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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)

if nnz(w == u) == length(u)

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.

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1 Answer 1

up vote 5 down vote accepted

The solution is:

w(ix) = v;

This is a valid Matlab operation provided that w is either at least as big as v, or not yet declared.


>> u = [4 8 10 6 2];
>> [v, ix] = sort(u)

    v = 2 4 6 8 10        
    ix = 5 1 4 2 3

>> u(ix)

    ans = 2 4 6 8 10

>> w(ix) = v

    w = 4 8 10 6 2

(Apologies for the trivial question-answer, but I realized the solution as I was typing the question, and thought it might be useful to someone.)

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"Apologies for the trivial question-answer" - no problem. Self-answering (or even asking a question for the sole purpose of answering it yourself) is perfectly good on StackOverflow because it helps future visitors. – user529758 Nov 15 '12 at 22:09

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