static TString caveGeom; static TString pipeGeom; static TString magnetGeom; static TString mvdGeom; static TString stsGeom; static TString richGeom; static TString muchGeom; static TString shieldGeom; static TString trdGeom; static TString tofGeom; static TString mvdTag; static TString stsTag; static TString trdTag; static TString tofTag; static TString trdDigi; static TString tofDigi; static TString trdHitProducerType; static TString mvdMatBudget; static TString stsMatBudget; static TString fieldMap; static Double_t fieldZ; static Double_t fieldScale; static Int_t fieldSymType; static int nofNoiseHitsInRich; static double collectionEff; static double sigmaErrorRich; static double crosstalkRich; static Double_t trdAnnCut; static Int_t minNofPointsTrd; void run_sim_position2(Int_t nEvents = 100, 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"); TString parDir = "/u/jbendar/CBMSRC/parameters"; //gRandom->SetSeed(10); TString urqmdFile = "/data/Cbm_Root/urqmd/auau/25gev/centr/urqmd.auau.25gev.centr.00001.root"; outDir = TString(gSystem->Getenv("OUT_DIR")); // outDir = "~/CBMSRC/macro/rich/alignment/misalignment_correction/position/test/"; // if (Flag == 0) {TString outDir = "/lustre/nyx/cbm/users/jbendar/Sim_Outputs/Ring_Track_VS_Position/Misaligned/";} // else if (Flag == 1) {TString outDir = "/lustre/nyx/cbm/users/jbendar/Sim_Outputs/Ring_Track_VS_Position/Aligned/";} // TString outDir = "/u/jbendar/CBMSRC/macro/rich/alignment/misalignment_correction/position/test/"; TString mcFile = outDir + "mc.root"; TString geoFile = outDir + "geofilefull.root"; TString outFile = outDir + "out.root"; TString parFile = outDir + "param.root"; /* TString outDir = "/data/misalignment_correction/event_display/test/"; // For eventDisplay and run_rich_event_display macros TString parFile = outDir + "param.root"; TString mcFile = outDir + "mc.root"; TString geoFile = outDir + "geofilefull.root"; */ // Set geometries: // TString caveGeom = "cave.geo"; TString caveGeom = "/lustre/nyx/cbm/users/jbendar/CBMINSTALL/share/cbmroot/geometry/cave.geo"; // TString pipeGeom = "pipe/pipe_v14l.root"; TString pipeGeom = "/lustre/nyx/cbm/users/jbendar/CBMINSTALL/share/cbmroot/geometry/pipe/pipe_v16c_1e.geo.root"; // TString magnetGeom = "magnet/magnet_v15a.geo.root"; TString magnetGeom = "/lustre/nyx/cbm/users/jbendar/CBMINSTALL/share/cbmroot/geometry/magnet/magnet_v15a.geo.root"; TString fieldMap = "field_v12b"; // TString stsGeom = "sts/sts_v15c.geo.root"; TString stsGeom = "/lustre/nyx/cbm/users/jbendar/CBMINSTALL/share/cbmroot/geometry/sts/sts_v17a.geo.root"; // if (Flag == 0) {TString richGeom = "rich/Rich_jan2016_aligned.root";} // else if (Flag == 1) {TString richGeom = "rich/Rich_jan2016_misalign_5mradXY_Tile1_3.root";} // if (Flag == 0) {TString richGeom = "rich/position/Aligned.root";} if (Flag == 0) {TString richGeom = "/lustre/nyx/cbm/users/jbendar/CBMINSTALL/share/cbmroot/geometry/rich/position/Aligned.root";} else if (Flag == 1) {TString richGeom = "/lustre/nyx/cbm/users/jbendar/CBMINSTALL/share/cbmroot/geometry/rich/position/Misaligned_5mrad.root";} else if (Flag == 2) {TString richGeom = "/lustre/nyx/cbm/users/jbendar/CBMINSTALL/share/cbmroot/geometry/rich/position/rich_v16a_1e.root";} else if {TString richGeom = "";} TString trdGeom = ""; //"trd_v15a_1e.geo.root"; TString tofGeom = ""; //"tof_v16a_1e.geo.root"; TString mvdGeom = ""; //"mvd_v15a.geo.root"; Double_t fieldZ = 40.; // field centre z position Double_t fieldScale = 1.; // field scaling factor Double_t fieldSymType = 3; TString geoSetupFile = TString(gSystem->Getenv("VMCWORKDIR")) + "/macro/rich/run/geosetup/geosetup_25gev.C"; TString electrons = "yes"; // If "yes" then primary electrons will be generated Int_t NELECTRONS = 1; // number of e- to be generated Int_t NPOSITRONS = 1; // number of e+ to be generated TString urqmd = "no"; // If "yes" then UrQMD will be used as background TString pluto = "no"; // If "yes" PLUTO particles will be embedded TString plutoFile = ""; TString plutoParticle = ""; if (script == "yes") { urqmdFile = TString(gSystem->Getenv("URQMD_FILE")); mcFile = TString(gSystem->Getenv("MC_FILE")); parFile = TString(gSystem->Getenv("PAR_FILE")); cout << "mcFile: " << TString(gSystem->Getenv("MC_FILE")) << endl << "parFile: " << TString(gSystem->Getenv("PAR_FILE")) << endl << "urqmdFile: " << TString(gSystem->Getenv("URQMD_FILE")) << endl; //geoSetupFile = TString(gSystem->Getenv("VMCWORKDIR")) + "/macro/rich/run/geosetup/" + TString(gSystem->Getenv("GEO_SETUP_FILE")); NELECTRONS = TString(gSystem->Getenv("NELECTRONS")).Atoi(); NPOSITRONS = TString(gSystem->Getenv("NPOSITRONS")).Atoi(); electrons = TString(gSystem->Getenv("ELECTRONS")); urqmd = TString(gSystem->Getenv("URQMD")); // pluto = TString(gSystem->Getenv("PLUTO")); // plutoFile = TString(gSystem->Getenv("PLUTO_FILE")); // plutoParticle = TString(gSystem->Getenv("PLUTO_PARTICLE")); } remove(parFile.Data()); remove(mcFile.Data()); gDebug = 0; TStopwatch timer; timer.Start(); //setup all geometries from macro cout << "geoSetupName:" << geoSetupFile << endl; gROOT->LoadMacro(geoSetupFile); gROOT->ProcessLine("init_geo_setup()"); // gROOT->LoadMacro("$VMCWORKDIR/macro/littrack/loadlibs.C"); // gROOT->LoadMacro("/u/jbendar/CBMSRC/macro/littrack/loadlibs.C"); // gROOT->LoadMacro("/lustre/nyx/cbm/users/jbendar/CBMINSTALL/share/cbmroot/macro/littrack/loadlibs.C"); // loadlibs(); //Logger settings TString logLevel = "INFO"; // "DEBUG"; TString logVerbosity = "LOW"; //Target geometry TString targetElement = "Gold"; Double_t targetThickness = 0.025; // 250 mum, full thickness in cm Double_t targetDiameter = 2.5; // diameter in cm Double_t targetPosX = 0.; // target x position in global c.s. [cm] Double_t targetPosY = 0.; // target y position in global c.s. [cm] Double_t targetPosZ = 0.; // target z position in global c.s. [cm] Double_t targetRotY = 0.; // target rotation angle around the y axis [deg] // creation of the primary vertex Bool_t smearVertexXY = kTRUE; Bool_t smearVertexZ = kTRUE; Double_t beamWidthX = 1.; // Gaussian sigma of the beam profile in x [cm] Double_t beamWidthY = 1.; // Gaussian sigma of the beam profile in y [cm] // ------------------------------------------------------------------------ FairRunSim* fRun = new FairRunSim(); fRun->SetName("TGeant3"); fRun->SetOutputFile(mcFile); fRun->SetGenerateRunInfo(kTRUE); FairRuntimeDb* rtdb = fRun->GetRuntimeDb(); // gLogger->SetLogScreenLevel(logLevel.Data()); // gLogger->SetLogVerbosityLevel(logVerbosity.Data()); fRun->SetMaterials("media.geo"); // Materials if ( caveGeom != "" ) { FairModule* cave = new CbmCave("CAVE"); cave->SetGeometryFileName(caveGeom); fRun->AddModule(cave); } if ( pipeGeom != "" ) { FairModule* pipe = new CbmPipe("PIPE"); pipe->SetGeometryFileName(pipeGeom); fRun->AddModule(pipe); } CbmTarget* target = new CbmTarget(targetElement.Data(), targetThickness, targetDiameter); target->SetPosition(targetPosX, targetPosY, targetPosZ); target->SetRotation(targetRotY); fRun->AddModule(target); if ( magnetGeom != "" ) { FairModule* magnet = new CbmMagnet("MAGNET"); magnet->SetGeometryFileName(magnetGeom); fRun->AddModule(magnet); } if ( mvdGeom != "" ) { FairDetector* mvd = new CbmMvd("MVD", kTRUE); mvd->SetGeometryFileName(mvdGeom); mvd->SetMotherVolume("pipevac1"); fRun->AddModule(mvd); } if ( stsGeom != "" ) { FairDetector* sts = new CbmStsMC(kTRUE); sts->SetGeometryFileName(stsGeom); fRun->AddModule(sts); } if ( richGeom != "" ) { FairDetector* rich = new CbmRich("RICH", kTRUE); rich->SetGeometryFileName(richGeom); fRun->AddModule(rich); } if ( trdGeom != "" ) { FairDetector* trd = new CbmTrd("TRD",kTRUE ); trd->SetGeometryFileName(trdGeom); fRun->AddModule(trd); } if ( tofGeom != "" ) { FairDetector* tof = new CbmTof("TOF", kTRUE); tof->SetGeometryFileName(tofGeom); fRun->AddModule(tof); } // Create magnetic field cout << "fieldSymType=" << fieldSymType << endl; CbmFieldMap* magField = NULL; if ( 2 == fieldSymType ) { CbmFieldMap* magField = new CbmFieldMapSym2(fieldMap); } else if ( 3 == fieldSymType ) { CbmFieldMap* magField = new CbmFieldMapSym3(fieldMap); } magField->SetPosition(0., 0., fieldZ); magField->SetScale(fieldScale); fRun->SetField(magField); // ----- Create PrimaryGenerator -------------------------------------- FairPrimaryGenerator* primGen = new FairPrimaryGenerator(); Double_t tX = 0.; Double_t tY = 0.; Double_t tZ = 0.; Double_t tDz = 0.; if ( target ) { target->GetPosition(tX, tY, tZ); tDz = target->GetThickness(); } primGen->SetTarget(tZ, tDz); primGen->SetBeam(0., 0., beamWidthX, beamWidthY); primGen->SmearGausVertexXY(smearVertexXY); primGen->SmearVertexZ(smearVertexZ); if (urqmd == "yes"){ CbmUnigenGenerator* uniGen = new CbmUnigenGenerator(urqmdFile); uniGen->SetEventPlane(0. , 360.); primGen->AddGenerator(uniGen); } if (electrons == "yes"){ FairBoxGenerator* boxGen1 = new FairBoxGenerator(-11, NPOSITRONS); boxGen1->SetPRange(1., 9.); //boxGen1->SetPtRange(0., 3.); boxGen1->SetPhiRange(0.5, 179.5); boxGen1->SetThetaRange(2.5, 25); boxGen1->SetCosTheta(); boxGen1->Init(); primGen->AddGenerator(boxGen1); FairBoxGenerator* boxGen2 = new FairBoxGenerator(11, NELECTRONS); boxGen2->SetPRange(1., 9.); //boxGen1->SetPtRange(0., 3.); boxGen2->SetPhiRange(0.5, 179.5); boxGen2->SetThetaRange(2.5, 25); boxGen2->SetCosTheta(); boxGen2->Init(); primGen->AddGenerator(boxGen2); } // CbmLitPolarizedGenerator *polGen; // polGen = new CbmLitPolarizedGenerator(443, NELECTRONS); // polGen->SetDistributionPt(0.176); // 25 GeV // polGen->SetDistributionY(1.9875,0.228); // 25 GeV // polGen->SetRangePt(0.,3.); // polGen->SetRangeY(1.,3.); // polGen->SetBox(0); // polGen->SetRefFrame(CbmLitPolarizedGenerator::kHelicity); // polGen->SetDecayMode(CbmLitPolarizedGenerator::kDiElectron); // polGen->SetAlpha(0); // polGen->Init(); // primGen->AddGenerator(polGen); /* if (pluto == "yes") { CbmPlutoGenerator *plutoGen= new CbmPlutoGenerator(plutoFile); primGen->AddGenerator(plutoGen); } */ fRun->SetGenerator(primGen); // fRun->SetStoreTraj(kTRUE); fRun->Init(); // ----- Runtime database --------------------------------------------- CbmFieldPar* fieldPar = (CbmFieldPar*) rtdb->getContainer("CbmFieldPar"); fieldPar->SetParameters(magField); fieldPar->setChanged(); fieldPar->setInputVersion(fRun->GetRunId(),1); Bool_t kParameterMerged = kTRUE; FairParRootFileIo* parOut = new FairParRootFileIo(kParameterMerged); parOut->open(parFile.Data()); rtdb->setOutput(parOut); rtdb->saveOutput(); rtdb->print(); fRun->Run(nEvents); fRun->CreateGeometryFile(geoFile); timer.Stop(); Double_t rtime = timer.RealTime(); Double_t ctime = timer.CpuTime(); cout << endl << endl; cout << "Macro finished succesfully." << endl; cout << "Output file is " << mcFile << endl; cout << "Parameter file is " << parFile << endl; cout << "Real time " << rtime << " s, CPU time " << ctime << "s" << endl << endl; cout << " Test passed" << endl; cout << " All ok " << endl; }