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cse_apply_ossa.sil
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/
cse_apply_ossa.sil
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// RUN: %target-sil-opt -enable-sil-verify-all %s -cse | %FileCheck %s
sil_stage canonical
import Builtin
import Swift
// "return (x + y) + (x + y)"
// make sure we are only calculating x+y once.
// CHECK-LABEL: simply_arith :
// CHECK: builtin
// CHECK: cond_fail
// CHECK: builtin
// CHECK: cond_fail
// CHECK-NOT: builtin
// CHECK-NOT: cond_fail
// CHECK-LABEL:} // end sil function 'simply_arith'
sil [ossa] @simply_arith : $@convention(thin) (Int32, Int32) -> Int32 {
bb0(%0 : $Int32, %1 : $Int32):
debug_value %0 : $Int32, let, name "x"
debug_value %1 : $Int32, let, name "y"
%5 = struct_extract %0 : $Int32, #Int32._value
%6 = struct_extract %1 : $Int32, #Int32._value
%7 = integer_literal $Builtin.Int1, -1
%8 = builtin "sadd_with_overflow_Int32"(%5 : $Builtin.Int32, %6 : $Builtin.Int32, %7 : $Builtin.Int1) : $(Builtin.Int32, Builtin.Int1)
%9 = tuple_extract %8 : $(Builtin.Int32, Builtin.Int1), 0
%10 = tuple_extract %8 : $(Builtin.Int32, Builtin.Int1), 1
cond_fail %10 : $Builtin.Int1
%12 = struct $Int32 (%9 : $Builtin.Int32)
%14 = struct_extract %0 : $Int32, #Int32._value
%15 = struct_extract %1 : $Int32, #Int32._value
%16 = integer_literal $Builtin.Int1, -1
%17 = builtin "sadd_with_overflow_Int32"(%14 : $Builtin.Int32, %15 : $Builtin.Int32, %16 : $Builtin.Int1) : $(Builtin.Int32, Builtin.Int1)
%18 = tuple_extract %17 : $(Builtin.Int32, Builtin.Int1), 0
%19 = tuple_extract %17 : $(Builtin.Int32, Builtin.Int1), 1
cond_fail %19 : $Builtin.Int1
%21 = struct $Int32 (%18 : $Builtin.Int32)
%23 = struct_extract %12 : $Int32, #Int32._value
%24 = struct_extract %21 : $Int32, #Int32._value
%25 = integer_literal $Builtin.Int1, -1
%26 = builtin "sadd_with_overflow_Int32"(%23 : $Builtin.Int32, %24 : $Builtin.Int32, %25 : $Builtin.Int1) : $(Builtin.Int32, Builtin.Int1)
%27 = tuple_extract %26 : $(Builtin.Int32, Builtin.Int1), 0
%28 = tuple_extract %26 : $(Builtin.Int32, Builtin.Int1), 1
cond_fail %28 : $Builtin.Int1
%30 = struct $Int32 (%27 : $Builtin.Int32)
return %30 : $Int32
}
sil [ossa] @readnone : $@convention(thin) (Int64, Int64) -> Int64 {
bb0(%0 : $Int64, %1 : $Int64):
return %0 : $Int64
}
sil_global @gg : $Int64
sil [ossa] @readsome : $@convention(thin) (Int64, Int64) -> Int64 {
bb0(%0 : $Int64, %1 : $Int64):
%g = global_addr @gg : $*Int64
%l = load [trivial] %g : $*Int64
return %l : $Int64
}
struct Storage {
var a: Int64
var b: Int64
var c: Int64
}
class XX {
}
sil_global @ggs : $Storage
sil [ossa] @retain_only : $@convention(thin) () -> @owned XX {
bb0:
%g = global_addr @ggs : $*Storage
%a = address_to_pointer %g : $*Storage to $Builtin.RawPointer
%r = raw_pointer_to_ref %a : $Builtin.RawPointer to $XX
%copy = copy_value %r : $XX
return %copy : $XX
}
// CHECK-LABEL: sil [ossa] @cse_readnone_apply :
// CHECK: [[A:%[0-9]+]] = apply
// CHECK: [[S:%[0-9]+]] = struct_extract [[A]]
// CHECK: builtin "sadd_with_overflow_Int64"([[S]] : $Builtin.Int64, [[S]] : $Builtin.Int64
// CHECK-LABEL:} // end sil function 'cse_readnone_apply'
sil [ossa] @cse_readnone_apply : $@convention(thin) (Int64) -> Int64 {
bb0(%0 : $Int64):
%2 = function_ref @readnone : $@convention(thin) (Int64, Int64) -> Int64
%3 = integer_literal $Builtin.Int64, 3
%4 = struct $Int64 (%3 : $Builtin.Int64)
%5 = apply %2(%0, %4) : $@convention(thin) (Int64, Int64) -> Int64
%6 = apply %2(%0, %4) : $@convention(thin) (Int64, Int64) -> Int64
%7 = struct_extract %5 : $Int64, #Int64._value
%8 = struct_extract %6 : $Int64, #Int64._value
%9 = integer_literal $Builtin.Int1, 0
%10 = builtin "sadd_with_overflow_Int64"(%7 : $Builtin.Int64, %8 : $Builtin.Int64, %9 : $Builtin.Int1) : $(Builtin.Int64, Builtin.Int1)
%11 = tuple_extract %10 : $(Builtin.Int64, Builtin.Int1), 0
%14 = struct $Int64 (%11 : $Builtin.Int64)
return %14 : $Int64
}
// CHECK-LABEL: sil [ossa] @dont_cse_readsome_apply :
// CHECK: %{{[0-9]+}} = apply
// CHECK: %{{[0-9]+}} = apply
// CHECK-LABEL:} // end sil function 'dont_cse_readsome_apply'
sil [ossa] @dont_cse_readsome_apply : $@convention(thin) (Int64) -> Int64 {
bb0(%0 : $Int64):
%2 = function_ref @readsome : $@convention(thin) (Int64, Int64) -> Int64
%3 = integer_literal $Builtin.Int64, 3
%4 = struct $Int64 (%3 : $Builtin.Int64)
%5 = apply %2(%0, %4) : $@convention(thin) (Int64, Int64) -> Int64
%6 = apply %2(%0, %4) : $@convention(thin) (Int64, Int64) -> Int64
%7 = struct_extract %5 : $Int64, #Int64._value
%8 = struct_extract %6 : $Int64, #Int64._value
%9 = integer_literal $Builtin.Int1, 0
%10 = builtin "sadd_with_overflow_Int64"(%7 : $Builtin.Int64, %8 : $Builtin.Int64, %9 : $Builtin.Int1) : $(Builtin.Int64, Builtin.Int1)
%11 = tuple_extract %10 : $(Builtin.Int64, Builtin.Int1), 0
%14 = struct $Int64 (%11 : $Builtin.Int64)
return %14 : $Int64
}
// CHECK-LABEL: sil [ossa] @cse_retain_only_apply :
// CHECK: apply
// CHECK-NOT: apply
// CHECK-LABEL:} // end sil function 'cse_retain_only_apply'
sil [ossa] @cse_retain_only_apply : $@convention(thin) () -> () {
bb0:
%f = function_ref @retain_only : $@convention(thin) () -> @owned XX
%a1 = apply %f() : $@convention(thin) () -> @owned XX
%a2 = apply %f() : $@convention(thin) () -> @owned XX
destroy_value %a1 : $XX
destroy_value %a2 : $XX
%r = tuple()
return %r : $()
}
class Klass {
}
sil [ossa] @identity_owned : $@convention(thin) (@owned Klass) -> @owned Klass {
bb0(%0 : @owned $Klass):
return %0 : $Klass
}
// CHECK-LABEL: sil [ossa] @apply_nontrivial_test1 :
// CHECK: apply
// CHECK-NOT: apply
// CHECK-LABEL:} // end sil function 'apply_nontrivial_test1'
sil [ossa] @apply_nontrivial_test1 : $@convention(thin) (@owned Klass) -> () {
bb0(%0 : @owned $Klass):
%copy0 = copy_value %0 : $Klass
%f = function_ref @identity_owned : $@convention(thin) (@owned Klass) -> @owned Klass
%a1 = apply %f(%0) : $@convention(thin) (@owned Klass) -> @owned Klass
%a2 = apply %f(%copy0) : $@convention(thin) (@owned Klass) -> @owned Klass
destroy_value %a1 : $Klass
destroy_value %a2 : $Klass
%r = tuple()
return %r : $()
}
sil [ossa] @identity_guaranteed : $@convention(thin) (@guaranteed Klass) -> @owned Klass {
bb0(%0 : @guaranteed $Klass):
%copy = copy_value %0 : $Klass
return %copy : $Klass
}
// CHECK-LABEL: sil [ossa] @apply_nontrivial_test2 :
// CHECK: apply
// CHECK-NOT: apply
// CHECK-LABEL:} // end sil function 'apply_nontrivial_test2'
sil [ossa] @apply_nontrivial_test2 : $@convention(thin) (@guaranteed Klass) -> () {
bb0(%0 : @guaranteed $Klass):
%f = function_ref @identity_guaranteed : $@convention(thin) (@guaranteed Klass) -> @owned Klass
%a1 = apply %f(%0) : $@convention(thin) (@guaranteed Klass) -> @owned Klass
%a2 = apply %f(%0) : $@convention(thin) (@guaranteed Klass) -> @owned Klass
destroy_value %a1 : $Klass
destroy_value %a2 : $Klass
%r = tuple()
return %r : $()
}
// CHECK-LABEL: sil [ossa] @apply_nontrivial_test3 :
// CHECK: apply
// CHECK-NOT: apply
// CHECK-LABEL:} // end sil function 'apply_nontrivial_test3'
sil [ossa] @apply_nontrivial_test3 : $@convention(thin) (@owned Klass) -> () {
bb0(%0 : @owned $Klass):
%copy0 = copy_value %0 : $Klass
%f = function_ref @identity_owned : $@convention(thin) (@owned Klass) -> @owned Klass
%a2 = apply %f(%copy0) : $@convention(thin) (@owned Klass) -> @owned Klass
%a1 = apply %f(%0) : $@convention(thin) (@owned Klass) -> @owned Klass
destroy_value %a1 : $Klass
destroy_value %a2 : $Klass
%r = tuple()
return %r : $()
}