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I wonder if the following structure is safe-thread. I know that I should synchronize all accesses to enc (read, write, adding/substracting). But I'd like to know if the boolean arrays are safe. They change constantly by many different threads. I certainly talk about the array elements and not the array reference.

public class SimBox {

    public static final int HP = 100;
    public static final int LP = 35;

    public static volatile boolean[] ins = new boolean[16];
    public static volatile boolean[] outs = new boolean[16];

    public static volatile int enc = 0;

}

Note: In this case I don't need to reinitialize the arrays. I only read and write their elements. I wonder if I should declare them final too?!

What are they for?

To simulate a hardware/mechanical machine movements.

  • There are some threads that update outs fields according the realtime content of ins fields.
  • There are some threads that change ins fields according enc value and and some other external factors.
  • There is a unique thread that updates enc by adding/substracting HP or LP according to output and input threads.
  • There are some other threads that read enc value and take their decisions for other parts of the program or for changing outs.
  • It's quiet important that all these data be available to read/write at most after 40ms. Otherwise there will be some anomolies.
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1  
What do you mean by "safe"? volatile only guarantees that a thread reading ins or outs will see the most recent value written into the variable. That's not the same as safety. –  Chris Hayes Dec 24 '13 at 1:00
    
if it treats the boolean elements of the array as boolean variables, then it's enough. Because the operation on a boolean var is atomic. I either write or read a true or false! @ChrisHayes btw, I edited the question and added a note. –  Johnny Dec 24 '13 at 1:04
1  
Atomic operations are operations that are supported by CPU as atomic. You have an array and for instance ins[x] = y ; is not an atomic operation. If you specify little bit more what you would like to do with the data structure, it would be possible to say if volatile is enough of it would be better to use something from java.concurrency. –  JosefN Dec 24 '13 at 1:08
    
@JosefN I added more information if you find it useful! –  Johnny Dec 24 '13 at 1:26
    
@Johnny thx, it is not so complicated, HP, LP can be changed to AtomicInteger and to keep performance ins and outs to AtomicReference. Threads than make copy of them, calculate new values and assign new value using compareAndSet(). If compareAndSet() does not succeeded the thread repeats: make copy, calculate new values and try once more. It looks weird but it is far faster then synchronization or using locks. I can make an example if you are interested. Happy Xmas :) –  JosefN Dec 24 '13 at 11:48

1 Answer 1

up vote 2 down vote accepted

Does volatile synchronise an array of atomic data types?

No. However, your example is not using atomic data types.

I wonder if the following structure is safe-thread (sic).

No, it is not. There are lots of ways that that data structure could be accessed / updated that would not be thread-safe.

I wonder if I should declare them final too?!

That would be a good idea, but it doesn't make the arrays thread-safe.


If you want to achieve thread-safe access and update to an array (without using synchronized), you should look at the atomic array classes. There are three of them: AtomicIntegerArray, AtomicLongArray and AtomicReferenceArray. You could also potentially use ordinary (unsynchronized) arrays of AtomicBoolean ... provided that the array's were safely published to the threads and never updated by them.

But it is not clear to me that atomic arrays that are "randomly" changed by lots of threads are going to be usable for your purposes. For a start, atomic arrays do not provide a way to get a consistent snapshot of the array for analysis purposes. The only way you can achieve that is to "pause" or "stop" all of the threads while your (hypothetical) code examines the atomic array.

If you need to get consistent snapshots without explicitly stopping / pausing everything, you may be better off using synchronized rather than "atomic" types.

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Their changes are random from this question part of view. I should implement thousands of lines to simulate their behaviour. FYI. they are the ports of this device phidgets.com/products.php?product_id=1012 –  Johnny Dec 24 '13 at 1:45
    
Do you mean that I should use synchronized getIns() or synchronized getIns(int i) ? / I mean the same for the setters. However I note that the correct simulation will be for getIns(int i) because the phidgets libraries have only this kind of method. –  Johnny Dec 24 '13 at 1:54
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@Johnny - I think you really need to get a copy of "Java Concurrency In Practice" by Goetz et al. (I noticed a downloadable PDF when I googled it ...) –  Stephen C Dec 24 '13 at 1:57
    
thanks! I hope to be able to study it these days! –  Johnny Dec 24 '13 at 2:05

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