use hir::{Adt, Either, PathResolution}; use ra_syntax::AstNode; use test_utils::tested_by; use crate::completion::{CompletionContext, Completions}; pub(super) fn complete_path(acc: &mut Completions, ctx: &CompletionContext) { let path = match &ctx.path_prefix { Some(path) => path.clone(), _ => return, }; let def = match dbg!(ctx.analyzer.resolve_hir_path(ctx.db, &path)) { Some(PathResolution::Def(def)) => def, _ => return, }; match def { hir::ModuleDef::Module(module) => { let module_scope = module.scope(ctx.db); for (name, res) in module_scope.entries() { if let Some(hir::ModuleDef::BuiltinType(..)) = res.def.take_types() { if ctx.use_item_syntax.is_some() { tested_by!(dont_complete_primitive_in_use); continue; } } if Some(module) == ctx.module { if let Some(import) = res.import { if let Either::A(use_tree) = module.import_source(ctx.db, import) { if use_tree.syntax().text_range().contains_inclusive(ctx.offset) { // for `use self::foo<|>`, don't suggest `foo` as a completion tested_by!(dont_complete_current_use); continue; } } } } acc.add_resolution(ctx, name.to_string(), &res.def.into()); } } hir::ModuleDef::Adt(_) | hir::ModuleDef::TypeAlias(_) => { if let hir::ModuleDef::Adt(Adt::Enum(e)) = def { for variant in e.variants(ctx.db) { acc.add_enum_variant(ctx, variant); } } let ty = match def { hir::ModuleDef::Adt(adt) => adt.ty(ctx.db), hir::ModuleDef::TypeAlias(a) => a.ty(ctx.db), _ => unreachable!(), }; let krate = ctx.module.and_then(|m| m.krate(ctx.db)); if let Some(krate) = krate { ty.iterate_impl_items(ctx.db, krate, |item| { match item { hir::ImplItem::Method(func) => { let data = func.data(ctx.db); if !data.has_self_param() { acc.add_function(ctx, func); } } hir::ImplItem::Const(ct) => acc.add_const(ctx, ct), hir::ImplItem::TypeAlias(ty) => acc.add_type_alias(ctx, ty), } None::<()> }); } } _ => return, }; } #[cfg(test)] mod tests { use test_utils::covers; use crate::completion::{do_completion, CompletionItem, CompletionKind}; use insta::assert_debug_snapshot; fn do_reference_completion(code: &str) -> Vec { do_completion(code, CompletionKind::Reference) } #[test] fn dont_complete_current_use() { covers!(dont_complete_current_use); let completions = do_completion(r"use self::foo<|>;", CompletionKind::Reference); assert!(completions.is_empty()); } #[test] fn dont_complete_current_use_in_braces_with_glob() { let completions = do_completion( r" mod foo { pub struct S; } use self::{foo::*, bar<|>}; ", CompletionKind::Reference, ); assert_eq!(completions.len(), 2); } #[test] fn dont_complete_primitive_in_use() { covers!(dont_complete_primitive_in_use); let completions = do_completion(r"use self::<|>;", CompletionKind::BuiltinType); assert!(completions.is_empty()); } #[test] fn completes_primitives() { let completions = do_completion(r"fn main() { let _: <|> = 92; }", CompletionKind::BuiltinType); assert_eq!(completions.len(), 17); } #[test] fn completes_mod_with_docs() { assert_debug_snapshot!( do_reference_completion( r" use self::my<|>; /// Some simple /// docs describing `mod my`. mod my { struct Bar; } " ), @r###"[ CompletionItem { label: "my", source_range: [27; 29), delete: [27; 29), insert: "my", kind: Module, documentation: Documentation( "Some simple\ndocs describing `mod my`.", ), }, ]"### ); } #[test] fn completes_use_item_starting_with_self() { assert_debug_snapshot!( do_reference_completion( r" use self::m::<|>; mod m { struct Bar; } " ), @r###"[ CompletionItem { label: "Bar", source_range: [30; 30), delete: [30; 30), insert: "Bar", kind: Struct, }, ]"### ); } #[test] fn completes_use_item_starting_with_crate() { assert_debug_snapshot!( do_reference_completion( " //- /lib.rs mod foo; struct Spam; //- /foo.rs use crate::Sp<|> " ), @r###"[ CompletionItem { label: "Spam", source_range: [11; 13), delete: [11; 13), insert: "Spam", kind: Struct, }, CompletionItem { label: "foo", source_range: [11; 13), delete: [11; 13), insert: "foo", kind: Module, }, ]"### ); } #[test] fn completes_nested_use_tree() { assert_debug_snapshot!( do_reference_completion( " //- /lib.rs mod foo; struct Spam; //- /foo.rs use crate::{Sp<|>}; " ), @r###"[ CompletionItem { label: "Spam", source_range: [12; 14), delete: [12; 14), insert: "Spam", kind: Struct, }, CompletionItem { label: "foo", source_range: [12; 14), delete: [12; 14), insert: "foo", kind: Module, }, ]"### ); } #[test] fn completes_deeply_nested_use_tree() { assert_debug_snapshot!( do_reference_completion( " //- /lib.rs mod foo; pub mod bar { pub mod baz { pub struct Spam; } } //- /foo.rs use crate::{bar::{baz::Sp<|>}}; " ), @r###"[ CompletionItem { label: "Spam", source_range: [23; 25), delete: [23; 25), insert: "Spam", kind: Struct, }, ]"### ); } #[test] fn completes_enum_variant() { assert_debug_snapshot!( do_reference_completion( " //- /lib.rs /// An enum enum E { /// Foo Variant Foo, /// Bar Variant with i32 Bar(i32) } fn foo() { let _ = E::<|> } " ), @r###"[ CompletionItem { label: "Bar", source_range: [116; 116), delete: [116; 116), insert: "Bar", kind: EnumVariant, detail: "(i32)", documentation: Documentation( "Bar Variant with i32", ), }, CompletionItem { label: "Foo", source_range: [116; 116), delete: [116; 116), insert: "Foo", kind: EnumVariant, detail: "()", documentation: Documentation( "Foo Variant", ), }, ]"### ); } #[test] fn completes_enum_variant_with_details() { assert_debug_snapshot!( do_reference_completion( " //- /lib.rs struct S { field: u32 } /// An enum enum E { /// Foo Variant (empty) Foo, /// Bar Variant with i32 and u32 Bar(i32, u32), /// S(S), } fn foo() { let _ = E::<|> } " ), @r###"[ CompletionItem { label: "Bar", source_range: [180; 180), delete: [180; 180), insert: "Bar", kind: EnumVariant, detail: "(i32, u32)", documentation: Documentation( "Bar Variant with i32 and u32", ), }, CompletionItem { label: "Foo", source_range: [180; 180), delete: [180; 180), insert: "Foo", kind: EnumVariant, detail: "()", documentation: Documentation( "Foo Variant (empty)", ), }, CompletionItem { label: "S", source_range: [180; 180), delete: [180; 180), insert: "S", kind: EnumVariant, detail: "(S)", documentation: Documentation( "", ), }, ]"### ); } #[test] fn completes_struct_associated_method() { assert_debug_snapshot!( do_reference_completion( " //- /lib.rs /// A Struct struct S; impl S { /// An associated method fn m() { } } fn foo() { let _ = S::<|> } " ), @r###"[ CompletionItem { label: "m", source_range: [100; 100), delete: [100; 100), insert: "m()$0", kind: Function, detail: "fn m()", documentation: Documentation( "An associated method", ), }, ]"### ); } #[test] fn completes_struct_associated_const() { assert_debug_snapshot!( do_reference_completion( " //- /lib.rs /// A Struct struct S; impl S { /// An associated const const C: i32 = 42; } fn foo() { let _ = S::<|> } " ), @r###"[ CompletionItem { label: "C", source_range: [107; 107), delete: [107; 107), insert: "C", kind: Const, detail: "const C: i32 = 42;", documentation: Documentation( "An associated const", ), }, ]"### ); } #[test] fn completes_struct_associated_type() { assert_debug_snapshot!( do_reference_completion( " //- /lib.rs /// A Struct struct S; impl S { /// An associated type type T = i32; } fn foo() { let _ = S::<|> } " ), @r###"[ CompletionItem { label: "T", source_range: [101; 101), delete: [101; 101), insert: "T", kind: TypeAlias, detail: "type T = i32;", documentation: Documentation( "An associated type", ), }, ]"### ); } #[test] fn completes_enum_associated_method() { assert_debug_snapshot!( do_reference_completion( " //- /lib.rs /// An enum enum S {}; impl S { /// An associated method fn m() { } } fn foo() { let _ = S::<|> } " ), @r###"[ CompletionItem { label: "m", source_range: [100; 100), delete: [100; 100), insert: "m()$0", kind: Function, detail: "fn m()", documentation: Documentation( "An associated method", ), }, ]"### ); } #[test] fn completes_union_associated_method() { assert_debug_snapshot!( do_reference_completion( " //- /lib.rs /// A union union U {}; impl U { /// An associated method fn m() { } } fn foo() { let _ = U::<|> } " ), @r###"[ CompletionItem { label: "m", source_range: [101; 101), delete: [101; 101), insert: "m()$0", kind: Function, detail: "fn m()", documentation: Documentation( "An associated method", ), }, ]"### ); } #[test] fn completes_use_paths_across_crates() { assert_debug_snapshot!( do_reference_completion( " //- /main.rs use foo::<|>; //- /foo/lib.rs pub mod bar { pub struct S; } " ), @r###"[ CompletionItem { label: "bar", source_range: [9; 9), delete: [9; 9), insert: "bar", kind: Module, }, ]"### ); } #[test] fn completes_type_alias() { assert_debug_snapshot!( do_reference_completion( " struct S; impl S { fn foo() {} } type T = S; impl T { fn bar() {} } fn main() { T::<|>; } " ), @r###"[ CompletionItem { label: "bar", source_range: [185; 185), delete: [185; 185), insert: "bar()$0", kind: Function, detail: "fn bar()", }, CompletionItem { label: "foo", source_range: [185; 185), delete: [185; 185), insert: "foo()$0", kind: Function, detail: "fn foo()", }, ]"### ); } #[test] fn completes_qualified_macros() { assert_debug_snapshot!( do_reference_completion( " #[macro_export] macro_rules! foo { () => {} } fn main() { let _ = crate::<|> } " ), @r###"[ CompletionItem { label: "foo!", source_range: [179; 179), delete: [179; 179), insert: "foo!($0)", kind: Macro, detail: "#[macro_export]\nmacro_rules! foo", }, CompletionItem { label: "main", source_range: [179; 179), delete: [179; 179), insert: "main()$0", kind: Function, detail: "fn main()", }, ]"### ); } }