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I've got a Java client that needs to recursively call a server to retrieve a large data graph - requiring approximately one thousand calls. I have no control of the server, and this is required for a time-critical crash recovery scenario.

My problem is that I need my original thread to block until all calls have completed.

The RecursiveAction and ForkJoinPool abstractions from java.util.concurrent are precisely what I need, except that they are designed for CPU parallelism and forbid use of blocking I/O.

So, what would be the best way to implement recursive network calls, with the initiating thread blocking until all calls have completed?

Additional context info:

  • I can't modify the server.
  • The server allows and supports this kind of heavy querying.
  • I will restrict the number of concurrent network calls to something like 10-30.
  • Caching the data on disk is not feasible.

Additional thoughts: would a single-phase Phaser be appropriate, in conjunction with a ThreadPoolExecutor? Call tasks would call Phaser.register(), make the call, submit child tasks and then call Phaser.arrive(). The initiating thread would call Phaser.awaitAdvance(1). Would this be the most appropriate approach?

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2 Answers 2

up vote 2 down vote accepted

Got this working well using JDK1.7 Phasers. The pattern I used was something like this:

private void loadGraphFromServer() {
    final Phaser phaser = new Phaser(1); // "1" registers the calling thread
    for (final Item item : getDataListFromServer()) {
        phaser.register();
        executorService.submit(new Runnable() {
            public void run() {
                try {
                    getMoreDataFromServer(item.getSomeId());
                    // more nested loops/tasks/calls here...
                }
                finally {
                    phaser.arrive();
                }
            }
        });
    }
    phaser.arriveAndAwaitAdvance(); // blocks until all tasks are complete
}
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I would try using a fixed size executor pool. You can set the maximum size to 10 to 30 threads and lot it up with all 1000 requests, or add 1 request which create two more, and those two more etc. You can wait for all these request to complete with shutdown() and awaitTermination()

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Thanks, but I can't use shutdown/awaitTermination because the initiating thread doesn't know when the last task has been submitted. –  Paul Mar 9 '12 at 9:42
    
Each task can wait on the tasks it creates. It can do tail optimisation i.e. don't create another task if its the last thing its going to do. –  Peter Lawrey Mar 9 '12 at 10:41
1  
But then I'd run out of threads... unless I'm missing something. –  Paul Mar 9 '12 at 10:57

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