//! 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 modules implemented prepopulation of //! various caches, it's not really advanced at the moment. use hir::db::DefDatabase; use ide_db::base_db::{CrateGraph, CrateId, SourceDatabase, SourceDatabaseExt}; use rustc_hash::FxHashSet; use crate::RootDatabase; /// We started indexing a crate. #[derive(Debug)] pub struct PrimeCachesProgress { pub on_crate: String, pub n_done: usize, pub n_total: usize, } pub(crate) fn prime_caches(db: &RootDatabase, cb: &(dyn Fn(PrimeCachesProgress) + Sync)) { let _p = profile::span("prime_caches"); let graph = db.crate_graph(); // We're only interested in the transitive dependencies of all workspace crates. let to_prime: FxHashSet<_> = graph .iter() .filter(|&id| { let file_id = graph[id].root_file_id; let root_id = db.file_source_root(file_id); !db.source_root(root_id).is_library }) .flat_map(|id| graph.transitive_deps(id)) .collect(); let topo = toposort(&graph, &to_prime); // FIXME: This would be easy to parallelize, since it's in the ideal ordering for that. // Unfortunately rayon prevents panics from propagation out of a `scope`, which breaks // cancellation, so we cannot use rayon. for (i, &crate_id) in topo.iter().enumerate() { let crate_name = graph[crate_id].display_name.as_deref().unwrap_or_default().to_string(); cb(PrimeCachesProgress { on_crate: crate_name, n_done: i, n_total: topo.len() }); db.crate_def_map(crate_id); db.import_map(crate_id); } } fn toposort(graph: &CrateGraph, crates: &FxHashSet) -> Vec { // Just subset the full topologically sorted set for simplicity. let all = graph.crates_in_topological_order(); let mut result = Vec::with_capacity(crates.len()); for krate in all { if crates.contains(&krate) { result.push(krate); } } result }