impl Trait
If your function returns a type that implements MyTrait
, you can write its
return type as -> impl MyTrait
. This can help simplify your type signatures quite a lot!
use std::iter; use std::vec::IntoIter; // This function combines two `Vec<i32>` and returns an iterator over it. // Look how complicated its return type is! fn combine_vecs_explicit_return_type( v: Vec<i32>, u: Vec<i32>, ) -> iter::Cycle<iter::Chain<IntoIter<i32>, IntoIter<i32>>> { v.into_iter().chain(u.into_iter()).cycle() } // This is the exact same function, but its return type uses `impl Trait`. // Look how much simpler it is! fn combine_vecs( v: Vec<i32>, u: Vec<i32>, ) -> impl Iterator<Item=i32> { v.into_iter().chain(u.into_iter()).cycle() } fn main() { let v1 = vec![1, 2, 3]; let v2 = vec![4, 5]; let mut v3 = combine_vecs(v1, v2); assert_eq!(Some(1), v3.next()); assert_eq!(Some(2), v3.next()); assert_eq!(Some(3), v3.next()); assert_eq!(Some(4), v3.next()); assert_eq!(Some(5), v3.next()); println!("all done"); }
More importantly, some Rust types can't be written out. For example, every
closure has its own unnamed concrete type. Before impl Trait
syntax, you had
to allocate on the heap in order to return a closure. But now you can do it all
statically, like this:
// Returns a function that adds `y` to its input fn make_adder_function(y: i32) -> impl Fn(i32) -> i32 { let closure = move |x: i32| { x + y }; closure } fn main() { let plus_one = make_adder_function(1); assert_eq!(plus_one(2), 3); }
You can also use impl Trait
to return an iterator that uses map
or filter
closures! This makes using map
and filter
easier. Because closure types don't
have names, you can't write out an explicit return type if your function returns
iterators with closures. But with impl Trait
you can do this easily:
fn double_positives<'a>(numbers: &'a Vec<i32>) -> impl Iterator<Item = i32> + 'a { numbers .iter() .filter(|x| x > &&0) .map(|x| x * 2) } fn main() { let singles = vec![-3, -2, 2, 3]; let doubles = double_positives(&singles); assert_eq!(doubles.collect::<Vec<i32>>(), vec![4, 6]); }