GdNeutronCapture.cc

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/// \file exampleGdNCap.cc
/// \brief Main program of the GdNCap example

#include "DetectorConstruction.hh"
#include "ActionInitialization.hh"

#include "G4RunManagerFactory.hh"
#include "G4SteppingVerbose.hh"
#include "G4UImanager.hh"
#include "QBBC.hh"

#include "G4VisExecutive.hh"
#include "G4UIExecutive.hh"

#include "Randomize.hh"

#include "QGSP_BIC_AllHP.hh"
#include "QGSP_BIC_HP.hh"
#include "QGSP_BERT_HP.hh"
#include "QGSP_INCLXX_HP.hh"
#include "FTFP_INCLXX_HP.hh"
#include "FTFP_BERT_HP.hh"
#include "FTFP_BERT.hh"
#include "ShieldingLEND.hh"

#include "G4ParticleHPManager.hh"

using namespace GdNCap;

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int main(int argc,char** argv)
{
    // Choose the Random engine
    G4Random::setTheEngine(new CLHEP::RanecuEngine);
    auto seed = time(NULL);
    G4Random::setTheSeed(seed);
  // Detect interactive mode (if no arguments) and define UI session
  //
  G4UIExecutive* ui = nullptr;
  if ( argc == 1 ) { ui = new G4UIExecutive(argc, argv); }

  // Optionally: choose a different Random engine...
  // G4Random::setTheEngine(new CLHEP::MTwistEngine);

  //use G4SteppingVerboseWithUnits
  G4int precision = 4;
  G4SteppingVerbose::UseBestUnit(precision);

  // Construct the default run manager
  //
  auto* runManager =
    G4RunManagerFactory::CreateRunManager(G4RunManagerType::Default);

  // Set mandatory initialization classes
  //
  // Detector construction
  runManager->SetUserInitialization(new DetectorConstruction());

  // Physics list
  //G4VModularPhysicsList* physicsList = new QGSP_BIC_HP;
  G4VModularPhysicsList* physicsList = new QGSP_BIC_AllHP;
  //G4VModularPhysicsList* physicsList = new ShieldingLEND;
  //G4VModularPhysicsList* physicsList = new FTFP_BERT_HP;
  //G4VModularPhysicsList* physicsList = new FTFP_INCLXX_HP;
  //G4VModularPhysicsList* physicsList = new FTFP_BERT;
  //G4VModularPhysicsList* physicsList = new QBBC;
  physicsList->SetVerboseLevel(2);
  runManager->SetUserInitialization(physicsList);

  // User action initialization
  runManager->SetUserInitialization(new ActionInitialization());

  // Replaced HP environmental variables with C++ calls
  G4ParticleHPManager::GetInstance()->SetSkipMissingIsotopes(true);
  G4ParticleHPManager::GetInstance()->SetDoNotAdjustFinalState(true);
  G4ParticleHPManager::GetInstance()->SetUseOnlyPhotoEvaporation(true);
  //G4ParticleHPManager::GetInstance()->SetNeglectDoppler(false);
  //G4ParticleHPManager::GetInstance()->SetProduceFissionFragments(false);
  //G4ParticleHPManager::GetInstance()->SetUseWendtFissionModel(false);
  //G4ParticleHPManager::GetInstance()->SetUseNRESP71Model(false);

  // Initialize visualization
  //
  G4VisManager* visManager = new G4VisExecutive;
  // G4VisExecutive can take a verbosity argument - see /vis/verbose guidance.
  // G4VisManager* visManager = new G4VisExecutive("Quiet");
  visManager->Initialize();

  // Get the pointer to the User Interface manager
  G4UImanager* UImanager = G4UImanager::GetUIpointer();

  // Process macro or start UI session
  //
  if ( ! ui ) {
    // batch mode
    G4String command = "/control/execute ";
    G4String fileName = argv[1];
    UImanager->ApplyCommand(command+fileName);
  }
  else {
    runManager->SetNumberOfThreads(1);
    // interactive mode
    UImanager->ApplyCommand("/run/verbose 2");
    UImanager->ApplyCommand("/event/verbose 2");
    UImanager->ApplyCommand("/tracking/verbose 2");
    UImanager->ApplyCommand("/control/execute init_vis.mac");
    ui->SessionStart();
    delete ui;
  }

  // Job termination
  // 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 !

  delete visManager;
  delete runManager;
}

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