use ide_db::defs::{Definition, NameRefClass}; use itertools::Itertools; use syntax::{ast, AstNode, SyntaxKind, T}; use crate::{ assist_context::{AssistContext, Assists}, AssistId, AssistKind, }; // Assist: add_turbo_fish // // Adds `::<_>` to a call of a generic method or function. // // ``` // fn make() -> T { todo!() } // fn main() { // let x = make$0(); // } // ``` // -> // ``` // fn make() -> T { todo!() } // fn main() { // let x = make::<${0:_}>(); // } // ``` pub(crate) fn add_turbo_fish(acc: &mut Assists, ctx: &AssistContext) -> Option<()> { let ident = ctx.find_token_syntax_at_offset(SyntaxKind::IDENT).or_else(|| { let arg_list = ctx.find_node_at_offset::()?; if arg_list.args().next().is_some() { return None; } cov_mark::hit!(add_turbo_fish_after_call); cov_mark::hit!(add_type_ascription_after_call); arg_list.l_paren_token()?.prev_token().filter(|it| it.kind() == SyntaxKind::IDENT) })?; let next_token = ident.next_token()?; if next_token.kind() == T![::] { cov_mark::hit!(add_turbo_fish_one_fish_is_enough); return None; } let name_ref = ast::NameRef::cast(ident.parent()?)?; let def = match NameRefClass::classify(&ctx.sema, &name_ref)? { NameRefClass::Definition(def) => def, NameRefClass::FieldShorthand { .. } => return None, }; let fun = match def { Definition::Function(it) => it, _ => return None, }; let generics = hir::GenericDef::Function(fun).params(ctx.sema.db); if generics.is_empty() { cov_mark::hit!(add_turbo_fish_non_generic); return None; } if let Some(let_stmt) = ctx.find_node_at_offset::() { if let_stmt.colon_token().is_none() { let type_pos = let_stmt.pat()?.syntax().last_token()?.text_range().end(); let semi_pos = let_stmt.syntax().last_token()?.text_range().end(); acc.add( AssistId("add_type_ascription", AssistKind::RefactorRewrite), "Add `: _` before assignment operator", ident.text_range(), |builder| { if let_stmt.semicolon_token().is_none() { builder.insert(semi_pos, ";"); } match ctx.config.snippet_cap { Some(cap) => builder.insert_snippet(cap, type_pos, ": ${0:_}"), None => builder.insert(type_pos, ": _"), } }, )? } else { cov_mark::hit!(add_type_ascription_already_typed); } } let number_of_arguments = generics.len(); let fish_head = std::iter::repeat("_").take(number_of_arguments).collect_vec().join(","); acc.add( AssistId("add_turbo_fish", AssistKind::RefactorRewrite), "Add `::<>`", ident.text_range(), |builder| match ctx.config.snippet_cap { Some(cap) => { let snip = format!("::<${{0:{}}}>", fish_head); builder.insert_snippet(cap, ident.text_range().end(), snip) }, None => { let snip = format!("::<{}>", fish_head); builder.insert(ident.text_range().end(), snip); }, }, ) } #[cfg(test)] mod tests { use crate::tests::{check_assist, check_assist_by_label, check_assist_not_applicable}; use super::*; #[test] fn add_turbo_fish_function() { check_assist( add_turbo_fish, r#" fn make() -> T {} fn main() { make$0(); } "#, r#" fn make() -> T {} fn main() { make::<${0:_}>(); } "#, ); } #[test] fn add_turbo_fish_function_multiple_generic_types() { check_assist( add_turbo_fish, r#" fn make() -> T {} fn main() { make$0(); } "#, r#" fn make() -> T {} fn main() { make::<${0:_,_}>(); } "#, ); } #[test] fn add_turbo_fish_function_many_generic_types() { check_assist( add_turbo_fish, r#" fn make() -> T {} fn main() { make$0(); } "#, r#" fn make() -> T {} fn main() { make::<${0:_,_,_,_,_,_,_}>(); } "#, ); } #[test] fn add_turbo_fish_after_call() { cov_mark::check!(add_turbo_fish_after_call); check_assist( add_turbo_fish, r#" fn make() -> T {} fn main() { make()$0; } "#, r#" fn make() -> T {} fn main() { make::<${0:_}>(); } "#, ); } #[test] fn add_turbo_fish_method() { check_assist( add_turbo_fish, r#" struct S; impl S { fn make(&self) -> T {} } fn main() { S.make$0(); } "#, r#" struct S; impl S { fn make(&self) -> T {} } fn main() { S.make::<${0:_}>(); } "#, ); } #[test] fn add_turbo_fish_one_fish_is_enough() { cov_mark::check!(add_turbo_fish_one_fish_is_enough); check_assist_not_applicable( add_turbo_fish, r#" fn make() -> T {} fn main() { make$0::<()>(); } "#, ); } #[test] fn add_turbo_fish_non_generic() { cov_mark::check!(add_turbo_fish_non_generic); check_assist_not_applicable( add_turbo_fish, r#" fn make() -> () {} fn main() { make$0(); } "#, ); } #[test] fn add_type_ascription_function() { check_assist_by_label( add_turbo_fish, r#" fn make() -> T {} fn main() { let x = make$0(); } "#, r#" fn make() -> T {} fn main() { let x: ${0:_} = make(); } "#, "Add `: _` before assignment operator", ); } #[test] fn add_type_ascription_after_call() { cov_mark::check!(add_type_ascription_after_call); check_assist_by_label( add_turbo_fish, r#" fn make() -> T {} fn main() { let x = make()$0; } "#, r#" fn make() -> T {} fn main() { let x: ${0:_} = make(); } "#, "Add `: _` before assignment operator", ); } #[test] fn add_type_ascription_method() { check_assist_by_label( add_turbo_fish, r#" struct S; impl S { fn make(&self) -> T {} } fn main() { let x = S.make$0(); } "#, r#" struct S; impl S { fn make(&self) -> T {} } fn main() { let x: ${0:_} = S.make(); } "#, "Add `: _` before assignment operator", ); } #[test] fn add_type_ascription_already_typed() { cov_mark::check!(add_type_ascription_already_typed); check_assist( add_turbo_fish, r#" fn make() -> T {} fn main() { let x: () = make$0(); } "#, r#" fn make() -> T {} fn main() { let x: () = make::<${0:_}>(); } "#, ); } #[test] fn add_type_ascription_append_semicolon() { check_assist_by_label( add_turbo_fish, r#" fn make() -> T {} fn main() { let x = make$0() } "#, r#" fn make() -> T {} fn main() { let x: ${0:_} = make(); } "#, "Add `: _` before assignment operator", ); } }