In the case where the data already has the heap property, there's an obvious sorting algorithm that doesn't apply to data without the property -- repeatedly remove the maximum element of the heap and restore the heap property. This is how heapsort works (first heapify the data, then use the heap property to sort it).

So, suppose that you have a heap and you want it sorted. You could call `std::sort`

, but `std::sort_heap`

exists to hint that this algorithm be used[*]. It makes at least some sense to provide the programmer with a means to *potentially* improve the sort performance. Whether it's actually faster or not is another matter.

Observe that `std:sort`

is permitted to be implemented as a heapsort, although I doubt that it ever is.

The world would go on if `sort_heap`

were not available, since there's another way to get the same behavior: repeatedly call `pop_heap`

on a smaller and smaller initial segment of your original heap. So if it troubles you, view it as a pure convenience function. It's possible there are optimizations than can be applied, though, to make `sort_heap`

a little better than this.

A historical note that might have affected the thinking of the authors of C++03: in the SGI version of the STL, `sort`

was defined to use introsort and `partial_sort`

was defined to use heapsort. I don't think that's exactly the rationale for including it in the standard, though: it's also an "obvious" function to include with the heap algorithms.

[*] it's a pretty strong hint, since the complexity requirement for `sort_heap`

is "at most N log N comparisons", not "O(N log N) comparisons". So an implementation can't have `sort_heap`

call `sort`

unless it knows that its own `sort`

implementation performs at most that many comparisons when the input data has the heap property.