//! This modules takes care of rendering various definitions as completion items. //! It also handles scoring (sorting) completions. use hir::{Docs, HasAttrs, HasSource, HirDisplay, ModPath, ScopeDef, StructKind, Type}; use ra_syntax::ast::NameOwner; use stdx::SepBy; use test_utils::mark; use crate::{ completion::{ completion_item::Builder, CompletionContext, CompletionItem, CompletionItemKind, CompletionKind, Completions, }, display::{const_label, macro_label, type_label, FunctionSignature}, CompletionScore, RootDatabase, }; impl Completions { pub(crate) fn add_field(&mut self, ctx: &CompletionContext, field: hir::Field, ty: &Type) { let is_deprecated = is_deprecated(field, ctx.db); let name = field.name(ctx.db); let mut completion_item = CompletionItem::new(CompletionKind::Reference, ctx.source_range(), name.to_string()) .kind(CompletionItemKind::Field) .detail(ty.display(ctx.db).to_string()) .set_documentation(field.docs(ctx.db)) .set_deprecated(is_deprecated); if let Some(score) = compute_score(ctx, &ty, &name.to_string()) { completion_item = completion_item.set_score(score); } completion_item.add_to(self); } pub(crate) fn add_tuple_field(&mut self, ctx: &CompletionContext, field: usize, ty: &Type) { CompletionItem::new(CompletionKind::Reference, ctx.source_range(), field.to_string()) .kind(CompletionItemKind::Field) .detail(ty.display(ctx.db).to_string()) .add_to(self); } pub(crate) fn add_resolution( &mut self, ctx: &CompletionContext, local_name: String, resolution: &ScopeDef, ) { use hir::ModuleDef::*; let completion_kind = match resolution { ScopeDef::ModuleDef(BuiltinType(..)) => CompletionKind::BuiltinType, _ => CompletionKind::Reference, }; let kind = match resolution { ScopeDef::ModuleDef(Module(..)) => CompletionItemKind::Module, ScopeDef::ModuleDef(Function(func)) => { return self.add_function(ctx, *func, Some(local_name)); } ScopeDef::ModuleDef(Adt(hir::Adt::Struct(_))) => CompletionItemKind::Struct, // FIXME: add CompletionItemKind::Union ScopeDef::ModuleDef(Adt(hir::Adt::Union(_))) => CompletionItemKind::Struct, ScopeDef::ModuleDef(Adt(hir::Adt::Enum(_))) => CompletionItemKind::Enum, ScopeDef::ModuleDef(EnumVariant(var)) => { return self.add_enum_variant(ctx, *var, Some(local_name)); } ScopeDef::ModuleDef(Const(..)) => CompletionItemKind::Const, ScopeDef::ModuleDef(Static(..)) => CompletionItemKind::Static, ScopeDef::ModuleDef(Trait(..)) => CompletionItemKind::Trait, ScopeDef::ModuleDef(TypeAlias(..)) => CompletionItemKind::TypeAlias, ScopeDef::ModuleDef(BuiltinType(..)) => CompletionItemKind::BuiltinType, ScopeDef::GenericParam(..) => CompletionItemKind::TypeParam, ScopeDef::Local(..) => CompletionItemKind::Binding, // (does this need its own kind?) ScopeDef::AdtSelfType(..) | ScopeDef::ImplSelfType(..) => CompletionItemKind::TypeParam, ScopeDef::MacroDef(mac) => { return self.add_macro(ctx, Some(local_name), *mac); } ScopeDef::Unknown => { return self.add( CompletionItem::new(CompletionKind::Reference, ctx.source_range(), local_name) .kind(CompletionItemKind::UnresolvedReference), ); } }; let docs = match resolution { ScopeDef::ModuleDef(Module(it)) => it.docs(ctx.db), ScopeDef::ModuleDef(Adt(it)) => it.docs(ctx.db), ScopeDef::ModuleDef(EnumVariant(it)) => it.docs(ctx.db), ScopeDef::ModuleDef(Const(it)) => it.docs(ctx.db), ScopeDef::ModuleDef(Static(it)) => it.docs(ctx.db), ScopeDef::ModuleDef(Trait(it)) => it.docs(ctx.db), ScopeDef::ModuleDef(TypeAlias(it)) => it.docs(ctx.db), _ => None, }; let mut completion_item = CompletionItem::new(completion_kind, ctx.source_range(), local_name.clone()); if let ScopeDef::Local(local) = resolution { let ty = local.ty(ctx.db); if !ty.is_unknown() { completion_item = completion_item.detail(ty.display(ctx.db).to_string()); } }; if let ScopeDef::Local(local) = resolution { if let Some(score) = compute_score(ctx, &local.ty(ctx.db), &local_name) { completion_item = completion_item.set_score(score); } } // Add `<>` for generic types if ctx.is_path_type && !ctx.has_type_args && ctx.config.add_call_parenthesis { if let Some(cap) = ctx.config.snippet_cap { let has_non_default_type_params = match resolution { ScopeDef::ModuleDef(Adt(it)) => it.has_non_default_type_params(ctx.db), ScopeDef::ModuleDef(TypeAlias(it)) => it.has_non_default_type_params(ctx.db), _ => false, }; if has_non_default_type_params { mark::hit!(inserts_angle_brackets_for_generics); completion_item = completion_item .lookup_by(local_name.clone()) .label(format!("{}<…>", local_name)) .insert_snippet(cap, format!("{}<$0>", local_name)); } } } completion_item.kind(kind).set_documentation(docs).add_to(self) } pub(crate) fn add_macro( &mut self, ctx: &CompletionContext, name: Option, macro_: hir::MacroDef, ) { // FIXME: Currently proc-macro do not have ast-node, // such that it does not have source if macro_.is_proc_macro() { return; } let name = match name { Some(it) => it, None => return, }; let ast_node = macro_.source(ctx.db).value; let detail = macro_label(&ast_node); let docs = macro_.docs(ctx.db); let mut builder = CompletionItem::new( CompletionKind::Reference, ctx.source_range(), &format!("{}!", name), ) .kind(CompletionItemKind::Macro) .set_documentation(docs.clone()) .set_deprecated(is_deprecated(macro_, ctx.db)) .detail(detail); let needs_bang = ctx.use_item_syntax.is_none() && !ctx.is_macro_call; builder = match ctx.config.snippet_cap { Some(cap) if needs_bang => { let docs = docs.as_ref().map_or("", |s| s.as_str()); let (bra, ket) = guess_macro_braces(&name, docs); builder .insert_snippet(cap, format!("{}!{}$0{}", name, bra, ket)) .label(format!("{}!{}…{}", name, bra, ket)) .lookup_by(format!("{}!", name)) } None if needs_bang => builder.insert_text(format!("{}!", name)), _ => { mark::hit!(dont_insert_macro_call_parens_unncessary); builder.insert_text(name) } }; self.add(builder); } pub(crate) fn add_function( &mut self, ctx: &CompletionContext, func: hir::Function, local_name: Option, ) { let has_self_param = func.has_self_param(ctx.db); let name = local_name.unwrap_or_else(|| func.name(ctx.db).to_string()); let ast_node = func.source(ctx.db).value; let function_signature = FunctionSignature::from(&ast_node); let mut builder = CompletionItem::new(CompletionKind::Reference, ctx.source_range(), name.clone()) .kind(if has_self_param { CompletionItemKind::Method } else { CompletionItemKind::Function }) .set_documentation(func.docs(ctx.db)) .set_deprecated(is_deprecated(func, ctx.db)) .detail(function_signature.to_string()); let params = function_signature .parameter_names .iter() .skip(if function_signature.has_self_param { 1 } else { 0 }) .map(|name| name.trim_start_matches('_').into()) .collect(); builder = builder.add_call_parens(ctx, name, Params::Named(params)); self.add(builder) } pub(crate) fn add_const(&mut self, ctx: &CompletionContext, constant: hir::Const) { let ast_node = constant.source(ctx.db).value; let name = match ast_node.name() { Some(name) => name, _ => return, }; let detail = const_label(&ast_node); CompletionItem::new(CompletionKind::Reference, ctx.source_range(), name.text().to_string()) .kind(CompletionItemKind::Const) .set_documentation(constant.docs(ctx.db)) .set_deprecated(is_deprecated(constant, ctx.db)) .detail(detail) .add_to(self); } pub(crate) fn add_type_alias(&mut self, ctx: &CompletionContext, type_alias: hir::TypeAlias) { let type_def = type_alias.source(ctx.db).value; let name = match type_def.name() { Some(name) => name, _ => return, }; let detail = type_label(&type_def); CompletionItem::new(CompletionKind::Reference, ctx.source_range(), name.text().to_string()) .kind(CompletionItemKind::TypeAlias) .set_documentation(type_alias.docs(ctx.db)) .set_deprecated(is_deprecated(type_alias, ctx.db)) .detail(detail) .add_to(self); } pub(crate) fn add_qualified_enum_variant( &mut self, ctx: &CompletionContext, variant: hir::EnumVariant, path: ModPath, ) { self.add_enum_variant_impl(ctx, variant, None, Some(path)) } pub(crate) fn add_enum_variant( &mut self, ctx: &CompletionContext, variant: hir::EnumVariant, local_name: Option, ) { self.add_enum_variant_impl(ctx, variant, local_name, None) } fn add_enum_variant_impl( &mut self, ctx: &CompletionContext, variant: hir::EnumVariant, local_name: Option, path: Option, ) { let is_deprecated = is_deprecated(variant, ctx.db); let name = local_name.unwrap_or_else(|| variant.name(ctx.db).to_string()); let qualified_name = match &path { Some(it) => it.to_string(), None => name.to_string(), }; let detail_types = variant .fields(ctx.db) .into_iter() .map(|field| (field.name(ctx.db), field.signature_ty(ctx.db))); let variant_kind = variant.kind(ctx.db); let detail = match variant_kind { StructKind::Tuple | StructKind::Unit => detail_types .map(|(_, t)| t.display(ctx.db).to_string()) .sep_by(", ") .surround_with("(", ")") .to_string(), StructKind::Record => detail_types .map(|(n, t)| format!("{}: {}", n, t.display(ctx.db).to_string())) .sep_by(", ") .surround_with("{ ", " }") .to_string(), }; let mut res = CompletionItem::new( CompletionKind::Reference, ctx.source_range(), qualified_name.clone(), ) .kind(CompletionItemKind::EnumVariant) .set_documentation(variant.docs(ctx.db)) .set_deprecated(is_deprecated) .detail(detail); if path.is_some() { res = res.lookup_by(name); } if variant_kind == StructKind::Tuple { mark::hit!(inserts_parens_for_tuple_enums); let params = Params::Anonymous(variant.fields(ctx.db).len()); res = res.add_call_parens(ctx, qualified_name, params) } res.add_to(self); } } pub(crate) fn compute_score( ctx: &CompletionContext, ty: &Type, name: &str, ) -> Option { let (active_name, active_type) = if let Some(record_field) = &ctx.record_field_syntax { mark::hit!(record_field_type_match); let (struct_field, _local) = ctx.sema.resolve_record_field(record_field)?; (struct_field.name(ctx.db).to_string(), struct_field.signature_ty(ctx.db)) } else if let Some(active_parameter) = &ctx.active_parameter { mark::hit!(active_param_type_match); (active_parameter.name.clone(), active_parameter.ty.clone()) } else { return None; }; // Compute score // For the same type if &active_type != ty { return None; } let mut res = CompletionScore::TypeMatch; // If same type + same name then go top position if active_name == name { res = CompletionScore::TypeAndNameMatch } Some(res) } enum Params { Named(Vec), Anonymous(usize), } impl Params { fn len(&self) -> usize { match self { Params::Named(xs) => xs.len(), Params::Anonymous(len) => *len, } } fn is_empty(&self) -> bool { self.len() == 0 } } impl Builder { fn add_call_parens(mut self, ctx: &CompletionContext, name: String, params: Params) -> Builder { if !ctx.config.add_call_parenthesis { return self; } if ctx.use_item_syntax.is_some() { mark::hit!(no_parens_in_use_item); return self; } if ctx.is_pattern_call { mark::hit!(dont_duplicate_pattern_parens); return self; } if ctx.is_call { return self; } // Don't add parentheses if the expected type is some function reference. if let Some(ty) = &ctx.expected_type { if ty.is_fn() { mark::hit!(no_call_parens_if_fn_ptr_needed); return self; } } let cap = match ctx.config.snippet_cap { Some(it) => it, None => return self, }; // If not an import, add parenthesis automatically. mark::hit!(inserts_parens_for_function_calls); let (snippet, label) = if params.is_empty() { (format!("{}()$0", name), format!("{}()", name)) } else { self = self.trigger_call_info(); let snippet = match (ctx.config.add_call_argument_snippets, params) { (true, Params::Named(params)) => { let function_params_snippet = params .iter() .enumerate() .map(|(index, param_name)| format!("${{{}:{}}}", index + 1, param_name)) .sep_by(", "); format!("{}({})$0", name, function_params_snippet) } _ => { mark::hit!(suppress_arg_snippets); format!("{}($0)", name) } }; (snippet, format!("{}(…)", name)) }; self.lookup_by(name).label(label).insert_snippet(cap, snippet) } } fn is_deprecated(node: impl HasAttrs, db: &RootDatabase) -> bool { node.attrs(db).by_key("deprecated").exists() } fn guess_macro_braces(macro_name: &str, docs: &str) -> (&'static str, &'static str) { let mut votes = [0, 0, 0]; for (idx, s) in docs.match_indices(¯o_name) { let (before, after) = (&docs[..idx], &docs[idx + s.len()..]); // Ensure to match the full word if after.starts_with('!') && !before.ends_with(|c: char| c == '_' || c.is_ascii_alphanumeric()) { // It may have spaces before the braces like `foo! {}` match after[1..].chars().find(|&c| !c.is_whitespace()) { Some('{') => votes[0] += 1, Some('[') => votes[1] += 1, Some('(') => votes[2] += 1, _ => {} } } } // Insert a space before `{}`. // We prefer the last one when some votes equal. let (_vote, (bra, ket)) = votes .iter() .zip(&[(" {", "}"), ("[", "]"), ("(", ")")]) .max_by_key(|&(&vote, _)| vote) .unwrap(); (*bra, *ket) } #[cfg(test)] mod tests { use std::cmp::Reverse; use expect::{expect, Expect}; use test_utils::mark; use crate::{ completion::{ test_utils::{ check_edit, check_edit_with_config, do_completion, get_all_completion_items, }, CompletionConfig, CompletionKind, }, CompletionScore, }; fn check(ra_fixture: &str, expect: Expect) { let actual = do_completion(ra_fixture, CompletionKind::Reference); expect.assert_debug_eq(&actual); } fn check_scores(ra_fixture: &str, expect: Expect) { fn display_score(score: Option) -> &'static str { match score { Some(CompletionScore::TypeMatch) => "[type]", Some(CompletionScore::TypeAndNameMatch) => "[type+name]", None => "[]".into(), } } let mut completions = get_all_completion_items(CompletionConfig::default(), ra_fixture); completions.sort_by_key(|it| (Reverse(it.score()), it.label().to_string())); let actual = completions .into_iter() .filter(|it| it.completion_kind == CompletionKind::Reference) .map(|it| { let tag = it.kind().unwrap().tag(); let score = display_score(it.score()); format!("{} {} {}\n", tag, it.label(), score) }) .collect::(); expect.assert_eq(&actual); } #[test] fn enum_detail_includes_record_fields() { check( r#" enum Foo { Foo { x: i32, y: i32 } } fn main() { Foo::Fo<|> } "#, expect![[r#" [ CompletionItem { label: "Foo", source_range: 54..56, delete: 54..56, insert: "Foo", kind: EnumVariant, detail: "{ x: i32, y: i32 }", }, ] "#]], ); } #[test] fn enum_detail_doesnt_include_tuple_fields() { check( r#" enum Foo { Foo (i32, i32) } fn main() { Foo::Fo<|> } "#, expect![[r#" [ CompletionItem { label: "Foo(…)", source_range: 46..48, delete: 46..48, insert: "Foo($0)", kind: EnumVariant, lookup: "Foo", detail: "(i32, i32)", trigger_call_info: true, }, ] "#]], ); } #[test] fn enum_detail_just_parentheses_for_unit() { check( r#" enum Foo { Foo } fn main() { Foo::Fo<|> } "#, expect![[r#" [ CompletionItem { label: "Foo", source_range: 35..37, delete: 35..37, insert: "Foo", kind: EnumVariant, detail: "()", }, ] "#]], ); } #[test] fn sets_deprecated_flag_in_completion_items() { check( r#" #[deprecated] fn something_deprecated() {} #[deprecated(since = "1.0.0")] fn something_else_deprecated() {} fn main() { som<|> } "#, expect![[r#" [ CompletionItem { label: "main()", source_range: 121..124, delete: 121..124, insert: "main()$0", kind: Function, lookup: "main", detail: "fn main()", }, CompletionItem { label: "something_deprecated()", source_range: 121..124, delete: 121..124, insert: "something_deprecated()$0", kind: Function, lookup: "something_deprecated", detail: "fn something_deprecated()", deprecated: true, }, CompletionItem { label: "something_else_deprecated()", source_range: 121..124, delete: 121..124, insert: "something_else_deprecated()$0", kind: Function, lookup: "something_else_deprecated", detail: "fn something_else_deprecated()", deprecated: true, }, ] "#]], ); check( r#" struct A { #[deprecated] the_field: u32 } fn foo() { A { the<|> } } "#, expect![[r#" [ CompletionItem { label: "the_field", source_range: 57..60, delete: 57..60, insert: "the_field", kind: Field, detail: "u32", deprecated: true, }, ] "#]], ); } #[test] fn renders_docs() { check( r#" struct S { /// Field docs foo: } impl S { /// Method docs fn bar(self) { self.<|> } }"#, expect![[r#" [ CompletionItem { label: "bar()", source_range: 94..94, delete: 94..94, insert: "bar()$0", kind: Method, lookup: "bar", detail: "fn bar(self)", documentation: Documentation( "Method docs", ), }, CompletionItem { label: "foo", source_range: 94..94, delete: 94..94, insert: "foo", kind: Field, detail: "{unknown}", documentation: Documentation( "Field docs", ), }, ] "#]], ); check( r#" use self::my<|>; /// mod docs mod my { } /// enum docs enum E { /// variant docs V } use self::E::*; "#, expect![[r#" [ CompletionItem { label: "E", source_range: 10..12, delete: 10..12, insert: "E", kind: Enum, documentation: Documentation( "enum docs", ), }, CompletionItem { label: "V", source_range: 10..12, delete: 10..12, insert: "V", kind: EnumVariant, detail: "()", documentation: Documentation( "variant docs", ), }, CompletionItem { label: "my", source_range: 10..12, delete: 10..12, insert: "my", kind: Module, documentation: Documentation( "mod docs", ), }, ] "#]], ) } #[test] fn dont_render_attrs() { check( r#" struct S; impl S { #[inline] fn the_method(&self) { } } fn foo(s: S) { s.<|> } "#, expect![[r#" [ CompletionItem { label: "the_method()", source_range: 81..81, delete: 81..81, insert: "the_method()$0", kind: Method, lookup: "the_method", detail: "fn the_method(&self)", }, ] "#]], ) } #[test] fn inserts_parens_for_function_calls() { mark::check!(inserts_parens_for_function_calls); check_edit( "no_args", r#" fn no_args() {} fn main() { no_<|> } "#, r#" fn no_args() {} fn main() { no_args()$0 } "#, ); check_edit( "with_args", r#" fn with_args(x: i32, y: String) {} fn main() { with_<|> } "#, r#" fn with_args(x: i32, y: String) {} fn main() { with_args(${1:x}, ${2:y})$0 } "#, ); check_edit( "foo", r#" struct S; impl S { fn foo(&self) {} } fn bar(s: &S) { s.f<|> } "#, r#" struct S; impl S { fn foo(&self) {} } fn bar(s: &S) { s.foo()$0 } "#, ); check_edit( "foo", r#" struct S {} impl S { fn foo(&self, x: i32) {} } fn bar(s: &S) { s.f<|> } "#, r#" struct S {} impl S { fn foo(&self, x: i32) {} } fn bar(s: &S) { s.foo(${1:x})$0 } "#, ); } #[test] fn suppress_arg_snippets() { mark::check!(suppress_arg_snippets); check_edit_with_config( CompletionConfig { add_call_argument_snippets: false, ..CompletionConfig::default() }, "with_args", r#" fn with_args(x: i32, y: String) {} fn main() { with_<|> } "#, r#" fn with_args(x: i32, y: String) {} fn main() { with_args($0) } "#, ); } #[test] fn strips_underscores_from_args() { check_edit( "foo", r#" fn foo(_foo: i32, ___bar: bool, ho_ge_: String) {} fn main() { f<|> } "#, r#" fn foo(_foo: i32, ___bar: bool, ho_ge_: String) {} fn main() { foo(${1:foo}, ${2:bar}, ${3:ho_ge_})$0 } "#, ); } #[test] fn inserts_parens_for_tuple_enums() { mark::check!(inserts_parens_for_tuple_enums); check_edit( "Some", r#" enum Option { Some(T), None } use Option::*; fn main() -> Option { Som<|> } "#, r#" enum Option { Some(T), None } use Option::*; fn main() -> Option { Some($0) } "#, ); check_edit( "Some", r#" enum Option { Some(T), None } use Option::*; fn main(value: Option) { match value { Som<|> } } "#, r#" enum Option { Some(T), None } use Option::*; fn main(value: Option) { match value { Some($0) } } "#, ); } #[test] fn dont_duplicate_pattern_parens() { mark::check!(dont_duplicate_pattern_parens); check_edit( "Var", r#" enum E { Var(i32) } fn main() { match E::Var(92) { E::<|>(92) => (), } } "#, r#" enum E { Var(i32) } fn main() { match E::Var(92) { E::Var(92) => (), } } "#, ); } #[test] fn no_call_parens_if_fn_ptr_needed() { mark::check!(no_call_parens_if_fn_ptr_needed); check_edit( "foo", r#" fn foo(foo: u8, bar: u8) {} struct ManualVtable { f: fn(u8, u8) } fn main() -> ManualVtable { ManualVtable { f: f<|> } } "#, r#" fn foo(foo: u8, bar: u8) {} struct ManualVtable { f: fn(u8, u8) } fn main() -> ManualVtable { ManualVtable { f: foo } } "#, ); } #[test] fn no_parens_in_use_item() { mark::check!(no_parens_in_use_item); check_edit( "foo", r#" mod m { pub fn foo() {} } use crate::m::f<|>; "#, r#" mod m { pub fn foo() {} } use crate::m::foo; "#, ); } #[test] fn no_parens_in_call() { check_edit( "foo", r#" fn foo(x: i32) {} fn main() { f<|>(); } "#, r#" fn foo(x: i32) {} fn main() { foo(); } "#, ); check_edit( "foo", r#" struct Foo; impl Foo { fn foo(&self){} } fn f(foo: &Foo) { foo.f<|>(); } "#, r#" struct Foo; impl Foo { fn foo(&self){} } fn f(foo: &Foo) { foo.foo(); } "#, ); } #[test] fn inserts_angle_brackets_for_generics() { mark::check!(inserts_angle_brackets_for_generics); check_edit( "Vec", r#" struct Vec {} fn foo(xs: Ve<|>) "#, r#" struct Vec {} fn foo(xs: Vec<$0>) "#, ); check_edit( "Vec", r#" type Vec = (T,); fn foo(xs: Ve<|>) "#, r#" type Vec = (T,); fn foo(xs: Vec<$0>) "#, ); check_edit( "Vec", r#" struct Vec {} fn foo(xs: Ve<|>) "#, r#" struct Vec {} fn foo(xs: Vec) "#, ); check_edit( "Vec", r#" struct Vec {} fn foo(xs: Ve<|>) "#, r#" struct Vec {} fn foo(xs: Vec) "#, ); } #[test] fn dont_insert_macro_call_parens_unncessary() { mark::check!(dont_insert_macro_call_parens_unncessary); check_edit( "frobnicate!", r#" //- /main.rs use foo::<|>; //- /foo/lib.rs #[macro_export] macro_rules frobnicate { () => () } "#, r#" use foo::frobnicate; "#, ); check_edit( "frobnicate!", r#" macro_rules frobnicate { () => () } fn main() { frob<|>!(); } "#, r#" macro_rules frobnicate { () => () } fn main() { frobnicate!(); } "#, ); } #[test] fn active_param_score() { mark::check!(active_param_type_match); check_scores( r#" struct S { foo: i64, bar: u32, baz: u32 } fn test(bar: u32) { } fn foo(s: S) { test(s.<|>) } "#, expect![[r#" fd bar [type+name] fd baz [type] fd foo [] "#]], ); } #[test] fn record_field_scores() { mark::check!(record_field_type_match); check_scores( r#" struct A { foo: i64, bar: u32, baz: u32 } struct B { x: (), y: f32, bar: u32 } fn foo(a: A) { B { bar: a.<|> }; } "#, expect![[r#" fd bar [type+name] fd baz [type] fd foo [] "#]], ) } #[test] fn record_field_and_call_scores() { check_scores( r#" struct A { foo: i64, bar: u32, baz: u32 } struct B { x: (), y: f32, bar: u32 } fn f(foo: i64) { } fn foo(a: A) { B { bar: f(a.<|>) }; } "#, expect![[r#" fd foo [type+name] fd bar [] fd baz [] "#]], ); check_scores( r#" struct A { foo: i64, bar: u32, baz: u32 } struct B { x: (), y: f32, bar: u32 } fn f(foo: i64) { } fn foo(a: A) { f(B { bar: a.<|> }); } "#, expect![[r#" fd bar [type+name] fd baz [type] fd foo [] "#]], ); } #[test] fn prioritize_exact_ref_match() { check_scores( r#" struct WorldSnapshot { _f: () }; fn go(world: &WorldSnapshot) { go(w<|>) } "#, expect![[r#" bn world [type+name] st WorldSnapshot [] fn go(…) [] "#]], ); } #[test] fn guesses_macro_braces() { check_edit( "vec!", r#" /// Creates a [`Vec`] containing the arguments. /// /// ``` /// let v = vec![1, 2, 3]; /// assert_eq!(v[0], 1); /// assert_eq!(v[1], 2); /// assert_eq!(v[2], 3); /// ``` macro_rules! vec { () => {} } fn fn main() { v<|> } "#, r#" /// Creates a [`Vec`] containing the arguments. /// /// ``` /// let v = vec![1, 2, 3]; /// assert_eq!(v[0], 1); /// assert_eq!(v[1], 2); /// assert_eq!(v[2], 3); /// ``` macro_rules! vec { () => {} } fn fn main() { vec![$0] } "#, ); check_edit( "foo!", r#" /// Foo /// /// Don't call `fooo!()` `fooo!()`, or `_foo![]` `_foo![]`, /// call as `let _=foo! { hello world };` macro_rules! foo { () => {} } fn main() { <|> } "#, r#" /// Foo /// /// Don't call `fooo!()` `fooo!()`, or `_foo![]` `_foo![]`, /// call as `let _=foo! { hello world };` macro_rules! foo { () => {} } fn main() { foo! {$0} } "#, ) } }