diff --git a/src/librustc_mir/borrow_check/region_infer/opaque_types.rs b/src/librustc_mir/borrow_check/region_infer/opaque_types.rs index e16a2c838eb..f3f392683f6 100644 --- a/src/librustc_mir/borrow_check/region_infer/opaque_types.rs +++ b/src/librustc_mir/borrow_check/region_infer/opaque_types.rs @@ -1,7 +1,7 @@ -use rustc::hir::def_id::DefId; use rustc::infer::InferCtxt; use rustc::ty; use rustc_data_structures::fx::FxHashMap; +use rustc_hir::def_id::DefId; use rustc_span::Span; use super::RegionInferenceContext; @@ -9,6 +9,42 @@ impl<'tcx> RegionInferenceContext<'tcx> { /// Resolve any opaque types that were encountered while borrow checking /// this item. This is then used to get the type in the `type_of` query. + /// + /// For example consider `fn f<'a>(x: &'a i32) -> impl Sized + 'a { x }`. + /// This is lowered to give HIR something like + /// + /// type _Return<'_a> = impl Sized + '_a; + /// fn f<'a>(x: &'a i32) -> _Return<'a> { x } + /// + /// When checking the return type record the type from the return and the + /// type used in the return value. In this case they might be `_Return<'1>` + /// and `&'2 i32` respectively. + /// + /// Once we to this method, we have completed region inference and want to + /// call `infer_opaque_definition_from_instantiation` to get the inferred + /// type of `_Return<'_a>`. `infer_opaque_definition_from_instantiation` + /// compares lifetimes directly, so we need to map the inference variables + /// back to concrete lifetimes: `'static`, `ReEarlyBound` or `ReFree`. + /// + /// First we map all the lifetimes in the concrete type to an equal + /// universal region that occurs in the concrete type's substs, in this case + /// this would result in `&'1 i32`. We only consider regions in the substs + /// in case there is an equal region that does not. For example, this should + /// be allowed: + /// `fn f<'a: 'b, 'b: 'a>(x: *mut &'b i32) -> impl Sized + 'a { x }` + /// + /// Then we map the regions in both the type and the subst to their + /// `external_name` giving `concrete_type = &'a i32, substs = ['a]`. This + /// will then allow `infer_opaque_definition_from_instantiation` to + /// determine that `_Return<'_a> = &'_a i32`. + /// + /// There's a slight complication around closures. Given + /// `fn f<'a: 'a>() { || {} }` the closure's type is something like + /// `f::<'a>::{{closure}}`. The region parameter from f is essentially + /// ignored by type checking so ends up being inferred to an empty region. + /// Calling `universal_upper_bound` for such a region gives `fr_fn_body`, + /// which has no `external_name` in which case we use `'empty` as the + /// region to pass to `infer_opaque_definition_from_instantiation`. pub(in crate::borrow_check) fn infer_opaque_types( &self, infcx: &InferCtxt<'_, 'tcx>, @@ -23,24 +59,12 @@ pub(in crate::borrow_check) fn infer_opaque_types( concrete_type, substs ); - // Map back to "concrete" regions so that errors in - // `infer_opaque_definition_from_instantiation` can show - // sensible region names. - let universal_concrete_type = - infcx.tcx.fold_regions(&concrete_type, &mut false, |region, _| match region { - &ty::ReVar(vid) => { - let universal_bound = self.universal_upper_bound(vid); - self.definitions[universal_bound] - .external_name - .filter(|_| self.eval_equal(universal_bound, vid)) - .unwrap_or(infcx.tcx.lifetimes.re_empty) - } - concrete => concrete, - }); + let mut subst_regions = vec![self.universal_regions.fr_static]; let universal_substs = - infcx.tcx.fold_regions(&substs, &mut false, |region, _| match region { + infcx.tcx.fold_regions(&substs, &mut false, |region, _| match *region { ty::ReVar(vid) => { - self.definitions[*vid].external_name.unwrap_or_else(|| { + subst_regions.push(vid); + self.definitions[vid].external_name.unwrap_or_else(|| { infcx.tcx.sess.delay_span_bug( span, "opaque type with non-universal region substs", @@ -48,7 +72,33 @@ pub(in crate::borrow_check) fn infer_opaque_types( infcx.tcx.lifetimes.re_static }) } - concrete => concrete, + _ => { + infcx.tcx.sess.delay_span_bug( + span, + &format!("unexpected concrete region in borrowck: {:?}", region), + ); + region + } + }); + + subst_regions.sort(); + subst_regions.dedup(); + + let universal_concrete_type = + infcx.tcx.fold_regions(&concrete_type, &mut false, |region, _| match *region { + ty::ReVar(vid) => subst_regions + .iter() + .find(|ur_vid| self.eval_equal(vid, **ur_vid)) + .and_then(|ur_vid| self.definitions[*ur_vid].external_name) + .unwrap_or(infcx.tcx.lifetimes.re_root_empty), + ty::ReLateBound(..) => region, + _ => { + infcx.tcx.sess.delay_span_bug( + span, + &format!("unexpected concrete region in borrowck: {:?}", region), + ); + region + } }); debug!( diff --git a/src/librustc_mir/borrow_check/type_check/mod.rs b/src/librustc_mir/borrow_check/type_check/mod.rs index 6c073b3d2c8..85bc032606f 100644 --- a/src/librustc_mir/borrow_check/type_check/mod.rs +++ b/src/librustc_mir/borrow_check/type_check/mod.rs @@ -1275,6 +1275,8 @@ fn eq_opaque_type_and_type( ); if !concrete_is_opaque { + // Equate concrete_ty (an inference variable) with + // the renumbered type from typeck. obligations.add( infcx .at(&ObligationCause::dummy(), param_env) diff --git a/src/test/ui/impl-trait/equal-hidden-lifetimes.rs b/src/test/ui/impl-trait/equal-hidden-lifetimes.rs new file mode 100644 index 00000000000..79db88828b9 --- /dev/null +++ b/src/test/ui/impl-trait/equal-hidden-lifetimes.rs @@ -0,0 +1,49 @@ +// Test that we consider equal regions when checking for hidden regions in +// opaque types + +// check-pass + +// `'a == 'static` so `&'a i32` is fine as the return type +fn equal_regions_static<'a: 'static>(x: &'a i32) -> impl Sized { + //~^ WARNING unnecessary lifetime parameter `'a` + x +} + +// `'a == 'b` so `&'b i32` is fine as the return type +fn equal_regions<'a: 'b, 'b: 'a>(x: &'b i32) -> impl Sized + 'a { + let y: &'a i32 = x; + let z: &'b i32 = y; + x +} + +// `'a == 'b` so `&'a i32` is fine as the return type +fn equal_regions_rev<'a: 'b, 'b: 'a>(x: &'a i32) -> impl Sized + 'b { + let y: &'a i32 = x; + let z: &'b i32 = y; + x +} + +// `'a == 'b` so `*mut &'b i32` is fine as the return type +fn equal_regions_inv<'a: 'b, 'b: 'a>(x: *mut &'b i32) -> impl Sized + 'a { + let y: *mut &'a i32 = x; + let z: *mut &'b i32 = y; + x +} + +// `'a == 'b` so `*mut &'a i32` is fine as the return type +fn equal_regions_inv_rev<'a: 'b, 'b: 'a>(x: *mut &'a i32) -> impl Sized + 'b { + let y: *mut &'a i32 = x; + let z: *mut &'b i32 = y; + x +} + +// Should be able to infer `fn(&'static ())` as the return type. +fn contravariant_lub<'a, 'b: 'a, 'c: 'a, 'd: 'b + 'c>( + x: fn(&'b ()), + y: fn(&'c ()), + c: bool, +) -> impl Sized + 'a { + if c { x } else { y } +} + +fn main() {} diff --git a/src/test/ui/impl-trait/equal-hidden-lifetimes.stderr b/src/test/ui/impl-trait/equal-hidden-lifetimes.stderr new file mode 100644 index 00000000000..eb064b4e14a --- /dev/null +++ b/src/test/ui/impl-trait/equal-hidden-lifetimes.stderr @@ -0,0 +1,8 @@ +warning: unnecessary lifetime parameter `'a` + --> $DIR/equal-hidden-lifetimes.rs:7:25 + | +LL | fn equal_regions_static<'a: 'static>(x: &'a i32) -> impl Sized { + | ^^^^^^^^^^^ + | + = help: you can use the `'static` lifetime directly, in place of `'a` +