SSR: Use Definition::find_usages to speed up matching.

When the search pattern contains a path, this substantially speeds up finding matches, especially if the path references a private item.
2020-07-22 14:01:21 +10:00 · 2020-07-22 14:01:21 +10:00 · 63f500b0ee
commit 63f500b0ee
parent 757f755c29
5 changed files with 158 additions and 25 deletions
--- a/crates/ra_ide_db/src/defs.rs
+++ b/crates/ra_ide_db/src/defs.rs
@ -290,20 +290,25 @@ pub fn classify_name_ref(

    let path = name_ref.syntax().ancestors().find_map(ast::Path::cast)?;
    let resolved = sema.resolve_path(&path)?;
-    let res = match resolved {
-        PathResolution::Def(def) => Definition::ModuleDef(def),
-        PathResolution::AssocItem(item) => {
-            let def = match item {
-                hir::AssocItem::Function(it) => it.into(),
-                hir::AssocItem::Const(it) => it.into(),
-                hir::AssocItem::TypeAlias(it) => it.into(),
-            };
-            Definition::ModuleDef(def)
-        }
-        PathResolution::Local(local) => Definition::Local(local),
-        PathResolution::TypeParam(par) => Definition::TypeParam(par),
-        PathResolution::Macro(def) => Definition::Macro(def),
-        PathResolution::SelfType(impl_def) => Definition::SelfType(impl_def),
-    };
-    Some(NameRefClass::Definition(res))
+    Some(NameRefClass::Definition(resolved.into()))
+}
+
+impl From<PathResolution> for Definition {
+    fn from(path_resolution: PathResolution) -> Self {
+        match path_resolution {
+            PathResolution::Def(def) => Definition::ModuleDef(def),
+            PathResolution::AssocItem(item) => {
+                let def = match item {
+                    hir::AssocItem::Function(it) => it.into(),
+                    hir::AssocItem::Const(it) => it.into(),
+                    hir::AssocItem::TypeAlias(it) => it.into(),
+                };
+                Definition::ModuleDef(def)
+            }
+            PathResolution::Local(local) => Definition::Local(local),
+            PathResolution::TypeParam(par) => Definition::TypeParam(par),
+            PathResolution::Macro(def) => Definition::Macro(def),
+            PathResolution::SelfType(impl_def) => Definition::SelfType(impl_def),
+        }
+    }
 }
--- a/crates/ra_ide_db/src/search.rs
+++ b/crates/ra_ide_db/src/search.rs
@ -60,6 +60,10 @@ impl SearchScope {
        SearchScope::new(std::iter::once((file, None)).collect())
    }

+    pub fn files(files: &[FileId]) -> SearchScope {
+        SearchScope::new(files.iter().map(|f| (*f, None)).collect())
+    }
+
    pub fn intersection(&self, other: &SearchScope) -> SearchScope {
        let (mut small, mut large) = (&self.entries, &other.entries);
        if small.len() > large.len() {
--- a/crates/ra_ssr/src/lib.rs
+++ b/crates/ra_ssr/src/lib.rs
@ -151,8 +151,9 @@ impl<'db> MatchFinder<'db> {
    /// Returns matches for all added rules.
    pub fn matches(&self) -> SsrMatches {
        let mut matches = Vec::new();
+        let mut usage_cache = search::UsageCache::default();
        for rule in &self.rules {
-            self.find_matches_for_rule(rule, &mut matches);
+            self.find_matches_for_rule(rule, &mut usage_cache, &mut matches);
        }
        nester::nest_and_remove_collisions(matches, &self.sema)
    }
--- a/crates/ra_ssr/src/resolving.rs
+++ b/crates/ra_ssr/src/resolving.rs
@ -22,6 +22,7 @@ pub(crate) struct ResolvedPattern {

 pub(crate) struct ResolvedPath {
    pub(crate) resolution: hir::PathResolution,
+    pub(crate) depth: u32,
 }

 impl ResolvedRule {
@ -62,7 +63,7 @@ struct Resolver<'a, 'db> {
 impl Resolver<'_, '_> {
    fn resolve_pattern_tree(&self, pattern: SyntaxNode) -> Result<ResolvedPattern, SsrError> {
        let mut resolved_paths = FxHashMap::default();
-        self.resolve(pattern.clone(), &mut resolved_paths)?;
+        self.resolve(pattern.clone(), 0, &mut resolved_paths)?;
        Ok(ResolvedPattern {
            node: pattern,
            resolved_paths,
@ -73,6 +74,7 @@ impl Resolver<'_, '_> {
    fn resolve(
        &self,
        node: SyntaxNode,
+        depth: u32,
        resolved_paths: &mut FxHashMap<SyntaxNode, ResolvedPath>,
    ) -> Result<(), SsrError> {
        use ra_syntax::ast::AstNode;
@ -86,12 +88,12 @@ impl Resolver<'_, '_> {
                let resolution = self
                    .resolve_path(&path)
                    .ok_or_else(|| error!("Failed to resolve path `{}`", node.text()))?;
-                resolved_paths.insert(node, ResolvedPath { resolution });
+                resolved_paths.insert(node, ResolvedPath { resolution, depth });
                return Ok(());
            }
        }
        for node in node.children() {
-            self.resolve(node, resolved_paths)?;
+            self.resolve(node, depth + 1, resolved_paths)?;
        }
        Ok(())
    }
--- a/crates/ra_ssr/src/search.rs
+++ b/crates/ra_ssr/src/search.rs
@ -1,17 +1,106 @@
 //! Searching for matches.

-use crate::{matching, resolving::ResolvedRule, Match, MatchFinder};
+use crate::{
+    matching,
+    resolving::{ResolvedPath, ResolvedPattern, ResolvedRule},
+    Match, MatchFinder,
+};
 use ra_db::FileRange;
+use ra_ide_db::{
+    defs::Definition,
+    search::{Reference, SearchScope},
+};
 use ra_syntax::{ast, AstNode, SyntaxNode};

+/// A cache for the results of find_usages. This is for when we have multiple patterns that have the
+/// same path. e.g. if the pattern was `foo::Bar` that can parse as a path, an expression, a type
+/// and as a pattern. In each, the usages of `foo::Bar` are the same and we'd like to avoid finding
+/// them more than once.
+#[derive(Default)]
+pub(crate) struct UsageCache {
+    usages: Vec<(Definition, Vec<Reference>)>,
+}
+
 impl<'db> MatchFinder<'db> {
    /// Adds all matches for `rule` to `matches_out`. Matches may overlap in ways that make
    /// replacement impossible, so further processing is required in order to properly nest matches
    /// and remove overlapping matches. This is done in the `nesting` module.
-    pub(crate) fn find_matches_for_rule(&self, rule: &ResolvedRule, matches_out: &mut Vec<Match>) {
-        // FIXME: Use resolved paths in the pattern to find places to search instead of always
-        // scanning every node.
-        self.slow_scan(rule, matches_out);
+    pub(crate) fn find_matches_for_rule(
+        &self,
+        rule: &ResolvedRule,
+        usage_cache: &mut UsageCache,
+        matches_out: &mut Vec<Match>,
+    ) {
+        if pick_path_for_usages(&rule.pattern).is_none() {
+            self.slow_scan(rule, matches_out);
+            return;
+        }
+        self.find_matches_for_pattern_tree(rule, &rule.pattern, usage_cache, matches_out);
+    }
+
+    fn find_matches_for_pattern_tree(
+        &self,
+        rule: &ResolvedRule,
+        pattern: &ResolvedPattern,
+        usage_cache: &mut UsageCache,
+        matches_out: &mut Vec<Match>,
+    ) {
+        if let Some(first_path) = pick_path_for_usages(pattern) {
+            let definition: Definition = first_path.resolution.clone().into();
+            for reference in self.find_usages(usage_cache, definition) {
+                let file = self.sema.parse(reference.file_range.file_id);
+                if let Some(path) = self.sema.find_node_at_offset_with_descend::<ast::Path>(
+                    file.syntax(),
+                    reference.file_range.range.start(),
+                ) {
+                    if let Some(node_to_match) = self
+                        .sema
+                        .ancestors_with_macros(path.syntax().clone())
+                        .skip(first_path.depth as usize)
+                        .next()
+                    {
+                        if let Ok(m) =
+                            matching::get_match(false, rule, &node_to_match, &None, &self.sema)
+                        {
+                            matches_out.push(m);
+                        }
+                    }
+                }
+            }
+        }
+    }
+
+    fn find_usages<'a>(
+        &self,
+        usage_cache: &'a mut UsageCache,
+        definition: Definition,
+    ) -> &'a [Reference] {
+        // Logically if a lookup succeeds we should just return it. Unfortunately returning it would
+        // extend the lifetime of the borrow, then we wouldn't be able to do the insertion on a
+        // cache miss. This is a limitation of NLL and is fixed with Polonius. For now we do two
+        // lookups in the case of a cache hit.
+        if usage_cache.find(&definition).is_none() {
+            let usages = definition.find_usages(&self.sema, Some(self.search_scope()));
+            usage_cache.usages.push((definition, usages));
+            return &usage_cache.usages.last().unwrap().1;
+        }
+        usage_cache.find(&definition).unwrap()
+    }
+
+    /// Returns the scope within which we want to search. We don't want un unrestricted search
+    /// scope, since we don't want to find references in external dependencies.
+    fn search_scope(&self) -> SearchScope {
+        // FIXME: We should ideally have a test that checks that we edit local roots and not library
+        // roots. This probably would require some changes to fixtures, since currently everything
+        // seems to get put into a single source root.
+        use ra_db::SourceDatabaseExt;
+        use ra_ide_db::symbol_index::SymbolsDatabase;
+        let mut files = Vec::new();
+        for &root in self.sema.db.local_roots().iter() {
+            let sr = self.sema.db.source_root(root);
+            files.extend(sr.iter());
+        }
+        SearchScope::files(&files)
    }

    fn slow_scan(&self, rule: &ResolvedRule, matches_out: &mut Vec<Match>) {
@ -59,3 +148,35 @@ impl<'db> MatchFinder<'db> {
        }
    }
 }
+
+impl UsageCache {
+    fn find(&mut self, definition: &Definition) -> Option<&[Reference]> {
+        // We expect a very small number of cache entries (generally 1), so a linear scan should be
+        // fast enough and avoids the need to implement Hash for Definition.
+        for (d, refs) in &self.usages {
+            if d == definition {
+                return Some(refs);
+            }
+        }
+        None
+    }
+}
+
+/// Returns a path that's suitable for path resolution. We exclude builtin types, since they aren't
+/// something that we can find references to. We then somewhat arbitrarily pick the path that is the
+/// longest as this is hopefully more likely to be less common, making it faster to find.
+fn pick_path_for_usages(pattern: &ResolvedPattern) -> Option<&ResolvedPath> {
+    // FIXME: Take the scope of the resolved path into account. e.g. if there are any paths that are
+    // private to the current module, then we definitely would want to pick them over say a path
+    // from std. Possibly we should go further than this and intersect the search scopes for all
+    // resolved paths then search only in that scope.
+    pattern
+        .resolved_paths
+        .iter()
+        .filter(|(_, p)| {
+            !matches!(p.resolution, hir::PathResolution::Def(hir::ModuleDef::BuiltinType(_)))
+        })
+        .map(|(node, resolved)| (node.text().len(), resolved))
+        .max_by(|(a, _), (b, _)| a.cmp(b))
+        .map(|(_, resolved)| resolved)
+}