void run_reco_position(Int_t nEvents = 500000, Int_t Flag = 0) { TTree::SetMaxTreeSize(90000000000); Int_t iVerbose = 0; TString script = TString(gSystem->Getenv("SCRIPT")); TString parDir = TString(gSystem->Getenv("VMCWORKDIR")) + TString("/parameters/"); gRandom->SetSeed(10); /* TString outDir = "/data/misalignment_correction/Sim_Outputs/Ring_Track_VS_Position/First/"; if (Flag == 0) {TString outDir = "/u/jbendar/Sim_Outputs/Ring_Track_VS_Position/Misaligned/";} else if (Flag == 1) {TString outDir = "/u/jbendar/Sim_Outputs/Ring_Track_VS_Position/Aligned/";} */ outDir = TString(gSystem->Getenv("OUT_DIR")); TString parFile = outDir + "param.root"; TString mcFile = outDir + "mc.root"; TString recoFile = outDir + "reco.root"; //TString geoSetupFile = TString(gSystem->Getenv("VMCWORKDIR")) + "/macro/rich/run/geosetup/geosetup_25gev.C"; //std::string resultDir = "recqa_0001/"; std::string resultDir = outDir; if (script == "yes") { mcFile = TString(gSystem->Getenv("MC_FILE")); recoFile = TString(gSystem->Getenv("RECO_FILE")); parFile = TString(gSystem->Getenv("PAR_FILE")); resultDir = TString(gSystem->Getenv("LIT_RESULT_DIR")); // geoSetupFile = TString(gSystem->Getenv("VMCWORKDIR")) + "/macro/rich/run/geosetup/" + TString(gSystem->Getenv("GEO_SETUP_FILE")); } remove(recoFile.Data()); //setup all geometries from macro //cout << "geoSetupName:" << geoSetupFile << endl; //gROOT->LoadMacro(geoSetupFile); //init_geo_setup(); // digi parameters TString trdTag, tofTag, trdDigi, tofDigi; trdTag = "v15a_3e"; tofTag = "v16a_3e"; trdDigi = "trd/trd_" + trdTag + ".digi.par"; tofDigi = "tof/tof_" + tofTag + ".digi.par"; TList *parFileList = new TList(); TObjString trdDigiFile = parDir + "/" + trdDigi; TObjString tofDigiFile = parDir + "/" + tofDigi; if (trdDigiFile.GetString() != "") parFileList->Add(&trdDigiFile); parFileList->Add(&tofDigiFile); // material budget for STS and MVD TString stsTag, stsMatBudget; stsTag = "v15a"; stsMatBudget = "sts/sts_matbudget_" + stsTag + ".root"; TString mvdMatBudgetFileName = ""; TString stsMatBudgetFileName = parDir + "/" + stsMatBudget; gDebug = 0; TStopwatch timer; timer.Start(); // ---- Load libraries ------------------------------------------------- gROOT->LoadMacro("$VMCWORKDIR/macro/littrack/loadlibs.C"); loadlibs(); gROOT->LoadMacro("$VMCWORKDIR/macro/littrack/determine_setup.C"); // ----- Reconstruction run ------------------------------------------- FairRunAna *run= new FairRunAna(); if (mcFile != "") run->SetInputFile(mcFile); if (recoFile != "") run->SetOutputFile(recoFile); // ----- MC Data Manager ------------------------------------------------ CbmMCDataManager* mcManager=new CbmMCDataManager("MCManager", 1); mcManager->AddFile(mcFile); run->AddTask(mcManager); Bool_t isMvd = IsMvd(parFile); Bool_t isTrd = IsTrd(parFile); Bool_t isRich = IsRich(parFile); Bool_t isTof = IsTof(parFile); Bool_t useMvdInTracking = kFALSE; if (isMvd) { CbmMvdDigitizer* mvdDigitise = new CbmMvdDigitizer("MVD Digitiser", 0, iVerbose); run->AddTask(mvdDigitise); CbmMvdClusterfinder* mvdCluster = new CbmMvdClusterfinder("MVD Clusterfinder", 0, iVerbose); run->AddTask(mvdCluster); CbmMvdHitfinder* mvdHitfinder = new CbmMvdHitfinder("MVD Hit Finder", 0, iVerbose); mvdHitfinder->UseClusterfinder(kTRUE); run->AddTask(mvdHitfinder); useMvdInTracking = kTRUE; mvdMatBudgetFileName = parDir + "/" + mvdMatBudget; } // ========================================================================= // === STS local reconstruction === // ========================================================================= Double_t dynRange = 40960.; // Dynamic range [e] Double_t threshold = 4000.; // Digitisation threshold [e] Int_t nAdc = 4096; // Number of ADC channels (12 bit) Double_t timeResolution = 5.; // time resolution [ns] Double_t deadTime = 9999999.; // infinite dead time (integrate entire event) Double_t noise = 0.; // ENC [e] Int_t digiModel = 1; // User sensor type DSSD // The following settings correspond to a validated implementation. // Changing them is on your own risk. Int_t eLossModel = 1; // Energy loss model: uniform Bool_t useLorentzShift = kFALSE; // Deactivate Lorentz shift Bool_t useDiffusion = kFALSE; // Deactivate diffusion Bool_t useCrossTalk = kFALSE; // Deactivate cross talk CbmStsDigitize* stsDigi = new CbmStsDigitize(digiModel); stsDigi->SetProcesses(eLossModel, useLorentzShift, useDiffusion, useCrossTalk); stsDigi->SetParameters(dynRange, threshold, nAdc, timeResolution, deadTime, noise); run->AddTask(stsDigi); FairTask* stsClusterFinder = new CbmStsFindClusters(); run->AddTask(stsClusterFinder); FairTask* stsFindHits = new CbmStsFindHits(); run->AddTask(stsFindHits); CbmKF* kalman = new CbmKF(); run->AddTask(kalman); CbmL1* l1 = new CbmL1(); l1->SetStsMaterialBudgetFileName(stsMatBudgetFileName.Data()); if (mvdMatBudgetFileName != "") l1->SetMvdMaterialBudgetFileName(mvdMatBudgetFileName.Data()); run->AddTask(l1); CbmStsTrackFinder* stsTrackFinder = new CbmL1StsTrackFinder(); FairTask* stsFindTracks = new CbmStsFindTracks(1, stsTrackFinder); run->AddTask(stsFindTracks); // ========================================================================= // === Global tracking === // ========================================================================= CbmLitFindGlobalTracks* finder = new CbmLitFindGlobalTracks(); finder->SetTrackingType(std::string("branch")); finder->SetMergerType("nearest_hit"); run->AddTask(finder); CbmPrimaryVertexFinder* pvFinder = new CbmPVFinderKF(); CbmFindPrimaryVertex* findVertex = new CbmFindPrimaryVertex(pvFinder); run->AddTask(findVertex); if (isTrd) { CbmTrdSetTracksPidANN* trdSetTracksPidAnnTask = new CbmTrdSetTracksPidANN("CbmTrdSetTracksPidANN","CbmTrdSetTracksPidANN"); trdSetTracksPidAnnTask->SetTRDGeometryType("h++"); run->AddTask(trdSetTracksPidAnnTask); }//isTrd // ========================================================================= // === RICH reconstruction === // ========================================================================= if (isRich){ CbmRichDigitizer* richDigitizer = new CbmRichDigitizer(); //richDigitizer->SetNofNoiseHits(0); run->AddTask(richDigitizer); CbmRichHitProducer* richHitProd = new CbmRichHitProducer(); run->AddTask(richHitProd); CbmRichReconstruction* richReco = new CbmRichReconstruction(); richReco->SetRunExtrapolation(true); richReco->SetRunProjection(true); richReco->SetRunTrackAssign(true); // richReco->SetFinderName("ideal"); // To do matching Sts-Ring // richReco->SetProjectionName("analytical2"); // Set to analytical2 to test my class. //richReco->SetFitterName("circle_cop");; run->AddTask(richReco); }//isRich CbmMatchRecoToMC* matchRecoToMc = new CbmMatchRecoToMC(); run->AddTask(matchRecoToMc); // Reconstruction Qa Int_t minNofPointsTrd = 6; trdAnnCut = 0.85; CbmLitTrackingQa* trackingQa = new CbmLitTrackingQa(); trackingQa->SetMinNofPointsSts(4); trackingQa->SetUseConsecutivePointsInSts(true); trackingQa->SetMinNofPointsTrd(minNofPointsTrd); trackingQa->SetMinNofPointsMuch(10); trackingQa->SetMinNofPointsTof(1); trackingQa->SetQuota(0.7); trackingQa->SetMinNofHitsTrd(minNofPointsTrd); trackingQa->SetMinNofHitsMuch(10); trackingQa->SetVerbose(0); trackingQa->SetMinNofHitsRich(7); trackingQa->SetQuotaRich(0.6); trackingQa->SetOutputDir(resultDir); trackingQa->SetPRange(20, 0., 10.); trackingQa->SetTrdAnnCut(trdAnnCut); std::vector trackCat, richCat; trackCat.push_back("All"); trackCat.push_back("Electron"); richCat.push_back("Electron"); richCat.push_back("ElectronReference"); trackingQa->SetTrackCategories(trackCat); trackingQa->SetRingCategories(richCat); run->AddTask(trackingQa); // RICH reco QA CbmRichRecoQa* richRecoQa = new CbmRichRecoQa(); richRecoQa->SetOutputDir(resultDir); run->AddTask(richRecoQa); CbmLitFitQa* fitQa = new CbmLitFitQa(); fitQa->SetMvdMinNofHits(0); fitQa->SetStsMinNofHits(4); fitQa->SetMuchMinNofHits(10); fitQa->SetTrdMinNofHits(minNofPointsTrd); fitQa->SetOutputDir(resultDir); //run->AddTask(fitQa); CbmLitClusteringQa* clusteringQa = new CbmLitClusteringQa(); clusteringQa->SetOutputDir(resultDir); //run->AddTask(clusteringQa); CbmLitTofQa* tofQa = new CbmLitTofQa(); tofQa->SetOutputDir(std::string(resultDir)); //run->AddTask(tofQa); // ----- Parameter database -------------------------------------------- FairRuntimeDb* rtdb = run->GetRuntimeDb(); FairParRootFileIo* parIo1 = new FairParRootFileIo(); FairParAsciiFileIo* parIo2 = new FairParAsciiFileIo(); parIo1->open(parFile.Data()); parIo2->open(parFileList, "in"); rtdb->setFirstInput(parIo1); rtdb->setSecondInput(parIo2); rtdb->setOutput(parIo1); rtdb->saveOutput(); 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 successfully." << endl; cout << "Output file is " << recoFile << 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; }