The compiler allows me to write blanket implementation a function like this:
trait Invoke {
type S;
type E;
fn fun(&mut self) -> Result<Self::S, Self::E>;
}
impl<F, S, E> Invoke for F
where
F: Fn() -> Result<S, E>,
{
type S = S;
type E = E;
fn fun(&mut self) -> Result<S, E> {
self()
}
}
but it starts complaining when I try to add a function parameter:
trait Invoke {
type A;
type S;
type E;
fn fun(&mut self, arg: Self::A) -> Result<Self::S, Self::E>;
}
impl<F, A, S, E> Invoke for F
where
F: Fn(A) -> Result<S, E>,
{
type A = A;
type S = S;
type E = E;
fn fun(&mut self, arg: A) -> Result<S, E> {
self(arg)
}
}
error[E0207]: the type parameter `A` is not constrained by the impl trait, self type, or predicates
--> src/lib.rs:9:9
|
9 | impl<F, A, S, E> Invoke for F
| ^ unconstrained type parameter
error[E0207]: the type parameter `S` is not constrained by the impl trait, self type, or predicates
--> src/lib.rs:9:12
|
9 | impl<F, A, S, E> Invoke for F
| ^ unconstrained type parameter
error[E0207]: the type parameter `E` is not constrained by the impl trait, self type, or predicates
--> src/lib.rs:9:15
|
9 | impl<F, A, S, E> Invoke for F
| ^ unconstrained type parameter
I cannot understand why these two cases are different. Isn't A
a part of constraint signature?
I realized I can rewrite it like the Fn
trait declaration, but I still do not get the idea:
trait Invoke<A> {
type S;
type E;
fn fun(&mut self, arg: A) -> Result<Self::S, Self::E>;
}
impl<F, A, S, E> Invoke<A> for F
where
F: Fn(A) -> Result<S, E>,
{
type S = S;
type E = E;
fn fun(&mut self, arg: A) -> Result<S, E> {
self(arg)
}
}
Fn*
declarations, like return type?