use crate::dep_graph::{self, DepConstructor, DepNode}; use crate::hir::def_id::{CrateNum, DefId, DefIndex}; use crate::hir::def::{Def, Export}; use crate::hir::{self, TraitCandidate, ItemLocalId, CodegenFnAttrs}; use crate::infer::canonical::{self, Canonical}; use crate::lint; use crate::middle::borrowck::BorrowCheckResult; use crate::middle::cstore::{ExternCrate, LinkagePreference, NativeLibrary, ForeignModule}; use crate::middle::cstore::{NativeLibraryKind, DepKind, CrateSource}; use crate::middle::privacy::AccessLevels; use crate::middle::reachable::ReachableSet; use crate::middle::region; use crate::middle::resolve_lifetime::{ResolveLifetimes, Region, ObjectLifetimeDefault}; use crate::middle::stability::{self, DeprecationEntry}; use crate::middle::lib_features::LibFeatures; use crate::middle::lang_items::{LanguageItems, LangItem}; use crate::middle::exported_symbols::{SymbolExportLevel, ExportedSymbol}; use crate::mir::interpret::{ConstEvalRawResult, ConstEvalResult}; use crate::mir::mono::CodegenUnit; use crate::mir; use crate::mir::interpret::GlobalId; use crate::session::{CompileResult, CrateDisambiguator}; use crate::session::config::{EntryFnType, OutputFilenames, OptLevel}; use crate::traits::{self, Vtable}; use crate::traits::query::{ CanonicalPredicateGoal, CanonicalProjectionGoal, CanonicalTyGoal, CanonicalTypeOpAscribeUserTypeGoal, CanonicalTypeOpEqGoal, CanonicalTypeOpSubtypeGoal, CanonicalTypeOpProvePredicateGoal, CanonicalTypeOpNormalizeGoal, NoSolution, }; use crate::traits::query::method_autoderef::MethodAutoderefStepsResult; use crate::traits::query::dropck_outlives::{DtorckConstraint, DropckOutlivesResult}; use crate::traits::query::normalize::NormalizationResult; use crate::traits::query::outlives_bounds::OutlivesBound; use crate::traits::specialization_graph; use crate::traits::Clauses; use crate::ty::{self, CrateInherentImpls, ParamEnvAnd, Ty, TyCtxt, AdtSizedConstraint}; use crate::ty::steal::Steal; use crate::ty::subst::Substs; use crate::ty::util::NeedsDrop; use crate::util::nodemap::{DefIdSet, DefIdMap, ItemLocalSet}; use crate::util::common::{ErrorReported}; use crate::util::profiling::ProfileCategory::*; use crate::session::Session; use rustc_data_structures::svh::Svh; use rustc_data_structures::bit_set::BitSet; use rustc_data_structures::indexed_vec::IndexVec; use rustc_data_structures::fx::{FxHashMap, FxHashSet}; use rustc_data_structures::stable_hasher::StableVec; use rustc_data_structures::sync::Lrc; use rustc_data_structures::fingerprint::Fingerprint; use rustc_target::spec::PanicStrategy; use std::borrow::Cow; use std::ops::Deref; use std::sync::Arc; use std::intrinsics::type_name; use syntax_pos::{Span, DUMMY_SP}; use syntax_pos::symbol::InternedString; use syntax::attr; use syntax::ast; use syntax::feature_gate; use syntax::symbol::Symbol; #[macro_use] mod plumbing; use self::plumbing::*; pub use self::plumbing::{force_from_dep_node, CycleError}; mod job; pub use self::job::{QueryJob, QueryInfo}; #[cfg(parallel_compiler)] pub use self::job::handle_deadlock; mod keys; use self::keys::Key; mod values; use self::values::Value; mod config; pub use self::config::QueryConfig; use self::config::{QueryAccessors, QueryDescription}; mod on_disk_cache; pub use self::on_disk_cache::OnDiskCache; // Each of these quries corresponds to a function pointer field in the // `Providers` struct for requesting a value of that type, and a method // on `tcx: TyCtxt` (and `tcx.at(span)`) for doing that request in a way // which memoizes and does dep-graph tracking, wrapping around the actual // `Providers` that the driver creates (using several `rustc_*` crates). // // The result type of each query must implement `Clone`, and additionally // `ty::query::values::Value`, which produces an appropriate placeholder // (error) value if the query resulted in a query cycle. // Queries marked with `fatal_cycle` do not need the latter implementation, // as they will raise an fatal error on query cycles instead. define_queries! { <'tcx> Other { /// Records the type of every item. [] fn type_of: TypeOfItem(DefId) -> Ty<'tcx>, /// Maps from the `DefId` of an item (trait/struct/enum/fn) to its /// associated generics. [] fn generics_of: GenericsOfItem(DefId) -> &'tcx ty::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.) [] fn predicates_of: PredicatesOfItem(DefId) -> Lrc>, /// 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. [] fn predicates_defined_on: PredicatesDefinedOnItem(DefId) -> Lrc>, /// Returns the predicates written explicit by the user. [] fn explicit_predicates_of: ExplicitPredicatesOfItem(DefId) -> Lrc>, /// Returns the inferred outlives predicates (e.g., for `struct /// Foo<'a, T> { x: &'a T }`, this would return `T: 'a`). [] fn inferred_outlives_of: InferredOutlivesOf(DefId) -> Lrc>>, /// 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). [] fn super_predicates_of: SuperPredicatesOfItem(DefId) -> Lrc>, /// To avoid cycles within the predicates of a single item we compute /// per-type-parameter predicates for resolving `T::AssocTy`. [] fn type_param_predicates: type_param_predicates((DefId, DefId)) -> Lrc>, [] fn trait_def: TraitDefOfItem(DefId) -> &'tcx ty::TraitDef, [] fn adt_def: AdtDefOfItem(DefId) -> &'tcx ty::AdtDef, [] fn adt_destructor: AdtDestructor(DefId) -> Option, // 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. [cycle_delay_bug] fn adt_sized_constraint: SizedConstraint( DefId ) -> AdtSizedConstraint<'tcx>, [] fn adt_dtorck_constraint: DtorckConstraint( DefId ) -> Result, NoSolution>, /// 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. [] fn is_const_fn_raw: IsConstFn(DefId) -> bool, /// 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). [] fn is_promotable_const_fn: IsPromotableConstFn(DefId) -> bool, /// True if this is a foreign item (i.e., linked via `extern { ... }`). [] fn is_foreign_item: IsForeignItem(DefId) -> bool, /// Get a map with the variance of every item; use `item_variance` /// instead. [] fn crate_variances: crate_variances(CrateNum) -> Lrc, /// Maps from def-id of a type or region parameter to its /// (inferred) variance. [] fn variances_of: ItemVariances(DefId) -> Lrc>, }, TypeChecking { /// Maps from def-id of a type to its (inferred) outlives. [] fn inferred_outlives_crate: InferredOutlivesCrate(CrateNum) -> Lrc>, }, Other { /// Maps from an impl/trait def-id to a list of the def-ids of its items [] fn associated_item_def_ids: AssociatedItemDefIds(DefId) -> Lrc>, /// Maps from a trait item to the trait item "descriptor" [] fn associated_item: AssociatedItems(DefId) -> ty::AssociatedItem, [] fn impl_trait_ref: ImplTraitRef(DefId) -> Option>, [] fn impl_polarity: ImplPolarity(DefId) -> hir::ImplPolarity, [] fn issue33140_self_ty: Issue33140SelfTy(DefId) -> Option>, }, TypeChecking { /// 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. [] fn inherent_impls: InherentImpls(DefId) -> Lrc>, }, Codegen { /// 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. [] fn mir_keys: mir_keys(CrateNum) -> Lrc, /// Maps DefId's that have an associated Mir to the result /// of the MIR qualify_consts pass. The actual meaning of /// the value isn't known except to the pass itself. [] fn mir_const_qualif: MirConstQualif(DefId) -> (u8, Lrc>), /// Fetch the MIR for a given `DefId` right after it's built - this includes /// unreachable code. [] fn mir_built: MirBuilt(DefId) -> &'tcx Steal>, /// Fetch the MIR for a given `DefId` up till the point where it is /// ready for const evaluation. /// /// See the README for the `mir` module for details. [no_hash] fn mir_const: MirConst(DefId) -> &'tcx Steal>, [no_hash] fn mir_validated: MirValidated(DefId) -> &'tcx Steal>, /// 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. [] fn optimized_mir: MirOptimized(DefId) -> &'tcx mir::Mir<'tcx>, }, TypeChecking { /// The result of unsafety-checking this `DefId`. [] fn unsafety_check_result: UnsafetyCheckResult(DefId) -> mir::UnsafetyCheckResult, /// HACK: when evaluated, this reports a "unsafe derive on repr(packed)" error [] fn unsafe_derive_on_repr_packed: UnsafeDeriveOnReprPacked(DefId) -> (), /// The signature of functions and closures. [] fn fn_sig: FnSignature(DefId) -> ty::PolyFnSig<'tcx>, }, Other { /// Checks the attributes in the module [] fn check_mod_attrs: CheckModAttrs(DefId) -> (), [] fn check_mod_unstable_api_usage: CheckModUnstableApiUsage(DefId) -> (), /// Checks the loops in the module [] fn check_mod_loops: CheckModLoops(DefId) -> (), [] fn check_mod_item_types: CheckModItemTypes(DefId) -> (), [] fn check_mod_privacy: CheckModPrivacy(DefId) -> (), [] fn check_mod_intrinsics: CheckModIntrinsics(DefId) -> (), [] fn check_mod_liveness: CheckModLiveness(DefId) -> (), [] fn check_mod_impl_wf: CheckModImplWf(DefId) -> (), [] fn collect_mod_item_types: CollectModItemTypes(DefId) -> (), /// Caches CoerceUnsized kinds for impls on custom types. [] fn coerce_unsized_info: CoerceUnsizedInfo(DefId) -> ty::adjustment::CoerceUnsizedInfo, }, TypeChecking { [] fn typeck_item_bodies: typeck_item_bodies_dep_node(CrateNum) -> CompileResult, [] fn typeck_tables_of: TypeckTables(DefId) -> &'tcx ty::TypeckTables<'tcx>, }, Other { [] fn used_trait_imports: UsedTraitImports(DefId) -> Lrc, }, TypeChecking { [] fn has_typeck_tables: HasTypeckTables(DefId) -> bool, [] fn coherent_trait: CoherenceCheckTrait(DefId) -> (), }, BorrowChecking { [] fn borrowck: BorrowCheck(DefId) -> Lrc, /// Borrow checks the function body. If this is a closure, returns /// additional requirements that the closure's creator must verify. [] fn mir_borrowck: MirBorrowCheck(DefId) -> mir::BorrowCheckResult<'tcx>, }, TypeChecking { /// 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`.) [] fn crate_inherent_impls: crate_inherent_impls_dep_node(CrateNum) -> Lrc, /// 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`.) [] fn crate_inherent_impls_overlap_check: inherent_impls_overlap_check_dep_node(CrateNum) -> (), }, Other { /// Evaluate a constant without running sanity checks /// /// **Do not use this** outside const eval. Const eval uses this to break query cycles /// during validation. Please add a comment to every use site explaining why using /// `const_eval` isn't sufficient [] fn const_eval_raw: const_eval_raw_dep_node(ty::ParamEnvAnd<'tcx, GlobalId<'tcx>>) -> ConstEvalRawResult<'tcx>, /// Results of evaluating const items or constants embedded in /// other items (such as enum variant explicit discriminants). [] fn const_eval: const_eval_dep_node(ty::ParamEnvAnd<'tcx, GlobalId<'tcx>>) -> ConstEvalResult<'tcx>, }, TypeChecking { [] fn check_match: CheckMatch(DefId) -> Result<(), ErrorReported>, /// Performs the privacy check and computes "access levels". [] fn privacy_access_levels: PrivacyAccessLevels(CrateNum) -> Lrc, }, Other { [] fn reachable_set: reachability_dep_node(CrateNum) -> ReachableSet, /// 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. [] fn region_scope_tree: RegionScopeTree(DefId) -> Lrc, [] fn mir_shims: mir_shim_dep_node(ty::InstanceDef<'tcx>) -> &'tcx mir::Mir<'tcx>, [] fn def_symbol_name: SymbolName(DefId) -> ty::SymbolName, [] fn symbol_name: symbol_name_dep_node(ty::Instance<'tcx>) -> ty::SymbolName, [] fn describe_def: DescribeDef(DefId) -> Option, [] fn def_span: DefSpan(DefId) -> Span, [] fn lookup_stability: LookupStability(DefId) -> Option<&'tcx attr::Stability>, [] fn lookup_deprecation_entry: LookupDeprecationEntry(DefId) -> Option, [] fn item_attrs: ItemAttrs(DefId) -> Lrc<[ast::Attribute]>, }, Codegen { [] fn codegen_fn_attrs: codegen_fn_attrs(DefId) -> CodegenFnAttrs, }, Other { [] fn fn_arg_names: FnArgNames(DefId) -> Vec, /// Gets the rendered value of the specified constant or associated constant. /// Used by rustdoc. [] fn rendered_const: RenderedConst(DefId) -> String, [] fn impl_parent: ImplParent(DefId) -> Option, }, TypeChecking { [] fn trait_of_item: TraitOfItem(DefId) -> Option, [] fn const_is_rvalue_promotable_to_static: ConstIsRvaluePromotableToStatic(DefId) -> bool, [] fn rvalue_promotable_map: RvaluePromotableMap(DefId) -> Lrc, }, Codegen { [] fn is_mir_available: IsMirAvailable(DefId) -> bool, }, Other { [] fn vtable_methods: vtable_methods_node(ty::PolyTraitRef<'tcx>) -> Lrc)>>>, }, Codegen { [] fn codegen_fulfill_obligation: fulfill_obligation_dep_node( (ty::ParamEnv<'tcx>, ty::PolyTraitRef<'tcx>)) -> Vtable<'tcx, ()>, }, TypeChecking { [] fn trait_impls_of: TraitImpls(DefId) -> Lrc, [] fn specialization_graph_of: SpecializationGraph(DefId) -> Lrc, [] fn is_object_safe: ObjectSafety(DefId) -> bool, /// Gets the ParameterEnvironment for a given item; this environment /// will be in "user-facing" mode, meaning that it is suitabe 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. [] fn param_env: ParamEnv(DefId) -> ty::ParamEnv<'tcx>, /// 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. [] fn is_copy_raw: is_copy_dep_node(ty::ParamEnvAnd<'tcx, Ty<'tcx>>) -> bool, [] fn is_sized_raw: is_sized_dep_node(ty::ParamEnvAnd<'tcx, Ty<'tcx>>) -> bool, [] fn is_freeze_raw: is_freeze_dep_node(ty::ParamEnvAnd<'tcx, Ty<'tcx>>) -> bool, // The cycle error here should be reported as an error by `check_representable`. // We consider the type as not needing drop in the meanwhile to avoid // further errors (done in impl Value for NeedsDrop). // Use `cycle_delay_bug` to delay the cycle error here to be emitted later // in case we accidentally otherwise don't emit an error. [cycle_delay_bug] fn needs_drop_raw: needs_drop_dep_node( ty::ParamEnvAnd<'tcx, Ty<'tcx>> ) -> NeedsDrop, [] fn layout_raw: layout_dep_node(ty::ParamEnvAnd<'tcx, Ty<'tcx>>) -> Result<&'tcx ty::layout::LayoutDetails, ty::layout::LayoutError<'tcx>>, }, Other { [] fn dylib_dependency_formats: DylibDepFormats(CrateNum) -> Lrc>, }, Codegen { [fatal_cycle] fn is_panic_runtime: IsPanicRuntime(CrateNum) -> bool, [fatal_cycle] fn is_compiler_builtins: IsCompilerBuiltins(CrateNum) -> bool, [fatal_cycle] fn has_global_allocator: HasGlobalAllocator(CrateNum) -> bool, [fatal_cycle] fn has_panic_handler: HasPanicHandler(CrateNum) -> bool, [fatal_cycle] fn is_sanitizer_runtime: IsSanitizerRuntime(CrateNum) -> bool, [fatal_cycle] fn is_profiler_runtime: IsProfilerRuntime(CrateNum) -> bool, [fatal_cycle] fn panic_strategy: GetPanicStrategy(CrateNum) -> PanicStrategy, [fatal_cycle] fn is_no_builtins: IsNoBuiltins(CrateNum) -> bool, [] fn extern_crate: ExternCrate(DefId) -> Lrc>, }, TypeChecking { [] fn specializes: specializes_node((DefId, DefId)) -> bool, [] fn in_scope_traits_map: InScopeTraits(DefIndex) -> Option>>>>, }, Other { [] fn module_exports: ModuleExports(DefId) -> Option>>, [] fn lint_levels: lint_levels_node(CrateNum) -> Lrc, }, TypeChecking { [] fn impl_defaultness: ImplDefaultness(DefId) -> hir::Defaultness, [] fn check_item_well_formed: CheckItemWellFormed(DefId) -> (), [] fn check_trait_item_well_formed: CheckTraitItemWellFormed(DefId) -> (), [] fn check_impl_item_well_formed: CheckImplItemWellFormed(DefId) -> (), }, Linking { // The DefIds 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. [] fn reachable_non_generics: ReachableNonGenerics(CrateNum) -> Lrc>, [] fn is_reachable_non_generic: IsReachableNonGeneric(DefId) -> bool, [] fn is_unreachable_local_definition: IsUnreachableLocalDefinition(DefId) -> bool, }, Codegen { [] fn upstream_monomorphizations: UpstreamMonomorphizations(CrateNum) -> Lrc, CrateNum>>>>, [] fn upstream_monomorphizations_for: UpstreamMonomorphizationsFor(DefId) -> Option, CrateNum>>>, }, Other { [] fn native_libraries: NativeLibraries(CrateNum) -> Lrc>, [] fn foreign_modules: ForeignModules(CrateNum) -> Lrc>, /// 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). [] fn entry_fn: EntryFn(CrateNum) -> Option<(DefId, EntryFnType)>, [] fn plugin_registrar_fn: PluginRegistrarFn(CrateNum) -> Option, [] fn proc_macro_decls_static: ProcMacroDeclsStatic(CrateNum) -> Option, [] fn crate_disambiguator: CrateDisambiguator(CrateNum) -> CrateDisambiguator, [] fn crate_hash: CrateHash(CrateNum) -> Svh, [] fn original_crate_name: OriginalCrateName(CrateNum) -> Symbol, [] fn extra_filename: ExtraFileName(CrateNum) -> String, }, TypeChecking { [] fn implementations_of_trait: implementations_of_trait_node((CrateNum, DefId)) -> Lrc>, [] fn all_trait_implementations: AllTraitImplementations(CrateNum) -> Lrc>, }, Other { [] fn dllimport_foreign_items: DllimportForeignItems(CrateNum) -> Lrc>, [] fn is_dllimport_foreign_item: IsDllimportForeignItem(DefId) -> bool, [] fn is_statically_included_foreign_item: IsStaticallyIncludedForeignItem(DefId) -> bool, [] fn native_library_kind: NativeLibraryKind(DefId) -> Option, }, Linking { [] fn link_args: link_args_node(CrateNum) -> Lrc>, }, BorrowChecking { // Lifetime resolution. See `middle::resolve_lifetimes`. [] fn resolve_lifetimes: ResolveLifetimes(CrateNum) -> Lrc, [] fn named_region_map: NamedRegion(DefIndex) -> Option>>, [] fn is_late_bound_map: IsLateBound(DefIndex) -> Option>>, [] fn object_lifetime_defaults_map: ObjectLifetimeDefaults(DefIndex) -> Option>>>>, }, TypeChecking { [] fn visibility: Visibility(DefId) -> ty::Visibility, }, Other { [] fn dep_kind: DepKind(CrateNum) -> DepKind, [] fn crate_name: CrateName(CrateNum) -> Symbol, [] fn item_children: ItemChildren(DefId) -> Lrc>, [] fn extern_mod_stmt_cnum: ExternModStmtCnum(DefId) -> Option, [] fn get_lib_features: get_lib_features_node(CrateNum) -> Lrc, [] fn defined_lib_features: DefinedLibFeatures(CrateNum) -> Lrc)>>, [] fn get_lang_items: get_lang_items_node(CrateNum) -> Lrc, [] fn defined_lang_items: DefinedLangItems(CrateNum) -> Lrc>, [] fn missing_lang_items: MissingLangItems(CrateNum) -> Lrc>, [] fn visible_parent_map: visible_parent_map_node(CrateNum) -> Lrc>, [] fn missing_extern_crate_item: MissingExternCrateItem(CrateNum) -> bool, [] fn used_crate_source: UsedCrateSource(CrateNum) -> Lrc, [] fn postorder_cnums: postorder_cnums_node(CrateNum) -> Lrc>, [] fn freevars: Freevars(DefId) -> Option>>, [] fn maybe_unused_trait_import: MaybeUnusedTraitImport(DefId) -> bool, [] fn maybe_unused_extern_crates: maybe_unused_extern_crates_node(CrateNum) -> Lrc>, [] fn names_imported_by_glob_use: NamesImportedByGlobUse(DefId) -> Lrc>, [] fn stability_index: stability_index_node(CrateNum) -> Lrc>, [] fn all_crate_nums: all_crate_nums_node(CrateNum) -> Lrc>, /// A vector of every trait accessible in the whole crate /// (i.e., including those from subcrates). This is used only for /// error reporting. [] fn all_traits: all_traits_node(CrateNum) -> Lrc>, }, Linking { [] fn exported_symbols: ExportedSymbols(CrateNum) -> Arc, SymbolExportLevel)>>, }, Codegen { [] fn collect_and_partition_mono_items: collect_and_partition_mono_items_node(CrateNum) -> (Arc, Arc>>>), [] fn is_codegened_item: IsCodegenedItem(DefId) -> bool, [] fn codegen_unit: CodegenUnit(InternedString) -> Arc>, [] fn backend_optimization_level: BackendOptimizationLevel(CrateNum) -> OptLevel, }, Other { [] fn output_filenames: output_filenames_node(CrateNum) -> Arc, }, TypeChecking { // 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. [] fn erase_regions_ty: erase_regions_ty(Ty<'tcx>) -> Ty<'tcx>, /// Do not call this query directly: invoke `normalize` instead. [] fn normalize_projection_ty: NormalizeProjectionTy( CanonicalProjectionGoal<'tcx> ) -> Result< Lrc>>>, NoSolution, >, /// Do not call this query directly: invoke `normalize_erasing_regions` instead. [] fn normalize_ty_after_erasing_regions: NormalizeTyAfterErasingRegions( ParamEnvAnd<'tcx, Ty<'tcx>> ) -> Ty<'tcx>, [] fn implied_outlives_bounds: ImpliedOutlivesBounds( CanonicalTyGoal<'tcx> ) -> Result< Lrc>>>>, NoSolution, >, /// Do not call this query directly: invoke `infcx.at().dropck_outlives()` instead. [] fn dropck_outlives: DropckOutlives( CanonicalTyGoal<'tcx> ) -> Result< Lrc>>>, NoSolution, >, /// Do not call this query directly: invoke `infcx.predicate_may_hold()` or /// `infcx.predicate_must_hold()` instead. [] fn evaluate_obligation: EvaluateObligation( CanonicalPredicateGoal<'tcx> ) -> Result, [] fn evaluate_goal: EvaluateGoal( traits::ChalkCanonicalGoal<'tcx> ) -> Result< Lrc>>, NoSolution >, /// Do not call this query directly: part of the `Eq` type-op [] fn type_op_ascribe_user_type: TypeOpAscribeUserType( CanonicalTypeOpAscribeUserTypeGoal<'tcx> ) -> Result< Lrc>>, NoSolution, >, /// Do not call this query directly: part of the `Eq` type-op [] fn type_op_eq: TypeOpEq( CanonicalTypeOpEqGoal<'tcx> ) -> Result< Lrc>>, NoSolution, >, /// Do not call this query directly: part of the `Subtype` type-op [] fn type_op_subtype: TypeOpSubtype( CanonicalTypeOpSubtypeGoal<'tcx> ) -> Result< Lrc>>, NoSolution, >, /// Do not call this query directly: part of the `ProvePredicate` type-op [] fn type_op_prove_predicate: TypeOpProvePredicate( CanonicalTypeOpProvePredicateGoal<'tcx> ) -> Result< Lrc>>, NoSolution, >, /// Do not call this query directly: part of the `Normalize` type-op [] fn type_op_normalize_ty: TypeOpNormalizeTy( CanonicalTypeOpNormalizeGoal<'tcx, Ty<'tcx>> ) -> Result< Lrc>>>, NoSolution, >, /// Do not call this query directly: part of the `Normalize` type-op [] fn type_op_normalize_predicate: TypeOpNormalizePredicate( CanonicalTypeOpNormalizeGoal<'tcx, ty::Predicate<'tcx>> ) -> Result< Lrc>>>, NoSolution, >, /// Do not call this query directly: part of the `Normalize` type-op [] fn type_op_normalize_poly_fn_sig: TypeOpNormalizePolyFnSig( CanonicalTypeOpNormalizeGoal<'tcx, ty::PolyFnSig<'tcx>> ) -> Result< Lrc>>>, NoSolution, >, /// Do not call this query directly: part of the `Normalize` type-op [] fn type_op_normalize_fn_sig: TypeOpNormalizeFnSig( CanonicalTypeOpNormalizeGoal<'tcx, ty::FnSig<'tcx>> ) -> Result< Lrc>>>, NoSolution, >, [] fn substitute_normalize_and_test_predicates: substitute_normalize_and_test_predicates_node((DefId, &'tcx Substs<'tcx>)) -> bool, [] fn method_autoderef_steps: MethodAutoderefSteps( CanonicalTyGoal<'tcx> ) -> MethodAutoderefStepsResult<'tcx>, }, Other { [] fn target_features_whitelist: target_features_whitelist_node(CrateNum) -> Lrc>>, // Get an estimate of the size of an InstanceDef based on its MIR for CGU partitioning. [] fn instance_def_size_estimate: instance_def_size_estimate_dep_node(ty::InstanceDef<'tcx>) -> usize, [] fn features_query: features_node(CrateNum) -> Lrc, }, TypeChecking { [] fn program_clauses_for: ProgramClausesFor(DefId) -> Clauses<'tcx>, [] fn program_clauses_for_env: ProgramClausesForEnv( traits::Environment<'tcx> ) -> Clauses<'tcx>, // Get the chalk-style environment of the given item. [] fn environment: Environment(DefId) -> traits::Environment<'tcx>, }, Linking { [] fn wasm_import_module_map: WasmImportModuleMap(CrateNum) -> Lrc>, }, } ////////////////////////////////////////////////////////////////////// // These functions are little shims used to find the dep-node for a // given query when there is not a *direct* mapping: fn features_node<'tcx>(_: CrateNum) -> DepConstructor<'tcx> { DepConstructor::Features } fn codegen_fn_attrs<'tcx>(id: DefId) -> DepConstructor<'tcx> { DepConstructor::CodegenFnAttrs { 0: id } } fn erase_regions_ty<'tcx>(ty: Ty<'tcx>) -> DepConstructor<'tcx> { DepConstructor::EraseRegionsTy { ty } } fn type_param_predicates<'tcx>((item_id, param_id): (DefId, DefId)) -> DepConstructor<'tcx> { DepConstructor::TypeParamPredicates { item_id, param_id } } fn fulfill_obligation_dep_node<'tcx>((param_env, trait_ref): (ty::ParamEnv<'tcx>, ty::PolyTraitRef<'tcx>)) -> DepConstructor<'tcx> { DepConstructor::FulfillObligation { param_env, trait_ref } } fn crate_inherent_impls_dep_node<'tcx>(_: CrateNum) -> DepConstructor<'tcx> { DepConstructor::Coherence } fn inherent_impls_overlap_check_dep_node<'tcx>(_: CrateNum) -> DepConstructor<'tcx> { DepConstructor::CoherenceInherentImplOverlapCheck } fn reachability_dep_node<'tcx>(_: CrateNum) -> DepConstructor<'tcx> { DepConstructor::Reachability } fn mir_shim_dep_node<'tcx>(instance_def: ty::InstanceDef<'tcx>) -> DepConstructor<'tcx> { DepConstructor::MirShim { instance_def } } fn symbol_name_dep_node<'tcx>(instance: ty::Instance<'tcx>) -> DepConstructor<'tcx> { DepConstructor::InstanceSymbolName { instance } } fn typeck_item_bodies_dep_node<'tcx>(_: CrateNum) -> DepConstructor<'tcx> { DepConstructor::TypeckBodiesKrate } fn const_eval_dep_node<'tcx>(param_env: ty::ParamEnvAnd<'tcx, GlobalId<'tcx>>) -> DepConstructor<'tcx> { DepConstructor::ConstEval { param_env } } fn const_eval_raw_dep_node<'tcx>(param_env: ty::ParamEnvAnd<'tcx, GlobalId<'tcx>>) -> DepConstructor<'tcx> { DepConstructor::ConstEvalRaw { param_env } } fn mir_keys<'tcx>(_: CrateNum) -> DepConstructor<'tcx> { DepConstructor::MirKeys } fn crate_variances<'tcx>(_: CrateNum) -> DepConstructor<'tcx> { DepConstructor::CrateVariances } fn is_copy_dep_node<'tcx>(param_env: ty::ParamEnvAnd<'tcx, Ty<'tcx>>) -> DepConstructor<'tcx> { DepConstructor::IsCopy { param_env } } fn is_sized_dep_node<'tcx>(param_env: ty::ParamEnvAnd<'tcx, Ty<'tcx>>) -> DepConstructor<'tcx> { DepConstructor::IsSized { param_env } } fn is_freeze_dep_node<'tcx>(param_env: ty::ParamEnvAnd<'tcx, Ty<'tcx>>) -> DepConstructor<'tcx> { DepConstructor::IsFreeze { param_env } } fn needs_drop_dep_node<'tcx>(param_env: ty::ParamEnvAnd<'tcx, Ty<'tcx>>) -> DepConstructor<'tcx> { DepConstructor::NeedsDrop { param_env } } fn layout_dep_node<'tcx>(param_env: ty::ParamEnvAnd<'tcx, Ty<'tcx>>) -> DepConstructor<'tcx> { DepConstructor::Layout { param_env } } fn lint_levels_node<'tcx>(_: CrateNum) -> DepConstructor<'tcx> { DepConstructor::LintLevels } fn specializes_node<'tcx>((a, b): (DefId, DefId)) -> DepConstructor<'tcx> { DepConstructor::Specializes { impl1: a, impl2: b } } fn implementations_of_trait_node<'tcx>((krate, trait_id): (CrateNum, DefId)) -> DepConstructor<'tcx> { DepConstructor::ImplementationsOfTrait { krate, trait_id } } fn link_args_node<'tcx>(_: CrateNum) -> DepConstructor<'tcx> { DepConstructor::LinkArgs } fn get_lib_features_node<'tcx>(_: CrateNum) -> DepConstructor<'tcx> { DepConstructor::GetLibFeatures } fn get_lang_items_node<'tcx>(_: CrateNum) -> DepConstructor<'tcx> { DepConstructor::GetLangItems } fn visible_parent_map_node<'tcx>(_: CrateNum) -> DepConstructor<'tcx> { DepConstructor::VisibleParentMap } fn postorder_cnums_node<'tcx>(_: CrateNum) -> DepConstructor<'tcx> { DepConstructor::PostorderCnums } fn maybe_unused_extern_crates_node<'tcx>(_: CrateNum) -> DepConstructor<'tcx> { DepConstructor::MaybeUnusedExternCrates } fn stability_index_node<'tcx>(_: CrateNum) -> DepConstructor<'tcx> { DepConstructor::StabilityIndex } fn all_crate_nums_node<'tcx>(_: CrateNum) -> DepConstructor<'tcx> { DepConstructor::AllCrateNums } fn all_traits_node<'tcx>(_: CrateNum) -> DepConstructor<'tcx> { DepConstructor::AllTraits } fn collect_and_partition_mono_items_node<'tcx>(_: CrateNum) -> DepConstructor<'tcx> { DepConstructor::CollectAndPartitionMonoItems } fn output_filenames_node<'tcx>(_: CrateNum) -> DepConstructor<'tcx> { DepConstructor::OutputFilenames } fn vtable_methods_node<'tcx>(trait_ref: ty::PolyTraitRef<'tcx>) -> DepConstructor<'tcx> { DepConstructor::VtableMethods{ trait_ref } } fn substitute_normalize_and_test_predicates_node<'tcx>(key: (DefId, &'tcx Substs<'tcx>)) -> DepConstructor<'tcx> { DepConstructor::SubstituteNormalizeAndTestPredicates { key } } fn target_features_whitelist_node<'tcx>(_: CrateNum) -> DepConstructor<'tcx> { DepConstructor::TargetFeaturesWhitelist } fn instance_def_size_estimate_dep_node<'tcx>(instance_def: ty::InstanceDef<'tcx>) -> DepConstructor<'tcx> { DepConstructor::InstanceDefSizeEstimate { instance_def } }