operator!= (<complex>)
Testa a desigualdade entre dois números complexos, um ou ambos pode pertencer ao subconjunto de tipo para as partes reais e imaginários.
template<class T>
constexpr bool operator!=(
const complex<T>& Left,
const complex<T>& Right
);
template<class T>
constexpr bool operator!=(
const complex<T>& Left,
const T& Right
);
template<class T>
constexpr bool operator!=(
const T& Left,
const complex<T>& Right
);
Parâmetros
Left
Um número complexo ou um objeto do seu tipo de parâmetro a ser testado para desigualdade.Right
Um número complexo ou um objeto do seu tipo de parâmetro a ser testado para desigualdade.
Valor de retorno
true se os números não são iguais. false se os números forem iguais.
Comentários
Dois números complexos são iguais somente se suas partes reais são iguais e suas partes imaginários são iguais. Caso contrário, são diferentes.
A operação está sobrecarregada para que os testes de comparação podem ser executados sem a conversão dos dados em um formato específico.
Exemplo
// 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
Cabeçalho: < complexos >
Namespace: std