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I'm doing the following problem for fun / Java practice:

Write a method kthSmallest that takes in a PriorityQueue of integers as input and outputs the kth smallest integer. The internal state of the priority queue passed in should not be changed by the method. You may use ONLY one queue or stack as extra data. No other data structures allowed. k is 1-indexed (k = 1 means the smallest value).

Getting the kth element is simple: just remove k times since it's a priority queue. I figured that I could just pop off, put the elements on a stack for storage, and then add them back to the queue once I'm done. That doesn't work though since the elements get ordered differently in the priority queue.

Here's my code for curiosity:

public int kthSmallest(PriorityQueue<Integer> pq, int k) {
    Stack<Integer> s = new Stack<Integer>();

    for (int i = 1; i <= k; ++i) {

    int kthValue = s.peek();

    while (!s.empty()) {

    return kthValue;

So how can I do this while maintaining the internal state of the priority queue?

P.S. - You can view the problem yourself here

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Are you sure the exact internal state matters? No externally visible properties of the priority queue are different at the end. That sounds unchanged enough to me. –  user2357112 Jul 10 '13 at 0:29
Yeah :/ It's an online simulator and it fails if the internal state is different at all. If you're curious: practiceit.cs.washington.edu/… –  Casey Patton Jul 10 '13 at 0:30
@user2357112 Actually that's not true. Iteration would reveal differences if there are any. –  EJP Jul 10 '13 at 0:35
@EJP The order of iteration over a priority queue is not specified. –  arshajii Jul 10 '13 at 0:35
I really don't think that's the problem. After all, the PriorityQueue is free to do whatever it wants to its internal state, even start a new thread and mess with its innards while you're doing something completely unrelated, as long as it provides the operations it documents with the invariants it documents. –  user2357112 Jul 10 '13 at 0:39

3 Answers 3

You can't guarantee anything about the underlying state: the only concept of order that a PriorityQueue has is the one provided by the Comparator you specify when creating it (or the natural ordering of its elements). You as the user know nothing beyond that, and it really shouldn't make any difference how the elements are stored so as long as the behavior of the queue is in accordance with what is expected based on its specification.

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This simulator demands that the internal state is not changed. That's why my code is failing. Check it yourself if you're curious: practiceit.cs.washington.edu/… –  Casey Patton Jul 10 '13 at 0:39
@CaseyPatton That's an odd constraint, but one thing you could try is creating a copy via PriorityQueues copy constructor, and work with the copy instead. i.e. just add pq = new PriorityQueue<Integer>(pq) at the start. –  arshajii Jul 10 '13 at 0:42
I agree it's a weird constraint. That's a simple solution, but the problem definition specifies that "You may use one queue or stack as extra data", and an extra priority queue is not allowed. –  Casey Patton Jul 10 '13 at 0:43
Maybe this problem's just messed up? I mean, one solution I could think of is to just access the internal array of the priority queue and then iterate through the array k times (via recursion) and return that value. I SERIOUSLY doubt that's what the problem writer had in mind, though haha. –  Casey Patton Jul 10 '13 at 0:46
You're probably right. I just e-mailed the creator of the problem letting him know. On to the next! –  Casey Patton Jul 10 '13 at 1:00

Why are you removing? There's no need to modify the passed in data structure, and that's why your algorithm is failing. This is nothing more than an ITERATOR/VISITOR. All you need to do is traverse the queue and maintain a list/array of smallest numbers.

Also note that your assumption that the kth smallest integer in the queue is the same as the numbers removed in priority is not necessarily correct. A priority queue != heap. In this instance, I may have a Priority Queue of integers, each of which has a priority field.

class Node<Integer>
   Integer data;
   int priority;

class PriorityQueue {
   List<Node> nodes;

   Integer getHighestPriority() { 
      int maxPriorityIndex = 0;
      for(int i=0; i< nodes.size(); i++) {
      if(n.priority > maxPriority) {
           maxPriorityIndex = nodes.get(i);
      return nodes.get(maxPriorityIndex);
share|improve this answer
Could you give more detail on this solution? Finding the k-th smallest element would take "k" traversals (we can't assume the underlying collection is sorted, right?). Doing k traversals would require recursion....and I'm doubting that's what this problem was shooting for, though I realize it's possible. –  Casey Patton Jul 10 '13 at 1:04

many hints have been stated, i'll keep my answer short:

you are working with method calls from the given object, that you don't have any knowledge from. you don't know if a weird comparator is used, to compare the integers inside the queue (e.g. a comparator that says, all things are equal and will always return 0). that's why you should in no case, modify the given object (like you do with poll/add).

in this case, to workaround this, you can use a buffer object (like stated in the question, a queue or a stack (i used a queue like the given one) to use a comparator of your choice and buffer it by adding your given queue to the buffer object.

my solution at pastebin since i don't have any spoiler tags :-(

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