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Reverting r171325 & r172363. This was causing a mis-compile on the self-hosted LTO build bots.
Okay, here's how to reproduce the problem: 1) Build a Release (or Release+Asserts) version of clang in the normal way. 2) Using the clang & clang++ binaries from (1), build a Release (or Release+Asserts) version of the same sources, but this time enable LTO --- specify the `-flto' flag on the command line. 3) Run the ARC migrator tests: $ arcmt-test --args -triple x86_64-apple-darwin10 -fsyntax-only -x objective-c++ ./src/tools/clang/test/ARCMT/cxx-rewrite.mm You'll see that the output isn't correct (the whitespace is off). The mis-compile is in the function `RewriteBuffer::RemoveText' in the clang/lib/Rewrite/Core/Rewriter.cpp file. When that function and RewriteRope.cpp are compiled with LTO and the `arcmt-test' executable is regenerated, you'll see the error. When those files are not LTO'ed, then the output of the `arcmt-test' is fine. It is *really* hard to get a testcase out of this. I'll file a PR with what I have currently. --- Reverse-merging r172363 into '.': U include/llvm/Analysis/MemoryBuiltins.h U lib/Analysis/MemoryBuiltins.cpp --- Reverse-merging r171325 into '.': U test/Transforms/InstCombine/objsize.ll G include/llvm/Analysis/MemoryBuiltins.h G lib/Analysis/MemoryBuiltins.cpp git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@172756 91177308-0d34-0410-b5e6-96231b3b80d8
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@ -153,14 +153,12 @@ typedef std::pair<APInt, APInt> SizeOffsetType;
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class ObjectSizeOffsetVisitor
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: public InstVisitor<ObjectSizeOffsetVisitor, SizeOffsetType> {
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typedef DenseMap<const Value*, SizeOffsetType> CacheMapTy;
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const DataLayout *TD;
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const TargetLibraryInfo *TLI;
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bool RoundToAlign;
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unsigned IntTyBits;
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APInt Zero;
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CacheMapTy CacheMap;
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SmallPtrSet<Instruction *, 8> SeenInsts;
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APInt align(APInt Size, uint64_t Align);
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@ -385,23 +385,16 @@ ObjectSizeOffsetVisitor::ObjectSizeOffsetVisitor(const DataLayout *TD,
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SizeOffsetType ObjectSizeOffsetVisitor::compute(Value *V) {
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V = V->stripPointerCasts();
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if (Instruction *I = dyn_cast<Instruction>(V)) {
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// If we have already seen this instruction, bail out. Cycles can happen in
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// unreachable code after constant propagation.
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if (!SeenInsts.insert(I))
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return unknown();
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if (isa<Instruction>(V) || isa<GEPOperator>(V)) {
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// return cached value or insert unknown in cache if size of V was not
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// computed yet in order to avoid recursions in PHis
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std::pair<CacheMapTy::iterator, bool> CacheVal =
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CacheMap.insert(std::make_pair(V, unknown()));
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if (!CacheVal.second)
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return CacheVal.first->second;
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SizeOffsetType Result;
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if (GEPOperator *GEP = dyn_cast<GEPOperator>(V))
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Result = visitGEPOperator(*GEP);
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else
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Result = visit(cast<Instruction>(*V));
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return CacheMap[V] = Result;
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return visitGEPOperator(*GEP);
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return visit(*I);
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}
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if (Argument *A = dyn_cast<Argument>(V))
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return visitArgument(*A);
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if (ConstantPointerNull *P = dyn_cast<ConstantPointerNull>(V))
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@ -415,6 +408,8 @@ SizeOffsetType ObjectSizeOffsetVisitor::compute(Value *V) {
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if (ConstantExpr *CE = dyn_cast<ConstantExpr>(V)) {
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if (CE->getOpcode() == Instruction::IntToPtr)
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return unknown(); // clueless
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if (CE->getOpcode() == Instruction::GetElementPtr)
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return visitGEPOperator(cast<GEPOperator>(*CE));
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}
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DEBUG(dbgs() << "ObjectSizeOffsetVisitor::compute() unhandled value: " << *V
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@ -548,21 +543,9 @@ SizeOffsetType ObjectSizeOffsetVisitor::visitLoadInst(LoadInst&) {
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return unknown();
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}
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SizeOffsetType ObjectSizeOffsetVisitor::visitPHINode(PHINode &PHI) {
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if (PHI.getNumIncomingValues() == 0)
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return unknown();
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SizeOffsetType Ret = compute(PHI.getIncomingValue(0));
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if (!bothKnown(Ret))
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return unknown();
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// verify that all PHI incoming pointers have the same size and offset
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for (unsigned i = 1, e = PHI.getNumIncomingValues(); i != e; ++i) {
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SizeOffsetType EdgeData = compute(PHI.getIncomingValue(i));
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if (!bothKnown(EdgeData) || EdgeData != Ret)
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return unknown();
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}
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return Ret;
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SizeOffsetType ObjectSizeOffsetVisitor::visitPHINode(PHINode&) {
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// too complex to analyze statically.
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return unknown();
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}
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SizeOffsetType ObjectSizeOffsetVisitor::visitSelectInst(SelectInst &I) {
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@ -256,131 +256,3 @@ xpto:
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return:
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ret i32 7
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}
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declare noalias i8* @valloc(i32) nounwind
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; CHECK: @test14
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; CHECK: ret i32 6
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define i32 @test14(i32 %a) nounwind {
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switch i32 %a, label %sw.default [
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i32 1, label %sw.bb
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i32 2, label %sw.bb1
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]
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sw.bb:
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%call = tail call noalias i8* @malloc(i32 6) nounwind
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br label %sw.epilog
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sw.bb1:
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%call2 = tail call noalias i8* @calloc(i32 3, i32 2) nounwind
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br label %sw.epilog
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sw.default:
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%call3 = tail call noalias i8* @valloc(i32 6) nounwind
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br label %sw.epilog
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sw.epilog:
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%b.0 = phi i8* [ %call3, %sw.default ], [ %call2, %sw.bb1 ], [ %call, %sw.bb ]
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%1 = tail call i32 @llvm.objectsize.i32(i8* %b.0, i1 false)
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ret i32 %1
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}
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; CHECK: @test15
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; CHECK: llvm.objectsize
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define i32 @test15(i32 %a) nounwind {
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switch i32 %a, label %sw.default [
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i32 1, label %sw.bb
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i32 2, label %sw.bb1
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]
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sw.bb:
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%call = tail call noalias i8* @malloc(i32 3) nounwind
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br label %sw.epilog
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sw.bb1:
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%call2 = tail call noalias i8* @calloc(i32 2, i32 1) nounwind
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br label %sw.epilog
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sw.default:
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%call3 = tail call noalias i8* @valloc(i32 3) nounwind
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br label %sw.epilog
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sw.epilog:
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%b.0 = phi i8* [ %call3, %sw.default ], [ %call2, %sw.bb1 ], [ %call, %sw.bb ]
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%1 = tail call i32 @llvm.objectsize.i32(i8* %b.0, i1 false)
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ret i32 %1
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}
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; CHECK: @test16
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; CHECK: llvm.objectsize
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define i32 @test16(i8* %a, i32 %n) nounwind {
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%b = alloca [5 x i8], align 1
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%c = alloca [5 x i8], align 1
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switch i32 %n, label %sw.default [
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i32 1, label %sw.bb
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i32 2, label %sw.bb1
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]
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sw.bb:
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%bp = bitcast [5 x i8]* %b to i8*
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br label %sw.epilog
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sw.bb1:
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%cp = bitcast [5 x i8]* %c to i8*
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br label %sw.epilog
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sw.default:
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br label %sw.epilog
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sw.epilog:
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%phi = phi i8* [ %a, %sw.default ], [ %cp, %sw.bb1 ], [ %bp, %sw.bb ]
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%sz = call i32 @llvm.objectsize.i32(i8* %phi, i1 false)
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ret i32 %sz
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}
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; CHECK: @test17
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; CHECK: ret i32 5
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define i32 @test17(i32 %n) nounwind {
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%b = alloca [5 x i8], align 1
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%c = alloca [5 x i8], align 1
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%bp = bitcast [5 x i8]* %b to i8*
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switch i32 %n, label %sw.default [
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i32 1, label %sw.bb
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i32 2, label %sw.bb1
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]
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sw.bb:
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br label %sw.epilog
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sw.bb1:
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%cp = bitcast [5 x i8]* %c to i8*
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br label %sw.epilog
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sw.default:
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br label %sw.epilog
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sw.epilog:
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%phi = phi i8* [ %bp, %sw.default ], [ %cp, %sw.bb1 ], [ %bp, %sw.bb ]
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%sz = call i32 @llvm.objectsize.i32(i8* %phi, i1 false)
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ret i32 %sz
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}
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@globalalias = alias internal [60 x i8]* @a
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; CHECK: @test18
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; CHECK-NEXT: ret i32 60
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define i32 @test18() {
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%bc = bitcast [60 x i8]* @globalalias to i8*
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%1 = call i32 @llvm.objectsize.i32(i8* %bc, i1 false)
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ret i32 %1
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}
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@globalalias2 = alias weak [60 x i8]* @a
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; CHECK: @test19
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; CHECK: llvm.objectsize
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define i32 @test19() {
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%bc = bitcast [60 x i8]* @globalalias2 to i8*
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%1 = call i32 @llvm.objectsize.i32(i8* %bc, i1 false)
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ret i32 %1
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}
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