Binary heaps are commonly used in e.g. priority queues. The basic idea is that of an incomplete heap sort: you keep the data sorted "just enough" to get out the top element quickly.

While 4-ary heaps are theoretically worse than binary heaps, they do also have some benefits. For example, they will require less heap restructuring operations (as the heap is much shallower), while obvisouly needing more comparisons at each level. But (and that probably is their main benefit?) they may have better CPU cache locality. So some sources say that 3-ary and 4-ary heaps outperform both Fibonacci and binary heaps *in practise*.
They should not be much harder to implement, the additional cases are just some extra `if`

cases.

Has anyone experimented with 4-ary heaps (and 3-ary) for priority queues and done some benchmarking? In Java you never know if they are faster or slower before you benchmarked them extensively. And from all I've found via Google, it may be quite language and use case dependant. Some sources say that they found 3-ary to perform best for them.

Some more points:

`PriorityQueue`

obviously is a binary heap. But the class for example also lacks bulk loading and bulk repair support, or`replaceTopElement`

which can make a huge difference. Bulk loading for example is`O(n)`

instead of`O(n log n)`

; bulk repair is essentially the same after adding a larger set of candidates. Tracking which parts of the heap are invalid can be done with a single integer.`replaceTopElement`

is much cheaper than`poll`

+`add`

(just consider how a poll is implemented: replace the top element with the very last)- While heaps of course are popular for complex objects, the priority often is an integer of double value. It's not as if we are comparing strings here. Usually it is a (primitive)
*priority* - PQs are often used just to get the top k elements. For example A*-search can terminate when the goal is reached. All the less good paths are then discarded. So the queue is never completely emptied. In a 4-way heap, there is
*less*order: approximately half as much (half as many parent nodes). So it will impose less order on these elements that are not needed. (This of course differs if you intend to empty your heap completely, e.g. because you are doing heap sort.)

slower. (That's the theory. In practice, locality of reference would probably benefit the quaternary heap slightly; but I still don'tthinkit would be enough to make it a win, especially if the comparison operations are atallexpensive.) – ruakh Dec 24 '12 at 0:56gap between theoretically optimal and in practice optimal, in particular with Java. That's why I asked if anyone hasbenchmarked. – Anony-Mousse Dec 24 '12 at 2:20