//! Validation of matches. //! //! This module provides lowering from [hir_def::expr::Pat] to [self::Pat] and match //! checking algorithm. //! //! It is modeled on the rustc module `rustc_mir_build::thir::pattern`. mod deconstruct_pat; mod pat_util; pub(crate) mod usefulness; use hir_def::{body::Body, EnumVariantId, LocalFieldId, VariantId}; use la_arena::Idx; use crate::{db::HirDatabase, InferenceResult, Interner, Substitution, Ty, TyKind}; use self::pat_util::EnumerateAndAdjustIterator; pub(crate) use self::usefulness::MatchArm; pub(crate) type PatId = Idx; #[derive(Clone, Debug)] pub(crate) enum PatternError { Unimplemented, UnresolvedVariant, } #[derive(Clone, Debug, PartialEq)] pub(crate) struct FieldPat { pub(crate) field: LocalFieldId, pub(crate) pattern: Pat, } #[derive(Clone, Debug, PartialEq)] pub(crate) struct Pat { pub(crate) ty: Ty, pub(crate) kind: Box, } impl Pat { pub(crate) fn wildcard_from_ty(ty: Ty) -> Self { Pat { ty, kind: Box::new(PatKind::Wild) } } } /// Close relative to `rustc_mir_build::thir::pattern::PatKind` #[derive(Clone, Debug, PartialEq)] pub(crate) enum PatKind { Wild, /// `x`, `ref x`, `x @ P`, etc. Binding { subpattern: Option, }, /// `Foo(...)` or `Foo{...}` or `Foo`, where `Foo` is a variant name from an ADT with /// multiple variants. Variant { substs: Substitution, enum_variant: EnumVariantId, subpatterns: Vec, }, /// `(...)`, `Foo(...)`, `Foo{...}`, or `Foo`, where `Foo` is a variant name from an ADT with /// a single variant. Leaf { subpatterns: Vec, }, /// `box P`, `&P`, `&mut P`, etc. Deref { subpattern: Pat, }, // FIXME: for now, only bool literals are implemented LiteralBool { value: bool, }, /// An or-pattern, e.g. `p | q`. /// Invariant: `pats.len() >= 2`. Or { pats: Vec, }, } pub(crate) struct PatCtxt<'a> { db: &'a dyn HirDatabase, infer: &'a InferenceResult, body: &'a Body, pub(crate) errors: Vec, } impl<'a> PatCtxt<'a> { pub(crate) fn new(db: &'a dyn HirDatabase, infer: &'a InferenceResult, body: &'a Body) -> Self { Self { db, infer, body, errors: Vec::new() } } pub(crate) fn lower_pattern(&mut self, pat: hir_def::expr::PatId) -> Pat { // FIXME: implement pattern adjustments (implicit pattern dereference; "RFC 2005-match-ergonomics") // More info https://github.com/rust-lang/rust/issues/42640#issuecomment-313535089 let unadjusted_pat = self.lower_pattern_unadjusted(pat); unadjusted_pat } fn lower_pattern_unadjusted(&mut self, pat: hir_def::expr::PatId) -> Pat { let ty = &self.infer[pat]; let variant = self.infer.variant_resolution_for_pat(pat); let kind = match self.body[pat] { hir_def::expr::Pat::Wild => PatKind::Wild, hir_def::expr::Pat::Lit(expr) => self.lower_lit(expr), hir_def::expr::Pat::Path(ref path) => { return self.lower_path(pat, path); } hir_def::expr::Pat::Tuple { ref args, ellipsis } => { let arity = match *ty.kind(&Interner) { TyKind::Tuple(arity, _) => arity, _ => panic!("unexpected type for tuple pattern: {:?}", ty), }; let subpatterns = self.lower_tuple_subpats(args, arity, ellipsis); PatKind::Leaf { subpatterns } } hir_def::expr::Pat::Bind { subpat, .. } => { PatKind::Binding { subpattern: self.lower_opt_pattern(subpat) } } hir_def::expr::Pat::TupleStruct { ref args, ellipsis, .. } if variant.is_some() => { let expected_len = variant.unwrap().variant_data(self.db.upcast()).fields().len(); let subpatterns = self.lower_tuple_subpats(args, expected_len, ellipsis); self.lower_variant_or_leaf(pat, ty, subpatterns) } hir_def::expr::Pat::Record { ref args, .. } if variant.is_some() => { let variant_data = variant.unwrap().variant_data(self.db.upcast()); let subpatterns = args .iter() .map(|field| FieldPat { // XXX(iDawer): field lookup is inefficient field: variant_data.field(&field.name).unwrap(), pattern: self.lower_pattern(field.pat), }) .collect(); self.lower_variant_or_leaf(pat, ty, subpatterns) } hir_def::expr::Pat::TupleStruct { .. } | hir_def::expr::Pat::Record { .. } => { self.errors.push(PatternError::UnresolvedVariant); PatKind::Wild } hir_def::expr::Pat::Or(ref pats) => PatKind::Or { pats: self.lower_patterns(pats) }, _ => { self.errors.push(PatternError::Unimplemented); PatKind::Wild } }; Pat { ty: ty.clone(), kind: Box::new(kind) } } fn lower_tuple_subpats( &mut self, pats: &[hir_def::expr::PatId], expected_len: usize, ellipsis: Option, ) -> Vec { pats.iter() .enumerate_and_adjust(expected_len, ellipsis) .map(|(i, &subpattern)| FieldPat { field: LocalFieldId::from_raw((i as u32).into()), pattern: self.lower_pattern(subpattern), }) .collect() } fn lower_patterns(&mut self, pats: &[hir_def::expr::PatId]) -> Vec { pats.iter().map(|&p| self.lower_pattern(p)).collect() } fn lower_opt_pattern(&mut self, pat: Option) -> Option { pat.map(|p| self.lower_pattern(p)) } fn lower_variant_or_leaf( &mut self, pat: hir_def::expr::PatId, ty: &Ty, subpatterns: Vec, ) -> PatKind { let kind = match self.infer.variant_resolution_for_pat(pat) { Some(variant_id) => { if let VariantId::EnumVariantId(enum_variant) = variant_id { let substs = match ty.kind(&Interner) { TyKind::Adt(_, substs) | TyKind::FnDef(_, substs) => substs.clone(), TyKind::Error => { return PatKind::Wild; } _ => panic!("inappropriate type for def: {:?}", ty), }; PatKind::Variant { substs, enum_variant, subpatterns } } else { PatKind::Leaf { subpatterns } } } None => { self.errors.push(PatternError::UnresolvedVariant); PatKind::Wild } }; kind } fn lower_path(&mut self, pat: hir_def::expr::PatId, _path: &hir_def::path::Path) -> Pat { let ty = &self.infer[pat]; let pat_from_kind = |kind| Pat { ty: ty.clone(), kind: Box::new(kind) }; match self.infer.variant_resolution_for_pat(pat) { Some(_) => pat_from_kind(self.lower_variant_or_leaf(pat, ty, Vec::new())), None => { self.errors.push(PatternError::UnresolvedVariant); pat_from_kind(PatKind::Wild) } } } fn lower_lit(&mut self, expr: hir_def::expr::ExprId) -> PatKind { use hir_def::expr::{Expr, Literal::Bool}; match self.body[expr] { Expr::Literal(Bool(value)) => PatKind::LiteralBool { value }, _ => { self.errors.push(PatternError::Unimplemented); PatKind::Wild } } } } pub(crate) trait PatternFoldable: Sized { fn fold_with(&self, folder: &mut F) -> Self { self.super_fold_with(folder) } fn super_fold_with(&self, folder: &mut F) -> Self; } pub(crate) trait PatternFolder: Sized { fn fold_pattern(&mut self, pattern: &Pat) -> Pat { pattern.super_fold_with(self) } fn fold_pattern_kind(&mut self, kind: &PatKind) -> PatKind { kind.super_fold_with(self) } } impl PatternFoldable for Box { fn super_fold_with(&self, folder: &mut F) -> Self { let content: T = (**self).fold_with(folder); Box::new(content) } } impl PatternFoldable for Vec { fn super_fold_with(&self, folder: &mut F) -> Self { self.iter().map(|t| t.fold_with(folder)).collect() } } impl PatternFoldable for Option { fn super_fold_with(&self, folder: &mut F) -> Self { self.as_ref().map(|t| t.fold_with(folder)) } } macro_rules! clone_impls { ($($ty:ty),+) => { $( impl PatternFoldable for $ty { fn super_fold_with(&self, _: &mut F) -> Self { Clone::clone(self) } } )+ } } clone_impls! { LocalFieldId, Ty, Substitution, EnumVariantId } impl PatternFoldable for FieldPat { fn super_fold_with(&self, folder: &mut F) -> Self { FieldPat { field: self.field.fold_with(folder), pattern: self.pattern.fold_with(folder) } } } impl PatternFoldable for Pat { fn fold_with(&self, folder: &mut F) -> Self { folder.fold_pattern(self) } fn super_fold_with(&self, folder: &mut F) -> Self { Pat { ty: self.ty.fold_with(folder), kind: self.kind.fold_with(folder) } } } impl PatternFoldable for PatKind { fn fold_with(&self, folder: &mut F) -> Self { folder.fold_pattern_kind(self) } fn super_fold_with(&self, folder: &mut F) -> Self { match self { PatKind::Wild => PatKind::Wild, PatKind::Binding { subpattern } => { PatKind::Binding { subpattern: subpattern.fold_with(folder) } } PatKind::Variant { substs, enum_variant, subpatterns } => PatKind::Variant { substs: substs.fold_with(folder), enum_variant: enum_variant.fold_with(folder), subpatterns: subpatterns.fold_with(folder), }, PatKind::Leaf { subpatterns } => { PatKind::Leaf { subpatterns: subpatterns.fold_with(folder) } } PatKind::Deref { subpattern } => { PatKind::Deref { subpattern: subpattern.fold_with(folder) } } &PatKind::LiteralBool { value } => PatKind::LiteralBool { value }, PatKind::Or { pats } => PatKind::Or { pats: pats.fold_with(folder) }, } } } #[cfg(test)] pub(super) mod tests { mod report { use std::any::Any; use hir_def::{expr::PatId, DefWithBodyId}; use hir_expand::{HirFileId, InFile}; use syntax::SyntaxNodePtr; use crate::{ db::HirDatabase, diagnostics_sink::{Diagnostic, DiagnosticCode, DiagnosticSink}, }; /// In tests, match check bails out loudly. /// This helps to catch incorrect tests that pass due to false negatives. pub(crate) fn report_bail_out( db: &dyn HirDatabase, def: DefWithBodyId, pat: PatId, sink: &mut DiagnosticSink, ) { let (_, source_map) = db.body_with_source_map(def); if let Ok(source_ptr) = source_map.pat_syntax(pat) { let pat_syntax_ptr = source_ptr.value.either(Into::into, Into::into); sink.push(BailedOut { file: source_ptr.file_id, pat_syntax_ptr }); } } #[derive(Debug)] struct BailedOut { file: HirFileId, pat_syntax_ptr: SyntaxNodePtr, } impl Diagnostic for BailedOut { fn code(&self) -> DiagnosticCode { DiagnosticCode("internal:match-check-bailed-out") } fn message(&self) -> String { format!("Internal: match check bailed out") } fn display_source(&self) -> InFile { InFile { file_id: self.file, value: self.pat_syntax_ptr.clone() } } fn as_any(&self) -> &(dyn Any + Send + 'static) { self } } } use crate::diagnostics::tests::check_diagnostics; pub(crate) use self::report::report_bail_out; #[test] fn empty_tuple() { check_diagnostics( r#" fn main() { match () { } //^^ Missing match arm match (()) { } //^^^^ Missing match arm match () { _ => (), } match () { () => (), } match (()) { (()) => (), } } "#, ); } #[test] fn tuple_of_two_empty_tuple() { check_diagnostics( r#" fn main() { match ((), ()) { } //^^^^^^^^ Missing match arm match ((), ()) { ((), ()) => (), } } "#, ); } #[test] fn boolean() { check_diagnostics( r#" fn test_main() { match false { } //^^^^^ Missing match arm match false { true => (), } //^^^^^ Missing match arm match (false, true) {} //^^^^^^^^^^^^^ Missing match arm match (false, true) { (true, true) => (), } //^^^^^^^^^^^^^ Missing match arm match (false, true) { //^^^^^^^^^^^^^ Missing match arm (false, true) => (), (false, false) => (), (true, false) => (), } match (false, true) { (true, _x) => (), } //^^^^^^^^^^^^^ Missing match arm match false { true => (), false => (), } match (false, true) { (false, _) => (), (true, false) => (), (_, true) => (), } match (false, true) { (true, true) => (), (true, false) => (), (false, true) => (), (false, false) => (), } match (false, true) { (true, _x) => (), (false, true) => (), (false, false) => (), } match (false, true, false) { (false, ..) => (), (true, ..) => (), } match (false, true, false) { (.., false) => (), (.., true) => (), } match (false, true, false) { (..) => (), } } "#, ); } #[test] fn tuple_of_tuple_and_bools() { check_diagnostics( r#" fn main() { match (false, ((), false)) {} //^^^^^^^^^^^^^^^^^^^^ Missing match arm match (false, ((), false)) { (true, ((), true)) => (), } //^^^^^^^^^^^^^^^^^^^^ Missing match arm match (false, ((), false)) { (true, _) => (), } //^^^^^^^^^^^^^^^^^^^^ Missing match arm match (false, ((), false)) { (true, ((), true)) => (), (true, ((), false)) => (), (false, ((), true)) => (), (false, ((), false)) => (), } match (false, ((), false)) { (true, ((), true)) => (), (true, ((), false)) => (), (false, _) => (), } } "#, ); } #[test] fn enums() { check_diagnostics( r#" enum Either { A, B, } fn main() { match Either::A { } //^^^^^^^^^ Missing match arm match Either::B { Either::A => (), } //^^^^^^^^^ Missing match arm match &Either::B { //^^^^^^^^^^ Missing match arm Either::A => (), } match Either::B { Either::A => (), Either::B => (), } match &Either::B { Either::A => (), Either::B => (), } } "#, ); } #[test] fn enum_containing_bool() { check_diagnostics( r#" enum Either { A(bool), B } fn main() { match Either::B { } //^^^^^^^^^ Missing match arm match Either::B { //^^^^^^^^^ Missing match arm Either::A(true) => (), Either::B => () } match Either::B { Either::A(true) => (), Either::A(false) => (), Either::B => (), } match Either::B { Either::B => (), _ => (), } match Either::B { Either::A(_) => (), Either::B => (), } } "#, ); } #[test] fn enum_different_sizes() { check_diagnostics( r#" enum Either { A(bool), B(bool, bool) } fn main() { match Either::A(false) { //^^^^^^^^^^^^^^^^ Missing match arm Either::A(_) => (), Either::B(false, _) => (), } match Either::A(false) { Either::A(_) => (), Either::B(true, _) => (), Either::B(false, _) => (), } match Either::A(false) { Either::A(true) | Either::A(false) => (), Either::B(true, _) => (), Either::B(false, _) => (), } } "#, ); } #[test] fn tuple_of_enum_no_diagnostic() { check_diagnostics( r#" enum Either { A(bool), B(bool, bool) } enum Either2 { C, D } fn main() { match (Either::A(false), Either2::C) { (Either::A(true), _) | (Either::A(false), _) => (), (Either::B(true, _), Either2::C) => (), (Either::B(false, _), Either2::C) => (), (Either::B(_, _), Either2::D) => (), } } "#, ); } #[test] fn or_pattern_no_diagnostic() { check_diagnostics( r#" enum Either {A, B} fn main() { match (Either::A, Either::B) { (Either::A | Either::B, _) => (), } }"#, ) } #[test] fn mismatched_types() { // Match statements with arms that don't match the // expression pattern do not fire this diagnostic. check_diagnostics( r#" enum Either { A, B } enum Either2 { C, D } fn main() { match Either::A { Either2::C => (), // ^^^^^^^^^^ Internal: match check bailed out Either2::D => (), } match (true, false) { (true, false, true) => (), // ^^^^^^^^^^^^^^^^^^^ Internal: match check bailed out (true) => (), } match (true, false) { (true,) => {} } // ^^^^^^^ Internal: match check bailed out match (0) { () => () } // ^^ Internal: match check bailed out match Unresolved::Bar { Unresolved::Baz => () } } "#, ); } #[test] fn mismatched_types_in_or_patterns() { check_diagnostics( r#" fn main() { match false { true | () => {} } // ^^^^^^^^^ Internal: match check bailed out match (false,) { (true | (),) => {} } // ^^^^^^^^^^^^ Internal: match check bailed out } "#, ); } #[test] fn malformed_match_arm_tuple_enum_missing_pattern() { // We are testing to be sure we don't panic here when the match // arm `Either::B` is missing its pattern. check_diagnostics( r#" enum Either { A, B(u32) } fn main() { match Either::A { Either::A => (), Either::B() => (), } } "#, ); } #[test] fn expr_diverges() { check_diagnostics( r#" enum Either { A, B } fn main() { match loop {} { Either::A => (), // ^^^^^^^^^ Internal: match check bailed out Either::B => (), } match loop {} { Either::A => (), // ^^^^^^^^^ Internal: match check bailed out } match loop { break Foo::A } { //^^^^^^^^^^^^^^^^^^^^^ Missing match arm Either::A => (), } match loop { break Foo::A } { Either::A => (), Either::B => (), } } "#, ); } #[test] fn expr_partially_diverges() { check_diagnostics( r#" enum Either { A(T), B } fn foo() -> Either { Either::B } fn main() -> u32 { match foo() { Either::A(val) => val, Either::B => 0, } } "#, ); } #[test] fn enum_record() { check_diagnostics( r#" enum Either { A { foo: bool }, B } fn main() { let a = Either::A { foo: true }; match a { } //^ Missing match arm match a { Either::A { foo: true } => () } //^ Missing match arm match a { Either::A { } => (), //^^^^^^^^^ Missing structure fields: // | - foo Either::B => (), } match a { //^ Missing match arm Either::A { } => (), } //^^^^^^^^^ Missing structure fields: // | - foo match a { Either::A { foo: true } => (), Either::A { foo: false } => (), Either::B => (), } match a { Either::A { foo: _ } => (), Either::B => (), } } "#, ); } #[test] fn enum_record_fields_out_of_order() { check_diagnostics( r#" enum Either { A { foo: bool, bar: () }, B, } fn main() { let a = Either::A { foo: true, bar: () }; match a { //^ Missing match arm Either::A { bar: (), foo: false } => (), Either::A { foo: true, bar: () } => (), } match a { Either::A { bar: (), foo: false } => (), Either::A { foo: true, bar: () } => (), Either::B => (), } } "#, ); } #[test] fn enum_record_ellipsis() { check_diagnostics( r#" enum Either { A { foo: bool, bar: bool }, B, } fn main() { let a = Either::B; match a { //^ Missing match arm Either::A { foo: true, .. } => (), Either::B => (), } match a { //^ Missing match arm Either::A { .. } => (), } match a { Either::A { foo: true, .. } => (), Either::A { foo: false, .. } => (), Either::B => (), } match a { Either::A { .. } => (), Either::B => (), } } "#, ); } #[test] fn enum_tuple_partial_ellipsis() { check_diagnostics( r#" enum Either { A(bool, bool, bool, bool), B, } fn main() { match Either::B { //^^^^^^^^^ Missing match arm Either::A(true, .., true) => (), Either::A(true, .., false) => (), Either::A(false, .., false) => (), Either::B => (), } match Either::B { //^^^^^^^^^ Missing match arm Either::A(true, .., true) => (), Either::A(true, .., false) => (), Either::A(.., true) => (), Either::B => (), } match Either::B { Either::A(true, .., true) => (), Either::A(true, .., false) => (), Either::A(false, .., true) => (), Either::A(false, .., false) => (), Either::B => (), } match Either::B { Either::A(true, .., true) => (), Either::A(true, .., false) => (), Either::A(.., true) => (), Either::A(.., false) => (), Either::B => (), } } "#, ); } #[test] fn never() { check_diagnostics( r#" enum Never {} fn enum_(never: Never) { match never {} } fn enum_ref(never: &Never) { match never {} //^^^^^ Missing match arm } fn bang(never: !) { match never {} } "#, ); } #[test] fn unknown_type() { check_diagnostics( r#" enum Option { Some(T), None } fn main() { // `Never` is deliberately not defined so that it's an uninferred type. match Option::::None { None => (), Some(never) => match never {}, // ^^^^^^^^^^^ Internal: match check bailed out } match Option::::None { //^^^^^^^^^^^^^^^^^^^^^ Missing match arm Option::Some(_never) => {}, } } "#, ); } #[test] fn tuple_of_bools_with_ellipsis_at_end_missing_arm() { check_diagnostics( r#" fn main() { match (false, true, false) { //^^^^^^^^^^^^^^^^^^^^ Missing match arm (false, ..) => (), } }"#, ); } #[test] fn tuple_of_bools_with_ellipsis_at_beginning_missing_arm() { check_diagnostics( r#" fn main() { match (false, true, false) { //^^^^^^^^^^^^^^^^^^^^ Missing match arm (.., false) => (), } }"#, ); } #[test] fn tuple_of_bools_with_ellipsis_in_middle_missing_arm() { check_diagnostics( r#" fn main() { match (false, true, false) { //^^^^^^^^^^^^^^^^^^^^ Missing match arm (true, .., false) => (), } }"#, ); } #[test] fn record_struct() { check_diagnostics( r#"struct Foo { a: bool } fn main(f: Foo) { match f {} //^ Missing match arm match f { Foo { a: true } => () } //^ Missing match arm match &f { Foo { a: true } => () } //^^ Missing match arm match f { Foo { a: _ } => () } match f { Foo { a: true } => (), Foo { a: false } => (), } match &f { Foo { a: true } => (), Foo { a: false } => (), } } "#, ); } #[test] fn tuple_struct() { check_diagnostics( r#"struct Foo(bool); fn main(f: Foo) { match f {} //^ Missing match arm match f { Foo(true) => () } //^ Missing match arm match f { Foo(true) => (), Foo(false) => (), } } "#, ); } #[test] fn unit_struct() { check_diagnostics( r#"struct Foo; fn main(f: Foo) { match f {} //^ Missing match arm match f { Foo => () } } "#, ); } #[test] fn record_struct_ellipsis() { check_diagnostics( r#"struct Foo { foo: bool, bar: bool } fn main(f: Foo) { match f { Foo { foo: true, .. } => () } //^ Missing match arm match f { //^ Missing match arm Foo { foo: true, .. } => (), Foo { bar: false, .. } => () } match f { Foo { .. } => () } match f { Foo { foo: true, .. } => (), Foo { foo: false, .. } => () } } "#, ); } #[test] fn internal_or() { check_diagnostics( r#" fn main() { enum Either { A(bool), B } match Either::B { //^^^^^^^^^ Missing match arm Either::A(true | false) => (), } } "#, ); } #[test] fn no_panic_at_unimplemented_subpattern_type() { check_diagnostics( r#" struct S { a: char} fn main(v: S) { match v { S{ a } => {} } match v { S{ a: _x } => {} } match v { S{ a: 'a' } => {} } //^^^^^^^^^^^ Internal: match check bailed out match v { S{..} => {} } match v { _ => {} } match v { } //^ Missing match arm } "#, ); } #[test] fn binding() { check_diagnostics( r#" fn main() { match true { _x @ true => {} false => {} } match true { _x @ true => {} } //^^^^ Missing match arm } "#, ); } #[test] fn enum_non_exhaustive() { check_diagnostics( r#" //- /lib.rs crate:lib #[non_exhaustive] pub enum E { A, B } fn _local() { match E::A { _ => {} } match E::A { E::A => {} E::B => {} } match E::A { E::A | E::B => {} } } //- /main.rs crate:main deps:lib use lib::E; fn main() { match E::A { _ => {} } match E::A { //^^^^ Missing match arm E::A => {} E::B => {} } match E::A { //^^^^ Missing match arm E::A | E::B => {} } } "#, ); } #[test] fn match_guard() { check_diagnostics( r#" fn main() { match true { true if false => {} true => {} false => {} } match true { //^^^^ Missing match arm true if false => {} false => {} } "#, ); } #[test] fn pattern_type_is_of_substitution() { cov_mark::check!(match_check_wildcard_expanded_to_substitutions); check_diagnostics( r#" struct Foo(T); struct Bar; fn main() { match Foo(Bar) { _ | Foo(Bar) => {} } } "#, ); } mod false_negatives { //! The implementation of match checking here is a work in progress. As we roll this out, we //! prefer false negatives to false positives (ideally there would be no false positives). This //! test module should document known false negatives. Eventually we will have a complete //! implementation of match checking and this module will be empty. //! //! The reasons for documenting known false negatives: //! //! 1. It acts as a backlog of work that can be done to improve the behavior of the system. //! 2. It ensures the code doesn't panic when handling these cases. use super::*; #[test] fn integers() { // We don't currently check integer exhaustiveness. check_diagnostics( r#" fn main() { match 5 { 10 => (), // ^^ Internal: match check bailed out 11..20 => (), } } "#, ); } #[test] fn reference_patterns_at_top_level() { check_diagnostics( r#" fn main() { match &false { &true => {} // ^^^^^ Internal: match check bailed out } } "#, ); } #[test] fn reference_patterns_in_fields() { check_diagnostics( r#" fn main() { match (&false,) { (true,) => {} // ^^^^^^^ Internal: match check bailed out } match (&false,) { (&true,) => {} // ^^^^^^^^ Internal: match check bailed out } } "#, ); } } }