I tried to compile this code (Playground):

trait Family<'a> {
    type Out;

struct U32Family;
impl<'a> Family<'a> for U32Family {
    type Out = u32;

trait Iterator {
    type Item;
    fn next<'s>(&'s mut self) -> <Self::Item as Family<'s>>::Out
        Self::Item: Family<'s>;

struct Foo;
impl Iterator for Foo {
    type Item = U32Family;

    fn next<'s>(&'s mut self) -> <Self::Item as Family<'s>>::Out
        Self::Item: Family<'s>,
        0u32  // <-- in real code, this is somehow calculated

But sadly, it results in this error:

error[E0308]: mismatched types
  --> src/main.rs:28:9
24 |     fn next<'s>(&'s mut self) -> <Self::Item as Family<'s>>::Out
   |                                  ------------------------------- expected `<U32Family as Family<'s>>::Out` because of return type
28 |         0u32
   |         ^^^^ expected associated type, found u32
   = note: expected type `<U32Family as Family<'s>>::Out`
              found type `u32`

I really don't understand why. Obviously, in this code snippet, <U32Family as Family<'s>>::Out is exactly u32. But Rust seems to think that it's not always the same. Why? And how can I make it compile?

Some notes:

  • There are a bunch of similar situations where a similar error occurs, but I think this is different from everything I've seen so far.
  • I cannot use type Out: for<'a> Family<'a>;. So that's not a workaround that works for me.
  • If I remove the lifetime parameter of Family, everything works.
  • If I replace Family<'s> with Family<'static> in the function signature, everything works.

EDIT: I can work around this problem by adding:

impl U32Family {
    fn from<'a>(v: u32) -> <Self as Family<'a>>::Out {

Then I can just say Self::Item::from(0u32) in the body of next(). (Playground)

I think it's clear why the error in next() is gone: U32Family::from always takes u32 as argument. Hardcoded. Never changing. The bigger question about this workaround is: why does the from() method compile fine? So in from() the compiler somehow knows that <Self as Family<'a>>::Out is always u32, but if I try the same in next(), somehow the compiler doesn't understand that <Self::Item as Family<'s>>::Out is u32. Now I'm even more confused.

EDIT2: first, I suspected that specialization is the problem. For example, you might write:

impl Family<'static> for U32Family {
    type Out = char;

Then of course, the compiler would be right in assuming that u32 is not always the same as <Self::Item as Family<'s>>::Out for any 's. However, I think this is not the problem.

First of all, impls that can be specialized need to be marked with the default keyword. I did not do that, so I should be able to assume the associated type is in fact u32 (the RFC talks about something very similar). But additionally, specialization based on lifetimes is not allowed.

So by now I tend to think this is a compiler error. But I'd love to get another answer!

  • You can make it compile separating the trait in two: trait FamilyBase { type Out; } to define the types, and trait Family<'a> : FamilyBase { } to do the real work. A bit hacky, maybe... – rodrigo Aug 1 '18 at 18:36
  • @rodrigo Thanks for the idea! The problem with that approach is that the implementer needs the ability to use the lifetime parameter in the Out type. Like impl<'a> Family<'a> for Bar { type Out = &'a bool; }. That's not possible with your two traits idea :/ – Lukas Kalbertodt Aug 1 '18 at 18:58
  • I see. What about this: add this function to trait Family: fn zero() -> Self::Out;. then in Iterator::next() just call <Self::Item as Family<'s>>::zero(). – rodrigo Aug 1 '18 at 19:17
  • @rodrigo I just edited my question because I apparently I wasn't clear enough in that regard: I don't always want to return 0, but calculate this somehow. And I actually don't always want u32, but arbitrary types. So "return some value of the type" (like zero() does), doesn't always work. – Lukas Kalbertodt Aug 1 '18 at 20:07
  • If you shift the trait constraint from the next function to the whole Iterator trait (i.e. type Item: Family<'a>) you can get it to compile. This does require adding a lifetime to Iterator though. Playground – Kwarrtz Aug 2 '18 at 6:05

I think the problem is that it is a "coincidence" that <Self::Item as Family<'s>>::Out is u32 for all 's. The compiler can prove it for any 's you want, but it can't even express the concept that it is true for all 's.

The work-around you have found is the right approach: add a method to U32Family which converts a u32 into a <Self as Family<'a>>::Out. The body of the method is entirely inside the scope of 'a, so the compiler can prove that the conversion is type-correct for that 'a, and therefore that the method is type-correct. Then, at the call-site, you're telling the compiler to use its knowledge about the method.

struct U32Family;
impl Iterator for Foo {
type Item = U32Family;

So next() must return Option<U32Family>, whose only possible values are None and Some(U32Family{})

You probably want Item = <U32Family as Family<'static>::Out which fixes this issue but creates some lifetime issues. (The Item needs a lifetime because Family has one, but you only accept a lifetime on next())

  • The Iterator trait in my question is self-made and not the official one from std. And in my trait, I don't return Option<Self::Item> but the associated Out type. And in any case, I can't just use 'static for several reasons. But thanks for your answer :) ! If you're interested, my question came up while writing this blog post. It should explain my weird requirements. – Lukas Kalbertodt Nov 21 '18 at 19:01

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