Complex(Double, Double) Konstruktor

Definition

Initialisiert eine neue Instanz der Complex-Struktur mit den angegebenen reellen und imaginären Werten.

public:
 Complex(double real, double imaginary);
public Complex (double real, double imaginary);
new System.Numerics.Complex : double * double -> System.Numerics.Complex
Public Sub New (real As Double, imaginary As Double)

Parameter

real
Double

Der reelle Teil der komplexen Zahl.

imaginary
Double

Der imaginäre Teil der komplexen Zahl.

Beispiele

Im folgenden Beispiel werden zwei komplexe Zahlen instanziiert und dann zusätzlich verwendet: Subtraktion, Multiplikation und Division.

using System;
using System.Numerics;

public class Example
{
   public static void Main()
   {
      Complex complex1 = new Complex(17.34, 12.87);
      Complex complex2 = new Complex(8.76, 5.19);

      Console.WriteLine("{0} + {1} = {2}", complex1, complex2,
                                          complex1 + complex2);
      Console.WriteLine("{0} - {1} = {2}", complex1, complex2,
                                          complex1 - complex2);
      Console.WriteLine("{0} * {1} = {2}", complex1, complex2,
                                          complex1 * complex2);
      Console.WriteLine("{0} / {1} = {2}", complex1, complex2,
                                          complex1 / complex2);
   }
}
// The example displays the following output:
//    (17.34, 12.87) + (8.76, 5.19) = (26.1, 18.06)
//    (17.34, 12.87) - (8.76, 5.19) = (8.58, 7.68)
//    (17.34, 12.87) * (8.76, 5.19) = (85.1031, 202.7358)
//    (17.34, 12.87) / (8.76, 5.19) = (2.10944241403558, 0.219405693054265)
open System.Numerics

let complex1 = Complex(17.34, 12.87)
let complex2 = Complex(8.76, 5.19)

printfn $"{complex1} + {complex2} = {complex1 + complex2}"
printfn $"{complex1} - {complex2} = {complex1 - complex2}"
printfn $"{complex1} * {complex2} = {complex1 * complex2}"
printfn $"{complex1} / {complex2} = {complex1 / complex2}"
// The example displays the following output:
//    (17.34, 12.87) + (8.76, 5.19) = (26.1, 18.06)
//    (17.34, 12.87) - (8.76, 5.19) = (8.58, 7.68)
//    (17.34, 12.87) * (8.76, 5.19) = (85.1031, 202.7358)
//    (17.34, 12.87) / (8.76, 5.19) = (2.10944241403558, 0.219405693054265)
Imports System.Numerics

Module Example
   Public Sub Main()
      Dim complex1 As New Complex(17.34, 12.87)
      Dim Complex2 As New Complex(8.76, 5.19)
      
      Console.WriteLine("{0} + {1} = {2}", complex1, complex2, 
                                          complex1 + complex2)
      Console.WriteLine("{0} - {1} = {2}", complex1, complex2, 
                                          complex1 - complex2)
      Console.WriteLine("{0} * {1} = {2}", complex1, complex2, 
                                          complex1 * complex2)
      Console.WriteLine("{0} / {1} = {2}", complex1, complex2, 
                                          complex1 / complex2)
   End Sub
End Module
' The example displays the following output:
'    (17.34, 12.87) + (8.76, 5.19) = (26.1, 18.06)
'    (17.34, 12.87) - (8.76, 5.19) = (8.58, 7.68)
'    (17.34, 12.87) * (8.76, 5.19) = (85.1031, 202.7358)
'    (17.34, 12.87) / (8.76, 5.19) = (2.10944241403558, 0.219405693054265)

Hinweise

Die real Argumente oder imaginary können an Genauigkeit verlieren, wenn es sich um Datentypen handelt, die eine explizite Umwandlung in Doubleerfordern.

Gilt für: