BigInteger.Remainder(BigInteger, BigInteger) Metode
Definisi
Penting
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Melakukan pembagian bilangan bulat pada dua BigInteger nilai dan mengembalikan sisanya.
public:
static System::Numerics::BigInteger Remainder(System::Numerics::BigInteger dividend, System::Numerics::BigInteger divisor);
public static System.Numerics.BigInteger Remainder (System.Numerics.BigInteger dividend, System.Numerics.BigInteger divisor);
static member Remainder : System.Numerics.BigInteger * System.Numerics.BigInteger -> System.Numerics.BigInteger
Public Shared Function Remainder (dividend As BigInteger, divisor As BigInteger) As BigInteger
Parameter
- dividend
- BigInteger
Nilai yang akan dibagi.
- divisor
- BigInteger
Nilai untuk dibagi.
Mengembalikan
Sisanya setelah dibagi dengan dividend
divisor
.
Pengecualian
divisor
adalah 0 (nol).
Contoh
Contoh berikut membandingkan sisa dari DivRem metode dengan sisa yang dikembalikan oleh Remainder metode untuk menetapkan bahwa dua metode menghitung sisa yang identik.
using System;
using System.Numerics;
public class Example
{
public static void Main()
{
BigInteger dividend1 = BigInteger.Pow(Int64.MaxValue, 3);
BigInteger dividend2 = dividend1 * BigInteger.MinusOne;
BigInteger divisor1 = Int32.MaxValue;
BigInteger divisor2 = divisor1 * BigInteger.MinusOne;
BigInteger remainder1, remainder2;
BigInteger divRem1 = BigInteger.Zero;
BigInteger divRem2 = BigInteger.Zero;
remainder1 = BigInteger.Remainder(dividend1, divisor1);
remainder2 = BigInteger.Remainder(dividend2, divisor1);
BigInteger.DivRem(dividend1, divisor1, out divRem1);
Console.WriteLine("BigInteger.Remainder({0}, {1}) = {2}",
dividend1, divisor1, remainder1);
Console.WriteLine("BigInteger.DivRem({0}, {1}) = {2}",
dividend1, divisor1, divRem1);
if (remainder1.Equals(divRem1))
Console.WriteLine("The remainders are equal.\n");
BigInteger.DivRem(dividend2, divisor2, out divRem2);
Console.WriteLine("BigInteger.Remainder({0}, {1}) = {2}",
dividend2, divisor2, remainder2);
Console.WriteLine("BigInteger.DivRem({0}, {1}) = {2}",
dividend2, divisor2, divRem2);
if (remainder2.Equals(divRem2))
Console.WriteLine("The remainders are equal.\n");
}
}
// The example displays the following output:
// BigInteger.Remainder(784637716923335095224261902710254454442933591094742482943, 2147483647) = 1
// BigInteger.DivRem(784637716923335095224261902710254454442933591094742482943, 2147483647) = 1
// The remainders are equal.
//
// BigInteger.Remainder(-784637716923335095224261902710254454442933591094742482943, -2147483647) = -1
// BigInteger.DivRem(-784637716923335095224261902710254454442933591094742482943, -2147483647) = -1
// The remainders are equal.
open System
open System.Numerics
let dividend1 = BigInteger.Pow(Int64.MaxValue, 3)
let dividend2 = dividend1 * BigInteger.MinusOne
let divisor1 = bigint Int32.MaxValue
let divisor2 = divisor1 * BigInteger.MinusOne
let remainder1 = BigInteger.Remainder(dividend1, divisor1)
let remainder2 = BigInteger.Remainder(dividend2, divisor1)
let mutable divRem1 = BigInteger.Zero
let mutable divRem2 = BigInteger.Zero
BigInteger.DivRem(dividend1, divisor1, &divRem1) |> ignore
printfn $"BigInteger.Remainder({dividend1}, {divisor1}) = {remainder1}"
printfn $"BigInteger.DivRem({dividend1}, {divisor1}) = {divRem1}"
if remainder1.Equals divRem1 then
printfn $"The remainders are equal.\n"
BigInteger.DivRem(dividend2, divisor2, &divRem2) |> ignore
printfn $"BigInteger.Remainder({dividend2}, {divisor2}) = {remainder2}"
printfn $"BigInteger.DivRem({dividend2}, {divisor2}) = {divRem2}"
if remainder2.Equals divRem2 then
printfn $"The remainders are equal.\n"
// The example displays the following output:
// BigInteger.Remainder(784637716923335095224261902710254454442933591094742482943, 2147483647) = 1
// BigInteger.DivRem(784637716923335095224261902710254454442933591094742482943, 2147483647) = 1
// The remainders are equal.
//
// BigInteger.Remainder(-784637716923335095224261902710254454442933591094742482943, -2147483647) = -1
// BigInteger.DivRem(-784637716923335095224261902710254454442933591094742482943, -2147483647) = -1
// The remainders are equal.
Imports System.Numerics
Module Example
Public Sub Main()
Dim dividend1 As BigInteger = BigInteger.Pow(Int64.MaxValue, 3)
Dim dividend2 As BigInteger = dividend1 * BigInteger.MinusOne
Dim divisor1 As BigInteger = Int32.MaxValue
Dim divisor2 As BigInteger = divisor1 * BigInteger.MinusOne
Dim remainder1, remainder2 As BigInteger
Dim divRem1 As BigInteger = BigInteger.Zero
Dim divRem2 As BigInteger = BigInteger.Zero
remainder1 = BigInteger.Remainder(dividend1, divisor1)
remainder2 = BigInteger.Remainder(dividend2, divisor1)
BigInteger.DivRem(dividend1, divisor1, divRem1)
Console.WriteLine("BigInteger.Remainder({0}, {1}) = {2}",
dividend1, divisor1, remainder1)
Console.WriteLine("BigInteger.DivRem({0}, {1}) = {2}",
dividend1, divisor1, divRem1)
If remainder1.Equals(divRem1) Then Console.WriteLine("The remainders are equal.")
Console.WriteLine()
BigInteger.DivRem(dividend2, divisor2, divRem2)
Console.WriteLine("BigInteger.Remainder({0}, {1}) = {2}",
dividend2, divisor2, remainder2)
Console.WriteLine("BigInteger.DivRem({0}, {1}) = {2}",
dividend2, divisor2, divRem2)
If remainder2.Equals(divRem2) Then Console.WriteLine("The remainders are equal.")
Console.WriteLine()
End Sub
End Module
' The example displays the following output:
' BigInteger.Remainder(784637716923335095224261902710254454442933591094742482943, 2147483647) = 1
' BigInteger.DivRem(784637716923335095224261902710254454442933591094742482943, 2147483647) = 1
' The remainders are equal.
'
' BigInteger.Remainder(-784637716923335095224261902710254454442933591094742482943, -2147483647) = -1
' BigInteger.DivRem(-784637716923335095224261902710254454442933591094742482943, -2147483647) = -1
' The remainders are equal.
Keterangan
Tanda sisanya adalah tanda dividend
parameter .
Metode Remainder ini diimplementasikan untuk bahasa yang tidak mendukung operator kustom. Perilakunya identik dengan pembagian menggunakan operator modulus.
Jika perlu, metode secara otomatis melakukan konversi implisit dari jenis integral lainnya ke BigInteger objek sebelum melakukan operasi modulus.