// RUN: %target-swift-frontend -emit-silgen -primary-file %s | %FileCheck %s // RUN: %target-swift-frontend -emit-ir -primary-file %s // Check SILGen against various FunctionConversionExprs emitted by Sema. // ==== Representation conversions // CHECK-LABEL: sil hidden @_T019function_conversion7cToFuncS2icS2iXCF : $@convention(thin) (@convention(c) (Int) -> Int) -> @owned @callee_owned (Int) -> Int // CHECK: [[THUNK:%.*]] = function_ref @_T0S2iItCyd_S2iIxyd_TR // CHECK: [[FUNC:%.*]] = partial_apply [[THUNK]](%0) // CHECK: return [[FUNC]] func cToFunc(_ arg: @escaping @convention(c) (Int) -> Int) -> (Int) -> Int { return arg } // CHECK-LABEL: sil hidden @_T019function_conversion8cToBlockS2iXBS2iXCF : $@convention(thin) (@convention(c) (Int) -> Int) -> @owned @convention(block) (Int) -> Int // CHECK: [[BLOCK_STORAGE:%.*]] = alloc_stack $@block_storage // CHECK: [[BLOCK:%.*]] = init_block_storage_header [[BLOCK_STORAGE]] // CHECK: [[COPY:%.*]] = copy_block [[BLOCK]] : $@convention(block) (Int) -> Int // CHECK: return [[COPY]] func cToBlock(_ arg: @escaping @convention(c) (Int) -> Int) -> @convention(block) (Int) -> Int { return arg } // ==== Throws variance // CHECK-LABEL: sil hidden @_T019function_conversion12funcToThrowsyyKcyycF : $@convention(thin) (@owned @callee_owned () -> ()) -> @owned @callee_owned () -> @error Error // CHECK: bb0([[ARG:%.*]] : $@callee_owned () -> ()): // CHECK: [[BORROWED_ARG:%.*]] = begin_borrow [[ARG]] // CHECK: [[ARG_COPY:%.*]] = copy_value [[BORROWED_ARG]] // CHECK: [[FUNC:%.*]] = convert_function [[ARG_COPY]] : $@callee_owned () -> () to $@callee_owned () -> @error Error // CHECK: end_borrow [[BORROWED_ARG]] from [[ARG]] // CHECK: destroy_value [[ARG]] // CHECK: return [[FUNC]] // CHECK: } // end sil function '_T019function_conversion12funcToThrowsyyKcyycF' func funcToThrows(_ x: @escaping () -> ()) -> () throws -> () { return x } // CHECK-LABEL: sil hidden @_T019function_conversion12thinToThrowsyyKXfyyXfF : $@convention(thin) (@convention(thin) () -> ()) -> @convention(thin) () -> @error Error // CHECK: [[FUNC:%.*]] = convert_function %0 : $@convention(thin) () -> () to $@convention(thin) () -> @error Error // CHECK: return [[FUNC]] : $@convention(thin) () -> @error Error func thinToThrows(_ x: @escaping @convention(thin) () -> ()) -> @convention(thin) () throws -> () { return x } // FIXME: triggers an assert because we always do a thin to thick conversion on DeclRefExprs /* func thinFunc() {} func thinToThrows() { let _: @convention(thin) () -> () = thinFunc } */ // ==== Class downcasts and upcasts class Feral {} class Domesticated : Feral {} // CHECK-LABEL: sil hidden @_T019function_conversion12funcToUpcastAA5FeralCycAA12DomesticatedCycF : $@convention(thin) (@owned @callee_owned () -> @owned Domesticated) -> @owned @callee_owned () -> @owned Feral { // CHECK: bb0([[ARG:%.*]] : $@callee_owned () -> @owned Domesticated): // CHECK: [[BORROWED_ARG:%.*]] = begin_borrow [[ARG]] // CHECK: [[ARG_COPY:%.*]] = copy_value [[BORROWED_ARG]] // CHECK: [[FUNC:%.*]] = convert_function [[ARG_COPY]] : $@callee_owned () -> @owned Domesticated to $@callee_owned () -> @owned Feral // CHECK: end_borrow [[BORROWED_ARG]] from [[ARG]] // CHECK: destroy_value [[ARG]] // CHECK: return [[FUNC]] // CHECK: } // end sil function '_T019function_conversion12funcToUpcastAA5FeralCycAA12DomesticatedCycF' func funcToUpcast(_ x: @escaping () -> Domesticated) -> () -> Feral { return x } // CHECK-LABEL: sil hidden @_T019function_conversion12funcToUpcastyAA12DomesticatedCcyAA5FeralCcF : $@convention(thin) (@owned @callee_owned (@owned Feral) -> ()) -> @owned @callee_owned (@owned Domesticated) -> () // CHECK: bb0([[ARG:%.*]] : // CHECK: [[BORROWED_ARG:%.*]] = begin_borrow [[ARG]] // CHECK: [[ARG_COPY:%.*]] = copy_value [[BORROWED_ARG]] // CHECK: [[FUNC:%.*]] = convert_function [[ARG_COPY]] : $@callee_owned (@owned Feral) -> () to $@callee_owned (@owned Domesticated) -> (){{.*}} // CHECK: end_borrow [[BORROWED_ARG]] from [[ARG]] // CHECK: destroy_value [[ARG]] // CHECK: return [[FUNC]] func funcToUpcast(_ x: @escaping (Feral) -> ()) -> (Domesticated) -> () { return x } // ==== Optionals struct Trivial { let n: Int8 } class C { let n: Int8 init(n: Int8) { self.n = n } } struct Loadable { let c: C var n: Int8 { return c.n } init(n: Int8) { c = C(n: n) } } struct AddrOnly { let a: Any var n: Int8 { return a as! Int8 } init(n: Int8) { a = n } } // CHECK-LABEL: sil hidden @_T019function_conversion19convOptionalTrivialyAA0E0VADSgcF func convOptionalTrivial(_ t1: @escaping (Trivial?) -> Trivial) { // CHECK: function_ref @_T019function_conversion7TrivialVSgACIxyd_AcDIxyd_TR // CHECK: partial_apply let _: (Trivial) -> Trivial? = t1 // CHECK: function_ref @_T019function_conversion7TrivialVSgACIxyd_A2DIxyd_TR // CHECK: partial_apply let _: (Trivial!) -> Trivial? = t1 } // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T019function_conversion7TrivialVSgACIxyd_AcDIxyd_TR : $@convention(thin) (Trivial, @owned @callee_owned (Optional) -> Trivial) -> Optional // CHECK: enum $Optional // CHECK-NEXT: apply %1(%2) // CHECK-NEXT: enum $Optional // CHECK-NEXT: return // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T019function_conversion7TrivialVSgACIxyd_A2DIxyd_TR : $@convention(thin) (Optional, @owned @callee_owned (Optional) -> Trivial) -> Optional // CHECK: apply %1(%0) // CHECK-NEXT: enum $Optional // CHECK-NEXT: return // CHECK-LABEL: sil hidden @_T019function_conversion20convOptionalLoadableyAA0E0VADSgcF func convOptionalLoadable(_ l1: @escaping (Loadable?) -> Loadable) { // CHECK: function_ref @_T019function_conversion8LoadableVSgACIxxo_AcDIxxo_TR // CHECK: partial_apply let _: (Loadable) -> Loadable? = l1 // CHECK: function_ref @_T019function_conversion8LoadableVSgACIxxo_A2DIxxo_TR // CHECK: partial_apply let _: (Loadable!) -> Loadable? = l1 } // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T019function_conversion8LoadableVSgACIxxo_A2DIxxo_TR : $@convention(thin) (@owned Optional, @owned @callee_owned (@owned Optional) -> @owned Loadable) -> @owned Optional // CHECK: apply %1(%0) // CHECK-NEXT: enum $Optional // CHECK-NEXT: return // CHECK-LABEL: sil hidden @_T019function_conversion20convOptionalAddrOnlyyAA0eF0VADSgcF func convOptionalAddrOnly(_ a1: @escaping (AddrOnly?) -> AddrOnly) { // CHECK: function_ref @_T019function_conversion8AddrOnlyVSgACIxir_A2DIxir_TR // CHECK: partial_apply let _: (AddrOnly?) -> AddrOnly? = a1 // CHECK: function_ref @_T019function_conversion8AddrOnlyVSgACIxir_A2DIxir_TR // CHECK: partial_apply let _: (AddrOnly!) -> AddrOnly? = a1 } // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T019function_conversion8AddrOnlyVSgACIxir_A2DIxir_TR : $@convention(thin) (@in Optional, @owned @callee_owned (@in Optional) -> @out AddrOnly) -> @out Optional // CHECK: alloc_stack $AddrOnly // CHECK-NEXT: apply %2(%3, %1) // CHECK-NEXT: init_enum_data_addr %0 : $*Optional // CHECK-NEXT: copy_addr [take] {{.*}} to [initialization] {{.*}} : $*AddrOnly // CHECK-NEXT: inject_enum_addr %0 : $*Optional // CHECK-NEXT: tuple () // CHECK-NEXT: dealloc_stack {{.*}} : $*AddrOnly // CHECK-NEXT: return // ==== Existentials protocol Q { var n: Int8 { get } } protocol P : Q {} extension Trivial : P {} extension Loadable : P {} extension AddrOnly : P {} // CHECK-LABEL: sil hidden @_T019function_conversion22convExistentialTrivialyAA0E0VAA1Q_pc_AdaE_pSgc2t3tF func convExistentialTrivial(_ t2: @escaping (Q) -> Trivial, t3: @escaping (Q?) -> Trivial) { // CHECK: function_ref @_T019function_conversion1Q_pAA7TrivialVIxid_AdA1P_pIxyr_TR // CHECK: partial_apply let _: (Trivial) -> P = t2 // CHECK: function_ref @_T019function_conversion1Q_pSgAA7TrivialVIxid_AESgAA1P_pIxyr_TR // CHECK: partial_apply let _: (Trivial?) -> P = t3 // CHECK: function_ref @_T019function_conversion1Q_pAA7TrivialVIxid_AA1P_pAaE_pIxir_TR // CHECK: partial_apply let _: (P) -> P = t2 } // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T019function_conversion1Q_pAA7TrivialVIxid_AdA1P_pIxyr_TR : $@convention(thin) (Trivial, @owned @callee_owned (@in Q) -> Trivial) -> @out P // CHECK: alloc_stack $Q // CHECK-NEXT: init_existential_addr // CHECK-NEXT: store // CHECK-NEXT: apply // CHECK-NEXT: init_existential_addr // CHECK-NEXT: store // CHECK: return // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T019function_conversion1Q_pSgAA7TrivialVIxid_AESgAA1P_pIxyr_TR // CHECK: switch_enum // CHECK: bb1([[TRIVIAL:%.*]] : $Trivial): // CHECK: init_existential_addr // CHECK: init_enum_data_addr // CHECK: copy_addr // CHECK: inject_enum_addr // CHECK: bb2: // CHECK: inject_enum_addr // CHECK: bb3: // CHECK: apply // CHECK: init_existential_addr // CHECK: store // CHECK: return // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T019function_conversion1Q_pAA7TrivialVIxid_AA1P_pAaE_pIxir_TR : $@convention(thin) (@in P, @owned @callee_owned (@in Q) -> Trivial) -> @out P // CHECK: alloc_stack $Q // CHECK-NEXT: open_existential_addr immutable_access %1 : $*P // CHECK-NEXT: init_existential_addr %3 : $*Q // CHECK-NEXT: copy_addr {{.*}} to [initialization] {{.*}} // CHECK-NEXT: apply // CHECK-NEXT: init_existential_addr // CHECK-NEXT: store // CHECK: destroy_addr // CHECK: return // ==== Existential metatypes // CHECK-LABEL: sil hidden @_T019function_conversion23convExistentialMetatypeyAA7TrivialVmAA1Q_pXpSgcF func convExistentialMetatype(_ em: @escaping (Q.Type?) -> Trivial.Type) { // CHECK: function_ref @_T019function_conversion1Q_pXmTSgAA7TrivialVXMtIxyd_AEXMtAA1P_pXmTIxyd_TR // CHECK: partial_apply let _: (Trivial.Type) -> P.Type = em // CHECK: function_ref @_T019function_conversion1Q_pXmTSgAA7TrivialVXMtIxyd_AEXMtSgAA1P_pXmTIxyd_TR // CHECK: partial_apply let _: (Trivial.Type?) -> P.Type = em // CHECK: function_ref @_T019function_conversion1Q_pXmTSgAA7TrivialVXMtIxyd_AA1P_pXmTAaF_pXmTIxyd_TR // CHECK: partial_apply let _: (P.Type) -> P.Type = em } // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T019function_conversion1Q_pXmTSgAA7TrivialVXMtIxyd_AEXMtAA1P_pXmTIxyd_TR : $@convention(thin) (@thin Trivial.Type, @owned @callee_owned (Optional<@thick Q.Type>) -> @thin Trivial.Type) -> @thick P.Type // CHECK: metatype $@thick Trivial.Type // CHECK-NEXT: init_existential_metatype %2 : $@thick Trivial.Type, $@thick Q.Type // CHECK-NEXT: enum $Optional<@thick Q.Type> // CHECK-NEXT: apply // CHECK-NEXT: metatype $@thick Trivial.Type // CHECK-NEXT: init_existential_metatype {{.*}} : $@thick Trivial.Type, $@thick P.Type // CHECK-NEXT: return // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T019function_conversion1Q_pXmTSgAA7TrivialVXMtIxyd_AEXMtSgAA1P_pXmTIxyd_TR : $@convention(thin) (Optional<@thin Trivial.Type>, @owned @callee_owned (Optional<@thick Q.Type>) -> @thin Trivial.Type) -> @thick P.Type // CHECK: switch_enum %0 : $Optional<@thin Trivial.Type> // CHECK: bb1([[META:%.*]] : $@thin Trivial.Type): // CHECK-NEXT: metatype $@thick Trivial.Type // CHECK-NEXT: init_existential_metatype {{.*}} : $@thick Trivial.Type, $@thick Q.Type // CHECK-NEXT: enum $Optional<@thick Q.Type> // CHECK: bb2: // CHECK-NEXT: enum $Optional<@thick Q.Type> // CHECK: bb3({{.*}}): // CHECK-NEXT: apply // CHECK-NEXT: metatype $@thick Trivial.Type // CHECK-NEXT: init_existential_metatype {{.*}} : $@thick Trivial.Type, $@thick P.Type // CHECK-NEXT: return // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T019function_conversion1Q_pXmTSgAA7TrivialVXMtIxyd_AA1P_pXmTAaF_pXmTIxyd_TR : $@convention(thin) (@thick P.Type, @owned @callee_owned (Optional<@thick Q.Type>) -> @thin Trivial.Type) -> @thick P.Type // CHECK: open_existential_metatype %0 : $@thick P.Type to $@thick (@opened({{.*}}) P).Type // CHECK-NEXT: init_existential_metatype %2 : $@thick (@opened({{.*}}) P).Type, $@thick Q.Type // CHECK-NEXT: enum $Optional<@thick Q.Type> // CHECK-NEXT: apply // CHECK-NEXT: metatype $@thick Trivial.Type // CHECK-NEXT: init_existential_metatype {{.*}} : $@thick Trivial.Type, $@thick P.Type // CHECK-NEXT: return // ==== Class metatype upcasts class Parent {} class Child : Parent {} // Note: we add a Trivial => Trivial? conversion here to force a thunk // to be generated // CHECK-LABEL: sil hidden @_T019function_conversion18convUpcastMetatypeyAA5ChildCmAA6ParentCm_AA7TrivialVSgtc_ADmAFmSg_AItc2c5tF func convUpcastMetatype(_ c4: @escaping (Parent.Type, Trivial?) -> Child.Type, c5: @escaping (Parent.Type?, Trivial?) -> Child.Type) { // CHECK: function_ref @_T019function_conversion6ParentCXMTAA7TrivialVSgAA5ChildCXMTIxyyd_AHXMTAeCXMTIxyyd_TR // CHECK: partial_apply let _: (Child.Type, Trivial) -> Parent.Type = c4 // CHECK: function_ref @_T019function_conversion6ParentCXMTSgAA7TrivialVSgAA5ChildCXMTIxyyd_AIXMTAfCXMTIxyyd_TR // CHECK: partial_apply let _: (Child.Type, Trivial) -> Parent.Type = c5 // CHECK: function_ref @_T019function_conversion6ParentCXMTSgAA7TrivialVSgAA5ChildCXMTIxyyd_AIXMTSgAfDIxyyd_TR // CHECK: partial_apply let _: (Child.Type?, Trivial) -> Parent.Type? = c5 } // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T019function_conversion6ParentCXMTAA7TrivialVSgAA5ChildCXMTIxyyd_AHXMTAeCXMTIxyyd_TR : $@convention(thin) (@thick Child.Type, Trivial, @owned @callee_owned (@thick Parent.Type, Optional) -> @thick Child.Type) -> @thick Parent.Type // CHECK: upcast %0 : $@thick Child.Type to $@thick Parent.Type // CHECK: apply // CHECK: upcast {{.*}} : $@thick Child.Type to $@thick Parent.Type // CHECK: return // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T019function_conversion6ParentCXMTSgAA7TrivialVSgAA5ChildCXMTIxyyd_AIXMTAfCXMTIxyyd_TR : $@convention(thin) (@thick Child.Type, Trivial, @owned @callee_owned (Optional<@thick Parent.Type>, Optional) -> @thick Child.Type) -> @thick Parent.Type // CHECK: upcast %0 : $@thick Child.Type to $@thick Parent.Type // CHECK: enum $Optional<@thick Parent.Type> // CHECK: apply // CHECK: upcast {{.*}} : $@thick Child.Type to $@thick Parent.Type // CHECK: return // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T019function_conversion6ParentCXMTSgAA7TrivialVSgAA5ChildCXMTIxyyd_AIXMTSgAfDIxyyd_TR : $@convention(thin) (Optional<@thick Child.Type>, Trivial, @owned @callee_owned (Optional<@thick Parent.Type>, Optional) -> @thick Child.Type) -> Optional<@thick Parent.Type> // CHECK: unchecked_trivial_bit_cast %0 : $Optional<@thick Child.Type> to $Optional<@thick Parent.Type> // CHECK: apply // CHECK: upcast {{.*}} : $@thick Child.Type to $@thick Parent.Type // CHECK: enum $Optional<@thick Parent.Type> // CHECK: return // ==== Function to existential -- make sure we maximally abstract it // CHECK-LABEL: sil hidden @_T019function_conversion19convFuncExistentialyS2icypcF : $@convention(thin) (@owned @callee_owned (@in Any) -> @owned @callee_owned (Int) -> Int) -> () // CHECK: bb0([[ARG:%.*]] : // CHECK: [[BORROWED_ARG:%.*]] = begin_borrow [[ARG]] // CHECK: [[ARG_COPY:%.*]] = copy_value [[BORROWED_ARG]] // CHECK: [[REABSTRACT_THUNK:%.*]] = function_ref @_T0ypS2iIxyd_Ixio_S2iIxyd_ypIxxr_TR // CHECK: [[PA:%.*]] = partial_apply [[REABSTRACT_THUNK]]([[ARG_COPY]]) // CHECK: destroy_value [[PA]] // CHECK: end_borrow [[BORROWED_ARG]] from [[ARG]] // CHECK: destroy_value [[ARG]] // CHECK: } // end sil function '_T019function_conversion19convFuncExistentialyS2icypcF' func convFuncExistential(_ f1: @escaping (Any) -> (Int) -> Int) { let _: ((Int) -> Int) -> Any = f1 } // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T0ypS2iIxyd_Ixio_S2iIxyd_ypIxxr_TR : $@convention(thin) (@owned @callee_owned (Int) -> Int, @owned @callee_owned (@in Any) -> @owned @callee_owned (Int) -> Int) -> @out Any // CHECK: alloc_stack $Any // CHECK: function_ref @_T0S2iIxyd_S2iIxir_TR // CHECK-NEXT: partial_apply // CHECK-NEXT: init_existential_addr %3 : $*Any, $(Int) -> Int // CHECK-NEXT: store // CHECK-NEXT: apply // CHECK: function_ref @_T0S2iIxyd_S2iIxir_TR // CHECK-NEXT: partial_apply // CHECK-NEXT: init_existential_addr %0 : $*Any, $(Int) -> Int // CHECK-NEXT: store {{.*}} to {{.*}} : $*@callee_owned (@in Int) -> @out Int // CHECK: return // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T0S2iIxyd_S2iIxir_TR : $@convention(thin) (@in Int, @owned @callee_owned (Int) -> Int) -> @out Int // CHECK: load [trivial] %1 : $*Int // CHECK-NEXT: apply %2(%3) // CHECK-NEXT: store {{.*}} to [trivial] %0 // CHECK: return // ==== Class-bound archetype upcast // CHECK-LABEL: sil hidden @_T019function_conversion29convClassBoundArchetypeUpcast{{[_0-9a-zA-Z]*}}F func convClassBoundArchetypeUpcast(_ f1: @escaping (Parent) -> (T, Trivial)) { // CHECK: function_ref @_T019function_conversion6ParentCxAA7TrivialVIxxod_xAcESgIxxod_ACRbzlTR // CHECK: partial_apply let _: (T) -> (Parent, Trivial?) = f1 } // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T019function_conversion6ParentCxAA7TrivialVIxxod_xAcESgIxxod_ACRbzlTR : $@convention(thin) (@owned T, @owned @callee_owned (@owned Parent) -> (@owned T, Trivial)) -> (@owned Parent, Optional) // CHECK: bb0([[ARG:%.*]] : $T, [[CLOSURE:%.*]] : $@callee_owned (@owned Parent) -> (@owned T, Trivial)): // CHECK: [[CASTED_ARG:%.*]] = upcast [[ARG]] : $T to $Parent // CHECK: [[RESULT:%.*]] = apply [[CLOSURE]]([[CASTED_ARG]]) // CHECK: [[BORROWED_RESULT:%.*]] = begin_borrow [[RESULT]] : $(T, Trivial) // CHECK: [[FIRST_RESULT:%.*]] = tuple_extract [[BORROWED_RESULT]] : $(T, Trivial), 0 // CHECK: [[COPIED_FIRST_RESULT:%.*]] = copy_value [[FIRST_RESULT]] // CHECK: tuple_extract [[BORROWED_RESULT]] : $(T, Trivial), 1 // CHECK: end_borrow [[BORROWED_RESULT]] from [[RESULT]] // CHECK: destroy_value [[RESULT]] // CHECK: [[CAST_COPIED_FIRST_RESULT:%.*]] = upcast [[COPIED_FIRST_RESULT]] : $T to $Parent // CHECK: enum $Optional // CHECK: [[RESULT:%.*]] = tuple ([[CAST_COPIED_FIRST_RESULT]] : $Parent, {{.*}} : $Optional) // CHECK: return [[RESULT]] // CHECK-LABEL: sil hidden @_T019function_conversion37convClassBoundMetatypeArchetypeUpcast{{[_0-9a-zA-Z]*}}F func convClassBoundMetatypeArchetypeUpcast(_ f1: @escaping (Parent.Type) -> (T.Type, Trivial)) { // CHECK: function_ref @_T019function_conversion6ParentCXMTxXMTAA7TrivialVIxydd_xXMTACXMTAESgIxydd_ACRbzlTR // CHECK: partial_apply let _: (T.Type) -> (Parent.Type, Trivial?) = f1 } // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T019function_conversion6ParentCXMTxXMTAA7TrivialVIxydd_xXMTACXMTAESgIxydd_ACRbzlTR : $@convention(thin) (@thick T.Type, @owned @callee_owned (@thick Parent.Type) -> (@thick T.Type, Trivial)) -> (@thick Parent.Type, Optional) // CHECK: upcast %0 : $@thick T.Type to $@thick Parent.Type // CHECK-NEXT: apply // CHECK-NEXT: tuple_extract // CHECK-NEXT: tuple_extract // CHECK-NEXT: upcast {{.*}} : $@thick T.Type to $@thick Parent.Type // CHECK-NEXT: enum $Optional // CHECK-NEXT: tuple // CHECK-NEXT: return // ==== Make sure we destructure one-element tuples // CHECK-LABEL: sil hidden @_T019function_conversion15convTupleScalaryyAA1Q_pc_yAaC_pc2f2ySi_SitSgc2f3tF // CHECK: function_ref @_T019function_conversion1Q_pIxi_AA1P_pIxi_TR // CHECK: function_ref @_T019function_conversion1Q_pIxi_AA1P_pIxi_TR // CHECK: function_ref @_T0Si_SitSgIxy_S2iIxyy_TR // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T019function_conversion1Q_pIxi_AA1P_pIxi_TR : $@convention(thin) (@in P, @owned @callee_owned (@in Q) -> ()) -> () // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T0Si_SitSgIxy_S2iIxyy_TR : $@convention(thin) (Int, Int, @owned @callee_owned (Optional<(Int, Int)>) -> ()) -> () func convTupleScalar(_ f1: @escaping (Q) -> (), f2: @escaping (_ parent: Q) -> (), f3: @escaping (_ tuple: (Int, Int)?) -> ()) { let _: (P) -> () = f1 let _: (P) -> () = f2 let _: (Int, Int) -> () = f3 } func convTupleScalarOpaque(_ f: @escaping (T...) -> ()) -> ((_ args: T...) -> ())? { return f } // CHECK-LABEL: sil hidden @_T019function_conversion25convTupleToOptionalDirectSi_SitSgSicSi_SitSicF : $@convention(thin) (@owned @callee_owned (Int) -> (Int, Int)) -> @owned @callee_owned (Int) -> Optional<(Int, Int)> // CHECK: bb0([[ARG:%.*]] : $@callee_owned (Int) -> (Int, Int)): // CHECK: [[BORROWED_ARG:%.*]] = begin_borrow [[ARG]] // CHECK: [[FN:%.*]] = copy_value [[BORROWED_ARG]] // CHECK: [[THUNK_FN:%.*]] = function_ref @_T0S3iIxydd_S2i_SitSgIxyd_TR // CHECK-NEXT: [[THUNK:%.*]] = partial_apply [[THUNK_FN]]([[FN]]) // CHECK-NEXT: end_borrow [[BORROWED_ARG]] from [[ARG]] // CHECK-NEXT: destroy_value [[ARG]] // CHECK-NEXT: return [[THUNK]] // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T0S3iIxydd_S2i_SitSgIxyd_TR : $@convention(thin) (Int, @owned @callee_owned (Int) -> (Int, Int)) -> Optional<(Int, Int)> // CHECK: bb0(%0 : $Int, %1 : $@callee_owned (Int) -> (Int, Int)): // CHECK: [[RESULT:%.*]] = apply %1(%0) // CHECK-NEXT: [[LEFT:%.*]] = tuple_extract [[RESULT]] // CHECK-NEXT: [[RIGHT:%.*]] = tuple_extract [[RESULT]] // CHECK-NEXT: [[RESULT:%.*]] = tuple ([[LEFT]] : $Int, [[RIGHT]] : $Int) // CHECK-NEXT: [[OPTIONAL:%.*]] = enum $Optional<(Int, Int)>, #Optional.some!enumelt.1, [[RESULT]] // CHECK-NEXT: return [[OPTIONAL]] func convTupleToOptionalDirect(_ f: @escaping (Int) -> (Int, Int)) -> (Int) -> (Int, Int)? { return f } // CHECK-LABEL: sil hidden @_T019function_conversion27convTupleToOptionalIndirectx_xtSgxcx_xtxclF : $@convention(thin) (@owned @callee_owned (@in T) -> (@out T, @out T)) -> @owned @callee_owned (@in T) -> @out Optional<(T, T)> // CHECK: bb0([[ARG:%.*]] : $@callee_owned (@in T) -> (@out T, @out T)): // CHECK: [[BORROWED_ARG:%.*]] = begin_borrow [[ARG]] // CHECK: [[FN:%.*]] = copy_value [[BORROWED_ARG]] // CHECK: [[THUNK_FN:%.*]] = function_ref @_T0xxxIxirr_xx_xtSgIxir_lTR // CHECK-NEXT: [[THUNK:%.*]] = partial_apply [[THUNK_FN]]([[FN]]) // CHECK-NEXT: end_borrow [[BORROWED_ARG]] from [[ARG]] // CHECK-NEXT: destroy_value [[ARG]] // CHECK-NEXT: return [[THUNK]] // CHECK: sil shared [transparent] [serializable] [reabstraction_thunk] @_T0xxxIxirr_xx_xtSgIxir_lTR : $@convention(thin) (@in T, @owned @callee_owned (@in T) -> (@out T, @out T)) -> @out Optional<(T, T)> // CHECK: bb0(%0 : $*Optional<(T, T)>, %1 : $*T, %2 : $@callee_owned (@in T) -> (@out T, @out T)): // CHECK: [[OPTIONAL:%.*]] = init_enum_data_addr %0 : $*Optional<(T, T)>, #Optional.some!enumelt.1 // CHECK-NEXT: [[LEFT:%.*]] = tuple_element_addr %3 : $*(T, T), 0 // CHECK-NEXT: [[RIGHT:%.*]] = tuple_element_addr %3 : $*(T, T), 1 // CHECK-NEXT: apply %2([[LEFT]], [[RIGHT]], %1) // CHECK-NEXT: inject_enum_addr %0 : $*Optional<(T, T)>, #Optional.some!enumelt.1 // CHECK: return func convTupleToOptionalIndirect(_ f: @escaping (T) -> (T, T)) -> (T) -> (T, T)? { return f } // ==== Make sure we support AnyHashable erasure // CHECK-LABEL: sil hidden @_T019function_conversion15convAnyHashableyx1t_ts0E0RzlF // CHECK: function_ref @_T019function_conversion15convAnyHashableyx1t_ts0E0RzlFSbs0dE0V_AFtcfU_ // CHECK: function_ref @_T0s11AnyHashableVABSbIxiid_xxSbIxiid_s0B0RzlTR // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T0s11AnyHashableVABSbIxiid_xxSbIxiid_s0B0RzlTR : $@convention(thin) (@in T, @in T, @owned @callee_owned (@in AnyHashable, @in AnyHashable) -> Bool) -> Bool // CHECK: alloc_stack $AnyHashable // CHECK: function_ref @_swift_convertToAnyHashable // CHECK: apply {{.*}} // CHECK: alloc_stack $AnyHashable // CHECK: function_ref @_swift_convertToAnyHashable // CHECK: apply {{.*}} // CHECK: return func convAnyHashable(t: T) { let fn: (T, T) -> Bool = { (x: AnyHashable, y: AnyHashable) in x == y } } // ==== Convert exploded tuples to Any or Optional // CHECK-LABEL: sil hidden @_T019function_conversion12convTupleAnyyyyc_Si_SitycyypcyypSgctF // CHECK: function_ref @_T0Ix_ypIxr_TR // CHECK: partial_apply // CHECK: function_ref @_T0Ix_ypSgIxr_TR // CHECK: partial_apply // CHECK: function_ref @_T0S2iIxdd_ypIxr_TR // CHECK: partial_apply // CHECK: function_ref @_T0S2iIxdd_ypSgIxr_TR // CHECK: partial_apply // CHECK: function_ref @_T0ypIxi_S2iIxyy_TR // CHECK: partial_apply // CHECK: function_ref @_T0ypSgIxi_S2iIxyy_TR // CHECK: partial_apply func convTupleAny(_ f1: @escaping () -> (), _ f2: @escaping () -> (Int, Int), _ f3: @escaping (Any) -> (), _ f4: @escaping (Any?) -> ()) { let _: () -> Any = f1 let _: () -> Any? = f1 let _: () -> Any = f2 let _: () -> Any? = f2 let _: ((Int, Int)) -> () = f3 let _: ((Int, Int)) -> () = f4 } // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T0Ix_ypIxr_TR : $@convention(thin) (@owned @callee_owned () -> ()) -> @out Any // CHECK: init_existential_addr %0 : $*Any, $() // CHECK-NEXT: apply %1() // CHECK-NEXT: tuple () // CHECK-NEXT: return // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T0Ix_ypSgIxr_TR : $@convention(thin) (@owned @callee_owned () -> ()) -> @out Optional // CHECK: [[ENUM_PAYLOAD:%.*]] = init_enum_data_addr %0 : $*Optional, #Optional.some!enumelt.1 // CHECK-NEXT: init_existential_addr [[ENUM_PAYLOAD]] : $*Any, $() // CHECK-NEXT: apply %1() // CHECK-NEXT: inject_enum_addr %0 : $*Optional, #Optional.some!enumelt.1 // CHECK-NEXT: tuple () // CHECK-NEXT: return // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T0S2iIxdd_ypIxr_TR : $@convention(thin) (@owned @callee_owned () -> (Int, Int)) -> @out Any // CHECK: [[ANY_PAYLOAD:%.*]] = init_existential_addr %0 // CHECK-NEXT: [[LEFT_ADDR:%.*]] = tuple_element_addr [[ANY_PAYLOAD]] // CHECK-NEXT: [[RIGHT_ADDR:%.*]] = tuple_element_addr [[ANY_PAYLOAD]] // CHECK-NEXT: [[RESULT:%.*]] = apply %1() // CHECK-NEXT: [[LEFT:%.*]] = tuple_extract [[RESULT]] // CHECK-NEXT: [[RIGHT:%.*]] = tuple_extract [[RESULT]] // CHECK-NEXT: store [[LEFT:%.*]] to [trivial] [[LEFT_ADDR]] // CHECK-NEXT: store [[RIGHT:%.*]] to [trivial] [[RIGHT_ADDR]] // CHECK-NEXT: tuple () // CHECK-NEXT: return // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T0S2iIxdd_ypSgIxr_TR : $@convention(thin) (@owned @callee_owned () -> (Int, Int)) -> @out Optional { // CHECK: [[OPTIONAL_PAYLOAD:%.*]] = init_enum_data_addr %0 // CHECK-NEXT: [[ANY_PAYLOAD:%.*]] = init_existential_addr [[OPTIONAL_PAYLOAD]] // CHECK-NEXT: [[LEFT_ADDR:%.*]] = tuple_element_addr [[ANY_PAYLOAD]] // CHECK-NEXT: [[RIGHT_ADDR:%.*]] = tuple_element_addr [[ANY_PAYLOAD]] // CHECK-NEXT: [[RESULT:%.*]] = apply %1() // CHECK-NEXT: [[LEFT:%.*]] = tuple_extract [[RESULT]] // CHECK-NEXT: [[RIGHT:%.*]] = tuple_extract [[RESULT]] // CHECK-NEXT: store [[LEFT:%.*]] to [trivial] [[LEFT_ADDR]] // CHECK-NEXT: store [[RIGHT:%.*]] to [trivial] [[RIGHT_ADDR]] // CHECK-NEXT: inject_enum_addr %0 // CHECK-NEXT: tuple () // CHECK-NEXT: return // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T0ypIxi_S2iIxyy_TR : $@convention(thin) (Int, Int, @owned @callee_owned (@in Any) -> ()) -> () // CHECK: [[ANY_VALUE:%.*]] = alloc_stack $Any // CHECK-NEXT: [[ANY_PAYLOAD:%.*]] = init_existential_addr [[ANY_VALUE]] // CHECK-NEXT: [[LEFT_ADDR:%.*]] = tuple_element_addr [[ANY_PAYLOAD]] // CHECK-NEXT: store %0 to [trivial] [[LEFT_ADDR]] // CHECK-NEXT: [[RIGHT_ADDR:%.*]] = tuple_element_addr [[ANY_PAYLOAD]] // CHECK-NEXT: store %1 to [trivial] [[RIGHT_ADDR]] // CHECK-NEXT: apply %2([[ANY_VALUE]]) // CHECK-NEXT: tuple () // CHECK-NEXT: dealloc_stack [[ANY_VALUE]] // CHECK-NEXT: return // CHECK-LABEL: sil shared [transparent] [serializable] [reabstraction_thunk] @_T0ypSgIxi_S2iIxyy_TR : $@convention(thin) (Int, Int, @owned @callee_owned (@in Optional) -> ()) -> () // CHECK: [[ANY_VALUE:%.*]] = alloc_stack $Any // CHECK-NEXT: [[ANY_PAYLOAD:%.*]] = init_existential_addr [[ANY_VALUE]] // CHECK-NEXT: [[LEFT_ADDR:%.*]] = tuple_element_addr [[ANY_PAYLOAD]] // CHECK-NEXT: store %0 to [trivial] [[LEFT_ADDR]] // CHECK-NEXT: [[RIGHT_ADDR:%.*]] = tuple_element_addr [[ANY_PAYLOAD]] // CHECK-NEXT: store %1 to [trivial] [[RIGHT_ADDR]] // CHECK-NEXT: [[OPTIONAL_VALUE:%.*]] = alloc_stack $Optional // CHECK-NEXT: [[OPTIONAL_PAYLOAD:%.*]] = init_enum_data_addr [[OPTIONAL_VALUE]] // CHECK-NEXT: copy_addr [take] [[ANY_VALUE]] to [initialization] [[OPTIONAL_PAYLOAD]] // CHECK-NEXT: inject_enum_addr [[OPTIONAL_VALUE]] // CHECK-NEXT: apply %2([[OPTIONAL_VALUE]]) // CHECK-NEXT: tuple () // CHECK-NEXT: dealloc_stack [[OPTIONAL_VALUE]] // CHECK-NEXT: dealloc_stack [[ANY_VALUE]] // CHECK-NEXT: return