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I am calculating a large number of possible resulting combinations of an algortihm. To sort this combinations I rate them with a double value und store them in PriorityQueue. Currently, there are about 200k items in that queue which is pretty much memory intesive. Acutally, I only need lets say the best 1000 or 100 of all items in the list. So I just started to ask myself if there is a way to have a priority queue with a fixed size in Java. I should behave like this: Is the item better than one of the allready stored? If yes, insert it to the according position and throw the element with the least rating away.

Does anyone have an idea? Thanks very much again!


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8 Answers 8

if (que.size() > YOUR_LIMIT)

or did I missunderstand your question?

edit: forgot to mention that for this to work you probably have to invert your comparTo function since it will throw away the one with highest priority each cycle. (if a is "better" b compare (a, b) should return a positvie number.

example to keep the biggest numbers use something like this:

public int compare(Double first, Double second) {
    		// keep the biggest values
    		return first > second ? 1 : -1;
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This answer is amazing. Extremely simple, works on all programming languages, is performing fast (pqueue is small). Cannot thank you enough for such smart solution. –  Alexandros Jan 8 '14 at 19:36

There is a fixed size priority queue in Apache Lucene: http://lucene.apache.org/java/2%5F4%5F1/api/org/apache/lucene/util/PriorityQueue.html

It has excellent performance based on my tests.

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MinMaxPriorityQueue, Google Guava

There is indeed a class for maintaining a queue that, when adding an item that would exceed the maximum size of the collection, compares the items to find an item to delete and thereby create room: MinMaxPriorityQueue found in Google Guava as of version 8.


By the way, if you merely want deleting the oldest element without doing any comparison of the objects’ values, Google Guava 15 gained the EvictingQueue class.

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It seems natural to just keep the top 1000 each time you add an item, but the PriorityQueue doesn't offer anything to achieve that gracefully. Maybe you can, instead of using a PriorityQueue, do something like this in a method:

List<Double> list = new ArrayList<Double>();
list = list.subList(0, 1000);
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also using a TreeMap, you have the highest value readily available and you can avoid insertions altogether if the current result is greater than that, removing the last key and inserting the new value otherwise –  Lorenzo Boccaccia Dec 4 '09 at 12:03
@Lorenzo, Map isn't good as it will not allow two combinations having the same rating. –  gustafc Dec 4 '09 at 12:27
this approach does not have the performance benefits of black red tree implementation and performance killer –  nimcap Mar 17 '10 at 15:09

Use SortedSet:

SortedSet<Item> items = new TreeSet<Item>(new Comparator<Item>(...));
void addItem(Item newItem) {
    if (items.size() > 100) {
         Item lowest = items.first();
         if (newItem.greaterThan(lowest)) {

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A set will not allow several Items to have the same rating. –  gustafc Dec 4 '09 at 12:28
Depends on how you define Comparator for Set -- it can consider not only rating, but some unique field of Item, like id. –  Victor Sorokin Dec 4 '09 at 13:13

I had a similar requirement and ended up extending PriorityQueue to not add anymore items after the queue reaches initially specified size

public class FixedPriorityQueue<E> extends PriorityQueue<E> {

private static final long serialVersionUID = 1L;

private final int fixedsize;

public FixedPriorityQueue(int n) {
    fixedsize = n;

public boolean add(E e) {
    // TODO Auto-generated method stub
    if (this.size() >= fixedsize) {
        return false;
    return super.add(e);


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A better approach would be to more tightly moderate what goes on the queue, removing and appending to it as the program runs. It sounds like there would be some room to exclude some the items before you add them on the queue. It would be simpler than reinventing the wheel so to speak.

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Just poll() the queue if its least element is less than (in your case, has worse rating than) the current element.

static <V extends Comparable<? super V>> 
PriorityQueue<V> nbest(int n, Iterable<V> valueGenerator) {
    PriorityQueue<V> values = new PriorityQueue<V>();
    for (V value : valueGenerator) {
        if (values.size() == n && value.compareTo(values.peek()) > 0)
            values.poll(); // remove least element, current is better
        if (values.size() < n) // we removed one or haven't filled up, so add
    return values;

This assumes that you have some sort of combination class that implements Comparable that compares combinations on their rating.

Edit: Just to clarify, the Iterable in my example doesn't need to be pre-populated. For example, here's an Iterable<Integer> that will give you all natural numbers an int can represent:

Iterable<Integer> naturals = new Iterable<Integer>() {
	public Iterator<Integer> iterator() {
		return new Iterator<Integer>() {
			int current = 0;
			public boolean hasNext() {
				return current >= 0;
			public Integer next() {
				return current++;
			public void remove() {
				throw new UnsupportedOperationException();

Memory consumption is very modest, as you can see - for over 2 billion values, you need two objects (the Iterable and the Iterator) plus one int.

You can of course rather easily adapt my code so it doesn't use an Iterable - I just used it because it's an elegant way to represent a sequence (also, I've been doing too much Python and C# ☺).

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Does this assume you have all the items in valueGenerator already? –  kishi Dec 4 '09 at 12:40
I think one of the goals of the OP is to avoid accumulating so many items in an Iterable in the first place. Furthermore, if the higher the ranking the better the algorithm, then peek is not what you want. –  kishi Dec 4 '09 at 12:42
No, you don't need to have them all available. An iterator can generate values on the fly in its next() method. –  gustafc Dec 4 '09 at 13:06
And why wouldn't peek() do the trick? It returns the least element, and if the current element is better than the least element, I throw the least element away and add the current. I tested the code, it works. –  gustafc Dec 4 '09 at 13:10
Yep u're right, the head is indeed the least element. For some reason I thought it was the other way around. –  kishi Dec 4 '09 at 14:10

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