test/SILOptimizer/definite_init_markuninitialized_var.sil

// RUN: %target-sil-opt -enable-sil-verify-all %s -definite-init -verify | %FileCheck %s

// This file contains tests that test diagnostics emitted for var initialization
// by DI.

sil_stage raw

import Builtin
import Swift

sil @takes_Int_inout : $@convention(thin) (@inout Int) -> ()
sil @makesInt : $@convention(thin) () -> Int

// CHECK-LABEL: sil [ossa] @use_before_init
sil [ossa] @use_before_init : $@convention(thin) () -> Int {
bb0:
  %0 = alloc_box $<τ_0_0> { var τ_0_0 } <Int>
  %0a = project_box %0 : $<τ_0_0> { var τ_0_0 } <Int>, 0
  %1 = mark_uninitialized [var] %0a : $*Int // expected-note {{variable defined here}}
  %4 = load [trivial] %1 : $*Int                // expected-error {{variable '<unknown>' used before being initialized}}
  destroy_value %0 : $<τ_0_0> { var τ_0_0 } <Int>
  return %4 : $Int
}

// CHECK-LABEL: @inout_uninit
sil [ossa] @inout_uninit : $@convention(thin) () -> () {
bb0:
  %0 = alloc_box $<τ_0_0> { var τ_0_0 } <Int>
  %0a = project_box %0 : $<τ_0_0> { var τ_0_0 } <Int>, 0
  %1 = mark_uninitialized [var] %0a : $*Int // expected-note {{variable defined here}}

  %5 = function_ref @takes_Int_inout : $@convention(thin) (@inout Int) -> ()
  %6 = apply %5(%1) : $@convention(thin) (@inout Int) -> () // expected-error {{variable '<unknown>' passed by reference before being initialized}}

  destroy_value %0 : $<τ_0_0> { var τ_0_0 } <Int>
  %t = tuple ()
  return %t : $()
}

// This function shouldn't produce any diagnostics.
//
// func used_by_inout(a : Int) -> (Int, Int) {
//  var t = a
//  takes_Int_inout(&a)
//  return (t, a)
//}
// CHECK-LABEL: sil [ossa] @used_by_inout
sil [ossa] @used_by_inout : $@convention(thin) (Int) -> (Int, Int) {
bb0(%0 : $Int):
  %91 = alloc_box $<τ_0_0> { var τ_0_0 } <Int>
  %91a = project_box %91 : $<τ_0_0> { var τ_0_0 } <Int>, 0
  %1 = mark_uninitialized [var] %91a : $*Int
  store %0 to [trivial] %1 : $*Int

  %3 = load [trivial] %1 : $*Int
  %5 = function_ref @takes_Int_inout : $@convention(thin) (@inout Int) -> ()
  %6 = apply %5(%1) : $@convention(thin) (@inout Int) -> ()
  %7 = load [trivial] %1 : $*Int
  %8 = tuple (%3 : $Int, %7 : $Int)
  destroy_value %91 : $<τ_0_0> { var τ_0_0 } <Int>
  return %8 : $(Int, Int)
}

struct AddressOnlyStruct {
  var a : Any
  var b : Int
}

/// returns_generic_struct - This returns a struct by reference.
sil [ossa] @returns_generic_struct : $@convention(thin) () -> @out AddressOnlyStruct

// There should be no error in this function.
// CHECK-LABEL: sil [ossa] @call_struct_return_function
sil [ossa] @call_struct_return_function : $@convention(thin) () -> Int {
bb0:
  %0 = alloc_box $<τ_0_0> { var τ_0_0 } <AddressOnlyStruct>
  %0a = project_box %0 : $<τ_0_0> { var τ_0_0 } <AddressOnlyStruct>, 0
  %1 = mark_uninitialized [var] %0a : $*AddressOnlyStruct

  %2 = function_ref @returns_generic_struct : $@convention(thin) () -> @out AddressOnlyStruct
  %3 = apply %2(%1) : $@convention(thin) () -> @out AddressOnlyStruct
  %4 = struct_element_addr %1 : $*AddressOnlyStruct, #AddressOnlyStruct.b
  %5 = load [trivial] %4 : $*Int
  destroy_value %0 : $<τ_0_0> { var τ_0_0 } <AddressOnlyStruct>
  return %5 : $Int
}

// CHECK-LABEL: sil [ossa] @tuple_elements1
sil [ossa] @tuple_elements1 : $@convention(thin) (Int) -> () {
bb0(%0 : $Int):
  %2 = alloc_box $<τ_0_0> { var τ_0_0 } <(Int, Int)>
  %2a = project_box %2 : $<τ_0_0> { var τ_0_0 } <(Int, Int)>, 0
  %3 = mark_uninitialized [var] %2a : $*(Int, Int) // expected-note {{variable defined here}}
  %4 = tuple_element_addr %3 : $*(Int, Int), 0
  %5 = tuple_element_addr %3 : $*(Int, Int), 1
  %14 = function_ref @takes_Int_inout : $@convention(thin) (@inout Int) -> ()
  %15 = tuple_element_addr %3 : $*(Int, Int), 1
  %16 = apply %14(%15) : $@convention(thin) (@inout Int) -> ()  // expected-error {{variable '<unknown>.1' passed by reference before being initialized}}

  destroy_value %2 : $<τ_0_0> { var τ_0_0 } <(Int, Int)>
  %99 = tuple ()
  return %99 : $()
}

// CHECK-LABEL: sil [ossa] @tuple_elements2
sil [ossa] @tuple_elements2 : $@convention(thin) (Int) -> (Int, Int) {
bb0(%0 : $Int):
  %2 = alloc_box $<τ_0_0> { var τ_0_0 } <(Int, Int)>
  %2a = project_box %2 : $<τ_0_0> { var τ_0_0 } <(Int, Int)>, 0
  %3 = mark_uninitialized [var] %2a : $*(Int, Int) // expected-note {{variable defined here}}
  %18 = tuple_element_addr %3 : $*(Int, Int), 0
  store %0 to [trivial] %18 : $*Int
  %20 = load [trivial] %3 : $*(Int, Int) // expected-error {{variable '<unknown>.1' used before being initialized}}
  %21 = tuple_extract %20 : $(Int, Int), 0
  %22 = tuple_extract %20 : $(Int, Int), 1
  %23 = tuple (%21 : $Int, %22 : $Int)
  destroy_value %2 : $<τ_0_0> { var τ_0_0 } <(Int, Int)>
  return %23 : $(Int, Int)
}

// CHECK-LABEL: sil [ossa] @copy_addr1
sil [ossa] @copy_addr1 : $@convention(thin) <T> (@in T) -> @out T {
bb0(%0 : $*T, %1 : $*T):
  %3 = alloc_box $<τ_0_0> { var τ_0_0 } <T>
  %3a = project_box %3 : $<τ_0_0> { var τ_0_0 } <T>, 0
  %4 = mark_uninitialized [var] %3a : $*T
  copy_addr [take] %1 to [initialization] %4 : $*T
  copy_addr %4 to [initialization] %0 : $*T
  destroy_value %3 : $<τ_0_0> { var τ_0_0 } <T>
  %9 = tuple ()
  return %9 : $()
}

// CHECK-LABEL: sil [ossa] @copy_addr2
sil [ossa] @copy_addr2 : $@convention(thin) <T> (@in T) -> @out T {
bb0(%0 : $*T, %1 : $*T):
  %3 = alloc_box $<τ_0_0> { var τ_0_0 } <T>
  %3a = project_box %3 : $<τ_0_0> { var τ_0_0 } <T>, 0
  %4 = mark_uninitialized [var] %3a : $*T // expected-note {{variable defined here}}
  copy_addr %4 to [initialization] %0 : $*T   // expected-error {{variable '<unknown>' used before being initialized}}
  destroy_value %3 : $<τ_0_0> { var τ_0_0 } <T>
  %9 = tuple ()
  return %9 : $()
}

sil [ossa] @takes_closure : $@convention(thin) (@owned @callee_owned () -> ()) -> ()
sil [ossa] @closure0 : $@convention(thin) (@owned <τ_0_0> { var τ_0_0 } <Int>) -> ()

// CHECK-LABEL: sil [ossa] @closure_test
sil [ossa] @closure_test : $@convention(thin) () -> () {
bb0:
  %1 = alloc_box $<τ_0_0> { var τ_0_0 } <Int>
  %1a = project_box %1 : $<τ_0_0> { var τ_0_0 } <Int>, 0
  %0 = mark_uninitialized [var] %1a : $*Int // expected-note {{variable defined here}}

  %5 = function_ref @takes_closure : $@convention(thin) (@owned @callee_owned () -> ()) -> ()
  %6 = function_ref @closure0 : $@convention(thin) (@owned <τ_0_0> { var τ_0_0 } <Int>) -> ()
  %1copy = copy_value %1 : $<τ_0_0> { var τ_0_0 } <Int>
  mark_function_escape %0 : $*Int // expected-error {{variable '<unknown>' used by function definition before being initialized}}
  %8 = partial_apply %6(%1copy) : $@convention(thin) (@owned <τ_0_0> { var τ_0_0 } <Int>) -> ()
  %9 = apply %5(%8) : $@convention(thin) (@owned @callee_owned () -> ()) -> ()
  destroy_value %1 : $<τ_0_0> { var τ_0_0 } <Int>

  %11 = tuple ()
  return %11 : $()
}


class SomeClass {}

sil [ossa] @getSomeClass : $@convention(thin) () -> @owned SomeClass
sil [ossa] @getSomeOptionalClass : $@convention(thin) () -> @owned Optional<SomeClass>


// CHECK-LABEL: sil [ossa] @assign_test_trivial
sil [ossa] @assign_test_trivial : $@convention(thin) (Int) -> Int {
bb0(%0 : $Int):
  %7 = alloc_box $<τ_0_0> { var τ_0_0 } <Int>
  %7a = project_box %7 : $<τ_0_0> { var τ_0_0 } <Int>, 0
  %1 = mark_uninitialized [var] %7a : $*Int

  // These assigns are a mix of init + store forms, but because Int is trivial,
  // they all turn into stores.
  assign %0 to %1 : $*Int
  assign %0 to %1 : $*Int
  assign %0 to %1 : $*Int

  %2 = load [trivial] %1 : $*Int
  destroy_value %7 : $<τ_0_0> { var τ_0_0 } <Int>

  return %2 : $Int
}

// CHECK-LABEL: sil [ossa] @assign_test_nontrivial
sil [ossa] @assign_test_nontrivial : $@convention(thin) () -> () {
bb0:
  // Assignments of nontrivial types.  The first becomes an initialize (i.e.,
  // lone store), the second becomes a reassignment (retain/release dance).

  %b = alloc_box $<τ_0_0> { var τ_0_0 } <SomeClass>
  %ba = project_box %b : $<τ_0_0> { var τ_0_0 } <SomeClass>, 0
  %c = mark_uninitialized [var] %ba : $*SomeClass

  %f = function_ref @getSomeClass : $@convention(thin) () -> @owned SomeClass

  %4 = apply %f() : $@convention(thin) () -> @owned SomeClass
  // CHECK: [[C1:%[0-9]+]] = apply

  assign %4 to %c : $*SomeClass
  // CHECK-NEXT: assign [[C1]] to [init]

  %8 = apply %f() : $@convention(thin) () -> @owned SomeClass
  // CHECK-NEXT: [[C2:%[0-9]+]] = apply

  assign %8 to %c : $*SomeClass
  // CHECK-NEXT: assign [[C2]] to [reassign]

  destroy_addr %c : $*SomeClass
  // CHECK-NEXT: destroy_addr
  dealloc_box %b : $<τ_0_0> { var τ_0_0 } <SomeClass>

  %11 = tuple ()
  return %11 : $()
}

// CHECK-LABEL: sil [ossa] @assign_test_addressonly
sil [ossa] @assign_test_addressonly : $@convention(thin) <T> (@in T) -> @out T {
bb0(%0 : $*T, %1 : $*T):
  %b = alloc_box $<τ_0_0> { var τ_0_0 } <T>
  %ba = project_box %b : $<τ_0_0> { var τ_0_0 } <T>, 0
  %2 = mark_uninitialized [var] %ba : $*T

  // CHECK: [[PB:%[0-9]+]] = project_box

  // This should become an initialization of %4
  copy_addr %1 to %2 : $*T
  // CHECK-NEXT: copy_addr %1 to [initialization] [[PB]] : $*T

  // This should stay an assignment of %4
  copy_addr [take] %1 to %2 : $*T
  // CHECK-NEXT: copy_addr [take] %1 to [[PB]] : $*T

  // This is a load, and shouldn't be changed.
  copy_addr %2 to [initialization] %0 : $*T
  // CHECK-NEXT: copy_addr [[PB]] to [initialization] %0 : $*T

  destroy_value %b : $<τ_0_0> { var τ_0_0 } <T>
  // CHECK-NEXT: destroy_value %2
  %9 = tuple ()
  return %9 : $()
}

// CHECK-LABEL: sil [ossa] @assign_test_weak
sil [ossa] @assign_test_weak : $@convention(thin) () -> () {
bb0:
  // Assignments of weak pointer.  The first becomes an initialize, and the
  // second becomes an assignment.

  %b = alloc_box $<τ_0_0> { var τ_0_0 } <@sil_weak Optional<SomeClass>>
  %ba = project_box %b : $<τ_0_0> { var τ_0_0 } <@sil_weak Optional<SomeClass>>, 0
  %c = mark_uninitialized [var] %ba : $*@sil_weak Optional<SomeClass>

  %f = function_ref @getSomeOptionalClass : $@convention(thin) () -> @owned Optional<SomeClass>

  %4 = apply %f() : $@convention(thin) () -> @owned Optional<SomeClass>
  // CHECK: [[C1:%[0-9]+]] = apply

  // This should become an initialization.
  store_weak %4 to %c : $*@sil_weak Optional<SomeClass>
  // CHECK-NEXT: store_weak [[C1]] to [initialization] %1

  destroy_value %4 : $Optional<SomeClass>
  // CHECK-NEXT: destroy_value [[C1]]

  %8 = apply %f() : $@convention(thin) () -> @owned Optional<SomeClass>
  // CHECK-NEXT: [[C2:%[0-9]+]] = apply

  store_weak %8 to %c : $*@sil_weak Optional<SomeClass>
  // CHECK-NEXT: store_weak [[C2]] to %1

  destroy_value %8 : $Optional<SomeClass>
  // CHECK-NEXT: destroy_value [[C2]]

  destroy_value %b : $<τ_0_0> { var τ_0_0 } <@sil_weak Optional<SomeClass>>

  %11 = tuple ()
  return %11 : $()
}

// CHECK-LABEL: sil [ossa] @assign_test_unowned
sil [ossa] @assign_test_unowned : $@convention(thin) () -> () {
bb0:
  // Assignments of unowned pointer.  The first becomes an initialize, and the
  // second becomes a reassignment.

  %b = alloc_box $<τ_0_0> { var τ_0_0 } <@sil_unowned SomeClass>
  %ba = project_box %b : $<τ_0_0> { var τ_0_0 } <@sil_unowned SomeClass>, 0
  %c = mark_uninitialized [var] %ba : $*@sil_unowned SomeClass

  %f = function_ref @getSomeClass : $@convention(thin) () -> @owned SomeClass

  %4 = apply %f() : $@convention(thin) () -> @owned SomeClass
  // CHECK: [[C1:%[0-9]+]] = apply

  // This should become an initialization.
  %5 = ref_to_unowned %4 : $SomeClass to $@sil_unowned SomeClass
  // CHECK-NEXT: [[C1u:%[0-9]+]] = ref_to_unowned [[C1]]
  %5a = copy_value %5 : $@sil_unowned SomeClass
  // CHECK-NEXT: [[C1u_copy:%.*]] = copy_value [[C1u]]
  assign %5a to %c : $*@sil_unowned SomeClass
  // CHECK-NEXT: assign [[C1u_copy]] to [init]
  destroy_value %4 : $SomeClass
  // CHECK-NEXT: destroy_value [[C1]]

  %8 = apply %f() : $@convention(thin) () -> @owned SomeClass
  // CHECK-NEXT: [[C2:%[0-9]+]] = apply

  %9 = ref_to_unowned %8 : $SomeClass to $@sil_unowned SomeClass
  // CHECK: [[C2u:%[0-9]+]] = ref_to_unowned [[C2]]

  %9a = copy_value %9 : $@sil_unowned SomeClass
  // CHECK-NEXT: [[C2u_copy:%.*]] = copy_value [[C2u]]

  assign %9a to %c : $*@sil_unowned SomeClass
  // CHECK-NEXT: assign [[C2u_copy]] to [reassign]

  destroy_value %8 : $SomeClass
  // CHECK-NEXT: destroy_value [[C2]]

  destroy_addr %c : $*@sil_unowned SomeClass
  dealloc_box %b : $<τ_0_0> { var τ_0_0 } <@sil_unowned SomeClass>

  %11 = tuple ()
  return %11 : $()
}

struct ContainsNativeObject {
  var x : Int
  var y : Builtin.NativeObject
}

sil [ossa] @test_struct : $@convention(thin) (@inout ContainsNativeObject) -> () {
bb0(%0 : $*ContainsNativeObject):
  %b = alloc_box $<τ_0_0> { var τ_0_0 } <ContainsNativeObject>
  %ba = project_box %b : $<τ_0_0> { var τ_0_0 } <ContainsNativeObject>, 0
  %c = mark_uninitialized [var] %ba : $*ContainsNativeObject
  %1 = load [copy] %0 : $*ContainsNativeObject
  assign %1 to %c : $*ContainsNativeObject

  destroy_value %b : $<τ_0_0> { var τ_0_0 } <ContainsNativeObject>
  %x = tuple ()
  return %x : $()
}

// CHECK-LABEL: sil [ossa] @non_box_assign_trivial
// CHECK-NOT: load
// CHECK: assign
// CHECK: return
sil [ossa] @non_box_assign_trivial : $@convention(thin) (@inout Bool, Bool) -> () {
bb0(%0 : $*Bool, %1 : $Bool):
  assign %1 to %0 : $*Bool
  %9 = tuple ()
  return %9 : $()
}

// CHECK-LABEL: sil [ossa] @non_box_assign
// CHECK-NOT: load
// CHECK: assign
// CHECK: return
sil [ossa] @non_box_assign : $@convention(thin) (@inout SomeClass, @owned SomeClass) -> () {
bb0(%0 : $*SomeClass, %1 : @owned $SomeClass):
  assign %1 to %0 : $*SomeClass
  %9 = tuple ()
  return %9 : $()
}

sil_global @int_global : $Int

// CHECK-LABEL: sil [ossa] @test_tlc
// CHECK-NOT: mark_uninitialized
// CHECK: return
sil [ossa] @test_tlc : $() -> () {
  %0 = global_addr @int_global : $*Int
  %1 = mark_uninitialized [var] %0 : $*Int
  %9 = tuple ()
  return %9 : $()
}

struct XYStruct { var x, y : Int }
sil [ossa] @init_xy_struct : $@convention(thin) () -> XYStruct

protocol P {}
class C : P {}
sil [ossa] @use : $@convention(thin) (@in P) -> ()

// CHECK-LABEL: sil [ossa] @release_not_constructed
sil [ossa] @release_not_constructed : $@convention(thin) () -> () {
bb0:  // CHECK: bb0:
  %3 = alloc_stack $SomeClass
  // CHECK-NEXT: alloc_stack
  %c = mark_uninitialized [var] %3 : $*SomeClass


  // This should get removed.
  destroy_addr %c : $*SomeClass

  dealloc_stack %3 : $*SomeClass
  // CHECK-NEXT: dealloc_stack

   // CHECK-NEXT: tuple ()
  %15 = tuple ()
  return %15 : $()
}

// CHECK-LABEL: sil [ossa] @release_some_constructed
sil [ossa] @release_some_constructed : $@convention(thin) () -> () {
bb0:
  %0 = tuple ()
  %b = alloc_stack $(SomeClass, SomeClass)
  %1 = mark_uninitialized [var] %b : $*(SomeClass, SomeClass)

  %2 = function_ref @getSomeClass : $@convention(thin) () -> @owned SomeClass
  %3 = apply %2() : $@convention(thin) () -> @owned SomeClass
  %4 = tuple_element_addr %1 : $*(SomeClass, SomeClass), 0
  store %3 to [init] %4 : $*SomeClass
  // CHECK: store

  // Only Element #0 should get released.

  // CHECK-NEXT: [[ELT0:%[0-9]+]] = tuple_element_addr {{.*}}, 0
  // CHECK-NEXT: destroy_addr [[ELT0]]
  destroy_addr %1 : $*(SomeClass, SomeClass)

  // CHECK-NEXT: dealloc_stack
  dealloc_stack %b : $*(SomeClass, SomeClass)
  %8 = tuple ()
  return %8 : $()
}

// rdar://15379013
// CHECK-LABEL: sil [ossa] @init_existential_with_class
sil [ossa] @init_existential_with_class : $@convention(thin) (@inout C) -> () {
entry(%a : $*C):
  %p = alloc_stack $P
  %b = mark_uninitialized [var] %p : $*P

  %q = init_existential_addr %b : $*P, $C

  // CHECK: copy_addr {{.*}} to [initialization] %2 : $*C
  copy_addr %a to [initialization] %q : $*C
  %u = function_ref @use : $@convention(thin) (@in P) -> ()
  %v = apply %u(%b) : $@convention(thin) (@in P) -> ()
  dealloc_stack %p : $*P
  %z = tuple ()
  return %z : $()
}

// CHECK-LABEL: sil [ossa] @conditional_init
// This test checks conditional destruction logic.  Because the value is only
// initialized on some paths, we need to either hoist up the destroy_addr or
// emit a boolean control value to make sure the value is only destroyed if
//  actually initialized.
sil [ossa] @conditional_init : $@convention(thin) (Bool) -> () {
bb0(%0 : $Bool):
  %2 = alloc_stack $SomeClass
  %3 = mark_uninitialized [var] %2 : $*SomeClass

// CHECK: [[CONTROL:%[0-9]+]] = alloc_stack $Builtin.Int1
// CHECK: [[ZERO:%[0-9]+]] = integer_literal $Builtin.Int1, 0
// CHECK: store [[ZERO]] to [trivial] [[CONTROL]] : $*Builtin.Int1
  %5 = integer_literal $Builtin.Int1, 1
  cond_br %5, bb1, bb2

bb1:
// CHECK: bb1:
// CHECK: function_ref @getSomeClass
// CHECK: [[ONE:%[0-9]+]] = integer_literal $Builtin.Int1, -1
// CHECK: store [[ONE]] to [trivial] [[CONTROL]] : $*Builtin.Int1
  %f = function_ref @getSomeClass : $@convention(thin) () -> @owned SomeClass
  %6 = apply %f() : $@convention(thin) () -> @owned SomeClass
  assign %6 to %3 : $*SomeClass
  br bb2

bb2:
  destroy_addr %3 : $*SomeClass
  dealloc_stack %2 : $*SomeClass
  %14 = tuple ()
  return %14 : $()
}

// CHECK-LABEL: sil [ossa] @conditionalInitOrAssign
sil [ossa] @conditionalInitOrAssign : $@convention(thin) (Builtin.Int1) -> () {
bb0(%0 : $Builtin.Int1):
  // CHECK: [[CONTROL:%[0-9]+]] = alloc_stack $Builtin.Int1
  // CHECK: [[CLASSVAL:%[0-9]+]] = alloc_stack $SomeClass
  // CHECK: integer_literal $Builtin.Int1, 0
  // CHECK: store
  %5 = alloc_stack $SomeClass
  %6 = mark_uninitialized [var] %5 : $*SomeClass
  cond_br %0, bb1, bb2

bb1:
  // CHECK: = function_ref
  %2 = function_ref @getSomeClass : $@convention(thin) () -> @owned SomeClass
  // CHECK-NEXT: [[V1:%[0-9]+]] = apply
  %12 = apply %2() : $@convention(thin) () -> @owned SomeClass

  // This assign will become a simple store, since it is an initialize. This
  // updates the control variable to say that it is initialized.
  // CHECK: integer_literal $Builtin.Int1, -1
  // CHECK: store {{.*}} to [trivial] [[CONTROL]]
  // CHECK: assign [[V1]] to [init] [[CLASSVAL]]
  assign %12 to %6 : $*SomeClass                // id: %13
  br bb2                                          // id: %14

bb2:
  // CHECK: = function_ref @getSomeClass : $@convention(thin) () -> @owned SomeClass
  %3 = function_ref @getSomeClass : $@convention(thin) () -> @owned SomeClass
  // CHECK-NEXT: [[V2:%[0-9]+]] = apply
  %17 = apply %3() : $@convention(thin) () -> @owned SomeClass

  // This assign is either an initialize or a reassign depending on whether %0 is
  // true or not.  This gets expanded out to a conditional destroy of the value.
  // CHECK:   load [trivial] [[CONTROL]]
  // CHECK:   cond_br
  // CHECK: bb3:
  // CHECK:   destroy_addr [[CLASSVAL]]
  // CHECK:   br bb5
  // CHECK: bb5:
  // CHECK: assign [[V2]] to [init] [[CLASSVAL]]
  assign %17 to %6 : $*SomeClass                // id: %18
  destroy_addr %6 : $*SomeClass                 // id: %19
  dealloc_stack %5 : $*SomeClass // id: %20
  %23 = tuple ()                                  // user: %24
  return %23 : $()                                // id: %24
}
// CHECK: } // end sil function 'conditionalInitOrAssign'

// Make sure that we use a dealloc_box on the path where we do not assign.
//
// CHECK-LABEL: sil [ossa] @conditionalInitOrAssignAllocBox : $@convention(thin) () -> () {
// CHECK: bb0:
// CHECK: [[BOX:%.*]] = alloc_box
//
// CHECK: bb1:
// CHECK:   destroy_value [[BOX]]
// CHECK:   br bb3
//
// CHECK: bb2:
// CHECK:   dealloc_box [[BOX]]
// CHECK:   br bb3
//
// CHECK: bb3:
// CHECK-NEXT: tuple
// CHECK-NEXT: return
// CHECK: } // end sil function 'conditionalInitOrAssignAllocBox'
sil [ossa] @conditionalInitOrAssignAllocBox : $@convention(thin) () -> () {
bb0:
  %box = alloc_box $<τ_0_0> { var τ_0_0 } <SomeClass>
  %5 = project_box %box : $<τ_0_0> { var τ_0_0 } <SomeClass>, 0
  %7 = mark_uninitialized [var] %5 : $*SomeClass
  %2 = function_ref @getSomeClass : $@convention(thin) () -> @owned SomeClass
  cond_br undef, bb1, bb2

// Value is stored into box and then destroyed.
bb1:
  %12 = apply %2() : $@convention(thin) () -> @owned SomeClass
  assign %12 to %7 : $*SomeClass
  destroy_value %box : $<τ_0_0> { var τ_0_0 } <SomeClass>
  br bb3

bb2:
  destroy_value %box : $<τ_0_0> { var τ_0_0 } <SomeClass>
  br bb3

bb3:
  %9999 = tuple()
  return %9999 : $()
}

// LLDB uses mark_uninitialized [var] in an unsupported way via an address to
// pointer. LLDB shouldn't do this, but until it is removed and validated we
// need a test for this.
// CHECK-LABEL: sil [ossa] @lldb_unsupported_markuninitialized_testcase : $@convention(thin) (UnsafeMutablePointer<Any>) -> () {
// CHECK-NOT: mark_uninitialized [var]
// CHECK: } // end sil function 'lldb_unsupported_markuninitialized_testcase'
sil [ossa] @lldb_unsupported_markuninitialized_testcase : $@convention(thin) (UnsafeMutablePointer<Any>) -> () {
bb0(%0 : $UnsafeMutablePointer<Any>):
  %2 = struct_extract %0 : $UnsafeMutablePointer<Any>, #UnsafeMutablePointer._rawValue
  %3 = integer_literal $Builtin.Int64, 8
  %4 = index_raw_pointer %2 : $Builtin.RawPointer, %3 : $Builtin.Int64
  %5 = pointer_to_address %4 : $Builtin.RawPointer to [strict] $*Builtin.RawPointer
  %6 = load [trivial] %5 : $*Builtin.RawPointer
  %7 = pointer_to_address %6 : $Builtin.RawPointer to [strict] $*Error
  %8 = mark_uninitialized [var] %7 : $*Error
  %9 = struct_extract %0 : $UnsafeMutablePointer<Any>, #UnsafeMutablePointer._rawValue
  %10 = integer_literal $Builtin.Int64, 0
  %11 = index_raw_pointer %9 : $Builtin.RawPointer, %10 : $Builtin.Int64
  %12 = pointer_to_address %11 : $Builtin.RawPointer to [strict] $*Builtin.RawPointer
  %13 = load [trivial] %12 : $*Builtin.RawPointer
  %14 = pointer_to_address %13 : $Builtin.RawPointer to [strict] $*@thick SomeClass.Type
  %15 = mark_uninitialized [var] %14 : $*@thick SomeClass.Type
  %16 = metatype $@thick SomeClass.Type
  %17 = begin_access [modify] [unsafe] %15 : $*@thick SomeClass.Type
  assign %16 to %17 : $*@thick SomeClass.Type
  end_access %17 : $*@thick SomeClass.Type
  %9999 = tuple()
  return %9999 : $()
}