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I'm building a Java Running class that will treat a set of items one by one. When working (running), that set may be updated (items added only).

How can I loop over that list by being sure that it will take into consideration newly added elements?

Update

Following the answers, I implemented the code that I suggested on Code Review.

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    @user1933888 - Still the updated values are not guaranteed to be visible Feb 11, 2015 at 10:27

3 Answers 3

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Answer

You shoud use a Queue, i.e. java.util.concurrent.ConcurrentLinkedQueue, java.util.concurrent.LinkedBlockingQueue, java.util.concurrent.ArrayBlockingQueue or one of the other implementations that suits your needs.

They have different methods which allow you to implement different scenarios. You can check javadocs for differences between Queue methods (there are methods throwing exceptions, or returning nulls; methods for viewing elements or for retrieving them with removal).

                   Throws exception       Returns special value

Insert          add(e)                          offer(e)

Remove     remove()                       poll()

Examine    element()                      peek()

In case of BlockingQueue implementations there are additionally 2 options: blocking methods and methods that time out. The extended table for possible methods is in it's javadoc.

Choose carefully the required implementation. Do you want a fixed capacity? Do you want to block on retrieval from empty queue? Do you want your Queue bounded or unbounded. If still in doubt, look up Stack Overflow answers that explain differences between different queue types, Google them or check javadocs.

RANT

There is one problem you may or may not run into, depending on your design - how to tell the queue is empty because you are done producing elements. Is your producer (whatever is inserting elements into your queue) not fast enough to add items to the queue before they are consumed? Or is the queue empty because all the tasks where completed? In the latter case, if you use a blocking queue, you can block on retrieval of element when there will be none available. You can consider a non-blocking queue in such case, using a "poison pill" marker element that means the producers are done producing, or even better decouple producer from consumer by using an intermediary mediator class which holds the queue and producer / consumer interact only with the mediator.

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Use a queue (for example, java.util.concurrent.LinkedBlockingQueue) instead of a list. Queues are specifically designed for this kind of scenario.

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  • You are talking about Java Queue or Queue systems like "Redis" ?
    – Cyril N.
    Feb 11, 2015 at 10:26
  • I am talking about the Java queue, for example, the LinkedBlockingQueue class from java.util.concurrent.
    – yole
    Feb 11, 2015 at 10:29
  • Thanks for the feedback. Since I will run the runnable element from asyncs with the use of Promise, is LinkedBlockingQueue the best choice ? (sorry I'm just discovering Queue)
    – Cyril N.
    Feb 11, 2015 at 10:33
  • Sorry, I didn't quite get what you're asking.
    – yole
    Feb 11, 2015 at 10:35
  • @CyrilN. - Well, the performance of BlockingQueues will be bad when compared to Lists. But if you want the elements to be visible, you need to use a blocking queue. Feb 11, 2015 at 10:35
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Don't go with List.

If I you use a Queue instance then you can call remove() and you would retrieve the elements in FIFO order. If you use an List instance then you can make no such guarantee.

Take the following code as an example:

    ArrayList<Integer> list = new ArrayList<Integer>();

    list.add(5);
    list.add(4);
    list.add(3);
    list.add(2);
    list.add(1);


    list.set(4,5);
    list.set(3,4);
    list.set(2,3);
    list.set(1,2);
    list.set(0,1);

    System.out.println(list);

Also, another difference is abstraction. With a Queue instance you don't have to worry about indexes and this makes things easier to think about if you don't need everything a List has to offer.

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