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swift-mirror/test/SILOptimizer/latecodemotion.sil
Erik Eckstein 7cceaff5f3 SIL: don't print operand types in textual SIL 
Type annotations for instruction operands are omitted, e.g.

```
  %3 = struct $S(%1, %2)
```

Operand types are redundant anyway and were only used for sanity checking in the SIL parser.

But: operand types _are_ printed if the definition of the operand value was not printed yet.
This happens:

* if the block with the definition appears after the block where the operand's instruction is located

* if a block or instruction is printed in isolation, e.g. in a debugger

The old behavior can be restored with `-Xllvm -sil-print-types`.
This option is added to many existing test files which check for operand types in their check-lines.
2024-11-21 18:49:52 +01:00

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// RUN: %target-sil-opt -sil-print-types -enable-sil-verify-all %s -late-codemotion -release-hoisting -retain-sinking | %FileCheck %s
// REQUIRES: swift_in_compiler
import Builtin
import Swift
class B { }
class E : B { }
struct A {
var i : Builtin.Int32
}
enum FakeOptional<T> {
case none
case some(T)
}
class C {}
class C2 {
var current: A
init()
}
enum Either {
case First(Builtin.NativeObject)
case Second(C)
}
enum ThreeCaseEnum {
case A
case B
case C
}
struct S {
var ptr : Builtin.NativeObject
}
enum ThreeCaseAbstractionDifference {
case A(Builtin.Int32)
case B(Builtin.NativeObject)
case C(S)
}
class X {}
sil @user : $@convention(thin) (Builtin.NativeObject) -> ()
sil @use_C2 : $@convention(thin) (C2) -> ()
sil @optional_user : $@convention(thin) (FakeOptional<Builtin.Int32>) -> ()
sil @blocker : $@convention(thin) () -> ()
sil @get_object : $@convention(thin) () -> Builtin.NativeObject
// CHECK-LABEL: sil @sink_from_preds
// CHECK: bb1:
// CHECK-NEXT: br bb3
// CHECK: bb2:
// CHECK-NEXT: br bb3
// CHECK: bb3:
// CHECK: strong_retain
// CHECK: return
sil @sink_from_preds : $@convention(thin) (Builtin.Int1, B) -> () {
bb0(%0 : $Builtin.Int1, %1 : $B):
cond_br %0, bb1, bb2
bb1:
strong_retain %1 : $B
br bb3
bb2:
strong_retain %1 : $B
br bb3
bb3:
%4 = tuple()
return %4 : $()
}
// CHECK-LABEL: sil @sink_from_preds_through_args
// CHECK: bb1:
// CHECK-NEXT: br bb3
// CHECK: bb2:
// CHECK-NEXT: br bb3
// CHECK: bb3([[A:%[0-9]+]] : $B):
// CHECK: strong_retain [[A]]
// CHECK: return
sil @sink_from_preds_through_args : $@convention(thin) (Builtin.Int1, B, B) -> () {
bb0(%0 : $Builtin.Int1, %1 : $B, %2 : $B):
cond_br %0, bb1, bb2
bb1:
strong_retain %1 : $B
br bb3(%1 : $B)
bb2:
strong_retain %2 : $B
br bb3(%2 : $B)
bb3(%a1 : $B):
%t1 = tuple()
return %t1 : $()
}
// CHECK-LABEL: sil @sink_from_preds_not_through_args
// CHECK: bb1:
// CHECK-NEXT: br bb3
// CHECK: bb2:
// CHECK-NEXT: br bb3
// CHECK: bb3({{%[0-9]+}} : $B):
// CHECK: strong_retain %1
// CHECK: return
sil @sink_from_preds_not_through_args : $@convention(thin) (Builtin.Int1, B, B) -> () {
bb0(%0 : $Builtin.Int1, %1 : $B, %2 : $B):
cond_br %0, bb1, bb2
bb1:
strong_retain %1 : $B
br bb3(%1 : $B)
bb2:
strong_retain %1 : $B
br bb3(%2 : $B)
bb3(%a1 : $B):
%t1 = tuple()
return %t1 : $()
}
// CHECK-LABEL: sil @sink_from_preds_through_args2
// CHECK: bb1:
// CHECK-NEXT: br bb3
// CHECK: bb2:
// CHECK-NEXT: br bb3
// CHECK: bb3({{%[0-9]+}} : $B, [[A:%[0-9]+]] : $B):
// CHECK: strong_retain [[A]]
// CHECK: return
sil @sink_from_preds_through_args2 : $@convention(thin) (Builtin.Int1, B, B, B) -> () {
bb0(%0 : $Builtin.Int1, %1 : $B, %2 : $B, %3 : $B):
cond_br %0, bb1, bb2
bb1:
strong_retain %1 : $B
br bb3(%3 : $B, %1 : $B)
bb2:
strong_retain %2 : $B
br bb3(%3 : $B, %2 : $B)
bb3(%a1 : $B, %a2 : $B):
%t1 = tuple()
return %t1 : $()
}
// CHECK-LABEL: sil @do_not_sink_from_preds_through_args
// CHECK: bb1:
// CHECK-NEXT: strong_retain
// CHECK-NEXT: br bb3
// CHECK: bb2:
// CHECK-NEXT: strong_retain
// CHECK-NEXT: br bb3
// CHECK-NOT: strong_retain
// CHECK: return
sil @do_not_sink_from_preds_through_args : $@convention(thin) (Builtin.Int1, B, B, B) -> () {
bb0(%0 : $Builtin.Int1, %1 : $B, %2 : $B, %3 : $B):
cond_br %0, bb1, bb2
bb1:
strong_retain %1 : $B
br bb3(%1 : $B)
bb2:
strong_retain %2 : $B
br bb3(%3 : $B)
bb3(%a1 : $B):
%t1 = tuple()
return %t1 : $()
}
// CHECK-LABEL: sil @do_not_sink_from_preds_through_args2
// CHECK: bb1:
// CHECK-NEXT: strong_retain
// CHECK-NEXT: br bb3
// CHECK: bb2:
// CHECK-NEXT: strong_retain
// CHECK-NEXT: br bb3
// CHECK-NOT: strong_retain
// CHECK: return
sil @do_not_sink_from_preds_through_args2 : $@convention(thin) (Builtin.Int1, B, B, B) -> () {
bb0(%0 : $Builtin.Int1, %1 : $B, %2 : $B, %3 : $B):
cond_br %0, bb1, bb2
bb1:
strong_retain %1 : $B
br bb3(%1 : $B, %3 : $B)
bb2:
strong_retain %2 : $B
br bb3(%3 : $B, %2 : $B)
bb3(%a1 : $B, %a2 : $B):
%t1 = tuple()
return %t1 : $()
}
// CHECK-LABEL: sil @do_not_sink_from_preds_through_args3
// CHECK: bb2:
// CHECK-NEXT: strong_retain
// CHECK-NEXT: br bb5
// CHECK: bb3:
// CHECK-NEXT: strong_retain
// CHECK-NEXT: br bb5
// CHECK: bb4:
// CHECK-NEXT: strong_retain
// CHECK-NEXT: br bb5
// CHECK-NOT: strong_retain
// CHECK: return
sil @do_not_sink_from_preds_through_args3 : $@convention(thin) (Builtin.Int1, B, B) -> () {
bb0(%0 : $Builtin.Int1, %1 : $B, %2 : $B):
cond_br %0, bb1, bb2
bb1:
cond_br %0, bb3, bb4
bb2:
strong_retain %1 : $B
br bb5(%1 : $B)
bb3:
strong_retain %2 : $B
br bb5(%2 : $B)
bb4:
strong_retain %1 : $B
br bb5(%2 : $B)
bb5(%a1 : $B):
%t1 = tuple()
return %t1 : $()
}
// CHECK-LABEL: sil @do_not_sink_from_preds_through_args4
// CHECK: bb2:
// CHECK-NEXT: strong_retain
// CHECK-NEXT: br bb5
// CHECK: bb3:
// CHECK-NEXT: strong_retain
// CHECK-NEXT: br bb5
// CHECK: bb4:
// CHECK-NEXT: strong_retain
// CHECK-NEXT: br bb5
// CHECK-NOT: strong_retain
// CHECK: return
sil @do_not_sink_from_preds_through_args4 : $@convention(thin) (Builtin.Int1, B, B) -> () {
bb0(%0 : $Builtin.Int1, %1 : $B, %2 : $B):
cond_br %0, bb1, bb2
bb1:
cond_br %0, bb3, bb4
bb2:
strong_retain %1 : $B
br bb5(%2 : $B)
bb3:
strong_retain %2 : $B
br bb5(%2 : $B)
bb4:
strong_retain %1 : $B
br bb5(%1 : $B)
bb5(%a1 : $B):
%t1 = tuple()
return %t1 : $()
}
// CHECK-LABEL: sil @do_not_sink_local_uses
// CHECK: integer_literal
// CHECK: integer_literal
// CHECK: return
sil @do_not_sink_local_uses : $@convention(thin) (Builtin.Int1) -> Builtin.Int32 {
bb0(%0 : $Builtin.Int1):
cond_br %0, bb1, bb3
bb1:
%1 = integer_literal $Builtin.Int32, 7
br bb2(%1 : $Builtin.Int32)
bb3:
%2 = integer_literal $Builtin.Int32, 8
br bb2(%2 : $Builtin.Int32)
bb2(%3 : $Builtin.Int32):
return %3 : $Builtin.Int32
}
// CHECK-LABEL: sil @deep_sink1
// CHECK: integer_literal
// CHECK: br bb3
// CHECK: integer_literal
// CHECK: br bb3
// CHECK: bb3
// CHECK: strong_retain
// CHECK-NEXT: return
sil @deep_sink1 : $@convention(thin) (Builtin.Int1, B) -> Builtin.Int32 {
bb0(%0 : $Builtin.Int1, %1 : $B):
cond_br %0, bb1, bb2
bb1:
strong_retain %1 : $B
%3 = integer_literal $Builtin.Int32, 9
br bb3(%3 : $Builtin.Int32)
bb2:
strong_retain %1 : $B
%5 = integer_literal $Builtin.Int32, 7
br bb3(%5 : $Builtin.Int32)
bb3(%6 : $Builtin.Int32):
return %6 : $Builtin.Int32
}
// CHECK-LABEL: sil @deep_sink2
// CHECK-NOT: integer_literal
// CHECK: br bb3
// CHECK-NOT: integer_literal
// CHECK: br bb3
// CHECK: bb3
// CHECK: integer_literal
// CHECK: strong_retain
// CHECK-NEXT: return
sil @deep_sink2 : $@convention(thin) (Builtin.Int1, B) -> Builtin.Int32 {
bb0(%0 : $Builtin.Int1, %1 : $B):
cond_br %0, bb1, bb2
bb1:
strong_retain %1 : $B
%3 = integer_literal $Builtin.Int32, 7
br bb3(%3 : $Builtin.Int32)
bb2:
strong_retain %1 : $B
%5 = integer_literal $Builtin.Int32, 7
br bb3(%5 : $Builtin.Int32)
bb3(%6 : $Builtin.Int32):
return %6 : $Builtin.Int32
}
// CHECK-LABEL: sil @sink_ref_count_ops_enum_over_switch_enum_1 : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
// CHECK: bb0({{.*}}):
// CHECK-NEXT: function_ref blocker
// CHECK-NEXT: function_ref @blocker
// CHECK-NEXT: retain_value
// CHECK-NEXT: apply
// CHECK-NEXT: alloc_stack
// CHECK-NEXT: dealloc_stack
// CHECK-NEXT: switch_enum
// CHECK: bb1({{.*}}):
// CHECK: strong_retain
// CHECK: apply
// CHECK: bb2:
// CHECK-NOT: unchecked_enum_data
// CHECK-NOT: retain_value
// CHECK-NOT: strong_retain
// CHECK: bb3:
// CHECK-NOT: retain_value
// CHECK-NOT: strong_retain
// CHECK-LABEL: } // end sil function 'sink_ref_count_ops_enum_over_switch_enum_1'
sil @sink_ref_count_ops_enum_over_switch_enum_1 : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
bb0(%0 : $FakeOptional<Builtin.NativeObject>):
%1 = function_ref @blocker : $@convention(thin) () -> ()
retain_value %0 : $FakeOptional<Builtin.NativeObject>
apply %1() : $@convention(thin) () -> ()
%3 = alloc_stack $Builtin.Int32
retain_value %0 : $FakeOptional<Builtin.NativeObject>
dealloc_stack %3 : $*Builtin.Int32
switch_enum %0 : $FakeOptional<Builtin.NativeObject>, case #FakeOptional.some!enumelt: bb1, case #FakeOptional.none!enumelt: bb2
bb1(%2 : $Builtin.NativeObject):
apply %1() : $@convention(thin) () -> ()
br bb3
bb2:
br bb3
bb3:
%4 = tuple()
return %4 : $()
}
// This test makes sure that we do move ref counts over instructions that cannot reference it.
// CHECK-LABEL: sil @sink_ref_count_ops_enum_over_switch_enum_4 :
// CHECK: bb0({{%[0-9]+}} : $FakeOptional<Builtin.NativeObject>, [[ARG1:%[0-9]+]] : $FakeOptional<Builtin.NativeObject>):
// CHECK-NOT: retain_value [[ARG1]]
// CHECK: switch_enum
// CHECK: bb1:
// CHECK: retain_value
// CHECK: bb2:
// CHECK-NOT: unchecked_enum_data
// CHECK-NOT: retain_value [[ARG1]]
// CHECK-NOT: strong_retain
// CHECK: bb3:
// CHECK-NOT: unchecked_enum_data
// CHECK-NOT: retain_value [[ARG1]]
// CHECK-NOT: strong_retain
sil @sink_ref_count_ops_enum_over_switch_enum_4 : $@convention(thin) (FakeOptional<Builtin.NativeObject>, FakeOptional<Builtin.NativeObject>) -> FakeOptional<Builtin.NativeObject> {
bb0(%0 : $FakeOptional<Builtin.NativeObject>, %1 : $FakeOptional<Builtin.NativeObject>):
%2 = function_ref @blocker : $@convention(thin) () -> ()
retain_value %1 : $FakeOptional<Builtin.NativeObject>
%3 = alloc_stack $FakeOptional<Builtin.Int32>
retain_value %0 : $FakeOptional<Builtin.NativeObject>
switch_enum %1 : $FakeOptional<Builtin.NativeObject>, case #FakeOptional.some!enumelt: bb1, case #FakeOptional.none!enumelt: bb2
bb1:
apply %2() : $@convention(thin) () -> ()
br bb3
bb2:
br bb3
bb3:
dealloc_stack %3 : $*FakeOptional<Builtin.Int32>
return %1 : $FakeOptional<Builtin.NativeObject>
}
/// This version does not work since we have a release before the terminator
/// even though we have the select_enum before it.
// CHECK-LABEL: sil @sink_ref_count_ops_enum_over_switch_enum_5 : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
// CHECK: bb0({{.*}}):
// CHECK: bb1:
// CHECK-NEXT: function_ref blocker
// CHECK-NEXT: function_ref @blocker
// CHECK-NEXT: alloc_stack
// CHECK-NEXT: dealloc_stack
// CHECK-NEXT: switch_enum
// CHECK: bb2:
// CHECK-NOT: retain_value
// CHECK: bb3:
// CHECK-NOT: retain_value
// CHECK: bb4:
// CHECK-NOT: retain_value
sil @sink_ref_count_ops_enum_over_switch_enum_5 : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
bb0(%0 : $FakeOptional<Builtin.NativeObject>):
br bb10
bb10:
%1 = function_ref @blocker : $@convention(thin) () -> ()
retain_value %0 : $FakeOptional<Builtin.NativeObject>
%3 = alloc_stack $Builtin.Int32
dealloc_stack %3 : $*Builtin.Int32
release_value %0 : $FakeOptional<Builtin.NativeObject>
switch_enum %0 : $FakeOptional<Builtin.NativeObject>, case #FakeOptional.some!enumelt: bb1, case #FakeOptional.none!enumelt: bb2
bb1:
br bb3
bb2:
br bb3
bb3:
%4 = tuple()
return %4 : $()
}
// CHECK-LABEL: sil @sink_ref_count_ops_enum_over_select_enum_1 : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
// CHECK: bb0({{.*}}):
// CHECK-NEXT: integer_literal
// CHECK-NEXT: integer_literal
// CHECK-NEXT: function_ref blocker
// CHECK-NEXT: function_ref @blocker
// CHECK-NEXT: retain_value
// CHECK-NEXT: apply
// CHECK-NEXT: alloc_stack
// CHECK-NEXT: dealloc_stack
// CHECK-NEXT: select_enum
// CHECK-NEXT: cond_br
// CHECK: bb1:
// CHECK: strong_retain
// CHECK-NOT: retain_value
// CHECK: bb2:
// CHECK-NOT: unchecked_enum_data
// CHECK-NOT: retain_value
// CHECK-NOT: strong_retain
// CHECK: bb3:
// CHECK-NOT: retain_value
// CHECK-NOT: strong_retain
sil @sink_ref_count_ops_enum_over_select_enum_1 : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
bb0(%0 : $FakeOptional<Builtin.NativeObject>):
%t = integer_literal $Builtin.Int1, 1
%f = integer_literal $Builtin.Int1, 0
%1 = function_ref @blocker : $@convention(thin) () -> ()
retain_value %0 : $FakeOptional<Builtin.NativeObject>
apply %1() : $@convention(thin) () -> ()
%3 = alloc_stack $Builtin.Int32
retain_value %0 : $FakeOptional<Builtin.NativeObject>
dealloc_stack %3 : $*Builtin.Int32
%100 = select_enum %0 : $FakeOptional<Builtin.NativeObject>, case #FakeOptional.some!enumelt: %t, case #FakeOptional.none!enumelt: %f : $Builtin.Int1
cond_br %100, bb1, bb2
bb1:
apply %1() : $@convention(thin) () -> ()
br bb3
bb2:
br bb3
bb3:
%4 = tuple()
return %4 : $()
}
// CHECK-LABEL: sil @sink_ref_count_ops_enum_over_select_enum_2 : $@convention(thin) (FakeOptional<Builtin.Int32>) -> () {
// CHECK: bb0({{.*}}):
// CHECK-NEXT: integer_literal
// CHECK-NEXT: integer_literal
// CHECK-NEXT: function_ref blocker
// CHECK-NEXT: function_ref @blocker
// CHECK-NEXT: cond_br
// CHECK: bb1:
// CHECK-NEXT: br bb4
// CHECK: bb2:
// CHECK-NEXT: select_enum
// CHECK-NEXT: cond_br
// CHECK-NOT: unchecked_enum_data
// CHECK-NOT: retain_value
// CHECK-LABEL: } // end sil function 'sink_ref_count_ops_enum_over_select_enum_2'
sil @sink_ref_count_ops_enum_over_select_enum_2 : $@convention(thin) (FakeOptional<Builtin.Int32>) -> () {
bb0(%0 : $FakeOptional<Builtin.Int32>):
%t = integer_literal $Builtin.Int1, 1
%f = integer_literal $Builtin.Int1, 0
%1 = function_ref @blocker : $@convention(thin) () -> ()
cond_br undef, bb1, bb2
bb1:
retain_value %0 : $FakeOptional<Builtin.Int32>
%100 = select_enum %0 : $FakeOptional<Builtin.Int32>, case #FakeOptional.some!enumelt: %t, case #FakeOptional.none!enumelt: %f : $Builtin.Int1
cond_br %100, bb2, bb3
bb2:
br bb4
bb3:
br bb4
bb4:
%2 = tuple()
return %2 : $()
}
// CHECK-LABEL: sil @sink_ref_count_ops_enum_over_select_enum_3 : $@convention(thin) (FakeOptional<Builtin.Int32>) -> () {
// CHECK: bb0({{.*}}):
// CHECK-NEXT: integer_literal
// CHECK-NEXT: integer_literal
// CHECK-NEXT: function_ref blocker
// CHECK-NEXT: function_ref @blocker
// CHECK-NEXT: cond_br
// CHECK: bb1:
// CHECK-NEXT: br bb5
// CHECK: bb2:
// CHECK-NEXT: select_enum
// CHECK-NEXT: cond_br
// CHECK-NOT: unchecked_enum_data
// CHECK-NOT: retain_value
// CHECK-LABEL: } // end sil function 'sink_ref_count_ops_enum_over_select_enum_3'
sil @sink_ref_count_ops_enum_over_select_enum_3 : $@convention(thin) (FakeOptional<Builtin.Int32>) -> () {
bb0(%0 : $FakeOptional<Builtin.Int32>):
%t = integer_literal $Builtin.Int1, 1
%f = integer_literal $Builtin.Int1, 0
%1 = function_ref @blocker : $@convention(thin) () -> ()
cond_br undef, bb1, bb3
bb1:
retain_value %0 : $FakeOptional<Builtin.Int32>
%100 = select_enum %0 : $FakeOptional<Builtin.Int32>, case #FakeOptional.some!enumelt: %t, case #FakeOptional.none!enumelt: %f : $Builtin.Int1
cond_br %100, bb2, bb3
bb2:
br bb4
bb3:
br bb4
bb4:
%2 = tuple()
return %2 : $()
}
// CHECK-LABEL: sil @sink_ref_count_ops_enum_over_select_enum_4 : $@convention(thin) (FakeOptional<Builtin.Int32>, FakeOptional<Builtin.NativeObject>) -> FakeOptional<Builtin.NativeObject> {
// CHECK: bb0({{%[0-9]+}} : $FakeOptional<Builtin.Int32>, [[ARG1:%[0-9]+]] : $FakeOptional<Builtin.NativeObject>):
// CHECK-NOT: retain_value [[ARG1]]
// CHECK: select_enum
// CHECK: cond_br
// CHECK: bb1:
// CHECK: strong_retain
// CHECK: bb2:
// CHECK-NOT: unchecked_enum_data
// CHECK-NOT: retain_value [[ARG1]]
// CHECK: bb3:
// CHECK-NOT: unchecked_enum_data
// CHECK-NOT: retain_value [[ARG1]]
sil @sink_ref_count_ops_enum_over_select_enum_4 : $@convention(thin) (FakeOptional<Builtin.Int32>, FakeOptional<Builtin.NativeObject>) -> FakeOptional<Builtin.NativeObject> {
bb0(%0 : $FakeOptional<Builtin.Int32>, %1 : $FakeOptional<Builtin.NativeObject>):
%t = integer_literal $Builtin.Int1, 1
%f = integer_literal $Builtin.Int1, 0
%2 = function_ref @blocker : $@convention(thin) () -> ()
retain_value %1 : $FakeOptional<Builtin.NativeObject>
retain_value %0 : $FakeOptional<Builtin.Int32>
%100 = select_enum %1 : $FakeOptional<Builtin.NativeObject>, case #FakeOptional.some!enumelt: %t, case #FakeOptional.none!enumelt: %f : $Builtin.Int1
cond_br %100, bb1, bb2
bb1:
apply %2() : $@convention(thin) () -> ()
br bb3
bb2:
br bb3
bb3:
return %1 : $FakeOptional<Builtin.NativeObject>
}
/// This version does not work since we have a release before the terminator
/// even though we have the select_enum before it.
// CHECK-LABEL: sil @sink_ref_count_ops_enum_over_select_enum_5 : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
// CHECK: bb0({{.*}}):
// CHECK: bb1:
// CHECK-NEXT: function_ref blocker
// CHECK-NEXT: function_ref @blocker
// CHECK-NEXT: alloc_stack
// CHECK-NEXT: dealloc_stack
// CHECK-NEXT: select_enum
// CHECK-NEXT: cond_br
// CHECK: bb2:
// CHECK-NOT: retain_value
// CHECK: bb3:
// CHECK-NOT: retain_value
// CHECK: bb4:
// CHECK-NOT: retain_value
sil @sink_ref_count_ops_enum_over_select_enum_5 : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
bb0(%0 : $FakeOptional<Builtin.NativeObject>):
%t = integer_literal $Builtin.Int1, 1
%f = integer_literal $Builtin.Int1, 0
br bb10
bb10:
%1 = function_ref @blocker : $@convention(thin) () -> ()
retain_value %0 : $FakeOptional<Builtin.NativeObject>
%3 = alloc_stack $Builtin.Int32
dealloc_stack %3 : $*Builtin.Int32
%100 = select_enum %0 : $FakeOptional<Builtin.NativeObject>, case #FakeOptional.some!enumelt: %t, case #FakeOptional.none!enumelt: %f : $Builtin.Int1
release_value %0 : $FakeOptional<Builtin.NativeObject>
cond_br %100, bb1, bb2
bb1:
br bb3
bb2:
br bb3
bb3:
%4 = tuple()
return %4 : $()
}
// Sink the struct instruction
// CHECK-LABEL: sil @sink_struct : $@convention(thin) (FakeOptional<Builtin.Int32>) -> Bool {
// CHECK: bb0({{.*}}):
// CHECK: switch_enum
// CHECK: bb1:
// CHECK: integer_literal $Builtin.Int1, -1
// CHECK: br bb3({{.*}} : $Builtin.Int1)
// CHECK: bb2:
// CHECK: integer_literal $Builtin.Int1, 0
// CHECK: br bb3({{.*}} : $Builtin.Int1)
// CHECK: bb3({{.*}} : $Builtin.Int1):
// CHECK: struct $Bool
// CHECK: return
sil @sink_struct : $@convention(thin) (FakeOptional<Builtin.Int32>) -> Bool {
bb0(%0 : $FakeOptional<Builtin.Int32>):
switch_enum %0 : $FakeOptional<Builtin.Int32>, case #FakeOptional.some!enumelt: bb1, case #FakeOptional.none!enumelt: bb2
bb1:
%6 = integer_literal $Builtin.Int1, -1
%7 = struct $Bool (%6 : $Builtin.Int1)
br bb3(%7 : $Bool)
bb2:
%9 = integer_literal $Builtin.Int1, 0
%10 = struct $Bool (%9 : $Builtin.Int1)
br bb3(%10 : $Bool)
bb3(%12 : $Bool):
return %12 : $Bool
}
// Sink retain down the successors so we can pair up retain with release on the
// fast path.
class Test {
func testing() -> UInt64
}
sil_global @test : $Test
sil_global @x : $UInt64
// CHECK-LABEL: @sink_refcount_to_succs
sil @sink_refcount_to_succs : $@convention(thin) () -> () {
bb0:
%0 = global_addr @test : $*Test
%1 = alloc_ref $Test
store %1 to %0 : $*Test
%7 = global_addr @x : $*UInt64
%8 = integer_literal $Builtin.Int64, 0
%9 = struct $UInt64 (%8 : $Builtin.Int64)
store %9 to %7 : $*UInt64
br bb1
bb1:
// CHECK: bb1:
// CHECK-NOT: strong_retain
%17 = load %0 : $*Test
strong_retain %17 : $Test
%19 = class_method %17 : $Test, #Test.testing : (Test) -> () -> UInt64, $@convention(method) (@guaranteed Test) -> UInt64
%20 = load %7 : $*UInt64
checked_cast_br [exact] Test in %17 : $Test to Test, bb3, bb4
bb2:
// CHECK: bb2:
// CHECK-NOT: strong_retain
%36 = tuple ()
return %36 : $()
bb3(%38 : $Test):
// CHECK: bb3(
// CHECK: strong_retain
// CHECK: strong_release
strong_release %17 : $Test
br bb2
bb4:
// CHECK: bb4:
// CHECK: strong_retain
// CHECK: apply
%65 = apply %19(%17) : $@convention(method) (@guaranteed Test) -> UInt64
br bb2
}
sil @virtual_callee : $@convention(method) (@guaranteed Test) -> UInt64
sil_vtable Test {
#Test.testing: @virtual_callee
}
sil @arc_user : $@convention(thin) () -> ()
// CHECK-LABEL: sil @enum_simplification_test1 : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
// CHECK: bb0
// CHECK-NEXT: tuple
// CHECK-NEXT: return
sil @enum_simplification_test1 : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
bb0(%0 : $FakeOptional<Builtin.NativeObject>):
retain_value %0 : $FakeOptional<Builtin.NativeObject>
release_value %0 : $FakeOptional<Builtin.NativeObject>
%9999 = tuple()
return %9999 : $()
}
// CHECK-LABEL: sil @enum_simplification_test2 : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
// CHECK: bb0
// CHECK-NEXT: unchecked_enum_data
// CHECK-NEXT: tuple
// CHECK-NEXT: return
sil @enum_simplification_test2 : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
bb0(%0 : $FakeOptional<Builtin.NativeObject>):
%1 = unchecked_enum_data %0 : $FakeOptional<Builtin.NativeObject>, #FakeOptional.some!enumelt
retain_value %0 : $FakeOptional<Builtin.NativeObject>
release_value %0 : $FakeOptional<Builtin.NativeObject>
%9999 = tuple()
return %9999 : $()
}
// CHECK-LABEL: sil @enum_simplification_test3 : $@convention(thin) () -> () {
// CHECK: bb0
// CHECK-NEXT: enum
// CHECK-NOT: strong_retain
// CHECK-NOT: strong_release
// CHECK-NEXT: tuple
// CHECK-NEXT: return
sil @enum_simplification_test3 : $@convention(thin) () -> () {
bb0:
%0 = enum $FakeOptional<Builtin.NativeObject>, #FakeOptional.none!enumelt
retain_value %0 : $FakeOptional<Builtin.NativeObject>
release_value %0 : $FakeOptional<Builtin.NativeObject>
%9999 = tuple()
return %9999 : $()
}
// CHECK-LABEL: sil @enum_simplification_test4 : $@convention(thin) () -> () {
// CHECK: bb0
// CHECK-NEXT: get_object
// CHECK-NEXT: function_ref @get_object
// CHECK-NEXT: apply
// CHECK-NEXT: tuple
// CHECK-NEXT: return
sil @enum_simplification_test4 : $@convention(thin) () -> () {
bb0:
%0 = function_ref @get_object : $@convention(thin) () -> Builtin.NativeObject
%1 = apply %0() : $@convention(thin) () -> Builtin.NativeObject
%2 = enum $FakeOptional<Builtin.NativeObject>, #FakeOptional.some!enumelt, %1 : $Builtin.NativeObject
retain_value %2 : $FakeOptional<Builtin.NativeObject>
release_value %2 : $FakeOptional<Builtin.NativeObject>
%9999 = tuple()
return %9999 : $()
}
////////////////
// Loop Tests //
////////////////
// CHECK-LABEL: sil @enum_simplification_test10 : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
// CHECK: bb0([[INPUT:%[0-9]+]] : $FakeOptional<Builtin.NativeObject>):
// CHECK: retain_value [[INPUT]]
// CHECK: retain_value [[INPUT]]
// CHECK: retain_value [[INPUT]]
// CHECK: retain_value [[INPUT]]
sil @enum_simplification_test10 : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
bb0(%0 : $FakeOptional<Builtin.NativeObject>):
switch_enum %0 : $FakeOptional<Builtin.NativeObject>, case #FakeOptional.some!enumelt: bbcase1, case #FakeOptional.none!enumelt: bbcase2
bbcase1:
br bb1
bbcase2:
br bb2
// Single BB Loop
bb1:
retain_value %0 : $FakeOptional<Builtin.NativeObject>
cond_br undef, bb1, bb9999
// Two BB Loop. We can use loop or domination to handle this case. But we don't
// handle it now.
bb2:
retain_value %0 : $FakeOptional<Builtin.NativeObject>
br bb3
bb3:
retain_value %0 : $FakeOptional<Builtin.NativeObject>
cond_br undef, bb2, bb9999
bb9999:
retain_value %0 : $FakeOptional<Builtin.NativeObject>
%9999 = tuple()
return %9999 : $()
}
// Make sure we don't propagate state out of loops.
// CHECK-LABEL: sil @enum_simplification_test11 : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
// CHECK: bb0([[INPUT:%[0-9]+]] : $FakeOptional<Builtin.NativeObject>):
// CHECK: retain_value [[INPUT]]
// CHECK: retain_value [[INPUT]]
sil @enum_simplification_test11 : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
bb0(%0 : $FakeOptional<Builtin.NativeObject>):
switch_enum %0 : $FakeOptional<Builtin.NativeObject>, case #FakeOptional.some!enumelt: bbcase1, case #FakeOptional.none!enumelt: bbcase2
bbcase1:
br bb1
bbcase2:
br bb2
bb1:
retain_value %0 : $FakeOptional<Builtin.NativeObject>
cond_br undef, bb1, bb2
bb2:
retain_value %0 : $FakeOptional<Builtin.NativeObject>
%9999 = tuple()
return %9999 : $()
}
// CHECK-LABEL: sil @enum_simplification_test12 : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
// CHECK: bb1:
// CHECK: release
// CHECK: bb2:
// CHECK-NOT: release
// CHECK: bb3:
// CHECK-NOT: release
sil @enum_simplification_test12 : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
bb0(%0 : $FakeOptional<Builtin.NativeObject>):
switch_enum %0 : $FakeOptional<Builtin.NativeObject>, case #FakeOptional.some!enumelt: bb1, case #FakeOptional.none!enumelt: bb2
bb1:
br bb3
bb2:
br bb3
bb3:
release_value %0 : $FakeOptional<Builtin.NativeObject>
%9999 = tuple()
return %9999 : $()
}
// CHECK-LABEL: sil @enum_simplification_test13 : $@convention(thin) (Either) -> () {
// CHECK: bb0
// CHECK: release_value
// CHECK: bb1:
// CHECK-NOT: strong_release
// CHECK-NOT: release_value
// CHECK: bb2:
// CHECK-NOT: strong_release
// CHECK-NOT: release_value
// CHECK: bb3:
// CHECK-NOT: release_value
sil @enum_simplification_test13 : $@convention(thin) (Either) -> () {
bb0(%0 : $Either):
cond_br undef, bb1, bb2
bb1:
%1 = unchecked_enum_data %0 : $Either, #Either.First!enumelt
br bb3
bb2:
%2 = unchecked_enum_data %0 : $Either, #Either.Second!enumelt
br bb3
bb3:
release_value %0 : $Either
%9999 = tuple()
return %9999 : $()
}
// CHECK-LABEL: sil @enum_simplification_test14 : $@convention(thin) (Either) -> () {
// CHECK: bb0(
// CHECK-NOT: release
// CHECK: bb1:
// CHECK: release
sil @enum_simplification_test14 : $@convention(thin) (Either) -> () {
bb0(%0 : $Either):
%1 = unchecked_enum_data %0 : $Either, #Either.First!enumelt
cond_br undef, bb1, bb2
bb1:
release_value %0 : $Either
br bb3
bb2:
br bb3
bb3:
%9999 = tuple()
return %9999 : $()
}
// CHECK-LABEL: sil @enum_simplification_test15 : $@convention(thin) (Either, ThreeCaseEnum) -> () {
// CHECK: bb1:
// CHECK: release
// CHECK: bb2:
// CHECK-NOT: release
// CHECK: bb3:
// CHECK-NOT: release
sil @enum_simplification_test15 : $@convention(thin) (Either, ThreeCaseEnum) -> () {
bb0(%0 : $Either, %1 : $ThreeCaseEnum):
%2 = unchecked_enum_data %0 : $Either, #Either.First!enumelt
switch_enum %1 : $ThreeCaseEnum, case #ThreeCaseEnum.A!enumelt: bb1,
case #ThreeCaseEnum.B!enumelt: bb2,
case #ThreeCaseEnum.C!enumelt: bb3
bb1:
release_value %0 : $Either
br bb4
bb2:
br bb4
bb3:
br bb4
bb4:
%9999 = tuple()
return %9999 : $()
}
sil @unknown : $@convention(thin) () -> ()
// CHECK-LABEL: sil @enum_simplification_test16 : $@convention(thin) (FakeOptional<C>) -> () {
// CHECK: bb1:
// CHECK-NOT: release
// CHECK: bb2:
// CHECK: release_value
// CHECK: bb3
// CHECK: release
sil @enum_simplification_test16 : $@convention(thin) (FakeOptional<C>) -> () {
bb0(%0 : $FakeOptional<C>):
switch_enum %0 : $FakeOptional<C>,
case #FakeOptional.none!enumelt: bb1,
case #FakeOptional.some!enumelt: bb2
bb1:
br bb3
bb2:
br bb3
bb3:
%2 = integer_literal $Builtin.Word, 2
%3 = integer_literal $Builtin.Word, 3
%4 = integer_literal $Builtin.Int1, 0
%5 = builtin "sadd_with_overflow_Word"(%2 : $Builtin.Word, %3 : $Builtin.Word, %4 : $Builtin.Int1) : $(Builtin.Word, Builtin.Int1)
release_value %0 : $FakeOptional<C>
%9998 = function_ref @unknown : $@convention(thin) () -> ()
apply %9998() : $@convention(thin) () -> ()
release_value %0 : $FakeOptional<C>
%9999 = tuple()
return %9999 : $()
}
// CHECK-LABEL: sil @enum_simplification_abstraction_differences : $@convention(thin) (ThreeCaseAbstractionDifference) -> () {
// CHECK: bb0(
// CHECK-NOT: release
// CHECK: bb1:
// CHECK-NOT: release
// CHECK: bb2:
// CHECK: release_value
// CHECK: bb3:
// CHECK: release_value
// CHECK: bb4:
// CHECK-NOT: release_value
sil @enum_simplification_abstraction_differences : $@convention(thin) (ThreeCaseAbstractionDifference) -> () {
bb0(%0 : $ThreeCaseAbstractionDifference):
switch_enum %0 : $ThreeCaseAbstractionDifference,
case #ThreeCaseAbstractionDifference.A!enumelt: bb1,
case #ThreeCaseAbstractionDifference.B!enumelt: bb2,
case #ThreeCaseAbstractionDifference.C!enumelt: bb3
bb1:
br bb4
bb2:
br bb4
bb3:
br bb4
bb4:
release_value %0 : $ThreeCaseAbstractionDifference
%9999 = tuple()
return %9999 : $()
}
// CHECK-LABEL: sil @sink_retains_out_of_switch_regions : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
// CHECK: bb1:
// CHECK-NOT: retain_value
// CHECK: bb2:
// CHECK-NOT: retain_value
// CHECK: bb3:
// CHECK: retain_value
sil @sink_retains_out_of_switch_regions : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
bb0(%0 : $FakeOptional<Builtin.NativeObject>):
switch_enum %0 : $FakeOptional<Builtin.NativeObject>, case #FakeOptional.some!enumelt: bb1, case #FakeOptional.none!enumelt: bb2
bb1:
retain_value %0 : $FakeOptional<Builtin.NativeObject>
br bb3
bb2:
br bb3
bb3:
%1 = tuple()
return %1 : $()
}
// CHECK-LABEL: sil @sink_retains_through_multiple_switches : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
// CHECK-NOT: retain_value
// CHECK: bb9:
// CHECK: retain_value
sil @sink_retains_through_multiple_switches : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
bb0(%0 : $FakeOptional<Builtin.NativeObject>):
retain_value %0 : $FakeOptional<Builtin.NativeObject>
switch_enum %0 : $FakeOptional<Builtin.NativeObject>, case #FakeOptional.some!enumelt: bb1, case #FakeOptional.none!enumelt: bb2
bb1:
br bb3
bb2:
br bb3
bb3:
switch_enum %0 : $FakeOptional<Builtin.NativeObject>, case #FakeOptional.some!enumelt: bb4, case #FakeOptional.none!enumelt: bb5
bb4:
br bb6
bb5:
br bb6
bb6:
switch_enum %0 : $FakeOptional<Builtin.NativeObject>, case #FakeOptional.some!enumelt: bb7, case #FakeOptional.none!enumelt: bb8
bb7:
br bb9
bb8:
br bb9
bb9:
%1 = tuple()
return %1 : $()
}
// CHECK-LABEL: sil @sink_retains_through_switch_with_body : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
// CHECK-NOT: retain_value
// CHECK: bb5:
// CHECK: retain_value
sil @sink_retains_through_switch_with_body : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
bb0(%0 : $FakeOptional<Builtin.NativeObject>):
retain_value %0 : $FakeOptional<Builtin.NativeObject>
switch_enum %0 : $FakeOptional<Builtin.NativeObject>, case #FakeOptional.some!enumelt: bb1, case #FakeOptional.none!enumelt: bb2
bb1:
br bb3
bb2:
br bb4
bb3:
br bb5
bb4:
br bb5
bb5:
%1 = tuple()
return %1 : $()
}
// Make sure that we blot pointers from the enumbbtoenumbbcaselist map after
// merging predecessors. This ensures that the failure to merge unrelating
// values does not stop sinking out of retain, release regions.
// CHECK-LABEL: sil @enumbbtoenumbbcaselist_invalidation_test : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
// CHECK: bb3:
// CHECK: retain_value
sil @enumbbtoenumbbcaselist_invalidation_test : $@convention(thin) (FakeOptional<Builtin.NativeObject>) -> () {
bb0(%0 : $FakeOptional<Builtin.NativeObject>):
switch_enum %0 : $FakeOptional<Builtin.NativeObject>, case #FakeOptional.some!enumelt: bb1, case #FakeOptional.none!enumelt: bb2
bb1:
retain_value %0 : $FakeOptional<Builtin.NativeObject>
br bb3
bb2:
%1 = enum $FakeOptional<Builtin.NativeObject>, #FakeOptional.none!enumelt
br bb3
bb3:
%2 = tuple()
return %2 : $()
}
class F {}
class G {}
// CHECK-LABEL: sil @cast_consumption
// CHECK: store
// CHECK-NEXT: strong_retain
// CHECK-NEXT: unconditional_checked_cast_addr
// CHECK-NEXT: strong_release
sil @cast_consumption : $@convention(thin) (@owned F) -> () {
bb0(%0 : $F):
%1 = alloc_stack $F
store %0 to %1 : $*F
strong_retain %0 : $F
unconditional_checked_cast_addr F in %1 : $*F to G in %1 : $*F
strong_release %0 : $F
dealloc_stack %1 : $*F
%2 = tuple ()
return %2 : $()
}
// Make sure that is_unique stops code motion.
// CHECK-LABEL: sil @is_unique_stops_codemotion : $@convention(thin) (@inout Builtin.NativeObject) -> () {
// CHECK: bb0([[IN:%[0-9]+]] : $*Builtin.NativeObject):
// CHECK: [[LD:%[0-9]+]] = load [[IN]] : $*Builtin.NativeObject
// CHECK: strong_retain [[LD]] : $Builtin.NativeObject
// CHECK: is_unique [[IN]] : $*Builtin.NativeObject
sil @is_unique_stops_codemotion : $@convention(thin) (@inout Builtin.NativeObject) -> () {
bb0(%0 : $*Builtin.NativeObject):
%1 = load %0 : $*Builtin.NativeObject
strong_retain %1 : $Builtin.NativeObject
is_unique %0 : $*Builtin.NativeObject
%9999 = tuple()
return %9999 : $()
}
sil @no_return_func : $@convention(thin) () -> Never
// Make sure that we do not move retains over noreturn functions.
// CHECK-LABEL: sil @no_return_stops_codemotion : $@convention(thin) (Builtin.NativeObject) -> () {
// CHECK: apply
// CHECK-NEXT: unreachable
sil @no_return_stops_codemotion : $@convention(thin) (Builtin.NativeObject) -> () {
bb0(%0 : $Builtin.NativeObject):
%1 = alloc_ref $C
strong_retain %1 : $C
%9999 = function_ref @no_return_func : $@convention(thin) () -> Never
apply %9999() : $@convention(thin) () -> Never
unreachable
}
// CHECK-LABEL: sil @hoist_release_partially_available_retain
// CHECK: bb0
// CHECK: cond_br undef, bb1, bb2
// CHECK: bb1:
// CHECK-NEXT: br bb3
// CHECK: bb2:
// CHECK: strong_retain
// CHECK: apply
// CHECK: strong_release
// CHECK: br bb3
// CHECK: bb3:
// CHECK-NOT: strong_release
// CHECK: return
sil @hoist_release_partially_available_retain : $@convention(thin) (Builtin.NativeObject, Builtin.NativeObject) -> () {
bb0(%0 : $Builtin.NativeObject, %1: $Builtin.NativeObject):
cond_br undef, bb1, bb2
bb1:
strong_retain %0: $Builtin.NativeObject
br bb3
bb2:
strong_retain %0: $Builtin.NativeObject
%2 = function_ref @blocker : $@convention(thin) () -> ()
apply %2() : $@convention(thin) () -> ()
br bb3
bb3:
strong_release %0: $Builtin.NativeObject
%5 = tuple()
return %5 : $()
}
// Make sure release can be hoisted across memory that do not escape.
// CHECK-LABEL: sil @hoist_release_across_local_memory_use
// CHECK: bb1:
// CHECK-NEXT: br bb3
// CHECK: bb2:
// CHECK: strong_release
// CHECK: br bb3
// CHECK: bb3:
// CHECK-NOT: strong_release
// CHECK: return
sil @hoist_release_across_local_memory_use : $@convention(thin) (Builtin.NativeObject) ->() {
bb0(%0 : $Builtin.NativeObject):
%1 = alloc_stack $A
cond_br undef, bb1, bb2
bb1:
strong_retain %0 : $Builtin.NativeObject
br bb3
bb2:
br bb3
bb3:
%2 = integer_literal $Builtin.Int32, 0
%3 = struct $A (%2 : $Builtin.Int32)
store %3 to %1 : $*A
strong_release %0 : $Builtin.NativeObject
dealloc_stack %1 : $*A
%5 = tuple()
return %5 : $()
}
// Make sure release can not be hoisted across memory that do escape. i.e. the release
// deinit can read or write to the memory.
// CHECK-LABEL: sil @hoist_release_across_escaping_param_memory_use
// CHECK: bb1:
// CHECK-NOT: strong_release
// CHECK: br bb3
// CHECK: bb2:
// CHECK-NOT: strong_release
// CHECK: br bb3
// CHECK: bb3:
// CHECK: store
// CHECK: strong_release
// CHECK: return
sil @hoist_release_across_escaping_param_memory_use : $@convention(thin) (Builtin.NativeObject, C2) ->() {
bb0(%0 : $Builtin.NativeObject, %1 : $C2):
%2 = ref_element_addr %1 : $C2, #C2.current
cond_br undef, bb1, bb2
bb1:
strong_retain %0 : $Builtin.NativeObject
br bb3
bb2:
br bb3
bb3:
%3 = integer_literal $Builtin.Int32, 0
%4 = struct $A (%3 : $Builtin.Int32)
store %4 to %2 : $*A
strong_release %0 : $Builtin.NativeObject
%5 = tuple()
return %5 : $()
}
// Make sure release can not be hoisted across memory that do escape, even though its allocated locally.
// i.e. the release
// deinit can read or write to the memory.
// CHECK-LABEL: sil @hoist_release_across_escaping_local_alloc_memory_use
// CHECK: bb1:
// CHECK-NOT: strong_release
// CHECK: br bb3
// CHECK: bb2:
// CHECK-NOT: strong_release
// CHECK: br bb3
// CHECK: bb3:
// CHECK: store
// CHECK: strong_release
// CHECK: return
sil @hoist_release_across_escaping_local_alloc_memory_use : $@convention(thin) (Builtin.NativeObject) ->() {
bb0(%0 : $Builtin.NativeObject):
%1 = alloc_ref $C2
%2 = ref_element_addr %1 : $C2, #C2.current
cond_br undef, bb1, bb2
bb1:
strong_retain %0 : $Builtin.NativeObject
br bb3
bb2:
br bb3
bb3:
%22 = function_ref @use_C2 : $@convention(thin) (C2) -> ()
%23 = apply %22(%1) : $@convention(thin) (C2) -> ()
%3 = integer_literal $Builtin.Int32, 0
%4 = struct $A (%3 : $Builtin.Int32)
store %4 to %2 : $*A
strong_release %0 : $Builtin.NativeObject
%5 = tuple()
return %5 : $()
}
// CHECK-LABEL: sil @hoist_silargument_release
// CHECK: bb1
// CHECK: strong_retain
// CHECK: apply
// CHECK: strong_release
// CHECK: br
// CHECK: bb2
// CHECK-NEXT: br
// CHECK: bb3
sil @hoist_silargument_release : $@convention(thin) (@owned X, @owned X) -> () {
bb0(%0 : $X, %1 : $X):
cond_br undef, bb1, bb2
bb1:
strong_retain %0 : $X
%5 = function_ref @blocker : $@convention(thin) () -> ()
apply %5() : $@convention(thin) () -> ()
br bb3(%0 : $X)
bb2:
strong_retain %1 : $X
br bb3(%1 : $X)
bb3(%3 : $X):
strong_release %3 : $X
%23 = tuple ()
return %23 : $()
}
// CHECK: sil @dont_hoist_release_across_cast
// CHECK: retain
// CHECK: apply
// CHECK: unconditional_checked_cast
// CHECK: release
sil @dont_hoist_release_across_cast : $@convention(thin) (Builtin.NativeObject, Builtin.NativeObject) -> () {
bb0(%0 : $Builtin.NativeObject, %1: $Builtin.NativeObject):
strong_retain %0: $Builtin.NativeObject
%2 = function_ref @blocker : $@convention(thin) () -> ()
apply %2() : $@convention(thin) () -> ()
%3 = unconditional_checked_cast %0 : $Builtin.NativeObject to B
strong_release %0: $Builtin.NativeObject
%5 = tuple()
return %5 : $()
}
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