I'm having issues understanding the lifetime bound requirements when I use a trait in a type definition. For instance:
trait Kind { /* ... */ }
type CollectionOfKind<'a> = Vec<&'a Kind>;
// => error: explicit lifetime bound required
The requirement for lifetime bounds has already been discussed for the case of a trait within a struct (Answer 1, Answer 2). At first, I had problems to apply the approach of "adding the lifetime" here at all, since this does not work:
type CollectionOfKind<'a> = Vec<&'a Kind + 'a>;
type CollectionOfKind<'a> = Vec<&'a Kind + 'static>;
However, this was only a syntax issue, due to the precedence of plus as pointed out by @Shepmaster.
Overall, I now have found three ways to specify the lifetime bounds:
// Version 1: Adding 'static to the trait itself
trait Kind : 'static { /* ... */ }
type CollectionOfKind<'a> = Vec<&'a Kind>;
// Version 2: Adding 'static to the type definition
trait Kind { /* ... */ }
type CollectionOfKind<'a> = Vec<&'a (Kind + 'static)>;
// Version 3: Adding the lifetime of the reference to the trait object (?)
trait Kind { /* ... */ }
type CollectionOfKind<'a> = Vec<&'a (Kind + 'a)>;
What I don't understand: What is the exact difference between these three cases?
My problems:
In order to see the differences, I was trying to understand certain points mentioned in the other answers. For instance in the above linked Answer 2, I have found the following hint which I do not fully understand:
In this case, the 'static requires that the underlying object must be a real struct, or a &'static reference, but other references won't be allowed.
What does it mean that the underlying object must be a "real" struct? How is it possible for a struct to implement the trait without being "real"?
Similarly for the quote that @Shepmaster has cited:
You have to specify the lifetime two times: once for the lifetime of the reference, and once for the trait object itself, because traits can be implemented for references, and if the underlying object is a reference, you must specify its lifetime as well.
To be honest, I don't see why it must be specified twice. I though a trait object is defined by being a reference to an object which implements a certain trait. So it is by definition (?) a reference, and thus, has a lifetime anyways?
Answer for new question
You really have two orthogonal cases. I'll tackle the easier one first, the difference of #2 and #3. Comments are inline with what I hope is a representative example:
trait Kind {
fn trait_fn(&self) -> u8 { 0 }
}
type CollectionOfKind1<'a> = Vec<&'a (Kind + 'static)>;
type CollectionOfKind2<'a> = Vec<&'a (Kind + 'a)>;
struct Alpha;
impl Kind for Alpha {}
struct Beta<'b> {
name: &'b str,
}
impl<'a> Kind for Beta<'a> {}
fn main() {
let name = "world".to_string();
// Doesn't need/have it's own lifetime.
let a = Alpha;
// Has a reference to something with the 'static lifetime.
let b1 = Beta { name: "hello" };
// Has a reference to something with the lifetime of `name`,
// which is less than 'static.
let b2 = Beta { name: &name[..] };
// Our vector is composed of references to
// things that *might* have a reference themselves!
let mut c1: CollectionOfKind1 = Vec::new();
c1.push(&a);
c1.push(&b1);
// c1.push(&b2); // error: `name` does not live long enough
let mut c2: CollectionOfKind2 = Vec::new();
c2.push(&a);
c2.push(&b1);
c2.push(&b2); // Hooray
}
Of note here is that the lifetimes don't have to be the same! You could have written:
type CollectionOfKind2<'a, 'b> = Vec<&'a (Kind + 'b)>;
The second thing is the meaning of trait Foo : 'static. I'm less sure here, but I wrote this small example:
trait Foo : 'static {}
fn x(a: &Foo) {}
fn main() {
x(&3u8);
}
This errors during compilation with
the trait Foo must be implemented for the cast to the object type Foo + 'static
Based on that, I think that Foo : 'static is just another way of writing Foo + 'static. The main difference I can think of is that it restricts the trait from ever being implemented on a struct with non-'static lifetimes:
struct B<'a> {
b: &'a str,
}
impl<'a> Foo for B<'a> {}
Has the error
declared lifetime bound not satisfied [...] but lifetime parameter must outlive the static lifetime
Original answer
I see you've found this out already, but you may want to update your version of Rust. If I compile your code on the Playpen, I get a suggestion on how to fix it:
error: expected a path on the left-hand side of `+`, not `&'a Kind` [E0178]
type CollectionOfKind<'a> = Vec<&'a Kind + 'a>;
^~~~~~~~
note: perhaps you meant `&'a (Kind + 'a)`? (per RFC 438)
type CollectionOfKind<'a> = Vec<&'a Kind + 'a>;
^~~~~~~~
That references RFC 438, Precedence of Plus.
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