| |
| // RUN: %target-swift-emit-silgen -module-name generic_tuples -parse-as-library %s | %FileCheck %s |
| |
| |
| func dup<T>(_ x: T) -> (T, T) { return (x,x) } |
| // CHECK-LABEL: sil hidden [ossa] @$s14generic_tuples3dup{{[_0-9a-zA-Z]*}}F |
| // CHECK: ([[RESULT_0:%.*]] : $*T, [[RESULT_1:%.*]] : $*T, [[XVAR:%.*]] : $*T): |
| // CHECK-NEXT: debug_value_addr [[XVAR]] : $*T, let, name "x" |
| // CHECK-NEXT: copy_addr [[XVAR]] to [initialization] [[RESULT_0]] |
| // CHECK-NEXT: copy_addr [[XVAR]] to [initialization] [[RESULT_1]] |
| // CHECK-NEXT: [[T0:%.*]] = tuple () |
| // CHECK-NEXT: return [[T0]] |
| |
| // <rdar://problem/13822463> |
| // Specializing a generic function on a tuple type changes the number of |
| // SIL parameters, which caused a failure in the ownership conventions code. |
| |
| struct Blub {} |
| // CHECK-LABEL: sil hidden [ossa] @$s14generic_tuples3foo{{[_0-9a-zA-Z]*}}F |
| func foo<T>(_ x: T) {} |
| // CHECK-LABEL: sil hidden [ossa] @$s14generic_tuples3bar{{[_0-9a-zA-Z]*}}F |
| func bar(_ x: (Blub, Blub)) { foo(x) } |
| |
| |
| // rdar://26279628 |
| // A type parameter constrained to be a concrete type must be handled |
| // as that concrete type throughout SILGen. That's especially true |
| // if it's constrained to be a tuple. |
| |
| protocol HasAssoc { |
| associatedtype A |
| } |
| extension HasAssoc where A == (Int, Int) { |
| func returnTupleAlias() -> A { |
| return (0, 0) |
| } |
| } |
| // CHECK-LABEL: sil hidden [ossa] @$s14generic_tuples8HasAssocPAASi_Sit1ARtzrlE16returnTupleAliasSi_SityF : $@convention(method) <Self where Self : HasAssoc, Self.A == (Int, Int)> (@in_guaranteed Self) -> (Int, Int) { |
| // CHECK: return {{.*}} : $(Int, Int) |
