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self-profile: Switch to new approach for event_id generation that enables query-invocation-specific event_ids.

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This commit is contained in:
Michael Woerister 2019-12-13 14:44:08 +01:00
parent 2d8d559bbe
commit a62c040929
9 changed files with 277 additions and 108 deletions
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4
Cargo.lock
View File

@ -1995,9 +1995,9 @@ dependencies = [
[[package]]
name = "measureme"
version = "0.5.0"
version = "0.6.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "c420bbc064623934620b5ab2dc0cf96451b34163329e82f95e7fa1b7b99a6ac8"
checksum = "36dcc09c1a633097649f7d48bde3d8a61d2a43c01ce75525e31fbbc82c0fccf4"
dependencies = [
"byteorder",
"memmap",

1
src/librustc/Cargo.toml
View File

@ -36,5 +36,6 @@ parking_lot = "0.9"
byteorder = { version = "1.3" }
chalk-engine = { version = "0.9.0", default-features=false }
smallvec = { version = "1.0", features = ["union", "may_dangle"] }
measureme = "0.6.0"
rustc_error_codes = { path = "../librustc_error_codes" }
rustc_session = { path = "../librustc_session" }

30
src/librustc/dep_graph/graph.rs
View File

@ -8,6 +8,8 @@ use rustc_data_structures::sync::{AtomicU32, AtomicU64, Lock, Lrc, Ordering};
use rustc_index::vec::{Idx, IndexVec};
use smallvec::SmallVec;
use std::collections::hash_map::Entry;
use rustc_data_structures::profiling::QueryInvocationId;
use std::sync::atomic::Ordering::Relaxed;
use std::env;
use std::hash::Hash;
use std::mem;
@ -25,6 +27,12 @@ use super::serialized::{SerializedDepGraph, SerializedDepNodeIndex};
#[derive(Clone)]
pub struct DepGraph {
data: Option<Lrc<DepGraphData>>,
/// This field is used for assigning DepNodeIndices when running in
/// non-incremental mode. Even in non-incremental mode we make sure that
/// each task as a `DepNodeIndex` that uniquely identifies it. This unique
/// ID is used for self-profiling.
virtual_dep_node_index: Lrc<AtomicU32>,
}
rustc_index::newtype_index! {
@ -35,6 +43,13 @@ impl DepNodeIndex {
pub const INVALID: DepNodeIndex = DepNodeIndex::MAX;
}
impl std::convert::From<DepNodeIndex> for QueryInvocationId {
#[inline]
fn from(dep_node_index: DepNodeIndex) -> Self {
QueryInvocationId(dep_node_index.as_u32())
}
}
#[derive(PartialEq)]
pub enum DepNodeColor {
Red,
@ -105,11 +120,15 @@ impl DepGraph {
previous: prev_graph,
colors: DepNodeColorMap::new(prev_graph_node_count),
})),
virtual_dep_node_index: Lrc::new(AtomicU32::new(0)),
}
}
pub fn new_disabled() -> DepGraph {
DepGraph { data: None }
DepGraph {
data: None,
virtual_dep_node_index: Lrc::new(AtomicU32::new(0)),
}
}
/// Returns `true` if we are actually building the full dep-graph, and `false` otherwise.
@ -322,7 +341,7 @@ impl DepGraph {
(result, dep_node_index)
} else {
(task(cx, arg), DepNodeIndex::INVALID)
(task(cx, arg), self.next_virtual_depnode_index())
}
}
@ -352,7 +371,7 @@ impl DepGraph {
let dep_node_index = data.current.complete_anon_task(dep_kind, task_deps);
(result, dep_node_index)
} else {
(op(), DepNodeIndex::INVALID)
(op(), self.next_virtual_depnode_index())
}
}
@ -877,6 +896,11 @@ impl DepGraph {
}
}
}
fn next_virtual_depnode_index(&self) -> DepNodeIndex {
let index = self.virtual_dep_node_index.fetch_add(1, Relaxed);
DepNodeIndex::from_u32(index)
}
}
/// A "work product" is an intermediate result that we save into the

5
src/librustc/ty/query/config.rs
View File

@ -2,8 +2,7 @@ use crate::dep_graph::SerializedDepNodeIndex;
use crate::dep_graph::{DepKind, DepNode};
use crate::ty::query::plumbing::CycleError;
use crate::ty::query::queries;
use crate::ty::query::QueryCache;
use crate::ty::query::{Query, QueryName};
use crate::ty::query::{Query, QueryCache};
use crate::ty::TyCtxt;
use rustc_data_structures::profiling::ProfileCategory;
use rustc_hir::def_id::{CrateNum, DefId};
@ -20,7 +19,7 @@ use std::hash::Hash;
// FIXME(eddyb) false positive, the lifetime parameter is used for `Key`/`Value`.
#[allow(unused_lifetimes)]
pub trait QueryConfig<'tcx> {
const NAME: QueryName;
const NAME: &'static str;
const CATEGORY: ProfileCategory;
type Key: Eq + Hash + Clone + Debug;

117
src/librustc/ty/query/plumbing.rs
View File

@ -95,7 +95,7 @@ impl<'a, 'tcx, Q: QueryDescription<'tcx>> JobOwner<'a, 'tcx, Q> {
if let Some((_, value)) =
lock.results.raw_entry().from_key_hashed_nocheck(key_hash, key)
{
tcx.prof.query_cache_hit(Q::NAME);
tcx.prof.query_cache_hit(value.index.into());
let result = (value.value.clone(), value.index);
#[cfg(debug_assertions)]
{
@ -347,7 +347,7 @@ impl<'tcx> TyCtxt<'tcx> {
#[inline(never)]
pub(super) fn get_query<Q: QueryDescription<'tcx>>(self, span: Span, key: Q::Key) -> Q::Value {
debug!("ty::query::get_query<{}>(key={:?}, span={:?})", Q::NAME.as_str(), key, span);
debug!("ty::query::get_query<{}>(key={:?}, span={:?})", Q::NAME, key, span);
let job = match JobOwner::try_get(self, span, &key) {
TryGetJob::NotYetStarted(job) => job,
@ -366,7 +366,7 @@ impl<'tcx> TyCtxt<'tcx> {
}
if Q::ANON {
let prof_timer = self.prof.query_provider(Q::NAME);
let prof_timer = self.prof.query_provider();
let ((result, dep_node_index), diagnostics) = with_diagnostics(|diagnostics| {
self.start_query(job.job.clone(), diagnostics, |tcx| {
@ -374,7 +374,7 @@ impl<'tcx> TyCtxt<'tcx> {
})
});
drop(prof_timer);
prof_timer.finish_with_query_invocation_id(dep_node_index.into());
self.dep_graph.read_index(dep_node_index);
@ -436,8 +436,9 @@ impl<'tcx> TyCtxt<'tcx> {
let result = if Q::cache_on_disk(self, key.clone(), None)
&& self.sess.opts.debugging_opts.incremental_queries
{
let _prof_timer = self.prof.incr_cache_loading(Q::NAME);
let prof_timer = self.prof.incr_cache_loading();
let result = Q::try_load_from_disk(self, prev_dep_node_index);
prof_timer.finish_with_query_invocation_id(dep_node_index.into());
// We always expect to find a cached result for things that
// can be forced from `DepNode`.
@ -457,11 +458,13 @@ impl<'tcx> TyCtxt<'tcx> {
} else {
// We could not load a result from the on-disk cache, so
// recompute.
let _prof_timer = self.prof.query_provider(Q::NAME);
let prof_timer = self.prof.query_provider();
// The dep-graph for this computation is already in-place.
let result = self.dep_graph.with_ignore(|| Q::compute(self, key));
prof_timer.finish_with_query_invocation_id(dep_node_index.into());
result
};
@ -523,7 +526,7 @@ impl<'tcx> TyCtxt<'tcx> {
dep_node
);
let prof_timer = self.prof.query_provider(Q::NAME);
let prof_timer = self.prof.query_provider();
let ((result, dep_node_index), diagnostics) = with_diagnostics(|diagnostics| {
self.start_query(job.job.clone(), diagnostics, |tcx| {
@ -541,7 +544,7 @@ impl<'tcx> TyCtxt<'tcx> {
})
});
drop(prof_timer);
prof_timer.finish_with_query_invocation_id(dep_node_index.into());
if unlikely!(!diagnostics.is_empty()) {
if dep_node.kind != crate::dep_graph::DepKind::Null {
@ -572,17 +575,19 @@ impl<'tcx> TyCtxt<'tcx> {
let dep_node = Q::to_dep_node(self, &key);
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 {
self.prof.query_cache_hit(Q::NAME);
match self.dep_graph.try_mark_green_and_read(self, &dep_node) {
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);
}
Some((_, dep_node_index)) => {
self.prof.query_cache_hit(dep_node_index.into());
}
}
}
@ -696,6 +701,42 @@ macro_rules! define_queries_inner {
}
}
/// All self-profiling events generated by the query engine use a
/// 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. (The latter is not yet
/// implemented.)
pub fn allocate_self_profile_query_strings(
&self,
profiler: &rustc_data_structures::profiling::SelfProfiler
) {
// Walk the entire query cache and allocate the appropriate
// string representation. Each cache entry is uniquely
// identified by its dep_node_index.
$({
let query_name_string_id =
profiler.get_or_alloc_cached_string(stringify!($name));
let result_cache = self.$name.lock_shards();
for shard in result_cache.iter() {
let query_invocation_ids = shard
.results
.values()
.map(|v| v.index)
.map(|dep_node_index| dep_node_index.into());
profiler.bulk_map_query_invocation_id_to_single_string(
query_invocation_ids,
query_name_string_id
);
}
})*
}
#[cfg(parallel_compiler)]
pub fn collect_active_jobs(&self) -> Vec<Lrc<QueryJob<$tcx>>> {
let mut jobs = Vec::new();
@ -813,36 +854,6 @@ macro_rules! define_queries_inner {
}
}
#[allow(nonstandard_style)]
#[derive(Clone, Copy)]
pub enum QueryName {
$($name),*
}
impl rustc_data_structures::profiling::QueryName for QueryName {
fn discriminant(self) -> std::mem::Discriminant<QueryName> {
std::mem::discriminant(&self)
}
fn as_str(self) -> &'static str {
QueryName::as_str(&self)
}
}
impl QueryName {
pub fn register_with_profiler(
profiler: &rustc_data_structures::profiling::SelfProfiler,
) {
$(profiler.register_query_name(QueryName::$name);)*
}
pub fn as_str(&self) -> &'static str {
match self {
$(QueryName::$name => stringify!($name),)*
}
}
}
#[allow(nonstandard_style)]
#[derive(Clone, Debug)]
pub enum Query<$tcx> {
@ -883,12 +894,6 @@ macro_rules! define_queries_inner {
$(Query::$name(key) => key.default_span(tcx),)*
}
}
pub fn query_name(&self) -> QueryName {
match self {
$(Query::$name(_) => QueryName::$name,)*
}
}
}
impl<'a, $tcx> HashStable<StableHashingContext<'a>> for Query<$tcx> {
@ -923,7 +928,7 @@ macro_rules! define_queries_inner {
type Key = $K;
type Value = $V;
const NAME: QueryName = QueryName::$name;
const NAME: &'static str = stringify!($name);
const CATEGORY: ProfileCategory = $category;
}

31
src/librustc_codegen_ssa/base.rs
View File

@ -85,7 +85,7 @@ pub fn bin_op_to_icmp_predicate(op: hir::BinOpKind, signed: bool) -> IntPredicat
}
op => bug!(
"comparison_op_to_icmp_predicate: expected comparison operator, \
found {:?}",
found {:?}",
op
),
}
@ -102,7 +102,7 @@ pub fn bin_op_to_fcmp_predicate(op: hir::BinOpKind) -> RealPredicate {
op => {
bug!(
"comparison_op_to_fcmp_predicate: expected comparison operator, \
found {:?}",
found {:?}",
op
);
}
@ -334,7 +334,11 @@ pub fn from_immediate<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>>(
bx: &mut Bx,
val: Bx::Value,
) -> Bx::Value {
if bx.cx().val_ty(val) == bx.cx().type_i1() { bx.zext(val, bx.cx().type_i8()) } else { val }
if bx.cx().val_ty(val) == bx.cx().type_i1() {
bx.zext(val, bx.cx().type_i8())
} else {
val
}
}
pub fn to_immediate<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>>(
@ -519,7 +523,7 @@ pub fn codegen_crate<B: ExtraBackendMethods>(
ongoing_codegen.codegen_finished(tcx);
assert_and_save_dep_graph(tcx);
finalize_tcx(tcx);
ongoing_codegen.check_for_errors(tcx.sess);
@ -660,7 +664,8 @@ pub fn codegen_crate<B: ExtraBackendMethods>(
ongoing_codegen.check_for_errors(tcx.sess);
assert_and_save_dep_graph(tcx);
finalize_tcx(tcx);
ongoing_codegen.into_inner()
}
@ -711,10 +716,16 @@ impl<B: ExtraBackendMethods> Drop for AbortCodegenOnDrop<B> {
}
}
fn assert_and_save_dep_graph(tcx: TyCtxt<'_>) {
fn finalize_tcx(tcx: TyCtxt<'_>) {
tcx.sess.time("assert_dep_graph", || ::rustc_incremental::assert_dep_graph(tcx));
tcx.sess.time("serialize_dep_graph", || ::rustc_incremental::save_dep_graph(tcx));
// We assume that no queries are run past here. If there are new queries
// after this point, they'll show up as "<unknown>" in self-profiling data.
tcx.prof.with_profiler(|profiler| {
let _prof_timer = tcx.prof.generic_activity("self_profile_alloc_query_strings");
tcx.queries.allocate_self_profile_query_strings(profiler);
});
}
impl CrateInfo {
@ -876,7 +887,11 @@ fn determine_cgu_reuse<'tcx>(tcx: TyCtxt<'tcx>, cgu: &CodegenUnit<'tcx>) -> CguR
if tcx.dep_graph.try_mark_green(tcx, &dep_node).is_some() {
// We can re-use either the pre- or the post-thinlto state
if tcx.sess.lto() != Lto::No { CguReuse::PreLto } else { CguReuse::PostLto }
if tcx.sess.lto() != Lto::No {
CguReuse::PreLto
} else {
CguReuse::PostLto
}
} else {
CguReuse::No
}

2
src/librustc_data_structures/Cargo.toml
View File

@ -26,7 +26,7 @@ rustc-hash = "1.0.1"
smallvec = { version = "1.0", features = ["union", "may_dangle"] }
rustc_index = { path = "../librustc_index", package = "rustc_index" }
bitflags = "1.2.1"
measureme = "0.5"
measureme = "0.6.0"
[dependencies.parking_lot]
version = "0.9"

191
src/librustc_data_structures/profiling.rs
View File

@ -1,6 +1,90 @@
//! # Rust Compiler Self-Profiling
//!
//! This module implements the basic framework for the compiler's self-
//! profiling support. It provides the `SelfProfiler` type which enables
//! recording "events". An event is something that starts and ends at a given
//! point in time and has an ID and a kind attached to it. This allows for
//! tracing the compiler's activity.
//!
//! Internally this module uses the custom tailored [measureme][mm] crate for
//! efficiently recording events to disk in a compact format that can be
//! post-processed and analyzed by the suite of tools in the `measureme`
//! project. The highest priority for the tracing framework is on incurring as
//! little overhead as possible.
//!
//!
//! ## Event Overview
//!
//! Events have a few properties:
//!
//! - The `event_kind` designates the broad category of an event (e.g. does it
//! correspond to the execution of a query provider or to loading something
//! from the incr. comp. on-disk cache, etc).
//! - The `event_id` designates the query invocation or function call it
//! corresponds to, possibly including the query key or function arguments.
//! - Each event stores the ID of the thread it was recorded on.
//! - The timestamp stores beginning and end of the event, or the single point
//! in time it occurred at for "instant" events.
//!
//!
//! ## Event Filtering
//!
//! Event generation can be filtered by event kind. Recording all possible
//! events generates a lot of data, much of which is not needed for most kinds
//! of analysis. So, in order to keep overhead as low as possible for a given
//! use case, the `SelfProfiler` will only record the kinds of events that
//! pass the filter specified as a command line argument to the compiler.
//!
//!
//! ## `event_id` Assignment
//!
//! As far as `measureme` is concerned, `event_id`s are just strings. However,
//! it would incur way too much overhead to generate and persist each `event_id`
//! string at the point where the event is recorded. In order to make this more
//! efficient `measureme` has two features:
//!
//! - Strings can share their content, so that re-occurring parts don't have to
//! be copied over and over again. One allocates a string in `measureme` and
//! gets back a `StringId`. This `StringId` is then used to refer to that
//! string. `measureme` strings are actually DAGs of string components so that
//! arbitrary sharing of substrings can be done efficiently. This is useful
//! because `event_id`s contain lots of redundant text like query names or
//! def-path components.
//!
//! - `StringId`s can be "virtual" which means that the client picks a numeric
//! ID according to some application-specific scheme and can later make that
//! ID be mapped to an actual string. This is used to cheaply generate
//! `event_id`s while the events actually occur, causing little timing
//! distortion, and then later map those `StringId`s, in bulk, to actual
//! `event_id` strings. This way the largest part of tracing overhead is
//! localized to one contiguous chunk of time.
//!
//! How are these `event_id`s generated in the compiler? For things that occur
//! infrequently (e.g. "generic activities"), we just allocate the string the
//! first time it is used and then keep the `StringId` in a hash table. This
//! is implemented in `SelfProfiler::get_or_alloc_cached_string()`.
//!
//! For queries it gets more interesting: First we need a unique numeric ID for
//! each query invocation (the `QueryInvocationId`). This ID is used as the
//! virtual `StringId` we use as `event_id` for a given event. This ID has to
//! be available both when the query is executed and later, together with the
//! query key, when we allocate the actual `event_id` strings in bulk.
//!
//! We could make the compiler generate and keep track of such an ID for each
//! query invocation but luckily we already have something that fits all the
//! the requirements: the query's `DepNodeIndex`. So we use the numeric value
//! of the `DepNodeIndex` as `event_id` when recording the event and then,
//! just before the query context is dropped, we walk the entire query cache
//! (which stores the `DepNodeIndex` along with the query key for each
//! invocation) and allocate the corresponding strings together with a mapping
//! for `DepNodeIndex as StringId`.
//!
//! [mm]: https://github.com/rust-lang/measureme/
use crate::fx::FxHashMap;
use std::error::Error;
use std::fs;
use std::mem::{self, Discriminant};
use std::path::Path;
use std::process;
use std::sync::Arc;
@ -9,6 +93,7 @@ use std::time::{Duration, Instant};
use std::u32;
use measureme::StringId;
use parking_lot::RwLock;
/// MmapSerializatioSink is faster on macOS and Linux
/// but FileSerializationSink is faster on Windows
@ -19,11 +104,6 @@ type SerializationSink = measureme::FileSerializationSink;
type Profiler = measureme::Profiler<SerializationSink>;
pub trait QueryName: Sized + Copy {
fn discriminant(self) -> Discriminant<Self>;
fn as_str(self) -> &'static str;
}
#[derive(Clone, Copy, Debug, PartialEq, Eq, Ord, PartialOrd)]
pub enum ProfileCategory {
Parsing,
@ -65,9 +145,12 @@ const EVENT_FILTERS_BY_NAME: &[(&str, EventFilter)] = &[
];
fn thread_id_to_u32(tid: ThreadId) -> u32 {
unsafe { mem::transmute::<ThreadId, u64>(tid) as u32 }
unsafe { std::mem::transmute::<ThreadId, u64>(tid) as u32 }
}
/// Something that uniquely identifies a query invocation.
pub struct QueryInvocationId(pub u32);
/// A reference to the SelfProfiler. It can be cloned and sent across thread
/// boundaries at will.
#[derive(Clone)]
@ -167,29 +250,32 @@ impl SelfProfilerRef {
/// Start profiling a generic activity. Profiling continues until the
/// TimingGuard returned from this call is dropped.
#[inline(always)]
pub fn generic_activity(&self, event_id: &str) -> TimingGuard<'_> {
pub fn generic_activity(&self, event_id: &'static str) -> TimingGuard<'_> {
self.exec(EventFilter::GENERIC_ACTIVITIES, |profiler| {
let event_id = profiler.profiler.alloc_string(event_id);
TimingGuard::start(profiler, profiler.generic_activity_event_kind, event_id)
let event_id = profiler.get_or_alloc_cached_string(event_id);
TimingGuard::start(
profiler,
profiler.generic_activity_event_kind,
event_id
)
})
}
/// Start profiling a query provider. Profiling continues until the
/// TimingGuard returned from this call is dropped.
#[inline(always)]
pub fn query_provider(&self, query_name: impl QueryName) -> TimingGuard<'_> {
pub fn query_provider(&self) -> TimingGuard<'_> {
self.exec(EventFilter::QUERY_PROVIDERS, |profiler| {
let event_id = SelfProfiler::get_query_name_string_id(query_name);
TimingGuard::start(profiler, profiler.query_event_kind, event_id)
TimingGuard::start(profiler, profiler.query_event_kind, StringId::INVALID)
})
}
/// Record a query in-memory cache hit.
#[inline(always)]
pub fn query_cache_hit(&self, query_name: impl QueryName) {
pub fn query_cache_hit(&self, query_invocation_id: QueryInvocationId) {
self.instant_query_event(
|profiler| profiler.query_cache_hit_event_kind,
query_name,
query_invocation_id,
EventFilter::QUERY_CACHE_HITS,
);
}
@ -198,10 +284,13 @@ impl SelfProfilerRef {
/// Profiling continues until the TimingGuard returned from this call is
/// dropped.
#[inline(always)]
pub fn query_blocked(&self, query_name: impl QueryName) -> TimingGuard<'_> {
pub fn query_blocked(&self) -> TimingGuard<'_> {
self.exec(EventFilter::QUERY_BLOCKED, |profiler| {
let event_id = SelfProfiler::get_query_name_string_id(query_name);
TimingGuard::start(profiler, profiler.query_blocked_event_kind, event_id)
TimingGuard::start(
profiler,
profiler.query_blocked_event_kind,
StringId::INVALID,
)
})
}
@ -209,10 +298,13 @@ impl SelfProfilerRef {
/// incremental compilation on-disk cache. Profiling continues until the
/// TimingGuard returned from this call is dropped.
#[inline(always)]
pub fn incr_cache_loading(&self, query_name: impl QueryName) -> TimingGuard<'_> {
pub fn incr_cache_loading(&self) -> TimingGuard<'_> {
self.exec(EventFilter::INCR_CACHE_LOADS, |profiler| {
let event_id = SelfProfiler::get_query_name_string_id(query_name);
TimingGuard::start(profiler, profiler.incremental_load_result_event_kind, event_id)
TimingGuard::start(
profiler,
profiler.incremental_load_result_event_kind,
StringId::INVALID,
)
})
}
@ -220,11 +312,11 @@ impl SelfProfilerRef {
fn instant_query_event(
&self,
event_kind: fn(&SelfProfiler) -> StringId,
query_name: impl QueryName,
query_invocation_id: QueryInvocationId,
event_filter: EventFilter,
) {
drop(self.exec(event_filter, |profiler| {
let event_id = SelfProfiler::get_query_name_string_id(query_name);
let event_id = StringId::new_virtual(query_invocation_id.0);
let thread_id = thread_id_to_u32(std::thread::current().id());
profiler.profiler.record_instant_event(event_kind(profiler), event_id, thread_id);
@ -233,7 +325,7 @@ impl SelfProfilerRef {
}));
}
pub fn register_queries(&self, f: impl FnOnce(&SelfProfiler)) {
pub fn with_profiler(&self, f: impl FnOnce(&SelfProfiler)) {
if let Some(profiler) = &self.profiler {
f(&profiler)
}
@ -243,6 +335,9 @@ impl SelfProfilerRef {
pub struct SelfProfiler {
profiler: Profiler,
event_filter_mask: EventFilter,
string_cache: RwLock<FxHashMap<&'static str, StringId>>,
query_event_kind: StringId,
generic_activity_event_kind: StringId,
incremental_load_result_event_kind: StringId,
@ -305,6 +400,7 @@ impl SelfProfiler {
Ok(SelfProfiler {
profiler,
event_filter_mask,
string_cache: RwLock::new(FxHashMap::default()),
query_event_kind,
generic_activity_event_kind,
incremental_load_result_event_kind,
@ -313,16 +409,41 @@ impl SelfProfiler {
})
}
fn get_query_name_string_id(query_name: impl QueryName) -> StringId {
let discriminant =
unsafe { mem::transmute::<Discriminant<_>, u64>(query_name.discriminant()) };
pub fn get_or_alloc_cached_string(&self, s: &'static str) -> StringId {
// Only acquire a read-lock first since we assume that the string is
// already present in the common case.
{
let string_cache = self.string_cache.read();
StringId::reserved(discriminant as u32)
if let Some(&id) = string_cache.get(s) {
return id
}
}
let mut string_cache = self.string_cache.write();
// Check if the string has already been added in the small time window
// between dropping the read lock and acquiring the write lock.
*string_cache.entry(s).or_insert_with(|| self.profiler.alloc_string(s))
}
pub fn register_query_name(&self, query_name: impl QueryName) {
let id = SelfProfiler::get_query_name_string_id(query_name);
self.profiler.alloc_string_with_reserved_id(id, query_name.as_str());
pub fn map_query_invocation_id_to_string(
&self,
from: QueryInvocationId,
to: StringId
) {
let from = StringId::new_virtual(from.0);
self.profiler.map_virtual_to_concrete_string(from, to);
}
pub fn bulk_map_query_invocation_id_to_single_string<I>(
&self,
from: I,
to: StringId
)
where I: Iterator<Item=QueryInvocationId> + ExactSizeIterator
{
let from = from.map(|qid| StringId::new_virtual(qid.0));
self.profiler.bulk_map_virtual_to_single_concrete_string(from, to);
}
}
@ -343,6 +464,14 @@ impl<'a> TimingGuard<'a> {
TimingGuard(Some(timing_guard))
}
#[inline]
pub fn finish_with_query_invocation_id(self, query_invocation_id: QueryInvocationId) {
if let Some(guard) = self.0 {
let event_id = StringId::new_virtual(query_invocation_id.0);
guard.finish_with_override_event_id(event_id);
}
}
#[inline]
pub fn none() -> TimingGuard<'a> {
TimingGuard(None)

4
src/librustc_interface/util.rs
View File

@ -71,10 +71,6 @@ pub fn create_session(
lint_caps,
);
sess.prof.register_queries(|profiler| {
rustc::ty::query::QueryName::register_with_profiler(&profiler);
});
let codegen_backend = get_codegen_backend(&sess);
let mut cfg = config::build_configuration(&sess, config::to_crate_config(cfg));