//! rust-analyzer is lazy and doesn't compute anything unless asked. This
//! sometimes is counter productive when, for example, the first goto definition
//! request takes longer to compute. This module implements prepopulation of
//! various caches, it's not really advanced at the moment.
use std::panic::AssertUnwindSafe;
use hir::{Symbol, db::DefDatabase};
use rustc_hash::FxHashMap;
use salsa::{Cancelled, Database};
use crate::{
FxIndexMap, RootDatabase,
base_db::{Crate, RootQueryDb},
symbol_index::SymbolIndex,
};
/// We're indexing many crates.
#[derive(Debug)]
pub struct ParallelPrimeCachesProgress {
/// the crates that we are currently priming.
pub crates_currently_indexing: Vec<Symbol>,
/// the total number of crates we want to prime.
pub crates_total: usize,
/// the total number of crates that have finished priming
pub crates_done: usize,
pub work_type: &'static str,
}
pub fn parallel_prime_caches(
db: &RootDatabase,
num_worker_threads: usize,
cb: &(dyn Fn(ParallelPrimeCachesProgress) + Sync),
) {
let _p = tracing::info_span!("parallel_prime_caches").entered();
enum ParallelPrimeCacheWorkerProgress {
BeginCrateDefMap { crate_id: Crate, crate_name: Symbol },
EndCrateDefMap { crate_id: Crate },
EndCrateImportMap,
EndSema,
EndModuleSymbols,
Cancelled(Cancelled),
}
// The setup here is a bit complicated. We try to make best use of compute resources.
// The idea is that if we have a def map available to compute, we should do that first.
// This is because def map is a dependency of both import map and symbols. So if we have
// e.g. a def map and a symbols, if we compute the def map we can, after it completes,
// compute the def maps of dependencies, the existing symbols and the symbols of the
// new crate, all in parallel. But if we compute the symbols, after that we will only
// have the def map to compute, and the rest of the CPU cores will rest, which is not
// good.
// However, it's better to compute symbols/import map than to compute a def map that
// isn't ready yet, because one of its dependencies hasn't yet completed its def map.
// Such def map will just block on the dependency, which is just wasted time. So better
// to compute the symbols/import map of an already computed def map in that time.
let (reverse_deps, mut to_be_done_deps) = {
let all_crates = db.all_crates();
let to_be_done_deps = all_crates
.iter()
.map(|&krate| (krate, krate.data(db).dependencies.len() as u32))
.collect::<FxHashMap<_, _>>();
let mut reverse_deps =
all_crates.iter().map(|&krate| (krate, Vec::new())).collect::<FxHashMap<_, _>>();
for &krate in &*all_crates {
for dep in &krate.data(db).dependencies {
reverse_deps.get_mut(&dep.crate_id).unwrap().push(krate);
}
}
(reverse_deps, to_be_done_deps)
};
let (
def_map_work_sender,
import_map_work_sender,
symbols_work_sender,
sema_work_sender,
progress_receiver,
) = {
let (progress_sender, progress_receiver) = crossbeam_channel::unbounded();
let (def_map_work_sender, def_map_work_receiver) = crossbeam_channel::unbounded();
let (import_map_work_sender, import_map_work_receiver) = crossbeam_channel::unbounded();
let (sema_work_sender, sema_work_receiver) = crossbeam_channel::unbounded();
let (symbols_work_sender, symbols_work_receiver) = crossbeam_channel::unbounded();
let prime_caches_worker = move |db: RootDatabase| {
let handle_def_map = |crate_id, crate_name| {
progress_sender.send(ParallelPrimeCacheWorkerProgress::BeginCrateDefMap {
crate_id,
crate_name,
})?;
let cancelled = Cancelled::catch(|| {
_ = hir::crate_def_map(&db, crate_id);
});
match cancelled {
Ok(()) => progress_sender
.send(ParallelPrimeCacheWorkerProgress::EndCrateDefMap { crate_id })?,
Err(cancelled) => progress_sender
.send(ParallelPrimeCacheWorkerProgress::Cancelled(cancelled))?,
}
Ok::<_, crossbeam_channel::SendError<_>>(())
};
let handle_sema = |crate_id| {
let cancelled = Cancelled::catch(|| {
hir::attach_db(&db, || {
// method resolution is likely to hit all trait impls at some point
// we pre-populate it here as this will hit a lot of parses ...
// This also computes the lang items, which is what we want as the work for them is also highly recursive and will be trigger by the module symbols query
// slowing down leaf crate analysis tremendously as we go back to being blocked on a single thread
_ = hir::TraitImpls::for_crate(&db, crate_id);
})
});
match cancelled {
Ok(()) => progress_sender.send(ParallelPrimeCacheWorkerProgress::EndSema)?,
Err(cancelled) => progress_sender
.send(ParallelPrimeCacheWorkerProgress::Cancelled(cancelled))?,
}
Ok::<_, crossbeam_channel::SendError<_>>(())
};
let handle_import_map = |crate_id| {
let cancelled = Cancelled::catch(|| _ = db.import_map(crate_id));
match cancelled {
Ok(()) => {
progress_sender.send(ParallelPrimeCacheWorkerProgress::EndCrateImportMap)?
}
Err(cancelled) => progress_sender
.send(ParallelPrimeCacheWorkerProgress::Cancelled(cancelled))?,
}
Ok::<_, crossbeam_channel::SendError<_>>(())
};
let handle_symbols = |module: hir::Module| {
let cancelled = Cancelled::catch(AssertUnwindSafe(|| {
_ = SymbolIndex::module_symbols(&db, module)
}));
match cancelled {
Ok(()) => {
progress_sender.send(ParallelPrimeCacheWorkerProgress::EndModuleSymbols)?
}
Err(cancelled) => progress_sender
.send(ParallelPrimeCacheWorkerProgress::Cancelled(cancelled))?,
}
Ok::<_, crossbeam_channel::SendError<_>>(())
};
loop {
db.unwind_if_revision_cancelled();
// Biased because we want to prefer def maps.
crossbeam_channel::select_biased! {
recv(def_map_work_receiver) -> work => {
let Ok((crate_id, crate_name)) = work else { break };
handle_def_map(crate_id, crate_name)?;
}
recv(sema_work_receiver) -> work => {
let Ok(crate_id) = work else { break };
handle_sema(crate_id)?;
}
recv(import_map_work_receiver) -> work => {
let Ok(crate_id) = work else { break };
handle_import_map(crate_id)?;
}
recv(symbols_work_receiver) -> work => {
let Ok(module) = work else { break };
handle_symbols(module)?;
}
}
}
Ok::<_, crossbeam_channel::SendError<_>>(())
};
for id in 0..num_worker_threads {
stdx::thread::Builder::new(
stdx::thread::ThreadIntent::Worker,
format!("PrimeCaches#{id}"),
)
.allow_leak(true)
.spawn({
let worker = prime_caches_worker.clone();
let db = db.clone();
move || worker(db)
})
.expect("failed to spawn thread");
}
(
def_map_work_sender,
import_map_work_sender,
symbols_work_sender,
sema_work_sender,
progress_receiver,
)
};
let crate_def_maps_total = db.all_crates().len();
let mut crate_def_maps_done = 0;
let (mut crate_import_maps_total, mut crate_import_maps_done) = (0usize, 0usize);
let (mut module_symbols_total, mut module_symbols_done) = (0usize, 0usize);
let (mut sema_total, mut sema_done) = (0usize, 0usize);
// an index map is used to preserve ordering so we can sort the progress report in order of
// "longest crate to index" first
let mut crates_currently_indexing =
FxIndexMap::with_capacity_and_hasher(num_worker_threads, Default::default());
for (&krate, &to_be_done_deps) in &to_be_done_deps {
if to_be_done_deps != 0 {
continue;
}
let name = crate_name(db, krate);
def_map_work_sender.send((krate, name)).ok();
}
while crate_def_maps_done < crate_def_maps_total
|| crate_import_maps_done < crate_import_maps_total
|| module_symbols_done < module_symbols_total
|| sema_done < sema_total
{
db.unwind_if_revision_cancelled();
let progress = ParallelPrimeCachesProgress {
crates_currently_indexing: crates_currently_indexing.values().cloned().collect(),
crates_done: crate_def_maps_done,
crates_total: crate_def_maps_total,
work_type: "Indexing",
};
cb(progress);
// Biased to prefer progress updates (and because it's faster).
let progress = match progress_receiver.recv() {
Ok(p) => p,
Err(crossbeam_channel::RecvError) => {
// all our workers have exited, mark us as finished and exit
cb(ParallelPrimeCachesProgress {
crates_currently_indexing: vec![],
crates_done: crate_def_maps_done,
crates_total: crate_def_maps_done,
work_type: "Done",
});
return;
}
};
match progress {
ParallelPrimeCacheWorkerProgress::BeginCrateDefMap { crate_id, crate_name } => {
crates_currently_indexing.insert(crate_id, crate_name);
}
ParallelPrimeCacheWorkerProgress::EndCrateDefMap { crate_id } => {
crates_currently_indexing.swap_remove(&crate_id);
crate_def_maps_done += 1;
// Fire ready dependencies.
for &dep in &reverse_deps[&crate_id] {
let to_be_done = to_be_done_deps.get_mut(&dep).unwrap();
*to_be_done -= 1;
if *to_be_done == 0 {
let dep_name = crate_name(db, dep);
def_map_work_sender.send((dep, dep_name)).ok();
}
}
if crate_def_maps_done == crate_def_maps_total {
cb(ParallelPrimeCachesProgress {
crates_currently_indexing: vec![],
crates_done: crate_def_maps_done,
crates_total: crate_def_maps_done,
work_type: "Collecting Symbols",
});
}
sema_work_sender.send(crate_id).ok();
sema_total += 1;
let origin = &crate_id.data(db).origin;
if origin.is_lang() {
crate_import_maps_total += 1;
import_map_work_sender.send(crate_id).ok();
} else if origin.is_local() {
// Compute the symbol search index.
// This primes the cache for `ide_db::symbol_index::world_symbols()`.
//
// We do this for workspace crates only (members of local_roots), because doing it
// for all dependencies could be *very* unnecessarily slow in a large project.
//
// FIXME: We should do it unconditionally if the configuration is set to default to
// searching dependencies (rust-analyzer.workspace.symbol.search.scope), but we
// would need to pipe that configuration information down here.
let modules = hir::Crate::from(crate_id).modules(db);
module_symbols_total += modules.len();
for module in modules {
symbols_work_sender.send(module).ok();
}
}
}
ParallelPrimeCacheWorkerProgress::EndCrateImportMap => crate_import_maps_done += 1,
ParallelPrimeCacheWorkerProgress::EndModuleSymbols => module_symbols_done += 1,
ParallelPrimeCacheWorkerProgress::EndSema => sema_done += 1,
ParallelPrimeCacheWorkerProgress::Cancelled(cancelled) => {
// Cancelled::throw should probably be public
std::panic::resume_unwind(Box::new(cancelled));
}
}
}
}
fn crate_name(db: &RootDatabase, krate: Crate) -> Symbol {
krate
.extra_data(db)
.display_name
.as_deref()
.cloned()
.unwrap_or_else(|| Symbol::integer(salsa::plumbing::AsId::as_id(&krate).index() as usize))
}