operator/ (<complex>)
Divide dos números complejos, uno o que puede pertenecer al subconjunto de tipo para las partes real e imaginarias.
template<class Type>
complex<Type> operator*(
const complex<Type>& _Left,
const complex<Type>& _Right
);
template<class Type>
complex<Type> operator*(
const complex<Type>& _Left,
const Type& _Right
);
template<class Type>
complex<Type> operator*(
const Type& _Left,
const complex<Type>& _Right
);
Parámetros
_Left
Un número complejo o número que es del tipo de parámetro para un número complejo que el numerador que se va a dividir por el denominador con o la operación._Right
Un número complejo o número que es del tipo de parámetro para un número complejo que el denominador que se utilizará para dividir el numerador con o la operación.
Valor devuelto
El número complejo que resulta de la división del numerador por el denominador, los valores que se especifican mediante las entradas del parámetro.
Comentarios
Se sobrecarga la operación para poder ejecutarse operaciones aritméticas simples sin conversión de datos en un formato determinado.
Ejemplo
// complex_op_div.cpp
// compile with: /EHsc
#include <complex>
#include <iostream>
int main( )
{
using namespace std;
double pi = 3.14159265359;
// Example of the first member function
// type complex<double> divided by type complex<double>
complex <double> cl1 ( polar ( 3.0 , pi / 6 ) );
complex <double> cr1 ( polar ( 2.0 , pi / 3 ) );
complex <double> cs1 = cl1 / cr1;
cout << "The left-side complex number is cl1 = " << cl1 << endl;
cout << "The right-side complex number is cr1 = " << cr1 << endl;
cout << "The quotient of the two complex numbers is: cs1 = cl1 /cr1 = "
<< cs1 << endl;
double abscs1 = abs ( cs1 );
double argcs1 = arg ( cs1 );
cout << "The modulus of cs1 is: " << abscs1 << endl;
cout << "The argument of cs1 is: "<< argcs1 << " radians, which is "
<< argcs1 * 180 / pi << " degrees." << endl << endl;
// example of the second member function
// type complex<double> divided by type double
complex <double> cl2 ( polar (3.0 , pi / 6 ) );
double cr2 =5;
complex <double> cs2 = cl2 / cr2;
cout << "The left-side complex number is cl2 = " << cl2 << endl;
cout << "The right-side complex number is cr2 = " << cr2 << endl;
cout << "The quotient of the two complex numbers is: cs2 = cl2 /cr2 = "
<< cs2 << endl;
double abscs2 = abs ( cs2 );
double argcs2 = arg ( cs2 );
cout << "The modulus of cs2 is: " << abscs2 << endl;
cout << "The argument of cs2 is: "<< argcs2 << " radians, which is "
<< argcs2 * 180 / pi << " degrees." << endl << endl;
// Example of the third member function
// type double divided by type complex<double>
double cl3 = 5;
complex <double> cr3 ( polar ( 3.0 , pi / 6 ) );
complex <double> cs3 = cl3 / cr3;
cout << "The left-side complex number is cl3 = " << cl3 << endl;
cout << "The right-side complex number is cr3 = " << cr3 << endl;
cout << "The quotient of the two complex numbers is: cs3 = cl3 /cr2 = "
<< cs3 << endl;
double abscs3 = abs ( cs3 );
double argcs3 = arg ( cs3 );
cout << "The modulus of cs3 is: " << abscs3 << endl;
cout << "The argument of cs3 is: "<< argcs3 << " radians, which is "
<< argcs3 * 180 / pi << " degrees." << endl << endl;
}
Requisitos
encabezado: <complejo>
espacio de nombres: std