void reco_complete_tpc() { // Macro created 20/09/2006 by S.Spataro // It loads a simulation file and digitize hits for EMC gROOT->LoadMacro("$VMCWORKDIR/gconfig/rootlogon.C"); rootlogon(); // Verbosity level (0=quiet, 1=event level, 2=track level, 3=debug) Int_t iVerbose = 0; // just forget about it, for the moment // Number of events to process Int_t nEvents = 0; // if 0 all the vents will be processed // Parameter file TString parFile = "simparams.root"; // at the moment you do not need it // Digitisation file (ascii) TString digiFile = "all.par"; // Output file TString outFile = "reco_complete.root"; // MC file TString mcFile = "sim_complete.root"; // ----- Timer -------------------------------------------------------- TStopwatch timer; // ------------------------------------------------------------------------ // ----- Reconstruction run ------------------------------------------- FairRunAna *fRun= new FairRunAna(); fRun->SetInputFile("sim_complete.root"); fRun->AddFriend("digi_complete.root"); fRun->SetOutputFile(outFile); FairGeane *Geane = new FairGeane(); fRun->AddTask(Geane); // ----- Parameter database -------------------------------------------- TString emcDigiFile = gSystem->Getenv("VMCWORKDIR"); emcDigiFile += "/macro/params/"; emcDigiFile += digiFile; FairRuntimeDb* rtdb = fRun->GetRuntimeDb(); FairParRootFileIo* parInput1 = new FairParRootFileIo(); parInput1->open(parFile.Data()); FairParAsciiFileIo* parIo1 = new FairParAsciiFileIo(); parIo1->open(emcDigiFile.Data(),"in"); rtdb->setFirstInput(parInput1); rtdb->setSecondInput(parIo1); // ----- EMC hit producers --------------------------------- // The file name should be the same of the geometry file which was used for the simulation PndEmcMakeCluster* emcMakeCluster= new PndEmcMakeCluster(iVerbose); emcMakeCluster->SetStorageOfData(kFALSE); fRun->AddTask(emcMakeCluster); PndEmcHdrFiller* emcHdrFiller = new PndEmcHdrFiller(); fRun->AddTask(emcHdrFiller); // ECM header PndEmcMakeBump* emcMakeBump= new PndEmcMakeBump(); fRun->AddTask(emcMakeBump); //------ Ideal DCH track finder -------------------- PndDchFindTracks* finderTask = new PndDchFindTracks("dchFindTracks"); finderTask->SetUseHitOrDigi("chit"); fRun->AddTask(finderTask); // ------------------------------------------------- PndDchTrackFinderIdealCylHit* mcTrackFinder = new PndDchTrackFinderIdealCylHit(); mcTrackFinder->SetPrimary(1); // 1 = Only primary tracks are processed, 0 = all (default) finderTask->UseFinder(mcTrackFinder); //-------------------------------------------------- PndDchMatchTracks *matchTask = new PndDchMatchTracks();//match PndDchTracks and MCTracks matchTask->SetUseHitOrDigi("chit"); fRun->AddTask(matchTask); //----- MVD Hit Reco ----- PndMvdClusterTask* mvdmccls = new PndMvdClusterTask(); fRun->AddTask(mvdmccls); //------ GEM Realistic Track finder -------------------- //Create and add finder task PndGemFindTracks* gemFinderTask = new PndGemFindTracks("PndGemFindTracks"); gemFinderTask->SetUseHitOrDigi("hit"); // hit = (default), digi fRun->AddTask(gemFinderTask); PndGemTrackFinderOnHits* gemTrackFinder = new PndGemTrackFinderOnHits(); gemTrackFinder->SetVerbose(0); // verbosity level gemTrackFinder->SetPrimary(0); // 1 = Only primary tracks are processed, 0 = all (default) gemFinderTask->UseFinder(gemTrackFinder); PndGemTrackFinderQA* gemTrackFinderQA = new PndGemTrackFinderQA(); gemTrackFinderQA->SetVerbose(0); fRun->AddTask(gemTrackFinderQA); // ----- TPC Reco Sequence -------------------------------------------- PndTpcClusterFinderTask* tpcCF = new PndTpcClusterFinderTask(); tpcCF->SetMode(1); // individual timeslice tpcCF->SetPersistence(); tpcCF->timeslice(20); // = 4 sample times = 100ns @ 40MHz //tpcCF->SetTrivialClustering(); fRun->AddTask(tpcCF); PndTpcIdealTrackingTask* tpcIPR = new PndTpcIdealTrackingTask(); tpcIPR->useGeane(true); tpcIPR->useDistSorting(true); fRun->AddTask(tpcIPR); tpcIPR->SetPersistence(); // PndTpcRiemannTrackingTask* tpcSPR = new PndTpcRiemannTrackingTask(); // tpcSPR->SetTrkFinderParameters(2.,// proxcut // 0.02, // proxcut on rieman sphere // 2.E-3, // planecut // 4.0, // szcut // 4); // minnumhits for fit // tpcSPR->SetPersistence(); // tpcSPR->useGeane(); // fRun->AddTask(tpcSPR); KalmanTask* kalman =new KalmanTask(); kalman->SetPersistence(); kalman->SetNumIterations(3); // number of fitting iterations (back and forth) fRun->AddTask(kalman); TrackFitStatTask* fitstat=new TrackFitStatTask(); fitstat->SetPersistence(); fitstat->SetMCPCut(10); // in sigma dp/p fitstat->SetMCCuts(0.05, // pmin 10., // pmax -TMath::Pi(), // thetamin 5deg TMath::Pi(), // thetamax 5); // nPndTpcPoints //fitstat->SetPdgSelection(321); //fitstat->DoResiduals(); fRun->AddTask(fitstat); // ----- Intialise and run -------------------------------------------- cout << "fRun->Init()" << endl; fRun->Init(); timer.Start(); fRun->Run(0,nEvents); // ------------------------------------------------------------------------ // ----- Finish ------------------------------------------------------- timer.Stop(); Double_t rtime = timer.RealTime(); Double_t ctime = timer.CpuTime(); cout << endl << endl; cout << "Macro finished successfully." << 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; // ------------------------------------------------------------------------ cout << " Test passed" << endl; cout << " All ok " << endl; // exit(0); }