compiler/rustc_ty_utils/src/assoc.rs - third_party/rust - Git at Google

 use rustc_data_structures::fx::FxIndexSet;
 use rustc_hir as hir;
 use rustc_hir::def::DefKind;
 use rustc_hir::def_id::{DefId, DefIdMap, LocalDefId};
 use rustc_hir::definitions::DefPathData;
 use rustc_hir::intravisit::{self, Visitor};
 use rustc_middle::query::Providers;
 use rustc_middle::ty::{self, ImplTraitInTraitData, InternalSubsts, TyCtxt};
 use rustc_span::symbol::kw;

 pub fn provide(providers: &mut Providers) {
     *providers = Providers {
         associated_item,
         associated_item_def_ids,
         associated_items,
         associated_types_for_impl_traits_in_associated_fn,
         associated_type_for_impl_trait_in_trait,
         impl_item_implementor_ids,
         ..*providers
     };
 }

 fn associated_item_def_ids(tcx: TyCtxt<'_>, def_id: LocalDefId) -> &[DefId] {
     let item = tcx.hir().expect_item(def_id);
     match item.kind {
         hir::ItemKind::Trait(.., ref trait_item_refs) => {
             if tcx.lower_impl_trait_in_trait_to_assoc_ty() {
                 // We collect RPITITs for each trait method's return type and create a
                 // corresponding associated item using associated_types_for_impl_traits_in_associated_fn
                 // query.
                 tcx.arena.alloc_from_iter(
                     trait_item_refs
                         .iter()
                         .map(|trait_item_ref| trait_item_ref.id.owner_id.to_def_id())
                         .chain(
                             trait_item_refs
                                 .iter()
                                 .filter(|trait_item_ref| {
                                     matches!(trait_item_ref.kind, hir::AssocItemKind::Fn { .. })
                                 })
                                 .flat_map(|trait_item_ref| {
                                     let trait_fn_def_id =
                                         trait_item_ref.id.owner_id.def_id.to_def_id();
                                     tcx.associated_types_for_impl_traits_in_associated_fn(
                                         trait_fn_def_id,
                                     )
                                 })
                                 .map(|def_id| *def_id),
                         ),
                 )
             } else {
                 tcx.arena.alloc_from_iter(
                     trait_item_refs
                         .iter()
                         .map(|trait_item_ref| trait_item_ref.id.owner_id.to_def_id()),
                 )
             }
         }
         hir::ItemKind::Impl(ref impl_) => {
             if tcx.lower_impl_trait_in_trait_to_assoc_ty() {
                 // We collect RPITITs for each trait method's return type, on the impl side too and
                 // create a corresponding associated item using
                 // associated_types_for_impl_traits_in_associated_fn query.
                 tcx.arena.alloc_from_iter(
                     impl_
                         .items
                         .iter()
                         .map(|impl_item_ref| impl_item_ref.id.owner_id.to_def_id())
                         .chain(impl_.of_trait.iter().flat_map(|_| {
                             impl_
                                 .items
                                 .iter()
                                 .filter(|impl_item_ref| {
                                     matches!(impl_item_ref.kind, hir::AssocItemKind::Fn { .. })
                                 })
                                 .flat_map(|impl_item_ref| {
                                     let impl_fn_def_id =
                                         impl_item_ref.id.owner_id.def_id.to_def_id();
                                     tcx.associated_types_for_impl_traits_in_associated_fn(
                                         impl_fn_def_id,
                                     )
                                 })
                                 .map(|def_id| *def_id)
                         })),
                 )
             } else {
                 tcx.arena.alloc_from_iter(
                     impl_.items.iter().map(|impl_item_ref| impl_item_ref.id.owner_id.to_def_id()),
                 )
             }
         }
         _ => span_bug!(item.span, "associated_item_def_ids: not impl or trait"),
     }
 }

 fn associated_items(tcx: TyCtxt<'_>, def_id: DefId) -> ty::AssocItems {
     if tcx.is_trait_alias(def_id) {
         ty::AssocItems::new(Vec::new())
     } else {
         let items = tcx.associated_item_def_ids(def_id).iter().map(|did| tcx.associated_item(*did));
         ty::AssocItems::new(items)
     }
 }

 fn impl_item_implementor_ids(tcx: TyCtxt<'_>, impl_id: DefId) -> DefIdMap<DefId> {
     tcx.associated_items(impl_id)
         .in_definition_order()
         .filter_map(|item| item.trait_item_def_id.map(|trait_item| (trait_item, item.def_id)))
         .collect()
 }

 fn associated_item(tcx: TyCtxt<'_>, def_id: LocalDefId) -> ty::AssocItem {
     let id = tcx.hir().local_def_id_to_hir_id(def_id);
     let parent_def_id = tcx.hir().get_parent_item(id);
     let parent_item = tcx.hir().expect_item(parent_def_id.def_id);
     match parent_item.kind {
         hir::ItemKind::Impl(ref impl_) => {
             if let Some(impl_item_ref) = impl_.items.iter().find(|i| i.id.owner_id.def_id == def_id)
             {
                 let assoc_item = associated_item_from_impl_item_ref(impl_item_ref);
                 debug_assert_eq!(assoc_item.def_id.expect_local(), def_id);
                 return assoc_item;
             }
         }

         hir::ItemKind::Trait(.., ref trait_item_refs) => {
             if let Some(trait_item_ref) =
                 trait_item_refs.iter().find(|i| i.id.owner_id.def_id == def_id)
             {
                 let assoc_item = associated_item_from_trait_item_ref(trait_item_ref);
                 debug_assert_eq!(assoc_item.def_id.expect_local(), def_id);
                 return assoc_item;
             }
         }

         _ => {}
     }

     span_bug!(
         parent_item.span,
         "unexpected parent of trait or impl item or item not found: {:?}",
         parent_item.kind
     )
 }

 fn associated_item_from_trait_item_ref(trait_item_ref: &hir::TraitItemRef) -> ty::AssocItem {
     let owner_id = trait_item_ref.id.owner_id;
     let (kind, has_self) = match trait_item_ref.kind {
         hir::AssocItemKind::Const => (ty::AssocKind::Const, false),
         hir::AssocItemKind::Fn { has_self } => (ty::AssocKind::Fn, has_self),
         hir::AssocItemKind::Type => (ty::AssocKind::Type, false),
     };

     ty::AssocItem {
         name: trait_item_ref.ident.name,
         kind,
         def_id: owner_id.to_def_id(),
         trait_item_def_id: Some(owner_id.to_def_id()),
         container: ty::TraitContainer,
         fn_has_self_parameter: has_self,
         opt_rpitit_info: None,
     }
 }

 fn associated_item_from_impl_item_ref(impl_item_ref: &hir::ImplItemRef) -> ty::AssocItem {
     let def_id = impl_item_ref.id.owner_id;
     let (kind, has_self) = match impl_item_ref.kind {
         hir::AssocItemKind::Const => (ty::AssocKind::Const, false),
         hir::AssocItemKind::Fn { has_self } => (ty::AssocKind::Fn, has_self),
         hir::AssocItemKind::Type => (ty::AssocKind::Type, false),
     };

     ty::AssocItem {
         name: impl_item_ref.ident.name,
         kind,
         def_id: def_id.to_def_id(),
         trait_item_def_id: impl_item_ref.trait_item_def_id,
         container: ty::ImplContainer,
         fn_has_self_parameter: has_self,
         opt_rpitit_info: None,
     }
 }

 /// Given an `fn_def_id` of a trait or a trait implementation:
 ///
 /// if `fn_def_id` is a function defined inside a trait, then it synthesizes
 /// a new def id corresponding to a new associated type for each return-
 /// position `impl Trait` in the signature.
 ///
 /// if `fn_def_id` is a function inside of an impl, then for each synthetic
 /// associated type generated for the corresponding trait function described
 /// above, synthesize a corresponding associated type in the impl.
 fn associated_types_for_impl_traits_in_associated_fn(
     tcx: TyCtxt<'_>,
     fn_def_id: LocalDefId,
 ) -> &'_ [DefId] {
     let parent_def_id = tcx.local_parent(fn_def_id);

     match tcx.def_kind(parent_def_id) {
         DefKind::Trait => {
             struct RPITVisitor<'tcx> {
                 rpits: FxIndexSet<LocalDefId>,
                 tcx: TyCtxt<'tcx>,
             }

             impl<'tcx> Visitor<'tcx> for RPITVisitor<'tcx> {
                 fn visit_ty(&mut self, ty: &'tcx hir::Ty<'tcx>) {
                     if let hir::TyKind::OpaqueDef(item_id, _, _) = ty.kind
                         && self.rpits.insert(item_id.owner_id.def_id)
                     {
                         let opaque_item = self.tcx.hir().expect_item(item_id.owner_id.def_id).expect_opaque_ty();
                         for bound in opaque_item.bounds {
                             intravisit::walk_param_bound(self, bound);
                         }
                     }
                     intravisit::walk_ty(self, ty)
                 }
             }

             let mut visitor = RPITVisitor { tcx, rpits: FxIndexSet::default() };

             if let Some(output) = tcx.hir().get_fn_output(fn_def_id) {
                 visitor.visit_fn_ret_ty(output);

                 tcx.arena.alloc_from_iter(visitor.rpits.iter().map(|opaque_ty_def_id| {
                     tcx.associated_type_for_impl_trait_in_trait(opaque_ty_def_id).to_def_id()
                 }))
             } else {
                 &[]
             }
         }

         DefKind::Impl { .. } => {
             let Some(trait_fn_def_id) = tcx.associated_item(fn_def_id).trait_item_def_id else { return &[] };

             tcx.arena.alloc_from_iter(
                 tcx.associated_types_for_impl_traits_in_associated_fn(trait_fn_def_id).iter().map(
                     move |&trait_assoc_def_id| {
                         associated_type_for_impl_trait_in_impl(tcx, trait_assoc_def_id, fn_def_id)
                             .to_def_id()
                     },
                 ),
             )
         }

         def_kind => bug!(
             "associated_types_for_impl_traits_in_associated_fn: {:?} should be Trait or Impl but is {:?}",
             parent_def_id,
             def_kind
         ),
     }
 }

 /// Given an `opaque_ty_def_id` corresponding to an `impl Trait` in an associated
 /// function from a trait, synthesize an associated type for that `impl Trait`
 /// that inherits properties that we infer from the method and the opaque type.
 fn associated_type_for_impl_trait_in_trait(
     tcx: TyCtxt<'_>,
     opaque_ty_def_id: LocalDefId,
 ) -> LocalDefId {
     let (hir::OpaqueTyOrigin::FnReturn(fn_def_id) | hir::OpaqueTyOrigin::AsyncFn(fn_def_id)) =
         tcx.hir().expect_item(opaque_ty_def_id).expect_opaque_ty().origin
     else {
         bug!("expected opaque for {opaque_ty_def_id:?}");
     };
     let trait_def_id = tcx.local_parent(fn_def_id);
     assert_eq!(tcx.def_kind(trait_def_id), DefKind::Trait);

     let span = tcx.def_span(opaque_ty_def_id);
     let trait_assoc_ty = tcx.at(span).create_def(trait_def_id, DefPathData::ImplTraitAssocTy);

     let local_def_id = trait_assoc_ty.def_id();
     let def_id = local_def_id.to_def_id();

     trait_assoc_ty.opt_def_kind(Some(DefKind::AssocTy));

     // There's no HIR associated with this new synthesized `def_id`, so feed
     // `opt_local_def_id_to_hir_id` with `None`.
     trait_assoc_ty.opt_local_def_id_to_hir_id(None);

     // Copy span of the opaque.
     trait_assoc_ty.def_ident_span(Some(span));

     trait_assoc_ty.associated_item(ty::AssocItem {
         name: kw::Empty,
         kind: ty::AssocKind::Type,
         def_id,
         trait_item_def_id: None,
         container: ty::TraitContainer,
         fn_has_self_parameter: false,
         opt_rpitit_info: Some(ImplTraitInTraitData::Trait {
             fn_def_id: fn_def_id.to_def_id(),
             opaque_def_id: opaque_ty_def_id.to_def_id(),
         }),
     });

     // Copy visility of the containing function.
     trait_assoc_ty.visibility(tcx.visibility(fn_def_id));

     // Copy impl_defaultness of the containing function.
     trait_assoc_ty.impl_defaultness(tcx.impl_defaultness(fn_def_id));

     // Copy type_of of the opaque.
     trait_assoc_ty.type_of(ty::EarlyBinder::new(tcx.mk_opaque(
         opaque_ty_def_id.to_def_id(),
         InternalSubsts::identity_for_item(tcx, opaque_ty_def_id),
     )));

     trait_assoc_ty.is_type_alias_impl_trait(false);

     // Copy generics_of of the opaque type item but the trait is the parent.
     trait_assoc_ty.generics_of({
         let opaque_ty_generics = tcx.generics_of(opaque_ty_def_id);
         let opaque_ty_parent_count = opaque_ty_generics.parent_count;
         let mut params = opaque_ty_generics.params.clone();

         let parent_generics = tcx.generics_of(trait_def_id);
         let parent_count = parent_generics.parent_count + parent_generics.params.len();

         let mut trait_fn_params = tcx.generics_of(fn_def_id).params.clone();

         for param in &mut params {
             param.index = param.index + parent_count as u32 + trait_fn_params.len() as u32
                 - opaque_ty_parent_count as u32;
         }

         trait_fn_params.extend(params);
         params = trait_fn_params;

         let param_def_id_to_index =
             params.iter().map(|param| (param.def_id, param.index)).collect();

         ty::Generics {
             parent: Some(trait_def_id.to_def_id()),
             parent_count,
             params,
             param_def_id_to_index,
             has_self: opaque_ty_generics.has_self,
             has_late_bound_regions: opaque_ty_generics.has_late_bound_regions,
         }
     });

     // There are no predicates for the synthesized associated type.
     trait_assoc_ty.explicit_predicates_of(ty::GenericPredicates {
         parent: Some(trait_def_id.to_def_id()),
         predicates: &[],
     });

     // There are no inferred outlives for the synthesized associated type.
     trait_assoc_ty.inferred_outlives_of(&[]);

     local_def_id
 }

 /// Given an `trait_assoc_def_id` corresponding to an associated item synthesized
 /// from an `impl Trait` in an associated function from a trait, and an
 /// `impl_fn_def_id` that represents an implementation of the associated function
 /// that the `impl Trait` comes from, synthesize an associated type for that `impl Trait`
 /// that inherits properties that we infer from the method and the associated type.
 fn associated_type_for_impl_trait_in_impl(
     tcx: TyCtxt<'_>,
     trait_assoc_def_id: DefId,
     impl_fn_def_id: LocalDefId,
 ) -> LocalDefId {
     let impl_local_def_id = tcx.local_parent(impl_fn_def_id);

     // FIXME fix the span, we probably want the def_id of the return type of the function
     let span = tcx.def_span(impl_fn_def_id);
     let impl_assoc_ty = tcx.at(span).create_def(impl_local_def_id, DefPathData::ImplTraitAssocTy);

     let local_def_id = impl_assoc_ty.def_id();
     let def_id = local_def_id.to_def_id();

     impl_assoc_ty.opt_def_kind(Some(DefKind::AssocTy));

     // There's no HIR associated with this new synthesized `def_id`, so feed
     // `opt_local_def_id_to_hir_id` with `None`.
     impl_assoc_ty.opt_local_def_id_to_hir_id(None);

     // Copy span of the opaque.
     impl_assoc_ty.def_ident_span(Some(span));

     impl_assoc_ty.associated_item(ty::AssocItem {
         name: kw::Empty,
         kind: ty::AssocKind::Type,
         def_id,
         trait_item_def_id: Some(trait_assoc_def_id),
         container: ty::ImplContainer,
         fn_has_self_parameter: false,
         opt_rpitit_info: Some(ImplTraitInTraitData::Impl { fn_def_id: impl_fn_def_id.to_def_id() }),
     });

     // Copy visility of the containing function.
     impl_assoc_ty.visibility(tcx.visibility(impl_fn_def_id));

     // Copy impl_defaultness of the containing function.
     impl_assoc_ty.impl_defaultness(tcx.impl_defaultness(impl_fn_def_id));

     // Copy generics_of the trait's associated item but the impl as the parent.
     // FIXME(-Zlower-impl-trait-in-trait-to-assoc-ty) resolves to the trait instead of the impl
     // generics.
     impl_assoc_ty.generics_of({
         let trait_assoc_generics = tcx.generics_of(trait_assoc_def_id);
         let trait_assoc_parent_count = trait_assoc_generics.parent_count;
         let mut params = trait_assoc_generics.params.clone();

         let parent_generics = tcx.generics_of(impl_local_def_id.to_def_id());
         let parent_count = parent_generics.parent_count + parent_generics.params.len();

         for param in &mut params {
             param.index = param.index + parent_count as u32 - trait_assoc_parent_count as u32;
         }

         let param_def_id_to_index =
             params.iter().map(|param| (param.def_id, param.index)).collect();

         ty::Generics {
             parent: Some(impl_local_def_id.to_def_id()),
             parent_count,
             params,
             param_def_id_to_index,
             has_self: false,
             has_late_bound_regions: trait_assoc_generics.has_late_bound_regions,
         }
     });

     // There are no predicates for the synthesized associated type.
     impl_assoc_ty.explicit_predicates_of(ty::GenericPredicates {
         parent: Some(impl_local_def_id.to_def_id()),
         predicates: &[],
     });

     // There are no inferred outlives for the synthesized associated type.
     impl_assoc_ty.inferred_outlives_of(&[]);

     local_def_id
 }
	use rustc_data_structures::fx::FxIndexSet;
	use rustc_hir as hir;
	use rustc_hir::def::DefKind;
	use rustc_hir::def_id::{DefId, DefIdMap, LocalDefId};
	use rustc_hir::definitions::DefPathData;
	use rustc_hir::intravisit::{self, Visitor};
	use rustc_middle::query::Providers;
	use rustc_middle::ty::{self, ImplTraitInTraitData, InternalSubsts, TyCtxt};
	use rustc_span::symbol::kw;

	pub fn provide(providers: &mut Providers) {
	*providers = Providers {
	associated_item,
	associated_item_def_ids,
	associated_items,
	associated_types_for_impl_traits_in_associated_fn,
	associated_type_for_impl_trait_in_trait,
	impl_item_implementor_ids,
	..*providers
	};
	}

	fn associated_item_def_ids(tcx: TyCtxt<'_>, def_id: LocalDefId) -> &[DefId] {
	let item = tcx.hir().expect_item(def_id);
	match item.kind {
	hir::ItemKind::Trait(.., ref trait_item_refs) => {
	if tcx.lower_impl_trait_in_trait_to_assoc_ty() {
	// We collect RPITITs for each trait method's return type and create a
	// corresponding associated item using associated_types_for_impl_traits_in_associated_fn
	// query.
	tcx.arena.alloc_from_iter(
	trait_item_refs
	.iter()
	.map(\|trait_item_ref\| trait_item_ref.id.owner_id.to_def_id())
	.chain(
	trait_item_refs
	.iter()
	.filter(\|trait_item_ref\| {
	matches!(trait_item_ref.kind, hir::AssocItemKind::Fn { .. })
	})
	.flat_map(\|trait_item_ref\| {
	let trait_fn_def_id =
	trait_item_ref.id.owner_id.def_id.to_def_id();
	tcx.associated_types_for_impl_traits_in_associated_fn(
	trait_fn_def_id,
	)
	})
	.map(\|def_id\| *def_id),
	),
	)
	} else {
	tcx.arena.alloc_from_iter(
	trait_item_refs
	.iter()
	.map(\|trait_item_ref\| trait_item_ref.id.owner_id.to_def_id()),
	)
	}
	}
	hir::ItemKind::Impl(ref impl_) => {
	if tcx.lower_impl_trait_in_trait_to_assoc_ty() {
	// We collect RPITITs for each trait method's return type, on the impl side too and
	// create a corresponding associated item using
	// associated_types_for_impl_traits_in_associated_fn query.
	tcx.arena.alloc_from_iter(
	impl_
	.items
	.iter()
	.map(\|impl_item_ref\| impl_item_ref.id.owner_id.to_def_id())
	.chain(impl_.of_trait.iter().flat_map(\|_\| {
	impl_
	.items
	.iter()
	.filter(\|impl_item_ref\| {
	matches!(impl_item_ref.kind, hir::AssocItemKind::Fn { .. })
	})
	.flat_map(\|impl_item_ref\| {
	let impl_fn_def_id =
	impl_item_ref.id.owner_id.def_id.to_def_id();
	tcx.associated_types_for_impl_traits_in_associated_fn(
	impl_fn_def_id,
	)
	})
	.map(\|def_id\| *def_id)
	})),
	)
	} else {
	tcx.arena.alloc_from_iter(
	impl_.items.iter().map(\|impl_item_ref\| impl_item_ref.id.owner_id.to_def_id()),
	)
	}
	}
	_ => span_bug!(item.span, "associated_item_def_ids: not impl or trait"),
	}
	}

	fn associated_items(tcx: TyCtxt<'_>, def_id: DefId) -> ty::AssocItems {
	if tcx.is_trait_alias(def_id) {
	ty::AssocItems::new(Vec::new())
	} else {
	let items = tcx.associated_item_def_ids(def_id).iter().map(\|did\| tcx.associated_item(*did));
	ty::AssocItems::new(items)
	}
	}

	fn impl_item_implementor_ids(tcx: TyCtxt<'_>, impl_id: DefId) -> DefIdMap<DefId> {
	tcx.associated_items(impl_id)
	.in_definition_order()
	.filter_map(\|item\| item.trait_item_def_id.map(\|trait_item\| (trait_item, item.def_id)))
	.collect()
	}

	fn associated_item(tcx: TyCtxt<'_>, def_id: LocalDefId) -> ty::AssocItem {
	let id = tcx.hir().local_def_id_to_hir_id(def_id);
	let parent_def_id = tcx.hir().get_parent_item(id);
	let parent_item = tcx.hir().expect_item(parent_def_id.def_id);
	match parent_item.kind {
	hir::ItemKind::Impl(ref impl_) => {
	if let Some(impl_item_ref) = impl_.items.iter().find(\|i\| i.id.owner_id.def_id == def_id)
	{
	let assoc_item = associated_item_from_impl_item_ref(impl_item_ref);
	debug_assert_eq!(assoc_item.def_id.expect_local(), def_id);
	return assoc_item;
	}
	}

	hir::ItemKind::Trait(.., ref trait_item_refs) => {
	if let Some(trait_item_ref) =
	trait_item_refs.iter().find(\|i\| i.id.owner_id.def_id == def_id)
	{
	let assoc_item = associated_item_from_trait_item_ref(trait_item_ref);
	debug_assert_eq!(assoc_item.def_id.expect_local(), def_id);
	return assoc_item;
	}
	}

	_ => {}
	}

	span_bug!(
	parent_item.span,
	"unexpected parent of trait or impl item or item not found: {:?}",
	parent_item.kind
	)
	}

	fn associated_item_from_trait_item_ref(trait_item_ref: &hir::TraitItemRef) -> ty::AssocItem {
	let owner_id = trait_item_ref.id.owner_id;
	let (kind, has_self) = match trait_item_ref.kind {
	hir::AssocItemKind::Const => (ty::AssocKind::Const, false),
	hir::AssocItemKind::Fn { has_self } => (ty::AssocKind::Fn, has_self),
	hir::AssocItemKind::Type => (ty::AssocKind::Type, false),
	};

	ty::AssocItem {
	name: trait_item_ref.ident.name,
	kind,
	def_id: owner_id.to_def_id(),
	trait_item_def_id: Some(owner_id.to_def_id()),
	container: ty::TraitContainer,
	fn_has_self_parameter: has_self,
	opt_rpitit_info: None,
	}
	}

	fn associated_item_from_impl_item_ref(impl_item_ref: &hir::ImplItemRef) -> ty::AssocItem {
	let def_id = impl_item_ref.id.owner_id;
	let (kind, has_self) = match impl_item_ref.kind {
	hir::AssocItemKind::Const => (ty::AssocKind::Const, false),
	hir::AssocItemKind::Fn { has_self } => (ty::AssocKind::Fn, has_self),
	hir::AssocItemKind::Type => (ty::AssocKind::Type, false),
	};

	ty::AssocItem {
	name: impl_item_ref.ident.name,
	kind,
	def_id: def_id.to_def_id(),
	trait_item_def_id: impl_item_ref.trait_item_def_id,
	container: ty::ImplContainer,
	fn_has_self_parameter: has_self,
	opt_rpitit_info: None,
	}
	}

	/// Given an `fn_def_id` of a trait or a trait implementation:
	///
	/// if `fn_def_id` is a function defined inside a trait, then it synthesizes
	/// a new def id corresponding to a new associated type for each return-
	/// position `impl Trait` in the signature.
	///
	/// if `fn_def_id` is a function inside of an impl, then for each synthetic
	/// associated type generated for the corresponding trait function described
	/// above, synthesize a corresponding associated type in the impl.
	fn associated_types_for_impl_traits_in_associated_fn(
	tcx: TyCtxt<'_>,
	fn_def_id: LocalDefId,
	) -> &'_ [DefId] {
	let parent_def_id = tcx.local_parent(fn_def_id);

	match tcx.def_kind(parent_def_id) {
	DefKind::Trait => {
	struct RPITVisitor<'tcx> {
	rpits: FxIndexSet<LocalDefId>,
	tcx: TyCtxt<'tcx>,
	}

	impl<'tcx> Visitor<'tcx> for RPITVisitor<'tcx> {
	fn visit_ty(&mut self, ty: &'tcx hir::Ty<'tcx>) {
	if let hir::TyKind::OpaqueDef(item_id, _, _) = ty.kind
	&& self.rpits.insert(item_id.owner_id.def_id)
	{
	let opaque_item = self.tcx.hir().expect_item(item_id.owner_id.def_id).expect_opaque_ty();
	for bound in opaque_item.bounds {
	intravisit::walk_param_bound(self, bound);
	}
	}
	intravisit::walk_ty(self, ty)
	}
	}

	let mut visitor = RPITVisitor { tcx, rpits: FxIndexSet::default() };

	if let Some(output) = tcx.hir().get_fn_output(fn_def_id) {
	visitor.visit_fn_ret_ty(output);

	tcx.arena.alloc_from_iter(visitor.rpits.iter().map(\|opaque_ty_def_id\| {
	tcx.associated_type_for_impl_trait_in_trait(opaque_ty_def_id).to_def_id()
	}))
	} else {
	&[]
	}
	}

	DefKind::Impl { .. } => {
	let Some(trait_fn_def_id) = tcx.associated_item(fn_def_id).trait_item_def_id else { return &[] };

	tcx.arena.alloc_from_iter(
	tcx.associated_types_for_impl_traits_in_associated_fn(trait_fn_def_id).iter().map(
	move \|&trait_assoc_def_id\| {
	associated_type_for_impl_trait_in_impl(tcx, trait_assoc_def_id, fn_def_id)
	.to_def_id()
	},
	),
	)
	}

	def_kind => bug!(
	"associated_types_for_impl_traits_in_associated_fn: {:?} should be Trait or Impl but is {:?}",
	parent_def_id,
	def_kind
	),
	}
	}

	/// Given an `opaque_ty_def_id` corresponding to an `impl Trait` in an associated
	/// function from a trait, synthesize an associated type for that `impl Trait`
	/// that inherits properties that we infer from the method and the opaque type.
	fn associated_type_for_impl_trait_in_trait(
	tcx: TyCtxt<'_>,
	opaque_ty_def_id: LocalDefId,
	) -> LocalDefId {
	let (hir::OpaqueTyOrigin::FnReturn(fn_def_id) \| hir::OpaqueTyOrigin::AsyncFn(fn_def_id)) =
	tcx.hir().expect_item(opaque_ty_def_id).expect_opaque_ty().origin
	else {
	bug!("expected opaque for {opaque_ty_def_id:?}");
	};
	let trait_def_id = tcx.local_parent(fn_def_id);
	assert_eq!(tcx.def_kind(trait_def_id), DefKind::Trait);

	let span = tcx.def_span(opaque_ty_def_id);
	let trait_assoc_ty = tcx.at(span).create_def(trait_def_id, DefPathData::ImplTraitAssocTy);

	let local_def_id = trait_assoc_ty.def_id();
	let def_id = local_def_id.to_def_id();

	trait_assoc_ty.opt_def_kind(Some(DefKind::AssocTy));

	// There's no HIR associated with this new synthesized `def_id`, so feed
	// `opt_local_def_id_to_hir_id` with `None`.
	trait_assoc_ty.opt_local_def_id_to_hir_id(None);

	// Copy span of the opaque.
	trait_assoc_ty.def_ident_span(Some(span));

	trait_assoc_ty.associated_item(ty::AssocItem {
	name: kw::Empty,
	kind: ty::AssocKind::Type,
	def_id,
	trait_item_def_id: None,
	container: ty::TraitContainer,
	fn_has_self_parameter: false,
	opt_rpitit_info: Some(ImplTraitInTraitData::Trait {
	fn_def_id: fn_def_id.to_def_id(),
	opaque_def_id: opaque_ty_def_id.to_def_id(),
	}),
	});

	// Copy visility of the containing function.
	trait_assoc_ty.visibility(tcx.visibility(fn_def_id));

	// Copy impl_defaultness of the containing function.
	trait_assoc_ty.impl_defaultness(tcx.impl_defaultness(fn_def_id));

	// Copy type_of of the opaque.
	trait_assoc_ty.type_of(ty::EarlyBinder::new(tcx.mk_opaque(
	opaque_ty_def_id.to_def_id(),
	InternalSubsts::identity_for_item(tcx, opaque_ty_def_id),
	)));

	trait_assoc_ty.is_type_alias_impl_trait(false);

	// Copy generics_of of the opaque type item but the trait is the parent.
	trait_assoc_ty.generics_of({
	let opaque_ty_generics = tcx.generics_of(opaque_ty_def_id);
	let opaque_ty_parent_count = opaque_ty_generics.parent_count;
	let mut params = opaque_ty_generics.params.clone();

	let parent_generics = tcx.generics_of(trait_def_id);
	let parent_count = parent_generics.parent_count + parent_generics.params.len();

	let mut trait_fn_params = tcx.generics_of(fn_def_id).params.clone();

	for param in &mut params {
	param.index = param.index + parent_count as u32 + trait_fn_params.len() as u32
	- opaque_ty_parent_count as u32;
	}

	trait_fn_params.extend(params);
	params = trait_fn_params;

	let param_def_id_to_index =
	params.iter().map(\|param\| (param.def_id, param.index)).collect();

	ty::Generics {
	parent: Some(trait_def_id.to_def_id()),
	parent_count,
	params,
	param_def_id_to_index,
	has_self: opaque_ty_generics.has_self,
	has_late_bound_regions: opaque_ty_generics.has_late_bound_regions,
	}
	});

	// There are no predicates for the synthesized associated type.
	trait_assoc_ty.explicit_predicates_of(ty::GenericPredicates {
	parent: Some(trait_def_id.to_def_id()),
	predicates: &[],
	});

	// There are no inferred outlives for the synthesized associated type.
	trait_assoc_ty.inferred_outlives_of(&[]);

	local_def_id
	}

	/// Given an `trait_assoc_def_id` corresponding to an associated item synthesized
	/// from an `impl Trait` in an associated function from a trait, and an
	/// `impl_fn_def_id` that represents an implementation of the associated function
	/// that the `impl Trait` comes from, synthesize an associated type for that `impl Trait`
	/// that inherits properties that we infer from the method and the associated type.
	fn associated_type_for_impl_trait_in_impl(
	tcx: TyCtxt<'_>,
	trait_assoc_def_id: DefId,
	impl_fn_def_id: LocalDefId,
	) -> LocalDefId {
	let impl_local_def_id = tcx.local_parent(impl_fn_def_id);

	// FIXME fix the span, we probably want the def_id of the return type of the function
	let span = tcx.def_span(impl_fn_def_id);
	let impl_assoc_ty = tcx.at(span).create_def(impl_local_def_id, DefPathData::ImplTraitAssocTy);

	let local_def_id = impl_assoc_ty.def_id();
	let def_id = local_def_id.to_def_id();

	impl_assoc_ty.opt_def_kind(Some(DefKind::AssocTy));

	// There's no HIR associated with this new synthesized `def_id`, so feed
	// `opt_local_def_id_to_hir_id` with `None`.
	impl_assoc_ty.opt_local_def_id_to_hir_id(None);

	// Copy span of the opaque.
	impl_assoc_ty.def_ident_span(Some(span));

	impl_assoc_ty.associated_item(ty::AssocItem {
	name: kw::Empty,
	kind: ty::AssocKind::Type,
	def_id,
	trait_item_def_id: Some(trait_assoc_def_id),
	container: ty::ImplContainer,
	fn_has_self_parameter: false,
	opt_rpitit_info: Some(ImplTraitInTraitData::Impl { fn_def_id: impl_fn_def_id.to_def_id() }),
	});

	// Copy visility of the containing function.
	impl_assoc_ty.visibility(tcx.visibility(impl_fn_def_id));

	// Copy impl_defaultness of the containing function.
	impl_assoc_ty.impl_defaultness(tcx.impl_defaultness(impl_fn_def_id));

	// Copy generics_of the trait's associated item but the impl as the parent.
	// FIXME(-Zlower-impl-trait-in-trait-to-assoc-ty) resolves to the trait instead of the impl
	// generics.
	impl_assoc_ty.generics_of({
	let trait_assoc_generics = tcx.generics_of(trait_assoc_def_id);
	let trait_assoc_parent_count = trait_assoc_generics.parent_count;
	let mut params = trait_assoc_generics.params.clone();

	let parent_generics = tcx.generics_of(impl_local_def_id.to_def_id());
	let parent_count = parent_generics.parent_count + parent_generics.params.len();

	for param in &mut params {
	param.index = param.index + parent_count as u32 - trait_assoc_parent_count as u32;
	}

	let param_def_id_to_index =
	params.iter().map(\|param\| (param.def_id, param.index)).collect();

	ty::Generics {
	parent: Some(impl_local_def_id.to_def_id()),
	parent_count,
	params,
	param_def_id_to_index,
	has_self: false,
	has_late_bound_regions: trait_assoc_generics.has_late_bound_regions,
	}
	});

	// There are no predicates for the synthesized associated type.
	impl_assoc_ty.explicit_predicates_of(ty::GenericPredicates {
	parent: Some(impl_local_def_id.to_def_id()),
	predicates: &[],
	});

	// There are no inferred outlives for the synthesized associated type.
	impl_assoc_ty.inferred_outlives_of(&[]);

	local_def_id
	}