rust/compiler/rustc_query_impl/src/profiling_support.rs
Joshua Nelson 7b8e2a52ff Simplify the syntax for macros generated by rustc_queries
- Disallow multiple macros callbacks in the same invocation. In practice, this was never used.
- Remove the `[]` brackets around the macro name
- Require an `ident`, not an arbitrary `tt`
2022-08-24 00:37:49 -05:00

325 lines
11 KiB
Rust

use measureme::{StringComponent, StringId};
use rustc_data_structures::fx::FxHashMap;
use rustc_data_structures::profiling::SelfProfiler;
use rustc_hir::def_id::{CrateNum, DefId, DefIndex, LocalDefId, LOCAL_CRATE};
use rustc_hir::definitions::DefPathData;
use rustc_middle::ty::{TyCtxt, WithOptConstParam};
use rustc_query_system::query::QueryCache;
use std::fmt::Debug;
use std::io::Write;
struct QueryKeyStringCache {
def_id_cache: FxHashMap<DefId, StringId>,
}
impl QueryKeyStringCache {
fn new() -> QueryKeyStringCache {
QueryKeyStringCache { def_id_cache: Default::default() }
}
}
struct QueryKeyStringBuilder<'p, 'c, 'tcx> {
profiler: &'p SelfProfiler,
tcx: TyCtxt<'tcx>,
string_cache: &'c mut QueryKeyStringCache,
}
impl<'p, 'c, 'tcx> QueryKeyStringBuilder<'p, 'c, 'tcx> {
fn new(
profiler: &'p SelfProfiler,
tcx: TyCtxt<'tcx>,
string_cache: &'c mut QueryKeyStringCache,
) -> QueryKeyStringBuilder<'p, 'c, 'tcx> {
QueryKeyStringBuilder { profiler, tcx, string_cache }
}
// The current implementation is rather crude. In the future it might be a
// good idea to base this on `ty::print` in order to get nicer and more
// efficient query keys.
fn def_id_to_string_id(&mut self, def_id: DefId) -> StringId {
if let Some(&string_id) = self.string_cache.def_id_cache.get(&def_id) {
return string_id;
}
let def_key = self.tcx.def_key(def_id);
let (parent_string_id, start_index) = match def_key.parent {
Some(parent_index) => {
let parent_def_id = DefId { index: parent_index, krate: def_id.krate };
(self.def_id_to_string_id(parent_def_id), 0)
}
None => (StringId::INVALID, 2),
};
let dis_buffer = &mut [0u8; 16];
let crate_name;
let other_name;
let name;
let dis;
let end_index;
match def_key.disambiguated_data.data {
DefPathData::CrateRoot => {
crate_name = self.tcx.crate_name(def_id.krate);
name = crate_name.as_str();
dis = "";
end_index = 3;
}
other => {
other_name = other.to_string();
name = other_name.as_str();
if def_key.disambiguated_data.disambiguator == 0 {
dis = "";
end_index = 3;
} else {
write!(&mut dis_buffer[..], "[{}]", def_key.disambiguated_data.disambiguator)
.unwrap();
let end_of_dis = dis_buffer.iter().position(|&c| c == b']').unwrap();
dis = std::str::from_utf8(&dis_buffer[..end_of_dis + 1]).unwrap();
end_index = 4;
}
}
}
let components = [
StringComponent::Ref(parent_string_id),
StringComponent::Value("::"),
StringComponent::Value(name),
StringComponent::Value(dis),
];
let string_id = self.profiler.alloc_string(&components[start_index..end_index]);
self.string_cache.def_id_cache.insert(def_id, string_id);
string_id
}
}
trait IntoSelfProfilingString {
fn to_self_profile_string(&self, builder: &mut QueryKeyStringBuilder<'_, '_, '_>) -> StringId;
}
// The default implementation of `IntoSelfProfilingString` just uses `Debug`
// which is slow and causes lots of duplication of string data.
// The specialized impls below take care of making the `DefId` case more
// efficient.
impl<T: Debug> IntoSelfProfilingString for T {
default fn to_self_profile_string(
&self,
builder: &mut QueryKeyStringBuilder<'_, '_, '_>,
) -> StringId {
let s = format!("{:?}", self);
builder.profiler.alloc_string(&s[..])
}
}
impl<T: SpecIntoSelfProfilingString> IntoSelfProfilingString for T {
fn to_self_profile_string(&self, builder: &mut QueryKeyStringBuilder<'_, '_, '_>) -> StringId {
self.spec_to_self_profile_string(builder)
}
}
#[rustc_specialization_trait]
trait SpecIntoSelfProfilingString: Debug {
fn spec_to_self_profile_string(
&self,
builder: &mut QueryKeyStringBuilder<'_, '_, '_>,
) -> StringId;
}
impl SpecIntoSelfProfilingString for DefId {
fn spec_to_self_profile_string(
&self,
builder: &mut QueryKeyStringBuilder<'_, '_, '_>,
) -> StringId {
builder.def_id_to_string_id(*self)
}
}
impl SpecIntoSelfProfilingString for CrateNum {
fn spec_to_self_profile_string(
&self,
builder: &mut QueryKeyStringBuilder<'_, '_, '_>,
) -> StringId {
builder.def_id_to_string_id(self.as_def_id())
}
}
impl SpecIntoSelfProfilingString for DefIndex {
fn spec_to_self_profile_string(
&self,
builder: &mut QueryKeyStringBuilder<'_, '_, '_>,
) -> StringId {
builder.def_id_to_string_id(DefId { krate: LOCAL_CRATE, index: *self })
}
}
impl SpecIntoSelfProfilingString for LocalDefId {
fn spec_to_self_profile_string(
&self,
builder: &mut QueryKeyStringBuilder<'_, '_, '_>,
) -> StringId {
builder.def_id_to_string_id(DefId { krate: LOCAL_CRATE, index: self.local_def_index })
}
}
impl<T: SpecIntoSelfProfilingString> SpecIntoSelfProfilingString for WithOptConstParam<T> {
fn spec_to_self_profile_string(
&self,
builder: &mut QueryKeyStringBuilder<'_, '_, '_>,
) -> StringId {
// We print `WithOptConstParam` values as tuples to make them shorter
// and more readable, without losing information:
//
// "WithOptConstParam { did: foo::bar, const_param_did: Some(foo::baz) }"
// becomes "(foo::bar, foo::baz)" and
// "WithOptConstParam { did: foo::bar, const_param_did: None }"
// becomes "(foo::bar, _)".
let did = StringComponent::Ref(self.did.to_self_profile_string(builder));
let const_param_did = if let Some(const_param_did) = self.const_param_did {
let const_param_did = builder.def_id_to_string_id(const_param_did);
StringComponent::Ref(const_param_did)
} else {
StringComponent::Value("_")
};
let components = [
StringComponent::Value("("),
did,
StringComponent::Value(", "),
const_param_did,
StringComponent::Value(")"),
];
builder.profiler.alloc_string(&components[..])
}
}
impl<T0, T1> SpecIntoSelfProfilingString for (T0, T1)
where
T0: SpecIntoSelfProfilingString,
T1: SpecIntoSelfProfilingString,
{
fn spec_to_self_profile_string(
&self,
builder: &mut QueryKeyStringBuilder<'_, '_, '_>,
) -> StringId {
let val0 = self.0.to_self_profile_string(builder);
let val1 = self.1.to_self_profile_string(builder);
let components = &[
StringComponent::Value("("),
StringComponent::Ref(val0),
StringComponent::Value(","),
StringComponent::Ref(val1),
StringComponent::Value(")"),
];
builder.profiler.alloc_string(components)
}
}
/// Allocate the self-profiling query strings for a single query cache. This
/// method is called from `alloc_self_profile_query_strings` which knows all
/// the queries via macro magic.
fn alloc_self_profile_query_strings_for_query_cache<'tcx, C>(
tcx: TyCtxt<'tcx>,
query_name: &'static str,
query_cache: &C,
string_cache: &mut QueryKeyStringCache,
) where
C: QueryCache,
C::Key: Debug + Clone,
{
tcx.prof.with_profiler(|profiler| {
let event_id_builder = profiler.event_id_builder();
// Walk the entire query cache and allocate the appropriate
// string representations. Each cache entry is uniquely
// identified by its dep_node_index.
if profiler.query_key_recording_enabled() {
let mut query_string_builder = QueryKeyStringBuilder::new(profiler, tcx, string_cache);
let query_name = profiler.get_or_alloc_cached_string(query_name);
// Since building the string representation of query keys might
// need to invoke queries itself, we cannot keep the query caches
// locked while doing so. Instead we copy out the
// `(query_key, dep_node_index)` pairs and release the lock again.
let mut query_keys_and_indices = Vec::new();
query_cache.iter(&mut |k, _, i| query_keys_and_indices.push((k.clone(), i)));
// Now actually allocate the strings. If allocating the strings
// generates new entries in the query cache, we'll miss them but
// we don't actually care.
for (query_key, dep_node_index) in query_keys_and_indices {
// Translate the DepNodeIndex into a QueryInvocationId
let query_invocation_id = dep_node_index.into();
// Create the string version of the query-key
let query_key = query_key.to_self_profile_string(&mut query_string_builder);
let event_id = event_id_builder.from_label_and_arg(query_name, query_key);
// Doing this in bulk might be a good idea:
profiler.map_query_invocation_id_to_string(
query_invocation_id,
event_id.to_string_id(),
);
}
} else {
// In this branch we don't allocate query keys
let query_name = profiler.get_or_alloc_cached_string(query_name);
let event_id = event_id_builder.from_label(query_name).to_string_id();
// FIXME(eddyb) make this O(1) by using a pre-cached query name `EventId`,
// instead of passing the `DepNodeIndex` to `finish_with_query_invocation_id`,
// when recording the event in the first place.
let mut query_invocation_ids = Vec::new();
query_cache.iter(&mut |_, _, i| {
query_invocation_ids.push(i.into());
});
profiler.bulk_map_query_invocation_id_to_single_string(
query_invocation_ids.into_iter(),
event_id,
);
}
});
}
/// 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(tcx: TyCtxt<'_>) {
if !tcx.prof.enabled() {
return;
}
let mut string_cache = QueryKeyStringCache::new();
macro_rules! alloc_once {
(
$($(#[$attr:meta])* [$($modifiers:tt)*] fn $name:ident($K:ty) -> $V:ty,)*
) => {
$({
alloc_self_profile_query_strings_for_query_cache(
tcx,
stringify!($name),
&tcx.query_caches.$name,
&mut string_cache,
);
})*
}
}
rustc_query_append! { alloc_once! }
}