void run_g4_test() { gSystem->Load("libG4root.so"); TString PAM_VMC=gSystem->Getenv("PAM_VMC"); TString PLAT=gSystem->Getenv("PLATFORM"); // Load basic libraries gROOT->LoadMacro(PAM_VMC+"/macro/basiclibs.C"); basiclibs(); // Load PAMELA libs TString PAMLIB=gSystem->Getenv("PAM_LIB"); gSystem->Load(PAMLIB+"/libyoda.so"); gSystem->Load(PAMLIB+"/libDarthVader.so"); gSystem->Load(PAMLIB+"/libPamLevel2.so"); // Load Geant4 libraries gROOT->LoadMacro(PAM_VMC+"/macro/PamG4Libs.C"); PamG4Libs(); // Load application library gSystem->Load(PAM_VMC+"/lib/tgt_"+PLAT+"/libPamVMC_fc"); // MC application PamVMCApplication* appl = new PamVMCApplication("PAMG4_VMC", "PAMELA GEANT4 VMC application","nik1"); //verbose level (0-4), 0 means no verbose appl->SetVerboseLevel(0); //initialise physycs with specific RunConfiguration, defined in macro appl->InitMC(PAM_VMC+"/config/g4Config.C"); //additional flags and controls related to G4 core ((TGeant4*)gMC)->ProcessGeantMacro(PAM_VMC+"/config/g4config2.in"); //maximum allowed steps per track, default 30000 ((TGeant4*)gMC)->SetMaxNStep(50000); //define particle. Important. Is shold be done before any //definition of energy or momentum appl->GetPrimaryGenerator()->SetParticle(1000020040); //define direction, theta, phi (radians) appl->GetPrimaryGenerator()->SetDirection(-TMath::Pi()/180.*5., TMath::Pi()/90.*5.); //define total kinetic energy (GeV) appl->GetPrimaryGenerator()->SetKinEnergy(8.); //define initial position in PAMELA reference system appl->GetPrimaryGenerator()->SetPosition(2.,2.,120.); //run MC in loop and visualize for 1 evnent for (Int_t i=0; i<20; i++){ //if (i==10) ((TGeant4*)gMC)->ProcessGeantMacro(PAM_VMC+"/config/g4vis.in"); appl->RunMC(1); cout<<"TRIGGER:"<GetTrigger()<StartGeantUI(); // finish run, write output files appl->FinishRun(); delete appl; }