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**

priority_queue::pop

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.

priority_queue::push

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.

**Aside**

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.

`vector`

, if you insert first and then pop, you have thepotentialto 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