This question already has an answer here:

I have a trivial quicksort implementation that goes by:

```
template <typename IteratorType>
void quicksort(IteratorType begin, IteratorType end)
{
if (begin != end)
{
const auto pivot = *(begin + distance(begin, end) / 2);
const IteratorType sep = std::partition(begin, end, [pivot](typename IteratorType::value_type v){ return (v < pivot); });
if (sep != begin)
{
quicksort(begin, sep);
}
if (sep != end)
{
quicksort(sep + 1, end);
}
}
}
```

Testing it on a 1000000 elements array takes about forever (6300 ms) before sometimes dying of recursion, while `std::sort`

takes like 30 ms.

Surely I don't expect my crappy implementation to be as fast as `std::sort`

but how can there be such a huge difference ?

I understand `std::sort`

uses something more complicated than a simple quicksort (I believe it is introsort) that prevents going too far the recursion level and stuff. But still, is there something obvious I'm missing that could explain such a huge difference ?

Varying the size of the arraw shows that the difference factor is not constant, actually it seems to grow like `n²`

.