- a -

• abs() : scalar< T >
• abs_max() : abs_max< T >
• accept() : method_base , method< system, _strgy_, _rdslv_, _sbdrl_ >
• add() : use< operators_of, polynomial< C, with< Rep, Ord > > > , use< operators_of, sparse::monomial_seq< C, O, MONOM, REP > > , use< operators_of, polynomial< C, with< Rep, Ord > > > , use< operators_of, sparse::monomial_seq< C, O, MONOM, REP > > , use< operators_of, polynomial< C, with< Rep, Ord > > > , use< operators_of, tensor::bernstein< C > > , use< operators_of, polynomial< C, with< Rep, Ord > > > , use< operators_of, tensor::bernstein< C > > , use< operators_of, sparse::dual< C, O > > , use< operators_of, tensor::monomials< C > > , use< operators_of, sparse::dual< C, O > > , use< operators_of, tensor::monomials< C > > , use< operators_of, univariate::monomials< C > > , use< operators_of, tensor::monomials< C > > , use< operators_of, sparse::dual< C, O > > , use< operators_of, univariate::monomials< C > > , use< operators_of, sparse::dual< C, O > >
• add_equation() : solver< C, ProjRd< MTH > >
• all_roots() : solver_cffirst< Real, POL >
• all_roots_isolate() : solver_cffirst< Real, POL >
• all_roots_separate() : solver_cffirst< Real, POL >
• alloc() : dynamic_exp< E > , data_t , eenv , binary_sleeve_subdivision< K >
• Approximate() : Approximate
• approximate() : solver_mv_monomial< FT, POL >
• arc_eq() : arc_rep< C >
• arc_rep() : arc_rep< C >
• as_root() : continued_fraction_approximate< K, B > , continued_fraction_isolate< K, B > , binary_convert< K, Approximate >
• assign() : Interval< T, r >
• at() : polynomial< C, with< Rep, Ord > >