From 988d93c8a0b122a9923e0df6fb49cb430dbab3f2 Mon Sep 17 00:00:00 2001 From: Julian Wollersberger Date: Sun, 31 Jan 2021 21:40:03 +0100 Subject: [PATCH] Indent the code correctly again after removing the query categories. --- compiler/rustc_macros/src/query.rs | 106 +- compiler/rustc_middle/src/query/mod.rs | 2798 ++++++++++++------------ 2 files changed, 1451 insertions(+), 1453 deletions(-) diff --git a/compiler/rustc_macros/src/query.rs b/compiler/rustc_macros/src/query.rs index 92269920d29..cff8e983318 100644 --- a/compiler/rustc_macros/src/query.rs +++ b/compiler/rustc_macros/src/query.rs @@ -438,66 +438,64 @@ pub fn rustc_queries(input: TokenStream) -> TokenStream { let mut dep_node_def_stream = quote! {}; let mut cached_queries = quote! {}; - //for group in groups.0 { - for mut query in queries.0 { - let modifiers = process_modifiers(&mut query); - let name = &query.name; - let arg = &query.arg; - let result_full = &query.result; - let result = match query.result { - ReturnType::Default => quote! { -> () }, - _ => quote! { #result_full }, - }; + for mut query in queries.0 { + let modifiers = process_modifiers(&mut query); + let name = &query.name; + let arg = &query.arg; + let result_full = &query.result; + let result = match query.result { + ReturnType::Default => quote! { -> () }, + _ => quote! { #result_full }, + }; - if modifiers.cache.is_some() { - cached_queries.extend(quote! { - #name, - }); - } + if modifiers.cache.is_some() { + cached_queries.extend(quote! { + #name, + }); + } - let mut attributes = Vec::new(); + let mut attributes = Vec::new(); - // Pass on the fatal_cycle modifier - if modifiers.fatal_cycle { - attributes.push(quote! { fatal_cycle }); - }; - // Pass on the storage modifier - if let Some(ref ty) = modifiers.storage { - attributes.push(quote! { storage(#ty) }); - }; - // Pass on the cycle_delay_bug modifier - if modifiers.cycle_delay_bug { - attributes.push(quote! { cycle_delay_bug }); - }; - // Pass on the no_hash modifier - if modifiers.no_hash { - attributes.push(quote! { no_hash }); - }; - // Pass on the anon modifier - if modifiers.anon { - attributes.push(quote! { anon }); - }; - // Pass on the eval_always modifier - if modifiers.eval_always { - attributes.push(quote! { eval_always }); - }; + // Pass on the fatal_cycle modifier + if modifiers.fatal_cycle { + attributes.push(quote! { fatal_cycle }); + }; + // Pass on the storage modifier + if let Some(ref ty) = modifiers.storage { + attributes.push(quote! { storage(#ty) }); + }; + // Pass on the cycle_delay_bug modifier + if modifiers.cycle_delay_bug { + attributes.push(quote! { cycle_delay_bug }); + }; + // Pass on the no_hash modifier + if modifiers.no_hash { + attributes.push(quote! { no_hash }); + }; + // Pass on the anon modifier + if modifiers.anon { + attributes.push(quote! { anon }); + }; + // Pass on the eval_always modifier + if modifiers.eval_always { + attributes.push(quote! { eval_always }); + }; - let attribute_stream = quote! {#(#attributes),*}; - let doc_comments = query.doc_comments.iter(); - // Add the query to the group - query_stream.extend(quote! { - #(#doc_comments)* - [#attribute_stream] fn #name(#arg) #result, - }); + let attribute_stream = quote! {#(#attributes),*}; + let doc_comments = query.doc_comments.iter(); + // Add the query to the group + query_stream.extend(quote! { + #(#doc_comments)* + [#attribute_stream] fn #name(#arg) #result, + }); - // Create a dep node for the query - dep_node_def_stream.extend(quote! { - [#attribute_stream] #name(#arg), - }); + // Create a dep node for the query + dep_node_def_stream.extend(quote! { + [#attribute_stream] #name(#arg), + }); - add_query_description_impl(&query, modifiers, &mut query_description_stream); - } - //} + add_query_description_impl(&query, modifiers, &mut query_description_stream); + } TokenStream::from(quote! { macro_rules! rustc_query_append { diff --git a/compiler/rustc_middle/src/query/mod.rs b/compiler/rustc_middle/src/query/mod.rs index abaa60dec4a..ca528b2f091 100644 --- a/compiler/rustc_middle/src/query/mod.rs +++ b/compiler/rustc_middle/src/query/mod.rs @@ -35,1591 +35,1591 @@ fn describe_as_module(def_id: LocalDefId, tcx: TyCtxt<'_>) -> String { // Queries marked with `fatal_cycle` do not need the latter implementation, // as they will raise an fatal error on query cycles instead. rustc_queries! { - query trigger_delay_span_bug(key: DefId) -> () { - desc { "trigger a delay span bug" } - } + query trigger_delay_span_bug(key: DefId) -> () { + desc { "trigger a delay span bug" } + } - /// Represents crate as a whole (as distinct from the top-level crate module). - /// If you call `hir_crate` (e.g., indirectly by calling `tcx.hir().krate()`), - /// we will have to assume that any change means that you need to be recompiled. - /// This is because the `hir_crate` query gives you access to all other items. - /// To avoid this fate, do not call `tcx.hir().krate()`; instead, - /// prefer wrappers like `tcx.visit_all_items_in_krate()`. - query hir_crate(key: CrateNum) -> &'tcx Crate<'tcx> { - eval_always - no_hash - desc { "get the crate HIR" } - } + /// Represents crate as a whole (as distinct from the top-level crate module). + /// If you call `hir_crate` (e.g., indirectly by calling `tcx.hir().krate()`), + /// we will have to assume that any change means that you need to be recompiled. + /// This is because the `hir_crate` query gives you access to all other items. + /// To avoid this fate, do not call `tcx.hir().krate()`; instead, + /// prefer wrappers like `tcx.visit_all_items_in_krate()`. + query hir_crate(key: CrateNum) -> &'tcx Crate<'tcx> { + eval_always + no_hash + desc { "get the crate HIR" } + } - /// The indexed HIR. This can be conveniently accessed by `tcx.hir()`. - /// Avoid calling this query directly. - query index_hir(_: CrateNum) -> &'tcx map::IndexedHir<'tcx> { - eval_always - no_hash - desc { "index HIR" } - } + /// The indexed HIR. This can be conveniently accessed by `tcx.hir()`. + /// Avoid calling this query directly. + query index_hir(_: CrateNum) -> &'tcx map::IndexedHir<'tcx> { + eval_always + no_hash + desc { "index HIR" } + } - /// The items in a module. - /// - /// This can be conveniently accessed by `tcx.hir().visit_item_likes_in_module`. - /// Avoid calling this query directly. - query hir_module_items(key: LocalDefId) -> &'tcx hir::ModuleItems { - eval_always - desc { |tcx| "HIR module items in `{}`", tcx.def_path_str(key.to_def_id()) } - } + /// The items in a module. + /// + /// This can be conveniently accessed by `tcx.hir().visit_item_likes_in_module`. + /// Avoid calling this query directly. + query hir_module_items(key: LocalDefId) -> &'tcx hir::ModuleItems { + eval_always + desc { |tcx| "HIR module items in `{}`", tcx.def_path_str(key.to_def_id()) } + } - /// Gives access to the HIR node for the HIR owner `key`. - /// - /// This can be conveniently accessed by methods on `tcx.hir()`. - /// Avoid calling this query directly. - query hir_owner(key: LocalDefId) -> Option<&'tcx crate::hir::Owner<'tcx>> { - eval_always - desc { |tcx| "HIR owner of `{}`", tcx.def_path_str(key.to_def_id()) } - } + /// Gives access to the HIR node for the HIR owner `key`. + /// + /// This can be conveniently accessed by methods on `tcx.hir()`. + /// Avoid calling this query directly. + query hir_owner(key: LocalDefId) -> Option<&'tcx crate::hir::Owner<'tcx>> { + eval_always + desc { |tcx| "HIR owner of `{}`", tcx.def_path_str(key.to_def_id()) } + } - /// Gives access to the HIR nodes and bodies inside the HIR owner `key`. - /// - /// This can be conveniently accessed by methods on `tcx.hir()`. - /// Avoid calling this query directly. - query hir_owner_nodes(key: LocalDefId) -> Option<&'tcx crate::hir::OwnerNodes<'tcx>> { - eval_always - desc { |tcx| "HIR owner items in `{}`", tcx.def_path_str(key.to_def_id()) } - } + /// Gives access to the HIR nodes and bodies inside the HIR owner `key`. + /// + /// This can be conveniently accessed by methods on `tcx.hir()`. + /// Avoid calling this query directly. + query hir_owner_nodes(key: LocalDefId) -> Option<&'tcx crate::hir::OwnerNodes<'tcx>> { + eval_always + desc { |tcx| "HIR owner items in `{}`", tcx.def_path_str(key.to_def_id()) } + } - /// Computes the `DefId` of the corresponding const parameter in case the `key` is a - /// const argument and returns `None` otherwise. - /// - /// ```ignore (incomplete) - /// let a = foo::<7>(); - /// // ^ Calling `opt_const_param_of` for this argument, - /// - /// fn foo() - /// // ^ returns this `DefId`. - /// - /// fn bar() { - /// // ^ While calling `opt_const_param_of` for other bodies returns `None`. - /// } - /// ``` - // It looks like caching this query on disk actually slightly - // worsened performance in #74376. - // - // Once const generics are more prevalently used, we might want to - // consider only caching calls returning `Some`. - query opt_const_param_of(key: LocalDefId) -> Option { - desc { |tcx| "computing the optional const parameter of `{}`", tcx.def_path_str(key.to_def_id()) } - } + /// Computes the `DefId` of the corresponding const parameter in case the `key` is a + /// const argument and returns `None` otherwise. + /// + /// ```ignore (incomplete) + /// let a = foo::<7>(); + /// // ^ Calling `opt_const_param_of` for this argument, + /// + /// fn foo() + /// // ^ returns this `DefId`. + /// + /// fn bar() { + /// // ^ While calling `opt_const_param_of` for other bodies returns `None`. + /// } + /// ``` + // It looks like caching this query on disk actually slightly + // worsened performance in #74376. + // + // Once const generics are more prevalently used, we might want to + // consider only caching calls returning `Some`. + query opt_const_param_of(key: LocalDefId) -> Option { + desc { |tcx| "computing the optional const parameter of `{}`", tcx.def_path_str(key.to_def_id()) } + } - /// Records the type of every item. - query type_of(key: DefId) -> Ty<'tcx> { - desc { |tcx| "computing type of `{}`", tcx.def_path_str(key) } - cache_on_disk_if { key.is_local() } - } + /// Records the type of every item. + query type_of(key: DefId) -> Ty<'tcx> { + desc { |tcx| "computing type of `{}`", tcx.def_path_str(key) } + cache_on_disk_if { key.is_local() } + } - query analysis(key: CrateNum) -> Result<(), ErrorReported> { - eval_always - desc { "running analysis passes on this crate" } - } + query analysis(key: CrateNum) -> Result<(), ErrorReported> { + eval_always + desc { "running analysis passes on this crate" } + } - /// Maps from the `DefId` of an item (trait/struct/enum/fn) to its - /// associated generics. - query generics_of(key: DefId) -> ty::Generics { - desc { |tcx| "computing generics of `{}`", tcx.def_path_str(key) } - storage(ArenaCacheSelector<'tcx>) - cache_on_disk_if { key.is_local() } - load_cached(tcx, id) { - let generics: Option = tcx.queries.on_disk_cache.as_ref() - .and_then(|c| c.try_load_query_result(tcx, id)); - generics - } + /// Maps from the `DefId` of an item (trait/struct/enum/fn) to its + /// associated generics. + query generics_of(key: DefId) -> ty::Generics { + desc { |tcx| "computing generics of `{}`", tcx.def_path_str(key) } + storage(ArenaCacheSelector<'tcx>) + cache_on_disk_if { key.is_local() } + load_cached(tcx, id) { + let generics: Option = tcx.queries.on_disk_cache.as_ref() + .and_then(|c| c.try_load_query_result(tcx, id)); + generics } + } - /// Maps from the `DefId` of an item (trait/struct/enum/fn) to the - /// predicates (where-clauses) that must be proven true in order - /// to reference it. This is almost always the "predicates query" - /// that you want. - /// - /// `predicates_of` builds on `predicates_defined_on` -- in fact, - /// it is almost always the same as that query, except for the - /// case of traits. For traits, `predicates_of` contains - /// an additional `Self: Trait<...>` predicate that users don't - /// actually write. This reflects the fact that to invoke the - /// trait (e.g., via `Default::default`) you must supply types - /// that actually implement the trait. (However, this extra - /// predicate gets in the way of some checks, which are intended - /// to operate over only the actual where-clauses written by the - /// user.) - query predicates_of(key: DefId) -> ty::GenericPredicates<'tcx> { - desc { |tcx| "computing predicates of `{}`", tcx.def_path_str(key) } - cache_on_disk_if { key.is_local() } - } + /// Maps from the `DefId` of an item (trait/struct/enum/fn) to the + /// predicates (where-clauses) that must be proven true in order + /// to reference it. This is almost always the "predicates query" + /// that you want. + /// + /// `predicates_of` builds on `predicates_defined_on` -- in fact, + /// it is almost always the same as that query, except for the + /// case of traits. For traits, `predicates_of` contains + /// an additional `Self: Trait<...>` predicate that users don't + /// actually write. This reflects the fact that to invoke the + /// trait (e.g., via `Default::default`) you must supply types + /// that actually implement the trait. (However, this extra + /// predicate gets in the way of some checks, which are intended + /// to operate over only the actual where-clauses written by the + /// user.) + query predicates_of(key: DefId) -> ty::GenericPredicates<'tcx> { + desc { |tcx| "computing predicates of `{}`", tcx.def_path_str(key) } + cache_on_disk_if { key.is_local() } + } - /// Returns the list of bounds that can be used for - /// `SelectionCandidate::ProjectionCandidate(_)` and - /// `ProjectionTyCandidate::TraitDef`. - /// Specifically this is the bounds written on the trait's type - /// definition, or those after the `impl` keyword - /// - /// ```ignore (incomplete) - /// type X: Bound + 'lt - /// // ^^^^^^^^^^^ - /// impl Debug + Display - /// // ^^^^^^^^^^^^^^^ - /// ``` - /// - /// `key` is the `DefId` of the associated type or opaque type. - /// - /// Bounds from the parent (e.g. with nested impl trait) are not included. - query explicit_item_bounds(key: DefId) -> &'tcx [(ty::Predicate<'tcx>, Span)] { - desc { |tcx| "finding item bounds for `{}`", tcx.def_path_str(key) } - } + /// Returns the list of bounds that can be used for + /// `SelectionCandidate::ProjectionCandidate(_)` and + /// `ProjectionTyCandidate::TraitDef`. + /// Specifically this is the bounds written on the trait's type + /// definition, or those after the `impl` keyword + /// + /// ```ignore (incomplete) + /// type X: Bound + 'lt + /// // ^^^^^^^^^^^ + /// impl Debug + Display + /// // ^^^^^^^^^^^^^^^ + /// ``` + /// + /// `key` is the `DefId` of the associated type or opaque type. + /// + /// Bounds from the parent (e.g. with nested impl trait) are not included. + query explicit_item_bounds(key: DefId) -> &'tcx [(ty::Predicate<'tcx>, Span)] { + desc { |tcx| "finding item bounds for `{}`", tcx.def_path_str(key) } + } - /// Elaborated version of the predicates from `explicit_item_bounds`. - /// - /// For example: - /// - /// ``` - /// trait MyTrait { - /// type MyAType: Eq + ?Sized; - /// } - /// ``` - /// - /// `explicit_item_bounds` returns `[::MyAType: Eq]`, - /// and `item_bounds` returns - /// ```text - /// [ - /// ::MyAType: Eq, - /// ::MyAType: PartialEq<::MyAType> - /// ] - /// ``` - /// - /// Bounds from the parent (e.g. with nested impl trait) are not included. - query item_bounds(key: DefId) -> &'tcx ty::List> { - desc { |tcx| "elaborating item bounds for `{}`", tcx.def_path_str(key) } - } + /// Elaborated version of the predicates from `explicit_item_bounds`. + /// + /// For example: + /// + /// ``` + /// trait MyTrait { + /// type MyAType: Eq + ?Sized; + /// } + /// ``` + /// + /// `explicit_item_bounds` returns `[::MyAType: Eq]`, + /// and `item_bounds` returns + /// ```text + /// [ + /// ::MyAType: Eq, + /// ::MyAType: PartialEq<::MyAType> + /// ] + /// ``` + /// + /// Bounds from the parent (e.g. with nested impl trait) are not included. + query item_bounds(key: DefId) -> &'tcx ty::List> { + desc { |tcx| "elaborating item bounds for `{}`", tcx.def_path_str(key) } + } - query projection_ty_from_predicates(key: (DefId, DefId)) -> Option> { - desc { |tcx| "finding projection type inside predicates of `{}`", tcx.def_path_str(key.0) } - } + query projection_ty_from_predicates(key: (DefId, DefId)) -> Option> { + desc { |tcx| "finding projection type inside predicates of `{}`", tcx.def_path_str(key.0) } + } - query native_libraries(_: CrateNum) -> Lrc> { - desc { "looking up the native libraries of a linked crate" } - } + query native_libraries(_: CrateNum) -> Lrc> { + desc { "looking up the native libraries of a linked crate" } + } - query lint_levels(_: CrateNum) -> LintLevelMap { - storage(ArenaCacheSelector<'tcx>) - eval_always - desc { "computing the lint levels for items in this crate" } - } + query lint_levels(_: CrateNum) -> LintLevelMap { + storage(ArenaCacheSelector<'tcx>) + eval_always + desc { "computing the lint levels for items in this crate" } + } - query parent_module_from_def_id(key: LocalDefId) -> LocalDefId { - eval_always - desc { |tcx| "parent module of `{}`", tcx.def_path_str(key.to_def_id()) } - } + query parent_module_from_def_id(key: LocalDefId) -> LocalDefId { + eval_always + desc { |tcx| "parent module of `{}`", tcx.def_path_str(key.to_def_id()) } + } - /// Internal helper query. Use `tcx.expansion_that_defined` instead - query expn_that_defined(key: DefId) -> rustc_span::ExpnId { - desc { |tcx| "expansion that defined `{}`", tcx.def_path_str(key) } - } + /// Internal helper query. Use `tcx.expansion_that_defined` instead + query expn_that_defined(key: DefId) -> rustc_span::ExpnId { + desc { |tcx| "expansion that defined `{}`", tcx.def_path_str(key) } + } - query is_panic_runtime(_: CrateNum) -> bool { - fatal_cycle - desc { "checking if the crate is_panic_runtime" } - } + query is_panic_runtime(_: CrateNum) -> bool { + fatal_cycle + desc { "checking if the crate is_panic_runtime" } + } - /// Set of all the `DefId`s in this crate that have MIR associated with - /// them. This includes all the body owners, but also things like struct - /// constructors. - query mir_keys(_: CrateNum) -> FxHashSet { - storage(ArenaCacheSelector<'tcx>) - desc { "getting a list of all mir_keys" } - } + /// Set of all the `DefId`s in this crate that have MIR associated with + /// them. This includes all the body owners, but also things like struct + /// constructors. + query mir_keys(_: CrateNum) -> FxHashSet { + storage(ArenaCacheSelector<'tcx>) + desc { "getting a list of all mir_keys" } + } - /// Maps DefId's that have an associated `mir::Body` to the result - /// of the MIR const-checking pass. This is the set of qualifs in - /// the final value of a `const`. - query mir_const_qualif(key: DefId) -> mir::ConstQualifs { - desc { |tcx| "const checking `{}`", tcx.def_path_str(key) } - cache_on_disk_if { key.is_local() } - } - query mir_const_qualif_const_arg( - key: (LocalDefId, DefId) - ) -> mir::ConstQualifs { - desc { - |tcx| "const checking the const argument `{}`", - tcx.def_path_str(key.0.to_def_id()) - } + /// Maps DefId's that have an associated `mir::Body` to the result + /// of the MIR const-checking pass. This is the set of qualifs in + /// the final value of a `const`. + query mir_const_qualif(key: DefId) -> mir::ConstQualifs { + desc { |tcx| "const checking `{}`", tcx.def_path_str(key) } + cache_on_disk_if { key.is_local() } + } + query mir_const_qualif_const_arg( + key: (LocalDefId, DefId) + ) -> mir::ConstQualifs { + desc { + |tcx| "const checking the const argument `{}`", + tcx.def_path_str(key.0.to_def_id()) } + } - /// Fetch the MIR for a given `DefId` right after it's built - this includes - /// unreachable code. - query mir_built(key: ty::WithOptConstParam) -> &'tcx Steal> { - desc { |tcx| "building MIR for `{}`", tcx.def_path_str(key.did.to_def_id()) } - } + /// Fetch the MIR for a given `DefId` right after it's built - this includes + /// unreachable code. + query mir_built(key: ty::WithOptConstParam) -> &'tcx Steal> { + desc { |tcx| "building MIR for `{}`", tcx.def_path_str(key.did.to_def_id()) } + } - /// Fetch the MIR for a given `DefId` up till the point where it is - /// ready for const qualification. - /// - /// See the README for the `mir` module for details. - query mir_const(key: ty::WithOptConstParam) -> &'tcx Steal> { - desc { - |tcx| "processing MIR for {}`{}`", - if key.const_param_did.is_some() { "the const argument " } else { "" }, - tcx.def_path_str(key.did.to_def_id()), - } - no_hash - } + /// Fetch the MIR for a given `DefId` up till the point where it is + /// ready for const qualification. + /// + /// See the README for the `mir` module for details. + query mir_const(key: ty::WithOptConstParam) -> &'tcx Steal> { + desc { + |tcx| "processing MIR for {}`{}`", + if key.const_param_did.is_some() { "the const argument " } else { "" }, + tcx.def_path_str(key.did.to_def_id()), + } + no_hash + } - /// Try to build an abstract representation of the given constant. - query mir_abstract_const( - key: DefId - ) -> Result]>, ErrorReported> { - desc { - |tcx| "building an abstract representation for {}", tcx.def_path_str(key), - } + /// Try to build an abstract representation of the given constant. + query mir_abstract_const( + key: DefId + ) -> Result]>, ErrorReported> { + desc { + |tcx| "building an abstract representation for {}", tcx.def_path_str(key), } - /// Try to build an abstract representation of the given constant. - query mir_abstract_const_of_const_arg( - key: (LocalDefId, DefId) - ) -> Result]>, ErrorReported> { - desc { - |tcx| - "building an abstract representation for the const argument {}", - tcx.def_path_str(key.0.to_def_id()), - } + } + /// Try to build an abstract representation of the given constant. + query mir_abstract_const_of_const_arg( + key: (LocalDefId, DefId) + ) -> Result]>, ErrorReported> { + desc { + |tcx| + "building an abstract representation for the const argument {}", + tcx.def_path_str(key.0.to_def_id()), } + } - query try_unify_abstract_consts(key: ( - (ty::WithOptConstParam, SubstsRef<'tcx>), - (ty::WithOptConstParam, SubstsRef<'tcx>) - )) -> bool { - desc { - |tcx| "trying to unify the generic constants {} and {}", - tcx.def_path_str(key.0.0.did), tcx.def_path_str(key.1.0.did) - } + query try_unify_abstract_consts(key: ( + (ty::WithOptConstParam, SubstsRef<'tcx>), + (ty::WithOptConstParam, SubstsRef<'tcx>) + )) -> bool { + desc { + |tcx| "trying to unify the generic constants {} and {}", + tcx.def_path_str(key.0.0.did), tcx.def_path_str(key.1.0.did) } + } - query mir_drops_elaborated_and_const_checked( - key: ty::WithOptConstParam - ) -> &'tcx Steal> { - no_hash - desc { |tcx| "elaborating drops for `{}`", tcx.def_path_str(key.did.to_def_id()) } - } + query mir_drops_elaborated_and_const_checked( + key: ty::WithOptConstParam + ) -> &'tcx Steal> { + no_hash + desc { |tcx| "elaborating drops for `{}`", tcx.def_path_str(key.did.to_def_id()) } + } - query mir_for_ctfe( - key: DefId - ) -> &'tcx mir::Body<'tcx> { - desc { |tcx| "caching mir of `{}` for CTFE", tcx.def_path_str(key) } - cache_on_disk_if { key.is_local() } - } + query mir_for_ctfe( + key: DefId + ) -> &'tcx mir::Body<'tcx> { + desc { |tcx| "caching mir of `{}` for CTFE", tcx.def_path_str(key) } + cache_on_disk_if { key.is_local() } + } - query mir_for_ctfe_of_const_arg(key: (LocalDefId, DefId)) -> &'tcx mir::Body<'tcx> { - desc { - |tcx| "MIR for CTFE of the const argument `{}`", - tcx.def_path_str(key.0.to_def_id()) - } + query mir_for_ctfe_of_const_arg(key: (LocalDefId, DefId)) -> &'tcx mir::Body<'tcx> { + desc { + |tcx| "MIR for CTFE of the const argument `{}`", + tcx.def_path_str(key.0.to_def_id()) } + } - query mir_promoted(key: ty::WithOptConstParam) -> - ( - &'tcx Steal>, - &'tcx Steal>> - ) { - no_hash - desc { - |tcx| "processing {}`{}`", - if key.const_param_did.is_some() { "the const argument " } else { "" }, - tcx.def_path_str(key.did.to_def_id()), - } + query mir_promoted(key: ty::WithOptConstParam) -> + ( + &'tcx Steal>, + &'tcx Steal>> + ) { + no_hash + desc { + |tcx| "processing {}`{}`", + if key.const_param_did.is_some() { "the const argument " } else { "" }, + tcx.def_path_str(key.did.to_def_id()), } + } - /// MIR after our optimization passes have run. This is MIR that is ready - /// for codegen. This is also the only query that can fetch non-local MIR, at present. - query optimized_mir(key: DefId) -> &'tcx mir::Body<'tcx> { - desc { |tcx| "optimizing MIR for `{}`", tcx.def_path_str(key) } - cache_on_disk_if { key.is_local() } - } + /// MIR after our optimization passes have run. This is MIR that is ready + /// for codegen. This is also the only query that can fetch non-local MIR, at present. + query optimized_mir(key: DefId) -> &'tcx mir::Body<'tcx> { + desc { |tcx| "optimizing MIR for `{}`", tcx.def_path_str(key) } + cache_on_disk_if { key.is_local() } + } - /// Returns coverage summary info for a function, after executing the `InstrumentCoverage` - /// MIR pass (assuming the -Zinstrument-coverage option is enabled). - query coverageinfo(key: DefId) -> mir::CoverageInfo { - desc { |tcx| "retrieving coverage info from MIR for `{}`", tcx.def_path_str(key) } - storage(ArenaCacheSelector<'tcx>) - cache_on_disk_if { key.is_local() } - } + /// Returns coverage summary info for a function, after executing the `InstrumentCoverage` + /// MIR pass (assuming the -Zinstrument-coverage option is enabled). + query coverageinfo(key: DefId) -> mir::CoverageInfo { + desc { |tcx| "retrieving coverage info from MIR for `{}`", tcx.def_path_str(key) } + storage(ArenaCacheSelector<'tcx>) + cache_on_disk_if { key.is_local() } + } - /// Returns the name of the file that contains the function body, if instrumented for coverage. - query covered_file_name(key: DefId) -> Option { - desc { |tcx| "retrieving the covered file name, if instrumented, for `{}`", tcx.def_path_str(key) } - storage(ArenaCacheSelector<'tcx>) - cache_on_disk_if { key.is_local() } - } + /// Returns the name of the file that contains the function body, if instrumented for coverage. + query covered_file_name(key: DefId) -> Option { + desc { |tcx| "retrieving the covered file name, if instrumented, for `{}`", tcx.def_path_str(key) } + storage(ArenaCacheSelector<'tcx>) + cache_on_disk_if { key.is_local() } + } - /// Returns the `CodeRegions` for a function that has instrumented coverage, in case the - /// function was optimized out before codegen, and before being added to the Coverage Map. - query covered_code_regions(key: DefId) -> Vec<&'tcx mir::coverage::CodeRegion> { - desc { |tcx| "retrieving the covered `CodeRegion`s, if instrumented, for `{}`", tcx.def_path_str(key) } - storage(ArenaCacheSelector<'tcx>) - cache_on_disk_if { key.is_local() } - } + /// Returns the `CodeRegions` for a function that has instrumented coverage, in case the + /// function was optimized out before codegen, and before being added to the Coverage Map. + query covered_code_regions(key: DefId) -> Vec<&'tcx mir::coverage::CodeRegion> { + desc { |tcx| "retrieving the covered `CodeRegion`s, if instrumented, for `{}`", tcx.def_path_str(key) } + storage(ArenaCacheSelector<'tcx>) + cache_on_disk_if { key.is_local() } + } - /// The `DefId` is the `DefId` of the containing MIR body. Promoteds do not have their own - /// `DefId`. This function returns all promoteds in the specified body. The body references - /// promoteds by the `DefId` and the `mir::Promoted` index. This is necessary, because - /// after inlining a body may refer to promoteds from other bodies. In that case you still - /// need to use the `DefId` of the original body. - query promoted_mir(key: DefId) -> &'tcx IndexVec> { - desc { |tcx| "optimizing promoted MIR for `{}`", tcx.def_path_str(key) } - cache_on_disk_if { key.is_local() } - } - query promoted_mir_of_const_arg( - key: (LocalDefId, DefId) - ) -> &'tcx IndexVec> { - desc { - |tcx| "optimizing promoted MIR for the const argument `{}`", - tcx.def_path_str(key.0.to_def_id()), - } + /// The `DefId` is the `DefId` of the containing MIR body. Promoteds do not have their own + /// `DefId`. This function returns all promoteds in the specified body. The body references + /// promoteds by the `DefId` and the `mir::Promoted` index. This is necessary, because + /// after inlining a body may refer to promoteds from other bodies. In that case you still + /// need to use the `DefId` of the original body. + query promoted_mir(key: DefId) -> &'tcx IndexVec> { + desc { |tcx| "optimizing promoted MIR for `{}`", tcx.def_path_str(key) } + cache_on_disk_if { key.is_local() } + } + query promoted_mir_of_const_arg( + key: (LocalDefId, DefId) + ) -> &'tcx IndexVec> { + desc { + |tcx| "optimizing promoted MIR for the const argument `{}`", + tcx.def_path_str(key.0.to_def_id()), } + } - /// Erases regions from `ty` to yield a new type. - /// Normally you would just use `tcx.erase_regions(value)`, - /// however, which uses this query as a kind of cache. - query erase_regions_ty(ty: Ty<'tcx>) -> Ty<'tcx> { - // This query is not expected to have input -- as a result, it - // is not a good candidates for "replay" because it is essentially a - // pure function of its input (and hence the expectation is that - // no caller would be green **apart** from just these - // queries). Making it anonymous avoids hashing the result, which - // may save a bit of time. - anon - desc { "erasing regions from `{:?}`", ty } - } + /// Erases regions from `ty` to yield a new type. + /// Normally you would just use `tcx.erase_regions(value)`, + /// however, which uses this query as a kind of cache. + query erase_regions_ty(ty: Ty<'tcx>) -> Ty<'tcx> { + // This query is not expected to have input -- as a result, it + // is not a good candidates for "replay" because it is essentially a + // pure function of its input (and hence the expectation is that + // no caller would be green **apart** from just these + // queries). Making it anonymous avoids hashing the result, which + // may save a bit of time. + anon + desc { "erasing regions from `{:?}`", ty } + } - query wasm_import_module_map(_: CrateNum) -> FxHashMap { - storage(ArenaCacheSelector<'tcx>) - desc { "wasm import module map" } - } + query wasm_import_module_map(_: CrateNum) -> FxHashMap { + storage(ArenaCacheSelector<'tcx>) + desc { "wasm import module map" } + } - /// Maps from the `DefId` of an item (trait/struct/enum/fn) to the - /// predicates (where-clauses) directly defined on it. This is - /// equal to the `explicit_predicates_of` predicates plus the - /// `inferred_outlives_of` predicates. - query predicates_defined_on(key: DefId) -> ty::GenericPredicates<'tcx> { - desc { |tcx| "computing predicates of `{}`", tcx.def_path_str(key) } - } + /// Maps from the `DefId` of an item (trait/struct/enum/fn) to the + /// predicates (where-clauses) directly defined on it. This is + /// equal to the `explicit_predicates_of` predicates plus the + /// `inferred_outlives_of` predicates. + query predicates_defined_on(key: DefId) -> ty::GenericPredicates<'tcx> { + desc { |tcx| "computing predicates of `{}`", tcx.def_path_str(key) } + } - /// Returns everything that looks like a predicate written explicitly - /// by the user on a trait item. - /// - /// Traits are unusual, because predicates on associated types are - /// converted into bounds on that type for backwards compatibility: - /// - /// trait X where Self::U: Copy { type U; } - /// - /// becomes - /// - /// trait X { type U: Copy; } - /// - /// `explicit_predicates_of` and `explicit_item_bounds` will then take - /// the appropriate subsets of the predicates here. - query trait_explicit_predicates_and_bounds(key: LocalDefId) -> ty::GenericPredicates<'tcx> { - desc { |tcx| "computing explicit predicates of trait `{}`", tcx.def_path_str(key.to_def_id()) } - } + /// Returns everything that looks like a predicate written explicitly + /// by the user on a trait item. + /// + /// Traits are unusual, because predicates on associated types are + /// converted into bounds on that type for backwards compatibility: + /// + /// trait X where Self::U: Copy { type U; } + /// + /// becomes + /// + /// trait X { type U: Copy; } + /// + /// `explicit_predicates_of` and `explicit_item_bounds` will then take + /// the appropriate subsets of the predicates here. + query trait_explicit_predicates_and_bounds(key: LocalDefId) -> ty::GenericPredicates<'tcx> { + desc { |tcx| "computing explicit predicates of trait `{}`", tcx.def_path_str(key.to_def_id()) } + } - /// Returns the predicates written explicitly by the user. - query explicit_predicates_of(key: DefId) -> ty::GenericPredicates<'tcx> { - desc { |tcx| "computing explicit predicates of `{}`", tcx.def_path_str(key) } - } + /// Returns the predicates written explicitly by the user. + query explicit_predicates_of(key: DefId) -> ty::GenericPredicates<'tcx> { + desc { |tcx| "computing explicit predicates of `{}`", tcx.def_path_str(key) } + } - /// Returns the inferred outlives predicates (e.g., for `struct - /// Foo<'a, T> { x: &'a T }`, this would return `T: 'a`). - query inferred_outlives_of(key: DefId) -> &'tcx [(ty::Predicate<'tcx>, Span)] { - desc { |tcx| "computing inferred outlives predicates of `{}`", tcx.def_path_str(key) } - } + /// Returns the inferred outlives predicates (e.g., for `struct + /// Foo<'a, T> { x: &'a T }`, this would return `T: 'a`). + query inferred_outlives_of(key: DefId) -> &'tcx [(ty::Predicate<'tcx>, Span)] { + desc { |tcx| "computing inferred outlives predicates of `{}`", tcx.def_path_str(key) } + } - /// Maps from the `DefId` of a trait to the list of - /// super-predicates. This is a subset of the full list of - /// predicates. We store these in a separate map because we must - /// evaluate them even during type conversion, often before the - /// full predicates are available (note that supertraits have - /// additional acyclicity requirements). - query super_predicates_of(key: DefId) -> ty::GenericPredicates<'tcx> { - desc { |tcx| "computing the supertraits of `{}`", tcx.def_path_str(key) } - } + /// Maps from the `DefId` of a trait to the list of + /// super-predicates. This is a subset of the full list of + /// predicates. We store these in a separate map because we must + /// evaluate them even during type conversion, often before the + /// full predicates are available (note that supertraits have + /// additional acyclicity requirements). + query super_predicates_of(key: DefId) -> ty::GenericPredicates<'tcx> { + desc { |tcx| "computing the supertraits of `{}`", tcx.def_path_str(key) } + } - /// To avoid cycles within the predicates of a single item we compute - /// per-type-parameter predicates for resolving `T::AssocTy`. - query type_param_predicates(key: (DefId, LocalDefId)) -> ty::GenericPredicates<'tcx> { - desc { |tcx| "computing the bounds for type parameter `{}`", { - let id = tcx.hir().local_def_id_to_hir_id(key.1); - tcx.hir().ty_param_name(id) - }} - } + /// To avoid cycles within the predicates of a single item we compute + /// per-type-parameter predicates for resolving `T::AssocTy`. + query type_param_predicates(key: (DefId, LocalDefId)) -> ty::GenericPredicates<'tcx> { + desc { |tcx| "computing the bounds for type parameter `{}`", { + let id = tcx.hir().local_def_id_to_hir_id(key.1); + tcx.hir().ty_param_name(id) + }} + } - query trait_def(key: DefId) -> ty::TraitDef { - desc { |tcx| "computing trait definition for `{}`", tcx.def_path_str(key) } - storage(ArenaCacheSelector<'tcx>) - } - query adt_def(key: DefId) -> &'tcx ty::AdtDef { - desc { |tcx| "computing ADT definition for `{}`", tcx.def_path_str(key) } - } - query adt_destructor(key: DefId) -> Option { - desc { |tcx| "computing `Drop` impl for `{}`", tcx.def_path_str(key) } - } + query trait_def(key: DefId) -> ty::TraitDef { + desc { |tcx| "computing trait definition for `{}`", tcx.def_path_str(key) } + storage(ArenaCacheSelector<'tcx>) + } + query adt_def(key: DefId) -> &'tcx ty::AdtDef { + desc { |tcx| "computing ADT definition for `{}`", tcx.def_path_str(key) } + } + query adt_destructor(key: DefId) -> Option { + desc { |tcx| "computing `Drop` impl for `{}`", tcx.def_path_str(key) } + } - // The cycle error here should be reported as an error by `check_representable`. - // We consider the type as Sized in the meanwhile to avoid - // further errors (done in impl Value for AdtSizedConstraint). - // Use `cycle_delay_bug` to delay the cycle error here to be emitted later - // in case we accidentally otherwise don't emit an error. - query adt_sized_constraint( - key: DefId - ) -> AdtSizedConstraint<'tcx> { - desc { |tcx| "computing `Sized` constraints for `{}`", tcx.def_path_str(key) } - cycle_delay_bug - } + // The cycle error here should be reported as an error by `check_representable`. + // We consider the type as Sized in the meanwhile to avoid + // further errors (done in impl Value for AdtSizedConstraint). + // Use `cycle_delay_bug` to delay the cycle error here to be emitted later + // in case we accidentally otherwise don't emit an error. + query adt_sized_constraint( + key: DefId + ) -> AdtSizedConstraint<'tcx> { + desc { |tcx| "computing `Sized` constraints for `{}`", tcx.def_path_str(key) } + cycle_delay_bug + } - query adt_dtorck_constraint( - key: DefId - ) -> Result, NoSolution> { - desc { |tcx| "computing drop-check constraints for `{}`", tcx.def_path_str(key) } - } + query adt_dtorck_constraint( + key: DefId + ) -> Result, NoSolution> { + desc { |tcx| "computing drop-check constraints for `{}`", tcx.def_path_str(key) } + } - /// Returns `true` if this is a const fn, use the `is_const_fn` to know whether your crate - /// actually sees it as const fn (e.g., the const-fn-ness might be unstable and you might - /// not have the feature gate active). - /// - /// **Do not call this function manually.** It is only meant to cache the base data for the - /// `is_const_fn` function. - query is_const_fn_raw(key: DefId) -> bool { - desc { |tcx| "checking if item is const fn: `{}`", tcx.def_path_str(key) } - } + /// Returns `true` if this is a const fn, use the `is_const_fn` to know whether your crate + /// actually sees it as const fn (e.g., the const-fn-ness might be unstable and you might + /// not have the feature gate active). + /// + /// **Do not call this function manually.** It is only meant to cache the base data for the + /// `is_const_fn` function. + query is_const_fn_raw(key: DefId) -> bool { + desc { |tcx| "checking if item is const fn: `{}`", tcx.def_path_str(key) } + } - /// Returns `true` if this is a const `impl`. **Do not call this function manually.** - /// - /// This query caches the base data for the `is_const_impl` helper function, which also - /// takes into account stability attributes (e.g., `#[rustc_const_unstable]`). - query is_const_impl_raw(key: DefId) -> bool { - desc { |tcx| "checking if item is const impl: `{}`", tcx.def_path_str(key) } - } + /// Returns `true` if this is a const `impl`. **Do not call this function manually.** + /// + /// This query caches the base data for the `is_const_impl` helper function, which also + /// takes into account stability attributes (e.g., `#[rustc_const_unstable]`). + query is_const_impl_raw(key: DefId) -> bool { + desc { |tcx| "checking if item is const impl: `{}`", tcx.def_path_str(key) } + } - query asyncness(key: DefId) -> hir::IsAsync { - desc { |tcx| "checking if the function is async: `{}`", tcx.def_path_str(key) } - } + query asyncness(key: DefId) -> hir::IsAsync { + desc { |tcx| "checking if the function is async: `{}`", tcx.def_path_str(key) } + } - /// Returns `true` if calls to the function may be promoted. - /// - /// This is either because the function is e.g., a tuple-struct or tuple-variant - /// constructor, or because it has the `#[rustc_promotable]` attribute. The attribute should - /// be removed in the future in favour of some form of check which figures out whether the - /// function does not inspect the bits of any of its arguments (so is essentially just a - /// constructor function). - query is_promotable_const_fn(key: DefId) -> bool { - desc { |tcx| "checking if item is promotable: `{}`", tcx.def_path_str(key) } - } + /// Returns `true` if calls to the function may be promoted. + /// + /// This is either because the function is e.g., a tuple-struct or tuple-variant + /// constructor, or because it has the `#[rustc_promotable]` attribute. The attribute should + /// be removed in the future in favour of some form of check which figures out whether the + /// function does not inspect the bits of any of its arguments (so is essentially just a + /// constructor function). + query is_promotable_const_fn(key: DefId) -> bool { + desc { |tcx| "checking if item is promotable: `{}`", tcx.def_path_str(key) } + } - /// Returns `true` if this is a foreign item (i.e., linked via `extern { ... }`). - query is_foreign_item(key: DefId) -> bool { - desc { |tcx| "checking if `{}` is a foreign item", tcx.def_path_str(key) } - } + /// Returns `true` if this is a foreign item (i.e., linked via `extern { ... }`). + query is_foreign_item(key: DefId) -> bool { + desc { |tcx| "checking if `{}` is a foreign item", tcx.def_path_str(key) } + } - /// Returns `Some(mutability)` if the node pointed to by `def_id` is a static item. - query static_mutability(def_id: DefId) -> Option { - desc { |tcx| "looking up static mutability of `{}`", tcx.def_path_str(def_id) } - } + /// Returns `Some(mutability)` if the node pointed to by `def_id` is a static item. + query static_mutability(def_id: DefId) -> Option { + desc { |tcx| "looking up static mutability of `{}`", tcx.def_path_str(def_id) } + } - /// Returns `Some(generator_kind)` if the node pointed to by `def_id` is a generator. - query generator_kind(def_id: DefId) -> Option { - desc { |tcx| "looking up generator kind of `{}`", tcx.def_path_str(def_id) } - } + /// Returns `Some(generator_kind)` if the node pointed to by `def_id` is a generator. + query generator_kind(def_id: DefId) -> Option { + desc { |tcx| "looking up generator kind of `{}`", tcx.def_path_str(def_id) } + } - /// Gets a map with the variance of every item; use `item_variance` instead. - query crate_variances(_: CrateNum) -> ty::CrateVariancesMap<'tcx> { - storage(ArenaCacheSelector<'tcx>) - desc { "computing the variances for items in this crate" } - } + /// Gets a map with the variance of every item; use `item_variance` instead. + query crate_variances(_: CrateNum) -> ty::CrateVariancesMap<'tcx> { + storage(ArenaCacheSelector<'tcx>) + desc { "computing the variances for items in this crate" } + } - /// Maps from the `DefId` of a type or region parameter to its (inferred) variance. - query variances_of(def_id: DefId) -> &'tcx [ty::Variance] { - desc { |tcx| "computing the variances of `{}`", tcx.def_path_str(def_id) } - } + /// Maps from the `DefId` of a type or region parameter to its (inferred) variance. + query variances_of(def_id: DefId) -> &'tcx [ty::Variance] { + desc { |tcx| "computing the variances of `{}`", tcx.def_path_str(def_id) } + } - /// Maps from thee `DefId` of a type to its (inferred) outlives. - query inferred_outlives_crate(_: CrateNum) - -> ty::CratePredicatesMap<'tcx> { - storage(ArenaCacheSelector<'tcx>) - desc { "computing the inferred outlives predicates for items in this crate" } - } - - /// Maps from an impl/trait `DefId to a list of the `DefId`s of its items. - query associated_item_def_ids(key: DefId) -> &'tcx [DefId] { - desc { |tcx| "collecting associated items of `{}`", tcx.def_path_str(key) } - } + /// Maps from thee `DefId` of a type to its (inferred) outlives. + query inferred_outlives_crate(_: CrateNum) + -> ty::CratePredicatesMap<'tcx> { + storage(ArenaCacheSelector<'tcx>) + desc { "computing the inferred outlives predicates for items in this crate" } + } - /// Maps from a trait item to the trait item "descriptor". - query associated_item(key: DefId) -> ty::AssocItem { - desc { |tcx| "computing associated item data for `{}`", tcx.def_path_str(key) } - storage(ArenaCacheSelector<'tcx>) - } + /// Maps from an impl/trait `DefId to a list of the `DefId`s of its items. + query associated_item_def_ids(key: DefId) -> &'tcx [DefId] { + desc { |tcx| "collecting associated items of `{}`", tcx.def_path_str(key) } + } - /// Collects the associated items defined on a trait or impl. - query associated_items(key: DefId) -> ty::AssociatedItems<'tcx> { - storage(ArenaCacheSelector<'tcx>) - desc { |tcx| "collecting associated items of {}", tcx.def_path_str(key) } - } + /// Maps from a trait item to the trait item "descriptor". + query associated_item(key: DefId) -> ty::AssocItem { + desc { |tcx| "computing associated item data for `{}`", tcx.def_path_str(key) } + storage(ArenaCacheSelector<'tcx>) + } - /// Given an `impl_id`, return the trait it implements. - /// Return `None` if this is an inherent impl. - query impl_trait_ref(impl_id: DefId) -> Option> { - desc { |tcx| "computing trait implemented by `{}`", tcx.def_path_str(impl_id) } - } - query impl_polarity(impl_id: DefId) -> ty::ImplPolarity { - desc { |tcx| "computing implementation polarity of `{}`", tcx.def_path_str(impl_id) } - } + /// Collects the associated items defined on a trait or impl. + query associated_items(key: DefId) -> ty::AssociatedItems<'tcx> { + storage(ArenaCacheSelector<'tcx>) + desc { |tcx| "collecting associated items of {}", tcx.def_path_str(key) } + } - query issue33140_self_ty(key: DefId) -> Option> { - desc { |tcx| "computing Self type wrt issue #33140 `{}`", tcx.def_path_str(key) } - } - - /// Maps a `DefId` of a type to a list of its inherent impls. - /// Contains implementations of methods that are inherent to a type. - /// Methods in these implementations don't need to be exported. - query inherent_impls(key: DefId) -> &'tcx [DefId] { - desc { |tcx| "collecting inherent impls for `{}`", tcx.def_path_str(key) } - eval_always - } - - /// The result of unsafety-checking this `LocalDefId`. - query unsafety_check_result(key: LocalDefId) -> &'tcx mir::UnsafetyCheckResult { - desc { |tcx| "unsafety-checking `{}`", tcx.def_path_str(key.to_def_id()) } - cache_on_disk_if { true } - } - query unsafety_check_result_for_const_arg(key: (LocalDefId, DefId)) -> &'tcx mir::UnsafetyCheckResult { - desc { - |tcx| "unsafety-checking the const argument `{}`", - tcx.def_path_str(key.0.to_def_id()) - } - } + /// Given an `impl_id`, return the trait it implements. + /// Return `None` if this is an inherent impl. + query impl_trait_ref(impl_id: DefId) -> Option> { + desc { |tcx| "computing trait implemented by `{}`", tcx.def_path_str(impl_id) } + } + query impl_polarity(impl_id: DefId) -> ty::ImplPolarity { + desc { |tcx| "computing implementation polarity of `{}`", tcx.def_path_str(impl_id) } + } - /// HACK: when evaluated, this reports a "unsafe derive on repr(packed)" error. - /// - /// Unsafety checking is executed for each method separately, but we only want - /// to emit this error once per derive. As there are some impls with multiple - /// methods, we use a query for deduplication. - query unsafe_derive_on_repr_packed(key: LocalDefId) -> () { - desc { |tcx| "processing `{}`", tcx.def_path_str(key.to_def_id()) } - } + query issue33140_self_ty(key: DefId) -> Option> { + desc { |tcx| "computing Self type wrt issue #33140 `{}`", tcx.def_path_str(key) } + } - /// The signature of functions. - query fn_sig(key: DefId) -> ty::PolyFnSig<'tcx> { - desc { |tcx| "computing function signature of `{}`", tcx.def_path_str(key) } - } - - query lint_mod(key: LocalDefId) -> () { - desc { |tcx| "linting {}", describe_as_module(key, tcx) } - } + /// Maps a `DefId` of a type to a list of its inherent impls. + /// Contains implementations of methods that are inherent to a type. + /// Methods in these implementations don't need to be exported. + query inherent_impls(key: DefId) -> &'tcx [DefId] { + desc { |tcx| "collecting inherent impls for `{}`", tcx.def_path_str(key) } + eval_always + } - /// Checks the attributes in the module. - query check_mod_attrs(key: LocalDefId) -> () { - desc { |tcx| "checking attributes in {}", describe_as_module(key, tcx) } + /// The result of unsafety-checking this `LocalDefId`. + query unsafety_check_result(key: LocalDefId) -> &'tcx mir::UnsafetyCheckResult { + desc { |tcx| "unsafety-checking `{}`", tcx.def_path_str(key.to_def_id()) } + cache_on_disk_if { true } + } + query unsafety_check_result_for_const_arg(key: (LocalDefId, DefId)) -> &'tcx mir::UnsafetyCheckResult { + desc { + |tcx| "unsafety-checking the const argument `{}`", + tcx.def_path_str(key.0.to_def_id()) } + } - query check_mod_unstable_api_usage(key: LocalDefId) -> () { - desc { |tcx| "checking for unstable API usage in {}", describe_as_module(key, tcx) } - } + /// HACK: when evaluated, this reports a "unsafe derive on repr(packed)" error. + /// + /// Unsafety checking is executed for each method separately, but we only want + /// to emit this error once per derive. As there are some impls with multiple + /// methods, we use a query for deduplication. + query unsafe_derive_on_repr_packed(key: LocalDefId) -> () { + desc { |tcx| "processing `{}`", tcx.def_path_str(key.to_def_id()) } + } - /// Checks the const bodies in the module for illegal operations (e.g. `if` or `loop`). - query check_mod_const_bodies(key: LocalDefId) -> () { - desc { |tcx| "checking consts in {}", describe_as_module(key, tcx) } - } + /// The signature of functions. + query fn_sig(key: DefId) -> ty::PolyFnSig<'tcx> { + desc { |tcx| "computing function signature of `{}`", tcx.def_path_str(key) } + } - /// Checks the loops in the module. - query check_mod_loops(key: LocalDefId) -> () { - desc { |tcx| "checking loops in {}", describe_as_module(key, tcx) } - } + query lint_mod(key: LocalDefId) -> () { + desc { |tcx| "linting {}", describe_as_module(key, tcx) } + } - query check_mod_naked_functions(key: LocalDefId) -> () { - desc { |tcx| "checking naked functions in {}", describe_as_module(key, tcx) } - } + /// Checks the attributes in the module. + query check_mod_attrs(key: LocalDefId) -> () { + desc { |tcx| "checking attributes in {}", describe_as_module(key, tcx) } + } - query check_mod_item_types(key: LocalDefId) -> () { - desc { |tcx| "checking item types in {}", describe_as_module(key, tcx) } - } + query check_mod_unstable_api_usage(key: LocalDefId) -> () { + desc { |tcx| "checking for unstable API usage in {}", describe_as_module(key, tcx) } + } - query check_mod_privacy(key: LocalDefId) -> () { - desc { |tcx| "checking privacy in {}", describe_as_module(key, tcx) } - } + /// Checks the const bodies in the module for illegal operations (e.g. `if` or `loop`). + query check_mod_const_bodies(key: LocalDefId) -> () { + desc { |tcx| "checking consts in {}", describe_as_module(key, tcx) } + } - query check_mod_intrinsics(key: LocalDefId) -> () { - desc { |tcx| "checking intrinsics in {}", describe_as_module(key, tcx) } - } + /// Checks the loops in the module. + query check_mod_loops(key: LocalDefId) -> () { + desc { |tcx| "checking loops in {}", describe_as_module(key, tcx) } + } - query check_mod_liveness(key: LocalDefId) -> () { - desc { |tcx| "checking liveness of variables in {}", describe_as_module(key, tcx) } - } + query check_mod_naked_functions(key: LocalDefId) -> () { + desc { |tcx| "checking naked functions in {}", describe_as_module(key, tcx) } + } - query check_mod_impl_wf(key: LocalDefId) -> () { - desc { |tcx| "checking that impls are well-formed in {}", describe_as_module(key, tcx) } - } + query check_mod_item_types(key: LocalDefId) -> () { + desc { |tcx| "checking item types in {}", describe_as_module(key, tcx) } + } - query collect_mod_item_types(key: LocalDefId) -> () { - desc { |tcx| "collecting item types in {}", describe_as_module(key, tcx) } - } + query check_mod_privacy(key: LocalDefId) -> () { + desc { |tcx| "checking privacy in {}", describe_as_module(key, tcx) } + } - /// Caches `CoerceUnsized` kinds for impls on custom types. - query coerce_unsized_info(key: DefId) - -> ty::adjustment::CoerceUnsizedInfo { - desc { |tcx| "computing CoerceUnsized info for `{}`", tcx.def_path_str(key) } - } - - query typeck_item_bodies(_: CrateNum) -> () { - desc { "type-checking all item bodies" } - } + query check_mod_intrinsics(key: LocalDefId) -> () { + desc { |tcx| "checking intrinsics in {}", describe_as_module(key, tcx) } + } - query typeck(key: LocalDefId) -> &'tcx ty::TypeckResults<'tcx> { - desc { |tcx| "type-checking `{}`", tcx.def_path_str(key.to_def_id()) } - cache_on_disk_if { true } - } - query typeck_const_arg( - key: (LocalDefId, DefId) - ) -> &'tcx ty::TypeckResults<'tcx> { - desc { - |tcx| "type-checking the const argument `{}`", - tcx.def_path_str(key.0.to_def_id()), - } - } - query diagnostic_only_typeck(key: LocalDefId) -> &'tcx ty::TypeckResults<'tcx> { - desc { |tcx| "type-checking `{}`", tcx.def_path_str(key.to_def_id()) } - cache_on_disk_if { true } - load_cached(tcx, id) { - let typeck_results: Option> = tcx - .queries.on_disk_cache.as_ref() - .and_then(|c| c.try_load_query_result(tcx, id)); - - typeck_results.map(|x| &*tcx.arena.alloc(x)) - } - } - - query used_trait_imports(key: LocalDefId) -> &'tcx FxHashSet { - desc { |tcx| "used_trait_imports `{}`", tcx.def_path_str(key.to_def_id()) } - cache_on_disk_if { true } - } - - query has_typeck_results(def_id: DefId) -> bool { - desc { |tcx| "checking whether `{}` has a body", tcx.def_path_str(def_id) } - } + query check_mod_liveness(key: LocalDefId) -> () { + desc { |tcx| "checking liveness of variables in {}", describe_as_module(key, tcx) } + } - query coherent_trait(def_id: DefId) -> () { - desc { |tcx| "coherence checking all impls of trait `{}`", tcx.def_path_str(def_id) } - } - - /// Borrow-checks the function body. If this is a closure, returns - /// additional requirements that the closure's creator must verify. - query mir_borrowck(key: LocalDefId) -> &'tcx mir::BorrowCheckResult<'tcx> { - desc { |tcx| "borrow-checking `{}`", tcx.def_path_str(key.to_def_id()) } - cache_on_disk_if(tcx, opt_result) { - tcx.is_closure(key.to_def_id()) - || opt_result.map_or(false, |r| !r.concrete_opaque_types.is_empty()) - } - } - query mir_borrowck_const_arg(key: (LocalDefId, DefId)) -> &'tcx mir::BorrowCheckResult<'tcx> { - desc { - |tcx| "borrow-checking the const argument`{}`", - tcx.def_path_str(key.0.to_def_id()) - } - } - - /// Gets a complete map from all types to their inherent impls. - /// Not meant to be used directly outside of coherence. - /// (Defined only for `LOCAL_CRATE`.) - query crate_inherent_impls(k: CrateNum) - -> CrateInherentImpls { - storage(ArenaCacheSelector<'tcx>) - eval_always - desc { "all inherent impls defined in crate `{:?}`", k } - } + query check_mod_impl_wf(key: LocalDefId) -> () { + desc { |tcx| "checking that impls are well-formed in {}", describe_as_module(key, tcx) } + } - /// Checks all types in the crate for overlap in their inherent impls. Reports errors. - /// Not meant to be used directly outside of coherence. - /// (Defined only for `LOCAL_CRATE`.) - query crate_inherent_impls_overlap_check(_: CrateNum) - -> () { - eval_always - desc { "check for overlap between inherent impls defined in this crate" } - } - - /// Check whether the function has any recursion that could cause the inliner to trigger - /// a cycle. Returns the call stack causing the cycle. The call stack does not contain the - /// current function, just all intermediate functions. - query mir_callgraph_reachable(key: (ty::Instance<'tcx>, LocalDefId)) -> bool { - fatal_cycle - desc { |tcx| - "computing if `{}` (transitively) calls `{}`", - key.0, - tcx.def_path_str(key.1.to_def_id()), - } - } + query collect_mod_item_types(key: LocalDefId) -> () { + desc { |tcx| "collecting item types in {}", describe_as_module(key, tcx) } + } - /// Obtain all the calls into other local functions - query mir_inliner_callees(key: ty::InstanceDef<'tcx>) -> &'tcx [(DefId, SubstsRef<'tcx>)] { - fatal_cycle - desc { |tcx| - "computing all local function calls in `{}`", - tcx.def_path_str(key.def_id()), - } + /// Caches `CoerceUnsized` kinds for impls on custom types. + query coerce_unsized_info(key: DefId) + -> ty::adjustment::CoerceUnsizedInfo { + desc { |tcx| "computing CoerceUnsized info for `{}`", tcx.def_path_str(key) } } - /// Evaluates a constant and returns the computed allocation. - /// - /// **Do not use this** directly, use the `tcx.eval_static_initializer` wrapper. - query eval_to_allocation_raw(key: ty::ParamEnvAnd<'tcx, GlobalId<'tcx>>) - -> EvalToAllocationRawResult<'tcx> { - desc { |tcx| - "const-evaluating + checking `{}`", - key.value.display(tcx) - } - cache_on_disk_if { true } - } + query typeck_item_bodies(_: CrateNum) -> () { + desc { "type-checking all item bodies" } + } - /// Evaluates const items or anonymous constants - /// (such as enum variant explicit discriminants or array lengths) - /// into a representation suitable for the type system and const generics. - /// - /// **Do not use this** directly, use one of the following wrappers: `tcx.const_eval_poly`, - /// `tcx.const_eval_resolve`, `tcx.const_eval_instance`, or `tcx.const_eval_global_id`. - query eval_to_const_value_raw(key: ty::ParamEnvAnd<'tcx, GlobalId<'tcx>>) - -> EvalToConstValueResult<'tcx> { - desc { |tcx| - "simplifying constant for the type system `{}`", - key.value.display(tcx) - } - cache_on_disk_if { true } + query typeck(key: LocalDefId) -> &'tcx ty::TypeckResults<'tcx> { + desc { |tcx| "type-checking `{}`", tcx.def_path_str(key.to_def_id()) } + cache_on_disk_if { true } + } + query typeck_const_arg( + key: (LocalDefId, DefId) + ) -> &'tcx ty::TypeckResults<'tcx> { + desc { + |tcx| "type-checking the const argument `{}`", + tcx.def_path_str(key.0.to_def_id()), } + } + query diagnostic_only_typeck(key: LocalDefId) -> &'tcx ty::TypeckResults<'tcx> { + desc { |tcx| "type-checking `{}`", tcx.def_path_str(key.to_def_id()) } + cache_on_disk_if { true } + load_cached(tcx, id) { + let typeck_results: Option> = tcx + .queries.on_disk_cache.as_ref() + .and_then(|c| c.try_load_query_result(tcx, id)); - /// Destructure a constant ADT or array into its variant index and its - /// field values. - query destructure_const( - key: ty::ParamEnvAnd<'tcx, &'tcx ty::Const<'tcx>> - ) -> mir::DestructuredConst<'tcx> { - desc { "destructure constant" } + typeck_results.map(|x| &*tcx.arena.alloc(x)) } + } - /// Dereference a constant reference or raw pointer and turn the result into a constant - /// again. - query deref_const( - key: ty::ParamEnvAnd<'tcx, &'tcx ty::Const<'tcx>> - ) -> &'tcx ty::Const<'tcx> { - desc { "deref constant" } - } + query used_trait_imports(key: LocalDefId) -> &'tcx FxHashSet { + desc { |tcx| "used_trait_imports `{}`", tcx.def_path_str(key.to_def_id()) } + cache_on_disk_if { true } + } - query const_caller_location(key: (rustc_span::Symbol, u32, u32)) -> ConstValue<'tcx> { - desc { "get a &core::panic::Location referring to a span" } - } + query has_typeck_results(def_id: DefId) -> bool { + desc { |tcx| "checking whether `{}` has a body", tcx.def_path_str(def_id) } + } - query lit_to_const( - key: LitToConstInput<'tcx> - ) -> Result<&'tcx ty::Const<'tcx>, LitToConstError> { - desc { "converting literal to const" } - } - - query check_match(key: DefId) { - desc { |tcx| "match-checking `{}`", tcx.def_path_str(key) } - cache_on_disk_if { key.is_local() } - } + query coherent_trait(def_id: DefId) -> () { + desc { |tcx| "coherence checking all impls of trait `{}`", tcx.def_path_str(def_id) } + } - /// Performs part of the privacy check and computes "access levels". - query privacy_access_levels(_: CrateNum) -> &'tcx AccessLevels { - eval_always - desc { "privacy access levels" } + /// Borrow-checks the function body. If this is a closure, returns + /// additional requirements that the closure's creator must verify. + query mir_borrowck(key: LocalDefId) -> &'tcx mir::BorrowCheckResult<'tcx> { + desc { |tcx| "borrow-checking `{}`", tcx.def_path_str(key.to_def_id()) } + cache_on_disk_if(tcx, opt_result) { + tcx.is_closure(key.to_def_id()) + || opt_result.map_or(false, |r| !r.concrete_opaque_types.is_empty()) } - query check_private_in_public(_: CrateNum) -> () { - eval_always - desc { "checking for private elements in public interfaces" } - } - - query reachable_set(_: CrateNum) -> FxHashSet { - storage(ArenaCacheSelector<'tcx>) - desc { "reachability" } + } + query mir_borrowck_const_arg(key: (LocalDefId, DefId)) -> &'tcx mir::BorrowCheckResult<'tcx> { + desc { + |tcx| "borrow-checking the const argument`{}`", + tcx.def_path_str(key.0.to_def_id()) } + } - /// Per-body `region::ScopeTree`. The `DefId` should be the owner `DefId` for the body; - /// in the case of closures, this will be redirected to the enclosing function. - query region_scope_tree(def_id: DefId) -> &'tcx region::ScopeTree { - desc { |tcx| "computing drop scopes for `{}`", tcx.def_path_str(def_id) } - } + /// Gets a complete map from all types to their inherent impls. + /// Not meant to be used directly outside of coherence. + /// (Defined only for `LOCAL_CRATE`.) + query crate_inherent_impls(k: CrateNum) + -> CrateInherentImpls { + storage(ArenaCacheSelector<'tcx>) + eval_always + desc { "all inherent impls defined in crate `{:?}`", k } + } - query mir_shims(key: ty::InstanceDef<'tcx>) -> mir::Body<'tcx> { - storage(ArenaCacheSelector<'tcx>) - desc { |tcx| "generating MIR shim for `{}`", tcx.def_path_str(key.def_id()) } - } + /// Checks all types in the crate for overlap in their inherent impls. Reports errors. + /// Not meant to be used directly outside of coherence. + /// (Defined only for `LOCAL_CRATE`.) + query crate_inherent_impls_overlap_check(_: CrateNum) + -> () { + eval_always + desc { "check for overlap between inherent impls defined in this crate" } + } - /// The `symbol_name` query provides the symbol name for calling a - /// given instance from the local crate. In particular, it will also - /// look up the correct symbol name of instances from upstream crates. - query symbol_name(key: ty::Instance<'tcx>) -> ty::SymbolName<'tcx> { - desc { "computing the symbol for `{}`", key } - cache_on_disk_if { true } + /// Check whether the function has any recursion that could cause the inliner to trigger + /// a cycle. Returns the call stack causing the cycle. The call stack does not contain the + /// current function, just all intermediate functions. + query mir_callgraph_reachable(key: (ty::Instance<'tcx>, LocalDefId)) -> bool { + fatal_cycle + desc { |tcx| + "computing if `{}` (transitively) calls `{}`", + key.0, + tcx.def_path_str(key.1.to_def_id()), } + } - query opt_def_kind(def_id: DefId) -> Option { - desc { |tcx| "looking up definition kind of `{}`", tcx.def_path_str(def_id) } + /// Obtain all the calls into other local functions + query mir_inliner_callees(key: ty::InstanceDef<'tcx>) -> &'tcx [(DefId, SubstsRef<'tcx>)] { + fatal_cycle + desc { |tcx| + "computing all local function calls in `{}`", + tcx.def_path_str(key.def_id()), } + } - query def_span(def_id: DefId) -> Span { - desc { |tcx| "looking up span for `{}`", tcx.def_path_str(def_id) } - // FIXME(mw): DefSpans are not really inputs since they are derived from - // HIR. But at the moment HIR hashing still contains some hacks that allow - // to make type debuginfo to be source location independent. Declaring - // DefSpan an input makes sure that changes to these are always detected - // regardless of HIR hashing. - eval_always + /// Evaluates a constant and returns the computed allocation. + /// + /// **Do not use this** directly, use the `tcx.eval_static_initializer` wrapper. + query eval_to_allocation_raw(key: ty::ParamEnvAnd<'tcx, GlobalId<'tcx>>) + -> EvalToAllocationRawResult<'tcx> { + desc { |tcx| + "const-evaluating + checking `{}`", + key.value.display(tcx) } + cache_on_disk_if { true } + } - query def_ident_span(def_id: DefId) -> Option { - desc { |tcx| "looking up span for `{}`'s identifier", tcx.def_path_str(def_id) } - } + /// Evaluates const items or anonymous constants + /// (such as enum variant explicit discriminants or array lengths) + /// into a representation suitable for the type system and const generics. + /// + /// **Do not use this** directly, use one of the following wrappers: `tcx.const_eval_poly`, + /// `tcx.const_eval_resolve`, `tcx.const_eval_instance`, or `tcx.const_eval_global_id`. + query eval_to_const_value_raw(key: ty::ParamEnvAnd<'tcx, GlobalId<'tcx>>) + -> EvalToConstValueResult<'tcx> { + desc { |tcx| + "simplifying constant for the type system `{}`", + key.value.display(tcx) + } + cache_on_disk_if { true } + } - query lookup_stability(def_id: DefId) -> Option<&'tcx attr::Stability> { - desc { |tcx| "looking up stability of `{}`", tcx.def_path_str(def_id) } - } + /// Destructure a constant ADT or array into its variant index and its + /// field values. + query destructure_const( + key: ty::ParamEnvAnd<'tcx, &'tcx ty::Const<'tcx>> + ) -> mir::DestructuredConst<'tcx> { + desc { "destructure constant" } + } - query lookup_const_stability(def_id: DefId) -> Option<&'tcx attr::ConstStability> { - desc { |tcx| "looking up const stability of `{}`", tcx.def_path_str(def_id) } - } + /// Dereference a constant reference or raw pointer and turn the result into a constant + /// again. + query deref_const( + key: ty::ParamEnvAnd<'tcx, &'tcx ty::Const<'tcx>> + ) -> &'tcx ty::Const<'tcx> { + desc { "deref constant" } + } - query lookup_deprecation_entry(def_id: DefId) -> Option { - desc { |tcx| "checking whether `{}` is deprecated", tcx.def_path_str(def_id) } - } + query const_caller_location(key: (rustc_span::Symbol, u32, u32)) -> ConstValue<'tcx> { + desc { "get a &core::panic::Location referring to a span" } + } - query item_attrs(def_id: DefId) -> &'tcx [ast::Attribute] { - desc { |tcx| "collecting attributes of `{}`", tcx.def_path_str(def_id) } - } - - query codegen_fn_attrs(def_id: DefId) -> CodegenFnAttrs { - desc { |tcx| "computing codegen attributes of `{}`", tcx.def_path_str(def_id) } - storage(ArenaCacheSelector<'tcx>) - cache_on_disk_if { true } - } + query lit_to_const( + key: LitToConstInput<'tcx> + ) -> Result<&'tcx ty::Const<'tcx>, LitToConstError> { + desc { "converting literal to const" } + } - query fn_arg_names(def_id: DefId) -> &'tcx [rustc_span::symbol::Ident] { - desc { |tcx| "looking up function parameter names for `{}`", tcx.def_path_str(def_id) } - } - /// Gets the rendered value of the specified constant or associated constant. - /// Used by rustdoc. - query rendered_const(def_id: DefId) -> String { - desc { |tcx| "rendering constant intializer of `{}`", tcx.def_path_str(def_id) } - } - query impl_parent(def_id: DefId) -> Option { - desc { |tcx| "computing specialization parent impl of `{}`", tcx.def_path_str(def_id) } - } + query check_match(key: DefId) { + desc { |tcx| "match-checking `{}`", tcx.def_path_str(key) } + cache_on_disk_if { key.is_local() } + } - /// Given an `associated_item`, find the trait it belongs to. - /// Return `None` if the `DefId` is not an associated item. - query trait_of_item(associated_item: DefId) -> Option { - desc { |tcx| "finding trait defining `{}`", tcx.def_path_str(associated_item) } - } + /// Performs part of the privacy check and computes "access levels". + query privacy_access_levels(_: CrateNum) -> &'tcx AccessLevels { + eval_always + desc { "privacy access levels" } + } + query check_private_in_public(_: CrateNum) -> () { + eval_always + desc { "checking for private elements in public interfaces" } + } - query is_ctfe_mir_available(key: DefId) -> bool { - desc { |tcx| "checking if item has ctfe mir available: `{}`", tcx.def_path_str(key) } - } - query is_mir_available(key: DefId) -> bool { - desc { |tcx| "checking if item has mir available: `{}`", tcx.def_path_str(key) } - } + query reachable_set(_: CrateNum) -> FxHashSet { + storage(ArenaCacheSelector<'tcx>) + desc { "reachability" } + } - query vtable_methods(key: ty::PolyTraitRef<'tcx>) - -> &'tcx [Option<(DefId, SubstsRef<'tcx>)>] { - desc { |tcx| "finding all methods for trait {}", tcx.def_path_str(key.def_id()) } - } + /// Per-body `region::ScopeTree`. The `DefId` should be the owner `DefId` for the body; + /// in the case of closures, this will be redirected to the enclosing function. + query region_scope_tree(def_id: DefId) -> &'tcx region::ScopeTree { + desc { |tcx| "computing drop scopes for `{}`", tcx.def_path_str(def_id) } + } - query codegen_fulfill_obligation( - key: (ty::ParamEnv<'tcx>, ty::PolyTraitRef<'tcx>) - ) -> Result, ErrorReported> { - cache_on_disk_if { true } - desc { |tcx| - "checking if `{}` fulfills its obligations", - tcx.def_path_str(key.1.def_id()) - } - } + query mir_shims(key: ty::InstanceDef<'tcx>) -> mir::Body<'tcx> { + storage(ArenaCacheSelector<'tcx>) + desc { |tcx| "generating MIR shim for `{}`", tcx.def_path_str(key.def_id()) } + } - /// Return all `impl` blocks in the current crate. - /// - /// To allow caching this between crates, you must pass in [`LOCAL_CRATE`] as the crate number. - /// Passing in any other crate will cause an ICE. - /// - /// [`LOCAL_CRATE`]: rustc_hir::def_id::LOCAL_CRATE - query all_local_trait_impls(local_crate: CrateNum) -> &'tcx BTreeMap> { - desc { "local trait impls" } - } + /// The `symbol_name` query provides the symbol name for calling a + /// given instance from the local crate. In particular, it will also + /// look up the correct symbol name of instances from upstream crates. + query symbol_name(key: ty::Instance<'tcx>) -> ty::SymbolName<'tcx> { + desc { "computing the symbol for `{}`", key } + cache_on_disk_if { true } + } - /// Given a trait `trait_id`, return all known `impl` blocks. - query trait_impls_of(trait_id: DefId) -> ty::trait_def::TraitImpls { - storage(ArenaCacheSelector<'tcx>) - desc { |tcx| "trait impls of `{}`", tcx.def_path_str(trait_id) } - } + query opt_def_kind(def_id: DefId) -> Option { + desc { |tcx| "looking up definition kind of `{}`", tcx.def_path_str(def_id) } + } - query specialization_graph_of(trait_id: DefId) -> specialization_graph::Graph { - storage(ArenaCacheSelector<'tcx>) - desc { |tcx| "building specialization graph of trait `{}`", tcx.def_path_str(trait_id) } - cache_on_disk_if { true } - } - query object_safety_violations(trait_id: DefId) -> &'tcx [traits::ObjectSafetyViolation] { - desc { |tcx| "determine object safety of trait `{}`", tcx.def_path_str(trait_id) } - } + query def_span(def_id: DefId) -> Span { + desc { |tcx| "looking up span for `{}`", tcx.def_path_str(def_id) } + // FIXME(mw): DefSpans are not really inputs since they are derived from + // HIR. But at the moment HIR hashing still contains some hacks that allow + // to make type debuginfo to be source location independent. Declaring + // DefSpan an input makes sure that changes to these are always detected + // regardless of HIR hashing. + eval_always + } - /// Gets the ParameterEnvironment for a given item; this environment - /// will be in "user-facing" mode, meaning that it is suitable for - /// type-checking etc, and it does not normalize specializable - /// associated types. This is almost always what you want, - /// unless you are doing MIR optimizations, in which case you - /// might want to use `reveal_all()` method to change modes. - query param_env(def_id: DefId) -> ty::ParamEnv<'tcx> { - desc { |tcx| "computing normalized predicates of `{}`", tcx.def_path_str(def_id) } - } + query def_ident_span(def_id: DefId) -> Option { + desc { |tcx| "looking up span for `{}`'s identifier", tcx.def_path_str(def_id) } + } - /// Like `param_env`, but returns the `ParamEnv in `Reveal::All` mode. - /// Prefer this over `tcx.param_env(def_id).with_reveal_all_normalized(tcx)`, - /// as this method is more efficient. - query param_env_reveal_all_normalized(def_id: DefId) -> ty::ParamEnv<'tcx> { - desc { |tcx| "computing revealed normalized predicates of `{}`", tcx.def_path_str(def_id) } - } + query lookup_stability(def_id: DefId) -> Option<&'tcx attr::Stability> { + desc { |tcx| "looking up stability of `{}`", tcx.def_path_str(def_id) } + } - /// Trait selection queries. These are best used by invoking `ty.is_copy_modulo_regions()`, - /// `ty.is_copy()`, etc, since that will prune the environment where possible. - query is_copy_raw(env: ty::ParamEnvAnd<'tcx, Ty<'tcx>>) -> bool { - desc { "computing whether `{}` is `Copy`", env.value } - } - /// Query backing `TyS::is_sized`. - query is_sized_raw(env: ty::ParamEnvAnd<'tcx, Ty<'tcx>>) -> bool { - desc { "computing whether `{}` is `Sized`", env.value } - } - /// Query backing `TyS::is_freeze`. - query is_freeze_raw(env: ty::ParamEnvAnd<'tcx, Ty<'tcx>>) -> bool { - desc { "computing whether `{}` is freeze", env.value } - } - /// Query backing `TyS::needs_drop`. - query needs_drop_raw(env: ty::ParamEnvAnd<'tcx, Ty<'tcx>>) -> bool { - desc { "computing whether `{}` needs drop", env.value } - } + query lookup_const_stability(def_id: DefId) -> Option<&'tcx attr::ConstStability> { + desc { |tcx| "looking up const stability of `{}`", tcx.def_path_str(def_id) } + } - /// Query backing `TyS::is_structural_eq_shallow`. - /// - /// This is only correct for ADTs. Call `is_structural_eq_shallow` to handle all types - /// correctly. - query has_structural_eq_impls(ty: Ty<'tcx>) -> bool { - desc { - "computing whether `{:?}` implements `PartialStructuralEq` and `StructuralEq`", - ty - } - } + query lookup_deprecation_entry(def_id: DefId) -> Option { + desc { |tcx| "checking whether `{}` is deprecated", tcx.def_path_str(def_id) } + } - /// A list of types where the ADT requires drop if and only if any of - /// those types require drop. If the ADT is known to always need drop - /// then `Err(AlwaysRequiresDrop)` is returned. - query adt_drop_tys(def_id: DefId) -> Result<&'tcx ty::List>, AlwaysRequiresDrop> { - desc { |tcx| "computing when `{}` needs drop", tcx.def_path_str(def_id) } - cache_on_disk_if { true } - } + query item_attrs(def_id: DefId) -> &'tcx [ast::Attribute] { + desc { |tcx| "collecting attributes of `{}`", tcx.def_path_str(def_id) } + } - query layout_raw( - env: ty::ParamEnvAnd<'tcx, Ty<'tcx>> - ) -> Result<&'tcx rustc_target::abi::Layout, ty::layout::LayoutError<'tcx>> { - desc { "computing layout of `{}`", env.value } - } + query codegen_fn_attrs(def_id: DefId) -> CodegenFnAttrs { + desc { |tcx| "computing codegen attributes of `{}`", tcx.def_path_str(def_id) } + storage(ArenaCacheSelector<'tcx>) + cache_on_disk_if { true } + } - query dylib_dependency_formats(_: CrateNum) - -> &'tcx [(CrateNum, LinkagePreference)] { - desc { "dylib dependency formats of crate" } - } + query fn_arg_names(def_id: DefId) -> &'tcx [rustc_span::symbol::Ident] { + desc { |tcx| "looking up function parameter names for `{}`", tcx.def_path_str(def_id) } + } + /// Gets the rendered value of the specified constant or associated constant. + /// Used by rustdoc. + query rendered_const(def_id: DefId) -> String { + desc { |tcx| "rendering constant intializer of `{}`", tcx.def_path_str(def_id) } + } + query impl_parent(def_id: DefId) -> Option { + desc { |tcx| "computing specialization parent impl of `{}`", tcx.def_path_str(def_id) } + } - query dependency_formats(_: CrateNum) - -> Lrc - { - desc { "get the linkage format of all dependencies" } - } + /// Given an `associated_item`, find the trait it belongs to. + /// Return `None` if the `DefId` is not an associated item. + query trait_of_item(associated_item: DefId) -> Option { + desc { |tcx| "finding trait defining `{}`", tcx.def_path_str(associated_item) } + } - query is_compiler_builtins(_: CrateNum) -> bool { - fatal_cycle - desc { "checking if the crate is_compiler_builtins" } - } - query has_global_allocator(_: CrateNum) -> bool { - fatal_cycle - desc { "checking if the crate has_global_allocator" } - } - query has_panic_handler(_: CrateNum) -> bool { - fatal_cycle - desc { "checking if the crate has_panic_handler" } - } - query is_profiler_runtime(_: CrateNum) -> bool { - fatal_cycle - desc { "query a crate is `#![profiler_runtime]`" } - } - query panic_strategy(_: CrateNum) -> PanicStrategy { - fatal_cycle - desc { "query a crate's configured panic strategy" } - } - query is_no_builtins(_: CrateNum) -> bool { - fatal_cycle - desc { "test whether a crate has `#![no_builtins]`" } - } - query symbol_mangling_version(_: CrateNum) -> SymbolManglingVersion { - fatal_cycle - desc { "query a crate's symbol mangling version" } - } + query is_ctfe_mir_available(key: DefId) -> bool { + desc { |tcx| "checking if item has ctfe mir available: `{}`", tcx.def_path_str(key) } + } + query is_mir_available(key: DefId) -> bool { + desc { |tcx| "checking if item has mir available: `{}`", tcx.def_path_str(key) } + } - query extern_crate(def_id: DefId) -> Option<&'tcx ExternCrate> { - eval_always - desc { "getting crate's ExternCrateData" } - } + query vtable_methods(key: ty::PolyTraitRef<'tcx>) + -> &'tcx [Option<(DefId, SubstsRef<'tcx>)>] { + desc { |tcx| "finding all methods for trait {}", tcx.def_path_str(key.def_id()) } + } - query specializes(_: (DefId, DefId)) -> bool { - desc { "computing whether impls specialize one another" } - } - query in_scope_traits_map(_: LocalDefId) - -> Option<&'tcx FxHashMap>> { - eval_always - desc { "traits in scope at a block" } + query codegen_fulfill_obligation( + key: (ty::ParamEnv<'tcx>, ty::PolyTraitRef<'tcx>) + ) -> Result, ErrorReported> { + cache_on_disk_if { true } + desc { |tcx| + "checking if `{}` fulfills its obligations", + tcx.def_path_str(key.1.def_id()) } + } - query module_exports(def_id: LocalDefId) -> Option<&'tcx [Export]> { - desc { |tcx| "looking up items exported by `{}`", tcx.def_path_str(def_id.to_def_id()) } - eval_always - } + /// Return all `impl` blocks in the current crate. + /// + /// To allow caching this between crates, you must pass in [`LOCAL_CRATE`] as the crate number. + /// Passing in any other crate will cause an ICE. + /// + /// [`LOCAL_CRATE`]: rustc_hir::def_id::LOCAL_CRATE + query all_local_trait_impls(local_crate: CrateNum) -> &'tcx BTreeMap> { + desc { "local trait impls" } + } - query impl_defaultness(def_id: DefId) -> hir::Defaultness { - desc { |tcx| "looking up whether `{}` is a default impl", tcx.def_path_str(def_id) } - } + /// Given a trait `trait_id`, return all known `impl` blocks. + query trait_impls_of(trait_id: DefId) -> ty::trait_def::TraitImpls { + storage(ArenaCacheSelector<'tcx>) + desc { |tcx| "trait impls of `{}`", tcx.def_path_str(trait_id) } + } - query check_item_well_formed(key: LocalDefId) -> () { - desc { |tcx| "checking that `{}` is well-formed", tcx.def_path_str(key.to_def_id()) } - } - query check_trait_item_well_formed(key: LocalDefId) -> () { - desc { |tcx| "checking that `{}` is well-formed", tcx.def_path_str(key.to_def_id()) } - } - query check_impl_item_well_formed(key: LocalDefId) -> () { - desc { |tcx| "checking that `{}` is well-formed", tcx.def_path_str(key.to_def_id()) } - } + query specialization_graph_of(trait_id: DefId) -> specialization_graph::Graph { + storage(ArenaCacheSelector<'tcx>) + desc { |tcx| "building specialization graph of trait `{}`", tcx.def_path_str(trait_id) } + cache_on_disk_if { true } + } + query object_safety_violations(trait_id: DefId) -> &'tcx [traits::ObjectSafetyViolation] { + desc { |tcx| "determine object safety of trait `{}`", tcx.def_path_str(trait_id) } + } + + /// Gets the ParameterEnvironment for a given item; this environment + /// will be in "user-facing" mode, meaning that it is suitable for + /// type-checking etc, and it does not normalize specializable + /// associated types. This is almost always what you want, + /// unless you are doing MIR optimizations, in which case you + /// might want to use `reveal_all()` method to change modes. + query param_env(def_id: DefId) -> ty::ParamEnv<'tcx> { + desc { |tcx| "computing normalized predicates of `{}`", tcx.def_path_str(def_id) } + } - // The `DefId`s of all non-generic functions and statics in the given crate - // that can be reached from outside the crate. - // - // We expect this items to be available for being linked to. - // - // This query can also be called for `LOCAL_CRATE`. In this case it will - // compute which items will be reachable to other crates, taking into account - // the kind of crate that is currently compiled. Crates with only a - // C interface have fewer reachable things. - // - // Does not include external symbols that don't have a corresponding DefId, - // like the compiler-generated `main` function and so on. - query reachable_non_generics(_: CrateNum) - -> DefIdMap { - storage(ArenaCacheSelector<'tcx>) - desc { "looking up the exported symbols of a crate" } + /// Like `param_env`, but returns the `ParamEnv in `Reveal::All` mode. + /// Prefer this over `tcx.param_env(def_id).with_reveal_all_normalized(tcx)`, + /// as this method is more efficient. + query param_env_reveal_all_normalized(def_id: DefId) -> ty::ParamEnv<'tcx> { + desc { |tcx| "computing revealed normalized predicates of `{}`", tcx.def_path_str(def_id) } + } + + /// Trait selection queries. These are best used by invoking `ty.is_copy_modulo_regions()`, + /// `ty.is_copy()`, etc, since that will prune the environment where possible. + query is_copy_raw(env: ty::ParamEnvAnd<'tcx, Ty<'tcx>>) -> bool { + desc { "computing whether `{}` is `Copy`", env.value } + } + /// Query backing `TyS::is_sized`. + query is_sized_raw(env: ty::ParamEnvAnd<'tcx, Ty<'tcx>>) -> bool { + desc { "computing whether `{}` is `Sized`", env.value } + } + /// Query backing `TyS::is_freeze`. + query is_freeze_raw(env: ty::ParamEnvAnd<'tcx, Ty<'tcx>>) -> bool { + desc { "computing whether `{}` is freeze", env.value } + } + /// Query backing `TyS::needs_drop`. + query needs_drop_raw(env: ty::ParamEnvAnd<'tcx, Ty<'tcx>>) -> bool { + desc { "computing whether `{}` needs drop", env.value } + } + + /// Query backing `TyS::is_structural_eq_shallow`. + /// + /// This is only correct for ADTs. Call `is_structural_eq_shallow` to handle all types + /// correctly. + query has_structural_eq_impls(ty: Ty<'tcx>) -> bool { + desc { + "computing whether `{:?}` implements `PartialStructuralEq` and `StructuralEq`", + ty } - query is_reachable_non_generic(def_id: DefId) -> bool { - desc { |tcx| "checking whether `{}` is an exported symbol", tcx.def_path_str(def_id) } + } + + /// A list of types where the ADT requires drop if and only if any of + /// those types require drop. If the ADT is known to always need drop + /// then `Err(AlwaysRequiresDrop)` is returned. + query adt_drop_tys(def_id: DefId) -> Result<&'tcx ty::List>, AlwaysRequiresDrop> { + desc { |tcx| "computing when `{}` needs drop", tcx.def_path_str(def_id) } + cache_on_disk_if { true } + } + + query layout_raw( + env: ty::ParamEnvAnd<'tcx, Ty<'tcx>> + ) -> Result<&'tcx rustc_target::abi::Layout, ty::layout::LayoutError<'tcx>> { + desc { "computing layout of `{}`", env.value } + } + + query dylib_dependency_formats(_: CrateNum) + -> &'tcx [(CrateNum, LinkagePreference)] { + desc { "dylib dependency formats of crate" } + } + + query dependency_formats(_: CrateNum) + -> Lrc + { + desc { "get the linkage format of all dependencies" } + } + + query is_compiler_builtins(_: CrateNum) -> bool { + fatal_cycle + desc { "checking if the crate is_compiler_builtins" } + } + query has_global_allocator(_: CrateNum) -> bool { + fatal_cycle + desc { "checking if the crate has_global_allocator" } + } + query has_panic_handler(_: CrateNum) -> bool { + fatal_cycle + desc { "checking if the crate has_panic_handler" } + } + query is_profiler_runtime(_: CrateNum) -> bool { + fatal_cycle + desc { "query a crate is `#![profiler_runtime]`" } + } + query panic_strategy(_: CrateNum) -> PanicStrategy { + fatal_cycle + desc { "query a crate's configured panic strategy" } + } + query is_no_builtins(_: CrateNum) -> bool { + fatal_cycle + desc { "test whether a crate has `#![no_builtins]`" } + } + query symbol_mangling_version(_: CrateNum) -> SymbolManglingVersion { + fatal_cycle + desc { "query a crate's symbol mangling version" } + } + + query extern_crate(def_id: DefId) -> Option<&'tcx ExternCrate> { + eval_always + desc { "getting crate's ExternCrateData" } + } + + query specializes(_: (DefId, DefId)) -> bool { + desc { "computing whether impls specialize one another" } + } + query in_scope_traits_map(_: LocalDefId) + -> Option<&'tcx FxHashMap>> { + eval_always + desc { "traits in scope at a block" } + } + + query module_exports(def_id: LocalDefId) -> Option<&'tcx [Export]> { + desc { |tcx| "looking up items exported by `{}`", tcx.def_path_str(def_id.to_def_id()) } + eval_always + } + + query impl_defaultness(def_id: DefId) -> hir::Defaultness { + desc { |tcx| "looking up whether `{}` is a default impl", tcx.def_path_str(def_id) } + } + + query check_item_well_formed(key: LocalDefId) -> () { + desc { |tcx| "checking that `{}` is well-formed", tcx.def_path_str(key.to_def_id()) } + } + query check_trait_item_well_formed(key: LocalDefId) -> () { + desc { |tcx| "checking that `{}` is well-formed", tcx.def_path_str(key.to_def_id()) } + } + query check_impl_item_well_formed(key: LocalDefId) -> () { + desc { |tcx| "checking that `{}` is well-formed", tcx.def_path_str(key.to_def_id()) } + } + + // The `DefId`s of all non-generic functions and statics in the given crate + // that can be reached from outside the crate. + // + // We expect this items to be available for being linked to. + // + // This query can also be called for `LOCAL_CRATE`. In this case it will + // compute which items will be reachable to other crates, taking into account + // the kind of crate that is currently compiled. Crates with only a + // C interface have fewer reachable things. + // + // Does not include external symbols that don't have a corresponding DefId, + // like the compiler-generated `main` function and so on. + query reachable_non_generics(_: CrateNum) + -> DefIdMap { + storage(ArenaCacheSelector<'tcx>) + desc { "looking up the exported symbols of a crate" } + } + query is_reachable_non_generic(def_id: DefId) -> bool { + desc { |tcx| "checking whether `{}` is an exported symbol", tcx.def_path_str(def_id) } + } + query is_unreachable_local_definition(def_id: DefId) -> bool { + desc { |tcx| + "checking whether `{}` is reachable from outside the crate", + tcx.def_path_str(def_id), } - query is_unreachable_local_definition(def_id: DefId) -> bool { + } + + /// The entire set of monomorphizations the local crate can safely link + /// to because they are exported from upstream crates. Do not depend on + /// this directly, as its value changes anytime a monomorphization gets + /// added or removed in any upstream crate. Instead use the narrower + /// `upstream_monomorphizations_for`, `upstream_drop_glue_for`, or, even + /// better, `Instance::upstream_monomorphization()`. + query upstream_monomorphizations( + k: CrateNum + ) -> DefIdMap, CrateNum>> { + storage(ArenaCacheSelector<'tcx>) + desc { "collecting available upstream monomorphizations `{:?}`", k } + } + + /// Returns the set of upstream monomorphizations available for the + /// generic function identified by the given `def_id`. The query makes + /// sure to make a stable selection if the same monomorphization is + /// available in multiple upstream crates. + /// + /// You likely want to call `Instance::upstream_monomorphization()` + /// instead of invoking this query directly. + query upstream_monomorphizations_for(def_id: DefId) + -> Option<&'tcx FxHashMap, CrateNum>> { desc { |tcx| - "checking whether `{}` is reachable from outside the crate", + "collecting available upstream monomorphizations for `{}`", tcx.def_path_str(def_id), } } - /// The entire set of monomorphizations the local crate can safely link - /// to because they are exported from upstream crates. Do not depend on - /// this directly, as its value changes anytime a monomorphization gets - /// added or removed in any upstream crate. Instead use the narrower - /// `upstream_monomorphizations_for`, `upstream_drop_glue_for`, or, even - /// better, `Instance::upstream_monomorphization()`. - query upstream_monomorphizations( - k: CrateNum - ) -> DefIdMap, CrateNum>> { - storage(ArenaCacheSelector<'tcx>) - desc { "collecting available upstream monomorphizations `{:?}`", k } - } - - /// Returns the set of upstream monomorphizations available for the - /// generic function identified by the given `def_id`. The query makes - /// sure to make a stable selection if the same monomorphization is - /// available in multiple upstream crates. - /// - /// You likely want to call `Instance::upstream_monomorphization()` - /// instead of invoking this query directly. - query upstream_monomorphizations_for(def_id: DefId) - -> Option<&'tcx FxHashMap, CrateNum>> { - desc { |tcx| - "collecting available upstream monomorphizations for `{}`", - tcx.def_path_str(def_id), - } - } - - /// Returns the upstream crate that exports drop-glue for the given - /// type (`substs` is expected to be a single-item list containing the - /// type one wants drop-glue for). - /// - /// This is a subset of `upstream_monomorphizations_for` in order to - /// increase dep-tracking granularity. Otherwise adding or removing any - /// type with drop-glue in any upstream crate would invalidate all - /// functions calling drop-glue of an upstream type. - /// - /// You likely want to call `Instance::upstream_monomorphization()` - /// instead of invoking this query directly. - /// - /// NOTE: This query could easily be extended to also support other - /// common functions that have are large set of monomorphizations - /// (like `Clone::clone` for example). - query upstream_drop_glue_for(substs: SubstsRef<'tcx>) -> Option { - desc { "available upstream drop-glue for `{:?}`", substs } - } + /// Returns the upstream crate that exports drop-glue for the given + /// type (`substs` is expected to be a single-item list containing the + /// type one wants drop-glue for). + /// + /// This is a subset of `upstream_monomorphizations_for` in order to + /// increase dep-tracking granularity. Otherwise adding or removing any + /// type with drop-glue in any upstream crate would invalidate all + /// functions calling drop-glue of an upstream type. + /// + /// You likely want to call `Instance::upstream_monomorphization()` + /// instead of invoking this query directly. + /// + /// NOTE: This query could easily be extended to also support other + /// common functions that have are large set of monomorphizations + /// (like `Clone::clone` for example). + query upstream_drop_glue_for(substs: SubstsRef<'tcx>) -> Option { + desc { "available upstream drop-glue for `{:?}`", substs } + } - query foreign_modules(_: CrateNum) -> Lrc> { - desc { "looking up the foreign modules of a linked crate" } - } + query foreign_modules(_: CrateNum) -> Lrc> { + desc { "looking up the foreign modules of a linked crate" } + } - /// Identifies the entry-point (e.g., the `main` function) for a given - /// crate, returning `None` if there is no entry point (such as for library crates). - query entry_fn(_: CrateNum) -> Option<(LocalDefId, EntryFnType)> { - desc { "looking up the entry function of a crate" } - } - query plugin_registrar_fn(_: CrateNum) -> Option { - desc { "looking up the plugin registrar for a crate" } - } - query proc_macro_decls_static(_: CrateNum) -> Option { - desc { "looking up the derive registrar for a crate" } - } - query crate_disambiguator(_: CrateNum) -> CrateDisambiguator { - eval_always - desc { "looking up the disambiguator a crate" } - } - // The macro which defines `rustc_metadata::provide_extern` depends on this query's name. - // Changing the name should cause a compiler error, but in case that changes, be aware. - query crate_hash(_: CrateNum) -> Svh { - eval_always - desc { "looking up the hash a crate" } - } - query crate_host_hash(_: CrateNum) -> Option { - eval_always - desc { "looking up the hash of a host version of a crate" } - } - query original_crate_name(_: CrateNum) -> Symbol { - eval_always - desc { "looking up the original name a crate" } - } - query extra_filename(_: CrateNum) -> String { - eval_always - desc { "looking up the extra filename for a crate" } - } - query crate_extern_paths(_: CrateNum) -> Vec { - eval_always - desc { "looking up the paths for extern crates" } - } + /// Identifies the entry-point (e.g., the `main` function) for a given + /// crate, returning `None` if there is no entry point (such as for library crates). + query entry_fn(_: CrateNum) -> Option<(LocalDefId, EntryFnType)> { + desc { "looking up the entry function of a crate" } + } + query plugin_registrar_fn(_: CrateNum) -> Option { + desc { "looking up the plugin registrar for a crate" } + } + query proc_macro_decls_static(_: CrateNum) -> Option { + desc { "looking up the derive registrar for a crate" } + } + query crate_disambiguator(_: CrateNum) -> CrateDisambiguator { + eval_always + desc { "looking up the disambiguator a crate" } + } + // The macro which defines `rustc_metadata::provide_extern` depends on this query's name. + // Changing the name should cause a compiler error, but in case that changes, be aware. + query crate_hash(_: CrateNum) -> Svh { + eval_always + desc { "looking up the hash a crate" } + } + query crate_host_hash(_: CrateNum) -> Option { + eval_always + desc { "looking up the hash of a host version of a crate" } + } + query original_crate_name(_: CrateNum) -> Symbol { + eval_always + desc { "looking up the original name a crate" } + } + query extra_filename(_: CrateNum) -> String { + eval_always + desc { "looking up the extra filename for a crate" } + } + query crate_extern_paths(_: CrateNum) -> Vec { + eval_always + desc { "looking up the paths for extern crates" } + } - /// Given a crate and a trait, look up all impls of that trait in the crate. - /// Return `(impl_id, self_ty)`. - query implementations_of_trait(_: (CrateNum, DefId)) - -> &'tcx [(DefId, Option)] { - desc { "looking up implementations of a trait in a crate" } - } + /// Given a crate and a trait, look up all impls of that trait in the crate. + /// Return `(impl_id, self_ty)`. + query implementations_of_trait(_: (CrateNum, DefId)) + -> &'tcx [(DefId, Option)] { + desc { "looking up implementations of a trait in a crate" } + } - /// Given a crate, look up all trait impls in that crate. - /// Return `(impl_id, self_ty)`. - query all_trait_implementations(_: CrateNum) - -> &'tcx [(DefId, Option)] { - desc { "looking up all (?) trait implementations" } - } + /// Given a crate, look up all trait impls in that crate. + /// Return `(impl_id, self_ty)`. + query all_trait_implementations(_: CrateNum) + -> &'tcx [(DefId, Option)] { + desc { "looking up all (?) trait implementations" } + } - query is_dllimport_foreign_item(def_id: DefId) -> bool { - desc { |tcx| "is_dllimport_foreign_item({})", tcx.def_path_str(def_id) } - } - query is_statically_included_foreign_item(def_id: DefId) -> bool { - desc { |tcx| "is_statically_included_foreign_item({})", tcx.def_path_str(def_id) } - } - query native_library_kind(def_id: DefId) - -> Option { - desc { |tcx| "native_library_kind({})", tcx.def_path_str(def_id) } - } + query is_dllimport_foreign_item(def_id: DefId) -> bool { + desc { |tcx| "is_dllimport_foreign_item({})", tcx.def_path_str(def_id) } + } + query is_statically_included_foreign_item(def_id: DefId) -> bool { + desc { |tcx| "is_statically_included_foreign_item({})", tcx.def_path_str(def_id) } + } + query native_library_kind(def_id: DefId) + -> Option { + desc { |tcx| "native_library_kind({})", tcx.def_path_str(def_id) } + } - query link_args(_: CrateNum) -> Lrc> { - eval_always - desc { "looking up link arguments for a crate" } - } + query link_args(_: CrateNum) -> Lrc> { + eval_always + desc { "looking up link arguments for a crate" } + } - /// Lifetime resolution. See `middle::resolve_lifetimes`. - query resolve_lifetimes(_: CrateNum) -> ResolveLifetimes { - storage(ArenaCacheSelector<'tcx>) - desc { "resolving lifetimes" } - } - query named_region_map(_: LocalDefId) -> - Option<&'tcx FxHashMap> { - desc { "looking up a named region" } - } - query is_late_bound_map(_: LocalDefId) -> - Option<(LocalDefId, &'tcx FxHashSet)> { - desc { "testing if a region is late bound" } - } - query object_lifetime_defaults_map(_: LocalDefId) - -> Option<&'tcx FxHashMap>> { - desc { "looking up lifetime defaults for a region" } - } + /// Lifetime resolution. See `middle::resolve_lifetimes`. + query resolve_lifetimes(_: CrateNum) -> ResolveLifetimes { + storage(ArenaCacheSelector<'tcx>) + desc { "resolving lifetimes" } + } + query named_region_map(_: LocalDefId) -> + Option<&'tcx FxHashMap> { + desc { "looking up a named region" } + } + query is_late_bound_map(_: LocalDefId) -> + Option<(LocalDefId, &'tcx FxHashSet)> { + desc { "testing if a region is late bound" } + } + query object_lifetime_defaults_map(_: LocalDefId) + -> Option<&'tcx FxHashMap>> { + desc { "looking up lifetime defaults for a region" } + } - query visibility(def_id: DefId) -> ty::Visibility { - eval_always - desc { |tcx| "computing visibility of `{}`", tcx.def_path_str(def_id) } - } + query visibility(def_id: DefId) -> ty::Visibility { + eval_always + desc { |tcx| "computing visibility of `{}`", tcx.def_path_str(def_id) } + } - /// Computes the set of modules from which this type is visibly uninhabited. - /// To check whether a type is uninhabited at all (not just from a given module), you could - /// check whether the forest is empty. - query type_uninhabited_from( - key: ty::ParamEnvAnd<'tcx, Ty<'tcx>> - ) -> ty::inhabitedness::DefIdForest { - desc { "computing the inhabitedness of `{:?}`", key } - } + /// Computes the set of modules from which this type is visibly uninhabited. + /// To check whether a type is uninhabited at all (not just from a given module), you could + /// check whether the forest is empty. + query type_uninhabited_from( + key: ty::ParamEnvAnd<'tcx, Ty<'tcx>> + ) -> ty::inhabitedness::DefIdForest { + desc { "computing the inhabitedness of `{:?}`", key } + } - query dep_kind(_: CrateNum) -> CrateDepKind { - eval_always - desc { "fetching what a dependency looks like" } - } - query crate_name(_: CrateNum) -> Symbol { - eval_always - desc { "fetching what a crate is named" } - } - query item_children(def_id: DefId) -> &'tcx [Export] { - desc { |tcx| "collecting child items of `{}`", tcx.def_path_str(def_id) } - } - query extern_mod_stmt_cnum(def_id: LocalDefId) -> Option { - desc { |tcx| "computing crate imported by `{}`", tcx.def_path_str(def_id.to_def_id()) } - } + query dep_kind(_: CrateNum) -> CrateDepKind { + eval_always + desc { "fetching what a dependency looks like" } + } + query crate_name(_: CrateNum) -> Symbol { + eval_always + desc { "fetching what a crate is named" } + } + query item_children(def_id: DefId) -> &'tcx [Export] { + desc { |tcx| "collecting child items of `{}`", tcx.def_path_str(def_id) } + } + query extern_mod_stmt_cnum(def_id: LocalDefId) -> Option { + desc { |tcx| "computing crate imported by `{}`", tcx.def_path_str(def_id.to_def_id()) } + } - query get_lib_features(_: CrateNum) -> LibFeatures { - storage(ArenaCacheSelector<'tcx>) - eval_always - desc { "calculating the lib features map" } - } - query defined_lib_features(_: CrateNum) - -> &'tcx [(Symbol, Option)] { - desc { "calculating the lib features defined in a crate" } - } - /// Returns the lang items defined in another crate by loading it from metadata. - // FIXME: It is illegal to pass a `CrateNum` other than `LOCAL_CRATE` here, just get rid - // of that argument? - query get_lang_items(_: CrateNum) -> LanguageItems { - storage(ArenaCacheSelector<'tcx>) - eval_always - desc { "calculating the lang items map" } - } + query get_lib_features(_: CrateNum) -> LibFeatures { + storage(ArenaCacheSelector<'tcx>) + eval_always + desc { "calculating the lib features map" } + } + query defined_lib_features(_: CrateNum) + -> &'tcx [(Symbol, Option)] { + desc { "calculating the lib features defined in a crate" } + } + /// Returns the lang items defined in another crate by loading it from metadata. + // FIXME: It is illegal to pass a `CrateNum` other than `LOCAL_CRATE` here, just get rid + // of that argument? + query get_lang_items(_: CrateNum) -> LanguageItems { + storage(ArenaCacheSelector<'tcx>) + eval_always + desc { "calculating the lang items map" } + } - /// Returns all diagnostic items defined in all crates. - query all_diagnostic_items(_: CrateNum) -> FxHashMap { - storage(ArenaCacheSelector<'tcx>) - eval_always - desc { "calculating the diagnostic items map" } - } + /// Returns all diagnostic items defined in all crates. + query all_diagnostic_items(_: CrateNum) -> FxHashMap { + storage(ArenaCacheSelector<'tcx>) + eval_always + desc { "calculating the diagnostic items map" } + } - /// Returns the lang items defined in another crate by loading it from metadata. - query defined_lang_items(_: CrateNum) -> &'tcx [(DefId, usize)] { - desc { "calculating the lang items defined in a crate" } - } + /// Returns the lang items defined in another crate by loading it from metadata. + query defined_lang_items(_: CrateNum) -> &'tcx [(DefId, usize)] { + desc { "calculating the lang items defined in a crate" } + } - /// Returns the diagnostic items defined in a crate. - query diagnostic_items(_: CrateNum) -> FxHashMap { - storage(ArenaCacheSelector<'tcx>) - desc { "calculating the diagnostic items map in a crate" } - } + /// Returns the diagnostic items defined in a crate. + query diagnostic_items(_: CrateNum) -> FxHashMap { + storage(ArenaCacheSelector<'tcx>) + desc { "calculating the diagnostic items map in a crate" } + } - query missing_lang_items(_: CrateNum) -> &'tcx [LangItem] { - desc { "calculating the missing lang items in a crate" } - } - query visible_parent_map(_: CrateNum) - -> DefIdMap { - storage(ArenaCacheSelector<'tcx>) - desc { "calculating the visible parent map" } - } - query trimmed_def_paths(_: CrateNum) - -> FxHashMap { - storage(ArenaCacheSelector<'tcx>) - desc { "calculating trimmed def paths" } - } - query missing_extern_crate_item(_: CrateNum) -> bool { - eval_always - desc { "seeing if we're missing an `extern crate` item for this crate" } - } - query used_crate_source(_: CrateNum) -> Lrc { - eval_always - desc { "looking at the source for a crate" } - } - query postorder_cnums(_: CrateNum) -> &'tcx [CrateNum] { - eval_always - desc { "generating a postorder list of CrateNums" } - } + query missing_lang_items(_: CrateNum) -> &'tcx [LangItem] { + desc { "calculating the missing lang items in a crate" } + } + query visible_parent_map(_: CrateNum) + -> DefIdMap { + storage(ArenaCacheSelector<'tcx>) + desc { "calculating the visible parent map" } + } + query trimmed_def_paths(_: CrateNum) + -> FxHashMap { + storage(ArenaCacheSelector<'tcx>) + desc { "calculating trimmed def paths" } + } + query missing_extern_crate_item(_: CrateNum) -> bool { + eval_always + desc { "seeing if we're missing an `extern crate` item for this crate" } + } + query used_crate_source(_: CrateNum) -> Lrc { + eval_always + desc { "looking at the source for a crate" } + } + query postorder_cnums(_: CrateNum) -> &'tcx [CrateNum] { + eval_always + desc { "generating a postorder list of CrateNums" } + } - query upvars_mentioned(def_id: DefId) -> Option<&'tcx FxIndexMap> { - desc { |tcx| "collecting upvars mentioned in `{}`", tcx.def_path_str(def_id) } - eval_always - } - query maybe_unused_trait_import(def_id: LocalDefId) -> bool { - eval_always - desc { |tcx| "maybe_unused_trait_import for `{}`", tcx.def_path_str(def_id.to_def_id()) } - } - query maybe_unused_extern_crates(_: CrateNum) - -> &'tcx [(LocalDefId, Span)] { - eval_always - desc { "looking up all possibly unused extern crates" } - } - query names_imported_by_glob_use(def_id: LocalDefId) - -> &'tcx FxHashSet { - eval_always - desc { |tcx| "names_imported_by_glob_use for `{}`", tcx.def_path_str(def_id.to_def_id()) } - } + query upvars_mentioned(def_id: DefId) -> Option<&'tcx FxIndexMap> { + desc { |tcx| "collecting upvars mentioned in `{}`", tcx.def_path_str(def_id) } + eval_always + } + query maybe_unused_trait_import(def_id: LocalDefId) -> bool { + eval_always + desc { |tcx| "maybe_unused_trait_import for `{}`", tcx.def_path_str(def_id.to_def_id()) } + } + query maybe_unused_extern_crates(_: CrateNum) + -> &'tcx [(LocalDefId, Span)] { + eval_always + desc { "looking up all possibly unused extern crates" } + } + query names_imported_by_glob_use(def_id: LocalDefId) + -> &'tcx FxHashSet { + eval_always + desc { |tcx| "names_imported_by_glob_use for `{}`", tcx.def_path_str(def_id.to_def_id()) } + } - query stability_index(_: CrateNum) -> stability::Index<'tcx> { - storage(ArenaCacheSelector<'tcx>) - eval_always - desc { "calculating the stability index for the local crate" } - } - query all_crate_nums(_: CrateNum) -> &'tcx [CrateNum] { - eval_always - desc { "fetching all foreign CrateNum instances" } - } + query stability_index(_: CrateNum) -> stability::Index<'tcx> { + storage(ArenaCacheSelector<'tcx>) + eval_always + desc { "calculating the stability index for the local crate" } + } + query all_crate_nums(_: CrateNum) -> &'tcx [CrateNum] { + eval_always + desc { "fetching all foreign CrateNum instances" } + } - /// A vector of every trait accessible in the whole crate - /// (i.e., including those from subcrates). This is used only for - /// error reporting. - query all_traits(_: CrateNum) -> &'tcx [DefId] { - desc { "fetching all foreign and local traits" } - } + /// A vector of every trait accessible in the whole crate + /// (i.e., including those from subcrates). This is used only for + /// error reporting. + query all_traits(_: CrateNum) -> &'tcx [DefId] { + desc { "fetching all foreign and local traits" } + } - /// The list of symbols exported from the given crate. - /// - /// - All names contained in `exported_symbols(cnum)` are guaranteed to - /// correspond to a publicly visible symbol in `cnum` machine code. - /// - The `exported_symbols` sets of different crates do not intersect. - query exported_symbols(_: CrateNum) - -> &'tcx [(ExportedSymbol<'tcx>, SymbolExportLevel)] { - desc { "exported_symbols" } - } + /// The list of symbols exported from the given crate. + /// + /// - All names contained in `exported_symbols(cnum)` are guaranteed to + /// correspond to a publicly visible symbol in `cnum` machine code. + /// - The `exported_symbols` sets of different crates do not intersect. + query exported_symbols(_: CrateNum) + -> &'tcx [(ExportedSymbol<'tcx>, SymbolExportLevel)] { + desc { "exported_symbols" } + } - query collect_and_partition_mono_items(_: CrateNum) - -> (&'tcx DefIdSet, &'tcx [CodegenUnit<'tcx>]) { - eval_always - desc { "collect_and_partition_mono_items" } - } - query is_codegened_item(def_id: DefId) -> bool { - desc { |tcx| "determining whether `{}` needs codegen", tcx.def_path_str(def_id) } - } - query codegen_unit(_: Symbol) -> &'tcx CodegenUnit<'tcx> { - desc { "codegen_unit" } - } - query unused_generic_params(key: DefId) -> FiniteBitSet { - cache_on_disk_if { key.is_local() } - desc { - |tcx| "determining which generic parameters are unused by `{}`", - tcx.def_path_str(key) - } - } - query backend_optimization_level(_: CrateNum) -> OptLevel { - desc { "optimization level used by backend" } + query collect_and_partition_mono_items(_: CrateNum) + -> (&'tcx DefIdSet, &'tcx [CodegenUnit<'tcx>]) { + eval_always + desc { "collect_and_partition_mono_items" } + } + query is_codegened_item(def_id: DefId) -> bool { + desc { |tcx| "determining whether `{}` needs codegen", tcx.def_path_str(def_id) } + } + query codegen_unit(_: Symbol) -> &'tcx CodegenUnit<'tcx> { + desc { "codegen_unit" } + } + query unused_generic_params(key: DefId) -> FiniteBitSet { + cache_on_disk_if { key.is_local() } + desc { + |tcx| "determining which generic parameters are unused by `{}`", + tcx.def_path_str(key) } + } + query backend_optimization_level(_: CrateNum) -> OptLevel { + desc { "optimization level used by backend" } + } - query output_filenames(_: CrateNum) -> Arc { - eval_always - desc { "output_filenames" } - } + query output_filenames(_: CrateNum) -> Arc { + eval_always + desc { "output_filenames" } + } - /// Do not call this query directly: invoke `normalize` instead. - query normalize_projection_ty( - goal: CanonicalProjectionGoal<'tcx> - ) -> Result< - &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, NormalizationResult<'tcx>>>, - NoSolution, - > { - desc { "normalizing `{:?}`", goal } - } + /// Do not call this query directly: invoke `normalize` instead. + query normalize_projection_ty( + goal: CanonicalProjectionGoal<'tcx> + ) -> Result< + &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, NormalizationResult<'tcx>>>, + NoSolution, + > { + desc { "normalizing `{:?}`", goal } + } - /// Do not call this query directly: invoke `normalize_erasing_regions` instead. - query normalize_generic_arg_after_erasing_regions( - goal: ParamEnvAnd<'tcx, GenericArg<'tcx>> - ) -> GenericArg<'tcx> { - desc { "normalizing `{}`", goal.value } - } + /// Do not call this query directly: invoke `normalize_erasing_regions` instead. + query normalize_generic_arg_after_erasing_regions( + goal: ParamEnvAnd<'tcx, GenericArg<'tcx>> + ) -> GenericArg<'tcx> { + desc { "normalizing `{}`", goal.value } + } - query implied_outlives_bounds( - goal: CanonicalTyGoal<'tcx> - ) -> Result< - &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, Vec>>>, - NoSolution, - > { - desc { "computing implied outlives bounds for `{:?}`", goal } - } + query implied_outlives_bounds( + goal: CanonicalTyGoal<'tcx> + ) -> Result< + &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, Vec>>>, + NoSolution, + > { + desc { "computing implied outlives bounds for `{:?}`", goal } + } - /// Do not call this query directly: invoke `infcx.at().dropck_outlives()` instead. - query dropck_outlives( - goal: CanonicalTyGoal<'tcx> - ) -> Result< - &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, DropckOutlivesResult<'tcx>>>, - NoSolution, - > { - desc { "computing dropck types for `{:?}`", goal } - } + /// Do not call this query directly: invoke `infcx.at().dropck_outlives()` instead. + query dropck_outlives( + goal: CanonicalTyGoal<'tcx> + ) -> Result< + &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, DropckOutlivesResult<'tcx>>>, + NoSolution, + > { + desc { "computing dropck types for `{:?}`", goal } + } - /// Do not call this query directly: invoke `infcx.predicate_may_hold()` or - /// `infcx.predicate_must_hold()` instead. - query evaluate_obligation( - goal: CanonicalPredicateGoal<'tcx> - ) -> Result { - desc { "evaluating trait selection obligation `{}`", goal.value.value } - } + /// Do not call this query directly: invoke `infcx.predicate_may_hold()` or + /// `infcx.predicate_must_hold()` instead. + query evaluate_obligation( + goal: CanonicalPredicateGoal<'tcx> + ) -> Result { + desc { "evaluating trait selection obligation `{}`", goal.value.value } + } - query evaluate_goal( - goal: traits::CanonicalChalkEnvironmentAndGoal<'tcx> - ) -> Result< - &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, ()>>, - NoSolution - > { - desc { "evaluating trait selection obligation `{}`", goal.value } - } + query evaluate_goal( + goal: traits::CanonicalChalkEnvironmentAndGoal<'tcx> + ) -> Result< + &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, ()>>, + NoSolution + > { + desc { "evaluating trait selection obligation `{}`", goal.value } + } - query type_implements_trait( - key: (DefId, Ty<'tcx>, SubstsRef<'tcx>, ty::ParamEnv<'tcx>, ) - ) -> bool { - desc { "evaluating `type_implements_trait` `{:?}`", key } - } + query type_implements_trait( + key: (DefId, Ty<'tcx>, SubstsRef<'tcx>, ty::ParamEnv<'tcx>, ) + ) -> bool { + desc { "evaluating `type_implements_trait` `{:?}`", key } + } - /// Do not call this query directly: part of the `Eq` type-op - query type_op_ascribe_user_type( - goal: CanonicalTypeOpAscribeUserTypeGoal<'tcx> - ) -> Result< - &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, ()>>, - NoSolution, - > { - desc { "evaluating `type_op_ascribe_user_type` `{:?}`", goal } - } + /// Do not call this query directly: part of the `Eq` type-op + query type_op_ascribe_user_type( + goal: CanonicalTypeOpAscribeUserTypeGoal<'tcx> + ) -> Result< + &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, ()>>, + NoSolution, + > { + desc { "evaluating `type_op_ascribe_user_type` `{:?}`", goal } + } - /// Do not call this query directly: part of the `Eq` type-op - query type_op_eq( - goal: CanonicalTypeOpEqGoal<'tcx> - ) -> Result< - &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, ()>>, - NoSolution, - > { - desc { "evaluating `type_op_eq` `{:?}`", goal } - } + /// Do not call this query directly: part of the `Eq` type-op + query type_op_eq( + goal: CanonicalTypeOpEqGoal<'tcx> + ) -> Result< + &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, ()>>, + NoSolution, + > { + desc { "evaluating `type_op_eq` `{:?}`", goal } + } - /// Do not call this query directly: part of the `Subtype` type-op - query type_op_subtype( - goal: CanonicalTypeOpSubtypeGoal<'tcx> - ) -> Result< - &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, ()>>, - NoSolution, - > { - desc { "evaluating `type_op_subtype` `{:?}`", goal } - } + /// Do not call this query directly: part of the `Subtype` type-op + query type_op_subtype( + goal: CanonicalTypeOpSubtypeGoal<'tcx> + ) -> Result< + &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, ()>>, + NoSolution, + > { + desc { "evaluating `type_op_subtype` `{:?}`", goal } + } - /// Do not call this query directly: part of the `ProvePredicate` type-op - query type_op_prove_predicate( - goal: CanonicalTypeOpProvePredicateGoal<'tcx> - ) -> Result< - &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, ()>>, - NoSolution, - > { - desc { "evaluating `type_op_prove_predicate` `{:?}`", goal } - } + /// Do not call this query directly: part of the `ProvePredicate` type-op + query type_op_prove_predicate( + goal: CanonicalTypeOpProvePredicateGoal<'tcx> + ) -> Result< + &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, ()>>, + NoSolution, + > { + desc { "evaluating `type_op_prove_predicate` `{:?}`", goal } + } - /// Do not call this query directly: part of the `Normalize` type-op - query type_op_normalize_ty( - goal: CanonicalTypeOpNormalizeGoal<'tcx, Ty<'tcx>> - ) -> Result< - &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, Ty<'tcx>>>, - NoSolution, - > { - desc { "normalizing `{:?}`", goal } - } + /// Do not call this query directly: part of the `Normalize` type-op + query type_op_normalize_ty( + goal: CanonicalTypeOpNormalizeGoal<'tcx, Ty<'tcx>> + ) -> Result< + &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, Ty<'tcx>>>, + NoSolution, + > { + desc { "normalizing `{:?}`", goal } + } - /// Do not call this query directly: part of the `Normalize` type-op - query type_op_normalize_predicate( - goal: CanonicalTypeOpNormalizeGoal<'tcx, ty::Predicate<'tcx>> - ) -> Result< - &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, ty::Predicate<'tcx>>>, - NoSolution, - > { - desc { "normalizing `{:?}`", goal } - } + /// Do not call this query directly: part of the `Normalize` type-op + query type_op_normalize_predicate( + goal: CanonicalTypeOpNormalizeGoal<'tcx, ty::Predicate<'tcx>> + ) -> Result< + &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, ty::Predicate<'tcx>>>, + NoSolution, + > { + desc { "normalizing `{:?}`", goal } + } - /// Do not call this query directly: part of the `Normalize` type-op - query type_op_normalize_poly_fn_sig( - goal: CanonicalTypeOpNormalizeGoal<'tcx, ty::PolyFnSig<'tcx>> - ) -> Result< - &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, ty::PolyFnSig<'tcx>>>, - NoSolution, - > { - desc { "normalizing `{:?}`", goal } - } + /// Do not call this query directly: part of the `Normalize` type-op + query type_op_normalize_poly_fn_sig( + goal: CanonicalTypeOpNormalizeGoal<'tcx, ty::PolyFnSig<'tcx>> + ) -> Result< + &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, ty::PolyFnSig<'tcx>>>, + NoSolution, + > { + desc { "normalizing `{:?}`", goal } + } - /// Do not call this query directly: part of the `Normalize` type-op - query type_op_normalize_fn_sig( - goal: CanonicalTypeOpNormalizeGoal<'tcx, ty::FnSig<'tcx>> - ) -> Result< - &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, ty::FnSig<'tcx>>>, - NoSolution, - > { - desc { "normalizing `{:?}`", goal } - } + /// Do not call this query directly: part of the `Normalize` type-op + query type_op_normalize_fn_sig( + goal: CanonicalTypeOpNormalizeGoal<'tcx, ty::FnSig<'tcx>> + ) -> Result< + &'tcx Canonical<'tcx, canonical::QueryResponse<'tcx, ty::FnSig<'tcx>>>, + NoSolution, + > { + desc { "normalizing `{:?}`", goal } + } - query subst_and_check_impossible_predicates(key: (DefId, SubstsRef<'tcx>)) -> bool { - desc { |tcx| - "impossible substituted predicates:`{}`", - tcx.def_path_str(key.0) - } + query subst_and_check_impossible_predicates(key: (DefId, SubstsRef<'tcx>)) -> bool { + desc { |tcx| + "impossible substituted predicates:`{}`", + tcx.def_path_str(key.0) } + } - query method_autoderef_steps( - goal: CanonicalTyGoal<'tcx> - ) -> MethodAutoderefStepsResult<'tcx> { - desc { "computing autoderef types for `{:?}`", goal } - } + query method_autoderef_steps( + goal: CanonicalTyGoal<'tcx> + ) -> MethodAutoderefStepsResult<'tcx> { + desc { "computing autoderef types for `{:?}`", goal } + } - query supported_target_features(_: CrateNum) -> FxHashMap> { - storage(ArenaCacheSelector<'tcx>) - eval_always - desc { "looking up supported target features" } - } + query supported_target_features(_: CrateNum) -> FxHashMap> { + storage(ArenaCacheSelector<'tcx>) + eval_always + desc { "looking up supported target features" } + } - /// Get an estimate of the size of an InstanceDef based on its MIR for CGU partitioning. - query instance_def_size_estimate(def: ty::InstanceDef<'tcx>) - -> usize { - desc { |tcx| "estimating size for `{}`", tcx.def_path_str(def.def_id()) } - } + /// Get an estimate of the size of an InstanceDef based on its MIR for CGU partitioning. + query instance_def_size_estimate(def: ty::InstanceDef<'tcx>) + -> usize { + desc { |tcx| "estimating size for `{}`", tcx.def_path_str(def.def_id()) } + } - query features_query(_: CrateNum) -> &'tcx rustc_feature::Features { - eval_always - desc { "looking up enabled feature gates" } - } + query features_query(_: CrateNum) -> &'tcx rustc_feature::Features { + eval_always + desc { "looking up enabled feature gates" } + } - /// Attempt to resolve the given `DefId` to an `Instance`, for the - /// given generics args (`SubstsRef`), returning one of: - /// * `Ok(Some(instance))` on success - /// * `Ok(None)` when the `SubstsRef` are still too generic, - /// and therefore don't allow finding the final `Instance` - /// * `Err(ErrorReported)` when the `Instance` resolution process - /// couldn't complete due to errors elsewhere - this is distinct - /// from `Ok(None)` to avoid misleading diagnostics when an error - /// has already been/will be emitted, for the original cause - query resolve_instance( - key: ty::ParamEnvAnd<'tcx, (DefId, SubstsRef<'tcx>)> - ) -> Result>, ErrorReported> { - desc { "resolving instance `{}`", ty::Instance::new(key.value.0, key.value.1) } - } + /// Attempt to resolve the given `DefId` to an `Instance`, for the + /// given generics args (`SubstsRef`), returning one of: + /// * `Ok(Some(instance))` on success + /// * `Ok(None)` when the `SubstsRef` are still too generic, + /// and therefore don't allow finding the final `Instance` + /// * `Err(ErrorReported)` when the `Instance` resolution process + /// couldn't complete due to errors elsewhere - this is distinct + /// from `Ok(None)` to avoid misleading diagnostics when an error + /// has already been/will be emitted, for the original cause + query resolve_instance( + key: ty::ParamEnvAnd<'tcx, (DefId, SubstsRef<'tcx>)> + ) -> Result>, ErrorReported> { + desc { "resolving instance `{}`", ty::Instance::new(key.value.0, key.value.1) } + } - query resolve_instance_of_const_arg( - key: ty::ParamEnvAnd<'tcx, (LocalDefId, DefId, SubstsRef<'tcx>)> - ) -> Result>, ErrorReported> { - desc { - "resolving instance of the const argument `{}`", - ty::Instance::new(key.value.0.to_def_id(), key.value.2), - } + query resolve_instance_of_const_arg( + key: ty::ParamEnvAnd<'tcx, (LocalDefId, DefId, SubstsRef<'tcx>)> + ) -> Result>, ErrorReported> { + desc { + "resolving instance of the const argument `{}`", + ty::Instance::new(key.value.0.to_def_id(), key.value.2), } + } - query normalize_opaque_types(key: &'tcx ty::List>) -> &'tcx ty::List> { - desc { "normalizing opaque types in {:?}", key } - } + query normalize_opaque_types(key: &'tcx ty::List>) -> &'tcx ty::List> { + desc { "normalizing opaque types in {:?}", key } + } } -- 2.44.0