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// $Id: G4QDecayChan.hh,v 1.24 2009/02/23 09:49:24 mkossov Exp $
// GEANT4 tag $Name: hadr-chips-V09-03-08 $
//
//      ---------------- G4QDecayChan ----------------
//             by Mikhail Kossov, Sept 1999.
//  class header for Decay Channel definition in CHIPS Model
// ------------------------------------------------------------
// Short description: In the CHIPS World the particles (G4QParticle)
// are defined. For unstable particles there is a G4QDecayChannelVector
// which describes different channels of decay for the particular
// particle. So the G4QDecayChannel class is the class for the description
// of such a decay channel in two or three particles (the secondaries can
// be unstable too and have firther decay).
// -------------------------------------------------------------------

#ifndef G4QDecayChan_h
#define G4QDecayChan_h 1

#include <iostream>
#include "globals.hh"
#include "G4QPDGCodeVector.hh"

class G4QDecayChan
{
public:
  // Constructors
  G4QDecayChan();                                                    // Default Constructor
  //G4QDecayChan(G4QPDGCodeVector secHadr, G4double probLimit = 1.); // General Constructor
  G4QDecayChan(G4double pLev, G4int PDG1, G4int PDG2, G4int PDG3=0); // DetailedConstructor
  G4QDecayChan(const G4QDecayChan& right);                       // Copy ByValueConstructor
  G4QDecayChan(G4QDecayChan* right);                           // Copy ByPointerConstructor

  ~G4QDecayChan();                                                   // Public Destructor

  // Operators
  const G4QDecayChan& operator=(const G4QDecayChan& right);
  G4bool               operator==(const G4QDecayChan& rhs) const;
  G4bool               operator!=(const G4QDecayChan& rhs) const;

  // Selectors
  G4double         GetDecayChanLimit() const;   // Get a Decay Channel Probability Limit
  G4double         GetMinMass() const;          // Get a Minimum Mass for the Decay Channel
  G4QPDGCodeVector GetVecOfSecHadrons();        // Get a Vector of secondary PDG-particles

  // Modifiers
  void SetDecayChanLimit(G4double newDecChanLim);// Set a Decay Channel Probability Limit
  void SetMinMass(G4double newMinMass);          // Set a Minimum Mass for the DecayChannel
  void SetVecOfSecHadrons(G4QPDGCodeVector hadV);// Set a Vector of secondary PDG-particles

  //private:
  // Encapsulated functions

private:
  // the Body
  G4double aDecayChanLimit;
  G4double theMinMass;
  G4QPDGCodeVector aVecOfSecHadrons;
};

// Not member operators
std::ostream&   operator<<(std::ostream& lhs, G4QDecayChan& rhs);
//----------------------------------------------------------------------------------------

inline G4bool G4QDecayChan::operator==(const G4QDecayChan& rhs) const {return this==&rhs;}
inline G4bool G4QDecayChan::operator!=(const G4QDecayChan& rhs) const {return this!=&rhs;}
 
inline G4double G4QDecayChan::GetDecayChanLimit() const    {return aDecayChanLimit;}
inline G4double G4QDecayChan::GetMinMass() const           {return theMinMass;}
inline G4QPDGCodeVector G4QDecayChan::GetVecOfSecHadrons() {return aVecOfSecHadrons;}

inline void G4QDecayChan::SetDecayChanLimit(G4double DCL)          {aDecayChanLimit=DCL;}
inline void G4QDecayChan::SetMinMass(G4double minMass)             {theMinMass=minMass;}
inline void G4QDecayChan::SetVecOfSecHadrons(G4QPDGCodeVector VSH) {aVecOfSecHadrons=VSH;}

#endif