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g4sbs.cc
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g4sbs.cc
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#include "TString.h" // These need to come first or the
#include "TBuffer.h" // compiler bitches about shadowed variables
#include "TMatrixTBase.h"
#include "THashTable.h"
#include "CLHEP/Random/Random.h"
#include "G4SBSRunAction.hh"
#include "G4SBSPrimaryGeneratorAction.hh"
#include "G4SBSEventAction.hh"
#include "G4SBSSteppingAction.hh"
#include "G4SBSTrackingAction.hh"
#include "G4SBSRun.hh"
#include "G4SBSRunData.hh"
#include "G4UIcommandStatus.hh"
//------------
// Geometries:
//------------
#include "G4SBSDetectorConstruction.hh"
#include "G4SBSIO.hh"
#include "G4SBSMessenger.hh"
//-----------------------------------
// G4SBSPhysicsList (makes use of the
// G4ParameterisationManagerProcess):
//-----------------------------------
#include "G4SBSPhysicsList.hh"
#include "G4UImanager.hh"
#include "G4RunManager.hh"
#include "G4RunManagerKernel.hh"
#include "G4UnitsTable.hh"
//#ifdef G4VIS_USE
#include "G4VisExecutive.hh"
//#endif
//#ifdef G4UI_USE
#include "G4UIExecutive.hh"
//#endif
#ifdef __APPLE__
#include "unistd.h"
#endif
bool parseArgument(std::string arg, std::string &name, std::string &value)
{
size_t length = arg.length();
// There are two possible types of parameters.
// 1) Parameters with a value (--name=value)
// 2) Parameters with no value (--name), also known as flags.
// Minimum size for the argument is 3, two dashes and at least one
// other character
if(length<3)
return false; // Not long enough to be a valid parameter
// Now, look for the double dash at the beginning that will signal
// that a parameter is being specified
size_t pos1 = arg.find_first_of("--");
if(pos1 != std::string::npos && pos1 == 0) { // Double dash found
// First, identify if it is parameter type 1 by looking for the equal sign
size_t pos2 = arg.find_first_of("=");
if(pos2 != std::string::npos && pos2 < length-1 && pos2>0) { // Param type 1
// Split name from value using on both sides of the equal sign
name = arg.substr(2,pos2-2);
value = arg.substr(pos2+1,length);
return true;
} else { // No equal sign means parameter type 2
name = arg.substr(2,length);
return true;
}
}
return false;
}
G4int executeMacro(G4String macro, G4UImanager *UImanager)
{
if(macro.length()>0) {
G4String command = "/control/execute ";
//G4UIcommandStatus success = fCommandSucceeded;
return UImanager->ApplyCommand(command+macro);
//return success;
} else {
return fCommandSucceeded;
}
}
bool getBool(std::string value, bool default_value)
{
if(value.compare("true") == 0) {
return true;
} else if(value.compare("false") == 0) {
return false;
} else {
return default_value;
}
}
int main(int argc, char** argv)
{
//Allow user to apply some (perhaps all?) commands in the pre-initialization phase:
//-------------------------------
// Initialize the CLHEP random engine used by
// "shoot" type functions
//-------------------------------
G4bool batch_mode = false; //Run in interactive mode by default
G4String preinit_macro = "";
G4String postinit_macro = "";
bool flag_gui = false; // Display GUI flag
//-------------------------------
// Parse command line arguments.
//
// In order to maintain backwards compatibility with the old method
// let's keep track of a flag. If any of the new paramethers are found
// we will require the new way. If none are found, we'll proceed with
// the old method.
//-------------------------------
bool paramsFound = false;
for(int i = 1; i < argc; i++) {
std::string paramName;
std::string paramValue;
bool validParam = parseArgument(argv[i],paramName,paramValue);
if(validParam) {
paramsFound = true;
if(paramName.compare("pre") == 0) {
preinit_macro = paramValue;
} else if (paramName.compare("post") == 0) {
postinit_macro = paramValue;
} else if (paramName.compare("gui") == 0) {
flag_gui = getBool(paramValue,true);
}
}
}
// If no valid parameters were found, revert to the old method, in which
// there are two possible parameters to specify the pre-init macro and
// post init-macro.
if(!paramsFound) {
if( argc == 2 ){ //if only one command line argument is given, assume all commands are to be applied post-initialization:
postinit_macro = argv[1];
} else if( argc > 2 ){ //assume first argument is pre-init commands, second argument is post-init commands:
preinit_macro = argv[1];
postinit_macro = argv[2];
}
}
bool use_gui = false;
// If no postinit macro specified, turn on the GUI
if(postinit_macro == "") {
use_gui = true;
}
// If the GUI flag/parameter is passed, always display GUI
if(flag_gui) {
use_gui = true;
}
CLHEP::HepRandom::createInstance();
unsigned int seed = time(0) + (int) getpid();
unsigned int devrandseed = 0;
FILE *fdrand = fopen("/dev/urandom", "r");
if( fdrand ){
fread(&devrandseed, sizeof(int), 1, fdrand);
seed += devrandseed;
fclose(fdrand);
}
CLHEP::HepRandom::setTheSeed(seed);
G4SBSRunData *rundata = G4SBSRun::GetRun()->GetData();
rundata->SetSeed(seed);
G4SBSIO *io = new G4SBSIO();
//-------------------------------
// Initialization of Run manager
//-------------------------------
G4cout << "RunManager construction starting...." << G4endl;
G4RunManager * runManager = new G4RunManager;
G4SBSMessenger *sbsmess = new G4SBSMessenger();
sbsmess->SetIO(io);
G4VModularPhysicsList *physicslist = new G4SBSPhysicsList;
runManager->SetUserInitialization(physicslist);
sbsmess->SetPhysList( (G4SBSPhysicsList*) physicslist );
// Detector/mass geometry and parallel geometry(ies):
G4SBSDetectorConstruction* detector = new G4SBSDetectorConstruction();
sbsmess->SetDetCon((G4SBSDetectorConstruction *) detector);
// This lets us output graphical field maps
io->SetGlobalField( ((G4SBSDetectorConstruction *) detector)->GetGlobalField() );
runManager->SetUserInitialization(detector);
//-------------------------------
// UserAction classes
//-------------------------------
G4UserRunAction* run_action = new G4SBSRunAction;
((G4SBSRunAction *) run_action)->SetIO(io);
runManager->SetUserAction(run_action);
//
G4VUserPrimaryGeneratorAction* gen_action = new G4SBSPrimaryGeneratorAction;
((G4SBSPrimaryGeneratorAction *) gen_action)->SetIO(io);
sbsmess->SetEvGen(((G4SBSPrimaryGeneratorAction *) gen_action)->GetEvGen());
sbsmess->SetPriGen((G4SBSPrimaryGeneratorAction *) gen_action);
( (G4SBSPrimaryGeneratorAction*) gen_action )->SetRunAction( (G4SBSRunAction*) run_action );
runManager->SetUserAction(gen_action);
//
G4UserEventAction* event_action = new G4SBSEventAction;
((G4SBSEventAction *) event_action)->SetIO(io);
((G4SBSEventAction *) event_action)->SetEvGen(((G4SBSPrimaryGeneratorAction *) gen_action)->GetEvGen());
runManager->SetUserAction(event_action);
sbsmess->SetEvAct((G4SBSEventAction *) event_action);
//
G4SBSSteppingAction* stepping_action = new G4SBSSteppingAction;
runManager->SetUserAction(stepping_action);
G4SBSTrackingAction *tracking_action = new G4SBSTrackingAction;
runManager->SetUserAction(tracking_action);
//Store pointer to tracking action in SBS UI messenger:
sbsmess->SetTrackingAction(tracking_action);
sbsmess->SetSteppingAction(stepping_action);
((G4SBSRunAction *) run_action)->SetTrackingAction(tracking_action);
((G4SBSRunAction *) run_action)->SetSteppingAction(stepping_action);
G4UImanager * UImanager = G4UImanager::GetUIpointer();
//Set GEANT4 macro search path based on environment variable G4SBS, if it is set:
G4String macropathcmd = "/control/macroPath ";
//
macropathcmd += ".:./scripts";
char *G4SBS_env_var = std::getenv("G4SBS");
if( G4SBS_env_var != NULL ){
macropathcmd += ":";
macropathcmd += G4SBS_env_var;
macropathcmd += "/scripts";
}
//Let GEANT4 search ./scripts and $G4SBS/scripts for macros:
UImanager->ApplyCommand( macropathcmd );
//#endif
// This line helps G4SBSRunData locate the pre-init, post-init macro files and
// all external macros called (if ANY), without forcing libg4sbsroot to depend
// on the GEANT4 libraries
rundata->SetMacroPath( UImanager->GetMacroSearchPath() );
if( preinit_macro != "" ){
rundata->SetPreInitMacroFile(preinit_macro.data());
G4int success = executeMacro(preinit_macro,UImanager);
if( success != fCommandSucceeded ){
G4cerr << "Problem executing macro, exiting..." << G4endl;
exit(-1);
}
}
if( postinit_macro != "") {
rundata->SetMacroFile(postinit_macro.data());
}
// Initialize Run manager
runManager->Initialize();
/*
UImanager->ApplyCommand("/Step/Verbose 0");
UImanager->ApplyCommand("/tracking/Verbose 1");
UImanager->ApplyCommand("/gun/particle e-");
UImanager->ApplyCommand("/gun/energy 100 MeV");
UImanager->ApplyCommand("/gun/direction 0 0 1");
UImanager->ApplyCommand("/gun/position 0 0 0");
UImanager->ApplyCommand("/gun/direction 0 .3 1.");
*/
if( use_gui ) {
//--------------------------
// Define (G)UI
//--------------------------
//----------------
// Visualization:
//----------------
//#ifdef G4VIS_USE
//#endif
// Setup commands
//
//----------------
// Visualization:
//----------------
//#ifdef G4VIS_USE
G4cout << "Instantiating Visualization Manager......." << G4endl;
G4VisManager* visManager = new G4VisExecutive;
visManager -> Initialize ();
//#endif
// Setup commands
//
//#ifdef G4UI_USE
G4UIExecutive * ui = new G4UIExecutive(argc,argv);
UImanager->SetSession( ui->GetSession() );
//#endif
G4int success = executeMacro(postinit_macro, UImanager);
if( success != fCommandSucceeded ){
G4cerr << "Problem executing macro, exiting..." << G4endl;
exit(-1);
}
//#ifdef G4UI_USE
ui->SessionStart();
delete ui;
delete visManager;
//#endif
} else {
// Run the postinit macro if one is specified
G4int success = executeMacro(postinit_macro, UImanager);
if( success != fCommandSucceeded ){
G4cerr << "Problem executing macro, exiting..." << G4endl;
exit(-1);
}
}
// Free the store: user actions, physics_list and detector_description are
// owned and deleted by the run manager, so they should not
// be deleted in the main() program !
//#ifdef G4VIS_USE
// delete visManager;
//#endif
delete runManager;
return 0;
}