test/SIL/Parser/generics.sil - third_party/swift - Git at Google

 // RUN: %target-swift-frontend %s -emit-silgen | %FileCheck %s

 sil_stage raw
 import Builtin

 // CHECK-LABEL: sil [ossa] @foo : $@convention(thin) <T> (@in T) -> @out T {
 // CHECK: bb0(%0 : $*T, %1 : $*T):
 // CHECK:   copy_addr [take] %1 to [initialization] %0 : $*T
 // CHECK:   return undef : $()
 // CHECK: }
 sil [ossa] @foo : $@convention(thin) <T> (@in T) -> @out T {
 entry(%o : $*T, %i : $*T):
   copy_addr [take] %i to [initialization] %o : $*T
   return undef : $()
 }

 struct Bar {}
 struct Bas {}

 // CHECK-LABEL: sil [ossa] @ref_foo_1 : $@convention(thin) () -> () {
 // CHECK:   %2 = function_ref @foo : $@convention(thin) <τ_0_0> (@in τ_0_0) -> @out τ_0_0
 // CHECK:   %3 = apply %2<Bar>(%1, %0) : $@convention(thin) <τ_0_0> (@in τ_0_0) -> @out τ_0_0
 sil [ossa] @ref_foo_1 : $@convention(thin) () -> () {
 entry:
   %i = alloc_stack $Bar
   %o = alloc_stack $Bar
   %f = function_ref @foo : $@convention(thin) <XYZ> (@in XYZ) -> @out XYZ
   %z = apply %f<Bar>(%o, %i) : $@convention(thin) <ZYX> (@in ZYX) -> @out ZYX
   dealloc_stack %o : $*Bar
   dealloc_stack %i : $*Bar
   return %z : $()
 }

 // CHECK-LABEL: sil [ossa] @ref_foo_2 : $@convention(thin) () -> () {
 // CHECK:  %2 = function_ref @foo : $@convention(thin) <τ_0_0> (@in τ_0_0) -> @out τ_0_0
 // CHECK:  %3 = apply %2<Bas>(%1, %0) : $@convention(thin) <τ_0_0> (@in τ_0_0) -> @out τ_0_0
 sil [ossa] @ref_foo_2 : $@convention(thin) () -> () {
 entry:
   %i = alloc_stack $Bas
   %o = alloc_stack $Bas
   %f = function_ref @foo : $@convention(thin) <ABC> (@in ABC) -> @out ABC
   %z = apply %f<Bas>(%o, %i) : $@convention(thin) <CBA> (@in CBA) -> @out CBA
   dealloc_stack %o : $*Bas
   dealloc_stack %i : $*Bas
   return %z : $()
 }

 // CHECK-LABEL: sil [ossa] @ref_foo_partial_apply : $@convention(thin) () -> @owned @callee_owned () -> @out Bas {
 // CHECK:  %1 = function_ref @foo : $@convention(thin) <τ_0_0> (@in τ_0_0) -> @out τ_0_0
 // CHECK:  %2 = partial_apply %1<Bas>(%0) : $@convention(thin) <τ_0_0> (@in τ_0_0) -> @out τ_0_0
 // CHECK:  return %2 : $@callee_owned () -> @out Bas
 sil [ossa] @ref_foo_partial_apply : $@convention(thin) () -> @owned @callee_owned () -> @out Bas {
 entry:
   %i = alloc_stack $Bas
   %f = function_ref @foo : $@convention(thin) <Z> (@in Z) -> @out Z
   %g = partial_apply %f<Bas>(%i) : $@convention(thin) <Y> (@in Y) -> @out Y
   dealloc_stack %i : $*Bas
   return %g : $@callee_owned () -> @out Bas
 }

 sil_global @zero: $Builtin.Int64
 sil_global @f: $@callee_owned (Builtin.Int32) -> ()

 // CHECK-LABEL: sil [ossa] @test_apply
 sil [ossa] @test_apply : $@convention(thin) () -> () {
 bb0:
   %0 = global_addr @zero : $*Builtin.Int64
   %1 = mark_uninitialized [var] %0 : $*Builtin.Int64
   %2 = global_addr @f : $*@callee_owned (Builtin.Int32) -> ()
   %3 = function_ref @_TF16generic_closures24generic_curried_functionU___FT1xQ__FT1yQ0__T_ : $@convention(thin) <τ_0_0, τ_0_1> (@in τ_0_0) -> @owned @callee_owned (@in τ_0_1) -> ()
   %4 = load [trivial] %1 : $*Builtin.Int64
   %5 = alloc_stack $Builtin.Int64
   store %4 to [trivial] %5 : $*Builtin.Int64
   // CHECK: apply %{{[0-9]+}}<{{.*}}Int64, {{.*}}Int32>(%{{.*}}) : $@convention(thin) <τ_0_0, τ_0_1> (@in τ_0_0) -> @owned @callee_owned (@in τ_0_1) -> ()
   %7 = apply %3<Builtin.Int64, Builtin.Int32>(%5) : $@convention(thin) <τ_0_0, τ_0_1> (@in τ_0_0) -> @owned @callee_owned (@in τ_0_1) -> ()
   %8 = function_ref @_TTRXFo_iBi32__dT__XFo_dBi32__dT__ : $@convention(thin) (Builtin.Int32, @owned @callee_owned (@in Builtin.Int32) -> ()) -> ()
   // CHECK: partial_apply %{{[0-9]+}}(%{{[0-9]+}}) : $@convention(thin) (Builtin.Int32, @owned @callee_owned (@in Builtin.Int32) -> ()) -> ()
   %9 = partial_apply %8(%7) : $@convention(thin) (Builtin.Int32, @owned @callee_owned (@in Builtin.Int32) -> ()) -> ()
   store %9 to [init] %2 : $*@callee_owned (Builtin.Int32) -> ()
   dealloc_stack %5 : $*Builtin.Int64
   %12 = tuple ()
   return %12 : $()
 }

 // generic_closures.generic_curried_function <A, B>(x : A) -> (y : B) -> ()
 sil @_TF16generic_closures24generic_curried_functionU___FT1xQ__FT1yQ0__T_ : $@convention(thin) <τ_0_0, τ_0_1> (@in τ_0_0) -> @owned @callee_owned (@in τ_0_1) -> ()

 // reabstraction thunk helper from @callee_owned (@in Builtin.Int32) -> (@unowned ()) to @callee_owned (@unowned Builtin.Int32) -> (@unowned ())
 sil [transparent] @_TTRXFo_iBi32__dT__XFo_dBi32__dT__ : $@convention(thin) (Builtin.Int32, @owned @callee_owned (@in Builtin.Int32) -> ()) -> ()


 protocol FooProtoHelper {}
 protocol FooProto {
   associatedtype Assoc : FooProtoHelper
   var value: Assoc { get }
 }

 // These generic parameters used to crash the compiler.
 sil [ossa] @protocol_extension_with_constrained_associated_type : $@convention(method) <Self where Self : FooProto, Self.Assoc : FooProtoHelper><I where I : FooProto, I.Assoc == Self.Assoc> (@in I, @in_guaranteed Self) -> () {
 bb0(%0 : $*I, %1 : $*Self):
   %2 = alloc_stack $I                             // users: %3, %6, %7, %9
   copy_addr %0 to [initialization] %2 : $*I     // id: %3
   %4 = witness_method $I, #FooProto.value!getter.1 : $@convention(witness_method: FooProto) <τ_0_0 where τ_0_0 : FooProto, τ_0_0.Assoc : FooProtoHelper> (@in_guaranteed τ_0_0) -> @out τ_0_0.Assoc // user: %6
   %5 = alloc_stack $Self.Assoc                    // users: %6, %8
   %6 = apply %4<I>(%5, %2) : $@convention(witness_method: FooProto) <τ_0_0 where τ_0_0 : FooProto, τ_0_0.Assoc : FooProtoHelper> (@in_guaranteed τ_0_0) -> @out τ_0_0.Assoc
   destroy_addr %2 : $*I                         // id: %7
   dealloc_stack %5 : $*Self.Assoc // id: %8
   dealloc_stack %2 : $*I         // id: %9
   destroy_addr %0 : $*I                           // id: %10
   %11 = tuple ()                                  // user: %12
   return %11 : $()                                // id: %12
 }
	// RUN: %target-swift-frontend %s -emit-silgen \| %FileCheck %s

	sil_stage raw
	import Builtin

	// CHECK-LABEL: sil [ossa] @foo : $@convention(thin) <T> (@in T) -> @out T {
	// CHECK: bb0(%0 : $T, %1 : $T):
	// CHECK: copy_addr [take] %1 to [initialization] %0 : $*T
	// CHECK: return undef : $()
	// CHECK: }
	sil [ossa] @foo : $@convention(thin) <T> (@in T) -> @out T {
	entry(%o : $T, %i : $T):
	copy_addr [take] %i to [initialization] %o : $*T
	return undef : $()
	}

	struct Bar {}
	struct Bas {}

	// CHECK-LABEL: sil [ossa] @ref_foo_1 : $@convention(thin) () -> () {
	// CHECK: %2 = function_ref @foo : $@convention(thin) <τ_0_0> (@in τ_0_0) -> @out τ_0_0
	// CHECK: %3 = apply %2<Bar>(%1, %0) : $@convention(thin) <τ_0_0> (@in τ_0_0) -> @out τ_0_0
	sil [ossa] @ref_foo_1 : $@convention(thin) () -> () {
	entry:
	%i = alloc_stack $Bar
	%o = alloc_stack $Bar
	%f = function_ref @foo : $@convention(thin) <XYZ> (@in XYZ) -> @out XYZ
	%z = apply %f<Bar>(%o, %i) : $@convention(thin) <ZYX> (@in ZYX) -> @out ZYX
	dealloc_stack %o : $*Bar
	dealloc_stack %i : $*Bar
	return %z : $()
	}

	// CHECK-LABEL: sil [ossa] @ref_foo_2 : $@convention(thin) () -> () {
	// CHECK: %2 = function_ref @foo : $@convention(thin) <τ_0_0> (@in τ_0_0) -> @out τ_0_0
	// CHECK: %3 = apply %2<Bas>(%1, %0) : $@convention(thin) <τ_0_0> (@in τ_0_0) -> @out τ_0_0
	sil [ossa] @ref_foo_2 : $@convention(thin) () -> () {
	entry:
	%i = alloc_stack $Bas
	%o = alloc_stack $Bas
	%f = function_ref @foo : $@convention(thin) <ABC> (@in ABC) -> @out ABC
	%z = apply %f<Bas>(%o, %i) : $@convention(thin) <CBA> (@in CBA) -> @out CBA
	dealloc_stack %o : $*Bas
	dealloc_stack %i : $*Bas
	return %z : $()
	}

	// CHECK-LABEL: sil [ossa] @ref_foo_partial_apply : $@convention(thin) () -> @owned @callee_owned () -> @out Bas {
	// CHECK: %1 = function_ref @foo : $@convention(thin) <τ_0_0> (@in τ_0_0) -> @out τ_0_0
	// CHECK: %2 = partial_apply %1<Bas>(%0) : $@convention(thin) <τ_0_0> (@in τ_0_0) -> @out τ_0_0
	// CHECK: return %2 : $@callee_owned () -> @out Bas
	sil [ossa] @ref_foo_partial_apply : $@convention(thin) () -> @owned @callee_owned () -> @out Bas {
	entry:
	%i = alloc_stack $Bas
	%f = function_ref @foo : $@convention(thin) <Z> (@in Z) -> @out Z
	%g = partial_apply %f<Bas>(%i) : $@convention(thin) <Y> (@in Y) -> @out Y
	dealloc_stack %i : $*Bas
	return %g : $@callee_owned () -> @out Bas
	}

	sil_global @zero: $Builtin.Int64
	sil_global @f: $@callee_owned (Builtin.Int32) -> ()

	// CHECK-LABEL: sil [ossa] @test_apply
	sil [ossa] @test_apply : $@convention(thin) () -> () {
	bb0:
	%0 = global_addr @zero : $*Builtin.Int64
	%1 = mark_uninitialized [var] %0 : $*Builtin.Int64
	%2 = global_addr @f : $*@callee_owned (Builtin.Int32) -> ()
	%3 = function_ref @_TF16generic_closures24generic_curried_functionU___FT1xQ__FT1yQ0__T_ : $@convention(thin) <τ_0_0, τ_0_1> (@in τ_0_0) -> @owned @callee_owned (@in τ_0_1) -> ()
	%4 = load [trivial] %1 : $*Builtin.Int64
	%5 = alloc_stack $Builtin.Int64
	store %4 to [trivial] %5 : $*Builtin.Int64
	// CHECK: apply %{{[0-9]+}}<{{.}}Int64, {{.}}Int32>(%{{.*}}) : $@convention(thin) <τ_0_0, τ_0_1> (@in τ_0_0) -> @owned @callee_owned (@in τ_0_1) -> ()
	%7 = apply %3<Builtin.Int64, Builtin.Int32>(%5) : $@convention(thin) <τ_0_0, τ_0_1> (@in τ_0_0) -> @owned @callee_owned (@in τ_0_1) -> ()
	%8 = function_ref @_TTRXFo_iBi32__dT__XFo_dBi32__dT__ : $@convention(thin) (Builtin.Int32, @owned @callee_owned (@in Builtin.Int32) -> ()) -> ()
	// CHECK: partial_apply %{{[0-9]+}}(%{{[0-9]+}}) : $@convention(thin) (Builtin.Int32, @owned @callee_owned (@in Builtin.Int32) -> ()) -> ()
	%9 = partial_apply %8(%7) : $@convention(thin) (Builtin.Int32, @owned @callee_owned (@in Builtin.Int32) -> ()) -> ()
	store %9 to [init] %2 : $*@callee_owned (Builtin.Int32) -> ()
	dealloc_stack %5 : $*Builtin.Int64
	%12 = tuple ()
	return %12 : $()
	}

	// generic_closures.generic_curried_function <A, B>(x : A) -> (y : B) -> ()
	sil @_TF16generic_closures24generic_curried_functionU___FT1xQ__FT1yQ0__T_ : $@convention(thin) <τ_0_0, τ_0_1> (@in τ_0_0) -> @owned @callee_owned (@in τ_0_1) -> ()

	// reabstraction thunk helper from @callee_owned (@in Builtin.Int32) -> (@unowned ()) to @callee_owned (@unowned Builtin.Int32) -> (@unowned ())
	sil [transparent] @_TTRXFo_iBi32__dT__XFo_dBi32__dT__ : $@convention(thin) (Builtin.Int32, @owned @callee_owned (@in Builtin.Int32) -> ()) -> ()


	protocol FooProtoHelper {}
	protocol FooProto {
	associatedtype Assoc : FooProtoHelper
	var value: Assoc { get }
	}

	// These generic parameters used to crash the compiler.
	sil [ossa] @protocol_extension_with_constrained_associated_type : $@convention(method) <Self where Self : FooProto, Self.Assoc : FooProtoHelper><I where I : FooProto, I.Assoc == Self.Assoc> (@in I, @in_guaranteed Self) -> () {
	bb0(%0 : $I, %1 : $Self):
	%2 = alloc_stack $I // users: %3, %6, %7, %9
	copy_addr %0 to [initialization] %2 : $*I // id: %3
	%4 = witness_method $I, #FooProto.value!getter.1 : $@convention(witness_method: FooProto) <τ_0_0 where τ_0_0 : FooProto, τ_0_0.Assoc : FooProtoHelper> (@in_guaranteed τ_0_0) -> @out τ_0_0.Assoc // user: %6
	%5 = alloc_stack $Self.Assoc // users: %6, %8
	%6 = apply %4<I>(%5, %2) : $@convention(witness_method: FooProto) <τ_0_0 where τ_0_0 : FooProto, τ_0_0.Assoc : FooProtoHelper> (@in_guaranteed τ_0_0) -> @out τ_0_0.Assoc
	destroy_addr %2 : $*I // id: %7
	dealloc_stack %5 : $*Self.Assoc // id: %8
	dealloc_stack %2 : $*I // id: %9
	destroy_addr %0 : $*I // id: %10
	%11 = tuple () // user: %12
	return %11 : $() // id: %12
	}