Создание потоков и передача данных во время запуска
Обновлен: Ноябрь 2007
При создании процесса операционной системы в него включается поток вместе с исходным доменом приложения. С этого момента домены приложения можно создавать и уничтожать, не создавая и не уничтожая потоки операционной системы. Если выполняемый код является управляемым, объект Thread для потока, выполняющегося в текущем домене приложения, может быть получен посредством статического свойства CurrentThread типа Thread. В этом разделе описывается создание потока, и обсуждаются альтернативные способы передачи данных в процедуру потока.
Создание потока
Создание нового объекта Thread приводит к созданию нового управляемого потока. Класс Thread имеет конструкторы, которые принимают делегат ThreadStart или делегат ParameterizedThreadStart; этот делегат служит оболочкой для метода, который был вызван новым потоком при вызове пользователем метода Start. Неоднократный вызов перегрузки Start приводит к созданию исключения ThreadStateException.
Метод Start возвращается немедленно, как правило до фактического запуска нового потока. Можно использовать свойства ThreadState и IsAlive для определения состояния потока в любой момент, однако эти свойства никогда не должны использоваться для синхронизации действий потоков.
.gif "Примечание") Примечание. |
|---|
Нет нужды в сохранении ссылки на объект Thread после запуска потока. Поток продолжает выполняться до завершения потоковой процедуры. |
В следующем примере показано создание двух потоков с целью вызова статических методов и методов экземпляров для другого объекта.
Imports System
Imports System.Threading
Public Class ServerClass
' The method that will be called when the thread is started.
Public Sub InstanceMethod()
Console.WriteLine( _
"ServerClass.InstanceMethod is running on another thread.")
' Pause for a moment to provide a delay to make
' threads more apparent.
Thread.Sleep(3000)
Console.WriteLine( _
"The instance method called by the worker thread has ended.")
End Sub 'InstanceMethod
Public Shared Sub StaticMethod()
Console.WriteLine( _
"ServerClass.StaticMethod is running on another thread.")
' Pause for a moment to provide a delay to make
' threads more apparent.
Thread.Sleep(5000)
Console.WriteLine( _
"The static method called by the worker thread has ended.")
End Sub 'StaticMethod
End Class 'ServerClass
Public Class Simple
Public Shared Sub Main()
Console.WriteLine("Thread Simple Sample")
Dim serverObject As New ServerClass()
' Create the thread object, passing in the
' serverObject.InstanceMethod method using a
' ThreadStart delegate.
Dim InstanceCaller As New Thread( _
New ThreadStart(AddressOf serverObject.InstanceMethod))
' Start the thread.
InstanceCaller.Start()
Console.WriteLine("The Main() thread calls this after " _
& "starting the new InstanceCaller thread.")
' Create the thread object, passing in the
' serverObject.StaticMethod method using a
' ThreadStart delegate.
Dim StaticCaller As New Thread( _
New ThreadStart(AddressOf ServerClass.StaticMethod))
' Start the thread.
StaticCaller.Start()
Console.WriteLine("The Main() thread calls this after " _
& "starting the new StaticCaller thread.")
End Sub 'Main
End Class 'Simple
using System;
using System.Threading;
public class ServerClass
{
// The method that will be called when the thread is started.
public void InstanceMethod()
{
Console.WriteLine(
"ServerClass.InstanceMethod is running on another thread.");
// Pause for a moment to provide a delay to make
// threads more apparent.
Thread.Sleep(3000);
Console.WriteLine(
"The instance method called by the worker thread has ended.");
}
public static void StaticMethod()
{
Console.WriteLine(
"ServerClass.StaticMethod is running on another thread.");
// Pause for a moment to provide a delay to make
// threads more apparent.
Thread.Sleep(5000);
Console.WriteLine(
"The static method called by the worker thread has ended.");
}
}
public class Simple{
public static int Main(String[] args)
{
Console.WriteLine("Thread Simple Sample");
ServerClass serverObject = new ServerClass();
// Create the thread object, passing in the
// serverObject.InstanceMethod method using a
// ThreadStart delegate.
Thread InstanceCaller = new Thread(
new ThreadStart(serverObject.InstanceMethod));
// Start the thread.
InstanceCaller.Start();
Console.WriteLine("The Main() thread calls this after "
+ "starting the new InstanceCaller thread.");
// Create the thread object, passing in the
// serverObject.StaticMethod method using a
// ThreadStart delegate.
Thread StaticCaller = new Thread(
new ThreadStart(ServerClass.StaticMethod));
// Start the thread.
StaticCaller.Start();
Console.WriteLine("The Main() thread calls this after "
+ "starting the new StaticCaller thread.");
return 0;
}
}
using namespace System;
using namespace System::Threading;
public ref class ServerClass
{
public:
// The method that will be called when the thread is started.
void InstanceMethod()
{
Console::WriteLine(
"ServerClass->InstanceMethod is running on another thread.");
// Pause for a moment to provide a delay to make
// threads more apparent.
Thread::Sleep(3000);
Console::WriteLine(
"The instance method called by the worker thread has ended.");
}
static void StaticMethod()
{
Console::WriteLine(
"ServerClass::StaticMethod is running on another thread.");
// Pause for a moment to provide a delay to make
// threads more apparent.
Thread::Sleep(5000);
Console::WriteLine(
"The static method called by the worker thread has ended.");
}
};
void main()
{
Console::WriteLine("Thread Simple Sample");
ServerClass^ serverObject = gcnew ServerClass();
// Create the thread object, passing in a ThreadStart delegate
// representing an instance of ServerClass and the
// ServerClass::InstanceMethod method.
Thread^ InstanceCaller = gcnew Thread(
gcnew ThreadStart(serverObject, &ServerClass::InstanceMethod));
// Start the thread.
InstanceCaller->Start();
Console::WriteLine("The main thread has "
+ "started the new InstanceMethod thread.");
// Create the thread object, passing in a ThreadStart delegate
// representing the static ServerClass::StaticMethod method.
Thread^ StaticCaller = gcnew Thread(
gcnew ThreadStart(&ServerClass::StaticMethod));
// Start the thread.
StaticCaller->Start();
Console::WriteLine("The main thread has called "
+ "the new StaticMethod thread.");
}
Передача данных в потоки и получение данных из потоков
В .NET Framework версии 2.0 делегат ParameterizedThreadStart предоставляет простой способ передачи объекта, содержащего данные, в поток при вызове перегрузки метода Thread.Start. Пример кода см. в разделе ParameterizedThreadStart.
Использование делегата ParameterizedThreadStart не является безопасным способом передачи данных, так как перегрузка метода Thread.Start принимает любой объект. Альтернативой является инкапсуляция процедуры потока и данных во вспомогательном классе и использование делегата ThreadStart для выполнения процедуры потока. Этот подход показан в приведенных ниже двух примерах кода.
Ни один из этих делегатов не имеет возвращаемого значения, потому что отсутствует расположение для возвращения данных после асинхронного вызова. Для получения результатов метода потока можно воспользоваться методом обратного вызова, как показано во втором примере.
Imports System
Imports System.Threading
' The ThreadWithState class contains the information needed for
' a task, and the method that executes the task.
'
Public Class ThreadWithState
' State information used in the task.
Private boilerplate As String
Private value As Integer
' The constructor obtains the state information.
Public Sub New(ByVal text As String, ByVal number As Integer)
boilerplate = text
value = number
End Sub
' The thread procedure performs the task, such as formatting
' and printing a document.
Public Sub ThreadProc()
Console.WriteLine(boilerplate, value)
End Sub
End Class
' Entry point for the example.
'
Public Class Example
Public Shared Sub Main()
' Supply the state information required by the task.
Dim tws As New ThreadWithState( _
"This report displays the number {0}.", 42)
' Create a thread to execute the task, and then
' start the thread.
Dim t As New Thread(AddressOf tws.ThreadProc)
t.Start()
Console.WriteLine("Main thread does some work, then waits.")
t.Join()
Console.WriteLine( _
"Independent task has completed; main thread ends.")
End Sub
End Class
using System;
using System.Threading;
// The ThreadWithState class contains the information needed for
// a task, and the method that executes the task.
//
public class ThreadWithState {
// State information used in the task.
private string boilerplate;
private int value;
// The constructor obtains the state information.
public ThreadWithState(string text, int number)
{
boilerplate = text;
value = number;
}
// The thread procedure performs the task, such as formatting
// and printing a document.
public void ThreadProc()
{
Console.WriteLine(boilerplate, value);
}
}
// Entry point for the example.
//
public class Example {
public static void Main()
{
// Supply the state information required by the task.
ThreadWithState tws = new ThreadWithState(
"This report displays the number {0}.", 42);
// Create a thread to execute the task, and then
// start the thread.
Thread t = new Thread(new ThreadStart(tws.ThreadProc));
t.Start();
Console.WriteLine("Main thread does some work, then waits.");
t.Join();
Console.WriteLine(
"Independent task has completed; main thread ends.");
}
}
using namespace System;
using namespace System::Threading;
// The ThreadWithState class contains the information needed for
// a task, and the method that executes the task.
//
public ref class ThreadWithState
{
private:
// State information used in the task.
String^ boilerplate;
int value;
public:
// The constructor obtains the state information.
ThreadWithState(String^ text, int number)
{
boilerplate = text;
value = number;
}
// The thread procedure performs the task, such as formatting
// and printing a document.
void ThreadProc()
{
Console::WriteLine(boilerplate, value);
}
};
// Entry point for the example.
//
void main()
{
// Supply the state information required by the task.
ThreadWithState^ tws = gcnew ThreadWithState(
"This report displays the number {0}.", 42);
// Create a thread to execute the task, and then
// start the thread.
Thread^ t = gcnew Thread(
gcnew ThreadStart(tws, &ThreadWithState::ThreadProc));
t->Start();
Console::WriteLine("Main thread does some work, then waits.");
t->Join();
Console::WriteLine(
"Independent task has completed; main thread ends.");
}
Получение данных с помощью метода обратного вызова
В следующем примере показана работа метода обратного вызова, с помощью которого получаются данные из потока. Конструктор класса, содержащего данные и метод потока, также допускает использование делегата, предоставляющего метод обратного вызова; перед завершением работы метод потока вызывает делегат обратного вызова.
Imports System
Imports System.Threading
' The ThreadWithState class contains the information needed for
' a task, the method that executes the task, and a delegate
' to call when the task is complete.
'
Public Class ThreadWithState
' State information used in the task.
Private boilerplate As String
Private value As Integer
' Delegate used to execute the callback method when the
' task is complete.
Private callback As ExampleCallback
' The constructor obtains the state information and the
' callback delegate.
Public Sub New(ByVal text As String, ByVal number As Integer, _
ByVal callbackDelegate As ExampleCallback)
boilerplate = text
value = number
callback = callbackDelegate
End Sub
' The thread procedure performs the task, such as
' formatting and printing a document, and then invokes
' the callback delegate with the number of lines printed.
Public Sub ThreadProc()
Console.WriteLine(boilerplate, value)
If Not callback Is Nothing Then callback(1)
End Sub
End Class
' Delegate that defines the signature for the callback method.
'
Public Delegate Sub ExampleCallback(ByVal lineCount As Integer)
' Entry point for the example.
'
Public Class Example
Public Shared Sub Main()
' Supply the state information required by the task.
Dim tws As New ThreadWithState( _
"This report displays the number {0}.", _
42, _
New ExampleCallback(AddressOf ResultCallback) _
)
Dim t As New Thread(AddressOf tws.ThreadProc)
t.Start()
Console.WriteLine("Main thread does some work, then waits.")
t.Join()
Console.WriteLine( _
"Independent task has completed; main thread ends.")
End Sub
' The callback method must match the signature of the
' callback delegate.
'
Public Shared Sub ResultCallback(ByVal lineCount As Integer)
Console.WriteLine("Independent task printed {0} lines.", _
lineCount)
End Sub
End Class
using System;
using System.Threading;
// The ThreadWithState class contains the information needed for
// a task, the method that executes the task, and a delegate
// to call when the task is complete.
//
public class ThreadWithState {
// State information used in the task.
private string boilerplate;
private int value;
// Delegate used to execute the callback method when the
// task is complete.
private ExampleCallback callback;
// The constructor obtains the state information and the
// callback delegate.
public ThreadWithState(string text, int number,
ExampleCallback callbackDelegate)
{
boilerplate = text;
value = number;
callback = callbackDelegate;
}
// The thread procedure performs the task, such as
// formatting and printing a document, and then invokes
// the callback delegate with the number of lines printed.
public void ThreadProc()
{
Console.WriteLine(boilerplate, value);
if (callback != null)
callback(1);
}
}
// Delegate that defines the signature for the callback method.
//
public delegate void ExampleCallback(int lineCount);
// Entry point for the example.
//
public class Example
{
public static void Main()
{
// Supply the state information required by the task.
ThreadWithState tws = new ThreadWithState(
"This report displays the number {0}.",
42,
new ExampleCallback(ResultCallback)
);
Thread t = new Thread(new ThreadStart(tws.ThreadProc));
t.Start();
Console.WriteLine("Main thread does some work, then waits.");
t.Join();
Console.WriteLine(
"Independent task has completed; main thread ends.");
}
// The callback method must match the signature of the
// callback delegate.
//
public static void ResultCallback(int lineCount)
{
Console.WriteLine(
"Independent task printed {0} lines.", lineCount);
}
}
using namespace System;
using namespace System::Threading;
// Delegate that defines the signature for the callback method.
//
public delegate void ExampleCallback(int lineCount);
// The ThreadWithState class contains the information needed for
// a task, the method that executes the task, and a delegate
// to call when the task is complete.
//
public ref class ThreadWithState
{
private:
// State information used in the task.
String^ boilerplate;
int value;
// Delegate used to execute the callback method when the
// task is complete.
ExampleCallback^ callback;
public:
// The constructor obtains the state information and the
// callback delegate.
ThreadWithState(String^ text, int number,
ExampleCallback^ callbackDelegate)
{
boilerplate = text;
value = number;
callback = callbackDelegate;
}
// The thread procedure performs the task, such as
// formatting and printing a document, and then invokes
// the callback delegate with the number of lines printed.
void ThreadProc()
{
Console::WriteLine(boilerplate, value);
if (callback != nullptr)
callback(1);
}
};
public ref class Example
{
public:
static void Demo()
{
// Supply the state information required by the task.
ThreadWithState^ tws = gcnew ThreadWithState(
"This report displays the number {0}.",
42,
gcnew ExampleCallback(&Example::ResultCallback)
);
// Create a thread to execute the task, and then
// start the thread.
Thread^ t = gcnew Thread(
gcnew ThreadStart(tws, &ThreadWithState::ThreadProc));
t->Start();
Console::WriteLine("Main thread does some work, then waits.");
t->Join();
Console::WriteLine(
"Independent task has completed; main thread ends.");
}
private:
// The callback method must match the signature of the
// callback delegate.
//
static void ResultCallback(int lineCount)
{
Console::WriteLine(
"Independent task printed {0} lines.", lineCount);
}
};
// Entry point for the example.
//
void main()
{
Example::Demo();
}