BigInteger.Divide(BigInteger, BigInteger) Methode
Definition
Wichtig
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Dividiert einen BigInteger Wert durch einen anderen und gibt das Ergebnis zurück.
public:
static System::Numerics::BigInteger Divide(System::Numerics::BigInteger dividend, System::Numerics::BigInteger divisor);public static System.Numerics.BigInteger Divide(System.Numerics.BigInteger dividend, System.Numerics.BigInteger divisor);static member Divide : System.Numerics.BigInteger * System.Numerics.BigInteger -> System.Numerics.BigIntegerPublic Shared Function Divide (dividend As BigInteger, divisor As BigInteger) As BigIntegerParameter
- dividend
- BigInteger
Der wert, der geteilt werden soll.
- divisor
- BigInteger
Der Wert, der dividiert werden soll.
Gibt zurück
Der Quotient der Division.
Ausnahmen
divisor ist 0 (Null).
Beispiele
Im folgenden Beispiel wird ein Array mit BigInteger Werten erstellt. Anschließend wird jedes Element als Quotient in einem Abteilungsvorgang verwendet, der die Divide Methode, den Divisionsoperator (/) und die DivRem Methode verwendet.
using System;
using System.Numerics;
public class Example
{
public static void Main()
{
BigInteger divisor = BigInteger.Pow(Int64.MaxValue, 2);
BigInteger[] dividends = { BigInteger.Multiply((BigInteger) Single.MaxValue, 2),
BigInteger.Parse("90612345123875509091827560007100099"),
BigInteger.One,
BigInteger.Multiply(Int32.MaxValue, Int64.MaxValue),
divisor + BigInteger.One };
// Divide each dividend by divisor in three different ways.
foreach (BigInteger dividend in dividends)
{
BigInteger quotient;
BigInteger remainder = 0;
Console.WriteLine("Dividend: {0:N0}", dividend);
Console.WriteLine("Divisor: {0:N0}", divisor);
Console.WriteLine("Results:");
Console.WriteLine(" Using Divide method: {0:N0}",
BigInteger.Divide(dividend, divisor));
Console.WriteLine(" Using Division operator: {0:N0}",
dividend / divisor);
quotient = BigInteger.DivRem(dividend, divisor, out remainder);
Console.WriteLine(" Using DivRem method: {0:N0}, remainder {1:N0}",
quotient, remainder);
Console.WriteLine();
}
}
}
// The example displays the following output:
// Dividend: 680,564,693,277,057,719,623,408,366,969,033,850,880
// Divisor: 85,070,591,730,234,615,847,396,907,784,232,501,249
// Results:
// Using Divide method: 7
// Using Division operator: 7
// Using DivRem method: 7, remainder 85,070,551,165,415,408,691,630,012,479,406,342,137
//
// Dividend: 90,612,345,123,875,509,091,827,560,007,100,099
// Divisor: 85,070,591,730,234,615,847,396,907,784,232,501,249
// Results:
// Using Divide method: 0
// Using Division operator: 0
// Using DivRem method: 0, remainder 90,612,345,123,875,509,091,827,560,007,100,099
//
// Dividend: 1
// Divisor: 85,070,591,730,234,615,847,396,907,784,232,501,249
// Results:
// Using Divide method: 0
// Using Division operator: 0
// Using DivRem method: 0, remainder 1
//
// Dividend: 19,807,040,619,342,712,359,383,728,129
// Divisor: 85,070,591,730,234,615,847,396,907,784,232,501,249
// Results:
// Using Divide method: 0
// Using Division operator: 0
// Using DivRem method: 0, remainder 19,807,040,619,342,712,359,383,728,129
//
// Dividend: 85,070,591,730,234,615,847,396,907,784,232,501,250
// Divisor: 85,070,591,730,234,615,847,396,907,784,232,501,249
// Results:
// Using Divide method: 1
// Using Division operator: 1
// Using DivRem method: 1, remainder 1
open System
open System.Numerics
let divisor = BigInteger.Pow(Int64.MaxValue, 2)
let dividends =
[| BigInteger.Multiply(bigint Single.MaxValue, 2)
BigInteger.Parse "90612345123875509091827560007100099"
BigInteger.One
BigInteger.Multiply(Int32.MaxValue, Int64.MaxValue)
divisor + BigInteger.One |]
// Divide each dividend by divisor in three different ways.
for dividend in dividends do
let mutable quotient = 0I
let mutable remainder = 0I
printfn $"Dividend: {dividend:N0}"
printfn $"Divisor: {divisor:N0}"
printfn "Results:"
printfn $" Using Divide method: {BigInteger.Divide(dividend, divisor):N0}"
printfn $" Using Division operator: {dividend / divisor:N0}"
quotient <- BigInteger.DivRem(dividend, divisor, &remainder)
printfn $" Using DivRem method: {quotient:N0}, remainder {remainder:N0}"
printfn ""
// The example displays the following output:
// Dividend: 680,564,693,277,057,719,623,408,366,969,033,850,880
// Divisor: 85,070,591,730,234,615,847,396,907,784,232,501,249
// Results:
// Using Divide method: 7
// Using Division operator: 7
// Using DivRem method: 7, remainder 85,070,551,165,415,408,691,630,012,479,406,342,137
//
// Dividend: 90,612,345,123,875,509,091,827,560,007,100,099
// Divisor: 85,070,591,730,234,615,847,396,907,784,232,501,249
// Results:
// Using Divide method: 0
// Using Division operator: 0
// Using DivRem method: 0, remainder 90,612,345,123,875,509,091,827,560,007,100,099
//
// Dividend: 1
// Divisor: 85,070,591,730,234,615,847,396,907,784,232,501,249
// Results:
// Using Divide method: 0
// Using Division operator: 0
// Using DivRem method: 0, remainder 1
//
// Dividend: 19,807,040,619,342,712,359,383,728,129
// Divisor: 85,070,591,730,234,615,847,396,907,784,232,501,249
// Results:
// Using Divide method: 0
// Using Division operator: 0
// Using DivRem method: 0, remainder 19,807,040,619,342,712,359,383,728,129
//
// Dividend: 85,070,591,730,234,615,847,396,907,784,232,501,250
// Divisor: 85,070,591,730,234,615,847,396,907,784,232,501,249
// Results:
// Using Divide method: 1
// Using Division operator: 1
// Using DivRem method: 1, remainder 1
Imports System.Numerics
Module Example
Public Sub Main()
Dim divisor As BigInteger = BigInteger.Pow(Int64.MaxValue, 2)
Dim dividends() As BigInteger = { BigInteger.Multiply(CType(Single.MaxValue, BigInteger), 2),
BigInteger.Parse("90612345123875509091827560007100099"),
BigInteger.One,
BigInteger.Multiply(Int32.MaxValue, Int64.MaxValue),
divisor + BigInteger.One }
' Divide each dividend by divisor in three different ways.
For Each dividend As BigInteger In dividends
Dim quotient As BigInteger
Dim remainder As BigInteger = 0
' Divide using division operator.
Console.WriteLine("Dividend: {0:N0}", dividend)
Console.WriteLine("Divisor: {0:N0}", divisor)
Console.WriteLine("Results:")
Console.WriteLine(" Using Divide method: {0:N0}",
BigInteger.Divide(dividend, divisor))
Console.WriteLine(" Using Division operator: {0:N0}",
dividend / divisor)
quotient = BigInteger.DivRem(dividend, divisor, remainder)
Console.WriteLine(" Using DivRem method: {0:N0}, remainder {1:N0}",
quotient, remainder)
Console.WriteLine()
Next
End Sub
End Module
' The example displays the following output:
' Dividend: 680,564,693,277,057,719,623,408,366,969,033,850,880
' Divisor: 85,070,591,730,234,615,847,396,907,784,232,501,249
' Results:
' Using Divide method: 7
' Using Division operator: 7
' Using DivRem method: 7, remainder 85,070,551,165,415,408,691,630,012,479,406,342,137
'
' Dividend: 90,612,345,123,875,509,091,827,560,007,100,099
' Divisor: 85,070,591,730,234,615,847,396,907,784,232,501,249
' Results:
' Using Divide method: 0
' Using Division operator: 0
' Using DivRem method: 0, remainder 90,612,345,123,875,509,091,827,560,007,100,099
'
' Dividend: 1
' Divisor: 85,070,591,730,234,615,847,396,907,784,232,501,249
' Results:
' Using Divide method: 0
' Using Division operator: 0
' Using DivRem method: 0, remainder 1
'
' Dividend: 19,807,040,619,342,712,359,383,728,129
' Divisor: 85,070,591,730,234,615,847,396,907,784,232,501,249
' Results:
' Using Divide method: 0
' Using Division operator: 0
' Using DivRem method: 0, remainder 19,807,040,619,342,712,359,383,728,129
'
' Dividend: 85,070,591,730,234,615,847,396,907,784,232,501,250
' Divisor: 85,070,591,730,234,615,847,396,907,784,232,501,249
' Results:
' Using Divide method: 1
' Using Division operator: 1
' Using DivRem method: 1, remainder 1
Hinweise
Die Divide Methode führt eine ganzzahlige Division aus. Alle restlichen Elemente, die aus der Division resultieren, werden verworfen. Rufen Sie die Methode auf, um eine ganzzahlige Division durchzuführen, während der DivRem Rest beibehalten wird. Rufen Sie die Remainder Methode auf, um nur den Rest abzurufen.
Die Divide Methode kann von Sprachen verwendet werden, die die Operatorüberladung nicht unterstützen. Das Verhalten ist identisch mit der Division mit dem Abteilungsoperator.
