diff --git a/compiler/rustc_typeck/src/check/wfcheck.rs b/compiler/rustc_typeck/src/check/wfcheck.rs index 9bdeb3a679a..9a269e02448 100644 --- a/compiler/rustc_typeck/src/check/wfcheck.rs +++ b/compiler/rustc_typeck/src/check/wfcheck.rs @@ -298,143 +298,47 @@ fn check_gat_where_clauses( for item in associated_items.in_definition_order().filter(|item| matches!(item.kind, ty::AssocKind::Fn)) { - // The clauses we that we would require from this function - let mut function_clauses = FxHashSet::default(); - let id = hir::HirId::make_owner(item.def_id.expect_local()); let param_env = tcx.param_env(item.def_id.expect_local()); - let sig = tcx.fn_sig(item.def_id); // Get the signature using placeholders. In our example, this would // convert the late-bound 'a into a free region. - let sig = tcx.liberate_late_bound_regions(item.def_id, sig); - // Collect the arguments that are given to this GAT in the return type - // of the function signature. In our example, the GAT in the return - // type is `::Item<'a>`, so 'a and Self are arguments. - let (regions, types) = - GATSubstCollector::visit(tcx, trait_item.def_id.to_def_id(), sig.output()); - - // If both regions and types are empty, then this GAT isn't in the - // return type, and we shouldn't try to do clause analysis - // (particularly, doing so would end up with an empty set of clauses, - // since the current method would require none, and we take the - // intersection of requirements of all methods) - if types.is_empty() && regions.is_empty() { - continue; - } + let sig = tcx.liberate_late_bound_regions(item.def_id, tcx.fn_sig(item.def_id)); // The types we can assume to be well-formed. In our example, this // would be &'a mut Self, from the first argument. let mut wf_tys = FxHashSet::default(); wf_tys.extend(sig.inputs()); - // For each region argument (e.g., 'a in our example), check for a - // relationship to the type arguments (e.g., Self). If there is an - // outlives relationship (`Self: 'a`), then we want to ensure that is - // reflected in a where clause on the GAT itself. - for (region, region_idx) in ®ions { - // Ignore `'static` lifetimes for the purpose of this lint: it's - // because we know it outlives everything and so doesn't give meaninful - // clues - if region.is_static() { - continue; - } - for (ty, ty_idx) in &types { - // In our example, requires that Self: 'a - if ty_known_to_outlive(tcx, id, param_env, &wf_tys, *ty, *region) { - debug!(?ty_idx, ?region_idx); - debug!("required clause: {} must outlive {}", ty, region); - // Translate into the generic parameters of the GAT. In - // our example, the type was Self, which will also be - // Self in the GAT. - let ty_param = generics.param_at(*ty_idx, tcx); - let ty_param = tcx.mk_ty(ty::Param(ty::ParamTy { - index: ty_param.index, - name: ty_param.name, - })); - // Same for the region. In our example, 'a corresponds - // to the 'me parameter. - let region_param = generics.param_at(*region_idx, tcx); - let region_param = tcx.mk_region(ty::ReEarlyBound(ty::EarlyBoundRegion { - def_id: region_param.def_id, - index: region_param.index, - name: region_param.name, - })); - // The predicate we expect to see. (In our example, - // `Self: 'me`.) - let clause = ty::PredicateKind::TypeOutlives(ty::OutlivesPredicate( - ty_param, - region_param, - )); - let clause = tcx.mk_predicate(ty::Binder::dummy(clause)); - function_clauses.insert(clause); - } - } - } + // The clauses we that we would require from this function + let function_clauses = gather_gat_bounds( + tcx, + param_env, + id, + sig.output(), + &wf_tys, + trait_item.def_id, + generics, + ); - // For each region argument (e.g., 'a in our example), also check for a - // relationship to the other region arguments. If there is an - // outlives relationship, then we want to ensure that is - // reflected in a where clause on the GAT itself. - for (region_a, region_a_idx) in ®ions { - // Ignore `'static` lifetimes for the purpose of this lint: it's - // because we know it outlives everything and so doesn't give meaninful - // clues - if region_a.is_static() { - continue; - } - for (region_b, region_b_idx) in ®ions { - if region_a == region_b { - continue; + if let Some(function_clauses) = function_clauses { + // Imagine we have: + // ``` + // trait Foo { + // type Bar<'me>; + // fn gimme(&self) -> Self::Bar<'_>; + // fn gimme_default(&self) -> Self::Bar<'static>; + // } + // ``` + // We only want to require clauses on `Bar` that we can prove from *all* functions (in this + // case, `'me` can be `static` from `gimme_default`) + match clauses.as_mut() { + Some(clauses) => { + clauses.drain_filter(|p| !function_clauses.contains(p)); } - if region_b.is_static() { - continue; + None => { + clauses = Some(function_clauses); } - - if region_known_to_outlive(tcx, id, param_env, &wf_tys, *region_a, *region_b) { - debug!(?region_a_idx, ?region_b_idx); - debug!("required clause: {} must outlive {}", region_a, region_b); - // Translate into the generic parameters of the GAT. - let region_a_param = generics.param_at(*region_a_idx, tcx); - let region_a_param = tcx.mk_region(ty::ReEarlyBound(ty::EarlyBoundRegion { - def_id: region_a_param.def_id, - index: region_a_param.index, - name: region_a_param.name, - })); - // Same for the region. - let region_b_param = generics.param_at(*region_b_idx, tcx); - let region_b_param = tcx.mk_region(ty::ReEarlyBound(ty::EarlyBoundRegion { - def_id: region_b_param.def_id, - index: region_b_param.index, - name: region_b_param.name, - })); - // The predicate we expect to see. - let clause = ty::PredicateKind::RegionOutlives(ty::OutlivesPredicate( - region_a_param, - region_b_param, - )); - let clause = tcx.mk_predicate(ty::Binder::dummy(clause)); - function_clauses.insert(clause); - } - } - } - - // Imagine we have: - // ``` - // trait Foo { - // type Bar<'me>; - // fn gimme(&self) -> Self::Bar<'_>; - // fn gimme_default(&self) -> Self::Bar<'static>; - // } - // ``` - // We only want to require clauses on `Bar` that we can prove from *all* functions (in this - // case, `'me` can be `static` from `gimme_default`) - match clauses.as_mut() { - Some(clauses) => { - clauses.drain_filter(|p| !function_clauses.contains(p)); - } - None => { - clauses = Some(function_clauses); } } } @@ -515,6 +419,110 @@ fn check_gat_where_clauses( } } +fn gather_gat_bounds<'tcx, T: TypeFoldable<'tcx>>( + tcx: TyCtxt<'tcx>, + param_env: ty::ParamEnv<'tcx>, + item_hir: hir::HirId, + to_check: T, + wf_tys: &FxHashSet>, + gat_def_id: LocalDefId, + gat_generics: &'tcx ty::Generics, +) -> Option>> { + // The bounds we that we would require from this function + let mut bounds = FxHashSet::default(); + + let (regions, types) = GATSubstCollector::visit(tcx, gat_def_id.to_def_id(), to_check); + + // If both regions and types are empty, then this GAT isn't in the + // return type, and we shouldn't try to do clause analysis + // (particularly, doing so would end up with an empty set of clauses, + // since the current method would require none, and we take the + // intersection of requirements of all methods) + if types.is_empty() && regions.is_empty() { + return None; + } + + for (region_a, region_a_idx) in ®ions { + // Ignore `'static` lifetimes for the purpose of this lint: it's + // because we know it outlives everything and so doesn't give meaninful + // clues + if let ty::ReStatic = **region_a { + continue; + } + // For each region argument (e.g., 'a in our example), check for a + // relationship to the type arguments (e.g., Self). If there is an + // outlives relationship (`Self: 'a`), then we want to ensure that is + // reflected in a where clause on the GAT itself. + for (ty, ty_idx) in &types { + // In our example, requires that Self: 'a + if ty_known_to_outlive(tcx, item_hir, param_env, &wf_tys, *ty, *region_a) { + debug!(?ty_idx, ?region_a_idx); + debug!("required clause: {} must outlive {}", ty, region_a); + // Translate into the generic parameters of the GAT. In + // our example, the type was Self, which will also be + // Self in the GAT. + let ty_param = gat_generics.param_at(*ty_idx, tcx); + let ty_param = tcx + .mk_ty(ty::Param(ty::ParamTy { index: ty_param.index, name: ty_param.name })); + // Same for the region. In our example, 'a corresponds + // to the 'me parameter. + let region_param = gat_generics.param_at(*region_a_idx, tcx); + let region_param = + tcx.mk_region(ty::RegionKind::ReEarlyBound(ty::EarlyBoundRegion { + def_id: region_param.def_id, + index: region_param.index, + name: region_param.name, + })); + // The predicate we expect to see. (In our example, + // `Self: 'me`.) + let clause = + ty::PredicateKind::TypeOutlives(ty::OutlivesPredicate(ty_param, region_param)); + let clause = tcx.mk_predicate(ty::Binder::dummy(clause)); + bounds.insert(clause); + } + } + + // For each region argument (e.g., 'a in our example), also check for a + // relationship to the other region arguments. If there is an + // outlives relationship, then we want to ensure that is + // reflected in a where clause on the GAT itself. + for (region_b, region_b_idx) in ®ions { + if ty::ReStatic == **region_b || region_a == region_b { + continue; + } + if region_known_to_outlive(tcx, item_hir, param_env, &wf_tys, *region_a, *region_b) { + debug!(?region_a_idx, ?region_b_idx); + debug!("required clause: {} must outlive {}", region_a, region_b); + // Translate into the generic parameters of the GAT. + let region_a_param = gat_generics.param_at(*region_a_idx, tcx); + let region_a_param = + tcx.mk_region(ty::RegionKind::ReEarlyBound(ty::EarlyBoundRegion { + def_id: region_a_param.def_id, + index: region_a_param.index, + name: region_a_param.name, + })); + // Same for the region. + let region_b_param = gat_generics.param_at(*region_b_idx, tcx); + let region_b_param = + tcx.mk_region(ty::RegionKind::ReEarlyBound(ty::EarlyBoundRegion { + def_id: region_b_param.def_id, + index: region_b_param.index, + name: region_b_param.name, + })); + // The predicate we expect to see. + let clause = ty::PredicateKind::RegionOutlives(ty::OutlivesPredicate( + region_a_param, + region_b_param, + )); + let clause = tcx.mk_predicate(ty::Binder::dummy(clause)); + bounds.insert(clause); + } + } + } + + Some(bounds) +} + /// Given a known `param_env` and a set of well formed types, can we prove that /// `ty` outlives `region`. fn ty_known_to_outlive<'tcx>(