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I am using a priority_queue to store the K closest points found so far in a K-nearest-neighbor search. When I find a point closer than the point at the top of the queue, I want to pop the top element and push the new one.

if(point < pq.top()){

Generally, is it more efficient to pop first and then insert, or is it more efficient to insert first and then pop?

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What container class are you using to back the priority_queue? –  onitake May 1 '11 at 1:45
@onitake Vector. –  Null Set May 1 '11 at 1:46
@Null Set : Then isn't the answer self-evident? Knowing the behavior of vector, if you insert first and then pop, you have the potential to force the underlying vector to reallocate, whereas if you pop first and then insert, you don't. What are you asking about beyond that? –  ildjarn May 1 '11 at 1:55
@ildjarn I'm assuming it is implemented as a heap. I was thinking about the number of swaps and compares it has to do to perform the underlying heap functions in those two cases. –  Null Set May 1 '11 at 1:59
Why use a priority queue if you are totally replacing the nearest point? What is the priority based on? Why not just insert the point, then erase the furthest element (if you want to limit the size)? Not sure what the goal of your use-case is. –  Will Bradley May 1 '11 at 2:04

2 Answers 2

up vote 5 down vote accepted

If you are using std::priority_queue as your priority queue class, the standard container class std::vector is used for its underlying container class, by default.

Generally, it is less efficient to push first than pop first.

Reason one

Pushing an element in priority_queue will envoke vector::push_back which can potentially reallocate the underlying buffer if it exceeds it current capacity.

Reason two


When you pop an element from priority_queue, it calls the pop_heap algorithm to keep the heap property of priority_queues, and then calls the member function pop_back of the underlying container object to remove the element.


When you push an element to priority_queue, it calls the member function push_back of the underlying container object, and then calls the push_heap algorithm to keep the heap property of priority_queues.

Assume there are now N elements in priority queue.

If you push first, the algorithm push_heap is called two times, to adjust N+1 and N+1 elements, respectively.

If you pop first, the algorithm push_heap is called two times, to adjust N and N elements, respectively.


If you're implementing your own priority queue, this is probably a performance-saver. Since you already check the value with the top, I'm wondering if you can directly swap the element with the top without invoking the push/pop thus bypassing the heap adjusting algorithm. May not be practical though.

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realloc+memcpy operations aren't going to be an issue with a FIXED SIZE queue. –  corlettk May 1 '11 at 2:13
@corlettk, Right. But practically when using with std::priority_queue, it's may not be fixed anyway. –  Eric Z May 1 '11 at 2:16
Once the priority_queue gets up to size K it will oscillate between K and K+1, or K-1 and K depending on the order I choose. The realloc cost should only happen once. –  Null Set May 1 '11 at 2:28
@Null Set: If your program is single-threaded, your conclusion is true. Furthermore, I don't think reallocation overhead is a big deal by all means. As you're asking which one is "more" efficient instead of "how" efficient, I list it there. If your program isn't that time-critical, neither of them matters that much:) –  Eric Z May 1 '11 at 2:35


You're implementing a K-nearest-neighbor-search, so I'm going to presume that performance is a BIG concern.

If so, Just one tip with using the standard-queue, see if you can back it with an array (I'm out of my own depth here)... I'm guessing this fixed-size, random-access construct will be a tad more efficient that vector.

Then, if your queue is STILL a proven performance bottleneck, I'd look at rolling-my-own implementation of the priority-queue interface based on a btree (or even an rbtree).

How far you go with this is REALLY dependant on your maximum K. If K is small enough the standard vector-backed priority queue will be darn-near-as-quick-as THE most efficient conceivable solution. The trick is to observe the ACTUAL performance of the running program, in order to identify those "opportunities for improvement" which are likely to yeild the best performance improvement for your efforts.

Yup, I'm an algorithm racing fan... does it show?

Cheers. Keith.

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I may end up just implementing it myself. The operation I really want here is to replace the top of the heap with the new node and bubble down. –  Null Set May 1 '11 at 2:38

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