// Panda FullSim macro //void runLumi0SimBox(const int nEvents=10, const double mom=15, TString storePath="tmpOutput", const int verboseLevel=0, const int particle=-211) int runLumi0SimBox(const int nEvents=10000, const int startEv=0, const double mom=15, TString storePath="tmpOutput", const int verboseLevel=0, const int particle=-2212, const int trkNum=1, const int seed=3435) { gRandom->SetSeed(seed); TStopwatch timer; timer.Start(); gDebug=0; cout<<"We start run for beam Mom = "<Macro("$VMCWORKDIR/gconfig/rootlogon.C"); gSystem->Load("libSds"); gSystem->Load("libLmd"); FairRunSim *fRun = new FairRunSim(); cout<<"All libraries succsesfully loaded!"<SetName("TGeant4"); // fRun->SetName("TGeant3");//GEANE uses GEANT3! fRun->SetOutputFile(simOutput); //set material fRun->SetMaterials("media_pnd.geo"); //create and add detectors FairModule *Cave= new PndCave("CAVE"); Cave->SetGeometryFileName("pndcaveVAC.geo"); // Cave->SetGeometryFileName("pndcave.geo"); fRun->AddModule(Cave); // FairModule *Pipe= new PndPipe("PIPE"); // Pipe->SetGeometryFileName("beampipe_201112.root"); // fRun->AddModule(Pipe); FairModule *Magnet= new PndMagnet("MAGNET"); Magnet->SetGeometryFileName("FullSolenoid.root"); fRun->AddModule(Magnet); FairModule *Dipole= new PndMagnet("MAGNET"); Dipole->SetGeometryFileName("dipole.geo"); fRun->AddModule(Dipole); /*FairDetector *Stt= new PndStt("STT", kFALSE); Stt->SetGeometryFileName("straws_skewed_blocks.geo"); fRun->AddModule(Stt);*/ // FairDetector *Mvd = new PndMvdDetector("MVD", kFALSE); // Mvd->SetGeometryFileName("MVD_v1.0_woPassiveTraps.root"); // fRun->AddModule(Mvd); /* PndEmc *Emc = new PndEmc("EMC",kFALSE); Emc->SetGeometryFileNameDouble("emc_module1245.dat","emc_module3new.root"); // if you want to use new geometry for FwEndCap fRun->AddModule(Emc); FairDetector *Tof = new PndTof("TOF",kFALSE); Tof->SetGeometryFileName("tofbarrel.geo"); fRun->AddModule(Tof); FairDetector *Drc = new PndDrc("DIRC", kFALSE); Drc->SetGeometryFileName("dirc.geo"); fRun->AddModule(Drc); PndMdt *Muo = new PndMdt("MDT",kFALSE); Muo->SetGeometryFileName("muopars.root"); Muo->SetMdtVersion("torino"); fRun->AddModule(Muo);*/ PndLmdDetector *Lum = new PndLmdDetector("LUM", kTRUE); Lum->SetExclusiveSensorType("LumActive"); //ignore MVD Lum->SetGeometryFileName("../macro/lmd/geo/Test-Dipol-Design.root"); //sensors with trap shape // Lum->SetGeometryFileName("../macro/lmd/geo/HV_MAPS-Design.root"); // new sensors Lum->SetVerboseLevel(verboseLevel); fRun->AddModule(Lum); //particle generator FairPrimaryGenerator* primGen = new FairPrimaryGenerator(); // primGen->SmearVertexXY(kTRUE); // primGen->SmearAngle(kTRUE); // primGen->SmearVertexZ(kTRUE); // primGen->SetBeamAngularDivergence(0.0003);// sigmaTheta~0.3 mrad // primGen->SetBeam(0., 0., 2*0.08, 2*0.08); //sigmaX=sigmaY=0.8 mm ["square"shape of beam ] // primGen->SetTarget(0.,0.1); // sigmaZ=1mm, gaus fRun->SetGenerator(primGen); // Box Generator FairBoxGenerator *fBox = new FairBoxGenerator(particle, trkNum); fBox->SetPRange(mom,mom); // fBox->SetThetaRange(0.13,0.7); // 2... 12 mrad //fBox->SetThetaRange(0.13,0.65); // 2... 11 mrad fBox->SetThetaRange(0.229183, 0.458366); //4 ... 8 mrad //fBox->SetThetaRange(0.458366, 0.458366); //!!! 8 mrad //fBox->SetThetaRange(0.3, 0.3);//TEST // fBox->SetPhiRange(0,360.); fBox->SetPhiRange(0.5,359.5); //FOR missed track check // fBox->SetPhiRange(0.,0.); // fBox->SetPhiRange(0,0);//TEST primGen->AddGenerator(fBox); // //EvtGen Generator // PndEvtGenDirect *EvtGen = new PndEvtGenDirect("pbarpSystem","PBARSYSTEMTO4PIPHSP.DEC",mom); // primGen->AddGenerator(EvtGen); // Urqmd Generator // FairUrqmdGenerator* urqmdGen = new FairUrqmdGenerator("../../input/00-03fm.100ev.f14"); // primGen->AddGenerator(urqmdGen); // DPM Generator // PndDpmGenerator* dpmGen = new PndDpmGenerator("DpmInput/el_100k_aida/el_6_2GeV.root"); // primGen->AddGenerator(dpmGen); //reading the new field map in the old format fRun->SetBeamMom(mom); // PndMultiField *fField= new PndMultiField(); PndMultiField *fField= new PndMultiField("FULL"); // PndTransMap *map_t = new PndTransMap("TransMap_v1", "R"); // PndDipoleMap *map_d1 = new PndDipoleMap("DipoleMap1_v1", "R"); // PndDipoleMap *map_d2 = new PndDipoleMap("DipoleMap2_v1", "R"); // PndSolenoidMap *map_s1 = new PndSolenoidMap("SolenoidMap1", "R"); // PndSolenoidMap *map_s2 = new PndSolenoidMap("SolenoidMap2", "R"); // PndSolenoidMap *map_s3 = new PndSolenoidMap("SolenoidMap3", "R"); // PndSolenoidMap *map_s4 = new PndSolenoidMap("SolenoidMap4", "R"); // fField->AddField(map_t); // fField->AddField(map_d1); // fField->AddField(map_d2); // fField->AddField(map_s1); // fField->AddField(map_s2); // fField->AddField(map_s3); // fField->AddField(map_s4); fRun->SetField(fField); if(nEvents<101) fRun->SetStoreTraj(kTRUE); // toggle this for use with EVE else fRun->SetStoreTraj(kFALSE); // fRun->SetStoreTraj(kTRUE); fRun->Init(); // -Trajectories Visualization (TGeoManager Only ) // ----------------------------------------------- // Set cuts for storing the trajectpries // FairTrajFilter* trajFilter = FairTrajFilter::Instance(); // trajFilter->SetStepSizeCut(0.01); // 1 cm // trajFilter->SetVertexCut(-200., -200., -200, 200., 200., 200.); // trajFilter->SetMomentumCutP(10e-3); // p_lab > 10 MeV // trajFilter->SetEnergyCut(0., 1.02); // 0 < Etot < 1.04 GeV // trajFilter->SetStorePrimaries(kTRUE); // trajFilter->SetStoreSecondaries(kTRUE); // Fill the Parameter containers for this run //------------------------------------------- FairRuntimeDb *rtdb=fRun->GetRuntimeDb(); Bool_t kParameterMerged=kTRUE; FairParRootFileIo* output=new FairParRootFileIo(kParameterMerged); output->open(parOutput.Data(),"RECREATE"); rtdb->setOutput(output); PndMultiFieldPar* Par = (PndMultiFieldPar*) rtdb->getContainer("PndMultiFieldPar"); if (fField) { Par->SetParameters(fField); } Par->setInputVersion(fRun->GetRunId(),1); Par->setChanged(); // Transport nEvents // ----------------- fRun->Run(nEvents); rtdb->saveOutput(); rtdb->print(); timer.Stop(); Double_t rtime = timer.RealTime(); Double_t ctime = timer.CpuTime(); printf("RealTime=%f seconds, CpuTime=%f seconds\n",rtime,ctime); return 0; }