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|
//! Completion of paths, i.e. `some::prefix::$0`.
use hir::HasVisibility;
use rustc_hash::FxHashSet;
use syntax::AstNode;
use crate::{CompletionContext, Completions};
pub(crate) fn complete_qualified_path(acc: &mut Completions, ctx: &CompletionContext) {
if ctx.is_path_disallowed() {
return;
}
let path = match ctx.path_qual() {
Some(path) => path,
None => return,
};
let resolution = match ctx.sema.resolve_path(path) {
Some(res) => res,
None => return,
};
let context_module = ctx.scope.module();
if ctx.expects_item() || ctx.expects_assoc_item() {
if let hir::PathResolution::Def(hir::ModuleDef::Module(module)) = resolution {
let module_scope = module.scope(ctx.db, context_module);
for (name, def) in module_scope {
if let hir::ScopeDef::MacroDef(macro_def) = def {
if macro_def.is_fn_like() {
acc.add_macro(ctx, Some(name.clone()), macro_def);
}
}
if let hir::ScopeDef::ModuleDef(hir::ModuleDef::Module(_)) = def {
acc.add_resolution(ctx, name, &def);
}
}
}
return;
}
// Add associated types on type parameters and `Self`.
resolution.assoc_type_shorthand_candidates(ctx.db, |_, alias| {
acc.add_type_alias(ctx, alias);
None::<()>
});
match resolution {
hir::PathResolution::Def(hir::ModuleDef::Module(module)) => {
let module_scope = module.scope(ctx.db, context_module);
for (name, def) in module_scope {
if ctx.use_item_syntax.is_some() {
if let hir::ScopeDef::Unknown = def {
if let Some(name_ref) = ctx.name_ref_syntax.as_ref() {
if name_ref.syntax().text() == name.to_string().as_str() {
// for `use self::foo$0`, don't suggest `foo` as a completion
cov_mark::hit!(dont_complete_current_use);
continue;
}
}
}
}
let add_resolution = match def {
// Don't suggest attribute macros and derives.
hir::ScopeDef::MacroDef(mac) => mac.is_fn_like(),
// no values in type places
hir::ScopeDef::ModuleDef(hir::ModuleDef::Function(_))
| hir::ScopeDef::ModuleDef(hir::ModuleDef::Variant(_))
| hir::ScopeDef::ModuleDef(hir::ModuleDef::Static(_))
| hir::ScopeDef::Local(_) => !ctx.expects_type(),
// unless its a constant in a generic arg list position
hir::ScopeDef::ModuleDef(hir::ModuleDef::Const(_)) => {
!ctx.expects_type() || ctx.expects_generic_arg()
}
_ => true,
};
if add_resolution {
acc.add_resolution(ctx, name, &def);
}
}
}
hir::PathResolution::Def(def @ hir::ModuleDef::Adt(_))
| hir::PathResolution::Def(def @ hir::ModuleDef::TypeAlias(_))
| hir::PathResolution::Def(def @ hir::ModuleDef::BuiltinType(_)) => {
if let hir::ModuleDef::Adt(hir::Adt::Enum(e)) = def {
add_enum_variants(acc, ctx, e);
}
let ty = match def {
hir::ModuleDef::Adt(adt) => adt.ty(ctx.db),
hir::ModuleDef::TypeAlias(a) => {
let ty = a.ty(ctx.db);
if let Some(hir::Adt::Enum(e)) = ty.as_adt() {
cov_mark::hit!(completes_variant_through_alias);
add_enum_variants(acc, ctx, e);
}
ty
}
hir::ModuleDef::BuiltinType(builtin) => {
let module = match ctx.scope.module() {
Some(it) => it,
None => return,
};
cov_mark::hit!(completes_primitive_assoc_const);
builtin.ty(ctx.db, module)
}
_ => unreachable!(),
};
// XXX: For parity with Rust bug #22519, this does not complete Ty::AssocType.
// (where AssocType is defined on a trait, not an inherent impl)
let krate = ctx.krate;
if let Some(krate) = krate {
let traits_in_scope = ctx.scope.traits_in_scope();
ty.iterate_path_candidates(ctx.db, krate, &traits_in_scope, None, |_ty, item| {
if context_module.map_or(false, |m| !item.is_visible_from(ctx.db, m)) {
return None;
}
add_assoc_item(acc, ctx, item);
None::<()>
});
// Iterate assoc types separately
ty.iterate_assoc_items(ctx.db, krate, |item| {
if context_module.map_or(false, |m| !item.is_visible_from(ctx.db, m)) {
return None;
}
if let hir::AssocItem::TypeAlias(ty) = item {
acc.add_type_alias(ctx, ty)
}
None::<()>
});
}
}
hir::PathResolution::Def(hir::ModuleDef::Trait(t)) => {
// Handles `Trait::assoc` as well as `<Ty as Trait>::assoc`.
for item in t.items(ctx.db) {
if context_module.map_or(false, |m| !item.is_visible_from(ctx.db, m)) {
continue;
}
add_assoc_item(acc, ctx, item);
}
}
hir::PathResolution::TypeParam(_) | hir::PathResolution::SelfType(_) => {
if let Some(krate) = ctx.krate {
let ty = match resolution {
hir::PathResolution::TypeParam(param) => param.ty(ctx.db),
hir::PathResolution::SelfType(impl_def) => impl_def.self_ty(ctx.db),
_ => return,
};
if let Some(hir::Adt::Enum(e)) = ty.as_adt() {
add_enum_variants(acc, ctx, e);
}
let traits_in_scope = ctx.scope.traits_in_scope();
let mut seen = FxHashSet::default();
ty.iterate_path_candidates(ctx.db, krate, &traits_in_scope, None, |_ty, item| {
if context_module.map_or(false, |m| !item.is_visible_from(ctx.db, m)) {
return None;
}
// We might iterate candidates of a trait multiple times here, so deduplicate
// them.
if seen.insert(item) {
add_assoc_item(acc, ctx, item);
}
None::<()>
});
}
}
_ => {}
}
}
fn add_assoc_item(acc: &mut Completions, ctx: &CompletionContext, item: hir::AssocItem) {
match item {
hir::AssocItem::Function(func) if !ctx.expects_type() => acc.add_function(ctx, func, None),
hir::AssocItem::Const(ct) if !ctx.expects_type() || ctx.expects_generic_arg() => {
acc.add_const(ctx, ct)
}
hir::AssocItem::TypeAlias(ty) => acc.add_type_alias(ctx, ty),
_ => (),
}
}
fn add_enum_variants(acc: &mut Completions, ctx: &CompletionContext, e: hir::Enum) {
if ctx.expects_type() {
return;
}
e.variants(ctx.db).into_iter().for_each(|variant| acc.add_enum_variant(ctx, variant, None));
}
#[cfg(test)]
mod tests {
use expect_test::{expect, Expect};
use crate::{
test_utils::{check_edit, completion_list},
CompletionKind,
};
fn check(ra_fixture: &str, expect: Expect) {
let actual = completion_list(ra_fixture, CompletionKind::Reference);
expect.assert_eq(&actual);
}
fn check_builtin(ra_fixture: &str, expect: Expect) {
let actual = completion_list(ra_fixture, CompletionKind::BuiltinType);
expect.assert_eq(&actual);
}
#[test]
fn dont_complete_current_use() {
cov_mark::check!(dont_complete_current_use);
check(r#"use self::foo$0;"#, expect![[""]]);
}
#[test]
fn dont_complete_values_in_type_pos() {
check(
r#"
const FOO: () = ();
static BAR: () = ();
struct Baz;
fn foo() {
let _: self::$0;
}
"#,
expect![[r#"
st Baz
"#]],
);
}
#[test]
fn dont_complete_enum_variants_in_type_pos() {
check(
r#"
enum Foo { Bar }
fn foo() {
let _: Foo::$0;
}
"#,
expect![[r#""#]],
);
}
#[test]
fn dont_complete_current_use_in_braces_with_glob() {
check(
r#"
mod foo { pub struct S; }
use self::{foo::*, bar$0};
"#,
expect![[r#"
st S
md foo
"#]],
);
}
#[test]
fn dont_complete_primitive_in_use() {
check_builtin(r#"use self::$0;"#, expect![[""]]);
}
#[test]
fn dont_complete_primitive_in_module_scope() {
check_builtin(r#"fn foo() { self::$0 }"#, expect![[""]]);
}
#[test]
fn completes_primitives() {
check_builtin(
r#"fn main() { let _: $0 = 92; }"#,
expect![[r#"
bt u32
bt bool
bt u8
bt isize
bt u16
bt u64
bt u128
bt f32
bt i128
bt i16
bt str
bt i64
bt char
bt f64
bt i32
bt i8
bt usize
"#]],
);
}
#[test]
fn completes_mod_with_same_name_as_function() {
check(
r#"
use self::my::$0;
mod my { pub struct Bar; }
fn my() {}
"#,
expect![[r#"
st Bar
"#]],
);
}
#[test]
fn filters_visibility() {
check(
r#"
use self::my::$0;
mod my {
struct Bar;
pub struct Foo;
pub use Bar as PublicBar;
}
"#,
expect![[r#"
st Foo
st PublicBar
"#]],
);
}
#[test]
fn completes_use_item_starting_with_self() {
check(
r#"
use self::m::$0;
mod m { pub struct Bar; }
"#,
expect![[r#"
st Bar
"#]],
);
}
#[test]
fn completes_use_item_starting_with_crate() {
check(
r#"
//- /lib.rs
mod foo;
struct Spam;
//- /foo.rs
use crate::Sp$0
"#,
expect![[r#"
md foo
st Spam
"#]],
);
}
#[test]
fn completes_nested_use_tree() {
check(
r#"
//- /lib.rs
mod foo;
struct Spam;
//- /foo.rs
use crate::{Sp$0};
"#,
expect![[r#"
md foo
st Spam
"#]],
);
}
#[test]
fn completes_deeply_nested_use_tree() {
check(
r#"
//- /lib.rs
mod foo;
pub mod bar {
pub mod baz {
pub struct Spam;
}
}
//- /foo.rs
use crate::{bar::{baz::Sp$0}};
"#,
expect![[r#"
st Spam
"#]],
);
}
#[test]
fn completes_enum_variant() {
check(
r#"
enum E { Foo, Bar(i32) }
fn foo() { let _ = E::$0 }
"#,
expect![[r#"
ev Foo ()
ev Bar(…) (i32)
"#]],
);
}
#[test]
fn completes_struct_associated_items() {
check(
r#"
//- /lib.rs
struct S;
impl S {
fn a() {}
fn b(&self) {}
const C: i32 = 42;
type T = i32;
}
fn foo() { let _ = S::$0 }
"#,
expect![[r#"
fn a() fn()
me b(…) fn(&self)
ct C const C: i32 = 42;
ta T type T = i32;
"#]],
);
}
#[test]
fn associated_item_visibility() {
check(
r#"
struct S;
mod m {
impl super::S {
pub(crate) fn public_method() { }
fn private_method() { }
pub(crate) type PublicType = u32;
type PrivateType = u32;
pub(crate) const PUBLIC_CONST: u32 = 1;
const PRIVATE_CONST: u32 = 1;
}
}
fn foo() { let _ = S::$0 }
"#,
expect![[r#"
fn public_method() fn()
ct PUBLIC_CONST pub(crate) const PUBLIC_CONST: u32 = 1;
ta PublicType pub(crate) type PublicType = u32;
"#]],
);
}
#[test]
fn completes_enum_associated_method() {
check(
r#"
enum E {};
impl E { fn m() { } }
fn foo() { let _ = E::$0 }
"#,
expect![[r#"
fn m() fn()
"#]],
);
}
#[test]
fn completes_union_associated_method() {
check(
r#"
union U {};
impl U { fn m() { } }
fn foo() { let _ = U::$0 }
"#,
expect![[r#"
fn m() fn()
"#]],
);
}
#[test]
fn completes_use_paths_across_crates() {
check(
r#"
//- /main.rs crate:main deps:foo
use foo::$0;
//- /foo/lib.rs crate:foo
pub mod bar { pub struct S; }
"#,
expect![[r#"
md bar
"#]],
);
}
#[test]
fn completes_trait_associated_method_1() {
check(
r#"
trait Trait { fn m(); }
fn foo() { let _ = Trait::$0 }
"#,
expect![[r#"
fn m() fn()
"#]],
);
}
#[test]
fn completes_trait_associated_method_2() {
check(
r#"
trait Trait { fn m(); }
struct S;
impl Trait for S {}
fn foo() { let _ = S::$0 }
"#,
expect![[r#"
fn m() fn()
"#]],
);
}
#[test]
fn completes_trait_associated_method_3() {
check(
r#"
trait Trait { fn m(); }
struct S;
impl Trait for S {}
fn foo() { let _ = <S as Trait>::$0 }
"#,
expect![[r#"
fn m() fn()
"#]],
);
}
#[test]
fn completes_ty_param_assoc_ty() {
check(
r#"
trait Super {
type Ty;
const CONST: u8;
fn func() {}
fn method(&self) {}
}
trait Sub: Super {
type SubTy;
const C2: ();
fn subfunc() {}
fn submethod(&self) {}
}
fn foo<T: Sub>() { T::$0 }
"#,
expect![[r#"
ta SubTy type SubTy;
ta Ty type Ty;
ct C2 const C2: ();
fn subfunc() fn()
me submethod(…) fn(&self)
ct CONST const CONST: u8;
fn func() fn()
me method(…) fn(&self)
"#]],
);
}
#[test]
fn completes_self_param_assoc_ty() {
check(
r#"
trait Super {
type Ty;
const CONST: u8 = 0;
fn func() {}
fn method(&self) {}
}
trait Sub: Super {
type SubTy;
const C2: () = ();
fn subfunc() {}
fn submethod(&self) {}
}
struct Wrap<T>(T);
impl<T> Super for Wrap<T> {}
impl<T> Sub for Wrap<T> {
fn subfunc() {
// Should be able to assume `Self: Sub + Super`
Self::$0
}
}
"#,
expect![[r#"
ta SubTy type SubTy;
ta Ty type Ty;
ct CONST const CONST: u8 = 0;
fn func() fn()
me method(…) fn(&self)
ct C2 const C2: () = ();
fn subfunc() fn()
me submethod(…) fn(&self)
"#]],
);
}
#[test]
fn completes_type_alias() {
check(
r#"
struct S;
impl S { fn foo() {} }
type T = S;
impl T { fn bar() {} }
fn main() { T::$0; }
"#,
expect![[r#"
fn foo() fn()
fn bar() fn()
"#]],
);
}
#[test]
fn completes_qualified_macros() {
check(
r#"
#[macro_export]
macro_rules! foo { () => {} }
fn main() { let _ = crate::$0 }
"#,
expect![[r##"
fn main() fn()
ma foo!(…) #[macro_export] macro_rules! foo
"##]],
);
}
#[test]
fn does_not_complete_non_fn_macros() {
check(
r#"
mod m {
#[rustc_builtin_macro]
pub macro Clone {}
}
fn f() {m::$0}
"#,
expect![[r#""#]],
);
check(
r#"
mod m {
#[rustc_builtin_macro]
pub macro bench {}
}
fn f() {m::$0}
"#,
expect![[r#""#]],
);
}
#[test]
fn completes_in_assoc_item_list() {
check(
r#"
#[macro_export]
macro_rules! foo { () => {} }
mod bar {}
struct MyStruct {}
impl MyStruct {
crate::$0
}
"#,
expect![[r##"
md bar
ma foo!(…) #[macro_export] macro_rules! foo
"##]],
);
}
#[test]
fn completes_in_item_list() {
check(
r#"
struct MyStruct {}
#[macro_export]
macro_rules! foo {}
mod bar {}
crate::$0
"#,
expect![[r#"
md bar
ma foo!(…) #[macro_export] macro_rules! foo
"#]],
)
}
#[test]
fn test_super_super_completion() {
check(
r#"
mod a {
const A: usize = 0;
mod b {
const B: usize = 0;
mod c { use super::super::$0 }
}
}
"#,
expect![[r#"
md b
ct A
"#]],
);
}
#[test]
fn completes_reexported_items_under_correct_name() {
check(
r#"
fn foo() { self::m::$0 }
mod m {
pub use super::p::wrong_fn as right_fn;
pub use super::p::WRONG_CONST as RIGHT_CONST;
pub use super::p::WrongType as RightType;
}
mod p {
fn wrong_fn() {}
const WRONG_CONST: u32 = 1;
struct WrongType {};
}
"#,
expect![[r#"
ct RIGHT_CONST
fn right_fn() fn()
st RightType
"#]],
);
check_edit(
"RightType",
r#"
fn foo() { self::m::$0 }
mod m {
pub use super::p::wrong_fn as right_fn;
pub use super::p::WRONG_CONST as RIGHT_CONST;
pub use super::p::WrongType as RightType;
}
mod p {
fn wrong_fn() {}
const WRONG_CONST: u32 = 1;
struct WrongType {};
}
"#,
r#"
fn foo() { self::m::RightType }
mod m {
pub use super::p::wrong_fn as right_fn;
pub use super::p::WRONG_CONST as RIGHT_CONST;
pub use super::p::WrongType as RightType;
}
mod p {
fn wrong_fn() {}
const WRONG_CONST: u32 = 1;
struct WrongType {};
}
"#,
);
}
#[test]
fn completes_in_simple_macro_call() {
check(
r#"
macro_rules! m { ($e:expr) => { $e } }
fn main() { m!(self::f$0); }
fn foo() {}
"#,
expect![[r#"
fn main() fn()
fn foo() fn()
"#]],
);
}
#[test]
fn function_mod_share_name() {
check(
r#"
fn foo() { self::m::$0 }
mod m {
pub mod z {}
pub fn z() {}
}
"#,
expect![[r#"
md z
fn z() fn()
"#]],
);
}
#[test]
fn completes_hashmap_new() {
check(
r#"
struct RandomState;
struct HashMap<K, V, S = RandomState> {}
impl<K, V> HashMap<K, V, RandomState> {
pub fn new() -> HashMap<K, V, RandomState> { }
}
fn foo() {
HashMap::$0
}
"#,
expect![[r#"
fn new() fn() -> HashMap<K, V, RandomState>
"#]],
);
}
#[test]
fn dont_complete_attr() {
check(
r#"
mod foo { pub struct Foo; }
#[foo::$0]
fn f() {}
"#,
expect![[""]],
);
}
#[test]
fn completes_variant_through_self() {
check(
r#"
enum Foo {
Bar,
Baz,
}
impl Foo {
fn foo(self) {
Self::$0
}
}
"#,
expect![[r#"
ev Bar ()
ev Baz ()
me foo(…) fn(self)
"#]],
);
}
#[test]
fn completes_primitive_assoc_const() {
cov_mark::check!(completes_primitive_assoc_const);
check(
r#"
//- /lib.rs crate:lib deps:core
fn f() {
u8::$0
}
//- /core.rs crate:core
#[lang = "u8"]
impl u8 {
pub const MAX: Self = 255;
pub fn func(self) {}
}
"#,
expect![[r#"
ct MAX pub const MAX: Self = 255;
me func(…) fn(self)
"#]],
);
}
#[test]
fn completes_variant_through_alias() {
cov_mark::check!(completes_variant_through_alias);
check(
r#"
enum Foo {
Bar
}
type Foo2 = Foo;
fn main() {
Foo2::$0
}
"#,
expect![[r#"
ev Bar ()
"#]],
);
}
#[test]
fn completes_types_and_const_in_arg_list() {
check(
r#"
mod foo {
pub const CONST: () = ();
pub type Type = ();
}
struct Foo<T>(t);
fn foo(_: Foo<foo::$0>) {}
"#,
expect![[r#"
ta Type
ct CONST
"#]],
);
}
}
|