use std::iter::{self, Peekable}; use either::Either; use hir::{Adt, Crate, HasAttrs, HasSource, ModuleDef, Semantics}; use ide_db::RootDatabase; use ide_db::{famous_defs::FamousDefs, helpers::mod_path_to_ast}; use itertools::Itertools; use syntax::ast::{self, make, AstNode, HasName, MatchArmList, MatchExpr, Pat}; use crate::{ utils::{self, render_snippet, Cursor}, AssistContext, AssistId, AssistKind, Assists, }; // Assist: add_missing_match_arms // // Adds missing clauses to a `match` expression. // // ``` // enum Action { Move { distance: u32 }, Stop } // // fn handle(action: Action) { // match action { // $0 // } // } // ``` // -> // ``` // enum Action { Move { distance: u32 }, Stop } // // fn handle(action: Action) { // match action { // $0Action::Move { distance } => todo!(), // Action::Stop => todo!(), // } // } // ``` pub(crate) fn add_missing_match_arms(acc: &mut Assists, ctx: &AssistContext) -> Option<()> { let match_expr = ctx.find_node_at_offset_with_descend::()?; let match_arm_list = match_expr.match_arm_list()?; let target_range = ctx.sema.original_range(match_expr.syntax()).range; if let None = cursor_at_trivial_match_arm_list(ctx, &match_expr, &match_arm_list) { let arm_list_range = ctx.sema.original_range(match_arm_list.syntax()).range; let cursor_in_range = arm_list_range.contains_range(ctx.selection_trimmed()); if cursor_in_range { cov_mark::hit!(not_applicable_outside_of_range_right); return None; } } let expr = match_expr.expr()?; let mut has_catch_all_arm = false; let top_lvl_pats: Vec<_> = match_arm_list .arms() .filter_map(|arm| Some((arm.pat()?, arm.guard().is_some()))) .flat_map(|(pat, has_guard)| { match pat { // Special case OrPat as separate top-level pats Pat::OrPat(or_pat) => Either::Left(or_pat.pats()), _ => Either::Right(iter::once(pat)), } .map(move |pat| (pat, has_guard)) }) .map(|(pat, has_guard)| { has_catch_all_arm |= !has_guard && matches!(pat, Pat::WildcardPat(_)); pat }) // Exclude top level wildcards so that they are expanded by this assist, retains status quo in #8129. .filter(|pat| !matches!(pat, Pat::WildcardPat(_))) .collect(); let module = ctx.sema.scope(expr.syntax()).module()?; let (mut missing_pats, is_non_exhaustive): ( Peekable>>, bool, ) = if let Some(enum_def) = resolve_enum_def(&ctx.sema, &expr) { let is_non_exhaustive = enum_def.is_non_exhaustive(ctx.db(), module.krate()); let variants = enum_def.variants(ctx.db()); let missing_pats = variants .into_iter() .filter_map(|variant| { Some(( build_pat(ctx.db(), module, variant)?, variant.should_be_hidden(ctx.db(), module.krate()), )) }) .filter(|(variant_pat, _)| is_variant_missing(&top_lvl_pats, variant_pat)); let option_enum = FamousDefs(&ctx.sema, Some(module.krate())).core_option_Option().map(lift_enum); let missing_pats: Box> = if Some(enum_def) == option_enum { // Match `Some` variant first. cov_mark::hit!(option_order); Box::new(missing_pats.rev()) } else { Box::new(missing_pats) }; (missing_pats.peekable(), is_non_exhaustive) } else if let Some(enum_defs) = resolve_tuple_of_enum_def(&ctx.sema, &expr) { let is_non_exhaustive = enum_defs.iter().any(|enum_def| enum_def.is_non_exhaustive(ctx.db(), module.krate())); let mut n_arms = 1; let variants_of_enums: Vec> = enum_defs .into_iter() .map(|enum_def| enum_def.variants(ctx.db())) .inspect(|variants| n_arms *= variants.len()) .collect(); // When calculating the match arms for a tuple of enums, we want // to create a match arm for each possible combination of enum // values. The `multi_cartesian_product` method transforms // Vec> into Vec<(EnumVariant, .., EnumVariant)> // where each tuple represents a proposed match arm. // A number of arms grows very fast on even a small tuple of large enums. // We skip the assist beyond an arbitrary threshold. if n_arms > 256 { return None; } let missing_pats = variants_of_enums .into_iter() .multi_cartesian_product() .inspect(|_| cov_mark::hit!(add_missing_match_arms_lazy_computation)) .map(|variants| { let is_hidden = variants .iter() .any(|variant| variant.should_be_hidden(ctx.db(), module.krate())); let patterns = variants.into_iter().filter_map(|variant| build_pat(ctx.db(), module, variant)); (ast::Pat::from(make::tuple_pat(patterns)), is_hidden) }) .filter(|(variant_pat, _)| is_variant_missing(&top_lvl_pats, variant_pat)); ((Box::new(missing_pats) as Box>).peekable(), is_non_exhaustive) } else { return None; }; let mut needs_catch_all_arm = is_non_exhaustive && !has_catch_all_arm; if !needs_catch_all_arm && missing_pats.peek().is_none() { return None; } acc.add( AssistId("add_missing_match_arms", AssistKind::QuickFix), "Fill match arms", target_range, |builder| { let new_match_arm_list = match_arm_list.clone_for_update(); let missing_arms = missing_pats .map(|(pat, hidden)| { (make::match_arm(iter::once(pat), None, make::ext::expr_todo()), hidden) }) .map(|(it, hidden)| (it.clone_for_update(), hidden)); let catch_all_arm = new_match_arm_list .arms() .find(|arm| matches!(arm.pat(), Some(ast::Pat::WildcardPat(_)))); if let Some(arm) = catch_all_arm { let is_empty_expr = arm.expr().map_or(true, |e| match e { ast::Expr::BlockExpr(b) => { b.statements().next().is_none() && b.tail_expr().is_none() } ast::Expr::TupleExpr(t) => t.fields().next().is_none(), _ => false, }); if is_empty_expr { arm.remove(); } else { cov_mark::hit!(add_missing_match_arms_empty_expr); } } let mut first_new_arm = None; for (arm, hidden) in missing_arms { if hidden { needs_catch_all_arm = !has_catch_all_arm; } else { first_new_arm.get_or_insert_with(|| arm.clone()); new_match_arm_list.add_arm(arm); } } if needs_catch_all_arm && !has_catch_all_arm { cov_mark::hit!(added_wildcard_pattern); let arm = make::match_arm( iter::once(make::wildcard_pat().into()), None, make::ext::expr_todo(), ) .clone_for_update(); first_new_arm.get_or_insert_with(|| arm.clone()); new_match_arm_list.add_arm(arm); } let old_range = ctx.sema.original_range(match_arm_list.syntax()).range; match (first_new_arm, ctx.config.snippet_cap) { (Some(first_new_arm), Some(cap)) => { let extend_lifetime; let cursor = match first_new_arm.syntax().descendants().find_map(ast::WildcardPat::cast) { Some(it) => { extend_lifetime = it.syntax().clone(); Cursor::Replace(&extend_lifetime) } None => Cursor::Before(first_new_arm.syntax()), }; let snippet = render_snippet(cap, new_match_arm_list.syntax(), cursor); builder.replace_snippet(cap, old_range, snippet); } _ => builder.replace(old_range, new_match_arm_list.to_string()), } }, ) } fn cursor_at_trivial_match_arm_list( ctx: &AssistContext, match_expr: &MatchExpr, match_arm_list: &MatchArmList, ) -> Option<()> { // match x { $0 } if match_arm_list.arms().next() == None { cov_mark::hit!(add_missing_match_arms_empty_body); return Some(()); } // match x { // bar => baz, // $0 // } if let Some(last_arm) = match_arm_list.arms().last() { let last_arm_range = last_arm.syntax().text_range(); let match_expr_range = match_expr.syntax().text_range(); if last_arm_range.end() <= ctx.offset() && ctx.offset() < match_expr_range.end() { cov_mark::hit!(add_missing_match_arms_end_of_last_arm); return Some(()); } } // match { _$0 => {...} } let wild_pat = ctx.find_node_at_offset_with_descend::()?; let arm = wild_pat.syntax().parent().and_then(ast::MatchArm::cast)?; let arm_match_expr = arm.syntax().ancestors().nth(2).and_then(ast::MatchExpr::cast)?; if arm_match_expr == *match_expr { cov_mark::hit!(add_missing_match_arms_trivial_arm); return Some(()); } None } fn is_variant_missing(existing_pats: &[Pat], var: &Pat) -> bool { !existing_pats.iter().any(|pat| does_pat_match_variant(pat, var)) } // Fixme: this is still somewhat limited, use hir_ty::diagnostics::match_check? fn does_pat_match_variant(pat: &Pat, var: &Pat) -> bool { match (pat, var) { (Pat::WildcardPat(_), _) => true, (Pat::TuplePat(tpat), Pat::TuplePat(tvar)) => { tpat.fields().zip(tvar.fields()).all(|(p, v)| does_pat_match_variant(&p, &v)) } _ => utils::does_pat_match_variant(pat, var), } } #[derive(Eq, PartialEq, Clone, Copy)] enum ExtendedEnum { Bool, Enum(hir::Enum), } #[derive(Eq, PartialEq, Clone, Copy)] enum ExtendedVariant { True, False, Variant(hir::Variant), } impl ExtendedVariant { fn should_be_hidden(self, db: &RootDatabase, krate: Crate) -> bool { match self { ExtendedVariant::Variant(var) => { var.attrs(db).has_doc_hidden() && var.module(db).krate() != krate } _ => false, } } } fn lift_enum(e: hir::Enum) -> ExtendedEnum { ExtendedEnum::Enum(e) } impl ExtendedEnum { fn is_non_exhaustive(self, db: &RootDatabase, krate: Crate) -> bool { match self { ExtendedEnum::Enum(e) => e.attrs(db).by_key("non_exhaustive").exists() && e.module(db).krate() != krate, _ => false, } } fn variants(self, db: &RootDatabase) -> Vec { match self { ExtendedEnum::Enum(e) => { e.variants(db).into_iter().map(ExtendedVariant::Variant).collect::>() } ExtendedEnum::Bool => { Vec::::from([ExtendedVariant::True, ExtendedVariant::False]) } } } } fn resolve_enum_def(sema: &Semantics, expr: &ast::Expr) -> Option { sema.type_of_expr(expr)?.adjusted().autoderef(sema.db).find_map(|ty| match ty.as_adt() { Some(Adt::Enum(e)) => Some(ExtendedEnum::Enum(e)), _ => ty.is_bool().then(|| ExtendedEnum::Bool), }) } fn resolve_tuple_of_enum_def( sema: &Semantics, expr: &ast::Expr, ) -> Option> { sema.type_of_expr(expr)? .adjusted() .tuple_fields(sema.db) .iter() .map(|ty| { ty.autoderef(sema.db).find_map(|ty| match ty.as_adt() { Some(Adt::Enum(e)) => Some(lift_enum(e)), // For now we only handle expansion for a tuple of enums. Here // we map non-enum items to None and rely on `collect` to // convert Vec> into Option>. _ => ty.is_bool().then(|| ExtendedEnum::Bool), }) }) .collect() } fn build_pat(db: &RootDatabase, module: hir::Module, var: ExtendedVariant) -> Option { match var { ExtendedVariant::Variant(var) => { let path = mod_path_to_ast(&module.find_use_path(db, ModuleDef::from(var))?); // FIXME: use HIR for this; it doesn't currently expose struct vs. tuple vs. unit variants though let pat: ast::Pat = match var.source(db)?.value.kind() { ast::StructKind::Tuple(field_list) => { let pats = iter::repeat(make::wildcard_pat().into()).take(field_list.fields().count()); make::tuple_struct_pat(path, pats).into() } ast::StructKind::Record(field_list) => { let pats = field_list .fields() .map(|f| make::ext::simple_ident_pat(f.name().unwrap()).into()); make::record_pat(path, pats).into() } ast::StructKind::Unit => make::path_pat(path), }; Some(pat) } ExtendedVariant::True => Some(ast::Pat::from(make::literal_pat("true"))), ExtendedVariant::False => Some(ast::Pat::from(make::literal_pat("false"))), } } #[cfg(test)] mod tests { use crate::tests::{ check_assist, check_assist_not_applicable, check_assist_target, check_assist_unresolved, }; use super::add_missing_match_arms; #[test] fn all_match_arms_provided() { check_assist_not_applicable( add_missing_match_arms, r#" enum A { As, Bs{x:i32, y:Option}, Cs(i32, Option), } fn main() { match A::As$0 { A::As, A::Bs{x,y:Some(_)} => {} A::Cs(_, Some(_)) => {} } } "#, ); } #[test] fn not_applicable_outside_of_range_left() { check_assist_not_applicable( add_missing_match_arms, r#" enum A { X, Y } fn foo(a: A) { $0 match a { A::X => { } } } "#, ); } #[test] fn not_applicable_outside_of_range_right() { cov_mark::check!(not_applicable_outside_of_range_right); check_assist_not_applicable( add_missing_match_arms, r#" enum A { X, Y } fn foo(a: A) { match a {$0 A::X => { } } } "#, ); } #[test] fn all_boolean_match_arms_provided() { check_assist_not_applicable( add_missing_match_arms, r#" fn foo(a: bool) { match a$0 { true => {} false => {} } } "#, ) } #[test] fn tuple_of_non_enum() { // for now this case is not handled, although it potentially could be // in the future check_assist_not_applicable( add_missing_match_arms, r#" fn main() { match (0, false)$0 { } } "#, ); } #[test] fn add_missing_match_arms_boolean() { check_assist( add_missing_match_arms, r#" fn foo(a: bool) { match a$0 { } } "#, r#" fn foo(a: bool) { match a { $0true => todo!(), false => todo!(), } } "#, ) } #[test] fn partial_fill_boolean() { check_assist( add_missing_match_arms, r#" fn foo(a: bool) { match a$0 { true => {} } } "#, r#" fn foo(a: bool) { match a { true => {} $0false => todo!(), } } "#, ) } #[test] fn all_boolean_tuple_arms_provided() { check_assist_not_applicable( add_missing_match_arms, r#" fn foo(a: bool) { match (a, a)$0 { (true, true) => {} (true, false) => {} (false, true) => {} (false, false) => {} } } "#, ) } #[test] fn fill_boolean_tuple() { check_assist( add_missing_match_arms, r#" fn foo(a: bool) { match (a, a)$0 { } } "#, r#" fn foo(a: bool) { match (a, a) { $0(true, true) => todo!(), (true, false) => todo!(), (false, true) => todo!(), (false, false) => todo!(), } } "#, ) } #[test] fn partial_fill_boolean_tuple() { check_assist( add_missing_match_arms, r#" fn foo(a: bool) { match (a, a)$0 { (false, true) => {} } } "#, r#" fn foo(a: bool) { match (a, a) { (false, true) => {} $0(true, true) => todo!(), (true, false) => todo!(), (false, false) => todo!(), } } "#, ) } #[test] fn partial_fill_record_tuple() { check_assist( add_missing_match_arms, r#" enum A { As, Bs { x: i32, y: Option }, Cs(i32, Option), } fn main() { match A::As$0 { A::Bs { x, y: Some(_) } => {} A::Cs(_, Some(_)) => {} } } "#, r#" enum A { As, Bs { x: i32, y: Option }, Cs(i32, Option), } fn main() { match A::As { A::Bs { x, y: Some(_) } => {} A::Cs(_, Some(_)) => {} $0A::As => todo!(), } } "#, ); } #[test] fn partial_fill_option() { check_assist( add_missing_match_arms, r#" //- minicore: option fn main() { match None$0 { None => {} } } "#, r#" fn main() { match None { None => {} Some(${0:_}) => todo!(), } } "#, ); } #[test] fn partial_fill_or_pat() { check_assist( add_missing_match_arms, r#" enum A { As, Bs, Cs(Option) } fn main() { match A::As$0 { A::Cs(_) | A::Bs => {} } } "#, r#" enum A { As, Bs, Cs(Option) } fn main() { match A::As { A::Cs(_) | A::Bs => {} $0A::As => todo!(), } } "#, ); } #[test] fn partial_fill() { check_assist( add_missing_match_arms, r#" enum A { As, Bs, Cs, Ds(String), Es(B) } enum B { Xs, Ys } fn main() { match A::As$0 { A::Bs if 0 < 1 => {} A::Ds(_value) => { let x = 1; } A::Es(B::Xs) => (), } } "#, r#" enum A { As, Bs, Cs, Ds(String), Es(B) } enum B { Xs, Ys } fn main() { match A::As { A::Bs if 0 < 1 => {} A::Ds(_value) => { let x = 1; } A::Es(B::Xs) => (), $0A::As => todo!(), A::Cs => todo!(), } } "#, ); } #[test] fn partial_fill_bind_pat() { check_assist( add_missing_match_arms, r#" enum A { As, Bs, Cs(Option) } fn main() { match A::As$0 { A::As(_) => {} a @ A::Bs(_) => {} } } "#, r#" enum A { As, Bs, Cs(Option) } fn main() { match A::As { A::As(_) => {} a @ A::Bs(_) => {} A::Cs(${0:_}) => todo!(), } } "#, ); } #[test] fn add_missing_match_arms_empty_body() { cov_mark::check!(add_missing_match_arms_empty_body); check_assist( add_missing_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 {$0} } "#, r#" enum A { As, Bs, Cs(String), Ds(String, String), Es { x: usize, y: usize } } fn main() { let a = A::As; match a { $0A::As => todo!(), A::Bs => todo!(), A::Cs(_) => todo!(), A::Ds(_, _) => todo!(), A::Es { x, y } => todo!(), } } "#, ); } #[test] fn add_missing_match_arms_end_of_last_arm() { cov_mark::check!(add_missing_match_arms_end_of_last_arm); check_assist( add_missing_match_arms, r#" enum A { One, Two } enum B { One, Two } fn main() { let a = A::One; let b = B::One; match (a, b) { (A::Two, B::One) => {},$0 } } "#, r#" enum A { One, Two } enum B { One, Two } fn main() { let a = A::One; let b = B::One; match (a, b) { (A::Two, B::One) => {}, $0(A::One, B::One) => todo!(), (A::One, B::Two) => todo!(), (A::Two, B::Two) => todo!(), } } "#, ); } #[test] fn add_missing_match_arms_tuple_of_enum() { check_assist( add_missing_match_arms, r#" enum A { One, Two } enum B { One, Two } fn main() { let a = A::One; let b = B::One; match (a$0, b) {} } "#, r#" enum A { One, Two } enum B { One, Two } fn main() { let a = A::One; let b = B::One; match (a, b) { $0(A::One, B::One) => todo!(), (A::One, B::Two) => todo!(), (A::Two, B::One) => todo!(), (A::Two, B::Two) => todo!(), } } "#, ); } #[test] fn add_missing_match_arms_tuple_of_enum_ref() { check_assist( add_missing_match_arms, r#" enum A { One, Two } enum B { One, Two } fn main() { let a = A::One; let b = B::One; match (&a$0, &b) {} } "#, r#" enum A { One, Two } enum B { One, Two } fn main() { let a = A::One; let b = B::One; match (&a, &b) { $0(A::One, B::One) => todo!(), (A::One, B::Two) => todo!(), (A::Two, B::One) => todo!(), (A::Two, B::Two) => todo!(), } } "#, ); } #[test] fn add_missing_match_arms_tuple_of_enum_partial() { check_assist( add_missing_match_arms, r#" enum A { One, Two } enum B { One, Two } fn main() { let a = A::One; let b = B::One; match (a$0, b) { (A::Two, B::One) => {} } } "#, r#" enum A { One, Two } enum B { One, Two } fn main() { let a = A::One; let b = B::One; match (a, b) { (A::Two, B::One) => {} $0(A::One, B::One) => todo!(), (A::One, B::Two) => todo!(), (A::Two, B::Two) => todo!(), } } "#, ); } #[test] fn add_missing_match_arms_tuple_of_enum_partial_with_wildcards() { check_assist( add_missing_match_arms, r#" //- minicore: option fn main() { let a = Some(1); let b = Some(()); match (a$0, b) { (Some(_), _) => {} (None, Some(_)) => {} } } "#, r#" fn main() { let a = Some(1); let b = Some(()); match (a, b) { (Some(_), _) => {} (None, Some(_)) => {} $0(None, None) => todo!(), } } "#, ); } #[test] fn add_missing_match_arms_partial_with_deep_pattern() { // Fixme: cannot handle deep patterns check_assist_not_applicable( add_missing_match_arms, r#" //- minicore: option fn main() { match $0Some(true) { Some(true) => {} None => {} } } "#, ); } #[test] fn add_missing_match_arms_tuple_of_enum_not_applicable() { check_assist_not_applicable( add_missing_match_arms, r#" enum A { One, Two } enum B { One, Two } fn main() { let a = A::One; let b = B::One; match (a$0, b) { (A::Two, B::One) => {} (A::One, B::One) => {} (A::One, B::Two) => {} (A::Two, B::Two) => {} } } "#, ); } #[test] fn add_missing_match_arms_single_element_tuple_of_enum() { check_assist( add_missing_match_arms, r#" enum A { One, Two } fn main() { let a = A::One; match (a$0, ) { } } "#, r#" enum A { One, Two } fn main() { let a = A::One; match (a, ) { $0(A::One,) => todo!(), (A::Two,) => todo!(), } } "#, ); } #[test] fn test_fill_match_arm_refs() { check_assist( add_missing_match_arms, r#" enum A { As } fn foo(a: &A) { match a$0 { } } "#, r#" enum A { As } fn foo(a: &A) { match a { $0A::As => todo!(), } } "#, ); check_assist( add_missing_match_arms, r#" enum A { Es { x: usize, y: usize } } fn foo(a: &mut A) { match a$0 { } } "#, r#" enum A { Es { x: usize, y: usize } } fn foo(a: &mut A) { match a { $0A::Es { x, y } => todo!(), } } "#, ); } #[test] fn add_missing_match_arms_target_simple() { check_assist_target( add_missing_match_arms, r#" enum E { X, Y } fn main() { match E::X$0 {} } "#, "match E::X {}", ); } #[test] fn add_missing_match_arms_target_complex() { check_assist_target( add_missing_match_arms, r#" enum E { X, Y } fn main() { match E::X$0 { E::X => {} } } "#, "match E::X { E::X => {} }", ); } #[test] fn add_missing_match_arms_trivial_arm() { cov_mark::check!(add_missing_match_arms_trivial_arm); check_assist( add_missing_match_arms, r#" enum E { X, Y } fn main() { match E::X { $0_ => {} } } "#, r#" enum E { X, Y } fn main() { match E::X { $0E::X => todo!(), E::Y => todo!(), } } "#, ); } #[test] fn wildcard_inside_expression_not_applicable() { check_assist_not_applicable( add_missing_match_arms, r#" enum E { X, Y } fn foo(e : E) { match e { _ => { println!("1");$0 println!("2"); } } } "#, ); } #[test] fn add_missing_match_arms_qualifies_path() { check_assist( add_missing_match_arms, r#" mod foo { pub enum E { X, Y } } use foo::E::X; fn main() { match X { $0 } } "#, r#" mod foo { pub enum E { X, Y } } use foo::E::X; fn main() { match X { $0X => todo!(), foo::E::Y => todo!(), } } "#, ); } #[test] fn add_missing_match_arms_preserves_comments() { check_assist( add_missing_match_arms, r#" enum A { One, Two } fn foo(a: A) { match a $0 { // foo bar baz A::One => {} // This is where the rest should be } } "#, r#" enum A { One, Two } fn foo(a: A) { match a { // foo bar baz A::One => {} $0A::Two => todo!(), // This is where the rest should be } } "#, ); } #[test] fn add_missing_match_arms_preserves_comments_empty() { check_assist( add_missing_match_arms, r#" enum A { One, Two } fn foo(a: A) { match a { // foo bar baz$0 } } "#, r#" enum A { One, Two } fn foo(a: A) { match a { $0A::One => todo!(), A::Two => todo!(), // foo bar baz } } "#, ); } #[test] fn add_missing_match_arms_placeholder() { check_assist( add_missing_match_arms, r#" enum A { One, Two, } fn foo(a: A) { match a$0 { _ => (), } } "#, r#" enum A { One, Two, } fn foo(a: A) { match a { $0A::One => todo!(), A::Two => todo!(), } } "#, ); } #[test] fn option_order() { cov_mark::check!(option_order); check_assist( add_missing_match_arms, r#" //- minicore: option fn foo(opt: Option) { match opt$0 { } } "#, r#" fn foo(opt: Option) { match opt { Some(${0:_}) => todo!(), None => todo!(), } } "#, ); } #[test] fn works_inside_macro_call() { check_assist( add_missing_match_arms, r#" macro_rules! m { ($expr:expr) => {$expr}} enum Test { A, B, C, } fn foo(t: Test) { m!(match t$0 {}); }"#, r#" macro_rules! m { ($expr:expr) => {$expr}} enum Test { A, B, C, } fn foo(t: Test) { m!(match t { $0Test::A => todo!(), Test::B => todo!(), Test::C => todo!(), }); }"#, ); } #[test] fn lazy_computation() { // Computing a single missing arm is enough to determine applicability of the assist. cov_mark::check_count!(add_missing_match_arms_lazy_computation, 1); check_assist_unresolved( add_missing_match_arms, r#" enum A { One, Two, } fn foo(tuple: (A, A)) { match $0tuple {}; } "#, ); } #[test] fn adds_comma_before_new_arms() { check_assist( add_missing_match_arms, r#" fn foo(t: bool) { match $0t { true => 1 + 2 } }"#, r#" fn foo(t: bool) { match t { true => 1 + 2, $0false => todo!(), } }"#, ); } #[test] fn does_not_add_extra_comma() { check_assist( add_missing_match_arms, r#" fn foo(t: bool) { match $0t { true => 1 + 2, } }"#, r#" fn foo(t: bool) { match t { true => 1 + 2, $0false => todo!(), } }"#, ); } #[test] fn does_not_remove_catch_all_with_non_empty_expr() { cov_mark::check!(add_missing_match_arms_empty_expr); check_assist( add_missing_match_arms, r#" fn foo(t: bool) { match $0t { _ => 1 + 2, } }"#, r#" fn foo(t: bool) { match t { _ => 1 + 2, $0true => todo!(), false => todo!(), } }"#, ); } #[test] fn does_not_fill_hidden_variants() { cov_mark::check!(added_wildcard_pattern); check_assist( add_missing_match_arms, r#" //- /main.rs crate:main deps:e fn foo(t: ::e::E) { match $0t { } } //- /e.rs crate:e pub enum E { A, #[doc(hidden)] B, } "#, r#" fn foo(t: ::e::E) { match t { $0e::E::A => todo!(), _ => todo!(), } } "#, ); } #[test] fn does_not_fill_hidden_variants_tuple() { cov_mark::check!(added_wildcard_pattern); check_assist( add_missing_match_arms, r#" //- /main.rs crate:main deps:e fn foo(t: (bool, ::e::E)) { match $0t { } } //- /e.rs crate:e pub enum E { A, #[doc(hidden)] B, } "#, r#" fn foo(t: (bool, ::e::E)) { match t { $0(true, e::E::A) => todo!(), (false, e::E::A) => todo!(), _ => todo!(), } } "#, ); } #[test] fn fills_wildcard_with_only_hidden_variants() { cov_mark::check!(added_wildcard_pattern); check_assist( add_missing_match_arms, r#" //- /main.rs crate:main deps:e fn foo(t: ::e::E) { match $0t { } } //- /e.rs crate:e pub enum E { #[doc(hidden)] A, } "#, r#" fn foo(t: ::e::E) { match t { ${0:_} => todo!(), } } "#, ); } #[test] fn does_not_fill_wildcard_when_hidden_variants_are_explicit() { check_assist_not_applicable( add_missing_match_arms, r#" //- /main.rs crate:main deps:e fn foo(t: ::e::E) { match $0t { e::E::A => todo!(), } } //- /e.rs crate:e pub enum E { #[doc(hidden)] A, } "#, ); } // FIXME: I don't think the assist should be applicable in this case #[test] fn does_not_fill_wildcard_with_wildcard() { check_assist( add_missing_match_arms, r#" //- /main.rs crate:main deps:e fn foo(t: ::e::E) { match $0t { _ => todo!(), } } //- /e.rs crate:e pub enum E { #[doc(hidden)] A, } "#, r#" fn foo(t: ::e::E) { match t { _ => todo!(), } } "#, ); } #[test] fn fills_wildcard_on_non_exhaustive_with_explicit_matches() { cov_mark::check!(added_wildcard_pattern); check_assist( add_missing_match_arms, r#" //- /main.rs crate:main deps:e fn foo(t: ::e::E) { match $0t { e::E::A => todo!(), } } //- /e.rs crate:e #[non_exhaustive] pub enum E { A, } "#, r#" fn foo(t: ::e::E) { match t { e::E::A => todo!(), ${0:_} => todo!(), } } "#, ); } #[test] fn fills_wildcard_on_non_exhaustive_without_matches() { cov_mark::check!(added_wildcard_pattern); check_assist( add_missing_match_arms, r#" //- /main.rs crate:main deps:e fn foo(t: ::e::E) { match $0t { } } //- /e.rs crate:e #[non_exhaustive] pub enum E { A, } "#, r#" fn foo(t: ::e::E) { match t { $0e::E::A => todo!(), _ => todo!(), } } "#, ); } #[test] fn fills_wildcard_on_non_exhaustive_with_doc_hidden() { cov_mark::check!(added_wildcard_pattern); check_assist( add_missing_match_arms, r#" //- /main.rs crate:main deps:e fn foo(t: ::e::E) { match $0t { } } //- /e.rs crate:e #[non_exhaustive] pub enum E { A, #[doc(hidden)] B }"#, r#" fn foo(t: ::e::E) { match t { $0e::E::A => todo!(), _ => todo!(), } } "#, ); } #[test] fn fills_wildcard_on_non_exhaustive_with_doc_hidden_with_explicit_arms() { cov_mark::check!(added_wildcard_pattern); check_assist( add_missing_match_arms, r#" //- /main.rs crate:main deps:e fn foo(t: ::e::E) { match $0t { e::E::A => todo!(), } } //- /e.rs crate:e #[non_exhaustive] pub enum E { A, #[doc(hidden)] B }"#, r#" fn foo(t: ::e::E) { match t { e::E::A => todo!(), ${0:_} => todo!(), } } "#, ); } #[test] fn fill_wildcard_with_partial_wildcard() { cov_mark::check!(added_wildcard_pattern); check_assist( add_missing_match_arms, r#" //- /main.rs crate:main deps:e fn foo(t: ::e::E, b: bool) { match $0t { _ if b => todo!(), } } //- /e.rs crate:e pub enum E { #[doc(hidden)] A, }"#, r#" fn foo(t: ::e::E, b: bool) { match t { _ if b => todo!(), ${0:_} => todo!(), } } "#, ); } #[test] fn does_not_fill_wildcard_with_partial_wildcard_and_wildcard() { check_assist( add_missing_match_arms, r#" //- /main.rs crate:main deps:e fn foo(t: ::e::E, b: bool) { match $0t { _ if b => todo!(), _ => todo!(), } } //- /e.rs crate:e pub enum E { #[doc(hidden)] A, }"#, r#" fn foo(t: ::e::E, b: bool) { match t { _ if b => todo!(), _ => todo!(), } } "#, ); } #[test] fn non_exhaustive_doc_hidden_tuple_fills_wildcard() { cov_mark::check!(added_wildcard_pattern); check_assist( add_missing_match_arms, r#" //- /main.rs crate:main deps:e fn foo(t: ::e::E) { match $0t { } } //- /e.rs crate:e #[non_exhaustive] pub enum E { A, #[doc(hidden)] B, }"#, r#" fn foo(t: ::e::E) { match t { $0e::E::A => todo!(), _ => todo!(), } } "#, ); } #[test] fn ignores_doc_hidden_for_crate_local_enums() { check_assist( add_missing_match_arms, r#" enum E { A, #[doc(hidden)] B, } fn foo(t: E) { match $0t { } }"#, r#" enum E { A, #[doc(hidden)] B, } fn foo(t: E) { match t { $0E::A => todo!(), E::B => todo!(), } }"#, ); } #[test] fn ignores_non_exhaustive_for_crate_local_enums() { check_assist( add_missing_match_arms, r#" #[non_exhaustive] enum E { A, B, } fn foo(t: E) { match $0t { } }"#, r#" #[non_exhaustive] enum E { A, B, } fn foo(t: E) { match t { $0E::A => todo!(), E::B => todo!(), } }"#, ); } #[test] fn ignores_doc_hidden_and_non_exhaustive_for_crate_local_enums() { check_assist( add_missing_match_arms, r#" #[non_exhaustive] enum E { A, #[doc(hidden)] B, } fn foo(t: E) { match $0t { } }"#, r#" #[non_exhaustive] enum E { A, #[doc(hidden)] B, } fn foo(t: E) { match t { $0E::A => todo!(), E::B => todo!(), } }"#, ); } }