In Matlab, `sort`

returns both the sorted vector and an index vector showing which vector element has been moved where:

```
[v, ix] = sort(u);
```

Here, `v`

is a vector containing all the elements of `u`

, but sorted. `ix`

is a vector showing the original position of each element of `v`

in `u`

. Using Matlab's syntax, `u(ix) == v`

.

**My question:** How do I obtain `u`

from `v`

and `ix`

?

Of course, I could simply use:

```
w = zero(size(v));
for i = 1:length(v)
w(ix(i)) = v(i)
end
if nnz(w == u) == length(u)
print('Success!');
else
print('Failed!');
end
```

But I am having this tip-of-the-tongue feeling that there is a more elegant, single-statement, vectorized way of doing this.

*If you are wondering why one would need to do this instead of just using u*: I was trying to implement the Benjamini-Hochberg procedure which adjusts each element of the vector based on its position after sorting, but recovering the original order after adjusting was important for me.