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No need to get fancy inserting a PHI node when the values are stored in stack

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slots. This fixes a bug where the number of nodes coming into the PHI node may
not equal the number of predecessors. E.g., two or more landingpad instructions
may require a PHI before reaching the eh.exception and eh.selector instructions.

llvm-svn: 139035
This commit is contained in:
Bill Wendling 2011-09-02 21:17:08 +00:00
parent 9cb3b3dd2e
commit e35fdee39e
1 changed files with 13 additions and 41 deletions
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54
lib/VMCore/AutoUpgrade.cpp
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@ -414,12 +414,6 @@ void llvm::UpgradeExceptionHandling(Module *M) {
// This map stores the slots where the exception object and selector value are
// stored within a function.
DenseMap<Function*, std::pair<Value*, Value*> > FnToLPadSlotMap;
// This maps the old intrinsic calls (eh.exception & eh.selector) to the new
// landingpad instruction(s).
DenseMap<std::pair<CallInst*, CallInst*>,
SmallVector<std::pair<Value*, Value*>, 8> > OldExnToNewExnMap;
SmallPtrSet<Instruction*, 32> DeadInsts;
for (DenseMap<InvokeInst*, std::pair<Value*, Value*> >::iterator
I = InvokeToIntrinsicsMap.begin(), E = InvokeToIntrinsicsMap.end();
@ -476,48 +470,26 @@ void llvm::UpgradeExceptionHandling(Module *M) {
TransferClausesToLandingPadInst(LPI, Sel);
OldExnToNewExnMap[std::make_pair(Exn, Sel)].
push_back(std::make_pair(LPExn, LPSel));
DeadInsts.insert(Exn);
DeadInsts.insert(Sel);
}
// Replace the old intrinsic calls with the new (possibly PHI'ed) values.
for (DenseMap<std::pair<CallInst*, CallInst*>,
SmallVector<std::pair<Value*, Value*>, 8> >::iterator
I = OldExnToNewExnMap.begin(), E = OldExnToNewExnMap.end();
// Replace the old intrinsic calls with the values from the landingpad
// instruction(s). These values were stored in allocas for us to use here.
for (DenseMap<InvokeInst*, std::pair<Value*, Value*> >::iterator
I = InvokeToIntrinsicsMap.begin(), E = InvokeToIntrinsicsMap.end();
I != E; ++I) {
std::pair<CallInst*, CallInst*> OldExnSel = I->first;
CallInst *Exn = OldExnSel.first;
CallInst *Sel = OldExnSel.second;
SmallVector<std::pair<Value*, Value*>, 8> &LPExnSel = I->second;
unsigned Size = LPExnSel.size();
Value *LPExn = LPExnSel[0].first;
Value *LPSel = LPExnSel[0].second;
std::pair<Value*, Value*> EHIntrinsics = I->second;
CallInst *Exn = cast<CallInst>(EHIntrinsics.first);
CallInst *Sel = cast<CallInst>(EHIntrinsics.second);
BasicBlock *Parent = Exn->getParent();
if (Size != 1) {
BasicBlock *Parent = Exn->getParent();
IRBuilder<> Builder(Context);
Builder.SetInsertPoint(Parent, Parent->getFirstInsertionPt());
std::pair<Value*,Value*> ExnSelSlots = FnToLPadSlotMap[Parent->getParent()];
PHINode *PN = Builder.CreatePHI(Exn->getType(), Size, "exn.phi");
for (SmallVector<std::pair<Value*, Value*>, 8>::iterator
II = LPExnSel.begin(), IE = LPExnSel.end(); II != IE; ++II)
PN->addIncoming(II->first, cast<Instruction>(II->first)->getParent());
LPExn = PN;
Parent = Sel->getParent();
Builder.SetInsertPoint(Parent, Parent->getFirstInsertionPt());
PN = Builder.CreatePHI(Sel->getType(), Size, "sel.phi");
for (SmallVector<std::pair<Value*, Value*>, 8>::iterator
II = LPExnSel.begin(), IE = LPExnSel.end(); II != IE; ++II)
PN->addIncoming(II->second, cast<Instruction>(II->second)->getParent());
LPSel = PN;
}
IRBuilder<> Builder(Context);
Builder.SetInsertPoint(Parent, Parent->getFirstInsertionPt());
LoadInst *LPExn = Builder.CreateLoad(ExnSelSlots.first, "exn.load");
LoadInst *LPSel = Builder.CreateLoad(ExnSelSlots.second, "sel.load");
Exn->replaceAllUsesWith(LPExn);
Sel->replaceAllUsesWith(LPSel);