Consider this approach...

From the permutation, get the inverse permutation, by swapping the rows and
sorting according to the top row order. This is O(nlogn)

Then, simulate performing the inverse permutation and count the swaps, for O(n). This should give the parity of the permutation, according to this

An even permutation can be obtained as the composition of an even
number and only an even number of exchanges (called transpositions) of
two elements, while an odd permutation be obtained by (only) an odd
number of transpositions.

from Wikipedia.

Here's some code I had lying around, which performs an inverse permutation, I just modified it a bit to count swaps, you can just remove all mention of `a`

, `p`

contains the inverse permutation.

```
size_t
permute_inverse (std::vector<int> &a, std::vector<size_t> &p) {
size_t cnt = 0
for (size_t i = 0; i < a.size(); ++i) {
while (i != p[i]) {
++cnt;
std::swap (a[i], a[p[i]]);
std::swap (p[i], p[p[i]]);
}
}
return cnt;
}
```