force_F_Wilson_SF.h

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#ifndef FORCE_F_WILSON_SF_INCLUDED
#define FORCE_F_WILSON_SF_INCLUDED

#include "force.h"
#include "fopr_Wilson_SF.h"
#include "field_G_SF.h"

#include "tensorProd.h"

#include "bridgeIO.h"
using Bridge::vout;


//- parameters class
class Parameters_Force_F_Wilson_SF : virtual public Parameters
{
 public:
  Parameters_Force_F_Wilson_SF();
};
//- end

class Force_F_Wilson_SF : public Force
{
 public:
  static const std::string class_name;

 private:
  Field_G *m_U;

  double           m_kappa;
  std::vector<int> m_boundary;
  Fopr_Wilson_SF   *m_fopr_w;
  Field_F          m_psf;
  std::string      m_repr;

 public:

  Force_F_Wilson_SF()
  {
    //    m_repr = "Dirac";
    //    m_fopr_w = new Fopr_Wilson_SF(m_repr);
    m_fopr_w = new Fopr_Wilson_SF();
    m_boundary.resize(CommonParameters::Ndim());
  }

  ~Force_F_Wilson_SF()
  {
    delete m_fopr_w;
  }

  void set_parameters(const Parameters& params);

  // void set_parameters (const Parameters_Fopr_Wilson_SF& params);
  void set_parameters(double kappa, const std::vector<int> bc);

  void set_config(Field *U)
  {
    m_U = (Field_G *)U;
    m_fopr_w->set_config(U);
  }

  void force_udiv(Field& force, const Field& eta);
  void force_udiv1(Field& force, const Field& zeta, const Field& eta);

 private:
  void force_udiv1_impl(Field_G& force, const Field_F& zeta, const Field_F& eta);
};
#endif