A Mech carries a driver, which is a Named entity. At run-time, an omitted Mech constructor consults external source for the specific type of driver to use.
trait Named {
fn name(self) -> String;
}
struct Person {
first_name: String,
last_name: String
}
impl Named for Person {
fn name(self) -> String {
format!("{} {}", self.first_name, self.last_name)
}
}
pub struct Mech<'a> {
driver: Box<Named + 'a>,
}
impl<'a> Mech<'a> {
pub fn driver_name(self) -> String {
self.driver.name()
}
}
Method driver_name returns ownership to a String, for it to be further used in chained calls (in actual code it's a Command). It fails compilation with:
error[E0161]: cannot move a value of type Named + 'a: the size of Named + 'a cannot be statically determined
--> src/lib.rs:22:9
|
22 | self.driver.name()
| ^^^^^^^^^^^
Making the trait Sized fails the object safety:
trait Named: Sized {
fn name(self) -> String;
}
↓
error[E0038]: the trait `Named` cannot be made into an object
--> src/lib.rs:17:5
|
17 | driver: Box<Named + 'a>,
| ^^^^^^^^^^^^^^^^^^^^^^^ the trait `Named` cannot be made into an object
|
= note: the trait cannot require that `Self : Sized`
Is there a way to make this pattern happen?
Is there anything fundamental that I seem to be missing?
In case this is impossible to achieve, what's a good way to work around it?
selfinstead of&self?fn take_name(&mut self) -> Stringis object safe, but requires an extension to the type's state domain.