//-------------------------------------------------------------------- // // Define the R3B simulation Setup // Steering macros to main r3ball.C // Author: Hector Alvarez // // Last Update: 13/09/2013 // Comments: // // //-------------------------------------------------------------------- Int_t califasim() { // Load the Main Simulation macro TString macro_r3ball= getenv("VMCWORKDIR"); macro_r3ball+="/macros/r3b/califa/r3ball.C"; gROOT->LoadMacro(macro_r3ball.Data()); // Output files TString OutFile = "r3bsim.root"; TString ParFile = "r3bpar.root"; //------------------------------------------------- // Monte Carlo type | fMC (TString) //------------------------------------------------- // Geant3: "TGeant3" // Geant4: "TGeant4" // Fluka : "TFluka" TString fMC ="TGeant4"; //------------------------------------------------- // Primaries generation // Event Generator Type | fGene (TString) //------------------------------------------------- // Box generator: "box" // CALIFA generator: "gammas" // R3B spec. generator: "r3b" TString fGene="gammas"; //------------------------------------------------- // Secondaries generation (G4 only) // R3B Spec. PhysicList | fUserPList (Bool_t) // ---------------------------------------------- // VMC Standard kFALSE // R3B Special kTRUE; Bool_t fUserPList= kTRUE; // Target type TString target1="LeadTarget"; TString target2="Para"; TString target3="Para45"; TString target4="LiH"; //------------------------------------------------- //- Geometrical Setup Definition //- Non Sensitiv | fDetName (String) //------------------------------------------------- // Target: TARGET // Magnet: ALADIN // GLAD //------------------------------------------------- //- Sensitiv | fDetName //------------------------------------------------- // Calorimeter: CALIFA // CRYSTALBALL // // Tof: TOF // MTOF // // Tracker: DCH // TRACKER // GFI // // Neutron: LAND TMap detGeo; detGeo.Add(new TObjString("CALIFA"), new TObjString("califa_v13_811.geo.root")); //------------------------------------------------- //- N# of Sim. Events | nEvents (Int_t) //------------------------------------------------- Int_t nEvents = 10; //------------------------------------------------- //- EventDisplay | fEventDisplay (Bool_t) //------------------------------------------------- // connected: kTRUE // not connected: kFALSE Bool_t fEventDisplay=kTRUE; // Magnet Field definition //Bool_t fR3BMagnet = kTRUE; Bool_t fR3BMagnet = kFALSE; // Main Sim function call r3ball(nEvents, detGeo, target2, fEventDisplay, fMC, fGene, fUserPList, fR3BMagnet, kFALSE, 2000., OutFile, ParFile); }