llvm-project/llvm/test/Transforms/EarlyCSE/fence.ll

88 lines
2.7 KiB
LLVM

; RUN: opt -S -early-cse < %s | FileCheck %s
; RUN: opt < %s -S -basicaa -early-cse-memssa | FileCheck %s
; NOTE: This file is testing the current implementation. Some of
; the transforms used as negative tests below would be legal, but
; only if reached through a chain of logic which EarlyCSE is incapable
; of performing. To say it differently, this file tests a conservative
; version of the memory model. If we want to extend EarlyCSE to be more
; aggressive in the future, we may need to relax some of the negative tests.
; We can value forward across the fence since we can (semantically)
; reorder the following load before the fence.
define i32 @test(i32* %addr.i) {
; CHECK-LABEL: @test
; CHECK: store
; CHECK: fence
; CHECK-NOT: load
; CHECK: ret
store i32 5, i32* %addr.i, align 4
fence release
%a = load i32, i32* %addr.i, align 4
ret i32 %a
}
; Same as above
define i32 @test2(i32* noalias %addr.i, i32* noalias %otheraddr) {
; CHECK-LABEL: @test2
; CHECK: load
; CHECK: fence
; CHECK-NOT: load
; CHECK: ret
%a = load i32, i32* %addr.i, align 4
fence release
%a2 = load i32, i32* %addr.i, align 4
%res = sub i32 %a, %a2
ret i32 %a
}
; We can not value forward across an acquire barrier since we might
; be syncronizing with another thread storing to the same variable
; followed by a release fence. If this thread observed the release
; had happened, we must present a consistent view of memory at the
; fence. Note that it would be legal to reorder '%a' after the fence
; and then remove '%a2'. The current implementation doesn't know how
; to do this, but if it learned, this test will need revised.
define i32 @test3(i32* noalias %addr.i, i32* noalias %otheraddr) {
; CHECK-LABEL: @test3
; CHECK: load
; CHECK: fence
; CHECK: load
; CHECK: sub
; CHECK: ret
%a = load i32, i32* %addr.i, align 4
fence acquire
%a2 = load i32, i32* %addr.i, align 4
%res = sub i32 %a, %a2
ret i32 %res
}
; We can not dead store eliminate accross the fence. We could in
; principal reorder the second store above the fence and then DSE either
; store, but this is beyond the simple last-store DSE which EarlyCSE
; implements.
define void @test4(i32* %addr.i) {
; CHECK-LABEL: @test4
; CHECK: store
; CHECK: fence
; CHECK: store
; CHECK: ret
store i32 5, i32* %addr.i, align 4
fence release
store i32 5, i32* %addr.i, align 4
ret void
}
; We *could* DSE across this fence, but don't. No other thread can
; observe the order of the acquire fence and the store.
define void @test5(i32* %addr.i) {
; CHECK-LABEL: @test5
; CHECK: store
; CHECK: fence
; CHECK: store
; CHECK: ret
store i32 5, i32* %addr.i, align 4
fence acquire
store i32 5, i32* %addr.i, align 4
ret void
}