I have the following two types:

struct A {
    x: int

struct B<'a> {
    y: &'a A

I would like to create a function that creates an object of type A and an object of type B containing a reference to the object of type A, and returns the object of type B:

fn bar<'a>() -> B<'a> {
    let y = A { x: 3 };
    B { y: &y }

However I get the following compiler error:

main.rs:11:13: 11:14 error: `y` does not live long enough
main.rs:11     B { y: &y }
main.rs:9:23: 12:2 note: reference must be valid for the lifetime 'a as defined on the block at 9:22...
main.rs:9 fn bar<'a>() -> B<'a> {
main.rs:10     let y = A { x: 3 };
main.rs:11     B { y: &y }
main.rs:12 }
main.rs:9:23: 12:2 note: ...but borrowed value is only valid for the block at 9:22
main.rs:9 fn bar<'a>() -> B<'a> {
main.rs:10     let y = A { x: 3 };
main.rs:11     B { y: &y }
main.rs:12 }
error: aborting due to previous error

This error seems justified, by I can't find a way around the issue. Is there any way to specify that the lifetime of y should be at least 'a, without changing the definition of A or B?

  • 1
    Can't B have the ownership of A ? Either as a direct field or as a box ? – Levans Aug 18 '14 at 15:38
  • A and B are defined in a library so I don't have control over their definition – noziar Aug 18 '14 at 15:40
  • In that case, you'll need to have a separated memory pool to handle your A's, like a static vector of boxes. Yet I'm not sure about how to implement this in a clean way. – Levans Aug 18 '14 at 15:42

There is no way to specify that y lifetime should be at least 'a because it is impossible: y is a local variable and it just cannot live longer than the stack frame it is created in.

In general, if you find a need to do such thing, it is very likely that you in fact do want B to own A:

struct B { y: A }

In this case the code becomes trivial:

fn bar() -> B {
    let y = A { x: 3 }
    B { y: y }

You can look to this from another point. This is the signature of bar() you want:

fn bar<'b>() -> B<'b> { ... }

'b is a lifetime parameter, that is, it can be chosen arbitrarily by the caller of this function. But nothing prevents the caller to substitute, for example, 'static for 'b:

let x: B<'static> = bar();

However, this is only possible if bar() always return B<'static>, which is not what you want, it seems. In fact, the above signature is exactly equivalent to this one:

fn bar() -> B<'static> { ... }
  • I see, it makes more sense now. Thanks for the explanation! – noziar Aug 18 '14 at 15:49

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