use std::fmt::Write; use hir::{ AdtDef, FieldSource, HasSource, db::HirDatabase, }; use ra_syntax::ast::{self, AstNode}; use crate::{AssistCtx, Assist, AssistId}; fn is_trivial_arm(arm: &ast::MatchArm) -> bool { for (i, p) in arm.pats().enumerate() { if i > 0 { return false; } match p.kind() { ast::PatKind::PlaceholderPat(_) => {} _ => { return false; } }; } return true; } pub(crate) fn fill_match_arms(mut ctx: AssistCtx) -> Option { let match_expr = ctx.node_at_offset::()?; // We already have some match arms, so we don't provide any assists. // Unless if there is only one trivial match arm possibly created // by match postfix complete. Trivial match arm is the catch all arm. match match_expr.match_arm_list() { Some(arm_list) => { for (i, a) in arm_list.arms().enumerate() { if i > 0 { return None; } if !is_trivial_arm(a) { return None; } } } _ => {} } let expr = match_expr.expr()?; let analyzer = hir::SourceAnalyzer::new(ctx.db, ctx.frange.file_id, expr.syntax(), None); let match_expr_ty = analyzer.type_of(ctx.db, expr)?; let enum_def = analyzer.autoderef(ctx.db, match_expr_ty).find_map(|ty| match ty.as_adt() { Some((AdtDef::Enum(e), _)) => Some(e), _ => None, })?; let enum_name = enum_def.name(ctx.db)?; let db = ctx.db; ctx.add_action(AssistId("fill_match_arms"), "fill match arms", |edit| { let mut buf = format!("match {} {{\n", expr.syntax().text().to_string()); let variants = enum_def.variants(db); for variant in variants { let name = match variant.name(db) { Some(it) => it, None => continue, }; write!(&mut buf, " {}::{}", enum_name, name.to_string()).unwrap(); let pat = variant .fields(db) .into_iter() .map(|field| { let name = field.name(db).to_string(); let src = field.source(db); match src.ast { FieldSource::Named(_) => name, FieldSource::Pos(_) => "_".to_string(), } }) .collect::>(); match pat.first().map(|s| s.as_str()) { Some("_") => write!(&mut buf, "({})", pat.join(", ")).unwrap(), Some(_) => write!(&mut buf, "{{{}}}", pat.join(", ")).unwrap(), None => (), }; buf.push_str(" => (),\n"); } buf.push_str("}"); edit.target(match_expr.syntax().range()); edit.set_cursor(expr.syntax().range().start()); edit.replace_node_and_indent(match_expr.syntax(), buf); }); ctx.build() } #[cfg(test)] mod tests { use crate::helpers::{check_assist, check_assist_target}; use super::fill_match_arms; #[test] fn fill_match_arms_empty_body() { check_assist( fill_match_arms, r#" enum A { As, Bs, Cs(String), Ds(String, String), Es{x: usize, y: usize} } fn main() { let a = A::As; match a<|> {} } "#, r#" enum A { As, Bs, Cs(String), Ds(String, String), Es{x: usize, y: usize} } fn main() { let a = A::As; match <|>a { A::As => (), A::Bs => (), A::Cs(_) => (), A::Ds(_, _) => (), A::Es{x, y} => (), } } "#, ); } #[test] fn test_fill_match_arm_refs() { check_assist( fill_match_arms, r#" enum A { As, } fn foo(a: &A) { match a<|> { } } "#, r#" enum A { As, } fn foo(a: &A) { match <|>a { A::As => (), } } "#, ); check_assist( fill_match_arms, r#" enum A { Es{x: usize, y: usize} } fn foo(a: &mut A) { match a<|> { } } "#, r#" enum A { Es{x: usize, y: usize} } fn foo(a: &mut A) { match <|>a { A::Es{x, y} => (), } } "#, ); check_assist( fill_match_arms, r#" enum E { X, Y} fn main() { match &E::X<|> } "#, r#" enum E { X, Y} fn main() { match <|>&E::X { E::X => (), E::Y => (), } } "#, ); } #[test] fn fill_match_arms_no_body() { check_assist( fill_match_arms, r#" enum E { X, Y} fn main() { match E::X<|> } "#, r#" enum E { X, Y} fn main() { match <|>E::X { E::X => (), E::Y => (), } } "#, ); } #[test] fn fill_match_arms_target() { check_assist_target( fill_match_arms, r#" enum E { X, Y} fn main() { match E::X<|> {} } "#, "match E::X {}", ); } #[test] fn fill_match_arms_trivial_arm() { check_assist( fill_match_arms, r#" enum E { X, Y } fn main() { match E::X { <|>_ => {}, } } "#, r#" enum E { X, Y } fn main() { match <|>E::X { E::X => (), E::Y => (), } } "#, ); } }