| //! The implementation of the query system itself. Defines the macros |
| //! that generate the actual methods on tcx which find and execute the |
| //! provider, manage the caches, and so forth. |
| |
| use crate::dep_graph::{DepNodeIndex, DepNode, DepKind, SerializedDepNodeIndex}; |
| use crate::errors::DiagnosticBuilder; |
| use crate::errors::Level; |
| use crate::errors::Diagnostic; |
| use crate::errors::FatalError; |
| use crate::ty::tls; |
| use crate::ty::{TyCtxt}; |
| use crate::ty::query::Query; |
| use crate::ty::query::config::{QueryConfig, QueryDescription}; |
| use crate::ty::query::job::{QueryJob, QueryResult, QueryInfo}; |
| use crate::ty::item_path; |
| |
| use crate::util::common::{profq_msg, ProfileQueriesMsg, QueryMsg}; |
| |
| use rustc_data_structures::fx::{FxHashMap}; |
| use rustc_data_structures::sync::{Lrc, Lock}; |
| use rustc_data_structures::thin_vec::ThinVec; |
| use std::mem; |
| use std::ptr; |
| use std::collections::hash_map::Entry; |
| use syntax_pos::Span; |
| use syntax::source_map::DUMMY_SP; |
| |
| pub struct QueryCache<'tcx, D: QueryConfig<'tcx> + ?Sized> { |
| pub(super) results: FxHashMap<D::Key, QueryValue<D::Value>>, |
| pub(super) active: FxHashMap<D::Key, QueryResult<'tcx>>, |
| #[cfg(debug_assertions)] |
| pub(super) cache_hits: usize, |
| } |
| |
| pub(super) struct QueryValue<T> { |
| pub(super) value: T, |
| pub(super) index: DepNodeIndex, |
| } |
| |
| impl<T> QueryValue<T> { |
| pub(super) fn new(value: T, |
| dep_node_index: DepNodeIndex) |
| -> QueryValue<T> { |
| QueryValue { |
| value, |
| index: dep_node_index, |
| } |
| } |
| } |
| |
| impl<'tcx, M: QueryConfig<'tcx>> Default for QueryCache<'tcx, M> { |
| fn default() -> QueryCache<'tcx, M> { |
| QueryCache { |
| results: FxHashMap::default(), |
| active: FxHashMap::default(), |
| #[cfg(debug_assertions)] |
| cache_hits: 0, |
| } |
| } |
| } |
| |
| // If enabled, send a message to the profile-queries thread |
| macro_rules! profq_msg { |
| ($tcx:expr, $msg:expr) => { |
| if cfg!(debug_assertions) { |
| if $tcx.sess.profile_queries() { |
| profq_msg($tcx.sess, $msg) |
| } |
| } |
| } |
| } |
| |
| // If enabled, format a key using its debug string, which can be |
| // expensive to compute (in terms of time). |
| macro_rules! profq_query_msg { |
| ($query:expr, $tcx:expr, $key:expr) => {{ |
| let msg = if cfg!(debug_assertions) { |
| if $tcx.sess.profile_queries_and_keys() { |
| Some(format!("{:?}", $key)) |
| } else { None } |
| } else { None }; |
| QueryMsg { |
| query: $query, |
| msg, |
| } |
| }} |
| } |
| |
| /// A type representing the responsibility to execute the job in the `job` field. |
| /// This will poison the relevant query if dropped. |
| pub(super) struct JobOwner<'a, 'tcx: 'a, Q: QueryDescription<'tcx> + 'a> { |
| cache: &'a Lock<QueryCache<'tcx, Q>>, |
| key: Q::Key, |
| job: Lrc<QueryJob<'tcx>>, |
| } |
| |
| impl<'a, 'tcx, Q: QueryDescription<'tcx>> JobOwner<'a, 'tcx, Q> { |
| /// Either gets a JobOwner corresponding the query, allowing us to |
| /// start executing the query, or it returns with the result of the query. |
| /// If the query is executing elsewhere, this will wait for it. |
| /// If the query panicked, this will silently panic. |
| /// |
| /// This function is inlined because that results in a noticeable speedup |
| /// for some compile-time benchmarks. |
| #[inline(always)] |
| pub(super) fn try_get( |
| tcx: TyCtxt<'a, 'tcx, '_>, |
| span: Span, |
| key: &Q::Key, |
| ) -> TryGetJob<'a, 'tcx, Q> { |
| let cache = Q::query_cache(tcx); |
| loop { |
| let mut lock = cache.borrow_mut(); |
| if let Some(value) = lock.results.get(key) { |
| profq_msg!(tcx, ProfileQueriesMsg::CacheHit); |
| tcx.sess.profiler(|p| p.record_query_hit(Q::NAME, Q::CATEGORY)); |
| let result = Ok((value.value.clone(), value.index)); |
| #[cfg(debug_assertions)] |
| { |
| lock.cache_hits += 1; |
| } |
| return TryGetJob::JobCompleted(result); |
| } |
| let job = match lock.active.entry((*key).clone()) { |
| Entry::Occupied(entry) => { |
| match *entry.get() { |
| QueryResult::Started(ref job) => job.clone(), |
| QueryResult::Poisoned => FatalError.raise(), |
| } |
| } |
| Entry::Vacant(entry) => { |
| // No job entry for this query. Return a new one to be started later |
| return tls::with_related_context(tcx, |icx| { |
| // Create the `parent` variable before `info`. This allows LLVM |
| // to elide the move of `info` |
| let parent = icx.query.clone(); |
| let info = QueryInfo { |
| span, |
| query: Q::query(key.clone()), |
| }; |
| let job = Lrc::new(QueryJob::new(info, parent)); |
| let owner = JobOwner { |
| cache, |
| job: job.clone(), |
| key: (*key).clone(), |
| }; |
| entry.insert(QueryResult::Started(job)); |
| TryGetJob::NotYetStarted(owner) |
| }) |
| } |
| }; |
| mem::drop(lock); |
| |
| // If we are single-threaded we know that we have cycle error, |
| // so we just turn the errror |
| #[cfg(not(parallel_compiler))] |
| return job.cycle_error(tcx, span); |
| |
| // With parallel queries we might just have to wait on some other |
| // thread |
| #[cfg(parallel_compiler)] |
| { |
| if let Err(cycle) = job.r#await(tcx, span) { |
| return TryGetJob::JobCompleted(Err(cycle)); |
| } |
| } |
| } |
| } |
| |
| /// Completes the query by updating the query cache with the `result`, |
| /// signals the waiter and forgets the JobOwner, so it won't poison the query |
| #[inline(always)] |
| pub(super) fn complete(self, result: &Q::Value, dep_node_index: DepNodeIndex) { |
| // We can move out of `self` here because we `mem::forget` it below |
| let key = unsafe { ptr::read(&self.key) }; |
| let job = unsafe { ptr::read(&self.job) }; |
| let cache = self.cache; |
| |
| // Forget ourself so our destructor won't poison the query |
| mem::forget(self); |
| |
| let value = QueryValue::new(result.clone(), dep_node_index); |
| { |
| let mut lock = cache.borrow_mut(); |
| lock.active.remove(&key); |
| lock.results.insert(key, value); |
| } |
| |
| job.signal_complete(); |
| } |
| |
| /// 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. |
| #[inline(always)] |
| pub(super) fn start<'lcx, F, R>( |
| &self, |
| tcx: TyCtxt<'_, 'tcx, 'lcx>, |
| diagnostics: Option<&Lock<ThinVec<Diagnostic>>>, |
| compute: F) |
| -> R |
| where |
| F: for<'b> FnOnce(TyCtxt<'b, 'tcx, 'lcx>) -> R |
| { |
| // The TyCtxt stored in TLS has the same global interner lifetime |
| // as `tcx`, so we use `with_related_context` to relate the 'gcx lifetimes |
| // when accessing the ImplicitCtxt |
| tls::with_related_context(tcx, move |current_icx| { |
| // Update the ImplicitCtxt to point to our new query job |
| let new_icx = tls::ImplicitCtxt { |
| tcx: tcx.global_tcx(), |
| query: Some(self.job.clone()), |
| diagnostics, |
| layout_depth: current_icx.layout_depth, |
| task_deps: current_icx.task_deps, |
| }; |
| |
| // Use the ImplicitCtxt while we execute the query |
| tls::enter_context(&new_icx, |_| { |
| compute(tcx) |
| }) |
| }) |
| } |
| |
| } |
| |
| #[inline(always)] |
| fn with_diagnostics<F, R>(f: F) -> (R, ThinVec<Diagnostic>) |
| where |
| F: FnOnce(Option<&Lock<ThinVec<Diagnostic>>>) -> R |
| { |
| let diagnostics = Lock::new(ThinVec::new()); |
| let result = f(Some(&diagnostics)); |
| (result, diagnostics.into_inner()) |
| } |
| |
| impl<'a, 'tcx, Q: QueryDescription<'tcx>> Drop for JobOwner<'a, 'tcx, Q> { |
| #[inline(never)] |
| #[cold] |
| fn drop(&mut self) { |
| // Poison the query so jobs waiting on it panic |
| self.cache.borrow_mut().active.insert(self.key.clone(), QueryResult::Poisoned); |
| // Also signal the completion of the job, so waiters |
| // will continue execution |
| self.job.signal_complete(); |
| } |
| } |
| |
| #[derive(Clone)] |
| pub struct CycleError<'tcx> { |
| /// The query and related span which uses the cycle |
| pub(super) usage: Option<(Span, Query<'tcx>)>, |
| pub(super) cycle: Vec<QueryInfo<'tcx>>, |
| } |
| |
| /// The result of `try_get_lock` |
| pub(super) enum TryGetJob<'a, 'tcx: 'a, D: QueryDescription<'tcx> + 'a> { |
| /// The query is not yet started. Contains a guard to the cache eventually used to start it. |
| NotYetStarted(JobOwner<'a, 'tcx, D>), |
| |
| /// The query was already completed. |
| /// Returns the result of the query and its dep node index |
| /// if it succeeded or a cycle error if it failed |
| JobCompleted(Result<(D::Value, DepNodeIndex), Box<CycleError<'tcx>>>), |
| } |
| |
| impl<'a, 'gcx, 'tcx> TyCtxt<'a, 'gcx, 'tcx> { |
| #[inline(never)] |
| #[cold] |
| pub(super) fn report_cycle( |
| self, |
| box CycleError { usage, cycle: stack }: Box<CycleError<'gcx>> |
| ) -> Box<DiagnosticBuilder<'a>> |
| { |
| assert!(!stack.is_empty()); |
| |
| let fix_span = |span: Span, query: &Query<'gcx>| { |
| self.sess.source_map().def_span(query.default_span(self, span)) |
| }; |
| |
| // Disable naming impls with types in this path, since that |
| // sometimes cycles itself, leading to extra cycle errors. |
| // (And cycle errors around impls tend to occur during the |
| // collect/coherence phases anyhow.) |
| item_path::with_forced_impl_filename_line(|| { |
| let span = fix_span(stack[1 % stack.len()].span, &stack[0].query); |
| let mut err = struct_span_err!(self.sess, |
| span, |
| E0391, |
| "cycle detected when {}", |
| stack[0].query.describe(self)); |
| |
| for i in 1..stack.len() { |
| let query = &stack[i].query; |
| let span = fix_span(stack[(i + 1) % stack.len()].span, query); |
| err.span_note(span, &format!("...which requires {}...", query.describe(self))); |
| } |
| |
| err.note(&format!("...which again requires {}, completing the cycle", |
| stack[0].query.describe(self))); |
| |
| if let Some((span, query)) = usage { |
| err.span_note(fix_span(span, &query), |
| &format!("cycle used when {}", query.describe(self))); |
| } |
| |
| return Box::new(err) |
| }) |
| } |
| |
| pub fn try_print_query_stack() { |
| eprintln!("query stack during panic:"); |
| |
| tls::with_context_opt(|icx| { |
| if let Some(icx) = icx { |
| let mut current_query = icx.query.clone(); |
| let mut i = 0; |
| |
| while let Some(query) = current_query { |
| let mut db = DiagnosticBuilder::new(icx.tcx.sess.diagnostic(), |
| Level::FailureNote, |
| &format!("#{} [{}] {}", |
| i, |
| query.info.query.name(), |
| query.info.query.describe(icx.tcx))); |
| db.set_span(icx.tcx.sess.source_map().def_span(query.info.span)); |
| icx.tcx.sess.diagnostic().force_print_db(db); |
| |
| current_query = query.parent.clone(); |
| i += 1; |
| } |
| } |
| }); |
| |
| eprintln!("end of query stack"); |
| } |
| |
| #[inline(never)] |
| fn try_get_with<Q: QueryDescription<'gcx>>( |
| self, |
| span: Span, |
| key: Q::Key) |
| -> Result<Q::Value, Box<CycleError<'gcx>>> |
| { |
| debug!("ty::queries::{}::try_get_with(key={:?}, span={:?})", |
| Q::NAME, |
| key, |
| span); |
| |
| profq_msg!(self, |
| ProfileQueriesMsg::QueryBegin( |
| span.data(), |
| profq_query_msg!(Q::NAME, self, key), |
| ) |
| ); |
| |
| let job = match JobOwner::try_get(self, span, &key) { |
| TryGetJob::NotYetStarted(job) => job, |
| TryGetJob::JobCompleted(result) => { |
| return result.map(|(v, index)| { |
| self.dep_graph.read_index(index); |
| v |
| }) |
| } |
| }; |
| |
| // Fast path for when incr. comp. is off. `to_dep_node` is |
| // expensive for some DepKinds. |
| if !self.dep_graph.is_fully_enabled() { |
| let null_dep_node = DepNode::new_no_params(crate::dep_graph::DepKind::Null); |
| return Ok(self.force_query_with_job::<Q>(key, job, null_dep_node).0); |
| } |
| |
| let dep_node = Q::to_dep_node(self, &key); |
| |
| if dep_node.kind.is_anon() { |
| profq_msg!(self, ProfileQueriesMsg::ProviderBegin); |
| self.sess.profiler(|p| p.start_query(Q::NAME, Q::CATEGORY)); |
| |
| let ((result, dep_node_index), diagnostics) = with_diagnostics(|diagnostics| { |
| job.start(self, diagnostics, |tcx| { |
| tcx.dep_graph.with_anon_task(dep_node.kind, || { |
| Q::compute(tcx.global_tcx(), key) |
| }) |
| }) |
| }); |
| |
| self.sess.profiler(|p| p.end_query(Q::NAME, Q::CATEGORY)); |
| profq_msg!(self, ProfileQueriesMsg::ProviderEnd); |
| |
| self.dep_graph.read_index(dep_node_index); |
| |
| if unlikely!(!diagnostics.is_empty()) { |
| self.queries.on_disk_cache |
| .store_diagnostics_for_anon_node(dep_node_index, diagnostics); |
| } |
| |
| job.complete(&result, dep_node_index); |
| |
| return Ok(result); |
| } |
| |
| if !dep_node.kind.is_input() { |
| if let Some((prev_dep_node_index, |
| dep_node_index)) = self.dep_graph.try_mark_green_and_read(self, |
| &dep_node) { |
| return Ok(self.load_from_disk_and_cache_in_memory::<Q>( |
| key, |
| job, |
| prev_dep_node_index, |
| dep_node_index, |
| &dep_node |
| )) |
| } |
| } |
| |
| let (result, dep_node_index) = self.force_query_with_job::<Q>(key, job, dep_node); |
| self.dep_graph.read_index(dep_node_index); |
| Ok(result) |
| } |
| |
| fn load_from_disk_and_cache_in_memory<Q: QueryDescription<'gcx>>( |
| self, |
| key: Q::Key, |
| job: JobOwner<'a, 'gcx, Q>, |
| prev_dep_node_index: SerializedDepNodeIndex, |
| dep_node_index: DepNodeIndex, |
| dep_node: &DepNode |
| ) -> Q::Value |
| { |
| // Note this function can be called concurrently from the same query |
| // We must ensure that this is handled correctly |
| |
| debug_assert!(self.dep_graph.is_green(dep_node)); |
| |
| // First we try to load the result from the on-disk cache |
| let result = if Q::cache_on_disk(self.global_tcx(), key.clone()) && |
| self.sess.opts.debugging_opts.incremental_queries { |
| let result = Q::try_load_from_disk(self.global_tcx(), prev_dep_node_index); |
| |
| // We always expect to find a cached result for things that |
| // can be forced from DepNode. |
| debug_assert!(!dep_node.kind.can_reconstruct_query_key() || |
| result.is_some(), |
| "Missing on-disk cache entry for {:?}", |
| dep_node); |
| result |
| } else { |
| // Some things are never cached on disk. |
| None |
| }; |
| |
| let result = if let Some(result) = result { |
| profq_msg!(self, ProfileQueriesMsg::CacheHit); |
| self.sess.profiler(|p| p.record_query_hit(Q::NAME, Q::CATEGORY)); |
| |
| result |
| } else { |
| // We could not load a result from the on-disk cache, so |
| // recompute. |
| |
| self.sess.profiler(|p| p.start_query(Q::NAME, Q::CATEGORY)); |
| |
| // The diagnostics for this query have already been |
| // promoted to the current session during |
| // try_mark_green(), so we can ignore them here. |
| let result = job.start(self, None, |tcx| { |
| // The dep-graph for this computation is already in |
| // place |
| tcx.dep_graph.with_ignore(|| { |
| Q::compute(tcx, key) |
| }) |
| }); |
| |
| self.sess.profiler(|p| p.end_query(Q::NAME, Q::CATEGORY)); |
| result |
| }; |
| |
| // If -Zincremental-verify-ich is specified, re-hash results from |
| // the cache and make sure that they have the expected fingerprint. |
| if unlikely!(self.sess.opts.debugging_opts.incremental_verify_ich) { |
| self.incremental_verify_ich::<Q>(&result, dep_node, dep_node_index); |
| } |
| |
| if unlikely!(self.sess.opts.debugging_opts.query_dep_graph) { |
| self.dep_graph.mark_loaded_from_cache(dep_node_index, true); |
| } |
| |
| job.complete(&result, dep_node_index); |
| |
| result |
| } |
| |
| #[inline(never)] |
| #[cold] |
| fn incremental_verify_ich<Q: QueryDescription<'gcx>>( |
| self, |
| result: &Q::Value, |
| dep_node: &DepNode, |
| dep_node_index: DepNodeIndex, |
| ) { |
| use crate::ich::Fingerprint; |
| |
| assert!(Some(self.dep_graph.fingerprint_of(dep_node_index)) == |
| self.dep_graph.prev_fingerprint_of(dep_node), |
| "Fingerprint for green query instance not loaded \ |
| from cache: {:?}", dep_node); |
| |
| debug!("BEGIN verify_ich({:?})", dep_node); |
| let mut hcx = self.create_stable_hashing_context(); |
| |
| let new_hash = Q::hash_result(&mut hcx, result).unwrap_or(Fingerprint::ZERO); |
| debug!("END verify_ich({:?})", dep_node); |
| |
| let old_hash = self.dep_graph.fingerprint_of(dep_node_index); |
| |
| assert!(new_hash == old_hash, "Found unstable fingerprints \ |
| for {:?}", dep_node); |
| } |
| |
| #[inline(always)] |
| fn force_query_with_job<Q: QueryDescription<'gcx>>( |
| self, |
| key: Q::Key, |
| job: JobOwner<'_, 'gcx, Q>, |
| dep_node: DepNode) |
| -> (Q::Value, DepNodeIndex) { |
| // If the following assertion triggers, it can have two reasons: |
| // 1. Something is wrong with DepNode creation, either here or |
| // in DepGraph::try_mark_green() |
| // 2. Two distinct query keys get mapped to the same DepNode |
| // (see for example #48923) |
| assert!(!self.dep_graph.dep_node_exists(&dep_node), |
| "Forcing query with already existing DepNode.\n\ |
| - query-key: {:?}\n\ |
| - dep-node: {:?}", |
| key, dep_node); |
| |
| profq_msg!(self, ProfileQueriesMsg::ProviderBegin); |
| self.sess.profiler(|p| p.start_query(Q::NAME, Q::CATEGORY)); |
| |
| let ((result, dep_node_index), diagnostics) = with_diagnostics(|diagnostics| { |
| job.start(self, diagnostics, |tcx| { |
| if dep_node.kind.is_eval_always() { |
| tcx.dep_graph.with_eval_always_task(dep_node, |
| tcx, |
| key, |
| Q::compute, |
| Q::hash_result) |
| } else { |
| tcx.dep_graph.with_task(dep_node, |
| tcx, |
| key, |
| Q::compute, |
| Q::hash_result) |
| } |
| }) |
| }); |
| |
| self.sess.profiler(|p| p.end_query(Q::NAME, Q::CATEGORY)); |
| profq_msg!(self, ProfileQueriesMsg::ProviderEnd); |
| |
| if unlikely!(self.sess.opts.debugging_opts.query_dep_graph) { |
| self.dep_graph.mark_loaded_from_cache(dep_node_index, false); |
| } |
| |
| if dep_node.kind != crate::dep_graph::DepKind::Null { |
| if unlikely!(!diagnostics.is_empty()) { |
| self.queries.on_disk_cache |
| .store_diagnostics(dep_node_index, diagnostics); |
| } |
| } |
| |
| job.complete(&result, dep_node_index); |
| |
| (result, dep_node_index) |
| } |
| |
| /// Ensure that either this query has all green inputs or been executed. |
| /// Executing query::ensure(D) is considered a read of the dep-node D. |
| /// |
| /// This function is particularly useful when executing passes for their |
| /// side-effects -- e.g., in order to report errors for erroneous programs. |
| /// |
| /// Note: The optimization is only available during incr. comp. |
| pub(super) fn ensure_query<Q: QueryDescription<'gcx>>(self, key: Q::Key) -> () { |
| let dep_node = Q::to_dep_node(self, &key); |
| |
| // Ensuring an "input" or anonymous query makes no sense |
| assert!(!dep_node.kind.is_anon()); |
| assert!(!dep_node.kind.is_input()); |
| if self.dep_graph.try_mark_green_and_read(self, &dep_node).is_none() { |
| // A None return from `try_mark_green_and_read` means that this is either |
| // a new dep node or that the dep node has already been marked red. |
| // Either way, we can't call `dep_graph.read()` as we don't have the |
| // DepNodeIndex. We must invoke the query itself. The performance cost |
| // this introduces should be negligible as we'll immediately hit the |
| // in-memory cache, or another query down the line will. |
| |
| let _ = self.get_query::<Q>(DUMMY_SP, key); |
| } else { |
| profq_msg!(self, ProfileQueriesMsg::CacheHit); |
| self.sess.profiler(|p| p.record_query_hit(Q::NAME, Q::CATEGORY)); |
| } |
| } |
| |
| #[allow(dead_code)] |
| fn force_query<Q: QueryDescription<'gcx>>( |
| self, |
| key: Q::Key, |
| span: Span, |
| dep_node: DepNode |
| ) { |
| profq_msg!( |
| self, |
| ProfileQueriesMsg::QueryBegin(span.data(), profq_query_msg!(Q::NAME, self, key)) |
| ); |
| |
| // We may be concurrently trying both execute and force a query |
| // Ensure that only one of them runs the query |
| let job = match JobOwner::try_get(self, span, &key) { |
| TryGetJob::NotYetStarted(job) => job, |
| TryGetJob::JobCompleted(result) => { |
| if let Err(e) = result { |
| self.report_cycle(e).emit(); |
| } |
| return |
| } |
| }; |
| self.force_query_with_job::<Q>(key, job, dep_node); |
| } |
| |
| pub(super) fn try_get_query<Q: QueryDescription<'gcx>>( |
| self, |
| span: Span, |
| key: Q::Key, |
| ) -> Result<Q::Value, Box<DiagnosticBuilder<'a>>> { |
| match self.try_get_with::<Q>(span, key) { |
| Ok(e) => Ok(e), |
| Err(e) => Err(self.report_cycle(e)), |
| } |
| } |
| |
| // FIXME: Try uninlining this |
| #[inline(always)] |
| pub(super) fn get_query<Q: QueryDescription<'gcx>>( |
| self, |
| span: Span, |
| key: Q::Key, |
| ) -> Q::Value { |
| self.try_get_with::<Q>(span, key).unwrap_or_else(|e| { |
| self.emit_error::<Q>(e) |
| }) |
| } |
| |
| #[inline(never)] |
| #[cold] |
| fn emit_error<Q: QueryDescription<'gcx>>( |
| self, |
| e: Box<CycleError<'gcx>>, |
| ) -> Q::Value { |
| self.report_cycle(e).emit(); |
| Q::handle_cycle_error(self) |
| } |
| } |
| |
| macro_rules! handle_cycle_error { |
| ([][$this: expr]) => {{ |
| Value::from_cycle_error($this.global_tcx()) |
| }}; |
| ([fatal_cycle$(, $modifiers:ident)*][$this:expr]) => {{ |
| $this.sess.abort_if_errors(); |
| unreachable!(); |
| }}; |
| ([$other:ident$(, $modifiers:ident)*][$($args:tt)*]) => { |
| handle_cycle_error!([$($modifiers),*][$($args)*]) |
| }; |
| } |
| |
| macro_rules! hash_result { |
| ([][$hcx:expr, $result:expr]) => {{ |
| dep_graph::hash_result($hcx, &$result) |
| }}; |
| ([no_hash$(, $modifiers:ident)*][$hcx:expr, $result:expr]) => {{ |
| None |
| }}; |
| ([$other:ident$(, $modifiers:ident)*][$($args:tt)*]) => { |
| hash_result!([$($modifiers),*][$($args)*]) |
| }; |
| } |
| |
| macro_rules! define_queries { |
| (<$tcx:tt> $($category:tt { |
| $($(#[$attr:meta])* [$($modifiers:tt)*] fn $name:ident: $node:ident($K:ty) -> $V:ty,)* |
| },)*) => { |
| define_queries_inner! { <$tcx> |
| $($( $(#[$attr])* category<$category> [$($modifiers)*] fn $name: $node($K) -> $V,)*)* |
| } |
| } |
| } |
| |
| macro_rules! define_queries_inner { |
| (<$tcx:tt> |
| $($(#[$attr:meta])* category<$category:tt> |
| [$($modifiers:tt)*] fn $name:ident: $node:ident($K:ty) -> $V:ty,)*) => { |
| |
| use std::mem; |
| #[cfg(parallel_compiler)] |
| use ty::query::job::QueryResult; |
| use rustc_data_structures::sync::Lock; |
| use crate::{ |
| rustc_data_structures::stable_hasher::HashStable, |
| rustc_data_structures::stable_hasher::StableHasherResult, |
| rustc_data_structures::stable_hasher::StableHasher, |
| ich::StableHashingContext |
| }; |
| use crate::util::profiling::ProfileCategory; |
| |
| define_queries_struct! { |
| tcx: $tcx, |
| input: ($(([$($modifiers)*] [$($attr)*] [$name]))*) |
| } |
| |
| impl<$tcx> Queries<$tcx> { |
| pub fn new( |
| providers: IndexVec<CrateNum, Providers<$tcx>>, |
| fallback_extern_providers: Providers<$tcx>, |
| on_disk_cache: OnDiskCache<'tcx>, |
| ) -> Self { |
| Queries { |
| providers, |
| fallback_extern_providers: Box::new(fallback_extern_providers), |
| on_disk_cache, |
| $($name: Default::default()),* |
| } |
| } |
| |
| pub fn record_computed_queries(&self, sess: &Session) { |
| sess.profiler(|p| { |
| $( |
| p.record_computed_queries( |
| <queries::$name<'_> as QueryConfig<'_>>::NAME, |
| <queries::$name<'_> as QueryConfig<'_>>::CATEGORY, |
| self.$name.lock().results.len() |
| ); |
| )* |
| }); |
| } |
| |
| #[cfg(parallel_compiler)] |
| pub fn collect_active_jobs(&self) -> Vec<Lrc<QueryJob<$tcx>>> { |
| let mut jobs = Vec::new(); |
| |
| // We use try_lock here since we are only called from the |
| // deadlock handler, and this shouldn't be locked |
| $( |
| jobs.extend( |
| self.$name.try_lock().unwrap().active.values().filter_map(|v| |
| if let QueryResult::Started(ref job) = *v { |
| Some(job.clone()) |
| } else { |
| None |
| } |
| ) |
| ); |
| )* |
| |
| jobs |
| } |
| |
| pub fn print_stats(&self) { |
| let mut queries = Vec::new(); |
| |
| #[derive(Clone)] |
| struct QueryStats { |
| name: &'static str, |
| cache_hits: usize, |
| key_size: usize, |
| key_type: &'static str, |
| value_size: usize, |
| value_type: &'static str, |
| entry_count: usize, |
| } |
| |
| fn stats<'tcx, Q: QueryConfig<'tcx>>( |
| name: &'static str, |
| map: &QueryCache<'tcx, Q> |
| ) -> QueryStats { |
| QueryStats { |
| name, |
| #[cfg(debug_assertions)] |
| cache_hits: map.cache_hits, |
| #[cfg(not(debug_assertions))] |
| cache_hits: 0, |
| key_size: mem::size_of::<Q::Key>(), |
| key_type: unsafe { type_name::<Q::Key>() }, |
| value_size: mem::size_of::<Q::Value>(), |
| value_type: unsafe { type_name::<Q::Value>() }, |
| entry_count: map.results.len(), |
| } |
| } |
| |
| $( |
| queries.push(stats::<queries::$name<'_>>( |
| stringify!($name), |
| &*self.$name.lock() |
| )); |
| )* |
| |
| if cfg!(debug_assertions) { |
| let hits: usize = queries.iter().map(|s| s.cache_hits).sum(); |
| let results: usize = queries.iter().map(|s| s.entry_count).sum(); |
| println!("\nQuery cache hit rate: {}", hits as f64 / (hits + results) as f64); |
| } |
| |
| let mut query_key_sizes = queries.clone(); |
| query_key_sizes.sort_by_key(|q| q.key_size); |
| println!("\nLarge query keys:"); |
| for q in query_key_sizes.iter().rev() |
| .filter(|q| q.key_size > 8) { |
| println!( |
| " {} - {} x {} - {}", |
| q.name, |
| q.key_size, |
| q.entry_count, |
| q.key_type |
| ); |
| } |
| |
| let mut query_value_sizes = queries.clone(); |
| query_value_sizes.sort_by_key(|q| q.value_size); |
| println!("\nLarge query values:"); |
| for q in query_value_sizes.iter().rev() |
| .filter(|q| q.value_size > 8) { |
| println!( |
| " {} - {} x {} - {}", |
| q.name, |
| q.value_size, |
| q.entry_count, |
| q.value_type |
| ); |
| } |
| |
| if cfg!(debug_assertions) { |
| let mut query_cache_hits = queries.clone(); |
| query_cache_hits.sort_by_key(|q| q.cache_hits); |
| println!("\nQuery cache hits:"); |
| for q in query_cache_hits.iter().rev() { |
| println!( |
| " {} - {} ({}%)", |
| q.name, |
| q.cache_hits, |
| q.cache_hits as f64 / (q.cache_hits + q.entry_count) as f64 |
| ); |
| } |
| } |
| |
| let mut query_value_count = queries.clone(); |
| query_value_count.sort_by_key(|q| q.entry_count); |
| println!("\nQuery value count:"); |
| for q in query_value_count.iter().rev() { |
| println!(" {} - {}", q.name, q.entry_count); |
| } |
| } |
| } |
| |
| #[allow(nonstandard_style)] |
| #[derive(Copy, Clone, Debug, PartialEq, Eq, Hash)] |
| pub enum Query<$tcx> { |
| $($(#[$attr])* $name($K)),* |
| } |
| |
| impl<$tcx> Query<$tcx> { |
| pub fn name(&self) -> &'static str { |
| match *self { |
| $(Query::$name(_) => stringify!($name),)* |
| } |
| } |
| |
| pub fn describe(&self, tcx: TyCtxt<'_, '_, '_>) -> Cow<'static, str> { |
| let (r, name) = match *self { |
| $(Query::$name(key) => { |
| (queries::$name::describe(tcx, key), stringify!($name)) |
| })* |
| }; |
| if tcx.sess.verbose() { |
| format!("{} [{}]", r, name).into() |
| } else { |
| r |
| } |
| } |
| |
| // FIXME(eddyb) Get more valid Span's on queries. |
| pub fn default_span(&self, tcx: TyCtxt<'_, $tcx, '_>, span: Span) -> Span { |
| if !span.is_dummy() { |
| return span; |
| } |
| // The def_span query is used to calculate default_span, |
| // so exit to avoid infinite recursion |
| if let Query::def_span(..) = *self { |
| return span |
| } |
| match *self { |
| $(Query::$name(key) => key.default_span(tcx),)* |
| } |
| } |
| } |
| |
| impl<'a, $tcx> HashStable<StableHashingContext<'a>> for Query<$tcx> { |
| fn hash_stable<W: StableHasherResult>(&self, |
| hcx: &mut StableHashingContext<'a>, |
| hasher: &mut StableHasher<W>) { |
| mem::discriminant(self).hash_stable(hcx, hasher); |
| match *self { |
| $(Query::$name(key) => key.hash_stable(hcx, hasher),)* |
| } |
| } |
| } |
| |
| pub mod queries { |
| use std::marker::PhantomData; |
| |
| $(#[allow(nonstandard_style)] |
| pub struct $name<$tcx> { |
| data: PhantomData<&$tcx ()> |
| })* |
| } |
| |
| // This module and the functions in it exist only to provide a |
| // predictable symbol name prefix for query providers. This is helpful |
| // for analyzing queries in profilers. |
| pub(super) mod __query_compute { |
| $(#[inline(never)] |
| pub fn $name<F: FnOnce() -> R, R>(f: F) -> R { |
| f() |
| })* |
| } |
| |
| $(impl<$tcx> QueryConfig<$tcx> for queries::$name<$tcx> { |
| type Key = $K; |
| type Value = $V; |
| |
| const NAME: &'static str = stringify!($name); |
| const CATEGORY: ProfileCategory = $category; |
| } |
| |
| impl<$tcx> QueryAccessors<$tcx> for queries::$name<$tcx> { |
| #[inline(always)] |
| fn query(key: Self::Key) -> Query<'tcx> { |
| Query::$name(key) |
| } |
| |
| #[inline(always)] |
| fn query_cache<'a>(tcx: TyCtxt<'a, $tcx, '_>) -> &'a Lock<QueryCache<$tcx, Self>> { |
| &tcx.queries.$name |
| } |
| |
| #[allow(unused)] |
| #[inline(always)] |
| fn to_dep_node(tcx: TyCtxt<'_, $tcx, '_>, key: &Self::Key) -> DepNode { |
| use crate::dep_graph::DepConstructor::*; |
| |
| DepNode::new(tcx, $node(*key)) |
| } |
| |
| #[inline] |
| fn compute(tcx: TyCtxt<'_, 'tcx, '_>, key: Self::Key) -> Self::Value { |
| __query_compute::$name(move || { |
| let provider = tcx.queries.providers.get(key.query_crate()) |
| // HACK(eddyb) it's possible crates may be loaded after |
| // the query engine is created, and because crate loading |
| // is not yet integrated with the query engine, such crates |
| // would be missing appropriate entries in `providers`. |
| .unwrap_or(&tcx.queries.fallback_extern_providers) |
| .$name; |
| provider(tcx.global_tcx(), key) |
| }) |
| } |
| |
| fn hash_result( |
| _hcx: &mut StableHashingContext<'_>, |
| _result: &Self::Value |
| ) -> Option<Fingerprint> { |
| hash_result!([$($modifiers)*][_hcx, _result]) |
| } |
| |
| fn handle_cycle_error(tcx: TyCtxt<'_, 'tcx, '_>) -> Self::Value { |
| handle_cycle_error!([$($modifiers)*][tcx]) |
| } |
| })* |
| |
| #[derive(Copy, Clone)] |
| pub struct TyCtxtEnsure<'a, 'gcx: 'a+'tcx, 'tcx: 'a> { |
| pub tcx: TyCtxt<'a, 'gcx, 'tcx>, |
| } |
| |
| impl<'a, $tcx, 'lcx> TyCtxtEnsure<'a, $tcx, 'lcx> { |
| $($(#[$attr])* |
| #[inline(always)] |
| pub fn $name(self, key: $K) { |
| self.tcx.ensure_query::<queries::$name<'_>>(key) |
| })* |
| } |
| |
| #[derive(Copy, Clone)] |
| pub struct TyCtxtAt<'a, 'gcx: 'a+'tcx, 'tcx: 'a> { |
| pub tcx: TyCtxt<'a, 'gcx, 'tcx>, |
| pub span: Span, |
| } |
| |
| impl<'a, 'gcx, 'tcx> Deref for TyCtxtAt<'a, 'gcx, 'tcx> { |
| type Target = TyCtxt<'a, 'gcx, 'tcx>; |
| #[inline(always)] |
| fn deref(&self) -> &Self::Target { |
| &self.tcx |
| } |
| } |
| |
| impl<'a, $tcx, 'lcx> TyCtxt<'a, $tcx, 'lcx> { |
| /// Return a transparent wrapper for `TyCtxt` which ensures queries |
| /// are executed instead of returing their result |
| #[inline(always)] |
| pub fn ensure(self) -> TyCtxtEnsure<'a, $tcx, 'lcx> { |
| TyCtxtEnsure { |
| tcx: self, |
| } |
| } |
| |
| /// Return a transparent wrapper for `TyCtxt` which uses |
| /// `span` as the location of queries performed through it. |
| #[inline(always)] |
| pub fn at(self, span: Span) -> TyCtxtAt<'a, $tcx, 'lcx> { |
| TyCtxtAt { |
| tcx: self, |
| span |
| } |
| } |
| |
| $($(#[$attr])* |
| #[inline(always)] |
| pub fn $name(self, key: $K) -> $V { |
| self.at(DUMMY_SP).$name(key) |
| })* |
| } |
| |
| impl<'a, $tcx, 'lcx> TyCtxtAt<'a, $tcx, 'lcx> { |
| $($(#[$attr])* |
| #[inline(always)] |
| pub fn $name(self, key: $K) -> $V { |
| self.tcx.get_query::<queries::$name<'_>>(self.span, key) |
| })* |
| } |
| |
| define_provider_struct! { |
| tcx: $tcx, |
| input: ($(([$($modifiers)*] [$name] [$K] [$V]))*) |
| } |
| |
| impl<$tcx> Copy for Providers<$tcx> {} |
| impl<$tcx> Clone for Providers<$tcx> { |
| fn clone(&self) -> Self { *self } |
| } |
| } |
| } |
| |
| macro_rules! define_queries_struct { |
| (tcx: $tcx:tt, |
| input: ($(([$($modifiers:tt)*] [$($attr:tt)*] [$name:ident]))*)) => { |
| pub struct Queries<$tcx> { |
| /// This provides access to the incr. comp. on-disk cache for query results. |
| /// Do not access this directly. It is only meant to be used by |
| /// `DepGraph::try_mark_green()` and the query infrastructure. |
| pub(crate) on_disk_cache: OnDiskCache<'tcx>, |
| |
| providers: IndexVec<CrateNum, Providers<$tcx>>, |
| fallback_extern_providers: Box<Providers<$tcx>>, |
| |
| $($(#[$attr])* $name: Lock<QueryCache<$tcx, queries::$name<$tcx>>>,)* |
| } |
| }; |
| } |
| |
| macro_rules! define_provider_struct { |
| (tcx: $tcx:tt, |
| input: ($(([$($modifiers:tt)*] [$name:ident] [$K:ty] [$R:ty]))*)) => { |
| pub struct Providers<$tcx> { |
| $(pub $name: for<'a> fn(TyCtxt<'a, $tcx, $tcx>, $K) -> $R,)* |
| } |
| |
| impl<$tcx> Default for Providers<$tcx> { |
| fn default() -> Self { |
| $(fn $name<'a, $tcx>(_: TyCtxt<'a, $tcx, $tcx>, key: $K) -> $R { |
| bug!("tcx.{}({:?}) unsupported by its crate", |
| stringify!($name), key); |
| })* |
| Providers { $($name),* } |
| } |
| } |
| }; |
| } |
| |
| |
| /// The red/green evaluation system will try to mark a specific DepNode in the |
| /// dependency graph as green by recursively trying to mark the dependencies of |
| /// that DepNode as green. While doing so, it will sometimes encounter a DepNode |
| /// where we don't know if it is red or green and we therefore actually have |
| /// to recompute its value in order to find out. Since the only piece of |
| /// information that we have at that point is the DepNode we are trying to |
| /// re-evaluate, we need some way to re-run a query from just that. This is what |
| /// `force_from_dep_node()` implements. |
| /// |
| /// In the general case, a DepNode consists of a DepKind and an opaque |
| /// GUID/fingerprint that will uniquely identify the node. This GUID/fingerprint |
| /// is usually constructed by computing a stable hash of the query-key that the |
| /// DepNode corresponds to. Consequently, it is not in general possible to go |
| /// back from hash to query-key (since hash functions are not reversible). For |
| /// this reason `force_from_dep_node()` is expected to fail from time to time |
| /// because we just cannot find out, from the DepNode alone, what the |
| /// corresponding query-key is and therefore cannot re-run the query. |
| /// |
| /// The system deals with this case letting `try_mark_green` fail which forces |
| /// the root query to be re-evaluated. |
| /// |
| /// Now, if force_from_dep_node() would always fail, it would be pretty useless. |
| /// Fortunately, we can use some contextual information that will allow us to |
| /// reconstruct query-keys for certain kinds of DepNodes. In particular, we |
| /// enforce by construction that the GUID/fingerprint of certain DepNodes is a |
| /// valid DefPathHash. Since we also always build a huge table that maps every |
| /// DefPathHash in the current codebase to the corresponding DefId, we have |
| /// everything we need to re-run the query. |
| /// |
| /// Take the `mir_validated` query as an example. Like many other queries, it |
| /// just has a single parameter: the DefId of the item it will compute the |
| /// validated MIR for. Now, when we call `force_from_dep_node()` on a dep-node |
| /// with kind `MirValidated`, we know that the GUID/fingerprint of the dep-node |
| /// is actually a DefPathHash, and can therefore just look up the corresponding |
| /// DefId in `tcx.def_path_hash_to_def_id`. |
| /// |
| /// When you implement a new query, it will likely have a corresponding new |
| /// DepKind, and you'll have to support it here in `force_from_dep_node()`. As |
| /// a rule of thumb, if your query takes a DefId or DefIndex as sole parameter, |
| /// then `force_from_dep_node()` should not fail for it. Otherwise, you can just |
| /// add it to the "We don't have enough information to reconstruct..." group in |
| /// the match below. |
| pub fn force_from_dep_node<'a, 'gcx, 'lcx>(tcx: TyCtxt<'a, 'gcx, 'lcx>, |
| dep_node: &DepNode) |
| -> bool { |
| use crate::hir::def_id::LOCAL_CRATE; |
| |
| // We must avoid ever having to call force_from_dep_node() for a |
| // DepNode::CodegenUnit: |
| // Since we cannot reconstruct the query key of a DepNode::CodegenUnit, we |
| // would always end up having to evaluate the first caller of the |
| // `codegen_unit` query that *is* reconstructible. This might very well be |
| // the `compile_codegen_unit` query, thus re-codegenning the whole CGU just |
| // to re-trigger calling the `codegen_unit` query with the right key. At |
| // that point we would already have re-done all the work we are trying to |
| // avoid doing in the first place. |
| // The solution is simple: Just explicitly call the `codegen_unit` query for |
| // each CGU, right after partitioning. This way `try_mark_green` will always |
| // hit the cache instead of having to go through `force_from_dep_node`. |
| // This assertion makes sure, we actually keep applying the solution above. |
| debug_assert!(dep_node.kind != DepKind::CodegenUnit, |
| "calling force_from_dep_node() on DepKind::CodegenUnit"); |
| |
| if !dep_node.kind.can_reconstruct_query_key() { |
| return false |
| } |
| |
| macro_rules! def_id { |
| () => { |
| if let Some(def_id) = dep_node.extract_def_id(tcx) { |
| def_id |
| } else { |
| // return from the whole function |
| return false |
| } |
| } |
| }; |
| |
| macro_rules! krate { |
| () => { (def_id!()).krate } |
| }; |
| |
| macro_rules! force { |
| ($query:ident, $key:expr) => { |
| { |
| tcx.force_query::<crate::ty::query::queries::$query<'_>>($key, DUMMY_SP, *dep_node); |
| } |
| } |
| }; |
| |
| // FIXME(#45015): We should try move this boilerplate code into a macro |
| // somehow. |
| match dep_node.kind { |
| // These are inputs that are expected to be pre-allocated and that |
| // should therefore always be red or green already |
| DepKind::AllLocalTraitImpls | |
| DepKind::Krate | |
| DepKind::CrateMetadata | |
| DepKind::HirBody | |
| DepKind::Hir | |
| |
| // This are anonymous nodes |
| DepKind::TraitSelect | |
| |
| // We don't have enough information to reconstruct the query key of |
| // these |
| DepKind::IsCopy | |
| DepKind::IsSized | |
| DepKind::IsFreeze | |
| DepKind::NeedsDrop | |
| DepKind::Layout | |
| DepKind::ConstEval | |
| DepKind::ConstEvalRaw | |
| DepKind::InstanceSymbolName | |
| DepKind::MirShim | |
| DepKind::BorrowCheckKrate | |
| DepKind::Specializes | |
| DepKind::ImplementationsOfTrait | |
| DepKind::TypeParamPredicates | |
| DepKind::CodegenUnit | |
| DepKind::CompileCodegenUnit | |
| DepKind::FulfillObligation | |
| DepKind::VtableMethods | |
| DepKind::EraseRegionsTy | |
| DepKind::NormalizeProjectionTy | |
| DepKind::NormalizeTyAfterErasingRegions | |
| DepKind::ImpliedOutlivesBounds | |
| DepKind::DropckOutlives | |
| DepKind::EvaluateObligation | |
| DepKind::EvaluateGoal | |
| DepKind::TypeOpAscribeUserType | |
| DepKind::TypeOpEq | |
| DepKind::TypeOpSubtype | |
| DepKind::TypeOpProvePredicate | |
| DepKind::TypeOpNormalizeTy | |
| DepKind::TypeOpNormalizePredicate | |
| DepKind::TypeOpNormalizePolyFnSig | |
| DepKind::TypeOpNormalizeFnSig | |
| DepKind::SubstituteNormalizeAndTestPredicates | |
| DepKind::MethodAutoderefSteps | |
| DepKind::InstanceDefSizeEstimate | |
| DepKind::ProgramClausesForEnv | |
| |
| // This one should never occur in this context |
| DepKind::Null => { |
| bug!("force_from_dep_node() - Encountered {:?}", dep_node) |
| } |
| |
| // These are not queries |
| DepKind::CoherenceCheckTrait | |
| DepKind::ItemVarianceConstraints => { |
| return false |
| } |
| |
| DepKind::RegionScopeTree => { force!(region_scope_tree, def_id!()); } |
| |
| DepKind::Coherence => { force!(crate_inherent_impls, LOCAL_CRATE); } |
| DepKind::CoherenceInherentImplOverlapCheck => { |
| force!(crate_inherent_impls_overlap_check, LOCAL_CRATE) |
| }, |
| DepKind::PrivacyAccessLevels => { force!(privacy_access_levels, LOCAL_CRATE); } |
| DepKind::MirBuilt => { force!(mir_built, def_id!()); } |
| DepKind::MirConstQualif => { force!(mir_const_qualif, def_id!()); } |
| DepKind::MirConst => { force!(mir_const, def_id!()); } |
| DepKind::MirValidated => { force!(mir_validated, def_id!()); } |
| DepKind::MirOptimized => { force!(optimized_mir, def_id!()); } |
| |
| DepKind::BorrowCheck => { force!(borrowck, def_id!()); } |
| DepKind::MirBorrowCheck => { force!(mir_borrowck, def_id!()); } |
| DepKind::UnsafetyCheckResult => { force!(unsafety_check_result, def_id!()); } |
| DepKind::UnsafeDeriveOnReprPacked => { force!(unsafe_derive_on_repr_packed, def_id!()); } |
| DepKind::CheckModAttrs => { force!(check_mod_attrs, def_id!()); } |
| DepKind::CheckModLoops => { force!(check_mod_loops, def_id!()); } |
| DepKind::CheckModUnstableApiUsage => { force!(check_mod_unstable_api_usage, def_id!()); } |
| DepKind::CheckModItemTypes => { force!(check_mod_item_types, def_id!()); } |
| DepKind::CheckModPrivacy => { force!(check_mod_privacy, def_id!()); } |
| DepKind::CheckModIntrinsics => { force!(check_mod_intrinsics, def_id!()); } |
| DepKind::CheckModLiveness => { force!(check_mod_liveness, def_id!()); } |
| DepKind::CheckModImplWf => { force!(check_mod_impl_wf, def_id!()); } |
| DepKind::CollectModItemTypes => { force!(collect_mod_item_types, def_id!()); } |
| DepKind::Reachability => { force!(reachable_set, LOCAL_CRATE); } |
| DepKind::MirKeys => { force!(mir_keys, LOCAL_CRATE); } |
| DepKind::CrateVariances => { force!(crate_variances, LOCAL_CRATE); } |
| DepKind::AssociatedItems => { force!(associated_item, def_id!()); } |
| DepKind::TypeOfItem => { force!(type_of, def_id!()); } |
| DepKind::GenericsOfItem => { force!(generics_of, def_id!()); } |
| DepKind::PredicatesOfItem => { force!(predicates_of, def_id!()); } |
| DepKind::PredicatesDefinedOnItem => { force!(predicates_defined_on, def_id!()); } |
| DepKind::ExplicitPredicatesOfItem => { force!(explicit_predicates_of, def_id!()); } |
| DepKind::InferredOutlivesOf => { force!(inferred_outlives_of, def_id!()); } |
| DepKind::InferredOutlivesCrate => { force!(inferred_outlives_crate, LOCAL_CRATE); } |
| DepKind::SuperPredicatesOfItem => { force!(super_predicates_of, def_id!()); } |
| DepKind::TraitDefOfItem => { force!(trait_def, def_id!()); } |
| DepKind::AdtDefOfItem => { force!(adt_def, def_id!()); } |
| DepKind::ImplTraitRef => { force!(impl_trait_ref, def_id!()); } |
| DepKind::ImplPolarity => { force!(impl_polarity, def_id!()); } |
| DepKind::Issue33140SelfTy => { force!(issue33140_self_ty, def_id!()); } |
| DepKind::FnSignature => { force!(fn_sig, def_id!()); } |
| DepKind::CoerceUnsizedInfo => { force!(coerce_unsized_info, def_id!()); } |
| DepKind::ItemVariances => { force!(variances_of, def_id!()); } |
| DepKind::IsConstFn => { force!(is_const_fn_raw, def_id!()); } |
| DepKind::IsPromotableConstFn => { force!(is_promotable_const_fn, def_id!()); } |
| DepKind::IsForeignItem => { force!(is_foreign_item, def_id!()); } |
| DepKind::SizedConstraint => { force!(adt_sized_constraint, def_id!()); } |
| DepKind::DtorckConstraint => { force!(adt_dtorck_constraint, def_id!()); } |
| DepKind::AdtDestructor => { force!(adt_destructor, def_id!()); } |
| DepKind::AssociatedItemDefIds => { force!(associated_item_def_ids, def_id!()); } |
| DepKind::InherentImpls => { force!(inherent_impls, def_id!()); } |
| DepKind::TypeckBodiesKrate => { force!(typeck_item_bodies, LOCAL_CRATE); } |
| DepKind::TypeckTables => { force!(typeck_tables_of, def_id!()); } |
| DepKind::UsedTraitImports => { force!(used_trait_imports, def_id!()); } |
| DepKind::HasTypeckTables => { force!(has_typeck_tables, def_id!()); } |
| DepKind::SymbolName => { force!(def_symbol_name, def_id!()); } |
| DepKind::SpecializationGraph => { force!(specialization_graph_of, def_id!()); } |
| DepKind::ObjectSafety => { force!(is_object_safe, def_id!()); } |
| DepKind::TraitImpls => { force!(trait_impls_of, def_id!()); } |
| DepKind::CheckMatch => { force!(check_match, def_id!()); } |
| |
| DepKind::ParamEnv => { force!(param_env, def_id!()); } |
| DepKind::Environment => { force!(environment, def_id!()); } |
| DepKind::DescribeDef => { force!(describe_def, def_id!()); } |
| DepKind::DefSpan => { force!(def_span, def_id!()); } |
| DepKind::LookupStability => { force!(lookup_stability, def_id!()); } |
| DepKind::LookupDeprecationEntry => { |
| force!(lookup_deprecation_entry, def_id!()); |
| } |
| DepKind::ConstIsRvaluePromotableToStatic => { |
| force!(const_is_rvalue_promotable_to_static, def_id!()); |
| } |
| DepKind::RvaluePromotableMap => { force!(rvalue_promotable_map, def_id!()); } |
| DepKind::ImplParent => { force!(impl_parent, def_id!()); } |
| DepKind::TraitOfItem => { force!(trait_of_item, def_id!()); } |
| DepKind::IsReachableNonGeneric => { force!(is_reachable_non_generic, def_id!()); } |
| DepKind::IsUnreachableLocalDefinition => { |
| force!(is_unreachable_local_definition, def_id!()); |
| } |
| DepKind::IsMirAvailable => { force!(is_mir_available, def_id!()); } |
| DepKind::ItemAttrs => { force!(item_attrs, def_id!()); } |
| DepKind::CodegenFnAttrs => { force!(codegen_fn_attrs, def_id!()); } |
| DepKind::FnArgNames => { force!(fn_arg_names, def_id!()); } |
| DepKind::RenderedConst => { force!(rendered_const, def_id!()); } |
| DepKind::DylibDepFormats => { force!(dylib_dependency_formats, krate!()); } |
| DepKind::IsPanicRuntime => { force!(is_panic_runtime, krate!()); } |
| DepKind::IsCompilerBuiltins => { force!(is_compiler_builtins, krate!()); } |
| DepKind::HasGlobalAllocator => { force!(has_global_allocator, krate!()); } |
| DepKind::HasPanicHandler => { force!(has_panic_handler, krate!()); } |
| DepKind::ExternCrate => { force!(extern_crate, def_id!()); } |
| DepKind::LintLevels => { force!(lint_levels, LOCAL_CRATE); } |
| DepKind::InScopeTraits => { force!(in_scope_traits_map, def_id!().index); } |
| DepKind::ModuleExports => { force!(module_exports, def_id!()); } |
| DepKind::IsSanitizerRuntime => { force!(is_sanitizer_runtime, krate!()); } |
| DepKind::IsProfilerRuntime => { force!(is_profiler_runtime, krate!()); } |
| DepKind::GetPanicStrategy => { force!(panic_strategy, krate!()); } |
| DepKind::IsNoBuiltins => { force!(is_no_builtins, krate!()); } |
| DepKind::ImplDefaultness => { force!(impl_defaultness, def_id!()); } |
| DepKind::CheckItemWellFormed => { force!(check_item_well_formed, def_id!()); } |
| DepKind::CheckTraitItemWellFormed => { force!(check_trait_item_well_formed, def_id!()); } |
| DepKind::CheckImplItemWellFormed => { force!(check_impl_item_well_formed, def_id!()); } |
| DepKind::ReachableNonGenerics => { force!(reachable_non_generics, krate!()); } |
| DepKind::NativeLibraries => { force!(native_libraries, krate!()); } |
| DepKind::EntryFn => { force!(entry_fn, krate!()); } |
| DepKind::PluginRegistrarFn => { force!(plugin_registrar_fn, krate!()); } |
| DepKind::ProcMacroDeclsStatic => { force!(proc_macro_decls_static, krate!()); } |
| DepKind::CrateDisambiguator => { force!(crate_disambiguator, krate!()); } |
| DepKind::CrateHash => { force!(crate_hash, krate!()); } |
| DepKind::OriginalCrateName => { force!(original_crate_name, krate!()); } |
| DepKind::ExtraFileName => { force!(extra_filename, krate!()); } |
| |
| DepKind::AllTraitImplementations => { |
| force!(all_trait_implementations, krate!()); |
| } |
| |
| DepKind::DllimportForeignItems => { |
| force!(dllimport_foreign_items, krate!()); |
| } |
| DepKind::IsDllimportForeignItem => { |
| force!(is_dllimport_foreign_item, def_id!()); |
| } |
| DepKind::IsStaticallyIncludedForeignItem => { |
| force!(is_statically_included_foreign_item, def_id!()); |
| } |
| DepKind::NativeLibraryKind => { force!(native_library_kind, def_id!()); } |
| DepKind::LinkArgs => { force!(link_args, LOCAL_CRATE); } |
| |
| DepKind::ResolveLifetimes => { force!(resolve_lifetimes, krate!()); } |
| DepKind::NamedRegion => { force!(named_region_map, def_id!().index); } |
| DepKind::IsLateBound => { force!(is_late_bound_map, def_id!().index); } |
| DepKind::ObjectLifetimeDefaults => { |
| force!(object_lifetime_defaults_map, def_id!().index); |
| } |
| |
| DepKind::Visibility => { force!(visibility, def_id!()); } |
| DepKind::DepKind => { force!(dep_kind, krate!()); } |
| DepKind::CrateName => { force!(crate_name, krate!()); } |
| DepKind::ItemChildren => { force!(item_children, def_id!()); } |
| DepKind::ExternModStmtCnum => { force!(extern_mod_stmt_cnum, def_id!()); } |
| DepKind::GetLibFeatures => { force!(get_lib_features, LOCAL_CRATE); } |
| DepKind::DefinedLibFeatures => { force!(defined_lib_features, krate!()); } |
| DepKind::GetLangItems => { force!(get_lang_items, LOCAL_CRATE); } |
| DepKind::DefinedLangItems => { force!(defined_lang_items, krate!()); } |
| DepKind::MissingLangItems => { force!(missing_lang_items, krate!()); } |
| DepKind::VisibleParentMap => { force!(visible_parent_map, LOCAL_CRATE); } |
| DepKind::MissingExternCrateItem => { |
| force!(missing_extern_crate_item, krate!()); |
| } |
| DepKind::UsedCrateSource => { force!(used_crate_source, krate!()); } |
| DepKind::PostorderCnums => { force!(postorder_cnums, LOCAL_CRATE); } |
| |
| DepKind::Freevars => { force!(freevars, def_id!()); } |
| DepKind::MaybeUnusedTraitImport => { |
| force!(maybe_unused_trait_import, def_id!()); |
| } |
| DepKind::NamesImportedByGlobUse => { force!(names_imported_by_glob_use, def_id!()); } |
| DepKind::MaybeUnusedExternCrates => { force!(maybe_unused_extern_crates, LOCAL_CRATE); } |
| DepKind::StabilityIndex => { force!(stability_index, LOCAL_CRATE); } |
| DepKind::AllTraits => { force!(all_traits, LOCAL_CRATE); } |
| DepKind::AllCrateNums => { force!(all_crate_nums, LOCAL_CRATE); } |
| DepKind::ExportedSymbols => { force!(exported_symbols, krate!()); } |
| DepKind::CollectAndPartitionMonoItems => { |
| force!(collect_and_partition_mono_items, LOCAL_CRATE); |
| } |
| DepKind::IsCodegenedItem => { force!(is_codegened_item, def_id!()); } |
| DepKind::OutputFilenames => { force!(output_filenames, LOCAL_CRATE); } |
| |
| DepKind::TargetFeaturesWhitelist => { force!(target_features_whitelist, LOCAL_CRATE); } |
| |
| DepKind::Features => { force!(features_query, LOCAL_CRATE); } |
| |
| DepKind::ProgramClausesFor => { force!(program_clauses_for, def_id!()); } |
| DepKind::WasmImportModuleMap => { force!(wasm_import_module_map, krate!()); } |
| DepKind::ForeignModules => { force!(foreign_modules, krate!()); } |
| |
| DepKind::UpstreamMonomorphizations => { |
| force!(upstream_monomorphizations, krate!()); |
| } |
| DepKind::UpstreamMonomorphizationsFor => { |
| force!(upstream_monomorphizations_for, def_id!()); |
| } |
| DepKind::BackendOptimizationLevel => { |
| force!(backend_optimization_level, krate!()); |
| } |
| } |
| |
| true |
| } |
| |
| |
| // FIXME(#45015): Another piece of boilerplate code that could be generated in |
| // a combined define_dep_nodes!()/define_queries!() macro. |
| macro_rules! impl_load_from_cache { |
| ($($dep_kind:ident => $query_name:ident,)*) => { |
| impl DepNode { |
| // Check whether the query invocation corresponding to the given |
| // DepNode is eligible for on-disk-caching. |
| pub fn cache_on_disk(&self, tcx: TyCtxt<'_, '_, '_>) -> bool { |
| use crate::ty::query::queries; |
| use crate::ty::query::QueryDescription; |
| |
| match self.kind { |
| $(DepKind::$dep_kind => { |
| let def_id = self.extract_def_id(tcx).unwrap(); |
| queries::$query_name::cache_on_disk(tcx.global_tcx(), def_id) |
| })* |
| _ => false |
| } |
| } |
| |
| // This is method will execute the query corresponding to the given |
| // DepNode. It is only expected to work for DepNodes where the |
| // above `cache_on_disk` methods returns true. |
| // Also, as a sanity check, it expects that the corresponding query |
| // invocation has been marked as green already. |
| pub fn load_from_on_disk_cache(&self, tcx: TyCtxt<'_, '_, '_>) { |
| match self.kind { |
| $(DepKind::$dep_kind => { |
| debug_assert!(tcx.dep_graph |
| .node_color(self) |
| .map(|c| c.is_green()) |
| .unwrap_or(false)); |
| |
| let def_id = self.extract_def_id(tcx).unwrap(); |
| let _ = tcx.$query_name(def_id); |
| })* |
| _ => { |
| bug!() |
| } |
| } |
| } |
| } |
| } |
| } |
| |
| impl_load_from_cache!( |
| TypeckTables => typeck_tables_of, |
| MirOptimized => optimized_mir, |
| UnsafetyCheckResult => unsafety_check_result, |
| BorrowCheck => borrowck, |
| MirBorrowCheck => mir_borrowck, |
| MirConstQualif => mir_const_qualif, |
| SymbolName => def_symbol_name, |
| ConstIsRvaluePromotableToStatic => const_is_rvalue_promotable_to_static, |
| CheckMatch => check_match, |
| TypeOfItem => type_of, |
| GenericsOfItem => generics_of, |
| PredicatesOfItem => predicates_of, |
| UsedTraitImports => used_trait_imports, |
| CodegenFnAttrs => codegen_fn_attrs, |
| SpecializationGraph => specialization_graph_of, |
| ); |