Model::Model(const Model& New_Model)
{
BV_Set_ = New_Model.BV_Set();
k_ij_ = New_Model.k_ij();
Gauge_Groups_ = New_Model.Gauge_Groups();
MatterStates_ = New_Model.MatterStates();
SUSY_States_ = New_Model.SUSY_States();
NAHE_Loaded_ = New_Model.NAHE_Loaded();
}//Close copy constructor.
LEEFT::LEEFT(const Model& FFHS_Model)
{
Total_NA_Reps_ = 0;
//Get the gauge group names.
for(int a=0; a<static_cast<int>(FFHS_Model.Gauge_Groups().size()); ++a)
Gauge_Groups_.push_back(FFHS_Model.Gauge_Groups().at(a).Name());
//Get the matter representations.
MatterRepresentations_ = FFHS_Model.MatterRepresentations();
//Get the number of U(1) factors.
U1_Factors_ = FFHS_Model.U1_Factors();
//Get the number of ST SUSYs.
ST_SUSYs_ = FFHS_Model.SUSY_States().size();
//Calculate the total non-Abelian matter reps.
for(int a=0; a<static_cast<int>(MatterRepresentations().size()); ++a)
Total_NA_Reps_+=MatterRepresentations().at(a).Duplicates();
//Organize the matter rep classes.
Build_Matter_Rep_Classes();
}//Close second constructor.
