| // Copyright 2014 The Rust Project Developers. See the COPYRIGHT |
| // file at the top-level directory of this distribution and at |
| // http://rust-lang.org/COPYRIGHT. |
| // |
| // Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or |
| // http://www.apache.org/licenses/LICENSE-2.0> or the MIT license |
| // <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your |
| // option. This file may not be copied, modified, or distributed |
| // except according to those terms. |
| |
| |
| //! This module defines the `DepNode` type which the compiler uses to represent |
| //! nodes in the dependency graph. A `DepNode` consists of a `DepKind` (which |
| //! specifies the kind of thing it represents, like a piece of HIR, MIR, etc) |
| //! and a `Fingerprint`, a 128 bit hash value the exact meaning of which |
| //! depends on the node's `DepKind`. Together, the kind and the fingerprint |
| //! fully identify a dependency node, even across multiple compilation sessions. |
| //! In other words, the value of the fingerprint does not depend on anything |
| //! that is specific to a given compilation session, like an unpredictable |
| //! interning key (e.g. NodeId, DefId, Symbol) or the numeric value of a |
| //! pointer. The concept behind this could be compared to how git commit hashes |
| //! uniquely identify a given commit and has a few advantages: |
| //! |
| //! * A `DepNode` can simply be serialized to disk and loaded in another session |
| //! without the need to do any "rebasing (like we have to do for Spans and |
| //! NodeIds) or "retracing" like we had to do for `DefId` in earlier |
| //! implementations of the dependency graph. |
| //! * A `Fingerprint` is just a bunch of bits, which allows `DepNode` to |
| //! implement `Copy`, `Sync`, `Send`, `Freeze`, etc. |
| //! * Since we just have a bit pattern, `DepNode` can be mapped from disk into |
| //! memory without any post-processing (e.g. "abomination-style" pointer |
| //! reconstruction). |
| //! * Because a `DepNode` is self-contained, we can instantiate `DepNodes` that |
| //! refer to things that do not exist anymore. In previous implementations |
| //! `DepNode` contained a `DefId`. A `DepNode` referring to something that |
| //! had been removed between the previous and the current compilation session |
| //! could not be instantiated because the current compilation session |
| //! contained no `DefId` for thing that had been removed. |
| //! |
| //! `DepNode` definition happens in the `define_dep_nodes!()` macro. This macro |
| //! defines the `DepKind` enum and a corresponding `DepConstructor` enum. The |
| //! `DepConstructor` enum links a `DepKind` to the parameters that are needed at |
| //! runtime in order to construct a valid `DepNode` fingerprint. |
| //! |
| //! Because the macro sees what parameters a given `DepKind` requires, it can |
| //! "infer" some properties for each kind of `DepNode`: |
| //! |
| //! * Whether a `DepNode` of a given kind has any parameters at all. Some |
| //! `DepNode`s, like `Krate`, represent global concepts with only one value. |
| //! * Whether it is possible, in principle, to reconstruct a query key from a |
| //! given `DepNode`. Many `DepKind`s only require a single `DefId` parameter, |
| //! in which case it is possible to map the node's fingerprint back to the |
| //! `DefId` it was computed from. In other cases, too much information gets |
| //! lost during fingerprint computation. |
| //! |
| //! The `DepConstructor` enum, together with `DepNode::new()` ensures that only |
| //! valid `DepNode` instances can be constructed. For example, the API does not |
| //! allow for constructing parameterless `DepNode`s with anything other |
| //! than a zeroed out fingerprint. More generally speaking, it relieves the |
| //! user of the `DepNode` API of having to know how to compute the expected |
| //! fingerprint for a given set of node parameters. |
| |
| use mir::interpret::GlobalId; |
| use hir::def_id::{CrateNum, DefId, DefIndex, CRATE_DEF_INDEX}; |
| use hir::map::DefPathHash; |
| use hir::{HirId, ItemLocalId}; |
| |
| use ich::{Fingerprint, StableHashingContext}; |
| use rustc_data_structures::stable_hasher::{StableHasher, HashStable}; |
| use std::fmt; |
| use std::hash::Hash; |
| use syntax_pos::symbol::InternedString; |
| use traits; |
| use traits::query::{ |
| CanonicalProjectionGoal, CanonicalTyGoal, CanonicalTypeOpAscribeUserTypeGoal, |
| CanonicalTypeOpEqGoal, CanonicalTypeOpSubtypeGoal, CanonicalPredicateGoal, |
| CanonicalTypeOpProvePredicateGoal, CanonicalTypeOpNormalizeGoal, |
| }; |
| use ty::{TyCtxt, FnSig, Instance, InstanceDef, |
| ParamEnv, ParamEnvAnd, Predicate, PolyFnSig, PolyTraitRef, Ty}; |
| use ty::subst::Substs; |
| |
| // erase!() just makes tokens go away. It's used to specify which macro argument |
| // is repeated (i.e. which sub-expression of the macro we are in) but don't need |
| // to actually use any of the arguments. |
| macro_rules! erase { |
| ($x:tt) => ({}) |
| } |
| |
| macro_rules! replace { |
| ($x:tt with $($y:tt)*) => ($($y)*) |
| } |
| |
| macro_rules! is_anon_attr { |
| (anon) => (true); |
| ($attr:ident) => (false); |
| } |
| |
| macro_rules! is_input_attr { |
| (input) => (true); |
| ($attr:ident) => (false); |
| } |
| |
| macro_rules! is_eval_always_attr { |
| (eval_always) => (true); |
| ($attr:ident) => (false); |
| } |
| |
| macro_rules! contains_anon_attr { |
| ($($attr:ident),*) => ({$(is_anon_attr!($attr) | )* false}); |
| } |
| |
| macro_rules! contains_input_attr { |
| ($($attr:ident),*) => ({$(is_input_attr!($attr) | )* false}); |
| } |
| |
| macro_rules! contains_eval_always_attr { |
| ($($attr:ident),*) => ({$(is_eval_always_attr!($attr) | )* false}); |
| } |
| |
| macro_rules! define_dep_nodes { |
| (<$tcx:tt> |
| $( |
| [$($attr:ident),* ] |
| $variant:ident $(( $tuple_arg_ty:ty $(,)* ))* |
| $({ $($struct_arg_name:ident : $struct_arg_ty:ty),* })* |
| ,)* |
| ) => ( |
| #[derive(Clone, Copy, Debug, PartialEq, Eq, PartialOrd, Ord, Hash, |
| RustcEncodable, RustcDecodable)] |
| pub enum DepKind { |
| $($variant),* |
| } |
| |
| impl DepKind { |
| #[allow(unreachable_code)] |
| #[inline] |
| pub fn can_reconstruct_query_key<$tcx>(&self) -> bool { |
| match *self { |
| $( |
| DepKind :: $variant => { |
| if contains_anon_attr!($($attr),*) { |
| return false; |
| } |
| |
| // tuple args |
| $({ |
| return <$tuple_arg_ty as DepNodeParams> |
| ::CAN_RECONSTRUCT_QUERY_KEY; |
| })* |
| |
| // struct args |
| $({ |
| |
| return <( $($struct_arg_ty,)* ) as DepNodeParams> |
| ::CAN_RECONSTRUCT_QUERY_KEY; |
| })* |
| |
| true |
| } |
| )* |
| } |
| } |
| |
| #[inline] |
| pub fn is_anon(&self) -> bool { |
| match *self { |
| $( |
| DepKind :: $variant => { contains_anon_attr!($($attr),*) } |
| )* |
| } |
| } |
| |
| #[inline] |
| pub fn is_input(&self) -> bool { |
| match *self { |
| $( |
| DepKind :: $variant => { contains_input_attr!($($attr),*) } |
| )* |
| } |
| } |
| |
| #[inline] |
| pub fn is_eval_always(&self) -> bool { |
| match *self { |
| $( |
| DepKind :: $variant => { contains_eval_always_attr!($($attr), *) } |
| )* |
| } |
| } |
| |
| #[allow(unreachable_code)] |
| #[inline] |
| pub fn has_params(&self) -> bool { |
| match *self { |
| $( |
| DepKind :: $variant => { |
| // tuple args |
| $({ |
| erase!($tuple_arg_ty); |
| return true; |
| })* |
| |
| // struct args |
| $({ |
| $(erase!($struct_arg_name);)* |
| return true; |
| })* |
| |
| false |
| } |
| )* |
| } |
| } |
| } |
| |
| pub enum DepConstructor<$tcx> { |
| $( |
| $variant $(( $tuple_arg_ty ))* |
| $({ $($struct_arg_name : $struct_arg_ty),* })* |
| ),* |
| } |
| |
| #[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash, |
| RustcEncodable, RustcDecodable)] |
| pub struct DepNode { |
| pub kind: DepKind, |
| pub hash: Fingerprint, |
| } |
| |
| impl DepNode { |
| #[allow(unreachable_code, non_snake_case)] |
| pub fn new<'a, 'gcx, 'tcx>(tcx: TyCtxt<'a, 'gcx, 'tcx>, |
| dep: DepConstructor<'gcx>) |
| -> DepNode |
| where 'gcx: 'a + 'tcx, |
| 'tcx: 'a |
| { |
| match dep { |
| $( |
| DepConstructor :: $variant $(( replace!(($tuple_arg_ty) with arg) ))* |
| $({ $($struct_arg_name),* })* |
| => |
| { |
| // tuple args |
| $({ |
| erase!($tuple_arg_ty); |
| let hash = DepNodeParams::to_fingerprint(&arg, tcx); |
| let dep_node = DepNode { |
| kind: DepKind::$variant, |
| hash |
| }; |
| |
| if cfg!(debug_assertions) && |
| !dep_node.kind.can_reconstruct_query_key() && |
| (tcx.sess.opts.debugging_opts.incremental_info || |
| tcx.sess.opts.debugging_opts.query_dep_graph) |
| { |
| tcx.dep_graph.register_dep_node_debug_str(dep_node, || { |
| arg.to_debug_str(tcx) |
| }); |
| } |
| |
| return dep_node; |
| })* |
| |
| // struct args |
| $({ |
| let tupled_args = ( $($struct_arg_name,)* ); |
| let hash = DepNodeParams::to_fingerprint(&tupled_args, |
| tcx); |
| let dep_node = DepNode { |
| kind: DepKind::$variant, |
| hash |
| }; |
| |
| if cfg!(debug_assertions) && |
| !dep_node.kind.can_reconstruct_query_key() && |
| (tcx.sess.opts.debugging_opts.incremental_info || |
| tcx.sess.opts.debugging_opts.query_dep_graph) |
| { |
| tcx.dep_graph.register_dep_node_debug_str(dep_node, || { |
| tupled_args.to_debug_str(tcx) |
| }); |
| } |
| |
| return dep_node; |
| })* |
| |
| DepNode { |
| kind: DepKind::$variant, |
| hash: Fingerprint::ZERO, |
| } |
| } |
| )* |
| } |
| } |
| |
| /// Construct a DepNode from the given DepKind and DefPathHash. This |
| /// method will assert that the given DepKind actually requires a |
| /// single DefId/DefPathHash parameter. |
| #[inline] |
| pub fn from_def_path_hash(kind: DepKind, |
| def_path_hash: DefPathHash) |
| -> DepNode { |
| assert!(kind.can_reconstruct_query_key() && kind.has_params()); |
| DepNode { |
| kind, |
| hash: def_path_hash.0, |
| } |
| } |
| |
| /// Create a new, parameterless DepNode. This method will assert |
| /// that the DepNode corresponding to the given DepKind actually |
| /// does not require any parameters. |
| #[inline] |
| pub fn new_no_params(kind: DepKind) -> DepNode { |
| assert!(!kind.has_params()); |
| DepNode { |
| kind, |
| hash: Fingerprint::ZERO, |
| } |
| } |
| |
| /// Extract the DefId corresponding to this DepNode. This will work |
| /// if two conditions are met: |
| /// |
| /// 1. The Fingerprint of the DepNode actually is a DefPathHash, and |
| /// 2. the item that the DefPath refers to exists in the current tcx. |
| /// |
| /// Condition (1) is determined by the DepKind variant of the |
| /// DepNode. Condition (2) might not be fulfilled if a DepNode |
| /// refers to something from the previous compilation session that |
| /// has been removed. |
| #[inline] |
| pub fn extract_def_id(&self, tcx: TyCtxt<'_, '_, '_>) -> Option<DefId> { |
| if self.kind.can_reconstruct_query_key() { |
| let def_path_hash = DefPathHash(self.hash); |
| tcx.def_path_hash_to_def_id.as_ref()? |
| .get(&def_path_hash).cloned() |
| } else { |
| None |
| } |
| } |
| |
| /// Used in testing |
| pub fn from_label_string(label: &str, |
| def_path_hash: DefPathHash) |
| -> Result<DepNode, ()> { |
| let kind = match label { |
| $( |
| stringify!($variant) => DepKind::$variant, |
| )* |
| _ => return Err(()), |
| }; |
| |
| if !kind.can_reconstruct_query_key() { |
| return Err(()); |
| } |
| |
| if kind.has_params() { |
| Ok(def_path_hash.to_dep_node(kind)) |
| } else { |
| Ok(DepNode::new_no_params(kind)) |
| } |
| } |
| |
| /// Used in testing |
| pub fn has_label_string(label: &str) -> bool { |
| match label { |
| $( |
| stringify!($variant) => true, |
| )* |
| _ => false, |
| } |
| } |
| } |
| |
| /// Contains variant => str representations for constructing |
| /// DepNode groups for tests. |
| #[allow(dead_code, non_upper_case_globals)] |
| pub mod label_strs { |
| $( |
| pub const $variant: &'static str = stringify!($variant); |
| )* |
| } |
| ); |
| } |
| |
| impl fmt::Debug for DepNode { |
| fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { |
| write!(f, "{:?}", self.kind)?; |
| |
| if !self.kind.has_params() && !self.kind.is_anon() { |
| return Ok(()); |
| } |
| |
| write!(f, "(")?; |
| |
| ::ty::tls::with_opt(|opt_tcx| { |
| if let Some(tcx) = opt_tcx { |
| if let Some(def_id) = self.extract_def_id(tcx) { |
| write!(f, "{}", tcx.def_path_debug_str(def_id))?; |
| } else if let Some(ref s) = tcx.dep_graph.dep_node_debug_str(*self) { |
| write!(f, "{}", s)?; |
| } else { |
| write!(f, "{}", self.hash)?; |
| } |
| } else { |
| write!(f, "{}", self.hash)?; |
| } |
| Ok(()) |
| })?; |
| |
| write!(f, ")") |
| } |
| } |
| |
| |
| impl DefPathHash { |
| #[inline] |
| pub fn to_dep_node(self, kind: DepKind) -> DepNode { |
| DepNode::from_def_path_hash(kind, self) |
| } |
| } |
| |
| impl DefId { |
| #[inline] |
| pub fn to_dep_node(self, tcx: TyCtxt<'_, '_, '_>, kind: DepKind) -> DepNode { |
| DepNode::from_def_path_hash(kind, tcx.def_path_hash(self)) |
| } |
| } |
| |
| impl DepKind { |
| #[inline] |
| pub fn fingerprint_needed_for_crate_hash(self) -> bool { |
| match self { |
| DepKind::HirBody | |
| DepKind::Krate => true, |
| _ => false, |
| } |
| } |
| } |
| |
| define_dep_nodes!( <'tcx> |
| // We use this for most things when incr. comp. is turned off. |
| [] Null, |
| |
| // Represents the `Krate` as a whole (the `hir::Krate` value) (as |
| // distinct from the krate module). This is basically a hash of |
| // the entire krate, so if you read from `Krate` (e.g., by calling |
| // `tcx.hir.krate()`), we will have to assume that any change |
| // means that you need to be recompiled. This is because the |
| // `Krate` value 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()`. If there is no |
| // suitable wrapper, you can use `tcx.dep_graph.ignore()` to gain |
| // access to the krate, but you must remember to add suitable |
| // edges yourself for the individual items that you read. |
| [input] Krate, |
| |
| // Represents the body of a function or method. The def-id is that of the |
| // function/method. |
| [input] HirBody(DefId), |
| |
| // Represents the HIR node with the given node-id |
| [input] Hir(DefId), |
| |
| // Represents metadata from an extern crate. |
| [input] CrateMetadata(CrateNum), |
| |
| // Represents different phases in the compiler. |
| [] RegionScopeTree(DefId), |
| [eval_always] Coherence, |
| [eval_always] CoherenceInherentImplOverlapCheck, |
| [] CoherenceCheckTrait(DefId), |
| [eval_always] PrivacyAccessLevels(CrateNum), |
| |
| // Represents the MIR for a fn; also used as the task node for |
| // things read/modify that MIR. |
| [] MirConstQualif(DefId), |
| [] MirBuilt(DefId), |
| [] MirConst(DefId), |
| [] MirValidated(DefId), |
| [] MirOptimized(DefId), |
| [] MirShim { instance_def: InstanceDef<'tcx> }, |
| |
| [] BorrowCheckKrate, |
| [] BorrowCheck(DefId), |
| [] MirBorrowCheck(DefId), |
| [] UnsafetyCheckResult(DefId), |
| [] UnsafeDeriveOnReprPacked(DefId), |
| |
| [] Reachability, |
| [] MirKeys, |
| [eval_always] CrateVariances, |
| |
| // Nodes representing bits of computed IR in the tcx. Each shared |
| // table in the tcx (or elsewhere) maps to one of these |
| // nodes. |
| [] AssociatedItems(DefId), |
| [] TypeOfItem(DefId), |
| [] GenericsOfItem(DefId), |
| [] PredicatesOfItem(DefId), |
| [] ExplicitPredicatesOfItem(DefId), |
| [] PredicatesDefinedOnItem(DefId), |
| [] InferredOutlivesOf(DefId), |
| [] InferredOutlivesCrate(CrateNum), |
| [] SuperPredicatesOfItem(DefId), |
| [] TraitDefOfItem(DefId), |
| [] AdtDefOfItem(DefId), |
| [] ImplTraitRef(DefId), |
| [] ImplPolarity(DefId), |
| [] FnSignature(DefId), |
| [] CoerceUnsizedInfo(DefId), |
| |
| [] ItemVarianceConstraints(DefId), |
| [] ItemVariances(DefId), |
| [] IsConstFn(DefId), |
| [] IsPromotableConstFn(DefId), |
| [] IsForeignItem(DefId), |
| [] TypeParamPredicates { item_id: DefId, param_id: DefId }, |
| [] SizedConstraint(DefId), |
| [] DtorckConstraint(DefId), |
| [] AdtDestructor(DefId), |
| [] AssociatedItemDefIds(DefId), |
| [eval_always] InherentImpls(DefId), |
| [] TypeckBodiesKrate, |
| [] TypeckTables(DefId), |
| [] UsedTraitImports(DefId), |
| [] HasTypeckTables(DefId), |
| [] ConstEval { param_env: ParamEnvAnd<'tcx, GlobalId<'tcx>> }, |
| [] CheckMatch(DefId), |
| [] SymbolName(DefId), |
| [] InstanceSymbolName { instance: Instance<'tcx> }, |
| [] SpecializationGraph(DefId), |
| [] ObjectSafety(DefId), |
| [] FulfillObligation { param_env: ParamEnv<'tcx>, trait_ref: PolyTraitRef<'tcx> }, |
| [] VtableMethods { trait_ref: PolyTraitRef<'tcx> }, |
| |
| [] IsCopy { param_env: ParamEnvAnd<'tcx, Ty<'tcx>> }, |
| [] IsSized { param_env: ParamEnvAnd<'tcx, Ty<'tcx>> }, |
| [] IsFreeze { param_env: ParamEnvAnd<'tcx, Ty<'tcx>> }, |
| [] NeedsDrop { param_env: ParamEnvAnd<'tcx, Ty<'tcx>> }, |
| [] Layout { param_env: ParamEnvAnd<'tcx, Ty<'tcx>> }, |
| |
| // The set of impls for a given trait. |
| [] TraitImpls(DefId), |
| |
| [input] AllLocalTraitImpls, |
| |
| [anon] TraitSelect, |
| |
| [] ParamEnv(DefId), |
| [] Environment(DefId), |
| [] DescribeDef(DefId), |
| |
| // 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. |
| [input] DefSpan(DefId), |
| [] LookupStability(DefId), |
| [] LookupDeprecationEntry(DefId), |
| [] ConstIsRvaluePromotableToStatic(DefId), |
| [] RvaluePromotableMap(DefId), |
| [] ImplParent(DefId), |
| [] TraitOfItem(DefId), |
| [] IsReachableNonGeneric(DefId), |
| [] IsUnreachableLocalDefinition(DefId), |
| [] IsMirAvailable(DefId), |
| [] ItemAttrs(DefId), |
| [] CodegenFnAttrs(DefId), |
| [] FnArgNames(DefId), |
| [] RenderedConst(DefId), |
| [] DylibDepFormats(CrateNum), |
| [] IsPanicRuntime(CrateNum), |
| [] IsCompilerBuiltins(CrateNum), |
| [] HasGlobalAllocator(CrateNum), |
| [] HasPanicHandler(CrateNum), |
| [input] ExternCrate(DefId), |
| [eval_always] LintLevels, |
| [] Specializes { impl1: DefId, impl2: DefId }, |
| [input] InScopeTraits(DefIndex), |
| [input] ModuleExports(DefId), |
| [] IsSanitizerRuntime(CrateNum), |
| [] IsProfilerRuntime(CrateNum), |
| [] GetPanicStrategy(CrateNum), |
| [] IsNoBuiltins(CrateNum), |
| [] ImplDefaultness(DefId), |
| [] CheckItemWellFormed(DefId), |
| [] CheckTraitItemWellFormed(DefId), |
| [] CheckImplItemWellFormed(DefId), |
| [] ReachableNonGenerics(CrateNum), |
| [] NativeLibraries(CrateNum), |
| [] PluginRegistrarFn(CrateNum), |
| [] DeriveRegistrarFn(CrateNum), |
| [input] CrateDisambiguator(CrateNum), |
| [input] CrateHash(CrateNum), |
| [input] OriginalCrateName(CrateNum), |
| [input] ExtraFileName(CrateNum), |
| |
| [] ImplementationsOfTrait { krate: CrateNum, trait_id: DefId }, |
| [] AllTraitImplementations(CrateNum), |
| |
| [] DllimportForeignItems(CrateNum), |
| [] IsDllimportForeignItem(DefId), |
| [] IsStaticallyIncludedForeignItem(DefId), |
| [] NativeLibraryKind(DefId), |
| [input] LinkArgs, |
| |
| [] ResolveLifetimes(CrateNum), |
| [] NamedRegion(DefIndex), |
| [] IsLateBound(DefIndex), |
| [] ObjectLifetimeDefaults(DefIndex), |
| |
| [] Visibility(DefId), |
| [input] DepKind(CrateNum), |
| [input] CrateName(CrateNum), |
| [] ItemChildren(DefId), |
| [] ExternModStmtCnum(DefId), |
| [eval_always] GetLibFeatures, |
| [] DefinedLibFeatures(CrateNum), |
| [eval_always] GetLangItems, |
| [] DefinedLangItems(CrateNum), |
| [] MissingLangItems(CrateNum), |
| [] VisibleParentMap, |
| [input] MissingExternCrateItem(CrateNum), |
| [input] UsedCrateSource(CrateNum), |
| [input] PostorderCnums, |
| |
| // These queries are not expected to have inputs -- as a result, they |
| // are not good candidates for "replay" because they are essentially |
| // pure functions of their input (and hence the expectation is that |
| // no caller would be green **apart** from just these |
| // queries). Making them anonymous avoids hashing the result, which |
| // may save a bit of time. |
| [anon] EraseRegionsTy { ty: Ty<'tcx> }, |
| |
| [input] Freevars(DefId), |
| [input] MaybeUnusedTraitImport(DefId), |
| [input] MaybeUnusedExternCrates, |
| [eval_always] StabilityIndex, |
| [eval_always] AllTraits, |
| [input] AllCrateNums, |
| [] ExportedSymbols(CrateNum), |
| [eval_always] CollectAndPartitionMonoItems, |
| [] IsCodegenedItem(DefId), |
| [] CodegenUnit(InternedString), |
| [] CompileCodegenUnit(InternedString), |
| [input] OutputFilenames, |
| [] NormalizeProjectionTy(CanonicalProjectionGoal<'tcx>), |
| [] NormalizeTyAfterErasingRegions(ParamEnvAnd<'tcx, Ty<'tcx>>), |
| [] ImpliedOutlivesBounds(CanonicalTyGoal<'tcx>), |
| [] DropckOutlives(CanonicalTyGoal<'tcx>), |
| [] EvaluateObligation(CanonicalPredicateGoal<'tcx>), |
| [] TypeOpAscribeUserType(CanonicalTypeOpAscribeUserTypeGoal<'tcx>), |
| [] TypeOpEq(CanonicalTypeOpEqGoal<'tcx>), |
| [] TypeOpSubtype(CanonicalTypeOpSubtypeGoal<'tcx>), |
| [] TypeOpProvePredicate(CanonicalTypeOpProvePredicateGoal<'tcx>), |
| [] TypeOpNormalizeTy(CanonicalTypeOpNormalizeGoal<'tcx, Ty<'tcx>>), |
| [] TypeOpNormalizePredicate(CanonicalTypeOpNormalizeGoal<'tcx, Predicate<'tcx>>), |
| [] TypeOpNormalizePolyFnSig(CanonicalTypeOpNormalizeGoal<'tcx, PolyFnSig<'tcx>>), |
| [] TypeOpNormalizeFnSig(CanonicalTypeOpNormalizeGoal<'tcx, FnSig<'tcx>>), |
| |
| [] SubstituteNormalizeAndTestPredicates { key: (DefId, &'tcx Substs<'tcx>) }, |
| |
| [input] TargetFeaturesWhitelist, |
| |
| [] InstanceDefSizeEstimate { instance_def: InstanceDef<'tcx> }, |
| |
| [input] Features, |
| |
| [] ProgramClausesFor(DefId), |
| [] ProgramClausesForEnv(traits::Environment<'tcx>), |
| [] WasmImportModuleMap(CrateNum), |
| [] ForeignModules(CrateNum), |
| |
| [] UpstreamMonomorphizations(CrateNum), |
| [] UpstreamMonomorphizationsFor(DefId), |
| ); |
| |
| trait DepNodeParams<'a, 'gcx: 'tcx + 'a, 'tcx: 'a> : fmt::Debug { |
| const CAN_RECONSTRUCT_QUERY_KEY: bool; |
| |
| /// This method turns the parameters of a DepNodeConstructor into an opaque |
| /// Fingerprint to be used in DepNode. |
| /// Not all DepNodeParams support being turned into a Fingerprint (they |
| /// don't need to if the corresponding DepNode is anonymous). |
| fn to_fingerprint(&self, _: TyCtxt<'a, 'gcx, 'tcx>) -> Fingerprint { |
| panic!("Not implemented. Accidentally called on anonymous node?") |
| } |
| |
| fn to_debug_str(&self, _: TyCtxt<'a, 'gcx, 'tcx>) -> String { |
| format!("{:?}", self) |
| } |
| } |
| |
| impl<'a, 'gcx: 'tcx + 'a, 'tcx: 'a, T> DepNodeParams<'a, 'gcx, 'tcx> for T |
| where T: HashStable<StableHashingContext<'a>> + fmt::Debug |
| { |
| default const CAN_RECONSTRUCT_QUERY_KEY: bool = false; |
| |
| default fn to_fingerprint(&self, tcx: TyCtxt<'a, 'gcx, 'tcx>) -> Fingerprint { |
| let mut hcx = tcx.create_stable_hashing_context(); |
| let mut hasher = StableHasher::new(); |
| |
| self.hash_stable(&mut hcx, &mut hasher); |
| |
| hasher.finish() |
| } |
| |
| default fn to_debug_str(&self, _: TyCtxt<'a, 'gcx, 'tcx>) -> String { |
| format!("{:?}", *self) |
| } |
| } |
| |
| impl<'a, 'gcx: 'tcx + 'a, 'tcx: 'a> DepNodeParams<'a, 'gcx, 'tcx> for DefId { |
| const CAN_RECONSTRUCT_QUERY_KEY: bool = true; |
| |
| fn to_fingerprint(&self, tcx: TyCtxt<'_, '_, '_>) -> Fingerprint { |
| tcx.def_path_hash(*self).0 |
| } |
| |
| fn to_debug_str(&self, tcx: TyCtxt<'a, 'gcx, 'tcx>) -> String { |
| tcx.item_path_str(*self) |
| } |
| } |
| |
| impl<'a, 'gcx: 'tcx + 'a, 'tcx: 'a> DepNodeParams<'a, 'gcx, 'tcx> for DefIndex { |
| const CAN_RECONSTRUCT_QUERY_KEY: bool = true; |
| |
| fn to_fingerprint(&self, tcx: TyCtxt<'_, '_, '_>) -> Fingerprint { |
| tcx.hir.definitions().def_path_hash(*self).0 |
| } |
| |
| fn to_debug_str(&self, tcx: TyCtxt<'a, 'gcx, 'tcx>) -> String { |
| tcx.item_path_str(DefId::local(*self)) |
| } |
| } |
| |
| impl<'a, 'gcx: 'tcx + 'a, 'tcx: 'a> DepNodeParams<'a, 'gcx, 'tcx> for CrateNum { |
| const CAN_RECONSTRUCT_QUERY_KEY: bool = true; |
| |
| fn to_fingerprint(&self, tcx: TyCtxt<'_, '_, '_>) -> Fingerprint { |
| let def_id = DefId { |
| krate: *self, |
| index: CRATE_DEF_INDEX, |
| }; |
| tcx.def_path_hash(def_id).0 |
| } |
| |
| fn to_debug_str(&self, tcx: TyCtxt<'a, 'gcx, 'tcx>) -> String { |
| tcx.crate_name(*self).as_str().to_string() |
| } |
| } |
| |
| impl<'a, 'gcx: 'tcx + 'a, 'tcx: 'a> DepNodeParams<'a, 'gcx, 'tcx> for (DefId, DefId) { |
| const CAN_RECONSTRUCT_QUERY_KEY: bool = false; |
| |
| // We actually would not need to specialize the implementation of this |
| // method but it's faster to combine the hashes than to instantiate a full |
| // hashing context and stable-hashing state. |
| fn to_fingerprint(&self, tcx: TyCtxt<'_, '_, '_>) -> Fingerprint { |
| let (def_id_0, def_id_1) = *self; |
| |
| let def_path_hash_0 = tcx.def_path_hash(def_id_0); |
| let def_path_hash_1 = tcx.def_path_hash(def_id_1); |
| |
| def_path_hash_0.0.combine(def_path_hash_1.0) |
| } |
| |
| fn to_debug_str(&self, tcx: TyCtxt<'a, 'gcx, 'tcx>) -> String { |
| let (def_id_0, def_id_1) = *self; |
| |
| format!("({}, {})", |
| tcx.def_path_debug_str(def_id_0), |
| tcx.def_path_debug_str(def_id_1)) |
| } |
| } |
| |
| impl<'a, 'gcx: 'tcx + 'a, 'tcx: 'a> DepNodeParams<'a, 'gcx, 'tcx> for HirId { |
| const CAN_RECONSTRUCT_QUERY_KEY: bool = false; |
| |
| // We actually would not need to specialize the implementation of this |
| // method but it's faster to combine the hashes than to instantiate a full |
| // hashing context and stable-hashing state. |
| fn to_fingerprint(&self, tcx: TyCtxt<'_, '_, '_>) -> Fingerprint { |
| let HirId { |
| owner, |
| local_id: ItemLocalId(local_id), |
| } = *self; |
| |
| let def_path_hash = tcx.def_path_hash(DefId::local(owner)); |
| let local_id = Fingerprint::from_smaller_hash(local_id as u64); |
| |
| def_path_hash.0.combine(local_id) |
| } |
| } |
| |
| /// A "work product" corresponds to a `.o` (or other) file that we |
| /// save in between runs. These ids do not have a DefId but rather |
| /// some independent path or string that persists between runs without |
| /// the need to be mapped or unmapped. (This ensures we can serialize |
| /// them even in the absence of a tcx.) |
| #[derive(Clone, Copy, Debug, PartialEq, Eq, PartialOrd, Ord, Hash, |
| RustcEncodable, RustcDecodable)] |
| pub struct WorkProductId { |
| hash: Fingerprint |
| } |
| |
| impl WorkProductId { |
| pub fn from_cgu_name(cgu_name: &str) -> WorkProductId { |
| let mut hasher = StableHasher::new(); |
| cgu_name.len().hash(&mut hasher); |
| cgu_name.hash(&mut hasher); |
| WorkProductId { |
| hash: hasher.finish() |
| } |
| } |
| |
| pub fn from_fingerprint(fingerprint: Fingerprint) -> WorkProductId { |
| WorkProductId { |
| hash: fingerprint |
| } |
| } |
| } |
| |
| impl_stable_hash_for!(struct ::dep_graph::WorkProductId { |
| hash |
| }); |