Exemplos de AK::approximate_absolute_1_object em C++ (Cpp)

Linguagem de programação: C++ (Cpp)

Classe / Tipo: AK

Método / Função: approximate_absolute_1_object

Exemplos em hotexamples.com: 1

AK::approximate_absolute_1_object em C++ (Cpp) - 1 exemplos encontrados. Esses são os exemplos do mundo real mais bem avaliados de AK::approximate_absolute_1_object em C++ (Cpp) extraídos de projetos de código aberto. Você pode avaliar os exemplos para nos ajudar a melhorar a qualidade deles.

Métodos Frequentes

Exibir Ocultar

construct_algebraic_real_1_object(4)

solve_1_object(2)

approximate_absolute_1_object(1)

approximate_relative_1_object(1)

bound_between_1_object(1)

compare_1_object(1)

compute_polynomial_1_object(1)

getImage(1)

getPosition(1)

getScale(1)

is_zero_at_1_object(1)

isolate_1_object(1)

sign_at_1_object(1)

Métodos Frequentes

construct_algebraic_real_1_object (4)

solve_1_object (2)

approximate_absolute_1_object (1)

approximate_relative_1_object (1)

bound_between_1_object (1)

compare_1_object (1)

compute_polynomial_1_object (1)

getImage (1)

getPosition (1)

getScale (1)

Métodos Frequentes

is_zero_at_1_object (1)

isolate_1_object (1)

sign_at_1_object (1)

Exemplo n.º 1

0

Exibir arquivo

Arquivo: Compare_1.cpp Projeto: logtcn/cgal

int main() { AK ak; AK::Construct_algebraic_real_1 construct_algebraic_real_1 = ak.construct_algebraic_real_1_object(); Polynomial_1 x = CGAL::shift(AK::Polynomial_1(1),1); // the monomial x Algebraic_real_1 a = construct_algebraic_real_1(x*x-2,1); // sqrt(2) Algebraic_real_1 b = construct_algebraic_real_1(x*x-3,1); // sqrt(3) // Algebraic_real_1 is RealEmbeddable (just some functions:) std::cout << "sign of a is : " << CGAL::sign(a) << "\n"; std::cout << "double approximation of a is : " << CGAL::to_double(a) << "\n"; std::cout << "double approximation of b is : " << CGAL::to_double(b) << "\n"; std::cout << "double lower bound of a : " << CGAL::to_interval(a).first << "\n"; std::cout << "double upper bound of a : " << CGAL::to_interval(a).second << "\n"; std::cout << "LessThanComparable (a<b) : " << (a<b) << "\n\n"; // use compare_1 with int, Bound, Coefficient, Algebraic_real_1 AK::Compare_1 compare_1 = ak.compare_1_object(); std::cout << " compare with an int : " << compare_1(a ,int(2)) << "\n"; std::cout << " compare with an Coefficient : " << compare_1(a ,Coefficient(2)) << "\n"; std::cout << " compare with an Bound : " << compare_1(a ,Bound(2)) << "\n"; std::cout << " compare with another Algebraic_real_1: " << compare_1(a ,b) << "\n\n"; // get a value between two roots AK::Bound_between_1 bound_between_1 = ak.bound_between_1_object(); std::cout << " value between sqrt(2) and sqrt(3) " << bound_between_1(a,b) << "\n"; std::cout << " is larger than sqrt(2) " << compare_1(bound_between_1(a,b),a) << "\n"; std::cout << " is less than sqrt(3) " << compare_1(bound_between_1(a,b),b) << "\n\n"; // approximate with relative precision AK::Approximate_relative_1 approx_r = ak.approximate_relative_1_object(); std::cout << " lower bound of a with at least 100 bits: "<< approx_r(a,100).first << "\n"; std::cout << " upper bound of a with at least 100 bits: "<< approx_r(a,100).second << "\n\n"; // approximate with absolute error AK::Approximate_absolute_1 approx_a = ak.approximate_absolute_1_object(); std::cout << " lower bound of b with error less than 2^-100: "<< approx_a(b,100).first << "\n"; std::cout << " upper bound of b with error less than 2^-100: "<< approx_a(b,100).second << "\n\n"; return 0; }