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Decimal.Remainder(Decimal, Decimal) Methode

Definition

Berechnet den Rest der Division zweier Decimal-Werte.

public:
 static System::Decimal Remainder(System::Decimal d1, System::Decimal d2);
public static decimal Remainder (decimal d1, decimal d2);
static member Remainder : decimal * decimal -> decimal
Public Shared Function Remainder (d1 As Decimal, d2 As Decimal) As Decimal

Parameter

d1
Decimal

Der Dividend.

d2
Decimal

Der Divisor.

Gibt zurück

Der Rest aus der Division von d1 durch d2.

Ausnahmen

d2 ist 0 (null).

Der Rückgabewert ist kleiner als Decimal.MinValue oder größer als Decimal.MaxValue.

Beispiele

Im folgenden Beispiel wird die Remainder -Methode verwendet, um den Rest in einer Reihe von Divisionsvorgängen zu berechnen.

using System;

public class Example
{
    public static void Main()
    {
        // Create parallel arrays of Decimals to use as the dividend and divisor.
        Decimal[] dividends = { 79m, 1000m, -1000m, 123m, 1234567800000m,
                                1234.0123m };
        Decimal[] divisors = { 11m, 7m, 7m, .00123m, 0.12345678m, 1234.5678m };

        for (int ctr = 0; ctr < dividends.Length; ctr++)
        {
           Decimal dividend = dividends[ctr];
           Decimal divisor = divisors[ctr];
           Console.WriteLine("{0:N3} / {1:N3} = {2:N3} Remainder {3:N3}", dividend,
                             divisor, Decimal.Divide(dividend, divisor),
                             Decimal.Remainder(dividend, divisor));
        }
    }
}
// The example displays the following output:
//       79.000 / 11.000 = 7.182 Remainder 2.000
//       1,000.000 / 7.000 = 142.857 Remainder 6.000
//       -1,000.000 / 7.000 = -142.857 Remainder -6.000
//       123.000 / 0.001 = 100,000.000 Remainder 0.000
//       1,234,567,800,000.000 / 0.123 = 10,000,000,000,000.000 Remainder 0.000
//       1,234.012 / 1,234.568 = 1.000 Remainder 1,234.012
open System

// Create parallel lists of Decimals to use as the dividend and divisor.
let dividends = 
    [ 79m; 1000m; -1000m; 123m; 1234567800000m; 1234.0123m ]
let divisors =
    [ 11m; 7m; 7m; 0.00123m; 0.12345678m; 1234.5678m ]

for i = 0 to dividends.Length - 1 do
    let dividend = dividends[i]
    let divisor = divisors[i]
    printfn $"{dividend:N3} / {divisor:N3} = {Decimal.Divide(dividend, divisor):N3} Remainder {Decimal.Remainder(dividend, divisor):N3}"

// The example displays the following output:
//       79.000 / 11.000 = 7.182 Remainder 2.000
//       1,000.000 / 7.000 = 142.857 Remainder 6.000
//       -1,000.000 / 7.000 = -142.857 Remainder -6.000
//       123.000 / 0.001 = 100,000.000 Remainder 0.000
//       1,234,567,800,000.000 / 0.123 = 10,000,000,000,000.000 Remainder 0.000
//       1,234.012 / 1,234.568 = 1.000 Remainder 1,234.012
Module Example
    Sub Main( )
        ' Create parallel arrays of Decimals to use as the dividend and divisor.
        Dim dividends() As Decimal = { 79d, 1000d, -1000d, 123d, 1234567800000d,
                                       1234.0123d }
        Dim divisors() As Decimal = { 11d, 7d, 7d, .00123d, 0.12345678d,
                                      1234.5678d }
        
        For ctr As Integer = 0 To dividends.Length - 1
           Dim dividend As Decimal = dividends(ctr)
           Dim divisor As Decimal = divisors(ctr)
           Console.WriteLine("{0:N3} / {1:N3} = {2:N3} Remainder {3:N3}", dividend,
                             divisor, Decimal.Divide(dividend, divisor),
                             Decimal.Remainder(dividend, divisor)) 
        Next
    End Sub
End Module 
' The example displays the following output:
'       79.000 / 11.000 = 7.182 Remainder 2.000
'       1,000.000 / 7.000 = 142.857 Remainder 6.000
'       -1,000.000 / 7.000 = -142.857 Remainder -6.000
'       123.000 / 0.001 = 100,000.000 Remainder 0.000
'       1,234,567,800,000.000 / 0.123 = 10,000,000,000,000.000 Remainder 0.000
'       1,234.012 / 1,234.568 = 1.000 Remainder 1,234.012

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