test/Transforms/FunctionAttrs/nosync.ll - llvm - Git at Google

 ; RUN: opt -functionattrs -S < %s | FileCheck %s --check-prefix=FNATTR
 ; RUN: opt -attributor -attributor-disable=false -S < %s | FileCheck %s --check-prefix=ATTRIBUTOR
 target datalayout = "e-m:e-i64:64-f80:128-n8:16:32:64-S128"

 ; Test cases designed for the nosync function attribute.
 ; FIXME's are used to indicate problems and missing attributes.

 ; struct RT {
 ;   char A;
 ;   int B[10][20];
 ;   char C;
 ; };
 ; struct ST {
 ;   int X;
 ;   double Y;
 ;   struct RT Z;
 ; };
 ;
 ; int *foo(struct ST *s) {
 ;   return &s[1].Z.B[5][13];
 ; }

 ; TEST 1
 ; non-convergent and readnone implies nosync
 %struct.RT = type { i8, [10 x [20 x i32]], i8 }
 %struct.ST = type { i32, double, %struct.RT }

 ; FNATTR: Function Attrs: norecurse nounwind optsize readnone ssp uwtable
 ; FNATTR-NEXT: define nonnull i32* @foo(%struct.ST* readnone %s)
 ; ATTRIBUTOR: Function Attrs: nofree nosync nounwind optsize readnone ssp uwtable
 ; ATTRIBUTOR-NEXT: define nonnull i32* @foo(%struct.ST* %s)
 define i32* @foo(%struct.ST* %s) nounwind uwtable readnone optsize ssp {
 entry:
   %arrayidx = getelementptr inbounds %struct.ST, %struct.ST* %s, i64 1, i32 2, i32 1, i64 5, i64 13
   ret i32* %arrayidx
 }

 ; TEST 2
 ; atomic load with monotonic ordering
 ; int load_monotonic(_Atomic int *num) {
 ;   int n = atomic_load_explicit(num, memory_order_relaxed);
 ;   return n;
 ; }

 ; FNATTR: Function Attrs: nofree norecurse nounwind uwtable
 ; FNATTR-NEXT: define i32 @load_monotonic(i32* nocapture readonly)
 ; ATTRIBUTOR: Function Attrs: nofree norecurse nosync nounwind uwtable
 ; ATTRIBUTOR-NEXT: define i32 @load_monotonic(i32* nocapture readonly)
 define i32 @load_monotonic(i32* nocapture readonly) norecurse nounwind uwtable {
   %2 = load atomic i32, i32* %0 monotonic, align 4
   ret i32 %2
 }


 ; TEST 3
 ; atomic store with monotonic ordering.
 ; void store_monotonic(_Atomic int *num) {
 ;   atomic_load_explicit(num, memory_order_relaxed);
 ; }

 ; FNATTR: Function Attrs: nofree norecurse nounwind uwtable
 ; FNATTR-NEXT: define void @store_monotonic(i32* nocapture)
 ; ATTRIBUTOR: Function Attrs: nofree norecurse nosync nounwind uwtable
 ; ATTRIBUTOR-NEXT: define void @store_monotonic(i32* nocapture)
 define void @store_monotonic(i32* nocapture) norecurse nounwind uwtable {
   store atomic i32 10, i32* %0 monotonic, align 4
   ret void
 }

 ; TEST 4 - negative, should not deduce nosync
 ; atomic load with acquire ordering.
 ; int load_acquire(_Atomic int *num) {
 ;   int n = atomic_load_explicit(num, memory_order_acquire);
 ;   return n;
 ; }

 ; FNATTR: Function Attrs: nofree norecurse nounwind uwtable
 ; FNATTR-NEXT: define i32 @load_acquire(i32* nocapture readonly)
 ; ATTRIBUTOR: Function Attrs: nofree norecurse nounwind uwtable
 ; ATTRIBUTOR-NOT: nosync
 ; ATTRIBUTOR-NEXT: define i32 @load_acquire(i32* nocapture readonly)
 define i32 @load_acquire(i32* nocapture readonly) norecurse nounwind uwtable {
   %2 = load atomic i32, i32* %0 acquire, align 4
   ret i32 %2
 }

 ; TEST 5 - negative, should not deduce nosync
 ; atomic load with release ordering
 ; void load_release(_Atomic int *num) {
 ;   atomic_store_explicit(num, 10, memory_order_release);
 ; }

 ; FNATTR: Function Attrs: nofree norecurse nounwind uwtable
 ; FNATTR-NEXT: define void @load_release(i32* nocapture)
 ; ATTRIBUTOR: Function Attrs: nofree norecurse nounwind uwtable
 ; ATTRIBUTOR-NOT: nosync
 ; ATTRIBUTOR-NEXT: define void @load_release(i32* nocapture)
 define void @load_release(i32* nocapture) norecurse nounwind uwtable {
   store atomic volatile i32 10, i32* %0 release, align 4
   ret void
 }

 ; TEST 6 - negative volatile, relaxed atomic

 ; FNATTR: Function Attrs: nofree norecurse nounwind uwtable
 ; FNATTR-NEXT: define void @load_volatile_release(i32* nocapture)
 ; ATTRIBUTOR: Function Attrs: nofree norecurse nounwind uwtable
 ; ATTRIBUTOR-NOT: nosync
 ; ATTRIBUTOR-NEXT: define void @load_volatile_release(i32* nocapture)
 define void @load_volatile_release(i32* nocapture) norecurse nounwind uwtable {
   store atomic volatile i32 10, i32* %0 release, align 4
   ret void
 }

 ; TEST 7 - negative, should not deduce nosync
 ; volatile store.
 ; void volatile_store(volatile int *num) {
 ;   *num = 14;
 ; }

 ; FNATTR: Function Attrs: nofree norecurse nounwind uwtable
 ; FNATTR-NEXT: define void @volatile_store(i32*)
 ; ATTRIBUTOR: Function Attrs: nofree norecurse nounwind uwtable
 ; ATTRIBUTOR-NOT: nosync
 ; ATTRIBUTOR-NEXT: define void @volatile_store(i32*)
 define void @volatile_store(i32*) norecurse nounwind uwtable {
   store volatile i32 14, i32* %0, align 4
   ret void
 }

 ; TEST 8 - negative, should not deduce nosync
 ; volatile load.
 ; int volatile_load(volatile int *num) {
 ;   int n = *num;
 ;   return n;
 ; }

 ; FNATTR: Function Attrs: nofree norecurse nounwind uwtable
 ; FNATTR-NEXT: define i32 @volatile_load(i32*)
 ; ATTRIBUTOR: Function Attrs: nofree norecurse nounwind uwtable
 ; ATTRIBUTOR-NOT: nosync
 ; ATTRIBUTOR-NEXT: define i32 @volatile_load(i32*)
 define i32 @volatile_load(i32*) norecurse nounwind uwtable {
   %2 = load volatile i32, i32* %0, align 4
   ret i32 %2
 }

 ; TEST 9

 ; FNATTR: Function Attrs: noinline nosync nounwind uwtable
 ; FNATTR-NEXT: declare void @nosync_function()
 ; ATTRIBUTOR: Function Attrs: noinline nosync nounwind uwtable
 ; ATTRIBUTOR-NEXT: declare void @nosync_function()
 declare void @nosync_function() noinline nounwind uwtable nosync

 ; FNATTR: Function Attrs: noinline nounwind uwtable
 ; FNATTR-NEXT: define void @call_nosync_function()
 ; ATTRIBUTOR: Function Attrs: noinline nosync nounwind uwtable
 ; ATTRIBUTOR-next: define void @call_nosync_function()
 define void @call_nosync_function() nounwind uwtable noinline {
   tail call void @nosync_function() noinline nounwind uwtable
   ret void
 }

 ; TEST 10 - negative, should not deduce nosync

 ; FNATTR: Function Attrs: noinline nounwind uwtable
 ; FNATTR-NEXT: declare void @might_sync()
 ; ATTRIBUTOR: Function Attrs: noinline nounwind uwtable
 ; ATTRIBUTOR-NEXT: declare void @might_sync()
 declare void @might_sync() noinline nounwind uwtable

 ; FNATTR: Function Attrs: noinline nounwind uwtable
 ; FNATTR-NEXT: define void @call_might_sync()
 ; ATTRIBUTOR: Function Attrs: noinline nounwind uwtable
 ; ATTRIBUTOR-NOT: nosync
 ; ATTRIBUTOR-NEXT: define void @call_might_sync()
 define void @call_might_sync() nounwind uwtable noinline {
   tail call void @might_sync() noinline nounwind uwtable
   ret void
 }

 ; TEST 11 - negative, should not deduce nosync
 ; volatile operation in same scc. Call volatile_load defined in TEST 8.

 ; FNATTR: Function Attrs: nofree noinline nounwind uwtable
 ; FNATTR-NEXT: define i32 @scc1(i32*)
 ; ATTRIBUTOR: Function Attrs: nofree noinline nounwind uwtable
 ; ATTRIBUTOR-NOT: nosync
 ; ATTRIBUTOR-NEXT: define i32 @scc1(i32*)
 define i32 @scc1(i32*) noinline nounwind uwtable {
   tail call void @scc2(i32* %0);
   %val = tail call i32 @volatile_load(i32* %0);
   ret i32 %val;
 }

 ; FNATTR: Function Attrs: nofree noinline nounwind uwtable
 ; FNATTR-NEXT: define void @scc2(i32*)
 ; ATTRIBUTOR: Function Attrs: nofree noinline nounwind uwtable
 ; ATTRIBUTOR-NOT: nosync
 ; ATTRIBUTOR-NEXT: define void @scc2(i32*)
 define void @scc2(i32*) noinline nounwind uwtable {
   tail call i32 @scc1(i32* %0);
   ret void;
 }

 ; TEST 12 - fences, negative
 ;
 ; void foo1(int *a, std::atomic<bool> flag){
 ;   *a = 100;
 ;   atomic_thread_fence(std::memory_order_release);
 ;   flag.store(true, std::memory_order_relaxed);
 ; }
 ;
 ; void bar(int *a, std::atomic<bool> flag){
 ;   while(!flag.load(std::memory_order_relaxed))
 ;     ;
 ;
 ;   atomic_thread_fence(std::memory_order_acquire);
 ;   int b = *a;
 ; }

 %"struct.std::atomic" = type { %"struct.std::__atomic_base" }
 %"struct.std::__atomic_base" = type { i8 }

 ; FNATTR: Function Attrs: nofree norecurse nounwind
 ; FNATTR-NEXT: define void @foo1(i32* nocapture, %"struct.std::atomic"* nocapture)
 ; ATTRIBUTOR-NOT: nosync
 ; ATTRIBUTOR: define void @foo1(i32*, %"struct.std::atomic"*)
 define void @foo1(i32*, %"struct.std::atomic"*) {
   store i32 100, i32* %0, align 4
   fence release
   %3 = getelementptr inbounds %"struct.std::atomic", %"struct.std::atomic"* %1, i64 0, i32 0, i32 0
   store atomic i8 1, i8* %3 monotonic, align 1
   ret void
 }

 ; FNATTR: Function Attrs: nofree norecurse nounwind
 ; FNATTR-NEXT: define void @bar(i32* nocapture readnone, %"struct.std::atomic"* nocapture readonly)
 ; ATTRIBUTOR-NOT: nosync
 ; ATTRIBUTOR: define void @bar(i32*, %"struct.std::atomic"*)
 define void @bar(i32 *, %"struct.std::atomic"*) {
   %3 = getelementptr inbounds %"struct.std::atomic", %"struct.std::atomic"* %1, i64 0, i32 0, i32 0
   br label %4

 4:                                                ; preds = %4, %2
   %5 = load atomic i8, i8* %3  monotonic, align 1
   %6 = and i8 %5, 1
   %7 = icmp eq i8 %6, 0
   br i1 %7, label %4, label %8

 8:                                                ; preds = %4
   fence acquire
   ret void
 }

 ; TEST 13 - Fence syncscope("singlethread") seq_cst
 ; FNATTR: Function Attrs: nofree norecurse nounwind
 ; FNATTR-NEXT: define void @foo1_singlethread(i32* nocapture, %"struct.std::atomic"* nocapture)
 ; ATTRIBUTOR: Function Attrs: nofree nosync
 ; ATTRIBUTOR: define void @foo1_singlethread(i32*, %"struct.std::atomic"*)
 define void @foo1_singlethread(i32*, %"struct.std::atomic"*) {
   store i32 100, i32* %0, align 4
   fence syncscope("singlethread") release
   %3 = getelementptr inbounds %"struct.std::atomic", %"struct.std::atomic"* %1, i64 0, i32 0, i32 0
   store atomic i8 1, i8* %3 monotonic, align 1
   ret void
 }

 ; FNATTR: Function Attrs: nofree norecurse nounwind
 ; FNATTR-NEXT: define void @bar_singlethread(i32* nocapture readnone, %"struct.std::atomic"* nocapture readonly)
 ; ATTRIBUTOR: Function Attrs: nofree nosync
 ; ATTRIBUTOR: define void @bar_singlethread(i32*, %"struct.std::atomic"*)
 define void @bar_singlethread(i32 *, %"struct.std::atomic"*) {
   %3 = getelementptr inbounds %"struct.std::atomic", %"struct.std::atomic"* %1, i64 0, i32 0, i32 0
   br label %4

 4:                                                ; preds = %4, %2
   %5 = load atomic i8, i8* %3  monotonic, align 1
   %6 = and i8 %5, 1
   %7 = icmp eq i8 %6, 0
   br i1 %7, label %4, label %8

 8:                                                ; preds = %4
   fence syncscope("singlethread") acquire
   ret void
 }

 declare void @llvm.memcpy(i8* %dest, i8* %src, i32 %len, i1 %isvolatile)
 declare void @llvm.memset(i8* %dest, i8 %val, i32 %len, i1 %isvolatile)

 ; TEST 14 - negative, checking volatile intrinsics.

 ; ATTRIBUTOR: Function Attrs: nounwind
 ; ATTRIBUTOR-NOT: nosync
 ; ATTRIBUTOR-NEXT: define i32 @memcpy_volatile(i8* %ptr1, i8* %ptr2)
 define i32 @memcpy_volatile(i8* %ptr1, i8* %ptr2) {
   call void @llvm.memcpy(i8* %ptr1, i8* %ptr2, i32 8, i1 1)
   ret i32 4
 }

 ; TEST 15 - positive, non-volatile intrinsic.

 ; ATTRIBUTOR: Function Attrs: nosync
 ; ATTRIBUTOR-NEXT: define i32 @memset_non_volatile(i8* %ptr1, i8 %val)
 define i32 @memset_non_volatile(i8* %ptr1, i8 %val) {
   call void @llvm.memset(i8* %ptr1, i8 %val, i32 8, i1 0)
   ret i32 4
 }

 ; TEST 16 - negative, inline assembly.

 ; ATTRIBUTOR: define i32 @inline_asm_test(i32 %x)
 define i32 @inline_asm_test(i32 %x) {
   call i32 asm "bswap $0", "=r,r"(i32 %x)
   ret i32 4
 }

 declare void @readnone_test() convergent readnone

 ; ATTRIBUTOR: define void @convergent_readnone()
 ; TEST 17 - negative. Convergent
 define void @convergent_readnone(){
     call void @readnone_test()
     ret void
 }

 ; ATTRIBUTOR: Function Attrs: nounwind
 ; ATTRIBUTOR-NEXT: declare void @llvm.x86.sse2.clflush(i8*)
 declare void @llvm.x86.sse2.clflush(i8*)
 @a = common global i32 0, align 4

 ; TEST 18 - negative. Synchronizing intrinsic

 ; ATTRIBUTOR: Function Attrs: nounwind
 ; ATTRIBUTOR-NOT: nosync
 ; ATTRIBUTOR-NEXT: define void @i_totally_sync()
 define void @i_totally_sync() {
   tail call void @llvm.x86.sse2.clflush(i8* bitcast (i32* @a to i8*))
   ret void
 }

 declare float @llvm.cos(float %val) readnone

 ; TEST 19 - positive, readnone & non-convergent intrinsic.

 ; ATTRIBUTOR: Function Attrs: nosync nounwind
 ; ATTRIBUTOR-NEXT: define i32 @cos_test(float %x)
 define i32 @cos_test(float %x) {
   call float @llvm.cos(float %x)
   ret i32 4
 }
	; RUN: opt -functionattrs -S < %s \| FileCheck %s --check-prefix=FNATTR
	; RUN: opt -attributor -attributor-disable=false -S < %s \| FileCheck %s --check-prefix=ATTRIBUTOR
	target datalayout = "e-m:e-i64:64-f80:128-n8:16:32:64-S128"

	; Test cases designed for the nosync function attribute.
	; FIXME's are used to indicate problems and missing attributes.

	; struct RT {
	; char A;
	; int B[10][20];
	; char C;
	; };
	; struct ST {
	; int X;
	; double Y;
	; struct RT Z;
	; };
	;
	; int foo(struct ST s) {
	; return &s[1].Z.B[5][13];
	; }

	; TEST 1
	; non-convergent and readnone implies nosync
	%struct.RT = type { i8, [10 x [20 x i32]], i8 }
	%struct.ST = type { i32, double, %struct.RT }

	; FNATTR: Function Attrs: norecurse nounwind optsize readnone ssp uwtable
	; FNATTR-NEXT: define nonnull i32* @foo(%struct.ST* readnone %s)
	; ATTRIBUTOR: Function Attrs: nofree nosync nounwind optsize readnone ssp uwtable
	; ATTRIBUTOR-NEXT: define nonnull i32* @foo(%struct.ST* %s)
	define i32* @foo(%struct.ST* %s) nounwind uwtable readnone optsize ssp {
	entry:
	%arrayidx = getelementptr inbounds %struct.ST, %struct.ST* %s, i64 1, i32 2, i32 1, i64 5, i64 13
	ret i32* %arrayidx
	}

	; TEST 2
	; atomic load with monotonic ordering
	; int load_monotonic(_Atomic int *num) {
	; int n = atomic_load_explicit(num, memory_order_relaxed);
	; return n;
	; }

	; FNATTR: Function Attrs: nofree norecurse nounwind uwtable
	; FNATTR-NEXT: define i32 @load_monotonic(i32* nocapture readonly)
	; ATTRIBUTOR: Function Attrs: nofree norecurse nosync nounwind uwtable
	; ATTRIBUTOR-NEXT: define i32 @load_monotonic(i32* nocapture readonly)
	define i32 @load_monotonic(i32* nocapture readonly) norecurse nounwind uwtable {
	%2 = load atomic i32, i32* %0 monotonic, align 4
	ret i32 %2
	}


	; TEST 3
	; atomic store with monotonic ordering.
	; void store_monotonic(_Atomic int *num) {
	; atomic_load_explicit(num, memory_order_relaxed);
	; }

	; FNATTR: Function Attrs: nofree norecurse nounwind uwtable
	; FNATTR-NEXT: define void @store_monotonic(i32* nocapture)
	; ATTRIBUTOR: Function Attrs: nofree norecurse nosync nounwind uwtable
	; ATTRIBUTOR-NEXT: define void @store_monotonic(i32* nocapture)
	define void @store_monotonic(i32* nocapture) norecurse nounwind uwtable {
	store atomic i32 10, i32* %0 monotonic, align 4
	ret void
	}

	; TEST 4 - negative, should not deduce nosync
	; atomic load with acquire ordering.
	; int load_acquire(_Atomic int *num) {
	; int n = atomic_load_explicit(num, memory_order_acquire);
	; return n;
	; }

	; FNATTR: Function Attrs: nofree norecurse nounwind uwtable
	; FNATTR-NEXT: define i32 @load_acquire(i32* nocapture readonly)
	; ATTRIBUTOR: Function Attrs: nofree norecurse nounwind uwtable
	; ATTRIBUTOR-NOT: nosync
	; ATTRIBUTOR-NEXT: define i32 @load_acquire(i32* nocapture readonly)
	define i32 @load_acquire(i32* nocapture readonly) norecurse nounwind uwtable {
	%2 = load atomic i32, i32* %0 acquire, align 4
	ret i32 %2
	}

	; TEST 5 - negative, should not deduce nosync
	; atomic load with release ordering
	; void load_release(_Atomic int *num) {
	; atomic_store_explicit(num, 10, memory_order_release);
	; }

	; FNATTR: Function Attrs: nofree norecurse nounwind uwtable
	; FNATTR-NEXT: define void @load_release(i32* nocapture)
	; ATTRIBUTOR: Function Attrs: nofree norecurse nounwind uwtable
	; ATTRIBUTOR-NOT: nosync
	; ATTRIBUTOR-NEXT: define void @load_release(i32* nocapture)
	define void @load_release(i32* nocapture) norecurse nounwind uwtable {
	store atomic volatile i32 10, i32* %0 release, align 4
	ret void
	}

	; TEST 6 - negative volatile, relaxed atomic

	; FNATTR: Function Attrs: nofree norecurse nounwind uwtable
	; FNATTR-NEXT: define void @load_volatile_release(i32* nocapture)
	; ATTRIBUTOR: Function Attrs: nofree norecurse nounwind uwtable
	; ATTRIBUTOR-NOT: nosync
	; ATTRIBUTOR-NEXT: define void @load_volatile_release(i32* nocapture)
	define void @load_volatile_release(i32* nocapture) norecurse nounwind uwtable {
	store atomic volatile i32 10, i32* %0 release, align 4
	ret void
	}

	; TEST 7 - negative, should not deduce nosync
	; volatile store.
	; void volatile_store(volatile int *num) {
	; *num = 14;
	; }

	; FNATTR: Function Attrs: nofree norecurse nounwind uwtable
	; FNATTR-NEXT: define void @volatile_store(i32*)
	; ATTRIBUTOR: Function Attrs: nofree norecurse nounwind uwtable
	; ATTRIBUTOR-NOT: nosync
	; ATTRIBUTOR-NEXT: define void @volatile_store(i32*)
	define void @volatile_store(i32*) norecurse nounwind uwtable {
	store volatile i32 14, i32* %0, align 4
	ret void
	}

	; TEST 8 - negative, should not deduce nosync
	; volatile load.
	; int volatile_load(volatile int *num) {
	; int n = *num;
	; return n;
	; }

	; FNATTR: Function Attrs: nofree norecurse nounwind uwtable
	; FNATTR-NEXT: define i32 @volatile_load(i32*)
	; ATTRIBUTOR: Function Attrs: nofree norecurse nounwind uwtable
	; ATTRIBUTOR-NOT: nosync
	; ATTRIBUTOR-NEXT: define i32 @volatile_load(i32*)
	define i32 @volatile_load(i32*) norecurse nounwind uwtable {
	%2 = load volatile i32, i32* %0, align 4
	ret i32 %2
	}

	; TEST 9

	; FNATTR: Function Attrs: noinline nosync nounwind uwtable
	; FNATTR-NEXT: declare void @nosync_function()
	; ATTRIBUTOR: Function Attrs: noinline nosync nounwind uwtable
	; ATTRIBUTOR-NEXT: declare void @nosync_function()
	declare void @nosync_function() noinline nounwind uwtable nosync

	; FNATTR: Function Attrs: noinline nounwind uwtable
	; FNATTR-NEXT: define void @call_nosync_function()
	; ATTRIBUTOR: Function Attrs: noinline nosync nounwind uwtable
	; ATTRIBUTOR-next: define void @call_nosync_function()
	define void @call_nosync_function() nounwind uwtable noinline {
	tail call void @nosync_function() noinline nounwind uwtable
	ret void
	}

	; TEST 10 - negative, should not deduce nosync

	; FNATTR: Function Attrs: noinline nounwind uwtable
	; FNATTR-NEXT: declare void @might_sync()
	; ATTRIBUTOR: Function Attrs: noinline nounwind uwtable
	; ATTRIBUTOR-NEXT: declare void @might_sync()
	declare void @might_sync() noinline nounwind uwtable

	; FNATTR: Function Attrs: noinline nounwind uwtable
	; FNATTR-NEXT: define void @call_might_sync()
	; ATTRIBUTOR: Function Attrs: noinline nounwind uwtable
	; ATTRIBUTOR-NOT: nosync
	; ATTRIBUTOR-NEXT: define void @call_might_sync()
	define void @call_might_sync() nounwind uwtable noinline {
	tail call void @might_sync() noinline nounwind uwtable
	ret void
	}

	; TEST 11 - negative, should not deduce nosync
	; volatile operation in same scc. Call volatile_load defined in TEST 8.

	; FNATTR: Function Attrs: nofree noinline nounwind uwtable
	; FNATTR-NEXT: define i32 @scc1(i32*)
	; ATTRIBUTOR: Function Attrs: nofree noinline nounwind uwtable
	; ATTRIBUTOR-NOT: nosync
	; ATTRIBUTOR-NEXT: define i32 @scc1(i32*)
	define i32 @scc1(i32*) noinline nounwind uwtable {
	tail call void @scc2(i32* %0);
	%val = tail call i32 @volatile_load(i32* %0);
	ret i32 %val;
	}

	; FNATTR: Function Attrs: nofree noinline nounwind uwtable
	; FNATTR-NEXT: define void @scc2(i32*)
	; ATTRIBUTOR: Function Attrs: nofree noinline nounwind uwtable
	; ATTRIBUTOR-NOT: nosync
	; ATTRIBUTOR-NEXT: define void @scc2(i32*)
	define void @scc2(i32*) noinline nounwind uwtable {
	tail call i32 @scc1(i32* %0);
	ret void;
	}

	; TEST 12 - fences, negative
	;
	; void foo1(int *a, std::atomic<bool> flag){
	; *a = 100;
	; atomic_thread_fence(std::memory_order_release);
	; flag.store(true, std::memory_order_relaxed);
	; }
	;
	; void bar(int *a, std::atomic<bool> flag){
	; while(!flag.load(std::memory_order_relaxed))
	; ;
	;
	; atomic_thread_fence(std::memory_order_acquire);
	; int b = *a;
	; }

	%"struct.std::atomic" = type { %"struct.std::__atomic_base" }
	%"struct.std::__atomic_base" = type { i8 }

	; FNATTR: Function Attrs: nofree norecurse nounwind
	; FNATTR-NEXT: define void @foo1(i32* nocapture, %"struct.std::atomic"* nocapture)
	; ATTRIBUTOR-NOT: nosync
	; ATTRIBUTOR: define void @foo1(i32, %"struct.std::atomic")
	define void @foo1(i32, %"struct.std::atomic") {
	store i32 100, i32* %0, align 4
	fence release
	%3 = getelementptr inbounds %"struct.std::atomic", %"struct.std::atomic"* %1, i64 0, i32 0, i32 0
	store atomic i8 1, i8* %3 monotonic, align 1
	ret void
	}

	; FNATTR: Function Attrs: nofree norecurse nounwind
	; FNATTR-NEXT: define void @bar(i32* nocapture readnone, %"struct.std::atomic"* nocapture readonly)
	; ATTRIBUTOR-NOT: nosync
	; ATTRIBUTOR: define void @bar(i32, %"struct.std::atomic")
	define void @bar(i32 , %"struct.std::atomic") {
	%3 = getelementptr inbounds %"struct.std::atomic", %"struct.std::atomic"* %1, i64 0, i32 0, i32 0
	br label %4

	4: ; preds = %4, %2
	%5 = load atomic i8, i8* %3 monotonic, align 1
	%6 = and i8 %5, 1
	%7 = icmp eq i8 %6, 0
	br i1 %7, label %4, label %8

	8: ; preds = %4
	fence acquire
	ret void
	}

	; TEST 13 - Fence syncscope("singlethread") seq_cst
	; FNATTR: Function Attrs: nofree norecurse nounwind
	; FNATTR-NEXT: define void @foo1_singlethread(i32* nocapture, %"struct.std::atomic"* nocapture)
	; ATTRIBUTOR: Function Attrs: nofree nosync
	; ATTRIBUTOR: define void @foo1_singlethread(i32, %"struct.std::atomic")
	define void @foo1_singlethread(i32, %"struct.std::atomic") {
	store i32 100, i32* %0, align 4
	fence syncscope("singlethread") release
	%3 = getelementptr inbounds %"struct.std::atomic", %"struct.std::atomic"* %1, i64 0, i32 0, i32 0
	store atomic i8 1, i8* %3 monotonic, align 1
	ret void
	}

	; FNATTR: Function Attrs: nofree norecurse nounwind
	; FNATTR-NEXT: define void @bar_singlethread(i32* nocapture readnone, %"struct.std::atomic"* nocapture readonly)
	; ATTRIBUTOR: Function Attrs: nofree nosync
	; ATTRIBUTOR: define void @bar_singlethread(i32, %"struct.std::atomic")
	define void @bar_singlethread(i32 , %"struct.std::atomic") {
	%3 = getelementptr inbounds %"struct.std::atomic", %"struct.std::atomic"* %1, i64 0, i32 0, i32 0
	br label %4

	4: ; preds = %4, %2
	%5 = load atomic i8, i8* %3 monotonic, align 1
	%6 = and i8 %5, 1
	%7 = icmp eq i8 %6, 0
	br i1 %7, label %4, label %8

	8: ; preds = %4
	fence syncscope("singlethread") acquire
	ret void
	}

	declare void @llvm.memcpy(i8* %dest, i8* %src, i32 %len, i1 %isvolatile)
	declare void @llvm.memset(i8* %dest, i8 %val, i32 %len, i1 %isvolatile)

	; TEST 14 - negative, checking volatile intrinsics.

	; ATTRIBUTOR: Function Attrs: nounwind
	; ATTRIBUTOR-NOT: nosync
	; ATTRIBUTOR-NEXT: define i32 @memcpy_volatile(i8* %ptr1, i8* %ptr2)
	define i32 @memcpy_volatile(i8* %ptr1, i8* %ptr2) {
	call void @llvm.memcpy(i8* %ptr1, i8* %ptr2, i32 8, i1 1)
	ret i32 4
	}

	; TEST 15 - positive, non-volatile intrinsic.

	; ATTRIBUTOR: Function Attrs: nosync
	; ATTRIBUTOR-NEXT: define i32 @memset_non_volatile(i8* %ptr1, i8 %val)
	define i32 @memset_non_volatile(i8* %ptr1, i8 %val) {
	call void @llvm.memset(i8* %ptr1, i8 %val, i32 8, i1 0)
	ret i32 4
	}

	; TEST 16 - negative, inline assembly.

	; ATTRIBUTOR: define i32 @inline_asm_test(i32 %x)
	define i32 @inline_asm_test(i32 %x) {
	call i32 asm "bswap $0", "=r,r"(i32 %x)
	ret i32 4
	}

	declare void @readnone_test() convergent readnone

	; ATTRIBUTOR: define void @convergent_readnone()
	; TEST 17 - negative. Convergent
	define void @convergent_readnone(){
	call void @readnone_test()
	ret void
	}

	; ATTRIBUTOR: Function Attrs: nounwind
	; ATTRIBUTOR-NEXT: declare void @llvm.x86.sse2.clflush(i8*)
	declare void @llvm.x86.sse2.clflush(i8*)
	@a = common global i32 0, align 4

	; TEST 18 - negative. Synchronizing intrinsic

	; ATTRIBUTOR: Function Attrs: nounwind
	; ATTRIBUTOR-NOT: nosync
	; ATTRIBUTOR-NEXT: define void @i_totally_sync()
	define void @i_totally_sync() {
	tail call void @llvm.x86.sse2.clflush(i8* bitcast (i32* @a to i8*))
	ret void
	}

	declare float @llvm.cos(float %val) readnone

	; TEST 19 - positive, readnone & non-convergent intrinsic.

	; ATTRIBUTOR: Function Attrs: nosync nounwind
	; ATTRIBUTOR-NEXT: define i32 @cos_test(float %x)
	define i32 @cos_test(float %x) {
	call float @llvm.cos(float %x)
	ret i32 4
	}