file gm2calc_1_3_0/gm2calc_1_3_0/wrapper_MSSMNoFV_onshell_mass_eigenstates_decl.hpp
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Functions
Name | |
---|---|
namespace | CAT_3(BACKENDNAME , _ , SAFE_VERSION ) |
Functions Documentation
function CAT_3
namespace CAT_3(
BACKENDNAME ,
_ ,
SAFE_VERSION
)
Source code
#ifndef __wrapper_MSSMNoFV_onshell_mass_eigenstates_decl_gm2calc_1_3_0_hpp__
#define __wrapper_MSSMNoFV_onshell_mass_eigenstates_decl_gm2calc_1_3_0_hpp__
#include <cstddef>
#include <string>
#include <ostream>
#include <Eigen/Core>
#include <complex>
#include "forward_decls_wrapper_classes.hpp"
#include "gambit/Backends/wrapperbase.hpp"
#include "abstract_MSSMNoFV_onshell_mass_eigenstates.hpp"
#include "wrapper_MSSMNoFV_onshell_soft_parameters_decl.hpp"
#include "wrapper_MSSMNoFV_onshell_physical_decl.hpp"
#include "wrapper_MSSMNoFV_onshell_problems_decl.hpp"
#include "identification.hpp"
namespace CAT_3(BACKENDNAME,_,SAFE_VERSION)
{
namespace gm2calc
{
class MSSMNoFV_onshell_mass_eigenstates : public MSSMNoFV_onshell_soft_parameters
{
// Member variables:
public:
// -- Static factory pointers:
static Abstract_MSSMNoFV_onshell_mass_eigenstates* (*__factory0)();
// -- Other member variables:
// Member functions:
public:
void calculate_DRbar_masses();
void clear();
void clear_DRbar_parameters();
void copy_DRbar_masses_to_pole_masses();
void do_force_output(bool arg_1);
bool do_force_output() const;
void reorder_DRbar_masses();
void reorder_pole_masses();
void set_physical(const gm2calc::MSSMNoFV_onshell_physical& arg_1);
const gm2calc::MSSMNoFV_onshell_physical& get_physical() const;
gm2calc::MSSMNoFV_onshell_physical& get_physical();
const gm2calc::MSSMNoFV_onshell_problems& get_problems() const;
gm2calc::MSSMNoFV_onshell_problems& get_problems();
int solve_ewsb_tree_level();
int solve_ewsb();
::std::string name() const;
void print(std::ostream& arg_1) const;
double get_MVG() const;
double get_MGlu() const;
double get_MVP() const;
double get_MVZ() const;
double get_MFd() const;
double get_MFs() const;
double get_MFb() const;
double get_MFu() const;
double get_MFc() const;
double get_MFt() const;
double get_MFve() const;
double get_MFvm() const;
double get_MFvt() const;
double get_MFe() const;
double get_MFm() const;
double get_MFtau() const;
double get_MSveL() const;
double get_MSvmL() const;
double get_MSvtL() const;
const ::Eigen::Array<double, 2, 1, 0>& get_MSd() const;
double get_MSd(int i) const;
const ::Eigen::Array<double, 2, 1, 0>& get_MSu() const;
double get_MSu(int i) const;
const ::Eigen::Array<double, 2, 1, 0>& get_MSe() const;
double get_MSe(int i) const;
const ::Eigen::Array<double, 2, 1, 0>& get_MSm() const;
double get_MSm(int i) const;
const ::Eigen::Array<double, 2, 1, 0>& get_MStau() const;
double get_MStau(int i) const;
const ::Eigen::Array<double, 2, 1, 0>& get_MSs() const;
double get_MSs(int i) const;
const ::Eigen::Array<double, 2, 1, 0>& get_MSc() const;
double get_MSc(int i) const;
const ::Eigen::Array<double, 2, 1, 0>& get_MSb() const;
double get_MSb(int i) const;
const ::Eigen::Array<double, 2, 1, 0>& get_MSt() const;
double get_MSt(int i) const;
const ::Eigen::Array<double, 2, 1, 0>& get_Mhh() const;
double get_Mhh(int i) const;
const ::Eigen::Array<double, 2, 1, 0>& get_MAh() const;
double get_MAh(int i) const;
const ::Eigen::Array<double, 2, 1, 0>& get_MHpm() const;
double get_MHpm(int i) const;
const ::Eigen::Array<double, 4, 1, 0>& get_MChi() const;
double get_MChi(int i) const;
const ::Eigen::Array<double, 2, 1, 0>& get_MCha() const;
double get_MCha(int i) const;
double get_MVWm() const;
::Eigen::Array<double, 1, 1, 0> get_MChargedHiggs() const;
::Eigen::Array<double, 1, 1, 0> get_MPseudoscalarHiggs() const;
const ::Eigen::Matrix<double, 2, 2, 0>& get_ZD() const;
double get_ZD(int i, int k) const;
const ::Eigen::Matrix<double, 2, 2, 0>& get_ZU() const;
double get_ZU(int i, int k) const;
const ::Eigen::Matrix<double, 2, 2, 0>& get_ZE() const;
double get_ZE(int i, int k) const;
const ::Eigen::Matrix<double, 2, 2, 0>& get_ZM() const;
double get_ZM(int i, int k) const;
const ::Eigen::Matrix<double, 2, 2, 0>& get_ZTau() const;
double get_ZTau(int i, int k) const;
const ::Eigen::Matrix<double, 2, 2, 0>& get_ZS() const;
double get_ZS(int i, int k) const;
const ::Eigen::Matrix<double, 2, 2, 0>& get_ZC() const;
double get_ZC(int i, int k) const;
const ::Eigen::Matrix<double, 2, 2, 0>& get_ZB() const;
double get_ZB(int i, int k) const;
const ::Eigen::Matrix<double, 2, 2, 0>& get_ZT() const;
double get_ZT(int i, int k) const;
const ::Eigen::Matrix<double, 2, 2, 0>& get_ZH() const;
double get_ZH(int i, int k) const;
const ::Eigen::Matrix<double, 2, 2, 0>& get_ZA() const;
double get_ZA(int i, int k) const;
const ::Eigen::Matrix<double, 2, 2, 0>& get_ZP() const;
double get_ZP(int i, int k) const;
const ::Eigen::Matrix<std::complex<double>, 4, 4, 0>& get_ZN() const;
const ::std::complex<double>& get_ZN(int i, int k) const;
const ::Eigen::Matrix<std::complex<double>, 2, 2, 0>& get_UM() const;
const ::std::complex<double>& get_UM(int i, int k) const;
const ::Eigen::Matrix<std::complex<double>, 2, 2, 0>& get_UP() const;
const ::std::complex<double>& get_UP(int i, int k) const;
void set_PhaseGlu(std::complex<double> PhaseGlu_);
::std::complex<double> get_PhaseGlu() const;
double get_mass_matrix_VG() const;
void calculate_MVG();
double get_mass_matrix_Glu() const;
void calculate_MGlu();
double get_mass_matrix_VP() const;
void calculate_MVP();
double get_mass_matrix_VZ() const;
void calculate_MVZ();
double get_mass_matrix_Fd() const;
void calculate_MFd();
double get_mass_matrix_Fs() const;
void calculate_MFs();
double get_mass_matrix_Fb() const;
void calculate_MFb();
double get_mass_matrix_Fu() const;
void calculate_MFu();
double get_mass_matrix_Fc() const;
void calculate_MFc();
double get_mass_matrix_Ft() const;
void calculate_MFt();
double get_mass_matrix_Fve() const;
void calculate_MFve();
double get_mass_matrix_Fvm() const;
void calculate_MFvm();
double get_mass_matrix_Fvt() const;
void calculate_MFvt();
double get_mass_matrix_Fe() const;
void calculate_MFe();
double get_mass_matrix_Fm() const;
void calculate_MFm();
double get_mass_matrix_Ftau() const;
void calculate_MFtau();
double get_mass_matrix_SveL() const;
void calculate_MSveL();
double get_mass_matrix_SvmL() const;
void calculate_MSvmL();
double get_mass_matrix_SvtL() const;
void calculate_MSvtL();
::Eigen::Matrix<double, 2, 2, 0> get_mass_matrix_Sd() const;
void calculate_MSd();
::Eigen::Matrix<double, 2, 2, 0> get_mass_matrix_Su() const;
void calculate_MSu();
::Eigen::Matrix<double, 2, 2, 0> get_mass_matrix_Se() const;
void calculate_MSe();
::Eigen::Matrix<double, 2, 2, 0> get_mass_matrix_Sm() const;
void calculate_MSm();
::Eigen::Matrix<double, 2, 2, 0> get_mass_matrix_Stau() const;
void calculate_MStau();
::Eigen::Matrix<double, 2, 2, 0> get_mass_matrix_Ss() const;
void calculate_MSs();
::Eigen::Matrix<double, 2, 2, 0> get_mass_matrix_Sc() const;
void calculate_MSc();
::Eigen::Matrix<double, 2, 2, 0> get_mass_matrix_Sb() const;
void calculate_MSb();
::Eigen::Matrix<double, 2, 2, 0> get_mass_matrix_St() const;
void calculate_MSt();
::Eigen::Matrix<double, 2, 2, 0> get_mass_matrix_hh() const;
void calculate_Mhh();
::Eigen::Matrix<double, 2, 2, 0> get_mass_matrix_Ah() const;
void calculate_MAh();
::Eigen::Matrix<double, 2, 2, 0> get_mass_matrix_Hpm() const;
void calculate_MHpm();
::Eigen::Matrix<double, 4, 4, 0> get_mass_matrix_Chi() const;
void calculate_MChi();
::Eigen::Matrix<double, 2, 2, 0> get_mass_matrix_Cha() const;
void calculate_MCha();
double get_mass_matrix_VWm() const;
void calculate_MVWm();
double get_ewsb_eq_hh_1() const;
double get_ewsb_eq_hh_2() const;
double ThetaW() const;
double v() const;
// Wrappers for original constructors:
public:
MSSMNoFV_onshell_mass_eigenstates();
// Special pointer-based constructor:
MSSMNoFV_onshell_mass_eigenstates(Abstract_MSSMNoFV_onshell_mass_eigenstates* in);
// Copy constructor:
MSSMNoFV_onshell_mass_eigenstates(const MSSMNoFV_onshell_mass_eigenstates& in);
// Assignment operator:
MSSMNoFV_onshell_mass_eigenstates& operator=(const MSSMNoFV_onshell_mass_eigenstates& in);
// Destructor:
~MSSMNoFV_onshell_mass_eigenstates();
// Returns correctly casted pointer to Abstract class:
Abstract_MSSMNoFV_onshell_mass_eigenstates* get_BEptr() const;
};
}
}
#include "gambit/Backends/backend_undefs.hpp"
#endif /* __wrapper_MSSMNoFV_onshell_mass_eigenstates_decl_gm2calc_1_3_0_hpp__ */
Updated on 2024-07-18 at 13:53:35 +0000