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I am working (In java) on a recursive image processing algorithm that recursively traverses the pixels of the image, outward from a center point.

Unfortunately... That causes stack overflows, so I have decided to switch to a Queue-based algorithm.

Now, this is all fine and dandy -- But considering the fact that its queue will be analyzing THOUSANDS of pixels in a very short amount of time, while constantly popping and pushing, WITHOUT maintaining a predictable state (It could be anywhere between length 100, and 20000); The queue implementation needs to have significantly fast popping and pushing abilities.

A linked list seems attractive due to its ability to push elements unto its self without rearranging anything else in the list, but in order for it to be fast enough, it would need easy access to both its head, AND its tail (or second-to-last node if it were not doubly-linked). Sadly, though I cannot find any information related to the underlying implementation of linked lists in Java, so it's hard to say if a linked list is really the way to go...

This brings me to my question... What would be the best implementation of the Queue interface in Java for what I intend to do? (I do not wish to edit or even access anything other than the head and tail of the queue -- I do not wish to do any sort of rearranging, or anything. On the flip side, I DO intend to do a lot of pushing and popping, and the queue will be changing size quite a bit, so preallocating would be inefficient)

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Maybe you need to step back and think about if there is a better way than pushing thousands of individual pixels one by one into a data structure (if that is indeed what you are doing). – Thilo Jun 22 '12 at 3:27
It's a blob detection algorithm, the idea is that it starts from a point on the blob and traverses outwards to the edge of the blob. I do not believe there is any other (simple) way of doing this. Also, the queue just stores points of interest -- It doesn't actually keep the pixels in the queue, the queue mainly just serves as a way of keeping track of where it is. Similar to many pathfinding algorithms – Georges Oates Larsen Jun 22 '12 at 3:29
up vote 23 down vote accepted

LinkedList seems to a way to go, LinkedList is a doubly linked list, which is good for a Queue data structure (FIFO). It maintains a Head/Tail references, which you can get by getFirst() and getLast().

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Ahah, thank you very much :) – Georges Oates Larsen Jun 22 '12 at 3:30
I would prefer using the Queue methods implemented by the linkedList : add to enqueue and poll to dequeue. – Snicolas Dec 2 '13 at 18:44

If you use LinkedList be careful. If you use it like this:

LinkedList<String> queue = new LinkedList<String>();

then you can violate queue definition, because it is possible to remove other elements than first (there are such methods in LinkedList).

But if you use it like this:

Queue<String> queue = new LinkedList<String>();

it should be ok,as this is heads-up to users that insertions should occur only at the back and deletions only at the front.

You can overcome defective implementation of the Queue interface by extending the LinkedList class to a PureQueue class that throws UnsupportedOperationException of any of the offending methods. Or you can take approach with aggreagation by creating PureQueue with only one field which is type LinkedList object, list, and the only methods will be a default constructor, a copy constructor, isEmpty(), size(), add(E element), remove(), and element(). All those methods should be one-liners, as for example:

* Retrieves and removes the head of this queue.
* The worstTime(n) is constant and averageTime(n) is constant.
* @return the head of this queue.
* @throws NoSuchElementException if this queue is empty.
public E remove()
    return list.removeFirst();
} // method remove()
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Check out the Deque interface, which provides for insertions/removals at both ends. LinkedList implements that interface (as mentioned above), but for your use, an ArrayDeque may be better -- you won't incur the cost of constant object allocations for each node. Then again, it may not matter which implementation you use.

Normal polymoprhism goodness comes to play: the beauty of writing against the Deque interface, rather than any specific implementation of it, is that you can very easily switch implementations to test which one performs best. Just change the line with new in it, and the rest of the code stays the same.

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If you know the upper bound of possible quantity of items in the queue, circular buffer is faster than LinkedList, as LinkedList creates an object (link) for each item in the queue.

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I think you can some up with simple like implementation

package DataStructures;

public class Queue<T> {

   private Node<T> root;

   public Queue(T value) {
      root = new Node<T>(value);

   public void enque(T value) {
      Node<T> node = new Node<T>(value);
      root = node;

   public Node<T> deque() {

      Node<T> node = root;
      Node<T> previous = null;

      while( != null) {
         previous = node;
         node =;
      node =;
      return node;

   static class Node<T> {

      private T value;
      private Node<T> next;

      public Node (T value) {
         this.value = value;

      public void setValue(T value) {
         this.value = value;

      public T getValue() {
         return value;

      public void setNext(Node<T> next) { = next;

      public Node<T> next() {
         return next;
share|improve this answer
Deque operation takes O(n) time in worst case and a queue data structure should take constant time for insertion and deletion.This is a naive implementation of a queue and please avoid it. – user1613360 Jul 7 '15 at 18:04
Why are you returning Node<T> instead of T in your deque method? – zzg Nov 18 '15 at 15:33

However, if you still want to use the recursive algorithm, you can change it to be "tail-recursive" which probably is optimized in the JVM to avoid stack overflows.

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