#include <basix/int.hpp>#include <basix/vector.hpp>#include <basix/port.hpp>#include <basix/literal.hpp>#include <numerix/integer.hpp>#include <numerix/modular.hpp>#include <numerix/modular_integer.hpp>#include <numerix/rational.hpp>#include <numerix/floating.hpp>#include <numerix/kernel.hpp>#include <realroot/Interval_glue.hpp>#include <realroot/polynomial.hpp>#include <realroot/polynomial_glue.hpp>#include <realroot/ring_sparse_glue.hpp>#include <realroot/ring_monomial_tensor_glue.hpp>#include <realroot/solver_univariate_glue.hpp>#include <basix/glue.hpp>Go to the source code of this file.
| #define gen_literal_access | ( | f, | |||
| v | ) | access (as<generic> (f), v) |
Definition at line 23 of file glue_solver_univariate_integer.cpp.
| #define gen_literal_apply | ( | f, | |||
| v | ) | gen (as<generic> (f), v) |
Definition at line 22 of file glue_solver_univariate_integer.cpp.
| #define int_literal | ( | x | ) | as_int (as_string (x)) |
Definition at line 20 of file glue_solver_univariate_integer.cpp.
| #define is_generic_literal is<literal> |
Definition at line 21 of file glue_solver_univariate_integer.cpp.
| #define set_of_bigfloat set_of(bigfloat) |
Definition at line 28 of file glue_solver_univariate_integer.cpp.
| #define set_of_complex_bigfloat set_of(complex_bigfloat) |
Definition at line 29 of file glue_solver_univariate_integer.cpp.
| #define set_of_double set_of(double) |
Definition at line 25 of file glue_solver_univariate_integer.cpp.
| #define set_of_generic set_of(generic) |
Definition at line 24 of file glue_solver_univariate_integer.cpp.
| #define set_of_integer set_of(integer) |
Definition at line 26 of file glue_solver_univariate_integer.cpp.
| #define set_of_rational set_of(rational) |
Definition at line 27 of file glue_solver_univariate_integer.cpp.
1.6.1