Decimal.Remainder(Decimal, Decimal) Método

Definição

Calcula o resto após dividir dois valores Decimal.

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

Parâmetros

d1
Decimal

O dividendo.

d2
Decimal

O divisor.

Retornos

O resto após dividir d1 por d2.

Exceções

d2 é zero.

O valor retornado é menor que Decimal.MinValue ou maior que Decimal.MaxValue.

Exemplos

O exemplo a seguir usa o Remainder método para calcular o restante em uma série de operações de divisão.

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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