// -------------------------------------------------------------------------- // // Macro for reconstruction of simulated events with standard settings // // HitProducers in MVD, RICH, TRD, TOF, ECAL // Digitizer and HitFinder in STS // FAST MC for ECAL // STS track finding and fitting (L1 / KF) // TRD track finding and fitting (L1 / KF) // 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 // Version 24/04/2007 (V. Friese) // // -------------------------------------------------------------------------- void run_reco(Int_t nEvents = 1) { // ======================================================================== // 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 = "data/test.mc.root"; // Parameter file TString parFile = "data/params.root"; // STS digitisation file TString stsDigiFile = "sts_standard.digi.par"; // Output file TString outFile = "data/test.eds.root"; // In general, the following parts need not be touched // ======================================================================== // ---- Debug option ------------------------------------------------- gDebug = 0; // ------------------------------------------------------------------------ // ----- Timer -------------------------------------------------------- TStopwatch timer; timer.Start(); // ------------------------------------------------------------------------ // ---- Load libraries ------------------------------------------------- gROOT->LoadMacro("$VMCWORKDIR/gconfig/basiclibs.C"); basiclibs(); gSystem->Load("libGeoBase"); gSystem->Load("libParBase"); gSystem->Load("libBase"); gSystem->Load("libCbmBase"); gSystem->Load("libField"); gSystem->Load("libGen"); gSystem->Load("libPassive"); gSystem->Load("libMvd"); gSystem->Load("libSts"); gSystem->Load("libRich"); gSystem->Load("libTrd"); gSystem->Load("libTof"); gSystem->Load("libEcal"); gSystem->Load("libGlobal"); gSystem->Load("libKF"); gSystem->Load("libL1"); gSystem->Load("libMinuit2"); // Nedded for rich ellipse fitter // ------------------------------------------------------------------------ // ----- Reconstruction run ------------------------------------------- CbmRunAna *run= new CbmRunAna(); run->SetInputFile(inFile); run->SetOutputFile(outFile); // ------------------------------------------------------------------------ // ========================================================================= // === MVD local reconstruction === // ========================================================================= /* // ----- MVD Hitproducer ----------------------------------------------- CbmMvdHitProducer* mvdHitProd = new CbmMvdHitProducer("MVDHitProducer", 0, iVerbose); run->AddTask(mvdHitProd); // ------------------------------------------------------------------------- */ // === End of MVD local reconstruction === // ========================================================================= // ========================================================================= // === STS local reconstruction === // ========================================================================= // ----- STS digitizer ------------------------------------------------- CbmTask* stsDigitize = new CbmStsDigitize(iVerbose); run->AddTask(stsDigitize); // ------------------------------------------------------------------------- // ----- STS hit finding ------------------------------------------------ CbmTask* stsFindHits = new CbmStsFindHits(iVerbose); run->AddTask(stsFindHits); // ------------------------------------------------------------------------- // ----- STS hit matching ----------------------------------------------- CbmStsMatchHits* stsMatchHits = new CbmStsMatchHits(iVerbose); run->AddTask(stsMatchHits); // ------------------------------------------------------------------------- // --- STS track finding ------------------------------------------------ CbmKF* kalman = new CbmKF(); run->AddTask(kalman); CbmL1* l1 = new CbmL1(); run->AddTask(l1); CbmStsTrackFinder* stsTrackFinder = new CbmL1StsTrackFinder(); CbmTask* stsFindTracks = new CbmStsFindTracks(iVerbose, stsTrackFinder); run->AddTask(stsFindTracks); // ------------------------------------------------------------------------- // --- STS track matching ---------------------------------------------- CbmTask* stsMatchTracks = new CbmStsMatchTracks(iVerbose); run->AddTask(stsMatchTracks); // ------------------------------------------------------------------------- // --- STS track fitting ----------------------------------------------- CbmStsTrackFitter* stsTrackFitter = new CbmStsKFTrackFitter(); CbmTask* stsFitTracks = new CbmStsFitTracks(stsTrackFitter, iVerbose); run->AddTask(stsFitTracks); // ------------------------------------------------------------------------- // === End of STS local reconstruction === // ========================================================================= // ========================================================================= // === TRD local reconstruction === // ========================================================================= // ----- TRD hit producer ---------------------------------------------- Double_t trdSigmaX[] = {300, 400, 500}; // Resolution in x [mum] // Resolutions in y - station and angle dependent [mum] Double_t trdSigmaY1[] = {2700, 3700, 15000, 27600, 33000, 33000, 33000 }; Double_t trdSigmaY2[] = {6300, 8300, 33000, 33000, 33000, 33000, 33000 }; Double_t trdSigmaY3[] = {10300, 15000, 33000, 33000, 33000, 33000, 33000 }; // Update of the values for the radiator F.U. 17.08.07 Int_t trdNFoils = 130; // number of polyetylene foils Float_t trdDFoils = 0.0013; // thickness of 1 foil [cm] Float_t trdDGap = 0.02; // thickness of gap between foils [cm] CbmTrdHitProducer* trdHitProd = new CbmTrdHitProducer("TRD Hitproducer", "TRD task"); trdHitProd->SetPar(trdNFoils, trdDFoils, trdDGap); trdHitProd->SetSigmaX(trdSigmaX); trdHitProd->SetSigmaY(trdSigmaY1, trdSigmaY2, trdSigmaY3); run->AddTask(trdHitProd); // ------------------------------------------------------------------------- // ----- TRD track finding --------------------------------------------- CbmTrdTrackFinder* trdTrackFinder = new CbmL1TrdTrackFinderSts(); ((CbmL1TrdTrackFinderSts*)trdTrackFinder)->SetVerbose(iVerbose); CbmTrdFindTracks* trdFindTracks = new CbmTrdFindTracks("TRD Track Finder"); trdFindTracks->UseFinder(trdTrackFinder); run->AddTask(trdFindTracks); // ------------------------------------------------------------------------- // ----- TRD track fitting --------------------------------------------- CbmTrdTrackFitter* trdTrackFitter = new CbmTrdTrackFitterKF(); ((CbmTrdTrackFitterKF*)trdTrackFitter)->SetVerbose(iVerbose); ((CbmTrdTrackFitterKF*)trdTrackFitter)->SetPid(211); CbmTrdFitTracks* trdFitTracks = new CbmTrdFitTracks("TRD track fitter", "TRD", trdTrackFitter); run->AddTask(trdFitTracks); // ------------------------------------------------------------------------- // ----- TRD track matching -------------------------------------------- CbmTrdMatchTracks* trdMatchTracks = new CbmTrdMatchTracks(iVerbose); run->AddTask(trdMatchTracks); // ----------- TRD track Pid Wkn ---------------------- CbmTrdSetTracksPidWkn* trdSetTracksPidTask = new CbmTrdSetTracksPidWkn("trdFindTracks","trdFindTracks"); run->AddTask(trdSetTracksPidTask); // ---------------------------------------------------- // ----------- TRD track Pid Ann ---------------------- CbmTrdSetTracksPidANN* trdSetTracksPidAnnTask = new CbmTrdSetTracksPidANN("Ann","Ann"); run->AddTask(trdSetTracksPidAnnTask); // ---------------------------------------------------- // ------------------------------------------------------------------------- // === End of TRD local reconstruction === // ========================================================================= // ========================================================================= // === TOF local reconstruction === // ========================================================================= // ------ TOF hit producer --------------------------------------------- CbmTofHitProducer* tofHitProd = new CbmTofHitProducer("TOF HitProducer", iVerbose); run->AddTask(tofHitProd); // ------------------------------------------------------------------------- // === End of TOF local reconstruction === // ========================================================================= // ========================================================================= // === Global tracking === // ========================================================================= // ----- STS-TRD-TOF track merging ------------------------------------- CbmL1TrackMerger* trackMerger = new CbmL1TrackMerger(); trackMerger->SetMethod(1); CbmL1TofMerger* tofMerger = new CbmL1TofMerger(); CbmFindGlobalTracks* findGlobal = new CbmFindGlobalTracks(trackMerger, NULL, tofMerger, iVerbose); run->AddTask(findGlobal); //--------- TOF tracklength calculation ----------------------------------- CbmGlobalTrackFitterKF* globalFitter = new CbmGlobalTrackFitterKF(); CbmFitGlobalTracks* fitGlobal = new CbmFitGlobalTracks("globalfitter",iVerbose,globalFitter); run->AddTask(fitGlobal); //------------------------------------------------------------------------- // ----- Primary vertex finding --------------------------------------- CbmPrimaryVertexFinder* pvFinder = new CbmPVFinderKF(); CbmFindPrimaryVertex* findVertex = new CbmFindPrimaryVertex(pvFinder); run->AddTask(findVertex); // ------------------------------------------------------------------------ // === End of global tracking === // ========================================================================= // ----------- TRD track Pid Like ---------------------- // Since in the newest version of this method depends on the global // track the task has to move after the global tracking CbmTrdSetTracksPidLike* trdSetTracksPidLikeTask = new CbmTrdSetTracksPidLike("Likelihood","Likelihood"); run->AddTask(trdSetTracksPidLikeTask); // ---------------------------------------------------- // ========================================================================= // === RICH reconstruction === // ========================================================================= // ---------------------RICH Hit Producer ---------------------------------- Double_t richPmtRad = 0.4; // PMT radius [cm] Double_t richPmtDist = 0.; // Distance between PMTs [cm] Int_t richDetType = 4; // Detector type Hamamatsu H8500-03 Int_t richNoise = 220; // Number of noise points per event CbmRichHitProducer* richHitProd = new CbmRichHitProducer(richPmtRad, richPmtDist, richDetType, richNoise, iVerbose); run->AddTask(richHitProd); //-------------------------------------------------------------------------- //----------------------RICH Track Extrapolation --------------------------- Int_t richNSts = 4; // minimum number of STS hits for extrapolation Double_t richZPos = 300.; // z position for extrapolation [cm] CbmRichTrackExtrapolation* richExtra = new CbmRichTrackExtrapolationKF(richNSts, iVerbose); CbmRichExtrapolateTracks* richExtrapolate = new CbmRichExtrapolateTracks(); richExtrapolate->UseExtrapolation(richExtra,richZPos); run->AddTask(richExtrapolate); //-------------------------------------------------------------------------- //--------------------- Rich Track Projection to photodetector ------------- Int_t richZFlag = 1; // Projetion from IM plane (default) CbmRichProjectionProducer* richProj = new CbmRichProjectionProducer(iVerbose, richZFlag); run->AddTask(richProj); //-------------------------------------------------------------------------- //--------------------- RICH Ring Finding ---------------------------------- CbmRichRingFinderHough* richFinder = new CbmRichRingFinderHough(iVerbose); CbmRichFindRings* richFindRings = new CbmRichFindRings(); richFindRings->UseFinder(richFinder); run->AddTask(richFindRings); //-------------------------------------------------------------------------- /* //-------------------- RICH Ring Fitting ----------------------------------- Double_t iRingCorr = 1.; // correction done (default), choose 0 if not CbmRichRingFitter* richFitter = new CbmRichRingFitterTAU(iVerbose, iRingCorr, 2); CbmRichFitRings* fitRings = new CbmRichFitRings("","",richFitter); run->AddTask(fitRings); //-------------------------------------------------------------------------- */ //-------------------- RICH Ring Fitting ----------------------------------- // B-field configuration TString field ="muon"; // choose between "muon" or "active" Double_t iRingCorr = 0.; // correction done (default), choose 0 if not CbmRichRingFitter* richFitter = new CbmRichRingFitterEllipse(iVerbose, iRingCorr, field); CbmRichFitRings* fitRings = new CbmRichFitRings("","",richFitter); run->AddTask(fitRings); //-------------------------------------------------------------------------- // ------------------- RICH Ring matching --------------------------------- CbmRichMatchRings* matchRings = new CbmRichMatchRings(iVerbose); run->AddTask(matchRings); // ------------------------------------------------------------------------- //--------------------- RICH ring-track assignment ------------------------ Double_t richDistance = 10.; // Max. dist. ring centre to track [cm] Int_t richNPoints = 5; // Minmum number of hits on ring CbmRichRingTrackAssign* richAssign = new CbmRichRingTrackAssignClosestD(richDistance, richNPoints, iVerbose); CbmRichAssignTrack* assignTrack = new CbmRichAssignTrack(); assignTrack->UseAssign(richAssign); run->AddTask(assignTrack); // ------------------------------------------------------------------------ //--------------------- RICH ring selection ------------------------------- TString richSelectNNFile = gSystem->Getenv("VMCWORKDIR"); richSelectNNFile += "/parameters/rich/NeuralNet_RingSelection_Weights.txt"; CbmRichRingSelectNeuralNet *ringSelectNN = new CbmRichRingSelectNeuralNet(iVerbose, richSelectNNFile); CbmRichSelectRings* richSelectRingsNN = new CbmRichSelectRings(); richSelectRingsNN->UseSelect(ringSelectNN); run->AddTask(richSelectRingsNN); // ------------------------------------------------------------------------ // === End of RICH local reconstruction === // ========================================================================= // ========================================================================= // === ECAL reconstruction === // ========================================================================= // ----- ECAL hit producer ---------------------------------------------- CbmEcalHitProducerFastMC* ecalHitProd = new CbmEcalHitProducerFastMC("ECAL Hitproducer"); run->AddTask(ecalHitProd); // ------------------------------------------------------------------------- // === End of ECAL reconstruction === // ========================================================================= // ----- Parameter database -------------------------------------------- TString stsDigi = gSystem->Getenv("VMCWORKDIR"); stsDigi += "/parameters/sts/"; stsDigi += stsDigiFile; CbmRuntimeDb* rtdb = run->GetRuntimeDb(); CbmParRootFileIo* parIo1 = new CbmParRootFileIo(); CbmParAsciiFileIo* parIo2 = new CbmParAsciiFileIo(); parIo1->open(parFile.Data()); parIo2->open(stsDigi.Data(),"in"); rtdb->setFirstInput(parIo1); rtdb->setSecondInput(parIo2); rtdb->setOutput(parIo1); rtdb->saveOutput(); // ------------------------------------------------------------------------ // ----- Intialise and run -------------------------------------------- run->LoadGeometry(); run->Init(); cout << "Starting run" << endl; run->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; // ------------------------------------------------------------------------ cout << " Test passed" << endl; cout << " All ok " << endl; exit(0); }