Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I am new to Android. I want to know what the Looper class does and also how to use it. I have read the Android Looper class documentation but I am unable to completely understand it. I have seen it in a lot of places but unable to understand its purpose. Can anyone help me by defining the purpose of Looper and also by giving a simple example if possible?

share|improve this question
1  
I just found an extraordinarily thorough and clear explanation of Looper and its use on Safari Books Online. Unfortunately, I suspect access if free for only a limited time. safaribooksonline.com/library/view/efficient-android-threading/… – Joe Lapp Dec 19 '15 at 20:19
up vote 217 down vote accepted

What is Looper?

Looper is a class which is used to execute the Messages(Runnables) in a queue. Normal threads have no such queue, e.g. simple thread does not have any queue. It executes once and after method execution finishes, the thread will not run another Message(Runnable).

Where we can use Looper class?

If someone wants to execute multiple messages(Runnables) then he should use the Looper class which is responsible for creating a queue in the thread. For example, while writing an application that downloads files from the internet, we can use Looper class to put files to be downloaded in the queue.

How it works?

There is prepare() method to prepare the Looper. Then you can use loop() method to create a message loop in the current thread and now your Looper is ready to execute the requests in the queue until you quit the loop.

Here is the code by which you can prepare the Looper.

class LooperThread extends Thread {
      public Handler mHandler;

      @Override
      public void run() {
          Looper.prepare();

          mHandler = new Handler() {
              @Override
              public void handleMessage(Message msg) {
                  // process incoming messages here
              }
          };

          Looper.loop();
      }
  }
share|improve this answer
1  
So looper could be used to update the main thread with lets say... a download percentage (10%, 20%, 30% ... etc). Essentially feedback which you could feed into a progressbar? – HGPB May 30 '12 at 0:57
10  
An AsyncTask is better for that purpose and less complex as it encapsulates all the thread managing. – ferdy182 Nov 29 '12 at 14:15
3  
Should have @Override annotations before the run() and handleMessage() methods – Andrew Mackenzie Apr 18 '13 at 7:13
3  
The documentation indicates that you must call looper.quit. In your code above, Looper.loop will block indefinitely. – AndroidDev Jul 5 '13 at 8:56
4  
I think it would be better to use HandlerThread which is a convenient class for a thread with a looper. – Nimrod Dayan Sep 8 '14 at 13:40

Looper allows tasks to be executed sequentially on a single thread. And handler defines those tasks that we need to be executed. It is a typical scenario that I am trying to illustrate in this example:

class SampleLooper {
@Override
public void run() {
  try {
    // preparing a looper on current thread     
    // the current thread is being detected implicitly
    Looper.prepare();

    // now, the handler will automatically bind to the
    // Looper that is attached to the current thread
    // You don't need to specify the Looper explicitly
    handler = new Handler();

    // After the following line the thread will start
    // running the message loop and will not normally
    // exit the loop unless a problem happens or you
    // quit() the looper (see below)
    Looper.loop();
  } catch (Throwable t) {
    Log.e(TAG, "halted due to an error", t);
  } 
}
}

Now we can use the handler in some other threads(say ui thread) to post the task on Looper to execute.

handler.post(new Runnable()
{
public void run() {
//This will be executed on thread using Looper.
    }
});

On UI thread we have an implicit Looper that allow us to handle the messages on ui thread.

share|improve this answer
    
it will not lock any UI Process, is it true? – gumuruh Jun 17 '14 at 9:32
    
It wont , since it managing by handler – dhams Dec 15 '14 at 18:42
2  
Thanks for including sample on how to post "jobs" to the queue – Peter Lillevold Jan 8 '15 at 21:55
    
SampleLooper extends Thread, right? – usman Jun 4 '15 at 11:02
1  
how can i quite from looper... – Sohail Zahid Aug 31 '15 at 7:23

Android Looper is a wrapper to attach MessageQueue to Threads and it manages Queue processing. It looks very cryptic in Android documentation and many times we may face Looper related UI access issues. If we don't understand the basics it becomes very tough to handle.

Here is an Article which explains Looper life cycle, how to use it and usage of Looper in Handler- http://prasanta-paul.blogspot.kr/2013/09/android-looper-and-toast-from.html Hope it helps.

share|improve this answer

You can better understand what Looper is in the context of GUI framework. Looper is made to do 2 things.

1) Looper transforms a normal thread, which terminates when its run() method return, into something run continuously until Android app is running, which is needed in GUI framework (Technically, it still terminates when run() method return. But let me clarify what I mean in below).

2) Looper provides a queue where jobs to be done are enqueued, which is also needed in GUI framework.

As you may know, when an application is launched, the system creates a thread of execution for the application, called “main”, and Android applications normally run entirely on a single thread by default the “main thread”. But main thread is not some secret, special thread. It's just a normal thread that you can also create with new Thread() code, which means it terminates when its run() method return! Think of below example.

public class HelloRunnable implements Runnable {
    public void run() {
        System.out.println("Hello from a thread!");
    }

    public static void main(String args[]) {
        (new Thread(new HelloRunnable())).start();
    }
}

Now, let's apply this simple principle to Android app. What would happen if an Android app is run on normal thread? A thread called "main" or "UI" or whatever starts your application, and draws all UI. So, the first screen is displayed to users. So what now? The main thread terminates? No, it shouldn’t. It should wait until users do something, right? But how can we achieve this behavior? Well, we can try with Object.wait() or Thread.sleep(). For example, main thread finishes its initial job to display first screen, and sleeps. It awakes, which means interrupted, when a new job to do is fetched. So far so good, but at this moment we need a queue-like data structure to hold multiple jobs. Think about a case when a user touches screen serially, and a task takes longer time to finish. So, we need to have a data structure to hold jobs to be done in first-in-first-out manner. Also, you may imagine, implementing ever-running-and-process-job-when-arrived thread using interrupt is not easy, and leads to complex and often unmaintainable code. We'd rather create a new mechanism for such purpose, and that is what Looper is all about. The official document of Looper class says, "Threads by default do not have a message loop associated with them", and Looper is a class "used to run a message loop for a thread". Now you can understand what it means.

To make things more clear, let's check the code where main thread is transformed. It all happens in ActivityThread class. In its main() method, you can find below code, which turns a normal main thread into something what we need.

public final class ActivityThread {
    ...
    public static void main(String[] args) {
        ...
        Looper.prepareMainLooper();
        Looper.loop();
        ...
    }
}

and Looper.loop() method loop infinitely and dequeue a message and process it one at a time:

public static void loop() {
    ...
    for (;;) {
        Message msg = queue.next(); // might block
        if (msg == null) {
            // No message indicates that the message queue is quitting.
            return;
        }
        ...
        msg.target.dispatchMessage(msg);
        ...
    }
}

So, basically Looper is a class that is made to address a problem that occurs in GUI framework. But this kind of needs also can happen in other situation as well. Actually it is a pretty famous pattern for multi threads application, and you can learn more about it in "Concurrent Programming in Java" by Doug Lea(Especially, chapter 4.1.4 "Worker Threads" would be helpful). Also, you can imagine this kind of mechanism is not unique in Android framework, but all GUI framework may need somewhat similar to this. You can find almost same mechanism in Java Swing framework.

share|improve this answer

A Looper has a synchronized MessageQueue that's used to process Messages placed on the queue. It implements a Thread Specific Storage Pattern. Only one Looper/Thread Key methods include prepare(),loop() and quit(). prepare() initializes the current Thread as a Looper. Prepare is static method that uses the ThreadLocal class as shown below.

   public static void prepare(){
     ...
    sThreadLocal.set
    (new Looper());
   }

prepare() must be called explicitly before running the event loop.
loop() runs the event loop which waits for Messages to arrive on a specific Thread's messagequeue. Once the next Message is received,the loop() method dispatches the Message to its target handler quit() shuts down the event loop. It doesn't terminate the loop,but instead it enqueues a special message

A Looper can be programmed in a Thread via several steps

1) Extend Thread

2) Call Looper.prepare() to initialize Thread as a looper

3) Create one or more Handlers to process the incoming messages

4) Call Looper.loop() to process messages until the loop is told to quit. 
share|improve this answer

Handling multiple down or upload items in a Service is a better example.

Handlers and AsnycTasks are often used to propagate events/Messages between the UI (thread) and a worker thread or to delay actions. So they are more related to the UI.

More specific a Looper handles tasks (runnables, futures) in a thread related queue in the background - even with no user interaction or a displayed UI (app downloads a file in the background during a call).

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.