Simplify and improve perf of import_assets::import_for_item

This commit is contained in:
Lukas Wirth 2023-12-12 11:35:34 +01:00
parent 18591ae5c8
commit 34ec665ba1
3 changed files with 100 additions and 117 deletions

View File

@ -1,14 +1,14 @@
//! Look up accessible paths for items.
use hir::{
AsAssocItem, AssocItem, AssocItemContainer, Crate, ItemInNs, ModPath, Module, ModuleDef,
AsAssocItem, AssocItem, AssocItemContainer, Crate, ItemInNs, ModPath, Module, ModuleDef, Name,
PathResolution, PrefixKind, ScopeDef, Semantics, SemanticsScope, Type,
};
use itertools::Itertools;
use rustc_hash::FxHashSet;
use itertools::{EitherOrBoth, Itertools};
use rustc_hash::{FxHashMap, FxHashSet};
use syntax::{
ast::{self, make, HasName},
utils::path_to_string_stripping_turbo_fish,
AstNode, SyntaxNode,
AstNode, SmolStr, SyntaxNode,
};
use crate::{
@ -51,18 +51,11 @@ pub struct TraitImportCandidate {
#[derive(Debug)]
pub struct PathImportCandidate {
/// Optional qualifier before name.
pub qualifier: Option<FirstSegmentUnresolved>,
pub qualifier: Option<Vec<SmolStr>>,
/// The name the item (struct, trait, enum, etc.) should have.
pub name: NameToImport,
}
/// A qualifier that has a first segment and it's unresolved.
#[derive(Debug)]
pub struct FirstSegmentUnresolved {
fist_segment: ast::NameRef,
full_qualifier: ast::Path,
}
/// A name that will be used during item lookups.
#[derive(Debug, Clone)]
pub enum NameToImport {
@ -348,60 +341,71 @@ fn path_applicable_imports(
})
.collect()
}
Some(first_segment_unresolved) => {
let unresolved_qualifier =
path_to_string_stripping_turbo_fish(&first_segment_unresolved.full_qualifier);
let unresolved_first_segment = first_segment_unresolved.fist_segment.text();
items_locator::items_with_name(
sema,
current_crate,
path_candidate.name.clone(),
AssocSearchMode::Include,
Some(DEFAULT_QUERY_SEARCH_LIMIT.inner()),
)
.filter_map(|item| {
import_for_item(
sema.db,
mod_path,
&unresolved_first_segment,
&unresolved_qualifier,
item,
)
})
.collect()
}
Some(qualifier) => items_locator::items_with_name(
sema,
current_crate,
path_candidate.name.clone(),
AssocSearchMode::Include,
Some(DEFAULT_QUERY_SEARCH_LIMIT.inner()),
)
.filter_map(|item| import_for_item(sema.db, mod_path, &qualifier, item))
.collect(),
}
}
fn import_for_item(
db: &RootDatabase,
mod_path: impl Fn(ItemInNs) -> Option<ModPath>,
unresolved_first_segment: &str,
unresolved_qualifier: &str,
unresolved_qualifier: &[SmolStr],
original_item: ItemInNs,
) -> Option<LocatedImport> {
let _p = profile::span("import_assets::import_for_item");
let [first_segment, ..] = unresolved_qualifier else { return None };
let original_item_candidate = item_for_path_search(db, original_item)?;
let import_path_candidate = mod_path(original_item_candidate)?;
let import_path_string = import_path_candidate.display(db).to_string();
let item_as_assoc = item_as_assoc(db, original_item);
let expected_import_end = if item_as_assoc(db, original_item).is_some() {
unresolved_qualifier.to_string()
} else {
format!("{unresolved_qualifier}::{}", item_name(db, original_item)?.display(db))
let (original_item_candidate, trait_item_to_import) = match item_as_assoc {
Some(assoc_item) => match assoc_item.container(db) {
AssocItemContainer::Trait(trait_) => {
let trait_ = ItemInNs::from(ModuleDef::from(trait_));
(trait_, Some(trait_))
}
AssocItemContainer::Impl(impl_) => {
(ItemInNs::from(ModuleDef::from(impl_.self_ty(db).as_adt()?)), None)
}
},
None => (original_item, None),
};
if !import_path_string.contains(unresolved_first_segment)
|| !import_path_string.ends_with(&expected_import_end)
{
let import_path_candidate = mod_path(original_item_candidate)?;
let mut import_path_candidate_segments = import_path_candidate.segments().iter().rev();
let predicate = |it: EitherOrBoth<&SmolStr, &Name>| match it {
// segments match, check next one
EitherOrBoth::Both(a, b) if b.as_str() == Some(&**a) => None,
// segments mismatch / qualifier is longer than the path, bail out
EitherOrBoth::Both(..) | EitherOrBoth::Left(_) => Some(false),
// all segments match and we have exhausted the qualifier, proceed
EitherOrBoth::Right(_) => Some(true),
};
if item_as_assoc.is_none() {
let item_name = item_name(db, original_item)?.as_text()?;
let last_segment = import_path_candidate_segments.next()?;
if last_segment.as_str() != Some(&*item_name) {
return None;
}
}
let ends_with = unresolved_qualifier
.iter()
.rev()
.zip_longest(import_path_candidate_segments)
.find_map(predicate)
.unwrap_or(true);
if !ends_with {
return None;
}
let segment_import =
find_import_for_segment(db, original_item_candidate, unresolved_first_segment)?;
let trait_item_to_import = item_as_assoc(db, original_item)
.and_then(|assoc| assoc.containing_trait(db))
.map(|trait_| ItemInNs::from(ModuleDef::from(trait_)));
let segment_import = find_import_for_segment(db, original_item_candidate, first_segment)?;
Some(match (segment_import == original_item_candidate, trait_item_to_import) {
(true, Some(_)) => {
// FIXME we should be able to import both the trait and the segment,
@ -424,18 +428,22 @@ fn import_for_item(
pub fn item_for_path_search(db: &RootDatabase, item: ItemInNs) -> Option<ItemInNs> {
Some(match item {
ItemInNs::Types(_) | ItemInNs::Values(_) => match item_as_assoc(db, item) {
Some(assoc_item) => match assoc_item.container(db) {
AssocItemContainer::Trait(trait_) => ItemInNs::from(ModuleDef::from(trait_)),
AssocItemContainer::Impl(impl_) => {
ItemInNs::from(ModuleDef::from(impl_.self_ty(db).as_adt()?))
}
},
Some(assoc_item) => item_for_path_search_assoc(db, assoc_item)?,
None => item,
},
ItemInNs::Macros(_) => item,
})
}
fn item_for_path_search_assoc(db: &RootDatabase, assoc_item: AssocItem) -> Option<ItemInNs> {
Some(match assoc_item.container(db) {
AssocItemContainer::Trait(trait_) => ItemInNs::from(ModuleDef::from(trait_)),
AssocItemContainer::Impl(impl_) => {
ItemInNs::from(ModuleDef::from(impl_.self_ty(db).as_adt()?))
}
})
}
fn find_import_for_segment(
db: &RootDatabase,
original_item: ItemInNs,
@ -512,6 +520,7 @@ fn trait_applicable_items(
.collect();
let mut located_imports = FxHashSet::default();
let mut trait_import_paths = FxHashMap::default();
if trait_assoc_item {
trait_candidate.receiver_ty.iterate_path_candidates(
@ -529,11 +538,14 @@ fn trait_applicable_items(
}
let located_trait = assoc.containing_trait(db)?;
let trait_item = ItemInNs::from(ModuleDef::from(located_trait));
let original_item = assoc_to_item(assoc);
let import_path = trait_import_paths
.entry(trait_item)
.or_insert_with(|| mod_path(trait_item))
.clone()?;
located_imports.insert(LocatedImport::new(
mod_path(trait_item)?,
import_path,
trait_item,
original_item,
assoc_to_item(assoc),
));
}
None::<()>
@ -551,11 +563,14 @@ fn trait_applicable_items(
if required_assoc_items.contains(&assoc) {
let located_trait = assoc.containing_trait(db)?;
let trait_item = ItemInNs::from(ModuleDef::from(located_trait));
let original_item = assoc_to_item(assoc);
let import_path = trait_import_paths
.entry(trait_item)
.or_insert_with(|| mod_path(trait_item))
.clone()?;
located_imports.insert(LocatedImport::new(
mod_path(trait_item)?,
import_path,
trait_item,
original_item,
assoc_to_item(assoc),
));
}
None::<()>
@ -653,18 +668,13 @@ fn path_import_candidate(
Some(match qualifier {
Some(qualifier) => match sema.resolve_path(&qualifier) {
None => {
let qualifier_start =
qualifier.syntax().descendants().find_map(ast::NameRef::cast)?;
let qualifier_start_path =
qualifier_start.syntax().ancestors().find_map(ast::Path::cast)?;
if sema.resolve_path(&qualifier_start_path).is_none() {
ImportCandidate::Path(PathImportCandidate {
qualifier: Some(FirstSegmentUnresolved {
fist_segment: qualifier_start,
full_qualifier: qualifier,
}),
name,
})
if qualifier.first_qualifier().map_or(true, |it| sema.resolve_path(&it).is_none()) {
let mut qualifier = qualifier
.segments_of_this_path_only_rev()
.map(|seg| seg.name_ref().map(|name| SmolStr::new(name.text())))
.collect::<Option<Vec<_>>>()?;
qualifier.reverse();
ImportCandidate::Path(PathImportCandidate { qualifier: Some(qualifier), name })
} else {
return None;
}

View File

@ -275,10 +275,19 @@ pub fn first_qualifier_or_self(&self) -> ast::Path {
successors(Some(self.clone()), ast::Path::qualifier).last().unwrap()
}
pub fn first_qualifier(&self) -> Option<ast::Path> {
successors(self.qualifier(), ast::Path::qualifier).last()
}
pub fn first_segment(&self) -> Option<ast::PathSegment> {
self.first_qualifier_or_self().segment()
}
// FIXME: Check usages of Self::segments, they might be wrong because of the logic of the bloew function
pub fn segments_of_this_path_only_rev(&self) -> impl Iterator<Item = ast::PathSegment> + Clone {
self.qualifiers_and_self().filter_map(|it| it.segment())
}
pub fn segments(&self) -> impl Iterator<Item = ast::PathSegment> + Clone {
successors(self.first_segment(), |p| {
p.parent_path().parent_path().and_then(|p| p.segment())
@ -289,6 +298,10 @@ pub fn qualifiers(&self) -> impl Iterator<Item = ast::Path> + Clone {
successors(self.qualifier(), |p| p.qualifier())
}
pub fn qualifiers_and_self(&self) -> impl Iterator<Item = ast::Path> + Clone {
successors(Some(self.clone()), |p| p.qualifier())
}
pub fn top_path(&self) -> ast::Path {
let mut this = self.clone();
while let Some(path) = this.parent_path() {

View File

@ -1,48 +1,8 @@
//! A set of utils methods to reuse on other abstraction levels
use itertools::Itertools;
use crate::{ast, match_ast, AstNode, SyntaxKind};
pub fn path_to_string_stripping_turbo_fish(path: &ast::Path) -> String {
path.syntax()
.children()
.filter_map(|node| {
match_ast! {
match node {
ast::PathSegment(it) => {
Some(it.name_ref()?.to_string())
},
ast::Path(it) => {
Some(path_to_string_stripping_turbo_fish(&it))
},
_ => None,
}
}
})
.join("::")
}
use crate::SyntaxKind;
pub fn is_raw_identifier(name: &str) -> bool {
let is_keyword = SyntaxKind::from_keyword(name).is_some();
is_keyword && !matches!(name, "self" | "crate" | "super" | "Self")
}
#[cfg(test)]
mod tests {
use super::path_to_string_stripping_turbo_fish;
use crate::ast::make;
#[test]
fn turbofishes_are_stripped() {
assert_eq!("Vec", path_to_string_stripping_turbo_fish(&make::path_from_text("Vec::<i32>")),);
assert_eq!(
"Vec::new",
path_to_string_stripping_turbo_fish(&make::path_from_text("Vec::<i32>::new")),
);
assert_eq!(
"Vec::new",
path_to_string_stripping_turbo_fish(&make::path_from_text("Vec::new()")),
);
}
}