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//
// Hadronic Process: Nuclear De-excitations
// By V. Lara


inline G4FermiConfiguration::G4FermiConfiguration()
{
}

inline G4FermiConfiguration::~G4FermiConfiguration()
{
}


inline G4FermiConfiguration::G4FermiConfiguration(const G4FermiConfiguration &right)
  : Configuration(right.Configuration)
{
}


inline G4FermiConfiguration::G4FermiConfiguration(const std::vector<const G4VFermiFragment*>& conf)
  : Configuration(conf)
{ 
}

inline const G4FermiConfiguration & G4FermiConfiguration::
operator=(const G4FermiConfiguration & right)
{
  Configuration.clear();
  Configuration.reserve(right.Configuration.size());
  Configuration.insert(Configuration.begin(),right.Configuration.begin(),right.Configuration.end());
  return *this;
}


inline G4bool G4FermiConfiguration::operator==(const G4FermiConfiguration &right) const
{
  return (Configuration == right.Configuration);
}

inline G4bool G4FermiConfiguration::operator!=(const G4FermiConfiguration &right) const
{
  return (Configuration != right.Configuration);
}

inline void G4FermiConfiguration::
SetConfiguration(const std::vector<const G4VFermiFragment*>& conf)
{
  Configuration.clear();
  Configuration = conf;
  return;
}

inline G4int G4FermiConfiguration::
GetNumberOfFragments() const
{
  return Configuration.size();
}