getenv("VMCWORKDIR"); allDigiFile += "/macro/params/all.par"; // ----- Reconstruction run ------------------------------------------- FairRunAna *fRun= new FairRunAna(); fRun->SetInputFile(simFile.c_str()); fRun->SetOutputFile(outFile.c_str()); // ----- Parameter database -------------------------------------------- FairRuntimeDb* rtdb = fRun->GetRuntimeDb(); FairParRootFileIo* parInput1 = new FairParRootFileIo(); parInput1->open(parFile.Data()); rtdb->setFirstInput(parInput1); FairParAsciiFileIo* parInput2 = new FairParAsciiFileIo(); parInput2->open(allDigiFile.Data(),"in"); rtdb->setSecondInput(parInput2); fRun->LoadGeometry(); // ----- Mvd digi producers ------------------------------------- PndMvdStripHitProducer* mvdHitProd = new PndMvdStripHitProducer(); mvdHitProd->SetVerbose(iVerbose); fRun->AddTask(mvdHitProd); PndMvdHybridHitProducer* mvdPixProd = new PndMvdHybridHitProducer(); mvdPixProd->SetVerbose(iVerbose); fRun->AddTask(mvdPixProd); // Cluster finding for strip detectors PndMvdStripClusterTask* mvdmccls = new PndMvdStripClusterTask(5000., simFile); mvdmccls->SetVerbose(iVerbose); fRun->AddTask(mvdmccls); // Cluster finder for pixel detectors PndMvdPixelClusterTask* mvdClusterizer = new PndMvdPixelClusterTask(1.8, simFile); mvdClusterizer->SetVerbose(iVerbose); fRun->AddTask(mvdClusterizer); // ----- TPC digi producers --------------------------------- PndTpcClusterizerTask* tpcClusterizer = new PndTpcClusterizerTask(); //tpcClusterizer->SetPersistence(); fRun->AddTask(tpcClusterizer); PndTpcDriftTask* tpcDrifter = new PndTpcDriftTask(); // tpcDrifter->SetPersistence(); tpcDrifter->SetDistort(false); fRun->AddTask(tpcDrifter); PndTpcGemTask* tpcGem = new PndTpcGemTask(); //tpcGem->SetPersistence(); fRun->AddTask(tpcGem); PndTpcPadResponseTask* tpcPadResponse = new PndTpcPadResponseTask(); tpcPadResponse->SetPersistence(); fRun->AddTask(tpcPadResponse); PndTpcElectronicsTask* tpcElec = new PndTpcElectronicsTask(); tpcElec->SetPersistence(); fRun->AddTask(tpcElec); PndTpcClusterFinderTask* tpcCF = new PndTpcClusterFinderTask(); tpcCF->SetPersistence(); tpcCF->timeslice(20); // = 4 sample times = 100ns @ 40MHz fRun->AddTask(tpcCF); // ----- Intialise and run -------------------------------------------- fRun->Init(); fRun->Run(0,nEvents); // mvdKalman->WriteHistograms("MvdKalmanHistos.root"); // TFile histos("MvdKalmanHistos.root","READ"); rtdb->print(); // ----- Finish ------------------------------------------------------- timer.Stop(); Double_t rtime = timer.RealTime(); Double_t ctime = timer.CpuTime(); cout << endl << endl; cout << "Macro finished succesfully." << endl; cout << "Output file is " << outFile << endl; cout << "Parameter file is " << parFile << endl; cout << "Real time " << rtime << " s, CPU time " << ctime << " s" << endl; cout << endl; }