I have two Vecs that correspond to a list of feature vectors and their corresponding class labels, and I'd like to co-sort them by the class labels.

However, Rust's sort_by operates on a slice rather than being a generic function over a trait (or similar), and the closure only gets the elements to be compared rather than the indices so I can sneakily hack the sort to be parallel.

I've considered the solution:

let mut both = data.iter().zip(labels.iter()).collect();
both.sort_by( blah blah );
// Now split them back into two vectors

I'd prefer not to allocate a whole new vector to do this every time because the size of the data can be extremely large.

I can always implement my own sort, of course, but if there's a builtin way to do this it would be much better.

  • 1
    @Shepmaster I'm passing it into libsvm which requires them to be separate, so unfortunately yes.
    – Linear
    Sep 14, 2015 at 12:32
  • 4
    One way to minimise allocations is to only allocate a vector of indices (if you'll have fewer than 4 billion elements, they only need to be u32, so 4 bytes per elem) and sort that via sort_by indexing into labels. The result can then be used to permute data and labels into the right order. (Unfortunately still allocates O(n) memory, of course.)
    – huon
    Sep 14, 2015 at 12:45
  • 3
    As sort_by doesn’t do it itself, you’d need to implement the sorting yourself, probably using sort_by as the basis. Oh, and it can’t just give you the indices, because they’re not constant. If you really were to insist on using sort_by, you’d need to do pointer comparison to get the index of an element in the slice and then figure out what sort_by is going to do with your response and do it to the other vector yourself, which would be an utterly mad and fragile way of doing it. So yeah, just look at what sort_by does and copy it. Sep 14, 2015 at 12:55
  • 4
    Note that sort_by already allocates 2n space, so you're not going to avoid allocation unless you use a different sorting function. Sep 14, 2015 at 17:19
  • 2
    [T]::sort/sort_by is a stable sort. There are alternatives on crates.io if you need a non-stable nonallocating sort.
    – bluss
    Sep 16, 2015 at 11:34

1 Answer 1


I just wrote a crate "permutation" that allows you to do this :)

let names = vec!["Bob", "Steve", "Jane"];
let salary = vec![10, 5, 15];
let permutation = permutation::sort(&salary);
let ordered_names = permutation.apply_slice(&names);
let ordered_salaries = permutation.apply_slice(&salary);
assert!(ordered_names == vec!["Steve", "Bob", "Jane"]);
assert!(ordered_salaries == vec![5, 10, 15]);

It likely will support this in a single function call in the future.

  • 4
    Thank you for contributing to the Rust community. For my purposes, it's a shame that this is licensed under the GPL and not MIT / Apache, like the majority of Rust libraries.
    – Shepmaster
    Mar 26, 2017 at 21:27
  • 10
    I have updated the license to be dual licensed under Apache / MIT, like Rust is. Apr 30, 2017 at 22:18
  • Unfortunately this is quite slow as applying the permutation now involves random access reads whereas sorting is using mostly localized memory access.
    – orlp
    Oct 13, 2021 at 11:57
  • @orlp do you have a benchmark or is this just speculation? Jan 24 at 8:59

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