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https://github.com/rust-lang/rust-analyzer
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completions: speed up completions by filtering non-applicable traits
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parent
9f0495761a
commit
c246a93046
6 changed files with 243 additions and 4 deletions
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@ -457,6 +457,7 @@ impl<'a> InferenceTable<'a> {
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}
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/// Unify two relatable values (e.g. `Ty`) and register new trait goals that arise from that.
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#[tracing::instrument(skip_all)]
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pub(crate) fn unify<T: ?Sized + Zip<Interner>>(&mut self, ty1: &T, ty2: &T) -> bool {
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let result = match self.try_unify(ty1, ty2) {
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Ok(r) => r,
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@ -254,6 +254,11 @@ impl TraitImpls {
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.flat_map(|v| v.iter().copied())
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}
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/// Queries whether `self_ty` has potentially applicable implementations of `trait_`.
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pub fn has_impls_for_trait_and_self_ty(&self, trait_: TraitId, self_ty: TyFingerprint) -> bool {
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self.for_trait_and_self_ty(trait_, self_ty).next().is_some()
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}
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pub fn all_impls(&self) -> impl Iterator<Item = ImplId> + '_ {
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self.map.values().flat_map(|map| map.values().flat_map(|v| v.iter().copied()))
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}
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@ -1170,7 +1175,7 @@ fn iterate_trait_method_candidates(
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for &(_, item) in data.items.iter() {
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// Don't pass a `visible_from_module` down to `is_valid_candidate`,
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// since only inherent methods should be included into visibility checking.
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let visible = match is_valid_candidate(table, name, receiver_ty, item, self_ty, None) {
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let visible = match is_valid_method_candidate(table, name, receiver_ty, item, self_ty) {
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IsValidCandidate::Yes => true,
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IsValidCandidate::NotVisible => false,
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IsValidCandidate::No => continue,
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@ -1414,6 +1419,74 @@ fn is_valid_candidate(
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}
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}
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/// Checks whether a given `AssocItemId` is applicable for `receiver_ty`.
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///
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/// This method should *only* be called by [`iterate_trait_method_candidates`],
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/// as it is responsible for determining applicability in completions.
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#[tracing::instrument(skip_all, fields(name))]
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fn is_valid_method_candidate(
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table: &mut InferenceTable<'_>,
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name: Option<&Name>,
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receiver_ty: Option<&Ty>,
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item: AssocItemId,
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self_ty: &Ty,
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) -> IsValidCandidate {
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let db = table.db;
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match item {
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AssocItemId::FunctionId(fn_id) => {
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let data = db.function_data(fn_id);
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check_that!(name.map_or(true, |n| n == &data.name));
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table.run_in_snapshot(|table| {
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let container = fn_id.lookup(db.upcast()).container;
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let (impl_subst, expect_self_ty) = match container {
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ItemContainerId::ImplId(it) => {
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let subst = TyBuilder::subst_for_def(db, it, None)
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.fill_with_inference_vars(table)
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.build();
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let self_ty = db.impl_self_ty(it).substitute(Interner, &subst);
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(subst, self_ty)
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}
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ItemContainerId::TraitId(it) => {
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let subst = TyBuilder::subst_for_def(db, it, None)
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.fill_with_inference_vars(table)
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.build();
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let self_ty = subst.at(Interner, 0).assert_ty_ref(Interner).clone();
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(subst, self_ty)
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}
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_ => unreachable!(),
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};
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check_that!(table.unify(&expect_self_ty, self_ty));
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if let Some(receiver_ty) = receiver_ty {
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check_that!(data.has_self_param());
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let fn_subst = TyBuilder::subst_for_def(db, fn_id, Some(impl_subst.clone()))
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.fill_with_inference_vars(table)
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.build();
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let sig = db.callable_item_signature(fn_id.into());
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let expected_receiver =
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sig.map(|s| s.params()[0].clone()).substitute(Interner, &fn_subst);
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check_that!(table.unify(receiver_ty, &expected_receiver));
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}
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IsValidCandidate::Yes
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})
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}
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AssocItemId::ConstId(c) => {
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check_that!(receiver_ty.is_none());
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check_that!(name.map_or(true, |n| db.const_data(c).name.as_ref() == Some(n)));
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IsValidCandidate::Yes
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}
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_ => IsValidCandidate::No,
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}
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}
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enum IsValidCandidate {
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Yes,
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No,
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@ -1441,6 +1514,8 @@ fn is_valid_fn_candidate(
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}
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table.run_in_snapshot(|table| {
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let container = fn_id.lookup(db.upcast()).container;
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let _p = tracing::span!(tracing::Level::INFO, "subst_for_def").entered();
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let (impl_subst, expect_self_ty) = match container {
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ItemContainerId::ImplId(it) => {
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let subst =
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@ -1460,6 +1535,7 @@ fn is_valid_fn_candidate(
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check_that!(table.unify(&expect_self_ty, self_ty));
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if let Some(receiver_ty) = receiver_ty {
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let _p = tracing::span!(tracing::Level::INFO, "check_receiver_ty").entered();
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check_that!(data.has_self_param());
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let fn_subst = TyBuilder::subst_for_def(db, fn_id, Some(impl_subst.clone()))
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@ -1474,6 +1550,7 @@ fn is_valid_fn_candidate(
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}
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if let ItemContainerId::ImplId(impl_id) = container {
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let _p = tracing::span!(tracing::Level::INFO, "check_item_container").entered();
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// We need to consider the bounds on the impl to distinguish functions of the same name
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// for a type.
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let predicates = db.generic_predicates(impl_id.into());
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@ -139,6 +139,7 @@ fn solve(
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block: Option<BlockId>,
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goal: &chalk_ir::UCanonical<chalk_ir::InEnvironment<chalk_ir::Goal<Interner>>>,
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) -> Option<chalk_solve::Solution<Interner>> {
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let _p = tracing::span!(tracing::Level::INFO, "solve", ?krate, ?block).entered();
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let context = ChalkContext { db, krate, block };
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tracing::debug!("solve goal: {:?}", goal);
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let mut solver = create_chalk_solver();
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@ -4239,6 +4239,10 @@ impl Type {
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}
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}
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pub fn fingerprint_for_trait_impl(&self) -> Option<TyFingerprint> {
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TyFingerprint::for_trait_impl(&self.ty)
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}
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pub(crate) fn canonical(&self) -> Canonical<Ty> {
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hir_ty::replace_errors_with_variables(&self.ty)
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}
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@ -374,6 +374,135 @@ fn main() {
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);
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}
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#[test]
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fn trait_method_fuzzy_completion_aware_of_fundamental_boxes() {
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let fixture = r#"
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//- /fundamental.rs crate:fundamental
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#[lang = "owned_box"]
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#[fundamental]
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pub struct Box<T>(T);
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//- /foo.rs crate:foo
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pub trait TestTrait {
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fn some_method(&self);
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}
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//- /main.rs crate:main deps:foo,fundamental
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struct TestStruct;
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impl foo::TestTrait for fundamental::Box<TestStruct> {
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fn some_method(&self) {}
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}
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fn main() {
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let t = fundamental::Box(TestStruct);
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t.$0
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}
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"#;
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check(
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fixture,
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expect![[r#"
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me some_method() (use foo::TestTrait) fn(&self)
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"#]],
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);
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check_edit(
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"some_method",
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fixture,
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r#"
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use foo::TestTrait;
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struct TestStruct;
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impl foo::TestTrait for fundamental::Box<TestStruct> {
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fn some_method(&self) {}
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}
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fn main() {
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let t = fundamental::Box(TestStruct);
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t.some_method()$0
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}
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"#,
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);
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}
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#[test]
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fn trait_method_fuzzy_completion_aware_of_fundamental_references() {
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let fixture = r#"
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//- /foo.rs crate:foo
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pub trait TestTrait {
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fn some_method(&self);
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}
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//- /main.rs crate:main deps:foo
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struct TestStruct;
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impl foo::TestTrait for &TestStruct {
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fn some_method(&self) {}
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}
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fn main() {
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let t = &TestStruct;
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t.$0
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}
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"#;
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check(
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fixture,
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expect![[r#"
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me some_method() (use foo::TestTrait) fn(&self)
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"#]],
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);
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check_edit(
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"some_method",
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fixture,
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r#"
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use foo::TestTrait;
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struct TestStruct;
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impl foo::TestTrait for &TestStruct {
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fn some_method(&self) {}
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}
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fn main() {
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let t = &TestStruct;
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t.some_method()$0
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}
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"#,
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);
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}
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#[test]
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fn trait_method_fuzzy_completion_aware_of_unit_type() {
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let fixture = r#"
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//- /test_trait.rs crate:test_trait
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pub trait TestInto<T> {
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fn into(self) -> T;
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}
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//- /main.rs crate:main deps:test_trait
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struct A;
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impl test_trait::TestInto<A> for () {
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fn into(self) -> A {
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A
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}
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}
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fn main() {
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let a = ();
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a.$0
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}
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"#;
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check(
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fixture,
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expect![[r#"
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me into() (use test_trait::TestInto) fn(self) -> T
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"#]],
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);
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}
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#[test]
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fn trait_method_from_alias() {
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let fixture = r#"
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@ -1,8 +1,9 @@
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//! Look up accessible paths for items.
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use hir::{
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AsAssocItem, AssocItem, AssocItemContainer, Crate, ItemInNs, ModPath, Module, ModuleDef, Name,
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PathResolution, PrefixKind, ScopeDef, Semantics, SemanticsScope, Type,
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db::HirDatabase, AsAssocItem, AssocItem, AssocItemContainer, Crate, HasCrate, ItemInNs,
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ModPath, Module, ModuleDef, Name, PathResolution, PrefixKind, ScopeDef, Semantics,
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SemanticsScope, Trait, Type,
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};
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use itertools::{EitherOrBoth, Itertools};
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use rustc_hash::{FxHashMap, FxHashSet};
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@ -517,7 +518,7 @@ fn trait_applicable_items(
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let related_traits = inherent_traits.chain(env_traits).collect::<FxHashSet<_>>();
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let mut required_assoc_items = FxHashSet::default();
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let trait_candidates: FxHashSet<_> = items_locator::items_with_name(
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let mut trait_candidates: FxHashSet<_> = items_locator::items_with_name(
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sema,
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current_crate,
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trait_candidate.assoc_item_name.clone(),
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@ -538,6 +539,32 @@ fn trait_applicable_items(
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})
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.collect();
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trait_candidates.retain(|&candidate_trait_id| {
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// we care about the following cases:
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// 1. Trait's definition crate
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// 2. Definition crates for all trait's generic arguments
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// a. This is recursive for fundamental types: `Into<Box<A>> for ()`` is OK, but
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// `Into<Vec<A>> for ()`` is *not*.
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// 3. Receiver type definition crate
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// a. This is recursive for fundamental types
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let defining_crate_for_trait = Trait::from(candidate_trait_id).krate(db);
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let Some(receiver) = trait_candidate.receiver_ty.fingerprint_for_trait_impl() else {
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return false;
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};
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let definitions_exist_in_trait_crate = db
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.trait_impls_in_crate(defining_crate_for_trait.into())
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.has_impls_for_trait_and_self_ty(candidate_trait_id, receiver);
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// this is a closure for laziness: if `definitions_exist_in_trait_crate` is true,
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// we can avoid a second db lookup.
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let definitions_exist_in_receiver_crate = || {
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db.trait_impls_in_crate(trait_candidate.receiver_ty.krate(db).into())
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.has_impls_for_trait_and_self_ty(candidate_trait_id, receiver)
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};
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definitions_exist_in_trait_crate || definitions_exist_in_receiver_crate()
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});
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let mut located_imports = FxHashSet::default();
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let mut trait_import_paths = FxHashMap::default();
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