operator!= (<complex>)
Comprueba la desigualdad entre dos números complejos, uno o que puede pertenecer al subconjunto de tipo para las partes real e imaginarias.
template<class Type>
bool operator!=(
const complex<Type>& _Left,
const complex<Type>& _Right
);
template<class Type>
bool operator!=(
const complex<Type>& _Left,
const Type& _Right
);
template<class Type>
bool operator!=(
const Type& _Left,
const complex<Type>& _Right
);
Parámetros
_Left
Un número complejo o un objeto del tipo de parámetro que se va a probar para la desigualdad._Right
Un número complejo o un objeto del tipo de parámetro que se va a probar para la desigualdad.
Valor devuelto
TRUE si los números no son iguales; Falso si los números son iguales.
Comentarios
Dos números complejos son iguales si y solo si son sus partes reales igual y sus elementos imaginarias son iguales.De lo contrario, son desiguales.
Se sobrecarga la operación para poder ejecutar pruebas de comparación sin conversión de datos en un formato determinado.
Ejemplo
// complex_op_NE.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> compared with type complex<double>
complex <double> cl1 ( polar (3.0 , pi / 6 ) );
complex <double> cr1a ( polar (3.0 , pi /6 ) );
complex <double> cr1b ( polar (2.0 , pi / 3 ) );
cout << "The left-side complex number is cl1 = " << cl1 << endl;
cout << "The 1st right-side complex number is cr1a = " << cr1a << endl;
cout << "The 2nd right-side complex number is cr1b = " << cr1b << endl;
if ( cl1 != cr1a )
cout << "The complex numbers cl1 & cr1a are not equal." << endl;
else
cout << "The complex numbers cl1 & cr1a are equal." << endl;
if ( cl1 != cr1b )
cout << "The complex numbers cl1 & cr1b are not equal." << endl;
else
cout << "The complex numbers cl1 & cr1b are equal." << endl;
cout << endl;
// Example of the second member function
// type complex<int> compared with type int
complex <int> cl2a ( 3 , 4 );
complex <int> cl2b ( 5 ,0 );
int cr2a =3;
int cr2b =5;
cout << "The 1st left-side complex number is cl2a = " << cl2a << endl;
cout << "The 1st right-side complex number is cr2a = " << cr2a << endl;
if ( cl2a != cr2a )
cout << "The complex numbers cl2a & cr2a are not equal." << endl;
else
cout << "The complex numbers cl2a & cr2a are equal." << endl;
cout << "The 2nd left-side complex number is cl2b = " << cl2b << endl;
cout << "The 2nd right-side complex number is cr2b = " << cr2b << endl;
if ( cl2b != cr2b )
cout << "The complex numbers cl2b & cr2b are not equal." << endl;
else
cout << "The complex numbers cl2b & cr2b are equal." << endl;
cout << endl;
// Example of the third member function
// type double compared with type complex<double>
double cl3a =3;
double cl3b =5;
complex <double> cr3a ( 3 , 4 );
complex <double> cr3b ( 5 ,0 );
cout << "The 1st left-side complex number is cl3a = " << cl3a << endl;
cout << "The 1st right-side complex number is cr3a = " << cr3a << endl;
if ( cl3a != cr3a )
cout << "The complex numbers cl3a & cr3a are not equal." << endl;
else
cout << "The complex numbers cl3a & cr3a are equal." << endl;
cout << "The 2nd left-side complex number is cl3b = " << cl3b << endl;
cout << "The 2nd right-side complex number is cr3b = " << cr3b << endl;
if ( cl3b != cr3b )
cout << "The complex numbers cl3b & cr3b are not equal." << endl;
else
cout << "The complex numbers cl3b & cr3b are equal." << endl;
cout << endl;
}
Requisitos
encabezado: <complejo>
espacio de nombres: std