void tut_rec() { // Macro created 20/09/2006 by S.Spataro // It loads a digi file and performs tracking // 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"; // ----- Timer -------------------------------------------------------- TStopwatch timer; // ------------------------------------------------------------------------ // ----- Reconstruction run ------------------------------------------- FairRunAna *fRun= new FairRunAna(); fRun->SetInputFile("sim_complete.root"); fRun->AddFriend("digi_complete.root"); fRun->SetOutputFile(outFile); fRun->SetWriteRunInfoFile(kFALSE); 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); // ------------------------------------------------------------------------ // use the constructor with input : // printout flag (int) , plotting flag (bool), MC comparison flag (bool), SciTil. PndTrkTracking* tracking = new PndTrkTracking(0,false,false,false); tracking->SetInputBranchName("STTHit","MVDHitsPixel","MVDHitsStrip"); // tracking->SetInputBranchName("STTHitMix","MVDHitsPixelMix","MVDHitsStripMix"); // don't do the Pattern Recognition second part, starting from the Mvd; tracking->NoMvdAloneTracking(); // do Cleanup only when there is Mixing; // tracking->Cleanup(); fRun->AddTask(tracking); PndSttMvdGemTracking * SttMvdGemTracking = new PndSttMvdGemTracking(0); //SttMvdGemTracking->SetPdgFromMC(); fRun->AddTask(SttMvdGemTracking); PndMCTrackAssociator* trackMC = new PndMCTrackAssociator(); trackMC->SetTrackInBranchName("SttMvdGemTrack"); trackMC->SetTrackOutBranchName("SttMvdGemTrackID"); fRun->AddTask(trackMC); PndRecoKalmanTask* recoKalman = new PndRecoKalmanTask(); recoKalman->SetTrackInBranchName("SttMvdGemTrack"); recoKalman->SetTrackInIDBranchName("SttMvdGemTrackID"); recoKalman->SetTrackOutBranchName("SttMvdGemGenTrack"); recoKalman->SetBusyCut(50); // CHECK to be tuned //recoKalman->SetIdealHyp(kTRUE); //recoKalman->SetNumIterations(3); fRun->AddTask(recoKalman); PndMCTrackAssociator* trackMC2 = new PndMCTrackAssociator(); trackMC2->SetTrackInBranchName("SttMvdGemGenTrack"); trackMC2->SetTrackOutBranchName("SttMvdGemGenTrackID"); fRun->AddTask(trackMC2); PndFtsTrackerIdeal* trackFts = new PndFtsTrackerIdeal(); trackFts->SetRelativeMomentumSmearing(0.05); trackFts->SetVertexSmearing(0.05, 0.05, 0.05); trackFts->SetTrackingEfficiency(1.); trackFts->SetTrackOutput("FtsIdealTrack"); fRun->AddTask(trackFts); PndRecoKalmanTask* recoKalmanFwd = new PndRecoKalmanTask(); recoKalmanFwd->SetTrackInBranchName("FtsIdealTrack"); //recoKalmanFwd->SetTrackInIDBranchName("FtsIdealTrackID"); recoKalmanFwd->SetTrackOutBranchName("FtsIdealGenTrack"); recoKalmanFwd->SetBusyCut(50); // CHECK to be tuned //recoKalmanFwd->SetIdealHyp(kTRUE); //recoKalmanFwd->SetNumIterations(3); fRun->AddTask(recoKalmanFwd); PndMCTrackAssociator* trackMC3 = new PndMCTrackAssociator(); trackMC3->SetTrackInBranchName("FtsIdealGenTrack"); trackMC3->SetTrackOutBranchName("FtsIdealGenTrackID"); fRun->AddTask(trackMC3); // ----- Intialise and run -------------------------------------------- PndEmcMapper::Init(1); 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); }