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Showing content from https://learn.microsoft.com/en-us/dotnet/api/system.threading.timer below:

Timer Class (System.Threading) | Microsoft Learn

Provides a mechanism for executing a method on a thread pool thread at specified intervals. This class cannot be inherited.

public ref class Timer sealed : IDisposable

public ref class Timer sealed : MarshalByRefObject, System::Threading::ITimer

public ref class Timer sealed : MarshalByRefObject, IAsyncDisposable, IDisposable

public ref class Timer sealed : MarshalByRefObject, IDisposable

[System.Runtime.InteropServices.ComVisible(true)]
public sealed class Timer : IDisposable

public sealed class Timer : MarshalByRefObject, System.Threading.ITimer

public sealed class Timer : MarshalByRefObject, IAsyncDisposable, IDisposable

public sealed class Timer : MarshalByRefObject, IDisposable

[System.Runtime.InteropServices.ComVisible(true)]
public sealed class Timer : MarshalByRefObject, IDisposable

[<System.Runtime.InteropServices.ComVisible(true)>]
type Timer = class
    interface IDisposable

type Timer = class
    inherit MarshalByRefObject
    interface IAsyncDisposable
    interface IDisposable
    interface ITimer

type Timer = class
    inherit MarshalByRefObject
    interface IAsyncDisposable
    interface IDisposable

type Timer = class
    inherit MarshalByRefObject
    interface IDisposable

[<System.Runtime.InteropServices.ComVisible(true)>]
type Timer = class
    inherit MarshalByRefObject
    interface IDisposable

Public NotInheritable Class Timer
Implements IDisposable

Public NotInheritable Class Timer
Inherits MarshalByRefObject
Implements ITimer

Public NotInheritable Class Timer
Inherits MarshalByRefObject
Implements IAsyncDisposable, IDisposable

Public NotInheritable Class Timer
Inherits MarshalByRefObject
Implements IDisposable

Inheritance

Inheritance

Attributes

Implements

The following example defines a StatusChecker class that includes a CheckStatus method whose signature is the same as the TimerCallback delegate. The state argument of the CheckStatus method is an AutoResetEvent object that is used to synchronize the application thread and the thread pool thread that executes the callback delegate. The StatusChecker class also includes two state variables:

invokeCount
Indicates the number of times the callback method has been invoked.

maxCount
Determines the maximum number of times the callback method should be invoked.

The application thread creates the timer, which waits one second and then executes the CheckStatus callback method every 250 milliseconds. The application thread then blocks until the AutoResetEvent object is signaled. When the CheckStatus callback method executes maxCount times, it calls the AutoResetEvent.Set method to set the state of the AutoResetEvent object to signaled. The first time this happens, the application thread calls the Change(Int32, Int32) method so that the callback method now executes every half second. It once again blocks until the AutoResetEvent object is signaled. When this happens, the timer is destroyed by calling its Dispose method, and the application terminates.

using System;
using System.Threading;

class TimerExample
{
    static void Main()
    {
        // Create an AutoResetEvent to signal the timeout threshold in the
        // timer callback has been reached.
        var autoEvent = new AutoResetEvent(false);
        
        var statusChecker = new StatusChecker(10);

        // Create a timer that invokes CheckStatus after one second, 
        // and every 1/4 second thereafter.
        Console.WriteLine("{0:h:mm:ss.fff} Creating timer.\n", 
                          DateTime.Now);
        var stateTimer = new Timer(statusChecker.CheckStatus, 
                                   autoEvent, 1000, 250);

        // When autoEvent signals, change the period to every half second.
        autoEvent.WaitOne();
        stateTimer.Change(0, 500);
        Console.WriteLine("\nChanging period to .5 seconds.\n");

        // When autoEvent signals the second time, dispose of the timer.
        autoEvent.WaitOne();
        stateTimer.Dispose();
        Console.WriteLine("\nDestroying timer.");
    }
}

class StatusChecker
{
    private int invokeCount;
    private int  maxCount;

    public StatusChecker(int count)
    {
        invokeCount  = 0;
        maxCount = count;
    }

    // This method is called by the timer delegate.
    public void CheckStatus(Object stateInfo)
    {
        AutoResetEvent autoEvent = (AutoResetEvent)stateInfo;
        Console.WriteLine("{0} Checking status {1,2}.", 
            DateTime.Now.ToString("h:mm:ss.fff"), 
            (++invokeCount).ToString());

        if(invokeCount == maxCount)
        {
            // Reset the counter and signal the waiting thread.
            invokeCount = 0;
            autoEvent.Set();
        }
    }
}
// The example displays output like the following:
//       11:59:54.202 Creating timer.
//       
//       11:59:55.217 Checking status  1.
//       11:59:55.466 Checking status  2.
//       11:59:55.716 Checking status  3.
//       11:59:55.968 Checking status  4.
//       11:59:56.218 Checking status  5.
//       11:59:56.470 Checking status  6.
//       11:59:56.722 Checking status  7.
//       11:59:56.972 Checking status  8.
//       11:59:57.223 Checking status  9.
//       11:59:57.473 Checking status 10.
//       
//       Changing period to .5 seconds.
//       
//       11:59:57.474 Checking status  1.
//       11:59:57.976 Checking status  2.
//       11:59:58.476 Checking status  3.
//       11:59:58.977 Checking status  4.
//       11:59:59.477 Checking status  5.
//       11:59:59.977 Checking status  6.
//       12:00:00.478 Checking status  7.
//       12:00:00.980 Checking status  8.
//       12:00:01.481 Checking status  9.
//       12:00:01.981 Checking status 10.
//       
//       Destroying timer.

Imports System.Threading

Public Module Example
    Public Sub Main()
        ' Use an AutoResetEvent to signal the timeout threshold in the
        ' timer callback has been reached.
        Dim autoEvent As New AutoResetEvent(False)

        Dim statusChecker As New StatusChecker(10)

        ' Create a timer that invokes CheckStatus after one second, 
        ' and every 1/4 second thereafter.
        Console.WriteLine("{0:h:mm:ss.fff} Creating timer." & vbCrLf, 
                          DateTime.Now)
        Dim stateTimer As New Timer(AddressOf statusChecker.CheckStatus, 
                                    autoEvent, 1000, 250)

        ' When autoEvent signals, change the period to every half second.
        autoEvent.WaitOne()
        stateTimer.Change(0, 500)
        Console.WriteLine(vbCrLf & "Changing period to .5 seconds." & vbCrLf)

        ' When autoEvent signals the second time, dispose of the timer.
        autoEvent.WaitOne()
        stateTimer.Dispose()
        Console.WriteLine(vbCrLf & "Destroying timer.")
    End Sub
End Module

Public Class StatusChecker
    Dim invokeCount, maxCount As Integer 

    Sub New(count As Integer)
        invokeCount  = 0
        maxCount = count
    End Sub

    ' The timer callback method.
    Sub CheckStatus(stateInfo As Object)
        Dim autoEvent As AutoResetEvent = DirectCast(stateInfo, AutoResetEvent)
        invokeCount += 1
        Console.WriteLine("{0:h:mm:ss.fff} Checking status {1,2}.", 
                          DateTime.Now, invokeCount)
        If invokeCount = maxCount Then
            ' Reset the counter and signal the waiting thread.
            invokeCount = 0
            autoEvent.Set()
        End If
    End Sub
End Class
' The example displays output like the following:
'       11:59:54.202 Creating timer.
'       
'       11:59:55.217 Checking status  1.
'       11:59:55.466 Checking status  2.
'       11:59:55.716 Checking status  3.
'       11:59:55.968 Checking status  4.
'       11:59:56.218 Checking status  5.
'       11:59:56.470 Checking status  6.
'       11:59:56.722 Checking status  7.
'       11:59:56.972 Checking status  8.
'       11:59:57.223 Checking status  9.
'       11:59:57.473 Checking status 10.
'       
'       Changing period to .5 seconds.
'       
'       11:59:57.474 Checking status  1.
'       11:59:57.976 Checking status  2.
'       11:59:58.476 Checking status  3.
'       11:59:58.977 Checking status  4.
'       11:59:59.477 Checking status  5.
'       11:59:59.977 Checking status  6.
'       12:00:00.478 Checking status  7.
'       12:00:00.980 Checking status  8.
'       12:00:01.481 Checking status  9.
'       12:00:01.981 Checking status 10.
'       
'       Destroying timer.

Use a TimerCallback delegate to specify the method you want the Timer to execute. The signature of the TimerCallback delegate is:

void TimerCallback(Object state)

Sub TimerCallback(state As Object)

The timer delegate is specified when the timer is constructed and cannot be changed. The method does not execute on the thread that created the timer; it executes on a ThreadPool thread supplied by the system.

Tip

.NET includes several timer classes, each of which offers different functionality:

• System.Timers.Timer, which fires an event and executes the code in one or more event sinks at regular intervals. The class is intended for use as a server-based or service component in a multithreaded environment; it has no user interface and is not visible at runtime.
• System.Threading.Timer, which executes a single callback method on a thread pool thread at regular intervals. The callback method is defined when the timer is instantiated and cannot be changed. Like the System.Timers.Timer class, this class is intended for use as a server-based or service component in a multithreaded environment; it has no user interface and is not visible at runtime.
• System.Windows.Forms.Timer, a Windows Forms component that fires an event and executes the code in one or more event sinks at regular intervals. The component has no user interface and is designed for use in a single-threaded environment; it executes on the UI thread.
• System.Web.UI.Timer (.NET Framework only), an ASP.NET component that performs asynchronous or synchronous web page postbacks at a regular interval.
• System.Windows.Threading.DispatcherTimer, a timer that's integrated into the Dispatcher queue. This timer is processed with a specified priority at a specified time interval.

When you create a timer, you can specify an amount of time to wait before the first execution of the method (due time), and an amount of time to wait between subsequent executions (period). The Timer class has the same resolution as the system clock. This means that if the period is less than the resolution of the system clock, the TimerCallback delegate will execute at intervals defined by the resolution of the system clock, which is approximately 15 milliseconds on Windows 7 and Windows 8 systems. You can change the due time and period, or disable the timer, by using the Change method.

Note

As long as you are using a Timer, you must keep a reference to it. As with any managed object, a Timer is subject to garbage collection when there are no references to it. The fact that a Timer is still active does not prevent it from being collected.

When a timer is no longer needed, use the Dispose method to free the resources held by the timer. Note that callbacks can occur after the Dispose() method overload has been called, because the timer queues callbacks for execution by thread pool threads. You can use the Dispose(WaitHandle) method overload to wait until all callbacks have completed.

The callback method executed by the timer should be reentrant, because it is called on ThreadPool threads. The callback can be executed simultaneously on two thread pool threads if the timer interval is less than the time required to execute the callback, or if all thread pool threads are in use and the callback is queued multiple times.

Note

System.Threading.Timer is a simple, lightweight timer that uses callback methods and is served by thread pool threads. It is not recommended for use with Windows Forms, because its callbacks do not occur on the user interface thread. System.Windows.Forms.Timer is a better choice for use with Windows Forms. For server-based timer functionality, you might consider using System.Timers.Timer, which raises events and has additional features.

Initializes a new instance of the Timer class, using a 32-bit signed integer to specify the time interval.

Initializes a new instance of the Timer class, using 64-bit signed integers to measure time intervals.

Initializes a new instance of the Timer class, using TimeSpan values to measure time intervals.

Initializes a new instance of the Timer class, using 32-bit unsigned integers to measure time intervals.

Initializes a new instance of the Timer class with an infinite period and an infinite due time, using the newly created Timer object as the state object.

Gets the number of timers that are currently active. An active timer is registered to tick at some point in the future, and has not yet been canceled.

This type is thread safe.

• TimerCallback
• Timers
• The Managed Thread Pool

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