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Rollup merge of #129021 - compiler-errors:ptr-cast-outlives, r=lcnr
Check WF of source type's signature on fn pointer cast This PR patches the implied bounds holes slightly for #129005, #25860. Like most implied bounds related unsoundness fixes, this isn't complete w.r.t. higher-ranked function signatures, but I believe it implements a pretty good heuristic for now. ### What does this do? This PR makes a partial patch for a soundness hole in a `FnDef` -> `FnPtr` "reifying" pointer cast where we were never checking that the signature we are casting *from* is actually well-formed. Because of this, and because `FnDef` doesn't require its signature to be well-formed (just its predicates must hold), we are essentially allowed to "cast away" implied bounds that are assumed within the body of the `FnDef`: ``` fn foo<'a, 'b, T>(_: &'a &'b (), v: &'b T) -> &'a T { v } fn bad<'short, T>(x: &'short T) -> &'static T { let f: fn(_, &'short T) -> &'static T = foo; f(&&(), x) } ``` In this example, subtyping ends up casting the `_` type (which should be `&'static &'short ()`) to some other type that no longer serves as a "witness" to the lifetime relationship `'short: 'static` which would otherwise be required for this call to be WF. This happens regardless of if `foo`'s lifetimes are early- or late-bound. This PR implements two checks: 1. We check that the signature of the `FnDef` is well-formed *before* casting it. This ensures that there is at least one point in the MIR where we ensure that the `FnDef`'s implied bounds are actually satisfied by the caller. 2. Implements a special case where if we're casting from a higher-ranked `FnDef` to a non-higher-ranked, we instantiate the binder of the `FnDef` with *infer vars* and ensure that it is a supertype of the target of the cast. The (2.) is necessary to validate that these pointer casts are valid for higher-ranked `FnDef`. Otherwise, the example above would still pass even if `help`'s `'a` lifetime were late-bound. ### Further work The WF checks for function calls are scattered all over the MIR. We check the WF of args in call terminators, we check the WF of `FnDef` when we create a `const` operand referencing it, and we check the WF of the return type in #115538, to name a few. One way to make this a bit cleaner is to simply extend #115538 to always check that the signature is WF for `FnDef` types. I may do this as a follow-up, but I wanted to keep this simple since this leads to some pretty bad NLL diagnostics regressions, and AFAICT this solution is *complete enough*. ### Crater triage Done here: https://github.com/rust-lang/rust/pull/129021#issuecomment-2297702647 r? lcnr
This commit is contained in:
Matthias Krüger
GitHub
commit
e903b29dc3
@ -1979,19 +1979,42 @@ impl<'a, 'tcx> TypeChecker<'a, 'tcx> {
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match cast_kind {
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CastKind::PointerCoercion(PointerCoercion::ReifyFnPointer) => {
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let fn_sig = op.ty(body, tcx).fn_sig(tcx);
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let src_sig = op.ty(body, tcx).fn_sig(tcx);
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// The type that we see in the fcx is like
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// `foo::<'a, 'b>`, where `foo` is the path to a
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// function definition. When we extract the
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// signature, it comes from the `fn_sig` query,
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// and hence may contain unnormalized results.
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let fn_sig = self.normalize(fn_sig, location);
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let ty_fn_ptr_from = Ty::new_fn_ptr(tcx, fn_sig);
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// HACK: This shouldn't be necessary... We can remove this when we actually
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// get binders with where clauses, then elaborate implied bounds into that
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// binder, and implement a higher-ranked subtyping algorithm that actually
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// respects these implied bounds.
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//
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// This protects against the case where we are casting from a higher-ranked
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// fn item to a non-higher-ranked fn pointer, where the cast throws away
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// implied bounds that would've needed to be checked at the call site. This
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// only works when we're casting to a non-higher-ranked fn ptr, since
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// placeholders in the target signature could have untracked implied
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// bounds, resulting in incorrect errors.
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//
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// We check that this signature is WF before subtyping the signature with
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// the target fn sig.
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if src_sig.has_bound_regions()
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&& let ty::FnPtr(target_fn_tys, target_hdr) = *ty.kind()
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&& let target_sig = target_fn_tys.with(target_hdr)
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&& let Some(target_sig) = target_sig.no_bound_vars()
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{
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let src_sig = self.infcx.instantiate_binder_with_fresh_vars(
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span,
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BoundRegionConversionTime::HigherRankedType,
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src_sig,
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);
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let src_ty = Ty::new_fn_ptr(self.tcx(), ty::Binder::dummy(src_sig));
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self.prove_predicate(
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ty::ClauseKind::WellFormed(src_ty.into()),
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location.to_locations(),
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ConstraintCategory::Cast { unsize_to: None },
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);
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let src_ty = self.normalize(src_ty, location);
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if let Err(terr) = self.sub_types(
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ty_fn_ptr_from,
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src_ty,
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*ty,
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location.to_locations(),
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ConstraintCategory::Cast { unsize_to: None },
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@ -2000,7 +2023,41 @@ impl<'a, 'tcx> TypeChecker<'a, 'tcx> {
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self,
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rvalue,
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"equating {:?} with {:?} yields {:?}",
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ty_fn_ptr_from,
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target_sig,
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src_sig,
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terr
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);
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};
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}
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let src_ty = Ty::new_fn_ptr(tcx, src_sig);
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// HACK: We want to assert that the signature of the source fn is
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// well-formed, because we don't enforce that via the WF of FnDef
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// types normally. This should be removed when we improve the tracking
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// of implied bounds of fn signatures.
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self.prove_predicate(
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ty::ClauseKind::WellFormed(src_ty.into()),
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location.to_locations(),
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ConstraintCategory::Cast { unsize_to: None },
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);
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// The type that we see in the fcx is like
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// `foo::<'a, 'b>`, where `foo` is the path to a
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// function definition. When we extract the
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// signature, it comes from the `fn_sig` query,
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// and hence may contain unnormalized results.
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let src_ty = self.normalize(src_ty, location);
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if let Err(terr) = self.sub_types(
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src_ty,
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*ty,
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location.to_locations(),
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ConstraintCategory::Cast { unsize_to: None },
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) {
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span_mirbug!(
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self,
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rvalue,
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"equating {:?} with {:?} yields {:?}",
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src_ty,
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ty,
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terr
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);
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@ -0,0 +1,13 @@
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//@ check-pass
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//@ known-bug: #25860
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static UNIT: &'static &'static () = &&();
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fn foo<'a, 'b, T>(_: &'a &'b (), v: &'b T, _: &()) -> &'a T { v }
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fn bad<'a, T>(x: &'a T) -> &'static T {
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let f: fn(_, &'a T, &()) -> &'static T = foo;
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f(UNIT, x, &())
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}
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fn main() {}
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@ -0,0 +1,13 @@
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// Regression test for #129021.
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static UNIT: &'static &'static () = &&();
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fn foo<'a: 'a, 'b: 'b, T>(_: &'a &'b (), v: &'b T) -> &'a T { v }
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fn bad<'a, T>(x: &'a T) -> &'static T {
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let f: fn(_, &'a T) -> &'static T = foo;
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//~^ ERROR lifetime may not live long enough
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f(UNIT, x)
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}
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fn main() {}
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@ -0,0 +1,10 @@
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error: lifetime may not live long enough
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--> $DIR/implied-bounds-on-nested-references-plus-variance-early-bound.rs:8:12
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LL | fn bad<'a, T>(x: &'a T) -> &'static T {
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| -- lifetime `'a` defined here
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LL | let f: fn(_, &'a T) -> &'static T = foo;
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| ^^^^^^^^^^^^^^^^^^^^^^^^^^ type annotation requires that `'a` must outlive `'static`
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error: aborting due to 1 previous error
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@ -0,0 +1,19 @@
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// Regression test for #129021.
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trait ToArg<T> {
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type Arg;
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}
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impl<T, U> ToArg<T> for U {
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type Arg = T;
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}
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fn extend_inner<'a, 'b>(x: &'a str) -> <&'b &'a () as ToArg<&'b str>>::Arg { x }
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fn extend<'a, 'b>(x: &'a str) -> &'b str {
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(extend_inner as fn(_) -> _)(x)
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//~^ ERROR lifetime may not live long enough
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}
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fn main() {
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let y = extend(&String::from("Hello World"));
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println!("{}", y);
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}
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@ -0,0 +1,14 @@
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error: lifetime may not live long enough
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--> $DIR/implied-bounds-on-nested-references-plus-variance-unnormalized.rs:12:5
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LL | fn extend<'a, 'b>(x: &'a str) -> &'b str {
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| -- -- lifetime `'b` defined here
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| |
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| lifetime `'a` defined here
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LL | (extend_inner as fn(_) -> _)(x)
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| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ function was supposed to return data with lifetime `'b` but it is returning data with lifetime `'a`
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= help: consider adding the following bound: `'a: 'b`
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error: aborting due to 1 previous error
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@ -1,8 +1,4 @@
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//@ check-pass
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//@ known-bug: #25860
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// Should fail. The combination of variance and implied bounds for nested
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// references allows us to infer a longer lifetime than we can prove.
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// Regression test for #129021.
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static UNIT: &'static &'static () = &&();
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@ -10,6 +6,7 @@ fn foo<'a, 'b, T>(_: &'a &'b (), v: &'b T) -> &'a T { v }
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fn bad<'a, T>(x: &'a T) -> &'static T {
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let f: fn(_, &'a T) -> &'static T = foo;
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//~^ ERROR lifetime may not live long enough
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f(UNIT, x)
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}
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@ -0,0 +1,10 @@
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error: lifetime may not live long enough
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--> $DIR/implied-bounds-on-nested-references-plus-variance.rs:8:12
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LL | fn bad<'a, T>(x: &'a T) -> &'static T {
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| -- lifetime `'a` defined here
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LL | let f: fn(_, &'a T) -> &'static T = foo;
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| ^^^^^^^^^^^^^^^^^^^^^^^^^^ type annotation requires that `'a` must outlive `'static`
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error: aborting due to 1 previous error
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