Auto merge of #15026 - lowr:fix/deduplicate-compl-fields, r=Veykril

fix: deduplicate fields and types in completion

Fixes #15024

- `hir_ty::autoderef()` (which is only meant to be used outside `hir-ty`) now deduplicates types and completely resolves inference variables within.
- field completion now deduplicates fields of the same name and only picks such field of the first type in the deref chain.
This commit is contained in:
bors 2023-06-12 12:53:53 +00:00
commit 6b3659d38f
3 changed files with 118 additions and 6 deletions

View file

@ -22,17 +22,37 @@ pub(crate) enum AutoderefKind {
Overloaded,
}
/// Returns types that `ty` transitively dereferences to. This function is only meant to be used
/// outside `hir-ty`.
///
/// It is guaranteed that:
/// - the yielded types don't contain inference variables (but may contain `TyKind::Error`).
/// - a type won't be yielded more than once; in other words, the returned iterator will stop if it
/// detects a cycle in the deref chain.
pub fn autoderef(
db: &dyn HirDatabase,
env: Arc<TraitEnvironment>,
ty: Canonical<Ty>,
) -> impl Iterator<Item = Canonical<Ty>> + '_ {
) -> impl Iterator<Item = Ty> {
let mut table = InferenceTable::new(db, env);
let ty = table.instantiate_canonical(ty);
let mut autoderef = Autoderef::new(&mut table, ty);
let mut v = Vec::new();
while let Some((ty, _steps)) = autoderef.next() {
v.push(autoderef.table.canonicalize(ty).value);
// `ty` may contain unresolved inference variables. Since there's no chance they would be
// resolved, just replace with fallback type.
let resolved = autoderef.table.resolve_completely(ty);
// If the deref chain contains a cycle (e.g. `A` derefs to `B` and `B` derefs to `A`), we
// would revisit some already visited types. Stop here to avoid duplication.
//
// XXX: The recursion limit for `Autoderef` is currently 10, so `Vec::contains()` shouldn't
// be too expensive. Replace this duplicate check with `FxHashSet` if it proves to be more
// performant.
if v.contains(&resolved) {
break;
}
v.push(resolved);
}
v.into_iter()
}

View file

@ -3818,14 +3818,16 @@ impl Type {
}
}
pub fn autoderef<'a>(&'a self, db: &'a dyn HirDatabase) -> impl Iterator<Item = Type> + 'a {
/// Returns types that this type dereferences to (including this type itself). The returned
/// iterator won't yield the same type more than once even if the deref chain contains a cycle.
pub fn autoderef(&self, db: &dyn HirDatabase) -> impl Iterator<Item = Type> + '_ {
self.autoderef_(db).map(move |ty| self.derived(ty))
}
fn autoderef_<'a>(&'a self, db: &'a dyn HirDatabase) -> impl Iterator<Item = Ty> + 'a {
fn autoderef_(&self, db: &dyn HirDatabase) -> impl Iterator<Item = Ty> {
// There should be no inference vars in types passed here
let canonical = hir_ty::replace_errors_with_variables(&self.ty);
autoderef(db, self.env.clone(), canonical).map(|canonical| canonical.value)
autoderef(db, self.env.clone(), canonical)
}
// This would be nicer if it just returned an iterator, but that runs into

View file

@ -105,9 +105,12 @@ fn complete_fields(
mut named_field: impl FnMut(&mut Completions, hir::Field, hir::Type),
mut tuple_index: impl FnMut(&mut Completions, usize, hir::Type),
) {
let mut seen_names = FxHashSet::default();
for receiver in receiver.autoderef(ctx.db) {
for (field, ty) in receiver.fields(ctx.db) {
named_field(acc, field, ty);
if seen_names.insert(field.name(ctx.db)) {
named_field(acc, field, ty);
}
}
for (i, ty) in receiver.tuple_fields(ctx.db).into_iter().enumerate() {
// Tuple fields are always public (tuple struct fields are handled above).
@ -671,6 +674,52 @@ impl T {
);
}
#[test]
fn test_field_no_same_name() {
check(
r#"
//- minicore: deref
struct A { field: u8 }
struct B { field: u16, another: u32 }
impl core::ops::Deref for A {
type Target = B;
fn deref(&self) -> &Self::Target { loop {} }
}
fn test(a: A) {
a.$0
}
"#,
expect![[r#"
fd another u32
fd field u8
me deref() (use core::ops::Deref) fn(&self) -> &<Self as Deref>::Target
"#]],
);
}
#[test]
fn test_tuple_field_no_same_index() {
check(
r#"
//- minicore: deref
struct A(u8);
struct B(u16, u32);
impl core::ops::Deref for A {
type Target = B;
fn deref(&self) -> &Self::Target { loop {} }
}
fn test(a: A) {
a.$0
}
"#,
expect![[r#"
fd 0 u8
fd 1 u32
me deref() (use core::ops::Deref) fn(&self) -> &<Self as Deref>::Target
"#]],
);
}
#[test]
fn test_completion_works_in_consts() {
check(
@ -979,4 +1028,45 @@ fn test(thing: impl Encrypt) {
"#]],
)
}
#[test]
fn only_consider_same_type_once() {
check(
r#"
//- minicore: deref
struct A(u8);
struct B(u16);
impl core::ops::Deref for A {
type Target = B;
fn deref(&self) -> &Self::Target { loop {} }
}
impl core::ops::Deref for B {
type Target = A;
fn deref(&self) -> &Self::Target { loop {} }
}
fn test(a: A) {
a.$0
}
"#,
expect![[r#"
fd 0 u8
me deref() (use core::ops::Deref) fn(&self) -> &<Self as Deref>::Target
"#]],
);
}
#[test]
fn no_inference_var_in_completion() {
check(
r#"
struct S<T>(T);
fn test(s: S<Unknown>) {
s.$0
}
"#,
expect![[r#"
fd 0 {unknown}
"#]],
);
}
}