G4ITTransportation.icc

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// $Id$
//
/// \brief This class is a slightly modified version of G4Transportation
///        initially written by J. Apostolakis and colleagues
///        But it should use the exact same algorithm
//
// Original Author : John Apostolakis
//
// Contact : Mathieu Karamitros (kara (AT) cenbg . in2p3 . fr)
//
// WARNING : This class is released as a prototype.
// It might strongly evolve or even disapear in the next releases.
//
// History:
// -----------
// 10 Oct 2011 M.Karamitros created
//
// -------------------------------------------------------------------

inline void
G4ITTransportation::SetPropagatorInField( G4PropagatorInField* pFieldPropagator)
{
   fFieldPropagator= pFieldPropagator;
}

inline G4PropagatorInField* G4ITTransportation::GetPropagatorInField()
{
   return fFieldPropagator;
}

inline void G4ITTransportation::SetVerboseLevel( G4int verboseLev )
{
  fVerboseLevel= verboseLev;
}

inline G4int G4ITTransportation::GetVerboseLevel( ) const
{
  return fVerboseLevel;
}

inline G4double G4ITTransportation::GetThresholdWarningEnergy() const
{
  return fThreshold_Warning_Energy;
}

inline G4double G4ITTransportation::GetThresholdImportantEnergy() const
{
  return fThreshold_Important_Energy;
}

inline G4int G4ITTransportation::GetThresholdTrials() const
{
  return fThresholdTrials;
}

inline void G4ITTransportation::SetThresholdWarningEnergy( G4double newEnWarn )
{
  fThreshold_Warning_Energy= newEnWarn;
}

inline void G4ITTransportation::SetThresholdImportantEnergy( G4double newEnImp )
{
  fThreshold_Important_Energy = newEnImp;
}

inline void G4ITTransportation::SetThresholdTrials(G4int newMaxTrials )
{
  fThresholdTrials = newMaxTrials;
}

     // Get/Set parameters for killing loopers:
     //   Above 'important' energy a 'looping' particle in field will
     //   *NOT* be abandoned, except after fThresholdTrials attempts.
     // Below Warning energy, no verbosity for looping particles is issued

inline G4double G4ITTransportation::GetMaxEnergyKilled() const
{
  return fMaxEnergyKilled;
}

inline G4double G4ITTransportation::GetSumEnergyKilled() const
{
  return fSumEnergyKilled;
}

inline void G4ITTransportation::ResetKilledStatistics(G4int report)
{
  if( report ) {
    G4cout << " G4ITTransportation: Statistics for looping particles " << G4endl;
    G4cout << "   Sum of energy of loopers killed: " <<  fSumEnergyKilled << G4endl;
    G4cout << "   Max energy of loopers killed: " <<  fMaxEnergyKilled << G4endl;
  }

  fSumEnergyKilled= 0;
  fMaxEnergyKilled= -1.0*CLHEP::GeV;
}
     // Statistics for tracks killed (currently due to looping in field)

inline void G4ITTransportation::EnableShortStepOptimisation(G4bool optimiseShortStep)
{
  fShortStepOptimisation=optimiseShortStep;
}