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`k`

smallest integer.^{th}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 `k`

element is simple: just remove ^{th}`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) {
s.push(pq.remove());
}
int kthValue = s.peek();
while (!s.empty()) {
pq.add(s.pop());
}
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

`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