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Make librustc compile.

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This commit is contained in:
Camille GILLOT 2020-03-19 14:24:21 +01:00
parent 8e873c3c64
commit dca03443a0
8 changed files with 773 additions and 7 deletions
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3
src/librustc/ty/query/README.md Normal file
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@ -0,0 +1,3 @@
For more information about how the query system works, see the [rustc dev guide].
[rustc dev guide]: https://rustc-dev-guide.rust-lang.org/query.html

29
src/librustc/ty/query/job.rs Normal file
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@ -0,0 +1,29 @@
use crate::ty::tls;
use rustc_query_system::query::deadlock;
use rustc_rayon_core as rayon_core;
use std::thread;
/// Creates a new thread and forwards information in thread locals to it.
/// The new thread runs the deadlock handler.
/// Must only be called when a deadlock is about to happen.
pub unsafe fn handle_deadlock() {
let registry = rayon_core::Registry::current();
let gcx_ptr = tls::GCX_PTR.with(|gcx_ptr| gcx_ptr as *const _);
let gcx_ptr = &*gcx_ptr;
let rustc_span_globals =
rustc_span::GLOBALS.with(|rustc_span_globals| rustc_span_globals as *const _);
let rustc_span_globals = &*rustc_span_globals;
let syntax_globals = rustc_ast::attr::GLOBALS.with(|syntax_globals| syntax_globals as *const _);
let syntax_globals = &*syntax_globals;
thread::spawn(move || {
tls::GCX_PTR.set(gcx_ptr, || {
rustc_ast::attr::GLOBALS.set(syntax_globals, || {
rustc_span::GLOBALS
.set(rustc_span_globals, || tls::with_global(|tcx| deadlock(tcx, &registry)))
});
})
});
}

2
src/librustc/ty/query/keys.rs
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@ -4,10 +4,10 @@ use crate::infer::canonical::Canonical;
use crate::mir;
use crate::traits;
use crate::ty::fast_reject::SimplifiedType;
use crate::ty::query::caches::DefaultCacheSelector;
use crate::ty::subst::{GenericArg, SubstsRef};
use crate::ty::{self, Ty, TyCtxt};
use rustc_hir::def_id::{CrateNum, DefId, LocalDefId, LOCAL_CRATE};
use rustc_query_system::query::DefaultCacheSelector;
use rustc_span::symbol::Symbol;
use rustc_span::{Span, DUMMY_SP};

191
src/librustc/ty/query/mod.rs Normal file
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@ -0,0 +1,191 @@
use crate::dep_graph::{self, DepConstructor, DepNode, DepNodeParams};
use crate::hir::exports::Export;
use crate::hir::map;
use crate::infer::canonical::{self, Canonical};
use crate::lint::LintLevelMap;
use crate::middle::codegen_fn_attrs::CodegenFnAttrs;
use crate::middle::cstore::{CrateSource, DepKind, NativeLibraryKind};
use crate::middle::cstore::{ExternCrate, ForeignModule, LinkagePreference, NativeLibrary};
use crate::middle::exported_symbols::{ExportedSymbol, SymbolExportLevel};
use crate::middle::lang_items::{LangItem, LanguageItems};
use crate::middle::lib_features::LibFeatures;
use crate::middle::privacy::AccessLevels;
use crate::middle::region;
use crate::middle::resolve_lifetime::{ObjectLifetimeDefault, Region, ResolveLifetimes};
use crate::middle::stability::{self, DeprecationEntry};
use crate::mir;
use crate::mir::interpret::GlobalId;
use crate::mir::interpret::{ConstEvalRawResult, ConstEvalResult, ConstValue};
use crate::mir::interpret::{LitToConstError, LitToConstInput};
use crate::mir::mono::CodegenUnit;
use crate::traits::query::{
CanonicalPredicateGoal, CanonicalProjectionGoal, CanonicalTyGoal,
CanonicalTypeOpAscribeUserTypeGoal, CanonicalTypeOpEqGoal, CanonicalTypeOpNormalizeGoal,
CanonicalTypeOpProvePredicateGoal, CanonicalTypeOpSubtypeGoal, NoSolution,
};
use crate::traits::query::{
DropckOutlivesResult, DtorckConstraint, MethodAutoderefStepsResult, NormalizationResult,
OutlivesBound,
};
use crate::traits::specialization_graph;
use crate::traits::Clauses;
use crate::traits::{self, Vtable};
use crate::ty::steal::Steal;
use crate::ty::subst::{GenericArg, SubstsRef};
use crate::ty::util::AlwaysRequiresDrop;
use crate::ty::{self, AdtSizedConstraint, CrateInherentImpls, ParamEnvAnd, Ty, TyCtxt};
use crate::util::common::ErrorReported;
use rustc_data_structures::fingerprint::Fingerprint;
use rustc_data_structures::fx::{FxHashMap, FxHashSet, FxIndexMap};
use rustc_data_structures::profiling::ProfileCategory::*;
use rustc_data_structures::stable_hasher::StableVec;
use rustc_data_structures::svh::Svh;
use rustc_data_structures::sync::Lrc;
use rustc_hir as hir;
use rustc_hir::def::DefKind;
use rustc_hir::def_id::{CrateNum, DefId, DefIdMap, DefIdSet, LocalDefId};
use rustc_hir::{Crate, HirIdSet, ItemLocalId, TraitCandidate};
use rustc_index::vec::IndexVec;
use rustc_session::config::{EntryFnType, OptLevel, OutputFilenames, SymbolManglingVersion};
use rustc_session::CrateDisambiguator;
use rustc_target::spec::PanicStrategy;
use rustc_ast::ast;
use rustc_attr as attr;
use rustc_span::symbol::Symbol;
use rustc_span::{Span, DUMMY_SP};
use std::borrow::Cow;
use std::collections::BTreeMap;
use std::ops::Deref;
use std::sync::Arc;
#[macro_use]
mod plumbing;
pub(crate) use rustc_query_system::query::CycleError;
use rustc_query_system::query::*;
mod stats;
pub use self::stats::print_stats;
#[cfg(parallel_compiler)]
mod job;
#[cfg(parallel_compiler)]
pub use self::job::handle_deadlock;
pub use rustc_query_system::query::{QueryInfo, QueryJob, QueryJobId};
mod keys;
use self::keys::Key;
mod values;
use self::values::Value;
use rustc_query_system::query::QueryAccessors;
pub use rustc_query_system::query::QueryConfig;
pub(crate) use rustc_query_system::query::QueryDescription;
mod on_disk_cache;
pub use self::on_disk_cache::OnDiskCache;
mod profiling_support;
pub use self::profiling_support::{IntoSelfProfilingString, QueryKeyStringBuilder};
// Each of these queries 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.
rustc_query_append! { [define_queries!][<'tcx>] }
/// 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 `DepNode`s. In particular, we
/// enforce by construction that the GUID/fingerprint of certain `DepNode`s 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 `DepNode`
/// with kind `MirValidated`, we know that the GUID/fingerprint of the `DepNode`
/// 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 `LocalDefId` 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<'tcx>(tcx: TyCtxt<'tcx>, dep_node: &DepNode) -> bool {
// We must avoid ever having to call `force_from_dep_node()` for a
// `DepNode::codegen_unit`:
// Since we cannot reconstruct the query key of a `DepNode::codegen_unit`, 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 != crate::dep_graph::DepKind::codegen_unit,
"calling force_from_dep_node() on DepKind::codegen_unit"
);
if !dep_node.kind.can_reconstruct_query_key() {
return false;
}
rustc_dep_node_force!([dep_node, tcx]
// These are inputs that are expected to be pre-allocated and that
// should therefore always be red or green already.
crate::dep_graph::DepKind::CrateMetadata |
// These are anonymous nodes.
crate::dep_graph::DepKind::TraitSelect |
// We don't have enough information to reconstruct the query key of
// these.
crate::dep_graph::DepKind::CompileCodegenUnit => {
bug!("force_from_dep_node: encountered {:?}", dep_node)
}
);
false
}
pub(crate) fn try_load_from_on_disk_cache<'tcx>(tcx: TyCtxt<'tcx>, dep_node: &DepNode) {
rustc_dep_node_try_load_from_on_disk_cache!(dep_node, tcx)
}

2
src/librustc/ty/query/on_disk_cache.rs
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@ -994,7 +994,7 @@ fn encode_query_results<'a, 'tcx, Q, E>(
query_result_index: &mut EncodedQueryResultIndex,
) -> Result<(), E::Error>
where
Q: super::config::QueryDescription<TyCtxt<'tcx>>,
Q: super::QueryDescription<TyCtxt<'tcx>>,
Q::Value: Encodable,
E: 'a + TyEncoder,
{

543
src/librustc/ty/query/plumbing.rs Normal file
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@ -0,0 +1,543 @@
//! The implementation of the query system itself. This 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::DepGraph;
use crate::ty::query::Query;
use crate::ty::tls::{self, ImplicitCtxt};
use crate::ty::{self, TyCtxt};
use rustc_query_system::query::QueryContext;
use rustc_query_system::query::{CycleError, QueryJobId, QueryJobInfo};
use rustc_data_structures::fx::FxHashMap;
use rustc_data_structures::sync::Lock;
use rustc_data_structures::thin_vec::ThinVec;
use rustc_errors::{struct_span_err, Diagnostic, DiagnosticBuilder, Handler, Level};
use rustc_session::Session;
use rustc_span::def_id::DefId;
use rustc_span::Span;
impl QueryContext for TyCtxt<'tcx> {
type Query = Query<'tcx>;
fn session(&self) -> &Session {
&self.sess
}
fn def_path_str(&self, def_id: DefId) -> String {
TyCtxt::def_path_str(*self, def_id)
}
fn dep_graph(&self) -> &DepGraph {
&self.dep_graph
}
fn read_query_job<R>(&self, op: impl FnOnce(Option<QueryJobId<Self::DepKind>>) -> R) -> R {
tls::with_related_context(*self, move |icx| op(icx.query))
}
fn try_collect_active_jobs(
&self,
) -> Option<FxHashMap<QueryJobId<Self::DepKind>, QueryJobInfo<Self>>> {
self.queries.try_collect_active_jobs()
}
/// 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)]
fn start_query<R>(
&self,
token: QueryJobId<Self::DepKind>,
diagnostics: Option<&Lock<ThinVec<Diagnostic>>>,
compute: impl FnOnce(Self) -> R,
) -> R {
// The `TyCtxt` stored in TLS has the same global interner lifetime
// as `self`, so we use `with_related_context` to relate the 'tcx lifetimes
// when accessing the `ImplicitCtxt`.
tls::with_related_context(*self, move |current_icx| {
// Update the `ImplicitCtxt` to point to our new query job.
let new_icx = ImplicitCtxt {
tcx: *self,
query: Some(token),
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(*self))
})
}
}
impl<'tcx> TyCtxt<'tcx> {
#[inline(never)]
#[cold]
pub(super) fn report_cycle(
self,
CycleError { usage, cycle: stack }: CycleError<Query<'tcx>>,
) -> DiagnosticBuilder<'tcx> {
assert!(!stack.is_empty());
let fix_span = |span: Span, query: &Query<'tcx>| {
self.sess.source_map().guess_head_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.)
ty::print::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)),
);
}
err
})
}
pub fn try_print_query_stack(handler: &Handler) {
eprintln!("query stack during panic:");
// Be careful reyling on global state here: this code is called from
// a panic hook, which means that the global `Handler` may be in a weird
// state if it was responsible for triggering the panic.
ty::tls::with_context_opt(|icx| {
if let Some(icx) = icx {
let query_map = icx.tcx.queries.try_collect_active_jobs();
let mut current_query = icx.query;
let mut i = 0;
while let Some(query) = current_query {
let query_info =
if let Some(info) = query_map.as_ref().and_then(|map| map.get(&query)) {
info
} else {
break;
};
let mut diag = Diagnostic::new(
Level::FailureNote,
&format!(
"#{} [{}] {}",
i,
query_info.info.query.name(),
query_info.info.query.describe(icx.tcx)
),
);
diag.span = icx.tcx.sess.source_map().guess_head_span(query_info.info.span).into();
handler.force_print_diagnostic(diag);
current_query = query_info.job.parent;
i += 1;
}
}
});
eprintln!("end of query stack");
}
}
macro_rules! handle_cycle_error {
([][$tcx: expr, $error:expr]) => {{
$tcx.report_cycle($error).emit();
Value::from_cycle_error($tcx)
}};
([fatal_cycle $($rest:tt)*][$tcx:expr, $error:expr]) => {{
$tcx.report_cycle($error).emit();
$tcx.sess.abort_if_errors();
unreachable!()
}};
([cycle_delay_bug $($rest:tt)*][$tcx:expr, $error:expr]) => {{
$tcx.report_cycle($error).delay_as_bug();
Value::from_cycle_error($tcx)
}};
([$other:ident $(($($other_args:tt)*))* $(, $($modifiers:tt)*)*][$($args:tt)*]) => {
handle_cycle_error!([$($($modifiers)*)*][$($args)*])
};
}
macro_rules! is_anon {
([]) => {{
false
}};
([anon $($rest:tt)*]) => {{
true
}};
([$other:ident $(($($other_args:tt)*))* $(, $($modifiers:tt)*)*]) => {
is_anon!([$($($modifiers)*)*])
};
}
macro_rules! is_eval_always {
([]) => {{
false
}};
([eval_always $($rest:tt)*]) => {{
true
}};
([$other:ident $(($($other_args:tt)*))* $(, $($modifiers:tt)*)*]) => {
is_eval_always!([$($($modifiers)*)*])
};
}
macro_rules! query_storage {
(<$tcx:tt>[][$K:ty, $V:ty]) => {
<<$K as Key>::CacheSelector as CacheSelector<TyCtxt<$tcx>, $K, $V>>::Cache
};
(<$tcx:tt>[storage($ty:ty) $($rest:tt)*][$K:ty, $V:ty]) => {
$ty
};
(<$tcx:tt>[$other:ident $(($($other_args:tt)*))* $(, $($modifiers:tt)*)*][$($args:tt)*]) => {
query_storage!(<$tcx>[$($($modifiers)*)*][$($args)*])
};
}
macro_rules! hash_result {
([][$hcx:expr, $result:expr]) => {{
dep_graph::hash_result($hcx, &$result)
}};
([no_hash $($rest:tt)*][$hcx:expr, $result:expr]) => {{
None
}};
([$other:ident $(($($other_args:tt)*))* $(, $($modifiers:tt)*)*][$($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;
use crate::{
rustc_data_structures::stable_hasher::HashStable,
rustc_data_structures::stable_hasher::StableHasher,
ich::StableHashingContext
};
use rustc_data_structures::profiling::ProfileCategory;
define_queries_struct! {
tcx: $tcx,
input: ($(([$($modifiers)*] [$($attr)*] [$name]))*)
}
#[allow(nonstandard_style)]
#[derive(Clone, Debug)]
pub enum Query<$tcx> {
$($(#[$attr])* $name($K)),*
}
impl<$tcx> Query<$tcx> {
pub fn name(&self) -> &'static str {
match *self {
$(Query::$name(_) => stringify!($name),)*
}
}
pub fn describe(&self, tcx: TyCtxt<$tcx>) -> 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(&self, hcx: &mut StableHashingContext<'a>, hasher: &mut StableHasher) {
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 ()>
})*
}
$(impl<$tcx> QueryConfig<TyCtxt<$tcx>> for queries::$name<$tcx> {
type Key = $K;
type Value = $V;
const NAME: &'static str = stringify!($name);
const CATEGORY: ProfileCategory = $category;
}
impl<$tcx> QueryAccessors<TyCtxt<$tcx>> for queries::$name<$tcx> {
const ANON: bool = is_anon!([$($modifiers)*]);
const EVAL_ALWAYS: bool = is_eval_always!([$($modifiers)*]);
const DEP_KIND: dep_graph::DepKind = dep_graph::DepKind::$node;
type Cache = query_storage!(<$tcx>[$($modifiers)*][$K, $V]);
#[inline(always)]
fn query_state<'a>(tcx: TyCtxt<$tcx>) -> &'a QueryState<TyCtxt<$tcx>, Self::Cache> {
&tcx.queries.$name
}
#[allow(unused)]
#[inline(always)]
fn to_dep_node(tcx: TyCtxt<$tcx>, key: &Self::Key) -> DepNode {
DepConstructor::$node(tcx, *key)
}
#[inline]
fn compute(tcx: TyCtxt<'tcx>, key: Self::Key) -> Self::Value {
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)
.$name;
provider(tcx, key)
}
fn hash_result(
_hcx: &mut StableHashingContext<'_>,
_result: &Self::Value
) -> Option<Fingerprint> {
hash_result!([$($modifiers)*][_hcx, _result])
}
fn handle_cycle_error(
tcx: TyCtxt<'tcx>,
error: CycleError<Query<'tcx>>
) -> Self::Value {
handle_cycle_error!([$($modifiers)*][tcx, error])
}
})*
#[derive(Copy, Clone)]
pub struct TyCtxtEnsure<'tcx> {
pub tcx: TyCtxt<'tcx>,
}
impl TyCtxtEnsure<$tcx> {
$($(#[$attr])*
#[inline(always)]
pub fn $name(self, key: $K) {
self.tcx.ensure_query::<queries::$name<'_>>(key)
})*
}
#[derive(Copy, Clone)]
pub struct TyCtxtAt<'tcx> {
pub tcx: TyCtxt<'tcx>,
pub span: Span,
}
impl Deref for TyCtxtAt<'tcx> {
type Target = TyCtxt<'tcx>;
#[inline(always)]
fn deref(&self) -> &Self::Target {
&self.tcx
}
}
impl TyCtxt<$tcx> {
/// Returns a transparent wrapper for `TyCtxt`, which ensures queries
/// are executed instead of just returning their results.
#[inline(always)]
pub fn ensure(self) -> TyCtxtEnsure<$tcx> {
TyCtxtEnsure {
tcx: self,
}
}
/// Returns 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<$tcx> {
TyCtxtAt {
tcx: self,
span
}
}
$($(#[$attr])*
#[inline(always)]
pub fn $name(self, key: $K) -> $V {
self.at(DUMMY_SP).$name(key)
})*
/// All self-profiling events generated by the query engine use
/// virtual `StringId`s for their `event_id`. This method makes all
/// those virtual `StringId`s point to actual strings.
///
/// If we are recording only summary data, the ids will point to
/// just the query names. If we are recording query keys too, we
/// allocate the corresponding strings here.
pub fn alloc_self_profile_query_strings(self) {
use crate::ty::query::profiling_support::{
alloc_self_profile_query_strings_for_query_cache,
QueryKeyStringCache,
};
if !self.prof.enabled() {
return;
}
let mut string_cache = QueryKeyStringCache::new();
$({
alloc_self_profile_query_strings_for_query_cache(
self,
stringify!($name),
&self.queries.$name,
&mut string_cache,
);
})*
}
}
impl TyCtxtAt<$tcx> {
$($(#[$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 incrimental comilation 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])* $name: QueryState<
TyCtxt<$tcx>,
<queries::$name<$tcx> as QueryAccessors<TyCtxt<'tcx>>>::Cache,
>,)*
}
impl<$tcx> Queries<$tcx> {
pub(crate) 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(crate) fn try_collect_active_jobs(
&self
) -> Option<FxHashMap<QueryJobId<crate::dep_graph::DepKind>, QueryJobInfo<TyCtxt<'tcx>>>> {
let mut jobs = FxHashMap::default();
$(
self.$name.try_collect_active_jobs(
<queries::$name<'tcx> as QueryAccessors<TyCtxt<'tcx>>>::DEP_KIND,
Query::$name,
&mut jobs,
)?;
)*
Some(jobs)
}
}
};
}
macro_rules! define_provider_struct {
(tcx: $tcx:tt,
input: ($(([$($modifiers:tt)*] [$name:ident] [$K:ty] [$R:ty]))*)) => {
pub struct Providers<$tcx> {
$(pub $name: fn(TyCtxt<$tcx>, $K) -> $R,)*
}
impl<$tcx> Default for Providers<$tcx> {
fn default() -> Self {
$(fn $name<$tcx>(_: TyCtxt<$tcx>, key: $K) -> $R {
bug!("`tcx.{}({:?})` unsupported by its crate",
stringify!($name), key);
})*
Providers { $($name),* }
}
}
};
}

4
src/librustc/ty/query/profiling_support.rs
View File

@ -1,11 +1,11 @@
use crate::ty::context::TyCtxt;
use crate::ty::query::caches::QueryCache;
use crate::ty::query::plumbing::QueryState;
use measureme::{StringComponent, StringId};
use rustc_data_structures::fx::FxHashMap;
use rustc_data_structures::profiling::SelfProfiler;
use rustc_hir::def_id::{CrateNum, DefId, DefIndex, CRATE_DEF_INDEX, LOCAL_CRATE};
use rustc_hir::definitions::DefPathData;
use rustc_query_system::query::QueryCache;
use rustc_query_system::query::QueryState;
use std::fmt::Debug;
use std::io::Write;

6
src/librustc/ty/query/stats.rs
View File

@ -1,9 +1,9 @@
use crate::ty::query::caches::QueryCache;
use crate::ty::query::config::{QueryAccessors, QueryContext};
use crate::ty::query::plumbing::QueryState;
use crate::ty::query::queries;
use crate::ty::TyCtxt;
use rustc_hir::def_id::{DefId, LOCAL_CRATE};
use rustc_query_system::query::QueryCache;
use rustc_query_system::query::QueryState;
use rustc_query_system::query::{QueryAccessors, QueryContext};
use std::any::type_name;
use std::mem;