/// ```
///
/// The `sized_by_default` parameter indicates if, in this context, the `param_ty` should be
- /// considered `Sized` unless there is an explicit `?Sized` bound. This would be true in the
+ /// considered `Sized` unless there is an explicit `?Sized` bound. This would be true in the
/// example above, but is not true in supertrait listings like `trait Foo: Bar + Baz`.
///
/// `span` should be the declaration size of the parameter.
i.trait_ref().map_bound(|trait_ref: ty::TraitRef<'tcx>| {
assert_eq!(trait_ref.self_ty(), dummy_self);
- // Verify that `dummy_self` did not leak inside default type parameters. This
+ // Verify that `dummy_self` did not leak inside default type parameters. This
// could not be done at path creation, since we need to see through trait aliases.
let mut missing_type_params = vec![];
let mut references_self = false;
}
/// Parses the programmer's textual representation of a type into our
- /// internal notion of a type. This is meant to be used within a path.
+ /// internal notion of a type. This is meant to be used within a path.
pub fn ast_ty_to_ty_in_path(&self, ast_ty: &hir::Ty<'_>) -> Ty<'tcx> {
self.ast_ty_to_ty_inner(ast_ty, false, true)
}