//! Completion of names from the current scope, e.g. locals and imported items. use hir::ScopeDef; use syntax::AstNode; use crate::{CompletionContext, Completions}; pub(crate) fn complete_unqualified_path(acc: &mut Completions, ctx: &CompletionContext) { if !ctx.is_trivial_path { return; } if ctx.record_lit_syntax.is_some() || ctx.record_pat_syntax.is_some() || ctx.attribute_under_caret.is_some() || ctx.mod_declaration_under_caret.is_some() || ctx.has_impl_parent || ctx.has_trait_parent { return; } if let Some(hir::Adt::Enum(e)) = ctx.expected_type.as_ref().and_then(|ty| ty.strip_references().as_adt()) { super::complete_enum_variants(acc, ctx, e, |acc, ctx, variant, path| { acc.add_qualified_enum_variant(ctx, variant, path) }); } ctx.scope.process_all_names(&mut |name, res| { if let ScopeDef::GenericParam(hir::GenericParam::LifetimeParam(_)) = res { cov_mark::hit!(skip_lifetime_completion); return; } if ctx.use_item_syntax.is_some() { if let (ScopeDef::Unknown, Some(name_ref)) = (&res, &ctx.name_ref_syntax) { if name_ref.syntax().text() == name.to_string().as_str() { cov_mark::hit!(self_fulfilling_completion); return; } } } acc.add_resolution(ctx, name.to_string(), &res); }); } #[cfg(test)] mod tests { use expect_test::{expect, Expect}; use crate::{ test_utils::{check_edit, completion_list_with_config, TEST_CONFIG}, CompletionConfig, CompletionKind, }; fn check(ra_fixture: &str, expect: Expect) { check_with_config(TEST_CONFIG, ra_fixture, expect); } fn check_with_config(config: CompletionConfig, ra_fixture: &str, expect: Expect) { let actual = completion_list_with_config(config, ra_fixture, CompletionKind::Reference); expect.assert_eq(&actual) } #[test] fn self_fulfilling_completion() { cov_mark::check!(self_fulfilling_completion); check( r#" use foo$0 use std::collections; "#, expect![[r#" ?? collections "#]], ); } #[test] fn bind_pat_and_path_ignore_at() { check( r#" enum Enum { A, B } fn quux(x: Option) { match x { None => (), Some(en$0 @ Enum::A) => (), } } "#, expect![[r#""#]], ); } #[test] fn bind_pat_and_path_ignore_ref() { check( r#" enum Enum { A, B } fn quux(x: Option) { match x { None => (), Some(ref en$0) => (), } } "#, expect![[r#""#]], ); } #[test] fn bind_pat_and_path() { check( r#" enum Enum { A, B } fn quux(x: Option) { match x { None => (), Some(En$0) => (), } } "#, expect![[r#" en Enum "#]], ); } #[test] fn completes_bindings_from_let() { check( r#" fn quux(x: i32) { let y = 92; 1 + $0; let z = (); } "#, expect![[r#" lc y i32 lc x i32 fn quux(…) fn(i32) "#]], ); } #[test] fn completes_bindings_from_if_let() { check( r#" fn quux() { if let Some(x) = foo() { let y = 92; }; if let Some(a) = bar() { let b = 62; 1 + $0 } } "#, expect![[r#" lc b i32 lc a fn quux() fn() "#]], ); } #[test] fn completes_bindings_from_for() { check( r#" fn quux() { for x in &[1, 2, 3] { $0 } } "#, expect![[r#" lc x fn quux() fn() "#]], ); } #[test] fn completes_if_prefix_is_keyword() { cov_mark::check!(completes_if_prefix_is_keyword); check_edit( "wherewolf", r#" fn main() { let wherewolf = 92; drop(where$0) } "#, r#" fn main() { let wherewolf = 92; drop(wherewolf) } "#, ) } #[test] fn completes_generic_params() { check( r#"fn quux() { $0 }"#, expect![[r#" tp T fn quux() fn() "#]], ); check( r#"fn quux() { $0 }"#, expect![[r#" cp C fn quux() fn() "#]], ); } #[test] fn does_not_complete_lifetimes() { cov_mark::check!(skip_lifetime_completion); check( r#"fn quux<'a>() { $0 }"#, expect![[r#" fn quux() fn() "#]], ); } #[test] fn completes_generic_params_in_struct() { check( r#"struct S { x: $0}"#, expect![[r#" sp Self tp T st S<…> "#]], ); } #[test] fn completes_self_in_enum() { check( r#"enum X { Y($0) }"#, expect![[r#" sp Self en X "#]], ); } #[test] fn completes_module_items() { check( r#" struct S; enum E {} fn quux() { $0 } "#, expect![[r#" st S fn quux() fn() en E "#]], ); } /// Regression test for issue #6091. #[test] fn correctly_completes_module_items_prefixed_with_underscore() { check_edit( "_alpha", r#" fn main() { _$0 } fn _alpha() {} "#, r#" fn main() { _alpha()$0 } fn _alpha() {} "#, ) } #[test] fn completes_extern_prelude() { check( r#" //- /lib.rs crate:main deps:other_crate use $0; //- /other_crate/lib.rs crate:other_crate // nothing here "#, expect![[r#" md other_crate "#]], ); } #[test] fn completes_module_items_in_nested_modules() { check( r#" struct Foo; mod m { struct Bar; fn quux() { $0 } } "#, expect![[r#" fn quux() fn() st Bar "#]], ); } #[test] fn completes_return_type() { check( r#" struct Foo; fn x() -> $0 "#, expect![[r#" st Foo fn x() fn() "#]], ); } #[test] fn dont_show_both_completions_for_shadowing() { check( r#" fn foo() { let bar = 92; { let bar = 62; drop($0) } } "#, // FIXME: should be only one bar here expect![[r#" lc bar i32 lc bar i32 fn foo() fn() "#]], ); } #[test] fn completes_self_in_methods() { check( r#"impl S { fn foo(&self) { $0 } }"#, expect![[r#" lc self &{unknown} sp Self "#]], ); } #[test] fn completes_prelude() { check( r#" //- /main.rs crate:main deps:std fn foo() { let x: $0 } //- /std/lib.rs crate:std #[prelude_import] use prelude::*; mod prelude { struct Option; } "#, expect![[r#" fn foo() fn() md std st Option "#]], ); } #[test] fn completes_prelude_macros() { check( r#" //- /main.rs crate:main deps:std fn f() {$0} //- /std/lib.rs crate:std #[prelude_import] pub use prelude::*; #[macro_use] mod prelude { pub use crate::concat; } mod macros { #[rustc_builtin_macro] #[macro_export] macro_rules! concat { } } "#, expect![[r##" fn f() fn() ma concat!(…) #[macro_export] macro_rules! concat md std "##]], ); } #[test] fn completes_std_prelude_if_core_is_defined() { check( r#" //- /main.rs crate:main deps:core,std fn foo() { let x: $0 } //- /core/lib.rs crate:core #[prelude_import] use prelude::*; mod prelude { struct Option; } //- /std/lib.rs crate:std deps:core #[prelude_import] use prelude::*; mod prelude { struct String; } "#, expect![[r#" fn foo() fn() md std md core st String "#]], ); } #[test] fn completes_macros_as_value() { check( r#" macro_rules! foo { () => {} } #[macro_use] mod m1 { macro_rules! bar { () => {} } } mod m2 { macro_rules! nope { () => {} } #[macro_export] macro_rules! baz { () => {} } } fn main() { let v = $0 } "#, expect![[r##" md m1 ma baz!(…) #[macro_export] macro_rules! baz fn main() fn() md m2 ma bar!(…) macro_rules! bar ma foo!(…) macro_rules! foo "##]], ); } #[test] fn completes_both_macro_and_value() { check( r#" macro_rules! foo { () => {} } fn foo() { $0 } "#, expect![[r#" fn foo() fn() ma foo!(…) macro_rules! foo "#]], ); } #[test] fn completes_macros_as_type() { check( r#" macro_rules! foo { () => {} } fn main() { let x: $0 } "#, expect![[r#" fn main() fn() ma foo!(…) macro_rules! foo "#]], ); } #[test] fn completes_macros_as_stmt() { check( r#" macro_rules! foo { () => {} } fn main() { $0 } "#, expect![[r#" fn main() fn() ma foo!(…) macro_rules! foo "#]], ); } #[test] fn completes_local_item() { check( r#" fn main() { return f$0; fn frobnicate() {} } "#, expect![[r#" fn frobnicate() fn() fn main() fn() "#]], ); } #[test] fn completes_in_simple_macro_1() { check( r#" macro_rules! m { ($e:expr) => { $e } } fn quux(x: i32) { let y = 92; m!($0); } "#, expect![[r#" lc y i32 lc x i32 fn quux(…) fn(i32) ma m!(…) macro_rules! m "#]], ); } #[test] fn completes_in_simple_macro_2() { check( r" macro_rules! m { ($e:expr) => { $e } } fn quux(x: i32) { let y = 92; m!(x$0); } ", expect![[r#" lc y i32 lc x i32 fn quux(…) fn(i32) ma m!(…) macro_rules! m "#]], ); } #[test] fn completes_in_simple_macro_without_closing_parens() { check( r#" macro_rules! m { ($e:expr) => { $e } } fn quux(x: i32) { let y = 92; m!(x$0 } "#, expect![[r#" lc y i32 lc x i32 fn quux(…) fn(i32) ma m!(…) macro_rules! m "#]], ); } #[test] fn completes_unresolved_uses() { check( r#" use spam::Quux; fn main() { $0 } "#, expect![[r#" fn main() fn() ?? Quux "#]], ); } #[test] fn completes_enum_variant_basic_expr() { check( r#" enum Foo { Bar, Baz, Quux } fn main() { let foo: Foo = Q$0 } "#, expect![[r#" ev Foo::Bar () ev Foo::Baz () ev Foo::Quux () en Foo fn main() fn() "#]], ) } #[test] fn completes_enum_variant_from_module() { check( r#" mod m { pub enum E { V } } fn f() -> m::E { V$0 } "#, expect![[r#" ev m::E::V () md m fn f() fn() -> E "#]], ) } #[test] fn dont_complete_attr() { check( r#" struct Foo; #[$0] fn f() {} "#, expect![[""]], ) } #[test] fn completes_type_or_trait_in_impl_block() { check( r#" trait MyTrait {} struct MyStruct {} impl My$0 "#, expect![[r#" sp Self tt MyTrait st MyStruct "#]], ) } }