// -------------------------------------------------------------------------- // // Macro for reconstruction of simulated events // // STS, RICH and TRD Hitproducers // STS track finding and fitting // TRD track finding and fitting // RICH ring finding (ideal) and fitting // Global track finding (ideal), rich assignment // Primary vertex finding (ideal) // Matching of reconstructed and MC tracks in STS, RICH and TRD // // V. Friese 24/02/2006 // // -------------------------------------------------------------------------- { // ======================================================================== // Adjust this part according to your requirements // Verbosity level (0=quiet, 1=event level, 2=track level, 3=debug) Int_t iVerbose = 0; // Input file (MC events) TString inFile = "Jpsi.auau.25gev.mbias.mc.root"; // Number of events to process Int_t nEvents = 1; // Background file (for MAPS pileup) TString bgFile = "Jpsi.auau.25gev.mbias.mc.root"; // Parameter file TString parFile = "Jpsi.auau.25gev.mbias.params.root"; // Sts reco file TString stsRecoFile = "Jpsi.auau.25gev.mbias.stsreco.root"; // Output file TString outFile = "Jpsi.auau.25gev.mbias.reco.root"; // ---- Load libraries ------------------------------------------------- gROOT->LoadMacro("$VMCWORKDIR/gconfig/basiclibs.C"); basiclibs(); gSystem->Load("libGeoBase"); gSystem->Load("libParBase"); gSystem->Load("libBase"); gSystem->Load("libField"); gSystem->Load("libGen"); gSystem->Load("libPassive"); gSystem->Load("libSts"); gSystem->Load("libRich"); gSystem->Load("libTrd"); gSystem->Load("libTof"); //gSystem->Load("libEcal"); gSystem->Load("libMuch"); gSystem->Load("libGlobal"); gSystem->Load("libKF"); gSystem->Load("libL1"); // ------------------------------------------------------------------------ // --- Now choose concrete engines for the different tasks ------------- CbmKF* kalman= new CbmKF(); // ------------------------------------------------------------------------ // In general, the following parts need not be touched // ======================================================================== // ----- Timer -------------------------------------------------------- TStopwatch timer; timer.Start(); // ------------------------------------------------------------------------ // ----- Reconstruction run ------------------------------------------- CbmRunAna *fRun= new CbmRunAna(); fRun->SetInputFile(inFile); fRun->AddFriend(stsRecoFile); fRun->SetOutputFile(outFile); // ------------------------------------------------------------------------ // ----- Parameter database -------------------------------------------- CbmRuntimeDb* rtdb = fRun->GetRuntimeDb(); CbmParRootFileIo* parInput1 = new CbmParRootFileIo(); parInput1->open(parFile.Data()); CbmParAsciiFileIo* parInput2 = new CbmParAsciiFileIo(); TString stsDigiFile = gSystem->Getenv("VMCWORKDIR"); stsDigiFile += "/parameters/sts/sts_digi.par"; parInput2->open(stsDigiFile.Data(),"in"); rtdb->setFirstInput(parInput1); rtdb->setSecondInput(parInput2); fRun->LoadGeometry(); // ------------------------------------------------------------------------ fRun->AddTask(kalman); CbmMuchHitProducer *MuchHitProducer = new CbmMuchHitProducer(); fRun->AddTask(MuchHitProducer); CbmL1MuchFinder *MuchFinder = new CbmL1MuchFinder(); fRun->AddTask(MuchFinder); // ----- Intialise and run -------------------------------------------- fRun->Init(); fRun->Run();//0,nEvents); // ------------------------------------------------------------------------ // ----- 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; // ------------------------------------------------------------------------ }