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Imagine I have this class:

class Notifier {
    public Listener listener;

    public void notify() {
        if (listener != null) {

This code is incorrect in the case listener can be changed from another thread. Let's fix it:

class Notifier {
    public volatile Listener listener;

    public void notify() {
        Listener l = listener;
        if (l != null) {

The code is correct now, but the notify() method looks weird in isolation. Imagine a larger class with a mix of volatile and regular fields used in the same method and you'll get the picture.

My first impulse is to name the variable volatileListener---assuming it's private and there's a setListener() of course, but I imagine a "hungarian notation is evil" knee-jerk reaction from many people.

So, are there established practices/conventions? Or maybe there are some patterns allowing to systematically avoid such situations. What do you do when writing heavily multi-threaded code?

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What's the point of saving the volatile listener into a local variable in the second example? –  Matt Ball Dec 15 '10 at 16:09
@Matt - It avoids the problem where the variable gets changed halfway through the method ... it's a common technique for observer notification, but normally the listener/listener list is not exposed as public. –  Anon Dec 15 '10 at 16:11
@Matt: So that he can check it for null and then call its stuffHappens method, without getting into a race condition with other code that can assign to listener. Otherwise, it may well be that listener is !null as of the check, but null as of the call. –  T.J. Crowder Dec 15 '10 at 16:12
While not directly related to the question, but I'm not sure that the second example is correct. Using volatile with reference types can lead to a lot of troubles, think about DCL for example: javaworld.com/javaworld/jw-02-2001/jw-0209-double.html The problem is that even the reference gets updated correctly, it may point to a half-initialized object because its fields aren't volatile. –  Sergey Tachenov Dec 15 '10 at 17:30
@Sergey: a volatile var is a synchronization primitive in Java. According to Java memory model, a write to a volatile var in thread 1 happens-before a corresponding read in thread 2. This implies that any writes in thread 1 that happen-before writing to volatile also happen-before the read in thread 2. I.e. if you fully initialize your object before assigning it to a volatile, you're guaranteed to get a reference to an initialized object in another thread. –  SnakE Dec 16 '10 at 5:08

3 Answers 3

What do you do when writing heavily multi-threaded code?

Separate the code that cares about threading from the code that doesn't.

Having a class responsible for notifications is a good start, but your comment about "change[ing] listener from another thread" is disturbing -- and making your listener variable public is even more disturbing. Make it private, and add methods to Notifier to control changes.

And don't add code to Notifier that does anything other than notify listeners.

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@Anon: my example was obviously simplified. If there were setListener() it wouldn't change anything in my question. Then, if there's setListener() then it's probably called more than once, and if there's notify() then it's probably called from a different thread---cannot see anything 'disturbing' here. –  SnakE Dec 15 '10 at 16:28
@Anon: here's another example. There's Image which is empty. There's ImageLoader which fetches image in a separate thread. Image receives updates from the loader. It also serves render requests from another thread. It also notifies anybody who cares about the updates. How would you separate the Image? –  SnakE Dec 15 '10 at 16:32
@SnakE - regarding Image: I'd question whether an image has any value until it's loaded. Assuming no, then I'd treat Image as an immutable object that will be passed to listeners once loaded, but not before. The ImageLoader can run in its own thread, and it would use a properly-synchronized and encapsulated Notifier to alert listeners once the image is loaded. In this breakdown, no class but Notifier needs to care about threading (with the caveat that ImageLoader might need a thread-safe work queue) –  Anon Dec 15 '10 at 17:11
@SnakE - actually, that's an over-simplified solution. In the real world, you create a concurrency architecture for your application, and specific classes that cross thread barriers. For example, in a Swing app you know that GUI updates have to happen from the event dispatch thread. So your Notifier is smart enough to cross that boundary. And rather than create ImageLoader as a service (as I'm assuming in my former comment), you might create it as a simple Runnable that's passed to an ExecutorService. Perhaps with a reference to a thread-safe image cache. –  Anon Dec 15 '10 at 17:17
@SnakE - regardless, my key point remains: the ImageLoader does not do notification itself. –  Anon Dec 15 '10 at 17:20

This is not a naming convention, but in Java Concurrency in Practice the authors suggest using annotations to describe thread safety policies.

I would highly recommend this book to anyone writing multi-threaded code in Java.

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And here is the tool that does static code analysis to catch concurrency bugs checkthread.org/index.html –  Pangea Dec 15 '10 at 16:26

Brian Goetz suggested in his book "Java Concurrency in Practice" the usage of Annotations to mark fields an classes as thread save or not.


(Nerveless Anon is right, seperate thread save and not tread save code.)

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