ThreadPool.GetMaxThreads(Int32, Int32) Metode
Definisi
Penting
Beberapa informasi terkait produk prarilis yang dapat diubah secara signifikan sebelum dirilis. Microsoft tidak memberikan jaminan, tersirat maupun tersurat, sehubungan dengan informasi yang diberikan di sini.
Mengambil jumlah permintaan ke kumpulan utas yang dapat aktif secara bersamaan. Semua permintaan di atas jumlah tersebut tetap diantrekan hingga utas kumpulan utas tersedia.
public:
static void GetMaxThreads([Runtime::InteropServices::Out] int % workerThreads, [Runtime::InteropServices::Out] int % completionPortThreads);
public static void GetMaxThreads(out int workerThreads, out int completionPortThreads);
static member GetMaxThreads : int * int -> unit
Public Shared Sub GetMaxThreads (ByRef workerThreads As Integer, ByRef completionPortThreads As Integer)
Parameter
- workerThreads
- Int32
Jumlah maksimum utas pekerja di kumpulan utas.
- completionPortThreads
- Int32
Jumlah maksimum utas I/O asinkron di kumpulan utas.
Contoh
Contoh kode berikut menunjukkan cara mengambil hitungan jumlah maksimum dan jumlah utas yang tersedia di kumpulan utas. Item kerja diantrekan yang digunakan FileStream untuk menulis secara asinkron ke dua file. Metode panggilan balik diberi waktu untuk tumpang tindih. Utas pekerja menangani item kerja dan, tergantung pada kecepatan dan jumlah prosesor di komputer, satu atau dua utas port penyelesaian menangani operasi tulis.
using System;
using System.IO;
using System.Security.Permissions;
using System.Threading;
class Test
{
static void Main()
{
AutoResetEvent mainEvent = new AutoResetEvent(false);
int workerThreads;
int portThreads;
ThreadPool.GetMaxThreads(out workerThreads, out portThreads);
Console.WriteLine("\nMaximum worker threads: \t{0}" +
"\nMaximum completion port threads: {1}",
workerThreads, portThreads);
ThreadPool.GetAvailableThreads(out workerThreads,
out portThreads);
Console.WriteLine("\nAvailable worker threads: \t{0}" +
"\nAvailable completion port threads: {1}\n",
workerThreads, portThreads);
ThreadPool.QueueUserWorkItem(new
WaitCallback(ThreadPoolTest.WorkItemMethod), mainEvent);
// Since ThreadPool threads are background threads,
// wait for the work item to signal before ending Main.
mainEvent.WaitOne(5000, false);
}
}
class ThreadPoolTest
{
// Maintains state information to be passed to EndWriteCallback.
// This information allows the callback to end the asynchronous
// write operation and signal when it is finished.
class State
{
public FileStream fStream;
public AutoResetEvent autoEvent;
public State(FileStream fStream, AutoResetEvent autoEvent)
{
this.fStream = fStream;
this.autoEvent = autoEvent;
}
}
ThreadPoolTest() {}
public static void WorkItemMethod(object mainEvent)
{
Console.WriteLine("\nStarting WorkItem.\n");
AutoResetEvent autoEvent = new AutoResetEvent(false);
// Create some data.
const int ArraySize = 10000;
const int BufferSize = 1000;
byte[] byteArray = new Byte[ArraySize];
new Random().NextBytes(byteArray);
// Create two files and two State objects.
FileStream fileWriter1 =
new FileStream(@"C:\Test1@##.dat", FileMode.Create,
FileAccess.ReadWrite, FileShare.ReadWrite,
BufferSize, true);
FileStream fileWriter2 =
new FileStream(@"C:\Test2@##.dat", FileMode.Create,
FileAccess.ReadWrite, FileShare.ReadWrite,
BufferSize, true);
State stateInfo1 = new State(fileWriter1, autoEvent);
State stateInfo2 = new State(fileWriter2, autoEvent);
// Asynchronously write to the files.
fileWriter1.BeginWrite(byteArray, 0, byteArray.Length,
new AsyncCallback(EndWriteCallback), stateInfo1);
fileWriter2.BeginWrite(byteArray, 0, byteArray.Length,
new AsyncCallback(EndWriteCallback), stateInfo2);
// Wait for the callbacks to signal.
autoEvent.WaitOne();
autoEvent.WaitOne();
fileWriter1.Close();
fileWriter2.Close();
Console.WriteLine("\nEnding WorkItem.\n");
// Signal Main that the work item is finished.
((AutoResetEvent)mainEvent).Set();
}
static void EndWriteCallback(IAsyncResult asyncResult)
{
Console.WriteLine("Starting EndWriteCallback.");
State stateInfo = (State)asyncResult.AsyncState;
int workerThreads;
int portThreads;
try
{
ThreadPool.GetAvailableThreads(out workerThreads,
out portThreads);
Console.WriteLine("\nAvailable worker threads: \t{0}" +
"\nAvailable completion port threads: {1}\n",
workerThreads, portThreads);
stateInfo.fStream.EndWrite(asyncResult);
// Sleep so the other thread has a chance to run
// before the current thread ends.
Thread.Sleep(1500);
}
finally
{
// Signal that the current thread is finished.
stateInfo.autoEvent.Set();
Console.WriteLine("Ending EndWriteCallback.");
}
}
}
Imports System.IO
Imports System.Security.Permissions
Imports System.Threading
Public Class Example
Shared Sub Main()
Dim mainEvent As New AutoResetEvent(False)
Dim workerThreads As Integer
Dim portThreads As Integer
ThreadPool.GetMaxThreads(workerThreads, portThreads)
Console.WriteLine(vbCrLf & "Maximum worker threads: " & _
vbTab & "{0}" & vbCrLf & "Maximum completion port " & _
"threads: {1}", workerThreads, portThreads)
ThreadPool.GetAvailableThreads(workerThreads, portThreads)
Console.WriteLine(vbCrLf & "Available worker threads: " & _
vbTab & "{0}" & vbCrLf & "Available completion port " & _
"threads: {1}" & vbCrLf, workerThreads, portThreads)
ThreadPool.QueueUserWorkItem(AddressOf _
ThreadPoolTest.WorkItemMethod, mainEvent)
' Since ThreadPool threads are background threads,
' wait for the work item to signal before ending Main.
mainEvent.WaitOne(5000, False)
End Sub
End Class
Public Class ThreadPoolTest
' Maintains state information to be passed to EndWriteCallback.
' This information allows the callback to end the asynchronous
' write operation and signal when it is finished.
Class State
Public fStream As FileStream
Public autoEvent As AutoResetEvent
Public Sub New(aFileStream As FileStream, anEvent As AutoResetEvent)
fStream = aFileStream
autoEvent = anEvent
End Sub
End Class
Private Sub New
End Sub
Shared Sub WorkItemMethod(mainEvent As Object)
Console.WriteLine(vbCrLf & "Starting WorkItem." & vbCrLf)
Dim autoEvent As New AutoResetEvent(False)
' Create some data.
Const ArraySize As Integer = 10000
Const BufferSize As Integer = 1000
Dim byteArray As Byte() = New Byte(ArraySize){}
Dim randomGenerator As New Random()
randomGenerator.NextBytes(byteArray)
' Create two files and two State objects.
Dim fileWriter1 As FileStream = _
New FileStream("C:\Test1111.dat", FileMode.Create, _
FileAccess.ReadWrite, FileShare.ReadWrite, _
BufferSize, True)
Dim fileWriter2 As FileStream = _
New FileStream("C:\Test2222.dat", FileMode.Create, _
FileAccess.ReadWrite, FileShare.ReadWrite, _
BufferSize, True)
Dim stateInfo1 As New State(fileWriter1, autoEvent)
Dim stateInfo2 As New State(fileWriter2, autoEvent)
' Asynchronously write to the files.
fileWriter1.BeginWrite(byteArray, 0, byteArray.Length, _
AddressOf EndWriteCallback, stateInfo1)
fileWriter2.BeginWrite(byteArray, 0, byteArray.Length, _
AddressOf EndWriteCallback, stateInfo2)
' Wait for the callbacks to signal.
autoEvent.WaitOne()
autoEvent.WaitOne()
fileWriter1.Close()
fileWriter2.Close()
Console.WriteLine(vbCrLf & "Ending WorkItem." & vbCrLf)
' Signal Main that the work item is finished.
DirectCast(mainEvent, AutoResetEvent).Set()
End Sub
Shared Sub EndWriteCallback(asyncResult As IAsyncResult)
Console.WriteLine("Starting EndWriteCallback.")
Dim stateInfo As State = _
DirectCast(asyncResult.AsyncState, State)
Dim workerThreads As Integer
Dim portThreads As Integer
Try
ThreadPool.GetAvailableThreads(workerThreads, portThreads)
Console.WriteLine(vbCrLf & "Available worker " & _
"threads:" & vbTab & "{0}" & vbCrLf & "Available " & _
"completion port threads: {1}" & vbCrLf, _
workerThreads, portThreads)
stateInfo.fStream.EndWrite(asyncResult)
' Sleep so the other thread has a chance to run
' before the current thread ends.
Thread.Sleep(1500)
Finally
' Signal that the current thread is finished.
stateInfo.autoEvent.Set()
Console.WriteLine("Ending EndWriteCallback.")
End Try
End Sub
End Class
Keterangan
Saat GetMaxThreads dikembalikan, variabel yang ditentukan dengan workerThreads berisi jumlah maksimum utas pekerja yang diizinkan dalam kumpulan utas, dan variabel yang ditentukan dengan completionPortThreads berisi jumlah maksimum utas I/O asinkron yang diizinkan dalam kumpulan utas.
Anda dapat menggunakan GetAvailableThreads metode untuk menentukan jumlah aktual utas di kumpulan utas pada waktu tertentu.
Anda dapat menggunakan SetMaxThreads untuk mengatur jumlah maksimum utas pekerja dan utas I/O asinkron di kumpulan utas.
Anda dapat mengantrekan permintaan kumpulan utas sebanyak yang diizinkan memori sistem. Jika ada lebih banyak permintaan daripada utas kumpulan utas, permintaan tambahan tetap diantrekan hingga utas kumpulan utas tersedia.