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Editorial Team
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Asked: 2026-05-24T21:29:19+00:00

I need to update some fixed-priority elements in a PriorityQueue based on their ID.

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I need to update some fixed-priority elements in a PriorityQueue based on their ID. I think it’s quite a common scenario, here’s an example snippet (Android 2.2):

for (Entry e : mEntries) {
    if (e.getId().equals(someId)) {
        e.setData(newData);
    }
}

I’ve then made Entry “immutable” (no setter methods) so that a new Entry instance is created and returned by setData(). I modified my method into this:

for (Entry e : mEntries) {
    if (e.getId().equals(someId)) {
        Entry newEntry = e.setData(newData);
        mEntries.remove(e);
        mEntries.add(newEntry);
     }
}

The code seems to work fine, but someone pointed out that modifying a queue while iterating over it is a bad idea: it may throw a ConcurrentModificationException and I’d need to add the elements I want to remove to an ArrayList and remove it later. He didn’t explain why, and it looks quite an overhead to me, but I couldn’t find any specific explanation on internet.

(This post is similar, but there priorities can change, which is not my case)

Can anyone clarify what’s wrong with my code, how should I change it and – most of all – why?

Thanks,
Rippel

PS: Some implementation details…

PriorityQueue<Entry> mEntries = new PriorityQueue<Entry>(1, Entry.EntryComparator());

with:

public static class EntryComparator implements Comparator<Entry> {
    public int compare(Entry my, Entry their) {
        if (my.mPriority < their.mPriority) {
            return 1;
        }
        else if (my.mPriority > their.mPriority) {
            return -1;
        }
        return 0;
    }
}
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1 Answer

  1. Editorial Team

    This code is in the Java 6 implementation of PriorityQueue:

    private class Itr implements Iterator<E> {
  /**
   * The modCount value that the iterator believes that the backing
   * Queue should have.  If this expectation is violated, the iterator
   * has detected concurrent modification.
   */
  private int expectedModCount = modCount;

  public E next() {
    if(expectedModCount != modCount) {
      throw new ConcurrentModificationException();
    }


  }

}

    Now, why is this code here? If you look at the Javadoc for ConcurrentModificationException you will find that the behaviour of an iterator is undefined if modification occurs to the underlying collection before iteration completes. As such, many of the collections implement this modCount mechanism.

    To fix your code

    You need to ensure that you don’t modify the code mid-loop. If your code is single threaded (as it appears to be) then you can simply do as your coworker suggested and copy it into a list for later inclusion. Also, the use of the Iterator.remove() method is documented to prevent ConcurrentModificationExceptions. An example:

    List<Entry> toAdd = new ArrayList<Entry>();
Iterator it = mEntries.iterator();
while(it.hasNext()) {
  Entry e = it.next();

  if(e.getId().equals(someId)) {
    Entry newEntry = e.setData(newData);
    it.remove();
    toAdd.add(newEntry);
  }
}
mEntries.addAll(toAdd);
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