Here is a list of all class members with links to the classes they belong to:
- r -
- R
: polynomial< C, with< Rep, Ord > >
, dual< C, O >
, template_expression< binary_operator<O, A, B > >
- rational
: GMP
, continued_fraction_isolate< K, B >
, continued_fraction_approximate< K, B >
, GMP
, continued_fraction_subdivision< K >
, binary_sleeve_subdivision< K >
, IEEE754
, kernel< mplib, _ieee_ >
, binary_subdivision< K >
- rbegin()
: polynomial< C, with< Rep, Ord > >
, Seq< C, R >
, monomials< C >
, dynamic_exp< E >
, polynomial< C, with< Rep, Ord > >
- rdw_t
: Intervals< C >
- reach()
: bsearch< real_t >
, bsearch_castel< real_t >
, bsearch_newton< real_t >
, bsearch_newton2< real_t >
- reciprocal_hom()
: homography< real >
, homography_mv< real >
- reduce()
: mv_binary_approx
, mv_binary_isolate
, uv_binary_approx
, uv_binary_isolate
, binary_approx
, binary_isolate
- reduce_domain()
: box_rep< POL >
- reduction()
: method< system, _strgy_, _rdslv_, _sbdrl_ >
- ref()
: shared_object< R >
- refc
: shared_object< R >::rep
- regular()
: binary_approx
, mv_binary_approx
, uv_binary_approx
- rem()
: use< operators_of, polynomial< C, with< Rep, Ord > > >
, scalar< T >
, use< operators_of, sparse::dual< C, O > >
, use< operators_of, sparse::monomial_seq< C, O, MONOM, REP > >
, scalar< T >
- rend()
: dynamic_exp< E >
, polynomial< C, with< Rep, Ord > >
, Seq< C, R >
, monomials< C >
- rep()
: polynomial< C, with< Rep, Ord > >
, scalar< T >
, Seq< C, R >
, shared_object< R >::rep
, rep_view< R >
, monom< C, E >
, polynomial< C, with< Rep, Ord > >
- rep_t
: polynomial< C, with< Rep, Ord > >
, use< polynomial_of, polynomial< C, with< Bernstein > > >
, ring< C, Bernstein >
, use< polynomial_of, polynomial< C, with< Dual, O > > >
, ring< C, Dual, O >
, use< polynomial_of, polynomial< C, with< Sparse, O > > >
, ring< C, Sparse, O >
, use< polynomial_of, polynomial< C, with< MonomialTensor > > >
, ring< C, MonomialTensor >
, use< polynomial_of, polynomial< C, with< Univariate > > >
, ring< C, Univariate >
- rep_type
: polynomial< C, with< Rep, Ord > >
- reserve()
: dynamic_exp< E >
- reset()
: descartes_solver< real_t, local_method >
- resize()
: dynamic_exp< E >
, Seq< C, R >
, monomials< C >
- restrict()
: box_rep< POL >
- result
: is_rounded< T >
, is_rounded< float >
, is_rounded< double >
, is_rounded< long double >
, hdwimax< hdwi, n >
, hdwimax< hdwi, 0 >
, hdwintp< T >
, epsilon< T >
, Eq< A, B >
, Eq< A, A >
- result_t
: sign_wanted< Prms >
, LongVersion< float >
, Eq< A, B >
, Eq< A, A >
, ValueType< A >
, ValueType< A[n] >
, ValueType< A * >
, BoolType< b >
, BoolType< true >
, deconst< const X >
, Sup< A, B >
, deconst< X >
, If< false, A, B >
, select_mth< system, 2 >
, is_rounded< T >
, is_rounded< float >
, is_rounded< double >
, is_rounded< long double >
, LongVersion< T >
, LongVersion< double >
, LongVersion< floating<> >
, select_mth< system, mth >
, select_mth< system, 0 >
, select_mth< system, 1 >
, select_mth< system, 3 >
, select_mth< system, 4 >
, select_mth< system, 5 >
, select_mth< system, 6 >
, select_mth< system, 7 >
, inexact< T >
, inexact< long double >
, If< test, A, B >
- resultant()
: subresultant< PREM >
- reverse()
: hdwi< hardware_int >
, Seq< C, R >
- reverse_and_shift_box()
: interval_rep< POL >
, box_rep< POL >
- reverse_box()
: box_rep< POL >
, interval_rep< POL >
- reverse_iterator
: monomials< C >
, monomial_seq< C, O, MONOM, REP >
, Seq< C, R >
, dual< C, O >
, monomials< C >
, dynamic_exp< E >
, polynomial< C, with< Rep, Ord > >
- reversed()
: Seq< C, R >
- rewrite()
: eenv
- rface()
: box_rep< POL >
- Ring
: polynomial< C, with< Rep, Ord > >
, use< polynomial_of, polynomial< C, with< Univariate > > >
, ring_of< polynomial< C, with< MonomialTensor > > >
- ring()
: ring< C, B, O >
- Ring
: ring_of< polynomial< C, with< Bernstein > > >
, ring< C, Dual, O >
, use< polynomial_of, polynomial< C, with< MonomialTensor > > >
- ring()
: ring< C, Bernstein >
- Ring
: ring_of< polynomial< C, V > >
- ring()
: ring< C, B, O >
, ring< C, Sparse, O >
, ring< C, Univariate >
- Ring
: use< polynomial_of, polynomial< C, with< Bernstein > > >
- ring()
: ring< C, Sparse, O >
- Ring
: ring< C, Bernstein >
, ring_of< polynomial< C, with< V, W > > >
- ring
: hasproperty< X >
- Ring
: use< polynomial_of, polynomial< C, with< Sparse, O > > >
, ring< C, MonomialTensor >
, use< polynomial_of, polynomial< C, with< Dual, O > > >
- ring()
: ring< C, MonomialTensor >
, ring< C, Sparse, O >
, ring< C, B, O >
- rnd()
: interval_base< T, 3 >::rnd
- rnd_dw()
: fpu_rounding< long double >
, fpu_rounding< T >
, fpu_rounding< floating<> >
- rnd_nr()
: fpu_rounding< floating<> >
, fpu_rounding< long double >
, fpu_rounding< T >
- rnd_t
: fpu_rounding< floating<> >
, Interval< T, r >
, fpu_rounding< long double >
, fpu_rounding< T >
- rnd_up()
: fpu_rounding< T >
, fpu_rounding< floating<> >
, fpu_rounding< long double >
- rnd_z()
: fpu_rounding< long double >
, fpu_rounding< T >
, fpu_rounding< floating<> >
- rockwoodcuts()
: descartes_solver< real_t, local_method >
- root_bound
: data_t
- root_t
: continued_fraction_isolate< K, B >
, continued_fraction_approximate< K, B >
, continued_fraction_subdivision< K >
, ContFrac_t< NT, LowerBound >
- rounding()
: rounding< T >
- rrestrict()
: eenv_base
- RT
: continued_fraction_subdivision< K >
, ContFrac_t< NT, LowerBound >
- run()
: subdivisor< CELL, V >
, binary_sleeve_subdivision< K >
, solver< C, ProjRd< MTH > >
, binary_sleeve_subdivision< K >
- run_loop()
: binary_sleeve_subdivision< K >
, binary_subdivision< K >
- rup_t
: Intervals< C >
- rvbinoms()
: eenv
