First of all: the compilers do not provide *any* implementation of `std::sort`

. Whilst traditionally each compiler comes prepackaged with a Standard Library implementation (which heavily relies on compilers' built-ins) you could in theory swap one implementation for another. One very good example is that Clang compiles both libstdc++ (traditionally packaged with gcc) and libc++ (brand new).

Now that this is out of the way...

`std::sort`

has traditionally been implemented as an *intro-sort*. From a high-level point of view it means a relatively standard quick-sort implementation (with some median probing to avoid a O(n^{2}) worst case) coupled with an insertion sort routine for small inputs. libc++ implementation however is slightly different and closer to TimSort: it detects already sorted sequences in the inputs and avoid sorting them again, leading to an O(n) behavior on fully sorted input. It also uses optimized sort networks for small inputs.

`std::stable_sort`

on the other hand is more complicated by nature. This can be extrapolated from the very wording of the Standard: the complexity is O(n log n) *if* sufficient additional memory can be allocated (hinting at a *merge-sort*), but degenerates to O(n log^{2} n) if not.