The general problem here is that an array has a fixed size, known at compile-time, but the number of items in an iterator is not known at compile-time — even if it is an ExactSizeIterator
, there's no const parameter for the size. Therefore, there are no infallible conversions from an iterator to an array.
However, there are fallible conversions available. The most straightforward commonly-useful one is impl<T, A, const N: usize> TryFrom<Vec<T, A>> for [T; N]
, which allows you to convert a Vec<T>
to [T; N]
, failing if the vector is of the wrong length.
use std::convert::TryInto;
let arr: [i32; 5] = (1..=5).collect::<Vec<_>>()
.try_into().expect("wrong size iterator");
This has the disadvantage of making a temporary heap allocation for the Vec
and discarding it. If you do want the array to live on the heap, then you might want to use TryFrom<Box<[T], Global>> for Box<[T; N], Global>
instead, which allows you to get a boxed array from a boxed slice.
let arr: Box<[i32; 5]> = (1..=5)
.collect::<Box<[i32]>>()
.try_into().expect("wrong size iterator");
If you want the array to be stack allocated and to avoid temporary allocations, then you will have to work with std::iter::from_fn()
, slightly awkwardly:
let mut iter = 1..=5;
let arr: [i32; 5] = std::array::from_fn(|_| iter.next().expect("too short"));
assert!(iter.next().is_none(), "too long");
(If you're confident in the length then there's no need to assert afterward, but an expect/unwrap inside is unavoidable.)
The second problem is trying to initialize an array from a simple map over an array on i32. This doesn't work:
let mut arr2: [i32; 5] = arr.iter().map(|&x| x + 1).collect();
This doesn't work for the same reason as the first: you can't currently collect directly into an array. Any of the techniques I mentioned above will also work for this case.
Since this question and answer were originally written, arrays have now gained a method map
which you can use to do this without going through an iterator:
let mut arr2: [i32; 5] = arr.map(|x| x + 1);
Indeed even printing (without assigning) doesn't work:
This is actually a different problem than the others. println!("{:?}", some_iterator.collect())
will always fail, because you haven't specified what type to collect into. collect()
never assumes a collection type; it always has to be specified or inferred from context.
If you specify a type, then you can print the results of the iterator; whether the original input was an array is irrelevant.
println!("{:?}", arr.iter().map(|&x| x + 1).collect::<Vec<_>>());