mod plumbing; pub use self::plumbing::*; mod job; #[cfg(parallel_compiler)] pub use self::job::deadlock; pub use self::job::{print_query_stack, QueryInfo, QueryJob, QueryJobId, QueryJobInfo, QueryMap}; mod caches; pub use self::caches::{ CacheSelector, DefaultCacheSelector, QueryCache, QueryStorage, VecCacheSelector, }; mod config; pub use self::config::{HashResult, QueryConfig, TryLoadFromDisk}; use crate::dep_graph::DepKind; use crate::dep_graph::{DepNodeIndex, HasDepContext, SerializedDepNodeIndex}; use rustc_data_structures::sync::Lock; use rustc_errors::Diagnostic; use rustc_hir::def::DefKind; use rustc_span::def_id::DefId; use rustc_span::Span; use thin_vec::ThinVec; /// Description of a frame in the query stack. /// /// This is mostly used in case of cycles for error reporting. #[derive(Clone, Debug)] pub struct QueryStackFrame { pub description: String, span: Option, pub def_id: Option, pub def_kind: Option, pub ty_adt_id: Option, pub dep_kind: D, /// This hash is used to deterministically pick /// a query to remove cycles in the parallel compiler. #[cfg(parallel_compiler)] hash: u64, } impl QueryStackFrame { #[inline] pub fn new( description: String, span: Option, def_id: Option, def_kind: Option, dep_kind: D, ty_adt_id: Option, _hash: impl FnOnce() -> u64, ) -> Self { Self { description, span, def_id, def_kind, ty_adt_id, dep_kind, #[cfg(parallel_compiler)] hash: _hash(), } } // FIXME(eddyb) Get more valid `Span`s on queries. #[inline] pub fn default_span(&self, span: Span) -> Span { if !span.is_dummy() { return span; } self.span.unwrap_or(span) } } /// Tracks 'side effects' for a particular query. /// This struct is saved to disk along with the query result, /// and loaded from disk if we mark the query as green. /// This allows us to 'replay' changes to global state /// that would otherwise only occur if we actually /// executed the query method. #[derive(Debug, Clone, Default, Encodable, Decodable)] pub struct QuerySideEffects { /// Stores any diagnostics emitted during query execution. /// These diagnostics will be re-emitted if we mark /// the query as green. pub(super) diagnostics: ThinVec, } impl QuerySideEffects { #[inline] pub fn is_empty(&self) -> bool { let QuerySideEffects { diagnostics } = self; diagnostics.is_empty() } pub fn append(&mut self, other: QuerySideEffects) { let QuerySideEffects { diagnostics } = self; diagnostics.extend(other.diagnostics); } } pub trait QueryContext: HasDepContext { fn next_job_id(&self) -> QueryJobId; /// Get the query information from the TLS context. fn current_query_job(&self) -> Option; fn try_collect_active_jobs(&self) -> Option>; /// Load side effects associated to the node in the previous session. fn load_side_effects(&self, prev_dep_node_index: SerializedDepNodeIndex) -> QuerySideEffects; /// Register diagnostics for the given node, for use in next session. fn store_side_effects(&self, dep_node_index: DepNodeIndex, side_effects: QuerySideEffects); /// Register diagnostics for the given node, for use in next session. fn store_side_effects_for_anon_node( &self, dep_node_index: DepNodeIndex, side_effects: QuerySideEffects, ); /// Executes a job by changing the `ImplicitCtxt` to point to the /// new query job while it executes. It returns the diagnostics /// captured during execution and the actual result. fn start_query( &self, token: QueryJobId, depth_limit: bool, diagnostics: Option<&Lock>>, compute: impl FnOnce() -> R, ) -> R; fn depth_limit_error(&self, job: QueryJobId); }