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I didn't think threading would be this difficult sigh. Anyways, the only way I could think of executing a function after a thread has completed is to use a static counter to increment whenever a thread ran.

if(++threadcounter==3){doSomething(); threadcounter =0;}

I found this wasn't a good idea because the threadcounter at times never reaches 4.

So I used atomic integer

if(atomicint.incrementAndGet()==4){doSomething(); atomicint.set(0);}

The counter is 5 or 0 and the app freezes. I don't know what's happening. How to use a correct counter? Thanks


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6 Answers 6

up vote 3 down vote accepted

The simplest way to tackle this is with a good old-fashioned lock:

boolean shouldDoSomething;
synchronized {
    if (threadCounter == 4) {
        threadCounter = 0;
        shouldDoSomething = true;
    else {
        shouldDoSomething = false;
if (shouldDoSomething) doSomething();

This will create contention on the lock, but over a very, very brief piece of code - a load, a store, and a few arithmetic instructions.

Your use of AtomicInteger is wrong, because there is no locking or other concurrency control linking the incrementAndGet and the set, which means there is a potential race condition (value is 3, thread A increments to 4, thread B increments to 5, thread A sets to 0).

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Lol yes this is what I did to solve it! By the way I had the synchronized block inside the run method. Is that a good idea? –  Lews Therin Nov 16 '11 at 9:22
Other answers were great, but this is simplest. Thanks Btw, the question still stands, is it a good idea to have the synchronized in the @Override run method :) –  Lews Therin Nov 16 '11 at 9:22
You should keep synchronized blocks as small as possible, so that threads do not block each other unnecessarily. That often means using a synchronized block within a method rather than a synchronized method. –  Tom Anderson Nov 16 '11 at 9:30
Inside the run method? Are you using a single instance of your Runnable class for all the threads, or do they have their own instances? –  Tom Anderson Nov 16 '11 at 9:31
each thread has the same run method. The run method has a synchronized block to increment the static variable. –  Lews Therin Nov 16 '11 at 9:35

Don't use AtomicInteger, it's not a good match to what you want to do. Use Thread.join to wait for a thread to terminate.

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I think I am with Tassos on this one. –  user978122 Nov 16 '11 at 8:49
It freezes the progressbar. Not a good soln. Well I haven't figured out how to use it –  Lews Therin Nov 16 '11 at 8:50
Ah, you didn't mention that - if you have a swing UI, just useSwingUtilities.runLater to run something in the UI thread. –  Tassos Bassoukos Nov 16 '11 at 8:56

a better peice of code would be


as long as it won't run over 2 billion times your fine

otherwize you can add a

int value;

after it but this won't be ideal as the compareandset can fail silently

or you can make you own incrementModAndGet

public static int incrementModAndGet(AtomicInteger atomicint, int mod){
    int old,newval;
        old = atomicint.get();
        newval = (old+1)%mod;
    return newval;
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Nice! The second version looks like it should do; the silent failure is benign as long as the decision to doSomething() is made in the basis of value%5 rather than value, and as long as one of the attempts to reduce the value is successful before it hits two billion, all is well. This looks very efficient, too: i think the actions taken by the processor when executing that code are basically equivalent to a single incrementAndGet, or acquiring (but not releasing) a lock. –  Tom Anderson Nov 16 '11 at 9:38

What kind of threading are you working with? Assuming a naive approach (where you just spin), you can just call the function immediately after it breaks out of the loop.

Perhaps if you posted some more code?

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What do you mean? I am just using a normal thread. A progress bar with timers. Then it increments the variable by 1. Except it doesn't increment right –  Lews Therin Nov 16 '11 at 8:47

Sounds like you're trying to execute some task, potentially generating a value, in another thread, and then in the initial thread make use of the generated value.

The Callable interface is possibly what you want.

final Callable<Integer> task = new Callable<Integer>() {
    @Override public Integer call() {
        // do computation
        return <some-integer>;
Future<Integer> future = Executors.newSingleThreadExecutor().submit(task);

// you can do other stuff here, in your thread. the task will be executing

Integer result = future.get();

Future#get will block until the thread is complete.

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This is not an applicable solution to the problem check the comments!

You can either use Thread.join() to finish threads, or if you need some counter i'd recommend a volatile primitive like

volatile int threadCount=0;

which will guarantuee ordering and immediate writing to memory. check this page for an explanation of the volatile keyword

hope that helps

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I think I fixed it. I used a synchronize(MyClass.this) then increment in that synchronized blocks. It appears to work, but I am not sure what synchronize does. Does it ensure that a thread must wait for another thread to finish using that block, before the thread can use the block of code? What I mean is do all threads eventually access the synchronized block –  Lews Therin Nov 16 '11 at 8:56
I assume it is ok to use then. Thanks. I will just make it a normal int and use syncrhonized to increment the counter. Thanks –  Lews Therin Nov 16 '11 at 9:20
-1: The use of volatile does not provide the guarantees the OP needs. Volatile provides visibility guarantees, but it does nothing to stop a race between two threads. –  Tom Anderson Nov 16 '11 at 9:32
Oh yes i see: "You can use volatile variables instead of locks only under a restricted set of circumstances. Both of the following criteria must be met for volatile variables to provide the desired thread-safety: 1. Writes to the variable do not depend on its current value. 2. The variable does not participate in invariants with other variables." from ibm dev works –  fasseg Nov 16 '11 at 9:40
Exactly. The potential race is A reads X, B reads X, A writes X+1, B writes X+1. Volatility would ensure that the reads saw the results of any previous writes, and the writes were visible to any subsequent reads, but it would not prevent the race. The thing to remember is that although ++ is a single operator, it actually involves two completely separate memory operations. –  Tom Anderson Nov 16 '11 at 15:36

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