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Wouter Deconinck authored37305c42
Geant4CerenkovPhysics.cpp 4.45 KiB
//==========================================================================
// AIDA Detector description implementation
//--------------------------------------------------------------------------
// Copyright (C) Organisation europeenne pour la Recherche nucleaire (CERN)
// All rights reserved.
//
// For the licensing terms see $DD4hepINSTALL/LICENSE.
// For the list of contributors see $DD4hepINSTALL/doc/CREDITS.
//
// Author : M.Frank
//
//==========================================================================
/** \addtogroup Geant4PhysicsConstructor
*
* @{
* \package Geant4CerenkovPhysics
* \brief PhysicsConstructor for Cerenkov physics
This plugin allows to enable Cerenkov physics in the physics list
* @}
*/
#ifndef DDG4_GEANT4CERENKOVPHYSICS_H
#define DDG4_GEANT4CERENKOVPHYSICS_H 1
/// Framework include files
#include "DDG4/Geant4PhysicsList.h"
/// Geant4 include files
#include "G4ParticleTableIterator.hh"
#include "G4ParticleDefinition.hh"
#include "G4ParticleTypes.hh"
#include "G4ParticleTable.hh"
#include "G4ProcessManager.hh"
#include "G4Version.hh"
#if G4VERSION_NUMBER >= 1070
#include "G4OpticalParameters.hh"
#endif
#include "G4Cerenkov.hh"
/// Namespace for the AIDA detector description toolkit
namespace dd4hep {
/// Namespace for the Geant4 based simulation part of the AIDA detector description toolkit
namespace sim {
/// Geant4 physics list action to enable Cerenkov physics
/**
* \author M.Frank
* \version 1.0
* \ingroup DD4HEP_SIMULATION
*/
class Geant4CerenkovPhysics : public Geant4PhysicsList {
public:
/// Default constructor
Geant4CerenkovPhysics() = delete;
/// Copy constructor
Geant4CerenkovPhysics(const Geant4CerenkovPhysics&) = delete;
/// Initializing constructor
Geant4CerenkovPhysics(Geant4Context* ctxt, const std::string& nam)
: Geant4PhysicsList(ctxt, nam)
{
declareProperty("MaxNumPhotonsPerStep", m_maxNumPhotonsPerStep = 0);
declareProperty("MaxBetaChangePerStep", m_maxBetaChangePerStep = 0.0);
declareProperty("TrackSecondariesFirst", m_trackSecondariesFirst = false);
declareProperty("StackPhotons", m_stackPhotons = true);
declareProperty("VerboseLevel", m_verbosity = 0); }
/// Default destructor
virtual ~Geant4CerenkovPhysics() = default;
/// Callback to construct processes (uses the G4 particle table)
virtual void constructProcesses(G4VUserPhysicsList* physics_list) {
this->Geant4PhysicsList::constructProcesses(physics_list);
info("+++ Constructing: maxNumPhotonsPerStep:%d maxBeta:%f "
"track secondaries:%s stack photons:%s track secondaries:%s",
m_maxNumPhotonsPerStep, m_maxBetaChangePerStep,
yes_no(m_trackSecondariesFirst), yes_no(m_stackPhotons),
yes_no(m_trackSecondariesFirst));
G4Cerenkov* process = new G4Cerenkov(name());
#if G4VERSION_NUMBER >= 1070
G4OpticalParameters* params = G4OpticalParameters::Instance();
params->SetCerenkovVerboseLevel(m_verbosity);
params->SetCerenkovMaxPhotonsPerStep(m_maxNumPhotonsPerStep);
params->SetCerenkovMaxBetaChange(m_maxBetaChangePerStep);
params->SetCerenkovTrackSecondariesFirst(m_trackSecondariesFirst);
params->SetCerenkovStackPhotons(m_stackPhotons);
#else
process->SetVerboseLevel(m_verbosity);
process->SetMaxNumPhotonsPerStep(m_maxNumPhotonsPerStep);
process->SetMaxBetaChangePerStep(m_maxBetaChangePerStep);
process->SetTrackSecondariesFirst(m_trackSecondariesFirst);
#if G4VERSION_NUMBER>1030
process->SetStackPhotons(m_stackPhotons);
#endif
#endif
auto pit = G4ParticleTable::GetParticleTable()->GetIterator();
pit->reset();
while( (*pit)() ){
G4ParticleDefinition* particle = pit->value();
if (process->IsApplicable(*particle)) {
G4ProcessManager* pmanager = particle->GetProcessManager();
pmanager->AddProcess(process);
pmanager->SetProcessOrdering(process,idxPostStep);
}
}
}
private:
double m_maxBetaChangePerStep;
int m_maxNumPhotonsPerStep;
int m_verbosity;
bool m_trackSecondariesFirst;
bool m_stackPhotons;
};
}
}
#endif // DDG4_GEANT4CERENKOVPHYSICS_H
#include "DDG4/Factories.h"
using namespace dd4hep::sim;
DECLARE_GEANT4ACTION(Geant4CerenkovPhysics)