@@ -1359,39 +1359,38 @@ fn compute_exhaustiveness_and_usefulness<'a, 'p, Cx: TypeCx>(
13591359
13601360 debug ! ( "ty: {ty:?}" ) ;
13611361 let pcx = & PlaceCtxt { mcx, ty } ;
1362+ let ctors_for_ty = pcx. ctors_for_ty ( ) ;
13621363
13631364 // Whether the place/column we are inspecting is known to contain valid data.
13641365 let place_validity = matrix. place_validity [ 0 ] ;
1366+ // We treat match scrutinees of type `!` or `EmptyEnum` differently.
1367+ let is_toplevel_exception =
1368+ is_top_level && matches ! ( ctors_for_ty, ConstructorSet :: NoConstructors ) ;
1369+ // Whether empty patterns can be omitted for exhaustiveness.
1370+ let can_omit_empty_arms = is_toplevel_exception || mcx. tycx . is_exhaustive_patterns_feature_on ( ) ;
13651371
13661372 // Analyze the constructors present in this column.
13671373 let ctors = matrix. heads ( ) . map ( |p| p. ctor ( ) ) ;
1368- let ctors_for_ty = pcx. ctors_for_ty ( ) ;
1369- let is_integers = matches ! ( ctors_for_ty, ConstructorSet :: Integers { .. } ) ; // For diagnostics.
13701374 let mut split_set = ctors_for_ty. split ( ctors) ;
1371- // We have now grouped all the constructors into 3 buckets: present, missing, missing_empty.
1372- // In the absence of the `exhaustive_patterns` feature however, we don't count nested empty
1373- // types as empty. Only non-nested `!` or `enum Foo {}` are considered empty.
1374- if !pcx. mcx . tycx . is_exhaustive_patterns_feature_on ( )
1375- && !( is_top_level && matches ! ( ctors_for_ty, ConstructorSet :: NoConstructors ) )
1376- {
1375+ if !can_omit_empty_arms {
13771376 // Treat all missing constructors as nonempty.
13781377 // This clears `missing_empty`.
13791378 split_set. missing . append ( & mut split_set. missing_empty ) ;
13801379 }
13811380 let all_missing = split_set. present . is_empty ( ) ;
13821381
13831382 // Build the set of constructors we will specialize with. It must cover the whole type.
1383+ // We need to iterate over a full set of constructors, so we add `Missing` to represent the
1384+ // missing ones. This is explained under "Constructor Splitting" at the top of this file.
13841385 let mut split_ctors = split_set. present ;
1385- if !split_set. missing . is_empty ( ) {
1386- // We need to iterate over a full set of constructors, so we add `Missing` to represent the
1387- // missing ones. This is explained under "Constructor Splitting" at the top of this file.
1388- split_ctors. push ( Constructor :: Missing ) ;
1389- } else if !split_set. missing_empty . is_empty ( ) && !place_validity. is_known_valid ( ) {
1390- // The missing empty constructors are reachable if the place can contain invalid data.
1386+ if !( split_set. missing . is_empty ( )
1387+ && ( split_set. missing_empty . is_empty ( ) || place_validity. is_known_valid ( ) ) )
1388+ {
13911389 split_ctors. push ( Constructor :: Missing ) ;
13921390 }
13931391
13941392 // Decide what constructors to report.
1393+ let is_integers = matches ! ( ctors_for_ty, ConstructorSet :: Integers { .. } ) ;
13951394 let always_report_all = is_top_level && !is_integers;
13961395 // Whether we should report "Enum::A and Enum::C are missing" or "_ is missing".
13971396 let report_individual_missing_ctors = always_report_all || !all_missing;
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