G4FermiChannels.hh

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//
// FermiBreakUp de-excitation model
// by V. Ivanchenko (July 2016)
//
 
#ifndef G4FermiChannels_h
#define G4FermiChannels_h 1
 
#include "globals.hh"
#include "G4FermiFragment.hh"
#include "G4FermiPair.hh"
#include <vector>
 
class G4FermiChannels
{
public:
 
  explicit G4FermiChannels(const G4FermiFragment* ptr) : frag(ptr) {}
  ~G4FermiChannels() { for (auto const & p : fvect) { delete p; } }
 
  G4int GetZ() const { return frag->GetZ(); }
  const G4FermiFragment* GetFragment() const { return frag; }
 
  std::size_t NumberPairs() const { return nch; }
  const std::vector<G4FermiPair*>& GetChannels() const { return fvect; }
  const G4FermiPair* GetPair(std::size_t idx) const {
    return (idx < nch) ? fvect[idx] : nullptr;
  }
 
  void AddChannel(G4FermiPair* ptr) {
    fvect.push_back(ptr);
    ++nch;
  }
 
  G4double GetExcitation() const { return frag->GetExcitationEnergy(); }
  G4double GetMass() const { return frag->GetTotalEnergy(); }
 
  inline const G4FermiChannels& operator=(const G4FermiChannels&) = delete;
  inline G4FermiChannels(const G4FermiChannels &) = delete;
  inline G4bool operator==(const G4FermiChannels &) = delete;
  inline G4bool operator!=(const G4FermiChannels &) = delete;
 
private:
 
  const G4FermiFragment* frag;
  std::size_t nch{0};
  std::vector<G4FermiPair*> fvect;
};
 
#endif