I have a number of Rust iterators specified by user input that I would like to iterate through in lockstep.

This sounds like a job for something like Iterator::zip, except that I may need more than two iterators zipped together. I looked at itertools::multizip and itertools::izip, but those both require that the number of iterators to be zipped be known at compile time. For my task the number of iterators to be zipped together depends on user input, and thus cannot be known at compile time.

I was hoping for something like Python's zip function which takes an iterable of iterables. I imagine the function signature might look like:

fn manyzip<T>(iterators: Vec<T>) -> ManyZip<T>
    T: Iterator

How can I zip more than two iterators? only answers for the situation where the number of iterators is known at compile time.

I can solve my particular problem using indices and such, it just feels like there ought to be a better way.

  • 1
    Supposing ManyZip existed, how should it implement Iterator -- should it yield Ts, or Vec<T>s, or impl Iterator<Item=T>s? Mar 22 '19 at 2:31
  • iterators: Vec<T> — you want to be able to only accept a vector of iterators that are all the exact same type?
    – Shepmaster
    Mar 22 '19 at 2:45
  • Taking a (possibly owned) iterator of iterators and having next() return an iterator would be nice, but I wasn't able to work out the types on a hypothetical function signature as I was writing the question.
    – Nick
    Mar 22 '19 at 5:14

Implement your own iterator that iterates over the input iterators and collects them:

struct Multizip<T>(Vec<T>);

impl<T> Iterator for Multizip<T>
    T: Iterator,
    type Item = Vec<T::Item>;

    fn next(&mut self) -> Option<Self::Item> {

fn main() {
    let mz = Multizip(vec![1..=2, 10..=20, 100..=200]);

    for v in mz {
        println!("{:?}", v);

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.