Here is a list of all class members with links to the classes they belong to:
- s -
- s
: IntervalData< RT, Poly >
- S
: template_expression< binary_operator<O, A, B > >
, box_rep< POL >
- s_overflow
: bigunsigned< N >
- safe_split()
: box_rep< POL >
- Scalar
: monom< C, E >
, use< polynomial_of, polynomial< C, with< MonomialTensor > > >
- scalar()
: scalar< T >
- Scalar
: ring< C, MonomialTensor >
- scalar()
: scalar< T >
- Scalar
: polynomial< C, with< Rep, Ord > >
, monomial_seq< C, O, MONOM, REP >
- scalar()
: scalar< T >
- Scalar
: use< polynomial_of, polynomial< C, with< Bernstein > > >
- scalar()
: scalar< T >
- Scalar
: ring< C, Bernstein >
- scalar()
: scalar< T >
- Scalar
: cell_mv_bernstein< C >
, use< polynomial_of, polynomial< C, with< Dual, O > > >
- scalar()
: scalar< T >
- Scalar
: ring< C, Dual, O >
- scalar()
: scalar< T >
- Scalar
: cell_uv_bernstein< C >
, use< polynomial_of, polynomial< C, with< Sparse, O > > >
- scalar()
: scalar< T >
- Scalar
: ring< C, Sparse, O >
- scalar()
: scalar< T >
- scalar_t
: polynomial< C, with< Rep, Ord > >
, use< polynomial_of, polynomial< C, with< Univariate > > >
, ring< C, Univariate >
- scale()
: bzenv< X >
, eenv_base
- scaled_elevate()
: bzenv< X >
- search()
: Seq< C, R >
- self_t
: ring< C, MonomialTensor >
, ring< C, Univariate >
, Seq< C, R >
, dual< C, O >
, monomial_seq< C, O, MONOM, REP >
, As< T >
, ContFrac_t< NT, LowerBound >
, dynamic_exp< E >
, Interval< T, r >
, monom< C, E >
, polynomial< C, with< Rep, Ord > >
, ring< C, Bernstein >
, ring< C, Dual, O >
, ring< C, Sparse, O >
- Seq()
: Seq< C, R >
- seq_t
: arc_rep< C >
- seqbox_t
: solver_mv_fatarcs< C >
- seqint_t
: domain< C >
- sequence()
: subresultant< PREM >
- set_back_a()
: data_t
- set_back_b()
: data_t
- set_coeff()
: monom< C, E >
- set_expt()
: dynamic_exp< E >
, monom< C, E >
- set_of()
: set_of< X >
- set_precision()
: solver< C, ProjRd< MTH > >
, continued_fraction_approximate< K, B >
, continued_fraction_subdivision< K >
, solver< C, ContFrac< Approximate > >
, solver< C, Sleeve< V > >
- set_sz()
: descartes_solver< real_t, local_method >
- set_szs()
: eenv_base
- setbck()
: data_t
- setrnd()
: fpu_rounding< T >
, fpu_rounding< long double >
, fpu_rounding< floating<> >
- sgnchg()
: eenv_base
- sgncnt()
: binary_subdivision< K >
- ShapeForeachContainer()
: ShapeForeachContainer< T >
- shared_object()
: shared_object< R >
- shift_box()
: box_rep< POL >
, interval_rep< POL >
- shift_hom()
: homography< real >
, homography_mv< real >
- sign_var()
: interval_rep< POL >
- signof()
: box_rep< POL >
- signof_det()
: box_rep< POL >
- simple_t
: Intervals< C >
- singleton()
: interval_newton< INT, CT >
- size()
: monom< C, E >
, polynomial< C, with< Rep, Ord > >
, Seq< C, R >
, data_t
, sleeve_rep< C >
, monomials< C >
, variables
, cell_mv_bernstein< C >
, cell_uv_bernstein< C >
, dynamic_exp< E >
, homography_mv< real >
, Interval< T, r >
- size_
: monomials< C >
- size_t
: bzenv< X >
- size_type
: dynamic_exp< E >
, monom< C, E >
, polynomial< C, with< Rep, Ord > >
, Seq< C, R >
, bernstein< C >
, monomials< C >
- sleeve_rep()
: sleeve_rep< C >
- sol_t
: continued_fraction_isolate< K, B >
, continued_fraction_approximate< K, B >
- solution_t
: solver< Ring, Bspline >
- Solutions
: binary_convert< K, Approximate >
- solutions()
: subdivisor< CELL, V >
- Solutions
: solver_of< C, MTH >
, solver< C, M >
, solver_of< C, UvBernsteinBinaryApproximate >
, solver_of< C, MvBernsteinBinaryApproximate >
, solver< C, ProjRd< MTH > >
, solver< C, ContFrac< Approximate > >
, solver< C, ContFrac< Isolate > >
, solver_of< C, IntervalNewton< IT, C > >
, binary_convert< K, Isolate >
, solver< C, Sleeve< V > >
- solutions_t
: IntervalNewton< INT, C >
- solve()
: solver< C, MCFapproximate >
, solver< C, ContFrac< Approximate > >
, solver< Ring, CFfirstApproximate >
, solver< C, M >
, solver< C, ProjRd< MTH > >
, solver< C, MCFisolate >
, solver< C, MCFapproximate >
, solver< Ring, CFfirstIsolate >
, solver< Ring, CFfirstApproximate >
, solver< Ring, CFfirstFloor >
, solver< Ring, CFallIsolate >
, solver< Ring, CFseparate >
, solver< Ring, CFdecide >
, continued_fraction_subdivision< K >
, solver< C, ContFrac< Approximate > >
, solver< C, ContFrac< Isolate > >
, binary_sleeve_subdivision< K >
, solver< C, Sleeve< V > >
, descartes_solver< real_t, local_method >
, solver< C, M >
, solver< C, Sleeve< V > >
, solver< Ring, CFallIsolate >
, solver< C, ContFrac< Approximate > >
- solve_bernstein()
: solver< C, ProjRd< MTH > >
, binary_sleeve_subdivision< K >
- solve_homography()
: continued_fraction_subdivision< K >
- solve_monomial()
: solver< C, ProjRd< MTH > >
- solve_positive()
: continued_fraction_subdivision< K >
- solve_system()
: solver_mv_monomial< FT, POL >
- solver()
: solver_mv_fatarcs< C >
- solver_bspline()
: solver_bspline< Real >
- solver_cffirst()
: solver_cffirst< Real, POL >
- solver_mv_fatarcs()
: solver_mv_fatarcs< C >
- solver_mv_monomial()
: solver_mv_monomial< FT, POL >
- solver_t
: IntervalNewton< INT, C >
- sort()
: Seq< C, R >
- split()
: eenv_base
, binary_subdivision< K >
, domain< C >
, binary_subdivision< K >
, descartes_solver< real_t, local_method >
- split2()
: eenv_base
- spmeval()
: eenv_base
- spmmul()
: eenv
- sqrt
: hasfunction< X >
, scalar< T >
- sstore()
: data_t
- st()
: eenv
- status
: IntervalNewton< INT, C >
- stbox_t
: solver_mv_fatarcs< C >
- str()
: eenv
, monomials< C >
, eenv
- Strategy
: solver_of< C, MvBernsteinBinaryApproximate >
, solver_of< C, IntervalNewton< IT, C > >
, solver< C, M >
, solver_of< C, MTH >
, solver_of< C, UvBernsteinBinaryApproximate >
- stride()
: eenv
- sub()
: use< operators_of, tensor::bernstein< C > >
, use< operators_of, tensor::monomials< C > >
, use< operators_of, univariate::monomials< C > >
, 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, univariate::monomials< C > >
, use< operators_of, sparse::monomial_seq< C, O, MONOM, REP > >
, 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, polynomial< C, with< Rep, Ord > > >
, use< operators_of, tensor::bernstein< C > >
, use< operators_of, tensor::monomials< C > >
, use< operators_of, sparse::dual< C, O > >
, use< operators_of, tensor::bernstein< C > >
, use< operators_of, sparse::monomial_seq< C, O, MONOM, REP > >
, use< operators_of, polynomial< C, with< Rep, Ord > > >
, use< operators_of, univariate::monomials< C > >
- subdiv_center()
: box_rep< POL >
- subdiv_point()
: box_rep< POL >
- subdivide()
: box_rep< POL >
, binary_approx
, mv_binary_approx
, box_rep< POL >
, uv_binary_approx
- subdivision()
: method< system, _strgy_, _rdslv_, _sbdrl_ >
- subdivisor()
: subdivisor< CELL, V >
- submatrix()
: box_rep< POL >
- subres_gcd()
: subresultant< PREM >
- subset()
: eenv
- sup()
: Interval< T, r >
- support()
: eenv
- swap()
: eenv
, monomials< C >
, shared_object< R >
, eenv
- sys
: solver< C, ProjRd< MTH > >
- system()
: box_rep< POL >
- system_ctrl()
: system_ctrl< V >
- system_t
: solver< C, ProjRd< MTH > >
- sz()
: eenv
, eenv_base
- sz_t
: binary_subdivision< K >
, system_ctrl< V >
, data_t
, parallel< system >
, binary_sleeve_subdivision< K >
, eenv_base
, eenv
, method< system, _strgy_, _rdslv_, _sbdrl_ >
- szs()
: eenv
, monomials< C >
, eenv
- szs_data()
: eenv
