Fn vs. trait qualifiers
We fail to parse
const unsafe trait Trait {} //~ ERROR expected one of `extern` or `fn`, found keyword `trait`
and
const unsafe auto trait Trait {} //~ ERROR expected one of `extern` or `fn`, found `auto`
even though check_trait_front_matter would return true here in theory. That's because in parse_item_kind we check_fn_front_matter first which returns true once there are >=2 "fn" qualifiers (†) which most notably includes the sequence const unsafe. Two basic solutions:
- (†):
check_fn_front_matter already contains certain exceptions like unsafe extern {, async gen { and async gen move {; we could extend this with !self.is_trait_front_matter() but that's kind of awful because we would basically check the sequence const unsafe three times over. Moreover, we gonna wanna have both is_* (&self) and check_* (&mut self) variants but that means bad duplication.
- We could move the
check_trait_front_matter check above/before the fn one since it's more strict. However, I wonder if this breaks some soft invariants: check_trait_front_matter is also used elsewhere to determine whether a fn item follows. With this change, it would have "false positives". Likely not a problem in practice though.
Fn ptr ty qualifiers vs. trait bound modifiers in bare trait object tys
What's more, we also use check_fn_front_matter inside parse_ty_common for fn ptr tys but later reject const and async qualifiers in parse_fn_front_matter. Now, since that happens before we check can_begin_bound we incorrectly reject bare trait object tys that start with >=2 trait bound modifiers if they coincide with "fn" qualifiers (thanks to check_fn_front_matter yet again), i.e., async const bare trait object tys:
#![feature(const_trait_impl, async_trait_bounds)]
#[cfg(false)]
type X = (const Trait, async Trait, dyn const async Trait); // OK!
#[cfg(false)]
type Y = const async Trait;
//~^ ERROR an `fn` pointer type cannot be `const`
//~| ERROR an `fn` pointer type cannot be `async`
//~| ERROR expected one of `extern`, `fn`, `gen`, `safe`, or `unsafe`, found `Trait`
Array/slice ty vs. conditional constness inside bare trait object tys
For consistency, the following should get parsed as a bare trait object ty with a conditionally-const trait bound. However, we commit to parsing an array/slice ty before that:
#[cfg(false)] type X = dyn [const] Trait; // OK!
#[cfg(false)] type Y = [const] Trait; //~ ERROR expected identifier, found `]`
Fn vs. trait qualifiers
We fail to parse
and
even though
check_trait_front_matterwould returntruehere in theory. That's because inparse_item_kindwecheck_fn_front_matterfirst which returnstrueonce there are >=2 "fn" qualifiers (†) which most notably includes the sequenceconst unsafe. Two basic solutions:check_fn_front_matteralready contains certain exceptions likeunsafe extern {,async gen {andasync gen move {; we could extend this with!self.is_trait_front_matter()but that's kind of awful because we would basically check the sequenceconst unsafethree times over. Moreover, we gonna wanna have bothis_*(&self) andcheck_*(&mut self) variants but that means bad duplication.check_trait_front_mattercheck above/before the fn one since it's more strict. However, I wonder if this breaks some soft invariants:check_trait_front_matteris also used elsewhere to determine whether a fn item follows. With this change, it would have "false positives". Likely not a problem in practice though.Fn ptr ty qualifiers vs. trait bound modifiers in bare trait object tys
What's more, we also use
check_fn_front_matterinsideparse_ty_commonfor fn ptr tys but later rejectconstandasyncqualifiers inparse_fn_front_matter. Now, since that happens before we checkcan_begin_boundwe incorrectly reject bare trait object tys that start with >=2 trait bound modifiers if they coincide with "fn" qualifiers (thanks tocheck_fn_front_matteryet again), i.e.,async constbare trait object tys:Array/slice ty vs. conditional constness inside bare trait object tys
For consistency, the following should get parsed as a bare trait object ty with a conditionally-const trait bound. However, we commit to parsing an array/slice ty before that: