Proposal for unifying traits and interfaces

Unifying traits and interfaces

There are three parts to this proposal:

• Adding default impls to ifaces
• Allowing iface composability
• Instance coherence: only one impl per iface/type pair

Then, rename iface to trait and that's it!

Adding default impls to ifaces

An example

In the middle::typeck::infer module (henceforth infer), there's a combine interface, and implementations of that interface for the three "type combiners" lub, sub, and glb. All three impls are required to implement all of the methods in the combine interface, even though some of the implementations are identical in two (or in all three!) of the type combiners. Right now, infer deals with this by defining an out-of-line method super_foo for each method foo for which there are multiple identical implementations.

For example, here's what it looks like for the modes method. In fact, there are nine methods in infer that are this way -- modes is just a representative example.

iface combine {
    ...
    fn modes(a: ast::mode, b: ast::mode) -> cres<ast::mode>;
    ...
}

impl of combine for sub {
    ...
    fn modes(a: ast::mode, b: ast::mode) -> cres<ast::mode> {
        super_modes(self, a, b)
    }
    ...
}

impl of combine for sub {
    ...
    fn modes(a: ast::mode, b: ast::mode) -> cres<ast::mode> {
        super_modes(self, a, b)
    }
    ...
}

impl of combine for glb {
    ...
    fn modes(a: ast::mode, b: ast::mode) -> cres<ast::mode> {
        super_modes(self, a, b)
    }
    ...
}

// Out-of-line method
fn super_modes<C:combine>(
    self: C, a: ast::mode, b: ast::mode)
    -> cres<ast::mode> {

    let tcx = self.infcx().tcx;
    ty::unify_mode(tcx, a, b)
}

Under this proposal, we could put the default implementation in the interface, so, instead of all of the above, we could just write:

trait combine {
    ...

    fn modes(a: ast::mode, b: ast::mode) -> cres<ast::mode> {
        let tcx = self.infcx().tcx;
    	ty::unify_mode(tcx, a, b)
    }
    ...
}

impl of combine for sub {
    ... // only methods for which the default impl isn't enough
}

impl of combine for sub {
    ... // only methods for which the default impl isn't enough
}

impl of combine for glb {
    ... // only methods for which the default impl isn't enough
}

The only other thing that changed in this code was that the keyword iface changed to trait.

Allowing iface composability

Traits, as they appear in the literature, have a set of provided methods, implementing the behavior that a trait provides, and a (possibly empty) set of required methods that the provided methods can be written in terms of. For the required methods, only the names and types are specified, not the implementation. That suggests that in Rust, a trait's set of required methods could be specified using an iface. But if traits themselves are ifaces, then that means that ifaces can require ifaces. This goes along with the idea that traits/ifaces should be composable and order-independent: a trait C can extend traits A and B (in either order).

In today's Rust, a class or a type can implement interfaces A and B (in either order). For instance, in today's Rust you can write:

iface add { fn plus(n: int) -> int; }
iface subtract { fn minus(n: int) -> int; }

impl of add for int {
    fn plus(n: int) -> int { self + n }
}

impl of subtract for int {
    fn minus(n: int) -> int { self - n }
}

// int implements both add and subtract; order doesn't matter
fn main() { assert 3.plus(1) == 5.minus(1); }

But interfaces themselves aren't composable: we can't currently define an interface as the composition of more than one interface. Under this proposal, it would be possible to write:

iface arithmetic: add, subtract {
    ... // more methods here, if we want
}

The add, subtract part of the signature amounts to a set of required methods, in terms of which additional methods can be written.

Then, adding the ability to put default impls in ifaces (and changing the keyword from iface to trait), we get:

trait add { 
    fn plus(n: int) -> int { self + n }
}

trait subtract {
    fn minus(n: int) -> int { self - n }
}

trait arithmetic: add, subtract {
    ... // more methods here, if we want
}

impl int: arithmetic; // or something like this

fn main() { assert 3.plus(1) == 5.minus(1); }

One place that could benefit from this so-called 'interface inheritance' is called out by a FIXME for issue #2616 in core::num. Although I have to think about it some more, I think we could clean up duplicated code between core/int_template.rs and core/uint_template.rs with this kind of strategy.

Conflict resolution

Traditional traits do some cool conflict resolution stuff when the traits being combined have methods with the same name, and we might want to do that eventually, but we can punt for now and just do what Rust already does if a type implements multiple interfaces that define a method with the same name, that is, raise a compile-time "multiple applicable methods in scope" error.

Instance coherence

One impl of an iface per type

TODO.