//! Completion for associated items in a trait implementation. //! //! This module adds the completion items related to implementing associated //! items within a `impl Trait for Struct` block. The current context node //! must be within either a `FN`, `TYPE_ALIAS`, or `CONST` node //! and an direct child of an `IMPL_DEF`. //! //! # Examples //! //! Considering the following trait `impl`: //! //! ```ignore //! trait SomeTrait { //! fn foo(); //! } //! //! impl SomeTrait for () { //! fn f<|> //! } //! ``` //! //! may result in the completion of the following method: //! //! ```ignore //! # trait SomeTrait { //! # fn foo(); //! # } //! //! impl SomeTrait for () { //! fn foo() {}<|> //! } //! ``` use hir::{self, Docs, HasSource}; use ra_assists::utils::get_missing_assoc_items; use ra_syntax::{ ast::{self, edit, ImplDef}, AstNode, SyntaxKind, SyntaxNode, TextRange, T, }; use ra_text_edit::TextEdit; use crate::{ completion::{ CompletionContext, CompletionItem, CompletionItemKind, CompletionKind, Completions, }, display::function_declaration, }; pub(crate) fn complete_trait_impl(acc: &mut Completions, ctx: &CompletionContext) { if let Some((trigger, impl_def)) = completion_match(ctx) { match trigger.kind() { SyntaxKind::NAME_REF => get_missing_assoc_items(&ctx.sema, &impl_def) .into_iter() .for_each(|item| match item { hir::AssocItem::Function(fn_item) => { add_function_impl(&trigger, acc, ctx, fn_item) } hir::AssocItem::TypeAlias(type_item) => { add_type_alias_impl(&trigger, acc, ctx, type_item) } hir::AssocItem::Const(const_item) => { add_const_impl(&trigger, acc, ctx, const_item) } }), SyntaxKind::FN => { for missing_fn in get_missing_assoc_items(&ctx.sema, &impl_def) .into_iter() .filter_map(|item| match item { hir::AssocItem::Function(fn_item) => Some(fn_item), _ => None, }) { add_function_impl(&trigger, acc, ctx, missing_fn); } } SyntaxKind::TYPE_ALIAS => { for missing_fn in get_missing_assoc_items(&ctx.sema, &impl_def) .into_iter() .filter_map(|item| match item { hir::AssocItem::TypeAlias(type_item) => Some(type_item), _ => None, }) { add_type_alias_impl(&trigger, acc, ctx, missing_fn); } } SyntaxKind::CONST => { for missing_fn in get_missing_assoc_items(&ctx.sema, &impl_def) .into_iter() .filter_map(|item| match item { hir::AssocItem::Const(const_item) => Some(const_item), _ => None, }) { add_const_impl(&trigger, acc, ctx, missing_fn); } } _ => {} } } } fn completion_match(ctx: &CompletionContext) -> Option<(SyntaxNode, ImplDef)> { let (trigger, impl_def_offset) = ctx.token.ancestors().find_map(|p| match p.kind() { SyntaxKind::FN | SyntaxKind::TYPE_ALIAS | SyntaxKind::CONST | SyntaxKind::BLOCK_EXPR => { Some((p, 2)) } SyntaxKind::NAME_REF => Some((p, 5)), _ => None, })?; let impl_def = (0..impl_def_offset - 1) .try_fold(trigger.parent()?, |t, _| t.parent()) .and_then(ast::ImplDef::cast)?; Some((trigger, impl_def)) } fn add_function_impl( fn_def_node: &SyntaxNode, acc: &mut Completions, ctx: &CompletionContext, func: hir::Function, ) { let fn_name = func.name(ctx.db).to_string(); let label = if !func.params(ctx.db).is_empty() { format!("fn {}(..)", fn_name) } else { format!("fn {}()", fn_name) }; let builder = CompletionItem::new(CompletionKind::Magic, ctx.source_range(), label) .lookup_by(fn_name) .set_documentation(func.docs(ctx.db)); let completion_kind = if func.has_self_param(ctx.db) { CompletionItemKind::Method } else { CompletionItemKind::Function }; let range = TextRange::new(fn_def_node.text_range().start(), ctx.source_range().end()); let function_decl = function_declaration(&func.source(ctx.db).value); match ctx.config.snippet_cap { Some(cap) => { let snippet = format!("{} {{\n $0\n}}", function_decl); builder.snippet_edit(cap, TextEdit::replace(range, snippet)) } None => { let header = format!("{} {{", function_decl); builder.text_edit(TextEdit::replace(range, header)) } } .kind(completion_kind) .add_to(acc); } fn add_type_alias_impl( type_def_node: &SyntaxNode, acc: &mut Completions, ctx: &CompletionContext, type_alias: hir::TypeAlias, ) { let alias_name = type_alias.name(ctx.db).to_string(); let snippet = format!("type {} = ", alias_name); let range = TextRange::new(type_def_node.text_range().start(), ctx.source_range().end()); CompletionItem::new(CompletionKind::Magic, ctx.source_range(), snippet.clone()) .text_edit(TextEdit::replace(range, snippet)) .lookup_by(alias_name) .kind(CompletionItemKind::TypeAlias) .set_documentation(type_alias.docs(ctx.db)) .add_to(acc); } fn add_const_impl( const_def_node: &SyntaxNode, acc: &mut Completions, ctx: &CompletionContext, const_: hir::Const, ) { let const_name = const_.name(ctx.db).map(|n| n.to_string()); if let Some(const_name) = const_name { let snippet = make_const_compl_syntax(&const_.source(ctx.db).value); let range = TextRange::new(const_def_node.text_range().start(), ctx.source_range().end()); CompletionItem::new(CompletionKind::Magic, ctx.source_range(), snippet.clone()) .text_edit(TextEdit::replace(range, snippet)) .lookup_by(const_name) .kind(CompletionItemKind::Const) .set_documentation(const_.docs(ctx.db)) .add_to(acc); } } fn make_const_compl_syntax(const_: &ast::Const) -> String { let const_ = edit::remove_attrs_and_docs(const_); let const_start = const_.syntax().text_range().start(); let const_end = const_.syntax().text_range().end(); let start = const_.syntax().first_child_or_token().map_or(const_start, |f| f.text_range().start()); let end = const_ .syntax() .children_with_tokens() .find(|s| s.kind() == T![;] || s.kind() == T![=]) .map_or(const_end, |f| f.text_range().start()); let len = end - start; let range = TextRange::new(0.into(), len); let syntax = const_.syntax().text().slice(range).to_string(); format!("{} = ", syntax.trim_end()) } #[cfg(test)] mod tests { use expect::{expect, Expect}; use crate::completion::{ test_utils::{check_edit, completion_list}, CompletionKind, }; fn check(ra_fixture: &str, expect: Expect) { let actual = completion_list(ra_fixture, CompletionKind::Magic); expect.assert_eq(&actual) } #[test] fn name_ref_function_type_const() { check( r#" trait Test { type TestType; const TEST_CONST: u16; fn test(); } struct T; impl Test for T { t<|> } "#, expect![[" ct const TEST_CONST: u16 = \n\ fn fn test() ta type TestType = \n\ "]], ); } #[test] fn no_nested_fn_completions() { check( r" trait Test { fn test(); fn test2(); } struct T; impl Test for T { fn test() { t<|> } } ", expect![[""]], ); } #[test] fn name_ref_single_function() { check_edit( "test", r#" trait Test { fn test(); } struct T; impl Test for T { t<|> } "#, r#" trait Test { fn test(); } struct T; impl Test for T { fn test() { $0 } } "#, ); } #[test] fn single_function() { check_edit( "test", r#" trait Test { fn test(); } struct T; impl Test for T { fn t<|> } "#, r#" trait Test { fn test(); } struct T; impl Test for T { fn test() { $0 } } "#, ); } #[test] fn hide_implemented_fn() { check( r#" trait Test { fn foo(); fn foo_bar(); } struct T; impl Test for T { fn foo() {} fn f<|> } "#, expect![[r#" fn fn foo_bar() "#]], ); } #[test] fn generic_fn() { check_edit( "foo", r#" trait Test { fn foo(); } struct T; impl Test for T { fn f<|> } "#, r#" trait Test { fn foo(); } struct T; impl Test for T { fn foo() { $0 } } "#, ); check_edit( "foo", r#" trait Test { fn foo() where T: Into; } struct T; impl Test for T { fn f<|> } "#, r#" trait Test { fn foo() where T: Into; } struct T; impl Test for T { fn foo() where T: Into { $0 } } "#, ); } #[test] fn associated_type() { check_edit( "SomeType", r#" trait Test { type SomeType; } impl Test for () { type S<|> } "#, " trait Test { type SomeType; } impl Test for () { type SomeType = \n\ } ", ); } #[test] fn associated_const() { check_edit( "SOME_CONST", r#" trait Test { const SOME_CONST: u16; } impl Test for () { const S<|> } "#, " trait Test { const SOME_CONST: u16; } impl Test for () { const SOME_CONST: u16 = \n\ } ", ); check_edit( "SOME_CONST", r#" trait Test { const SOME_CONST: u16 = 92; } impl Test for () { const S<|> } "#, " trait Test { const SOME_CONST: u16 = 92; } impl Test for () { const SOME_CONST: u16 = \n\ } ", ); } }